/* * Copyright (C) 2010 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef ASTBuilder_h #define ASTBuilder_h #include "NodeConstructors.h" #include "SyntaxChecker.h" #include namespace JSC { class ASTBuilder { struct BinaryOpInfo { BinaryOpInfo() {} BinaryOpInfo(int s, int d, int e, bool r) : start(s) , divot(d) , end(e) , hasAssignment(r) { } BinaryOpInfo(const BinaryOpInfo& lhs, const BinaryOpInfo& rhs) : start(lhs.start) , divot(rhs.start) , end(rhs.end) , hasAssignment(lhs.hasAssignment || rhs.hasAssignment) { } int start; int divot; int end; bool hasAssignment; }; struct AssignmentInfo { AssignmentInfo() {} AssignmentInfo(ExpressionNode* node, int start, int divot, int initAssignments, Operator op) : m_node(node) , m_start(start) , m_divot(divot) , m_initAssignments(initAssignments) , m_op(op) { } ExpressionNode* m_node; int m_start; int m_divot; int m_initAssignments; Operator m_op; }; public: ASTBuilder(JSGlobalData* globalData, SourceCode* sourceCode) : m_globalData(globalData) , m_sourceCode(sourceCode) , m_scope(globalData) , m_evalCount(0) { } struct BinaryExprContext { BinaryExprContext(ASTBuilder&) {} }; struct UnaryExprContext { UnaryExprContext(ASTBuilder&) {} }; typedef SyntaxChecker FunctionBodyBuilder; typedef ExpressionNode* Expression; typedef JSC::SourceElements* SourceElements; typedef ArgumentsNode* Arguments; typedef CommaNode* Comma; typedef PropertyNode* Property; typedef PropertyListNode* PropertyList; typedef ElementNode* ElementList; typedef ArgumentListNode* ArgumentsList; typedef ParameterNode* FormalParameterList; typedef FunctionBodyNode* FunctionBody; typedef StatementNode* Statement; typedef ClauseListNode* ClauseList; typedef CaseClauseNode* Clause; typedef ConstDeclNode* ConstDeclList; typedef std::pair BinaryOperand; static const bool CreatesAST = true; static const bool NeedsFreeVariableInfo = true; static const bool CanUseFunctionCache = true; static const int DontBuildKeywords = 0; static const int DontBuildStrings = 0; ExpressionNode* makeBinaryNode(const JSTokenLocation&, int token, std::pair, std::pair); ExpressionNode* makeFunctionCallNode(const JSTokenLocation&, ExpressionNode* func, ArgumentsNode* args, int start, int divot, int end); JSC::SourceElements* createSourceElements() { return new (m_globalData) JSC::SourceElements(); } ParserArenaData* varDeclarations() { return m_scope.m_varDeclarations; } ParserArenaData* funcDeclarations() { return m_scope.m_funcDeclarations; } int features() const { return m_scope.m_features; } int numConstants() const { return m_scope.m_numConstants; } void appendToComma(CommaNode* commaNode, ExpressionNode* expr) { commaNode->append(expr); } CommaNode* createCommaExpr(const JSTokenLocation& location, ExpressionNode* lhs, ExpressionNode* rhs) { return new (m_globalData) CommaNode(location, lhs, rhs); } ExpressionNode* makeAssignNode(const JSTokenLocation&, ExpressionNode* left, Operator, ExpressionNode* right, bool leftHasAssignments, bool rightHasAssignments, int start, int divot, int end); ExpressionNode* makePrefixNode(const JSTokenLocation&, ExpressionNode*, Operator, int start, int divot, int end); ExpressionNode* makePostfixNode(const JSTokenLocation&, ExpressionNode*, Operator, int start, int divot, int end); ExpressionNode* makeTypeOfNode(const JSTokenLocation&, ExpressionNode*); ExpressionNode* makeDeleteNode(const JSTokenLocation&, ExpressionNode*, int start, int divot, int end); ExpressionNode* makeNegateNode(const JSTokenLocation&, ExpressionNode*); ExpressionNode* makeBitwiseNotNode(const JSTokenLocation&, ExpressionNode*); ExpressionNode* makeMultNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeDivNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeModNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeAddNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeSubNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeBitXOrNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeBitAndNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeBitOrNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeLeftShiftNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeRightShiftNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* makeURightShiftNode(const JSTokenLocation&, ExpressionNode* left, ExpressionNode* right, bool rightHasAssignments); ExpressionNode* createLogicalNot(const JSTokenLocation& location, ExpressionNode* expr) { return new (m_globalData) LogicalNotNode(location, expr); } ExpressionNode* createUnaryPlus(const JSTokenLocation& location, ExpressionNode* expr) { return new (m_globalData) UnaryPlusNode(location, expr); } ExpressionNode* createVoid(const JSTokenLocation& location, ExpressionNode* expr) { incConstants(); return new (m_globalData) VoidNode(location, expr); } ExpressionNode* thisExpr(const JSTokenLocation& location) { usesThis(); return new (m_globalData) ThisNode(location); } ExpressionNode* createResolve(const JSTokenLocation& location, const Identifier* ident, int start) { if (m_globalData->propertyNames->arguments == *ident) usesArguments(); return new (m_globalData) ResolveNode(location, *ident, start); } ExpressionNode* createObjectLiteral(const JSTokenLocation& location) { return new (m_globalData) ObjectLiteralNode(location); } ExpressionNode* createObjectLiteral(const JSTokenLocation& location, PropertyListNode* properties) { return new (m_globalData) ObjectLiteralNode(location, properties); } ExpressionNode* createArray(const JSTokenLocation& location, int elisions) { if (elisions) incConstants(); return new (m_globalData) ArrayNode(location, elisions); } ExpressionNode* createArray(const JSTokenLocation& location, ElementNode* elems) { return new (m_globalData) ArrayNode(location, elems); } ExpressionNode* createArray(const JSTokenLocation& location, int elisions, ElementNode* elems) { if (elisions) incConstants(); return new (m_globalData) ArrayNode(location, elisions, elems); } ExpressionNode* createNumberExpr(const JSTokenLocation& location, double d) { incConstants(); return new (m_globalData) NumberNode(location, d); } ExpressionNode* createString(const JSTokenLocation& location, const Identifier* string) { incConstants(); return new (m_globalData) StringNode(location, *string); } ExpressionNode* createBoolean(const JSTokenLocation& location, bool b) { incConstants(); return new (m_globalData) BooleanNode(location, b); } ExpressionNode* createNull(const JSTokenLocation& location) { incConstants(); return new (m_globalData) NullNode(location); } ExpressionNode* createBracketAccess(const JSTokenLocation& location, ExpressionNode* base, ExpressionNode* property, bool propertyHasAssignments, int start, int divot, int end) { BracketAccessorNode* node = new (m_globalData) BracketAccessorNode(location, base, property, propertyHasAssignments); setExceptionLocation(node, start, divot, end); return node; } ExpressionNode* createDotAccess(const JSTokenLocation& location, ExpressionNode* base, const Identifier* property, int start, int divot, int end) { DotAccessorNode* node = new (m_globalData) DotAccessorNode(location, base, *property); setExceptionLocation(node, start, divot, end); return node; } ExpressionNode* createRegExp(const JSTokenLocation& location, const Identifier& pattern, const Identifier& flags, int start) { if (Yarr::checkSyntax(pattern.string())) return 0; RegExpNode* node = new (m_globalData) RegExpNode(location, pattern, flags); int size = pattern.length() + 2; // + 2 for the two /'s setExceptionLocation(node, start, start + size, start + size); return node; } ExpressionNode* createNewExpr(const JSTokenLocation& location, ExpressionNode* expr, ArgumentsNode* arguments, int start, int divot, int end) { NewExprNode* node = new (m_globalData) NewExprNode(location, expr, arguments); setExceptionLocation(node, start, divot, end); return node; } ExpressionNode* createNewExpr(const JSTokenLocation& location, ExpressionNode* expr, int start, int end) { NewExprNode* node = new (m_globalData) NewExprNode(location, expr); setExceptionLocation(node, start, end, end); return node; } ExpressionNode* createConditionalExpr(const JSTokenLocation& location, ExpressionNode* condition, ExpressionNode* lhs, ExpressionNode* rhs) { return new (m_globalData) ConditionalNode(location, condition, lhs, rhs); } ExpressionNode* createAssignResolve(const JSTokenLocation& location, const Identifier& ident, ExpressionNode* rhs, int start, int divot, int end) { if (rhs->isFuncExprNode()) static_cast(rhs)->body()->setInferredName(ident); AssignResolveNode* node = new (m_globalData) AssignResolveNode(location, ident, rhs); setExceptionLocation(node, start, divot, end); return node; } ExpressionNode* createFunctionExpr(const JSTokenLocation& location, const Identifier* name, FunctionBodyNode* body, ParameterNode* parameters, int openBracePos, int closeBracePos, int bodyStartLine, int bodyEndLine) { FuncExprNode* result = new (m_globalData) FuncExprNode(location, *name, body, m_sourceCode->subExpression(openBracePos, closeBracePos, bodyStartLine), parameters); body->setLoc(bodyStartLine, bodyEndLine, location.column); return result; } FunctionBodyNode* createFunctionBody(const JSTokenLocation& location, bool inStrictContext) { return FunctionBodyNode::create(m_globalData, location, inStrictContext); } template PropertyNode* createGetterOrSetterProperty(const JSTokenLocation& location, PropertyNode::Type type, const Identifier* name, ParameterNode* params, FunctionBodyNode* body, int openBracePos, int closeBracePos, int bodyStartLine, int bodyEndLine) { ASSERT(name); body->setLoc(bodyStartLine, bodyEndLine, location.column); body->setInferredName(*name); return new (m_globalData) PropertyNode(m_globalData, *name, new (m_globalData) FuncExprNode(location, m_globalData->propertyNames->nullIdentifier, body, m_sourceCode->subExpression(openBracePos, closeBracePos, bodyStartLine), params), type); } template PropertyNode* createGetterOrSetterProperty(JSGlobalData*, const JSTokenLocation& location, PropertyNode::Type type, double name, ParameterNode* params, FunctionBodyNode* body, int openBracePos, int closeBracePos, int bodyStartLine, int bodyEndLine) { body->setLoc(bodyStartLine, bodyEndLine, location.column); return new (m_globalData) PropertyNode(m_globalData, name, new (m_globalData) FuncExprNode(location, m_globalData->propertyNames->nullIdentifier, body, m_sourceCode->subExpression(openBracePos, closeBracePos, bodyStartLine), params), type); } ArgumentsNode* createArguments() { return new (m_globalData) ArgumentsNode(); } ArgumentsNode* createArguments(ArgumentListNode* args) { return new (m_globalData) ArgumentsNode(args); } ArgumentListNode* createArgumentsList(const JSTokenLocation& location, ExpressionNode* arg) { return new (m_globalData) ArgumentListNode(location, arg); } ArgumentListNode* createArgumentsList(const JSTokenLocation& location, ArgumentListNode* args, ExpressionNode* arg) { return new (m_globalData) ArgumentListNode(location, args, arg); } template PropertyNode* createProperty(const Identifier* propertyName, ExpressionNode* node, PropertyNode::Type type) { if (node->isFuncExprNode()) static_cast(node)->body()->setInferredName(*propertyName); return new (m_globalData) PropertyNode(m_globalData, *propertyName, node, type); } template PropertyNode* createProperty(JSGlobalData*, double propertyName, ExpressionNode* node, PropertyNode::Type type) { return new (m_globalData) PropertyNode(m_globalData, propertyName, node, type); } PropertyListNode* createPropertyList(const JSTokenLocation& location, PropertyNode* property) { return new (m_globalData) PropertyListNode(location, property); } PropertyListNode* createPropertyList(const JSTokenLocation& location, PropertyNode* property, PropertyListNode* tail) { return new (m_globalData) PropertyListNode(location, property, tail); } ElementNode* createElementList(int elisions, ExpressionNode* expr) { return new (m_globalData) ElementNode(elisions, expr); } ElementNode* createElementList(ElementNode* elems, int elisions, ExpressionNode* expr) { return new (m_globalData) ElementNode(elems, elisions, expr); } ParameterNode* createFormalParameterList(const Identifier& ident) { return new (m_globalData) ParameterNode(ident); } ParameterNode* createFormalParameterList(ParameterNode* list, const Identifier& ident) { return new (m_globalData) ParameterNode(list, ident); } CaseClauseNode* createClause(ExpressionNode* expr, JSC::SourceElements* statements) { return new (m_globalData) CaseClauseNode(expr, statements); } ClauseListNode* createClauseList(CaseClauseNode* clause) { return new (m_globalData) ClauseListNode(clause); } ClauseListNode* createClauseList(ClauseListNode* tail, CaseClauseNode* clause) { return new (m_globalData) ClauseListNode(tail, clause); } void setUsesArguments(FunctionBodyNode* node) { node->setUsesArguments(); } StatementNode* createFuncDeclStatement(const JSTokenLocation& location, const Identifier* name, FunctionBodyNode* body, ParameterNode* parameters, int openBracePos, int closeBracePos, int bodyStartLine, int bodyEndLine) { FuncDeclNode* decl = new (m_globalData) FuncDeclNode(location, *name, body, m_sourceCode->subExpression(openBracePos, closeBracePos, bodyStartLine), parameters); if (*name == m_globalData->propertyNames->arguments) usesArguments(); m_scope.m_funcDeclarations->data.append(decl->body()); body->setLoc(bodyStartLine, bodyEndLine, location.column); return decl; } StatementNode* createBlockStatement(const JSTokenLocation& location, JSC::SourceElements* elements, int startLine, int endLine) { BlockNode* block = new (m_globalData) BlockNode(location, elements); block->setLoc(startLine, endLine, location.column); return block; } StatementNode* createExprStatement(const JSTokenLocation& location, ExpressionNode* expr, int start, int end) { ExprStatementNode* result = new (m_globalData) ExprStatementNode(location, expr); result->setLoc(start, end, location.column); return result; } StatementNode* createIfStatement(const JSTokenLocation& location, ExpressionNode* condition, StatementNode* trueBlock, int start, int end) { IfNode* result = new (m_globalData) IfNode(location, condition, trueBlock); result->setLoc(start, end, location.column); return result; } StatementNode* createIfStatement(const JSTokenLocation& location, ExpressionNode* condition, StatementNode* trueBlock, StatementNode* falseBlock, int start, int end) { IfNode* result = new (m_globalData) IfElseNode(location, condition, trueBlock, falseBlock); result->setLoc(start, end, location.column); return result; } StatementNode* createForLoop(const JSTokenLocation& location, ExpressionNode* initializer, ExpressionNode* condition, ExpressionNode* iter, StatementNode* statements, int start, int end) { ForNode* result = new (m_globalData) ForNode(location, initializer, condition, iter, statements); result->setLoc(start, end); return result; } StatementNode* createForInLoop(const JSTokenLocation& location, const Identifier* ident, ExpressionNode* initializer, ExpressionNode* iter, StatementNode* statements, int start, int divot, int end, int initStart, int initEnd, int startLine, int endLine) { ForInNode* result = new (m_globalData) ForInNode(m_globalData, location, *ident, initializer, iter, statements, initStart, initStart - start, initEnd - initStart); result->setLoc(startLine, endLine, location.column); setExceptionLocation(result, start, divot + 1, end); return result; } StatementNode* createForInLoop(const JSTokenLocation& location, ExpressionNode* lhs, ExpressionNode* iter, StatementNode* statements, int eStart, int eDivot, int eEnd, int start, int end) { ForInNode* result = new (m_globalData) ForInNode(location, lhs, iter, statements); result->setLoc(start, end, location.column); setExceptionLocation(result, eStart, eDivot, eEnd); return result; } StatementNode* createEmptyStatement(const JSTokenLocation& location) { return new (m_globalData) EmptyStatementNode(location); } StatementNode* createVarStatement(const JSTokenLocation& location, ExpressionNode* expr, int start, int end) { StatementNode* result; if (!expr) result = new (m_globalData) EmptyStatementNode(location); else result = new (m_globalData) VarStatementNode(location, expr); result->setLoc(start, end, location.column); return result; } StatementNode* createReturnStatement(const JSTokenLocation& location, ExpressionNode* expression, int eStart, int eEnd, int startLine, int endLine) { ReturnNode* result = new (m_globalData) ReturnNode(location, expression); setExceptionLocation(result, eStart, eEnd, eEnd); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createBreakStatement(const JSTokenLocation& location, int eStart, int eEnd, int startLine, int endLine) { BreakNode* result = new (m_globalData) BreakNode(m_globalData, location); setExceptionLocation(result, eStart, eEnd, eEnd); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createBreakStatement(const JSTokenLocation& location, const Identifier* ident, int eStart, int eEnd, int startLine, int endLine) { BreakNode* result = new (m_globalData) BreakNode(location, *ident); setExceptionLocation(result, eStart, eEnd, eEnd); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createContinueStatement(const JSTokenLocation& location, int eStart, int eEnd, int startLine, int endLine) { ContinueNode* result = new (m_globalData) ContinueNode(m_globalData, location); setExceptionLocation(result, eStart, eEnd, eEnd); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createContinueStatement(const JSTokenLocation& location, const Identifier* ident, int eStart, int eEnd, int startLine, int endLine) { ContinueNode* result = new (m_globalData) ContinueNode(location, *ident); setExceptionLocation(result, eStart, eEnd, eEnd); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createTryStatement(const JSTokenLocation& location, StatementNode* tryBlock, const Identifier* ident, StatementNode* catchBlock, StatementNode* finallyBlock, int startLine, int endLine) { TryNode* result = new (m_globalData) TryNode(location, tryBlock, *ident, catchBlock, finallyBlock); if (catchBlock) usesCatch(); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createSwitchStatement(const JSTokenLocation& location, ExpressionNode* expr, ClauseListNode* firstClauses, CaseClauseNode* defaultClause, ClauseListNode* secondClauses, int startLine, int endLine) { CaseBlockNode* cases = new (m_globalData) CaseBlockNode(firstClauses, defaultClause, secondClauses); SwitchNode* result = new (m_globalData) SwitchNode(location, expr, cases); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createWhileStatement(const JSTokenLocation& location, ExpressionNode* expr, StatementNode* statement, int startLine, int endLine) { WhileNode* result = new (m_globalData) WhileNode(location, expr, statement); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createDoWhileStatement(const JSTokenLocation& location, StatementNode* statement, ExpressionNode* expr, int startLine, int endLine) { DoWhileNode* result = new (m_globalData) DoWhileNode(location, statement, expr); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createLabelStatement(const JSTokenLocation& location, const Identifier* ident, StatementNode* statement, int start, int end) { LabelNode* result = new (m_globalData) LabelNode(location, *ident, statement); setExceptionLocation(result, start, end, end); return result; } StatementNode* createWithStatement(const JSTokenLocation& location, ExpressionNode* expr, StatementNode* statement, int start, int end, int startLine, int endLine) { usesWith(); WithNode* result = new (m_globalData) WithNode(location, expr, statement, end, end - start); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createThrowStatement(const JSTokenLocation& location, ExpressionNode* expr, int start, int end, int startLine, int endLine) { ThrowNode* result = new (m_globalData) ThrowNode(location, expr); result->setLoc(startLine, endLine, location.column); setExceptionLocation(result, start, end, end); return result; } StatementNode* createDebugger(const JSTokenLocation& location, int startLine, int endLine) { DebuggerStatementNode* result = new (m_globalData) DebuggerStatementNode(location); result->setLoc(startLine, endLine, location.column); return result; } StatementNode* createConstStatement(const JSTokenLocation& location, ConstDeclNode* decls, int startLine, int endLine) { ConstStatementNode* result = new (m_globalData) ConstStatementNode(location, decls); result->setLoc(startLine, endLine, location.column); return result; } ConstDeclNode* appendConstDecl(const JSTokenLocation& location, ConstDeclNode* tail, const Identifier* name, ExpressionNode* initializer) { ConstDeclNode* result = new (m_globalData) ConstDeclNode(location, *name, initializer); if (tail) tail->m_next = result; return result; } void appendStatement(JSC::SourceElements* elements, JSC::StatementNode* statement) { elements->append(statement); } void addVar(const Identifier* ident, int attrs) { if (m_globalData->propertyNames->arguments == *ident) usesArguments(); m_scope.m_varDeclarations->data.append(std::make_pair(ident, attrs)); } ExpressionNode* combineCommaNodes(const JSTokenLocation& location, ExpressionNode* list, ExpressionNode* init) { if (!list) return init; if (list->isCommaNode()) { static_cast(list)->append(init); return list; } return new (m_globalData) CommaNode(location, list, init); } int evalCount() const { return m_evalCount; } void appendBinaryExpressionInfo(int& operandStackDepth, ExpressionNode* current, int exprStart, int lhs, int rhs, bool hasAssignments) { operandStackDepth++; m_binaryOperandStack.append(std::make_pair(current, BinaryOpInfo(exprStart, lhs, rhs, hasAssignments))); } // Logic to handle datastructures used during parsing of binary expressions void operatorStackPop(int& operatorStackDepth) { operatorStackDepth--; m_binaryOperatorStack.removeLast(); } bool operatorStackHasHigherPrecedence(int&, int precedence) { return precedence <= m_binaryOperatorStack.last().second; } const BinaryOperand& getFromOperandStack(int i) { return m_binaryOperandStack[m_binaryOperandStack.size() + i]; } void shrinkOperandStackBy(int& operandStackDepth, int amount) { operandStackDepth -= amount; ASSERT(operandStackDepth >= 0); m_binaryOperandStack.resize(m_binaryOperandStack.size() - amount); } void appendBinaryOperation(const JSTokenLocation& location, int& operandStackDepth, int&, const BinaryOperand& lhs, const BinaryOperand& rhs) { operandStackDepth++; m_binaryOperandStack.append(std::make_pair(makeBinaryNode(location, m_binaryOperatorStack.last().first, lhs, rhs), BinaryOpInfo(lhs.second, rhs.second))); } void operatorStackAppend(int& operatorStackDepth, int op, int precedence) { operatorStackDepth++; m_binaryOperatorStack.append(std::make_pair(op, precedence)); } ExpressionNode* popOperandStack(int&) { ExpressionNode* result = m_binaryOperandStack.last().first; m_binaryOperandStack.removeLast(); return result; } void appendUnaryToken(int& tokenStackDepth, int type, int start) { tokenStackDepth++; m_unaryTokenStack.append(std::make_pair(type, start)); } int unaryTokenStackLastType(int&) { return m_unaryTokenStack.last().first; } int unaryTokenStackLastStart(int&) { return m_unaryTokenStack.last().second; } void unaryTokenStackRemoveLast(int& tokenStackDepth) { tokenStackDepth--; m_unaryTokenStack.removeLast(); } void assignmentStackAppend(int& assignmentStackDepth, ExpressionNode* node, int start, int divot, int assignmentCount, Operator op) { assignmentStackDepth++; m_assignmentInfoStack.append(AssignmentInfo(node, start, divot, assignmentCount, op)); } ExpressionNode* createAssignment(const JSTokenLocation& location, int& assignmentStackDepth, ExpressionNode* rhs, int initialAssignmentCount, int currentAssignmentCount, int lastTokenEnd) { ExpressionNode* result = makeAssignNode(location, m_assignmentInfoStack.last().m_node, m_assignmentInfoStack.last().m_op, rhs, m_assignmentInfoStack.last().m_initAssignments != initialAssignmentCount, m_assignmentInfoStack.last().m_initAssignments != currentAssignmentCount, m_assignmentInfoStack.last().m_start, m_assignmentInfoStack.last().m_divot + 1, lastTokenEnd); m_assignmentInfoStack.removeLast(); assignmentStackDepth--; return result; } const Identifier& getName(Property property) const { return property->name(); } PropertyNode::Type getType(Property property) const { return property->type(); } bool isResolve(ExpressionNode* expr) const { return expr->isResolveNode(); } private: struct Scope { Scope(JSGlobalData* globalData) : m_varDeclarations(new (globalData) ParserArenaData) , m_funcDeclarations(new (globalData) ParserArenaData) , m_features(0) , m_numConstants(0) { } ParserArenaData* m_varDeclarations; ParserArenaData* m_funcDeclarations; int m_features; int m_numConstants; }; static void setExceptionLocation(ThrowableExpressionData* node, unsigned start, unsigned divot, unsigned end) { node->setExceptionSourceCode(divot, divot - start, end - divot); } void incConstants() { m_scope.m_numConstants++; } void usesThis() { m_scope.m_features |= ThisFeature; } void usesCatch() { m_scope.m_features |= CatchFeature; } void usesArguments() { m_scope.m_features |= ArgumentsFeature; } void usesWith() { m_scope.m_features |= WithFeature; } void usesEval() { m_evalCount++; m_scope.m_features |= EvalFeature; } ExpressionNode* createNumber(const JSTokenLocation& location, double d) { return new (m_globalData) NumberNode(location, d); } JSGlobalData* m_globalData; SourceCode* m_sourceCode; Scope m_scope; Vector m_binaryOperandStack; Vector m_assignmentInfoStack; Vector, 10> m_binaryOperatorStack; Vector, 10> m_unaryTokenStack; int m_evalCount; }; ExpressionNode* ASTBuilder::makeTypeOfNode(const JSTokenLocation& location, ExpressionNode* expr) { if (expr->isResolveNode()) { ResolveNode* resolve = static_cast(expr); return new (m_globalData) TypeOfResolveNode(location, resolve->identifier()); } return new (m_globalData) TypeOfValueNode(location, expr); } ExpressionNode* ASTBuilder::makeDeleteNode(const JSTokenLocation& location, ExpressionNode* expr, int start, int divot, int end) { if (!expr->isLocation()) return new (m_globalData) DeleteValueNode(location, expr); if (expr->isResolveNode()) { ResolveNode* resolve = static_cast(expr); return new (m_globalData) DeleteResolveNode(location, resolve->identifier(), divot, divot - start, end - divot); } if (expr->isBracketAccessorNode()) { BracketAccessorNode* bracket = static_cast(expr); return new (m_globalData) DeleteBracketNode(location, bracket->base(), bracket->subscript(), divot, divot - start, end - divot); } ASSERT(expr->isDotAccessorNode()); DotAccessorNode* dot = static_cast(expr); return new (m_globalData) DeleteDotNode(location, dot->base(), dot->identifier(), divot, divot - start, end - divot); } ExpressionNode* ASTBuilder::makeNegateNode(const JSTokenLocation& location, ExpressionNode* n) { if (n->isNumber()) { NumberNode* numberNode = static_cast(n); numberNode->setValue(-numberNode->value()); return numberNode; } return new (m_globalData) NegateNode(location, n); } ExpressionNode* ASTBuilder::makeBitwiseNotNode(const JSTokenLocation& location, ExpressionNode* expr) { if (expr->isNumber()) return createNumber(location, ~toInt32(static_cast(expr)->value())); return new (m_globalData) BitwiseNotNode(location, expr); } ExpressionNode* ASTBuilder::makeMultNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { expr1 = expr1->stripUnaryPlus(); expr2 = expr2->stripUnaryPlus(); if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, static_cast(expr1)->value() * static_cast(expr2)->value()); if (expr1->isNumber() && static_cast(expr1)->value() == 1) return new (m_globalData) UnaryPlusNode(location, expr2); if (expr2->isNumber() && static_cast(expr2)->value() == 1) return new (m_globalData) UnaryPlusNode(location, expr1); return new (m_globalData) MultNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeDivNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { expr1 = expr1->stripUnaryPlus(); expr2 = expr2->stripUnaryPlus(); if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, static_cast(expr1)->value() / static_cast(expr2)->value()); return new (m_globalData) DivNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeModNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { expr1 = expr1->stripUnaryPlus(); expr2 = expr2->stripUnaryPlus(); if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, fmod(static_cast(expr1)->value(), static_cast(expr2)->value())); return new (m_globalData) ModNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeAddNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, static_cast(expr1)->value() + static_cast(expr2)->value()); return new (m_globalData) AddNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeSubNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { expr1 = expr1->stripUnaryPlus(); expr2 = expr2->stripUnaryPlus(); if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, static_cast(expr1)->value() - static_cast(expr2)->value()); return new (m_globalData) SubNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeLeftShiftNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toInt32(static_cast(expr1)->value()) << (toUInt32(static_cast(expr2)->value()) & 0x1f)); return new (m_globalData) LeftShiftNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeRightShiftNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toInt32(static_cast(expr1)->value()) >> (toUInt32(static_cast(expr2)->value()) & 0x1f)); return new (m_globalData) RightShiftNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeURightShiftNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toUInt32(static_cast(expr1)->value()) >> (toUInt32(static_cast(expr2)->value()) & 0x1f)); return new (m_globalData) UnsignedRightShiftNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeBitOrNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toInt32(static_cast(expr1)->value()) | toInt32(static_cast(expr2)->value())); return new (m_globalData) BitOrNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeBitAndNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toInt32(static_cast(expr1)->value()) & toInt32(static_cast(expr2)->value())); return new (m_globalData) BitAndNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeBitXOrNode(const JSTokenLocation& location, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments) { if (expr1->isNumber() && expr2->isNumber()) return createNumber(location, toInt32(static_cast(expr1)->value()) ^ toInt32(static_cast(expr2)->value())); return new (m_globalData) BitXOrNode(location, expr1, expr2, rightHasAssignments); } ExpressionNode* ASTBuilder::makeFunctionCallNode(const JSTokenLocation& location, ExpressionNode* func, ArgumentsNode* args, int start, int divot, int end) { if (!func->isLocation()) return new (m_globalData) FunctionCallValueNode(location, func, args, divot, divot - start, end - divot); if (func->isResolveNode()) { ResolveNode* resolve = static_cast(func); const Identifier& identifier = resolve->identifier(); if (identifier == m_globalData->propertyNames->eval) { usesEval(); return new (m_globalData) EvalFunctionCallNode(location, args, divot, divot - start, end - divot); } return new (m_globalData) FunctionCallResolveNode(location, identifier, args, divot, divot - start, end - divot); } if (func->isBracketAccessorNode()) { BracketAccessorNode* bracket = static_cast(func); FunctionCallBracketNode* node = new (m_globalData) FunctionCallBracketNode(location, bracket->base(), bracket->subscript(), args, divot, divot - start, end - divot); node->setSubexpressionInfo(bracket->divot(), bracket->endOffset()); return node; } ASSERT(func->isDotAccessorNode()); DotAccessorNode* dot = static_cast(func); FunctionCallDotNode* node; if (dot->identifier() == m_globalData->propertyNames->call) node = new (m_globalData) CallFunctionCallDotNode(location, dot->base(), dot->identifier(), args, divot, divot - start, end - divot); else if (dot->identifier() == m_globalData->propertyNames->apply) node = new (m_globalData) ApplyFunctionCallDotNode(location, dot->base(), dot->identifier(), args, divot, divot - start, end - divot); else node = new (m_globalData) FunctionCallDotNode(location, dot->base(), dot->identifier(), args, divot, divot - start, end - divot); node->setSubexpressionInfo(dot->divot(), dot->endOffset()); return node; } ExpressionNode* ASTBuilder::makeBinaryNode(const JSTokenLocation& location, int token, pair lhs, pair rhs) { switch (token) { case OR: return new (m_globalData) LogicalOpNode(location, lhs.first, rhs.first, OpLogicalOr); case AND: return new (m_globalData) LogicalOpNode(location, lhs.first, rhs.first, OpLogicalAnd); case BITOR: return makeBitOrNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case BITXOR: return makeBitXOrNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case BITAND: return makeBitAndNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case EQEQ: return new (m_globalData) EqualNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case NE: return new (m_globalData) NotEqualNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case STREQ: return new (m_globalData) StrictEqualNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case STRNEQ: return new (m_globalData) NotStrictEqualNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case LT: return new (m_globalData) LessNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case GT: return new (m_globalData) GreaterNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case LE: return new (m_globalData) LessEqNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case GE: return new (m_globalData) GreaterEqNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case INSTANCEOF: { InstanceOfNode* node = new (m_globalData) InstanceOfNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); setExceptionLocation(node, lhs.second.start, rhs.second.start, rhs.second.end); return node; } case INTOKEN: { InNode* node = new (m_globalData) InNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); setExceptionLocation(node, lhs.second.start, rhs.second.start, rhs.second.end); return node; } case LSHIFT: return makeLeftShiftNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case RSHIFT: return makeRightShiftNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case URSHIFT: return makeURightShiftNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case PLUS: return makeAddNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case MINUS: return makeSubNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case TIMES: return makeMultNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case DIVIDE: return makeDivNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); case MOD: return makeModNode(location, lhs.first, rhs.first, rhs.second.hasAssignment); } CRASH(); return 0; } ExpressionNode* ASTBuilder::makeAssignNode(const JSTokenLocation& location, ExpressionNode* loc, Operator op, ExpressionNode* expr, bool locHasAssignments, bool exprHasAssignments, int start, int divot, int end) { if (!loc->isLocation()) return new (m_globalData) AssignErrorNode(location, divot, divot - start, end - divot); if (loc->isResolveNode()) { ResolveNode* resolve = static_cast(loc); if (op == OpEqual) { if (expr->isFuncExprNode()) static_cast(expr)->body()->setInferredName(resolve->identifier()); AssignResolveNode* node = new (m_globalData) AssignResolveNode(location, resolve->identifier(), expr); setExceptionLocation(node, start, divot, end); return node; } return new (m_globalData) ReadModifyResolveNode(location, resolve->identifier(), op, expr, exprHasAssignments, divot, divot - start, end - divot); } if (loc->isBracketAccessorNode()) { BracketAccessorNode* bracket = static_cast(loc); if (op == OpEqual) return new (m_globalData) AssignBracketNode(location, bracket->base(), bracket->subscript(), expr, locHasAssignments, exprHasAssignments, bracket->divot(), bracket->divot() - start, end - bracket->divot()); ReadModifyBracketNode* node = new (m_globalData) ReadModifyBracketNode(location, bracket->base(), bracket->subscript(), op, expr, locHasAssignments, exprHasAssignments, divot, divot - start, end - divot); node->setSubexpressionInfo(bracket->divot(), bracket->endOffset()); return node; } ASSERT(loc->isDotAccessorNode()); DotAccessorNode* dot = static_cast(loc); if (op == OpEqual) { if (expr->isFuncExprNode()) static_cast(expr)->body()->setInferredName(dot->identifier()); return new (m_globalData) AssignDotNode(location, dot->base(), dot->identifier(), expr, exprHasAssignments, dot->divot(), dot->divot() - start, end - dot->divot()); } ReadModifyDotNode* node = new (m_globalData) ReadModifyDotNode(location, dot->base(), dot->identifier(), op, expr, exprHasAssignments, divot, divot - start, end - divot); node->setSubexpressionInfo(dot->divot(), dot->endOffset()); return node; } ExpressionNode* ASTBuilder::makePrefixNode(const JSTokenLocation& location, ExpressionNode* expr, Operator op, int start, int divot, int end) { return new (m_globalData) PrefixNode(location, expr, op, divot, divot - start, end - divot); } ExpressionNode* ASTBuilder::makePostfixNode(const JSTokenLocation& location, ExpressionNode* expr, Operator op, int start, int divot, int end) { return new (m_globalData) PostfixNode(location, expr, op, divot, divot - start, end - divot); } } #endif