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|
/*
* Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved.
* Copyright (c) 2010 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* - Redistribution of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* - Redistribution in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* Neither the name of Sun Microsystems, Inc. or the names of
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* This software is provided "AS IS," without a warranty of any kind. ALL
* EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES,
* INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN
* MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR
* ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR
* DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR
* ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR
* DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE
* DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY,
* ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF
* SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
*
* You acknowledge that this software is not designed or intended for use
* in the design, construction, operation or maintenance of any nuclear
* facility.
*
* Sun gratefully acknowledges that this software was originally authored
* and developed by Kenneth Bradley Russell and Christopher John Kline.
*/
package jogamp.opengl;
import java.util.ArrayList;
import java.util.List;
import java.util.HashSet;
import javax.media.nativewindow.NativeSurface;
import javax.media.nativewindow.NativeWindowException;
import javax.media.nativewindow.ProxySurface;
import javax.media.nativewindow.UpstreamSurfaceHook;
import javax.media.opengl.GLAnimatorControl;
import javax.media.opengl.GLAutoDrawable;
import javax.media.opengl.GLContext;
import javax.media.opengl.GLDrawable;
import javax.media.opengl.GLDrawableFactory;
import javax.media.opengl.GLEventListener;
import javax.media.opengl.GLException;
import javax.media.opengl.GLFBODrawable;
import javax.media.opengl.GLRunnable;
import com.jogamp.opengl.util.Animator;
/** Encapsulates the implementation of most of the GLAutoDrawable's
methods to be able to share it between GLCanvas and GLJPanel. */
public class GLDrawableHelper {
/** true if property <code>jogl.debug.GLDrawable.PerfStats</code> is defined. */
private static final boolean PERF_STATS = Debug.isPropertyDefined("jogl.debug.GLDrawable.PerfStats", true);
protected static final boolean DEBUG = GLDrawableImpl.DEBUG;
private final Object listenersLock = new Object();
private final ArrayList<GLEventListener> listeners = new ArrayList<GLEventListener>();
private final HashSet<GLEventListener> listenersToBeInit = new HashSet<GLEventListener>();
private final Object glRunnablesLock = new Object();
private volatile ArrayList<GLRunnableTask> glRunnables = new ArrayList<GLRunnableTask>();
private boolean autoSwapBufferMode;
private Thread skipContextReleaseThread;
private GLAnimatorControl animatorCtrl;
private static Runnable nop = new Runnable() { public void run() {} };
public GLDrawableHelper() {
reset();
}
public final void reset() {
synchronized(listenersLock) {
listeners.clear();
listenersToBeInit.clear();
}
autoSwapBufferMode = true;
skipContextReleaseThread = null;
synchronized(glRunnablesLock) {
glRunnables.clear();
}
animatorCtrl = null;
}
@Override
public final String toString() {
StringBuilder sb = new StringBuilder();
sb.append("GLAnimatorControl: "+animatorCtrl+", ");
synchronized(listenersLock) {
sb.append("GLEventListeners num "+listeners.size()+" [");
for (int i=0; i < listeners.size(); i++) {
Object l = listeners.get(i);
sb.append(l);
sb.append("[init ");
sb.append( !listenersToBeInit.contains(l) );
sb.append("], ");
}
}
sb.append("]");
return sb.toString();
}
/**
* Associate a new context to the drawable and also propagates the context/drawable switch by
* calling {@link GLContext#setGLDrawable(GLDrawable, boolean) newCtx.setGLDrawable(drawable, true);}.
* <p>
* If the old or new context was current on this thread, it is being released before switching the drawable.
* </p>
* <p>
* Be aware that the old context is still bound to the drawable,
* and that one context can only bound to one drawable at one time!
* </p>
* <p>
* No locking is being performed on the drawable, caller is required to take care of it.
* </p>
*
* @param drawable the drawable which context is changed
* @param oldCtx the old context
* @param newCtx the new context
* @param newCtxCreationFlags additional creation flags if newCtx is not null and not been created yet, see {@link GLContext#setContextCreationFlags(int)}
* @return true if the new context was current, otherwise false
*
* @see GLAutoDrawable#setContext(GLContext)
*/
public static final boolean switchContext(GLDrawable drawable, GLContext oldCtx, GLContext newCtx, int newCtxCreationFlags) {
if( null != oldCtx && oldCtx.isCurrent() ) {
oldCtx.release();
}
final boolean newCtxCurrent;
if(null!=newCtx) {
newCtxCurrent = newCtx.isCurrent();
if(newCtxCurrent) {
newCtx.release();
}
newCtx.setContextCreationFlags(newCtxCreationFlags);
newCtx.setGLDrawable(drawable, true); // propagate context/drawable switch
} else {
newCtxCurrent = false;
}
return newCtxCurrent;
}
/**
* If the drawable is not realized, OP is a NOP.
* <ul>
* <li>release context if current</li>
* <li>destroy old drawable</li>
* <li>create new drawable</li>
* <li>attach new drawable to context</li>
* <li>make context current, if it was current</li>
* </ul>
* <p>
* No locking is being performed, caller is required to take care of it.
* </p>
*
* @param drawable
* @param context maybe null
* @return the new drawable
*/
public static final GLDrawableImpl recreateGLDrawable(GLDrawableImpl drawable, GLContext context) {
if( ! drawable.isRealized() ) {
return drawable;
}
final GLContext currentContext = GLContext.getCurrent();
final GLDrawableFactory factory = drawable.getFactory();
final NativeSurface surface = drawable.getNativeSurface();
final ProxySurface proxySurface = (surface instanceof ProxySurface) ? (ProxySurface)surface : null;
if( null != context ) {
// Ensure to sync GL command stream
if( currentContext != context ) {
context.makeCurrent();
}
context.getGL().glFinish();
context.release();
}
if(null != proxySurface) {
proxySurface.enableUpstreamSurfaceHookLifecycle(false);
}
try {
drawable.setRealized(false);
drawable = (GLDrawableImpl) factory.createGLDrawable(surface); // [2]
drawable.setRealized(true);
} finally {
if(null != proxySurface) {
proxySurface.enableUpstreamSurfaceHookLifecycle(true);
}
}
if(null != context) {
context.setGLDrawable(drawable, true); // re-association
}
if( null != currentContext ) {
currentContext.makeCurrent();
}
return drawable;
}
/**
* Performs resize operation on the given drawable, assuming it is offscreen.
* <p>
* The {@link GLDrawableImpl}'s {@link NativeSurface} is being locked during operation.
* In case the holder is an auto drawable or similar, it's lock shall be claimed by the caller.
* </p>
* <p>
* May recreate the drawable via {@link #recreateGLDrawable(GLDrawableImpl, GLContext)}
* in case of a a pbuffer- or pixmap-drawable.
* </p>
* <p>
* FBO drawables are resized w/o drawable destruction.
* </p>
* <p>
* Offscreen resize operation is validated w/ drawable size in the end.
* An exception is thrown if not successful.
* </p>
*
* @param drawable
* @param context
* @param newWidth the new width, it's minimum is capped to 1
* @param newHeight the new height, it's minimum is capped to 1
* @return the new drawable in case of an pbuffer/pixmap drawable, otherwise the passed drawable is being returned.
* @throws NativeWindowException is drawable is not offscreen or it's surface lock couldn't be claimed
* @throws GLException may be thrown a resize operation
*/
public static final GLDrawableImpl resizeOffscreenDrawable(GLDrawableImpl drawable, GLContext context, int newWidth, int newHeight)
throws NativeWindowException, GLException
{
if(drawable.getChosenGLCapabilities().isOnscreen()) {
throw new NativeWindowException("Drawable is not offscreen: "+drawable);
}
final NativeSurface ns = drawable.getNativeSurface();
final int lockRes = ns.lockSurface();
if (NativeSurface.LOCK_SURFACE_NOT_READY >= lockRes) {
throw new NativeWindowException("Could not lock surface of drawable: "+drawable);
}
boolean validateSize = true;
try {
if(DEBUG && ( 0>=newWidth || 0>=newHeight) ) {
System.err.println("WARNING: Odd size detected: "+newWidth+"x"+newHeight+", using safe size 1x1. Drawable "+drawable);
Thread.dumpStack();
}
if(0>=newWidth) { newWidth = 1; validateSize=false; }
if(0>=newHeight) { newHeight = 1; validateSize=false; }
// propagate new size
if(ns instanceof ProxySurface) {
final ProxySurface ps = (ProxySurface) ns;
final UpstreamSurfaceHook ush = ps.getUpstreamSurfaceHook();
if(ush instanceof UpstreamSurfaceHook.MutableSize) {
((UpstreamSurfaceHook.MutableSize)ush).setSize(newWidth, newHeight);
} else if(DEBUG) { // we have to assume UpstreamSurfaceHook contains the new size already, hence size check @ bottom
System.err.println("GLDrawableHelper.resizeOffscreenDrawable: Drawable's offscreen ProxySurface n.a. UpstreamSurfaceHook.MutableSize, but "+ush.getClass().getName()+": "+ush);
}
} else if(DEBUG) { // we have to assume surface contains the new size already, hence size check @ bottom
System.err.println("GLDrawableHelper.resizeOffscreenDrawable: Drawable's offscreen surface n.a. ProxySurface, but "+ns.getClass().getName()+": "+ns);
}
if(drawable instanceof GLFBODrawable) {
if( null != context && context.isCreated() ) {
((GLFBODrawable) drawable).resetSize(context.getGL());
}
} else {
drawable = GLDrawableHelper.recreateGLDrawable(drawable, context);
}
} finally {
ns.unlockSurface();
}
if( validateSize && ( drawable.getWidth() != newWidth || drawable.getHeight() != newHeight ) ) {
throw new InternalError("Incomplete resize operation: expected "+newWidth+"x"+newHeight+", has: "+drawable);
}
return drawable;
}
public final void addGLEventListener(GLEventListener listener) {
addGLEventListener(-1, listener);
}
public final void addGLEventListener(int index, GLEventListener listener) {
synchronized(listenersLock) {
if(0>index) {
index = listeners.size();
}
// GLEventListener may be added after context is created,
// hence we earmark initialization for the next display call.
listenersToBeInit.add(listener);
listeners.add(index, listener);
}
}
/**
* Note that no {@link GLEventListener#dispose(GLAutoDrawable)} call is being issued
* due to the lack of a current context.
* Consider calling {@link #disposeGLEventListener(GLAutoDrawable, GLDrawable, GLContext, GLEventListener)}.
* @return the removed listener, or null if listener was not added
*/
public final GLEventListener removeGLEventListener(GLEventListener listener) {
synchronized(listenersLock) {
listenersToBeInit.remove(listener);
return listeners.remove(listener) ? listener : null;
}
}
public final GLEventListener removeGLEventListener(int index) throws IndexOutOfBoundsException {
synchronized(listenersLock) {
if(0>index) {
index = listeners.size()-1;
}
final GLEventListener listener = listeners.remove(index);
listenersToBeInit.remove(listener);
return listener;
}
}
public final int getGLEventListenerCount() {
synchronized(listenersLock) {
return listeners.size();
}
}
public final GLEventListener getGLEventListener(int index) throws IndexOutOfBoundsException {
synchronized(listenersLock) {
if(0>index) {
index = listeners.size()-1;
}
return listeners.get(index);
}
}
public final boolean getGLEventListenerInitState(GLEventListener listener) {
synchronized(listenersLock) {
return !listenersToBeInit.contains(listener);
}
}
public final void setGLEventListenerInitState(GLEventListener listener, boolean initialized) {
synchronized(listenersLock) {
if(initialized) {
listenersToBeInit.remove(listener);
} else {
listenersToBeInit.add(listener);
}
}
}
/**
* Disposes the given {@link GLEventListener} via {@link GLEventListener#dispose(GLAutoDrawable)}
* if it has been initialized and added to this queue.
* <p>
* If <code>remove</code> is <code>true</code>, the {@link GLEventListener} is removed from this drawable queue before disposal,
* otherwise marked uninitialized.
* </p>
* <p>
* Please consider using {@link #disposeGLEventListener(GLAutoDrawable, GLDrawable, GLContext, GLEventListener)}
* for correctness, i.e. encapsulating all calls w/ makeCurrent etc.
* </p>
* @param autoDrawable
* @param remove if true, the listener gets removed
* @return the disposed and/or removed listener, otherwise null if neither action is performed
*/
public final GLEventListener disposeGLEventListener(GLAutoDrawable autoDrawable, GLEventListener listener, boolean remove) {
synchronized(listenersLock) {
if( remove ) {
if( listeners.remove(listener) ) {
if( !listenersToBeInit.remove(listener) ) {
listener.dispose(autoDrawable);
}
return listener;
}
} else {
if( listeners.contains(listener) && !listenersToBeInit.contains(listener) ) {
listener.dispose(autoDrawable);
listenersToBeInit.add(listener);
return listener;
}
}
}
return null;
}
/**
* Disposes all added initialized {@link GLEventListener}s via {@link GLEventListener#dispose(GLAutoDrawable)}.
* <p>
* If <code>remove</code> is <code>true</code>, the {@link GLEventListener}s are removed from this drawable queue before disposal,
* otherwise maked uninitialized.
* </p>
* <p>
* Please consider using {@link #disposeAllGLEventListener(GLAutoDrawable, GLContext, boolean)}
* or {@link #disposeGL(GLAutoDrawable, GLContext)}
* for correctness, i.e. encapsulating all calls w/ makeCurrent etc.
* </p>
* @param autoDrawable
* @return the disposal count
*/
public final int disposeAllGLEventListener(GLAutoDrawable autoDrawable, boolean remove) {
int disposeCount = 0;
synchronized(listenersLock) {
if( remove ) {
for (int count = listeners.size(); 0 < count && 0 < listeners.size(); count--) {
final GLEventListener listener = listeners.remove(0);
if( !listenersToBeInit.remove(listener) ) {
listener.dispose(autoDrawable);
disposeCount++;
}
}
} else {
for (int i = 0; i < listeners.size(); i++) {
final GLEventListener listener = listeners.get(i);
if( !listenersToBeInit.contains(listener) ) {
listener.dispose(autoDrawable);
listenersToBeInit.add(listener);
disposeCount++;
}
}
}
}
return disposeCount;
}
/**
* Principal helper method which runs {@link #disposeGLEventListener(GLAutoDrawable, GLEventListener, boolean)}
* with the context made current.
* <p>
* If an {@link GLAnimatorControl} is being attached and the current thread is different
* than {@link GLAnimatorControl#getThread() the animator's thread}, it is paused during the operation.
* </p>
*
* @param autoDrawable
* @param context
* @param listener
* @param initAction
*/
public final GLEventListener disposeGLEventListener(final GLAutoDrawable autoDrawable,
final GLDrawable drawable,
final GLContext context,
final GLEventListener listener,
final boolean remove) {
synchronized(listenersLock) {
// fast path for uninitialized listener
if( listenersToBeInit.contains(listener) ) {
if( remove ) {
listenersToBeInit.remove(listener);
return listeners.remove(listener) ? listener : null;
}
return null;
}
}
final boolean isPaused = isAnimatorAnimatingOnOtherThread() && animatorCtrl.pause();
final GLEventListener[] res = new GLEventListener[] { null };
final Runnable action = new Runnable() {
public void run() {
res[0] = disposeGLEventListener(autoDrawable, listener, remove);
}
};
invokeGL(drawable, context, action, nop);
if(isPaused) {
animatorCtrl.resume();
}
return res[0];
}
/**
* Principal helper method which runs {@link #disposeAllGLEventListener(GLAutoDrawable, boolean)}
* with the context made current.
* <p>
* If an {@link GLAnimatorControl} is being attached and the current thread is different
* than {@link GLAnimatorControl#getThread() the animator's thread}, it is paused during the operation.
* </p>
*
* @param autoDrawable
* @param context
* @param remove
*/
public final void disposeAllGLEventListener(final GLAutoDrawable autoDrawable,
final GLDrawable drawable,
final GLContext context,
final boolean remove) {
final boolean isPaused = isAnimatorAnimatingOnOtherThread() && animatorCtrl.pause();
final Runnable action = new Runnable() {
public void run() {
disposeAllGLEventListener(autoDrawable, remove);
}
};
invokeGL(drawable, context, action, nop);
if(isPaused) {
animatorCtrl.resume();
}
}
private final void init(GLEventListener l, GLAutoDrawable drawable, boolean sendReshape) {
l.init(drawable);
if(sendReshape) {
reshape(l, drawable, 0, 0, drawable.getWidth(), drawable.getHeight(), true /* setViewport */, false /* checkInit */);
}
}
/**
* The default init action to be called once after ctx is being created @ 1st makeCurrent().
* @param sendReshape set to true if the subsequent display call won't reshape, otherwise false to avoid double reshape.
**/
public final void init(GLAutoDrawable drawable, boolean sendReshape) {
synchronized(listenersLock) {
final ArrayList<GLEventListener> _listeners = listeners;
for (int i=0; i < _listeners.size(); i++) {
final GLEventListener listener = _listeners.get(i) ;
// If make ctx current, invoked by invokGL(..), results in a new ctx, init gets called.
// This may happen not just for initial setup, but for ctx recreation due to resource change (drawable/window),
// hence it must be called unconditional, always.
listenersToBeInit.remove(listener); // remove if exist, avoiding dbl init
init( listener, drawable, sendReshape);
}
}
}
public final void display(GLAutoDrawable drawable) {
displayImpl(drawable);
if(!execGLRunnables(drawable)) {
displayImpl(drawable);
}
}
private final void displayImpl(GLAutoDrawable drawable) {
synchronized(listenersLock) {
final ArrayList<GLEventListener> _listeners = listeners;
for (int i=0; i < _listeners.size(); i++) {
final GLEventListener listener = _listeners.get(i) ;
// GLEventListener may need to be init,
// in case this one is added after the realization of the GLAutoDrawable
if( listenersToBeInit.remove(listener) ) {
init( listener, drawable, true /* sendReshape */) ;
}
listener.display(drawable);
}
}
}
private final void reshape(GLEventListener listener, GLAutoDrawable drawable,
int x, int y, int width, int height, boolean setViewport, boolean checkInit) {
if(checkInit) {
// GLEventListener may need to be init,
// in case this one is added after the realization of the GLAutoDrawable
synchronized(listenersLock) {
if( listenersToBeInit.remove(listener) ) {
init( listener, drawable, false /* sendReshape */) ;
}
}
}
if(setViewport) {
drawable.getGL().glViewport(x, y, width, height);
}
listener.reshape(drawable, x, y, width, height);
}
public final void reshape(GLAutoDrawable drawable, int x, int y, int width, int height) {
synchronized(listenersLock) {
for (int i=0; i < listeners.size(); i++) {
reshape((GLEventListener) listeners.get(i), drawable, x, y, width, height, 0==i, true);
}
}
}
private final boolean execGLRunnables(GLAutoDrawable drawable) {
boolean res = true;
if(glRunnables.size()>0) { // volatile OK
// swap one-shot list asap
final ArrayList<GLRunnableTask> _glRunnables;
synchronized(glRunnablesLock) {
if(glRunnables.size()>0) {
_glRunnables = glRunnables;
glRunnables = new ArrayList<GLRunnableTask>();
} else {
_glRunnables = null;
}
}
if(null!=_glRunnables) {
for (int i=0; i < _glRunnables.size(); i++) {
res = _glRunnables.get(i).run(drawable) && res;
}
}
}
return res;
}
public final void flushGLRunnables() {
if(glRunnables.size()>0) { // volatile OK
// swap one-shot list asap
final ArrayList<GLRunnableTask> _glRunnables;
synchronized(glRunnablesLock) {
if(glRunnables.size()>0) {
_glRunnables = glRunnables;
glRunnables = new ArrayList<GLRunnableTask>();
} else {
_glRunnables = null;
}
}
if(null!=_glRunnables) {
for (int i=0; i < _glRunnables.size(); i++) {
_glRunnables.get(i).flush();
}
}
}
}
public final void setAnimator(GLAnimatorControl animator) throws GLException {
synchronized(glRunnablesLock) {
if(animatorCtrl!=animator && null!=animator && null!=animatorCtrl) {
throw new GLException("Trying to register GLAnimatorControl "+animator+", where "+animatorCtrl+" is already registered. Unregister first.");
}
animatorCtrl = animator;
}
}
public final GLAnimatorControl getAnimator() {
synchronized(glRunnablesLock) {
return animatorCtrl;
}
}
public final boolean isAnimatorStartedOnOtherThread() {
return ( null != animatorCtrl ) ? animatorCtrl.isStarted() && animatorCtrl.getThread() != Thread.currentThread() : false ;
}
public final boolean isAnimatorStarted() {
return ( null != animatorCtrl ) ? animatorCtrl.isStarted() : false ;
}
public final boolean isAnimatorAnimatingOnOtherThread() {
return ( null != animatorCtrl ) ? animatorCtrl.isAnimating() && animatorCtrl.getThread() != Thread.currentThread() : false ;
}
public final boolean isAnimatorAnimating() {
return ( null != animatorCtrl ) ? animatorCtrl.isAnimating() : false ;
}
/**
* <p>
* If <code>wait</code> is <code>true</code> the call blocks until the <code>glRunnable</code>
* has been executed.<p>
* <p>
* If <code>wait</code> is <code>true</code> <b>and</b>
* {@link GLDrawable#isRealized()} returns <code>false</code> <i>or</i> {@link GLAutoDrawable#getContext()} returns <code>null</code>,
* the call is ignored and returns <code>false</code>.<br>
* This helps avoiding deadlocking the caller.
* </p>
*
* @param drawable the {@link GLAutoDrawable} to be used
* @param wait if <code>true</code> block until execution of <code>glRunnable</code> is finished, otherwise return immediatly w/o waiting
* @param glRunnable the {@link GLRunnable} to execute within {@link #display()}
* @return <code>true</code> if the {@link GLRunnable} has been processed or queued, otherwise <code>false</code>.
*/
public final boolean invoke(GLAutoDrawable drawable, boolean wait, GLRunnable glRunnable) {
if( null == glRunnable || null == drawable ||
wait && ( !drawable.isRealized() || null==drawable.getContext() ) ) {
return false;
}
GLRunnableTask rTask = null;
Object rTaskLock = new Object();
Throwable throwable = null;
synchronized(rTaskLock) {
final boolean deferred;
synchronized(glRunnablesLock) {
deferred = isAnimatorAnimatingOnOtherThread();
if(!deferred) {
wait = false; // don't wait if exec immediatly
}
rTask = new GLRunnableTask(glRunnable,
wait ? rTaskLock : null,
wait /* catch Exceptions if waiting for result */);
glRunnables.add(rTask);
}
if( !deferred ) {
drawable.display();
} else if( wait ) {
try {
rTaskLock.wait(); // free lock, allow execution of rTask
} catch (InterruptedException ie) {
throwable = ie;
}
if(null==throwable) {
throwable = rTask.getThrowable();
}
if(null!=throwable) {
throw new RuntimeException(throwable);
}
}
}
return true;
}
public final boolean invoke(GLAutoDrawable drawable, boolean wait, List<GLRunnable> newGLRunnables) {
if( null == newGLRunnables || newGLRunnables.size() == 0 || null == drawable ||
wait && ( !drawable.isRealized() || null==drawable.getContext() ) ) {
return false;
}
final int count = newGLRunnables.size();
GLRunnableTask rTask = null;
Object rTaskLock = new Object();
Throwable throwable = null;
synchronized(rTaskLock) {
final boolean deferred;
synchronized(glRunnablesLock) {
deferred = isAnimatorAnimatingOnOtherThread();
if(!deferred) {
wait = false; // don't wait if exec immediatly
}
for(int i=0; i<count-1; i++) {
glRunnables.add( new GLRunnableTask(newGLRunnables.get(i), null, false) );
}
rTask = new GLRunnableTask(newGLRunnables.get(count-1),
wait ? rTaskLock : null,
wait /* catch Exceptions if waiting for result */);
glRunnables.add(rTask);
}
if( !deferred ) {
drawable.display();
} else if( wait ) {
try {
rTaskLock.wait(); // free lock, allow execution of rTask
} catch (InterruptedException ie) {
throwable = ie;
}
if(null==throwable) {
throwable = rTask.getThrowable();
}
if(null!=throwable) {
throw new RuntimeException(throwable);
}
}
}
return true;
}
public final void enqueue(GLRunnable glRunnable) {
if( null == glRunnable) {
return;
}
synchronized(glRunnablesLock) {
glRunnables.add( new GLRunnableTask(glRunnable, null, false) );
}
}
public final void setAutoSwapBufferMode(boolean enable) {
autoSwapBufferMode = enable;
}
public final boolean getAutoSwapBufferMode() {
return autoSwapBufferMode;
}
/**
* @param t the thread for which context release shall be skipped, usually the animation thread,
* ie. {@link Animator#getThread()}.
* @deprecated this is an experimental feature,
* intended for measuring performance in regards to GL context switch
* and only being used if {@link #PERF_STATS} is enabled
* by defining property <code>jogl.debug.GLDrawable.PerfStats</code>.
*/
public final void setSkipContextReleaseThread(Thread t) {
skipContextReleaseThread = t;
}
/**
* @deprecated see {@link #setSkipContextReleaseThread(Thread)}
*/
public final Thread getSkipContextReleaseThread() {
return skipContextReleaseThread;
}
private static final ThreadLocal<Runnable> perThreadInitAction = new ThreadLocal<Runnable>();
/** Principal helper method which runs a Runnable with the context
made current. This could have been made part of GLContext, but a
desired goal is to be able to implement GLAutoDrawable's in terms of
the GLContext's public APIs, and putting it into a separate
class helps ensure that we don't inadvertently use private
methods of the GLContext or its implementing classes.
<p>
Note: Locking of the surface is implicit done by {@link GLContext#makeCurrent()},
where unlocking is performed by the latter {@link GLContext#release()}.
</p>
*
* @param drawable
* @param context
* @param runnable
* @param initAction
*/
public final void invokeGL(final GLDrawable drawable,
final GLContext context,
final Runnable runnable,
final Runnable initAction) {
if(null==context) {
if (DEBUG) {
Exception e = new GLException(Thread.currentThread().getName()+" Info: GLDrawableHelper " + this + ".invokeGL(): NULL GLContext");
e.printStackTrace();
}
return;
}
if(PERF_STATS) {
invokeGLImplStats(drawable, context, runnable, initAction);
} else {
invokeGLImpl(drawable, context, runnable, initAction);
}
}
/**
* Principal helper method which runs
* {@link #disposeAllGLEventListener(GLAutoDrawable, boolean) disposeAllGLEventListener(autoDrawable, false)}
* with the context made current <b>and</b> destroys the context afterwards while holding the lock.
* @param autoDrawable
* @param context
*/
public final void disposeGL(final GLAutoDrawable autoDrawable,
final GLContext context) {
// Support for recursive makeCurrent() calls as well as calling
// other drawables' display() methods from within another one's
GLContext lastContext = GLContext.getCurrent();
Runnable lastInitAction = null;
if (lastContext != null) {
if (lastContext == context) {
lastContext = null; // utilize recursive locking
} else {
lastInitAction = perThreadInitAction.get();
lastContext.release();
}
}
int res = GLContext.CONTEXT_NOT_CURRENT;
try {
res = context.makeCurrent();
if (GLContext.CONTEXT_NOT_CURRENT != res) {
if(GLContext.CONTEXT_CURRENT_NEW == res) {
throw new GLException(Thread.currentThread().getName()+" GLDrawableHelper " + this + ".invokeGL(): Dispose case (no init action given): Native context was not created (new ctx): "+context);
}
if( listeners.size() > 0 && null != autoDrawable ) {
disposeAllGLEventListener(autoDrawable, false);
}
}
} finally {
try {
context.destroy();
flushGLRunnables();
} catch (Exception e) {
System.err.println("Catched: "+e.getMessage());
e.printStackTrace();
}
if (lastContext != null) {
final int res2 = lastContext.makeCurrent();
if (null != lastInitAction && res2 == GLContext.CONTEXT_CURRENT_NEW) {
lastInitAction.run();
}
}
}
}
private final void invokeGLImpl(final GLDrawable drawable,
final GLContext context,
final Runnable runnable,
final Runnable initAction) {
// Support for recursive makeCurrent() calls as well as calling
// other drawables' display() methods from within another one's
GLContext lastContext = GLContext.getCurrent();
Runnable lastInitAction = null;
if (lastContext != null) {
if (lastContext == context) {
lastContext = null; // utilize recursive locking
} else {
lastInitAction = perThreadInitAction.get();
lastContext.release();
}
}
int res = GLContext.CONTEXT_NOT_CURRENT;
try {
res = context.makeCurrent();
if (GLContext.CONTEXT_NOT_CURRENT != res) {
try {
perThreadInitAction.set(initAction);
if (GLContext.CONTEXT_CURRENT_NEW == res) {
if (DEBUG) {
System.err.println("GLDrawableHelper " + this + ".invokeGL(): Running initAction");
}
initAction.run();
}
runnable.run();
if ( autoSwapBufferMode ) {
drawable.swapBuffers();
}
} finally {
try {
context.release();
} catch (Exception e) {
System.err.println("Catched: "+e.getMessage());
e.printStackTrace();
}
}
}
} finally {
if (lastContext != null) {
final int res2 = lastContext.makeCurrent();
if (null != lastInitAction && res2 == GLContext.CONTEXT_CURRENT_NEW) {
lastInitAction.run();
}
}
}
}
private final void invokeGLImplStats(final GLDrawable drawable,
final GLContext context,
final Runnable runnable,
final Runnable initAction) {
final Thread currentThread = Thread.currentThread();
// Support for recursive makeCurrent() calls as well as calling
// other drawables' display() methods from within another one's
int res = GLContext.CONTEXT_NOT_CURRENT;
GLContext lastContext = GLContext.getCurrent();
Runnable lastInitAction = null;
if (lastContext != null) {
if (lastContext == context) {
if( currentThread == skipContextReleaseThread ) {
res = GLContext.CONTEXT_CURRENT;
} // else: utilize recursive locking
lastContext = null;
} else {
lastInitAction = perThreadInitAction.get();
lastContext.release();
}
}
long t0 = System.currentTimeMillis();
long tdA = 0; // makeCurrent
long tdR = 0; // render time
long tdS = 0; // swapBuffers
long tdX = 0; // release
boolean ctxClaimed = false;
boolean ctxReleased = false;
boolean ctxDestroyed = false;
try {
if (res == GLContext.CONTEXT_NOT_CURRENT) {
res = context.makeCurrent();
ctxClaimed = true;
}
if (res != GLContext.CONTEXT_NOT_CURRENT) {
perThreadInitAction.set(initAction);
if (res == GLContext.CONTEXT_CURRENT_NEW) {
if (DEBUG) {
System.err.println("GLDrawableHelper " + this + ".invokeGL(): Running initAction");
}
initAction.run();
}
tdR = System.currentTimeMillis();
tdA = tdR - t0; // makeCurrent
runnable.run();
tdS = System.currentTimeMillis();
tdR = tdS - tdR; // render time
if (autoSwapBufferMode) {
drawable.swapBuffers();
tdX = System.currentTimeMillis();
tdS = tdX - tdS; // swapBuffers
}
}
} finally {
try {
if( res != GLContext.CONTEXT_NOT_CURRENT &&
(null == skipContextReleaseThread || currentThread != skipContextReleaseThread) ) {
context.release();
ctxReleased = true;
}
} catch (Exception e) {
System.err.println("Catched: "+e.getMessage());
e.printStackTrace();
}
tdX = System.currentTimeMillis() - tdX; // release / destroy
if (lastContext != null) {
final int res2 = lastContext.makeCurrent();
if (null != lastInitAction && res2 == GLContext.CONTEXT_CURRENT_NEW) {
lastInitAction.run();
}
}
}
long td = System.currentTimeMillis() - t0;
System.err.println("td0 "+td+"ms, fps "+(1.0/(td/1000.0))+", td-makeCurrent: "+tdA+"ms, td-render "+tdR+"ms, td-swap "+tdS+"ms, td-release "+tdX+"ms, ctx claimed: "+ctxClaimed+", ctx release: "+ctxReleased+", ctx destroyed "+ctxDestroyed);
}
}
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