/* * Copyright (c) 1995, 2013, 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.peer; import java.awt.*; import java.awt.event.PaintEvent; import java.awt.image.ImageProducer; import java.awt.image.ImageObserver; import java.awt.image.ColorModel; import java.awt.image.VolatileImage; import java.awt.GraphicsConfiguration; import sun.awt.CausedFocusEvent; import sun.java2d.pipe.Region; /** * The peer interface for {@link Component}. This is the top level peer * interface for widgets and defines the bulk of methods for AWT component * peers. Most component peers have to implement this interface (via one * of the subinterfaces), except menu components, which implement * {@link MenuComponentPeer}. * * The peer interfaces are intended only for use in porting * the AWT. They are not intended for use by application * developers, and developers should not implement peers * nor invoke any of the peer methods directly on the peer * instances. */ public interface ComponentPeer { /** * Operation for {@link #setBounds(int, int, int, int, int)}, indicating * a change in the component location only. * * @see #setBounds(int, int, int, int, int) */ public static final int SET_LOCATION = 1; /** * Operation for {@link #setBounds(int, int, int, int, int)}, indicating * a change in the component size only. * * @see #setBounds(int, int, int, int, int) */ public static final int SET_SIZE = 2; /** * Operation for {@link #setBounds(int, int, int, int, int)}, indicating * a change in the component size and location. * * @see #setBounds(int, int, int, int, int) */ public static final int SET_BOUNDS = 3; /** * Operation for {@link #setBounds(int, int, int, int, int)}, indicating * a change in the component client size. This is used for setting * the 'inside' size of windows, without the border insets. * * @see #setBounds(int, int, int, int, int) */ public static final int SET_CLIENT_SIZE = 4; /** * Resets the setBounds() operation to DEFAULT_OPERATION. This is not * passed into {@link #setBounds(int, int, int, int, int)}. * * TODO: This is only used internally and should probably be moved outside * the peer interface. * * @see Component#setBoundsOp */ public static final int RESET_OPERATION = 5; /** * A flag that is used to suppress checks for embedded frames. * * TODO: This is only used internally and should probably be moved outside * the peer interface. */ public static final int NO_EMBEDDED_CHECK = (1 << 14); /** * The default operation, which is to set size and location. * * TODO: This is only used internally and should probably be moved outside * the peer interface. * * @see Component#setBoundsOp */ public static final int DEFAULT_OPERATION = SET_BOUNDS; /** * Determines if a component has been obscured, i.e. by an overlapping * window or similar. This is used by JViewport for optimizing performance. * This doesn't have to be implemented, when * {@link #canDetermineObscurity()} returns {@code false}. * * @return {@code true} when the component has been obscured, * {@code false} otherwise * * @see #canDetermineObscurity() * @see javax.swing.JViewport#needsRepaintAfterBlit */ boolean isObscured(); /** * Returns {@code true} when the peer can determine if a component * has been obscured, {@code false} false otherwise. * * @return {@code true} when the peer can determine if a component * has been obscured, {@code false} false otherwise * * @see #isObscured() * @see javax.swing.JViewport#needsRepaintAfterBlit */ boolean canDetermineObscurity(); /** * Makes a component visible or invisible. * * @param v {@code true} to make a component visible, * {@code false} to make it invisible * * @see Component#setVisible(boolean) */ void setVisible(boolean v); /** * Enables or disables a component. Disabled components are usually grayed * out and cannot be activated. * * @param e {@code true} to enable the component, {@code false} * to disable it * * @see Component#setEnabled(boolean) */ void setEnabled(boolean e); /** * Paints the component to the specified graphics context. This is called * by {@link Component#paintAll(Graphics)} to paint the component. * * @param g the graphics context to paint to * * @see Component#paintAll(Graphics) */ void paint(Graphics g); /** * Prints the component to the specified graphics context. This is called * by {@link Component#printAll(Graphics)} to print the component. * * @param g the graphics context to print to * * @see Component#printAll(Graphics) */ void print(Graphics g); /** * Sets the location or size or both of the component. The location is * specified relative to the component's parent. The {@code op} * parameter specifies which properties change. If it is * {@link #SET_LOCATION}, then only the location changes (and the size * parameters can be ignored). If {@code op} is {@link #SET_SIZE}, * then only the size changes (and the location can be ignored). If * {@code op} is {@link #SET_BOUNDS}, then both change. There is a * special value {@link #SET_CLIENT_SIZE}, which is used only for * window-like components to set the size of the client (i.e. the 'inner' * size, without the insets of the window borders). * * @param x the X location of the component * @param y the Y location of the component * @param width the width of the component * @param height the height of the component * @param op the operation flag * * @see #SET_BOUNDS * @see #SET_LOCATION * @see #SET_SIZE * @see #SET_CLIENT_SIZE */ void setBounds(int x, int y, int width, int height, int op); /** * Called to let the component peer handle events. * * @param e the AWT event to handle * * @see Component#dispatchEvent(AWTEvent) */ void handleEvent(AWTEvent e); /** * Called to coalesce paint events. * * @param e the paint event to consider to coalesce * * @see EventQueue#coalescePaintEvent */ void coalescePaintEvent(PaintEvent e); /** * Determines the location of the component on the screen. * * @return the location of the component on the screen * * @see Component#getLocationOnScreen() */ Point getLocationOnScreen(); /** * Determines the preferred size of the component. * * @return the preferred size of the component * * @see Component#getPreferredSize() */ Dimension getPreferredSize(); /** * Determines the minimum size of the component. * * @return the minimum size of the component * * @see Component#getMinimumSize() */ Dimension getMinimumSize(); /** * Returns the color model used by the component. * * @return the color model used by the component * * @see Component#getColorModel() */ ColorModel getColorModel(); /** * Returns the toolkit that is responsible for the component. * * @return the toolkit that is responsible for the component * * @see Component#getToolkit() */ Toolkit getToolkit(); /** * Returns a graphics object to paint on the component. * * @return a graphics object to paint on the component * * @see Component#getGraphics() */ // TODO: Maybe change this to force Graphics2D, since many things will // break with plain Graphics nowadays. Graphics getGraphics(); /** * Returns a font metrics object to determine the metrics properties of * the specified font. * * @param font the font to determine the metrics for * * @return a font metrics object to determine the metrics properties of * the specified font * * @see Component#getFontMetrics(Font) */ FontMetrics getFontMetrics(Font font); /** * Disposes all resources held by the component peer. This is called * when the component has been disconnected from the component hierarchy * and is about to be garbage collected. * * @see Component#removeNotify() */ void dispose(); /** * Sets the foreground color of this component. * * @param c the foreground color to set * * @see Component#setForeground(Color) */ void setForeground(Color c); /** * Sets the background color of this component. * * @param c the background color to set * * @see Component#setBackground(Color) */ void setBackground(Color c); /** * Sets the font of this component. * * @param f the font of this component * * @see Component#setFont(Font) */ void setFont(Font f); /** * Updates the cursor of the component. * * @see Component#updateCursorImmediately */ void updateCursorImmediately(); /** * Requests focus on this component. * * @param lightweightChild the actual lightweight child that requests the * focus * @param temporary {@code true} if the focus change is temporary, * {@code false} otherwise * @param focusedWindowChangeAllowed {@code true} if changing the * focus of the containing window is allowed or not * @param time the time of the focus change request * @param cause the cause of the focus change request * * @return {@code true} if the focus change is guaranteed to be * granted, {@code false} otherwise */ boolean requestFocus(Component lightweightChild, boolean temporary, boolean focusedWindowChangeAllowed, long time, CausedFocusEvent.Cause cause); /** * Returns {@code true} when the component takes part in the focus * traversal, {@code false} otherwise. * * @return {@code true} when the component takes part in the focus * traversal, {@code false} otherwise */ boolean isFocusable(); /** * Creates an image using the specified image producer. * * @param producer the image producer from which the image pixels will be * produced * * @return the created image * * @see Component#createImage(ImageProducer) */ Image createImage(ImageProducer producer); /** * Creates an empty image with the specified width and height. This is * generally used as a non-accelerated backbuffer for drawing onto the * component (e.g. by Swing). * * @param width the width of the image * @param height the height of the image * * @return the created image * * @see Component#createImage(int, int) */ // TODO: Maybe make that return a BufferedImage, because some stuff will // break if a different kind of image is returned. Image createImage(int width, int height); /** * Creates an empty volatile image with the specified width and height. * This is generally used as an accelerated backbuffer for drawing onto * the component (e.g. by Swing). * * @param width the width of the image * @param height the height of the image * * @return the created volatile image * * @see Component#createVolatileImage(int, int) */ // TODO: Include capabilities here and fix Component#createVolatileImage VolatileImage createVolatileImage(int width, int height); /** * Prepare the specified image for rendering on this component. This should * start loading the image (if not already loaded) and create an * appropriate screen representation. * * @param img the image to prepare * @param w the width of the screen representation * @param h the height of the screen representation * @param o an image observer to observe the progress * * @return {@code true} if the image is already fully prepared, * {@code false} otherwise * * @see Component#prepareImage(Image, int, int, ImageObserver) */ boolean prepareImage(Image img, int w, int h, ImageObserver o); /** * Determines the status of the construction of the screen representaion * of the specified image. * * @param img the image to check * @param w the target width * @param h the target height * @param o the image observer to notify * * @return the status as bitwise ORed ImageObserver flags * * @see Component#checkImage(Image, int, int, ImageObserver) */ int checkImage(Image img, int w, int h, ImageObserver o); /** * Returns the graphics configuration that corresponds to this component. * * @return the graphics configuration that corresponds to this component * * @see Component#getGraphicsConfiguration() */ GraphicsConfiguration getGraphicsConfiguration(); /** * Determines if the component handles wheel scrolling itself. Otherwise * it is delegated to the component's parent. * * @return {@code true} if the component handles wheel scrolling, * {@code false} otherwise * * @see Component#dispatchEventImpl(AWTEvent) */ boolean handlesWheelScrolling(); /** * Create {@code numBuffers} flipping buffers with the specified * buffer capabilities. * * @param numBuffers the number of buffers to create * @param caps the buffer capabilities * * @throws AWTException if flip buffering is not supported * * @see Component.FlipBufferStrategy#createBuffers */ void createBuffers(int numBuffers, BufferCapabilities caps) throws AWTException; /** * Returns the back buffer as image. * * @return the back buffer as image * * @see Component.FlipBufferStrategy#getBackBuffer */ Image getBackBuffer(); /** * Move the back buffer to the front buffer. * * @param x1 the area to be flipped, upper left X coordinate * @param y1 the area to be flipped, upper left Y coordinate * @param x2 the area to be flipped, lower right X coordinate * @param y2 the area to be flipped, lower right Y coordinate * @param flipAction the flip action to perform * * @see Component.FlipBufferStrategy#flip */ void flip(int x1, int y1, int x2, int y2, BufferCapabilities.FlipContents flipAction); /** * Destroys all created buffers. * * @see Component.FlipBufferStrategy#destroyBuffers */ void destroyBuffers(); /** * Reparents this peer to the new parent referenced by * {@code newContainer} peer. Implementation depends on toolkit and * container. * * @param newContainer peer of the new parent container * * @since 1.5 */ void reparent(ContainerPeer newContainer); /** * Returns whether this peer supports reparenting to another parent without * destroying the peer. * * @return true if appropriate reparent is supported, false otherwise * * @since 1.5 */ boolean isReparentSupported(); /** * Used by lightweight implementations to tell a ComponentPeer to layout * its sub-elements. For instance, a lightweight Checkbox needs to layout * the box, as well as the text label. * * @see Component#validate() */ void layout(); /** * Applies the shape to the native component window. * @since 1.7 * * @see Component#applyCompoundShape */ void applyShape(Region shape); /** * Lowers this component at the bottom of the above HW peer. If the above parameter * is null then the method places this component at the top of the Z-order. */ void setZOrder(ComponentPeer above); /** * Updates internal data structures related to the component's GC. * * @return if the peer needs to be recreated for the changes to take effect * @since 1.7 */ boolean updateGraphicsData(GraphicsConfiguration gc); }