libs/hwui/renderthread/CanvasContext.h - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #pragma once

 #include "BakedOpDispatcher.h"
 #include "BakedOpRenderer.h"
 #include "DamageAccumulator.h"
 #include "FrameBuilder.h"
 #include "FrameInfo.h"
 #include "FrameInfoVisualizer.h"
 #include "FrameMetricsReporter.h"
 #include "IContextFactory.h"
 #include "IRenderPipeline.h"
 #include "LayerUpdateQueue.h"
 #include "RenderNode.h"
 #include "renderthread/RenderTask.h"
 #include "renderthread/RenderThread.h"
 #include "thread/Task.h"
 #include "thread/TaskProcessor.h"

 #include <EGL/egl.h>
 #include <SkBitmap.h>
 #include <SkRect.h>
 #include <cutils/compiler.h>
 #include <gui/Surface.h>
 #include <utils/Functor.h>

 #include <functional>
 #include <set>
 #include <string>
 #include <vector>

 namespace android {
 namespace uirenderer {

 class AnimationContext;
 class DeferredLayerUpdater;
 class ErrorHandler;
 class Layer;
 class Rect;
 class RenderState;

 namespace renderthread {

 class EglManager;
 class Frame;

 // This per-renderer class manages the bridge between the global EGL context
 // and the render surface.
 // TODO: Rename to Renderer or some other per-window, top-level manager
 class CanvasContext : public IFrameCallback {
 public:
     static CanvasContext* create(RenderThread& thread, bool translucent, RenderNode* rootRenderNode,
                                  IContextFactory* contextFactory);
     virtual ~CanvasContext();

     /**
      * Update or create a layer specific for the provided RenderNode. The layer
      * attached to the node will be specific to the RenderPipeline used by this
      * context
      *
      *  @return true if the layer has been created or updated
      */
     bool createOrUpdateLayer(RenderNode* node, const DamageAccumulator& dmgAccumulator,
                              ErrorHandler* errorHandler) {
         return mRenderPipeline->createOrUpdateLayer(node, dmgAccumulator, mWideColorGamut,
                 errorHandler);
     }

     /**
      * Pin any mutable images to the GPU cache. A pinned images is guaranteed to
      * remain in the cache until it has been unpinned. We leverage this feature
      * to avoid making a CPU copy of the pixels.
      *
      * @return true if all images have been successfully pinned to the GPU cache
      *         and false otherwise (e.g. cache limits have been exceeded).
      */
     bool pinImages(std::vector<SkImage*>& mutableImages) {
         return mRenderPipeline->pinImages(mutableImages);
     }
     bool pinImages(LsaVector<sk_sp<Bitmap>>& images) { return mRenderPipeline->pinImages(images); }

     /**
      * Unpin any image that had be previously pinned to the GPU cache
      */
     void unpinImages() { mRenderPipeline->unpinImages(); }

     /**
      * Destroy any layers that have been attached to the provided RenderNode removing
      * any state that may have been set during createOrUpdateLayer().
      */
     static void destroyLayer(RenderNode* node);

     static void invokeFunctor(const RenderThread& thread, Functor* functor);

     static void prepareToDraw(const RenderThread& thread, Bitmap* bitmap);

     /*
      * If Properties::isSkiaEnabled() is true then this will return the Skia
      * grContext associated with the current RenderPipeline.
      */
     GrContext* getGrContext() const { return mRenderThread.getGrContext(); }

     // Won't take effect until next EGLSurface creation
     void setSwapBehavior(SwapBehavior swapBehavior);

     void setSurface(sp<Surface>&& surface);
     bool pauseSurface();
     void setStopped(bool stopped);
     bool hasSurface() { return mNativeSurface.get(); }

     void setup(float lightRadius, uint8_t ambientShadowAlpha, uint8_t spotShadowAlpha);
     void setLightCenter(const Vector3& lightCenter);
     void setOpaque(bool opaque);
     void setWideGamut(bool wideGamut);
     bool makeCurrent();
     void prepareTree(TreeInfo& info, int64_t* uiFrameInfo, int64_t syncQueued, RenderNode* target);
     void draw();
     void destroy();

     // IFrameCallback, Choreographer-driven frame callback entry point
     virtual void doFrame() override;
     void prepareAndDraw(RenderNode* node);

     void buildLayer(RenderNode* node);
     bool copyLayerInto(DeferredLayerUpdater* layer, SkBitmap* bitmap);
     void markLayerInUse(RenderNode* node);

     void destroyHardwareResources();
     static void trimMemory(RenderThread& thread, int level);

     DeferredLayerUpdater* createTextureLayer();

     void stopDrawing();
     void notifyFramePending();

     FrameInfoVisualizer& profiler() { return mProfiler; }

     void dumpFrames(int fd);
     void resetFrameStats();

     void setName(const std::string&& name);

     void serializeDisplayListTree();

     void addRenderNode(RenderNode* node, bool placeFront);
     void removeRenderNode(RenderNode* node);

     void setContentDrawBounds(const Rect& bounds) { mContentDrawBounds = bounds; }

     RenderState& getRenderState() { return mRenderThread.renderState(); }

     void addFrameMetricsObserver(FrameMetricsObserver* observer) {
         if (mFrameMetricsReporter.get() == nullptr) {
             mFrameMetricsReporter.reset(new FrameMetricsReporter());
         }

         mFrameMetricsReporter->addObserver(observer);
     }

     void removeFrameMetricsObserver(FrameMetricsObserver* observer) {
         if (mFrameMetricsReporter.get() != nullptr) {
             mFrameMetricsReporter->removeObserver(observer);
             if (!mFrameMetricsReporter->hasObservers()) {
                 mFrameMetricsReporter.reset(nullptr);
             }
         }
     }

     // Used to queue up work that needs to be completed before this frame completes
     ANDROID_API void enqueueFrameWork(std::function<void()>&& func);

     ANDROID_API int64_t getFrameNumber();

     void waitOnFences();

     IRenderPipeline* getRenderPipeline() { return mRenderPipeline.get(); }

     void addFrameCompleteListener(std::function<void(int64_t)>&& func) {
         mFrameCompleteCallbacks.push_back(std::move(func));
     }

 private:
     CanvasContext(RenderThread& thread, bool translucent, RenderNode* rootRenderNode,
                   IContextFactory* contextFactory, std::unique_ptr<IRenderPipeline> renderPipeline);

     friend class RegisterFrameCallbackTask;
     // TODO: Replace with something better for layer & other GL object
     // lifecycle tracking
     friend class android::uirenderer::RenderState;

     void freePrefetchedLayers();

     bool isSwapChainStuffed();

     SkRect computeDirtyRect(const Frame& frame, SkRect* dirty);

     EGLint mLastFrameWidth = 0;
     EGLint mLastFrameHeight = 0;

     RenderThread& mRenderThread;
     sp<Surface> mNativeSurface;
     // stopped indicates the CanvasContext will reject actual redraw operations,
     // and defer repaint until it is un-stopped
     bool mStopped = false;
     // Incremented each time the CanvasContext is stopped. Used to ignore
     // delayed messages that are triggered after stopping.
     int mGenerationID;
     // CanvasContext is dirty if it has received an update that it has not
     // painted onto its surface.
     bool mIsDirty = false;
     SwapBehavior mSwapBehavior = SwapBehavior::kSwap_default;
     struct SwapHistory {
         SkRect damage;
         nsecs_t vsyncTime;
         nsecs_t swapCompletedTime;
         nsecs_t dequeueDuration;
         nsecs_t queueDuration;
     };

     RingBuffer<SwapHistory, 3> mSwapHistory;
     int64_t mFrameNumber = -1;

     // last vsync for a dropped frame due to stuffed queue
     nsecs_t mLastDropVsync = 0;

     bool mOpaque;
     bool mWideColorGamut = false;
     BakedOpRenderer::LightInfo mLightInfo;
     FrameBuilder::LightGeometry mLightGeometry = {{0, 0, 0}, 0};

     bool mHaveNewSurface = false;
     DamageAccumulator mDamageAccumulator;
     LayerUpdateQueue mLayerUpdateQueue;
     std::unique_ptr<AnimationContext> mAnimationContext;

     std::vector<sp<RenderNode>> mRenderNodes;

     FrameInfo* mCurrentFrameInfo = nullptr;
     std::string mName;
     JankTracker mJankTracker;
     FrameInfoVisualizer mProfiler;
     std::unique_ptr<FrameMetricsReporter> mFrameMetricsReporter;

     std::set<RenderNode*> mPrefetchedLayers;

     // Stores the bounds of the main content.
     Rect mContentDrawBounds;

     // TODO: This is really a Task<void> but that doesn't really work
     // when Future<> expects to be able to get/set a value
     struct FuncTask : public Task<bool> {
         std::function<void()> func;
     };
     class FuncTaskProcessor;

     std::vector<sp<FuncTask>> mFrameFences;
     sp<TaskProcessor<bool>> mFrameWorkProcessor;
     std::unique_ptr<IRenderPipeline> mRenderPipeline;

     std::vector<std::function<void(int64_t)>> mFrameCompleteCallbacks;
 };

 } /* namespace renderthread */
 } /* namespace uirenderer */
 } /* namespace android */
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#pragma once

	#include "BakedOpDispatcher.h"
	#include "BakedOpRenderer.h"
	#include "DamageAccumulator.h"
	#include "FrameBuilder.h"
	#include "FrameInfo.h"
	#include "FrameInfoVisualizer.h"
	#include "FrameMetricsReporter.h"
	#include "IContextFactory.h"
	#include "IRenderPipeline.h"
	#include "LayerUpdateQueue.h"
	#include "RenderNode.h"
	#include "renderthread/RenderTask.h"
	#include "renderthread/RenderThread.h"
	#include "thread/Task.h"
	#include "thread/TaskProcessor.h"

	#include <EGL/egl.h>
	#include <SkBitmap.h>
	#include <SkRect.h>
	#include <cutils/compiler.h>
	#include <gui/Surface.h>
	#include <utils/Functor.h>

	#include <functional>
	#include <set>
	#include <string>
	#include <vector>

	namespace android {
	namespace uirenderer {

	class AnimationContext;
	class DeferredLayerUpdater;
	class ErrorHandler;
	class Layer;
	class Rect;
	class RenderState;

	namespace renderthread {

	class EglManager;
	class Frame;

	// This per-renderer class manages the bridge between the global EGL context
	// and the render surface.
	// TODO: Rename to Renderer or some other per-window, top-level manager
	class CanvasContext : public IFrameCallback {
	public:
	static CanvasContext* create(RenderThread& thread, bool translucent, RenderNode* rootRenderNode,
	IContextFactory* contextFactory);
	virtual ~CanvasContext();

	/**
	* Update or create a layer specific for the provided RenderNode. The layer
	* attached to the node will be specific to the RenderPipeline used by this
	* context
	*
	* @return true if the layer has been created or updated
	*/
	bool createOrUpdateLayer(RenderNode* node, const DamageAccumulator& dmgAccumulator,
	ErrorHandler* errorHandler) {
	return mRenderPipeline->createOrUpdateLayer(node, dmgAccumulator, mWideColorGamut,
	errorHandler);
	}

	/**
	* Pin any mutable images to the GPU cache. A pinned images is guaranteed to
	* remain in the cache until it has been unpinned. We leverage this feature
	* to avoid making a CPU copy of the pixels.
	*
	* @return true if all images have been successfully pinned to the GPU cache
	* and false otherwise (e.g. cache limits have been exceeded).
	*/
	bool pinImages(std::vector<SkImage*>& mutableImages) {
	return mRenderPipeline->pinImages(mutableImages);
	}
	bool pinImages(LsaVector<sk_sp<Bitmap>>& images) { return mRenderPipeline->pinImages(images); }

	/**
	* Unpin any image that had be previously pinned to the GPU cache
	*/
	void unpinImages() { mRenderPipeline->unpinImages(); }

	/**
	* Destroy any layers that have been attached to the provided RenderNode removing
	* any state that may have been set during createOrUpdateLayer().
	*/
	static void destroyLayer(RenderNode* node);

	static void invokeFunctor(const RenderThread& thread, Functor* functor);

	static void prepareToDraw(const RenderThread& thread, Bitmap* bitmap);

	/*
	* If Properties::isSkiaEnabled() is true then this will return the Skia
	* grContext associated with the current RenderPipeline.
	*/
	GrContext* getGrContext() const { return mRenderThread.getGrContext(); }

	// Won't take effect until next EGLSurface creation
	void setSwapBehavior(SwapBehavior swapBehavior);

	void setSurface(sp<Surface>&& surface);
	bool pauseSurface();
	void setStopped(bool stopped);
	bool hasSurface() { return mNativeSurface.get(); }

	void setup(float lightRadius, uint8_t ambientShadowAlpha, uint8_t spotShadowAlpha);
	void setLightCenter(const Vector3& lightCenter);
	void setOpaque(bool opaque);
	void setWideGamut(bool wideGamut);
	bool makeCurrent();
	void prepareTree(TreeInfo& info, int64_t* uiFrameInfo, int64_t syncQueued, RenderNode* target);
	void draw();
	void destroy();

	// IFrameCallback, Choreographer-driven frame callback entry point
	virtual void doFrame() override;
	void prepareAndDraw(RenderNode* node);

	void buildLayer(RenderNode* node);
	bool copyLayerInto(DeferredLayerUpdater* layer, SkBitmap* bitmap);
	void markLayerInUse(RenderNode* node);

	void destroyHardwareResources();
	static void trimMemory(RenderThread& thread, int level);

	DeferredLayerUpdater* createTextureLayer();

	void stopDrawing();
	void notifyFramePending();

	FrameInfoVisualizer& profiler() { return mProfiler; }

	void dumpFrames(int fd);
	void resetFrameStats();

	void setName(const std::string&& name);

	void serializeDisplayListTree();

	void addRenderNode(RenderNode* node, bool placeFront);
	void removeRenderNode(RenderNode* node);

	void setContentDrawBounds(const Rect& bounds) { mContentDrawBounds = bounds; }

	RenderState& getRenderState() { return mRenderThread.renderState(); }

	void addFrameMetricsObserver(FrameMetricsObserver* observer) {
	if (mFrameMetricsReporter.get() == nullptr) {
	mFrameMetricsReporter.reset(new FrameMetricsReporter());
	}

	mFrameMetricsReporter->addObserver(observer);
	}

	void removeFrameMetricsObserver(FrameMetricsObserver* observer) {
	if (mFrameMetricsReporter.get() != nullptr) {
	mFrameMetricsReporter->removeObserver(observer);
	if (!mFrameMetricsReporter->hasObservers()) {
	mFrameMetricsReporter.reset(nullptr);
	}
	}
	}

	// Used to queue up work that needs to be completed before this frame completes
	ANDROID_API void enqueueFrameWork(std::function<void()>&& func);

	ANDROID_API int64_t getFrameNumber();

	void waitOnFences();

	IRenderPipeline* getRenderPipeline() { return mRenderPipeline.get(); }

	void addFrameCompleteListener(std::function<void(int64_t)>&& func) {
	mFrameCompleteCallbacks.push_back(std::move(func));
	}

	private:
	CanvasContext(RenderThread& thread, bool translucent, RenderNode* rootRenderNode,
	IContextFactory* contextFactory, std::unique_ptr<IRenderPipeline> renderPipeline);

	friend class RegisterFrameCallbackTask;
	// TODO: Replace with something better for layer & other GL object
	// lifecycle tracking
	friend class android::uirenderer::RenderState;

	void freePrefetchedLayers();

	bool isSwapChainStuffed();

	SkRect computeDirtyRect(const Frame& frame, SkRect* dirty);

	EGLint mLastFrameWidth = 0;
	EGLint mLastFrameHeight = 0;

	RenderThread& mRenderThread;
	sp<Surface> mNativeSurface;
	// stopped indicates the CanvasContext will reject actual redraw operations,
	// and defer repaint until it is un-stopped
	bool mStopped = false;
	// Incremented each time the CanvasContext is stopped. Used to ignore
	// delayed messages that are triggered after stopping.
	int mGenerationID;
	// CanvasContext is dirty if it has received an update that it has not
	// painted onto its surface.
	bool mIsDirty = false;
	SwapBehavior mSwapBehavior = SwapBehavior::kSwap_default;
	struct SwapHistory {
	SkRect damage;
	nsecs_t vsyncTime;
	nsecs_t swapCompletedTime;
	nsecs_t dequeueDuration;
	nsecs_t queueDuration;
	};

	RingBuffer<SwapHistory, 3> mSwapHistory;
	int64_t mFrameNumber = -1;

	// last vsync for a dropped frame due to stuffed queue
	nsecs_t mLastDropVsync = 0;

	bool mOpaque;
	bool mWideColorGamut = false;
	BakedOpRenderer::LightInfo mLightInfo;
	FrameBuilder::LightGeometry mLightGeometry = {{0, 0, 0}, 0};

	bool mHaveNewSurface = false;
	DamageAccumulator mDamageAccumulator;
	LayerUpdateQueue mLayerUpdateQueue;
	std::unique_ptr<AnimationContext> mAnimationContext;

	std::vector<sp<RenderNode>> mRenderNodes;

	FrameInfo* mCurrentFrameInfo = nullptr;
	std::string mName;
	JankTracker mJankTracker;
	FrameInfoVisualizer mProfiler;
	std::unique_ptr<FrameMetricsReporter> mFrameMetricsReporter;

	std::set<RenderNode*> mPrefetchedLayers;

	// Stores the bounds of the main content.
	Rect mContentDrawBounds;

	// TODO: This is really a Task<void> but that doesn't really work
	// when Future<> expects to be able to get/set a value
	struct FuncTask : public Task<bool> {
	std::function<void()> func;
	};
	class FuncTaskProcessor;

	std::vector<sp<FuncTask>> mFrameFences;
	sp<TaskProcessor<bool>> mFrameWorkProcessor;
	std::unique_ptr<IRenderPipeline> mRenderPipeline;

	std::vector<std::function<void(int64_t)>> mFrameCompleteCallbacks;
	};

	} /* namespace renderthread */
	} /* namespace uirenderer */
	} /* namespace android */