java.awt.image.VolatileImage Maven / Gradle / Ivy

Neither this file nor any files generated from it describe a complete specification, and they may only be used as described below. For example, no permission is given for you to incorporate this file, in whole or in part, in an implementation of a Java specification.

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This work corresponds to the API signatures of JSR 217: Personal Basis Profile 1.1. In the event of a discrepency between this work and the JSR 217 specification, which is available at http://www.jcp.org/en/jsr/detail?id=217, the latter takes precedence. */ package java.awt.image; import java.awt.Color; import java.awt.Graphics; import java.awt.Graphics2D; import java.awt.GraphicsConfiguration; import java.awt.GraphicsDevice; import java.awt.Image; import java.awt.ImageCapabilities; import java.awt.Toolkit; /** * VolatileImage is an image which can lose its * contents at any time due to circumstances beyond the control of the * application (e.g., situations caused by the operating system or by * other applications). Because of the potential for hardware acceleration, * a VolatileImage object can have significant performance benefits on * some platforms. *

* The drawing surface of an image (the memory where the image contents * actually reside) can be lost or invalidated, causing the contents of that * memory to go away. The drawing surface thus needs to be restored * or recreated and the contents of that surface need to be * re-rendered. VolatileImage provides an interface for * allowing the user to detect these problems and fix them * when they occur. *

* This image should not be subclassed directly but should be created * by using the {@link java.awt.Component#createVolatileImage(int, int) * Component.createVolatileImage} or * {@link java.awt.GraphicsConfiguration#createCompatibleVolatileImage(int, int) * GraphicsConfiguration.createCompatibleVolatileImage(int, int)} methods. *

* An example of using a VolatileImage object follows: *

 * // image creation
 * VolatileImage vImg = createVolatileImage(w, h);
 *
 * 
 * // rendering to the image
 * void renderOffscreen() {
 *	do {
 *	    if (vImg.validate(getGraphicsConfiguration()) ==
 *		VolatileImage.IMAGE_INCOMPATIBLE)
 *	    {
 *		// old vImg doesn't work with new GraphicsConfig; re-create it
 *		vImg = createVolatileImage(w, h);
 *	    }
 *	    Graphics2D g = vImg.createGraphics();
 *	    //
 *	    // miscellaneous rendering commands...
 *	    //
 *	    g.dispose();
 *	} while (vImg.contentsLost());
 * }
 *
 *
 * // copying from the image (here, gScreen is the Graphics
 * // object for the onscreen window)
 * do {
 *	int returnCode = vImg.validate(getGraphicsConfiguration());
 *	if (returnCode == VolatileImage.IMAGE_RESTORED) {
 *	    // Contents need to be restored
 *	    renderOffscreen();	    // restore contents
 *	} else if (returnCode == VolatileImage.IMAGE_INCOMPATIBLE) {
 *	    // old vImg doesn't work with new GraphicsConfig; re-create it
 *	    vImg = createVolatileImage(w, h);
 *	    renderOffscreen();
 *	}
 *	gScreen.drawImage(vImg, 0, 0, this);
 * } while (vImg.contentsLost());
 * 

* Note that this class subclasses from the {@link Image} class, which * includes methods that take an {@link ImageObserver} parameter for * asynchronous notifications as information is received from * a potential {@link ImageProducer}. Since this VolatileImage * is not loaded from an asynchronous source, the various methods that take * an ImageObserver parameter will behave as if the data has * already been obtained from the ImageProducer. * Specifically, this means that the return values from such methods * will never indicate that the information is not yet available and * the ImageObserver used in such methods will never * need to be recorded for an asynchronous callback notification. */ public abstract class VolatileImage extends Image { // Return codes for validate() method /** * Validated image is ready to use as-is. */ public static final int IMAGE_OK = 0; /** * Validated image has been restored and is now ready to use. * Note that restoration causes contents of the image to be lost. */ public static final int IMAGE_RESTORED = 1; /** * Validated image is incompatible with supplied * GraphicsConfiguration object and should be * re-created as appropriate. Usage of the image as-is * after receiving this return code from validate * is undefined. */ public static final int IMAGE_INCOMPATIBLE = 2; /** * Returns a static snapshot image of this object. The * BufferedImage returned is only current with * the VolatileImage at the time of the request * and will not be updated with any future changes to the * VolatileImage. * @return a {@link BufferedImage} representation of this * VolatileImage * @see BufferedImage */ public abstract BufferedImage getSnapshot(); /** * Returns the width of the VolatileImage. * @return the width of this VolatileImage. */ public abstract int getWidth(); /** * Returns the height of the VolatileImage. * @return the height of this VolatileImage. */ public abstract int getHeight(); // Image overrides /** * This returns an ImageProducer for this VolatileImage. * Note that the VolatileImage object is optimized for * rendering operations and blitting to the screen or other * VolatileImage objects, as opposed to reading back the * pixels of the image. Therefore, operations such as * getSource may not perform as fast as * operations that do not rely on reading the pixels. * Note also that the pixel values read from the image are current * with those in the image only at the time that they are * retrieved. This method takes a snapshot * of the image at the time the request is made and the * ImageProducer object returned works with * that static snapshot image, not the original VolatileImage. * Calling getSource() * is equivalent to calling getSnapshot().getSource(). * @return an {@link ImageProducer} that can be used to produce the * pixels for a BufferedImage representation of * this Image. * @see ImageProducer * @see #getSnapshot() */ public ImageProducer getSource() { // REMIND: Make sure this functionality is in line with the // spec. In particular, we are returning the Source for a // static image (the snapshot), not a changing image (the // VolatileImage). So if the user expects the Source to be // up-to-date with the current contents of the VolatileImage, // they will be disappointed... // REMIND: This assumes that getSnapshot() returns something // valid and not the default null object returned by this class // (so it assumes that the actual VolatileImage object is // subclassed off something that does the right thing // (e.g., SunVolatileImage). return getSnapshot().getSource(); } // REMIND: if we want any decent performance for getScaledInstance(), // we should override the Image implementation of it... /** * Releases system resources currently consumed by this image. *

* When a VolatileImage object is created, limited system resources * such as video memory (VRAM) may be allocated in order to * support the image. When a VolatileImage object is no longer * used, it may be garbage-collected and those system resources * will be returned, but this process does * not happen at guaranteed times. Applications that create * many VolatileImage objects (for example, a resizing window * may force recreation of its back buffer as the size * changes) may run out of optimal system * resources for new VolatileImage objects simply because the * old objects have not yet been removed from the system. * (New VolatileImage objects may still be created, but they * may not perform as well as those created in accelerated * memory). *

* By calling this flush method, applications can have more control over * the state of the resources taken up by obsolete VolatileImage objects. *