kc3-lang/angle/src/compiler/translator/ParseContext.h
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Hash : af6fc1b4
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Date : 2017-01-26T17:45:35
Make aggregate node creation more robust Now aggregate nodes are always built with their return type, op and arguments set. They'll determine their qualifier and precision automatically. This fixes setting of gotPrecisionFromChildren in a few cases. This will also make it easier to split TIntermAggregate further into specialized classes if that is desired. BUG=angleproject:1490 TEST=angle_unittests Change-Id: I1fbe0c75679c517a22d44dfc1ea160ad7a7fdfda Reviewed-on: https://chromium-review.googlesource.com/433468 Reviewed-by: Corentin Wallez <cwallez@chromium.org> Reviewed-by: Jamie Madill <jmadill@chromium.org> Commit-Queue: Olli Etuaho <oetuaho@nvidia.com>
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src/compiler/translator/ParseContext.h
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// // Copyright (c) 2002-2014 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 COMPILER_TRANSLATOR_PARSECONTEXT_H_ #define COMPILER_TRANSLATOR_PARSECONTEXT_H_ #include "compiler/translator/Compiler.h" #include "compiler/translator/Diagnostics.h" #include "compiler/translator/DirectiveHandler.h" #include "compiler/translator/Intermediate.h" #include "compiler/translator/SymbolTable.h" #include "compiler/translator/QualifierTypes.h" #include "compiler/preprocessor/Preprocessor.h" namespace sh { 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. // class TParseContext : angle::NonCopyable { public: TParseContext(TSymbolTable &symt, TExtensionBehavior &ext, sh::GLenum type, ShShaderSpec spec, ShCompileOptions options, bool checksPrecErrors, TDiagnostics *diagnostics, const ShBuiltInResources &resources); const pp::Preprocessor &getPreprocessor() const { return mPreprocessor; } pp::Preprocessor &getPreprocessor() { return mPreprocessor; } void *getScanner() const { return mScanner; } void setScanner(void *scanner) { mScanner = scanner; } int getShaderVersion() const { return mShaderVersion; } sh::GLenum getShaderType() const { return mShaderType; } ShShaderSpec getShaderSpec() const { return mShaderSpec; } int numErrors() const { return mDiagnostics->numErrors(); } void error(const TSourceLoc &loc, const char *reason, const char *token); void warning(const TSourceLoc &loc, const char *reason, const char *token); // If isError is false, a warning will be reported instead. void outOfRangeError(bool isError, const TSourceLoc &loc, const char *reason, const char *token); TIntermBlock *getTreeRoot() const { return mTreeRoot; } void setTreeRoot(TIntermBlock *treeRoot) { mTreeRoot = treeRoot; } bool getFragmentPrecisionHigh() const { return mFragmentPrecisionHighOnESSL1 || mShaderVersion >= 300; } void setFragmentPrecisionHighOnESSL1(bool fragmentPrecisionHigh) { mFragmentPrecisionHighOnESSL1 = fragmentPrecisionHigh; } void setLoopNestingLevel(int loopNestintLevel) { mLoopNestingLevel = loopNestintLevel; } void incrLoopNestingLevel() { ++mLoopNestingLevel; } void decrLoopNestingLevel() { --mLoopNestingLevel; } void incrSwitchNestingLevel() { ++mSwitchNestingLevel; } void decrSwitchNestingLevel() { --mSwitchNestingLevel; } bool isComputeShaderLocalSizeDeclared() const { return mComputeShaderLocalSizeDeclared; } sh::WorkGroupSize getComputeShaderLocalSize() const; int getNumViews() const { return mNumViews; } void enterFunctionDeclaration() { mDeclaringFunction = true; } void exitFunctionDeclaration() { mDeclaringFunction = false; } bool declaringFunction() const { return mDeclaringFunction; } // This method is guaranteed to succeed, even if no variable with 'name' exists. const TVariable *getNamedVariable(const TSourceLoc &location, const TString *name, const TSymbol *symbol); TIntermTyped *parseVariableIdentifier(const TSourceLoc &location, const TString *name, const TSymbol *symbol); bool parseVectorFields(const TString &, int vecSize, TVectorFields &, const TSourceLoc &line); void assignError(const TSourceLoc &line, const char *op, TString left, TString right); void unaryOpError(const TSourceLoc &line, const char *op, TString operand); void binaryOpError(const TSourceLoc &line, const char *op, TString left, TString right); // Check functions - the ones that return bool return false if an error was generated. bool checkIsNotReserved(const TSourceLoc &line, const TString &identifier); void checkPrecisionSpecified(const TSourceLoc &line, TPrecision precision, TBasicType type); bool checkCanBeLValue(const TSourceLoc &line, const char *op, TIntermTyped *node); void checkIsConst(TIntermTyped *node); void checkIsScalarInteger(TIntermTyped *node, const char *token); bool checkIsAtGlobalLevel(const TSourceLoc &line, const char *token); bool checkConstructorArguments(const TSourceLoc &line, const TIntermSequence *arguments, TOperator op, const TType &type); // Returns a sanitized array size to use (the size is at least 1). unsigned int checkIsValidArraySize(const TSourceLoc &line, TIntermTyped *expr); bool checkIsValidQualifierForArray(const TSourceLoc &line, const TPublicType &elementQualifier); bool checkIsValidTypeForArray(const TSourceLoc &line, const TPublicType &elementType); bool checkIsNonVoid(const TSourceLoc &line, const TString &identifier, const TBasicType &type); void checkIsScalarBool(const TSourceLoc &line, const TIntermTyped *type); void checkIsScalarBool(const TSourceLoc &line, const TPublicType &pType); bool checkIsNotSampler(const TSourceLoc &line, const TTypeSpecifierNonArray &pType, const char *reason); bool checkIsNotImage(const TSourceLoc &line, const TTypeSpecifierNonArray &pType, const char *reason); void checkDeclaratorLocationIsNotSpecified(const TSourceLoc &line, const TPublicType &pType); void checkLocationIsNotSpecified(const TSourceLoc &location, const TLayoutQualifier &layoutQualifier); void checkIsParameterQualifierValid(const TSourceLoc &line, const TTypeQualifierBuilder &typeQualifierBuilder, TType *type); bool checkCanUseExtension(const TSourceLoc &line, const TString &extension); void singleDeclarationErrorCheck(const TPublicType &publicType, const TSourceLoc &identifierLocation); void emptyDeclarationErrorCheck(const TPublicType &publicType, const TSourceLoc &location); void checkLayoutQualifierSupported(const TSourceLoc &location, const TString &layoutQualifierName, int versionRequired); bool checkWorkGroupSizeIsNotSpecified(const TSourceLoc &location, const TLayoutQualifier &layoutQualifier); bool checkInternalFormatIsNotSpecified(const TSourceLoc &location, TLayoutImageInternalFormat internalFormat); void functionCallLValueErrorCheck(const TFunction *fnCandidate, TIntermAggregate *fnCall); void checkInvariantVariableQualifier(bool invariant, const TQualifier qualifier, const TSourceLoc &invariantLocation); void checkInputOutputTypeIsValidES3(const TQualifier qualifier, const TPublicType &type, const TSourceLoc &qualifierLocation); void checkLocalVariableConstStorageQualifier(const TQualifierWrapperBase &qualifier); const TPragma &pragma() const { return mDirectiveHandler.pragma(); } const TExtensionBehavior &extensionBehavior() const { return mDirectiveHandler.extensionBehavior(); } bool supportsExtension(const char *extension); bool isExtensionEnabled(const char *extension) const; void handleExtensionDirective(const TSourceLoc &loc, const char *extName, const char *behavior); void handlePragmaDirective(const TSourceLoc &loc, const char *name, const char *value, bool stdgl); bool executeInitializer(const TSourceLoc &line, const TString &identifier, const TPublicType &pType, TIntermTyped *initializer, TIntermBinary **initNode); void addFullySpecifiedType(TPublicType *typeSpecifier); TPublicType addFullySpecifiedType(const TTypeQualifierBuilder &typeQualifierBuilder, const TPublicType &typeSpecifier); TIntermDeclaration *parseSingleDeclaration(TPublicType &publicType, const TSourceLoc &identifierOrTypeLocation, const TString &identifier); TIntermDeclaration *parseSingleArrayDeclaration(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression); TIntermDeclaration *parseSingleInitDeclaration(const TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &initLocation, TIntermTyped *initializer); // Parse a declaration like "type a[n] = initializer" // Note that this does not apply to declarations like "type[n] a = initializer" TIntermDeclaration *parseSingleArrayInitDeclaration(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression, const TSourceLoc &initLocation, TIntermTyped *initializer); TIntermInvariantDeclaration *parseInvariantDeclaration( const TTypeQualifierBuilder &typeQualifierBuilder, const TSourceLoc &identifierLoc, const TString *identifier, const TSymbol *symbol); void parseDeclarator(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, TIntermDeclaration *declarationOut); void parseArrayDeclarator(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &arrayLocation, TIntermTyped *indexExpression, TIntermDeclaration *declarationOut); void parseInitDeclarator(const TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &initLocation, TIntermTyped *initializer, TIntermDeclaration *declarationOut); // Parse a declarator like "a[n] = initializer" void parseArrayInitDeclarator(const TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression, const TSourceLoc &initLocation, TIntermTyped *initializer, TIntermDeclaration *declarationOut); void parseGlobalLayoutQualifier(const TTypeQualifierBuilder &typeQualifierBuilder); TIntermFunctionPrototype *addFunctionPrototypeDeclaration(const TFunction &parsedFunction, const TSourceLoc &location); TIntermFunctionDefinition *addFunctionDefinition(TIntermFunctionPrototype *functionPrototype, TIntermBlock *functionBody, const TSourceLoc &location); void parseFunctionDefinitionHeader(const TSourceLoc &location, TFunction **function, TIntermFunctionPrototype **prototypeOut); TFunction *parseFunctionDeclarator(const TSourceLoc &location, TFunction *function); TFunction *parseFunctionHeader(const TPublicType &type, const TString *name, const TSourceLoc &location); TFunction *addConstructorFunc(const TPublicType &publicType); TIntermTyped *addIndexExpression(TIntermTyped *baseExpression, const TSourceLoc &location, TIntermTyped *indexExpression); TIntermTyped *addFieldSelectionExpression(TIntermTyped *baseExpression, const TSourceLoc &dotLocation, const TString &fieldString, const TSourceLoc &fieldLocation); TFieldList *combineStructFieldLists(TFieldList *processedFields, const TFieldList *newlyAddedFields, const TSourceLoc &location); TFieldList *addStructDeclaratorListWithQualifiers( const TTypeQualifierBuilder &typeQualifierBuilder, TPublicType *typeSpecifier, TFieldList *fieldList); TFieldList *addStructDeclaratorList(const TPublicType &typeSpecifier, TFieldList *fieldList); TTypeSpecifierNonArray addStructure(const TSourceLoc &structLine, const TSourceLoc &nameLine, const TString *structName, TFieldList *fieldList); TIntermDeclaration *addInterfaceBlock(const TTypeQualifierBuilder &typeQualifierBuilder, const TSourceLoc &nameLine, const TString &blockName, TFieldList *fieldList, const TString *instanceName, const TSourceLoc &instanceLine, TIntermTyped *arrayIndex, const TSourceLoc &arrayIndexLine); void parseLocalSize(const TString &qualifierType, const TSourceLoc &qualifierTypeLine, int intValue, const TSourceLoc &intValueLine, const std::string &intValueString, size_t index, sh::WorkGroupSize *localSize); void parseNumViews(int intValue, const TSourceLoc &intValueLine, const std::string &intValueString, int *numViews); TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc &qualifierTypeLine); TLayoutQualifier parseLayoutQualifier(const TString &qualifierType, const TSourceLoc &qualifierTypeLine, int intValue, const TSourceLoc &intValueLine); TTypeQualifierBuilder *createTypeQualifierBuilder(const TSourceLoc &loc); TLayoutQualifier joinLayoutQualifiers(TLayoutQualifier leftQualifier, TLayoutQualifier rightQualifier, const TSourceLoc &rightQualifierLocation); // Performs an error check for embedded struct declarations. void enterStructDeclaration(const TSourceLoc &line, const TString &identifier); void exitStructDeclaration(); void checkIsBelowStructNestingLimit(const TSourceLoc &line, const TField &field); TIntermSwitch *addSwitch(TIntermTyped *init, TIntermBlock *statementList, const TSourceLoc &loc); TIntermCase *addCase(TIntermTyped *condition, const TSourceLoc &loc); TIntermCase *addDefault(const TSourceLoc &loc); TIntermTyped *addUnaryMath(TOperator op, TIntermTyped *child, const TSourceLoc &loc); TIntermTyped *addUnaryMathLValue(TOperator op, TIntermTyped *child, const TSourceLoc &loc); TIntermTyped *addBinaryMath(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermTyped *addBinaryMathBooleanResult(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermTyped *addAssign(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermTyped *addComma(TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermBranch *addBranch(TOperator op, const TSourceLoc &loc); TIntermBranch *addBranch(TOperator op, TIntermTyped *returnValue, const TSourceLoc &loc); void checkTextureOffsetConst(TIntermAggregate *functionCall); void checkImageMemoryAccessForBuiltinFunctions(TIntermAggregate *functionCall); void checkImageMemoryAccessForUserDefinedFunctions(const TFunction *functionDefinition, const TIntermAggregate *functionCall); TIntermSequence *createEmptyArgumentsList(); // fnCall is only storing the built-in op, and function name or constructor type. arguments // has the arguments. TIntermTyped *addFunctionCallOrMethod(TFunction *fnCall, TIntermSequence *arguments, TIntermNode *thisNode, const TSourceLoc &loc); TIntermTyped *addTernarySelection(TIntermTyped *cond, TIntermTyped *trueExpression, TIntermTyped *falseExpression, const TSourceLoc &line); // TODO(jmadill): make these private TIntermediate intermediate; // to build a parse tree TSymbolTable &symbolTable; // symbol table that goes with the language currently being parsed private: // Returns a clamped index. If it prints out an error message, the token is "[]". int checkIndexOutOfRange(bool outOfRangeIndexIsError, const TSourceLoc &location, int index, int arraySize, const char *reason); bool declareVariable(const TSourceLoc &line, const TString &identifier, const TType &type, TVariable **variable); void checkCanBeDeclaredWithoutInitializer(const TSourceLoc &line, const TString &identifier, TPublicType *type); bool checkIsValidTypeAndQualifierForArray(const TSourceLoc &indexLocation, const TPublicType &elementType); // Assumes that multiplication op has already been set based on the types. bool isMultiplicationTypeCombinationValid(TOperator op, const TType &left, const TType &right); bool checkIsMemoryQualifierNotSpecified(const TMemoryQualifier &memoryQualifier, const TSourceLoc &location); void checkOutParameterIsNotImage(const TSourceLoc &line, TQualifier qualifier, const TType &type); void checkOutParameterIsNotOpaqueType(const TSourceLoc &line, TQualifier qualifier, const TType &type); void checkOutParameterIsNotSampler(const TSourceLoc &line, TQualifier qualifier, const TType &type); TIntermTyped *addBinaryMathInternal(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermBinary *createAssign(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermTyped *createUnaryMath(TOperator op, TIntermTyped *child, const TSourceLoc &loc); TIntermTyped *addMethod(TFunction *fnCall, TIntermSequence *arguments, TIntermNode *thisNode, const TSourceLoc &loc); TIntermTyped *addConstructor(TIntermSequence *arguments, TOperator op, TType type, const TSourceLoc &line); TIntermTyped *addNonConstructorFunctionCall(TFunction *fnCall, TIntermSequence *arguments, const TSourceLoc &loc); // Return true if the checks pass bool binaryOpCommonCheck(TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermFunctionPrototype *createPrototypeNodeFromFunction(const TFunction &function, const TSourceLoc &location, bool insertParametersToSymbolTable); // Set to true when the last/current declarator list was started with an empty declaration. bool mDeferredSingleDeclarationErrorCheck; sh::GLenum mShaderType; // vertex or fragment language (future: pack or unpack) ShShaderSpec mShaderSpec; // The language specification compiler conforms to - GLES2 or WebGL. ShCompileOptions mCompileOptions; // Options passed to TCompiler int mShaderVersion; TIntermBlock *mTreeRoot; // root of parse tree being created int mLoopNestingLevel; // 0 if outside all loops int mStructNestingLevel; // incremented while parsing a struct declaration int mSwitchNestingLevel; // 0 if outside all switch statements const TType *mCurrentFunctionType; // the return type of the function that's currently being parsed bool mFunctionReturnsValue; // true if a non-void function has a return bool mChecksPrecisionErrors; // true if an error will be generated when a variable is declared // without precision, explicit or implicit. bool mFragmentPrecisionHighOnESSL1; // true if highp precision is supported when compiling // ESSL1. TLayoutMatrixPacking mDefaultMatrixPacking; TLayoutBlockStorage mDefaultBlockStorage; TString mHashErrMsg; TDiagnostics *mDiagnostics; TDirectiveHandler mDirectiveHandler; pp::Preprocessor mPreprocessor; void *mScanner; bool mUsesFragData; // track if we are using both gl_FragData and gl_FragColor bool mUsesFragColor; bool mUsesSecondaryOutputs; // Track if we are using either gl_SecondaryFragData or // gl_Secondary FragColor or both. int mMinProgramTexelOffset; int mMaxProgramTexelOffset; bool mMultiviewAvailable; // keep track of local group size declared in layout. It should be declared only once. bool mComputeShaderLocalSizeDeclared; sh::WorkGroupSize mComputeShaderLocalSize; // keep track of number of views declared in layout. int mNumViews; int mMaxNumViews; // keeps track whether we are declaring / defining a function bool mDeclaringFunction; }; int PaParseStrings(size_t count, const char *const string[], const int length[], TParseContext *context); } // namespace sh #endif // COMPILER_TRANSLATOR_PARSECONTEXT_H_