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/*
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* Copyright 2007-2008 Sun Microsystems, Inc. All Rights Reserved.
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* This code is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License version 2 only, as
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* published by the Free Software Foundation. Sun designates this
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* particular file as subject to the "Classpath" exception as provided
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* by Sun in the LICENSE file that accompanied this code.
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*
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* This code is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* version 2 for more details (a copy is included in the LICENSE file that
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* accompanied this code).
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*
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* You should have received a copy of the GNU General Public License version
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* 2 along with this work; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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*
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* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
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* CA 95054 USA or visit www.sun.com if you need additional information or
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* have any questions.
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*/
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package sun.java2d;
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import java.awt.Color;
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import java.awt.Rectangle;
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import java.awt.AlphaComposite;
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import java.awt.GraphicsEnvironment;
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import sun.awt.DisplayChangedListener;
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import sun.java2d.StateTrackable.State;
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import sun.java2d.loops.CompositeType;
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import sun.java2d.loops.SurfaceType;
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import sun.java2d.loops.Blit;
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import sun.java2d.loops.BlitBg;
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import sun.awt.image.SurfaceManager;
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import sun.awt.image.SurfaceManager.FlushableCacheData;
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import java.security.AccessController;
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import sun.security.action.GetPropertyAction;
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/**
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* The proxy class encapsulates the logic for managing alternate
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* SurfaceData representations of a primary SurfaceData.
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* The main class will handle tracking the state changes of the
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* primary SurfaceData and updating the associated SurfaceData
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* proxy variants.
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* <p>
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* Subclasses have 2 main responsibilities:
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* <ul>
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* <li> Override the isSupportedOperation() method to determine if
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* a given operation can be accelerated with a given source
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* SurfaceData
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* <li> Override the validateSurfaceData() method to create or update
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* a given accelerated surface to hold the pixels for the indicated
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* source SurfaceData
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* </ul>
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* If necessary, a subclass may also override the updateSurfaceData
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* method to transfer the pixels to the accelerated surface.
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* By default the parent class will transfer the pixels using a
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* standard Blit operation between the two SurfaceData objects.
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*/
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public abstract class SurfaceDataProxy
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implements DisplayChangedListener, SurfaceManager.FlushableCacheData
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{
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private static boolean cachingAllowed;
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private static int defaultThreshold;
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static {
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cachingAllowed = true;
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String manimg = (String)AccessController.doPrivileged(
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new GetPropertyAction("sun.java2d.managedimages"));
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if (manimg != null && manimg.equals("false")) {
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cachingAllowed = false;
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System.out.println("Disabling managed images");
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}
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defaultThreshold = 1;
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String num = (String)AccessController.doPrivileged(
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new GetPropertyAction("sun.java2d.accthreshold"));
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if (num != null) {
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try {
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int parsed = Integer.parseInt(num);
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if (parsed >= 0) {
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defaultThreshold = parsed;
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System.out.println("New Default Acceleration Threshold: " +
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defaultThreshold);
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}
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} catch (NumberFormatException e) {
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System.err.println("Error setting new threshold:" + e);
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}
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}
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}
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public static boolean isCachingAllowed() {
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return cachingAllowed;
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}
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/**
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* Determine if an alternate form for the srcData is needed
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* and appropriate from the given operational parameters.
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*/
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public abstract boolean isSupportedOperation(SurfaceData srcData,
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int txtype,
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CompositeType comp,
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Color bgColor);
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/**
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* Construct an alternate form of the given SurfaceData.
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* The contents of the returned SurfaceData may be undefined
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* since the calling code will take care of updating the
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* contents with a subsequent call to updateSurfaceData.
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* <p>
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* If the method returns null then there was a problem with
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* allocating the accelerated surface. The getRetryTracker()
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* method will be called to track when to attempt another
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* revalidation.
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*/
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public abstract SurfaceData validateSurfaceData(SurfaceData srcData,
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SurfaceData cachedData,
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int w, int h);
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/**
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* If the subclass is unable to validate or create a cached
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* SurfaceData then this method will be used to get a
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* StateTracker object that will indicate when to attempt
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* to validate the surface again. Subclasses may return
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* trackers which count down an ever increasing threshold
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* to provide hysteresis on creating surfaces during low
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* memory conditions. The default implementation just waits
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* another "threshold" number of accesses before trying again.
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*/
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public StateTracker getRetryTracker(SurfaceData srcData) {
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return new CountdownTracker(threshold);
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}
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public static class CountdownTracker implements StateTracker {
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private int countdown;
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public CountdownTracker(int threshold) {
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this.countdown = threshold;
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}
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public synchronized boolean isCurrent() {
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return (--countdown >= 0);
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}
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}
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/**
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* This instance is for cases where a caching implementation
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* determines that a particular source image will never need
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* to be cached - either the source SurfaceData was of an
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* incompatible type, or it was in an UNTRACKABLE state or
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* some other factor is discovered that permanently prevents
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* acceleration or caching.
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* This class optimally implements NOP variants of all necessary
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* methods to avoid caching with a minimum of fuss.
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*/
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public static SurfaceDataProxy UNCACHED = new SurfaceDataProxy(0) {
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@Override
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public boolean isAccelerated() {
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return false;
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}
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@Override
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public boolean isSupportedOperation(SurfaceData srcData,
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int txtype,
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CompositeType comp,
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Color bgColor)
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{
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return false;
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}
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@Override
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public SurfaceData validateSurfaceData(SurfaceData srcData,
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SurfaceData cachedData,
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int w, int h)
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{
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throw new InternalError("UNCACHED should never validate SDs");
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}
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@Override
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public SurfaceData replaceData(SurfaceData srcData,
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int txtype,
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CompositeType comp,
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Color bgColor)
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{
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// Not necessary to override this, but doing so is faster
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return srcData;
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}
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};
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// The number of attempts to copy from a STABLE source before
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// a cached copy is created or updated.
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private int threshold;
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/*
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* Source tracking data
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*
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* Every time that srcTracker is out of date we will reset numtries
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* to threshold and set the cacheTracker to one that is non-current.
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* numtries will then count down to 0 at which point the cacheTracker
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* will remind us that we need to update the cachedSD before we can
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* use it.
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*
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* Note that since these fields interrelate we should synchronize
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* whenever we update them, but it should be OK to read them
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* without synchronization.
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*/
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private StateTracker srcTracker;
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private int numtries;
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/*
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* Cached data
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*
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* We cache a SurfaceData created by the subclass in cachedSD and
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* track its state (isValid and !surfaceLost) in cacheTracker.
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*
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* Also, when we want to note that cachedSD needs to be updated
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* we replace the cacheTracker with a NEVER_CURRENT tracker which
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* will cause us to try to revalidate and update the surface on
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* next use.
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*/
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private SurfaceData cachedSD;
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private StateTracker cacheTracker;
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/*
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* Are we still the best object to control caching of data
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* for the source image?
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*/
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private boolean valid;
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/**
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* Create a SurfaceData proxy manager that attempts to create
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* and cache a variant copy of the source SurfaceData after
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* the default threshold number of attempts to copy from the
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* STABLE source.
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*/
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public SurfaceDataProxy() {
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this(defaultThreshold);
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}
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/**
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* Create a SurfaceData proxy manager that attempts to create
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* and cache a variant copy of the source SurfaceData after
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* the specified threshold number of attempts to copy from
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* the STABLE source.
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*/
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public SurfaceDataProxy(int threshold) {
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this.threshold = threshold;
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this.srcTracker = StateTracker.NEVER_CURRENT;
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// numtries will be reset on first use
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this.cacheTracker = StateTracker.NEVER_CURRENT;
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this.valid = true;
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}
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/**
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* Returns true iff this SurfaceData proxy is still the best
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* way to control caching of the given source on the given
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* destination.
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*/
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public boolean isValid() {
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return valid;
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}
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/**
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* Sets the valid state to false so that the next time this
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* proxy is fetched to generate a replacement SurfaceData,
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* the code in SurfaceData knows to replace the proxy first.
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*/
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public void invalidate() {
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this.valid = false;
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}
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/**
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* Flush all cached resources as per the FlushableCacheData interface.
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* The deaccelerated parameter indicates if the flush is
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* happening because the associated surface is no longer
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* being accelerated (for instance the acceleration priority
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* is set below the threshold needed for acceleration).
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* Returns a boolean that indicates if the cached object is
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* no longer needed and should be removed from the cache.
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*/
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public boolean flush(boolean deaccelerated) {
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if (deaccelerated) {
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invalidate();
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}
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flush();
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return !isValid();
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}
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/**
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* Actively flushes (drops and invalidates) the cached surface
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* so that it can be reclaimed quickly.
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*/
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public synchronized void flush() {
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SurfaceData csd = this.cachedSD;
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this.cachedSD = null;
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this.cacheTracker = StateTracker.NEVER_CURRENT;
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if (csd != null) {
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csd.flush();
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}
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}
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/**
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* Returns true iff this SurfaceData proxy is still valid
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* and if it has a currently cached replacement that is also
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* valid and current.
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*/
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public boolean isAccelerated() {
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return (isValid() &&
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srcTracker.isCurrent() &&
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cacheTracker.isCurrent());
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}
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/**
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* This method should be called from subclasses which create
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* cached SurfaceData objects that depend on the current
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* properties of the display.
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*/
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protected void activateDisplayListener() {
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GraphicsEnvironment ge =
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GraphicsEnvironment.getLocalGraphicsEnvironment();
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// We could have a HeadlessGE at this point, so double-check before
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// assuming anything.
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// Also, no point in listening to display change events if
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// the image is never going to be accelerated.
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if (ge instanceof SunGraphicsEnvironment) {
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((SunGraphicsEnvironment)ge).addDisplayChangedListener(this);
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}
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}
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/**
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* Invoked when the display mode has changed.
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* This method will invalidate and drop the internal cachedSD object.
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*/
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public void displayChanged() {
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flush();
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}
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/**
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* Invoked when the palette has changed.
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*/
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public void paletteChanged() {
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// We could potentially get away with just resetting cacheTracker
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// here but there is a small window of vulnerability in the
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// replaceData method where we could be just finished with
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// updating the cachedSD when this method is called and even
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// though we set a non-current cacheTracker here it will then
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// immediately get set to a current one by the thread that is
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// updating the cachedSD. It is safer to just replace the
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// srcTracker with a non-current version that will trigger a
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// full update cycle the next time this proxy is used.
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// The downside is having to go through a full threshold count
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// before we can update and use our cache again, but palette
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// changes should be relatively rare...
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this.srcTracker = StateTracker.NEVER_CURRENT;
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}
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/**
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* This method attempts to replace the srcData with a cached version.
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* It relies on the subclass to determine if the cached version will
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* be useful given the operational parameters.
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* This method checks any preexisting cached copy for being "up to date"
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* and tries to update it if it is stale or non-existant and the
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* appropriate number of accesses have occured since it last was stale.
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* <p>
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* An outline of the process is as follows:
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* <ol>
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* <li> Check the operational parameters (txtype, comp, bgColor)
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* to make sure that the operation is supported. Return the
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* original SurfaceData if the operation cannot be accelerated.
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* <li> Check the tracker for the source surface to see if it has
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* remained stable since it was last cached. Update the state
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* variables to cause both a threshold countdown and an update
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* of the cached copy if it is not. (Setting cacheTracker to
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* NEVER_CURRENT effectively marks it as "needing to be updated".)
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* <li> Check the tracker for the cached copy to see if is still
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* valid and up to date. Note that the cacheTracker may be
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* non-current if either something happened to the cached copy
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* (eg. surfaceLost) or if the source was out of date and the
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* cacheTracker was set to NEVER_CURRENT to force an update.
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* Decrement the countdown and copy the source to the cache
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* as necessary and then update the variables to show that
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* the cached copy is stable.
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* </ol>
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*/
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public SurfaceData replaceData(SurfaceData srcData,
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int txtype,
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CompositeType comp,
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Color bgColor)
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{
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if (isSupportedOperation(srcData, txtype, comp, bgColor)) {
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// First deal with tracking the source.
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if (!srcTracker.isCurrent()) {
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synchronized (this) {
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this.numtries = threshold;
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this.srcTracker = srcData.getStateTracker();
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this.cacheTracker = StateTracker.NEVER_CURRENT;
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}
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if (!srcTracker.isCurrent()) {
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// Dynamic or Untrackable (or a very recent modification)
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if (srcData.getState() == State.UNTRACKABLE) {
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// UNTRACKABLE means we can never cache again.
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// Invalidate so we get replaced next time we are used
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// (presumably with an UNCACHED proxy).
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invalidate();
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// Aggressively drop our reference to the cachedSD
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// in case this proxy is not consulted again (and
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// thus replaced) for a long time.
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flush();
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}
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return srcData;
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}
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}
|
|
424 |
|
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425 |
// Then deal with checking the validity of the cached SurfaceData
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SurfaceData csd = this.cachedSD;
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427 |
if (!cacheTracker.isCurrent()) {
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428 |
// Next make sure the dust has settled
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synchronized (this) {
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430 |
if (numtries > 0) {
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--numtries;
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432 |
return srcData;
|
|
433 |
}
|
|
434 |
}
|
|
435 |
|
|
436 |
Rectangle r = srcData.getBounds();
|
|
437 |
int w = r.width;
|
|
438 |
int h = r.height;
|
|
439 |
|
|
440 |
// Snapshot the tracker in case it changes while
|
|
441 |
// we are updating the cached SD...
|
|
442 |
StateTracker curTracker = srcTracker;
|
|
443 |
|
|
444 |
csd = validateSurfaceData(srcData, csd, w, h);
|
|
445 |
if (csd == null) {
|
|
446 |
synchronized (this) {
|
|
447 |
if (curTracker == srcTracker) {
|
|
448 |
this.cacheTracker = getRetryTracker(srcData);
|
|
449 |
this.cachedSD = null;
|
|
450 |
}
|
|
451 |
}
|
|
452 |
return srcData;
|
|
453 |
}
|
|
454 |
|
|
455 |
updateSurfaceData(srcData, csd, w, h);
|
|
456 |
if (!csd.isValid()) {
|
|
457 |
return srcData;
|
|
458 |
}
|
|
459 |
|
|
460 |
synchronized (this) {
|
|
461 |
// We only reset these variables if the tracker from
|
|
462 |
// before the surface update is still in use and current
|
|
463 |
// Note that we must use a srcTracker that was fetched
|
|
464 |
// from before the update process to make sure that we
|
|
465 |
// do not lose some pixel changes in the shuffle.
|
|
466 |
if (curTracker == srcTracker && curTracker.isCurrent()) {
|
|
467 |
this.cacheTracker = csd.getStateTracker();
|
|
468 |
this.cachedSD = csd;
|
|
469 |
}
|
|
470 |
}
|
|
471 |
}
|
|
472 |
|
|
473 |
if (csd != null) {
|
|
474 |
return csd;
|
|
475 |
}
|
|
476 |
}
|
|
477 |
|
|
478 |
return srcData;
|
|
479 |
}
|
|
480 |
|
|
481 |
/**
|
|
482 |
* This is the default implementation for updating the cached
|
|
483 |
* SurfaceData from the source (primary) SurfaceData.
|
|
484 |
* A simple Blit is used to copy the pixels from the source to
|
|
485 |
* the destination SurfaceData.
|
|
486 |
* A subclass can override this implementation if a more complex
|
|
487 |
* operation is required to update its cached copies.
|
|
488 |
*/
|
|
489 |
public void updateSurfaceData(SurfaceData srcData,
|
|
490 |
SurfaceData dstData,
|
|
491 |
int w, int h)
|
|
492 |
{
|
|
493 |
SurfaceType srcType = srcData.getSurfaceType();
|
|
494 |
SurfaceType dstType = dstData.getSurfaceType();
|
|
495 |
Blit blit = Blit.getFromCache(srcType,
|
|
496 |
CompositeType.SrcNoEa,
|
|
497 |
dstType);
|
|
498 |
blit.Blit(srcData, dstData,
|
|
499 |
AlphaComposite.Src, null,
|
|
500 |
0, 0, 0, 0, w, h);
|
|
501 |
dstData.markDirty();
|
|
502 |
}
|
|
503 |
|
|
504 |
/**
|
|
505 |
* This is an alternate implementation for updating the cached
|
|
506 |
* SurfaceData from the source (primary) SurfaceData using a
|
|
507 |
* background color for transparent pixels.
|
|
508 |
* A simple BlitBg is used to copy the pixels from the source to
|
|
509 |
* the destination SurfaceData with the specified bgColor.
|
|
510 |
* A subclass can override the normal updateSurfaceData method
|
|
511 |
* and call this implementation instead if it wants to use color
|
|
512 |
* keying for bitmask images.
|
|
513 |
*/
|
|
514 |
public void updateSurfaceDataBg(SurfaceData srcData,
|
|
515 |
SurfaceData dstData,
|
|
516 |
int w, int h, Color bgColor)
|
|
517 |
{
|
|
518 |
SurfaceType srcType = srcData.getSurfaceType();
|
|
519 |
SurfaceType dstType = dstData.getSurfaceType();
|
|
520 |
BlitBg blitbg = BlitBg.getFromCache(srcType,
|
|
521 |
CompositeType.SrcNoEa,
|
|
522 |
dstType);
|
|
523 |
blitbg.BlitBg(srcData, dstData,
|
887
|
524 |
AlphaComposite.Src, null, bgColor.getRGB(),
|
2
|
525 |
0, 0, 0, 0, w, h);
|
|
526 |
dstData.markDirty();
|
|
527 |
}
|
|
528 |
}
|