/* * Copyright (C) 1999-2000 Harri Porten (porten@kde.org) * Copyright (C) 2001 Peter Kelly (pmk@post.com) * Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2009 Apple Inc. All rights reserved. * Copyright (C) 2007 Cameron Zwarich (cwzwarich@uwaterloo.ca) * Copyright (C) 2007 Maks Orlovich * Copyright (C) 2007 Eric Seidel * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #ifndef Nodes_h #define Nodes_h #include "Error.h" #include "JITCode.h" #include "Opcode.h" #include "ParserArena.h" #include "ResultType.h" #include "SourceCode.h" #include "SymbolTable.h" #include namespace JSC { class ArgumentListNode; class BytecodeGenerator; class FunctionBodyNode; class Label; class PropertyListNode; class ReadModifyResolveNode; class RegisterID; class ScopeChainNode; class ScopeNode; typedef unsigned CodeFeatures; const CodeFeatures NoFeatures = 0; const CodeFeatures EvalFeature = 1 << 0; const CodeFeatures ClosureFeature = 1 << 1; const CodeFeatures AssignFeature = 1 << 2; const CodeFeatures ArgumentsFeature = 1 << 3; const CodeFeatures WithFeature = 1 << 4; const CodeFeatures CatchFeature = 1 << 5; const CodeFeatures ThisFeature = 1 << 6; const CodeFeatures StrictModeFeature = 1 << 7; const CodeFeatures ShadowsArgumentsFeature = 1 << 8; const CodeFeatures AllFeatures = EvalFeature | ClosureFeature | AssignFeature | ArgumentsFeature | WithFeature | CatchFeature | ThisFeature | StrictModeFeature | ShadowsArgumentsFeature; enum Operator { OpEqual, OpPlusEq, OpMinusEq, OpMultEq, OpDivEq, OpPlusPlus, OpMinusMinus, OpAndEq, OpXOrEq, OpOrEq, OpModEq, OpLShift, OpRShift, OpURShift }; enum LogicalOperator { OpLogicalAnd, OpLogicalOr }; typedef HashSet, IdentifierRepHash> IdentifierSet; namespace DeclarationStacks { enum VarAttrs { IsConstant = 1, HasInitializer = 2 }; typedef Vector > VarStack; typedef Vector FunctionStack; } struct SwitchInfo { enum SwitchType { SwitchNone, SwitchImmediate, SwitchCharacter, SwitchString }; uint32_t bytecodeOffset; SwitchType switchType; }; class ParserArenaFreeable { public: // ParserArenaFreeable objects are are freed when the arena is deleted. // Destructors are not called. Clients must not call delete on such objects. void* operator new(size_t, JSGlobalData*); }; class ParserArenaDeletable { public: virtual ~ParserArenaDeletable() { } // ParserArenaDeletable objects are deleted when the arena is deleted. // Clients must not call delete directly on such objects. void* operator new(size_t, JSGlobalData*); }; class ParserArenaRefCounted : public RefCounted { protected: ParserArenaRefCounted(JSGlobalData*); public: virtual ~ParserArenaRefCounted() { ASSERT(deletionHasBegun()); } }; class Node : public ParserArenaFreeable { protected: Node(JSGlobalData*); public: virtual ~Node() { } virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* destination = 0) = 0; int lineNo() const { return m_line; } protected: int m_line; }; class ExpressionNode : public Node { protected: ExpressionNode(JSGlobalData*, ResultType = ResultType::unknownType()); public: virtual bool isNumber() const { return false; } virtual bool isString() const { return false; } virtual bool isNull() const { return false; } virtual bool isPure(BytecodeGenerator&) const { return false; } virtual bool isLocation() const { return false; } virtual bool isResolveNode() const { return false; } virtual bool isBracketAccessorNode() const { return false; } virtual bool isDotAccessorNode() const { return false; } virtual bool isFuncExprNode() const { return false; } virtual bool isCommaNode() const { return false; } virtual bool isSimpleArray() const { return false; } virtual bool isAdd() const { return false; } virtual bool isSubtract() const { return false; } virtual bool hasConditionContextCodegen() const { return false; } virtual void emitBytecodeInConditionContext(BytecodeGenerator&, Label*, Label*, bool) { ASSERT_NOT_REACHED(); } virtual ExpressionNode* stripUnaryPlus() { return this; } ResultType resultDescriptor() const { return m_resultType; } private: ResultType m_resultType; }; class StatementNode : public Node { protected: StatementNode(JSGlobalData*); public: void setLoc(int firstLine, int lastLine); int firstLine() const { return lineNo(); } int lastLine() const { return m_lastLine; } virtual bool isEmptyStatement() const { return false; } virtual bool isReturnNode() const { return false; } virtual bool isExprStatement() const { return false; } virtual bool isBlock() const { return false; } private: int m_lastLine; }; class NullNode : public ExpressionNode { public: NullNode(JSGlobalData*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isNull() const { return true; } }; class BooleanNode : public ExpressionNode { public: BooleanNode(JSGlobalData*, bool value); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isPure(BytecodeGenerator&) const { return true; } bool m_value; }; class NumberNode : public ExpressionNode { public: NumberNode(JSGlobalData*, double value); double value() const { return m_value; } void setValue(double value) { m_value = value; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isNumber() const { return true; } virtual bool isPure(BytecodeGenerator&) const { return true; } double m_value; }; class StringNode : public ExpressionNode { public: StringNode(JSGlobalData*, const Identifier&); const Identifier& value() { return m_value; } private: virtual bool isPure(BytecodeGenerator&) const { return true; } virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isString() const { return true; } const Identifier& m_value; }; class ThrowableExpressionData { public: ThrowableExpressionData() : m_divot(static_cast(-1)) , m_startOffset(static_cast(-1)) , m_endOffset(static_cast(-1)) { } ThrowableExpressionData(unsigned divot, unsigned startOffset, unsigned endOffset) : m_divot(divot) , m_startOffset(startOffset) , m_endOffset(endOffset) { } void setExceptionSourceCode(unsigned divot, unsigned startOffset, unsigned endOffset) { m_divot = divot; m_startOffset = startOffset; m_endOffset = endOffset; } uint32_t divot() const { return m_divot; } uint16_t startOffset() const { return m_startOffset; } uint16_t endOffset() const { return m_endOffset; } protected: RegisterID* emitThrowReferenceError(BytecodeGenerator&, const UString& message); private: uint32_t m_divot; uint16_t m_startOffset; uint16_t m_endOffset; }; class ThrowableSubExpressionData : public ThrowableExpressionData { public: ThrowableSubExpressionData() : m_subexpressionDivotOffset(0) , m_subexpressionEndOffset(0) { } ThrowableSubExpressionData(unsigned divot, unsigned startOffset, unsigned endOffset) : ThrowableExpressionData(divot, startOffset, endOffset) , m_subexpressionDivotOffset(0) , m_subexpressionEndOffset(0) { } void setSubexpressionInfo(uint32_t subexpressionDivot, uint16_t subexpressionOffset) { ASSERT(subexpressionDivot <= divot()); if ((divot() - subexpressionDivot) & ~0xFFFF) // Overflow means we can't do this safely, so just point at the primary divot return; m_subexpressionDivotOffset = divot() - subexpressionDivot; m_subexpressionEndOffset = subexpressionOffset; } protected: uint16_t m_subexpressionDivotOffset; uint16_t m_subexpressionEndOffset; }; class ThrowablePrefixedSubExpressionData : public ThrowableExpressionData { public: ThrowablePrefixedSubExpressionData() : m_subexpressionDivotOffset(0) , m_subexpressionStartOffset(0) { } ThrowablePrefixedSubExpressionData(unsigned divot, unsigned startOffset, unsigned endOffset) : ThrowableExpressionData(divot, startOffset, endOffset) , m_subexpressionDivotOffset(0) , m_subexpressionStartOffset(0) { } void setSubexpressionInfo(uint32_t subexpressionDivot, uint16_t subexpressionOffset) { ASSERT(subexpressionDivot >= divot()); if ((subexpressionDivot - divot()) & ~0xFFFF) // Overflow means we can't do this safely, so just point at the primary divot return; m_subexpressionDivotOffset = subexpressionDivot - divot(); m_subexpressionStartOffset = subexpressionOffset; } protected: uint16_t m_subexpressionDivotOffset; uint16_t m_subexpressionStartOffset; }; class RegExpNode : public ExpressionNode, public ThrowableExpressionData { public: RegExpNode(JSGlobalData*, const Identifier& pattern, const Identifier& flags); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_pattern; const Identifier& m_flags; }; class ThisNode : public ExpressionNode { public: ThisNode(JSGlobalData*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class ResolveNode : public ExpressionNode { public: ResolveNode(JSGlobalData*, const Identifier&, int startOffset); const Identifier& identifier() const { return m_ident; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isPure(BytecodeGenerator&) const ; virtual bool isLocation() const { return true; } virtual bool isResolveNode() const { return true; } const Identifier& m_ident; int32_t m_startOffset; }; class ElementNode : public ParserArenaFreeable { public: ElementNode(JSGlobalData*, int elision, ExpressionNode*); ElementNode(JSGlobalData*, ElementNode*, int elision, ExpressionNode*); int elision() const { return m_elision; } ExpressionNode* value() { return m_node; } ElementNode* next() { return m_next; } private: ElementNode* m_next; int m_elision; ExpressionNode* m_node; }; class ArrayNode : public ExpressionNode { public: ArrayNode(JSGlobalData*, int elision); ArrayNode(JSGlobalData*, ElementNode*); ArrayNode(JSGlobalData*, int elision, ElementNode*); ArgumentListNode* toArgumentList(JSGlobalData*) const; private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isSimpleArray() const ; ElementNode* m_element; int m_elision; bool m_optional; }; class PropertyNode : public ParserArenaFreeable { public: enum Type { Constant = 1, Getter = 2, Setter = 4 }; PropertyNode(JSGlobalData*, const Identifier& name, ExpressionNode* value, Type); PropertyNode(JSGlobalData*, double name, ExpressionNode* value, Type); const Identifier& name() const { return m_name; } Type type() const { return m_type; } private: friend class PropertyListNode; const Identifier& m_name; ExpressionNode* m_assign; Type m_type; }; class PropertyListNode : public Node { public: PropertyListNode(JSGlobalData*, PropertyNode*); PropertyListNode(JSGlobalData*, PropertyNode*, PropertyListNode*); virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); private: PropertyNode* m_node; PropertyListNode* m_next; }; class ObjectLiteralNode : public ExpressionNode { public: ObjectLiteralNode(JSGlobalData*); ObjectLiteralNode(JSGlobalData*, PropertyListNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); PropertyListNode* m_list; }; class BracketAccessorNode : public ExpressionNode, public ThrowableExpressionData { public: BracketAccessorNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, bool subscriptHasAssignments); ExpressionNode* base() const { return m_base; } ExpressionNode* subscript() const { return m_subscript; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isLocation() const { return true; } virtual bool isBracketAccessorNode() const { return true; } ExpressionNode* m_base; ExpressionNode* m_subscript; bool m_subscriptHasAssignments; }; class DotAccessorNode : public ExpressionNode, public ThrowableExpressionData { public: DotAccessorNode(JSGlobalData*, ExpressionNode* base, const Identifier&); ExpressionNode* base() const { return m_base; } const Identifier& identifier() const { return m_ident; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isLocation() const { return true; } virtual bool isDotAccessorNode() const { return true; } ExpressionNode* m_base; const Identifier& m_ident; }; class ArgumentListNode : public Node { public: ArgumentListNode(JSGlobalData*, ExpressionNode*); ArgumentListNode(JSGlobalData*, ArgumentListNode*, ExpressionNode*); ArgumentListNode* m_next; ExpressionNode* m_expr; private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class ArgumentsNode : public ParserArenaFreeable { public: ArgumentsNode(JSGlobalData*); ArgumentsNode(JSGlobalData*, ArgumentListNode*); ArgumentListNode* m_listNode; }; class NewExprNode : public ExpressionNode, public ThrowableExpressionData { public: NewExprNode(JSGlobalData*, ExpressionNode*); NewExprNode(JSGlobalData*, ExpressionNode*, ArgumentsNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; ArgumentsNode* m_args; }; class EvalFunctionCallNode : public ExpressionNode, public ThrowableExpressionData { public: EvalFunctionCallNode(JSGlobalData*, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ArgumentsNode* m_args; }; class FunctionCallValueNode : public ExpressionNode, public ThrowableExpressionData { public: FunctionCallValueNode(JSGlobalData*, ExpressionNode*, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; ArgumentsNode* m_args; }; class FunctionCallResolveNode : public ExpressionNode, public ThrowableExpressionData { public: FunctionCallResolveNode(JSGlobalData*, const Identifier&, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; ArgumentsNode* m_args; size_t m_index; // Used by LocalVarFunctionCallNode. size_t m_scopeDepth; // Used by ScopedVarFunctionCallNode and NonLocalVarFunctionCallNode }; class FunctionCallBracketNode : public ExpressionNode, public ThrowableSubExpressionData { public: FunctionCallBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; ArgumentsNode* m_args; }; class FunctionCallDotNode : public ExpressionNode, public ThrowableSubExpressionData { public: FunctionCallDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); protected: ExpressionNode* m_base; const Identifier& m_ident; ArgumentsNode* m_args; }; class CallFunctionCallDotNode : public FunctionCallDotNode { public: CallFunctionCallDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class ApplyFunctionCallDotNode : public FunctionCallDotNode { public: ApplyFunctionCallDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, ArgumentsNode*, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class PrePostResolveNode : public ExpressionNode, public ThrowableExpressionData { public: PrePostResolveNode(JSGlobalData*, const Identifier&, unsigned divot, unsigned startOffset, unsigned endOffset); protected: const Identifier& m_ident; }; class PostfixResolveNode : public PrePostResolveNode { public: PostfixResolveNode(JSGlobalData*, const Identifier&, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); Operator m_operator; }; class PostfixBracketNode : public ExpressionNode, public ThrowableSubExpressionData { public: PostfixBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; Operator m_operator; }; class PostfixDotNode : public ExpressionNode, public ThrowableSubExpressionData { public: PostfixDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; const Identifier& m_ident; Operator m_operator; }; class PostfixErrorNode : public ExpressionNode, public ThrowableSubExpressionData { public: PostfixErrorNode(JSGlobalData*, ExpressionNode*, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; Operator m_operator; }; class DeleteResolveNode : public ExpressionNode, public ThrowableExpressionData { public: DeleteResolveNode(JSGlobalData*, const Identifier&, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; }; class DeleteBracketNode : public ExpressionNode, public ThrowableExpressionData { public: DeleteBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; }; class DeleteDotNode : public ExpressionNode, public ThrowableExpressionData { public: DeleteDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; const Identifier& m_ident; }; class DeleteValueNode : public ExpressionNode { public: DeleteValueNode(JSGlobalData*, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class VoidNode : public ExpressionNode { public: VoidNode(JSGlobalData*, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class TypeOfResolveNode : public ExpressionNode { public: TypeOfResolveNode(JSGlobalData*, const Identifier&); const Identifier& identifier() const { return m_ident; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; }; class TypeOfValueNode : public ExpressionNode { public: TypeOfValueNode(JSGlobalData*, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class PrefixResolveNode : public PrePostResolveNode { public: PrefixResolveNode(JSGlobalData*, const Identifier&, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); Operator m_operator; }; class PrefixBracketNode : public ExpressionNode, public ThrowablePrefixedSubExpressionData { public: PrefixBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; Operator m_operator; }; class PrefixDotNode : public ExpressionNode, public ThrowablePrefixedSubExpressionData { public: PrefixDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; const Identifier& m_ident; Operator m_operator; }; class PrefixErrorNode : public ExpressionNode, public ThrowableExpressionData { public: PrefixErrorNode(JSGlobalData*, ExpressionNode*, Operator, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; Operator m_operator; }; class UnaryOpNode : public ExpressionNode { public: UnaryOpNode(JSGlobalData*, ResultType, ExpressionNode*, OpcodeID); protected: ExpressionNode* expr() { return m_expr; } const ExpressionNode* expr() const { return m_expr; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); OpcodeID opcodeID() const { return m_opcodeID; } ExpressionNode* m_expr; OpcodeID m_opcodeID; }; class UnaryPlusNode : public UnaryOpNode { public: UnaryPlusNode(JSGlobalData*, ExpressionNode*); private: virtual ExpressionNode* stripUnaryPlus() { return expr(); } }; class NegateNode : public UnaryOpNode { public: NegateNode(JSGlobalData*, ExpressionNode*); }; class BitwiseNotNode : public UnaryOpNode { public: BitwiseNotNode(JSGlobalData*, ExpressionNode*); }; class LogicalNotNode : public UnaryOpNode { public: LogicalNotNode(JSGlobalData*, ExpressionNode*); private: void emitBytecodeInConditionContext(BytecodeGenerator&, Label* trueTarget, Label* falseTarget, bool fallThroughMeansTrue); virtual bool hasConditionContextCodegen() const { return expr()->hasConditionContextCodegen(); } }; class BinaryOpNode : public ExpressionNode { public: BinaryOpNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); BinaryOpNode(JSGlobalData*, ResultType, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); RegisterID* emitStrcat(BytecodeGenerator& generator, RegisterID* destination, RegisterID* lhs = 0, ReadModifyResolveNode* emitExpressionInfoForMe = 0); ExpressionNode* lhs() { return m_expr1; }; ExpressionNode* rhs() { return m_expr2; }; private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); protected: OpcodeID opcodeID() const { return m_opcodeID; } protected: ExpressionNode* m_expr1; ExpressionNode* m_expr2; private: OpcodeID m_opcodeID; protected: bool m_rightHasAssignments; }; class ReverseBinaryOpNode : public BinaryOpNode { public: ReverseBinaryOpNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); ReverseBinaryOpNode(JSGlobalData*, ResultType, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class MultNode : public BinaryOpNode { public: MultNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class DivNode : public BinaryOpNode { public: DivNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class ModNode : public BinaryOpNode { public: ModNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class AddNode : public BinaryOpNode { public: AddNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); virtual bool isAdd() const { return true; } }; class SubNode : public BinaryOpNode { public: SubNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); virtual bool isSubtract() const { return true; } }; class LeftShiftNode : public BinaryOpNode { public: LeftShiftNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class RightShiftNode : public BinaryOpNode { public: RightShiftNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class UnsignedRightShiftNode : public BinaryOpNode { public: UnsignedRightShiftNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class LessNode : public BinaryOpNode { public: LessNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class GreaterNode : public ReverseBinaryOpNode { public: GreaterNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class LessEqNode : public BinaryOpNode { public: LessEqNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class GreaterEqNode : public ReverseBinaryOpNode { public: GreaterEqNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class ThrowableBinaryOpNode : public BinaryOpNode, public ThrowableExpressionData { public: ThrowableBinaryOpNode(JSGlobalData*, ResultType, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); ThrowableBinaryOpNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, OpcodeID, bool rightHasAssignments); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class InstanceOfNode : public ThrowableBinaryOpNode { public: InstanceOfNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class InNode : public ThrowableBinaryOpNode { public: InNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class EqualNode : public BinaryOpNode { public: EqualNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class NotEqualNode : public BinaryOpNode { public: NotEqualNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class StrictEqualNode : public BinaryOpNode { public: StrictEqualNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class NotStrictEqualNode : public BinaryOpNode { public: NotStrictEqualNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class BitAndNode : public BinaryOpNode { public: BitAndNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class BitOrNode : public BinaryOpNode { public: BitOrNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; class BitXOrNode : public BinaryOpNode { public: BitXOrNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, bool rightHasAssignments); }; // m_expr1 && m_expr2, m_expr1 || m_expr2 class LogicalOpNode : public ExpressionNode { public: LogicalOpNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, LogicalOperator); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); void emitBytecodeInConditionContext(BytecodeGenerator&, Label* trueTarget, Label* falseTarget, bool fallThroughMeansTrue); virtual bool hasConditionContextCodegen() const { return true; } ExpressionNode* m_expr1; ExpressionNode* m_expr2; LogicalOperator m_operator; }; // The ternary operator, "m_logical ? m_expr1 : m_expr2" class ConditionalNode : public ExpressionNode { public: ConditionalNode(JSGlobalData*, ExpressionNode* logical, ExpressionNode* expr1, ExpressionNode* expr2); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_logical; ExpressionNode* m_expr1; ExpressionNode* m_expr2; }; class ReadModifyResolveNode : public ExpressionNode, public ThrowableExpressionData { public: ReadModifyResolveNode(JSGlobalData*, const Identifier&, Operator, ExpressionNode* right, bool rightHasAssignments, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; ExpressionNode* m_right; size_t m_index; // Used by ReadModifyLocalVarNode. Operator m_operator; bool m_rightHasAssignments; }; class AssignResolveNode : public ExpressionNode, public ThrowableExpressionData { public: AssignResolveNode(JSGlobalData*, const Identifier&, ExpressionNode* right, bool rightHasAssignments); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; ExpressionNode* m_right; size_t m_index; // Used by ReadModifyLocalVarNode. bool m_rightHasAssignments; }; class ReadModifyBracketNode : public ExpressionNode, public ThrowableSubExpressionData { public: ReadModifyBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, Operator, ExpressionNode* right, bool subscriptHasAssignments, bool rightHasAssignments, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; ExpressionNode* m_right; Operator m_operator : 30; bool m_subscriptHasAssignments : 1; bool m_rightHasAssignments : 1; }; class AssignBracketNode : public ExpressionNode, public ThrowableExpressionData { public: AssignBracketNode(JSGlobalData*, ExpressionNode* base, ExpressionNode* subscript, ExpressionNode* right, bool subscriptHasAssignments, bool rightHasAssignments, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; ExpressionNode* m_subscript; ExpressionNode* m_right; bool m_subscriptHasAssignments : 1; bool m_rightHasAssignments : 1; }; class AssignDotNode : public ExpressionNode, public ThrowableExpressionData { public: AssignDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, ExpressionNode* right, bool rightHasAssignments, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; const Identifier& m_ident; ExpressionNode* m_right; bool m_rightHasAssignments; }; class ReadModifyDotNode : public ExpressionNode, public ThrowableSubExpressionData { public: ReadModifyDotNode(JSGlobalData*, ExpressionNode* base, const Identifier&, Operator, ExpressionNode* right, bool rightHasAssignments, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_base; const Identifier& m_ident; ExpressionNode* m_right; Operator m_operator : 31; bool m_rightHasAssignments : 1; }; class AssignErrorNode : public ExpressionNode, public ThrowableExpressionData { public: AssignErrorNode(JSGlobalData*, ExpressionNode* left, Operator, ExpressionNode* right, unsigned divot, unsigned startOffset, unsigned endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_left; Operator m_operator; ExpressionNode* m_right; }; typedef Vector ExpressionVector; class CommaNode : public ExpressionNode, public ParserArenaDeletable { public: CommaNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2); using ParserArenaDeletable::operator new; void append(ExpressionNode* expr) { m_expressions.append(expr); } private: virtual bool isCommaNode() const { return true; } virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionVector m_expressions; }; class ConstDeclNode : public ExpressionNode { public: ConstDeclNode(JSGlobalData*, const Identifier&, ExpressionNode*); bool hasInitializer() const { return m_init; } const Identifier& ident() { return m_ident; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual RegisterID* emitCodeSingle(BytecodeGenerator&); const Identifier& m_ident; public: ConstDeclNode* m_next; private: ExpressionNode* m_init; }; class ConstStatementNode : public StatementNode { public: ConstStatementNode(JSGlobalData*, ConstDeclNode* next); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ConstDeclNode* m_next; }; class SourceElements : public ParserArenaDeletable { public: SourceElements(JSGlobalData*); void append(StatementNode*); StatementNode* singleStatement() const; StatementNode* lastStatement() const; void emitBytecode(BytecodeGenerator&, RegisterID* destination); private: Vector m_statements; }; class BlockNode : public StatementNode { public: BlockNode(JSGlobalData*, SourceElements* = 0); StatementNode* singleStatement() const; StatementNode* lastStatement() const; private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isBlock() const { return true; } SourceElements* m_statements; }; class EmptyStatementNode : public StatementNode { public: EmptyStatementNode(JSGlobalData*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isEmptyStatement() const { return true; } }; class DebuggerStatementNode : public StatementNode { public: DebuggerStatementNode(JSGlobalData*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class ExprStatementNode : public StatementNode { public: ExprStatementNode(JSGlobalData*, ExpressionNode*); ExpressionNode* expr() const { return m_expr; } private: virtual bool isExprStatement() const { return true; } virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class VarStatementNode : public StatementNode { public: VarStatementNode(JSGlobalData*, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class IfNode : public StatementNode { public: IfNode(JSGlobalData*, ExpressionNode* condition, StatementNode* ifBlock); protected: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_condition; StatementNode* m_ifBlock; }; class IfElseNode : public IfNode { public: IfElseNode(JSGlobalData*, ExpressionNode* condition, StatementNode* ifBlock, StatementNode* elseBlock); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); StatementNode* m_elseBlock; }; class DoWhileNode : public StatementNode { public: DoWhileNode(JSGlobalData*, StatementNode* statement, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); StatementNode* m_statement; ExpressionNode* m_expr; }; class WhileNode : public StatementNode { public: WhileNode(JSGlobalData*, ExpressionNode*, StatementNode* statement); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; StatementNode* m_statement; }; class ForNode : public StatementNode { public: ForNode(JSGlobalData*, ExpressionNode* expr1, ExpressionNode* expr2, ExpressionNode* expr3, StatementNode* statement, bool expr1WasVarDecl); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr1; ExpressionNode* m_expr2; ExpressionNode* m_expr3; StatementNode* m_statement; bool m_expr1WasVarDecl; }; class ForInNode : public StatementNode, public ThrowableExpressionData { public: ForInNode(JSGlobalData*, ExpressionNode*, ExpressionNode*, StatementNode*); ForInNode(JSGlobalData*, const Identifier&, ExpressionNode*, ExpressionNode*, StatementNode*, int divot, int startOffset, int endOffset); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; ExpressionNode* m_init; ExpressionNode* m_lexpr; ExpressionNode* m_expr; StatementNode* m_statement; bool m_identIsVarDecl; }; class ContinueNode : public StatementNode, public ThrowableExpressionData { public: ContinueNode(JSGlobalData*); ContinueNode(JSGlobalData*, const Identifier&); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; }; class BreakNode : public StatementNode, public ThrowableExpressionData { public: BreakNode(JSGlobalData*); BreakNode(JSGlobalData*, const Identifier&); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_ident; }; class ReturnNode : public StatementNode, public ThrowableExpressionData { public: ReturnNode(JSGlobalData*, ExpressionNode* value); ExpressionNode* value() { return m_value; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isReturnNode() const { return true; } ExpressionNode* m_value; }; class WithNode : public StatementNode { public: WithNode(JSGlobalData*, ExpressionNode*, StatementNode*, uint32_t divot, uint32_t expressionLength); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; StatementNode* m_statement; uint32_t m_divot; uint32_t m_expressionLength; }; class LabelNode : public StatementNode, public ThrowableExpressionData { public: LabelNode(JSGlobalData*, const Identifier& name, StatementNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); const Identifier& m_name; StatementNode* m_statement; }; class ThrowNode : public StatementNode, public ThrowableExpressionData { public: ThrowNode(JSGlobalData*, ExpressionNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; }; class TryNode : public StatementNode { public: TryNode(JSGlobalData*, StatementNode* tryBlock, const Identifier& exceptionIdent, bool catchHasEval, StatementNode* catchBlock, StatementNode* finallyBlock); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); StatementNode* m_tryBlock; const Identifier& m_exceptionIdent; StatementNode* m_catchBlock; StatementNode* m_finallyBlock; bool m_catchHasEval; }; class ParameterNode : public ParserArenaFreeable { public: ParameterNode(JSGlobalData*, const Identifier&); ParameterNode(JSGlobalData*, ParameterNode*, const Identifier&); const Identifier& ident() const { return m_ident; } ParameterNode* nextParam() const { return m_next; } private: const Identifier& m_ident; ParameterNode* m_next; }; struct ScopeNodeData { WTF_MAKE_FAST_ALLOCATED; public: typedef DeclarationStacks::VarStack VarStack; typedef DeclarationStacks::FunctionStack FunctionStack; ScopeNodeData(ParserArena&, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, int numConstants); ParserArena m_arena; VarStack m_varStack; FunctionStack m_functionStack; int m_numConstants; SourceElements* m_statements; IdentifierSet m_capturedVariables; }; class ScopeNode : public StatementNode, public ParserArenaRefCounted { public: typedef DeclarationStacks::VarStack VarStack; typedef DeclarationStacks::FunctionStack FunctionStack; ScopeNode(JSGlobalData*, bool inStrictContext); ScopeNode(JSGlobalData*, const SourceCode&, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, CodeFeatures, int numConstants); using ParserArenaRefCounted::operator new; ScopeNodeData* data() const { return m_data.get(); } void destroyData() { m_data.clear(); } const SourceCode& source() const { return m_source; } const UString& sourceURL() const { return m_source.provider()->url(); } intptr_t sourceID() const { return m_source.provider()->asID(); } void setFeatures(CodeFeatures features) { m_features = features; } CodeFeatures features() { return m_features; } bool usesEval() const { return m_features & EvalFeature; } bool usesArguments() const { return (m_features & ArgumentsFeature) && !(m_features & ShadowsArgumentsFeature); } bool isStrictMode() const { return m_features & StrictModeFeature; } void setUsesArguments() { m_features |= ArgumentsFeature; } bool usesThis() const { return m_features & ThisFeature; } bool needsActivationForMoreThanVariables() const { ASSERT(m_data); return m_features & (EvalFeature | WithFeature | CatchFeature); } bool needsActivation() const { ASSERT(m_data); return (hasCapturedVariables()) || (m_features & (EvalFeature | WithFeature | CatchFeature)); } bool hasCapturedVariables() const { return !!m_data->m_capturedVariables.size(); } size_t capturedVariableCount() const { return m_data->m_capturedVariables.size(); } bool captures(const Identifier& ident) { return m_data->m_capturedVariables.contains(ident.impl()); } VarStack& varStack() { ASSERT(m_data); return m_data->m_varStack; } FunctionStack& functionStack() { ASSERT(m_data); return m_data->m_functionStack; } int neededConstants() { ASSERT(m_data); // We may need 2 more constants than the count given by the parser, // because of the various uses of jsUndefined() and jsNull(). return m_data->m_numConstants + 2; } StatementNode* singleStatement() const; void emitStatementsBytecode(BytecodeGenerator&, RegisterID* destination); protected: void setSource(const SourceCode& source) { m_source = source; } private: OwnPtr m_data; CodeFeatures m_features; SourceCode m_source; }; class ProgramNode : public ScopeNode { public: static const bool isFunctionNode = false; static PassRefPtr create(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); static const bool scopeIsFunction = false; private: ProgramNode(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class EvalNode : public ScopeNode { public: static const bool isFunctionNode = false; static PassRefPtr create(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); static const bool scopeIsFunction = false; private: EvalNode(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); }; class FunctionParameters : public Vector, public RefCounted { WTF_MAKE_FAST_ALLOCATED; public: static PassRefPtr create(ParameterNode* firstParameter) { return adoptRef(new FunctionParameters(firstParameter)); } private: FunctionParameters(ParameterNode*); }; class FunctionBodyNode : public ScopeNode { public: static const bool isFunctionNode = true; static FunctionBodyNode* create(JSGlobalData*, bool isStrictMode); static PassRefPtr create(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); FunctionParameters* parameters() const { return m_parameters.get(); } size_t parameterCount() const { return m_parameters->size(); } virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); void finishParsing(const SourceCode&, ParameterNode*, const Identifier&); void finishParsing(PassRefPtr, const Identifier&); const Identifier& ident() { return m_ident; } static const bool scopeIsFunction = true; private: FunctionBodyNode(JSGlobalData*, bool inStrictContext); FunctionBodyNode(JSGlobalData*, SourceElements*, VarStack*, FunctionStack*, IdentifierSet&, const SourceCode&, CodeFeatures, int numConstants); Identifier m_ident; RefPtr m_parameters; }; class FuncExprNode : public ExpressionNode { public: FuncExprNode(JSGlobalData*, const Identifier&, FunctionBodyNode* body, const SourceCode& source, ParameterNode* parameter = 0); FunctionBodyNode* body() { return m_body; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); virtual bool isFuncExprNode() const { return true; } FunctionBodyNode* m_body; }; class FuncDeclNode : public StatementNode { public: FuncDeclNode(JSGlobalData*, const Identifier&, FunctionBodyNode*, const SourceCode&, ParameterNode* = 0); FunctionBodyNode* body() { return m_body; } private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); FunctionBodyNode* m_body; }; class CaseClauseNode : public ParserArenaFreeable { public: CaseClauseNode(JSGlobalData*, ExpressionNode*, SourceElements* = 0); ExpressionNode* expr() const { return m_expr; } void emitBytecode(BytecodeGenerator&, RegisterID* destination); private: ExpressionNode* m_expr; SourceElements* m_statements; }; class ClauseListNode : public ParserArenaFreeable { public: ClauseListNode(JSGlobalData*, CaseClauseNode*); ClauseListNode(JSGlobalData*, ClauseListNode*, CaseClauseNode*); CaseClauseNode* getClause() const { return m_clause; } ClauseListNode* getNext() const { return m_next; } private: CaseClauseNode* m_clause; ClauseListNode* m_next; }; class CaseBlockNode : public ParserArenaFreeable { public: CaseBlockNode(JSGlobalData*, ClauseListNode* list1, CaseClauseNode* defaultClause, ClauseListNode* list2); RegisterID* emitBytecodeForBlock(BytecodeGenerator&, RegisterID* input, RegisterID* destination); private: SwitchInfo::SwitchType tryOptimizedSwitch(Vector& literalVector, int32_t& min_num, int32_t& max_num); ClauseListNode* m_list1; CaseClauseNode* m_defaultClause; ClauseListNode* m_list2; }; class SwitchNode : public StatementNode { public: SwitchNode(JSGlobalData*, ExpressionNode*, CaseBlockNode*); private: virtual RegisterID* emitBytecode(BytecodeGenerator&, RegisterID* = 0); ExpressionNode* m_expr; CaseBlockNode* m_block; }; struct ElementList { ElementNode* head; ElementNode* tail; }; struct PropertyList { PropertyListNode* head; PropertyListNode* tail; }; struct ArgumentList { ArgumentListNode* head; ArgumentListNode* tail; }; struct ConstDeclList { ConstDeclNode* head; ConstDeclNode* tail; }; struct ParameterList { ParameterNode* head; ParameterNode* tail; }; struct ClauseList { ClauseListNode* head; ClauseListNode* tail; }; } // namespace JSC #endif // Nodes_h