/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtScript module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.1, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QSCRIPTAST_P_H #define QSCRIPTAST_P_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists purely as an // implementation detail. This header file may change from version to // version without notice, or even be removed. // // We mean it. // #include #include "qscriptastvisitor_p.h" QT_BEGIN_NAMESPACE class QScriptNameIdImpl; namespace QSOperator // ### rename { enum Op { Add, And, InplaceAnd, Assign, BitAnd, BitOr, BitXor, InplaceSub, Div, InplaceDiv, Equal, Ge, Gt, In, InplaceAdd, InstanceOf, Le, LShift, InplaceLeftShift, Lt, Mod, InplaceMod, Mul, InplaceMul, NotEqual, Or, InplaceOr, RShift, InplaceRightShift, StrictEqual, StrictNotEqual, Sub, URShift, InplaceURightShift, InplaceXor }; } // namespace QSOperator namespace QScript { namespace AST { class Node { public: enum Kind { Kind_Node, Kind_ExpressionNode, Kind_Statement, Kind_ThisExpression, Kind_IdentifierExpression, Kind_NullExpression, Kind_TrueLiteral, Kind_FalseLiteral, Kind_NumericLiteral, Kind_StringLiteral, Kind_RegExpLiteral, Kind_ArrayLiteral, Kind_ObjectLiteral, Kind_ElementList, Kind_Elision, Kind_PropertyNameAndValueList, Kind_PropertyName, Kind_IdentifierPropertyName, Kind_StringLiteralPropertyName, Kind_NumericLiteralPropertyName, Kind_ArrayMemberExpression, Kind_FieldMemberExpression, Kind_NewMemberExpression, Kind_NewExpression, Kind_CallExpression, Kind_ArgumentList, Kind_PostIncrementExpression, Kind_PostDecrementExpression, Kind_DeleteExpression, Kind_VoidExpression, Kind_TypeOfExpression, Kind_PreIncrementExpression, Kind_PreDecrementExpression, Kind_UnaryPlusExpression, Kind_UnaryMinusExpression, Kind_TildeExpression, Kind_NotExpression, Kind_BinaryExpression, Kind_ConditionalExpression, Kind_Expression, Kind_Block, Kind_StatementList, Kind_VariableStatement, Kind_VariableDeclarationList, Kind_VariableDeclaration, Kind_EmptyStatement, Kind_ExpressionStatement, Kind_IfStatement, Kind_DoWhileStatement, Kind_WhileStatement, Kind_ForStatement, Kind_LocalForStatement, Kind_ForEachStatement, Kind_LocalForEachStatement, Kind_ContinueStatement, Kind_BreakStatement, Kind_ReturnStatement, Kind_WithStatement, Kind_SwitchStatement, Kind_CaseBlock, Kind_CaseClauses, Kind_CaseClause, Kind_DefaultClause, Kind_LabelledStatement, Kind_ThrowStatement, Kind_TryStatement, Kind_Catch, Kind_Finally, Kind_FunctionDeclaration, Kind_FunctionExpression, Kind_FormalParameterList, Kind_FunctionBody, Kind_Program, Kind_SourceElements, Kind_SourceElement, Kind_FunctionSourceElement, Kind_StatementSourceElement, Kind_DebuggerStatement }; inline Node(): startLine(0), startColumn(0), endLine(0), endColumn(0), kind(Kind_Node) {} virtual ~Node() {} virtual ExpressionNode *expressionCast(); virtual BinaryExpression *binaryExpressionCast(); virtual Statement *statementCast(); inline void accept(Visitor *visitor) { if (visitor->preVisit(this)) { accept0(visitor); visitor->postVisit(this); } } static void acceptChild(Node *node, Visitor *visitor) { if (node) node->accept(visitor); } virtual void accept0(Visitor *visitor) = 0; int startLine; int startColumn; int endLine; int endColumn; Kind kind; }; class ExpressionNode: public Node { public: ExpressionNode() { kind = Kind_ExpressionNode; } virtual ~ExpressionNode() {} virtual ExpressionNode *expressionCast(); }; class Statement: public Node { public: Statement() { kind = Kind_Statement; } virtual ~Statement() {} virtual Statement *statementCast(); }; class ThisExpression: public ExpressionNode { public: ThisExpression() { kind = Kind_ThisExpression; } virtual ~ThisExpression() {} virtual void accept0(Visitor *visitor); }; class IdentifierExpression: public ExpressionNode { public: IdentifierExpression(QScriptNameIdImpl *n): name (n) { kind = Kind_IdentifierExpression; } virtual ~IdentifierExpression() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *name; }; class NullExpression: public ExpressionNode { public: NullExpression() { kind = Kind_NullExpression; } virtual ~NullExpression() {} virtual void accept0(Visitor *visitor); }; class TrueLiteral: public ExpressionNode { public: TrueLiteral() { kind = Kind_TrueLiteral; } virtual ~TrueLiteral() {} virtual void accept0(Visitor *visitor); }; class FalseLiteral: public ExpressionNode { public: FalseLiteral() { kind = Kind_FalseLiteral; } virtual ~FalseLiteral() {} virtual void accept0(Visitor *visitor); }; class NumericLiteral: public ExpressionNode { public: NumericLiteral(double v): value (v) { kind = Kind_NumericLiteral; } virtual ~NumericLiteral() {} virtual void accept0(Visitor *visitor); // attributes: double value; }; class StringLiteral: public ExpressionNode { public: StringLiteral(QScriptNameIdImpl *v): value (v) { kind = Kind_StringLiteral; } virtual ~StringLiteral() {} virtual void accept0(Visitor *visitor); // attributes: QScriptNameIdImpl *value; }; class RegExpLiteral: public ExpressionNode { public: RegExpLiteral(QScriptNameIdImpl *p, int f): pattern (p), flags (f) { kind = Kind_RegExpLiteral; } virtual ~RegExpLiteral() {} virtual void accept0(Visitor *visitor); // attributes: QScriptNameIdImpl *pattern; int flags; }; class ArrayLiteral: public ExpressionNode { public: ArrayLiteral(Elision *e): elements (0), elision (e) { kind = Kind_ArrayLiteral; } ArrayLiteral(ElementList *elts): elements (elts), elision (0) { kind = Kind_ArrayLiteral; } ArrayLiteral(ElementList *elts, Elision *e): elements (elts), elision (e) { kind = Kind_ArrayLiteral; } virtual ~ArrayLiteral() {} virtual void accept0(Visitor *visitor); // attributes ElementList *elements; Elision *elision; }; class ObjectLiteral: public ExpressionNode { public: ObjectLiteral(): properties (0) { kind = Kind_ObjectLiteral; } ObjectLiteral(PropertyNameAndValueList *plist): properties (plist) { kind = Kind_ObjectLiteral; } virtual ~ObjectLiteral() {} virtual void accept0(Visitor *visitor); // attributes PropertyNameAndValueList *properties; }; class ElementList: public Node { public: ElementList(Elision *e, ExpressionNode *expr): elision (e), expression (expr), next (this) { kind = Kind_ElementList; } ElementList(ElementList *previous, Elision *e, ExpressionNode *expr): elision (e), expression (expr) { kind = Kind_ElementList; next = previous->next; previous->next = this; } virtual ~ElementList() {} inline ElementList *finish () { ElementList *front = next; next = 0; return front; } virtual void accept0(Visitor *visitor); // attributes Elision *elision; ExpressionNode *expression; ElementList *next; }; class Elision: public Node { public: Elision(): next (this) { kind = Kind_Elision; } Elision(Elision *previous) { kind = Kind_Elision; next = previous->next; previous->next = this; } virtual ~Elision() {} virtual void accept0(Visitor *visitor); inline Elision *finish () { Elision *front = next; next = 0; return front; } // attributes Elision *next; }; class PropertyNameAndValueList: public Node { public: PropertyNameAndValueList(PropertyName *n, ExpressionNode *v): name (n), value (v), next (this) { kind = Kind_PropertyNameAndValueList; } PropertyNameAndValueList(PropertyNameAndValueList *previous, PropertyName *n, ExpressionNode *v): name (n), value (v) { kind = Kind_PropertyNameAndValueList; next = previous->next; previous->next = this; } virtual ~PropertyNameAndValueList() {} virtual void accept0(Visitor *visitor); inline PropertyNameAndValueList *finish () { PropertyNameAndValueList *front = next; next = 0; return front; } // attributes PropertyName *name; ExpressionNode *value; PropertyNameAndValueList *next; }; class PropertyName: public Node { public: PropertyName() { kind = Kind_PropertyName; } virtual ~PropertyName() {} }; class IdentifierPropertyName: public PropertyName { public: IdentifierPropertyName(QScriptNameIdImpl *n): id (n) { kind = Kind_IdentifierPropertyName; } virtual ~IdentifierPropertyName() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *id; }; class StringLiteralPropertyName: public PropertyName { public: StringLiteralPropertyName(QScriptNameIdImpl *n): id (n) { kind = Kind_StringLiteralPropertyName; } virtual ~StringLiteralPropertyName() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *id; }; class NumericLiteralPropertyName: public PropertyName { public: NumericLiteralPropertyName(double n): id (n) { kind = Kind_NumericLiteralPropertyName; } virtual ~NumericLiteralPropertyName() {} virtual void accept0(Visitor *visitor); // attributes double id; }; class ArrayMemberExpression: public ExpressionNode { public: ArrayMemberExpression(ExpressionNode *b, ExpressionNode *e): base (b), expression (e) { kind = Kind_ArrayMemberExpression; } virtual ~ArrayMemberExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; ExpressionNode *expression; }; class FieldMemberExpression: public ExpressionNode { public: FieldMemberExpression(ExpressionNode *b, QScriptNameIdImpl *n): base (b), name (n) { kind = Kind_FieldMemberExpression; } virtual ~FieldMemberExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; QScriptNameIdImpl *name; }; class NewMemberExpression: public ExpressionNode { public: NewMemberExpression(ExpressionNode *b, ArgumentList *a): base (b), arguments (a) { kind = Kind_NewMemberExpression; } virtual ~NewMemberExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; ArgumentList *arguments; }; class NewExpression: public ExpressionNode { public: NewExpression(ExpressionNode *e): expression (e) { kind = Kind_NewExpression; } virtual ~NewExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class CallExpression: public ExpressionNode { public: CallExpression(ExpressionNode *b, ArgumentList *a): base (b), arguments (a) { kind = Kind_CallExpression; } virtual ~CallExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; ArgumentList *arguments; }; class ArgumentList: public Node { public: ArgumentList(ExpressionNode *e): expression (e), next (this) { kind = Kind_ArgumentList; } ArgumentList(ArgumentList *previous, ExpressionNode *e): expression (e) { kind = Kind_ArgumentList; next = previous->next; previous->next = this; } virtual ~ArgumentList() {} virtual void accept0(Visitor *visitor); inline ArgumentList *finish () { ArgumentList *front = next; next = 0; return front; } // attributes ExpressionNode *expression; ArgumentList *next; }; class PostIncrementExpression: public ExpressionNode { public: PostIncrementExpression(ExpressionNode *b): base (b) { kind = Kind_PostIncrementExpression; } virtual ~PostIncrementExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; }; class PostDecrementExpression: public ExpressionNode { public: PostDecrementExpression(ExpressionNode *b): base (b) { kind = Kind_PostDecrementExpression; } virtual ~PostDecrementExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *base; }; class DeleteExpression: public ExpressionNode { public: DeleteExpression(ExpressionNode *e): expression (e) { kind = Kind_DeleteExpression; } virtual ~DeleteExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class VoidExpression: public ExpressionNode { public: VoidExpression(ExpressionNode *e): expression (e) { kind = Kind_VoidExpression; } virtual ~VoidExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class TypeOfExpression: public ExpressionNode { public: TypeOfExpression(ExpressionNode *e): expression (e) { kind = Kind_TypeOfExpression; } virtual ~TypeOfExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class PreIncrementExpression: public ExpressionNode { public: PreIncrementExpression(ExpressionNode *e): expression (e) { kind = Kind_PreIncrementExpression; } virtual ~PreIncrementExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class PreDecrementExpression: public ExpressionNode { public: PreDecrementExpression(ExpressionNode *e): expression (e) { kind = Kind_PreDecrementExpression; } virtual ~PreDecrementExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class UnaryPlusExpression: public ExpressionNode { public: UnaryPlusExpression(ExpressionNode *e): expression (e) { kind = Kind_UnaryPlusExpression; } virtual ~UnaryPlusExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class UnaryMinusExpression: public ExpressionNode { public: UnaryMinusExpression(ExpressionNode *e): expression (e) { kind = Kind_UnaryMinusExpression; } virtual ~UnaryMinusExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class TildeExpression: public ExpressionNode { public: TildeExpression(ExpressionNode *e): expression (e) { kind = Kind_TildeExpression; } virtual ~TildeExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class NotExpression: public ExpressionNode { public: NotExpression(ExpressionNode *e): expression (e) { kind = Kind_NotExpression; } virtual ~NotExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class BinaryExpression: public ExpressionNode { public: BinaryExpression(ExpressionNode *l, int o, ExpressionNode *r): left (l), op (o), right (r) { kind = Kind_BinaryExpression; } virtual ~BinaryExpression() {} virtual BinaryExpression *binaryExpressionCast(); virtual void accept0(Visitor *visitor); // attributes ExpressionNode *left; int op; ExpressionNode *right; }; class ConditionalExpression: public ExpressionNode { public: ConditionalExpression(ExpressionNode *e, ExpressionNode *t, ExpressionNode *f): expression (e), ok (t), ko (f) { kind = Kind_ConditionalExpression; } virtual ~ConditionalExpression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; ExpressionNode *ok; ExpressionNode *ko; }; class Expression: public ExpressionNode // ### rename { public: Expression(ExpressionNode *l, ExpressionNode *r): left (l), right (r) { kind = Kind_Expression; } virtual ~Expression() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *left; ExpressionNode *right; }; class Block: public Statement { public: Block(StatementList *slist): statements (slist) { kind = Kind_Block; } virtual ~Block() {} virtual void accept0(Visitor *visitor); // attributes StatementList *statements; }; class StatementList: public Node { public: StatementList(Statement *stmt): statement (stmt), next (this) { kind = Kind_StatementList; } StatementList(StatementList *previous, Statement *stmt): statement (stmt) { kind = Kind_StatementList; next = previous->next; previous->next = this; } virtual ~StatementList() {} virtual void accept0(Visitor *visitor); inline StatementList *finish () { StatementList *front = next; next = 0; return front; } // attributes Statement *statement; StatementList *next; }; class VariableStatement: public Statement { public: VariableStatement(VariableDeclarationList *vlist): declarations (vlist) { kind = Kind_VariableStatement; } virtual ~VariableStatement() {} virtual void accept0(Visitor *visitor); // attributes VariableDeclarationList *declarations; }; class VariableDeclaration: public Node { public: VariableDeclaration(QScriptNameIdImpl *n, ExpressionNode *e): name (n), expression (e), readOnly(false) { kind = Kind_VariableDeclaration; } virtual ~VariableDeclaration() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *name; ExpressionNode *expression; bool readOnly; }; class VariableDeclarationList: public Node { public: VariableDeclarationList(VariableDeclaration *decl): declaration (decl), next (this) { kind = Kind_VariableDeclarationList; } VariableDeclarationList(VariableDeclarationList *previous, VariableDeclaration *decl): declaration (decl) { kind = Kind_VariableDeclarationList; next = previous->next; previous->next = this; } virtual ~VariableDeclarationList() {} virtual void accept0(Visitor *visitor); inline VariableDeclarationList *finish (bool readOnly) { VariableDeclarationList *front = next; next = 0; if (readOnly) { VariableDeclarationList *vdl; for (vdl = front; vdl != 0; vdl = vdl->next) vdl->declaration->readOnly = true; } return front; } // attributes VariableDeclaration *declaration; VariableDeclarationList *next; }; class EmptyStatement: public Statement { public: EmptyStatement() { kind = Kind_EmptyStatement; } virtual ~EmptyStatement() {} virtual void accept0(Visitor *visitor); }; class ExpressionStatement: public Statement { public: ExpressionStatement(ExpressionNode *e): expression (e) { kind = Kind_ExpressionStatement; } virtual ~ExpressionStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class IfStatement: public Statement { public: IfStatement(ExpressionNode *e, Statement *t, Statement *f = 0): expression (e), ok (t), ko (f) { kind = Kind_IfStatement; } virtual ~IfStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; Statement *ok; Statement *ko; }; class DoWhileStatement: public Statement { public: DoWhileStatement(Statement *stmt, ExpressionNode *e): statement (stmt), expression (e) { kind = Kind_DoWhileStatement; } virtual ~DoWhileStatement() {} virtual void accept0(Visitor *visitor); // attributes Statement *statement; ExpressionNode *expression; }; class WhileStatement: public Statement { public: WhileStatement(ExpressionNode *e, Statement *stmt): expression (e), statement (stmt) { kind = Kind_WhileStatement; } virtual ~WhileStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; Statement *statement; }; class ForStatement: public Statement { public: ForStatement(ExpressionNode *i, ExpressionNode *c, ExpressionNode *e, Statement *stmt): initialiser (i), condition (c), expression (e), statement (stmt) { kind = Kind_ForStatement; } virtual ~ForStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *initialiser; ExpressionNode *condition; ExpressionNode *expression; Statement *statement; }; class LocalForStatement: public Statement { public: LocalForStatement(VariableDeclarationList *vlist, ExpressionNode *c, ExpressionNode *e, Statement *stmt): declarations (vlist), condition (c), expression (e), statement (stmt) { kind = Kind_LocalForStatement; } virtual ~LocalForStatement() {} virtual void accept0(Visitor *visitor); // attributes VariableDeclarationList *declarations; ExpressionNode *condition; ExpressionNode *expression; Statement *statement; }; class ForEachStatement: public Statement { public: ForEachStatement(ExpressionNode *i, ExpressionNode *e, Statement *stmt): initialiser (i), expression (e), statement (stmt) { kind = Kind_ForEachStatement; } virtual ~ForEachStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *initialiser; ExpressionNode *expression; Statement *statement; }; class LocalForEachStatement: public Statement { public: LocalForEachStatement(VariableDeclaration *v, ExpressionNode *e, Statement *stmt): declaration (v), expression (e), statement (stmt) { kind = Kind_LocalForEachStatement; } virtual ~LocalForEachStatement() {} virtual void accept0(Visitor *visitor); // attributes VariableDeclaration *declaration; ExpressionNode *expression; Statement *statement; }; class ContinueStatement: public Statement { public: ContinueStatement(QScriptNameIdImpl *l = 0): label (l) { kind = Kind_ContinueStatement; } virtual ~ContinueStatement() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *label; }; class BreakStatement: public Statement { public: BreakStatement(QScriptNameIdImpl *l = 0): label (l) { kind = Kind_BreakStatement; } virtual ~BreakStatement() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *label; }; class ReturnStatement: public Statement { public: ReturnStatement(ExpressionNode *e): expression (e) { kind = Kind_ReturnStatement; } virtual ~ReturnStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class WithStatement: public Statement { public: WithStatement(ExpressionNode *e, Statement *stmt): expression (e), statement (stmt) { kind = Kind_WithStatement; } virtual ~WithStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; Statement *statement; }; class SwitchStatement: public Statement { public: SwitchStatement(ExpressionNode *e, CaseBlock *b): expression (e), block (b) { kind = Kind_SwitchStatement; } virtual ~SwitchStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; CaseBlock *block; }; class CaseBlock: public Node { public: CaseBlock(CaseClauses *c, DefaultClause *d = 0, CaseClauses *r = 0): clauses (c), defaultClause (d), moreClauses (r) { kind = Kind_CaseBlock; } virtual ~CaseBlock() {} virtual void accept0(Visitor *visitor); // attributes CaseClauses *clauses; DefaultClause *defaultClause; CaseClauses *moreClauses; }; class CaseClauses: public Node { public: CaseClauses(CaseClause *c): clause (c), next (this) { kind = Kind_CaseClauses; } CaseClauses(CaseClauses *previous, CaseClause *c): clause (c) { kind = Kind_CaseClauses; next = previous->next; previous->next = this; } virtual ~CaseClauses() {} virtual void accept0(Visitor *visitor); inline CaseClauses *finish () { CaseClauses *front = next; next = 0; return front; } //attributes CaseClause *clause; CaseClauses *next; }; class CaseClause: public Node { public: CaseClause(ExpressionNode *e, StatementList *slist): expression (e), statements (slist) { kind = Kind_CaseClause; } virtual ~CaseClause() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; StatementList *statements; }; class DefaultClause: public Node { public: DefaultClause(StatementList *slist): statements (slist) { kind = Kind_DefaultClause; } virtual ~DefaultClause() {} virtual void accept0(Visitor *visitor); // attributes StatementList *statements; }; class LabelledStatement: public Statement { public: LabelledStatement(QScriptNameIdImpl *l, Statement *stmt): label (l), statement (stmt) { kind = Kind_LabelledStatement; } virtual ~LabelledStatement() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *label; Statement *statement; }; class ThrowStatement: public Statement { public: ThrowStatement(ExpressionNode *e): expression (e) { kind = Kind_ThrowStatement; } virtual ~ThrowStatement() {} virtual void accept0(Visitor *visitor); // attributes ExpressionNode *expression; }; class TryStatement: public Statement { public: TryStatement(Statement *stmt, Catch *c, Finally *f): statement (stmt), catchExpression (c), finallyExpression (f) { kind = Kind_TryStatement; } TryStatement(Statement *stmt, Finally *f): statement (stmt), catchExpression (0), finallyExpression (f) { kind = Kind_TryStatement; } TryStatement(Statement *stmt, Catch *c): statement (stmt), catchExpression (c), finallyExpression (0) { kind = Kind_TryStatement; } virtual ~TryStatement() {} virtual void accept0(Visitor *visitor); // attributes Statement *statement; Catch *catchExpression; Finally *finallyExpression; }; class Catch: public Node { public: Catch(QScriptNameIdImpl *n, Statement *stmt): name (n), statement (stmt) { kind = Kind_Catch; } virtual ~Catch() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *name; Statement *statement; }; class Finally: public Node { public: Finally(Statement *stmt): statement (stmt) { kind = Kind_Finally; } virtual ~Finally() {} virtual void accept0(Visitor *visitor); // attributes Statement *statement; }; class FunctionExpression: public ExpressionNode { public: FunctionExpression(QScriptNameIdImpl *n, FormalParameterList *f, FunctionBody *b): name (n), formals (f), body (b) { kind = Kind_FunctionExpression; } virtual ~FunctionExpression() {} virtual void accept0(Visitor *visitor); // attributes QScriptNameIdImpl *name; FormalParameterList *formals; FunctionBody *body; }; class FunctionDeclaration: public FunctionExpression { public: FunctionDeclaration(QScriptNameIdImpl *n, FormalParameterList *f, FunctionBody *b): FunctionExpression(n, f, b) { kind = Kind_FunctionDeclaration; } virtual ~FunctionDeclaration() {} virtual void accept0(Visitor *visitor); }; class FormalParameterList: public Node { public: FormalParameterList(QScriptNameIdImpl *n): name (n), next (this) { kind = Kind_FormalParameterList; } FormalParameterList(FormalParameterList *previous, QScriptNameIdImpl *n): name (n) { kind = Kind_FormalParameterList; next = previous->next; previous->next = this; } virtual ~FormalParameterList() {} virtual void accept0(Visitor *visitor); inline FormalParameterList *finish () { FormalParameterList *front = next; next = 0; return front; } // attributes QScriptNameIdImpl *name; FormalParameterList *next; }; class FunctionBody: public Node { public: FunctionBody(SourceElements *elts): elements (elts) { kind = Kind_FunctionBody; } virtual ~FunctionBody() {} virtual void accept0(Visitor *visitor); // attributes SourceElements *elements; }; class Program: public Node { public: Program(SourceElements *elts): elements (elts) { kind = Kind_Program; } virtual ~Program() {} virtual void accept0(Visitor *visitor); // attributes SourceElements *elements; }; class SourceElements: public Node { public: SourceElements(SourceElement *elt): element (elt), next (this) { kind = Kind_SourceElements; } SourceElements(SourceElements *previous, SourceElement *elt): element (elt) { kind = Kind_SourceElements; next = previous->next; previous->next = this; } virtual ~SourceElements() {} virtual void accept0(Visitor *visitor); inline SourceElements *finish () { SourceElements *front = next; next = 0; return front; } // attributes SourceElement *element; SourceElements *next; }; class SourceElement: public Node { public: inline SourceElement() { kind = Kind_SourceElement; } virtual ~SourceElement() {} }; class FunctionSourceElement: public SourceElement { public: FunctionSourceElement(FunctionDeclaration *f): declaration (f) { kind = Kind_FunctionSourceElement; } virtual ~FunctionSourceElement() {} virtual void accept0(Visitor *visitor); // attributes FunctionDeclaration *declaration; }; class StatementSourceElement: public SourceElement { public: StatementSourceElement(Statement *stmt): statement (stmt) { kind = Kind_StatementSourceElement; } virtual ~StatementSourceElement() {} virtual void accept0(Visitor *visitor); // attributes Statement *statement; }; class DebuggerStatement: public Statement { public: DebuggerStatement() { kind = Kind_DebuggerStatement; } virtual ~DebuggerStatement() {} virtual void accept0(Visitor *visitor); }; } } // namespace AST QT_END_NAMESPACE #endif