/* * Copyright (c) 2008, 2009, 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 com.sun.awt; import java.awt.*; import sun.awt.AWTAccessor; import sun.awt.SunToolkit; /** * A collection of utility methods for AWT. * * The functionality provided by the static methods of the class includes: * *

* A "top-level window" is an instance of the {@code Window} class (or its * descendant, such as {@code JFrame}). *

* Some of the mentioned features may not be supported by the native platform. * To determine whether a particular feature is supported, the user must use * the {@code isTranslucencySupported()} method of the class passing a desired * translucency kind (a member of the {@code Translucency} enum) as an * argument. *

* The per-pixel alpha feature also requires the user to create her/his * windows using a translucency-capable graphics configuration. * The {@code isTranslucencyCapable()} method must * be used to verify whether any given GraphicsConfiguration supports * the translucency effects. *

* WARNING: This class is an implementation detail and only meant * for limited use outside of the core platform. This API may change * drastically between update release, and it may even be * removed or be moved in some other package(s)/class(es). */ public final class AWTUtilities { /** * The AWTUtilities class should not be instantiated */ private AWTUtilities() { } /** Kinds of translucency supported by the underlying system. * @see #isTranslucencySupported */ public static enum Translucency { /** * Represents support in the underlying system for windows each pixel * of which is guaranteed to be either completely opaque, with * an alpha value of 1.0, or completely transparent, with an alpha * value of 0.0. */ PERPIXEL_TRANSPARENT, /** * Represents support in the underlying system for windows all of * the pixels of which have the same alpha value between or including * 0.0 and 1.0. */ TRANSLUCENT, /** * Represents support in the underlying system for windows that * contain or might contain pixels with arbitrary alpha values * between and including 0.0 and 1.0. */ PERPIXEL_TRANSLUCENT; } /** * Returns whether the given level of translucency is supported by * the underlying system. * * Note that this method may sometimes return the value * indicating that the particular level is supported, but * the native windowing system may still not support the * given level of translucency (due to the bugs in * the windowing system). * * @param translucencyKind a kind of translucency support * (either PERPIXEL_TRANSPARENT, * TRANSLUCENT, or PERPIXEL_TRANSLUCENT) * @return whether the given translucency kind is supported */ public static boolean isTranslucencySupported(Translucency translucencyKind) { switch (translucencyKind) { case PERPIXEL_TRANSPARENT: return isWindowShapingSupported(); case TRANSLUCENT: return isWindowOpacitySupported(); case PERPIXEL_TRANSLUCENT: return isWindowTranslucencySupported(); } return false; } /** * Returns whether the windowing system supports changing the opacity * value of top-level windows. * Note that this method may sometimes return true, but the native * windowing system may still not support the concept of * translucency (due to the bugs in the windowing system). */ private static boolean isWindowOpacitySupported() { Toolkit curToolkit = Toolkit.getDefaultToolkit(); if (!(curToolkit instanceof SunToolkit)) { return false; } return ((SunToolkit)curToolkit).isWindowOpacitySupported(); } /** * Set the opacity of the window. The opacity is at the range [0..1]. * Note that setting the opacity level of 0 may or may not disable * the mouse event handling on this window. This is * a platform-dependent behavior. * * In order for this method to enable the translucency effect, * the isTranslucencySupported() method should indicate that the * TRANSLUCENT level of translucency is supported. * *

Also note that the window must not be in the full-screen mode * when setting the opacity value < 1.0f. Otherwise * the IllegalArgumentException is thrown. * * @param window the window to set the opacity level to * @param opacity the opacity level to set to the window * @throws NullPointerException if the window argument is null * @throws IllegalArgumentException if the opacity is out of * the range [0..1] * @throws IllegalArgumentException if the window is in full screen mode, * and the opacity is less than 1.0f * @throws UnsupportedOperationException if the TRANSLUCENT translucency * kind is not supported */ public static void setWindowOpacity(Window window, float opacity) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } AWTAccessor.getWindowAccessor().setOpacity(window, opacity); } /** * Get the opacity of the window. If the opacity has not * yet being set, this method returns 1.0. * * @param window the window to get the opacity level from * @throws NullPointerException if the window argument is null */ public static float getWindowOpacity(Window window) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } return AWTAccessor.getWindowAccessor().getOpacity(window); } /** * Returns whether the windowing system supports changing the shape * of top-level windows. * Note that this method may sometimes return true, but the native * windowing system may still not support the concept of * shaping (due to the bugs in the windowing system). */ public static boolean isWindowShapingSupported() { Toolkit curToolkit = Toolkit.getDefaultToolkit(); if (!(curToolkit instanceof SunToolkit)) { return false; } return ((SunToolkit)curToolkit).isWindowShapingSupported(); } /** * Returns an object that implements the Shape interface and represents * the shape previously set with the call to the setWindowShape() method. * If no shape has been set yet, or the shape has been reset to null, * this method returns null. * * @param window the window to get the shape from * @return the current shape of the window * @throws NullPointerException if the window argument is null */ public static Shape getWindowShape(Window window) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } return AWTAccessor.getWindowAccessor().getShape(window); } /** * Sets a shape for the given window. * If the shape argument is null, this methods restores * the default shape making the window rectangular. *

Note that in order to set a shape, the window must be undecorated. * If the window is decorated, this method ignores the {@code shape} * argument and resets the shape to null. *

Also note that the window must not be in the full-screen mode * when setting a non-null shape. Otherwise the IllegalArgumentException * is thrown. *

Depending on the platform, the method may return without * effecting the shape of the window if the window has a non-null warning * string ({@link Window#getWarningString()}). In this case the passed * shape object is ignored. * * @param window the window to set the shape to * @param shape the shape to set to the window * @throws NullPointerException if the window argument is null * @throws IllegalArgumentException if the window is in full screen mode, * and the shape is not null * @throws UnsupportedOperationException if the PERPIXEL_TRANSPARENT * translucency kind is not supported */ public static void setWindowShape(Window window, Shape shape) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } AWTAccessor.getWindowAccessor().setShape(window, shape); } private static boolean isWindowTranslucencySupported() { /* * Per-pixel alpha is supported if all the conditions are TRUE: * 1. The toolkit is a sort of SunToolkit * 2. The toolkit supports translucency in general * (isWindowTranslucencySupported()) * 3. There's at least one translucency-capable * GraphicsConfiguration */ Toolkit curToolkit = Toolkit.getDefaultToolkit(); if (!(curToolkit instanceof SunToolkit)) { return false; } if (!((SunToolkit)curToolkit).isWindowTranslucencySupported()) { return false; } GraphicsEnvironment env = GraphicsEnvironment.getLocalGraphicsEnvironment(); // If the default GC supports translucency return true. // It is important to optimize the verification this way, // see CR 6661196 for more details. if (isTranslucencyCapable(env.getDefaultScreenDevice() .getDefaultConfiguration())) { return true; } // ... otherwise iterate through all the GCs. GraphicsDevice[] devices = env.getScreenDevices(); for (int i = 0; i < devices.length; i++) { GraphicsConfiguration[] configs = devices[i].getConfigurations(); for (int j = 0; j < configs.length; j++) { if (isTranslucencyCapable(configs[j])) { return true; } } } return false; } /** * Enables the per-pixel alpha support for the given window. * Once the window becomes non-opaque (the isOpaque is set to false), * the drawing sub-system is starting to respect the alpha value of each * separate pixel. If a pixel gets painted with alpha color component * equal to zero, it becomes visually transparent, if the alpha of the * pixel is equal to 255, the pixel is fully opaque. Interim values * of the alpha color component make the pixel semi-transparent (i.e. * translucent). *

Note that in order for the window to support the per-pixel alpha * mode, the window must be created using the GraphicsConfiguration * for which the {@link #isTranslucencyCapable} * method returns true. *

Also note that some native systems enable the per-pixel translucency * mode for any window created using the translucency-compatible * graphics configuration. However, it is highly recommended to always * invoke the setWindowOpaque() method for these windows, at least for * the sake of cross-platform compatibility reasons. *

Also note that the window must not be in the full-screen mode * when making it non-opaque. Otherwise the IllegalArgumentException * is thrown. *

If the window is a {@code Frame} or a {@code Dialog}, the window must * be undecorated prior to enabling the per-pixel translucency effect (see * {@link Frame#setUndecorated()} and/or {@link Dialog#setUndecorated()}). * If the window becomes decorated through a subsequent call to the * corresponding {@code setUndecorated()} method, the per-pixel * translucency effect will be disabled and the opaque property reset to * {@code true}. *

Depending on the platform, the method may return without * effecting the opaque property of the window if the window has a non-null * warning string ({@link Window#getWarningString()}). In this case * the passed 'isOpaque' value is ignored. * * @param window the window to set the shape to * @param isOpaque whether the window must be opaque (true), * or translucent (false) * @throws NullPointerException if the window argument is null * @throws IllegalArgumentException if the window uses * a GraphicsConfiguration for which the * {@code isTranslucencyCapable()} * method returns false * @throws IllegalArgumentException if the window is in full screen mode, * and the isOpaque is false * @throws IllegalArgumentException if the window is decorated and the * isOpaque argument is {@code false}. * @throws UnsupportedOperationException if the PERPIXEL_TRANSLUCENT * translucency kind is not supported */ public static void setWindowOpaque(Window window, boolean isOpaque) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } if (!isOpaque && !isTranslucencySupported(Translucency.PERPIXEL_TRANSLUCENT)) { throw new UnsupportedOperationException( "The PERPIXEL_TRANSLUCENT translucency kind is not supported"); } AWTAccessor.getWindowAccessor().setOpaque(window, isOpaque); } /** * Returns whether the window is opaque or translucent. * * @param window the window to set the shape to * @return whether the window is currently opaque (true) * or translucent (false) * @throws NullPointerException if the window argument is null */ public static boolean isWindowOpaque(Window window) { if (window == null) { throw new NullPointerException( "The window argument should not be null."); } return window.isOpaque(); } /** * Verifies whether a given GraphicsConfiguration supports * the PERPIXEL_TRANSLUCENT kind of translucency. * All windows that are intended to be used with the {@link #setWindowOpaque} * method must be created using a GraphicsConfiguration for which this method * returns true. *

Note that some native systems enable the per-pixel translucency * mode for any window created using a translucency-capable * graphics configuration. However, it is highly recommended to always * invoke the setWindowOpaque() method for these windows, at least * for the sake of cross-platform compatibility reasons. * * @param gc GraphicsConfiguration * @throws NullPointerException if the gc argument is null * @return whether the given GraphicsConfiguration supports * the translucency effects. */ public static boolean isTranslucencyCapable(GraphicsConfiguration gc) { if (gc == null) { throw new NullPointerException("The gc argument should not be null"); } /* return gc.isTranslucencyCapable(); */ Toolkit curToolkit = Toolkit.getDefaultToolkit(); if (!(curToolkit instanceof SunToolkit)) { return false; } return ((SunToolkit)curToolkit).isTranslucencyCapable(gc); } /** * Sets a 'mixing-cutout' shape for the given component. * * By default a lightweight component is treated as an opaque rectangle for * the purposes of the Heavyweight/Lightweight Components Mixing feature. * This method enables developers to set an arbitrary shape to be cut out * from heavyweight components positioned underneath the lightweight * component in the z-order. *

* The {@code shape} argument may have the following values: *

*

* The most common example when the 'mixing-cutout' shape is needed is a * glass pane component. The {@link JRootPane#setGlassPane()} method * automatically sets the empty-shape as the 'mixing-cutout' shape * for the given glass pane component. If a developer needs some other * 'mixing-cutout' shape for the glass pane (which is rare), this must be * changed manually after installing the glass pane to the root pane. *

* Note that the 'mixing-cutout' shape neither affects painting, nor the * mouse events handling for the given component. It is used exclusively * for the purposes of the Heavyweight/Lightweight Components Mixing * feature. * * @param component the component that needs non-default * 'mixing-cutout' shape * @param shape the new 'mixing-cutout' shape * @throws NullPointerException if the component argument is {@code null} */ public static void setComponentMixingCutoutShape(Component component, Shape shape) { if (component == null) { throw new NullPointerException( "The component argument should not be null."); } AWTAccessor.getComponentAccessor().setMixingCutoutShape(component, shape); } }