Package java.awt

Source Code of java.awt.GraphicsDevice

/*
* @(#)GraphicsDevice.java  1.44 08/02/12
*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/


package java.awt;

import java.awt.image.ColorModel;
import sun.awt.AppContext;
import sun.awt.AWTAccessor;

/**
* The <code>GraphicsDevice</code> class describes the graphics devices
* that might be available in a particular graphics environment.  These
* include screen and printer devices. Note that there can be many screens
* and many printers in an instance of {@link GraphicsEnvironment}. Each
* graphics device has one or more {@link GraphicsConfiguration} objects
* associated with it.  These objects specify the different configurations
* in which the <code>GraphicsDevice</code> can be used.
* <p> 
* In a multi-screen environment, the <code>GraphicsConfiguration</code>
* objects can be used to render components on multiple screens.  The
* following code sample demonstrates how to create a <code>JFrame</code>
* object for each <code>GraphicsConfiguration</code> on each screen
* device in the <code>GraphicsEnvironment</code>:
* <pre>
*   GraphicsEnvironment ge = GraphicsEnvironment.
*   getLocalGraphicsEnvironment();
*   GraphicsDevice[] gs = ge.getScreenDevices();
*   for (int j = 0; j < gs.length; j++) {
*      GraphicsDevice gd = gs[j];
*      GraphicsConfiguration[] gc =
*   gd.getConfigurations();
*      for (int i=0; i < gc.length; i++) {
*         JFrame f = new
*         JFrame(gs[j].getDefaultConfiguration());
*         Canvas c = new Canvas(gc[i]);
*         Rectangle gcBounds = gc[i].getBounds();
*         int xoffs = gcBounds.x;
*         int yoffs = gcBounds.y;
*     f.getContentPane().add(c);
*     f.setLocation((i*50)+xoffs, (i*60)+yoffs);
*         f.show();
*      }
*   }
* </pre>
* <p>
* For more information on full-screen exclusive mode API, see the
* <a href="http://java.sun.com/docs/books/tutorial/extra/fullscreen/index.html">
* Full-Screen Exclusive Mode API Tutorial</a>.
*
* @see GraphicsEnvironment
* @see GraphicsConfiguration
* @version 1.44, 02/12/08
*/
public abstract class GraphicsDevice {

    private Window fullScreenWindow;
    private AppContext fullScreenAppContext; // tracks which AppContext
               // created the FS window
    // this lock is used for making synchronous changes to the AppContext's
    // current full screen window
    private final Object fsAppContextLock = new Object();
   
    private Rectangle windowedModeBounds;
   
    /**
     * This is an abstract class that cannot be instantiated directly.
     * Instances must be obtained from a suitable factory or query method.
     * @see GraphicsEnvironment#getScreenDevices
     * @see GraphicsEnvironment#getDefaultScreenDevice
     * @see GraphicsConfiguration#getDevice
     */
    protected GraphicsDevice() {
    }

    /**
     * Device is a raster screen.
     */
    public final static int TYPE_RASTER_SCREEN    = 0;

    /**
     * Device is a printer.
     */
    public final static int TYPE_PRINTER    = 1;

    /**
     * Device is an image buffer.  This buffer can reside in device
     * or system memory but it is not physically viewable by the user.
     */
    public final static int TYPE_IMAGE_BUFFER           = 2;
   
    /**
     * Returns the type of this <code>GraphicsDevice</code>.
     * @return the type of this <code>GraphicsDevice</code>, which can
     * either be TYPE_RASTER_SCREEN, TYPE_PRINTER or TYPE_IMAGE_BUFFER.
     * @see #TYPE_RASTER_SCREEN
     * @see #TYPE_PRINTER
     * @see #TYPE_IMAGE_BUFFER
     */
    public abstract int getType();

    /**
     * Returns the identification string associated with this
     * <code>GraphicsDevice</code>.
     * <p>
     * A particular program might use more than one
     * <code>GraphicsDevice</code> in a <code>GraphicsEnvironment</code>.
     * This method returns a <code>String</code> identifying a
     * particular <code>GraphicsDevice</code> in the local
     * <code>GraphicsEnvironment</code>.  Although there is
     * no public method to set this <code>String</code>, a programmer can
     * use the <code>String</code> for debugging purposes.  Vendors of
     * the Java<sup><font size=-2>TM</font></sup> Runtime Environment can
     * format the return value of the <code>String</code>.  To determine
     * how to interpret the value of the <code>String</code>, contact the
     * vendor of your Java Runtime.  To find out who the vendor is, from
     * your program, call the
     * {@link System#getProperty(String) getProperty} method of the
     * System class with "java.vendor".
     * @return a <code>String</code> that is the identification
     * of this <code>GraphicsDevice</code>.
     */
    public abstract String getIDstring();
   
    /**
     * Returns all of the <code>GraphicsConfiguration</code>
     * objects associated with this <code>GraphicsDevice</code>.
     * @return an array of <code>GraphicsConfiguration</code>
     * objects that are associated with this
     * <code>GraphicsDevice</code>.
     */
    public abstract GraphicsConfiguration[] getConfigurations();

    /**
     * Returns the default <code>GraphicsConfiguration</code>
     * associated with this <code>GraphicsDevice</code>.
     * @return the default <code>GraphicsConfiguration</code>
     * of this <code>GraphicsDevice</code>.
     */
    public abstract GraphicsConfiguration getDefaultConfiguration();

    /**
     * Returns the "best" configuration possible that passes the
     * criteria defined in the {@link GraphicsConfigTemplate}.
     * @param gct the <code>GraphicsConfigTemplate</code> object
     * used to obtain a valid <code>GraphicsConfiguration</code>
     * @return a <code>GraphicsConfiguration</code> that passes
     * the criteria defined in the specified
     * <code>GraphicsConfigTemplate</code>.
     * @see GraphicsConfigTemplate
     */
    public GraphicsConfiguration
           getBestConfiguration(GraphicsConfigTemplate gct) {
        GraphicsConfiguration[] configs = getConfigurations();
        return gct.getBestConfiguration(configs);
    }
    /**
     * Returns <code>true</code> if this <code>GraphicsDevice</code>
     * supports full-screen exclusive mode.
     * If a SecurityManager is installed, its
     * <code>checkPermission</code> method will be called
     * with <code>AWTPermission("fullScreenExclusive")</code>.
     * <code>isFullScreenSupported</code> returns true only if
     * that permission is granted.
     * @return whether full-screen exclusive mode is available for
     * this graphics device
     * @see java.awt.AWTPermission
     * @since 1.4
     */
    public boolean isFullScreenSupported() {
        return false;
    }
   
    /**
     * Enter full-screen mode, or return to windowed mode.  The entered
     * full-screen mode may be either exclusive or simulated.  Exclusive
     * mode is only available if <code>isFullScreenSupported</code>
     * returns <code>true</code>.
     * <p>
     * Exclusive mode implies:
     * <ul>
     * <li>Windows cannot overlap the full-screen window.  All other application
     * windows will always appear beneath the full-screen window in the Z-order.
     * <li>There can be only one full-screen window on a device at any time,
     * so calling this method while there is an existing full-screen Window
     * will cause the existing full-screen window to
     * return to windowed mode.
     * <li>Input method windows are disabled.  It is advisable to call
     * <code>Component.enableInputMethods(false)</code> to make a component
     * a non-client of the input method framework.
     * </ul>
     * <p>
     * Simulated full-screen mode resizes
     * the window to the size of the screen and positions it at (0,0).
     * <p>
     * When entering full-screen mode, if the window to be used as the
     * full-screen window is not visible, this method will make it visible.
     * It will remain visible when returning to windowed mode. 
     * <p>
     * When returning to windowed mode from an exclusive full-screen window, any
     * display changes made by calling <code>setDisplayMode</code> are
     * automatically restored to their original state.
     *
     * @param w a window to use as the full-screen window; <code>null</code>
     * if returning to windowed mode.  Some platforms expect the
     * fullscreen window to be a top-level component (i.e., a Frame);
     * therefore it is preferable to use a Frame here rather than a
     * Window.
     * @see #isFullScreenSupported
     * @see #getFullScreenWindow
     * @see #setDisplayMode
     * @see Component#enableInputMethods
     * @see Component#setVisible
     * @since 1.4
     */
    public void setFullScreenWindow(Window w) {
        if (w != null) {
            //XXX: The actions should be documented in some non-update release.
            if (AWTAccessor.getWindowAccessor().getShape(w) != null) {
                AWTAccessor.getWindowAccessor().setShape(w, null);
            }
            if (!AWTAccessor.getWindowAccessor().isOpaque(w)) {
                AWTAccessor.getWindowAccessor().setOpaque(w, true);
            }
            if (AWTAccessor.getWindowAccessor().getOpacity(w) < 1.0f) {
                AWTAccessor.getWindowAccessor().setOpacity(w, 1.0f);
            }
        }

        if (fullScreenWindow != null && windowedModeBounds != null) {
            // if the window went into fs mode before it was realized it may
            // have (0,0) dimensions
            if (windowedModeBounds.width  == 0) windowedModeBounds.width  = 1;
            if (windowedModeBounds.height == 0) windowedModeBounds.height = 1;
            fullScreenWindow.setBounds(windowedModeBounds);
  }
        // Set the full screen window
        synchronized (fsAppContextLock) {
      // Associate fullscreen window with current AppContext
      if (w == null) {
    fullScreenAppContext = null;
      } else {
    fullScreenAppContext = AppContext.getAppContext();
      }
      fullScreenWindow = w;
  }
        if (fullScreenWindow != null) {
            windowedModeBounds = fullScreenWindow.getBounds();
            // Note that we use the graphics configuration of the device,
            // not the window's, because we're setting the fs window for
            // this device.
            Rectangle screenBounds = getDefaultConfiguration().getBounds();
            fullScreenWindow.setBounds(screenBounds.x, screenBounds.y,
                                       screenBounds.width, screenBounds.height);
            fullScreenWindow.setVisible(true);
            fullScreenWindow.toFront();
        }
    }
   
    /**
     * Returns the <code>Window</code> object representing the
     * full-screen window if the device is in full-screen mode.
     *
     * @return the full-screen window, or <code>null</code> if the device is
     * not in full-screen mode.
     * @see #setFullScreenWindow(Window)
     * @since 1.4
     */
    public Window getFullScreenWindow() {
  Window returnWindow = null;
        synchronized (fsAppContextLock) {
      // Only return a handle to the current fs window if we are in the
      // same AppContext that set the fs window
      if (fullScreenAppContext == AppContext.getAppContext()) {
    returnWindow = fullScreenWindow;
      }
  }
        return returnWindow;
    }
   
    /**
     * Returns <code>true</code> if this <code>GraphicsDevice</code>
     * supports low-level display changes.
     * On some platforms low-level display changes may only be allowed in
     * full-screen exclusive mode (i.e., if {@link #isFullScreenSupported()}
     * returns {@code true} and the application has already entered
     * full-screen mode using {@link #setFullScreenWindow}).
     * @return whether low-level display changes are supported for this
     * graphics device.
     * @see #isFullScreenSupported
     * @see #setDisplayMode
     * @see #setFullScreenWindow
     * @since 1.4
     */
    public boolean isDisplayChangeSupported() {
        return false;
    }
   
    /**
     * Sets the display mode of this graphics device. This is only allowed
     * if {@link #isDisplayChangeSupported()} returns {@code true} and may
     * require first entering full-screen exclusive mode using
     * {@link #setFullScreenWindow} providing that full-screen exclusive mode is
     * supported (i.e., {@link #isFullScreenSupported()} returns
     * {@code true}).
     * <p>
     *
     * The display mode must be one of the display modes returned by
     * {@link #getDisplayModes()}, with one exception: passing a display mode
     * with {@link DisplayMode#REFRESH_RATE_UNKNOWN} refresh rate will result in
     * selecting a display mode from the list of available display modes with
     * matching width, height and bit depth.
     * However, passing a display mode with {@link DisplayMode#BIT_DEPTH_MULTI}
     * for bit depth is only allowed if such mode exists in the list returned by
     * {@link #getDisplayModes()}.
     * <p>
     * Example code:
     * <pre><code>
     * Frame frame;
     * DisplayMode newDisplayMode;
     * GraphicsDevice gd;
     * // create a Frame, select desired DisplayMode from the list of modes
     * // returned by gd.getDisplayModes() ...
     *
     * if (gd.isFullScreenSupported()) {
     *     gd.setFullScreenWindow(frame);
     * } else {
     *    // proceed in non-full-screen mode
     *    frame.setSize(...);
     *    frame.setLocation(...);
     *    frame.setVisible(true);
     * }
     *
     * if (gd.isDisplayChangeSupported()) {
     *     gd.setDisplayMode(newDisplayMode);
     * }
     * </code></pre>
     *
     * @param dm The new display mode of this graphics device.
     * @exception IllegalArgumentException if the <code>DisplayMode</code>
     * supplied is <code>null</code>, or is not available in the array returned
     * by <code>getDisplayModes</code>
     * @exception UnsupportedOperationException if
     * <code>isDisplayChangeSupported</code> returns <code>false</code>
     * @see #getDisplayMode
     * @see #getDisplayModes
     * @see #isDisplayChangeSupported
     * @since 1.4
     */
    public void setDisplayMode(DisplayMode dm) {
        throw new UnsupportedOperationException("Cannot change display mode");
    }
   
    /**
     * Returns the current display mode of this
     * <code>GraphicsDevice</code>.
     * The returned display mode is allowed to have a refresh rate
     * {@link DisplayMode#REFRESH_RATE_UNKNOWN} if it is indeterminate.
     * Likewise, the returned display mode is allowed to have a bit depth
     * {@link DisplayMode#BIT_DEPTH_MULTI} if it is indeterminate or if multiple
     * bit depths are supported.
     * @return the current display mode of this graphics device.
     * @see #setDisplayMode(DisplayMode)
     * @since 1.4
     */
    public DisplayMode getDisplayMode() {
        GraphicsConfiguration gc = getDefaultConfiguration();
        Rectangle r = gc.getBounds();
        ColorModel cm = gc.getColorModel();
        return new DisplayMode(r.width, r.height, cm.getPixelSize(), 0);
    }
   
    /**
     * Returns all display modes available for this     
     * <code>GraphicsDevice</code>.
     * The returned display modes are allowed to have a refresh rate
     * {@link DisplayMode#REFRESH_RATE_UNKNOWN} if it is indeterminate.
     * Likewise, the returned display modes are allowed to have a bit depth
     * {@link DisplayMode#BIT_DEPTH_MULTI} if it is indeterminate or if multiple
     * bit depths are supported.
     * @return all of the display modes available for this graphics device.
     * @since 1.4
     */
    public DisplayMode[] getDisplayModes() {
        return new DisplayMode[] { getDisplayMode() };
    }

    /**
     * This method returns the number of bytes available in
     * accelerated memory on this device.
     * Some images are created or cached
     * in accelerated memory on a first-come,
     * first-served basis.  On some operating systems,
     * this memory is a finite resource.  Calling this method
     * and scheduling the creation and flushing of images carefully may
     * enable applications to make the most efficient use of
     * that finite resource.
     * <br>
     * Note that the number returned is a snapshot of how much
     * memory is available; some images may still have problems
     * being allocated into that memory.  For example, depending
     * on operating system, driver, memory configuration, and
     * thread situations, the full extent of the size reported
     * may not be available for a given image.  There are further
     * inquiry methods on the {@link ImageCapabilities} object
     * associated with a VolatileImage that can be used to determine
     * whether a particular VolatileImage has been created in accelerated
     * memory.
     * @return number of bytes available in accelerated memory.
     * A negative return value indicates that the amount of accelerated memory
     * on this GraphicsDevice is indeterminate.
     * @see java.awt.image.VolatileImage#flush
     * @see ImageCapabilities#isAccelerated
     * @since 1.4
     */
    public int getAvailableAcceleratedMemory() {
  return -1;
    }
}
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