///////////////////////////////////////////////////////////////////////////// // Name: src/common/xtistrm.cpp // Purpose: streaming runtime metadata information // Author: Stefan Csomor // Modified by: // Created: 27/07/03 // RCS-ID: $Id$ // Copyright: (c) 2003 Stefan Csomor // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #if defined(__GNUG__) && !defined(NO_GCC_PRAGMA) #pragma implementation "xtistrm.h" #endif // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/hash.h" #include "wx/object.h" #endif #include "wx/xml/xml.h" #include "wx/tokenzr.h" #include "wx/txtstrm.h" #include "wx/event.h" #if wxUSE_EXTENDED_RTTI #include "wx/xtistrm.h" #include "wx/xtixml.h" #include "wx/beforestd.h" #include #include #include #include "wx/afterstd.h" using namespace std ; // // XML Streaming // // convenience functions void wxXmlAddContentToNode( wxXmlNode* node , const wxString& data ) { node->AddChild(new wxXmlNode(wxXML_TEXT_NODE, "value", data ) ); } wxString wxXmlGetContentFromNode( wxXmlNode *node ) { if ( node->GetChildren() ) return node->GetChildren()->GetContent() ; else return wxEmptyString ; } struct wxXmlWriter::wxXmlWriterInternal { wxXmlNode *m_root ; wxXmlNode *m_current ; vector< wxXmlNode * > m_objectStack ; void Push( wxXmlNode *newCurrent ) { m_objectStack.push_back( m_current ) ; m_current = newCurrent ; } void Pop() { m_current = m_objectStack.back() ; m_objectStack.pop_back() ; } } ; wxXmlWriter::wxXmlWriter( wxXmlNode * rootnode ) { m_data = new wxXmlWriterInternal() ; m_data->m_root = rootnode ; m_data->m_current = rootnode ; } wxXmlWriter::~wxXmlWriter() { delete m_data ; } void wxXmlWriter::DoBeginWriteTopLevelEntry( const wxString &name ) { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, wxT("entry")); pnode->AddProperty(wxString("name"), name); m_data->m_current->AddChild(pnode) ; m_data->Push( pnode ) ; } void wxXmlWriter::DoEndWriteTopLevelEntry( const wxString &WXUNUSED(name) ) { m_data->Pop() ; } void wxXmlWriter::DoBeginWriteObject(const wxObject *WXUNUSED(object), const wxClassInfo *classInfo, int objectID , wxxVariantArray &metadata ) { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, wxT("object")); pnode->AddProperty(wxT("class"), wxString(classInfo->GetClassName())); pnode->AddProperty(wxT("id"), wxString::Format( "%d" , objectID ) ); for ( size_t i = 0 ; i < metadata.GetCount() ; ++i ) { pnode->AddProperty( metadata[i].GetName() , metadata[i].GetAsString() ) ; } m_data->m_current->AddChild(pnode) ; m_data->Push( pnode ) ; } // end of writing the root object void wxXmlWriter::DoEndWriteObject(const wxObject *WXUNUSED(object), const wxClassInfo *WXUNUSED(classInfo), int WXUNUSED(objectID) ) { m_data->Pop() ; } // writes a property in the stream format void wxXmlWriter::DoWriteSimpleType( wxxVariant &value ) { wxXmlAddContentToNode( m_data->m_current ,value.GetAsString() ) ; } void wxXmlWriter::DoBeginWriteElement() { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, "element" ); m_data->m_current->AddChild(pnode) ; m_data->Push( pnode ) ; } void wxXmlWriter::DoEndWriteElement() { m_data->Pop() ; } void wxXmlWriter::DoBeginWriteProperty(const wxPropertyInfo *pi ) { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, "prop" ); pnode->AddProperty(wxT("name"), pi->GetName() ); m_data->m_current->AddChild(pnode) ; m_data->Push( pnode ) ; } void wxXmlWriter::DoEndWriteProperty(const wxPropertyInfo *WXUNUSED(propInfo) ) { m_data->Pop() ; } // insert an object reference to an already written object void wxXmlWriter::DoWriteRepeatedObject( int objectID ) { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, wxT("object")); pnode->AddProperty(wxString("href"), wxString::Format( "%d" , objectID ) ); m_data->m_current->AddChild(pnode) ; } // insert a null reference void wxXmlWriter::DoWriteNullObject() { wxXmlNode *pnode; pnode = new wxXmlNode(wxXML_ELEMENT_NODE, wxT("object")); m_data->m_current->AddChild(pnode) ; } // writes a delegate in the stream format void wxXmlWriter::DoWriteDelegate( const wxObject *WXUNUSED(object), const wxClassInfo* WXUNUSED(classInfo) , const wxPropertyInfo *WXUNUSED(pi) , const wxObject *eventSink, int sinkObjectID , const wxClassInfo* WXUNUSED(eventSinkClassInfo) , const wxHandlerInfo* handlerInfo ) { if ( eventSink != NULL && handlerInfo != NULL ) { wxXmlAddContentToNode( m_data->m_current ,wxString::Format(wxT("%d.%s"), sinkObjectID , handlerInfo->GetName().c_str()) ) ; } } // ---------------------------------------------------------------------------- // reading objects in // ---------------------------------------------------------------------------- // ---------------------------------------------------------------------------- // reading xml in // ---------------------------------------------------------------------------- /* Reading components has not to be extended for components as properties are always sought by typeinfo over all levels and create params are always toplevel class only */ int wxXmlReader::ReadComponent(wxXmlNode *node, wxDepersister *callbacks) { wxASSERT_MSG( callbacks , wxT("Does not support reading without a Depersistor") ) ; wxString className; wxClassInfo *classInfo; wxxVariant *createParams ; int *createParamOids ; const wxClassInfo** createClassInfos ; wxXmlNode *children; int objectID; wxString ObjectIdString ; children = node->GetChildren(); if (!children) { // check for a null object or href if (node->GetPropVal("href" , &ObjectIdString ) ) { objectID = atoi( ObjectIdString.c_str() ) ; wxASSERT_MSG( HasObjectClassInfo( objectID ) , wxT("Forward hrefs are not supported") ) ; return objectID ; } if ( !node->GetPropVal("id" , &ObjectIdString ) ) { return wxNullObjectID; } } if (!node->GetPropVal("class", &className)) { // No class name. Eek. FIXME: error handling return wxInvalidObjectID; } classInfo = wxClassInfo::FindClass(className); wxASSERT_MSG( classInfo , wxString::Format(wxT("unknown class %s"),className ) ) ; wxASSERT_MSG( !children || children->GetType() != wxXML_TEXT_NODE , wxT("objects cannot have XML Text Nodes") ) ; if (!node->GetPropVal("id", &ObjectIdString)) { wxASSERT_MSG(0,wxT("Objects must have an id attribute") ) ; // No object id. Eek. FIXME: error handling return wxInvalidObjectID; } objectID = atoi( ObjectIdString.c_str() ) ; // is this object already has been streamed in, return it here wxASSERT_MSG( !HasObjectClassInfo( objectID ) , wxString::Format(wxT("Doubly used id : %d"), objectID ) ) ; // new object, start with allocation // first make the object know to our internal registry SetObjectClassInfo( objectID , classInfo ) ; wxxVariantArray metadata ; wxXmlProperty *xp = node->GetProperties() ; while ( xp ) { if ( xp->GetName() != wxString("class") && xp->GetName() != wxString("id") ) { metadata.Add( new wxxVariant( xp->GetValue() , xp->GetName() ) ) ; } xp = xp->GetNext() ; } if ( !classInfo->NeedsDirectConstruction() ) callbacks->AllocateObject(objectID, classInfo, metadata); // // stream back the Create parameters first createParams = new wxxVariant[ classInfo->GetCreateParamCount() ] ; createParamOids = new int[classInfo->GetCreateParamCount() ] ; createClassInfos = new const wxClassInfo*[classInfo->GetCreateParamCount() ] ; typedef map PropertyNodes ; typedef vector PropertyNames ; PropertyNodes propertyNodes ; PropertyNames propertyNames ; while( children ) { wxString name ; children->GetPropVal( wxT("name") , &name ) ; propertyNames.push_back( name.c_str() ) ; propertyNodes[name.c_str()] = children->GetChildren() ; children = children->GetNext() ; } for ( int i = 0 ; i GetCreateParamCount() ; ++i ) { const wxChar* paramName = classInfo->GetCreateParamName(i) ; PropertyNodes::iterator propiter = propertyNodes.find( paramName ) ; const wxPropertyInfo* pi = classInfo->FindPropertyInfo( paramName ) ; wxASSERT_MSG(pi,wxString::Format("Unkown Property %s",paramName) ) ; // if we don't have the value of a create param set in the xml // we use the default value if ( propiter != propertyNodes.end() ) { wxXmlNode* prop = propiter->second ; if ( pi->GetTypeInfo()->IsObjectType() ) { createParamOids[i] = ReadComponent( prop , callbacks ) ; createClassInfos[i] = dynamic_cast(pi->GetTypeInfo())->GetClassInfo() ; } else { createParamOids[i] = wxInvalidObjectID ; createParams[i] = ReadValue( prop , pi->GetTypeInfo() ) ; if( pi->GetFlags() & wxPROP_ENUM_STORE_LONG ) { const wxEnumTypeInfo *eti = dynamic_cast( pi->GetTypeInfo() ) ; wxASSERT_MSG( eti , wxT("Type must have enum - long conversion") ) ; long realval ; eti->ConvertToLong( createParams[i] , realval ) ; createParams[i] = wxxVariant( realval ) ; } createClassInfos[i] = NULL ; } for ( size_t j = 0 ; j < propertyNames.size() ; ++j ) { if ( propertyNames[j] == paramName ) { propertyNames[j] = "" ; break ; } } } else { if ( pi->GetTypeInfo()->IsObjectType() ) { createParamOids[i] = wxNullObjectID ; createClassInfos[i] = dynamic_cast(pi->GetTypeInfo())->GetClassInfo() ; } else { createParams[i] = pi->GetDefaultValue() ; createParamOids[i] = wxInvalidObjectID ; } } } // got the parameters. Call the Create method if ( classInfo->NeedsDirectConstruction() ) callbacks->ConstructObject(objectID, classInfo, classInfo->GetCreateParamCount(), createParams, createParamOids, createClassInfos, metadata ); else callbacks->CreateObject(objectID, classInfo, classInfo->GetCreateParamCount(), createParams, createParamOids, createClassInfos, metadata ); // now stream in the rest of the properties, in the sequence their properties were written in the xml for ( size_t j = 0 ; j < propertyNames.size() ; ++j ) { if ( propertyNames[j].length() ) { PropertyNodes::iterator propiter = propertyNodes.find( propertyNames[j] ) ; if ( propiter != propertyNodes.end() ) { wxXmlNode* prop = propiter->second ; const wxPropertyInfo* pi = classInfo->FindPropertyInfo( propertyNames[j].c_str() ) ; if ( pi->GetTypeInfo()->GetKind() == wxT_COLLECTION ) { const wxCollectionTypeInfo* collType = dynamic_cast< const wxCollectionTypeInfo* >( pi->GetTypeInfo() ) ; const wxTypeInfo * elementType = collType->GetElementType() ; while( prop ) { wxASSERT_MSG(prop->GetName() == wxT("element") , wxT("A non empty collection must consist of 'element' nodes")) ; wxXmlNode* elementContent = prop->GetChildren() ; if ( elementContent ) { // we skip empty elements if ( elementType->IsObjectType() ) { int valueId = ReadComponent( elementContent , callbacks ) ; if ( valueId != wxInvalidObjectID ) { if ( pi->GetAccessor()->HasAdder() ) callbacks->AddToPropertyCollectionAsObject( objectID , classInfo , pi , valueId ) ; // TODO for collections we must have a notation on taking over ownership or not if ( elementType->GetKind() == wxT_OBJECT && valueId != wxNullObjectID ) callbacks->DestroyObject( valueId , GetObjectClassInfo( valueId ) ) ; } } else { wxxVariant elementValue = ReadValue( elementContent , elementType ) ; if ( pi->GetAccessor()->HasAdder() ) callbacks->AddToPropertyCollection( objectID , classInfo ,pi , elementValue ) ; } } prop = prop->GetNext() ; } } else if ( pi->GetTypeInfo()->IsObjectType() ) { // and object can either be streamed out a string or as an object // in case we have no node, then the object's streaming out has been vetoed if ( prop ) { if ( prop->GetName() == wxT("object") ) { int valueId = ReadComponent( prop , callbacks ) ; if ( valueId != wxInvalidObjectID ) { callbacks->SetPropertyAsObject( objectID , classInfo , pi , valueId ) ; if ( pi->GetTypeInfo()->GetKind() == wxT_OBJECT && valueId != wxNullObjectID ) callbacks->DestroyObject( valueId , GetObjectClassInfo( valueId ) ) ; } } else { wxASSERT( pi->GetTypeInfo()->HasStringConverters() ) ; wxxVariant nodeval = ReadValue( prop , pi->GetTypeInfo() ) ; callbacks->SetProperty( objectID, classInfo ,pi , nodeval ) ; } } } else if ( pi->GetTypeInfo()->IsDelegateType() ) { if ( prop ) { wxString resstring = prop->GetContent() ; wxInt32 pos = resstring.Find('.') ; assert( pos != wxNOT_FOUND ) ; int sinkOid = atol(resstring.Left(pos)) ; wxString handlerName = resstring.Mid(pos+1) ; wxClassInfo* sinkClassInfo = GetObjectClassInfo( sinkOid ) ; callbacks->SetConnect( objectID , classInfo , dynamic_cast(pi->GetTypeInfo()) , sinkClassInfo , sinkClassInfo->FindHandlerInfo(handlerName) , sinkOid ) ; } } else { wxxVariant nodeval = ReadValue( prop , pi->GetTypeInfo() ) ; if( pi->GetFlags() & wxPROP_ENUM_STORE_LONG ) { const wxEnumTypeInfo *eti = dynamic_cast( pi->GetTypeInfo() ) ; wxASSERT_MSG( eti , wxT("Type must have enum - long conversion") ) ; long realval ; eti->ConvertToLong( nodeval , realval ) ; nodeval = wxxVariant( realval ) ; } callbacks->SetProperty( objectID, classInfo ,pi , nodeval ) ; } } } } delete[] createParams ; delete[] createParamOids ; delete[] createClassInfos ; return objectID; } wxxVariant wxXmlReader::ReadValue(wxXmlNode *node, const wxTypeInfo *type ) { wxString content ; if ( node ) content = node->GetContent() ; wxxVariant result ; type->ConvertFromString( content , result ) ; return result ; } int wxXmlReader::ReadObject( const wxString &name , wxDepersister *callbacks) { wxXmlNode *iter = m_parent->GetChildren() ; while ( iter ) { wxString entryName ; if ( iter->GetPropVal("name", &entryName) ) { if ( entryName == name ) return ReadComponent( iter->GetChildren() , callbacks ) ; } iter = iter->GetNext() ; } return wxInvalidObjectID ; } #endif