src/gpu/graphite/CommandBuffer.h - skia - 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 skgpu_graphite_CommandBuffer_DEFINED
 #define skgpu_graphite_CommandBuffer_DEFINED

 #include "include/core/SkColor.h"
 #include "include/core/SkRect.h"
 #include "include/core/SkRefCnt.h"
 #include "include/private/base/SkTArray.h"
 #include "src/gpu/GpuRefCnt.h"
 #include "src/gpu/graphite/CommandTypes.h"
 #include "src/gpu/graphite/DrawTypes.h"
 #include "src/gpu/graphite/DrawWriter.h"
 #include "src/gpu/graphite/Resource.h"

 namespace skgpu {
 class RefCntedCallback;
 class MutableTextureState;
 }

 namespace skgpu::graphite {

 class Buffer;
 class DispatchGroup;
 class DrawPass;
 class SharedContext;
 class GraphicsPipeline;
 struct RenderPassDesc;
 class Sampler;
 class Texture;
 class TextureProxy;

 class CommandBuffer {
 public:
     using DrawPassList = skia_private::TArray<std::unique_ptr<DrawPass>>;
     using DispatchGroupSpan = SkSpan<const std::unique_ptr<DispatchGroup>>;

     virtual ~CommandBuffer();

 #ifdef SK_DEBUG
     bool hasWork() { return fHasWork; }
 #endif

     // Takes a Usage ref on the Resource that will be released when the command buffer has finished
     // execution.
     void trackResource(sk_sp<Resource> resource);
     // Takes a CommandBuffer ref on the Resource that will be released when the command buffer has
     // finished execution. This allows a Resource to be returned to ResourceCache for reuse while
     // the CommandBuffer is still executing on the GPU. This is most commonly used for Textures or
     // Buffers which are only accessed via commands on a command buffer.
     void trackCommandBufferResource(sk_sp<Resource> resource);
     // Release all tracked Resources
     void resetCommandBuffer();

     // If any work is needed to create new resources for a fresh command buffer do that here.
     virtual bool setNewCommandBufferResources() = 0;

     void addFinishedProc(sk_sp<RefCntedCallback> finishedProc);
     void callFinishedProcs(bool success);

     virtual void addWaitSemaphores(size_t numWaitSemaphores,
                                    const BackendSemaphore* waitSemaphores) {}
     virtual void addSignalSemaphores(size_t numWaitSemaphores,
                                      const BackendSemaphore* signalSemaphores) {}
     virtual void prepareSurfaceForStateUpdate(SkSurface* targetSurface,
                                               const MutableTextureState* newState) {}

     void addBuffersToAsyncMapOnSubmit(SkSpan<const sk_sp<Buffer>>);
     SkSpan<const sk_sp<Buffer>> buffersToAsyncMapOnSubmit() const;

     bool addRenderPass(const RenderPassDesc&,
                        sk_sp<Texture> colorTexture,
                        sk_sp<Texture> resolveTexture,
                        sk_sp<Texture> depthStencilTexture,
                        SkRect viewport,
                        const DrawPassList& drawPasses);

     bool addComputePass(DispatchGroupSpan dispatchGroups);

     //---------------------------------------------------------------
     // Can only be used outside renderpasses
     //---------------------------------------------------------------
     bool copyBufferToBuffer(const Buffer* srcBuffer,
                             size_t srcOffset,
                             sk_sp<Buffer> dstBuffer,
                             size_t dstOffset,
                             size_t size);
     bool copyTextureToBuffer(sk_sp<Texture>,
                              SkIRect srcRect,
                              sk_sp<Buffer>,
                              size_t bufferOffset,
                              size_t bufferRowBytes);
     bool copyBufferToTexture(const Buffer*,
                              sk_sp<Texture>,
                              const BufferTextureCopyData*,
                              int count);
     bool copyTextureToTexture(sk_sp<Texture> src,
                               SkIRect srcRect,
                               sk_sp<Texture> dst,
                               SkIPoint dstPoint,
                               int mipLevel);
     bool synchronizeBufferToCpu(sk_sp<Buffer>);
     bool clearBuffer(const Buffer* buffer, size_t offset, size_t size);

     // This sets a translation to be applied to any subsequently added command, assuming these
     // commands are part of a translated replay of a Graphite recording.
     void setReplayTranslation(SkIVector translation) { fReplayTranslation = translation; }
     void clearReplayTranslation() { fReplayTranslation = {0, 0}; }

 protected:
     CommandBuffer();

     SkISize fRenderPassSize;
     SkIVector fReplayTranslation;

 private:
     // Release all tracked Resources
     void releaseResources();

     virtual void onResetCommandBuffer() = 0;

     virtual bool onAddRenderPass(const RenderPassDesc&,
                                  const Texture* colorTexture,
                                  const Texture* resolveTexture,
                                  const Texture* depthStencilTexture,
                                  SkRect viewport,
                                  const DrawPassList& drawPasses) = 0;

     virtual bool onAddComputePass(DispatchGroupSpan dispatchGroups) = 0;

     virtual bool onCopyBufferToBuffer(const Buffer* srcBuffer,
                                       size_t srcOffset,
                                       const Buffer* dstBuffer,
                                       size_t dstOffset,
                                       size_t size) = 0;
     virtual bool onCopyTextureToBuffer(const Texture*,
                                        SkIRect srcRect,
                                        const Buffer*,
                                        size_t bufferOffset,
                                        size_t bufferRowBytes) = 0;
     virtual bool onCopyBufferToTexture(const Buffer*,
                                        const Texture*,
                                        const BufferTextureCopyData*,
                                        int count) = 0;
     virtual bool onCopyTextureToTexture(const Texture* src,
                                         SkIRect srcRect,
                                         const Texture* dst,
                                         SkIPoint dstPoint,
                                         int mipLevel) = 0;
     virtual bool onSynchronizeBufferToCpu(const Buffer*, bool* outDidResultInWork) = 0;
     virtual bool onClearBuffer(const Buffer*, size_t offset, size_t size) = 0;

 #ifdef SK_DEBUG
     bool fHasWork = false;
 #endif
     inline static constexpr int kInitialTrackedResourcesCount = 32;
     template <typename T>
     using TrackedResourceArray = skia_private::STArray<kInitialTrackedResourcesCount, T>;
     TrackedResourceArray<sk_sp<Resource>> fTrackedUsageResources;
     TrackedResourceArray<gr_cb<Resource>> fCommandBufferResources;
     skia_private::TArray<sk_sp<RefCntedCallback>> fFinishedProcs;
     skia_private::TArray<sk_sp<Buffer>> fBuffersToAsyncMap;
 };

 } // namespace skgpu::graphite

 #endif // skgpu_graphite_CommandBuffer_DEFINED
	/*
	* 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 skgpu_graphite_CommandBuffer_DEFINED
	#define skgpu_graphite_CommandBuffer_DEFINED

	#include "include/core/SkColor.h"
	#include "include/core/SkRect.h"
	#include "include/core/SkRefCnt.h"
	#include "include/private/base/SkTArray.h"
	#include "src/gpu/GpuRefCnt.h"
	#include "src/gpu/graphite/CommandTypes.h"
	#include "src/gpu/graphite/DrawTypes.h"
	#include "src/gpu/graphite/DrawWriter.h"
	#include "src/gpu/graphite/Resource.h"

	namespace skgpu {
	class RefCntedCallback;
	class MutableTextureState;
	}

	namespace skgpu::graphite {

	class Buffer;
	class DispatchGroup;
	class DrawPass;
	class SharedContext;
	class GraphicsPipeline;
	struct RenderPassDesc;
	class Sampler;
	class Texture;
	class TextureProxy;

	class CommandBuffer {
	public:
	using DrawPassList = skia_private::TArray<std::unique_ptr<DrawPass>>;
	using DispatchGroupSpan = SkSpan<const std::unique_ptr<DispatchGroup>>;

	virtual ~CommandBuffer();

	#ifdef SK_DEBUG
	bool hasWork() { return fHasWork; }
	#endif

	// Takes a Usage ref on the Resource that will be released when the command buffer has finished
	// execution.
	void trackResource(sk_sp<Resource> resource);
	// Takes a CommandBuffer ref on the Resource that will be released when the command buffer has
	// finished execution. This allows a Resource to be returned to ResourceCache for reuse while
	// the CommandBuffer is still executing on the GPU. This is most commonly used for Textures or
	// Buffers which are only accessed via commands on a command buffer.
	void trackCommandBufferResource(sk_sp<Resource> resource);
	// Release all tracked Resources
	void resetCommandBuffer();

	// If any work is needed to create new resources for a fresh command buffer do that here.
	virtual bool setNewCommandBufferResources() = 0;

	void addFinishedProc(sk_sp<RefCntedCallback> finishedProc);
	void callFinishedProcs(bool success);

	virtual void addWaitSemaphores(size_t numWaitSemaphores,
	const BackendSemaphore* waitSemaphores) {}
	virtual void addSignalSemaphores(size_t numWaitSemaphores,
	const BackendSemaphore* signalSemaphores) {}
	virtual void prepareSurfaceForStateUpdate(SkSurface* targetSurface,
	const MutableTextureState* newState) {}

	void addBuffersToAsyncMapOnSubmit(SkSpan<const sk_sp<Buffer>>);
	SkSpan<const sk_sp<Buffer>> buffersToAsyncMapOnSubmit() const;

	bool addRenderPass(const RenderPassDesc&,
	sk_sp<Texture> colorTexture,
	sk_sp<Texture> resolveTexture,
	sk_sp<Texture> depthStencilTexture,
	SkRect viewport,
	const DrawPassList& drawPasses);

	bool addComputePass(DispatchGroupSpan dispatchGroups);

	//---------------------------------------------------------------
	// Can only be used outside renderpasses
	//---------------------------------------------------------------
	bool copyBufferToBuffer(const Buffer* srcBuffer,
	size_t srcOffset,
	sk_sp<Buffer> dstBuffer,
	size_t dstOffset,
	size_t size);
	bool copyTextureToBuffer(sk_sp<Texture>,
	SkIRect srcRect,
	sk_sp<Buffer>,
	size_t bufferOffset,
	size_t bufferRowBytes);
	bool copyBufferToTexture(const Buffer*,
	sk_sp<Texture>,
	const BufferTextureCopyData*,
	int count);
	bool copyTextureToTexture(sk_sp<Texture> src,
	SkIRect srcRect,
	sk_sp<Texture> dst,
	SkIPoint dstPoint,
	int mipLevel);
	bool synchronizeBufferToCpu(sk_sp<Buffer>);
	bool clearBuffer(const Buffer* buffer, size_t offset, size_t size);

	// This sets a translation to be applied to any subsequently added command, assuming these
	// commands are part of a translated replay of a Graphite recording.
	void setReplayTranslation(SkIVector translation) { fReplayTranslation = translation; }
	void clearReplayTranslation() { fReplayTranslation = {0, 0}; }

	protected:
	CommandBuffer();

	SkISize fRenderPassSize;
	SkIVector fReplayTranslation;

	private:
	// Release all tracked Resources
	void releaseResources();

	virtual void onResetCommandBuffer() = 0;

	virtual bool onAddRenderPass(const RenderPassDesc&,
	const Texture* colorTexture,
	const Texture* resolveTexture,
	const Texture* depthStencilTexture,
	SkRect viewport,
	const DrawPassList& drawPasses) = 0;

	virtual bool onAddComputePass(DispatchGroupSpan dispatchGroups) = 0;

	virtual bool onCopyBufferToBuffer(const Buffer* srcBuffer,
	size_t srcOffset,
	const Buffer* dstBuffer,
	size_t dstOffset,
	size_t size) = 0;
	virtual bool onCopyTextureToBuffer(const Texture*,
	SkIRect srcRect,
	const Buffer*,
	size_t bufferOffset,
	size_t bufferRowBytes) = 0;
	virtual bool onCopyBufferToTexture(const Buffer*,
	const Texture*,
	const BufferTextureCopyData*,
	int count) = 0;
	virtual bool onCopyTextureToTexture(const Texture* src,
	SkIRect srcRect,
	const Texture* dst,
	SkIPoint dstPoint,
	int mipLevel) = 0;
	virtual bool onSynchronizeBufferToCpu(const Buffer, bool outDidResultInWork) = 0;
	virtual bool onClearBuffer(const Buffer*, size_t offset, size_t size) = 0;

	#ifdef SK_DEBUG
	bool fHasWork = false;
	#endif
	inline static constexpr int kInitialTrackedResourcesCount = 32;
	template <typename T>
	using TrackedResourceArray = skia_private::STArray<kInitialTrackedResourcesCount, T>;
	TrackedResourceArray<sk_sp<Resource>> fTrackedUsageResources;
	TrackedResourceArray<gr_cb<Resource>> fCommandBufferResources;
	skia_private::TArray<sk_sp<RefCntedCallback>> fFinishedProcs;
	skia_private::TArray<sk_sp<Buffer>> fBuffersToAsyncMap;
	};

	} // namespace skgpu::graphite

	#endif // skgpu_graphite_CommandBuffer_DEFINED