kc3-lang/angle/src/compiler/translator/ParseContext.h
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Hash : e1a94c67
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Date : 2015-11-16T17:35:25
Check that texture offset is constant and valid Offset passed to textureOffset and similar functions must be constant. See ESSL 3.00 spec section 8.8. It must also be in the valid range between MIN_PROGRAM_TEXEL_OFFSET and MAX_PROGRAM_TEXEL_OFFSET. Using values outside the valid range makes the results of the texture lookup undefined, as specified in GLES 3.0.4 section 3.8.10. We generate a compiler error if an offset is outside the valid range. BUG=angleproject:1215 TEST=angle_unittests Change-Id: Ida28361444d2f4050d516160f1491674c31868a1 Reviewed-on: https://chromium-review.googlesource.com/312223 Reviewed-by: Jamie Madill <jmadill@chromium.org> Tested-by: 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/preprocessor/Preprocessor.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. // class TParseContext : angle::NonCopyable { public: TParseContext(TSymbolTable &symt, TExtensionBehavior &ext, TIntermediate &interm, sh::GLenum type, ShShaderSpec spec, int options, bool checksPrecErrors, TInfoSink &is, const ShBuiltInResources &resources) : intermediate(interm), symbolTable(symt), mDeferredSingleDeclarationErrorCheck(false), mShaderType(type), mShaderSpec(spec), mShaderVersion(100), mTreeRoot(nullptr), mLoopNestingLevel(0), mStructNestingLevel(0), mSwitchNestingLevel(0), mCurrentFunctionType(nullptr), mFunctionReturnsValue(false), mChecksPrecisionErrors(checksPrecErrors), mFragmentPrecisionHighOnESSL1(false), mDefaultMatrixPacking(EmpColumnMajor), mDefaultBlockStorage(EbsShared), mDiagnostics(is), mDirectiveHandler(ext, mDiagnostics, mShaderVersion, resources.WEBGL_debug_shader_precision == 1), mPreprocessor(&mDiagnostics, &mDirectiveHandler), mScanner(nullptr), mUsesFragData(false), mUsesFragColor(false), mUsesSecondaryOutputs(false), mMinProgramTexelOffset(resources.MinProgramTexelOffset), mMaxProgramTexelOffset(resources.MaxProgramTexelOffset) { } 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(); } TInfoSink &infoSink() { return mDiagnostics.infoSink(); } void error(const TSourceLoc &loc, const char *reason, const char *token, const char *extraInfo=""); void warning(const TSourceLoc &loc, const char *reason, const char *token, const char *extraInfo=""); // If isError is false, a warning will be reported instead. void outOfRangeError(bool isError, const TSourceLoc &loc, const char *reason, const char *token, const char *extraInfo = ""); void recover(); TIntermNode *getTreeRoot() const { return mTreeRoot; } void setTreeRoot(TIntermNode *treeRoot) { mTreeRoot = treeRoot; } bool getFragmentPrecisionHigh() const { return mFragmentPrecisionHighOnESSL1 || mShaderVersion >= 300; } void setFragmentPrecisionHighOnESSL1(bool fragmentPrecisionHigh) { mFragmentPrecisionHighOnESSL1 = fragmentPrecisionHigh; } bool getFunctionReturnsValue() const { return mFunctionReturnsValue; } void setFunctionReturnsValue(bool functionReturnsValue) { mFunctionReturnsValue = functionReturnsValue; } void setLoopNestingLevel(int loopNestintLevel) { mLoopNestingLevel = loopNestintLevel; } const TType *getCurrentFunctionType() const { return mCurrentFunctionType; } void setCurrentFunctionType(const TType *currentFunctionType) { mCurrentFunctionType = currentFunctionType; } void incrLoopNestingLevel() { ++mLoopNestingLevel; } void decrLoopNestingLevel() { --mLoopNestingLevel; } void incrSwitchNestingLevel() { ++mSwitchNestingLevel; } void decrSwitchNestingLevel() { --mSwitchNestingLevel; } // 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); bool reservedErrorCheck(const TSourceLoc &line, const TString &identifier); 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); bool precisionErrorCheck(const TSourceLoc &line, TPrecision precision, TBasicType type); bool lValueErrorCheck(const TSourceLoc &line, const char *op, TIntermTyped*); bool constErrorCheck(TIntermTyped *node); bool integerErrorCheck(TIntermTyped *node, const char *token); bool globalErrorCheck(const TSourceLoc &line, bool global, const char *token); bool constructorErrorCheck(const TSourceLoc &line, TIntermNode *argumentsNode, TFunction &function, TOperator op, TType *type); bool arraySizeErrorCheck(const TSourceLoc &line, TIntermTyped *expr, int &size); bool arrayQualifierErrorCheck(const TSourceLoc &line, const TPublicType &type); bool arrayTypeErrorCheck(const TSourceLoc &line, const TPublicType &type); bool voidErrorCheck(const TSourceLoc &line, const TString &identifier, const TBasicType &type); bool boolErrorCheck(const TSourceLoc&, const TIntermTyped*); bool boolErrorCheck(const TSourceLoc&, const TPublicType&); bool samplerErrorCheck(const TSourceLoc &line, const TPublicType &pType, const char *reason); bool locationDeclaratorListCheck(const TSourceLoc &line, const TPublicType &pType); bool parameterSamplerErrorCheck(const TSourceLoc &line, TQualifier qualifier, const TType &type); bool paramErrorCheck(const TSourceLoc &line, TQualifier qualifier, TQualifier paramQualifier, TType *type); bool extensionErrorCheck(const TSourceLoc &line, const TString&); bool singleDeclarationErrorCheck(const TPublicType &publicType, const TSourceLoc &identifierLocation); bool layoutLocationErrorCheck(const TSourceLoc &location, const TLayoutQualifier &layoutQualifier); bool functionCallLValueErrorCheck(const TFunction *fnCandidate, TIntermAggregate *); void es3InvariantErrorCheck(const TQualifier qualifier, const TSourceLoc &invariantLocation); void es3InputOutputTypeCheck(const TQualifier qualifier, const TPublicType &type, const TSourceLoc &qualifierLocation); 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 containsSampler(const TType &type); const TFunction* findFunction( const TSourceLoc &line, TFunction *pfnCall, int inputShaderVersion, bool *builtIn = 0); bool executeInitializer(const TSourceLoc &line, const TString &identifier, const TPublicType &pType, TIntermTyped *initializer, TIntermNode **intermNode); TPublicType addFullySpecifiedType(TQualifier qualifier, bool invariant, TLayoutQualifier layoutQualifier, const TPublicType &typeSpecifier); TIntermAggregate *parseSingleDeclaration(TPublicType &publicType, const TSourceLoc &identifierOrTypeLocation, const TString &identifier); TIntermAggregate *parseSingleArrayDeclaration(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression); TIntermAggregate *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" TIntermAggregate *parseSingleArrayInitDeclaration(TPublicType &publicType, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression, const TSourceLoc &initLocation, TIntermTyped *initializer); TIntermAggregate *parseInvariantDeclaration(const TSourceLoc &invariantLoc, const TSourceLoc &identifierLoc, const TString *identifier, const TSymbol *symbol); TIntermAggregate *parseDeclarator(TPublicType &publicType, TIntermAggregate *aggregateDeclaration, const TSourceLoc &identifierLocation, const TString &identifier); TIntermAggregate *parseArrayDeclarator(TPublicType &publicType, TIntermAggregate *aggregateDeclaration, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &arrayLocation, TIntermTyped *indexExpression); TIntermAggregate *parseInitDeclarator(const TPublicType &publicType, TIntermAggregate *aggregateDeclaration, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &initLocation, TIntermTyped *initializer); // Parse a declarator like "a[n] = initializer" TIntermAggregate *parseArrayInitDeclarator(const TPublicType &publicType, TIntermAggregate *aggregateDeclaration, const TSourceLoc &identifierLocation, const TString &identifier, const TSourceLoc &indexLocation, TIntermTyped *indexExpression, const TSourceLoc &initLocation, TIntermTyped *initializer); void parseGlobalLayoutQualifier(const TPublicType &typeQualifier); void parseFunctionPrototype(const TSourceLoc &location, TFunction *function, TIntermAggregate **aggregateOut); TFunction *parseFunctionDeclarator(const TSourceLoc &location, TFunction *function); TFunction *addConstructorFunc(const TPublicType &publicType); TIntermTyped *addConstructor(TIntermNode *arguments, TType *type, TOperator op, TFunction *fnCall, const TSourceLoc &line); TIntermTyped *addConstVectorNode(TVectorFields &fields, TIntermConstantUnion *node, const TSourceLoc &line, bool outOfRangeIndexIsError); TIntermTyped *addConstMatrixNode(int index, TIntermConstantUnion *node, const TSourceLoc &line, bool outOfRangeIndexIsError); TIntermTyped *addConstArrayNode(int index, TIntermConstantUnion *node, const TSourceLoc &line, bool outOfRangeIndexIsError); TIntermTyped *addConstStruct( const TString &identifier, TIntermTyped *node, const TSourceLoc& line); TIntermTyped *addIndexExpression(TIntermTyped *baseExpression, const TSourceLoc& location, TIntermTyped *indexExpression); TIntermTyped* addFieldSelectionExpression(TIntermTyped *baseExpression, const TSourceLoc &dotLocation, const TString &fieldString, const TSourceLoc &fieldLocation); TFieldList *addStructDeclaratorList(const TPublicType &typeSpecifier, TFieldList *fieldList); TPublicType addStructure(const TSourceLoc &structLine, const TSourceLoc &nameLine, const TString *structName, TFieldList *fieldList); TIntermAggregate* addInterfaceBlock(const TPublicType &typeQualifier, const TSourceLoc &nameLine, const TString &blockName, TFieldList *fieldList, const TString *instanceName, const TSourceLoc &instanceLine, TIntermTyped *arrayIndex, const TSourceLoc& arrayIndexLine); 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(const TSourceLoc &line, const TString &identifier); void exitStructDeclaration(); bool structNestingErrorCheck(const TSourceLoc &line, const TField &field); TIntermSwitch *addSwitch(TIntermTyped *init, TIntermAggregate *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); TIntermTyped *addFunctionCallOrMethod(TFunction *fnCall, TIntermNode *paramNode, TIntermNode *thisNode, const TSourceLoc &loc, bool *fatalError); TIntermTyped *addTernarySelection( TIntermTyped *cond, TIntermTyped *trueBlock, TIntermTyped *falseBlock, const TSourceLoc &line); // TODO(jmadill): make these private TIntermediate &intermediate; // to hold and build a parse tree TSymbolTable &symbolTable; // symbol table that goes with the language currently being parsed private: bool declareVariable(const TSourceLoc &line, const TString &identifier, const TType &type, TVariable **variable); bool nonInitErrorCheck(const TSourceLoc &line, const TString &identifier, TPublicType *type); TIntermTyped *addBinaryMathInternal( TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); TIntermTyped *createAssign( TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); // The funcReturnType parameter is expected to be non-null when the operation is a built-in function. // It is expected to be null for other unary operators. TIntermTyped *createUnaryMath( TOperator op, TIntermTyped *child, const TSourceLoc &loc, const TType *funcReturnType); // Return true if the checks pass bool binaryOpCommonCheck( TOperator op, TIntermTyped *left, TIntermTyped *right, const TSourceLoc &loc); // 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. int mShaderVersion; TIntermNode *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; }; int PaParseStrings( size_t count, const char *const string[], const int length[], TParseContext *context); #endif // COMPILER_TRANSLATOR_PARSECONTEXT_H_