| /* |
| * Copyright (c) 1996, 2017, 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 |
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| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
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| |
| package java.awt; |
| |
| import java.awt.geom.AffineTransform; |
| import java.awt.geom.PathIterator; |
| import java.awt.geom.Point2D; |
| import java.awt.geom.Rectangle2D; |
| |
| /** |
| * The {@code Shape} interface provides definitions for objects |
| * that represent some form of geometric shape. The {@code Shape} |
| * is described by a {@link PathIterator} object, which can express the |
| * outline of the {@code Shape} as well as a rule for determining |
| * how the outline divides the 2D plane into interior and exterior |
| * points. Each {@code Shape} object provides callbacks to get the |
| * bounding box of the geometry, determine whether points or |
| * rectangles lie partly or entirely within the interior |
| * of the {@code Shape}, and retrieve a {@code PathIterator} |
| * object that describes the trajectory path of the {@code Shape} |
| * outline. |
| * <p> |
| * <a id="def_insideness"><b>Definition of insideness:</b></a> |
| * A point is considered to lie inside a |
| * {@code Shape} if and only if: |
| * <ul> |
| * <li> it lies completely |
| * inside the {@code Shape} boundary <i>or</i> |
| * <li> |
| * it lies exactly on the {@code Shape} boundary <i>and</i> the |
| * space immediately adjacent to the |
| * point in the increasing {@code X} direction is |
| * entirely inside the boundary <i>or</i> |
| * <li> |
| * it lies exactly on a horizontal boundary segment <b>and</b> the |
| * space immediately adjacent to the point in the |
| * increasing {@code Y} direction is inside the boundary. |
| * </ul> |
| * <p>The {@code contains} and {@code intersects} methods |
| * consider the interior of a {@code Shape} to be the area it |
| * encloses as if it were filled. This means that these methods |
| * consider |
| * unclosed shapes to be implicitly closed for the purpose of |
| * determining if a shape contains or intersects a rectangle or if a |
| * shape contains a point. |
| * |
| * @see java.awt.geom.PathIterator |
| * @see java.awt.geom.AffineTransform |
| * @see java.awt.geom.FlatteningPathIterator |
| * @see java.awt.geom.GeneralPath |
| * |
| * @author Jim Graham |
| * @since 1.2 |
| */ |
| public interface Shape { |
| /** |
| * Returns an integer {@link Rectangle} that completely encloses the |
| * {@code Shape}. Note that there is no guarantee that the |
| * returned {@code Rectangle} is the smallest bounding box that |
| * encloses the {@code Shape}, only that the {@code Shape} |
| * lies entirely within the indicated {@code Rectangle}. The |
| * returned {@code Rectangle} might also fail to completely |
| * enclose the {@code Shape} if the {@code Shape} overflows |
| * the limited range of the integer data type. The |
| * {@code getBounds2D} method generally returns a |
| * tighter bounding box due to its greater flexibility in |
| * representation. |
| * |
| * <p> |
| * Note that the <a href="{@docRoot}/java/awt/Shape.html#def_insideness"> |
| * definition of insideness</a> can lead to situations where points |
| * on the defining outline of the {@code shape} may not be considered |
| * contained in the returned {@code bounds} object, but only in cases |
| * where those points are also not considered contained in the original |
| * {@code shape}. |
| * </p> |
| * <p> |
| * If a {@code point} is inside the {@code shape} according to the |
| * {@link #contains(double x, double y) contains(point)} method, then |
| * it must be inside the returned {@code Rectangle} bounds object |
| * according to the {@link #contains(double x, double y) contains(point)} |
| * method of the {@code bounds}. Specifically: |
| * </p> |
| * <p> |
| * {@code shape.contains(x,y)} requires {@code bounds.contains(x,y)} |
| * </p> |
| * <p> |
| * If a {@code point} is not inside the {@code shape}, then it might |
| * still be contained in the {@code bounds} object: |
| * </p> |
| * <p> |
| * {@code bounds.contains(x,y)} does not imply {@code shape.contains(x,y)} |
| * </p> |
| * @return an integer {@code Rectangle} that completely encloses |
| * the {@code Shape}. |
| * @see #getBounds2D |
| * @since 1.2 |
| */ |
| public Rectangle getBounds(); |
| |
| /** |
| * Returns a high precision and more accurate bounding box of |
| * the {@code Shape} than the {@code getBounds} method. |
| * Note that there is no guarantee that the returned |
| * {@link Rectangle2D} is the smallest bounding box that encloses |
| * the {@code Shape}, only that the {@code Shape} lies |
| * entirely within the indicated {@code Rectangle2D}. The |
| * bounding box returned by this method is usually tighter than that |
| * returned by the {@code getBounds} method and never fails due |
| * to overflow problems since the return value can be an instance of |
| * the {@code Rectangle2D} that uses double precision values to |
| * store the dimensions. |
| * |
| * <p> |
| * Note that the <a href="{@docRoot}/java/awt/Shape.html#def_insideness"> |
| * definition of insideness</a> can lead to situations where points |
| * on the defining outline of the {@code shape} may not be considered |
| * contained in the returned {@code bounds} object, but only in cases |
| * where those points are also not considered contained in the original |
| * {@code shape}. |
| * </p> |
| * <p> |
| * If a {@code point} is inside the {@code shape} according to the |
| * {@link #contains(Point2D p) contains(point)} method, then it must |
| * be inside the returned {@code Rectangle2D} bounds object according |
| * to the {@link #contains(Point2D p) contains(point)} method of the |
| * {@code bounds}. Specifically: |
| * </p> |
| * <p> |
| * {@code shape.contains(p)} requires {@code bounds.contains(p)} |
| * </p> |
| * <p> |
| * If a {@code point} is not inside the {@code shape}, then it might |
| * still be contained in the {@code bounds} object: |
| * </p> |
| * <p> |
| * {@code bounds.contains(p)} does not imply {@code shape.contains(p)} |
| * </p> |
| * @return an instance of {@code Rectangle2D} that is a |
| * high-precision bounding box of the {@code Shape}. |
| * @see #getBounds |
| * @since 1.2 |
| */ |
| public Rectangle2D getBounds2D(); |
| |
| /** |
| * Tests if the specified coordinates are inside the boundary of the |
| * {@code Shape}, as described by the |
| * <a href="{@docRoot}/java/awt/Shape.html#def_insideness"> |
| * definition of insideness</a>. |
| * @param x the specified X coordinate to be tested |
| * @param y the specified Y coordinate to be tested |
| * @return {@code true} if the specified coordinates are inside |
| * the {@code Shape} boundary; {@code false} |
| * otherwise. |
| * @since 1.2 |
| */ |
| public boolean contains(double x, double y); |
| |
| /** |
| * Tests if a specified {@link Point2D} is inside the boundary |
| * of the {@code Shape}, as described by the |
| * <a href="{@docRoot}/java/awt/Shape.html#def_insideness"> |
| * definition of insideness</a>. |
| * @param p the specified {@code Point2D} to be tested |
| * @return {@code true} if the specified {@code Point2D} is |
| * inside the boundary of the {@code Shape}; |
| * {@code false} otherwise. |
| * @since 1.2 |
| */ |
| public boolean contains(Point2D p); |
| |
| /** |
| * Tests if the interior of the {@code Shape} intersects the |
| * interior of a specified rectangular area. |
| * The rectangular area is considered to intersect the {@code Shape} |
| * if any point is contained in both the interior of the |
| * {@code Shape} and the specified rectangular area. |
| * <p> |
| * The {@code Shape.intersects()} method allows a {@code Shape} |
| * implementation to conservatively return {@code true} when: |
| * <ul> |
| * <li> |
| * there is a high probability that the rectangular area and the |
| * {@code Shape} intersect, but |
| * <li> |
| * the calculations to accurately determine this intersection |
| * are prohibitively expensive. |
| * </ul> |
| * This means that for some {@code Shapes} this method might |
| * return {@code true} even though the rectangular area does not |
| * intersect the {@code Shape}. |
| * The {@link java.awt.geom.Area Area} class performs |
| * more accurate computations of geometric intersection than most |
| * {@code Shape} objects and therefore can be used if a more precise |
| * answer is required. |
| * |
| * @param x the X coordinate of the upper-left corner |
| * of the specified rectangular area |
| * @param y the Y coordinate of the upper-left corner |
| * of the specified rectangular area |
| * @param w the width of the specified rectangular area |
| * @param h the height of the specified rectangular area |
| * @return {@code true} if the interior of the {@code Shape} and |
| * the interior of the rectangular area intersect, or are |
| * both highly likely to intersect and intersection calculations |
| * would be too expensive to perform; {@code false} otherwise. |
| * @see java.awt.geom.Area |
| * @since 1.2 |
| */ |
| public boolean intersects(double x, double y, double w, double h); |
| |
| /** |
| * Tests if the interior of the {@code Shape} intersects the |
| * interior of a specified {@code Rectangle2D}. |
| * The {@code Shape.intersects()} method allows a {@code Shape} |
| * implementation to conservatively return {@code true} when: |
| * <ul> |
| * <li> |
| * there is a high probability that the {@code Rectangle2D} and the |
| * {@code Shape} intersect, but |
| * <li> |
| * the calculations to accurately determine this intersection |
| * are prohibitively expensive. |
| * </ul> |
| * This means that for some {@code Shapes} this method might |
| * return {@code true} even though the {@code Rectangle2D} does not |
| * intersect the {@code Shape}. |
| * The {@link java.awt.geom.Area Area} class performs |
| * more accurate computations of geometric intersection than most |
| * {@code Shape} objects and therefore can be used if a more precise |
| * answer is required. |
| * |
| * @param r the specified {@code Rectangle2D} |
| * @return {@code true} if the interior of the {@code Shape} and |
| * the interior of the specified {@code Rectangle2D} |
| * intersect, or are both highly likely to intersect and intersection |
| * calculations would be too expensive to perform; {@code false} |
| * otherwise. |
| * @see #intersects(double, double, double, double) |
| * @since 1.2 |
| */ |
| public boolean intersects(Rectangle2D r); |
| |
| /** |
| * Tests if the interior of the {@code Shape} entirely contains |
| * the specified rectangular area. All coordinates that lie inside |
| * the rectangular area must lie within the {@code Shape} for the |
| * entire rectangular area to be considered contained within the |
| * {@code Shape}. |
| * <p> |
| * The {@code Shape.contains()} method allows a {@code Shape} |
| * implementation to conservatively return {@code false} when: |
| * <ul> |
| * <li> |
| * the {@code intersect} method returns {@code true} and |
| * <li> |
| * the calculations to determine whether or not the |
| * {@code Shape} entirely contains the rectangular area are |
| * prohibitively expensive. |
| * </ul> |
| * This means that for some {@code Shapes} this method might |
| * return {@code false} even though the {@code Shape} contains |
| * the rectangular area. |
| * The {@link java.awt.geom.Area Area} class performs |
| * more accurate geometric computations than most |
| * {@code Shape} objects and therefore can be used if a more precise |
| * answer is required. |
| * |
| * @param x the X coordinate of the upper-left corner |
| * of the specified rectangular area |
| * @param y the Y coordinate of the upper-left corner |
| * of the specified rectangular area |
| * @param w the width of the specified rectangular area |
| * @param h the height of the specified rectangular area |
| * @return {@code true} if the interior of the {@code Shape} |
| * entirely contains the specified rectangular area; |
| * {@code false} otherwise or, if the {@code Shape} |
| * contains the rectangular area and the |
| * {@code intersects} method returns {@code true} |
| * and the containment calculations would be too expensive to |
| * perform. |
| * @see java.awt.geom.Area |
| * @see #intersects |
| * @since 1.2 |
| */ |
| public boolean contains(double x, double y, double w, double h); |
| |
| /** |
| * Tests if the interior of the {@code Shape} entirely contains the |
| * specified {@code Rectangle2D}. |
| * The {@code Shape.contains()} method allows a {@code Shape} |
| * implementation to conservatively return {@code false} when: |
| * <ul> |
| * <li> |
| * the {@code intersect} method returns {@code true} and |
| * <li> |
| * the calculations to determine whether or not the |
| * {@code Shape} entirely contains the {@code Rectangle2D} |
| * are prohibitively expensive. |
| * </ul> |
| * This means that for some {@code Shapes} this method might |
| * return {@code false} even though the {@code Shape} contains |
| * the {@code Rectangle2D}. |
| * The {@link java.awt.geom.Area Area} class performs |
| * more accurate geometric computations than most |
| * {@code Shape} objects and therefore can be used if a more precise |
| * answer is required. |
| * |
| * @param r The specified {@code Rectangle2D} |
| * @return {@code true} if the interior of the {@code Shape} |
| * entirely contains the {@code Rectangle2D}; |
| * {@code false} otherwise or, if the {@code Shape} |
| * contains the {@code Rectangle2D} and the |
| * {@code intersects} method returns {@code true} |
| * and the containment calculations would be too expensive to |
| * perform. |
| * @see #contains(double, double, double, double) |
| * @since 1.2 |
| */ |
| public boolean contains(Rectangle2D r); |
| |
| /** |
| * Returns an iterator object that iterates along the |
| * {@code Shape} boundary and provides access to the geometry of the |
| * {@code Shape} outline. If an optional {@link AffineTransform} |
| * is specified, the coordinates returned in the iteration are |
| * transformed accordingly. |
| * <p> |
| * Each call to this method returns a fresh {@code PathIterator} |
| * object that traverses the geometry of the {@code Shape} object |
| * independently from any other {@code PathIterator} objects in use |
| * at the same time. |
| * <p> |
| * It is recommended, but not guaranteed, that objects |
| * implementing the {@code Shape} interface isolate iterations |
| * that are in process from any changes that might occur to the original |
| * object's geometry during such iterations. |
| * |
| * @param at an optional {@code AffineTransform} to be applied to the |
| * coordinates as they are returned in the iteration, or |
| * {@code null} if untransformed coordinates are desired |
| * @return a new {@code PathIterator} object, which independently |
| * traverses the geometry of the {@code Shape}. |
| * @since 1.2 |
| */ |
| public PathIterator getPathIterator(AffineTransform at); |
| |
| /** |
| * Returns an iterator object that iterates along the {@code Shape} |
| * boundary and provides access to a flattened view of the |
| * {@code Shape} outline geometry. |
| * <p> |
| * Only SEG_MOVETO, SEG_LINETO, and SEG_CLOSE point types are |
| * returned by the iterator. |
| * <p> |
| * If an optional {@code AffineTransform} is specified, |
| * the coordinates returned in the iteration are transformed |
| * accordingly. |
| * <p> |
| * The amount of subdivision of the curved segments is controlled |
| * by the {@code flatness} parameter, which specifies the |
| * maximum distance that any point on the unflattened transformed |
| * curve can deviate from the returned flattened path segments. |
| * Note that a limit on the accuracy of the flattened path might be |
| * silently imposed, causing very small flattening parameters to be |
| * treated as larger values. This limit, if there is one, is |
| * defined by the particular implementation that is used. |
| * <p> |
| * Each call to this method returns a fresh {@code PathIterator} |
| * object that traverses the {@code Shape} object geometry |
| * independently from any other {@code PathIterator} objects in use at |
| * the same time. |
| * <p> |
| * It is recommended, but not guaranteed, that objects |
| * implementing the {@code Shape} interface isolate iterations |
| * that are in process from any changes that might occur to the original |
| * object's geometry during such iterations. |
| * |
| * @param at an optional {@code AffineTransform} to be applied to the |
| * coordinates as they are returned in the iteration, or |
| * {@code null} if untransformed coordinates are desired |
| * @param flatness the maximum distance that the line segments used to |
| * approximate the curved segments are allowed to deviate |
| * from any point on the original curve |
| * @return a new {@code PathIterator} that independently traverses |
| * a flattened view of the geometry of the {@code Shape}. |
| * @since 1.2 |
| */ |
| public PathIterator getPathIterator(AffineTransform at, double flatness); |
| } |