2 * Copyright (C) 2010 The Android Open Source Project
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
17 #define LOG_TAG "ThreadedRenderer"
23 #include <nativehelper/JNIHelp.h>
24 #include "core_jni_helpers.h"
25 #include <GraphicsJNI.h>
26 #include <ScopedPrimitiveArray.h>
28 #include <gui/BufferItemConsumer.h>
29 #include <gui/BufferQueue.h>
30 #include <gui/Surface.h>
33 #include <EGL/eglext.h>
34 #include <private/EGL/cache.h>
36 #include <utils/Looper.h>
37 #include <utils/RefBase.h>
38 #include <utils/StrongPointer.h>
39 #include <utils/Timers.h>
40 #include <android_runtime/android_view_Surface.h>
41 #include <system/window.h>
43 #include "android_os_MessageQueue.h"
46 #include <AnimationContext.h>
47 #include <FrameInfo.h>
48 #include <FrameMetricsObserver.h>
49 #include <IContextFactory.h>
50 #include <PropertyValuesAnimatorSet.h>
51 #include <RenderNode.h>
52 #include <renderthread/CanvasContext.h>
53 #include <renderthread/RenderProxy.h>
54 #include <renderthread/RenderTask.h>
55 #include <renderthread/RenderThread.h>
59 using namespace android::uirenderer;
60 using namespace android::uirenderer::renderthread;
63 jfieldID frameMetrics;
64 jfieldID timingDataBuffer;
65 jfieldID messageQueue;
67 } gFrameMetricsObserverClassInfo;
69 static JNIEnv* getenv(JavaVM* vm) {
71 if (vm->GetEnv(reinterpret_cast<void**>(&env), JNI_VERSION_1_6) != JNI_OK) {
72 LOG_ALWAYS_FATAL("Failed to get JNIEnv for JavaVM: %p", vm);
77 class OnFinishedEvent {
79 OnFinishedEvent(BaseRenderNodeAnimator* animator, AnimationListener* listener)
80 : animator(animator), listener(listener) {}
81 sp<BaseRenderNodeAnimator> animator;
82 sp<AnimationListener> listener;
85 class InvokeAnimationListeners : public MessageHandler {
87 explicit InvokeAnimationListeners(std::vector<OnFinishedEvent>& events) {
88 mOnFinishedEvents.swap(events);
91 static void callOnFinished(OnFinishedEvent& event) {
92 event.listener->onAnimationFinished(event.animator.get());
95 virtual void handleMessage(const Message& message) {
96 std::for_each(mOnFinishedEvents.begin(), mOnFinishedEvents.end(), callOnFinished);
97 mOnFinishedEvents.clear();
101 std::vector<OnFinishedEvent> mOnFinishedEvents;
104 class FinishAndInvokeListener : public MessageHandler {
106 explicit FinishAndInvokeListener(PropertyValuesAnimatorSet* anim)
108 mListener = anim->getOneShotListener();
109 mRequestId = anim->getRequestId();
112 virtual void handleMessage(const Message& message) {
113 if (mAnimator->getRequestId() == mRequestId) {
114 // Request Id has not changed, meaning there's no animation lifecyle change since the
115 // message is posted, so go ahead and call finish to make sure the PlayState is properly
116 // updated. This is needed because before the next frame comes in from UI thread to
117 // trigger an animation update, there could be reverse/cancel etc. So we need to update
118 // the playstate in time to ensure all the subsequent events get chained properly.
121 mListener->onAnimationFinished(nullptr);
124 sp<PropertyValuesAnimatorSet> mAnimator;
125 sp<AnimationListener> mListener;
129 class RenderingException : public MessageHandler {
131 RenderingException(JavaVM* vm, const std::string& message)
133 , mMessage(message) {
136 virtual void handleMessage(const Message&) {
137 throwException(mVm, mMessage);
140 static void throwException(JavaVM* vm, const std::string& message) {
141 JNIEnv* env = getenv(vm);
142 jniThrowException(env, "java/lang/IllegalStateException", message.c_str());
147 std::string mMessage;
150 class RootRenderNode : public RenderNode, ErrorHandler {
152 explicit RootRenderNode(JNIEnv* env) : RenderNode() {
153 mLooper = Looper::getForThread();
154 LOG_ALWAYS_FATAL_IF(!mLooper.get(),
155 "Must create RootRenderNode on a thread with a looper!");
156 env->GetJavaVM(&mVm);
159 virtual ~RootRenderNode() {}
161 virtual void onError(const std::string& message) override {
162 mLooper->sendMessage(new RenderingException(mVm, message), 0);
165 virtual void prepareTree(TreeInfo& info) override {
166 info.errorHandler = this;
168 for (auto& anim : mRunningVDAnimators) {
169 // Assume that the property change in VD from the animators will not be consumed. Mark
170 // otherwise if the VDs are found in the display list tree. For VDs that are not in
171 // the display list tree, we stop providing animation pulses by 1) removing them from
172 // the animation list, 2) post a delayed message to end them at end time so their
173 // listeners can receive the corresponding callbacks.
174 anim->getVectorDrawable()->setPropertyChangeWillBeConsumed(false);
175 // Mark the VD dirty so it will damage itself during prepareTree.
176 anim->getVectorDrawable()->markDirty();
178 if (info.mode == TreeInfo::MODE_FULL) {
179 for (auto &anim : mPausedVDAnimators) {
180 anim->getVectorDrawable()->setPropertyChangeWillBeConsumed(false);
181 anim->getVectorDrawable()->markDirty();
184 // TODO: This is hacky
185 info.updateWindowPositions = true;
186 RenderNode::prepareTree(info);
187 info.updateWindowPositions = false;
188 info.errorHandler = nullptr;
191 void sendMessage(const sp<MessageHandler>& handler) {
192 mLooper->sendMessage(handler, 0);
195 void sendMessageDelayed(const sp<MessageHandler>& handler, nsecs_t delayInMs) {
196 mLooper->sendMessageDelayed(ms2ns(delayInMs), handler, 0);
199 void attachAnimatingNode(RenderNode* animatingNode) {
200 mPendingAnimatingRenderNodes.push_back(animatingNode);
203 void attachPendingVectorDrawableAnimators() {
204 mRunningVDAnimators.insert(mPendingVectorDrawableAnimators.begin(),
205 mPendingVectorDrawableAnimators.end());
206 mPendingVectorDrawableAnimators.clear();
209 void detachAnimators() {
210 // Remove animators from the list and post a delayed message in future to end the animator
211 // For infinite animators, remove the listener so we no longer hold a global ref to the AVD
212 // java object, and therefore the AVD objects in both native and Java can be properly
214 for (auto& anim : mRunningVDAnimators) {
215 detachVectorDrawableAnimator(anim.get());
216 anim->clearOneShotListener();
218 for (auto& anim : mPausedVDAnimators) {
219 anim->clearOneShotListener();
221 mRunningVDAnimators.clear();
222 mPausedVDAnimators.clear();
225 // Move all the animators to the paused list, and send a delayed message to notify the finished
227 void pauseAnimators() {
228 mPausedVDAnimators.insert(mRunningVDAnimators.begin(), mRunningVDAnimators.end());
229 for (auto& anim : mRunningVDAnimators) {
230 detachVectorDrawableAnimator(anim.get());
232 mRunningVDAnimators.clear();
235 void doAttachAnimatingNodes(AnimationContext* context) {
236 for (size_t i = 0; i < mPendingAnimatingRenderNodes.size(); i++) {
237 RenderNode* node = mPendingAnimatingRenderNodes[i].get();
238 context->addAnimatingRenderNode(*node);
240 mPendingAnimatingRenderNodes.clear();
243 // Run VectorDrawable animators after prepareTree.
244 void runVectorDrawableAnimators(AnimationContext* context, TreeInfo& info) {
246 if (info.mode == TreeInfo::MODE_FULL) {
247 pushStagingVectorDrawableAnimators(context);
250 // Run the animators in the running list.
251 for (auto it = mRunningVDAnimators.begin(); it != mRunningVDAnimators.end();) {
252 if ((*it)->animate(*context)) {
253 it = mRunningVDAnimators.erase(it);
259 // Run the animators in paused list during full sync.
260 if (info.mode == TreeInfo::MODE_FULL) {
261 // During full sync we also need to pulse paused animators, in case their targets
262 // have been added back to the display list. All the animators that passed the
263 // scheduled finish time will be removed from the paused list.
264 for (auto it = mPausedVDAnimators.begin(); it != mPausedVDAnimators.end();) {
265 if ((*it)->animate(*context)) {
266 // Animator has finished, remove from the list.
267 it = mPausedVDAnimators.erase(it);
274 // Move the animators with a target not in DisplayList to paused list.
275 for (auto it = mRunningVDAnimators.begin(); it != mRunningVDAnimators.end();) {
276 if (!(*it)->getVectorDrawable()->getPropertyChangeWillBeConsumed()) {
277 // Vector Drawable is not in the display list, we should remove this animator from
278 // the list, put it in the paused list, and post a delayed message to end the
280 detachVectorDrawableAnimator(it->get());
281 mPausedVDAnimators.insert(*it);
282 it = mRunningVDAnimators.erase(it);
288 // Move the animators with a target in DisplayList from paused list to running list, and
290 if (info.mode == TreeInfo::MODE_FULL) {
291 // Check whether any paused animator's target is back in Display List. If so, put the
292 // animator back in the running list.
293 for (auto it = mPausedVDAnimators.begin(); it != mPausedVDAnimators.end();) {
294 if ((*it)->getVectorDrawable()->getPropertyChangeWillBeConsumed()) {
295 mRunningVDAnimators.insert(*it);
296 it = mPausedVDAnimators.erase(it);
301 // Trim paused VD animators at full sync, so that when Java loses reference to an
302 // animator, we know we won't be requested to animate it any more, then we remove such
303 // animators from the paused list so they can be properly freed. We also remove the
304 // animators from paused list when the time elapsed since start has exceeded duration.
305 trimPausedVDAnimators(context);
308 info.out.hasAnimations |= !mRunningVDAnimators.empty();
311 void trimPausedVDAnimators(AnimationContext* context) {
312 // Trim paused vector drawable animator list.
313 for (auto it = mPausedVDAnimators.begin(); it != mPausedVDAnimators.end();) {
314 // Remove paused VD animator if no one else is referencing it. Note that animators that
315 // have passed scheduled finish time are removed from list when they are being pulsed
316 // before prepare tree.
317 // TODO: this is a bit hacky, need to figure out a better way to track when the paused
318 // animators should be freed.
319 if ((*it)->getStrongCount() == 1) {
320 it = mPausedVDAnimators.erase(it);
327 void pushStagingVectorDrawableAnimators(AnimationContext* context) {
328 for (auto& anim : mRunningVDAnimators) {
329 anim->pushStaging(*context);
334 for (auto& renderNode : mPendingAnimatingRenderNodes) {
335 renderNode->animators().endAllStagingAnimators();
337 mPendingAnimatingRenderNodes.clear();
338 mPendingVectorDrawableAnimators.clear();
341 void addVectorDrawableAnimator(PropertyValuesAnimatorSet* anim) {
342 mPendingVectorDrawableAnimators.insert(anim);
348 std::vector< sp<RenderNode> > mPendingAnimatingRenderNodes;
349 std::set< sp<PropertyValuesAnimatorSet> > mPendingVectorDrawableAnimators;
350 std::set< sp<PropertyValuesAnimatorSet> > mRunningVDAnimators;
351 // mPausedVDAnimators stores a list of animators that have not yet passed the finish time, but
352 // their VectorDrawable targets are no longer in the DisplayList. We skip these animators when
353 // render thread runs animators independent of UI thread (i.e. RT_ONLY mode). These animators
354 // need to be re-activated once their VD target is added back into DisplayList. Since that could
355 // only happen when we do a full sync, we need to make sure to pulse these paused animators at
356 // full sync. If any animator's VD target is found in DisplayList during a full sync, we move
357 // the animator back to the running list.
358 std::set< sp<PropertyValuesAnimatorSet> > mPausedVDAnimators;
359 void detachVectorDrawableAnimator(PropertyValuesAnimatorSet* anim) {
360 if (anim->isInfinite() || !anim->isRunning()) {
361 // Do not need to post anything if the animation is infinite (i.e. no meaningful
362 // end listener action), or if the animation has already ended.
365 nsecs_t remainingTimeInMs = anim->getRemainingPlayTime();
366 // Post a delayed onFinished event that is scheduled to be handled when the animator ends.
367 if (anim->getOneShotListener()) {
368 // VectorDrawable's oneshot listener is updated when there are user triggered animation
369 // lifecycle changes, such as start(), end(), etc. By using checking and clearing
370 // one shot listener, we ensure the same end listener event gets posted only once.
371 // Therefore no duplicates. Another benefit of using one shot listener is that no
372 // removal is necessary: the end time of animation will not change unless triggered by
373 // user events, in which case the already posted listener's id will become stale, and
374 // the onFinished callback will then be ignored.
375 sp<FinishAndInvokeListener> message
376 = new FinishAndInvokeListener(anim);
377 sendMessageDelayed(message, remainingTimeInMs);
378 anim->clearOneShotListener();
383 class AnimationContextBridge : public AnimationContext {
385 AnimationContextBridge(renderthread::TimeLord& clock, RootRenderNode* rootNode)
386 : AnimationContext(clock), mRootNode(rootNode) {
389 virtual ~AnimationContextBridge() {}
391 // Marks the start of a frame, which will update the frame time and move all
392 // next frame animations into the current frame
393 virtual void startFrame(TreeInfo::TraversalMode mode) {
394 if (mode == TreeInfo::MODE_FULL) {
395 mRootNode->doAttachAnimatingNodes(this);
396 mRootNode->attachPendingVectorDrawableAnimators();
398 AnimationContext::startFrame(mode);
401 // Runs any animations still left in mCurrentFrameAnimations
402 virtual void runRemainingAnimations(TreeInfo& info) {
403 AnimationContext::runRemainingAnimations(info);
404 mRootNode->runVectorDrawableAnimators(this, info);
405 postOnFinishedEvents();
408 virtual void pauseAnimators() override {
409 mRootNode->pauseAnimators();
412 virtual void callOnFinished(BaseRenderNodeAnimator* animator, AnimationListener* listener) {
413 OnFinishedEvent event(animator, listener);
414 mOnFinishedEvents.push_back(event);
417 virtual void destroy() {
418 AnimationContext::destroy();
419 mRootNode->detachAnimators();
420 postOnFinishedEvents();
424 sp<RootRenderNode> mRootNode;
425 std::vector<OnFinishedEvent> mOnFinishedEvents;
427 void postOnFinishedEvents() {
428 if (mOnFinishedEvents.size()) {
429 sp<InvokeAnimationListeners> message
430 = new InvokeAnimationListeners(mOnFinishedEvents);
431 mRootNode->sendMessage(message);
436 class ContextFactoryImpl : public IContextFactory {
438 explicit ContextFactoryImpl(RootRenderNode* rootNode) : mRootNode(rootNode) {}
440 virtual AnimationContext* createAnimationContext(renderthread::TimeLord& clock) {
441 return new AnimationContextBridge(clock, mRootNode);
445 RootRenderNode* mRootNode;
450 class NotifyHandler : public MessageHandler {
452 NotifyHandler(JavaVM* vm, ObserverProxy* observer) : mVm(vm), mObserver(observer) {}
454 virtual void handleMessage(const Message& message);
458 ObserverProxy* const mObserver;
461 static jlongArray get_metrics_buffer(JNIEnv* env, jobject observer) {
462 jobject frameMetrics = env->GetObjectField(
463 observer, gFrameMetricsObserverClassInfo.frameMetrics);
464 LOG_ALWAYS_FATAL_IF(frameMetrics == nullptr, "unable to retrieve data sink object");
465 jobject buffer = env->GetObjectField(
466 frameMetrics, gFrameMetricsObserverClassInfo.timingDataBuffer);
467 LOG_ALWAYS_FATAL_IF(buffer == nullptr, "unable to retrieve data sink buffer");
468 return reinterpret_cast<jlongArray>(buffer);
472 * Implements JNI layer for hwui frame metrics reporting.
474 class ObserverProxy : public FrameMetricsObserver {
476 ObserverProxy(JavaVM *vm, jobject observer) : mVm(vm) {
477 JNIEnv* env = getenv(mVm);
479 mObserverWeak = env->NewWeakGlobalRef(observer);
480 LOG_ALWAYS_FATAL_IF(mObserverWeak == nullptr,
481 "unable to create frame stats observer reference");
483 jlongArray buffer = get_metrics_buffer(env, observer);
484 jsize bufferSize = env->GetArrayLength(reinterpret_cast<jarray>(buffer));
485 LOG_ALWAYS_FATAL_IF(bufferSize != kBufferSize,
486 "Mismatched Java/Native FrameMetrics data format.");
488 jobject messageQueueLocal = env->GetObjectField(
489 observer, gFrameMetricsObserverClassInfo.messageQueue);
490 mMessageQueue = android_os_MessageQueue_getMessageQueue(env, messageQueueLocal);
491 LOG_ALWAYS_FATAL_IF(mMessageQueue == nullptr, "message queue not available");
493 mMessageHandler = new NotifyHandler(mVm, this);
494 LOG_ALWAYS_FATAL_IF(mMessageHandler == nullptr,
495 "OOM: unable to allocate NotifyHandler");
499 JNIEnv* env = getenv(mVm);
500 env->DeleteWeakGlobalRef(mObserverWeak);
503 jweak getObserverReference() {
504 return mObserverWeak;
507 bool getNextBuffer(JNIEnv* env, jlongArray sink, int* dropCount) {
508 FrameMetricsNotification& elem = mRingBuffer[mNextInQueue];
510 if (elem.hasData.load()) {
511 env->SetLongArrayRegion(sink, 0, kBufferSize, elem.buffer);
512 *dropCount = elem.dropCount;
513 mNextInQueue = (mNextInQueue + 1) % kRingSize;
514 elem.hasData = false;
521 virtual void notify(const int64_t* stats) {
522 FrameMetricsNotification& elem = mRingBuffer[mNextFree];
524 if (!elem.hasData.load()) {
525 memcpy(elem.buffer, stats, kBufferSize * sizeof(stats[0]));
527 elem.dropCount = mDroppedReports;
531 mNextFree = (mNextFree + 1) % kRingSize;
534 mMessageQueue->getLooper()->sendMessage(mMessageHandler, mMessage);
541 static const int kBufferSize = static_cast<int>(FrameInfoIndex::NumIndexes);
542 static constexpr int kRingSize = 3;
544 class FrameMetricsNotification {
546 FrameMetricsNotification() : hasData(false) {}
548 std::atomic_bool hasData;
549 int64_t buffer[kBufferSize];
556 sp<MessageQueue> mMessageQueue;
557 sp<NotifyHandler> mMessageHandler;
561 int mNextInQueue = 0;
562 FrameMetricsNotification mRingBuffer[kRingSize];
564 int mDroppedReports = 0;
567 void NotifyHandler::handleMessage(const Message& message) {
568 JNIEnv* env = getenv(mVm);
570 jobject target = env->NewLocalRef(mObserver->getObserverReference());
572 if (target != nullptr) {
573 jlongArray javaBuffer = get_metrics_buffer(env, target);
575 while (mObserver->getNextBuffer(env, javaBuffer, &dropCount)) {
576 env->CallVoidMethod(target, gFrameMetricsObserverClassInfo.callback, dropCount);
578 env->DeleteLocalRef(target);
581 mObserver->decStrong(nullptr);
584 static jboolean android_view_ThreadedRenderer_supportsOpenGL(JNIEnv* env, jobject clazz) {
585 char prop[PROPERTY_VALUE_MAX];
586 if (property_get("ro.kernel.qemu", prop, NULL) == 0) {
587 // not in the emulator
590 // In the emulator this property will be set > 0 when OpenGL ES 2.0 is
591 // enabled, 0 otherwise. On old emulator versions it will be undefined.
592 property_get("qemu.gles", prop, "0");
593 return atoi(prop) > 0 ? JNI_TRUE : JNI_FALSE;
596 static void android_view_ThreadedRenderer_rotateProcessStatsBuffer(JNIEnv* env, jobject clazz) {
597 RenderProxy::rotateProcessStatsBuffer();
600 static void android_view_ThreadedRenderer_setProcessStatsBuffer(JNIEnv* env, jobject clazz,
602 RenderProxy::setProcessStatsBuffer(fd);
605 static jint android_view_ThreadedRenderer_getRenderThreadTid(JNIEnv* env, jobject clazz,
607 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
608 return proxy->getRenderThreadTid();
611 static jlong android_view_ThreadedRenderer_createRootRenderNode(JNIEnv* env, jobject clazz) {
612 RootRenderNode* node = new RootRenderNode(env);
614 node->setName("RootRenderNode");
615 return reinterpret_cast<jlong>(node);
618 static jlong android_view_ThreadedRenderer_createProxy(JNIEnv* env, jobject clazz,
619 jboolean translucent, jlong rootRenderNodePtr) {
620 RootRenderNode* rootRenderNode = reinterpret_cast<RootRenderNode*>(rootRenderNodePtr);
621 ContextFactoryImpl factory(rootRenderNode);
622 return (jlong) new RenderProxy(translucent, rootRenderNode, &factory);
625 static void android_view_ThreadedRenderer_deleteProxy(JNIEnv* env, jobject clazz,
627 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
631 static jboolean android_view_ThreadedRenderer_loadSystemProperties(JNIEnv* env, jobject clazz,
633 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
634 return proxy->loadSystemProperties();
637 static void android_view_ThreadedRenderer_setName(JNIEnv* env, jobject clazz,
638 jlong proxyPtr, jstring jname) {
639 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
640 const char* name = env->GetStringUTFChars(jname, NULL);
641 proxy->setName(name);
642 env->ReleaseStringUTFChars(jname, name);
645 static void android_view_ThreadedRenderer_initialize(JNIEnv* env, jobject clazz,
646 jlong proxyPtr, jobject jsurface) {
647 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
648 sp<Surface> surface = android_view_Surface_getSurface(env, jsurface);
649 proxy->initialize(surface);
652 static void android_view_ThreadedRenderer_updateSurface(JNIEnv* env, jobject clazz,
653 jlong proxyPtr, jobject jsurface) {
654 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
657 surface = android_view_Surface_getSurface(env, jsurface);
659 proxy->updateSurface(surface);
662 static jboolean android_view_ThreadedRenderer_pauseSurface(JNIEnv* env, jobject clazz,
663 jlong proxyPtr, jobject jsurface) {
664 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
667 surface = android_view_Surface_getSurface(env, jsurface);
669 return proxy->pauseSurface(surface);
672 static void android_view_ThreadedRenderer_setStopped(JNIEnv* env, jobject clazz,
673 jlong proxyPtr, jboolean stopped) {
674 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
675 proxy->setStopped(stopped);
678 static void android_view_ThreadedRenderer_setup(JNIEnv* env, jobject clazz, jlong proxyPtr,
679 jfloat lightRadius, jint ambientShadowAlpha, jint spotShadowAlpha) {
680 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
681 proxy->setup(lightRadius, ambientShadowAlpha, spotShadowAlpha);
684 static void android_view_ThreadedRenderer_setLightCenter(JNIEnv* env, jobject clazz,
685 jlong proxyPtr, jfloat lightX, jfloat lightY, jfloat lightZ) {
686 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
687 proxy->setLightCenter((Vector3){lightX, lightY, lightZ});
690 static void android_view_ThreadedRenderer_setOpaque(JNIEnv* env, jobject clazz,
691 jlong proxyPtr, jboolean opaque) {
692 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
693 proxy->setOpaque(opaque);
696 static int android_view_ThreadedRenderer_syncAndDrawFrame(JNIEnv* env, jobject clazz,
697 jlong proxyPtr, jlongArray frameInfo, jint frameInfoSize) {
698 LOG_ALWAYS_FATAL_IF(frameInfoSize != UI_THREAD_FRAME_INFO_SIZE,
699 "Mismatched size expectations, given %d expected %d",
700 frameInfoSize, UI_THREAD_FRAME_INFO_SIZE);
701 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
702 env->GetLongArrayRegion(frameInfo, 0, frameInfoSize, proxy->frameInfo());
703 return proxy->syncAndDrawFrame();
706 static void android_view_ThreadedRenderer_destroy(JNIEnv* env, jobject clazz,
707 jlong proxyPtr, jlong rootNodePtr) {
708 RootRenderNode* rootRenderNode = reinterpret_cast<RootRenderNode*>(rootNodePtr);
709 rootRenderNode->destroy();
710 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
714 static void android_view_ThreadedRenderer_registerAnimatingRenderNode(JNIEnv* env, jobject clazz,
715 jlong rootNodePtr, jlong animatingNodePtr) {
716 RootRenderNode* rootRenderNode = reinterpret_cast<RootRenderNode*>(rootNodePtr);
717 RenderNode* animatingNode = reinterpret_cast<RenderNode*>(animatingNodePtr);
718 rootRenderNode->attachAnimatingNode(animatingNode);
721 static void android_view_ThreadedRenderer_registerVectorDrawableAnimator(JNIEnv* env, jobject clazz,
722 jlong rootNodePtr, jlong animatorPtr) {
723 RootRenderNode* rootRenderNode = reinterpret_cast<RootRenderNode*>(rootNodePtr);
724 PropertyValuesAnimatorSet* animator = reinterpret_cast<PropertyValuesAnimatorSet*>(animatorPtr);
725 rootRenderNode->addVectorDrawableAnimator(animator);
728 static void android_view_ThreadedRenderer_invokeFunctor(JNIEnv* env, jobject clazz,
729 jlong functorPtr, jboolean waitForCompletion) {
730 Functor* functor = reinterpret_cast<Functor*>(functorPtr);
731 RenderProxy::invokeFunctor(functor, waitForCompletion);
734 static jlong android_view_ThreadedRenderer_createTextureLayer(JNIEnv* env, jobject clazz,
736 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
737 DeferredLayerUpdater* layer = proxy->createTextureLayer();
738 return reinterpret_cast<jlong>(layer);
741 static void android_view_ThreadedRenderer_buildLayer(JNIEnv* env, jobject clazz,
742 jlong proxyPtr, jlong nodePtr) {
743 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
744 RenderNode* node = reinterpret_cast<RenderNode*>(nodePtr);
745 proxy->buildLayer(node);
748 static jboolean android_view_ThreadedRenderer_copyLayerInto(JNIEnv* env, jobject clazz,
749 jlong proxyPtr, jlong layerPtr, jobject jbitmap) {
750 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
751 DeferredLayerUpdater* layer = reinterpret_cast<DeferredLayerUpdater*>(layerPtr);
753 GraphicsJNI::getSkBitmap(env, jbitmap, &bitmap);
754 return proxy->copyLayerInto(layer, bitmap);
757 static void android_view_ThreadedRenderer_pushLayerUpdate(JNIEnv* env, jobject clazz,
758 jlong proxyPtr, jlong layerPtr) {
759 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
760 DeferredLayerUpdater* layer = reinterpret_cast<DeferredLayerUpdater*>(layerPtr);
761 proxy->pushLayerUpdate(layer);
764 static void android_view_ThreadedRenderer_cancelLayerUpdate(JNIEnv* env, jobject clazz,
765 jlong proxyPtr, jlong layerPtr) {
766 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
767 DeferredLayerUpdater* layer = reinterpret_cast<DeferredLayerUpdater*>(layerPtr);
768 proxy->cancelLayerUpdate(layer);
771 static void android_view_ThreadedRenderer_detachSurfaceTexture(JNIEnv* env, jobject clazz,
772 jlong proxyPtr, jlong layerPtr) {
773 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
774 DeferredLayerUpdater* layer = reinterpret_cast<DeferredLayerUpdater*>(layerPtr);
775 proxy->detachSurfaceTexture(layer);
778 static void android_view_ThreadedRenderer_destroyHardwareResources(JNIEnv* env, jobject clazz,
780 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
781 proxy->destroyHardwareResources();
784 static void android_view_ThreadedRenderer_trimMemory(JNIEnv* env, jobject clazz,
786 RenderProxy::trimMemory(level);
789 static void android_view_ThreadedRenderer_overrideProperty(JNIEnv* env, jobject clazz,
790 jstring name, jstring value) {
791 const char* nameCharArray = env->GetStringUTFChars(name, NULL);
792 const char* valueCharArray = env->GetStringUTFChars(value, NULL);
793 RenderProxy::overrideProperty(nameCharArray, valueCharArray);
794 env->ReleaseStringUTFChars(name, nameCharArray);
795 env->ReleaseStringUTFChars(name, valueCharArray);
798 static void android_view_ThreadedRenderer_fence(JNIEnv* env, jobject clazz,
800 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
804 static void android_view_ThreadedRenderer_stopDrawing(JNIEnv* env, jobject clazz,
806 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
807 proxy->stopDrawing();
810 static void android_view_ThreadedRenderer_notifyFramePending(JNIEnv* env, jobject clazz,
812 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
813 proxy->notifyFramePending();
816 static void android_view_ThreadedRenderer_serializeDisplayListTree(JNIEnv* env, jobject clazz,
818 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
819 proxy->serializeDisplayListTree();
822 static void android_view_ThreadedRenderer_dumpProfileInfo(JNIEnv* env, jobject clazz,
823 jlong proxyPtr, jobject javaFileDescriptor, jint dumpFlags) {
824 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
825 int fd = jniGetFDFromFileDescriptor(env, javaFileDescriptor);
826 proxy->dumpProfileInfo(fd, dumpFlags);
829 static void android_view_ThreadedRenderer_addRenderNode(JNIEnv* env, jobject clazz,
830 jlong proxyPtr, jlong renderNodePtr, jboolean placeFront) {
831 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
832 RenderNode* renderNode = reinterpret_cast<RenderNode*>(renderNodePtr);
833 proxy->addRenderNode(renderNode, placeFront);
836 static void android_view_ThreadedRenderer_removeRenderNode(JNIEnv* env, jobject clazz,
837 jlong proxyPtr, jlong renderNodePtr) {
838 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
839 RenderNode* renderNode = reinterpret_cast<RenderNode*>(renderNodePtr);
840 proxy->removeRenderNode(renderNode);
843 static void android_view_ThreadedRendererd_drawRenderNode(JNIEnv* env, jobject clazz,
844 jlong proxyPtr, jlong renderNodePtr) {
845 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
846 RenderNode* renderNode = reinterpret_cast<RenderNode*>(renderNodePtr);
847 proxy->drawRenderNode(renderNode);
850 static void android_view_ThreadedRenderer_setContentDrawBounds(JNIEnv* env,
851 jobject clazz, jlong proxyPtr, jint left, jint top, jint right, jint bottom) {
852 RenderProxy* proxy = reinterpret_cast<RenderProxy*>(proxyPtr);
853 proxy->setContentDrawBounds(left, top, right, bottom);
856 static jint android_view_ThreadedRenderer_copySurfaceInto(JNIEnv* env,
857 jobject clazz, jobject jsurface, jint left, jint top,
858 jint right, jint bottom, jobject jbitmap) {
860 GraphicsJNI::getSkBitmap(env, jbitmap, &bitmap);
861 sp<Surface> surface = android_view_Surface_getSurface(env, jsurface);
862 return RenderProxy::copySurfaceInto(surface, left, top, right, bottom, &bitmap);
865 class ContextFactory : public IContextFactory {
867 virtual AnimationContext* createAnimationContext(renderthread::TimeLord& clock) {
868 return new AnimationContext(clock);
872 static jobject android_view_ThreadedRenderer_createHardwareBitmapFromRenderNode(JNIEnv* env,
873 jobject clazz, jlong renderNodePtr, jint jwidth, jint jheight) {
874 RenderNode* renderNode = reinterpret_cast<RenderNode*>(renderNodePtr);
875 if (jwidth <= 0 || jheight <= 0) {
876 ALOGW("Invalid width %d or height %d", jwidth, jheight);
880 uint32_t width = jwidth;
881 uint32_t height = jheight;
883 // Create a Surface wired up to a BufferItemConsumer
884 sp<IGraphicBufferProducer> producer;
885 sp<IGraphicBufferConsumer> rawConsumer;
886 BufferQueue::createBufferQueue(&producer, &rawConsumer);
887 // We only need 1 buffer but some drivers have bugs so workaround it by setting max count to 2
888 rawConsumer->setMaxBufferCount(2);
889 sp<BufferItemConsumer> consumer = new BufferItemConsumer(rawConsumer,
890 GRALLOC_USAGE_HW_TEXTURE | GRALLOC_USAGE_SW_READ_NEVER | GRALLOC_USAGE_SW_WRITE_NEVER);
891 consumer->setDefaultBufferSize(width, height);
892 sp<Surface> surface = new Surface(producer);
894 // Render into the surface
896 ContextFactory factory;
897 RenderProxy proxy{false, renderNode, &factory};
898 proxy.loadSystemProperties();
899 proxy.setSwapBehavior(SwapBehavior::kSwap_discardBuffer);
900 proxy.initialize(surface);
901 // Shadows can't be used via this interface, so just set the light source
903 proxy.setup(0, 0, 0);
904 proxy.setLightCenter((Vector3){0, 0, 0});
905 nsecs_t vsync = systemTime(CLOCK_MONOTONIC);
906 UiFrameInfoBuilder(proxy.frameInfo())
907 .setVsync(vsync, vsync)
908 .addFlag(FrameInfoFlags::SurfaceCanvas);
909 proxy.syncAndDrawFrame();
912 // Yank out the GraphicBuffer
913 BufferItem bufferItem;
915 if ((err = consumer->acquireBuffer(&bufferItem, 0, true)) != OK) {
916 ALOGW("Failed to acquireBuffer, error %d (%s)", err, strerror(-err));
919 sp<GraphicBuffer> buffer = bufferItem.mGraphicBuffer;
920 // We don't really care if this fails or not since we're just going to destroy this anyway
921 consumer->releaseBuffer(bufferItem);
923 ALOGW("GraphicBuffer is null?");
926 if (buffer->getWidth() != width || buffer->getHeight() != height) {
927 ALOGW("GraphicBuffer size mismatch, got %dx%d expected %dx%d",
928 buffer->getWidth(), buffer->getHeight(), width, height);
931 sk_sp<Bitmap> bitmap = Bitmap::createFrom(buffer);
932 return createBitmap(env, bitmap.release(), android::bitmap::kBitmapCreateFlag_Mutable);
935 static void android_view_ThreadedRenderer_disableVsync(JNIEnv*, jclass) {
936 RenderProxy::disableVsync();
939 // ----------------------------------------------------------------------------
940 // FrameMetricsObserver
941 // ----------------------------------------------------------------------------
943 static jlong android_view_ThreadedRenderer_addFrameMetricsObserver(JNIEnv* env,
944 jclass clazz, jlong proxyPtr, jobject fso) {
945 JavaVM* vm = nullptr;
946 if (env->GetJavaVM(&vm) != JNI_OK) {
947 LOG_ALWAYS_FATAL("Unable to get Java VM");
951 renderthread::RenderProxy* renderProxy =
952 reinterpret_cast<renderthread::RenderProxy*>(proxyPtr);
954 FrameMetricsObserver* observer = new ObserverProxy(vm, fso);
955 renderProxy->addFrameMetricsObserver(observer);
956 return reinterpret_cast<jlong>(observer);
959 static void android_view_ThreadedRenderer_removeFrameMetricsObserver(JNIEnv* env, jclass clazz,
960 jlong proxyPtr, jlong observerPtr) {
961 FrameMetricsObserver* observer = reinterpret_cast<FrameMetricsObserver*>(observerPtr);
962 renderthread::RenderProxy* renderProxy =
963 reinterpret_cast<renderthread::RenderProxy*>(proxyPtr);
965 renderProxy->removeFrameMetricsObserver(observer);
968 // ----------------------------------------------------------------------------
970 // ----------------------------------------------------------------------------
972 static void android_view_ThreadedRenderer_setupShadersDiskCache(JNIEnv* env, jobject clazz,
973 jstring diskCachePath) {
974 const char* cacheArray = env->GetStringUTFChars(diskCachePath, NULL);
975 android::egl_set_cache_filename(cacheArray);
976 env->ReleaseStringUTFChars(diskCachePath, cacheArray);
979 // ----------------------------------------------------------------------------
981 // ----------------------------------------------------------------------------
983 const char* const kClassPathName = "android/view/ThreadedRenderer";
985 static const JNINativeMethod gMethods[] = {
986 { "nSupportsOpenGL", "()Z", (void*) android_view_ThreadedRenderer_supportsOpenGL },
987 { "nRotateProcessStatsBuffer", "()V", (void*) android_view_ThreadedRenderer_rotateProcessStatsBuffer },
988 { "nSetProcessStatsBuffer", "(I)V", (void*) android_view_ThreadedRenderer_setProcessStatsBuffer },
989 { "nGetRenderThreadTid", "(J)I", (void*) android_view_ThreadedRenderer_getRenderThreadTid },
990 { "nCreateRootRenderNode", "()J", (void*) android_view_ThreadedRenderer_createRootRenderNode },
991 { "nCreateProxy", "(ZJ)J", (void*) android_view_ThreadedRenderer_createProxy },
992 { "nDeleteProxy", "(J)V", (void*) android_view_ThreadedRenderer_deleteProxy },
993 { "nLoadSystemProperties", "(J)Z", (void*) android_view_ThreadedRenderer_loadSystemProperties },
994 { "nSetName", "(JLjava/lang/String;)V", (void*) android_view_ThreadedRenderer_setName },
995 { "nInitialize", "(JLandroid/view/Surface;)V", (void*) android_view_ThreadedRenderer_initialize },
996 { "nUpdateSurface", "(JLandroid/view/Surface;)V", (void*) android_view_ThreadedRenderer_updateSurface },
997 { "nPauseSurface", "(JLandroid/view/Surface;)Z", (void*) android_view_ThreadedRenderer_pauseSurface },
998 { "nSetStopped", "(JZ)V", (void*) android_view_ThreadedRenderer_setStopped },
999 { "nSetup", "(JFII)V", (void*) android_view_ThreadedRenderer_setup },
1000 { "nSetLightCenter", "(JFFF)V", (void*) android_view_ThreadedRenderer_setLightCenter },
1001 { "nSetOpaque", "(JZ)V", (void*) android_view_ThreadedRenderer_setOpaque },
1002 { "nSyncAndDrawFrame", "(J[JI)I", (void*) android_view_ThreadedRenderer_syncAndDrawFrame },
1003 { "nDestroy", "(JJ)V", (void*) android_view_ThreadedRenderer_destroy },
1004 { "nRegisterAnimatingRenderNode", "(JJ)V", (void*) android_view_ThreadedRenderer_registerAnimatingRenderNode },
1005 { "nRegisterVectorDrawableAnimator", "(JJ)V", (void*) android_view_ThreadedRenderer_registerVectorDrawableAnimator },
1006 { "nInvokeFunctor", "(JZ)V", (void*) android_view_ThreadedRenderer_invokeFunctor },
1007 { "nCreateTextureLayer", "(J)J", (void*) android_view_ThreadedRenderer_createTextureLayer },
1008 { "nBuildLayer", "(JJ)V", (void*) android_view_ThreadedRenderer_buildLayer },
1009 { "nCopyLayerInto", "(JJLandroid/graphics/Bitmap;)Z", (void*) android_view_ThreadedRenderer_copyLayerInto },
1010 { "nPushLayerUpdate", "(JJ)V", (void*) android_view_ThreadedRenderer_pushLayerUpdate },
1011 { "nCancelLayerUpdate", "(JJ)V", (void*) android_view_ThreadedRenderer_cancelLayerUpdate },
1012 { "nDetachSurfaceTexture", "(JJ)V", (void*) android_view_ThreadedRenderer_detachSurfaceTexture },
1013 { "nDestroyHardwareResources", "(J)V", (void*) android_view_ThreadedRenderer_destroyHardwareResources },
1014 { "nTrimMemory", "(I)V", (void*) android_view_ThreadedRenderer_trimMemory },
1015 { "nOverrideProperty", "(Ljava/lang/String;Ljava/lang/String;)V", (void*) android_view_ThreadedRenderer_overrideProperty },
1016 { "nFence", "(J)V", (void*) android_view_ThreadedRenderer_fence },
1017 { "nStopDrawing", "(J)V", (void*) android_view_ThreadedRenderer_stopDrawing },
1018 { "nNotifyFramePending", "(J)V", (void*) android_view_ThreadedRenderer_notifyFramePending },
1019 { "nSerializeDisplayListTree", "(J)V", (void*) android_view_ThreadedRenderer_serializeDisplayListTree },
1020 { "nDumpProfileInfo", "(JLjava/io/FileDescriptor;I)V", (void*) android_view_ThreadedRenderer_dumpProfileInfo },
1021 { "setupShadersDiskCache", "(Ljava/lang/String;)V",
1022 (void*) android_view_ThreadedRenderer_setupShadersDiskCache },
1023 { "nAddRenderNode", "(JJZ)V", (void*) android_view_ThreadedRenderer_addRenderNode},
1024 { "nRemoveRenderNode", "(JJ)V", (void*) android_view_ThreadedRenderer_removeRenderNode},
1025 { "nDrawRenderNode", "(JJ)V", (void*) android_view_ThreadedRendererd_drawRenderNode},
1026 { "nSetContentDrawBounds", "(JIIII)V", (void*)android_view_ThreadedRenderer_setContentDrawBounds},
1027 { "nAddFrameMetricsObserver",
1028 "(JLandroid/view/FrameMetricsObserver;)J",
1029 (void*)android_view_ThreadedRenderer_addFrameMetricsObserver },
1030 { "nRemoveFrameMetricsObserver",
1032 (void*)android_view_ThreadedRenderer_removeFrameMetricsObserver },
1033 { "nCopySurfaceInto", "(Landroid/view/Surface;IIIILandroid/graphics/Bitmap;)I",
1034 (void*)android_view_ThreadedRenderer_copySurfaceInto },
1035 { "nCreateHardwareBitmap", "(JII)Landroid/graphics/Bitmap;",
1036 (void*)android_view_ThreadedRenderer_createHardwareBitmapFromRenderNode },
1037 { "disableVsync", "()V", (void*)android_view_ThreadedRenderer_disableVsync },
1040 int register_android_view_ThreadedRenderer(JNIEnv* env) {
1041 jclass observerClass = FindClassOrDie(env, "android/view/FrameMetricsObserver");
1042 gFrameMetricsObserverClassInfo.frameMetrics = GetFieldIDOrDie(
1043 env, observerClass, "mFrameMetrics", "Landroid/view/FrameMetrics;");
1044 gFrameMetricsObserverClassInfo.messageQueue = GetFieldIDOrDie(
1045 env, observerClass, "mMessageQueue", "Landroid/os/MessageQueue;");
1046 gFrameMetricsObserverClassInfo.callback = GetMethodIDOrDie(
1047 env, observerClass, "notifyDataAvailable", "(I)V");
1049 jclass metricsClass = FindClassOrDie(env, "android/view/FrameMetrics");
1050 gFrameMetricsObserverClassInfo.timingDataBuffer = GetFieldIDOrDie(
1051 env, metricsClass, "mTimingData", "[J");
1053 return RegisterMethodsOrDie(env, kClassPathName, gMethods, NELEM(gMethods));
1056 }; // namespace android
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