libs/hwui/DisplayListRenderer.h - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2010 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_DISPLAY_LIST_RENDERER_H
 #define ANDROID_HWUI_DISPLAY_LIST_RENDERER_H

 #include <SkChunkAlloc.h>
 #include <SkFlattenable.h>
 #include <SkMatrix.h>
 #include <SkCamera.h>
 #include <SkPaint.h>
 #include <SkPath.h>
 #include <SkRefCnt.h>
 #include <SkTDArray.h>
 #include <SkTSearch.h>

 #include <cutils/compiler.h>

 #include "DisplayListLogBuffer.h"
 #include "OpenGLRenderer.h"
 #include "utils/LinearAllocator.h"

 namespace android {
 namespace uirenderer {

 ///////////////////////////////////////////////////////////////////////////////
 // Defines
 ///////////////////////////////////////////////////////////////////////////////

 #define MIN_WRITER_SIZE 4096
 #define OP_MAY_BE_SKIPPED_MASK 0xff000000

 // Debug
 #if DEBUG_DISPLAY_LIST
     #define DISPLAY_LIST_LOGD(...) ALOGD(__VA_ARGS__)
 #else
     #define DISPLAY_LIST_LOGD(...)
 #endif

 #define TRANSLATION 0x0001
 #define ROTATION    0x0002
 #define ROTATION_3D 0x0004
 #define SCALE       0x0008
 #define PIVOT       0x0010

 ///////////////////////////////////////////////////////////////////////////////
 // Display list
 ///////////////////////////////////////////////////////////////////////////////

 class DisplayListRenderer;
 class DisplayListOp;
 class DrawOp;
 class StateOp;

 /**
  * Refcounted structure that holds data used in display list stream
  */
 class DisplayListData: public LightRefBase<DisplayListData> {
 public:
     LinearAllocator allocator;
     Vector<DisplayListOp*> displayListOps;
 };

 /**
  * Replays recorded drawing commands.
  */
 class DisplayList {
 public:
     DisplayList(const DisplayListRenderer& recorder);
     ANDROID_API ~DisplayList();

     // See flags defined in DisplayList.java
     enum ReplayFlag {
         kReplayFlag_ClipChildren = 0x1
     };

     void setViewProperties(OpenGLRenderer& renderer, uint32_t level);
     void outputViewProperties(uint32_t level);

     ANDROID_API size_t getSize();
     ANDROID_API static void destroyDisplayListDeferred(DisplayList* displayList);
     ANDROID_API static void outputLogBuffer(int fd);

     void initFromDisplayListRenderer(const DisplayListRenderer& recorder, bool reusing = false);

     status_t replay(OpenGLRenderer& renderer, Rect& dirty, int32_t flags, uint32_t level = 0);

     void output(uint32_t level = 0);

     ANDROID_API void reset();

     void setRenderable(bool renderable) {
         mIsRenderable = renderable;
     }

     bool isRenderable() const {
         return mIsRenderable;
     }

     void setName(const char* name) {
         if (name) {
             mName.setTo(name);
         }
     }

     void setClipChildren(bool clipChildren) {
         mClipChildren = clipChildren;
     }

     void setStaticMatrix(SkMatrix* matrix) {
         delete mStaticMatrix;
         mStaticMatrix = new SkMatrix(*matrix);
     }

     void setAnimationMatrix(SkMatrix* matrix) {
         delete mAnimationMatrix;
         if (matrix) {
             mAnimationMatrix = new SkMatrix(*matrix);
         } else {
             mAnimationMatrix = NULL;
         }
     }

     void setAlpha(float alpha) {
         alpha = fminf(1.0f, fmaxf(0.0f, alpha));
         if (alpha != mAlpha) {
             mAlpha = alpha;
             mMultipliedAlpha = (int) (255 * alpha);
         }
     }

     void setHasOverlappingRendering(bool hasOverlappingRendering) {
         mHasOverlappingRendering = hasOverlappingRendering;
     }

     void setTranslationX(float translationX) {
         if (translationX != mTranslationX) {
             mTranslationX = translationX;
             mMatrixDirty = true;
             if (mTranslationX == 0.0f && mTranslationY == 0.0f) {
                 mMatrixFlags &= ~TRANSLATION;
             } else {
                 mMatrixFlags |= TRANSLATION;
             }
         }
     }

     void setTranslationY(float translationY) {
         if (translationY != mTranslationY) {
             mTranslationY = translationY;
             mMatrixDirty = true;
             if (mTranslationX == 0.0f && mTranslationY == 0.0f) {
                 mMatrixFlags &= ~TRANSLATION;
             } else {
                 mMatrixFlags |= TRANSLATION;
             }
         }
     }

     void setRotation(float rotation) {
         if (rotation != mRotation) {
             mRotation = rotation;
             mMatrixDirty = true;
             if (mRotation == 0.0f) {
                 mMatrixFlags &= ~ROTATION;
             } else {
                 mMatrixFlags |= ROTATION;
             }
         }
     }

     void setRotationX(float rotationX) {
         if (rotationX != mRotationX) {
             mRotationX = rotationX;
             mMatrixDirty = true;
             if (mRotationX == 0.0f && mRotationY == 0.0f) {
                 mMatrixFlags &= ~ROTATION_3D;
             } else {
                 mMatrixFlags |= ROTATION_3D;
             }
         }
     }

     void setRotationY(float rotationY) {
         if (rotationY != mRotationY) {
             mRotationY = rotationY;
             mMatrixDirty = true;
             if (mRotationX == 0.0f && mRotationY == 0.0f) {
                 mMatrixFlags &= ~ROTATION_3D;
             } else {
                 mMatrixFlags |= ROTATION_3D;
             }
         }
     }

     void setScaleX(float scaleX) {
         if (scaleX != mScaleX) {
             mScaleX = scaleX;
             mMatrixDirty = true;
             if (mScaleX == 1.0f && mScaleY == 1.0f) {
                 mMatrixFlags &= ~SCALE;
             } else {
                 mMatrixFlags |= SCALE;
             }
         }
     }

     void setScaleY(float scaleY) {
         if (scaleY != mScaleY) {
             mScaleY = scaleY;
             mMatrixDirty = true;
             if (mScaleX == 1.0f && mScaleY == 1.0f) {
                 mMatrixFlags &= ~SCALE;
             } else {
                 mMatrixFlags |= SCALE;
             }
         }
     }

     void setPivotX(float pivotX) {
         mPivotX = pivotX;
         mMatrixDirty = true;
         if (mPivotX == 0.0f && mPivotY == 0.0f) {
             mMatrixFlags &= ~PIVOT;
         } else {
             mMatrixFlags |= PIVOT;
         }
         mPivotExplicitlySet = true;
     }

     void setPivotY(float pivotY) {
         mPivotY = pivotY;
         mMatrixDirty = true;
         if (mPivotX == 0.0f && mPivotY == 0.0f) {
             mMatrixFlags &= ~PIVOT;
         } else {
             mMatrixFlags |= PIVOT;
         }
         mPivotExplicitlySet = true;
     }

     void setCameraDistance(float distance) {
         if (distance != mCameraDistance) {
             mCameraDistance = distance;
             mMatrixDirty = true;
             if (!mTransformCamera) {
                 mTransformCamera = new Sk3DView();
                 mTransformMatrix3D = new SkMatrix();
             }
             mTransformCamera->setCameraLocation(0, 0, distance);
         }
     }

     void setLeft(int left) {
         if (left != mLeft) {
             mLeft = left;
             mWidth = mRight - mLeft;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setTop(int top) {
         if (top != mTop) {
             mTop = top;
             mHeight = mBottom - mTop;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setRight(int right) {
         if (right != mRight) {
             mRight = right;
             mWidth = mRight - mLeft;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setBottom(int bottom) {
         if (bottom != mBottom) {
             mBottom = bottom;
             mHeight = mBottom - mTop;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setLeftTop(int left, int top) {
         if (left != mLeft || top != mTop) {
             mLeft = left;
             mTop = top;
             mWidth = mRight - mLeft;
             mHeight = mBottom - mTop;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setLeftTopRightBottom(int left, int top, int right, int bottom) {
         if (left != mLeft || top != mTop || right != mRight || bottom != mBottom) {
             mLeft = left;
             mTop = top;
             mRight = right;
             mBottom = bottom;
             mWidth = mRight - mLeft;
             mHeight = mBottom - mTop;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void offsetLeftRight(int offset) {
         if (offset != 0) {
             mLeft += offset;
             mRight += offset;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void offsetTopBottom(int offset) {
         if (offset != 0) {
             mTop += offset;
             mBottom += offset;
             if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
                 mMatrixDirty = true;
             }
         }
     }

     void setCaching(bool caching) {
         mCaching = caching;
     }

     int getWidth() {
         return mWidth;
     }

     int getHeight() {
         return mHeight;
     }

 private:
     void init();

     void clearResources();

     void updateMatrix();

     class TextContainer {
     public:
         size_t length() const {
             return mByteLength;
         }

         const char* text() const {
             return (const char*) mText;
         }

         size_t mByteLength;
         const char* mText;
     };

     Vector<SkBitmap*> mBitmapResources;
     Vector<SkBitmap*> mOwnedBitmapResources;
     Vector<SkiaColorFilter*> mFilterResources;

     Vector<SkPaint*> mPaints;
     Vector<SkPath*> mPaths;
     SortedVector<SkPath*> mSourcePaths;
     Vector<SkRegion*> mRegions;
     Vector<SkMatrix*> mMatrices;
     Vector<SkiaShader*> mShaders;
     Vector<Layer*> mLayers;

     sp<DisplayListData> mDisplayListData;

     size_t mSize;

     bool mIsRenderable;
     uint32_t mFunctorCount;

     String8 mName;

     // View properties
     bool mClipChildren;
     float mAlpha;
     int mMultipliedAlpha;
     bool mHasOverlappingRendering;
     float mTranslationX, mTranslationY;
     float mRotation, mRotationX, mRotationY;
     float mScaleX, mScaleY;
     float mPivotX, mPivotY;
     float mCameraDistance;
     int mLeft, mTop, mRight, mBottom;
     int mWidth, mHeight;
     int mPrevWidth, mPrevHeight;
     bool mPivotExplicitlySet;
     bool mMatrixDirty;
     bool mMatrixIsIdentity;
     uint32_t mMatrixFlags;
     SkMatrix* mTransformMatrix;
     Sk3DView* mTransformCamera;
     SkMatrix* mTransformMatrix3D;
     SkMatrix* mStaticMatrix;
     SkMatrix* mAnimationMatrix;
     bool mCaching;
 };

 ///////////////////////////////////////////////////////////////////////////////
 // Renderer
 ///////////////////////////////////////////////////////////////////////////////

 /**
  * Records drawing commands in a display list for latter playback.
  */
 class DisplayListRenderer: public OpenGLRenderer {
 public:
     ANDROID_API DisplayListRenderer();
     virtual ~DisplayListRenderer();

     ANDROID_API DisplayList* getDisplayList(DisplayList* displayList);

     virtual bool isDeferred();

     virtual void setViewport(int width, int height);
     virtual status_t prepareDirty(float left, float top, float right, float bottom, bool opaque);
     virtual void finish();

     virtual status_t callDrawGLFunction(Functor *functor, Rect& dirty);

     virtual void interrupt();
     virtual void resume();

     virtual int save(int flags);
     virtual void restore();
     virtual void restoreToCount(int saveCount);

     virtual int saveLayer(float left, float top, float right, float bottom,
             SkPaint* p, int flags);
     virtual int saveLayerAlpha(float left, float top, float right, float bottom,
                 int alpha, int flags);

     virtual void translate(float dx, float dy);
     virtual void rotate(float degrees);
     virtual void scale(float sx, float sy);
     virtual void skew(float sx, float sy);

     virtual void setMatrix(SkMatrix* matrix);
     virtual void concatMatrix(SkMatrix* matrix);

     virtual bool clipRect(float left, float top, float right, float bottom, SkRegion::Op op);
     virtual bool clipPath(SkPath* path, SkRegion::Op op);
     virtual bool clipRegion(SkRegion* region, SkRegion::Op op);

     virtual status_t drawDisplayList(DisplayList* displayList, Rect& dirty, int32_t flags,
             uint32_t level = 0);
     virtual status_t drawLayer(Layer* layer, float x, float y, SkPaint* paint);
     virtual status_t drawBitmap(SkBitmap* bitmap, float left, float top, SkPaint* paint);
     virtual status_t drawBitmap(SkBitmap* bitmap, SkMatrix* matrix, SkPaint* paint);
     virtual status_t drawBitmap(SkBitmap* bitmap, float srcLeft, float srcTop,
             float srcRight, float srcBottom, float dstLeft, float dstTop,
             float dstRight, float dstBottom, SkPaint* paint);
     virtual status_t drawBitmapData(SkBitmap* bitmap, float left, float top, SkPaint* paint);
     virtual status_t drawBitmapMesh(SkBitmap* bitmap, int meshWidth, int meshHeight,
             float* vertices, int* colors, SkPaint* paint);
     virtual status_t drawPatch(SkBitmap* bitmap, const int32_t* xDivs, const int32_t* yDivs,
             const uint32_t* colors, uint32_t width, uint32_t height, int8_t numColors,
             float left, float top, float right, float bottom, SkPaint* paint);
     virtual status_t drawColor(int color, SkXfermode::Mode mode);
     virtual status_t drawRect(float left, float top, float right, float bottom, SkPaint* paint);
     virtual status_t drawRoundRect(float left, float top, float right, float bottom,
             float rx, float ry, SkPaint* paint);
     virtual status_t drawCircle(float x, float y, float radius, SkPaint* paint);
     virtual status_t drawOval(float left, float top, float right, float bottom, SkPaint* paint);
     virtual status_t drawArc(float left, float top, float right, float bottom,
             float startAngle, float sweepAngle, bool useCenter, SkPaint* paint);
     virtual status_t drawPath(SkPath* path, SkPaint* paint);
     virtual status_t drawLines(float* points, int count, SkPaint* paint);
     virtual status_t drawPoints(float* points, int count, SkPaint* paint);
     virtual status_t drawTextOnPath(const char* text, int bytesCount, int count, SkPath* path,
             float hOffset, float vOffset, SkPaint* paint);
     virtual status_t drawPosText(const char* text, int bytesCount, int count,
             const float* positions, SkPaint* paint);
     virtual status_t drawText(const char* text, int bytesCount, int count,
             float x, float y, const float* positions, SkPaint* paint, float length);
     virtual status_t drawRects(const float* rects, int count, SkPaint* paint);

     virtual void resetShader();
     virtual void setupShader(SkiaShader* shader);

     virtual void resetColorFilter();
     virtual void setupColorFilter(SkiaColorFilter* filter);

     virtual void resetShadow();
     virtual void setupShadow(float radius, float dx, float dy, int color);

     virtual void resetPaintFilter();
     virtual void setupPaintFilter(int clearBits, int setBits);

     ANDROID_API void reset();

     sp<DisplayListData> getDisplayListData() const {
         return mDisplayListData;
     }

     const Vector<SkBitmap*>& getBitmapResources() const {
         return mBitmapResources;
     }

     const Vector<SkBitmap*>& getOwnedBitmapResources() const {
         return mOwnedBitmapResources;
     }

     const Vector<SkiaColorFilter*>& getFilterResources() const {
         return mFilterResources;
     }

     const Vector<SkiaShader*>& getShaders() const {
         return mShaders;
     }

     const Vector<SkPaint*>& getPaints() const {
         return mPaints;
     }

     const Vector<SkPath*>& getPaths() const {
         return mPaths;
     }

     const SortedVector<SkPath*>& getSourcePaths() const {
         return mSourcePaths;
     }

     const Vector<SkRegion*>& getRegions() const {
         return mRegions;
     }

     const Vector<Layer*>& getLayers() const {
         return mLayers;
     }

     const Vector<SkMatrix*>& getMatrices() const {
         return mMatrices;
     }

     uint32_t getFunctorCount() const {
         return mFunctorCount;
     }

 private:
     void insertRestoreToCount();
     void insertTranslate();

     LinearAllocator& alloc() { return mDisplayListData->allocator; }
     void addStateOp(StateOp* op);
     bool addDrawOp(DrawOp* op); // returns true if op not rejected
     void addOpInternal(DisplayListOp* op) {
         insertRestoreToCount();
         insertTranslate();
         mDisplayListData->displayListOps.add(op);
     }

     template<class T>
     inline T* refBuffer(const T* srcBuffer, int32_t count) {
         if (srcBuffer == NULL) return NULL;
         T* dstBuffer = (T*) mDisplayListData->allocator.alloc(count * sizeof(T));
         memcpy(dstBuffer, srcBuffer, count * sizeof(T));
         return dstBuffer;
     }

     inline char* refText(const char* text, size_t byteLength) {
         return (char*) refBuffer<uint8_t>((uint8_t*)text, byteLength);
     }

     inline SkPath* refPath(SkPath* path) {
         if (!path) return NULL;

         SkPath* pathCopy = mPathMap.valueFor(path);
         if (pathCopy == NULL || pathCopy->getGenerationID() != path->getGenerationID()) {
             pathCopy = new SkPath(*path);
             pathCopy->setSourcePath(path);
             // replaceValueFor() performs an add if the entry doesn't exist
             mPathMap.replaceValueFor(path, pathCopy);
             mPaths.add(pathCopy);
         }
         if (mSourcePaths.indexOf(path) < 0) {
             mCaches.resourceCache.incrementRefcount(path);
             mSourcePaths.add(path);
         }
         return pathCopy;
     }

     inline SkPaint* refPaint(SkPaint* paint) {
         if (!paint) {
             return paint;
         }

         SkPaint* paintCopy = mPaintMap.valueFor(paint);
         if (paintCopy == NULL || paintCopy->getGenerationID() != paint->getGenerationID()) {
             paintCopy = new SkPaint(*paint);
             // replaceValueFor() performs an add if the entry doesn't exist
             mPaintMap.replaceValueFor(paint, paintCopy);
             mPaints.add(paintCopy);
         }

         return paintCopy;
     }

     inline SkRegion* refRegion(SkRegion* region) {
         if (!region) {
             return region;
         }

         SkRegion* regionCopy = mRegionMap.valueFor(region);
         // TODO: Add generation ID to SkRegion
         if (regionCopy == NULL) {
             regionCopy = new SkRegion(*region);
             // replaceValueFor() performs an add if the entry doesn't exist
             mRegionMap.replaceValueFor(region, regionCopy);
             mRegions.add(regionCopy);
         }

         return regionCopy;
     }

     inline SkMatrix* refMatrix(SkMatrix* matrix) {
         // Copying the matrix is cheap and prevents against the user changing the original
         // matrix before the operation that uses it
         SkMatrix* copy = new SkMatrix(*matrix);
         mMatrices.add(copy);
         return copy;
     }

     inline SkBitmap* refBitmap(SkBitmap* bitmap) {
         // Note that this assumes the bitmap is immutable. There are cases this won't handle
         // correctly, such as creating the bitmap from scratch, drawing with it, changing its
         // contents, and drawing again. The only fix would be to always copy it the first time,
         // which doesn't seem worth the extra cycles for this unlikely case.
         mBitmapResources.add(bitmap);
         mCaches.resourceCache.incrementRefcount(bitmap);
         return bitmap;
     }

     inline SkBitmap* refBitmapData(SkBitmap* bitmap) {
         mOwnedBitmapResources.add(bitmap);
         mCaches.resourceCache.incrementRefcount(bitmap);
         return bitmap;
     }

     inline SkiaShader* refShader(SkiaShader* shader) {
         if (!shader) return NULL;

         SkiaShader* shaderCopy = mShaderMap.valueFor(shader);
         // TODO: We also need to handle generation ID changes in compose shaders
         if (shaderCopy == NULL || shaderCopy->getGenerationId() != shader->getGenerationId()) {
             shaderCopy = shader->copy();
             // replaceValueFor() performs an add if the entry doesn't exist
             mShaderMap.replaceValueFor(shader, shaderCopy);
             mShaders.add(shaderCopy);
             mCaches.resourceCache.incrementRefcount(shaderCopy);
         }
         return shaderCopy;
     }

     inline SkiaColorFilter* refColorFilter(SkiaColorFilter* colorFilter) {
         mFilterResources.add(colorFilter);
         mCaches.resourceCache.incrementRefcount(colorFilter);
         return colorFilter;
     }

     Vector<SkBitmap*> mBitmapResources;
     Vector<SkBitmap*> mOwnedBitmapResources;
     Vector<SkiaColorFilter*> mFilterResources;

     Vector<SkPaint*> mPaints;
     DefaultKeyedVector<SkPaint*, SkPaint*> mPaintMap;

     Vector<SkPath*> mPaths;
     DefaultKeyedVector<SkPath*, SkPath*> mPathMap;

     SortedVector<SkPath*> mSourcePaths;

     Vector<SkRegion*> mRegions;
     DefaultKeyedVector<SkRegion*, SkRegion*> mRegionMap;

     Vector<SkiaShader*> mShaders;
     DefaultKeyedVector<SkiaShader*, SkiaShader*> mShaderMap;

     Vector<SkMatrix*> mMatrices;

     Vector<Layer*> mLayers;

     int mRestoreSaveCount;

     Caches& mCaches;
     sp<DisplayListData> mDisplayListData;

     float mTranslateX;
     float mTranslateY;
     bool mHasTranslate;
     bool mHasDrawOps;

     uint32_t mFunctorCount;

     friend class DisplayList;

 }; // class DisplayListRenderer

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

 #endif // ANDROID_HWUI_DISPLAY_LIST_RENDERER_H
	/*
	* Copyright (C) 2010 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_DISPLAY_LIST_RENDERER_H
	#define ANDROID_HWUI_DISPLAY_LIST_RENDERER_H

	#include <SkChunkAlloc.h>
	#include <SkFlattenable.h>
	#include <SkMatrix.h>
	#include <SkCamera.h>
	#include <SkPaint.h>
	#include <SkPath.h>
	#include <SkRefCnt.h>
	#include <SkTDArray.h>
	#include <SkTSearch.h>

	#include <cutils/compiler.h>

	#include "DisplayListLogBuffer.h"
	#include "OpenGLRenderer.h"
	#include "utils/LinearAllocator.h"

	namespace android {
	namespace uirenderer {

	///////////////////////////////////////////////////////////////////////////////
	// Defines
	///////////////////////////////////////////////////////////////////////////////

	#define MIN_WRITER_SIZE 4096
	#define OP_MAY_BE_SKIPPED_MASK 0xff000000

	// Debug
	#if DEBUG_DISPLAY_LIST
	#define DISPLAY_LIST_LOGD(...) ALOGD(__VA_ARGS__)
	#else
	#define DISPLAY_LIST_LOGD(...)
	#endif

	#define TRANSLATION 0x0001
	#define ROTATION 0x0002
	#define ROTATION_3D 0x0004
	#define SCALE 0x0008
	#define PIVOT 0x0010

	///////////////////////////////////////////////////////////////////////////////
	// Display list
	///////////////////////////////////////////////////////////////////////////////

	class DisplayListRenderer;
	class DisplayListOp;
	class DrawOp;
	class StateOp;

	/**
	* Refcounted structure that holds data used in display list stream
	*/
	class DisplayListData: public LightRefBase<DisplayListData> {
	public:
	LinearAllocator allocator;
	Vector<DisplayListOp*> displayListOps;
	};

	/**
	* Replays recorded drawing commands.
	*/
	class DisplayList {
	public:
	DisplayList(const DisplayListRenderer& recorder);
	ANDROID_API ~DisplayList();

	// See flags defined in DisplayList.java
	enum ReplayFlag {
	kReplayFlag_ClipChildren = 0x1
	};

	void setViewProperties(OpenGLRenderer& renderer, uint32_t level);
	void outputViewProperties(uint32_t level);

	ANDROID_API size_t getSize();
	ANDROID_API static void destroyDisplayListDeferred(DisplayList* displayList);
	ANDROID_API static void outputLogBuffer(int fd);

	void initFromDisplayListRenderer(const DisplayListRenderer& recorder, bool reusing = false);

	status_t replay(OpenGLRenderer& renderer, Rect& dirty, int32_t flags, uint32_t level = 0);

	void output(uint32_t level = 0);

	ANDROID_API void reset();

	void setRenderable(bool renderable) {
	mIsRenderable = renderable;
	}

	bool isRenderable() const {
	return mIsRenderable;
	}

	void setName(const char* name) {
	if (name) {
	mName.setTo(name);
	}
	}

	void setClipChildren(bool clipChildren) {
	mClipChildren = clipChildren;
	}

	void setStaticMatrix(SkMatrix* matrix) {
	delete mStaticMatrix;
	mStaticMatrix = new SkMatrix(*matrix);
	}

	void setAnimationMatrix(SkMatrix* matrix) {
	delete mAnimationMatrix;
	if (matrix) {
	mAnimationMatrix = new SkMatrix(*matrix);
	} else {
	mAnimationMatrix = NULL;
	}
	}

	void setAlpha(float alpha) {
	alpha = fminf(1.0f, fmaxf(0.0f, alpha));
	if (alpha != mAlpha) {
	mAlpha = alpha;
	mMultipliedAlpha = (int) (255 * alpha);
	}
	}

	void setHasOverlappingRendering(bool hasOverlappingRendering) {
	mHasOverlappingRendering = hasOverlappingRendering;
	}

	void setTranslationX(float translationX) {
	if (translationX != mTranslationX) {
	mTranslationX = translationX;
	mMatrixDirty = true;
	if (mTranslationX == 0.0f && mTranslationY == 0.0f) {
	mMatrixFlags &= ~TRANSLATION;
	} else {
	mMatrixFlags \|= TRANSLATION;
	}
	}
	}

	void setTranslationY(float translationY) {
	if (translationY != mTranslationY) {
	mTranslationY = translationY;
	mMatrixDirty = true;
	if (mTranslationX == 0.0f && mTranslationY == 0.0f) {
	mMatrixFlags &= ~TRANSLATION;
	} else {
	mMatrixFlags \|= TRANSLATION;
	}
	}
	}

	void setRotation(float rotation) {
	if (rotation != mRotation) {
	mRotation = rotation;
	mMatrixDirty = true;
	if (mRotation == 0.0f) {
	mMatrixFlags &= ~ROTATION;
	} else {
	mMatrixFlags \|= ROTATION;
	}
	}
	}

	void setRotationX(float rotationX) {
	if (rotationX != mRotationX) {
	mRotationX = rotationX;
	mMatrixDirty = true;
	if (mRotationX == 0.0f && mRotationY == 0.0f) {
	mMatrixFlags &= ~ROTATION_3D;
	} else {
	mMatrixFlags \|= ROTATION_3D;
	}
	}
	}

	void setRotationY(float rotationY) {
	if (rotationY != mRotationY) {
	mRotationY = rotationY;
	mMatrixDirty = true;
	if (mRotationX == 0.0f && mRotationY == 0.0f) {
	mMatrixFlags &= ~ROTATION_3D;
	} else {
	mMatrixFlags \|= ROTATION_3D;
	}
	}
	}

	void setScaleX(float scaleX) {
	if (scaleX != mScaleX) {
	mScaleX = scaleX;
	mMatrixDirty = true;
	if (mScaleX == 1.0f && mScaleY == 1.0f) {
	mMatrixFlags &= ~SCALE;
	} else {
	mMatrixFlags \|= SCALE;
	}
	}
	}

	void setScaleY(float scaleY) {
	if (scaleY != mScaleY) {
	mScaleY = scaleY;
	mMatrixDirty = true;
	if (mScaleX == 1.0f && mScaleY == 1.0f) {
	mMatrixFlags &= ~SCALE;
	} else {
	mMatrixFlags \|= SCALE;
	}
	}
	}

	void setPivotX(float pivotX) {
	mPivotX = pivotX;
	mMatrixDirty = true;
	if (mPivotX == 0.0f && mPivotY == 0.0f) {
	mMatrixFlags &= ~PIVOT;
	} else {
	mMatrixFlags \|= PIVOT;
	}
	mPivotExplicitlySet = true;
	}

	void setPivotY(float pivotY) {
	mPivotY = pivotY;
	mMatrixDirty = true;
	if (mPivotX == 0.0f && mPivotY == 0.0f) {
	mMatrixFlags &= ~PIVOT;
	} else {
	mMatrixFlags \|= PIVOT;
	}
	mPivotExplicitlySet = true;
	}

	void setCameraDistance(float distance) {
	if (distance != mCameraDistance) {
	mCameraDistance = distance;
	mMatrixDirty = true;
	if (!mTransformCamera) {
	mTransformCamera = new Sk3DView();
	mTransformMatrix3D = new SkMatrix();
	}
	mTransformCamera->setCameraLocation(0, 0, distance);
	}
	}

	void setLeft(int left) {
	if (left != mLeft) {
	mLeft = left;
	mWidth = mRight - mLeft;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setTop(int top) {
	if (top != mTop) {
	mTop = top;
	mHeight = mBottom - mTop;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setRight(int right) {
	if (right != mRight) {
	mRight = right;
	mWidth = mRight - mLeft;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setBottom(int bottom) {
	if (bottom != mBottom) {
	mBottom = bottom;
	mHeight = mBottom - mTop;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setLeftTop(int left, int top) {
	if (left != mLeft \|\| top != mTop) {
	mLeft = left;
	mTop = top;
	mWidth = mRight - mLeft;
	mHeight = mBottom - mTop;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setLeftTopRightBottom(int left, int top, int right, int bottom) {
	if (left != mLeft \|\| top != mTop \|\| right != mRight \|\| bottom != mBottom) {
	mLeft = left;
	mTop = top;
	mRight = right;
	mBottom = bottom;
	mWidth = mRight - mLeft;
	mHeight = mBottom - mTop;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void offsetLeftRight(int offset) {
	if (offset != 0) {
	mLeft += offset;
	mRight += offset;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void offsetTopBottom(int offset) {
	if (offset != 0) {
	mTop += offset;
	mBottom += offset;
	if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) {
	mMatrixDirty = true;
	}
	}
	}

	void setCaching(bool caching) {
	mCaching = caching;
	}

	int getWidth() {
	return mWidth;
	}

	int getHeight() {
	return mHeight;
	}

	private:
	void init();

	void clearResources();

	void updateMatrix();

	class TextContainer {
	public:
	size_t length() const {
	return mByteLength;
	}

	const char* text() const {
	return (const char*) mText;
	}

	size_t mByteLength;
	const char* mText;
	};

	Vector<SkBitmap*> mBitmapResources;
	Vector<SkBitmap*> mOwnedBitmapResources;
	Vector<SkiaColorFilter*> mFilterResources;

	Vector<SkPaint*> mPaints;
	Vector<SkPath*> mPaths;
	SortedVector<SkPath*> mSourcePaths;
	Vector<SkRegion*> mRegions;
	Vector<SkMatrix*> mMatrices;
	Vector<SkiaShader*> mShaders;
	Vector<Layer*> mLayers;

	sp<DisplayListData> mDisplayListData;

	size_t mSize;

	bool mIsRenderable;
	uint32_t mFunctorCount;

	String8 mName;

	// View properties
	bool mClipChildren;
	float mAlpha;
	int mMultipliedAlpha;
	bool mHasOverlappingRendering;
	float mTranslationX, mTranslationY;
	float mRotation, mRotationX, mRotationY;
	float mScaleX, mScaleY;
	float mPivotX, mPivotY;
	float mCameraDistance;
	int mLeft, mTop, mRight, mBottom;
	int mWidth, mHeight;
	int mPrevWidth, mPrevHeight;
	bool mPivotExplicitlySet;
	bool mMatrixDirty;
	bool mMatrixIsIdentity;
	uint32_t mMatrixFlags;
	SkMatrix* mTransformMatrix;
	Sk3DView* mTransformCamera;
	SkMatrix* mTransformMatrix3D;
	SkMatrix* mStaticMatrix;
	SkMatrix* mAnimationMatrix;
	bool mCaching;
	};

	///////////////////////////////////////////////////////////////////////////////
	// Renderer
	///////////////////////////////////////////////////////////////////////////////

	/**
	* Records drawing commands in a display list for latter playback.
	*/
	class DisplayListRenderer: public OpenGLRenderer {
	public:
	ANDROID_API DisplayListRenderer();
	virtual ~DisplayListRenderer();

	ANDROID_API DisplayList* getDisplayList(DisplayList* displayList);

	virtual bool isDeferred();

	virtual void setViewport(int width, int height);
	virtual status_t prepareDirty(float left, float top, float right, float bottom, bool opaque);
	virtual void finish();

	virtual status_t callDrawGLFunction(Functor *functor, Rect& dirty);

	virtual void interrupt();
	virtual void resume();

	virtual int save(int flags);
	virtual void restore();
	virtual void restoreToCount(int saveCount);

	virtual int saveLayer(float left, float top, float right, float bottom,
	SkPaint* p, int flags);
	virtual int saveLayerAlpha(float left, float top, float right, float bottom,
	int alpha, int flags);

	virtual void translate(float dx, float dy);
	virtual void rotate(float degrees);
	virtual void scale(float sx, float sy);
	virtual void skew(float sx, float sy);

	virtual void setMatrix(SkMatrix* matrix);
	virtual void concatMatrix(SkMatrix* matrix);

	virtual bool clipRect(float left, float top, float right, float bottom, SkRegion::Op op);
	virtual bool clipPath(SkPath* path, SkRegion::Op op);
	virtual bool clipRegion(SkRegion* region, SkRegion::Op op);

	virtual status_t drawDisplayList(DisplayList* displayList, Rect& dirty, int32_t flags,
	uint32_t level = 0);
	virtual status_t drawLayer(Layer* layer, float x, float y, SkPaint* paint);
	virtual status_t drawBitmap(SkBitmap* bitmap, float left, float top, SkPaint* paint);
	virtual status_t drawBitmap(SkBitmap* bitmap, SkMatrix* matrix, SkPaint* paint);
	virtual status_t drawBitmap(SkBitmap* bitmap, float srcLeft, float srcTop,
	float srcRight, float srcBottom, float dstLeft, float dstTop,
	float dstRight, float dstBottom, SkPaint* paint);
	virtual status_t drawBitmapData(SkBitmap* bitmap, float left, float top, SkPaint* paint);
	virtual status_t drawBitmapMesh(SkBitmap* bitmap, int meshWidth, int meshHeight,
	float* vertices, int* colors, SkPaint* paint);
	virtual status_t drawPatch(SkBitmap* bitmap, const int32_t* xDivs, const int32_t* yDivs,
	const uint32_t* colors, uint32_t width, uint32_t height, int8_t numColors,
	float left, float top, float right, float bottom, SkPaint* paint);
	virtual status_t drawColor(int color, SkXfermode::Mode mode);
	virtual status_t drawRect(float left, float top, float right, float bottom, SkPaint* paint);
	virtual status_t drawRoundRect(float left, float top, float right, float bottom,
	float rx, float ry, SkPaint* paint);
	virtual status_t drawCircle(float x, float y, float radius, SkPaint* paint);
	virtual status_t drawOval(float left, float top, float right, float bottom, SkPaint* paint);
	virtual status_t drawArc(float left, float top, float right, float bottom,
	float startAngle, float sweepAngle, bool useCenter, SkPaint* paint);
	virtual status_t drawPath(SkPath* path, SkPaint* paint);
	virtual status_t drawLines(float* points, int count, SkPaint* paint);
	virtual status_t drawPoints(float* points, int count, SkPaint* paint);
	virtual status_t drawTextOnPath(const char* text, int bytesCount, int count, SkPath* path,
	float hOffset, float vOffset, SkPaint* paint);
	virtual status_t drawPosText(const char* text, int bytesCount, int count,
	const float* positions, SkPaint* paint);
	virtual status_t drawText(const char* text, int bytesCount, int count,
	float x, float y, const float* positions, SkPaint* paint, float length);
	virtual status_t drawRects(const float* rects, int count, SkPaint* paint);

	virtual void resetShader();
	virtual void setupShader(SkiaShader* shader);

	virtual void resetColorFilter();
	virtual void setupColorFilter(SkiaColorFilter* filter);

	virtual void resetShadow();
	virtual void setupShadow(float radius, float dx, float dy, int color);

	virtual void resetPaintFilter();
	virtual void setupPaintFilter(int clearBits, int setBits);

	ANDROID_API void reset();

	sp<DisplayListData> getDisplayListData() const {
	return mDisplayListData;
	}

	const Vector<SkBitmap*>& getBitmapResources() const {
	return mBitmapResources;
	}

	const Vector<SkBitmap*>& getOwnedBitmapResources() const {
	return mOwnedBitmapResources;
	}

	const Vector<SkiaColorFilter*>& getFilterResources() const {
	return mFilterResources;
	}

	const Vector<SkiaShader*>& getShaders() const {
	return mShaders;
	}

	const Vector<SkPaint*>& getPaints() const {
	return mPaints;
	}

	const Vector<SkPath*>& getPaths() const {
	return mPaths;
	}

	const SortedVector<SkPath*>& getSourcePaths() const {
	return mSourcePaths;
	}

	const Vector<SkRegion*>& getRegions() const {
	return mRegions;
	}

	const Vector<Layer*>& getLayers() const {
	return mLayers;
	}

	const Vector<SkMatrix*>& getMatrices() const {
	return mMatrices;
	}

	uint32_t getFunctorCount() const {
	return mFunctorCount;
	}

	private:
	void insertRestoreToCount();
	void insertTranslate();

	LinearAllocator& alloc() { return mDisplayListData->allocator; }
	void addStateOp(StateOp* op);
	bool addDrawOp(DrawOp* op); // returns true if op not rejected
	void addOpInternal(DisplayListOp* op) {
	insertRestoreToCount();
	insertTranslate();
	mDisplayListData->displayListOps.add(op);
	}

	template<class T>
	inline T* refBuffer(const T* srcBuffer, int32_t count) {
	if (srcBuffer == NULL) return NULL;
	T* dstBuffer = (T) mDisplayListData->allocator.alloc(count sizeof(T));
	memcpy(dstBuffer, srcBuffer, count * sizeof(T));
	return dstBuffer;
	}

	inline char* refText(const char* text, size_t byteLength) {
	return (char) refBuffer<uint8_t>((uint8_t)text, byteLength);
	}

	inline SkPath* refPath(SkPath* path) {
	if (!path) return NULL;

	SkPath* pathCopy = mPathMap.valueFor(path);
	if (pathCopy == NULL \|\| pathCopy->getGenerationID() != path->getGenerationID()) {
	pathCopy = new SkPath(*path);
	pathCopy->setSourcePath(path);
	// replaceValueFor() performs an add if the entry doesn't exist
	mPathMap.replaceValueFor(path, pathCopy);
	mPaths.add(pathCopy);
	}
	if (mSourcePaths.indexOf(path) < 0) {
	mCaches.resourceCache.incrementRefcount(path);
	mSourcePaths.add(path);
	}
	return pathCopy;
	}

	inline SkPaint* refPaint(SkPaint* paint) {
	if (!paint) {
	return paint;
	}

	SkPaint* paintCopy = mPaintMap.valueFor(paint);
	if (paintCopy == NULL \|\| paintCopy->getGenerationID() != paint->getGenerationID()) {
	paintCopy = new SkPaint(*paint);
	// replaceValueFor() performs an add if the entry doesn't exist
	mPaintMap.replaceValueFor(paint, paintCopy);
	mPaints.add(paintCopy);
	}

	return paintCopy;
	}

	inline SkRegion* refRegion(SkRegion* region) {
	if (!region) {
	return region;
	}

	SkRegion* regionCopy = mRegionMap.valueFor(region);
	// TODO: Add generation ID to SkRegion
	if (regionCopy == NULL) {
	regionCopy = new SkRegion(*region);
	// replaceValueFor() performs an add if the entry doesn't exist
	mRegionMap.replaceValueFor(region, regionCopy);
	mRegions.add(regionCopy);
	}

	return regionCopy;
	}

	inline SkMatrix* refMatrix(SkMatrix* matrix) {
	// Copying the matrix is cheap and prevents against the user changing the original
	// matrix before the operation that uses it
	SkMatrix* copy = new SkMatrix(*matrix);
	mMatrices.add(copy);
	return copy;
	}

	inline SkBitmap* refBitmap(SkBitmap* bitmap) {
	// Note that this assumes the bitmap is immutable. There are cases this won't handle
	// correctly, such as creating the bitmap from scratch, drawing with it, changing its
	// contents, and drawing again. The only fix would be to always copy it the first time,
	// which doesn't seem worth the extra cycles for this unlikely case.
	mBitmapResources.add(bitmap);
	mCaches.resourceCache.incrementRefcount(bitmap);
	return bitmap;
	}

	inline SkBitmap* refBitmapData(SkBitmap* bitmap) {
	mOwnedBitmapResources.add(bitmap);
	mCaches.resourceCache.incrementRefcount(bitmap);
	return bitmap;
	}

	inline SkiaShader* refShader(SkiaShader* shader) {
	if (!shader) return NULL;

	SkiaShader* shaderCopy = mShaderMap.valueFor(shader);
	// TODO: We also need to handle generation ID changes in compose shaders
	if (shaderCopy == NULL \|\| shaderCopy->getGenerationId() != shader->getGenerationId()) {
	shaderCopy = shader->copy();
	// replaceValueFor() performs an add if the entry doesn't exist
	mShaderMap.replaceValueFor(shader, shaderCopy);
	mShaders.add(shaderCopy);
	mCaches.resourceCache.incrementRefcount(shaderCopy);
	}
	return shaderCopy;
	}

	inline SkiaColorFilter* refColorFilter(SkiaColorFilter* colorFilter) {
	mFilterResources.add(colorFilter);
	mCaches.resourceCache.incrementRefcount(colorFilter);
	return colorFilter;
	}

	Vector<SkBitmap*> mBitmapResources;
	Vector<SkBitmap*> mOwnedBitmapResources;
	Vector<SkiaColorFilter*> mFilterResources;

	Vector<SkPaint*> mPaints;
	DefaultKeyedVector<SkPaint, SkPaint> mPaintMap;

	Vector<SkPath*> mPaths;
	DefaultKeyedVector<SkPath, SkPath> mPathMap;

	SortedVector<SkPath*> mSourcePaths;

	Vector<SkRegion*> mRegions;
	DefaultKeyedVector<SkRegion, SkRegion> mRegionMap;

	Vector<SkiaShader*> mShaders;
	DefaultKeyedVector<SkiaShader, SkiaShader> mShaderMap;

	Vector<SkMatrix*> mMatrices;

	Vector<Layer*> mLayers;

	int mRestoreSaveCount;

	Caches& mCaches;
	sp<DisplayListData> mDisplayListData;

	float mTranslateX;
	float mTranslateY;
	bool mHasTranslate;
	bool mHasDrawOps;

	uint32_t mFunctorCount;

	friend class DisplayList;

	}; // class DisplayListRenderer

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

	#endif // ANDROID_HWUI_DISPLAY_LIST_RENDERER_H