src/compiler/translator/Compiler.h - fp2-dev/platform/external/chromium_org/third_party/angle - Gitiles

 //
 // Copyright (c) 2002-2013 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //

 #ifndef _SHHANDLE_INCLUDED_
 #define _SHHANDLE_INCLUDED_

 //
 // Machine independent part of the compiler private objects
 // sent as ShHandle to the driver.
 //
 // This should not be included by driver code.
 //

 #include "compiler/translator/BuiltInFunctionEmulator.h"
 #include "compiler/translator/ExtensionBehavior.h"
 #include "compiler/translator/HashNames.h"
 #include "compiler/translator/InfoSink.h"
 #include "compiler/translator/SymbolTable.h"
 #include "compiler/translator/VariableInfo.h"
 #include "third_party/compiler/ArrayBoundsClamper.h"

 class TCompiler;
 class TDependencyGraph;
 class TranslatorHLSL;

 //
 // Helper function to identify specs that are based on the WebGL spec,
 // like the CSS Shaders spec.
 //
 bool IsWebGLBasedSpec(ShShaderSpec spec);

 //
 // The base class used to back handles returned to the driver.
 //
 class TShHandleBase {
 public:
     TShHandleBase();
     virtual ~TShHandleBase();
     virtual TCompiler* getAsCompiler() { return 0; }
     virtual TranslatorHLSL* getAsTranslatorHLSL() { return 0; }

 protected:
     // Memory allocator. Allocates and tracks memory required by the compiler.
     // Deallocates all memory when compiler is destructed.
     TPoolAllocator allocator;
 };

 //
 // The base class for the machine dependent compiler to derive from
 // for managing object code from the compile.
 //
 class TCompiler : public TShHandleBase
 {
   public:
     TCompiler(sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
     virtual ~TCompiler();
     virtual TCompiler* getAsCompiler() { return this; }

     bool Init(const ShBuiltInResources& resources);
     bool compile(const char* const shaderStrings[],
                  size_t numStrings,
                  int compileOptions);

     // Get results of the last compilation.
     int getShaderVersion() const { return shaderVersion; }
     TInfoSink& getInfoSink() { return infoSink; }

     const std::vector<sh::Attribute> &getAttributes() const { return attributes; }
     const std::vector<sh::Attribute> &getOutputVariables() const { return outputVariables; }
     const std::vector<sh::Uniform> &getUniforms() const { return uniforms; }
     const std::vector<sh::ShaderVariable> &getExpandedUniforms() const { return expandedUniforms; }
     const std::vector<sh::Varying> &getVaryings() const { return varyings; }
     const std::vector<sh::ShaderVariable> &getExpandedVaryings() const { return expandedVaryings; }
     const std::vector<sh::InterfaceBlock> &getInterfaceBlocks() const { return interfaceBlocks; }

     ShHashFunction64 getHashFunction() const { return hashFunction; }
     NameMap& getNameMap() { return nameMap; }
     TSymbolTable& getSymbolTable() { return symbolTable; }
     ShShaderSpec getShaderSpec() const { return shaderSpec; }
     ShShaderOutput getOutputType() const { return outputType; }
     std::string getBuiltInResourcesString() const { return builtInResourcesString; }

     // Get the resources set by InitBuiltInSymbolTable
     const ShBuiltInResources& getResources() const;

   protected:
     sh::GLenum getShaderType() const { return shaderType; }
     // Initialize symbol-table with built-in symbols.
     bool InitBuiltInSymbolTable(const ShBuiltInResources& resources);
     // Compute the string representation of the built-in resources
     void setResourceString();
     // Clears the results from the previous compilation.
     void clearResults();
     // Return true if function recursion is detected or call depth exceeded.
     bool detectCallDepth(TIntermNode* root, TInfoSink& infoSink, bool limitCallStackDepth);
     // Returns true if a program has no conflicting or missing fragment outputs
     bool validateOutputs(TIntermNode* root);
     // Rewrites a shader's intermediate tree according to the CSS Shaders spec.
     void rewriteCSSShader(TIntermNode* root);
     // Returns true if the given shader does not exceed the minimum
     // functionality mandated in GLSL 1.0 spec Appendix A.
     bool validateLimitations(TIntermNode* root);
     // Collect info for all attribs, uniforms, varyings.
     void collectVariables(TIntermNode* root);
     // Translate to object code.
     virtual void translate(TIntermNode* root) = 0;
     // Returns true if, after applying the packing rules in the GLSL 1.017 spec
     // Appendix A, section 7, the shader does not use too many uniforms.
     bool enforcePackingRestrictions();
     // Insert statements to initialize varyings without static use in the beginning
     // of main(). It is to work around a Mac driver where such varyings in a vertex
     // shader may be optimized out incorrectly at compile time, causing a link failure.
     // This function should only be applied to vertex shaders.
     void initializeVaryingsWithoutStaticUse(TIntermNode* root);
     // Insert gl_Position = vec4(0,0,0,0) to the beginning of main().
     // It is to work around a Linux driver bug where missing this causes compile failure
     // while spec says it is allowed.
     // This function should only be applied to vertex shaders.
     void initializeGLPosition(TIntermNode* root);
     // Returns true if the shader passes the restrictions that aim to prevent timing attacks.
     bool enforceTimingRestrictions(TIntermNode* root, bool outputGraph);
     // Returns true if the shader does not use samplers.
     bool enforceVertexShaderTimingRestrictions(TIntermNode* root);
     // Returns true if the shader does not use sampler dependent values to affect control
     // flow or in operations whose time can depend on the input values.
     bool enforceFragmentShaderTimingRestrictions(const TDependencyGraph& graph);
     // Return true if the maximum expression complexity is below the limit.
     bool limitExpressionComplexity(TIntermNode* root);
     // Get built-in extensions with default behavior.
     const TExtensionBehavior& getExtensionBehavior() const;

     const ArrayBoundsClamper& getArrayBoundsClamper() const;
     ShArrayIndexClampingStrategy getArrayIndexClampingStrategy() const;
     const BuiltInFunctionEmulator& getBuiltInFunctionEmulator() const;

     std::vector<sh::Attribute> attributes;
     std::vector<sh::Attribute> outputVariables;
     std::vector<sh::Uniform> uniforms;
     std::vector<sh::ShaderVariable> expandedUniforms;
     std::vector<sh::Varying> varyings;
     std::vector<sh::ShaderVariable> expandedVaryings;
     std::vector<sh::InterfaceBlock> interfaceBlocks;

   private:
     sh::GLenum shaderType;
     ShShaderSpec shaderSpec;
     ShShaderOutput outputType;

     int maxUniformVectors;
     int maxExpressionComplexity;
     int maxCallStackDepth;

     ShBuiltInResources compileResources;
     std::string builtInResourcesString;

     // Built-in symbol table for the given language, spec, and resources.
     // It is preserved from compile-to-compile.
     TSymbolTable symbolTable;
     // Built-in extensions with default behavior.
     TExtensionBehavior extensionBehavior;
     bool fragmentPrecisionHigh;

     ArrayBoundsClamper arrayBoundsClamper;
     ShArrayIndexClampingStrategy clampingStrategy;
     BuiltInFunctionEmulator builtInFunctionEmulator;

     // Results of compilation.
     int shaderVersion;
     TInfoSink infoSink;  // Output sink.

     // name hashing.
     ShHashFunction64 hashFunction;
     NameMap nameMap;
 };

 //
 // This is the interface between the machine independent code
 // and the machine dependent code.
 //
 // The machine dependent code should derive from the classes
 // above. Then Construct*() and Delete*() will create and
 // destroy the machine dependent objects, which contain the
 // above machine independent information.
 //
 TCompiler* ConstructCompiler(
     sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
 void DeleteCompiler(TCompiler*);

 #endif // _SHHANDLE_INCLUDED_
	//
	// Copyright (c) 2002-2013 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//

	#ifndef _SHHANDLE_INCLUDED_
	#define _SHHANDLE_INCLUDED_

	//
	// Machine independent part of the compiler private objects
	// sent as ShHandle to the driver.
	//
	// This should not be included by driver code.
	//

	#include "compiler/translator/BuiltInFunctionEmulator.h"
	#include "compiler/translator/ExtensionBehavior.h"
	#include "compiler/translator/HashNames.h"
	#include "compiler/translator/InfoSink.h"
	#include "compiler/translator/SymbolTable.h"
	#include "compiler/translator/VariableInfo.h"
	#include "third_party/compiler/ArrayBoundsClamper.h"

	class TCompiler;
	class TDependencyGraph;
	class TranslatorHLSL;

	//
	// Helper function to identify specs that are based on the WebGL spec,
	// like the CSS Shaders spec.
	//
	bool IsWebGLBasedSpec(ShShaderSpec spec);

	//
	// The base class used to back handles returned to the driver.
	//
	class TShHandleBase {
	public:
	TShHandleBase();
	virtual ~TShHandleBase();
	virtual TCompiler* getAsCompiler() { return 0; }
	virtual TranslatorHLSL* getAsTranslatorHLSL() { return 0; }

	protected:
	// Memory allocator. Allocates and tracks memory required by the compiler.
	// Deallocates all memory when compiler is destructed.
	TPoolAllocator allocator;
	};

	//
	// The base class for the machine dependent compiler to derive from
	// for managing object code from the compile.
	//
	class TCompiler : public TShHandleBase
	{
	public:
	TCompiler(sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
	virtual ~TCompiler();
	virtual TCompiler* getAsCompiler() { return this; }

	bool Init(const ShBuiltInResources& resources);
	bool compile(const char* const shaderStrings[],
	size_t numStrings,
	int compileOptions);

	// Get results of the last compilation.
	int getShaderVersion() const { return shaderVersion; }
	TInfoSink& getInfoSink() { return infoSink; }

	const std::vector<sh::Attribute> &getAttributes() const { return attributes; }
	const std::vector<sh::Attribute> &getOutputVariables() const { return outputVariables; }
	const std::vector<sh::Uniform> &getUniforms() const { return uniforms; }
	const std::vector<sh::ShaderVariable> &getExpandedUniforms() const { return expandedUniforms; }
	const std::vector<sh::Varying> &getVaryings() const { return varyings; }
	const std::vector<sh::ShaderVariable> &getExpandedVaryings() const { return expandedVaryings; }
	const std::vector<sh::InterfaceBlock> &getInterfaceBlocks() const { return interfaceBlocks; }

	ShHashFunction64 getHashFunction() const { return hashFunction; }
	NameMap& getNameMap() { return nameMap; }
	TSymbolTable& getSymbolTable() { return symbolTable; }
	ShShaderSpec getShaderSpec() const { return shaderSpec; }
	ShShaderOutput getOutputType() const { return outputType; }
	std::string getBuiltInResourcesString() const { return builtInResourcesString; }

	// Get the resources set by InitBuiltInSymbolTable
	const ShBuiltInResources& getResources() const;

	protected:
	sh::GLenum getShaderType() const { return shaderType; }
	// Initialize symbol-table with built-in symbols.
	bool InitBuiltInSymbolTable(const ShBuiltInResources& resources);
	// Compute the string representation of the built-in resources
	void setResourceString();
	// Clears the results from the previous compilation.
	void clearResults();
	// Return true if function recursion is detected or call depth exceeded.
	bool detectCallDepth(TIntermNode* root, TInfoSink& infoSink, bool limitCallStackDepth);
	// Returns true if a program has no conflicting or missing fragment outputs
	bool validateOutputs(TIntermNode* root);
	// Rewrites a shader's intermediate tree according to the CSS Shaders spec.
	void rewriteCSSShader(TIntermNode* root);
	// Returns true if the given shader does not exceed the minimum
	// functionality mandated in GLSL 1.0 spec Appendix A.
	bool validateLimitations(TIntermNode* root);
	// Collect info for all attribs, uniforms, varyings.
	void collectVariables(TIntermNode* root);
	// Translate to object code.
	virtual void translate(TIntermNode* root) = 0;
	// Returns true if, after applying the packing rules in the GLSL 1.017 spec
	// Appendix A, section 7, the shader does not use too many uniforms.
	bool enforcePackingRestrictions();
	// Insert statements to initialize varyings without static use in the beginning
	// of main(). It is to work around a Mac driver where such varyings in a vertex
	// shader may be optimized out incorrectly at compile time, causing a link failure.
	// This function should only be applied to vertex shaders.
	void initializeVaryingsWithoutStaticUse(TIntermNode* root);
	// Insert gl_Position = vec4(0,0,0,0) to the beginning of main().
	// It is to work around a Linux driver bug where missing this causes compile failure
	// while spec says it is allowed.
	// This function should only be applied to vertex shaders.
	void initializeGLPosition(TIntermNode* root);
	// Returns true if the shader passes the restrictions that aim to prevent timing attacks.
	bool enforceTimingRestrictions(TIntermNode* root, bool outputGraph);
	// Returns true if the shader does not use samplers.
	bool enforceVertexShaderTimingRestrictions(TIntermNode* root);
	// Returns true if the shader does not use sampler dependent values to affect control
	// flow or in operations whose time can depend on the input values.
	bool enforceFragmentShaderTimingRestrictions(const TDependencyGraph& graph);
	// Return true if the maximum expression complexity is below the limit.
	bool limitExpressionComplexity(TIntermNode* root);
	// Get built-in extensions with default behavior.
	const TExtensionBehavior& getExtensionBehavior() const;

	const ArrayBoundsClamper& getArrayBoundsClamper() const;
	ShArrayIndexClampingStrategy getArrayIndexClampingStrategy() const;
	const BuiltInFunctionEmulator& getBuiltInFunctionEmulator() const;

	std::vector<sh::Attribute> attributes;
	std::vector<sh::Attribute> outputVariables;
	std::vector<sh::Uniform> uniforms;
	std::vector<sh::ShaderVariable> expandedUniforms;
	std::vector<sh::Varying> varyings;
	std::vector<sh::ShaderVariable> expandedVaryings;
	std::vector<sh::InterfaceBlock> interfaceBlocks;

	private:
	sh::GLenum shaderType;
	ShShaderSpec shaderSpec;
	ShShaderOutput outputType;

	int maxUniformVectors;
	int maxExpressionComplexity;
	int maxCallStackDepth;

	ShBuiltInResources compileResources;
	std::string builtInResourcesString;

	// Built-in symbol table for the given language, spec, and resources.
	// It is preserved from compile-to-compile.
	TSymbolTable symbolTable;
	// Built-in extensions with default behavior.
	TExtensionBehavior extensionBehavior;
	bool fragmentPrecisionHigh;

	ArrayBoundsClamper arrayBoundsClamper;
	ShArrayIndexClampingStrategy clampingStrategy;
	BuiltInFunctionEmulator builtInFunctionEmulator;

	// Results of compilation.
	int shaderVersion;
	TInfoSink infoSink; // Output sink.

	// name hashing.
	ShHashFunction64 hashFunction;
	NameMap nameMap;
	};

	//
	// This is the interface between the machine independent code
	// and the machine dependent code.
	//
	// The machine dependent code should derive from the classes
	// above. Then Construct() and Delete() will create and
	// destroy the machine dependent objects, which contain the
	// above machine independent information.
	//
	TCompiler* ConstructCompiler(
	sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
	void DeleteCompiler(TCompiler*);

	#endif // _SHHANDLE_INCLUDED_