include/effects/SkRuntimeEffect.h - skia - Git at Google

 /*
  * Copyright 2019 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkRuntimeEffect_DEFINED
 #define SkRuntimeEffect_DEFINED

 #include "include/core/SkData.h"
 #include "include/core/SkImageInfo.h"
 #include "include/core/SkMatrix.h"
 #include "include/core/SkString.h"
 #include "include/private/SkSLSampleUsage.h"

 #include <vector>

 class GrRecordingContext;
 class SkColorFilter;
 class SkImage;
 class SkShader;

 namespace SkSL {
 class FunctionDefinition;
 struct Program;
 }  // namespace SkSL

 /*
  * SkRuntimeEffect supports creating custom SkShader and SkColorFilter objects using Skia's SkSL
  * shading language.
  *
  * NOTE: This API is experimental and subject to change.
  */
 class SK_API SkRuntimeEffect : public SkRefCnt {
 public:
     struct Uniform {
         enum class Type {
             kFloat,
             kFloat2,
             kFloat3,
             kFloat4,
             kFloat2x2,
             kFloat3x3,
             kFloat4x4,
         };

         enum Flags {
             kArray_Flag         = 0x1,
             kMarker_Flag        = 0x2,
             kMarkerNormals_Flag = 0x4,
             kSRGBUnpremul_Flag  = 0x8,
         };

         SkString  name;
         size_t    offset;
         Type      type;
         int       count;
         uint32_t  flags;
         uint32_t  marker;

         bool isArray() const { return SkToBool(this->flags & kArray_Flag); }
         size_t sizeInBytes() const;
     };

     struct Varying {
         SkString name;
         int      width;  // 1 - 4 (floats)
     };

     struct Options {
         // Sets an upper limit on the acceptable amount of code growth from inlining.
         // By default, runtime effects don't run the inliner directly.
         int inlineThreshold = 0;
     };

     // If the effect is compiled successfully, `effect` will be non-null.
     // Otherwise, `errorText` will contain the reason for failure.
     struct Result {
         sk_sp<SkRuntimeEffect> effect;
         SkString errorText;
     };

     static Result Make(SkString sksl, const Options& options);

     // We can't use a default argument for `options` due to a bug in Clang.
     // https://bugs.llvm.org/show_bug.cgi?id=36684
     static Result Make(SkString sksl) { return Make(std::move(sksl), Options{}); }

     sk_sp<SkShader> makeShader(sk_sp<SkData> uniforms,
                                sk_sp<SkShader> children[],
                                size_t childCount,
                                const SkMatrix* localMatrix,
                                bool isOpaque);

     sk_sp<SkImage> makeImage(GrRecordingContext*,
                              sk_sp<SkData> uniforms,
                              sk_sp<SkShader> children[],
                              size_t childCount,
                              const SkMatrix* localMatrix,
                              SkImageInfo resultInfo,
                              bool mipmapped);

     sk_sp<SkColorFilter> makeColorFilter(sk_sp<SkData> uniforms);
     sk_sp<SkColorFilter> makeColorFilter(sk_sp<SkData> uniforms,
                                          sk_sp<SkColorFilter> children[],
                                          size_t childCount);

     const SkString& source() const { return fSkSL; }

     template <typename T>
     class ConstIterable {
     public:
         ConstIterable(const std::vector<T>& vec) : fVec(vec) {}

         using const_iterator = typename std::vector<T>::const_iterator;

         const_iterator begin() const { return fVec.begin(); }
         const_iterator end() const { return fVec.end(); }
         size_t count() const { return fVec.size(); }

     private:
         const std::vector<T>& fVec;
     };

     // Combined size of all 'uniform' variables. When calling makeColorFilter or makeShader,
     // provide an SkData of this size, containing values for all of those variables.
     size_t uniformSize() const;

     ConstIterable<Uniform> uniforms() const { return ConstIterable<Uniform>(fUniforms); }
     ConstIterable<SkString> children() const { return ConstIterable<SkString>(fChildren); }
     ConstIterable<Varying> varyings() const { return ConstIterable<Varying>(fVaryings); }

     // Returns pointer to the named uniform variable's description, or nullptr if not found
     const Uniform* findUniform(const char* name) const;

     // Returns index of the named child, or -1 if not found
     int findChild(const char* name) const;

     static void RegisterFlattenables();
     ~SkRuntimeEffect() override;

 private:
     SkRuntimeEffect(SkString sksl,
                     std::unique_ptr<SkSL::Program> baseProgram,
                     const SkSL::FunctionDefinition& main,
                     std::vector<Uniform>&& uniforms,
                     std::vector<SkString>&& children,
                     std::vector<SkSL::SampleUsage>&& sampleUsages,
                     std::vector<Varying>&& varyings,
                     bool usesSampleCoords,
                     bool allowColorFilter);

     uint32_t hash() const { return fHash; }
     bool usesSampleCoords() const { return fUsesSampleCoords; }

 #if SK_SUPPORT_GPU
     friend class GrSkSLFP;      // fBaseProgram, fSampleUsages
     friend class GrGLSLSkSLFP;  //
 #endif

     friend class SkRTShader;            // fBaseProgram, fMain
     friend class SkRuntimeColorFilter;  //

     uint32_t fHash;
     SkString fSkSL;

     std::unique_ptr<SkSL::Program> fBaseProgram;
     const SkSL::FunctionDefinition& fMain;
     std::vector<Uniform> fUniforms;
     std::vector<SkString> fChildren;
     std::vector<SkSL::SampleUsage> fSampleUsages;
     std::vector<Varying>  fVaryings;

     bool   fUsesSampleCoords;
     bool   fAllowColorFilter;
 };

 /**
  * SkRuntimeShaderBuilder is a utility to simplify creating SkShader objects from SkRuntimeEffects.
  *
  * NOTE: Like SkRuntimeEffect, this API is experimental and subject to change!
  *
  * Given an SkRuntimeEffect, the SkRuntimeShaderBuilder manages creating an input data block and
  * provides named access to the 'uniform' variables in that block, as well as named access
  * to a list of child shader slots. Usage:
  *
  *   sk_sp<SkRuntimeEffect> effect = ...;
  *   SkRuntimeShaderBuilder builder(effect);
  *   builder.uniform("some_uniform_float")  = 3.14f;
  *   builder.uniform("some_uniform_matrix") = SkM44::Rotate(...);
  *   builder.child("some_child_effect")     = mySkImage->makeShader(...);
  *   ...
  *   sk_sp<SkShader> shader = builder.makeShader(nullptr, false);
  *
  * Note that SkRuntimeShaderBuilder is built entirely on the public API of SkRuntimeEffect,
  * so can be used as-is or serve as inspiration for other interfaces or binding techniques.
  */
 class SkRuntimeShaderBuilder {
 public:
     SkRuntimeShaderBuilder(sk_sp<SkRuntimeEffect>);
     ~SkRuntimeShaderBuilder();

     struct BuilderUniform {
         // Copy 'val' to this variable. No type conversion is performed - 'val' must be same
         // size as expected by the effect. Information about the variable can be queried by
         // looking at fVar. If the size is incorrect, no copy will be performed, and debug
         // builds will abort. If this is the result of querying a missing variable, fVar will
         // be nullptr, and assigning will also do nothing (and abort in debug builds).
         template <typename T>
         std::enable_if_t<std::is_trivially_copyable<T>::value, BuilderUniform&> operator=(
                 const T& val) {
             if (!fVar) {
                 SkDEBUGFAIL("Assigning to missing variable");
             } else if (sizeof(val) != fVar->sizeInBytes()) {
                 SkDEBUGFAIL("Incorrect value size");
             } else {
                 memcpy(SkTAddOffset<void>(fOwner->writableUniformData(), fVar->offset),
                        &val, sizeof(val));
             }
             return *this;
         }

         BuilderUniform& operator=(const SkMatrix& val) {
             if (!fVar) {
                 SkDEBUGFAIL("Assigning to missing variable");
             } else if (fVar->sizeInBytes() != 9 * sizeof(float)) {
                 SkDEBUGFAIL("Incorrect value size");
             } else {
                 float* data = SkTAddOffset<float>(fOwner->writableUniformData(), fVar->offset);
                 data[0] = val.get(0); data[1] = val.get(3); data[2] = val.get(6);
                 data[3] = val.get(1); data[4] = val.get(4); data[5] = val.get(7);
                 data[6] = val.get(2); data[7] = val.get(5); data[8] = val.get(8);
             }
             return *this;
         }

         template <typename T>
         bool set(const T val[], const int count) {
             static_assert(std::is_trivially_copyable<T>::value, "Value must be trivial copyable");
             if (!fVar) {
                 SkDEBUGFAIL("Assigning to missing variable");
                 return false;
             } else if (sizeof(T) * count != fVar->sizeInBytes()) {
                 SkDEBUGFAIL("Incorrect value size");
                 return false;
             } else {
                 memcpy(SkTAddOffset<void>(fOwner->writableUniformData(), fVar->offset),
                        val, sizeof(T) * count);
             }
             return true;
         }

         SkRuntimeShaderBuilder*         fOwner;
         const SkRuntimeEffect::Uniform* fVar;    // nullptr if the variable was not found
     };

     struct BuilderChild {
         BuilderChild& operator=(const sk_sp<SkShader>& val);

         SkRuntimeShaderBuilder* fOwner;
         int                     fIndex;  // -1 if the child was not found
     };

     const SkRuntimeEffect* effect() const { return fEffect.get(); }

     BuilderUniform uniform(const char* name) { return { this, fEffect->findUniform(name) }; }
     BuilderChild child(const char* name) { return { this, fEffect->findChild(name) }; }

     sk_sp<SkShader> makeShader(const SkMatrix* localMatrix, bool isOpaque);
     sk_sp<SkImage> makeImage(GrRecordingContext*,
                              const SkMatrix* localMatrix,
                              SkImageInfo resultInfo,
                              bool mipmapped);

 private:
     void* writableUniformData();

     sk_sp<SkRuntimeEffect>       fEffect;
     sk_sp<SkData>                fUniforms;
     std::vector<sk_sp<SkShader>> fChildren;
 };

 #endif
	/*
	* Copyright 2019 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkRuntimeEffect_DEFINED
	#define SkRuntimeEffect_DEFINED

	#include "include/core/SkData.h"
	#include "include/core/SkImageInfo.h"
	#include "include/core/SkMatrix.h"
	#include "include/core/SkString.h"
	#include "include/private/SkSLSampleUsage.h"

	#include <vector>

	class GrRecordingContext;
	class SkColorFilter;
	class SkImage;
	class SkShader;

	namespace SkSL {
	class FunctionDefinition;
	struct Program;
	} // namespace SkSL

	/*
	* SkRuntimeEffect supports creating custom SkShader and SkColorFilter objects using Skia's SkSL
	* shading language.
	*
	* NOTE: This API is experimental and subject to change.
	*/
	class SK_API SkRuntimeEffect : public SkRefCnt {
	public:
	struct Uniform {
	enum class Type {
	kFloat,
	kFloat2,
	kFloat3,
	kFloat4,
	kFloat2x2,
	kFloat3x3,
	kFloat4x4,
	};

	enum Flags {
	kArray_Flag = 0x1,
	kMarker_Flag = 0x2,
	kMarkerNormals_Flag = 0x4,
	kSRGBUnpremul_Flag = 0x8,
	};

	SkString name;
	size_t offset;
	Type type;
	int count;
	uint32_t flags;
	uint32_t marker;

	bool isArray() const { return SkToBool(this->flags & kArray_Flag); }
	size_t sizeInBytes() const;
	};

	struct Varying {
	SkString name;
	int width; // 1 - 4 (floats)
	};

	struct Options {
	// Sets an upper limit on the acceptable amount of code growth from inlining.
	// By default, runtime effects don't run the inliner directly.
	int inlineThreshold = 0;
	};

	// If the effect is compiled successfully, `effect` will be non-null.
	// Otherwise, `errorText` will contain the reason for failure.
	struct Result {
	sk_sp<SkRuntimeEffect> effect;
	SkString errorText;
	};

	static Result Make(SkString sksl, const Options& options);

	// We can't use a default argument for `options` due to a bug in Clang.
	// https://bugs.llvm.org/show_bug.cgi?id=36684
	static Result Make(SkString sksl) { return Make(std::move(sksl), Options{}); }

	sk_sp<SkShader> makeShader(sk_sp<SkData> uniforms,
	sk_sp<SkShader> children[],
	size_t childCount,
	const SkMatrix* localMatrix,
	bool isOpaque);

	sk_sp<SkImage> makeImage(GrRecordingContext*,
	sk_sp<SkData> uniforms,
	sk_sp<SkShader> children[],
	size_t childCount,
	const SkMatrix* localMatrix,
	SkImageInfo resultInfo,
	bool mipmapped);

	sk_sp<SkColorFilter> makeColorFilter(sk_sp<SkData> uniforms);
	sk_sp<SkColorFilter> makeColorFilter(sk_sp<SkData> uniforms,
	sk_sp<SkColorFilter> children[],
	size_t childCount);

	const SkString& source() const { return fSkSL; }

	template <typename T>
	class ConstIterable {
	public:
	ConstIterable(const std::vector<T>& vec) : fVec(vec) {}

	using const_iterator = typename std::vector<T>::const_iterator;

	const_iterator begin() const { return fVec.begin(); }
	const_iterator end() const { return fVec.end(); }
	size_t count() const { return fVec.size(); }

	private:
	const std::vector<T>& fVec;
	};

	// Combined size of all 'uniform' variables. When calling makeColorFilter or makeShader,
	// provide an SkData of this size, containing values for all of those variables.
	size_t uniformSize() const;

	ConstIterable<Uniform> uniforms() const { return ConstIterable<Uniform>(fUniforms); }
	ConstIterable<SkString> children() const { return ConstIterable<SkString>(fChildren); }
	ConstIterable<Varying> varyings() const { return ConstIterable<Varying>(fVaryings); }

	// Returns pointer to the named uniform variable's description, or nullptr if not found
	const Uniform* findUniform(const char* name) const;

	// Returns index of the named child, or -1 if not found
	int findChild(const char* name) const;

	static void RegisterFlattenables();
	~SkRuntimeEffect() override;

	private:
	SkRuntimeEffect(SkString sksl,
	std::unique_ptr<SkSL::Program> baseProgram,
	const SkSL::FunctionDefinition& main,
	std::vector<Uniform>&& uniforms,
	std::vector<SkString>&& children,
	std::vector<SkSL::SampleUsage>&& sampleUsages,
	std::vector<Varying>&& varyings,
	bool usesSampleCoords,
	bool allowColorFilter);

	uint32_t hash() const { return fHash; }
	bool usesSampleCoords() const { return fUsesSampleCoords; }

	#if SK_SUPPORT_GPU
	friend class GrSkSLFP; // fBaseProgram, fSampleUsages
	friend class GrGLSLSkSLFP; //
	#endif

	friend class SkRTShader; // fBaseProgram, fMain
	friend class SkRuntimeColorFilter; //

	uint32_t fHash;
	SkString fSkSL;

	std::unique_ptr<SkSL::Program> fBaseProgram;
	const SkSL::FunctionDefinition& fMain;
	std::vector<Uniform> fUniforms;
	std::vector<SkString> fChildren;
	std::vector<SkSL::SampleUsage> fSampleUsages;
	std::vector<Varying> fVaryings;

	bool fUsesSampleCoords;
	bool fAllowColorFilter;
	};

	/**
	* SkRuntimeShaderBuilder is a utility to simplify creating SkShader objects from SkRuntimeEffects.
	*
	* NOTE: Like SkRuntimeEffect, this API is experimental and subject to change!
	*
	* Given an SkRuntimeEffect, the SkRuntimeShaderBuilder manages creating an input data block and
	* provides named access to the 'uniform' variables in that block, as well as named access
	* to a list of child shader slots. Usage:
	*
	* sk_sp<SkRuntimeEffect> effect = ...;
	* SkRuntimeShaderBuilder builder(effect);
	* builder.uniform("some_uniform_float") = 3.14f;
	* builder.uniform("some_uniform_matrix") = SkM44::Rotate(...);
	* builder.child("some_child_effect") = mySkImage->makeShader(...);
	* ...
	* sk_sp<SkShader> shader = builder.makeShader(nullptr, false);
	*
	* Note that SkRuntimeShaderBuilder is built entirely on the public API of SkRuntimeEffect,
	* so can be used as-is or serve as inspiration for other interfaces or binding techniques.
	*/
	class SkRuntimeShaderBuilder {
	public:
	SkRuntimeShaderBuilder(sk_sp<SkRuntimeEffect>);
	~SkRuntimeShaderBuilder();

	struct BuilderUniform {
	// Copy 'val' to this variable. No type conversion is performed - 'val' must be same
	// size as expected by the effect. Information about the variable can be queried by
	// looking at fVar. If the size is incorrect, no copy will be performed, and debug
	// builds will abort. If this is the result of querying a missing variable, fVar will
	// be nullptr, and assigning will also do nothing (and abort in debug builds).
	template <typename T>
	std::enable_if_t<std::is_trivially_copyable<T>::value, BuilderUniform&> operator=(
	const T& val) {
	if (!fVar) {
	SkDEBUGFAIL("Assigning to missing variable");
	} else if (sizeof(val) != fVar->sizeInBytes()) {
	SkDEBUGFAIL("Incorrect value size");
	} else {
	memcpy(SkTAddOffset<void>(fOwner->writableUniformData(), fVar->offset),
	&val, sizeof(val));
	}
	return *this;
	}

	BuilderUniform& operator=(const SkMatrix& val) {
	if (!fVar) {
	SkDEBUGFAIL("Assigning to missing variable");
	} else if (fVar->sizeInBytes() != 9 * sizeof(float)) {
	SkDEBUGFAIL("Incorrect value size");
	} else {
	float* data = SkTAddOffset<float>(fOwner->writableUniformData(), fVar->offset);
	data[0] = val.get(0); data[1] = val.get(3); data[2] = val.get(6);
	data[3] = val.get(1); data[4] = val.get(4); data[5] = val.get(7);
	data[6] = val.get(2); data[7] = val.get(5); data[8] = val.get(8);
	}
	return *this;
	}

	template <typename T>
	bool set(const T val[], const int count) {
	static_assert(std::is_trivially_copyable<T>::value, "Value must be trivial copyable");
	if (!fVar) {
	SkDEBUGFAIL("Assigning to missing variable");
	return false;
	} else if (sizeof(T) * count != fVar->sizeInBytes()) {
	SkDEBUGFAIL("Incorrect value size");
	return false;
	} else {
	memcpy(SkTAddOffset<void>(fOwner->writableUniformData(), fVar->offset),
	val, sizeof(T) * count);
	}
	return true;
	}

	SkRuntimeShaderBuilder* fOwner;
	const SkRuntimeEffect::Uniform* fVar; // nullptr if the variable was not found
	};

	struct BuilderChild {
	BuilderChild& operator=(const sk_sp<SkShader>& val);

	SkRuntimeShaderBuilder* fOwner;
	int fIndex; // -1 if the child was not found
	};

	const SkRuntimeEffect* effect() const { return fEffect.get(); }

	BuilderUniform uniform(const char* name) { return { this, fEffect->findUniform(name) }; }
	BuilderChild child(const char* name) { return { this, fEffect->findChild(name) }; }

	sk_sp<SkShader> makeShader(const SkMatrix* localMatrix, bool isOpaque);
	sk_sp<SkImage> makeImage(GrRecordingContext*,
	const SkMatrix* localMatrix,
	SkImageInfo resultInfo,
	bool mipmapped);

	private:
	void* writableUniformData();

	sk_sp<SkRuntimeEffect> fEffect;
	sk_sp<SkData> fUniforms;
	std::vector<sk_sp<SkShader>> fChildren;
	};

	#endif