src/sksl/SkSLInliner.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 SKSL_INLINER
 #define SKSL_INLINER

 #include <memory>
 #include <unordered_map>

 #include "src/sksl/SkSLMangler.h"
 #include "src/sksl/ir/SkSLProgram.h"
 #include "src/sksl/ir/SkSLVariableReference.h"

 namespace SkSL {

 class Block;
 class Context;
 class Expression;
 class FunctionCall;
 class FunctionDefinition;
 struct InlineCandidate;
 struct InlineCandidateList;
 class ModifiersPool;
 class Statement;
 class SymbolTable;
 class Variable;

 /**
  * Converts a FunctionCall in the IR to a set of statements to be injected ahead of the function
  * call, and a replacement expression. Can also detect cases where inlining isn't cleanly possible
  * (e.g. return statements nested inside of a loop construct). The inliner isn't able to guarantee
  * identical-to-GLSL execution order if the inlined function has visible side effects.
  */
 class Inliner {
 public:
     Inliner(const Context* context) : fContext(context) {}

     void reset(ModifiersPool* modifiers);

     /** Inlines any eligible functions that are found. Returns true if any changes are made. */
     bool analyze(const std::vector<std::unique_ptr<ProgramElement>>& elements,
                  std::shared_ptr<SymbolTable> symbols,
                  ProgramUsage* usage);

 private:
     using VariableRewriteMap = std::unordered_map<const Variable*, std::unique_ptr<Expression>>;

     enum class ReturnComplexity {
         kSingleSafeReturn,
         kScopedReturns,
         kEarlyReturns,
     };

     const Program::Settings& settings() const { return fContext->fConfig->fSettings; }

     void buildCandidateList(const std::vector<std::unique_ptr<ProgramElement>>& elements,
                             std::shared_ptr<SymbolTable> symbols, ProgramUsage* usage,
                             InlineCandidateList* candidateList);

     std::unique_ptr<Expression> inlineExpression(int offset,
                                                  VariableRewriteMap* varMap,
                                                  SymbolTable* symbolTableForExpression,
                                                  const Expression& expression);
     std::unique_ptr<Statement> inlineStatement(int offset,
                                                VariableRewriteMap* varMap,
                                                SymbolTable* symbolTableForStatement,
                                                std::unique_ptr<Expression>* resultExpr,
                                                ReturnComplexity returnComplexity,
                                                const Statement& statement,
                                                bool isBuiltinCode);

     /** Determines if a given function has multiple and/or early returns. */
     static ReturnComplexity GetReturnComplexity(const FunctionDefinition& funcDef);

     using InlinabilityCache = std::unordered_map<const FunctionDeclaration*, bool>;
     bool candidateCanBeInlined(const InlineCandidate& candidate, InlinabilityCache* cache);

     using FunctionSizeCache = std::unordered_map<const FunctionDeclaration*, int>;
     int getFunctionSize(const FunctionDeclaration& fnDecl, FunctionSizeCache* cache);

     /**
      * Processes the passed-in FunctionCall expression. The FunctionCall expression should be
      * replaced with `fReplacementExpr`. If non-null, `fInlinedBody` should be inserted immediately
      * above the statement containing the inlined expression.
      */
     struct InlinedCall {
         std::unique_ptr<Block> fInlinedBody;
         std::unique_ptr<Expression> fReplacementExpr;
     };
     InlinedCall inlineCall(FunctionCall*,
                            std::shared_ptr<SymbolTable>,
                            const ProgramUsage&,
                            const FunctionDeclaration* caller);

     /** Creates a scratch variable for the inliner to use. */
     struct InlineVariable {
         const Variable*             fVarSymbol;
         std::unique_ptr<Statement>  fVarDecl;
     };
     InlineVariable makeInlineVariable(const String& baseName,
                                       const Type* type,
                                       SymbolTable* symbolTable,
                                       Modifiers modifiers,
                                       bool isBuiltinCode,
                                       std::unique_ptr<Expression>* initialValue);

     /** Adds a scope to inlined bodies returned by `inlineCall`, if one is required. */
     void ensureScopedBlocks(Statement* inlinedBody, Statement* parentStmt);

     /** Checks whether inlining is viable for a FunctionCall, modulo recursion and function size. */
     bool isSafeToInline(const FunctionDefinition* functionDef);

     const Context* fContext = nullptr;
     ModifiersPool* fModifiers = nullptr;
     Mangler fMangler;
     int fInlinedStatementCounter = 0;
 };

 }  // namespace SkSL

 #endif  // SKSL_INLINER
	/*
	* 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 SKSL_INLINER
	#define SKSL_INLINER

	#include <memory>
	#include <unordered_map>

	#include "src/sksl/SkSLMangler.h"
	#include "src/sksl/ir/SkSLProgram.h"
	#include "src/sksl/ir/SkSLVariableReference.h"

	namespace SkSL {

	class Block;
	class Context;
	class Expression;
	class FunctionCall;
	class FunctionDefinition;
	struct InlineCandidate;
	struct InlineCandidateList;
	class ModifiersPool;
	class Statement;
	class SymbolTable;
	class Variable;

	/**
	* Converts a FunctionCall in the IR to a set of statements to be injected ahead of the function
	* call, and a replacement expression. Can also detect cases where inlining isn't cleanly possible
	* (e.g. return statements nested inside of a loop construct). The inliner isn't able to guarantee
	* identical-to-GLSL execution order if the inlined function has visible side effects.
	*/
	class Inliner {
	public:
	Inliner(const Context* context) : fContext(context) {}

	void reset(ModifiersPool* modifiers);

	/** Inlines any eligible functions that are found. Returns true if any changes are made. */
	bool analyze(const std::vector<std::unique_ptr<ProgramElement>>& elements,
	std::shared_ptr<SymbolTable> symbols,
	ProgramUsage* usage);

	private:
	using VariableRewriteMap = std::unordered_map<const Variable*, std::unique_ptr<Expression>>;

	enum class ReturnComplexity {
	kSingleSafeReturn,
	kScopedReturns,
	kEarlyReturns,
	};

	const Program::Settings& settings() const { return fContext->fConfig->fSettings; }

	void buildCandidateList(const std::vector<std::unique_ptr<ProgramElement>>& elements,
	std::shared_ptr<SymbolTable> symbols, ProgramUsage* usage,
	InlineCandidateList* candidateList);

	std::unique_ptr<Expression> inlineExpression(int offset,
	VariableRewriteMap* varMap,
	SymbolTable* symbolTableForExpression,
	const Expression& expression);
	std::unique_ptr<Statement> inlineStatement(int offset,
	VariableRewriteMap* varMap,
	SymbolTable* symbolTableForStatement,
	std::unique_ptr<Expression>* resultExpr,
	ReturnComplexity returnComplexity,
	const Statement& statement,
	bool isBuiltinCode);

	/** Determines if a given function has multiple and/or early returns. */
	static ReturnComplexity GetReturnComplexity(const FunctionDefinition& funcDef);

	using InlinabilityCache = std::unordered_map<const FunctionDeclaration*, bool>;
	bool candidateCanBeInlined(const InlineCandidate& candidate, InlinabilityCache* cache);

	using FunctionSizeCache = std::unordered_map<const FunctionDeclaration*, int>;
	int getFunctionSize(const FunctionDeclaration& fnDecl, FunctionSizeCache* cache);

	/**
	* Processes the passed-in FunctionCall expression. The FunctionCall expression should be
	* replaced with `fReplacementExpr`. If non-null, `fInlinedBody` should be inserted immediately
	* above the statement containing the inlined expression.
	*/
	struct InlinedCall {
	std::unique_ptr<Block> fInlinedBody;
	std::unique_ptr<Expression> fReplacementExpr;
	};
	InlinedCall inlineCall(FunctionCall*,
	std::shared_ptr<SymbolTable>,
	const ProgramUsage&,
	const FunctionDeclaration* caller);

	/** Creates a scratch variable for the inliner to use. */
	struct InlineVariable {
	const Variable* fVarSymbol;
	std::unique_ptr<Statement> fVarDecl;
	};
	InlineVariable makeInlineVariable(const String& baseName,
	const Type* type,
	SymbolTable* symbolTable,
	Modifiers modifiers,
	bool isBuiltinCode,
	std::unique_ptr<Expression>* initialValue);

	/** Adds a scope to inlined bodies returned by `inlineCall`, if one is required. */
	void ensureScopedBlocks(Statement* inlinedBody, Statement* parentStmt);

	/** Checks whether inlining is viable for a FunctionCall, modulo recursion and function size. */
	bool isSafeToInline(const FunctionDefinition* functionDef);

	const Context* fContext = nullptr;
	ModifiersPool* fModifiers = nullptr;
	Mangler fMangler;
	int fInlinedStatementCounter = 0;
	};

	} // namespace SkSL

	#endif // SKSL_INLINER