libs/hwui/Layer.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_LAYER_H
 #define ANDROID_HWUI_LAYER_H

 #include <cutils/compiler.h>
 #include <sys/types.h>
 #include <utils/StrongPointer.h>

 #include <GLES2/gl2.h>

 #include <ui/Region.h>

 #include <SkPaint.h>
 #include <SkXfermode.h>

 #include "Matrix.h"
 #include "Rect.h"
 #include "RenderBuffer.h"
 #include "Texture.h"
 #include "Vertex.h"

 namespace android {
 namespace uirenderer {

 ///////////////////////////////////////////////////////////////////////////////
 // Layers
 ///////////////////////////////////////////////////////////////////////////////

 // Forward declarations
 class Caches;
 class RenderState;
 class OpenGLRenderer;
 class RenderNode;
 class DeferredDisplayList;
 class DeferStateStruct;

 /**
  * A layer has dimensions and is backed by an OpenGL texture or FBO.
  */
 class Layer {
 public:
     enum Type {
         kType_Texture,
         kType_DisplayList,
     };

     // layer lifecycle, controlled from outside
     enum State {
         kState_Uncached = 0,
         kState_InCache = 1,
         kState_FailedToCache = 2,
         kState_RemovedFromCache = 3,
         kState_DeletedFromCache = 4,
         kState_InGarbageList = 5,
     };
     State state; // public for logging/debugging purposes

     Layer(Type type, RenderState& renderState, const uint32_t layerWidth, const uint32_t layerHeight);
     ~Layer();

     static uint32_t computeIdealWidth(uint32_t layerWidth);
     static uint32_t computeIdealHeight(uint32_t layerHeight);

     /**
      * Calling this method will remove (either by recycling or
      * destroying) the associated FBO, if present, and any render
      * buffer (stencil for instance.)
      */
     void removeFbo(bool flush = true);

     /**
      * Sets this layer's region to a rectangle. Computes the appropriate
      * texture coordinates.
      */
     void setRegionAsRect() {
         const android::Rect& bounds = region.getBounds();
         regionRect.set(bounds.leftTop().x, bounds.leftTop().y,
                bounds.rightBottom().x, bounds.rightBottom().y);

         const float texX = 1.0f / float(texture.width);
         const float texY = 1.0f / float(texture.height);
         const float height = layer.getHeight();
         texCoords.set(
                regionRect.left * texX, (height - regionRect.top) * texY,
                regionRect.right * texX, (height - regionRect.bottom) * texY);

         regionRect.translate(layer.left, layer.top);
     }

     void setWindowTransform(Matrix4& windowTransform) {
         cachedInvTransformInWindow.loadInverse(windowTransform);
         rendererLightPosDirty = true;
     }

     void updateDeferred(RenderNode* renderNode, int left, int top, int right, int bottom);

     inline uint32_t getWidth() const {
         return texture.width;
     }

     inline uint32_t getHeight() const {
         return texture.height;
     }

     /**
      * Resize the layer and its texture if needed.
      *
      * @param width The new width of the layer
      * @param height The new height of the layer
      *
      * @return True if the layer was resized or nothing happened, false if
      *         a failure occurred during the resizing operation
      */
     bool resize(const uint32_t width, const uint32_t height);

     void setSize(uint32_t width, uint32_t height) {
         texture.width = width;
         texture.height = height;
     }

     ANDROID_API void setPaint(const SkPaint* paint);

     inline void setBlend(bool blend) {
         texture.blend = blend;
     }

     inline bool isBlend() const {
         return texture.blend;
     }

     inline void setForceFilter(bool forceFilter) {
         this->forceFilter = forceFilter;
     }

     inline bool getForceFilter() const {
         return forceFilter;
     }

     inline void setAlpha(int alpha) {
         this->alpha = alpha;
     }

     inline void setAlpha(int alpha, SkXfermode::Mode mode) {
         this->alpha = alpha;
         this->mode = mode;
     }

     inline int getAlpha() const {
         return alpha;
     }

     inline SkXfermode::Mode getMode() const {
         return mode;
     }

     inline void setEmpty(bool empty) {
         this->empty = empty;
     }

     inline bool isEmpty() const {
         return empty;
     }

     inline void setFbo(GLuint fbo) {
         this->fbo = fbo;
     }

     inline GLuint getFbo() const {
         return fbo;
     }

     inline void setStencilRenderBuffer(RenderBuffer* renderBuffer) {
         if (RenderBuffer::isStencilBuffer(renderBuffer->getFormat())) {
             this->stencil = renderBuffer;
             glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_STENCIL_ATTACHMENT,
                     GL_RENDERBUFFER, stencil->getName());
         } else {
             ALOGE("The specified render buffer is not a stencil buffer");
         }
     }

     inline RenderBuffer* getStencilRenderBuffer() const {
         return stencil;
     }

     inline GLuint getTexture() const {
         return texture.id;
     }

     inline GLenum getRenderTarget() const {
         return renderTarget;
     }

     inline void setRenderTarget(GLenum renderTarget) {
         this->renderTarget = renderTarget;
     }

     void setWrap(GLenum wrap, bool bindTexture = false, bool force = false) {
         texture.setWrap(wrap, bindTexture, force, renderTarget);
     }

     void setFilter(GLenum filter, bool bindTexture = false, bool force = false) {
         texture.setFilter(filter, bindTexture, force, renderTarget);
     }

     inline bool isCacheable() const {
         return cacheable;
     }

     inline void setCacheable(bool cacheable) {
         this->cacheable = cacheable;
     }

     inline bool isDirty() const {
         return dirty;
     }

     inline void setDirty(bool dirty) {
         this->dirty = dirty;
     }

     inline bool isTextureLayer() const {
         return type == kType_Texture;
     }

     inline SkColorFilter* getColorFilter() const {
         return colorFilter;
     }

     ANDROID_API void setColorFilter(SkColorFilter* filter);

     inline void setConvexMask(const SkPath* convexMask) {
         this->convexMask = convexMask;
     }

     inline const SkPath* getConvexMask() {
         return convexMask;
     }

     void bindStencilRenderBuffer() const;

     void bindTexture() const;
     void generateTexture();
     void allocateTexture();
     void deleteTexture();

     /**
      * When the caller frees the texture itself, the caller
      * must call this method to tell this layer that it lost
      * the texture.
      */
     ANDROID_API void clearTexture();

     inline mat4& getTexTransform() {
         return texTransform;
     }

     inline mat4& getTransform() {
         return transform;
     }

     void defer(const OpenGLRenderer& rootRenderer);
     void cancelDefer();
     void flush();
     void render(const OpenGLRenderer& rootRenderer);

     /**
      * Bounds of the layer.
      */
     Rect layer;
     /**
      * Texture coordinates of the layer.
      */
     Rect texCoords;
     /**
      * Clipping rectangle.
      */
     Rect clipRect;

     /**
      * Dirty region indicating what parts of the layer
      * have been drawn.
      */
     Region region;
     /**
      * If the region is a rectangle, coordinates of the
      * region are stored here.
      */
     Rect regionRect;

     /**
      * If the layer can be rendered as a mesh, this is non-null.
      */
     TextureVertex* mesh;
     GLsizei meshElementCount;

     /**
      * Used for deferred updates.
      */
     bool deferredUpdateScheduled;
     OpenGLRenderer* renderer;
     sp<RenderNode> renderNode;
     Rect dirtyRect;
     bool debugDrawUpdate;
     bool hasDrawnSinceUpdate;
     bool wasBuildLayered;

 private:
     void requireRenderer();
     void updateLightPosFromRenderer(const OpenGLRenderer& rootRenderer);

     Caches& caches;

     RenderState& renderState;

     /**
      * Name of the FBO used to render the layer. If the name is 0
      * this layer is not backed by an FBO, but a simple texture.
      */
     GLuint fbo;

     /**
      * The render buffer used as the stencil buffer.
      */
     RenderBuffer* stencil;

     /**
      * Indicates whether this layer has been used already.
      */
     bool empty;

     /**
      * The texture backing this layer.
      */
     Texture texture;

     /**
      * If set to true (by default), the layer can be reused.
      */
     bool cacheable;

     /**
      * Denotes whether the layer is a DisplayList, or Texture layer.
      */
     const Type type;

     /**
      * When set to true, this layer is dirty and should be cleared
      * before any rendering occurs.
      */
     bool dirty;

     /**
      * Indicates the render target.
      */
     GLenum renderTarget;

     /**
      * Color filter used to draw this layer. Optional.
      */
     SkColorFilter* colorFilter;

     /**
      * Indicates raster data backing the layer is scaled, requiring filtration.
      */
     bool forceFilter;

     /**
      * Opacity of the layer.
      */
     int alpha;

     /**
      * Blending mode of the layer.
      */
     SkXfermode::Mode mode;

     /**
      * Optional texture coordinates transform.
      */
     mat4 texTransform;

     /**
      * Optional transform.
      */
     mat4 transform;

     /**
      * Cached transform of layer in window, updated only on creation / resize
      */
     mat4 cachedInvTransformInWindow;
     bool rendererLightPosDirty;

     /**
      * Used to defer display lists when the layer is updated with a
      * display list.
      */
     DeferredDisplayList* deferredList;

     /**
      * This convex path should be used to mask the layer's draw to the screen.
      *
      * Data not owned/managed by layer object.
      */
     const SkPath* convexMask;

 }; // struct Layer

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

 #endif // ANDROID_HWUI_LAYER_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_LAYER_H
	#define ANDROID_HWUI_LAYER_H

	#include <cutils/compiler.h>
	#include <sys/types.h>
	#include <utils/StrongPointer.h>

	#include <GLES2/gl2.h>

	#include <ui/Region.h>

	#include <SkPaint.h>
	#include <SkXfermode.h>

	#include "Matrix.h"
	#include "Rect.h"
	#include "RenderBuffer.h"
	#include "Texture.h"
	#include "Vertex.h"

	namespace android {
	namespace uirenderer {

	///////////////////////////////////////////////////////////////////////////////
	// Layers
	///////////////////////////////////////////////////////////////////////////////

	// Forward declarations
	class Caches;
	class RenderState;
	class OpenGLRenderer;
	class RenderNode;
	class DeferredDisplayList;
	class DeferStateStruct;

	/**
	* A layer has dimensions and is backed by an OpenGL texture or FBO.
	*/
	class Layer {
	public:
	enum Type {
	kType_Texture,
	kType_DisplayList,
	};

	// layer lifecycle, controlled from outside
	enum State {
	kState_Uncached = 0,
	kState_InCache = 1,
	kState_FailedToCache = 2,
	kState_RemovedFromCache = 3,
	kState_DeletedFromCache = 4,
	kState_InGarbageList = 5,
	};
	State state; // public for logging/debugging purposes

	Layer(Type type, RenderState& renderState, const uint32_t layerWidth, const uint32_t layerHeight);
	~Layer();

	static uint32_t computeIdealWidth(uint32_t layerWidth);
	static uint32_t computeIdealHeight(uint32_t layerHeight);

	/**
	* Calling this method will remove (either by recycling or
	* destroying) the associated FBO, if present, and any render
	* buffer (stencil for instance.)
	*/
	void removeFbo(bool flush = true);

	/**
	* Sets this layer's region to a rectangle. Computes the appropriate
	* texture coordinates.
	*/
	void setRegionAsRect() {
	const android::Rect& bounds = region.getBounds();
	regionRect.set(bounds.leftTop().x, bounds.leftTop().y,
	bounds.rightBottom().x, bounds.rightBottom().y);

	const float texX = 1.0f / float(texture.width);
	const float texY = 1.0f / float(texture.height);
	const float height = layer.getHeight();
	texCoords.set(
	regionRect.left * texX, (height - regionRect.top) * texY,
	regionRect.right * texX, (height - regionRect.bottom) * texY);

	regionRect.translate(layer.left, layer.top);
	}

	void setWindowTransform(Matrix4& windowTransform) {
	cachedInvTransformInWindow.loadInverse(windowTransform);
	rendererLightPosDirty = true;
	}

	void updateDeferred(RenderNode* renderNode, int left, int top, int right, int bottom);

	inline uint32_t getWidth() const {
	return texture.width;
	}

	inline uint32_t getHeight() const {
	return texture.height;
	}

	/**
	* Resize the layer and its texture if needed.
	*
	* @param width The new width of the layer
	* @param height The new height of the layer
	*
	* @return True if the layer was resized or nothing happened, false if
	* a failure occurred during the resizing operation
	*/
	bool resize(const uint32_t width, const uint32_t height);

	void setSize(uint32_t width, uint32_t height) {
	texture.width = width;
	texture.height = height;
	}

	ANDROID_API void setPaint(const SkPaint* paint);

	inline void setBlend(bool blend) {
	texture.blend = blend;
	}

	inline bool isBlend() const {
	return texture.blend;
	}

	inline void setForceFilter(bool forceFilter) {
	this->forceFilter = forceFilter;
	}

	inline bool getForceFilter() const {
	return forceFilter;
	}

	inline void setAlpha(int alpha) {
	this->alpha = alpha;
	}

	inline void setAlpha(int alpha, SkXfermode::Mode mode) {
	this->alpha = alpha;
	this->mode = mode;
	}

	inline int getAlpha() const {
	return alpha;
	}

	inline SkXfermode::Mode getMode() const {
	return mode;
	}

	inline void setEmpty(bool empty) {
	this->empty = empty;
	}

	inline bool isEmpty() const {
	return empty;
	}

	inline void setFbo(GLuint fbo) {
	this->fbo = fbo;
	}

	inline GLuint getFbo() const {
	return fbo;
	}

	inline void setStencilRenderBuffer(RenderBuffer* renderBuffer) {
	if (RenderBuffer::isStencilBuffer(renderBuffer->getFormat())) {
	this->stencil = renderBuffer;
	glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_STENCIL_ATTACHMENT,
	GL_RENDERBUFFER, stencil->getName());
	} else {
	ALOGE("The specified render buffer is not a stencil buffer");
	}
	}

	inline RenderBuffer* getStencilRenderBuffer() const {
	return stencil;
	}

	inline GLuint getTexture() const {
	return texture.id;
	}

	inline GLenum getRenderTarget() const {
	return renderTarget;
	}

	inline void setRenderTarget(GLenum renderTarget) {
	this->renderTarget = renderTarget;
	}

	void setWrap(GLenum wrap, bool bindTexture = false, bool force = false) {
	texture.setWrap(wrap, bindTexture, force, renderTarget);
	}

	void setFilter(GLenum filter, bool bindTexture = false, bool force = false) {
	texture.setFilter(filter, bindTexture, force, renderTarget);
	}

	inline bool isCacheable() const {
	return cacheable;
	}

	inline void setCacheable(bool cacheable) {
	this->cacheable = cacheable;
	}

	inline bool isDirty() const {
	return dirty;
	}

	inline void setDirty(bool dirty) {
	this->dirty = dirty;
	}

	inline bool isTextureLayer() const {
	return type == kType_Texture;
	}

	inline SkColorFilter* getColorFilter() const {
	return colorFilter;
	}

	ANDROID_API void setColorFilter(SkColorFilter* filter);

	inline void setConvexMask(const SkPath* convexMask) {
	this->convexMask = convexMask;
	}

	inline const SkPath* getConvexMask() {
	return convexMask;
	}

	void bindStencilRenderBuffer() const;

	void bindTexture() const;
	void generateTexture();
	void allocateTexture();
	void deleteTexture();

	/**
	* When the caller frees the texture itself, the caller
	* must call this method to tell this layer that it lost
	* the texture.
	*/
	ANDROID_API void clearTexture();

	inline mat4& getTexTransform() {
	return texTransform;
	}

	inline mat4& getTransform() {
	return transform;
	}

	void defer(const OpenGLRenderer& rootRenderer);
	void cancelDefer();
	void flush();
	void render(const OpenGLRenderer& rootRenderer);

	/**
	* Bounds of the layer.
	*/
	Rect layer;
	/**
	* Texture coordinates of the layer.
	*/
	Rect texCoords;
	/**
	* Clipping rectangle.
	*/
	Rect clipRect;

	/**
	* Dirty region indicating what parts of the layer
	* have been drawn.
	*/
	Region region;
	/**
	* If the region is a rectangle, coordinates of the
	* region are stored here.
	*/
	Rect regionRect;

	/**
	* If the layer can be rendered as a mesh, this is non-null.
	*/
	TextureVertex* mesh;
	GLsizei meshElementCount;

	/**
	* Used for deferred updates.
	*/
	bool deferredUpdateScheduled;
	OpenGLRenderer* renderer;
	sp<RenderNode> renderNode;
	Rect dirtyRect;
	bool debugDrawUpdate;
	bool hasDrawnSinceUpdate;
	bool wasBuildLayered;

	private:
	void requireRenderer();
	void updateLightPosFromRenderer(const OpenGLRenderer& rootRenderer);

	Caches& caches;

	RenderState& renderState;

	/**
	* Name of the FBO used to render the layer. If the name is 0
	* this layer is not backed by an FBO, but a simple texture.
	*/
	GLuint fbo;

	/**
	* The render buffer used as the stencil buffer.
	*/
	RenderBuffer* stencil;

	/**
	* Indicates whether this layer has been used already.
	*/
	bool empty;

	/**
	* The texture backing this layer.
	*/
	Texture texture;

	/**
	* If set to true (by default), the layer can be reused.
	*/
	bool cacheable;

	/**
	* Denotes whether the layer is a DisplayList, or Texture layer.
	*/
	const Type type;

	/**
	* When set to true, this layer is dirty and should be cleared
	* before any rendering occurs.
	*/
	bool dirty;

	/**
	* Indicates the render target.
	*/
	GLenum renderTarget;

	/**
	* Color filter used to draw this layer. Optional.
	*/
	SkColorFilter* colorFilter;

	/**
	* Indicates raster data backing the layer is scaled, requiring filtration.
	*/
	bool forceFilter;

	/**
	* Opacity of the layer.
	*/
	int alpha;

	/**
	* Blending mode of the layer.
	*/
	SkXfermode::Mode mode;

	/**
	* Optional texture coordinates transform.
	*/
	mat4 texTransform;

	/**
	* Optional transform.
	*/
	mat4 transform;

	/**
	* Cached transform of layer in window, updated only on creation / resize
	*/
	mat4 cachedInvTransformInWindow;
	bool rendererLightPosDirty;

	/**
	* Used to defer display lists when the layer is updated with a
	* display list.
	*/
	DeferredDisplayList* deferredList;

	/**
	* This convex path should be used to mask the layer's draw to the screen.
	*
	* Data not owned/managed by layer object.
	*/
	const SkPath* convexMask;

	}; // struct Layer

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

	#endif // ANDROID_HWUI_LAYER_H