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tdevelop/lib/interfaces/codemodel.cpp

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48 KiB

/* This file is part of KDevelop
Copyright (C) 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.
*/
#include "codemodel.h"
#include "driver.h"
#include <kdebug.h>
#include <kdatastream.h>
///Little helper-functions to save a lot of typing and possible errors
template<class MapContainer>
bool eachCanUpdate( const MapContainer& old, const MapContainer& newMap ) {
if( old.size() != newMap.size() ) return false;
typename MapContainer::const_iterator oldIt = old.begin();
typename MapContainer::const_iterator newIt = newMap.begin();
while( oldIt != old.end() ) {
typedef typename MapContainer::mapped_type ListType;
if( (*oldIt).size() != (*newIt).size() ) return false;
typename ListType::const_iterator it1 = (*oldIt).begin();
typename ListType::const_iterator it2 = (*newIt).begin();
while( it1 != (*oldIt).end() ) {
if( !(*it1)->canUpdate( *it2 ) ) return false;
++it1;
++it2;
}
++oldIt;
++newIt;
}
return true;
}
template<class MapContainer>
void eachUpdate( MapContainer& old, const MapContainer& newMap ) {
if( old.size() != newMap.size() ) kdError( 9007 ) << "error in eachUpdate(...) 1" << endl;
typename MapContainer::iterator oldIt = old.begin();
typename MapContainer::const_iterator newIt = newMap.begin();
while( oldIt != old.end() ) {
if( (*oldIt).size() != (*newIt).size() ) kdError( 9007 ) << "error in eachUpdate(...) 2" << endl;
typedef typename MapContainer::mapped_type ListType;
typename ListType::iterator it1 = (*oldIt).begin();
typename ListType::const_iterator it2 = (*newIt).begin();
while( it1 != (*oldIt).end() ) {
(*it1)->update( *it2 );
++it1;
++it2;
}
++oldIt;
++newIt;
}
}
///Versions for contains that do not contain maps again
template<class MapContainer>
bool eachCanUpdateSingle( const MapContainer& old, const MapContainer& newMap ) {
if( old.size() != newMap.size() ) return false;
typename MapContainer::const_iterator oldIt = old.begin();
typename MapContainer::const_iterator newIt = newMap.begin();
while( oldIt != old.end() ) {
if( !(*oldIt)->canUpdate( *newIt ) ) return false;
++oldIt;
++newIt;
}
return true;
}
template<class MapContainer>
void eachUpdateSingle( MapContainer& old, const MapContainer& newMap ) {
if( old.size() != newMap.size() ) kdError( 9007 ) << "error in eachUpdate(...) 1" << endl;
typename MapContainer::iterator oldIt = old.begin();
typename MapContainer::const_iterator newIt = newMap.begin();
while( oldIt != old.end() ) {
(*oldIt)->update( *newIt );
++oldIt;
++newIt;
}
}
CodeModel::CodeModel()
{
wipeout();
m_currentGroupId = 1; ///0 stands for invalid group
}
CodeModel::~ CodeModel( )
{
}
int CodeModel::newGroupId() {
return (m_currentGroupId++) * 2;
}
inline bool isSingleGroup( const int group ) {
return (group % 2) == 0;
}
TQStringList CodeModel::getGroupStrings(int gid) const {
TQStringList ret;
for(TQMap<TQString, FileDom>::ConstIterator it = m_files.begin(); it != m_files.end(); ++it) {
if((*it)->groupId() == gid) ret.append( (*it)-> name() );
}
return ret;
}
FileList CodeModel::getGroup(int gid) const {
FileList ret;
for(TQMap<TQString, FileDom>::ConstIterator it = m_files.begin(); it != m_files.end(); ++it) {
if((*it)->groupId() == gid) ret.append(*it);
}
return ret;
}
FileList CodeModel::getGroup( const FileDom& dom) const {
return getGroup( dom->groupId() );
}
int CodeModel::mergeGroups( int g1, int g2) {
if( !g1 || !g2 ) return 0;
if( g1 == g2 ) return g1;
int ng = isSingleGroup( g1 ) ? g2 : g1;
if( isSingleGroup( ng ) )
ng = newGroupId() + 1;
for( TQMap<TQString, FileDom>::iterator it = m_files.begin(); it != m_files.end(); ++it ) {
if( (*it)->groupId() == g2 || (*it)->groupId() == g1 ) (*it)->setGroupId( ng );
}
return ng;
}
template<class Type> static void dumpMap( std::ostream& file, TQMap<TQString, Type>& map ) {
typename TQMap<TQString, Type>::Iterator it = map.begin();
for( ; it != map.end(); ++it) {
typename Type::Iterator it2 = (*it).begin();
for( ; it2 != (*it).end(); ++it2) {
(*it2) -> dump( file, true );
}
}
}
template<class Type> static void dumpMapDirect( std::ostream& file, TQMap<TQString, Type>& map ) {
typename TQMap<TQString, Type>::Iterator it = map.begin();
for( ; it != map.end(); ++it) {
(*it) -> dump( file, true );
}
}
void CodeModelItem::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "name: " << name().ascii() << "\n";
str << "kind: " << m_kind << " ";
if( isFile() ) str << "isFile ";
if( isNamespace() ) str << "isNamespace ";
if( isClass() ) str << "isClass ";
if( isFunction() ) str << "isFunction ";
if( isFunctionDefinition() ) str << "isFunctionDefinition ";
if( isVariable() ) str << "isVariable ";
if( isArgument() ) str << "isArgument ";
if( isEnum() ) str << "isEnum ";
if( isEnumerator() ) str << "isEnumerator ";
if( isTypeAlias() ) str << "isTypeAlias ";
if( isCustom() ) str << "isCustom ";
str << "\n";
str << "File: " << fileName().ascii() << " ";
int line, col;
getStartPosition( &line, &col );
str << "s:(" << line << ", " << col << ") ";
getEndPosition( &line, &col );
str << "e:(" << line << ", " << col << ")\n";
Info.prepend( str.str().c_str() );
file << Info.ascii() << "\n";
if(recurse) {} ///just to get rid of the warning
}
void ClassModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "scope: " << m_scope.join("::").ascii() << "\n";
str << "bases: " << m_baseClassList.join(" ").ascii() << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if( recurse ) {
dumpMap( file, m_classes );
}
}
void NamespaceAliasModel::read( TQDataStream& stream ) {
TQString tempFileName;
stream >> m_name >> m_aliasName >> tempFileName;
m_fileName = HashedString( tempFileName );
}
void NamespaceAliasModel::write( TQDataStream& stream ) const {
stream << m_name << m_aliasName << m_fileName.str();
}
void NamespaceImportModel::read( TQDataStream& stream ) {
TQString tempFileName;
stream >> m_name >> tempFileName;
m_fileName = HashedString( tempFileName );
}
void NamespaceImportModel::write( TQDataStream& stream ) const {
stream << m_name << m_fileName.str();
}
void NamespaceModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
Info.prepend( str.str().c_str() );
ClassModel::dump( file, false, Info );
if( recurse ) {
dumpMapDirect( file, m_namespaces );
}
}
void ArgumentModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "type: " << m_type.ascii() << " default: " << m_defaultValue.ascii() << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if(recurse) {} ///just to get rid of the warning
}
void FunctionModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "access: " << m_access;
str << " scope: " << m_scope.join("::").ascii() << "\n";
if(isAbstract()) str << "isAbstract ";
if(isConstant()) str << "isConstant ";
if(isFunction()) str << "isFunction ";
if(isInline()) str << "isInline ";
if(isSignal()) str << "isSignal ";
if(isSlot()) str << "isSlot ";
if(isStatic()) str << "isStatic ";
if(isVirtual()) str << "isVirtual ";
str << "\n";
str << "result-type: " << resultType().ascii() << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if(recurse) {
for( ArgumentList::iterator it = m_arguments.begin(); it != m_arguments.end(); ++it) {
(*it) -> dump( file, true );
}
}
}
void VariableModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "access: " << m_access << "type: " << m_type.ascii() << "\n";
if(isStatic()) str << "isStatic ";
str << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if(recurse) {} ///just to get rid of the warning
}
void CodeModel::dump( std::ostream& file, TQString Info ) {
ostringstream str(ostringstream::out);
Info.prepend( str.str().c_str() );
file << Info.ascii() << "\n";
TQMap<TQString, FileDom>::iterator it = m_files.begin();
for(; it != m_files.end(); ++it) {
(*it) -> dump( file, true );
}
}
void EnumModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "access: " << m_access << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if( recurse ) {
dumpMapDirect( file, m_enumerators );
}
}
void EnumeratorModel::dump( std::ostream& file, bool recurse, TQString Info )
{
ostringstream str( ostringstream::out );
str << "value: " << m_value.ascii() << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if(recurse) {} ///just to get rid of the warning
}
void TypeAliasModel::dump( std::ostream& file, bool recurse, TQString Info ) {
ostringstream str( ostringstream::out );
str << "type: " << m_type.ascii() << "\n";
Info.prepend( str.str().c_str() );
CodeModelItem::dump( file, false, Info );
if(recurse) {} ///just to get rid of the warning
}
void CodeModel::wipeout()
{
m_files.clear();
NamespaceDom ns = create<NamespaceModel>();
ns->setName( "::" );
m_globalNamespace = ns;
}
FileList CodeModel::fileList( )
{
return m_files.values();
}
const FileList CodeModel::fileList( ) const
{
return m_files.values();
}
bool CodeModel::hasFile( const TQString & name ) const
{
return m_files.tqcontains( name );
}
FileDom CodeModel::fileByName( const TQString & name )
{
TQMap<TQString, FileDom>::const_iterator it = m_files.tqfind( name );
if( it != m_files.end() ) {
return *it;
} else {
return FileDom();
}
}
const FileDom CodeModel::fileByName( const TQString & name ) const
{
TQMap<TQString, FileDom>::const_iterator it = m_files.tqfind( name );
if( it != m_files.end() ) {
return *it;
} else {
return FileDom();
}
}
void CodeModel::addNamespace( NamespaceDom target, NamespaceDom source )
{
if( source->name().isEmpty() ){
return;
} else if( !target->hasNamespace(source->name()) ){
NamespaceDom ns = this->create<NamespaceModel>();
ns->setName( source->name() );
ns->setFileName( source->fileName() ); /// \FIXME ROBE
ns->setScope( source->scope() );
target->addNamespace( ns );
}
NamespaceDom ns = target->namespaceByName( source->name() );
NamespaceList namespaceList = source->namespaceList();
ClassList classList = source->classList();
FunctionList functionList = source->functionList();
FunctionDefinitionList functionDefinitionList = source->functionDefinitionList();
VariableList variableList = source->variableList();
EnumList enumList = source->enumList();
TypeAliasList typeAliasList = source->typeAliasList();
const NamespaceModel::NamespaceAliasModelList& namespaceAliases = source->namespaceAliases();
const NamespaceModel::NamespaceImportModelList& namespaceImports = source->namespaceImports();
for( NamespaceList::Iterator it=namespaceList.begin(); it!=namespaceList.end(); ++it )
addNamespace( ns, *it );
for( ClassList::Iterator it=classList.begin(); it!=classList.end(); ++it )
ns->addClass( *it );
for( FunctionList::Iterator it=functionList.begin(); it!=functionList.end(); ++it )
ns->addFunction( *it );
for( FunctionDefinitionList::Iterator it=functionDefinitionList.begin(); it!=functionDefinitionList.end(); ++it )
ns->addFunctionDefinition( *it );
for( VariableList::Iterator it=variableList.begin(); it!=variableList.end(); ++it )
ns->addVariable( *it );
for( EnumList::Iterator it=enumList.begin(); it!=enumList.end(); ++it )
ns->addEnum( *it );
for( TypeAliasList::Iterator it=typeAliasList.begin(); it!=typeAliasList.end(); ++it )
ns->addTypeAlias( *it );
for( NamespaceModel::NamespaceAliasModelList::const_iterator it=namespaceAliases.begin(); it != namespaceAliases.end(); ++it )
ns->addNamespaceAlias( *it );
for( NamespaceModel::NamespaceImportModelList::const_iterator it=namespaceImports.begin(); it != namespaceImports.end(); ++it )
ns->addNamespaceImport( *it );
}
void CodeModel::removeNamespace( NamespaceDom target, NamespaceDom source )
{
if( source->name().isEmpty() || !target->hasNamespace(source->name()) )
return;
NamespaceDom ns = target->namespaceByName( source->name() );
NamespaceList namespaceList = source->namespaceList();
ClassList classList = source->classList();
FunctionList functionList = source->functionList();
FunctionDefinitionList functionDefinitionList = source->functionDefinitionList();
VariableList variableList = source->variableList();
EnumList enumList = source->enumList();
TypeAliasList typeAliasList = source->typeAliasList();
const NamespaceModel::NamespaceAliasModelList& namespaceAliases = source->namespaceAliases();
const NamespaceModel::NamespaceImportModelList& namespaceImports = source->namespaceImports();
for( NamespaceList::Iterator it=namespaceList.begin(); it!=namespaceList.end(); ++it )
removeNamespace( ns, *it );
for( ClassList::Iterator it=classList.begin(); it!=classList.end(); ++it )
ns->removeClass( *it );
for( FunctionList::Iterator it=functionList.begin(); it!=functionList.end(); ++it )
ns->removeFunction( *it );
for( FunctionDefinitionList::Iterator it=functionDefinitionList.begin(); it!=functionDefinitionList.end(); ++it )
ns->removeFunctionDefinition( *it );
for( VariableList::Iterator it=variableList.begin(); it!=variableList.end(); ++it )
ns->removeVariable( *it );
for( EnumList::Iterator it=enumList.begin(); it!=enumList.end(); ++it )
ns->removeEnum( *it );
for( TypeAliasList::Iterator it=typeAliasList.begin(); it!=typeAliasList.end(); ++it )
ns->removeTypeAlias( *it );
for( NamespaceModel::NamespaceAliasModelList::const_iterator it=namespaceAliases.begin(); it != namespaceAliases.end(); ++it )
ns->removeNamespaceAlias( *it );
for( NamespaceModel::NamespaceImportModelList::const_iterator it=namespaceImports.begin(); it != namespaceImports.end(); ++it )
ns->removeNamespaceImport( *it );
if( ns->namespaceList().isEmpty() &&
ns->classList().isEmpty() &&
ns->functionList().isEmpty() &&
ns->functionDefinitionList().isEmpty() &&
ns->variableList().isEmpty() &&
ns->enumList().isEmpty() &&
ns->typeAliasList().isEmpty() &&
ns->namespaceImports().empty() &&
ns->namespaceAliases().empty() )
{
target->removeNamespace( ns );
}
}
bool CodeModel::addFile( FileDom file )
{
if( file->name().isEmpty() )
return false;
if( m_files.tqfind( file->name() ) != m_files.end() ) {
///the error-channel is set to 9007 because this problem appears with the cpp-support, so it is needed while debugging it
kdDebug(9007) << "file " << file->name() << " was added to code-model without removing it before! \n" << kdBacktrace() << endl;
removeFile( fileByName( file->name() ) );
}
// update global namespace
NamespaceList namespaceList = file->namespaceList();
ClassList classList = file->classList();
FunctionList functionList = file->functionList();
FunctionDefinitionList functionDefinitionList = file->functionDefinitionList();
VariableList variableList = file->variableList();
EnumList enumList = file->enumList();
TypeAliasList typeAliasList = file->typeAliasList();
const NamespaceModel::NamespaceAliasModelList& namespaceAliases = file->namespaceAliases();
const NamespaceModel::NamespaceImportModelList& namespaceImports = file->namespaceImports();
for( NamespaceList::Iterator it=namespaceList.begin(); it!=namespaceList.end(); ++it )
addNamespace( m_globalNamespace, *it );
for( ClassList::Iterator it=classList.begin(); it!=classList.end(); ++it )
m_globalNamespace->addClass( *it );
for( FunctionList::Iterator it=functionList.begin(); it!=functionList.end(); ++it )
m_globalNamespace->addFunction( *it );
for( FunctionDefinitionList::Iterator it=functionDefinitionList.begin(); it!=functionDefinitionList.end(); ++it )
m_globalNamespace->addFunctionDefinition( *it );
for( VariableList::Iterator it=variableList.begin(); it!=variableList.end(); ++it )
m_globalNamespace->addVariable( *it );
for( EnumList::Iterator it=enumList.begin(); it!=enumList.end(); ++it )
m_globalNamespace->addEnum( *it );
for( TypeAliasList::Iterator it=typeAliasList.begin(); it!=typeAliasList.end(); ++it )
m_globalNamespace->addTypeAlias( *it );
for( NamespaceModel::NamespaceAliasModelList::const_iterator it=namespaceAliases.begin(); it != namespaceAliases.end(); ++it )
m_globalNamespace->addNamespaceAlias( *it );
for( NamespaceModel::NamespaceImportModelList::const_iterator it=namespaceImports.begin(); it != namespaceImports.end(); ++it )
m_globalNamespace->addNamespaceImport( *it );
m_files.insert( file->name(), file );
return true;
}
void CodeModel::removeFile( FileDom file )
{
// update global namespace
NamespaceList namespaceList = file->namespaceList();
ClassList classList = file->classList();
FunctionList functionList = file->functionList();
FunctionDefinitionList functionDefinitionList = file->functionDefinitionList();
VariableList variableList = file->variableList();
EnumList enumList = file->enumList();
TypeAliasList typeAliasList = file->typeAliasList();
const NamespaceModel::NamespaceAliasModelList& namespaceAliases = file->namespaceAliases();
const NamespaceModel::NamespaceImportModelList& namespaceImports = file->namespaceImports();
for( NamespaceList::Iterator it=namespaceList.begin(); it!=namespaceList.end(); ++it )
removeNamespace( m_globalNamespace, *it );
for( ClassList::Iterator it=classList.begin(); it!=classList.end(); ++it )
m_globalNamespace->removeClass( *it );
for( FunctionList::Iterator it=functionList.begin(); it!=functionList.end(); ++it )
m_globalNamespace->removeFunction( *it );
for( FunctionDefinitionList::Iterator it=functionDefinitionList.begin(); it!=functionDefinitionList.end(); ++it )
m_globalNamespace->removeFunctionDefinition( *it );
for( VariableList::Iterator it=variableList.begin(); it!=variableList.end(); ++it )
m_globalNamespace->removeVariable( *it );
for( EnumList::Iterator it=enumList.begin(); it!=enumList.end(); ++it )
m_globalNamespace->removeEnum( *it );
for( TypeAliasList::Iterator it=typeAliasList.begin(); it!=typeAliasList.end(); ++it )
m_globalNamespace->removeTypeAlias( *it );
for( NamespaceModel::NamespaceAliasModelList::const_iterator it=namespaceAliases.begin(); it != namespaceAliases.end(); ++it )
m_globalNamespace->removeNamespaceAlias( *it );
for( NamespaceModel::NamespaceImportModelList::const_iterator it=namespaceImports.begin(); it != namespaceImports.end(); ++it )
m_globalNamespace->removeNamespaceImport( *it );
m_files.remove( file->name() );
}
// ------------------------------------------------------------------------
CodeModelItem::CodeModelItem( int kind, CodeModel* model )
: m_kind( kind ), m_model( model )
{
//kdDebug() << "CodeModelItem::CodeModelItem()" << endl;
m_startLine = 0;
m_startColumn = 0;
m_endLine = 0;
m_endColumn = 0;
}
CodeModelItem::~ CodeModelItem( )
{
}
TQString CodeModelItem::name( ) const
{
return m_name;
}
void CodeModelItem::setName( const TQString & name )
{
m_name = name;
}
const FileDom CodeModelItem::file( ) const
{
return m_model->fileByName( m_fileName );
}
FileDom CodeModelItem::file( )
{
return m_model->fileByName( m_fileName );
}
TQString CodeModelItem::fileName() const
{
return m_fileName;
}
void CodeModelItem::setFileName( const TQString& fileName )
{
m_fileName = fileName;
}
void CodeModelItem::getStartPosition( int * line, int * column ) const
{
if( line ) *line = m_startLine;
if( column ) *column = m_startColumn;
}
void CodeModelItem::setStartPosition( int line, int column )
{
m_startLine = line;
m_startColumn = column;
}
void CodeModelItem::getEndPosition( int * line, int * column ) const
{
if( line ) *line = m_endLine;
if( column ) *column = m_endColumn;
}
void CodeModelItem::setEndPosition( int line, int column )
{
m_endLine = line;
m_endColumn = column;
}
void CodeModelItem::update( const CodeModelItem* i ) {
m_startLine = i->m_startLine;
m_startColumn = i->m_startColumn;
m_endLine = i->m_endLine;
m_endColumn = i->m_endColumn;
}
bool CodeModelItem::canUpdate( const CodeModelItem* i ) const {
if( i->m_kind != m_kind || i->m_name != m_name )
return false;
return true;
}
// ------------------------------------------------------------------------
NamespaceModel::NamespaceModel( CodeModel* model )
: ClassModel( model )
{
setKind( Namespace );
}
NamespaceList NamespaceModel::namespaceList( )
{
return m_namespaces.values();
}
const NamespaceList NamespaceModel::namespaceList( ) const
{
return m_namespaces.values();
}
NamespaceDom NamespaceModel::namespaceByName( const TQString & name )
{
return m_namespaces.tqcontains( name ) ? m_namespaces[ name ] : NamespaceDom();
}
const NamespaceDom NamespaceModel::namespaceByName( const TQString & name ) const
{
return m_namespaces.tqcontains( name ) ? m_namespaces[ name ] : NamespaceDom();
}
bool NamespaceModel::hasNamespace( const TQString & name ) const
{
return m_namespaces.tqcontains( name );
}
bool NamespaceModel::addNamespace( NamespaceDom ns )
{
if( ns->name().isEmpty() )
return false;
m_namespaces[ ns->name() ] = ns;
return true;
}
void NamespaceModel::removeNamespace( NamespaceDom ns )
{
m_namespaces.remove( ns->name() );
}
// ------------------------------------------------------------------------
FileModel::FileModel( CodeModel* model )
: NamespaceModel( model ), m_groupId( model->newGroupId() ), m_parseResult( 0 )
{
}
// ------------------------------------------------------------------------
ClassModel::ClassModel( CodeModel* model )
: CodeModelItem( Class, model)
{
}
TQStringList ClassModel::baseClassList( ) const
{
return m_baseClassList;
}
bool ClassModel::addBaseClass( const TQString & baseClass )
{
m_baseClassList.push_back( baseClass );
return true;
}
void ClassModel::removeBaseClass( const TQString & baseClass )
{
m_baseClassList.remove( baseClass );
}
ClassList ClassModel::classList( )
{
ClassList l;
TQMap<TQString, ClassList>::Iterator it = m_classes.begin();
while( it != m_classes.end() ){
l += *it;
++it;
}
return l;
}
const ClassList ClassModel::classList( ) const
{
ClassList l;
TQMap<TQString, ClassList>::ConstIterator it = m_classes.begin();
while( it != m_classes.end() ){
l += *it;
++it;
}
return l;
}
bool ClassModel::hasClass( const TQString & name ) const
{
return m_classes.tqcontains( name );
}
ClassList ClassModel::classByName( const TQString & name )
{
return m_classes.tqcontains( name ) ? m_classes[ name ] : ClassList();
}
const ClassList ClassModel::classByName( const TQString & name ) const
{
return m_classes.tqcontains( name ) ? m_classes[ name ] : ClassList();
}
bool ClassModel::addClass( ClassDom klass )
{
if( klass->name().isEmpty() )
return false;
m_classes[ klass->name() ].push_back( klass );
return true;
}
void ClassModel::removeClass( ClassDom klass )
{
m_classes[ klass->name() ].remove( klass );
if( m_classes[klass->name()].isEmpty() )
m_classes.remove( klass->name() );
}
FunctionList ClassModel::functionList( )
{
FunctionList l;
TQMap<TQString, FunctionList>::Iterator it = m_functions.begin();
while( it != m_functions.end() ){
l += *it;
++it;
}
return l;
}
const FunctionList ClassModel::functionList( ) const
{
FunctionList l;
TQMap<TQString, FunctionList>::ConstIterator it = m_functions.begin();
while( it != m_functions.end() ){
l += *it;
++it;
}
return l;
}
bool ClassModel::hasFunction( const TQString & name ) const
{
return m_functions.tqcontains( name );
}
FunctionList ClassModel::functionByName( const TQString & name )
{
return m_functions.tqcontains( name ) ? m_functions[ name ] : FunctionList();
}
const FunctionList ClassModel::functionByName( const TQString & name ) const
{
return m_functions.tqcontains( name ) ? m_functions[ name ] : FunctionList();
}
bool ClassModel::addFunction( FunctionDom fun )
{
if( fun->name().isEmpty() )
return false;
m_functions[ fun->name() ].push_back( fun );
return true;
}
void ClassModel::removeFunction( FunctionDom fun )
{
m_functions[ fun->name() ].remove( fun );
if( m_functions[fun->name()].isEmpty() )
m_functions.remove( fun->name() );
}
FunctionDefinitionList ClassModel::functionDefinitionList( )
{
FunctionDefinitionList l;
TQMap<TQString, FunctionDefinitionList>::Iterator it = m_functionDefinitions.begin();
while( it != m_functionDefinitions.end() ){
l += *it;
++it;
}
return l;
}
const FunctionDefinitionList ClassModel::functionDefinitionList( ) const
{
FunctionDefinitionList l;
TQMap<TQString, FunctionDefinitionList>::ConstIterator it = m_functionDefinitions.begin();
while( it != m_functionDefinitions.end() ){
l += *it;
++it;
}
return l;
}
bool ClassModel::hasFunctionDefinition( const TQString & name ) const
{
return m_functionDefinitions.tqcontains( name );
}
FunctionDefinitionList ClassModel::functionDefinitionByName( const TQString & name )
{
return m_functionDefinitions.tqcontains( name ) ? m_functionDefinitions[ name ] : FunctionDefinitionList();
}
const FunctionDefinitionList ClassModel::functionDefinitionByName( const TQString & name ) const
{
return m_functionDefinitions.tqcontains( name ) ? m_functionDefinitions[ name ] : FunctionDefinitionList();
}
bool ClassModel::addFunctionDefinition( FunctionDefinitionDom fun )
{
if( fun->name().isEmpty() )
return false;
m_functionDefinitions[ fun->name() ].push_back( fun );
return true;
}
void ClassModel::removeFunctionDefinition( FunctionDefinitionDom fun )
{
m_functionDefinitions[ fun->name() ].remove( fun );
if( m_functionDefinitions[fun->name()].isEmpty() )
m_functionDefinitions.remove( fun->name() );
}
VariableList ClassModel::variableList( )
{
return m_variables.values();
}
const VariableList ClassModel::variableList( ) const
{
return m_variables.values();
}
VariableDom ClassModel::variableByName( const TQString & name )
{
return m_variables.tqcontains( name ) ? m_variables[ name ] : VariableDom();
}
const VariableDom ClassModel::variableByName( const TQString & name ) const
{
return m_variables.tqcontains( name ) ? m_variables[ name ] : VariableDom();
}
bool ClassModel::hasVariable( const TQString & name ) const
{
return m_variables.tqcontains( name );
}
bool ClassModel::addVariable( VariableDom var )
{
if( var->name().isEmpty() )
return false;
m_variables.insert( var->name(), var );
return true;
}
void ClassModel::removeVariable( VariableDom var )
{
m_variables.remove( var->name() );
}
EnumList ClassModel::enumList( )
{
return m_enumerators.values();
}
const EnumList ClassModel::enumList( ) const
{
return m_enumerators.values();
}
EnumDom ClassModel::enumByName( const TQString & name )
{
return m_enumerators.tqcontains( name ) ? m_enumerators[ name ] : EnumDom();
}
const EnumDom ClassModel::enumByName( const TQString & name ) const
{
return m_enumerators.tqcontains( name ) ? m_enumerators[ name ] : EnumDom();
}
bool ClassModel::hasEnum( const TQString & name ) const
{
return m_enumerators.tqcontains( name );
}
bool ClassModel::addEnum( EnumDom e )
{
if( e->name().isEmpty() )
return false;
m_enumerators.insert( e->name(), e );
return true;
}
void ClassModel::update( const ClassModel* klass ) {
CodeModelItem::update( klass );
eachUpdate( m_classes, klass->m_classes ) ;
eachUpdate( m_functions, klass->m_functions ) ;
eachUpdate( m_functionDefinitions, klass->m_functionDefinitions ) ;
eachUpdateSingle( m_variables, klass->m_variables ) ;
eachUpdateSingle( m_enumerators, klass->m_enumerators ) ;
eachUpdate( m_typeAliases, klass->m_typeAliases );
}
bool ClassModel::canUpdate( const ClassModel* klass ) const {
if( !CodeModelItem::canUpdate( klass ) )
return false;
return eachCanUpdate( m_classes, klass->m_classes ) &&
eachCanUpdate( m_functions, klass->m_functions ) &&
eachCanUpdate( m_functionDefinitions, klass->m_functionDefinitions ) &&
eachCanUpdateSingle( m_variables, klass->m_variables ) &&
eachCanUpdateSingle( m_enumerators, klass->m_enumerators ) &&
eachCanUpdate( m_typeAliases, klass->m_typeAliases );
}
void ClassModel::removeEnum( EnumDom e )
{
m_enumerators.remove( e->name() );
}
TypeAliasList ClassModel::typeAliasList( )
{
TypeAliasList l;
TQMap<TQString, TypeAliasList>::Iterator it = m_typeAliases.begin();
while( it != m_typeAliases.end() ){
l += *it;
++it;
}
return l;
}
const TypeAliasList ClassModel::typeAliasList( ) const
{
TypeAliasList l;
TQMap<TQString, TypeAliasList>::ConstIterator it = m_typeAliases.begin();
while( it != m_typeAliases.end() ){
l += *it;
++it;
}
return l;
}
bool ClassModel::hasTypeAlias( const TQString & name ) const
{
return m_typeAliases.tqcontains( name );
}
TypeAliasList ClassModel::typeAliasByName( const TQString & name )
{
return m_typeAliases.tqcontains( name ) ? m_typeAliases[ name ] : TypeAliasList();
}
const TypeAliasList ClassModel::typeAliasByName( const TQString & name ) const
{
return m_typeAliases.tqcontains( name ) ? m_typeAliases[ name ] : TypeAliasList();
}
bool ClassModel::addTypeAlias( TypeAliasDom typeAlias )
{
if( typeAlias->name().isEmpty() )
return false;
m_typeAliases[ typeAlias->name() ].push_back( typeAlias );
return true;
}
void ClassModel::removeTypeAlias( TypeAliasDom typeAlias )
{
m_typeAliases[ typeAlias->name() ].remove( typeAlias );
if( m_typeAliases[typeAlias->name()].isEmpty() )
m_typeAliases.remove( typeAlias->name() );
}
// ------------------------------------------------------------------------
ArgumentModel::ArgumentModel( CodeModel* model )
: CodeModelItem( Argument, model)
{
}
TQString ArgumentModel::type( ) const
{
return m_type;
}
void ArgumentModel::setType( const TQString& type )
{
m_type = type;
}
TQString ArgumentModel::defaultValue( ) const
{
return m_defaultValue;
}
void ArgumentModel::setDefaultValue( const TQString & defaultValue )
{
m_defaultValue = defaultValue;
}
// ------------------------------------------------------------------------
FunctionModel::FunctionModel( CodeModel* model )
: CodeModelItem( Function, model)
{
m_access = Public;
d.v.m_signal = false;
d.v.m_slot = false;
d.v.m_virtual = false;
d.v.m_static = false;
d.v.m_inline = false;
d.v.m_constant = false;
d.v.m_abstract = false;
}
bool FunctionModel::isVirtual( ) const
{
return d.v.m_virtual;
}
void FunctionModel::setVirtual( bool isVirtual )
{
d.v.m_virtual = isVirtual;
}
bool FunctionModel::isStatic( ) const
{
return d.v.m_static;
}
void FunctionModel::setStatic( bool isStatic )
{
d.v.m_static = isStatic;
}
bool FunctionModel::isInline( ) const
{
return d.v.m_inline;
}
void FunctionModel::setInline( bool isInline )
{
d.v.m_inline = isInline;
}
bool FunctionModel::isConstant( ) const
{
return d.v.m_constant;
}
void FunctionModel::setConstant( bool isConstant )
{
d.v.m_constant = isConstant;
}
bool FunctionModel::isAbstract( ) const
{
return d.v.m_abstract;
}
void FunctionModel::setAbstract( bool isAbstract )
{
d.v.m_abstract = isAbstract;
}
TQString FunctionModel::resultType( ) const
{
return m_resultType;
}
void FunctionModel::setResultType( const TQString& type )
{
m_resultType = type;
}
ArgumentList FunctionModel::argumentList( )
{
return m_arguments;
}
const ArgumentList FunctionModel::argumentList( ) const
{
return m_arguments;
}
bool FunctionModel::addArgument( ArgumentDom arg )
{
m_arguments.push_back( arg );
return true;
}
void FunctionModel::removeArgument( ArgumentDom arg )
{
m_arguments.remove( arg );
}
void FunctionModel::update( const FunctionModel* i ) {
m_access = i->m_access;
CodeModelItem::update( i );
}
bool FunctionModel::canUpdate( const FunctionModel* i ) const {
if( !CodeModelItem::canUpdate( i ) )
return false;
if( m_resultType != i->m_resultType || m_arguments.count() != i->m_arguments.count() || m_scope != i->m_scope )
return false;
return true;
}
// ------------------------------------------------------------------------
VariableModel::VariableModel( CodeModel* model )
: CodeModelItem( Variable, model)
{
m_access = Public;
m_static = false;
m_isEnumeratorVariable = false;
}
bool VariableModel::isStatic( ) const
{
return m_static;
}
void VariableModel::setStatic( bool isStatic )
{
m_static = isStatic;
}
TQString VariableModel::type( ) const
{
return m_type;
}
void VariableModel::setType( const TQString& type )
{
m_type = type;
}
bool VariableModel::isEnumeratorVariable() const {
return m_isEnumeratorVariable;
}
void VariableModel::setEnumeratorVariable( bool b) {
m_isEnumeratorVariable = b;
}
int FunctionModel::access( ) const
{
return m_access;
}
void FunctionModel::setAccess( int access )
{
m_access = access;
}
bool FunctionModel::isSignal( ) const
{
return d.v.m_signal;
}
void FunctionModel::setSignal( bool isSignal )
{
d.v.m_signal = isSignal;
}
bool FunctionModel::isSlot( ) const
{
return d.v.m_slot;
}
void FunctionModel::setSlot( bool isSlot )
{
d.v.m_slot = isSlot;
}
FunctionDefinitionModel::FunctionDefinitionModel( CodeModel* model )
: FunctionModel( model )
{
}
int VariableModel::access( ) const
{
return m_access;
}
void VariableModel::setAccess( int access )
{
m_access = access;
}
const NamespaceDom CodeModel::globalNamespace( ) const
{
return m_globalNamespace;
}
void CodeModelItem::read( TQDataStream & stream )
{
stream
>> m_kind
>> m_name
>> m_fileName
>> m_startLine
>> m_startColumn
>> m_endLine
>> m_endColumn
>> m_comment;
if( isTemplateable() ) {
TemplateModelItem* t = (TemplateModelItem*)( this );
t->read( stream );
}
}
void CodeModelItem::write( TQDataStream & stream ) const
{
stream
<< m_kind
<< m_name
<< m_fileName
<< m_startLine
<< m_startColumn
<< m_endLine
<< m_endColumn
<< m_comment;
if( isTemplateable() ) {
TemplateModelItem* t = (TemplateModelItem*)( this );
t-> write( stream );
}
}
void ClassModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
TemplateModelItem::read( stream );
stream >> m_scope >> m_baseClassList;
int n;
m_classes.clear();
stream >> n;
for( int i=0; i<n; ++i ){
ClassDom klass = codeModel()->create<ClassModel>();
klass->read( stream );
addClass( klass );
}
m_functions.clear();
stream >> n;
for( int i=0; i<n; ++i ){
FunctionDom fun = codeModel()->create<FunctionModel>();
fun->read( stream );
addFunction( fun );
}
m_functionDefinitions.clear();
stream >> n;
for( int i=0; i<n; ++i ){
FunctionDefinitionDom fun = codeModel()->create<FunctionDefinitionModel>();
fun->read( stream );
addFunctionDefinition( fun );
}
m_variables.clear();
stream >> n;
for( int i=0; i<n; ++i ){
VariableDom var = codeModel()->create<VariableModel>();
var->read( stream );
addVariable( var );
}
m_enumerators.clear();
stream >> n;
for( int i=0; i<n; ++i ){
EnumDom e = codeModel()->create<EnumModel>();
e->read( stream );
addEnum( e );
}
m_typeAliases.clear();
stream >> n;
for( int i=0; i<n; ++i ){
TypeAliasDom typeAlias = codeModel()->create<TypeAliasModel>();
typeAlias->read( stream );
addTypeAlias( typeAlias );
}
}
void ClassModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
TemplateModelItem::write( stream );
stream << m_scope << m_baseClassList;
const ClassList class_list = classList();
stream << int( class_list.size() );
for( ClassList::ConstIterator it = class_list.begin(); it!=class_list.end(); ++it )
(*it)->write( stream );
const FunctionList function_list = functionList();
stream << int( function_list.size() );
for( FunctionList::ConstIterator it = function_list.begin(); it!=function_list.end(); ++it )
(*it)->write( stream );
const FunctionDefinitionList function_definition_list = functionDefinitionList();
stream << int( function_definition_list.size() );
for( FunctionDefinitionList::ConstIterator it = function_definition_list.begin(); it!=function_definition_list.end(); ++it )
(*it)->write( stream );
const VariableList variable_list = variableList();
stream << int( variable_list.size() );
for( VariableList::ConstIterator it = variable_list.begin(); it!=variable_list.end(); ++it )
(*it)->write( stream );
const EnumList enum_list = enumList();
stream << int( enum_list.size() );
for( EnumList::ConstIterator it = enum_list.begin(); it!=enum_list.end(); ++it )
(*it)->write( stream );
const TypeAliasList type_alias_list = typeAliasList();
stream << int( type_alias_list.size() );
for( TypeAliasList::ConstIterator it = type_alias_list.begin(); it!=type_alias_list.end(); ++it )
(*it)->write( stream );
}
void NamespaceModel::read( TQDataStream & stream )
{
ClassModel::read( stream );
int n;
m_namespaces.clear(); m_namespaceAliases.clear(); m_namespaceImports.clear();
stream >> n;
for( int i=0; i<n; ++i ){
NamespaceDom ns = codeModel()->create<NamespaceModel>();
ns->read( stream );
addNamespace( ns );
}
stream >> n;
for( int a = 0; a < n; a++ ) {
NamespaceAliasModel m;
m.read( stream );
m_namespaceAliases.insert( m );
}
stream >> n;
for( int a = 0; a < n; a++ ) {
NamespaceImportModel m;
m.read( stream );
m_namespaceImports.insert( m );
}
}
void NamespaceModel::addNamespaceImport( const NamespaceImportModel& import ) {
m_namespaceImports.insert( import );
}
void NamespaceModel::addNamespaceAlias( const NamespaceAliasModel& alias ) {
m_namespaceAliases.insert( alias );
}
void NamespaceModel::removeNamespaceImport( const NamespaceImportModel& import ) {
m_namespaceImports.erase( import );
}
void NamespaceModel::removeNamespaceAlias( const NamespaceAliasModel& alias ) {
m_namespaceAliases.erase( alias );
}
void NamespaceModel::write( TQDataStream & stream ) const
{
ClassModel::write( stream );
const NamespaceList namespace_list = namespaceList();
stream << int( namespace_list.size() );
for( NamespaceList::ConstIterator it = namespace_list.begin(); it!=namespace_list.end(); ++it )
(*it)->write( stream );
stream << int( m_namespaceAliases.size() );
for( NamespaceAliasModelList::const_iterator it = m_namespaceAliases.begin(); it != m_namespaceAliases.end(); ++it )
(*it).write( stream );
stream << int( m_namespaceImports.size() );
for( NamespaceImportModelList::const_iterator it = m_namespaceImports.begin(); it != m_namespaceImports.end(); ++it )
(*it).write( stream );
}
bool NamespaceModel::canUpdate( const NamespaceModel* ns ) const {
if( !ClassModel::canUpdate( ns ) )
return false;
const NamespaceAliasModelList& aliases = namespaceAliases();
const NamespaceImportModelList& imports = namespaceImports();
const NamespaceAliasModelList& aliases2 = ns->namespaceAliases();
const NamespaceImportModelList& imports2 = ns->namespaceImports();
if( aliases.size() != aliases2.size() ) return false;
if( imports.size() != imports2.size() ) return false;
///Test if all aliases are same, if not return false
NamespaceModel::NamespaceAliasModelList::const_iterator it_al1 = aliases.begin();
NamespaceModel::NamespaceAliasModelList::const_iterator it_al2 = aliases2.begin();
while( it_al1 != aliases.end() ) {
if( !(*it_al1 == *it_al2) )
return false;
++it_al1;
++it_al2;
}
///Test if all imports are same, if not return false
NamespaceModel::NamespaceImportModelList::const_iterator it_ip1 = imports.begin();
NamespaceModel::NamespaceImportModelList::const_iterator it_ip2 = imports2.begin();
while( it_ip1 != imports.end() ) {
if( !(*it_ip1 == *it_ip2) )
return false;
++it_ip1;
++it_ip2;
}
return eachCanUpdateSingle( m_namespaces, ns->m_namespaces );
}
void NamespaceModel::update( const NamespaceModel* ns )
{
ClassModel::update( ns );
eachUpdateSingle( m_namespaces, ns->m_namespaces );
}
void FileModel::read( TQDataStream & stream )
{
stream >> m_groupId;
bool b;
stream >> b;
if( b ) {
int i;
stream >> i;
ParsedFileType t( (ParsedFileType) i );
switch( t ) {
case CppParsedFile:
m_parseResult = (AbstractParseResult*)(new ParsedFile( stream ));
break;
}
}
NamespaceModel::read( stream );
}
void FileModel::write( TQDataStream & stream ) const
{
stream << m_groupId;
bool b = m_parseResult;
stream << b;
if( b ) {
int i = m_parseResult->type();
stream << i;
m_parseResult->write( stream );
}
NamespaceModel::write( stream );
}
void ArgumentModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
stream >> m_type >> m_defaultValue;
}
void ArgumentModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
stream << m_type << m_defaultValue;
}
void FunctionModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
TemplateModelItem::read( stream );
stream >> m_scope;
stream >> d.flags;
int n;
m_arguments.clear();
stream >> n;
for( int i=0; i<n; ++i ){
ArgumentDom arg = codeModel()->create<ArgumentModel>();
arg->read( stream );
addArgument( arg );
}
stream
>> m_resultType;
}
void FunctionModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
TemplateModelItem::write( stream );
stream << m_scope;
stream << d.flags;
const ArgumentList argument_list = argumentList();
stream << int( argument_list.size() );
for( ArgumentList::ConstIterator it = argument_list.begin(); it!=argument_list.end(); ++it )
(*it)->write( stream );
stream
<< m_resultType;
}
void CodeModel::read( TQDataStream & stream )
{
int n;
m_files.clear();
stream >> n;
for( int i=0; i<n; ++i ){
FileDom file = this->create<FileModel>();
file->read( stream );
addFile( file );
}
}
void CodeModel::write( TQDataStream & stream ) const
{
const FileList file_list = fileList();
stream << int( file_list.size() );
for( FileList::ConstIterator it = file_list.begin(); it!=file_list.end(); ++it )
(*it)->write( stream );
}
void VariableModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
stream >> m_access >> m_static >> m_type >> m_isEnumeratorVariable;
}
void VariableModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
stream << m_access << m_static << m_type << m_isEnumeratorVariable;
}
void VariableModel::update( const VariableModel* i ) {
m_access = i->m_access;
CodeModelItem::update( i );
}
bool VariableModel::canUpdate( const VariableModel* i ) const {
if( !CodeModelItem::canUpdate( i ) )
return false;
if( m_access != i->m_access || m_static != i->m_static || m_type != i->m_type || m_isEnumeratorVariable != i->m_isEnumeratorVariable )
return false;
return true;
}
// -------------------------------------------------------
EnumModel::EnumModel( CodeModel * model )
: CodeModelItem( Enum, model)
{
}
int EnumModel::access( ) const
{
return m_access;
}
void EnumModel::setAccess( int access )
{
m_access = access;
}
EnumeratorList EnumModel::enumeratorList( )
{
return m_enumerators.values();
}
const EnumeratorList EnumModel::enumeratorList( ) const
{
return m_enumerators.values();
}
void EnumModel::addEnumerator( EnumeratorDom enumerator )
{
m_enumerators.insert( enumerator->name(), enumerator );
}
void EnumModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
stream >> m_access;
int n;
stream >> n;
for( int i=0; i<n; ++i ){
EnumeratorDom e = codeModel()->create<EnumeratorModel>();
e->read( stream );
addEnumerator( e );
}
}
void EnumModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
stream << m_access;
const EnumeratorList enumerator_list = enumeratorList();
stream << int( enumerator_list.size() );
for( EnumeratorList::ConstIterator it = enumerator_list.begin(); it!=enumerator_list.end(); ++it )
(*it)->write( stream );
}
EnumeratorModel::EnumeratorModel( CodeModel * model )
: CodeModelItem( Enumerator, model )
{
}
TQString EnumeratorModel::value( ) const
{
return m_value;
}
void EnumeratorModel::setValue( const TQString & value )
{
m_value = value;
}
void EnumeratorModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
stream >> m_value;
}
void EnumeratorModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
stream << m_value;
}
void EnumModel::removeEnumerator( EnumeratorDom e )
{
m_enumerators.remove( e->name() );
}
void EnumModel::update( const EnumModel* i ) {
m_access = i->m_access;
CodeModelItem::update( i );
}
bool EnumModel::canUpdate( const EnumModel* i ) const {
if( !CodeModelItem::canUpdate( i ) )
return false;
///@todo check not complete
if( m_access != i->m_access || m_enumerators.count() != i->m_enumerators.count() )
return false;
return true;
}
// ---------------------------------------------------------------
TypeAliasModel::TypeAliasModel( CodeModel * model )
: CodeModelItem( TypeAlias, model )
{
}
void TypeAliasModel::read( TQDataStream & stream )
{
CodeModelItem::read( stream );
stream >> m_type;
}
void TypeAliasModel::write( TQDataStream & stream ) const
{
CodeModelItem::write( stream );
stream << m_type;
}
TQString TypeAliasModel::type( ) const
{
return m_type;
}
void TypeAliasModel::setType( const TQString & type )
{
m_type = type;
}
void TypeAliasModel::update( const TypeAliasModel* i ) {
CodeModelItem::update( i );
}
bool TypeAliasModel::canUpdate( const TypeAliasModel* i ) const {
if( !CodeModelItem::canUpdate( i ) )
return false;
return m_type == i->m_type;
}
void FileModel::update( const FileModel* file ) {
m_parseResult = file->m_parseResult;
NamespaceModel::update( file );
}
FileList FileModel::wholeGroup() {
if( isSingleGroup( m_groupId ) ) return ( FileList() << FileDom(this) );
return codeModel()->getGroup( m_groupId );
}
TQStringList FileModel::wholeGroupStrings() const {
if( isSingleGroup( m_groupId ) ) return (TQStringList() << name() );
return codeModel()->getGroupStrings( m_groupId );
}
ParseResultPointer FileModel::parseResult() const {
return m_parseResult;
}
void FileModel::setParseResult( const ParseResultPointer& result ) {
m_parseResult = result;
}