/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include "QTableWindow.hxx" #include "QTableConnection.hxx" #include "QTableConnectionData.hxx" #include #include "QueryAddTabConnUndoAction.hxx" #include "QueryTabWinShowUndoAct.hxx" #include #include #include #include #include #include #include #include #include #include #include "querydlg.hxx" #include #include #include using namespace dbaui; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::sdbcx; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::accessibility; namespace { /** appends a new TabAdd Undo action at controller @param _pView the view which we use @param _pUndoAction the undo action which should be added @param _pConnection the connection for which the undo action should be appended @param _bOwner is the undo action the owner */ void addUndoAction( OQueryTableView const * _pView, std::unique_ptr _pUndoAction, OQueryTableConnection* _pConnection, bool _bOwner = false) { _pUndoAction->SetOwnership(_bOwner); _pUndoAction->SetConnection(_pConnection); _pView->getDesignView()->getController().addUndoActionAndInvalidate(std::move(_pUndoAction)); } /** openJoinDialog opens the join dialog with this connection data @param _pView the view which we use @param _pConnectionData the connection data @return true when OK was pressed otherwise false */ bool openJoinDialog(OQueryTableView* _pView,const TTableConnectionData::value_type& _pConnectionData,bool _bSelectableTables) { OQueryTableConnectionData* pData = static_cast< OQueryTableConnectionData*>(_pConnectionData.get()); DlgQryJoin aDlg(_pView,_pConnectionData,&_pView->GetTabWinMap(),_pView->getDesignView()->getController().getConnection(),_bSelectableTables); bool bOk = aDlg.run() == RET_OK; if( bOk ) { pData->SetJoinType(aDlg.GetJoinType()); _pView->getDesignView()->getController().setModified(true); } return bOk; } /** connectionModified adds an undo action for the modified connection and forces a redraw @param _pView the view which we use @param _pConnection the connection which was modified @param _bAddUndo true when an undo action should be appended */ void connectionModified(OQueryTableView* _pView, OTableConnection* _pConnection, bool _bAddUndo) { OSL_ENSURE(_pConnection,"Invalid connection!"); _pConnection->UpdateLineList(); // add an undo action if ( _bAddUndo ) addUndoAction( _pView, std::make_unique(_pView), static_cast< OQueryTableConnection*>(_pConnection)); // redraw _pConnection->RecalcLines(); // force an invalidation of the bounding rectangle _pConnection->InvalidateConnection(); _pView->Invalidate(InvalidateFlags::NoChildren); } void addConnections(OQueryTableView* _pView, const OQueryTableWindow& _rSource, const OQueryTableWindow& _rDest, const Reference& _rxSourceForeignKeyColumns) { if ( _rSource.GetData()->isQuery() || _rDest.GetData()->isQuery() ) // nothing to do if one of both denotes a query return; // we found a table in our view where we can insert some connections // the key columns have a property called RelatedColumn // build OQueryTableConnectionData auto xNewConnData = std::make_shared( _rSource.GetData(), _rDest.GetData() ); OUString sRelatedColumn; // iterate through all foreignkey columns to create the connections const Sequence aKeyCols = _rxSourceForeignKeyColumns->getElementNames(); for(const OUString& rElement : aKeyCols) { Reference xColumn; if ( !( _rxSourceForeignKeyColumns->getByName(rElement) >>= xColumn ) ) { OSL_FAIL( "addConnections: invalid foreign key column!" ); continue; } xColumn->getPropertyValue(PROPERTY_RELATEDCOLUMN) >>= sRelatedColumn; { sal_Int32 nFindIndex = ::comphelper::findValue(_rSource.GetOriginalColumns()->getElementNames(),rElement); if(nFindIndex != -1) xNewConnData->SetFieldIndex(JTCS_FROM,nFindIndex+1); else OSL_FAIL("Column not found!"); } // get the position inside the table Reference xRefColumns = _rDest.GetOriginalColumns(); if(xRefColumns.is()) { sal_Int32 nFindIndex = ::comphelper::findValue(xRefColumns->getElementNames(),sRelatedColumn); if(nFindIndex != -1) xNewConnData->SetFieldIndex(JTCS_TO,nFindIndex+1); else OSL_FAIL("Column not found!"); } xNewConnData->AppendConnLine(rElement,sRelatedColumn); // now add the Conn itself ScopedVclPtrInstance< OQueryTableConnection > aNewConn(_pView, xNewConnData); // referring to the local variable is not important, as NotifyQueryTabConn creates a new copy // to add me (if not existent) _pView->NotifyTabConnection(*aNewConn, false); // don't create an Undo-Action for the new connection : the connection is // covered by the Undo-Action for the tabwin, as the "Undo the insert" will // automatically remove all connections adjacent to the win. // (Because of this automatism we would have an ownership ambiguity for // the connection data if we would insert the conn-Undo-Action) } } } OQueryTableView::OQueryTableView( vcl::Window* pParent,OQueryDesignView* pView) : OJoinTableView( pParent,pView) { SetHelpId(HID_CTL_QRYDGNTAB); } sal_Int32 OQueryTableView::CountTableAlias(const OUString& rName, sal_Int32& rMax) { sal_Int32 nRet = 0; OTableWindowMap::const_iterator aIter = GetTabWinMap().find(rName); while(aIter != GetTabWinMap().end()) { OUString aNewName = rName + "_" + OUString::number(++nRet); aIter = GetTabWinMap().find(aNewName); } rMax = nRet; return nRet; } void OQueryTableView::ReSync() { TTableWindowData& rTabWinDataList = m_pView->getController().getTableWindowData(); OSL_ENSURE((getTableConnections().empty()) && (GetTabWinMap().empty()), "before calling OQueryTableView::ReSync() please call ClearAll !"); // I need a collection of all window names that cannot be created so that I do not initialize connections for them. std::vector arrInvalidTables; TTableWindowData::const_reverse_iterator aIter = rTabWinDataList.rbegin(); // Create the window and add it for(;aIter != rTabWinDataList.rend();++aIter) { OQueryTableWindowData* pData = static_cast(aIter->get()); VclPtr pTabWin = createWindow(*aIter); // I don't use ShowTabWin as this adds the window data to the list of documents. // This would be bad as I am getting them from there. // Instead, I do it step by step if (!pTabWin->Init()) { // The initialisation has gone wrong, this TabWin is not available, so // I must clean up the data and the document pTabWin->clearListBox(); pTabWin.disposeAndClear(); arrInvalidTables.push_back(pData->GetAliasName()); std::erase(rTabWinDataList, *aIter); continue; } GetTabWinMap()[pData->GetAliasName()] = pTabWin; // add at the beginning as I am going backwards through the DataList // Use the default if there is no position or size if (!pData->HasPosition() && !pData->HasSize()) SetDefaultTabWinPosSize(pTabWin); pTabWin->Show(); } // Add the connections TTableConnectionData& rTabConnDataList = m_pView->getController().getTableConnectionData(); TTableConnectionData::const_reverse_iterator aConIter = rTabConnDataList.rbegin(); for(;aConIter != rTabConnDataList.rend();++aConIter) { OQueryTableConnectionData* pTabConnData = static_cast(aConIter->get()); // do both tables for the connection exist ? OUString strTabExistenceTest = pTabConnData->getReferencingTable()->GetWinName(); bool bInvalid = std::find(arrInvalidTables.begin(),arrInvalidTables.end(),strTabExistenceTest) != arrInvalidTables.end(); strTabExistenceTest = pTabConnData->getReferencedTable()->GetWinName(); bInvalid = bInvalid && std::find(arrInvalidTables.begin(),arrInvalidTables.end(),strTabExistenceTest) != arrInvalidTables.end(); if (bInvalid) { // no -> bad luck, no connection std::erase(rTabConnDataList, *aConIter); continue; } // adds a new connection to join view and notifies our accessible and invalidates the controller addConnection(VclPtr::Create(this, *aConIter)); } } void OQueryTableView::ClearAll() { OJoinTableView::ClearAll(); SetUpdateMode(true); m_pView->getController().setModified(true); } VclPtr OQueryTableView::createWindow(const TTableWindowData::value_type& _pData) { return VclPtr::Create(this,_pData); } void OQueryTableView::NotifyTabConnection(const OQueryTableConnection& rNewConn, bool _bCreateUndoAction) { // let's first check if I have the connection already OQueryTableConnection* pTabConn = nullptr; const auto& rConnections = getTableConnections(); auto aEnd = rConnections.end(); auto aIter = std::find( rConnections.begin(), aEnd, VclPtr(const_cast(static_cast(&rNewConn))) ); if(aIter == aEnd) { for (auto const& connection : rConnections) { if(*static_cast(connection.get()) == rNewConn) { pTabConn = static_cast(connection.get()); break; } } } else pTabConn = static_cast((*aIter).get()); // no -> insert if (pTabConn == nullptr) { // the new data ... auto pNewData = std::static_pointer_cast(rNewConn.GetData()->NewInstance()); pNewData->CopyFrom(*rNewConn.GetData()); VclPtrInstance pNewConn(this, pNewData); GetConnection(pNewConn); connectionModified(this,pNewConn,_bCreateUndoAction); } } std::shared_ptr OQueryTableView::CreateImpl(const OUString& _rComposedName ,const OUString& _sTableName ,const OUString& _rWinName) { return std::make_shared( _rComposedName, _sTableName,_rWinName ); } void OQueryTableView::AddTabWin(const OUString& _rTableName, const OUString& _rAliasName, bool bNewTable) { // this method has been inherited from the base class, linking back to the parent and which constructs // an Alias and which passes on to my other AddTabWin // pity _rTableName is fully qualified, OQueryDesignView expects a string which only // contains schema and tables but no catalog. Reference< XConnection> xConnection = m_pView->getController().getConnection(); if(!xConnection.is()) return; try { Reference< XDatabaseMetaData > xMetaData = xConnection->getMetaData(); OUString sCatalog, sSchema, sTable; ::dbtools::qualifiedNameComponents(xMetaData, _rTableName, sCatalog, sSchema, sTable, ::dbtools::EComposeRule::InDataManipulation); OUString sRealName(sSchema); if (!sRealName.isEmpty()) sRealName += "."; sRealName += sTable; AddTabWin(_rTableName, sRealName, _rAliasName, bNewTable); } catch(SQLException&) { OSL_FAIL("qualifiedNameComponents"); } } // find the table which has a foreign key with this referencedTable name static Reference getKeyReferencedTo(const Reference& _rxKeys,std::u16string_view _rReferencedTable) { if(!_rxKeys.is()) return Reference(); // search the one and only primary key const sal_Int32 nCount = _rxKeys->getCount(); for(sal_Int32 i=0;i xKey(_rxKeys->getByIndex(i),UNO_QUERY); if(xKey.is()) { sal_Int32 nKeyType = 0; xKey->getPropertyValue(PROPERTY_TYPE) >>= nKeyType; if(KeyType::FOREIGN == nKeyType) { OUString sReferencedTable; xKey->getPropertyValue(PROPERTY_REFERENCEDTABLE) >>= sReferencedTable; // TODO check case if(sReferencedTable == _rReferencedTable) return xKey; } } } return Reference(); } void OQueryTableView::AddTabWin(const OUString& _rComposedName, const OUString& _rTableName, const OUString& strAlias, bool bNewTable) { OSL_ENSURE(!_rTableName.isEmpty() || !strAlias.isEmpty(), "OQueryTableView::AddTabWin : no tables or aliases !"); // If the table is not set, then it is a dummy window, but at least the alias must be set // build a new data structure // first check if this already has its data bool bAppend = bNewTable; TTableWindowData::value_type pNewTabWinData; TTableWindowData& rWindowData = getDesignView()->getController().getTableWindowData(); bool bFoundElem = false; for (auto const& elem : rWindowData) { pNewTabWinData = elem; if (pNewTabWinData && pNewTabWinData->GetWinName() == strAlias && pNewTabWinData->GetComposedName() == _rComposedName && pNewTabWinData->GetTableName() == _rTableName) { bFoundElem = true; break; } } if ( !bAppend ) bAppend = !bFoundElem; if ( bAppend ) pNewTabWinData = createTableWindowData(_rComposedName, _rTableName, strAlias); // I do not need to add TabWinData to the DocShell list, ShowTabWin does that. // Create a new window VclPtr pNewTabWin = static_cast(createWindow(pNewTabWinData).get()); // No need to initialize, as that happens in ShowTabWin // New UndoAction std::unique_ptr pUndoAction(new OQueryTabWinShowUndoAct(this)); pUndoAction->SetTabWin(pNewTabWin); // Window bool bSuccess = ShowTabWin(pNewTabWin, pUndoAction.get(), bAppend); if(!bSuccess) { // reset table window pUndoAction->SetTabWin(nullptr); pUndoAction->SetOwnership(false); return; } // Show the relations between the individual tables OTableWindowMap& rTabWins = GetTabWinMap(); if(bNewTable && !rTabWins.empty() && !_rTableName.isEmpty()) { modified(); if ( m_pAccessible ) m_pAccessible->notifyAccessibleEvent( AccessibleEventId::CHILD, Any(), Any(pNewTabWin->GetAccessible()) ); do { if ( pNewTabWin->GetData()->isQuery() ) break; try { // find relations between the table and the tables already inserted Reference< XIndexAccess> xKeyIndex = pNewTabWin->GetData()->getKeys(); if ( !xKeyIndex.is() ) break; Reference xFKeyColumns; OUString aReferencedTable; Reference xColumnsSupplier; const sal_Int32 nKeyCount = xKeyIndex->getCount(); for ( sal_Int32 i=0; i xProp( xKeyIndex->getByIndex(i), UNO_QUERY_THROW ); xColumnsSupplier.set( xProp, UNO_QUERY_THROW ); xFKeyColumns.set( xColumnsSupplier->getColumns(), UNO_SET_THROW ); sal_Int32 nKeyType = 0; xProp->getPropertyValue(PROPERTY_TYPE) >>= nKeyType; switch ( nKeyType ) { case KeyType::FOREIGN: { // our new table has a foreign key // so look if the referenced table is already in our list xProp->getPropertyValue(PROPERTY_REFERENCEDTABLE) >>= aReferencedTable; OSL_ENSURE(!aReferencedTable.isEmpty(),"Foreign key without referencedTableName"); OTableWindowMap::const_iterator aIter = rTabWins.find(aReferencedTable); OTableWindowMap::const_iterator aEnd = rTabWins.end(); if(aIter == aEnd) { for(aIter = rTabWins.begin();aIter != aEnd;++aIter) { OQueryTableWindow* pTabWinTmp = static_cast(aIter->second.get()); OSL_ENSURE( pTabWinTmp,"TableWindow is null!" ); if ( pTabWinTmp != pNewTabWin && pTabWinTmp->GetComposedName() == aReferencedTable ) break; } } if ( aIter != aEnd && pNewTabWin.get() != aIter->second.get() ) addConnections( this, *pNewTabWin, *static_cast(aIter->second.get()), xFKeyColumns ); } break; case KeyType::PRIMARY: { // we have a primary key so look in our list if there exists a key which this is referred to for (auto const& tabWin : rTabWins) { OQueryTableWindow* pTabWinTmp = static_cast(tabWin.second.get()); if ( pTabWinTmp == pNewTabWin ) continue; assert(pTabWinTmp && "TableWindow is null!"); if ( pTabWinTmp->GetData()->isQuery() ) continue; Reference< XPropertySet > xFKKey = getKeyReferencedTo( pTabWinTmp->GetData()->getKeys(), pNewTabWin->GetComposedName() ); if ( !xFKKey.is() ) continue; Reference xFKColumnsSupplier( xFKKey, UNO_QUERY_THROW ); Reference< XNameAccess > xTColumns( xFKColumnsSupplier->getColumns(), UNO_SET_THROW ); addConnections( this, *pTabWinTmp, *pNewTabWin, xTColumns ); } } break; } } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("dbaccess"); } } while ( false ); } // My parent needs to be informed about the delete m_pView->getController().addUndoActionAndInvalidate( std::move(pUndoAction) ); } void OQueryTableView::AddConnection(const OJoinExchangeData& jxdSource, const OJoinExchangeData& jxdDest) { OQueryTableWindow* pSourceWin = static_cast< OQueryTableWindow*>(jxdSource.pListBox->GetTabWin()); OQueryTableWindow* pDestWin = static_cast< OQueryTableWindow*>(jxdDest.pListBox->GetTabWin()); OUString aSourceFieldName, aDestFieldName; weld::TreeView& rSourceTreeView = jxdSource.pListBox->get_widget(); aSourceFieldName = rSourceTreeView.get_text(jxdSource.nEntry); weld::TreeView& rDestTreeView = jxdDest.pListBox->get_widget(); aDestFieldName = rDestTreeView.get_text(jxdDest.nEntry); OTableConnection* pConn = GetTabConn(pSourceWin,pDestWin,true); if ( !pConn ) { // new data object auto xNewConnectionData = std::make_shared(pSourceWin->GetData(), pDestWin->GetData()); sal_uInt32 nSourceFieldIndex, nDestFieldIndex; // Get name/position of both affected fields ... // Source nSourceFieldIndex = jxdSource.nEntry; // Dest nDestFieldIndex = jxdDest.nEntry; // ... and set them xNewConnectionData->SetFieldIndex(JTCS_FROM, nSourceFieldIndex); xNewConnectionData->SetFieldIndex(JTCS_TO, nDestFieldIndex); xNewConnectionData->AppendConnLine( aSourceFieldName,aDestFieldName ); ScopedVclPtrInstance< OQueryTableConnection > aNewConnection(this, xNewConnectionData); NotifyTabConnection(*aNewConnection); // As usual with NotifyTabConnection, using a local variable is fine because a copy is made } else { // the connection could point on the other side if(pConn->GetSourceWin() == pDestWin) std::swap(aSourceFieldName, aDestFieldName); pConn->GetData()->AppendConnLine( aSourceFieldName,aDestFieldName ); connectionModified(this,pConn,false); } } void OQueryTableView::ConnDoubleClicked(VclPtr& rConnection) { if (openJoinDialog(this, rConnection->GetData(), false)) { connectionModified(this, rConnection, false); SelectConn(rConnection); } } void OQueryTableView::createNewConnection() { TTableConnectionData::value_type pData = std::make_shared(); if( !openJoinDialog(this,pData,true) ) return; OTableWindowMap& rMap = GetTabWinMap(); OQueryTableWindow* pSourceWin = static_cast< OQueryTableWindow*>(rMap[pData->getReferencingTable()->GetWinName()].get()); OQueryTableWindow* pDestWin = static_cast< OQueryTableWindow*>(rMap[pData->getReferencedTable()->GetWinName()].get()); // first we have to look if the this connection already exists OTableConnection* pConn = GetTabConn(pSourceWin,pDestWin,true); bool bNew = true; if ( pConn ) { pConn->GetData()->CopyFrom( *pData ); bNew = false; } else { // create a new connection and append it VclPtrInstance pQConn(this, pData); GetConnection(pQConn); pConn = pQConn; } connectionModified(this,pConn,bNew); if ( !bNew && pConn == GetSelectedConn() ) // our connection was selected before so we have to reselect it SelectConn( pConn ); } bool OQueryTableView::RemoveConnection(VclPtr& rConnection, bool /*_bDelete*/) { VclPtr xConnection(static_cast(rConnection.get())); // we don't want that our connection will be deleted, we put it in the undo manager bool bRet = OJoinTableView::RemoveConnection(rConnection, false); // add undo action addUndoAction(this, std::make_unique(this), xConnection.get(), true); return bRet; } OQueryTableWindow* OQueryTableView::FindTable(const OUString& rAliasName) { OSL_ENSURE(!rAliasName.isEmpty(), "OQueryTableView::FindTable : the AliasName should not be empty !"); // (it is harmless but does not make sense and indicates that there is probably an error in the caller) OTableWindowMap::const_iterator aIter = GetTabWinMap().find(rAliasName); if(aIter != GetTabWinMap().end()) return static_cast(aIter->second.get()); return nullptr; } bool OQueryTableView::FindTableFromField(const OUString& rFieldName, OTableFieldDescRef const & rInfo, sal_uInt16& rCnt) { rCnt = 0; for (auto const& tabWin : GetTabWinMap()) { if(static_cast(tabWin.second.get())->ExistsField(rFieldName, rInfo)) ++rCnt; } // TODO JNA : what should we rCnt > 1? return rCnt == 1; } bool OQueryTableView::ContainsTabWin(const OTableWindow& rTabWin) { for (auto const& tabWin : GetTabWinMap()) { if ( tabWin.second == &rTabWin ) { return true; } } return false; } void OQueryTableView::RemoveTabWin(OTableWindow* pTabWin) { OSL_ENSURE(pTabWin != nullptr, "OQueryTableView::RemoveTabWin : Window should not be NULL !"); if(!(pTabWin && ContainsTabWin(*pTabWin))) // #i122589# check if registered before deleting return; // I need my parent so it can be informed about the deletion OQueryDesignView* pParent = static_cast(getDesignView()); SfxUndoManager& rUndoMgr = m_pView->getController().GetUndoManager(); rUndoMgr.EnterListAction(DBA_RES(STR_QUERY_UNDO_TABWINDELETE) , OUString(), 0, ViewShellId(-1)); // add the Undo-Action std::unique_ptr pUndoAction(new OQueryTabWinDelUndoAct(this)); pUndoAction->SetTabWin(static_cast< OQueryTableWindow*>(pTabWin)); // and hide the window HideTabWin(static_cast< OQueryTableWindow*>(pTabWin), pUndoAction.get()); // Undo Actions and delete the fields in SelectionBrowseBox pParent->TableDeleted( static_cast< OQueryTableWindowData*>(pTabWin->GetData().get())->GetAliasName() ); m_pView->getController().addUndoActionAndInvalidate( std::move(pUndoAction) ); rUndoMgr.LeaveListAction(); modified(); if ( m_pAccessible ) m_pAccessible->notifyAccessibleEvent( AccessibleEventId::CHILD, Any(pTabWin->GetAccessible()), Any() ); } void OQueryTableView::EnsureVisible(const OTableWindow* pWin) { Invalidate(InvalidateFlags::NoChildren); OJoinTableView::EnsureVisible(pWin); } void OQueryTableView::GetConnection(OQueryTableConnection* pConn) { // add to me and the document addConnection( pConn ); } void OQueryTableView::DropConnection(VclPtr const & rConn) { // Pay attention to the selection // remove from me and the document VclPtr xConn(rConn.get()); RemoveConnection(xConn, false); } void OQueryTableView::HideTabWin( OQueryTableWindow* pTabWin, OQueryTabWinUndoAct* pUndoAction ) { OTableWindowMap& rTabWins = GetTabWinMap(); // Window // save the position in its data getDesignView()->SaveTabWinUIConfig(pTabWin); // (I need to go via the parent, as only the parent knows the position of the scrollbars) // and then out of the TabWins list and hide OTableWindowMap::const_iterator aIter = std::find_if(rTabWins.begin(), rTabWins.end(), [&pTabWin](const OTableWindowMap::value_type& rEntry) { return rEntry.second == pTabWin; }); if (aIter != rTabWins.end()) rTabWins.erase( aIter ); pTabWin->Hide(); // do not destroy it, as it is still in the undo list!! // the TabWin data must also be passed out of my responsibility TTableWindowData& rTabWinDataList = m_pView->getController().getTableWindowData(); std::erase(rTabWinDataList, pTabWin->GetData()); // The data should not be destroyed as TabWin itself - which is still alive - needs them // Either it goes back into my responsibility, (via ShowTabWin), then I add the data back, // or the Undo-Action, which currently has full responsibility for the window // and its data, gets destroyed and destroys both the window and its data if (m_pLastFocusTabWin == pTabWin) m_pLastFocusTabWin = nullptr; // collect connections belonging to the window and pass to UndoAction sal_Int16 nCnt = 0; const auto& rTabConList = getTableConnections(); auto aIter2 = rTabConList.begin(); for(;aIter2 != rTabConList.end();)// the end may change { VclPtr xTmpEntry = *aIter2; OQueryTableConnection* pTmpEntry = static_cast(xTmpEntry.get()); assert(pTmpEntry && "OQueryTableConnection is null!"); if( pTmpEntry->GetAliasName(JTCS_FROM) == pTabWin->GetAliasName() || pTmpEntry->GetAliasName(JTCS_TO) == pTabWin->GetAliasName() ) { // add to undo list pUndoAction->InsertConnection(xTmpEntry); // call base class because we append an undo action // but this time we are in an undo action list OJoinTableView::RemoveConnection(xTmpEntry, false); aIter2 = rTabConList.begin(); ++nCnt; } else ++aIter2; } if (nCnt) InvalidateConnections(); m_pView->getController().InvalidateFeature(ID_BROWSER_ADDTABLE); // inform the UndoAction that the window and connections belong to it pUndoAction->SetOwnership(true); // by doing so, we have modified the document m_pView->getController().setModified( true ); m_pView->getController().InvalidateFeature(SID_BROWSER_CLEAR_QUERY); } bool OQueryTableView::ShowTabWin( OQueryTableWindow* pTabWin, OQueryTabWinUndoAct* pUndoAction, bool _bAppend ) { bool bSuccess = false; if (pTabWin) { if (pTabWin->Init()) { TTableWindowData::value_type pData = pTabWin->GetData(); OSL_ENSURE(pData != nullptr, "OQueryTableView::ShowTabWin : TabWin has no data !"); // If there is a position and size defined, we use them if (pData->HasPosition() && pData->HasSize()) { Size aSize(CalcZoom(pData->GetSize().Width()),CalcZoom(pData->GetSize().Height())); pTabWin->SetPosSizePixel(pData->GetPosition(), aSize); } else // else set a default position SetDefaultTabWinPosSize(pTabWin); // Show the window and add to the list OUString sName = static_cast< OQueryTableWindowData*>(pData.get())->GetAliasName(); OSL_ENSURE(GetTabWinMap().find(sName) == GetTabWinMap().end(),"Alias name already in list!"); GetTabWinMap().emplace(sName,pTabWin); pTabWin->Show(); pTabWin->PaintImmediately(); // We must call Update() in order to show the connections in the window correctly. This sounds strange, // but the Listbox has an internal Member which is initialized when the Listbox is first shown (after the Listbox // is filled in Init). This Member will eventually be needed for // GetEntryPos, and then in turn by the Connection, when its starting point to the window must be determined. // the Connections auto rTableCon = pUndoAction->GetTabConnList(); for(const auto& conn : rTableCon) addConnection(conn); // add all connections from the undo action rTableCon.clear(); // and add the window's data to the list (of the document) if(_bAppend) m_pView->getController().getTableWindowData().push_back(pTabWin->GetData()); m_pView->getController().InvalidateFeature(ID_BROWSER_ADDTABLE); // and inform the UndoAction that the window belongs to me pUndoAction->SetOwnership(false); bSuccess = true; } else { // Initialisation failed // (for example when the Connection to the database is not available at the moment) pTabWin->clearListBox(); pTabWin->disposeOnce(); } } // show that I have changed the document if(!m_pView->getController().isReadOnly()) m_pView->getController().setModified( true ); m_pView->getController().InvalidateFeature(SID_BROWSER_CLEAR_QUERY); return bSuccess; } void OQueryTableView::InsertField(const OTableFieldDescRef& rInfo) { OSL_ENSURE(getDesignView() != nullptr, "OQueryTableView::InsertField : has no Parent !"); static_cast(getDesignView())->InsertField(rInfo); } bool OQueryTableView::ExistsAVisitedConn(const OQueryTableWindow* pFrom) const { for(const auto& conn : getTableConnections()) { OQueryTableConnection* pTemp = static_cast(conn.get()); if (pTemp->IsVisited() && (pFrom == static_cast< OQueryTableWindow*>(pTemp->GetSourceWin()) || pFrom == static_cast< OQueryTableWindow*>(pTemp->GetDestWin()))) return true; } return false; } void OQueryTableView::onNoColumns_throw() { OUString sError(DBA_RES(STR_STATEMENT_WITHOUT_RESULT_SET)); ::dbtools::throwSQLException( sError, ::dbtools::StandardSQLState::GENERAL_ERROR, nullptr ); } bool OQueryTableView::suppressCrossNaturalJoin(const TTableConnectionData::value_type& _pData) const { OQueryTableConnectionData* pQueryData = static_cast(_pData.get()); return pQueryData && (pQueryData->GetJoinType() == CROSS_JOIN); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */