src/sksl/SkSLCompiler.h - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SKSL_COMPILER
 #define SKSL_COMPILER

 #include <set>
 #include <unordered_set>
 #include <vector>
 #include "include/core/SkSize.h"
 #include "src/sksl/SkSLAnalysis.h"
 #include "src/sksl/SkSLContext.h"
 #include "src/sksl/SkSLInliner.h"
 #include "src/sksl/SkSLParsedModule.h"
 #include "src/sksl/ir/SkSLProgram.h"
 #include "src/sksl/ir/SkSLSymbolTable.h"

 #if !defined(SKSL_STANDALONE) && SK_SUPPORT_GPU
 #include "src/gpu/GrShaderVar.h"
 #endif

 #define SK_FRAGCOLOR_BUILTIN           10001
 #define SK_LASTFRAGCOLOR_BUILTIN       10008
 #define SK_MAIN_COORDS_BUILTIN         10009
 #define SK_INPUT_COLOR_BUILTIN         10010
 #define SK_DEST_COLOR_BUILTIN          10011
 #define SK_SECONDARYFRAGCOLOR_BUILTIN  10012
 #define SK_FRAGCOORD_BUILTIN              15
 #define SK_CLOCKWISE_BUILTIN              17
 #define SK_VERTEXID_BUILTIN               42
 #define SK_INSTANCEID_BUILTIN             43
 #define SK_POSITION_BUILTIN                0

 class SkBitSet;
 class SkSLCompileBench;

 namespace SkSL {

 namespace dsl {
     class DSLCore;
     class DSLWriter;
 }

 class ExternalFunction;
 class FunctionDeclaration;
 class ProgramUsage;
 struct ShaderCaps;

 struct LoadedModule {
     ProgramKind                                  fKind;
     std::shared_ptr<SymbolTable>                 fSymbols;
     std::vector<std::unique_ptr<ProgramElement>> fElements;
 };

 /**
  * Main compiler entry point. The compiler parses the SkSL text directly into a tree of IRNodes,
  * while performing basic optimizations such as constant-folding and dead-code elimination. Then the
  * Program is passed into a CodeGenerator to produce compiled output.
  *
  * See the README for information about SkSL.
  */
 class SK_API Compiler {
 public:
     inline static constexpr const char FRAGCOLOR_NAME[] = "sk_FragColor";
     inline static constexpr const char RTADJUST_NAME[]  = "sk_RTAdjust";
     inline static constexpr const char PERVERTEX_NAME[] = "sk_PerVertex";
     inline static constexpr const char POISON_TAG[]     = "<POISON>";

     /**
      * Gets a float4 that adjusts the position from Skia device coords to normalized device coords,
      * used to populate sk_RTAdjust.  Assuming the transformed position, pos, is a homogeneous
      * float4, the vec, v, is applied as such:
      * float4((pos.xy * v.xz) + sk_Position.ww * v.yw, 0, pos.w);
      */
     static std::array<float, 4> GetRTAdjustVector(SkISize rtDims, bool flipY) {
         std::array<float, 4> result;
         result[0] = 2.f/rtDims.width();
         result[2] = 2.f/rtDims.height();
         result[1] = -1.f;
         result[3] = -1.f;
         if (flipY) {
             result[2] = -result[2];
             result[3] = -result[3];
         }
         return result;
     }

     /**
      * Uniform values  by the compiler to implement origin-neutral dFdy, sk_Clockwise, and
      * sk_FragCoord.
      */
     static std::array<float, 2> GetRTFlipVector(int rtHeight, bool flipY) {
         std::array<float, 2> result;
         result[0] = flipY ? rtHeight : 0.f;
         result[1] = flipY ?     -1.f : 1.f;
         return result;
     }

     struct OptimizationContext {
         // nodes we have already reported errors for and should not error on again
         std::unordered_set<const IRNode*> fSilences;
         // true if we have updated the CFG during this pass
         bool fUpdated = false;
         // true if we need to completely regenerate the CFG
         bool fNeedsRescan = false;
         // Metadata about function and variable usage within the program
         ProgramUsage* fUsage = nullptr;
         // Nodes which we can't throw away until the end of optimization
         StatementArray fOwnedStatements;
     };

     Compiler(const ShaderCaps* caps);

     ~Compiler();

     Compiler(const Compiler&) = delete;
     Compiler& operator=(const Compiler&) = delete;

     /**
      * Allows optimization settings to be unilaterally overridden. This is meant to allow tools like
      * Viewer or Nanobench to override the compiler's ProgramSettings and ShaderCaps for debugging.
      */
     enum class OverrideFlag {
         kDefault,
         kOff,
         kOn,
     };
     static void EnableOptimizer(OverrideFlag flag) { sOptimizer = flag; }
     static void EnableInliner(OverrideFlag flag) { sInliner = flag; }

     /**
      * If fExternalFunctions is supplied in the settings, those values are registered in the symbol
      * table of the Program, but ownership is *not* transferred. It is up to the caller to keep them
      * alive.
      */
     std::unique_ptr<Program> convertProgram(
             ProgramKind kind,
             String text,
             Program::Settings settings);

     std::unique_ptr<Expression> convertIdentifier(int line, skstd::string_view name);

     bool toSPIRV(Program& program, OutputStream& out);

     bool toSPIRV(Program& program, String* out);

     bool toGLSL(Program& program, OutputStream& out);

     bool toGLSL(Program& program, String* out);

     bool toHLSL(Program& program, OutputStream& out);

     bool toHLSL(Program& program, String* out);

     bool toMetal(Program& program, OutputStream& out);

     bool toMetal(Program& program, String* out);

     void handleError(skstd::string_view msg, PositionInfo pos);

     String errorText(bool showCount = true);

     ErrorReporter& errorReporter() { return *fContext->fErrors; }

     int errorCount() const { return fContext->fErrors->errorCount(); }

     void writeErrorCount();

     void resetErrors() {
         fErrorText.clear();
         this->errorReporter().resetErrorCount();
     }

     Context& context() {
         return *fContext;
     }

     // When  SKSL_STANDALONE, fPath is used. (fData, fSize) will be (nullptr, 0)
     // When !SKSL_STANDALONE, fData and fSize are used. fPath will be nullptr.
     struct ModuleData {
         const char*    fPath;

         const uint8_t* fData;
         size_t         fSize;
     };

     static ModuleData MakeModulePath(const char* path) {
         return ModuleData{path, /*fData=*/nullptr, /*fSize=*/0};
     }
     static ModuleData MakeModuleData(const uint8_t* data, size_t size) {
         return ModuleData{/*fPath=*/nullptr, data, size};
     }

     LoadedModule loadModule(ProgramKind kind, ModuleData data, std::shared_ptr<SymbolTable> base,
                             bool dehydrate);
     ParsedModule parseModule(ProgramKind kind, ModuleData data, const ParsedModule& base);

     const ParsedModule& moduleForProgramKind(ProgramKind kind);

 private:
     class CompilerErrorReporter : public ErrorReporter {
     public:
         CompilerErrorReporter(Compiler* compiler)
             : fCompiler(*compiler) {}

         void handleError(skstd::string_view msg, PositionInfo pos) override {
             fCompiler.handleError(msg, pos);
         }

     private:
         Compiler& fCompiler;
     };

     const ParsedModule& loadGPUModule();
     const ParsedModule& loadFragmentModule();
     const ParsedModule& loadVertexModule();
     const ParsedModule& loadPublicModule();
     const ParsedModule& loadRuntimeShaderModule();

     std::shared_ptr<SymbolTable> makeRootSymbolTable();
     std::shared_ptr<SymbolTable> makePrivateSymbolTable(std::shared_ptr<SymbolTable> parent);

     /** Optimize every function in the program. */
     bool optimize(Program& program);

     /** Performs final checks to confirm that a fully-assembled/optimized is valid. */
     bool finalize(Program& program);

     /** Optimize the module. */
     bool optimize(LoadedModule& module);

     /** Flattens out function calls when it is safe to do so. */
     bool runInliner(const std::vector<std::unique_ptr<ProgramElement>>& elements,
                     std::shared_ptr<SymbolTable> symbols,
                     ProgramUsage* usage);

     CompilerErrorReporter fErrorReporter;
     std::shared_ptr<Context> fContext;

     ParsedModule fRootModule;                // Core types

     ParsedModule fPrivateModule;             // [Root] + Internal types
     ParsedModule fGPUModule;                 // [Private] + GPU intrinsics, helper functions
     ParsedModule fVertexModule;              // [GPU] + Vertex stage decls
     ParsedModule fFragmentModule;            // [GPU] + Fragment stage decls

     ParsedModule fPublicModule;              // [Root] + Public features
     ParsedModule fRuntimeShaderModule;       // [Public] + Runtime shader decls

     // holds ModifiersPools belonging to the core includes for lifetime purposes
     ModifiersPool fCoreModifiers;

     Mangler fMangler;
     Inliner fInliner;
     // This is the current symbol table of the code we are processing, and therefore changes during
     // compilation
     std::shared_ptr<SymbolTable> fSymbolTable;

     String fErrorText;

     static OverrideFlag sOptimizer;
     static OverrideFlag sInliner;

     friend class AutoSource;
     friend class ::SkSLCompileBench;
     friend class DSLParser;
     friend class ThreadContext;
     friend class dsl::DSLCore;
 };

 }  // namespace SkSL

 #endif
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SKSL_COMPILER
	#define SKSL_COMPILER

	#include <set>
	#include <unordered_set>
	#include <vector>
	#include "include/core/SkSize.h"
	#include "src/sksl/SkSLAnalysis.h"
	#include "src/sksl/SkSLContext.h"
	#include "src/sksl/SkSLInliner.h"
	#include "src/sksl/SkSLParsedModule.h"
	#include "src/sksl/ir/SkSLProgram.h"
	#include "src/sksl/ir/SkSLSymbolTable.h"

	#if !defined(SKSL_STANDALONE) && SK_SUPPORT_GPU
	#include "src/gpu/GrShaderVar.h"
	#endif

	#define SK_FRAGCOLOR_BUILTIN 10001
	#define SK_LASTFRAGCOLOR_BUILTIN 10008
	#define SK_MAIN_COORDS_BUILTIN 10009
	#define SK_INPUT_COLOR_BUILTIN 10010
	#define SK_DEST_COLOR_BUILTIN 10011
	#define SK_SECONDARYFRAGCOLOR_BUILTIN 10012
	#define SK_FRAGCOORD_BUILTIN 15
	#define SK_CLOCKWISE_BUILTIN 17
	#define SK_VERTEXID_BUILTIN 42
	#define SK_INSTANCEID_BUILTIN 43
	#define SK_POSITION_BUILTIN 0

	class SkBitSet;
	class SkSLCompileBench;

	namespace SkSL {

	namespace dsl {
	class DSLCore;
	class DSLWriter;
	}

	class ExternalFunction;
	class FunctionDeclaration;
	class ProgramUsage;
	struct ShaderCaps;

	struct LoadedModule {
	ProgramKind fKind;
	std::shared_ptr<SymbolTable> fSymbols;
	std::vector<std::unique_ptr<ProgramElement>> fElements;
	};

	/**
	* Main compiler entry point. The compiler parses the SkSL text directly into a tree of IRNodes,
	* while performing basic optimizations such as constant-folding and dead-code elimination. Then the
	* Program is passed into a CodeGenerator to produce compiled output.
	*
	* See the README for information about SkSL.
	*/
	class SK_API Compiler {
	public:
	inline static constexpr const char FRAGCOLOR_NAME[] = "sk_FragColor";
	inline static constexpr const char RTADJUST_NAME[] = "sk_RTAdjust";
	inline static constexpr const char PERVERTEX_NAME[] = "sk_PerVertex";
	inline static constexpr const char POISON_TAG[] = "<POISON>";

	/**
	* Gets a float4 that adjusts the position from Skia device coords to normalized device coords,
	* used to populate sk_RTAdjust. Assuming the transformed position, pos, is a homogeneous
	* float4, the vec, v, is applied as such:
	* float4((pos.xy * v.xz) + sk_Position.ww * v.yw, 0, pos.w);
	*/
	static std::array<float, 4> GetRTAdjustVector(SkISize rtDims, bool flipY) {
	std::array<float, 4> result;
	result[0] = 2.f/rtDims.width();
	result[2] = 2.f/rtDims.height();
	result[1] = -1.f;
	result[3] = -1.f;
	if (flipY) {
	result[2] = -result[2];
	result[3] = -result[3];
	}
	return result;
	}

	/**
	* Uniform values by the compiler to implement origin-neutral dFdy, sk_Clockwise, and
	* sk_FragCoord.
	*/
	static std::array<float, 2> GetRTFlipVector(int rtHeight, bool flipY) {
	std::array<float, 2> result;
	result[0] = flipY ? rtHeight : 0.f;
	result[1] = flipY ? -1.f : 1.f;
	return result;
	}

	struct OptimizationContext {
	// nodes we have already reported errors for and should not error on again
	std::unordered_set<const IRNode*> fSilences;
	// true if we have updated the CFG during this pass
	bool fUpdated = false;
	// true if we need to completely regenerate the CFG
	bool fNeedsRescan = false;
	// Metadata about function and variable usage within the program
	ProgramUsage* fUsage = nullptr;
	// Nodes which we can't throw away until the end of optimization
	StatementArray fOwnedStatements;
	};

	Compiler(const ShaderCaps* caps);

	~Compiler();

	Compiler(const Compiler&) = delete;
	Compiler& operator=(const Compiler&) = delete;

	/**
	* Allows optimization settings to be unilaterally overridden. This is meant to allow tools like
	* Viewer or Nanobench to override the compiler's ProgramSettings and ShaderCaps for debugging.
	*/
	enum class OverrideFlag {
	kDefault,
	kOff,
	kOn,
	};
	static void EnableOptimizer(OverrideFlag flag) { sOptimizer = flag; }
	static void EnableInliner(OverrideFlag flag) { sInliner = flag; }

	/**
	* If fExternalFunctions is supplied in the settings, those values are registered in the symbol
	* table of the Program, but ownership is not transferred. It is up to the caller to keep them
	* alive.
	*/
	std::unique_ptr<Program> convertProgram(
	ProgramKind kind,
	String text,
	Program::Settings settings);

	std::unique_ptr<Expression> convertIdentifier(int line, skstd::string_view name);

	bool toSPIRV(Program& program, OutputStream& out);

	bool toSPIRV(Program& program, String* out);

	bool toGLSL(Program& program, OutputStream& out);

	bool toGLSL(Program& program, String* out);

	bool toHLSL(Program& program, OutputStream& out);

	bool toHLSL(Program& program, String* out);

	bool toMetal(Program& program, OutputStream& out);

	bool toMetal(Program& program, String* out);

	void handleError(skstd::string_view msg, PositionInfo pos);

	String errorText(bool showCount = true);

	ErrorReporter& errorReporter() { return *fContext->fErrors; }

	int errorCount() const { return fContext->fErrors->errorCount(); }

	void writeErrorCount();

	void resetErrors() {
	fErrorText.clear();
	this->errorReporter().resetErrorCount();
	}

	Context& context() {
	return *fContext;
	}

	// When SKSL_STANDALONE, fPath is used. (fData, fSize) will be (nullptr, 0)
	// When !SKSL_STANDALONE, fData and fSize are used. fPath will be nullptr.
	struct ModuleData {
	const char* fPath;

	const uint8_t* fData;
	size_t fSize;
	};

	static ModuleData MakeModulePath(const char* path) {
	return ModuleData{path, /fData=/nullptr, /fSize=/0};
	}
	static ModuleData MakeModuleData(const uint8_t* data, size_t size) {
	return ModuleData{/fPath=/nullptr, data, size};
	}

	LoadedModule loadModule(ProgramKind kind, ModuleData data, std::shared_ptr<SymbolTable> base,
	bool dehydrate);
	ParsedModule parseModule(ProgramKind kind, ModuleData data, const ParsedModule& base);

	const ParsedModule& moduleForProgramKind(ProgramKind kind);

	private:
	class CompilerErrorReporter : public ErrorReporter {
	public:
	CompilerErrorReporter(Compiler* compiler)
	: fCompiler(*compiler) {}

	void handleError(skstd::string_view msg, PositionInfo pos) override {
	fCompiler.handleError(msg, pos);
	}

	private:
	Compiler& fCompiler;
	};

	const ParsedModule& loadGPUModule();
	const ParsedModule& loadFragmentModule();
	const ParsedModule& loadVertexModule();
	const ParsedModule& loadPublicModule();
	const ParsedModule& loadRuntimeShaderModule();

	std::shared_ptr<SymbolTable> makeRootSymbolTable();
	std::shared_ptr<SymbolTable> makePrivateSymbolTable(std::shared_ptr<SymbolTable> parent);

	/** Optimize every function in the program. */
	bool optimize(Program& program);

	/** Performs final checks to confirm that a fully-assembled/optimized is valid. */
	bool finalize(Program& program);

	/** Optimize the module. */
	bool optimize(LoadedModule& module);

	/** Flattens out function calls when it is safe to do so. */
	bool runInliner(const std::vector<std::unique_ptr<ProgramElement>>& elements,
	std::shared_ptr<SymbolTable> symbols,
	ProgramUsage* usage);

	CompilerErrorReporter fErrorReporter;
	std::shared_ptr<Context> fContext;

	ParsedModule fRootModule; // Core types

	ParsedModule fPrivateModule; // [Root] + Internal types
	ParsedModule fGPUModule; // [Private] + GPU intrinsics, helper functions
	ParsedModule fVertexModule; // [GPU] + Vertex stage decls
	ParsedModule fFragmentModule; // [GPU] + Fragment stage decls

	ParsedModule fPublicModule; // [Root] + Public features
	ParsedModule fRuntimeShaderModule; // [Public] + Runtime shader decls

	// holds ModifiersPools belonging to the core includes for lifetime purposes
	ModifiersPool fCoreModifiers;

	Mangler fMangler;
	Inliner fInliner;
	// This is the current symbol table of the code we are processing, and therefore changes during
	// compilation
	std::shared_ptr<SymbolTable> fSymbolTable;

	String fErrorText;

	static OverrideFlag sOptimizer;
	static OverrideFlag sInliner;

	friend class AutoSource;
	friend class ::SkSLCompileBench;
	friend class DSLParser;
	friend class ThreadContext;
	friend class dsl::DSLCore;
	};

	} // namespace SkSL

	#endif