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tdevelop/lib/cppparser/ast.h

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/* This file is part of KDevelop
Copyright (C) 2002,2003 Roberto Raggi <roberto@kdevelop.org>
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 __ast_h
#define __ast_h
#include <memory>
#include <tqstring.h>
#include <tqptrlist.h>
#include <tqstringlist.h>
#include <ksharedptr.h>
#if defined( Q_OS_WIN32 ) || defined( Q_CC_SUN )
#ifndef _THROW0
# define _THROW0()
#endif
template <class _Tp> class AUTO_PTR {
private:
_Tp* _M_ptr;
public:
typedef _Tp element_type;
explicit AUTO_PTR(_Tp* __p = 0) _THROW0() : _M_ptr(__p) {}
template <class _Tp1> AUTO_PTR(AUTO_PTR<_Tp1>& __a) _THROW0()
: _M_ptr(__a.release()) {}
AUTO_PTR(AUTO_PTR& __a) _THROW0() : _M_ptr(__a.release()) {}
template <class _Tp1>
AUTO_PTR& operator=(AUTO_PTR<_Tp1>& __a) _THROW0() {
if (__a.get() != this->get()) {
delete _M_ptr;
_M_ptr = __a.release();
}
return *this;
}
AUTO_PTR& operator=(AUTO_PTR& __a) _THROW0() {
if (&__a != this) {
delete _M_ptr;
_M_ptr = __a.release();
}
return *this;
}
~AUTO_PTR() _THROW0() { delete _M_ptr; }
_Tp& operator*() const _THROW0() {
return *_M_ptr;
}
_Tp* operator->() const _THROW0() {
return _M_ptr;
}
_Tp* get() const _THROW0() {
return _M_ptr;
}
_Tp* release() _THROW0() {
_Tp* __tmp = _M_ptr;
_M_ptr = 0;
return __tmp;
}
void reset(_Tp* __p = 0) _THROW0() {
delete _M_ptr;
_M_ptr = __p;
}
// According to the C++ standard, these conversions are required. Most
// present-day compilers, however, do not enforce that requirement---and,
// in fact, most present-day compilers do not support the language
// features that these conversions rely on.
private:
template<class _Tp1> struct AUTO_PTR_ref {
_Tp1* _M_ptr;
AUTO_PTR_ref(_Tp1* __p) : _M_ptr(__p) {}
};
public:
AUTO_PTR(AUTO_PTR_ref<_Tp> __ref) _THROW0()
: _M_ptr(__ref._M_ptr) {}
template <class _Tp1> operator AUTO_PTR_ref<_Tp1>() _THROW0()
{ return AUTO_PTR_ref<_Tp>(this->release()); }
template <class _Tp1> operator AUTO_PTR<_Tp1>() _THROW0()
{ return AUTO_PTR<_Tp1>(this->release()) }
};
#else
#define AUTO_PTR std::auto_ptr
#endif
template <class T> typename T::Node CreateNode()
{
typename T::Node node( new T );
node->setNodeType( T::Type );
return node;
}
template <class T> typename T::Node NullNode()
{
typename T::Node node;
return node;
}
enum NodeType
{
NodeType_Generic = 0,
NodeType_TemplateArgumentList = 1000,
NodeType_ClassOrNamespaceName,
NodeType_Name,
NodeType_Declaration,
NodeType_TypeSpecifier,
NodeType_BaseSpecifier,
NodeType_BaseClause,
NodeType_ClassSpecifier,
NodeType_Enumerator,
NodeType_EnumSpecifier,
NodeType_ElaboratedTypeSpecifier,
NodeType_LinkageBody,
NodeType_LinkageSpecification,
NodeType_Namespace,
NodeType_NamespaceAlias,
NodeType_Using,
NodeType_UsingDirective,
NodeType_InitDeclaratorList,
NodeType_Typedef,
NodeType_Declarator,
NodeType_InitDeclarator,
NodeType_TemplateDeclaration,
NodeType_SimpleDeclaration,
NodeType_Statement,
NodeType_StatementList,
NodeType_IfStatement,
NodeType_WhileStatement,
NodeType_DoStatement,
NodeType_ForStatement,
NodeType_ForEachStatement, // qt4 [erbsland]
NodeType_SwitchStatement,
NodeType_CatchStatement,
NodeType_CatchStatementList,
NodeType_TryBlockStatement,
NodeType_DeclarationStatement,
NodeType_TranslationUnit,
NodeType_FunctionDefinition,
NodeType_ExpressionStatement,
NodeType_ParameterDeclaration,
NodeType_ParameterDeclarationList,
NodeType_ParameterDeclarationClause,
NodeType_Group,
NodeType_AccessDeclaration,
NodeType_TypeParameter,
NodeType_TemplateParameter,
NodeType_TemplateParameterList,
NodeType_Condition,
NodeType_Custom = 2000
};
TQString nodeTypeToString( int type );
#if defined(CPPPARSER_QUICK_ALLOCATOR)
#include <quick_allocator.h>
#define DECLARE_ALLOC(tp) \
void * operator new(std::size_t) \
{ \
return quick_allocator< tp >::alloc(); \
} \
\
void operator delete(void * p) \
{ \
quick_allocator< tp >::dealloc(p); \
}
#else
#define DECLARE_ALLOC(tp)
#endif
struct Slice
{
TQString source;
int position;
int length;
inline Slice()
: position(0), length(0) {}
};
class CommentAST {
TQString m_comment;
public:
void setComment( const TQString& comment ) {
m_comment = comment;
}
void addComment( const TQString& comment ) {
if( !m_comment.isEmpty() ) {
m_comment += "\n(" + comment + ")";
} else {
m_comment = comment;
}
}
TQString comment() const {
return m_comment;
}
bool haveComment() const {
return !m_comment.isEmpty();
}
};
class AST : public CommentAST
{
public:
typedef AUTO_PTR<AST> Node;
enum { Type=NodeType_Generic };
DECLARE_ALLOC( AST )
public:
AST();
virtual ~AST();
int nodeType() const { return m_nodeType; }
void setNodeType( int nodeType ) { m_nodeType = nodeType; }
AST* parent() { return m_parent; }
void setParent( AST* parent );
void setStartPosition( int line, int col );
void getStartPosition( int* line, int* col ) const;
void setEndPosition( int line, int col );
void getEndPosition( int* line, int* col ) const;
#ifndef CPPPARSER_NO_CHILDREN
TQPtrList<AST> children() { return m_children; }
void appendChild( AST* child );
void removeChild( AST* child );
#endif
virtual inline TQString text() const
{ return m_slice.source.mid(m_slice.position, m_slice.length); }
inline void setSlice( const Slice& slice )
{ m_slice = slice; }
inline void setSlice( const TQString &text, int position, int length )
{
CommentAST a;
m_slice.source = text;
m_slice.position = position;
m_slice.length = length;
}
inline void setText(const TQString &text)
{ setSlice(text, 0, text.length()); }
private:
int m_nodeType;
AST* m_parent;
int m_startLine, m_startColumn;
int m_endLine, m_endColumn;
Slice m_slice;
#ifndef CPPPARSER_NO_CHILDREN
TQPtrList<AST> m_children;
#endif
private:
AST( const AST& source );
void operator = ( const AST& source );
};
class GroupAST: public AST
{
public:
typedef AUTO_PTR<GroupAST> Node;
enum { Type = NodeType_Group };
DECLARE_ALLOC( GroupAST )
public:
GroupAST();
TQPtrList<AST> nodeList() { return m_nodeList; }
void addNode( AST::Node& node );
virtual TQString text() const;
private:
TQPtrList<AST> m_nodeList;
private:
GroupAST( const GroupAST& source );
void operator = ( const GroupAST& source );
};
class TemplateArgumentListAST: public AST
{
public:
typedef AUTO_PTR<TemplateArgumentListAST> Node;
enum { Type = NodeType_TemplateArgumentList };
DECLARE_ALLOC( TemplateArgumentListAST )
public:
TemplateArgumentListAST();
void addArgument( AST::Node& arg );
TQPtrList<AST> argumentList() { return m_argumentList; }
virtual TQString text() const;
private:
TQPtrList<AST> m_argumentList;
private:
TemplateArgumentListAST( const TemplateArgumentListAST& source );
void operator = ( const TemplateArgumentListAST& source );
};
class ClassOrNamespaceNameAST: public AST
{
public:
typedef AUTO_PTR<ClassOrNamespaceNameAST> Node;
enum { Type = NodeType_ClassOrNamespaceName };
DECLARE_ALLOC( ClassOrNamespaceNameAST )
public:
ClassOrNamespaceNameAST();
AST* name() { return m_name.get(); }
void setName( AST::Node& name );
TemplateArgumentListAST* templateArgumentList() { return m_templateArgumentList.get(); }
void setTemplateArgumentList( TemplateArgumentListAST::Node& templateArgumentList );
virtual TQString text() const;
private:
AST::Node m_name;
TemplateArgumentListAST::Node m_templateArgumentList;
private:
ClassOrNamespaceNameAST( const ClassOrNamespaceNameAST& source );
void operator = ( const ClassOrNamespaceNameAST& source );
};
class NameAST: public AST
{
public:
typedef AUTO_PTR<NameAST> Node;
enum { Type = NodeType_Name };
DECLARE_ALLOC( NameAST )
public:
NameAST();
bool isGlobal() const { return m_global; }
void setGlobal( bool b );
void addClassOrNamespaceName( ClassOrNamespaceNameAST::Node& classOrNamespaceName );
TQPtrList<ClassOrNamespaceNameAST> classOrNamespaceNameList() { return m_classOrNamespaceNameList; }
ClassOrNamespaceNameAST* unqualifiedName() { return m_unqualifiedName.get(); }
void setUnqualifiedName( ClassOrNamespaceNameAST::Node& unqualifiedName );
virtual TQString text() const;
private:
bool m_global;
ClassOrNamespaceNameAST::Node m_unqualifiedName;
TQPtrList<ClassOrNamespaceNameAST> m_classOrNamespaceNameList;
private:
NameAST( const NameAST& source );
void operator = ( const NameAST& source );
};
class TypeParameterAST: public AST
{
public:
typedef AUTO_PTR<TypeParameterAST> Node;
enum { Type = NodeType_TypeParameter };
DECLARE_ALLOC( TypeParameterAST )
public:
TypeParameterAST();
AST* kind() { return m_kind.get(); }
void setKind( AST::Node& kind );
class TemplateParameterListAST* templateParameterList() { return m_templateParameterList.get(); }
void setTemplateParameterList( AUTO_PTR<class TemplateParameterListAST>& templateParameterList );
NameAST* name() { return m_name.get(); }
void setName( NameAST::Node& name );
AST* typeId() { return m_typeId.get(); }
void setTypeId( AST::Node& typeId );
private:
AST::Node m_kind;
AUTO_PTR<class TemplateParameterListAST> m_templateParameterList;
NameAST::Node m_name;
AST::Node m_typeId;
private:
TypeParameterAST( const TypeParameterAST& source );
void operator = ( const TypeParameterAST& source );
};
class DeclarationAST: public AST
{
public:
typedef AUTO_PTR<DeclarationAST> Node;
enum { Type = NodeType_Declaration };
DECLARE_ALLOC( DeclarationAST )
public:
DeclarationAST();
private:
DeclarationAST( const DeclarationAST& source );
void operator = ( const DeclarationAST& source );
};
class AccessDeclarationAST: public DeclarationAST
{
public:
typedef AUTO_PTR<AccessDeclarationAST> Node;
enum { Type = NodeType_AccessDeclaration };
DECLARE_ALLOC( AccessDeclarationAST )
public:
AccessDeclarationAST();
TQPtrList<AST> accessList() { return m_accessList; }
void addAccess( AST::Node& access );
virtual TQString text() const;
private:
TQPtrList<AST> m_accessList;
private:
AccessDeclarationAST( const AccessDeclarationAST& source );
void operator = ( const AccessDeclarationAST& source );
};
class TypeSpecifierAST: public AST
{
public:
typedef AUTO_PTR<TypeSpecifierAST> Node;
enum { Type = NodeType_TypeSpecifier };
DECLARE_ALLOC( TypeSpecifierAST )
public:
TypeSpecifierAST();
virtual NameAST* name() { return m_name.get(); }
virtual void setName( NameAST::Node& name );
GroupAST* cvQualify() { return m_cvQualify.get(); }
void setCvQualify( GroupAST::Node& cvQualify );
GroupAST* cv2Qualify() { return m_cv2Qualify.get(); }
void setCv2Qualify( GroupAST::Node& cv2Qualify );
virtual TQString text() const;
private:
NameAST::Node m_name;
GroupAST::Node m_cvQualify;
GroupAST::Node m_cv2Qualify;
private:
TypeSpecifierAST( const TypeSpecifierAST& source );
void operator = ( const TypeSpecifierAST& source );
};
class BaseSpecifierAST: public AST
{
public:
typedef AUTO_PTR<BaseSpecifierAST> Node;
enum { Type = NodeType_BaseSpecifier };
DECLARE_ALLOC( BaseSpecifierAST )
public:
BaseSpecifierAST();
AST* isVirtual() { return m_isVirtual.get(); }
void setIsVirtual( AST::Node& isVirtual );
AST* access() { return m_access.get(); }
void setAccess( AST::Node& access );
NameAST* name() { return m_name.get(); }
void setName( NameAST::Node& name );
private:
AST::Node m_isVirtual;
AST::Node m_access;
NameAST::Node m_name;
private:
BaseSpecifierAST( const BaseSpecifierAST& source );
void operator = ( const BaseSpecifierAST& source );
};
class BaseClauseAST: public AST
{
public:
typedef AUTO_PTR<BaseClauseAST> Node;
enum { Type = NodeType_BaseClause };
DECLARE_ALLOC( BaseClauseAST )
public:
BaseClauseAST();
void addBaseSpecifier( BaseSpecifierAST::Node& baseSpecifier );
TQPtrList<BaseSpecifierAST> baseSpecifierList() { return m_baseSpecifierList; }
private:
TQPtrList<BaseSpecifierAST> m_baseSpecifierList;
private:
BaseClauseAST( const BaseClauseAST& source );
void operator = ( const BaseClauseAST& source );
};
class ClassSpecifierAST: public TypeSpecifierAST
{
public:
typedef AUTO_PTR<ClassSpecifierAST> Node;
enum { Type = NodeType_ClassSpecifier };
DECLARE_ALLOC( ClassSpecifierAST )
public:
ClassSpecifierAST();
GroupAST* winDeclSpec() { return m_winDeclSpec.get(); }
void setWinDeclSpec( GroupAST::Node& winDeclSpec );
AST* classKey() { return m_classKey.get(); }
void setClassKey( AST::Node& classKey );
BaseClauseAST* baseClause() { return m_baseClause.get(); }
void setBaseClause( BaseClauseAST::Node& baseClause );
TQPtrList<DeclarationAST> declarationList() { return m_declarationList; }
void addDeclaration( DeclarationAST::Node& declaration );
private:
GroupAST::Node m_winDeclSpec;
AST::Node m_classKey;
BaseClauseAST::Node m_baseClause;
TQPtrList<DeclarationAST> m_declarationList;
private:
ClassSpecifierAST( const ClassSpecifierAST& source );
void operator = ( const ClassSpecifierAST& source );
};
class EnumeratorAST: public AST
{
public:
typedef AUTO_PTR<EnumeratorAST> Node;
enum { Type = NodeType_Enumerator };
DECLARE_ALLOC( EnumeratorAST )
public:
EnumeratorAST();
AST* id() { return m_id.get(); }
void setId( AST::Node& id );
AST* expr() { return m_expr.get(); }
void setExpr( AST::Node& expr );
private:
AST::Node m_id;
AST::Node m_expr;
private:
EnumeratorAST( const EnumeratorAST& source );
void operator = ( const EnumeratorAST& source );
};
class EnumSpecifierAST: public TypeSpecifierAST
{
public:
typedef AUTO_PTR<EnumSpecifierAST> Node;
enum { Type = NodeType_EnumSpecifier };
DECLARE_ALLOC( EnumSpecifierAST )
public:
EnumSpecifierAST();
void addEnumerator( EnumeratorAST::Node& enumerator );
TQPtrList<EnumeratorAST> enumeratorList() { return m_enumeratorList; }
private:
TQPtrList<EnumeratorAST> m_enumeratorList;
private:
EnumSpecifierAST( const EnumSpecifierAST& source );
void operator = ( const EnumSpecifierAST& source );
};
class ElaboratedTypeSpecifierAST: public TypeSpecifierAST
{
public:
typedef AUTO_PTR<ElaboratedTypeSpecifierAST> Node;
enum { Type = NodeType_ElaboratedTypeSpecifier };
DECLARE_ALLOC( ElaboratedTypeSpecifierAST )
public:
ElaboratedTypeSpecifierAST();
AST* kind() { return m_kind.get(); }
void setKind( AST::Node& kind );
virtual TQString text() const;
private:
AST::Node m_kind;
private:
ElaboratedTypeSpecifierAST( const ElaboratedTypeSpecifierAST& source );
void operator = ( const ElaboratedTypeSpecifierAST& source );
};
class LinkageBodyAST: public AST
{
public:
typedef AUTO_PTR<LinkageBodyAST> Node;
enum { Type = NodeType_LinkageBody };
DECLARE_ALLOC( LinkageBodyAST )
public:
LinkageBodyAST();
void addDeclaration( DeclarationAST::Node& ast );
TQPtrList<DeclarationAST> declarationList() { return m_declarationList; }
private:
TQPtrList<DeclarationAST> m_declarationList;
private:
LinkageBodyAST( const LinkageBodyAST& source );
void operator = ( const LinkageBodyAST& source );
};
class LinkageSpecificationAST: public DeclarationAST
{
public:
typedef AUTO_PTR<LinkageSpecificationAST> Node;
enum { Type = NodeType_LinkageSpecification };
DECLARE_ALLOC( LinkageSpecificationAST )
public:
LinkageSpecificationAST();
AST* externType() { return m_externType.get(); }
void setExternType( AST::Node& externType );
LinkageBodyAST* linkageBody() { return m_linkageBody.get(); }
void setLinkageBody( LinkageBodyAST::Node& linkageBody );
DeclarationAST* declaration() { return m_declaration.get(); }
void setDeclaration( DeclarationAST::Node& decl );
private:
AST::Node m_externType;
LinkageBodyAST::Node m_linkageBody;
DeclarationAST::Node m_declaration;
private:
LinkageSpecificationAST( const LinkageSpecificationAST& source );
void operator = ( const LinkageSpecificationAST& source );
};
class NamespaceAST: public DeclarationAST
{
public:
typedef AUTO_PTR<NamespaceAST> Node;
enum { Type = NodeType_Namespace };
DECLARE_ALLOC( NamespaceAST )
public:
NamespaceAST();
AST* namespaceName() { return m_namespaceName.get(); }
void setNamespaceName( AST::Node& namespaceName );
LinkageBodyAST* linkageBody() { return m_linkageBody.get(); }
void setLinkageBody( LinkageBodyAST::Node& linkageBody );
private:
AST::Node m_namespaceName;
LinkageBodyAST::Node m_linkageBody;
private:
NamespaceAST( const NamespaceAST& source );
void operator = ( const NamespaceAST& source );
};
class NamespaceAliasAST: public DeclarationAST
{
public:
typedef AUTO_PTR<NamespaceAliasAST> Node;
enum { Type = NodeType_NamespaceAlias };
DECLARE_ALLOC( NamespaceAliasAST )
public:
NamespaceAliasAST();
AST* namespaceName() { return m_namespaceName.get(); }
void setNamespaceName( AST::Node& name );
NameAST* aliasName() { return m_aliasName.get(); }
void setAliasName( NameAST::Node& name );
private:
AST::Node m_namespaceName;
NameAST::Node m_aliasName;
private:
NamespaceAliasAST( const NamespaceAliasAST& source );
void operator = ( const NamespaceAliasAST& source );
};
class UsingAST: public DeclarationAST
{
public:
typedef AUTO_PTR<UsingAST> Node;
enum { Type = NodeType_Using };
DECLARE_ALLOC( UsingAST )
public:
UsingAST();
AST* typeName() { return m_typeName.get(); }
void setTypeName( AST::Node& typeName );
NameAST* name() { return m_name.get(); }
void setName( NameAST::Node& name );
private:
AST::Node m_typeName;
NameAST::Node m_name;
private:
UsingAST( const UsingAST& source );
void operator = ( const UsingAST& source );
};
class UsingDirectiveAST: public DeclarationAST
{
public:
typedef AUTO_PTR<UsingDirectiveAST> Node;
enum { Type = NodeType_UsingDirective };
DECLARE_ALLOC( UsingDirectiveAST )
public:
UsingDirectiveAST();
NameAST* name() { return m_name.get(); }
void setName( NameAST::Node& name );
private:
NameAST::Node m_name;
private:
UsingDirectiveAST( const UsingDirectiveAST& source );
void operator = ( const UsingDirectiveAST& source );
};
class DeclaratorAST: public AST
{
public:
typedef AUTO_PTR<DeclaratorAST> Node;
enum { Type = NodeType_Declarator };
DECLARE_ALLOC( DeclaratorAST )
public:
DeclaratorAST();
TQPtrList<AST> ptrOpList() { return m_ptrOpList; }
void addPtrOp( AST::Node& ptrOp );
DeclaratorAST* subDeclarator() { return m_subDeclarator.get(); }
void setSubDeclarator( AUTO_PTR<DeclaratorAST>& subDeclarator );
NameAST* declaratorId() { return m_declaratorId.get(); }
void setDeclaratorId( NameAST::Node& declaratorId );
AST* bitfieldInitialization() { return m_bitfieldInitialization.get(); }
void setBitfieldInitialization( AST::Node& bitfieldInitialization );
TQPtrList<AST> arrayDimensionList() { return m_arrayDimensionList; }
void addArrayDimension( AST::Node& arrayDimension );
class ParameterDeclarationClauseAST* parameterDeclarationClause() { return m_parameterDeclarationClause.get(); }
void setParameterDeclarationClause( AUTO_PTR<class ParameterDeclarationClauseAST>& parameterDeclarationClause );
// ### replace 'constant' with cvQualify
AST* constant() { return m_constant.get(); }
void setConstant( AST::Node& constant );
GroupAST* exceptionSpecification() { return m_exceptionSpecification.get(); }
void setExceptionSpecification( GroupAST::Node& exceptionSpecification );
private:
TQPtrList<AST> m_ptrOpList;
AUTO_PTR<DeclaratorAST> m_subDeclarator;
NameAST::Node m_declaratorId;
AST::Node m_bitfieldInitialization;
TQPtrList<AST> m_arrayDimensionList;
AUTO_PTR<class ParameterDeclarationClauseAST> m_parameterDeclarationClause;
AST::Node m_constant;
GroupAST::Node m_exceptionSpecification;
private:
DeclaratorAST( const DeclaratorAST& source );
void operator = ( const DeclaratorAST& source );
};
class ParameterDeclarationAST: public AST
{
public:
typedef AUTO_PTR<ParameterDeclarationAST> Node;
enum { Type = NodeType_ParameterDeclaration };
DECLARE_ALLOC( ParameterDeclarationAST )
public:
ParameterDeclarationAST();
TypeSpecifierAST* typeSpec() { return m_typeSpec.get(); }
void setTypeSpec( TypeSpecifierAST::Node& typeSpec );
DeclaratorAST* declarator() { return m_declarator.get(); }
void setDeclarator( DeclaratorAST::Node& declarator );
AST* expression() { return m_expression.get(); }
void setExpression( AST::Node& expression );
virtual TQString text() const;
private:
TypeSpecifierAST::Node m_typeSpec;
DeclaratorAST::Node m_declarator;
AST::Node m_expression;
private:
ParameterDeclarationAST( const ParameterDeclarationAST& source );
void operator = ( const ParameterDeclarationAST& source );
};
class ParameterDeclarationListAST: public AST
{
public:
typedef AUTO_PTR<ParameterDeclarationListAST> Node;
enum { Type = NodeType_ParameterDeclarationList };
DECLARE_ALLOC( ParameterDeclarationListAST )
public:
ParameterDeclarationListAST();
TQPtrList<ParameterDeclarationAST> parameterList() { return m_parameterList; }
void addParameter( ParameterDeclarationAST::Node& parameter );
virtual TQString text() const;
private:
TQPtrList<ParameterDeclarationAST> m_parameterList;
private:
ParameterDeclarationListAST( const ParameterDeclarationListAST& source );
void operator = ( const ParameterDeclarationListAST& source );
};
class ParameterDeclarationClauseAST: public AST
{
public:
typedef AUTO_PTR<ParameterDeclarationClauseAST> Node;
enum { Type = NodeType_ParameterDeclarationClause };
DECLARE_ALLOC( ParameterDeclarationClauseAST )
public:
ParameterDeclarationClauseAST();
ParameterDeclarationListAST* parameterDeclarationList() { return m_parameterDeclarationList.get(); }
void setParameterDeclarationList( ParameterDeclarationListAST::Node& parameterDeclarationList );
AST* ellipsis() { return m_ellipsis.get(); }
void setEllipsis( AST::Node& ellipsis );
virtual TQString text() const;
private:
ParameterDeclarationListAST::Node m_parameterDeclarationList;
AST::Node m_ellipsis;
private:
ParameterDeclarationClauseAST( const ParameterDeclarationClauseAST& source );
void operator = ( const ParameterDeclarationClauseAST& source );
};
class InitDeclaratorAST: public AST
{
public:
typedef AUTO_PTR<InitDeclaratorAST> Node;
enum { Type = NodeType_InitDeclarator };
DECLARE_ALLOC( InitDeclaratorAST )
public:
InitDeclaratorAST();
DeclaratorAST* declarator() { return m_declarator.get(); }
void setDeclarator( DeclaratorAST::Node& declarator );
AST* initializer() { return m_initializer.get(); }
void setInitializer( AST::Node& initializer );
private:
DeclaratorAST::Node m_declarator;
AST::Node m_initializer;
private:
InitDeclaratorAST( const InitDeclaratorAST& source );
void operator = ( const InitDeclaratorAST& source );
};
class InitDeclaratorListAST: public AST
{
public:
typedef AUTO_PTR<InitDeclaratorListAST> Node;
enum { Type = NodeType_InitDeclaratorList };
DECLARE_ALLOC( InitDeclaratorListAST )
public:
InitDeclaratorListAST();
TQPtrList<InitDeclaratorAST> initDeclaratorList() { return m_initDeclaratorList; }
void addInitDeclarator( InitDeclaratorAST::Node& decl );
private:
TQPtrList<InitDeclaratorAST> m_initDeclaratorList;
private:
InitDeclaratorListAST( const InitDeclaratorListAST& source );
void operator = ( const InitDeclaratorListAST& source );
};
class TypedefAST: public DeclarationAST
{
public:
typedef AUTO_PTR<TypedefAST> Node;
enum { Type = NodeType_Typedef };
DECLARE_ALLOC( TypedefAST )
public:
TypedefAST();
TypeSpecifierAST* typeSpec() { return m_typeSpec.get(); }
void setTypeSpec( TypeSpecifierAST::Node& typeSpec );
InitDeclaratorListAST* initDeclaratorList() { return m_initDeclaratorList.get(); }
void setInitDeclaratorList( InitDeclaratorListAST::Node& initDeclaratorList );
private:
TypeSpecifierAST::Node m_typeSpec;
InitDeclaratorListAST::Node m_initDeclaratorList;
private:
TypedefAST( const TypedefAST& source );
void operator = ( const TypedefAST& source );
};
class TemplateParameterAST: public AST
{
public:
typedef AUTO_PTR<TemplateParameterAST> Node;
enum { Type = NodeType_TemplateParameter };
DECLARE_ALLOC( TemplateParameterAST )
public:
TemplateParameterAST();
TypeParameterAST* typeParameter() { return m_typeParameter.get(); }
void setTypeParameter( TypeParameterAST::Node& typeParameter );
ParameterDeclarationAST* typeValueParameter() { return m_typeValueParameter.get(); }
void setTypeValueParameter( ParameterDeclarationAST::Node& typeValueParameter );
private:
TypeParameterAST::Node m_typeParameter;
ParameterDeclarationAST::Node m_typeValueParameter;
private:
TemplateParameterAST( const TemplateParameterAST& source );
void operator = ( const TemplateParameterAST& source );
};
class TemplateParameterListAST: public AST
{
public:
typedef AUTO_PTR<TemplateParameterListAST> Node;
enum { Type = NodeType_TemplateParameterList };
DECLARE_ALLOC( TemplateParameterListAST )
public:
TemplateParameterListAST();
TQPtrList<TemplateParameterAST> templateParameterList() { return m_templateParameterList; }
void addTemplateParameter( TemplateParameterAST::Node& templateParameter );
private:
TQPtrList<TemplateParameterAST> m_templateParameterList;
private:
TemplateParameterListAST( const TemplateParameterListAST& source );
void operator = ( const TemplateParameterListAST& source );
};
class TemplateDeclarationAST: public DeclarationAST
{
public:
typedef AUTO_PTR<TemplateDeclarationAST> Node;
enum { Type = NodeType_TemplateDeclaration };
DECLARE_ALLOC( TemplateDeclarationAST )
public:
TemplateDeclarationAST();
AST* exported() { return m_exported.get(); }
void setExported( AST::Node& exported );
TemplateParameterListAST* templateParameterList() { return m_templateParameterList.get(); }
void setTemplateParameterList( TemplateParameterListAST::Node& templateParameterList );
DeclarationAST* declaration() { return m_declaration.get(); }
void setDeclaration( DeclarationAST::Node& declaration );
private:
AST::Node m_exported;
TemplateParameterListAST::Node m_templateParameterList;
DeclarationAST::Node m_declaration;
private:
TemplateDeclarationAST( const TemplateDeclarationAST& source );
void operator = ( const TemplateDeclarationAST& source );
};
class SimpleDeclarationAST: public DeclarationAST
{
public:
typedef AUTO_PTR<SimpleDeclarationAST> Node;
enum { Type = NodeType_SimpleDeclaration };
DECLARE_ALLOC( SimpleDeclarationAST )
public:
SimpleDeclarationAST();
GroupAST* functionSpecifier() { return m_functionSpecifier.get(); }
void setFunctionSpecifier( GroupAST::Node& functionSpecifier );
GroupAST* storageSpecifier() { return m_storageSpecifier.get(); }
void setStorageSpecifier( GroupAST::Node& storageSpecifier );
TypeSpecifierAST* typeSpec() { return m_typeSpec.get(); }
void setTypeSpec( TypeSpecifierAST::Node& typeSpec );
InitDeclaratorListAST* initDeclaratorList() { return m_initDeclaratorList.get(); }
void setInitDeclaratorList( InitDeclaratorListAST::Node& initDeclaratorList );
GroupAST* winDeclSpec() { return m_winDeclSpec.get(); }
void setWinDeclSpec( GroupAST::Node& winDeclSpec );
private:
GroupAST::Node m_functionSpecifier;
GroupAST::Node m_storageSpecifier;
TypeSpecifierAST::Node m_typeSpec;
InitDeclaratorListAST::Node m_initDeclaratorList;
GroupAST::Node m_winDeclSpec;
private:
SimpleDeclarationAST( const SimpleDeclarationAST& source );
void operator = ( const SimpleDeclarationAST& source );
};
class StatementAST: public AST
{
public:
typedef AUTO_PTR<StatementAST> Node;
enum { Type = NodeType_Statement };
DECLARE_ALLOC( StatementAST )
public:
StatementAST();
private:
StatementAST( const StatementAST& source );
void operator = ( const StatementAST& source );
};
class ExpressionStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<ExpressionStatementAST> Node;
enum { Type = NodeType_ExpressionStatement };
DECLARE_ALLOC( ExpressionStatementAST )
public:
ExpressionStatementAST();
AST* expression() { return m_expression.get(); }
void setExpression( AST::Node& expression );
private:
AST::Node m_expression;
private:
ExpressionStatementAST( const ExpressionStatementAST& source );
void operator = ( const ExpressionStatementAST& source );
};
class ConditionAST: public AST
{
public:
typedef AUTO_PTR<ConditionAST> Node;
enum { Type = NodeType_Condition };
DECLARE_ALLOC( ConditionAST )
public:
ConditionAST();
TypeSpecifierAST* typeSpec() { return m_typeSpec.get(); }
void setTypeSpec( TypeSpecifierAST::Node& typeSpec );
DeclaratorAST* declarator() { return m_declarator.get(); }
void setDeclarator( DeclaratorAST::Node& declarator );
AST* expression() { return m_expression.get(); }
void setExpression( AST::Node& expression );
private:
TypeSpecifierAST::Node m_typeSpec;
DeclaratorAST::Node m_declarator;
AST::Node m_expression;
private:
ConditionAST( const ConditionAST& source );
void operator = ( const ConditionAST& source );
};
class IfStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<IfStatementAST> Node;
enum { Type = NodeType_IfStatement };
DECLARE_ALLOC( IfStatementAST )
public:
IfStatementAST();
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
StatementAST* elseStatement() { return m_elseStatement.get(); }
void setElseStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_statement;
StatementAST::Node m_elseStatement;
private:
IfStatementAST( const IfStatementAST& source );
void operator = ( const IfStatementAST& source );
};
class WhileStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<WhileStatementAST> Node;
enum { Type = NodeType_WhileStatement };
DECLARE_ALLOC( WhileStatementAST )
public:
WhileStatementAST();
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_statement;
private:
WhileStatementAST( const WhileStatementAST& source );
void operator = ( const WhileStatementAST& source );
};
class DoStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<DoStatementAST> Node;
enum { Type = NodeType_DoStatement };
DECLARE_ALLOC( DoStatementAST )
public:
DoStatementAST();
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_statement;
private:
DoStatementAST( const DoStatementAST& source );
void operator = ( const DoStatementAST& source );
};
class ForStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<ForStatementAST> Node;
enum { Type = NodeType_ForStatement };
DECLARE_ALLOC( ForStatementAST )
public:
ForStatementAST();
StatementAST* initStatement() { return m_initStatement.get(); }
void setInitStatement( StatementAST::Node& statement );
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
AST* expression() const { return m_expression.get(); }
void setExpression( AST::Node& expression );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_initStatement;
StatementAST::Node m_statement;
AST::Node m_expression;
private:
ForStatementAST( const ForStatementAST& source );
void operator = ( const ForStatementAST& source );
};
// qt4 [erbsland]
class ForEachStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<ForEachStatementAST> Node;
enum { Type = NodeType_ForEachStatement };
DECLARE_ALLOC( ForEachStatementAST )
public:
ForEachStatementAST();
StatementAST* initStatement() { return m_initStatement.get(); }
void setInitStatement( StatementAST::Node& statement );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
AST* expression() const { return m_expression.get(); }
void setExpression( AST::Node& expression );
private:
StatementAST::Node m_initStatement;
StatementAST::Node m_statement;
AST::Node m_expression;
private:
ForEachStatementAST( const ForEachStatementAST& source );
void operator = ( const ForEachStatementAST& source );
};
class SwitchStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<SwitchStatementAST> Node;
enum { Type = NodeType_SwitchStatement };
DECLARE_ALLOC( SwitchStatementAST )
public:
SwitchStatementAST();
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_statement;
private:
SwitchStatementAST( const SwitchStatementAST& source );
void operator = ( const SwitchStatementAST& source );
};
class StatementListAST: public StatementAST
{
public:
typedef AUTO_PTR<StatementListAST> Node;
enum { Type = NodeType_StatementList };
DECLARE_ALLOC( StatementListAST )
public:
StatementListAST();
TQPtrList<StatementAST> statementList() { return m_statementList; }
void addStatement( StatementAST::Node& statement );
private:
TQPtrList<StatementAST> m_statementList;
private:
StatementListAST( const StatementListAST& source );
void operator = ( const StatementListAST& source );
};
class CatchStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<CatchStatementAST> Node;
enum { Type = NodeType_CatchStatement };
DECLARE_ALLOC( CatchStatementAST )
public:
CatchStatementAST();
ConditionAST* condition() const { return m_condition.get(); }
void setCondition( ConditionAST::Node& condition );
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
private:
ConditionAST::Node m_condition;
StatementAST::Node m_statement;
private:
CatchStatementAST( const CatchStatementAST& source );
void operator = ( const CatchStatementAST& source );
};
class CatchStatementListAST: public StatementAST
{
public:
typedef AUTO_PTR<CatchStatementListAST> Node;
enum { Type = NodeType_CatchStatementList };
DECLARE_ALLOC( CatchStatementListAST )
public:
CatchStatementListAST();
TQPtrList<CatchStatementAST> statementList() { return m_statementList; }
void addStatement( CatchStatementAST::Node& statement );
private:
TQPtrList<CatchStatementAST> m_statementList;
private:
CatchStatementListAST( const CatchStatementListAST& source );
void operator = ( const CatchStatementListAST& source );
};
class TryBlockStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<TryBlockStatementAST> Node;
enum { Type = NodeType_TryBlockStatement };
DECLARE_ALLOC( TryBlockStatementAST )
public:
TryBlockStatementAST();
StatementAST* statement() { return m_statement.get(); }
void setStatement( StatementAST::Node& statement );
CatchStatementListAST* catchStatementList() { return m_catchStatementList.get(); }
void setCatchStatementList( CatchStatementListAST::Node& statementList );
private:
StatementAST::Node m_statement;
CatchStatementListAST::Node m_catchStatementList;
private:
TryBlockStatementAST( const TryBlockStatementAST& source );
void operator = ( const TryBlockStatementAST& source );
};
class DeclarationStatementAST: public StatementAST
{
public:
typedef AUTO_PTR<DeclarationStatementAST> Node;
enum { Type = NodeType_DeclarationStatement };
DECLARE_ALLOC( DeclarationStatementAST )
public:
DeclarationStatementAST();
DeclarationAST* declaration() { return m_declaration.get(); }
void setDeclaration( DeclarationAST::Node& declaration );
private:
DeclarationAST::Node m_declaration;
private:
DeclarationStatementAST( const DeclarationStatementAST& source );
void operator = ( const DeclarationStatementAST& source );
};
class FunctionDefinitionAST: public DeclarationAST
{
public:
typedef AUTO_PTR<FunctionDefinitionAST> Node;
enum { Type = NodeType_FunctionDefinition };
DECLARE_ALLOC( FunctionDefinitionAST )
public:
FunctionDefinitionAST();
GroupAST* functionSpecifier() { return m_functionSpecifier.get(); }
void setFunctionSpecifier( GroupAST::Node& functionSpecifier );
GroupAST* storageSpecifier() { return m_storageSpecifier.get(); }
void setStorageSpecifier( GroupAST::Node& storageSpecifier );
TypeSpecifierAST* typeSpec() { return m_typeSpec.get(); }
void setTypeSpec( TypeSpecifierAST::Node& typeSpec );
InitDeclaratorAST* initDeclarator() { return m_initDeclarator.get(); }
void setInitDeclarator( InitDeclaratorAST::Node& initDeclarator );
StatementListAST* functionBody() { return m_functionBody.get(); }
void setFunctionBody( StatementListAST::Node& functionBody );
GroupAST* winDeclSpec() { return m_winDeclSpec.get(); }
void setWinDeclSpec( GroupAST::Node& winDeclSpec );
private:
GroupAST::Node m_functionSpecifier;
GroupAST::Node m_storageSpecifier;
TypeSpecifierAST::Node m_typeSpec;
InitDeclaratorAST::Node m_initDeclarator;
StatementListAST::Node m_functionBody;
GroupAST::Node m_winDeclSpec;
private:
FunctionDefinitionAST( const FunctionDefinitionAST& source );
void operator = ( const FunctionDefinitionAST& source );
};
class TranslationUnitAST: public AST, public KShared
{
public:
typedef KSharedPtr<TranslationUnitAST> Node;
enum { Type = NodeType_TranslationUnit };
DECLARE_ALLOC( TranslationUnitAST )
public:
TranslationUnitAST();
void addDeclaration( DeclarationAST::Node& ast );
TQPtrList<DeclarationAST> declarationList() { return m_declarationList; }
private:
TQPtrList<DeclarationAST> m_declarationList;
private:
TranslationUnitAST( const TranslationUnitAST& source );
void operator = ( const TranslationUnitAST& source );
};
#endif