src/OpenGL/compiler/ParseHelper.h - SwiftShader - Git at Google

 //
 // Copyright (c) 2002-2012 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 _PARSER_HELPER_INCLUDED_
 #define _PARSER_HELPER_INCLUDED_

 #include "Diagnostics.h"
 #include "DirectiveHandler.h"
 #include "localintermediate.h"
 #include "preprocessor/Preprocessor.h"
 #include "Compiler.h"
 #include "SymbolTable.h"

 struct TMatrixFields {
     bool wholeRow;
     bool wholeCol;
     int row;
     int col;
 };

 //
 // The following are extra variables needed during parsing, grouped together so
 // they can be passed to the parser without needing a global.
 //
 struct TParseContext {
     TParseContext(TSymbolTable& symt, TExtensionBehavior& ext, TIntermediate& interm, GLenum type, int options, bool checksPrecErrors, const char* sourcePath, TInfoSink& is) :
             intermediate(interm),
             symbolTable(symt),
             shaderType(type),
             compileOptions(options),
             sourcePath(sourcePath),
             treeRoot(0),
             lexAfterType(false),
             loopNestingLevel(0),
             structNestingLevel(0),
             inTypeParen(false),
             currentFunctionType(NULL),
             functionReturnsValue(false),
             checksPrecisionErrors(checksPrecErrors),
             diagnostics(is),
             shaderVersion(100),
             directiveHandler(ext, diagnostics, shaderVersion),
             preprocessor(&diagnostics, &directiveHandler),
             scanner(NULL) {  }
     TIntermediate& intermediate; // to hold and build a parse tree
     TSymbolTable& symbolTable;   // symbol table that goes with the language currently being parsed
     GLenum shaderType;              // vertex or fragment language (future: pack or unpack)
     int shaderVersion;
     int compileOptions;
     const char* sourcePath;      // Path of source file or NULL.
     TIntermNode* treeRoot;       // root of parse tree being created
     bool lexAfterType;           // true if we've recognized a type, so can only be looking for an identifier
     int loopNestingLevel;        // 0 if outside all loops
     int structNestingLevel;      // incremented while parsing a struct declaration
     bool inTypeParen;            // true if in parentheses, looking only for an identifier
     const TType* currentFunctionType;  // the return type of the function that's currently being parsed
     bool functionReturnsValue;   // true if a non-void function has a return
     bool checksPrecisionErrors;  // true if an error will be generated when a variable is declared without precision, explicit or implicit.
     TString HashErrMsg;
     bool AfterEOF;
     TDiagnostics diagnostics;
     TDirectiveHandler directiveHandler;
     pp::Preprocessor preprocessor;
     void* scanner;

     int getShaderVersion() const { return shaderVersion; }
     int numErrors() const { return diagnostics.numErrors(); }
     TInfoSink& infoSink() { return diagnostics.infoSink(); }
     void error(TSourceLoc loc, const char *reason, const char* token,
                const char* extraInfo="");
     void warning(TSourceLoc loc, const char* reason, const char* token,
                  const char* extraInfo="");
     void trace(const char* str);
     void recover();

     bool parseVectorFields(const TString&, int vecSize, TVectorFields&, int line);
     bool parseMatrixFields(const TString&, int matCols, int matRows, TMatrixFields&, int line);

     bool reservedErrorCheck(int line, const TString& identifier);
     void assignError(int line, const char* op, TString left, TString right);
     void unaryOpError(int line, const char* op, TString operand);
     void binaryOpError(int line, const char* op, TString left, TString right);
     bool precisionErrorCheck(int line, TPrecision precision, TBasicType type);
     bool lValueErrorCheck(int line, const char* op, TIntermTyped*);
     bool constErrorCheck(TIntermTyped* node);
     bool integerErrorCheck(TIntermTyped* node, const char* token);
     bool globalErrorCheck(int line, bool global, const char* token);
     bool constructorErrorCheck(int line, TIntermNode*, TFunction&, TOperator, TType*);
     bool arraySizeErrorCheck(int line, TIntermTyped* expr, int& size);
     bool arrayQualifierErrorCheck(int line, TPublicType type);
     bool arrayTypeErrorCheck(int line, TPublicType type);
     bool arrayErrorCheck(int line, TString& identifier, TPublicType type, TVariable*& variable);
     bool voidErrorCheck(int, const TString&, const TPublicType&);
     bool boolErrorCheck(int, const TIntermTyped*);
     bool boolErrorCheck(int, const TPublicType&);
     bool samplerErrorCheck(int line, const TPublicType& pType, const char* reason);
     bool structQualifierErrorCheck(int line, const TPublicType& pType);
     bool parameterSamplerErrorCheck(int line, TQualifier qualifier, const TType& type);
     bool nonInitConstErrorCheck(int line, TString& identifier, TPublicType& type, bool array);
     bool nonInitErrorCheck(int line, TString& identifier, TPublicType& type, TVariable*& variable);
     bool paramErrorCheck(int line, TQualifier qualifier, TQualifier paramQualifier, TType* type);
     bool extensionErrorCheck(int line, const TString&);

     const TExtensionBehavior& extensionBehavior() const { return directiveHandler.extensionBehavior(); }
     bool supportsExtension(const char* extension);
     void handleExtensionDirective(int line, const char* extName, const char* behavior);

     const TPragma& pragma() const { return directiveHandler.pragma(); }
     void handlePragmaDirective(int line, const char* name, const char* value);

     bool containsSampler(TType& type);
     bool areAllChildConst(TIntermAggregate* aggrNode);
     const TFunction* findFunction(int line, TFunction* pfnCall, bool *builtIn = 0);
     bool executeInitializer(TSourceLoc line, TString& identifier, TPublicType& pType,
                             TIntermTyped* initializer, TIntermNode*& intermNode, TVariable* variable = 0);
     bool arraySetMaxSize(TIntermSymbol*, TType*, int, bool, TSourceLoc);

     TIntermTyped* addConstructor(TIntermNode*, const TType*, TOperator, TFunction*, TSourceLoc);
     TIntermTyped* foldConstConstructor(TIntermAggregate* aggrNode, const TType& type);
     TIntermTyped* addConstVectorNode(TVectorFields&, TIntermTyped*, TSourceLoc);
     TIntermTyped* addConstMatrixNode(int , TIntermTyped*, TSourceLoc);
     TIntermTyped* addConstArrayNode(int index, TIntermTyped* node, TSourceLoc line);
     TIntermTyped* addConstStruct(TString& , TIntermTyped*, TSourceLoc);

     TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc& qualifierTypeLine);
     TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc& qualifierTypeLine, const TString &intValueString, int intValue, const TSourceLoc& intValueLine);
     TLayoutQualifier joinLayoutQualifiers(TLayoutQualifier leftQualifier, TLayoutQualifier rightQualifier);
     TPublicType joinInterpolationQualifiers(const TSourceLoc &interpolationLoc, TQualifier interpolationQualifier, const TSourceLoc &storageLoc, TQualifier storageQualifier);

     // Performs an error check for embedded struct declarations.
     // Returns true if an error was raised due to the declaration of
     // this struct.
     bool enterStructDeclaration(TSourceLoc line, const TString& identifier);
     void exitStructDeclaration();

     bool structNestingErrorCheck(TSourceLoc line, const TType& fieldType);
 };

 int PaParseStrings(int count, const char* const string[], const int length[],
                    TParseContext* context);

 #endif // _PARSER_HELPER_INCLUDED_
	//
	// Copyright (c) 2002-2012 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 _PARSER_HELPER_INCLUDED_
	#define _PARSER_HELPER_INCLUDED_

	#include "Diagnostics.h"
	#include "DirectiveHandler.h"
	#include "localintermediate.h"
	#include "preprocessor/Preprocessor.h"
	#include "Compiler.h"
	#include "SymbolTable.h"

	struct TMatrixFields {
	bool wholeRow;
	bool wholeCol;
	int row;
	int col;
	};

	//
	// The following are extra variables needed during parsing, grouped together so
	// they can be passed to the parser without needing a global.
	//
	struct TParseContext {
	TParseContext(TSymbolTable& symt, TExtensionBehavior& ext, TIntermediate& interm, GLenum type, int options, bool checksPrecErrors, const char* sourcePath, TInfoSink& is) :
	intermediate(interm),
	symbolTable(symt),
	shaderType(type),
	compileOptions(options),
	sourcePath(sourcePath),
	treeRoot(0),
	lexAfterType(false),
	loopNestingLevel(0),
	structNestingLevel(0),
	inTypeParen(false),
	currentFunctionType(NULL),
	functionReturnsValue(false),
	checksPrecisionErrors(checksPrecErrors),
	diagnostics(is),
	shaderVersion(100),
	directiveHandler(ext, diagnostics, shaderVersion),
	preprocessor(&diagnostics, &directiveHandler),
	scanner(NULL) { }
	TIntermediate& intermediate; // to hold and build a parse tree
	TSymbolTable& symbolTable; // symbol table that goes with the language currently being parsed
	GLenum shaderType; // vertex or fragment language (future: pack or unpack)
	int shaderVersion;
	int compileOptions;
	const char* sourcePath; // Path of source file or NULL.
	TIntermNode* treeRoot; // root of parse tree being created
	bool lexAfterType; // true if we've recognized a type, so can only be looking for an identifier
	int loopNestingLevel; // 0 if outside all loops
	int structNestingLevel; // incremented while parsing a struct declaration
	bool inTypeParen; // true if in parentheses, looking only for an identifier
	const TType* currentFunctionType; // the return type of the function that's currently being parsed
	bool functionReturnsValue; // true if a non-void function has a return
	bool checksPrecisionErrors; // true if an error will be generated when a variable is declared without precision, explicit or implicit.
	TString HashErrMsg;
	bool AfterEOF;
	TDiagnostics diagnostics;
	TDirectiveHandler directiveHandler;
	pp::Preprocessor preprocessor;
	void* scanner;

	int getShaderVersion() const { return shaderVersion; }
	int numErrors() const { return diagnostics.numErrors(); }
	TInfoSink& infoSink() { return diagnostics.infoSink(); }
	void error(TSourceLoc loc, const char reason, const char token,
	const char* extraInfo="");
	void warning(TSourceLoc loc, const char* reason, const char* token,
	const char* extraInfo="");
	void trace(const char* str);
	void recover();

	bool parseVectorFields(const TString&, int vecSize, TVectorFields&, int line);
	bool parseMatrixFields(const TString&, int matCols, int matRows, TMatrixFields&, int line);

	bool reservedErrorCheck(int line, const TString& identifier);
	void assignError(int line, const char* op, TString left, TString right);
	void unaryOpError(int line, const char* op, TString operand);
	void binaryOpError(int line, const char* op, TString left, TString right);
	bool precisionErrorCheck(int line, TPrecision precision, TBasicType type);
	bool lValueErrorCheck(int line, const char* op, TIntermTyped*);
	bool constErrorCheck(TIntermTyped* node);
	bool integerErrorCheck(TIntermTyped* node, const char* token);
	bool globalErrorCheck(int line, bool global, const char* token);
	bool constructorErrorCheck(int line, TIntermNode, TFunction&, TOperator, TType);
	bool arraySizeErrorCheck(int line, TIntermTyped* expr, int& size);
	bool arrayQualifierErrorCheck(int line, TPublicType type);
	bool arrayTypeErrorCheck(int line, TPublicType type);
	bool arrayErrorCheck(int line, TString& identifier, TPublicType type, TVariable*& variable);
	bool voidErrorCheck(int, const TString&, const TPublicType&);
	bool boolErrorCheck(int, const TIntermTyped*);
	bool boolErrorCheck(int, const TPublicType&);
	bool samplerErrorCheck(int line, const TPublicType& pType, const char* reason);
	bool structQualifierErrorCheck(int line, const TPublicType& pType);
	bool parameterSamplerErrorCheck(int line, TQualifier qualifier, const TType& type);
	bool nonInitConstErrorCheck(int line, TString& identifier, TPublicType& type, bool array);
	bool nonInitErrorCheck(int line, TString& identifier, TPublicType& type, TVariable*& variable);
	bool paramErrorCheck(int line, TQualifier qualifier, TQualifier paramQualifier, TType* type);
	bool extensionErrorCheck(int line, const TString&);

	const TExtensionBehavior& extensionBehavior() const { return directiveHandler.extensionBehavior(); }
	bool supportsExtension(const char* extension);
	void handleExtensionDirective(int line, const char* extName, const char* behavior);

	const TPragma& pragma() const { return directiveHandler.pragma(); }
	void handlePragmaDirective(int line, const char* name, const char* value);

	bool containsSampler(TType& type);
	bool areAllChildConst(TIntermAggregate* aggrNode);
	const TFunction* findFunction(int line, TFunction* pfnCall, bool *builtIn = 0);
	bool executeInitializer(TSourceLoc line, TString& identifier, TPublicType& pType,
	TIntermTyped* initializer, TIntermNode& intermNode, TVariable variable = 0);
	bool arraySetMaxSize(TIntermSymbol, TType, int, bool, TSourceLoc);

	TIntermTyped* addConstructor(TIntermNode, const TType, TOperator, TFunction*, TSourceLoc);
	TIntermTyped* foldConstConstructor(TIntermAggregate* aggrNode, const TType& type);
	TIntermTyped* addConstVectorNode(TVectorFields&, TIntermTyped*, TSourceLoc);
	TIntermTyped* addConstMatrixNode(int , TIntermTyped*, TSourceLoc);
	TIntermTyped* addConstArrayNode(int index, TIntermTyped* node, TSourceLoc line);
	TIntermTyped* addConstStruct(TString& , TIntermTyped*, TSourceLoc);

	TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc& qualifierTypeLine);
	TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc& qualifierTypeLine, const TString &intValueString, int intValue, const TSourceLoc& intValueLine);
	TLayoutQualifier joinLayoutQualifiers(TLayoutQualifier leftQualifier, TLayoutQualifier rightQualifier);
	TPublicType joinInterpolationQualifiers(const TSourceLoc &interpolationLoc, TQualifier interpolationQualifier, const TSourceLoc &storageLoc, TQualifier storageQualifier);

	// Performs an error check for embedded struct declarations.
	// Returns true if an error was raised due to the declaration of
	// this struct.
	bool enterStructDeclaration(TSourceLoc line, const TString& identifier);
	void exitStructDeclaration();

	bool structNestingErrorCheck(TSourceLoc line, const TType& fieldType);
	};

	int PaParseStrings(int count, const char* const string[], const int length[],
	TParseContext* context);

	#endif // _PARSER_HELPER_INCLUDED_