libs/hwui/DeferredDisplayList.h - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2013 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.
  */

 #ifndef ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H
 #define ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H

 #include <utils/Errors.h>
 #include <utils/LinearAllocator.h>
 #include <utils/Vector.h>
 #include <utils/TinyHashMap.h>

 #include "Matrix.h"
 #include "OpenGLRenderer.h"
 #include "Rect.h"

 class SkBitmap;

 namespace android {
 namespace uirenderer {

 class ClipOp;
 class DrawOp;
 class SaveOp;
 class SaveLayerOp;
 class StateOp;

 class DeferredDisplayState;
 class OpenGLRenderer;

 class Batch;
 class DrawBatch;
 class MergingDrawBatch;

 typedef const void* mergeid_t;

 class DeferredDisplayState {
 public:
     /** static void* operator new(size_t size); PURPOSELY OMITTED **/
     static void* operator new(size_t size, LinearAllocator& allocator) {
         return allocator.alloc(size);
     }

     // global op bounds, mapped by mMatrix to be in screen space coordinates, clipped
     Rect mBounds;

     // the below are set and used by the OpenGLRenderer at record and deferred playback
     bool mClipValid;
     Rect mClip;
     int mClipSideFlags; // specifies which sides of the bounds are clipped, unclipped if cleared
     bool mClipped;
     mat4 mMatrix;
     DrawModifiers mDrawModifiers;
     float mAlpha;
 };

 class OpStatePair {
 public:
     OpStatePair()
             : op(NULL), state(NULL) {}
     OpStatePair(DrawOp* newOp, const DeferredDisplayState* newState)
             : op(newOp), state(newState) {}
     OpStatePair(const OpStatePair& other)
             : op(other.op), state(other.state) {}
     DrawOp* op;
     const DeferredDisplayState* state;
 };

 class DeferredDisplayList {
     friend class DeferStateStruct; // used to give access to allocator
 public:
     DeferredDisplayList(const Rect& bounds, bool avoidOverdraw = true) :
             mBounds(bounds), mAvoidOverdraw(avoidOverdraw) {
         clear();
     }
     ~DeferredDisplayList() { clear(); }

     enum OpBatchId {
         kOpBatch_None = 0, // Don't batch
         kOpBatch_Bitmap,
         kOpBatch_Patch,
         kOpBatch_AlphaVertices,
         kOpBatch_Vertices,
         kOpBatch_AlphaMaskTexture,
         kOpBatch_Text,
         kOpBatch_ColorText,

         kOpBatch_Count, // Add other batch ids before this
     };

     bool isEmpty() { return mBatches.isEmpty(); }

     /**
      * Plays back all of the draw ops recorded into batches to the renderer.
      * Adjusts the state of the renderer as necessary, and restores it when complete
      */
     status_t flush(OpenGLRenderer& renderer, Rect& dirty);

     void addClip(OpenGLRenderer& renderer, ClipOp* op);
     void addSaveLayer(OpenGLRenderer& renderer, SaveLayerOp* op, int newSaveCount);
     void addSave(OpenGLRenderer& renderer, SaveOp* op, int newSaveCount);
     void addRestoreToCount(OpenGLRenderer& renderer, StateOp* op, int newSaveCount);

     /**
      * Add a draw op into the DeferredDisplayList, reordering as needed (for performance) if
      * disallowReorder is false, respecting draw order when overlaps occur.
      */
     void addDrawOp(OpenGLRenderer& renderer, DrawOp* op);

 private:
     DeferredDisplayList(const DeferredDisplayList& other); // disallow copy

     DeferredDisplayState* createState() {
         return new (mAllocator) DeferredDisplayState();
     }

     void tryRecycleState(DeferredDisplayState* state) {
         mAllocator.rewindIfLastAlloc(state, sizeof(DeferredDisplayState));
     }

     /**
      * Resets the batching back-pointers, creating a barrier in the operation stream so that no ops
      * added in the future will be inserted into a batch that already exist.
      */
     void resetBatchingState();

     void clear();

     void storeStateOpBarrier(OpenGLRenderer& renderer, StateOp* op);
     void storeRestoreToCountBarrier(OpenGLRenderer& renderer, StateOp* op, int newSaveCount);

     bool recordingComplexClip() const { return mComplexClipStackStart >= 0; }

     int getStateOpDeferFlags() const;
     int getDrawOpDeferFlags() const;

     void discardDrawingBatches(const unsigned int maxIndex);

     // layer space bounds of rendering
     Rect mBounds;
     const bool mAvoidOverdraw;

     /**
      * At defer time, stores the *defer time* savecount of save/saveLayer ops that were deferred, so
      * that when an associated restoreToCount is deferred, it can be recorded as a
      * RestoreToCountBatch
      */
     Vector<int> mSaveStack;
     int mComplexClipStackStart;

     Vector<Batch*> mBatches;

     // Maps batch ids to the most recent *non-merging* batch of that id
     Batch* mBatchLookup[kOpBatch_Count];

     // Points to the index after the most recent barrier
     int mEarliestBatchIndex;

     // Points to the first index that may contain a pure drawing batch
     int mEarliestUnclearedIndex;

     /**
      * Maps the mergeid_t returned by an op's getMergeId() to the most recently seen
      * MergingDrawBatch of that id. These ids are unique per draw type and guaranteed to not
      * collide, which avoids the need to resolve mergeid collisions.
      */
     TinyHashMap<mergeid_t, DrawBatch*> mMergingBatches[kOpBatch_Count];

     LinearAllocator mAllocator;
 };

 /**
  * Struct containing information that instructs the defer
  */
 struct DeferInfo {
 public:
     DeferInfo() :
             batchId(DeferredDisplayList::kOpBatch_None),
             mergeId((mergeid_t) -1),
             mergeable(false),
             opaqueOverBounds(false) {
     };

     int batchId;
     mergeid_t mergeId;
     bool mergeable;
     bool opaqueOverBounds; // opaque over bounds in DeferredDisplayState - can skip ops below
 };

 }; // namespace uirenderer
 }; // namespace android

 #endif // ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H
	/*
	* Copyright (C) 2013 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.
	*/

	#ifndef ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H
	#define ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H

	#include <utils/Errors.h>
	#include <utils/LinearAllocator.h>
	#include <utils/Vector.h>
	#include <utils/TinyHashMap.h>

	#include "Matrix.h"
	#include "OpenGLRenderer.h"
	#include "Rect.h"

	class SkBitmap;

	namespace android {
	namespace uirenderer {

	class ClipOp;
	class DrawOp;
	class SaveOp;
	class SaveLayerOp;
	class StateOp;

	class DeferredDisplayState;
	class OpenGLRenderer;

	class Batch;
	class DrawBatch;
	class MergingDrawBatch;

	typedef const void* mergeid_t;

	class DeferredDisplayState {
	public:
	/** static void* operator new(size_t size); PURPOSELY OMITTED **/
	static void* operator new(size_t size, LinearAllocator& allocator) {
	return allocator.alloc(size);
	}

	// global op bounds, mapped by mMatrix to be in screen space coordinates, clipped
	Rect mBounds;

	// the below are set and used by the OpenGLRenderer at record and deferred playback
	bool mClipValid;
	Rect mClip;
	int mClipSideFlags; // specifies which sides of the bounds are clipped, unclipped if cleared
	bool mClipped;
	mat4 mMatrix;
	DrawModifiers mDrawModifiers;
	float mAlpha;
	};

	class OpStatePair {
	public:
	OpStatePair()
	: op(NULL), state(NULL) {}
	OpStatePair(DrawOp* newOp, const DeferredDisplayState* newState)
	: op(newOp), state(newState) {}
	OpStatePair(const OpStatePair& other)
	: op(other.op), state(other.state) {}
	DrawOp* op;
	const DeferredDisplayState* state;
	};

	class DeferredDisplayList {
	friend class DeferStateStruct; // used to give access to allocator
	public:
	DeferredDisplayList(const Rect& bounds, bool avoidOverdraw = true) :
	mBounds(bounds), mAvoidOverdraw(avoidOverdraw) {
	clear();
	}
	~DeferredDisplayList() { clear(); }

	enum OpBatchId {
	kOpBatch_None = 0, // Don't batch
	kOpBatch_Bitmap,
	kOpBatch_Patch,
	kOpBatch_AlphaVertices,
	kOpBatch_Vertices,
	kOpBatch_AlphaMaskTexture,
	kOpBatch_Text,
	kOpBatch_ColorText,

	kOpBatch_Count, // Add other batch ids before this
	};

	bool isEmpty() { return mBatches.isEmpty(); }

	/**
	* Plays back all of the draw ops recorded into batches to the renderer.
	* Adjusts the state of the renderer as necessary, and restores it when complete
	*/
	status_t flush(OpenGLRenderer& renderer, Rect& dirty);

	void addClip(OpenGLRenderer& renderer, ClipOp* op);
	void addSaveLayer(OpenGLRenderer& renderer, SaveLayerOp* op, int newSaveCount);
	void addSave(OpenGLRenderer& renderer, SaveOp* op, int newSaveCount);
	void addRestoreToCount(OpenGLRenderer& renderer, StateOp* op, int newSaveCount);

	/**
	* Add a draw op into the DeferredDisplayList, reordering as needed (for performance) if
	* disallowReorder is false, respecting draw order when overlaps occur.
	*/
	void addDrawOp(OpenGLRenderer& renderer, DrawOp* op);

	private:
	DeferredDisplayList(const DeferredDisplayList& other); // disallow copy

	DeferredDisplayState* createState() {
	return new (mAllocator) DeferredDisplayState();
	}

	void tryRecycleState(DeferredDisplayState* state) {
	mAllocator.rewindIfLastAlloc(state, sizeof(DeferredDisplayState));
	}

	/**
	* Resets the batching back-pointers, creating a barrier in the operation stream so that no ops
	* added in the future will be inserted into a batch that already exist.
	*/
	void resetBatchingState();

	void clear();

	void storeStateOpBarrier(OpenGLRenderer& renderer, StateOp* op);
	void storeRestoreToCountBarrier(OpenGLRenderer& renderer, StateOp* op, int newSaveCount);

	bool recordingComplexClip() const { return mComplexClipStackStart >= 0; }

	int getStateOpDeferFlags() const;
	int getDrawOpDeferFlags() const;

	void discardDrawingBatches(const unsigned int maxIndex);

	// layer space bounds of rendering
	Rect mBounds;
	const bool mAvoidOverdraw;

	/**
	* At defer time, stores the defer time savecount of save/saveLayer ops that were deferred, so
	* that when an associated restoreToCount is deferred, it can be recorded as a
	* RestoreToCountBatch
	*/
	Vector<int> mSaveStack;
	int mComplexClipStackStart;

	Vector<Batch*> mBatches;

	// Maps batch ids to the most recent non-merging batch of that id
	Batch* mBatchLookup[kOpBatch_Count];

	// Points to the index after the most recent barrier
	int mEarliestBatchIndex;

	// Points to the first index that may contain a pure drawing batch
	int mEarliestUnclearedIndex;

	/**
	* Maps the mergeid_t returned by an op's getMergeId() to the most recently seen
	* MergingDrawBatch of that id. These ids are unique per draw type and guaranteed to not
	* collide, which avoids the need to resolve mergeid collisions.
	*/
	TinyHashMap<mergeid_t, DrawBatch*> mMergingBatches[kOpBatch_Count];

	LinearAllocator mAllocator;
	};

	/**
	* Struct containing information that instructs the defer
	*/
	struct DeferInfo {
	public:
	DeferInfo() :
	batchId(DeferredDisplayList::kOpBatch_None),
	mergeId((mergeid_t) -1),
	mergeable(false),
	opaqueOverBounds(false) {
	};

	int batchId;
	mergeid_t mergeId;
	bool mergeable;
	bool opaqueOverBounds; // opaque over bounds in DeferredDisplayState - can skip ops below
	};

	}; // namespace uirenderer
	}; // namespace android

	#endif // ANDROID_HWUI_DEFERRED_DISPLAY_LIST_H