src/gpu/GrOpFlushState.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 GrOpFlushState_DEFINED
 #define GrOpFlushState_DEFINED

 #include <utility>
 #include "GrAppliedClip.h"
 #include "GrBufferAllocPool.h"
 #include "GrDeferredUpload.h"
 #include "GrUninstantiateProxyTracker.h"
 #include "SkArenaAlloc.h"
 #include "SkArenaAllocList.h"
 #include "ops/GrMeshDrawOp.h"

 class GrGpu;
 class GrGpuCommandBuffer;
 class GrGpuRTCommandBuffer;
 class GrResourceProvider;

 /** Tracks the state across all the GrOps (really just the GrDrawOps) in a GrOpList flush. */
 class GrOpFlushState final : public GrDeferredUploadTarget, public GrMeshDrawOp::Target {
 public:
     GrOpFlushState(GrGpu*, GrResourceProvider*, GrTokenTracker*);

     ~GrOpFlushState() final { this->reset(); }

     /** This is called after each op has a chance to prepare its draws and before the draws are
         executed. */
     void preExecuteDraws();

     void doUpload(GrDeferredTextureUploadFn&);

     /** Called as ops are executed. Must be called in the same order as the ops were prepared. */
     void executeDrawsAndUploadsForMeshDrawOp(uint32_t opID, const SkRect& opBounds);

     GrGpuCommandBuffer* commandBuffer() { return fCommandBuffer; }
     // Helper function used by Ops that are only called via RenderTargetOpLists
     GrGpuRTCommandBuffer* rtCommandBuffer();
     void setCommandBuffer(GrGpuCommandBuffer* buffer) { fCommandBuffer = buffer; }

     GrGpu* gpu() { return fGpu; }

     void reset();

     /** Additional data required on a per-op basis when executing GrOps. */
     struct OpArgs {
         GrRenderTarget* renderTarget() const { return fProxy->priv().peekRenderTarget(); }

         GrOp* fOp;
         // TODO: do we still need the dst proxy here?
         GrRenderTargetProxy* fProxy;
         GrAppliedClip* fAppliedClip;
         GrXferProcessor::DstProxy fDstProxy;
     };

     void setOpArgs(OpArgs* opArgs) { fOpArgs = opArgs; }

     const OpArgs& drawOpArgs() const {
         SkASSERT(fOpArgs);
         SkASSERT(fOpArgs->fOp);
         return *fOpArgs;
     }

     /** Overrides of GrDeferredUploadTarget. */

     const GrTokenTracker* tokenTracker() final { return fTokenTracker; }
     GrDeferredUploadToken addInlineUpload(GrDeferredTextureUploadFn&&) final;
     GrDeferredUploadToken addASAPUpload(GrDeferredTextureUploadFn&&) final;

     /** Overrides of GrMeshDrawOp::Target. */

     void draw(const GrGeometryProcessor*, const GrPipeline*, const GrMesh&) final;
     void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer**,
                           int* startVertex) final;
     uint16_t* makeIndexSpace(int indexCount, const GrBuffer**, int* startIndex) final;
     void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount, int fallbackVertexCount,
                                  const GrBuffer**, int* startVertex, int* actualVertexCount) final;
     uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount, const GrBuffer**,
                                     int* startIndex, int* actualIndexCount) final;
     void putBackIndices(int indexCount) final;
     void putBackVertices(int vertices, size_t vertexStride) final;
     GrRenderTargetProxy* proxy() const final { return fOpArgs->fProxy; }
     GrAppliedClip detachAppliedClip() final;
     const GrXferProcessor::DstProxy& dstProxy() const final { return fOpArgs->fDstProxy; }
     GrDeferredUploadTarget* deferredUploadTarget() final { return this; }
     const GrCaps& caps() const final;
     GrResourceProvider* resourceProvider() const final { return fResourceProvider; }

     GrGlyphCache* glyphCache() const final;

     // At this point we know we're flushing so full access to the GrAtlasManager is required (and
     // permissible).
     GrAtlasManager* atlasManager() const final;

     GrUninstantiateProxyTracker* uninstantiateProxyTracker() {
         return &fUninstantiateProxyTracker;
     }

 private:
     /** GrMeshDrawOp::Target override. */
     SkArenaAlloc* pipelineArena() override { return &fArena; }

     struct InlineUpload {
         InlineUpload(GrDeferredTextureUploadFn&& upload, GrDeferredUploadToken token)
                 : fUpload(std::move(upload)), fUploadBeforeToken(token) {}
         GrDeferredTextureUploadFn fUpload;
         GrDeferredUploadToken fUploadBeforeToken;
     };

     // A set of contiguous draws that share a draw token, geometry processor, and pipeline. The
     // meshes for the draw are stored in the fMeshes array. The reason for coalescing meshes
     // that share a geometry processor into a Draw is that it allows the Gpu object to setup
     // the shared state once and then issue draws for each mesh.
     struct Draw {
         int fMeshCnt = 0;
         GrPendingProgramElement<const GrGeometryProcessor> fGeometryProcessor;
         const GrPipeline* fPipeline;
         uint32_t fOpID;
     };

     // Storage for ops' pipelines, draws, and inline uploads.
     SkArenaAlloc fArena{sizeof(GrPipeline) * 100};

     // Store vertex and index data on behalf of ops that are flushed.
     GrVertexBufferAllocPool fVertexPool;
     GrIndexBufferAllocPool fIndexPool;

     // Data stored on behalf of the ops being flushed.
     SkArenaAllocList<GrDeferredTextureUploadFn> fASAPUploads;
     SkArenaAllocList<InlineUpload> fInlineUploads;
     SkArenaAllocList<Draw> fDraws;
     // TODO: These should go in the arena. However, GrGpuCommandBuffer and other classes currently
     // accept contiguous arrays of meshes.
     SkSTArray<16, GrMesh> fMeshes;

     // All draws we store have an implicit draw token. This is the draw token for the first draw
     // in fDraws.
     GrDeferredUploadToken fBaseDrawToken = GrDeferredUploadToken::AlreadyFlushedToken();

     // Info about the op that is currently preparing or executing using the flush state or null if
     // an op is not currently preparing of executing.
     OpArgs* fOpArgs = nullptr;

     GrGpu* fGpu;
     GrResourceProvider* fResourceProvider;
     GrTokenTracker* fTokenTracker;
     GrGpuCommandBuffer* fCommandBuffer = nullptr;

     // Variables that are used to track where we are in lists as ops are executed
     SkArenaAllocList<Draw>::Iter fCurrDraw;
     int fCurrMesh;
     SkArenaAllocList<InlineUpload>::Iter fCurrUpload;

     // Used to track the proxies that need to be uninstantiated after we finish a flush
     GrUninstantiateProxyTracker fUninstantiateProxyTracker;
 };

 #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 GrOpFlushState_DEFINED
	#define GrOpFlushState_DEFINED

	#include <utility>
	#include "GrAppliedClip.h"
	#include "GrBufferAllocPool.h"
	#include "GrDeferredUpload.h"
	#include "GrUninstantiateProxyTracker.h"
	#include "SkArenaAlloc.h"
	#include "SkArenaAllocList.h"
	#include "ops/GrMeshDrawOp.h"

	class GrGpu;
	class GrGpuCommandBuffer;
	class GrGpuRTCommandBuffer;
	class GrResourceProvider;

	/** Tracks the state across all the GrOps (really just the GrDrawOps) in a GrOpList flush. */
	class GrOpFlushState final : public GrDeferredUploadTarget, public GrMeshDrawOp::Target {
	public:
	GrOpFlushState(GrGpu, GrResourceProvider, GrTokenTracker*);

	~GrOpFlushState() final { this->reset(); }

	/** This is called after each op has a chance to prepare its draws and before the draws are
	executed. */
	void preExecuteDraws();

	void doUpload(GrDeferredTextureUploadFn&);

	/** Called as ops are executed. Must be called in the same order as the ops were prepared. */
	void executeDrawsAndUploadsForMeshDrawOp(uint32_t opID, const SkRect& opBounds);

	GrGpuCommandBuffer* commandBuffer() { return fCommandBuffer; }
	// Helper function used by Ops that are only called via RenderTargetOpLists
	GrGpuRTCommandBuffer* rtCommandBuffer();
	void setCommandBuffer(GrGpuCommandBuffer* buffer) { fCommandBuffer = buffer; }

	GrGpu* gpu() { return fGpu; }

	void reset();

	/** Additional data required on a per-op basis when executing GrOps. */
	struct OpArgs {
	GrRenderTarget* renderTarget() const { return fProxy->priv().peekRenderTarget(); }

	GrOp* fOp;
	// TODO: do we still need the dst proxy here?
	GrRenderTargetProxy* fProxy;
	GrAppliedClip* fAppliedClip;
	GrXferProcessor::DstProxy fDstProxy;
	};

	void setOpArgs(OpArgs* opArgs) { fOpArgs = opArgs; }

	const OpArgs& drawOpArgs() const {
	SkASSERT(fOpArgs);
	SkASSERT(fOpArgs->fOp);
	return *fOpArgs;
	}

	/** Overrides of GrDeferredUploadTarget. */

	const GrTokenTracker* tokenTracker() final { return fTokenTracker; }
	GrDeferredUploadToken addInlineUpload(GrDeferredTextureUploadFn&&) final;
	GrDeferredUploadToken addASAPUpload(GrDeferredTextureUploadFn&&) final;

	/** Overrides of GrMeshDrawOp::Target. */

	void draw(const GrGeometryProcessor, const GrPipeline, const GrMesh&) final;
	void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer**,
	int* startVertex) final;
	uint16_t* makeIndexSpace(int indexCount, const GrBuffer*, int startIndex) final;
	void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount, int fallbackVertexCount,
	const GrBuffer*, int startVertex, int* actualVertexCount) final;
	uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount, const GrBuffer**,
	int* startIndex, int* actualIndexCount) final;
	void putBackIndices(int indexCount) final;
	void putBackVertices(int vertices, size_t vertexStride) final;
	GrRenderTargetProxy* proxy() const final { return fOpArgs->fProxy; }
	GrAppliedClip detachAppliedClip() final;
	const GrXferProcessor::DstProxy& dstProxy() const final { return fOpArgs->fDstProxy; }
	GrDeferredUploadTarget* deferredUploadTarget() final { return this; }
	const GrCaps& caps() const final;
	GrResourceProvider* resourceProvider() const final { return fResourceProvider; }

	GrGlyphCache* glyphCache() const final;

	// At this point we know we're flushing so full access to the GrAtlasManager is required (and
	// permissible).
	GrAtlasManager* atlasManager() const final;

	GrUninstantiateProxyTracker* uninstantiateProxyTracker() {
	return &fUninstantiateProxyTracker;
	}

	private:
	/** GrMeshDrawOp::Target override. */
	SkArenaAlloc* pipelineArena() override { return &fArena; }

	struct InlineUpload {
	InlineUpload(GrDeferredTextureUploadFn&& upload, GrDeferredUploadToken token)
	: fUpload(std::move(upload)), fUploadBeforeToken(token) {}
	GrDeferredTextureUploadFn fUpload;
	GrDeferredUploadToken fUploadBeforeToken;
	};

	// A set of contiguous draws that share a draw token, geometry processor, and pipeline. The
	// meshes for the draw are stored in the fMeshes array. The reason for coalescing meshes
	// that share a geometry processor into a Draw is that it allows the Gpu object to setup
	// the shared state once and then issue draws for each mesh.
	struct Draw {
	int fMeshCnt = 0;
	GrPendingProgramElement<const GrGeometryProcessor> fGeometryProcessor;
	const GrPipeline* fPipeline;
	uint32_t fOpID;
	};

	// Storage for ops' pipelines, draws, and inline uploads.
	SkArenaAlloc fArena{sizeof(GrPipeline) * 100};

	// Store vertex and index data on behalf of ops that are flushed.
	GrVertexBufferAllocPool fVertexPool;
	GrIndexBufferAllocPool fIndexPool;

	// Data stored on behalf of the ops being flushed.
	SkArenaAllocList<GrDeferredTextureUploadFn> fASAPUploads;
	SkArenaAllocList<InlineUpload> fInlineUploads;
	SkArenaAllocList<Draw> fDraws;
	// TODO: These should go in the arena. However, GrGpuCommandBuffer and other classes currently
	// accept contiguous arrays of meshes.
	SkSTArray<16, GrMesh> fMeshes;

	// All draws we store have an implicit draw token. This is the draw token for the first draw
	// in fDraws.
	GrDeferredUploadToken fBaseDrawToken = GrDeferredUploadToken::AlreadyFlushedToken();

	// Info about the op that is currently preparing or executing using the flush state or null if
	// an op is not currently preparing of executing.
	OpArgs* fOpArgs = nullptr;

	GrGpu* fGpu;
	GrResourceProvider* fResourceProvider;
	GrTokenTracker* fTokenTracker;
	GrGpuCommandBuffer* fCommandBuffer = nullptr;

	// Variables that are used to track where we are in lists as ops are executed
	SkArenaAllocList<Draw>::Iter fCurrDraw;
	int fCurrMesh;
	SkArenaAllocList<InlineUpload>::Iter fCurrUpload;

	// Used to track the proxies that need to be uninstantiated after we finish a flush
	GrUninstantiateProxyTracker fUninstantiateProxyTracker;
	};

	#endif