/* * Copyright (c) 2006, 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 * 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. */ package java.awt; import java.awt.geom.AffineTransform; import java.awt.geom.Point2D; import java.awt.geom.Rectangle2D; import java.awt.image.ColorModel; import java.beans.ConstructorProperties; /** * The {@code RadialGradientPaint} class provides a way to fill a shape with * a circular radial color gradient pattern. The user may specify 2 or more * gradient colors, and this paint will provide an interpolation between * each color. *

* The user must specify the circle controlling the gradient pattern, * which is described by a center point and a radius. The user can also * specify a separate focus point within that circle, which controls the * location of the first color of the gradient. By default the focus is * set to be the center of the circle. *

* This paint will map the first color of the gradient to the focus point, * and the last color to the perimeter of the circle, interpolating * smoothly for any in-between colors specified by the user. Any line drawn * from the focus point to the circumference will thus span all the gradient * colors. *

* Specifying a focus point outside of the radius of the circle will cause * the rings of the gradient pattern to be centered on the point just inside * the edge of the circle in the direction of the focus point. * The rendering will internally use this modified location as if it were * the specified focus point. *

* The user must provide an array of floats specifying how to distribute the * colors along the gradient. These values should range from 0.0 to 1.0 and * act like keyframes along the gradient (they mark where the gradient should * be exactly a particular color). *

* In the event that the user does not set the first keyframe value equal * to 0 and/or the last keyframe value equal to 1, keyframes will be created * at these positions and the first and last colors will be replicated there. * So, if a user specifies the following arrays to construct a gradient:
* 

 *     {Color.BLUE, Color.RED}, {.3f, .7f}
 *
* this will be converted to a gradient with the following keyframes:
* 
 *     {Color.BLUE, Color.BLUE, Color.RED, Color.RED}, {0f, .3f, .7f, 1f}
 *
* *

* The user may also select what action the {@code RadialGradientPaint} object * takes when it is filling the space outside the circle's radius by * setting {@code CycleMethod} to either {@code REFLECTION} or {@code REPEAT}. * The gradient color proportions are equal for any particular line drawn * from the focus point. The following figure shows that the distance AB * is equal to the distance BC, and the distance AD is equal to the distance DE. *

* image showing the * distance AB=BC, and AD=DE *

* If the gradient and graphics rendering transforms are uniformly scaled and * the user sets the focus so that it coincides with the center of the circle, * the gradient color proportions are equal for any line drawn from the center. * The following figure shows the distances AB, BC, AD, and DE. They are all equal. *

* image showing the * distance of AB, BC, AD, and DE are all equal *

* Note that some minor variations in distances may occur due to sampling at * the granularity of a pixel. * If no cycle method is specified, {@code NO_CYCLE} will be chosen by * default, which means the last keyframe color will be used to fill the * remaining area. *

* The colorSpace parameter allows the user to specify in which colorspace * the interpolation should be performed, default sRGB or linearized RGB. * *

* The following code demonstrates typical usage of * {@code RadialGradientPaint}, where the center and focus points are * the same: * 

 *     Point2D center = new Point2D.Float(50, 50);
 *     float radius = 25;
 *     float[] dist = {0.0f, 0.2f, 1.0f};
 *     Color[] colors = {Color.RED, Color.WHITE, Color.BLUE};
 *     RadialGradientPaint p =
 *         new RadialGradientPaint(center, radius, dist, colors);
 *
* *

* This image demonstrates the example code above, with default * (centered) focus for each of the three cycle methods: *

* image showing the * output of the sameple code *

* It is also possible to specify a non-centered focus point, as * in the following code: * 

 *     Point2D center = new Point2D.Float(50, 50);
 *     float radius = 25;
 *     Point2D focus = new Point2D.Float(40, 40);
 *     float[] dist = {0.0f, 0.2f, 1.0f};
 *     Color[] colors = {Color.RED, Color.WHITE, Color.BLUE};
 *     RadialGradientPaint p =
 *         new RadialGradientPaint(center, radius, focus,
 *                                 dist, colors,
 *                                 CycleMethod.NO_CYCLE);
 *
* *

* This image demonstrates the previous example code, with non-centered * focus for each of the three cycle methods: *

* image showing the * output of the sample code * * @see java.awt.Paint * @see java.awt.Graphics2D#setPaint * @author Nicholas Talian, Vincent Hardy, Jim Graham, Jerry Evans * @since 1.6 */ public final class RadialGradientPaint extends MultipleGradientPaint { /** Focus point which defines the 0% gradient stop X coordinate. */ private final Point2D focus; /** Center of the circle defining the 100% gradient stop X coordinate. */ private final Point2D center; /** Radius of the outermost circle defining the 100% gradient stop. */ private final float radius; /** * Constructs a {@code RadialGradientPaint} with a default * {@code NO_CYCLE} repeating method and {@code SRGB} color space, * using the center as the focus point. * * @param cx the X coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param cy the Y coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param radius the radius of the circle defining the extents of the * color gradient * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * * @throws NullPointerException * if {@code fractions} array is null, * or {@code colors} array is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(float cx, float cy, float radius, float[] fractions, Color[] colors) { this(cx, cy, radius, cx, cy, fractions, colors, CycleMethod.NO_CYCLE); } /** * Constructs a {@code RadialGradientPaint} with a default * {@code NO_CYCLE} repeating method and {@code SRGB} color space, * using the center as the focus point. * * @param center the center point, in user space, of the circle defining * the gradient * @param radius the radius of the circle defining the extents of the * color gradient * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * * @throws NullPointerException * if {@code center} point is null, * or {@code fractions} array is null, * or {@code colors} array is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(Point2D center, float radius, float[] fractions, Color[] colors) { this(center, radius, center, fractions, colors, CycleMethod.NO_CYCLE); } /** * Constructs a {@code RadialGradientPaint} with a default * {@code SRGB} color space, using the center as the focus point. * * @param cx the X coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param cy the Y coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param radius the radius of the circle defining the extents of the * color gradient * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * * @throws NullPointerException * if {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(float cx, float cy, float radius, float[] fractions, Color[] colors, CycleMethod cycleMethod) { this(cx, cy, radius, cx, cy, fractions, colors, cycleMethod); } /** * Constructs a {@code RadialGradientPaint} with a default * {@code SRGB} color space, using the center as the focus point. * * @param center the center point, in user space, of the circle defining * the gradient * @param radius the radius of the circle defining the extents of the * color gradient * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * * @throws NullPointerException * if {@code center} point is null, * or {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(Point2D center, float radius, float[] fractions, Color[] colors, CycleMethod cycleMethod) { this(center, radius, center, fractions, colors, cycleMethod); } /** * Constructs a {@code RadialGradientPaint} with a default * {@code SRGB} color space. * * @param cx the X coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param cy the Y coordinate in user space of the center point of the * circle defining the gradient. The last color of the * gradient is mapped to the perimeter of this circle. * @param radius the radius of the circle defining the extents of the * color gradient * @param fx the X coordinate of the point in user space to which the * first color is mapped * @param fy the Y coordinate of the point in user space to which the * first color is mapped * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * * @throws NullPointerException * if {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(float cx, float cy, float radius, float fx, float fy, float[] fractions, Color[] colors, CycleMethod cycleMethod) { this(new Point2D.Float(cx, cy), radius, new Point2D.Float(fx, fy), fractions, colors, cycleMethod); } /** * Constructs a {@code RadialGradientPaint} with a default * {@code SRGB} color space. * * @param center the center point, in user space, of the circle defining * the gradient. The last color of the gradient is mapped * to the perimeter of this circle. * @param radius the radius of the circle defining the extents of the color * gradient * @param focus the point in user space to which the first color is mapped * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * * @throws NullPointerException * if one of the points is null, * or {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(Point2D center, float radius, Point2D focus, float[] fractions, Color[] colors, CycleMethod cycleMethod) { this(center, radius, focus, fractions, colors, cycleMethod, ColorSpaceType.SRGB, new AffineTransform()); } /** * Constructs a {@code RadialGradientPaint}. * * @param center the center point in user space of the circle defining the * gradient. The last color of the gradient is mapped to * the perimeter of this circle. * @param radius the radius of the circle defining the extents of the * color gradient * @param focus the point in user space to which the first color is mapped * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * @param colorSpace which color space to use for interpolation, * either {@code SRGB} or {@code LINEAR_RGB} * @param gradientTransform transform to apply to the gradient * * @throws NullPointerException * if one of the points is null, * or {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null, * or {@code colorSpace} is null, * or {@code gradientTransform} is null * @throws IllegalArgumentException * if {@code radius} is non-positive, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ @ConstructorProperties({ "centerPoint", "radius", "focusPoint", "fractions", "colors", "cycleMethod", "colorSpace", "transform" }) public RadialGradientPaint(Point2D center, float radius, Point2D focus, float[] fractions, Color[] colors, CycleMethod cycleMethod, ColorSpaceType colorSpace, AffineTransform gradientTransform) { super(fractions, colors, cycleMethod, colorSpace, gradientTransform); // check input arguments if (center == null) { throw new NullPointerException("Center point must be non-null"); } if (focus == null) { throw new NullPointerException("Focus point must be non-null"); } if (radius <= 0) { throw new IllegalArgumentException("Radius must be greater " + "than zero"); } // copy parameters this.center = new Point2D.Double(center.getX(), center.getY()); this.focus = new Point2D.Double(focus.getX(), focus.getY()); this.radius = radius; } /** * Constructs a {@code RadialGradientPaint} with a default * {@code SRGB} color space. * The gradient circle of the {@code RadialGradientPaint} is defined * by the given bounding box. *

* This constructor is a more convenient way to express the * following (equivalent) code:
* * 

     *     double gw = gradientBounds.getWidth();
     *     double gh = gradientBounds.getHeight();
     *     double cx = gradientBounds.getCenterX();
     *     double cy = gradientBounds.getCenterY();
     *     Point2D center = new Point2D.Double(cx, cy);
     *
     *     AffineTransform gradientTransform = new AffineTransform();
     *     gradientTransform.translate(cx, cy);
     *     gradientTransform.scale(gw / 2, gh / 2);
     *     gradientTransform.translate(-cx, -cy);
     *
     *     RadialGradientPaint gp =
     *         new RadialGradientPaint(center, 1.0f, center,
     *                                 fractions, colors,
     *                                 cycleMethod,
     *                                 ColorSpaceType.SRGB,
     *                                 gradientTransform);
     *
* * @param gradientBounds the bounding box, in user space, of the circle * defining the outermost extent of the gradient * @param fractions numbers ranging from 0.0 to 1.0 specifying the * distribution of colors along the gradient * @param colors array of colors to use in the gradient. The first color * is used at the focus point, the last color around the * perimeter of the circle. * @param cycleMethod either {@code NO_CYCLE}, {@code REFLECT}, * or {@code REPEAT} * * @throws NullPointerException * if {@code gradientBounds} is null, * or {@code fractions} array is null, * or {@code colors} array is null, * or {@code cycleMethod} is null * @throws IllegalArgumentException * if {@code gradientBounds} is empty, * or {@code fractions.length != colors.length}, * or {@code colors} is less than 2 in size, * or a {@code fractions} value is less than 0.0 or greater than 1.0, * or the {@code fractions} are not provided in strictly increasing order */ public RadialGradientPaint(Rectangle2D gradientBounds, float[] fractions, Color[] colors, CycleMethod cycleMethod) { // gradient center/focal point is the center of the bounding box, // radius is set to 1.0, and then we set a scale transform // to achieve an elliptical gradient defined by the bounding box this(new Point2D.Double(gradientBounds.getCenterX(), gradientBounds.getCenterY()), 1.0f, new Point2D.Double(gradientBounds.getCenterX(), gradientBounds.getCenterY()), fractions, colors, cycleMethod, ColorSpaceType.SRGB, createGradientTransform(gradientBounds)); if (gradientBounds.isEmpty()) { throw new IllegalArgumentException("Gradient bounds must be " + "non-empty"); } } private static AffineTransform createGradientTransform(Rectangle2D r) { double cx = r.getCenterX(); double cy = r.getCenterY(); AffineTransform xform = AffineTransform.getTranslateInstance(cx, cy); xform.scale(r.getWidth()/2, r.getHeight()/2); xform.translate(-cx, -cy); return xform; } /** * Creates and returns a {@link PaintContext} used to * generate a circular radial color gradient pattern. * See the description of the {@link Paint#createContext createContext} method * for information on null parameter handling. * * @param cm the preferred {@link ColorModel} which represents the most convenient * format for the caller to receive the pixel data, or {@code null} * if there is no preference. * @param deviceBounds the device space bounding box * of the graphics primitive being rendered. * @param userBounds the user space bounding box * of the graphics primitive being rendered. * @param transform the {@link AffineTransform} from user * space into device space. * @param hints the set of hints that the context object can use to * choose between rendering alternatives. * @return the {@code PaintContext} for * generating color patterns. * @see Paint * @see PaintContext * @see ColorModel * @see Rectangle * @see Rectangle2D * @see AffineTransform * @see RenderingHints */ public PaintContext createContext(ColorModel cm, Rectangle deviceBounds, Rectangle2D userBounds, AffineTransform transform, RenderingHints hints) { // avoid modifying the user's transform... transform = new AffineTransform(transform); // incorporate the gradient transform transform.concatenate(gradientTransform); return new RadialGradientPaintContext(this, cm, deviceBounds, userBounds, transform, hints, (float)center.getX(), (float)center.getY(), radius, (float)focus.getX(), (float)focus.getY(), fractions, colors, cycleMethod, colorSpace); } /** * Returns a copy of the center point of the radial gradient. * * @return a {@code Point2D} object that is a copy of the center point */ public Point2D getCenterPoint() { return new Point2D.Double(center.getX(), center.getY()); } /** * Returns a copy of the focus point of the radial gradient. * Note that if the focus point specified when the radial gradient * was constructed lies outside of the radius of the circle, this * method will still return the original focus point even though * the rendering may center the rings of color on a different * point that lies inside the radius. * * @return a {@code Point2D} object that is a copy of the focus point */ public Point2D getFocusPoint() { return new Point2D.Double(focus.getX(), focus.getY()); } /** * Returns the radius of the circle defining the radial gradient. * * @return the radius of the circle defining the radial gradient */ public float getRadius() { return radius; } }