src/gpu/ops/GrMeshDrawOp.h - skia - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrMeshDrawOp_DEFINED
 #define GrMeshDrawOp_DEFINED

 #include "GrDrawOp.h"
 #include "GrGeometryProcessor.h"
 #include "GrMesh.h"
 #include "GrPendingProgramElement.h"

 class GrAtlasManager;
 class GrCaps;
 class GrGlyphCache;
 class GrOpFlushState;

 /**
  * Base class for mesh-drawing GrDrawOps.
  */
 class GrMeshDrawOp : public GrDrawOp {
 public:
     /** Abstract interface that represents a destination for a GrMeshDrawOp. */
     class Target;

 protected:
     GrMeshDrawOp(uint32_t classID);

     /** Helper for rendering repeating meshes using a patterned index buffer. This class creates the
         space for the vertices and flushes the draws to the GrMeshDrawOp::Target. */
     class PatternHelper {
     public:
         PatternHelper(GrPrimitiveType primitiveType) : fMesh(primitiveType) {}
         /** Returns the allocated storage for the vertices. The caller should populate the vertices
             before calling recordDraws(). */
         void* init(Target*, size_t vertexStride, const GrBuffer*, int verticesPerRepetition,
                    int indicesPerRepetition, int repeatCount);

         /** Call after init() to issue draws to the GrMeshDrawOp::Target.*/
         void recordDraw(Target*, const GrGeometryProcessor*, const GrPipeline*);

     private:
         GrMesh fMesh;
     };

     static const int kVerticesPerQuad = 4;
     static const int kIndicesPerQuad = 6;

     /** A specialization of InstanceHelper for quad rendering. */
     class QuadHelper : private PatternHelper {
     public:
         QuadHelper() : INHERITED(GrPrimitiveType::kTriangles) {}
         /** Finds the cached quad index buffer and reserves vertex space. Returns nullptr on failure
             and on success a pointer to the vertex data that the caller should populate before
             calling recordDraws(). */
         void* init(Target*, size_t vertexStride, int quadsToDraw);

         using PatternHelper::recordDraw;

     private:
         typedef PatternHelper INHERITED;
     };

 private:
     void onPrepare(GrOpFlushState* state) final;
     void onExecute(GrOpFlushState* state) final;
     virtual void onPrepareDraws(Target*) = 0;
     typedef GrDrawOp INHERITED;
 };

 class GrMeshDrawOp::Target {
 public:
     virtual ~Target() {}

     /** Adds a draw of a mesh. */
     virtual void draw(const GrGeometryProcessor*, const GrPipeline*, const GrMesh&) = 0;

     /**
      * Makes space for vertex data. The returned pointer is the location where vertex data
      * should be written. On return the buffer that will hold the data as well as an offset into
      * the buffer (in 'vertexSize' units) where the data will be placed.
      */
     virtual void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer**,
                                   int* startVertex) = 0;

     /**
      * Makes space for index data. The returned pointer is the location where index data
      * should be written. On return the buffer that will hold the data as well as an offset into
      * the buffer (in uint16_t units) where the data will be placed.
      */
     virtual uint16_t* makeIndexSpace(int indexCount, const GrBuffer**, int* startIndex) = 0;

     /**
      * This is similar to makeVertexSpace. It allows the caller to use up to 'actualVertexCount'
      * vertices in the returned pointer, which may exceed 'minVertexCount'.
      * 'fallbackVertexCount' is the maximum number of vertices that should be allocated if a new
      * buffer is allocated on behalf of this request.
      */
     virtual void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount,
                                          int fallbackVertexCount, const GrBuffer**,
                                          int* startVertex, int* actualVertexCount) = 0;

     /**
      * This is similar to makeIndexSpace. It allows the caller to use up to 'actualIndexCount'
      * indices in the returned pointer, which may exceed 'minIndexCount'.
      * 'fallbackIndexCount' is the maximum number of indices that should be allocated if a new
      * buffer is allocated on behalf of this request.
      */
     virtual uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount,
                                             const GrBuffer**, int* startIndex,
                                             int* actualIndexCount) = 0;

     /** Helpers for ops which over-allocate and then return excess data to the pool. */
     virtual void putBackIndices(int indices) = 0;
     virtual void putBackVertices(int vertices, size_t vertexStride) = 0;

     /**
      * Allocate space for a pipeline. The target ensures this pipeline lifetime is at least
      * as long as any deferred execution of draws added via draw().
      * @tparam Args
      * @param args
      * @return
      */
     template <typename... Args>
     GrPipeline* allocPipeline(Args&&... args) {
         return this->pipelineArena()->make<GrPipeline>(std::forward<Args>(args)...);
     }

     /**
      * Helper that makes a pipeline targeting the op's render target that incorporates the op's
      * GrAppliedClip.
      */
     GrPipeline* makePipeline(uint32_t pipelineFlags, GrProcessorSet&& processorSet,
                              GrAppliedClip&& clip) {
         GrPipeline::InitArgs pipelineArgs;
         pipelineArgs.fFlags = pipelineFlags;
         pipelineArgs.fProxy = this->proxy();
         pipelineArgs.fDstProxy = this->dstProxy();
         pipelineArgs.fCaps = &this->caps();
         pipelineArgs.fResourceProvider = this->resourceProvider();
         return this->allocPipeline(pipelineArgs, std::move(processorSet), std::move(clip));
     }

     virtual GrRenderTargetProxy* proxy() const = 0;

     virtual GrAppliedClip detachAppliedClip() = 0;

     virtual const GrXferProcessor::DstProxy& dstProxy() const = 0;

     virtual GrResourceProvider* resourceProvider() const = 0;

     virtual GrGlyphCache* glyphCache() const = 0;
     virtual GrAtlasManager* atlasManager() const = 0;

     virtual const GrCaps& caps() const = 0;

     virtual GrDeferredUploadTarget* deferredUploadTarget() = 0;

 private:
     virtual SkArenaAlloc* pipelineArena() = 0;
 };

 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrMeshDrawOp_DEFINED
	#define GrMeshDrawOp_DEFINED

	#include "GrDrawOp.h"
	#include "GrGeometryProcessor.h"
	#include "GrMesh.h"
	#include "GrPendingProgramElement.h"

	class GrAtlasManager;
	class GrCaps;
	class GrGlyphCache;
	class GrOpFlushState;

	/**
	* Base class for mesh-drawing GrDrawOps.
	*/
	class GrMeshDrawOp : public GrDrawOp {
	public:
	/** Abstract interface that represents a destination for a GrMeshDrawOp. */
	class Target;

	protected:
	GrMeshDrawOp(uint32_t classID);

	/** Helper for rendering repeating meshes using a patterned index buffer. This class creates the
	space for the vertices and flushes the draws to the GrMeshDrawOp::Target. */
	class PatternHelper {
	public:
	PatternHelper(GrPrimitiveType primitiveType) : fMesh(primitiveType) {}
	/** Returns the allocated storage for the vertices. The caller should populate the vertices
	before calling recordDraws(). */
	void* init(Target, size_t vertexStride, const GrBuffer, int verticesPerRepetition,
	int indicesPerRepetition, int repeatCount);

	/** Call after init() to issue draws to the GrMeshDrawOp::Target.*/
	void recordDraw(Target, const GrGeometryProcessor, const GrPipeline*);

	private:
	GrMesh fMesh;
	};

	static const int kVerticesPerQuad = 4;
	static const int kIndicesPerQuad = 6;

	/** A specialization of InstanceHelper for quad rendering. */
	class QuadHelper : private PatternHelper {
	public:
	QuadHelper() : INHERITED(GrPrimitiveType::kTriangles) {}
	/** Finds the cached quad index buffer and reserves vertex space. Returns nullptr on failure
	and on success a pointer to the vertex data that the caller should populate before
	calling recordDraws(). */
	void* init(Target*, size_t vertexStride, int quadsToDraw);

	using PatternHelper::recordDraw;

	private:
	typedef PatternHelper INHERITED;
	};

	private:
	void onPrepare(GrOpFlushState* state) final;
	void onExecute(GrOpFlushState* state) final;
	virtual void onPrepareDraws(Target*) = 0;
	typedef GrDrawOp INHERITED;
	};

	class GrMeshDrawOp::Target {
	public:
	virtual ~Target() {}

	/** Adds a draw of a mesh. */
	virtual void draw(const GrGeometryProcessor, const GrPipeline, const GrMesh&) = 0;

	/**
	* Makes space for vertex data. The returned pointer is the location where vertex data
	* should be written. On return the buffer that will hold the data as well as an offset into
	* the buffer (in 'vertexSize' units) where the data will be placed.
	*/
	virtual void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer**,
	int* startVertex) = 0;

	/**
	* Makes space for index data. The returned pointer is the location where index data
	* should be written. On return the buffer that will hold the data as well as an offset into
	* the buffer (in uint16_t units) where the data will be placed.
	*/
	virtual uint16_t* makeIndexSpace(int indexCount, const GrBuffer*, int startIndex) = 0;

	/**
	* This is similar to makeVertexSpace. It allows the caller to use up to 'actualVertexCount'
	* vertices in the returned pointer, which may exceed 'minVertexCount'.
	* 'fallbackVertexCount' is the maximum number of vertices that should be allocated if a new
	* buffer is allocated on behalf of this request.
	*/
	virtual void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount,
	int fallbackVertexCount, const GrBuffer**,
	int* startVertex, int* actualVertexCount) = 0;

	/**
	* This is similar to makeIndexSpace. It allows the caller to use up to 'actualIndexCount'
	* indices in the returned pointer, which may exceed 'minIndexCount'.
	* 'fallbackIndexCount' is the maximum number of indices that should be allocated if a new
	* buffer is allocated on behalf of this request.
	*/
	virtual uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount,
	const GrBuffer*, int startIndex,
	int* actualIndexCount) = 0;

	/** Helpers for ops which over-allocate and then return excess data to the pool. */
	virtual void putBackIndices(int indices) = 0;
	virtual void putBackVertices(int vertices, size_t vertexStride) = 0;

	/**
	* Allocate space for a pipeline. The target ensures this pipeline lifetime is at least
	* as long as any deferred execution of draws added via draw().
	* @tparam Args
	* @param args
	* @return
	*/
	template <typename... Args>
	GrPipeline* allocPipeline(Args&&... args) {
	return this->pipelineArena()->make<GrPipeline>(std::forward<Args>(args)...);
	}

	/**
	* Helper that makes a pipeline targeting the op's render target that incorporates the op's
	* GrAppliedClip.
	*/
	GrPipeline* makePipeline(uint32_t pipelineFlags, GrProcessorSet&& processorSet,
	GrAppliedClip&& clip) {
	GrPipeline::InitArgs pipelineArgs;
	pipelineArgs.fFlags = pipelineFlags;
	pipelineArgs.fProxy = this->proxy();
	pipelineArgs.fDstProxy = this->dstProxy();
	pipelineArgs.fCaps = &this->caps();
	pipelineArgs.fResourceProvider = this->resourceProvider();
	return this->allocPipeline(pipelineArgs, std::move(processorSet), std::move(clip));
	}

	virtual GrRenderTargetProxy* proxy() const = 0;

	virtual GrAppliedClip detachAppliedClip() = 0;

	virtual const GrXferProcessor::DstProxy& dstProxy() const = 0;

	virtual GrResourceProvider* resourceProvider() const = 0;

	virtual GrGlyphCache* glyphCache() const = 0;
	virtual GrAtlasManager* atlasManager() const = 0;

	virtual const GrCaps& caps() const = 0;

	virtual GrDeferredUploadTarget* deferredUploadTarget() = 0;

	private:
	virtual SkArenaAlloc* pipelineArena() = 0;
	};

	#endif