| /* |
| * Copyright (c) 1998, 2014, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. Oracle designates this |
| * particular file as subject to the "Classpath" exception as provided |
| * by Oracle in the LICENSE file that accompanied this code. |
| * |
| * This code is distributed in the hope that it will be useful, but WITHOUT |
| * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
| * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| */ |
| /* |
| * |
| * (C) Copyright IBM Corp. 1998-2003 - All Rights Reserved |
| */ |
| |
| package sun.font; |
| |
| import java.awt.Font; |
| import java.awt.Graphics2D; |
| import java.awt.Rectangle; |
| import java.awt.Shape; |
| |
| import java.awt.font.FontRenderContext; |
| import java.awt.font.GlyphJustificationInfo; |
| import java.awt.font.GlyphMetrics; |
| import java.awt.font.LineMetrics; |
| import java.awt.font.TextAttribute; |
| |
| import java.awt.geom.AffineTransform; |
| import java.awt.geom.Point2D; |
| import java.awt.geom.Rectangle2D; |
| |
| import java.util.Map; |
| |
| /** |
| * Default implementation of ExtendedTextLabel. |
| */ |
| |
| // {jbr} I made this class package-private to keep the |
| // Decoration.Label API package-private. |
| |
| /* public */ |
| class ExtendedTextSourceLabel extends ExtendedTextLabel implements Decoration.Label { |
| |
| TextSource source; |
| private Decoration decorator; |
| |
| // caches |
| private Font font; |
| private AffineTransform baseTX; |
| private CoreMetrics cm; |
| |
| Rectangle2D lb; |
| Rectangle2D ab; |
| Rectangle2D vb; |
| Rectangle2D ib; |
| StandardGlyphVector gv; |
| float[] charinfo; |
| |
| /** |
| * Create from a TextSource. |
| */ |
| public ExtendedTextSourceLabel(TextSource source, Decoration decorator) { |
| this.source = source; |
| this.decorator = decorator; |
| finishInit(); |
| } |
| |
| /** |
| * Create from a TextSource, optionally using cached data from oldLabel starting at the offset. |
| * If present oldLabel must have been created from a run of text that includes the text used in |
| * the new label. Start in source corresponds to logical character offset in oldLabel. |
| */ |
| public ExtendedTextSourceLabel(TextSource source, ExtendedTextSourceLabel oldLabel, int offset) { |
| // currently no optimization. |
| this.source = source; |
| this.decorator = oldLabel.decorator; |
| finishInit(); |
| } |
| |
| private void finishInit() { |
| font = source.getFont(); |
| |
| Map<TextAttribute, ?> atts = font.getAttributes(); |
| baseTX = AttributeValues.getBaselineTransform(atts); |
| if (baseTX == null){ |
| cm = source.getCoreMetrics(); |
| } else { |
| AffineTransform charTX = AttributeValues.getCharTransform(atts); |
| if (charTX == null) { |
| charTX = new AffineTransform(); |
| } |
| font = font.deriveFont(charTX); |
| |
| LineMetrics lm = font.getLineMetrics(source.getChars(), source.getStart(), |
| source.getStart() + source.getLength(), source.getFRC()); |
| cm = CoreMetrics.get(lm); |
| } |
| } |
| |
| |
| // TextLabel API |
| |
| public Rectangle2D getLogicalBounds() { |
| return getLogicalBounds(0, 0); |
| } |
| |
| public Rectangle2D getLogicalBounds(float x, float y) { |
| if (lb == null) { |
| lb = createLogicalBounds(); |
| } |
| return new Rectangle2D.Float((float)(lb.getX() + x), |
| (float)(lb.getY() + y), |
| (float)lb.getWidth(), |
| (float)lb.getHeight()); |
| } |
| |
| public float getAdvance() { |
| if (lb == null) { |
| lb = createLogicalBounds(); |
| } |
| return (float)lb.getWidth(); |
| } |
| |
| public Rectangle2D getVisualBounds(float x, float y) { |
| if (vb == null) { |
| vb = decorator.getVisualBounds(this); |
| } |
| return new Rectangle2D.Float((float)(vb.getX() + x), |
| (float)(vb.getY() + y), |
| (float)vb.getWidth(), |
| (float)vb.getHeight()); |
| } |
| |
| public Rectangle2D getAlignBounds(float x, float y) { |
| if (ab == null) { |
| ab = createAlignBounds(); |
| } |
| return new Rectangle2D.Float((float)(ab.getX() + x), |
| (float)(ab.getY() + y), |
| (float)ab.getWidth(), |
| (float)ab.getHeight()); |
| |
| } |
| |
| public Rectangle2D getItalicBounds(float x, float y) { |
| if (ib == null) { |
| ib = createItalicBounds(); |
| } |
| return new Rectangle2D.Float((float)(ib.getX() + x), |
| (float)(ib.getY() + y), |
| (float)ib.getWidth(), |
| (float)ib.getHeight()); |
| |
| } |
| |
| public Rectangle getPixelBounds(FontRenderContext frc, float x, float y) { |
| return getGV().getPixelBounds(frc, x, y); |
| } |
| |
| public boolean isSimple() { |
| return decorator == Decoration.getPlainDecoration() && |
| baseTX == null; |
| } |
| |
| public AffineTransform getBaselineTransform() { |
| return baseTX; // passing internal object, caller must not modify! |
| } |
| |
| public Shape handleGetOutline(float x, float y) { |
| return getGV().getOutline(x, y); |
| } |
| |
| public Shape getOutline(float x, float y) { |
| return decorator.getOutline(this, x, y); |
| } |
| |
| public void handleDraw(Graphics2D g, float x, float y) { |
| g.drawGlyphVector(getGV(), x, y); |
| } |
| |
| public void draw(Graphics2D g, float x, float y) { |
| decorator.drawTextAndDecorations(this, g, x, y); |
| } |
| |
| /** |
| * The logical bounds extends from the origin of the glyphvector to the |
| * position at which a following glyphvector's origin should be placed. |
| * We always assume glyph vectors are rendered from left to right, so |
| * the origin is always to the left. |
| * <p> On a left-to-right run, combining marks and 'ligatured away' |
| * characters are to the right of their base characters. The charinfo |
| * array will record the character positions for these 'missing' characters |
| * as being at the origin+advance of the base glyph, with zero advance. |
| * (This is not necessarily the same as the glyph position, for example, |
| * an umlaut glyph may have a position to the left of this point, it depends |
| * on whether the font was designed so that such glyphs overhang to the left |
| * of their origin, or whether it presumes some kind of kerning to position |
| * the glyphs). Anyway, the left of the bounds is the origin of the first |
| * logical (leftmost) character, and the right is the origin + advance of the |
| * last logical (rightmost) character. |
| * <p> On a right-to-left run, these special characters are to the left |
| * of their base characters. Again, since 'glyph position' has been abstracted |
| * away, we can use the origin of the leftmost character, and the origin + |
| * advance of the rightmost character. |
| * <p> On a mixed run (hindi) we can't rely on the first logical character |
| * being the leftmost character. However we can again rely on the leftmost |
| * character origin and the rightmost character + advance. |
| */ |
| protected Rectangle2D createLogicalBounds() { |
| return getGV().getLogicalBounds(); |
| } |
| |
| public Rectangle2D handleGetVisualBounds() { |
| return getGV().getVisualBounds(); |
| } |
| |
| /** |
| * Like createLogicalBounds except ignore leading and logically trailing white space. |
| * this assumes logically trailing whitespace is also visually trailing. |
| * Whitespace is anything that has a zero visual width, regardless of its advance. |
| * <p> We make the same simplifying assumptions as in createLogicalBounds, namely |
| * that we can rely on the charinfo to shield us from any glyph positioning oddities |
| * in the font that place the glyph for a character at other than the pos + advance |
| * of the character to its left. So we no longer need to skip chars with zero |
| * advance, as their bounds (right and left) are already correct. |
| */ |
| protected Rectangle2D createAlignBounds() { |
| float[] info = getCharinfo(); |
| |
| float al = 0f; |
| float at = -cm.ascent; |
| float aw = 0f; |
| float ah = cm.ascent + cm.descent; |
| |
| if (charinfo == null || charinfo.length == 0) { |
| return new Rectangle2D.Float(al, at, aw, ah); |
| } |
| |
| boolean lineIsLTR = (source.getLayoutFlags() & 0x8) == 0; |
| int rn = info.length - numvals; |
| if (lineIsLTR) { |
| while (rn > 0 && info[rn+visw] == 0) { |
| rn -= numvals; |
| } |
| } |
| |
| if (rn >= 0) { |
| int ln = 0; |
| while (ln < rn && ((info[ln+advx] == 0) || (!lineIsLTR && info[ln+visw] == 0))) { |
| ln += numvals; |
| } |
| |
| al = Math.max(0f, info[ln+posx]); |
| aw = info[rn+posx] + info[rn+advx] - al; |
| } |
| |
| /* |
| boolean lineIsLTR = source.lineIsLTR(); |
| int rn = info.length - numvals; |
| while (rn > 0 && ((info[rn+advx] == 0) || (lineIsLTR && info[rn+visw] == 0))) { |
| rn -= numvals; |
| } |
| |
| if (rn >= 0) { |
| int ln = 0; |
| while (ln < rn && ((info[ln+advx] == 0) || (!lineIsLTR && info[ln+visw] == 0))) { |
| ln += numvals; |
| } |
| |
| al = Math.max(0f, info[ln+posx]); |
| aw = info[rn+posx] + info[rn+advx] - al; |
| } |
| */ |
| |
| return new Rectangle2D.Float(al, at, aw, ah); |
| } |
| |
| public Rectangle2D createItalicBounds() { |
| float ia = cm.italicAngle; |
| |
| Rectangle2D lb = getLogicalBounds(); |
| float l = (float)lb.getMinX(); |
| float t = -cm.ascent; |
| float r = (float)lb.getMaxX(); |
| float b = cm.descent; |
| if (ia != 0) { |
| if (ia > 0) { |
| l -= ia * (b - cm.ssOffset); |
| r -= ia * (t - cm.ssOffset); |
| } else { |
| l -= ia * (t - cm.ssOffset); |
| r -= ia * (b - cm.ssOffset); |
| } |
| } |
| return new Rectangle2D.Float(l, t, r - l, b - t); |
| } |
| |
| private final StandardGlyphVector getGV() { |
| if (gv == null) { |
| gv = createGV(); |
| } |
| |
| return gv; |
| } |
| |
| protected StandardGlyphVector createGV() { |
| FontRenderContext frc = source.getFRC(); |
| int flags = source.getLayoutFlags(); |
| char[] context = source.getChars(); |
| int start = source.getStart(); |
| int length = source.getLength(); |
| |
| GlyphLayout gl = GlyphLayout.get(null); // !!! no custom layout engines |
| gv = gl.layout(font, frc, context, start, length, flags, null); // ??? use textsource |
| GlyphLayout.done(gl); |
| |
| return gv; |
| } |
| |
| // ExtendedTextLabel API |
| |
| private static final int posx = 0, |
| posy = 1, |
| advx = 2, |
| advy = 3, |
| visx = 4, |
| visy = 5, |
| visw = 6, |
| vish = 7; |
| private static final int numvals = 8; |
| |
| public int getNumCharacters() { |
| return source.getLength(); |
| } |
| |
| public CoreMetrics getCoreMetrics() { |
| return cm; |
| } |
| |
| public float getCharX(int index) { |
| validate(index); |
| float[] charinfo = getCharinfo(); |
| int idx = l2v(index) * numvals + posx; |
| if (charinfo == null || idx >= charinfo.length) { |
| return 0f; |
| } else { |
| return charinfo[idx]; |
| } |
| } |
| |
| public float getCharY(int index) { |
| validate(index); |
| float[] charinfo = getCharinfo(); |
| int idx = l2v(index) * numvals + posy; |
| if (charinfo == null || idx >= charinfo.length) { |
| return 0f; |
| } else { |
| return charinfo[idx]; |
| } |
| } |
| |
| public float getCharAdvance(int index) { |
| validate(index); |
| float[] charinfo = getCharinfo(); |
| int idx = l2v(index) * numvals + advx; |
| if (charinfo == null || idx >= charinfo.length) { |
| return 0f; |
| } else { |
| return charinfo[idx]; |
| } |
| } |
| |
| public Rectangle2D handleGetCharVisualBounds(int index) { |
| validate(index); |
| float[] charinfo = getCharinfo(); |
| index = l2v(index) * numvals; |
| if (charinfo == null || (index+vish) >= charinfo.length) { |
| return new Rectangle2D.Float(); |
| } |
| return new Rectangle2D.Float( |
| charinfo[index + visx], |
| charinfo[index + visy], |
| charinfo[index + visw], |
| charinfo[index + vish]); |
| } |
| |
| public Rectangle2D getCharVisualBounds(int index, float x, float y) { |
| |
| Rectangle2D bounds = decorator.getCharVisualBounds(this, index); |
| if (x != 0 || y != 0) { |
| bounds.setRect(bounds.getX()+x, |
| bounds.getY()+y, |
| bounds.getWidth(), |
| bounds.getHeight()); |
| } |
| return bounds; |
| } |
| |
| private void validate(int index) { |
| if (index < 0) { |
| throw new IllegalArgumentException("index " + index + " < 0"); |
| } else if (index >= source.getLength()) { |
| throw new IllegalArgumentException("index " + index + " < " + source.getLength()); |
| } |
| } |
| |
| /* |
| public int hitTestChar(float x, float y) { |
| // !!! return index of char hit, for swing |
| // result is negative for trailing-edge hits |
| // no italics so no problem at margins. |
| // for now, ignore y since we assume horizontal text |
| |
| // find non-combining char origin to right of x |
| float[] charinfo = getCharinfo(); |
| |
| int n = 0; |
| int e = source.getLength(); |
| while (n < e && charinfo[n + advx] != 0 && charinfo[n + posx] > x) { |
| n += numvals; |
| } |
| float rightx = n < e ? charinfo[n+posx] : charinfo[e - numvals + posx] + charinfo[e - numvals + advx]; |
| |
| // find non-combining char to left of that char |
| n -= numvals; |
| while (n >= 0 && charinfo[n+advx] == 0) { |
| n -= numvals; |
| } |
| float leftx = n >= 0 ? charinfo[n+posx] : 0; |
| float lefta = n >= 0 ? charinfo[n+advx] : 0; |
| |
| n /= numvals; |
| |
| boolean left = true; |
| if (x < leftx + lefta / 2f) { |
| // left of prev char |
| } else if (x < (leftx + lefta + rightx) / 2f) { |
| // right of prev char |
| left = false; |
| } else { |
| // left of follow char |
| n += 1; |
| } |
| |
| if ((source.getLayoutFlags() & 0x1) != 0) { |
| n = getNumCharacters() - 1 - n; |
| left = !left; |
| } |
| |
| return left ? n : -n; |
| } |
| */ |
| |
| public int logicalToVisual(int logicalIndex) { |
| validate(logicalIndex); |
| return l2v(logicalIndex); |
| } |
| |
| public int visualToLogical(int visualIndex) { |
| validate(visualIndex); |
| return v2l(visualIndex); |
| } |
| |
| public int getLineBreakIndex(int start, float width) { |
| float[] charinfo = getCharinfo(); |
| int length = source.getLength(); |
| --start; |
| while (width >= 0 && ++start < length) { |
| int cidx = l2v(start) * numvals + advx; |
| if (cidx >= charinfo.length) { |
| break; // layout bailed for some reason |
| } |
| float adv = charinfo[cidx]; |
| width -= adv; |
| } |
| |
| return start; |
| } |
| |
| public float getAdvanceBetween(int start, int limit) { |
| float a = 0f; |
| |
| float[] charinfo = getCharinfo(); |
| --start; |
| while (++start < limit) { |
| int cidx = l2v(start) * numvals + advx; |
| if (cidx >= charinfo.length) { |
| break; // layout bailed for some reason |
| } |
| a += charinfo[cidx]; |
| } |
| |
| return a; |
| } |
| |
| public boolean caretAtOffsetIsValid(int offset) { |
| // REMIND: improve this implementation |
| |
| // Ligature formation can either be done in logical order, |
| // with the ligature glyph logically preceding the null |
| // chars; or in visual order, with the ligature glyph to |
| // the left of the null chars. This method's implementation |
| // must reflect which strategy is used. |
| |
| if (offset == 0 || offset == source.getLength()) { |
| return true; |
| } |
| char c = source.getChars()[source.getStart() + offset]; |
| if (c == '\t' || c == '\n' || c == '\r') { // hack |
| return true; |
| } |
| int v = l2v(offset); |
| |
| // If ligatures are always to the left, do this stuff: |
| //if (!(source.getLayoutFlags() & 0x1) == 0) { |
| // v += 1; |
| // if (v == source.getLength()) { |
| // return true; |
| // } |
| //} |
| |
| int idx = v * numvals + advx; |
| float[] charinfo = getCharinfo(); |
| if (charinfo == null || idx >= charinfo.length) { |
| return false; |
| } else { |
| return charinfo[idx] != 0; |
| } |
| } |
| |
| private final float[] getCharinfo() { |
| if (charinfo == null) { |
| charinfo = createCharinfo(); |
| } |
| return charinfo; |
| } |
| |
| private static final boolean DEBUG = FontUtilities.debugFonts(); |
| /* |
| * This takes the glyph info record obtained from the glyph vector and converts it into a similar record |
| * adjusted to represent character data instead. For economy we don't use glyph info records in this processing. |
| * |
| * Here are some constraints: |
| * - there can be more glyphs than characters (glyph insertion, perhaps based on normalization, has taken place) |
| * - there can be fewer glyphs than characters |
| * Some layout engines may insert 0xffff glyphs for characters ligaturized away, but |
| * not all do, and it cannot be relied upon. |
| * - each glyph maps to a single character, when multiple glyphs exist for a character they all map to it, but |
| * no two characters map to the same glyph |
| * - multiple glyphs mapping to the same character need not be in sequence (thai, tamil have split characters) |
| * - glyphs may be arbitrarily reordered (Indic reorders glyphs) |
| * - all glyphs share the same bidi level |
| * - all glyphs share the same horizontal (or vertical) baseline |
| * - combining marks visually follow their base character in the glyph array-- i.e. in an rtl gv they are |
| * to the left of their base character-- and have zero advance. |
| * |
| * The output maps this to character positions, and therefore caret positions, via the following assumptions: |
| * - zero-advance glyphs do not contribute to the advance of their character (i.e. position is ignored), conversely |
| * if a glyph is to contribute to the advance of its character it must have a non-zero (float) advance |
| * - no carets can appear between a zero width character and its preceding character, where 'preceding' is |
| * defined logically. |
| * - no carets can appear within a split character |
| * - no carets can appear within a local reordering (i.e. Indic reordering, or non-adjacent split characters) |
| * - all characters lie on the same baseline, and it is either horizontal or vertical |
| * - the charinfo is in uniform ltr or rtl order (visual order), since local reorderings and split characters are removed |
| * |
| * The algorithm works in the following way: |
| * 1) we scan the glyphs ltr or rtl based on the bidi run direction |
| * 2) Since the may be fewer glyphs than chars we cannot work in place. |
| * A new array is allocated for output. |
| * a) if the line is ltr, we start writing at position 0 until we finish, there may be leftver space |
| * b) if the line is rtl and 1-1, we start writing at position numChars/glyphs - 1 until we finish at 0 |
| * c) otherwise if we don't finish at 0, we have to copy the data down |
| * 3) we consume clusters in the following way: |
| * a) the first element is always consumed |
| * b) subsequent elements are consumed if: |
| * i) their advance is zero |
| * ii) their character index <= the character index of any character seen in this cluster |
| * iii) the minimum character index seen in this cluster isn't adjacent to the previous cluster |
| * c) character data is written as follows for horizontal lines (x/y and w/h are exchanged on vertical lines) |
| * i) the x position is the position of the leftmost glyph whose advance is not zero |
| * ii)the y position is the baseline |
| * iii) the x advance is the distance to the maximum x + adv of all glyphs whose advance is not zero |
| * iv) the y advance is the baseline |
| * v) vis x,y,w,h tightly encloses the vis x,y,w,h of all the glyphs with nonzero w and h |
| * 4) In the future, we can make some simple optimizations to avoid copying if we know some things: |
| * a) if the mapping is 1-1, unidirectional, and there are no zero-adv glyphs, we just return the glyphinfo |
| * b) if the mapping is 1-1, unidirectional, we just adjust the remaining glyphs to originate at right/left of the base |
| * c) if the mapping is 1-1, we compute the base position and advance as we go, then go back to adjust the remaining glyphs |
| * d) otherwise we keep separate track of the write position as we do (c) since no glyph in the cluster may be in the |
| * position we are writing. |
| * e) most clusters are simply the single base glyph in the same position as its character, so we try to avoid |
| * copying its data unnecessarily. |
| * 5) the glyph vector ought to provide access to these 'global' attributes to enable these optimizations. A single |
| * int with flags set is probably ok, we could also provide accessors for each attribute. This doesn't map to |
| * the GlyphMetrics flags very well, so I won't attempt to keep them similar. It might be useful to add those |
| * in addition to these. |
| * int FLAG_HAS_ZERO_ADVANCE_GLYPHS = 1; // set if there are zero-advance glyphs |
| * int FLAG_HAS_NONUNIFORM_ORDER = 2; // set if some glyphs are rearranged out of character visual order |
| * int FLAG_HAS_SPLIT_CHARACTERS = 4; // set if multiple glyphs per character |
| * int getDescriptionFlags(); // return an int containing the above flags |
| * boolean hasZeroAdvanceGlyphs(); |
| * boolean hasNonuniformOrder(); |
| * boolean hasSplitCharacters(); |
| * The optimized cases in (4) correspond to values 0, 1, 3, and 7 returned by getDescriptionFlags(). |
| */ |
| protected float[] createCharinfo() { |
| StandardGlyphVector gv = getGV(); |
| float[] glyphinfo = null; |
| try { |
| glyphinfo = gv.getGlyphInfo(); |
| } |
| catch (Exception e) { |
| if (DEBUG) { |
| System.err.println(source); |
| e.printStackTrace(); |
| } |
| glyphinfo = new float[gv.getNumGlyphs() * numvals]; |
| } |
| |
| int numGlyphs = gv.getNumGlyphs(); |
| if (numGlyphs == 0) { |
| return glyphinfo; |
| } |
| int[] indices = gv.getGlyphCharIndices(0, numGlyphs, null); |
| float[] charInfo = new float[source.getLength() * numvals]; |
| |
| if (DEBUG) { |
| System.err.println("number of glyphs: " + numGlyphs); |
| System.err.println("glyphinfo.len: " + glyphinfo.length); |
| System.err.println("indices.len: " + indices.length); |
| for (int i = 0; i < numGlyphs; ++i) { |
| System.err.println("g: " + i + |
| " v: " + gv.getGlyphCode(i) + |
| ", x: " + glyphinfo[i*numvals+posx] + |
| ", a: " + glyphinfo[i*numvals+advx] + |
| ", n: " + indices[i]); |
| } |
| } |
| |
| int minIndex = indices[0]; // smallest index seen this cluster |
| int maxIndex = minIndex; // largest index seen this cluster |
| int cp = 0; // character position |
| int cc = 0; |
| int gp = 0; // glyph position |
| int gx = 0; // glyph index (visual) |
| int gxlimit = numGlyphs; // limit of gx, when we reach this we're done |
| int pdelta = numvals; // delta for incrementing positions |
| int xdelta = 1; // delta for incrementing indices |
| |
| boolean rtl = (source.getLayoutFlags() & 0x1) == 1; |
| if (rtl) { |
| minIndex = indices[numGlyphs - 1]; |
| maxIndex = minIndex; |
| cp = charInfo.length - numvals; |
| gp = glyphinfo.length - numvals; |
| gx = numGlyphs - 1; |
| gxlimit = -1; |
| pdelta = -numvals; |
| xdelta = -1; |
| } |
| |
| /* |
| // to support vertical, use 'ixxxx' indices and swap horiz and vertical components |
| if (source.isVertical()) { |
| iposx = posy; |
| iposy = posx; |
| iadvx = advy; |
| iadvy = advx; |
| ivisx = visy; |
| ivisy = visx; |
| ivish = visw; |
| ivisw = vish; |
| } else { |
| // use standard values |
| } |
| */ |
| |
| // use intermediates to reduce array access when we need to |
| float cposl = 0, cposr = 0, cvisl = 0, cvist = 0, cvisr = 0, cvisb = 0; |
| float baseline = 0; |
| |
| while (gx != gxlimit) { |
| // start of new cluster |
| int clusterExtraGlyphs = 0; |
| |
| minIndex = indices[gx]; |
| maxIndex = minIndex; |
| |
| cposl = glyphinfo[gp + posx]; |
| cposr = cposl + glyphinfo[gp + advx]; |
| cvisl = glyphinfo[gp + visx]; |
| cvist = glyphinfo[gp + visy]; |
| cvisr = cvisl + glyphinfo[gp + visw]; |
| cvisb = cvist + glyphinfo[gp + vish]; |
| |
| // advance to next glyph |
| gx += xdelta; |
| gp += pdelta; |
| |
| while (gx != gxlimit && |
| ((glyphinfo[gp + advx] == 0) || |
| (indices[gx] <= maxIndex) || |
| (maxIndex - minIndex > clusterExtraGlyphs))) { |
| |
| ++clusterExtraGlyphs; // have an extra glyph in this cluster |
| if (DEBUG) { |
| System.err.println("gp=" +gp +" adv=" + glyphinfo[gp + advx] + |
| " gx="+ gx+ " i[gx]="+indices[gx] + |
| " clusterExtraGlyphs="+clusterExtraGlyphs); |
| } |
| |
| // adjust advance only if new glyph has non-zero advance |
| float radvx = glyphinfo[gp + advx]; |
| if (radvx != 0) { |
| float rposx = glyphinfo[gp + posx]; |
| cposl = Math.min(cposl, rposx); |
| cposr = Math.max(cposr, rposx + radvx); |
| } |
| |
| // adjust visible bounds only if new glyph has non-empty bounds |
| float rvisw = glyphinfo[gp + visw]; |
| if (rvisw != 0) { |
| float rvisx = glyphinfo[gp + visx]; |
| float rvisy = glyphinfo[gp + visy]; |
| cvisl = Math.min(cvisl, rvisx); |
| cvist = Math.min(cvist, rvisy); |
| cvisr = Math.max(cvisr, rvisx + rvisw); |
| cvisb = Math.max(cvisb, rvisy + glyphinfo[gp + vish]); |
| } |
| |
| // adjust min, max index |
| minIndex = Math.min(minIndex, indices[gx]); |
| maxIndex = Math.max(maxIndex, indices[gx]); |
| |
| // get ready to examine next glyph |
| gx += xdelta; |
| gp += pdelta; |
| } |
| // done with cluster, gx and gp are set for next glyph |
| |
| if (DEBUG) { |
| System.err.println("minIndex = " + minIndex + ", maxIndex = " + maxIndex); |
| } |
| |
| // save adjustments to the base character and do common adjustments. |
| charInfo[cp + posx] = cposl; |
| charInfo[cp + posy] = baseline; |
| charInfo[cp + advx] = cposr - cposl; |
| charInfo[cp + advy] = 0; |
| charInfo[cp + visx] = cvisl; |
| charInfo[cp + visy] = cvist; |
| charInfo[cp + visw] = cvisr - cvisl; |
| charInfo[cp + vish] = cvisb - cvist; |
| cc++; |
| |
| /* We may have consumed multiple glyphs for this char position. |
| * Map those extra consumed glyphs to char positions that would follow |
| * up to the index prior to that which begins the next cluster. |
| * If we have reached the last glyph (reached gxlimit) then we need to |
| * map remaining unmapped chars to the same location as the last one. |
| */ |
| int tgt; |
| if (gx == gxlimit) { |
| tgt = charInfo.length / numvals; |
| } else { |
| tgt = indices[gx]; |
| } |
| if (DEBUG) { |
| System.err.println("gx=" + gx + " gxlimit=" + gxlimit + |
| " charInfo.len=" + charInfo.length + |
| " tgt=" + tgt + " cc=" + cc + " cp=" + cp); |
| } |
| while (cc < tgt) { |
| if (rtl) { |
| // if rtl, characters to left of base, else to right. reuse cposr. |
| cposr = cposl; |
| } |
| cvisr -= cvisl; // reuse, convert to deltas. |
| cvisb -= cvist; |
| |
| cp += pdelta; |
| |
| if (cp < 0 || cp >= charInfo.length) { |
| if (DEBUG) { |
| System.err.println("Error : cp=" + cp + |
| " charInfo.length=" + charInfo.length); |
| } |
| break; |
| } |
| |
| if (DEBUG) { |
| System.err.println("Insert charIndex " + cc + " at pos="+cp); |
| } |
| charInfo[cp + posx] = cposr; |
| charInfo[cp + posy] = baseline; |
| charInfo[cp + advx] = 0; |
| charInfo[cp + advy] = 0; |
| charInfo[cp + visx] = cvisl; |
| charInfo[cp + visy] = cvist; |
| charInfo[cp + visw] = cvisr; |
| charInfo[cp + vish] = cvisb; |
| cc++; |
| } |
| cp += pdelta; // reset for new cluster |
| } |
| |
| if (DEBUG) { |
| char[] chars = source.getChars(); |
| int start = source.getStart(); |
| int length = source.getLength(); |
| System.err.println("char info for " + length + " characters"); |
| |
| for (int i = 0; i < length * numvals;) { |
| System.err.println(" ch: " + Integer.toHexString(chars[start + v2l(i / numvals)]) + |
| " x: " + charInfo[i++] + |
| " y: " + charInfo[i++] + |
| " xa: " + charInfo[i++] + |
| " ya: " + charInfo[i++] + |
| " l: " + charInfo[i++] + |
| " t: " + charInfo[i++] + |
| " w: " + charInfo[i++] + |
| " h: " + charInfo[i++]); |
| } |
| } |
| return charInfo; |
| } |
| |
| /** |
| * Map logical character index to visual character index. |
| * <p> |
| * This ignores hindi reordering. @see createCharinfo |
| */ |
| protected int l2v(int index) { |
| return (source.getLayoutFlags() & 0x1) == 0 ? index : source.getLength() - 1 - index; |
| } |
| |
| /** |
| * Map visual character index to logical character index. |
| * <p> |
| * This ignores hindi reordering. @see createCharinfo |
| */ |
| protected int v2l(int index) { |
| return (source.getLayoutFlags() & 0x1) == 0 ? index : source.getLength() - 1 - index; |
| } |
| |
| public TextLineComponent getSubset(int start, int limit, int dir) { |
| return new ExtendedTextSourceLabel(source.getSubSource(start, limit-start, dir), decorator); |
| } |
| |
| public String toString() { |
| if (true) { |
| return source.toString(TextSource.WITHOUT_CONTEXT); |
| } |
| StringBuilder sb = new StringBuilder(); |
| sb.append(super.toString()); |
| sb.append("[source:"); |
| sb.append(source.toString(TextSource.WITHOUT_CONTEXT)); |
| sb.append(", lb:"); |
| sb.append(lb); |
| sb.append(", ab:"); |
| sb.append(ab); |
| sb.append(", vb:"); |
| sb.append(vb); |
| sb.append(", gv:"); |
| sb.append(gv); |
| sb.append(", ci: "); |
| if (charinfo == null) { |
| sb.append("null"); |
| } else { |
| sb.append(charinfo[0]); |
| for (int i = 1; i < charinfo.length;) { |
| sb.append(i % numvals == 0 ? "; " : ", "); |
| sb.append(charinfo[i]); |
| } |
| } |
| sb.append("]"); |
| |
| return sb.toString(); |
| } |
| |
| //public static ExtendedTextLabel create(TextSource source) { |
| // return new ExtendedTextSourceLabel(source); |
| //} |
| |
| public int getNumJustificationInfos() { |
| return getGV().getNumGlyphs(); |
| } |
| |
| |
| public void getJustificationInfos(GlyphJustificationInfo[] infos, int infoStart, int charStart, int charLimit) { |
| // This simple implementation only uses spaces for justification. |
| // Since regular characters aren't justified, we don't need to deal with |
| // special infos for combining marks or ligature substitution glyphs. |
| // added character justification for kanjii only 2/22/98 |
| |
| StandardGlyphVector gv = getGV(); |
| |
| float[] charinfo = getCharinfo(); |
| |
| float size = gv.getFont().getSize2D(); |
| |
| GlyphJustificationInfo nullInfo = |
| new GlyphJustificationInfo(0, |
| false, GlyphJustificationInfo.PRIORITY_NONE, 0, 0, |
| false, GlyphJustificationInfo.PRIORITY_NONE, 0, 0); |
| |
| GlyphJustificationInfo spaceInfo = |
| new GlyphJustificationInfo(size, |
| true, GlyphJustificationInfo.PRIORITY_WHITESPACE, 0, size, |
| true, GlyphJustificationInfo.PRIORITY_WHITESPACE, 0, size / 4f); |
| |
| GlyphJustificationInfo kanjiInfo = |
| new GlyphJustificationInfo(size, |
| true, GlyphJustificationInfo.PRIORITY_INTERCHAR, size, size, |
| false, GlyphJustificationInfo.PRIORITY_NONE, 0, 0); |
| |
| char[] chars = source.getChars(); |
| int offset = source.getStart(); |
| |
| // assume data is 1-1 and either all rtl or all ltr, for now |
| |
| int numGlyphs = gv.getNumGlyphs(); |
| int minGlyph = 0; |
| int maxGlyph = numGlyphs; |
| boolean ltr = (source.getLayoutFlags() & 0x1) == 0; |
| if (charStart != 0 || charLimit != source.getLength()) { |
| if (ltr) { |
| minGlyph = charStart; |
| maxGlyph = charLimit; |
| } else { |
| minGlyph = numGlyphs - charLimit; |
| maxGlyph = numGlyphs - charStart; |
| } |
| } |
| |
| for (int i = 0; i < numGlyphs; ++i) { |
| GlyphJustificationInfo info = null; |
| if (i >= minGlyph && i < maxGlyph) { |
| if (charinfo[i * numvals + advx] == 0) { // combining marks don't justify |
| info = nullInfo; |
| } else { |
| int ci = v2l(i); // 1-1 assumption again |
| char c = chars[offset + ci]; |
| if (Character.isWhitespace(c)) { |
| info = spaceInfo; |
| // CJK, Hangul, CJK Compatibility areas |
| } else if (c >= 0x4e00 && |
| (c < 0xa000) || |
| (c >= 0xac00 && c < 0xd7b0) || |
| (c >= 0xf900 && c < 0xfb00)) { |
| info = kanjiInfo; |
| } else { |
| info = nullInfo; |
| } |
| } |
| } |
| infos[infoStart + i] = info; |
| } |
| } |
| |
| public TextLineComponent applyJustificationDeltas(float[] deltas, int deltaStart, boolean[] flags) { |
| |
| // when we justify, we need to adjust the charinfo since spaces |
| // change their advances. preserve the existing charinfo. |
| |
| float[] newCharinfo = getCharinfo().clone(); |
| |
| // we only push spaces, so never need to rejustify |
| flags[0] = false; |
| |
| // preserve the existing gv. |
| |
| StandardGlyphVector newgv = (StandardGlyphVector)getGV().clone(); |
| float[] newPositions = newgv.getGlyphPositions(null); |
| int numGlyphs = newgv.getNumGlyphs(); |
| |
| /* |
| System.out.println("oldgv: " + getGV() + ", newgv: " + newgv); |
| System.out.println("newpositions: " + newPositions); |
| for (int i = 0; i < newPositions.length; i += 2) { |
| System.out.println("[" + (i/2) + "] " + newPositions[i] + ", " + newPositions[i+1]); |
| } |
| |
| System.out.println("deltas: " + deltas + " start: " + deltaStart); |
| for (int i = deltaStart; i < deltaStart + numGlyphs; i += 2) { |
| System.out.println("[" + (i/2) + "] " + deltas[i] + ", " + deltas[i+1]); |
| } |
| */ |
| |
| char[] chars = source.getChars(); |
| int offset = source.getStart(); |
| |
| // accumulate the deltas to adjust positions and advances. |
| // handle whitespace by modifying advance, |
| // handle everything else by modifying position before and after |
| |
| float deltaPos = 0; |
| for (int i = 0; i < numGlyphs; ++i) { |
| if (Character.isWhitespace(chars[offset + v2l(i)])) { |
| newPositions[i*2] += deltaPos; |
| |
| float deltaAdv = deltas[deltaStart + i*2] + deltas[deltaStart + i*2 + 1]; |
| |
| newCharinfo[i * numvals + posx] += deltaPos; |
| newCharinfo[i * numvals + visx] += deltaPos; |
| newCharinfo[i * numvals + advx] += deltaAdv; |
| |
| deltaPos += deltaAdv; |
| } else { |
| deltaPos += deltas[deltaStart + i*2]; |
| |
| newPositions[i*2] += deltaPos; |
| newCharinfo[i * numvals + posx] += deltaPos; |
| newCharinfo[i * numvals + visx] += deltaPos; |
| |
| deltaPos += deltas[deltaStart + i*2 + 1]; |
| } |
| } |
| newPositions[numGlyphs * 2] += deltaPos; |
| |
| newgv.setGlyphPositions(newPositions); |
| |
| /* |
| newPositions = newgv.getGlyphPositions(null); |
| System.out.println(">> newpositions: " + newPositions); |
| for (int i = 0; i < newPositions.length; i += 2) { |
| System.out.println("[" + (i/2) + "] " + newPositions[i] + ", " + newPositions[i+1]); |
| } |
| */ |
| |
| ExtendedTextSourceLabel result = new ExtendedTextSourceLabel(source, decorator); |
| result.gv = newgv; |
| result.charinfo = newCharinfo; |
| |
| return result; |
| } |
| } |