src/core/SkPipelineData.h - skia - Git at Google

 /*
  * Copyright 2022 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkPipelineData_DEFINED
 #define SkPipelineData_DEFINED

 #include <vector>
 #include "include/core/SkPoint.h"
 #include "include/core/SkRefCnt.h"
 #include "include/core/SkSamplingOptions.h"
 #include "include/core/SkSpan.h"
 #include "include/core/SkTileMode.h"
 #include "include/private/SkColorData.h"
 #include "src/core/SkEnumBitMask.h"
 #include "src/core/SkUniform.h"

 #ifdef SK_GRAPHITE_ENABLED
 #include "include/private/SkVx.h"
 #include "src/gpu/graphite/TextureProxy.h"
 #include "src/gpu/graphite/UniformManager.h"
 #endif

 class SkArenaAlloc;
 class SkUniform;

 enum class SnippetRequirementFlags : uint32_t;

 class SkUniformDataBlock {
 public:
     static SkUniformDataBlock* Make(const SkUniformDataBlock&, SkArenaAlloc*);

     SkUniformDataBlock(SkSpan<const char> data) : fData(data) {}
     SkUniformDataBlock() = default;

     const char* data() const { return fData.data(); }
     size_t size() const { return fData.size(); }

     uint32_t hash() const;

     bool operator==(const SkUniformDataBlock& that) const {
         return fData.size() == that.fData.size() &&
                !memcmp(fData.data(), that.fData.data(), fData.size());
     }
     bool operator!=(const SkUniformDataBlock& that) const { return !(*this == that); }

 private:
     SkSpan<const char> fData;
 };

 // We would like to store just a "const SkUniformDataBlock*" in the UniformDataCache but, until
 // the TextureDataCache is switched over to storing its data in an arena, whatever is held in
 // the cache must interoperate w/ std::unique_ptr (i.e., have a get() function).
 // TODO: remove this class
 class SkUniformDataBlockPassThrough {
 public:
     SkUniformDataBlockPassThrough() = default;
     SkUniformDataBlockPassThrough(SkUniformDataBlock* udb) : fUDB(udb) {}

     SkUniformDataBlock* get() const { return fUDB; }

 private:
     SkUniformDataBlock* fUDB = nullptr;
 };

 #ifdef SK_GRAPHITE_ENABLED
 class SkTextureDataBlock {
 public:
     struct TextureInfo {
         bool operator==(const TextureInfo&) const;
         bool operator!=(const TextureInfo& other) const { return !(*this == other);  }

         uint32_t samplerKey() const;

         sk_sp<skgpu::graphite::TextureProxy> fProxy;
         SkSamplingOptions                    fSamplingOptions;
         SkTileMode                           fTileModes[2];
     };

     static std::unique_ptr<SkTextureDataBlock> Make(const SkTextureDataBlock&, SkArenaAlloc*);
     SkTextureDataBlock() = default;

     bool empty() const { return fTextureData.empty(); }
     int numTextures() const { return SkTo<int>(fTextureData.size()); }
     const TextureInfo& texture(int index) const { return fTextureData[index]; }

     bool operator==(const SkTextureDataBlock&) const;
     bool operator!=(const SkTextureDataBlock& other) const { return !(*this == other);  }
     uint32_t hash() const;

     void add(const SkSamplingOptions& sampling,
              const SkTileMode tileModes[2],
              sk_sp<skgpu::graphite::TextureProxy> proxy) {
         fTextureData.push_back({std::move(proxy), sampling, {tileModes[0], tileModes[1]}});
     }

     void reset() {
         fTextureData.clear();
     }

 private:
     std::vector<TextureInfo> fTextureData;
 };
 #endif // SK_GRAPHITE_ENABLED

 // The PipelineDataGatherer is just used to collect information for a given PaintParams object.
 //   The UniformData is added to a cache and uniquified. Only that unique ID is passed around.
 //   The TextureData is also added to a cache and uniquified. Only that ID is passed around.

 // TODO: The current plan for fixing uniform padding is for the SkPipelineDataGatherer to hold a
 // persistent uniformManager. A stretch goal for this system would be for this combination
 // to accumulate all the uniforms and then rearrange them to minimize padding. This would,
 // obviously, vastly complicate uniform accumulation.
 class SkPipelineDataGatherer {
 public:
 #ifdef SK_GRAPHITE_ENABLED
     SkPipelineDataGatherer(skgpu::graphite::Layout layout);
 #endif

     void reset();
     // Check that the gatherer has been reset to its initial state prior to collecting new data.
     SkDEBUGCODE(void checkReset();)

 #ifdef SK_GRAPHITE_ENABLED
     void add(const SkSamplingOptions& sampling,
              const SkTileMode tileModes[2],
              sk_sp<skgpu::graphite::TextureProxy> proxy) {
         fTextureDataBlock.add(sampling, tileModes, std::move(proxy));
     }
     bool hasTextures() const { return !fTextureDataBlock.empty(); }
 #endif // SK_GRAPHITE_ENABLED

     void addFlags(SnippetRequirementFlags flags);
     bool needsLocalCoords() const;

 #ifdef SK_GRAPHITE_ENABLED
     const SkTextureDataBlock& textureDataBlock() { return fTextureDataBlock; }

     void write(const SkM44& mat) { fUniformManager.write(mat); }
     void write(const SkColor4f* colors, int numColors) { fUniformManager.write(colors, numColors); }
     void write(const SkPMColor4f& premulColor) { fUniformManager.write(&premulColor, 1); }
     void write(const SkRect& rect) { fUniformManager.write(rect); }
     void write(SkPoint point) { fUniformManager.write(point); }
     void write(const float* floats, int count) { fUniformManager.write(floats, count); }
     void write(float f) { fUniformManager.write(&f, 1); }
     void write(int i) { fUniformManager.write(i); }
     void write(skvx::float2 v) { fUniformManager.write(v); }
     void write(skvx::float4 v) { fUniformManager.write(v); }
     void write(SkSLType t, unsigned int cnt, const void* v) { fUniformManager.write(t, cnt, v); }

     bool hasUniforms() const { return fUniformManager.size(); }

     SkUniformDataBlock peekUniformData() const { return fUniformManager.peekData(); }

 private:
 #ifdef SK_DEBUG
     friend class UniformExpectationsValidator;

     void setExpectedUniforms(SkSpan<const SkUniform> expectedUniforms) {
         fUniformManager.setExpectedUniforms(expectedUniforms);
     }
     void doneWithExpectedUniforms() { fUniformManager.doneWithExpectedUniforms(); }
 #endif // SK_DEBUG

     SkTextureDataBlock                     fTextureDataBlock;
     skgpu::graphite::UniformManager        fUniformManager;
 #endif // SK_GRAPHITE_ENABLED
     SkEnumBitMask<SnippetRequirementFlags> fSnippetRequirementFlags;
 };

 #if defined(SK_DEBUG) && defined(SK_GRAPHITE_ENABLED)
 class UniformExpectationsValidator {
 public:
     UniformExpectationsValidator(SkPipelineDataGatherer *gatherer,
                                  SkSpan<const SkUniform> expectedUniforms)
             : fGatherer(gatherer) {
         fGatherer->setExpectedUniforms(expectedUniforms);
     }

     ~UniformExpectationsValidator() {
         fGatherer->doneWithExpectedUniforms();
     }

 private:
     SkPipelineDataGatherer *fGatherer;

     UniformExpectationsValidator(UniformExpectationsValidator &&) = delete;
     UniformExpectationsValidator(const UniformExpectationsValidator &) = delete;
     UniformExpectationsValidator &operator=(UniformExpectationsValidator &&) = delete;
     UniformExpectationsValidator &operator=(const UniformExpectationsValidator &) = delete;
 };
 #endif // SK_DEBUG && SK_GRAPHITE_ENABLED

 #endif // SkPipelineData_DEFINED
	/*
	* Copyright 2022 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkPipelineData_DEFINED
	#define SkPipelineData_DEFINED

	#include <vector>
	#include "include/core/SkPoint.h"
	#include "include/core/SkRefCnt.h"
	#include "include/core/SkSamplingOptions.h"
	#include "include/core/SkSpan.h"
	#include "include/core/SkTileMode.h"
	#include "include/private/SkColorData.h"
	#include "src/core/SkEnumBitMask.h"
	#include "src/core/SkUniform.h"

	#ifdef SK_GRAPHITE_ENABLED
	#include "include/private/SkVx.h"
	#include "src/gpu/graphite/TextureProxy.h"
	#include "src/gpu/graphite/UniformManager.h"
	#endif

	class SkArenaAlloc;
	class SkUniform;

	enum class SnippetRequirementFlags : uint32_t;

	class SkUniformDataBlock {
	public:
	static SkUniformDataBlock* Make(const SkUniformDataBlock&, SkArenaAlloc*);

	SkUniformDataBlock(SkSpan<const char> data) : fData(data) {}
	SkUniformDataBlock() = default;

	const char* data() const { return fData.data(); }
	size_t size() const { return fData.size(); }

	uint32_t hash() const;

	bool operator==(const SkUniformDataBlock& that) const {
	return fData.size() == that.fData.size() &&
	!memcmp(fData.data(), that.fData.data(), fData.size());
	}
	bool operator!=(const SkUniformDataBlock& that) const { return !(*this == that); }

	private:
	SkSpan<const char> fData;
	};

	// We would like to store just a "const SkUniformDataBlock*" in the UniformDataCache but, until
	// the TextureDataCache is switched over to storing its data in an arena, whatever is held in
	// the cache must interoperate w/ std::unique_ptr (i.e., have a get() function).
	// TODO: remove this class
	class SkUniformDataBlockPassThrough {
	public:
	SkUniformDataBlockPassThrough() = default;
	SkUniformDataBlockPassThrough(SkUniformDataBlock* udb) : fUDB(udb) {}

	SkUniformDataBlock* get() const { return fUDB; }

	private:
	SkUniformDataBlock* fUDB = nullptr;
	};

	#ifdef SK_GRAPHITE_ENABLED
	class SkTextureDataBlock {
	public:
	struct TextureInfo {
	bool operator==(const TextureInfo&) const;
	bool operator!=(const TextureInfo& other) const { return !(*this == other); }

	uint32_t samplerKey() const;

	sk_sp<skgpu::graphite::TextureProxy> fProxy;
	SkSamplingOptions fSamplingOptions;
	SkTileMode fTileModes[2];
	};

	static std::unique_ptr<SkTextureDataBlock> Make(const SkTextureDataBlock&, SkArenaAlloc*);
	SkTextureDataBlock() = default;

	bool empty() const { return fTextureData.empty(); }
	int numTextures() const { return SkTo<int>(fTextureData.size()); }
	const TextureInfo& texture(int index) const { return fTextureData[index]; }

	bool operator==(const SkTextureDataBlock&) const;
	bool operator!=(const SkTextureDataBlock& other) const { return !(*this == other); }
	uint32_t hash() const;

	void add(const SkSamplingOptions& sampling,
	const SkTileMode tileModes[2],
	sk_sp<skgpu::graphite::TextureProxy> proxy) {
	fTextureData.push_back({std::move(proxy), sampling, {tileModes[0], tileModes[1]}});
	}

	void reset() {
	fTextureData.clear();
	}

	private:
	std::vector<TextureInfo> fTextureData;
	};
	#endif // SK_GRAPHITE_ENABLED

	// The PipelineDataGatherer is just used to collect information for a given PaintParams object.
	// The UniformData is added to a cache and uniquified. Only that unique ID is passed around.
	// The TextureData is also added to a cache and uniquified. Only that ID is passed around.

	// TODO: The current plan for fixing uniform padding is for the SkPipelineDataGatherer to hold a
	// persistent uniformManager. A stretch goal for this system would be for this combination
	// to accumulate all the uniforms and then rearrange them to minimize padding. This would,
	// obviously, vastly complicate uniform accumulation.
	class SkPipelineDataGatherer {
	public:
	#ifdef SK_GRAPHITE_ENABLED
	SkPipelineDataGatherer(skgpu::graphite::Layout layout);
	#endif

	void reset();
	// Check that the gatherer has been reset to its initial state prior to collecting new data.
	SkDEBUGCODE(void checkReset();)

	#ifdef SK_GRAPHITE_ENABLED
	void add(const SkSamplingOptions& sampling,
	const SkTileMode tileModes[2],
	sk_sp<skgpu::graphite::TextureProxy> proxy) {
	fTextureDataBlock.add(sampling, tileModes, std::move(proxy));
	}
	bool hasTextures() const { return !fTextureDataBlock.empty(); }
	#endif // SK_GRAPHITE_ENABLED

	void addFlags(SnippetRequirementFlags flags);
	bool needsLocalCoords() const;

	#ifdef SK_GRAPHITE_ENABLED
	const SkTextureDataBlock& textureDataBlock() { return fTextureDataBlock; }

	void write(const SkM44& mat) { fUniformManager.write(mat); }
	void write(const SkColor4f* colors, int numColors) { fUniformManager.write(colors, numColors); }
	void write(const SkPMColor4f& premulColor) { fUniformManager.write(&premulColor, 1); }
	void write(const SkRect& rect) { fUniformManager.write(rect); }
	void write(SkPoint point) { fUniformManager.write(point); }
	void write(const float* floats, int count) { fUniformManager.write(floats, count); }
	void write(float f) { fUniformManager.write(&f, 1); }
	void write(int i) { fUniformManager.write(i); }
	void write(skvx::float2 v) { fUniformManager.write(v); }
	void write(skvx::float4 v) { fUniformManager.write(v); }
	void write(SkSLType t, unsigned int cnt, const void* v) { fUniformManager.write(t, cnt, v); }

	bool hasUniforms() const { return fUniformManager.size(); }

	SkUniformDataBlock peekUniformData() const { return fUniformManager.peekData(); }

	private:
	#ifdef SK_DEBUG
	friend class UniformExpectationsValidator;

	void setExpectedUniforms(SkSpan<const SkUniform> expectedUniforms) {
	fUniformManager.setExpectedUniforms(expectedUniforms);
	}
	void doneWithExpectedUniforms() { fUniformManager.doneWithExpectedUniforms(); }
	#endif // SK_DEBUG

	SkTextureDataBlock fTextureDataBlock;
	skgpu::graphite::UniformManager fUniformManager;
	#endif // SK_GRAPHITE_ENABLED
	SkEnumBitMask<SnippetRequirementFlags> fSnippetRequirementFlags;
	};

	#if defined(SK_DEBUG) && defined(SK_GRAPHITE_ENABLED)
	class UniformExpectationsValidator {
	public:
	UniformExpectationsValidator(SkPipelineDataGatherer *gatherer,
	SkSpan<const SkUniform> expectedUniforms)
	: fGatherer(gatherer) {
	fGatherer->setExpectedUniforms(expectedUniforms);
	}

	~UniformExpectationsValidator() {
	fGatherer->doneWithExpectedUniforms();
	}

	private:
	SkPipelineDataGatherer *fGatherer;

	UniformExpectationsValidator(UniformExpectationsValidator &&) = delete;
	UniformExpectationsValidator(const UniformExpectationsValidator &) = delete;
	UniformExpectationsValidator &operator=(UniformExpectationsValidator &&) = delete;
	UniformExpectationsValidator &operator=(const UniformExpectationsValidator &) = delete;
	};
	#endif // SK_DEBUG && SK_GRAPHITE_ENABLED

	#endif // SkPipelineData_DEFINED