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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,
mShaderType,
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;
}
void setLoopNestingLevel(int loopNestintLevel)
{
mLoopNestingLevel = loopNestintLevel;
}
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);
TIntermAggregate *addFunctionPrototypeDeclaration(const TFunction &function,
const TSourceLoc &location);
TIntermAggregate *addFunctionDefinition(const TFunction &function,
TIntermAggregate *functionPrototype,
TIntermAggregate *functionBody,
const TSourceLoc &location);
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_
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