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

 /*
  * Copyright 2020 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkRuntimeEffectPriv_DEFINED
 #define SkRuntimeEffectPriv_DEFINED

 #include "include/effects/SkRuntimeEffect.h"
 #include "include/private/SkColorData.h"
 #include "src/core/SkVM.h"

 #include <functional>

 #ifdef SK_ENABLE_SKSL

 namespace SkSL {
 class Context;
 class Variable;
 struct Program;
 }

 class SkCapabilities;
 struct SkColorSpaceXformSteps;

 class SkRuntimeEffectPriv {
 public:
     // Helper function when creating an effect for a GrSkSLFP that verifies an effect will
     // implement the constant output for constant input optimization flag.
     static bool SupportsConstantOutputForConstantInput(const SkRuntimeEffect* effect) {
         return effect->getFilterColorProgram();
     }

     static uint32_t Hash(const SkRuntimeEffect& effect) {
         return effect.hash();
     }

     static const SkSL::Program& Program(const SkRuntimeEffect& effect) {
         return *effect.fBaseProgram;
     }

     static SkRuntimeEffect::Options ES3Options() {
         SkRuntimeEffect::Options options;
         options.maxVersionAllowed = SkSL::Version::k300;
         return options;
     }

     static void AllowPrivateAccess(SkRuntimeEffect::Options* options) {
         options->allowPrivateAccess = true;
     }

     static SkRuntimeEffect::Uniform VarAsUniform(const SkSL::Variable&,
                                                  const SkSL::Context&,
                                                  size_t* offset);

     // If there are layout(color) uniforms then this performs color space transformation on the
     // color values and returns a new SkData. Otherwise, the original data is returned.
     static sk_sp<const SkData> TransformUniforms(SkSpan<const SkRuntimeEffect::Uniform> uniforms,
                                                  sk_sp<const SkData> originalData,
                                                  const SkColorSpaceXformSteps&);
     static sk_sp<const SkData> TransformUniforms(SkSpan<const SkRuntimeEffect::Uniform> uniforms,
                                                  sk_sp<const SkData> originalData,
                                                  const SkColorSpace* dstCS);

     static bool CanDraw(const SkCapabilities*, const SkSL::Program*);
     static bool CanDraw(const SkCapabilities*, const SkRuntimeEffect*);
 };

 // These internal APIs for creating runtime effects vary from the public API in two ways:
 //
 //     1) they're used in contexts where it's not useful to receive an error message;
 //     2) they're cached.
 //
 // Users of the public SkRuntimeEffect::Make*() can of course cache however they like themselves;
 // keeping these APIs private means users will not be forced into our cache or cache policy.

 sk_sp<SkRuntimeEffect> SkMakeCachedRuntimeEffect(
         SkRuntimeEffect::Result (*make)(SkString sksl, const SkRuntimeEffect::Options&),
         SkString sksl);

 inline sk_sp<SkRuntimeEffect> SkMakeCachedRuntimeEffect(
         SkRuntimeEffect::Result (*make)(SkString, const SkRuntimeEffect::Options&),
         const char* sksl) {
     return SkMakeCachedRuntimeEffect(make, SkString{sksl});
 }

 // Internal API that assumes (and asserts) that the shader code is valid, but does no internal
 // caching. Used when the caller will cache the result in a static variable. Ownership is passed to
 // the caller; the effect will be leaked if it the pointer is not stored or explicitly deleted.
 inline SkRuntimeEffect* SkMakeRuntimeEffect(
         SkRuntimeEffect::Result (*make)(SkString, const SkRuntimeEffect::Options&),
         const char* sksl,
         SkRuntimeEffect::Options options = SkRuntimeEffect::Options{}) {
 #if defined(SK_DEBUG)
     // Our SKSL snippets we embed in Skia should not have comments or excess indentation.
     // Removing them helps trim down code size and speeds up parsing
     if (SkStrContains(sksl, "//") || SkStrContains(sksl, "    ")) {
         SkDEBUGFAILF("Found SkSL snippet that can be minified: \n %s\n", sksl);
     }
 #endif
     SkRuntimeEffectPriv::AllowPrivateAccess(&options);
     auto result = make(SkString{sksl}, options);
     if (!result.effect) {
         SK_ABORT("%s", result.errorText.c_str());
     }
     return result.effect.release();
 }

 /**
  * Runtime effects are often long lived & cached. Individual color filters or FPs created from them
  * and are often short-lived. However, color filters and FPs may need to operate on a single color
  * (on the CPU). This may be done at the paint level (eg, filter the paint color), or as part of
  * FP tree analysis.
  *
  * SkFilterColorProgram is an skvm program representing a (color filter) SkRuntimeEffect. It can
  * process a single color, without knowing the details of a particular instance (uniform values or
  * children).
  */
 class SkFilterColorProgram {
 public:
     static std::unique_ptr<SkFilterColorProgram> Make(const SkRuntimeEffect* effect);

     SkPMColor4f eval(const SkPMColor4f& inColor,
                      const void* uniformData,
                      std::function<SkPMColor4f(int, SkPMColor4f)> evalChild) const;

     bool isAlphaUnchanged() const { return fAlphaUnchanged; }

 private:
     struct SampleCall {
         enum class Kind {
             kInputColor,  // eg child.eval(inputColor)
             kImmediate,   // eg child.eval(half4(1))
             kPrevious,    // eg child1.eval(child2.eval(...))
             kUniform,     // eg uniform half4 color; ... child.eval(color)
         };

         int  fChild;
         Kind fKind;
         union {
             SkPMColor4f fImm;       // for kImmediate
             int         fPrevious;  // for kPrevious
             int         fOffset;    // for kUniform
         };
     };

     SkFilterColorProgram(skvm::Program program,
                          std::vector<SampleCall> sampleCalls,
                          bool alphaUnchanged);

     skvm::Program           fProgram;
     std::vector<SampleCall> fSampleCalls;
     bool                    fAlphaUnchanged;
 };

 #endif  // SK_ENABLE_SKSL

 #endif  // SkRuntimeEffectPriv_DEFINED
	/*
	* Copyright 2020 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkRuntimeEffectPriv_DEFINED
	#define SkRuntimeEffectPriv_DEFINED

	#include "include/effects/SkRuntimeEffect.h"
	#include "include/private/SkColorData.h"
	#include "src/core/SkVM.h"

	#include <functional>

	#ifdef SK_ENABLE_SKSL

	namespace SkSL {
	class Context;
	class Variable;
	struct Program;
	}

	class SkCapabilities;
	struct SkColorSpaceXformSteps;

	class SkRuntimeEffectPriv {
	public:
	// Helper function when creating an effect for a GrSkSLFP that verifies an effect will
	// implement the constant output for constant input optimization flag.
	static bool SupportsConstantOutputForConstantInput(const SkRuntimeEffect* effect) {
	return effect->getFilterColorProgram();
	}

	static uint32_t Hash(const SkRuntimeEffect& effect) {
	return effect.hash();
	}

	static const SkSL::Program& Program(const SkRuntimeEffect& effect) {
	return *effect.fBaseProgram;
	}

	static SkRuntimeEffect::Options ES3Options() {
	SkRuntimeEffect::Options options;
	options.maxVersionAllowed = SkSL::Version::k300;
	return options;
	}

	static void AllowPrivateAccess(SkRuntimeEffect::Options* options) {
	options->allowPrivateAccess = true;
	}

	static SkRuntimeEffect::Uniform VarAsUniform(const SkSL::Variable&,
	const SkSL::Context&,
	size_t* offset);

	// If there are layout(color) uniforms then this performs color space transformation on the
	// color values and returns a new SkData. Otherwise, the original data is returned.
	static sk_sp<const SkData> TransformUniforms(SkSpan<const SkRuntimeEffect::Uniform> uniforms,
	sk_sp<const SkData> originalData,
	const SkColorSpaceXformSteps&);
	static sk_sp<const SkData> TransformUniforms(SkSpan<const SkRuntimeEffect::Uniform> uniforms,
	sk_sp<const SkData> originalData,
	const SkColorSpace* dstCS);

	static bool CanDraw(const SkCapabilities, const SkSL::Program);
	static bool CanDraw(const SkCapabilities, const SkRuntimeEffect);
	};

	// These internal APIs for creating runtime effects vary from the public API in two ways:
	//
	// 1) they're used in contexts where it's not useful to receive an error message;
	// 2) they're cached.
	//
	// Users of the public SkRuntimeEffect::Make*() can of course cache however they like themselves;
	// keeping these APIs private means users will not be forced into our cache or cache policy.

	sk_sp<SkRuntimeEffect> SkMakeCachedRuntimeEffect(
	SkRuntimeEffect::Result (*make)(SkString sksl, const SkRuntimeEffect::Options&),
	SkString sksl);

	inline sk_sp<SkRuntimeEffect> SkMakeCachedRuntimeEffect(
	SkRuntimeEffect::Result (*make)(SkString, const SkRuntimeEffect::Options&),
	const char* sksl) {
	return SkMakeCachedRuntimeEffect(make, SkString{sksl});
	}

	// Internal API that assumes (and asserts) that the shader code is valid, but does no internal
	// caching. Used when the caller will cache the result in a static variable. Ownership is passed to
	// the caller; the effect will be leaked if it the pointer is not stored or explicitly deleted.
	inline SkRuntimeEffect* SkMakeRuntimeEffect(
	SkRuntimeEffect::Result (*make)(SkString, const SkRuntimeEffect::Options&),
	const char* sksl,
	SkRuntimeEffect::Options options = SkRuntimeEffect::Options{}) {
	#if defined(SK_DEBUG)
	// Our SKSL snippets we embed in Skia should not have comments or excess indentation.
	// Removing them helps trim down code size and speeds up parsing
	if (SkStrContains(sksl, "//") \|\| SkStrContains(sksl, " ")) {
	SkDEBUGFAILF("Found SkSL snippet that can be minified: \n %s\n", sksl);
	}
	#endif
	SkRuntimeEffectPriv::AllowPrivateAccess(&options);
	auto result = make(SkString{sksl}, options);
	if (!result.effect) {
	SK_ABORT("%s", result.errorText.c_str());
	}
	return result.effect.release();
	}

	/**
	* Runtime effects are often long lived & cached. Individual color filters or FPs created from them
	* and are often short-lived. However, color filters and FPs may need to operate on a single color
	* (on the CPU). This may be done at the paint level (eg, filter the paint color), or as part of
	* FP tree analysis.
	*
	* SkFilterColorProgram is an skvm program representing a (color filter) SkRuntimeEffect. It can
	* process a single color, without knowing the details of a particular instance (uniform values or
	* children).
	*/
	class SkFilterColorProgram {
	public:
	static std::unique_ptr<SkFilterColorProgram> Make(const SkRuntimeEffect* effect);

	SkPMColor4f eval(const SkPMColor4f& inColor,
	const void* uniformData,
	std::function<SkPMColor4f(int, SkPMColor4f)> evalChild) const;

	bool isAlphaUnchanged() const { return fAlphaUnchanged; }

	private:
	struct SampleCall {
	enum class Kind {
	kInputColor, // eg child.eval(inputColor)
	kImmediate, // eg child.eval(half4(1))
	kPrevious, // eg child1.eval(child2.eval(...))
	kUniform, // eg uniform half4 color; ... child.eval(color)
	};

	int fChild;
	Kind fKind;
	union {
	SkPMColor4f fImm; // for kImmediate
	int fPrevious; // for kPrevious
	int fOffset; // for kUniform
	};
	};

	SkFilterColorProgram(skvm::Program program,
	std::vector<SampleCall> sampleCalls,
	bool alphaUnchanged);

	skvm::Program fProgram;
	std::vector<SampleCall> fSampleCalls;
	bool fAlphaUnchanged;
	};

	#endif // SK_ENABLE_SKSL

	#endif // SkRuntimeEffectPriv_DEFINED