third_party/skia/src/gpu/GrMeshDrawTarget.h - cobalt - Git at Google

 /*
  * Copyright 2021 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrMeshDrawTarget_DEFINED
 #define GrMeshDrawTarget_DEFINED

 #include "src/gpu/GrDrawIndirectCommand.h"
 #include "src/gpu/GrSimpleMesh.h"

 class GrAtlasManager;
 class GrStrikeCache;
 class GrThreadSafeCache;

 namespace skgpu {
     namespace v1 { class SmallPathAtlasMgr; }

     struct IndexWriter;
     struct VertexWriter;
 } // namespace skgpu

 /*
  * Abstract interface that supports creating vertices, indices, and meshes, as well as
  * invoking GPU draw operations.
  */
 class GrMeshDrawTarget {
 public:
     virtual ~GrMeshDrawTarget() {}

     /** Adds a draw of a mesh. 'primProcProxies' must have
      * GrGeometryProcessor::numTextureSamplers() entries. Can be null if no samplers.
      */
     virtual void recordDraw(const GrGeometryProcessor*,
                             const GrSimpleMesh[],
                             int meshCnt,
                             const GrSurfaceProxy* const primProcProxies[],
                             GrPrimitiveType) = 0;

     /**
      * Helper for drawing GrSimpleMesh(es) with zero primProc textures.
      */
     void recordDraw(const GrGeometryProcessor* gp,
                     const GrSimpleMesh meshes[],
                     int meshCnt,
                     GrPrimitiveType primitiveType) {
         this->recordDraw(gp, meshes, meshCnt, nullptr, primitiveType);
     }

     /**
      * 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, sk_sp<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, sk_sp<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, sk_sp<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,
                                             sk_sp<const GrBuffer>*, int* startIndex,
                                             int* actualIndexCount) = 0;

     /**
      * Makes space for elements in a draw-indirect buffer. Upon success, the returned pointer is a
      * CPU mapping where the data should be written.
      */
     virtual GrDrawIndirectWriter makeDrawIndirectSpace(int drawCount, sk_sp<const GrBuffer>* buffer,
                                                        size_t* offsetInBytes) = 0;

     /**
      * Makes space for elements in a draw-indexed-indirect buffer. Upon success, the returned
      * pointer is a CPU mapping where the data should be written.
      */
     virtual GrDrawIndexedIndirectWriter makeDrawIndexedIndirectSpace(int drawCount,
                                                                      sk_sp<const GrBuffer>*,
                                                                      size_t* offsetInBytes) = 0;

     /** Helpers for ops that only need to use the VertexWriter to fill the data directly. */
     skgpu::VertexWriter makeVertexWriter(size_t vertexSize, int vertexCount,
                                          sk_sp<const GrBuffer>*, int* startVertex);
     skgpu::IndexWriter makeIndexWriter(int indexCount, sk_sp<const GrBuffer>*, int* startIndex);
     skgpu::VertexWriter makeVertexWriterAtLeast(size_t vertexSize, int minVertexCount,
                                                 int fallbackVertexCount, sk_sp<const GrBuffer>*,
                                                 int* startVertex, int* actualVertexCount);
     skgpu::IndexWriter makeIndexWriterAtLeast(int minIndexCount, int fallbackIndexCount,
                                               sk_sp<const GrBuffer>*, int* startIndex,
                                               int* actualIndexCount);

     /** 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;
     virtual void putBackIndirectDraws(int count) = 0;
     virtual void putBackIndexedIndirectDraws(int count) = 0;

     GrSimpleMesh* allocMesh() { return this->allocator()->make<GrSimpleMesh>(); }
     GrSimpleMesh* allocMeshes(int n) { return this->allocator()->makeArray<GrSimpleMesh>(n); }
     const GrSurfaceProxy** allocPrimProcProxyPtrs(int n) {
         return this->allocator()->makeArray<const GrSurfaceProxy*>(n);
     }

     virtual GrRenderTargetProxy* rtProxy() const = 0;
     virtual const GrSurfaceProxyView& writeView() const = 0;

     virtual const GrAppliedClip* appliedClip() const = 0;
     virtual GrAppliedClip detachAppliedClip() = 0;

     virtual const GrDstProxyView& dstProxyView() const = 0;
     virtual bool usesMSAASurface() const = 0;

     virtual GrXferBarrierFlags renderPassBarriers() const = 0;

     virtual GrLoadOp colorLoadOp() const = 0;

     virtual GrThreadSafeCache* threadSafeCache() const = 0;
     virtual GrResourceProvider* resourceProvider() const = 0;
     uint32_t contextUniqueID() const;

     virtual GrStrikeCache* strikeCache() const = 0;
     virtual GrAtlasManager* atlasManager() const = 0;
     virtual skgpu::v1::SmallPathAtlasMgr* smallPathAtlasManager() const = 0;

     // This should be called during onPrepare of a GrOp. The caller should add any proxies to the
     // array it will use that it did not access during a call to visitProxies. This is usually the
     // case for atlases.
     virtual SkTArray<GrSurfaceProxy*, true>* sampledProxyArray() = 0;

     virtual const GrCaps& caps() const = 0;

     virtual GrDeferredUploadTarget* deferredUploadTarget() = 0;

     virtual SkArenaAlloc* allocator() = 0;
 };

 #endif
	/*
	* Copyright 2021 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrMeshDrawTarget_DEFINED
	#define GrMeshDrawTarget_DEFINED

	#include "src/gpu/GrDrawIndirectCommand.h"
	#include "src/gpu/GrSimpleMesh.h"

	class GrAtlasManager;
	class GrStrikeCache;
	class GrThreadSafeCache;

	namespace skgpu {
	namespace v1 { class SmallPathAtlasMgr; }

	struct IndexWriter;
	struct VertexWriter;
	} // namespace skgpu

	/*
	* Abstract interface that supports creating vertices, indices, and meshes, as well as
	* invoking GPU draw operations.
	*/
	class GrMeshDrawTarget {
	public:
	virtual ~GrMeshDrawTarget() {}

	/** Adds a draw of a mesh. 'primProcProxies' must have
	* GrGeometryProcessor::numTextureSamplers() entries. Can be null if no samplers.
	*/
	virtual void recordDraw(const GrGeometryProcessor*,
	const GrSimpleMesh[],
	int meshCnt,
	const GrSurfaceProxy* const primProcProxies[],
	GrPrimitiveType) = 0;

	/**
	* Helper for drawing GrSimpleMesh(es) with zero primProc textures.
	*/
	void recordDraw(const GrGeometryProcessor* gp,
	const GrSimpleMesh meshes[],
	int meshCnt,
	GrPrimitiveType primitiveType) {
	this->recordDraw(gp, meshes, meshCnt, nullptr, primitiveType);
	}

	/**
	* 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, sk_sp<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, sk_sp<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, sk_sp<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,
	sk_sp<const GrBuffer>, int startIndex,
	int* actualIndexCount) = 0;

	/**
	* Makes space for elements in a draw-indirect buffer. Upon success, the returned pointer is a
	* CPU mapping where the data should be written.
	*/
	virtual GrDrawIndirectWriter makeDrawIndirectSpace(int drawCount, sk_sp<const GrBuffer>* buffer,
	size_t* offsetInBytes) = 0;

	/**
	* Makes space for elements in a draw-indexed-indirect buffer. Upon success, the returned
	* pointer is a CPU mapping where the data should be written.
	*/
	virtual GrDrawIndexedIndirectWriter makeDrawIndexedIndirectSpace(int drawCount,
	sk_sp<const GrBuffer>*,
	size_t* offsetInBytes) = 0;

	/** Helpers for ops that only need to use the VertexWriter to fill the data directly. */
	skgpu::VertexWriter makeVertexWriter(size_t vertexSize, int vertexCount,
	sk_sp<const GrBuffer>, int startVertex);
	skgpu::IndexWriter makeIndexWriter(int indexCount, sk_sp<const GrBuffer>, int startIndex);
	skgpu::VertexWriter makeVertexWriterAtLeast(size_t vertexSize, int minVertexCount,
	int fallbackVertexCount, sk_sp<const GrBuffer>*,
	int* startVertex, int* actualVertexCount);
	skgpu::IndexWriter makeIndexWriterAtLeast(int minIndexCount, int fallbackIndexCount,
	sk_sp<const GrBuffer>, int startIndex,
	int* actualIndexCount);

	/** 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;
	virtual void putBackIndirectDraws(int count) = 0;
	virtual void putBackIndexedIndirectDraws(int count) = 0;

	GrSimpleMesh* allocMesh() { return this->allocator()->make<GrSimpleMesh>(); }
	GrSimpleMesh* allocMeshes(int n) { return this->allocator()->makeArray<GrSimpleMesh>(n); }
	const GrSurfaceProxy** allocPrimProcProxyPtrs(int n) {
	return this->allocator()->makeArray<const GrSurfaceProxy*>(n);
	}

	virtual GrRenderTargetProxy* rtProxy() const = 0;
	virtual const GrSurfaceProxyView& writeView() const = 0;

	virtual const GrAppliedClip* appliedClip() const = 0;
	virtual GrAppliedClip detachAppliedClip() = 0;

	virtual const GrDstProxyView& dstProxyView() const = 0;
	virtual bool usesMSAASurface() const = 0;

	virtual GrXferBarrierFlags renderPassBarriers() const = 0;

	virtual GrLoadOp colorLoadOp() const = 0;

	virtual GrThreadSafeCache* threadSafeCache() const = 0;
	virtual GrResourceProvider* resourceProvider() const = 0;
	uint32_t contextUniqueID() const;

	virtual GrStrikeCache* strikeCache() const = 0;
	virtual GrAtlasManager* atlasManager() const = 0;
	virtual skgpu::v1::SmallPathAtlasMgr* smallPathAtlasManager() const = 0;

	// This should be called during onPrepare of a GrOp. The caller should add any proxies to the
	// array it will use that it did not access during a call to visitProxies. This is usually the
	// case for atlases.
	virtual SkTArray<GrSurfaceProxy, true> sampledProxyArray() = 0;

	virtual const GrCaps& caps() const = 0;

	virtual GrDeferredUploadTarget* deferredUploadTarget() = 0;

	virtual SkArenaAlloc* allocator() = 0;
	};

	#endif