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package sun.awt;

import java.awt.*;
import java.util.*;

import sun.java2d.*;

This is an implementation of a GraphicsEnvironment object for the default local GraphicsEnvironment used by the Java Runtime Environment for Mac OS X GUI environments.
See Also:
/** * This is an implementation of a GraphicsEnvironment object for the default * local GraphicsEnvironment used by the Java Runtime Environment for Mac OS X * GUI environments. * * @see GraphicsDevice * @see GraphicsConfiguration */
public final class CGraphicsEnvironment extends SunGraphicsEnvironment {
Fetch an array of all valid CoreGraphics display identifiers.
/** * Fetch an array of all valid CoreGraphics display identifiers. */
private static native int[] getDisplayIDs();
Fetch the CoreGraphics display ID for the 'main' display.
/** * Fetch the CoreGraphics display ID for the 'main' display. */
private static native int getMainDisplayID();
Noop function that just acts as an entry point for someone to force a static initialization of this class.
/** * Noop function that just acts as an entry point for someone to force a * static initialization of this class. */
public static void init() { } static { // Load libraries and initialize the Toolkit. Toolkit.getDefaultToolkit(); // Install the correct surface manager factory. SurfaceManagerFactory.setInstance(new MacosxSurfaceManagerFactory()); }
Register the instance with CGDisplayRegisterReconfigurationCallback(). The registration uses a weak global reference -- if our instance is garbage collected, the reference will be dropped.
Returns:Return the registration context (a pointer).
/** * Register the instance with CGDisplayRegisterReconfigurationCallback(). * The registration uses a weak global reference -- if our instance is * garbage collected, the reference will be dropped. * * @return Return the registration context (a pointer). */
private native long registerDisplayReconfiguration();
Remove the instance's registration with CGDisplayRemoveReconfigurationCallback()
/** * Remove the instance's registration with CGDisplayRemoveReconfigurationCallback() */
private native void deregisterDisplayReconfiguration(long context);
Available CoreGraphics displays.
/** Available CoreGraphics displays. */
private final Map<Integer, CGraphicsDevice> devices = new HashMap<>(5);
The key in the devices for the main display.
/** * The key in the {@link #devices} for the main display. */
private int mainDisplayID;
Reference to the display reconfiguration callback context.
/** Reference to the display reconfiguration callback context. */
private final long displayReconfigContext;
Construct a new instance.
/** * Construct a new instance. */
public CGraphicsEnvironment() { if (isHeadless()) { displayReconfigContext = 0L; return; } /* Populate the device table */ initDevices(); /* Register our display reconfiguration listener */ displayReconfigContext = registerDisplayReconfiguration(); if (displayReconfigContext == 0L) { throw new RuntimeException("Could not register CoreGraphics display reconfiguration callback"); } }
Called by the CoreGraphics Display Reconfiguration Callback.
Params:
  • displayId – CoreGraphics displayId
  • removed – true if displayId was removed, false otherwise.
/** * Called by the CoreGraphics Display Reconfiguration Callback. * * @param displayId CoreGraphics displayId * @param removed true if displayId was removed, false otherwise. */
void _displayReconfiguration(final int displayId, final boolean removed) { synchronized (this) { if (removed && devices.containsKey(displayId)) { final CGraphicsDevice gd = devices.remove(displayId); gd.invalidate(getMainDisplayID()); gd.displayChanged(); } } initDevices(); } @Override @SuppressWarnings("deprecation") protected void finalize() throws Throwable { try { super.finalize(); } finally { deregisterDisplayReconfiguration(displayReconfigContext); } }
(Re)create all CGraphicsDevices, reuses a devices if it is possible.
/** * (Re)create all CGraphicsDevices, reuses a devices if it is possible. */
private void initDevices() { synchronized (this) { final Map<Integer, CGraphicsDevice> old = new HashMap<>(devices); devices.clear(); mainDisplayID = getMainDisplayID(); // initialization of the graphics device may change // list of displays on hybrid systems via an activation // of discrete video. // So, we initialize the main display first, and then // retrieve actual list of displays. if (!old.containsKey(mainDisplayID)) { old.put(mainDisplayID, new CGraphicsDevice(mainDisplayID)); } for (final int id : getDisplayIDs()) { devices.put(id, old.containsKey(id) ? old.get(id) : new CGraphicsDevice(id)); } } displayChanged(); } @Override public synchronized GraphicsDevice getDefaultScreenDevice() throws HeadlessException { CGraphicsDevice d = devices.get(mainDisplayID); if (d == null) { // we do not expect that this may happen, the only response // is to re-initialize the list of devices initDevices(); d = devices.get(mainDisplayID); if (d == null) { throw new AWTError("no screen devices"); } } return d; } @Override public synchronized GraphicsDevice[] getScreenDevices() throws HeadlessException { return devices.values().toArray(new CGraphicsDevice[devices.values().size()]); } public synchronized GraphicsDevice getScreenDevice(int displayID) { return devices.get(displayID); } @Override protected synchronized int getNumScreens() { return devices.size(); } @Override protected GraphicsDevice makeScreenDevice(int screennum) { throw new UnsupportedOperationException("This method is unused and should not be called in this implementation"); } @Override public boolean isDisplayLocal() { return true; } static String[] sLogicalFonts = { "Serif", "SansSerif", "Monospaced", "Dialog", "DialogInput" }; @Override public Font[] getAllFonts() { Font[] newFonts; Font[] superFonts = super.getAllFonts(); int numLogical = sLogicalFonts.length; int numOtherFonts = superFonts.length; newFonts = new Font[numOtherFonts + numLogical]; System.arraycopy(superFonts,0,newFonts,numLogical,numOtherFonts); for (int i = 0; i < numLogical; i++) { newFonts[i] = new Font(sLogicalFonts[i], Font.PLAIN, 1); } return newFonts; } }