From ed5640d8b587fbcfed7dd7967f3de04b37a76f26 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 11:06:44 +0200 Subject: Adding upstream version 4:7.4.7. Signed-off-by: Daniel Baumann --- dbaccess/source/core/api/OptimisticSet.cxx | 586 +++++++++++++++++++++++++++++ 1 file changed, 586 insertions(+) create mode 100644 dbaccess/source/core/api/OptimisticSet.cxx (limited to 'dbaccess/source/core/api/OptimisticSet.cxx') diff --git a/dbaccess/source/core/api/OptimisticSet.cxx b/dbaccess/source/core/api/OptimisticSet.cxx new file mode 100644 index 000000000..d1d70955f --- /dev/null +++ b/dbaccess/source/core/api/OptimisticSet.cxx @@ -0,0 +1,586 @@ +/* -*- 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 "OptimisticSet.hxx" +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +using namespace dbaccess; +using namespace ::connectivity; +using namespace ::dbtools; +using namespace ::com::sun::star::uno; +using namespace ::com::sun::star::beans; +using namespace ::com::sun::star::sdbc; +using namespace ::com::sun::star::sdb; +using namespace ::com::sun::star::sdbcx; +using namespace ::com::sun::star::container; +using namespace ::com::sun::star::lang; +using namespace ::com::sun::star::util; +using namespace ::com::sun::star::io; +using namespace ::com::sun::star; +using namespace ::cppu; +using namespace ::osl; + +typedef std::map TSQLStatements; +namespace +{ + void lcl_fillKeyCondition(const OUString& i_sTableName,std::u16string_view i_sQuotedColumnName,const ORowSetValue& i_aValue,TSQLStatements& io_aKeyConditions) + { + OUStringBuffer& rKeyCondition = io_aKeyConditions[i_sTableName]; + if ( !rKeyCondition.isEmpty() ) + rKeyCondition.append(" AND "); + rKeyCondition.append(i_sQuotedColumnName); + if ( i_aValue.isNull() ) + rKeyCondition.append(" IS NULL"); + else + rKeyCondition.append(" = ?"); + } +} + + +OptimisticSet::OptimisticSet(const Reference& _rContext, + const Reference< XConnection>& i_xConnection, + const Reference< XSingleSelectQueryAnalyzer >& _xComposer, + const ORowSetValueVector& _aParameterValueForCache, + sal_Int32 i_nMaxRows, + sal_Int32& o_nRowCount) + :OKeySet(nullptr,OUString(),_xComposer,_aParameterValueForCache,i_nMaxRows,o_nRowCount) + ,m_aSqlParser( _rContext ) + ,m_aSqlIterator( i_xConnection, Reference(_xComposer,UNO_QUERY_THROW)->getTables(), m_aSqlParser ) + ,m_bResultSetChanged(false) +{ +} + +OptimisticSet::~OptimisticSet() +{ +} + +void OptimisticSet::construct(const Reference< XResultSet>& _xDriverSet,const OUString& i_sRowSetFilter) +{ + OCacheSet::construct(_xDriverSet,i_sRowSetFilter); + + initColumns(); + m_sRowSetFilter = i_sRowSetFilter; + + Reference xMeta = m_xConnection->getMetaData(); + bool bCase = xMeta.is() && xMeta->supportsMixedCaseQuotedIdentifiers(); + Reference xQueryColSup(m_xComposer,UNO_QUERY); + const Reference xQueryColumns = xQueryColSup->getColumns(); + const Reference xTabSup(m_xComposer,UNO_QUERY); + const Reference xTables = xTabSup->getTables(); + const Sequence< OUString> aTableNames = xTables->getElementNames(); + const OUString* pTableNameIter = aTableNames.getConstArray(); + const OUString* pTableNameEnd = pTableNameIter + aTableNames.getLength(); + for( ; pTableNameIter != pTableNameEnd ; ++pTableNameIter) + { + std::unique_ptr pKeyColumNames(new SelectColumnsMetaData(bCase)); + findTableColumnsMatching_throw(xTables->getByName(*pTableNameIter),*pTableNameIter,xMeta,xQueryColumns,pKeyColumNames); + m_pKeyColumnNames->insert(pKeyColumNames->begin(),pKeyColumNames->end()); + } + + // the first row is empty because it's now easier for us to distinguish when we are beforefirst or first + // without extra variable to be set + OKeySetValue keySetValue(nullptr,std::pair >(0,Reference())); + m_aKeyMap.emplace(0,keySetValue); + m_aKeyIter = m_aKeyMap.begin(); + + Reference< XSingleSelectQueryComposer> xSourceComposer(m_xComposer,UNO_QUERY); + Reference< XMultiServiceFactory > xFactory(m_xConnection, UNO_QUERY_THROW); + Reference xAnalyzer(xFactory->createInstance(SERVICE_NAME_SINGLESELECTQUERYCOMPOSER),UNO_QUERY); + OUString sQuery = xSourceComposer->getQuery(); + xAnalyzer->setElementaryQuery(xSourceComposer->getElementaryQuery()); + // check for joins + OUString aErrorMsg; + std::unique_ptr pStatementNode( m_aSqlParser.parseTree( aErrorMsg, sQuery ) ); + m_aSqlIterator.setParseTree( pStatementNode.get() ); + m_aSqlIterator.traverseAll(); + fillJoinedColumns_throw(m_aSqlIterator.getJoinConditions()); + +} + +void OptimisticSet::makeNewStatement( ) +{ + OUStringBuffer aFilter = createKeyFilter(); + + Reference< XSingleSelectQueryComposer> xSourceComposer(m_xComposer,UNO_QUERY); + Reference< XMultiServiceFactory > xFactory(m_xConnection, UNO_QUERY_THROW); + Reference xAnalyzer(xFactory->createInstance(SERVICE_NAME_SINGLESELECTQUERYCOMPOSER),UNO_QUERY); + xAnalyzer->setElementaryQuery(xSourceComposer->getElementaryQuery()); + + const OUString sComposerFilter = m_xComposer->getFilter(); + if ( !m_sRowSetFilter.isEmpty() || !sComposerFilter.isEmpty() ) + { + FilterCreator aFilterCreator; + if ( !sComposerFilter.isEmpty() && sComposerFilter != m_sRowSetFilter ) + aFilterCreator.append( sComposerFilter ); + aFilterCreator.append( m_sRowSetFilter ); + aFilterCreator.append( aFilter.makeStringAndClear() ); + aFilter = aFilterCreator.getComposedAndClear(); + } + xAnalyzer->setFilter(aFilter.makeStringAndClear()); + m_xStatement = m_xConnection->prepareStatement(xAnalyzer->getQueryWithSubstitution()); + ::comphelper::disposeComponent(xAnalyzer); +} + +void OptimisticSet::updateRow(const ORowSetRow& _rInsertRow ,const ORowSetRow& _rOriginalRow,const connectivity::OSQLTable& /*_xTable*/ ) +{ + if ( m_aJoinedKeyColumns.empty() ) + throw SQLException(); + // list all columns that should be set + OUString aQuote = getIdentifierQuoteString(); + + std::map< OUString,bool > aResultSetChanged; + TSQLStatements aKeyConditions; + TSQLStatements aSql; + + // here we build the condition part for the update statement + for (auto const& columnName : *m_pColumnNames) + { + aResultSetChanged.try_emplace(columnName.second.sTableName, false); + const OUString sQuotedColumnName = ::dbtools::quoteName( aQuote,columnName.second.sRealName); + if ( m_pKeyColumnNames->find(columnName.first) != m_pKeyColumnNames->end() ) + { + aResultSetChanged[columnName.second.sTableName] = m_aJoinedKeyColumns.find(columnName.second.nPosition) != m_aJoinedKeyColumns.end(); + lcl_fillKeyCondition(columnName.second.sTableName,sQuotedColumnName,(*_rOriginalRow)[columnName.second.nPosition],aKeyConditions); + } + if((*_rInsertRow)[columnName.second.nPosition].isModified()) + { + if ( m_aJoinedKeyColumns.find(columnName.second.nPosition) != m_aJoinedKeyColumns.end() ) + throw SQLException(); + + std::map::const_iterator aJoinIter = m_aJoinedColumns.find(columnName.second.nPosition); + if ( aJoinIter != m_aJoinedColumns.end() ) + { + (*_rInsertRow)[aJoinIter->second] = (*_rInsertRow)[columnName.second.nPosition]; + } + OUStringBuffer& rPart = aSql[columnName.second.sTableName]; + if ( !rPart.isEmpty() ) + rPart.append(", "); + rPart.append(sQuotedColumnName + " = ?"); + } + } + + if( aSql.empty() ) + ::dbtools::throwSQLException( DBA_RES( RID_STR_NO_VALUE_CHANGED ), StandardSQLState::GENERAL_ERROR, m_xConnection ); + + if( aKeyConditions.empty() ) + ::dbtools::throwSQLException( DBA_RES( RID_STR_NO_CONDITION_FOR_PK ), StandardSQLState::GENERAL_ERROR, m_xConnection ); + + Reference xMetaData = m_xConnection->getMetaData(); + + for (auto const& elem : aSql) + { + if ( !elem.second.isEmpty() ) + { + m_bResultSetChanged = m_bResultSetChanged || aResultSetChanged[elem.first]; + OUString sCatalog,sSchema,sTable; + ::dbtools::qualifiedNameComponents(xMetaData,elem.first,sCatalog,sSchema,sTable,::dbtools::EComposeRule::InDataManipulation); + OUStringBuffer sSql("UPDATE " + ::dbtools::composeTableNameForSelect( m_xConnection, sCatalog, sSchema, sTable ) + + " SET " + elem.second); + OUStringBuffer& rCondition = aKeyConditions[elem.first]; + if ( !rCondition.isEmpty() ) + sSql.append(" WHERE " + rCondition ); + + executeUpdate(_rInsertRow ,_rOriginalRow,sSql.makeStringAndClear(),elem.first); + } + } +} + +void OptimisticSet::insertRow( const ORowSetRow& _rInsertRow,const connectivity::OSQLTable& /*_xTable*/ ) +{ + TSQLStatements aSql; + TSQLStatements aParameter; + TSQLStatements aKeyConditions; + std::map< OUString,bool > aResultSetChanged; + OUString aQuote = getIdentifierQuoteString(); + + // here we build the condition part for the update statement + for (auto const& columnName : *m_pColumnNames) + { + aResultSetChanged.try_emplace(columnName.second.sTableName, false); + + const OUString sQuotedColumnName = ::dbtools::quoteName( aQuote,columnName.second.sRealName); + if ( (*_rInsertRow)[columnName.second.nPosition].isModified() ) + { + if ( m_aJoinedKeyColumns.find(columnName.second.nPosition) != m_aJoinedKeyColumns.end() ) + { + lcl_fillKeyCondition(columnName.second.sTableName,sQuotedColumnName,(*_rInsertRow)[columnName.second.nPosition],aKeyConditions); + aResultSetChanged[columnName.second.sTableName] = true; + } + std::map::const_iterator aJoinIter = m_aJoinedColumns.find(columnName.second.nPosition); + if ( aJoinIter != m_aJoinedColumns.end() ) + { + (*_rInsertRow)[aJoinIter->second] = (*_rInsertRow)[columnName.second.nPosition]; + } + OUStringBuffer& rPart = aSql[columnName.second.sTableName]; + if ( !rPart.isEmpty() ) + rPart.append(", "); + rPart.append(sQuotedColumnName); + OUStringBuffer& rParam = aParameter[columnName.second.sTableName]; + if ( !rParam.isEmpty() ) + rParam.append(", "); + rParam.append("?"); + } + } + if ( aParameter.empty() ) + ::dbtools::throwSQLException( DBA_RES( RID_STR_NO_VALUE_CHANGED ), StandardSQLState::GENERAL_ERROR, m_xConnection ); + + Reference xMetaData = m_xConnection->getMetaData(); + for (auto const& elem : aSql) + { + if ( !elem.second.isEmpty() ) + { + m_bResultSetChanged = m_bResultSetChanged || aResultSetChanged[elem.first]; + OUString sCatalog,sSchema,sTable; + ::dbtools::qualifiedNameComponents(xMetaData,elem.first,sCatalog,sSchema,sTable,::dbtools::EComposeRule::InDataManipulation); + OUString sComposedTableName = ::dbtools::composeTableNameForSelect( m_xConnection, sCatalog, sSchema, sTable ); + OUString sSql("INSERT INTO " + sComposedTableName + " ( " + elem.second + + ") VALUES ( " + aParameter[elem.first] + " )"); + + OUStringBuffer& rCondition = aKeyConditions[elem.first]; + if ( !rCondition.isEmpty() ) + { + OUString sQuery("SELECT " + elem.second + " FROM " + sComposedTableName + + " WHERE " + rCondition); + + try + { + Reference< XPreparedStatement > xPrep(m_xConnection->prepareStatement(sQuery)); + Reference< XParameters > xParameter(xPrep,UNO_QUERY); + // and then the values of the where condition + sal_Int32 i = 1; + for (auto const& keyColumnName : *m_pKeyColumnNames) + { + if ( keyColumnName.second.sTableName == elem.first ) + { + setParameter(i++,xParameter,(*_rInsertRow)[keyColumnName.second.nPosition],keyColumnName.second.nType,keyColumnName.second.nScale); + } + } + Reference xRes = xPrep->executeQuery(); + Reference xRow(xRes,UNO_QUERY); + if ( xRow.is() && xRes->next() ) + { + m_bResultSetChanged = true; + continue; + } + } + catch(const SQLException&) + { + } + } + + executeInsert(_rInsertRow,sSql,elem.first); + } + } +} + +void OptimisticSet::deleteRow(const ORowSetRow& _rDeleteRow,const connectivity::OSQLTable& /*_xTable*/ ) +{ + OUString aQuote = getIdentifierQuoteString(); + TSQLStatements aKeyConditions; + + // here we build the condition part for the update statement + for (auto const& columnName : *m_pColumnNames) + { + if ( m_aJoinedKeyColumns.find(columnName.second.nPosition) == m_aJoinedKeyColumns.end() && m_pKeyColumnNames->find(columnName.first) != m_pKeyColumnNames->end() ) + { + // only delete rows which aren't the key in the join + const OUString sQuotedColumnName = ::dbtools::quoteName( aQuote,columnName.second.sRealName); + lcl_fillKeyCondition(columnName.second.sTableName,sQuotedColumnName,(*_rDeleteRow)[columnName.second.nPosition],aKeyConditions); + } + } + Reference xMetaData = m_xConnection->getMetaData(); + for (auto & keyCondition : aKeyConditions) + { + OUStringBuffer& rCondition = keyCondition.second; + if ( !rCondition.isEmpty() ) + { + OUString sCatalog,sSchema,sTable; + ::dbtools::qualifiedNameComponents(xMetaData,keyCondition.first,sCatalog,sSchema,sTable,::dbtools::EComposeRule::InDataManipulation); + OUString sSql("DELETE FROM " + ::dbtools::composeTableNameForSelect( m_xConnection, sCatalog, sSchema, sTable ) + + " WHERE " + rCondition ); + executeDelete(_rDeleteRow, sSql, keyCondition.first); + } + } +} + +void OptimisticSet::executeDelete(const ORowSetRow& _rDeleteRow,const OUString& i_sSQL,std::u16string_view i_sTableName) +{ + // now create and execute the prepared statement + Reference< XPreparedStatement > xPrep(m_xConnection->prepareStatement(i_sSQL)); + Reference< XParameters > xParameter(xPrep,UNO_QUERY); + + sal_Int32 i = 1; + for (auto const& keyColumnName : *m_pKeyColumnNames) + { + if ( keyColumnName.second.sTableName == i_sTableName ) + setParameter(i++,xParameter,(*_rDeleteRow)[keyColumnName.second.nPosition],keyColumnName.second.nType,keyColumnName.second.nScale); + } + m_bDeleted = xPrep->executeUpdate() > 0; + + if(m_bDeleted) + { + sal_Int32 nBookmark = ::comphelper::getINT32((*_rDeleteRow)[0].getAny()); + if(m_aKeyIter == m_aKeyMap.find(nBookmark) && m_aKeyIter != m_aKeyMap.end()) + ++m_aKeyIter; + m_aKeyMap.erase(nBookmark); + m_bDeleted = true; + } +} + +void OptimisticSet::fillJoinedColumns_throw(const std::vector< TNodePair >& i_aJoinColumns) +{ + for (auto const& joinColumn : i_aJoinColumns) + { + OUString sColumnName,sTableName; + m_aSqlIterator.getColumnRange(joinColumn.first,sColumnName,sTableName); + OUString sLeft(sTableName + "." + sColumnName); + m_aSqlIterator.getColumnRange(joinColumn.second,sColumnName,sTableName); + OUString sRight(sTableName + "." + sColumnName); + fillJoinedColumns_throw(sLeft, sRight); + } +} + +void OptimisticSet::fillJoinedColumns_throw(const OUString& i_sLeftColumn,const OUString& i_sRightColumn) +{ + sal_Int32 nLeft = 0,nRight = 0; + SelectColumnsMetaData::const_iterator aLeftIter = m_pKeyColumnNames->find(i_sLeftColumn); + SelectColumnsMetaData::const_iterator aRightIter = m_pKeyColumnNames->find(i_sRightColumn); + + bool bLeftKey = aLeftIter != m_pKeyColumnNames->end(); + if ( bLeftKey ) + { + nLeft = aLeftIter->second.nPosition; + } + else + { + aLeftIter = m_pColumnNames->find(i_sLeftColumn); + if ( aLeftIter != m_pColumnNames->end() ) + nLeft = aLeftIter->second.nPosition; + } + + bool bRightKey = aRightIter != m_pKeyColumnNames->end(); + if ( bRightKey ) + { + nRight = aRightIter->second.nPosition; + } + else + { + aRightIter = m_pColumnNames->find(i_sRightColumn); + if ( aRightIter != m_pColumnNames->end() ) + nRight = aRightIter->second.nPosition; + } + + if (bLeftKey) + m_aJoinedKeyColumns[nLeft] = nRight; + else + m_aJoinedColumns[nLeft] = nRight; + if (bRightKey) + m_aJoinedKeyColumns[nRight] = nLeft; + else + m_aJoinedColumns[nRight] = nLeft; +} + +bool OptimisticSet::isResultSetChanged() const +{ + bool bOld = m_bResultSetChanged; + m_bResultSetChanged = false; + return bOld; +} + +void OptimisticSet::mergeColumnValues(sal_Int32 i_nColumnIndex,ORowSetValueVector::Vector& io_aInsertRow,ORowSetValueVector::Vector& io_aRow,std::vector& o_aChangedColumns) +{ + o_aChangedColumns.push_back(i_nColumnIndex); + std::map::const_iterator aJoinIter = m_aJoinedColumns.find(i_nColumnIndex); + if ( aJoinIter != m_aJoinedColumns.end() ) + { + io_aRow[aJoinIter->second] = io_aRow[i_nColumnIndex]; + io_aInsertRow[aJoinIter->second] = io_aInsertRow[i_nColumnIndex]; + io_aRow[aJoinIter->second].setModified(true); + o_aChangedColumns.push_back(aJoinIter->second); + } +} + +bool OptimisticSet::updateColumnValues(const ORowSetValueVector::Vector& io_aCachedRow,ORowSetValueVector::Vector& io_aRow,const std::vector& i_aChangedColumns) +{ + bool bRet = false; + for( const auto& aColIdx : i_aChangedColumns ) + { + SelectColumnsMetaData::const_iterator aFind = std::find_if( + m_pKeyColumnNames->begin(),m_pKeyColumnNames->end(), + [&aColIdx]( const SelectColumnsMetaData::value_type& aType ) + { return aType.second.nPosition == aColIdx; } ); + if ( aFind != m_pKeyColumnNames->end() ) + { + const OUString sTableName = aFind->second.sTableName; + aFind = std::find_if( m_pKeyColumnNames->begin(),m_pKeyColumnNames->end(), + [&sTableName] + ( const SelectColumnsMetaData::value_type& rCurr ) + { return rCurr.second.sTableName == sTableName; } ); + while( aFind != m_pKeyColumnNames->end() ) + { + io_aRow[aFind->second.nPosition].setSigned(io_aCachedRow[aFind->second.nPosition].isSigned()); + if ( io_aCachedRow[aFind->second.nPosition] != io_aRow[aFind->second.nPosition] ) + break; + ++aFind; + } + if ( aFind == m_pKeyColumnNames->end() ) + { + bRet = true; + for( const auto& aCol : *m_pColumnNames ) + { + if ( aCol.second.sTableName == sTableName ) + { + io_aRow[aCol.second.nPosition] = io_aCachedRow[aCol.second.nPosition]; + io_aRow[aCol.second.nPosition].setModified(true); + } + } + } + } + } + return bRet; +} + +bool OptimisticSet::columnValuesUpdated(ORowSetValueVector::Vector& o_aCachedRow,const ORowSetValueVector::Vector& i_aRow) +{ + bool bRet = false; + for( const auto& aCol : *m_pColumnNames ) + { + sal_Int32 nPos = aCol.second.nPosition; + SelectColumnsMetaData::const_iterator aFind = std::find_if( + m_pKeyColumnNames->begin(),m_pKeyColumnNames->end(), + [&nPos] ( const SelectColumnsMetaData::value_type& aType ) + { return aType.second.nPosition == nPos; } ); + if ( aFind != m_pKeyColumnNames->end() ) + { + const OUString sTableName = aFind->second.sTableName; + aFind = std::find_if( m_pKeyColumnNames->begin(),m_pKeyColumnNames->end(), + [&sTableName] + ( const SelectColumnsMetaData::value_type& rCurr ) + { return rCurr.second.sTableName == sTableName; } ); + while( aFind != m_pKeyColumnNames->end() ) + { + o_aCachedRow[aFind->second.nPosition].setSigned(i_aRow[aFind->second.nPosition].isSigned()); + if ( o_aCachedRow[aFind->second.nPosition] != i_aRow[aFind->second.nPosition] ) + break; + ++aFind; + } + if ( aFind == m_pKeyColumnNames->end() ) + { + bRet = true; + for( const auto& aCol2 : *m_pColumnNames ) + { + if ( aCol2.second.sTableName == sTableName ) + { + o_aCachedRow[aCol2.second.nPosition] = i_aRow[aCol2.second.nPosition]; + o_aCachedRow[aCol2.second.nPosition].setModified(true); + } + } + fillMissingValues(o_aCachedRow); + } + } + } + return bRet; +} + +void OptimisticSet::fillMissingValues(ORowSetValueVector::Vector& io_aRow) const +{ + TSQLStatements aSql; + TSQLStatements aKeyConditions; + OUString aQuote = getIdentifierQuoteString(); + // here we build the condition part for the update statement + for (auto const& columnName : *m_pColumnNames) + { + const OUString sQuotedColumnName = ::dbtools::quoteName( aQuote,columnName.second.sRealName); + if ( m_aJoinedKeyColumns.find(columnName.second.nPosition) != m_aJoinedKeyColumns.end() ) + { + lcl_fillKeyCondition(columnName.second.sTableName,sQuotedColumnName,io_aRow[columnName.second.nPosition],aKeyConditions); + } + OUStringBuffer& rPart = aSql[columnName.second.sTableName]; + if ( !rPart.isEmpty() ) + rPart.append(", "); + rPart.append(sQuotedColumnName); + } + Reference xMetaData = m_xConnection->getMetaData(); + for (auto const& elem : aSql) + { + if ( !elem.second.isEmpty() ) + { + OUStringBuffer& rCondition = aKeyConditions[elem.first]; + if ( !rCondition.isEmpty() ) + { + OUString sCatalog,sSchema,sTable; + ::dbtools::qualifiedNameComponents(xMetaData,elem.first,sCatalog,sSchema,sTable,::dbtools::EComposeRule::InDataManipulation); + OUString sComposedTableName = ::dbtools::composeTableNameForSelect( m_xConnection, sCatalog, sSchema, sTable ); + OUString sQuery("SELECT " + elem.second + " FROM " + sComposedTableName + " WHERE " + rCondition); + rCondition.setLength(0); + + try + { + Reference< XPreparedStatement > xPrep(m_xConnection->prepareStatement(sQuery)); + Reference< XParameters > xParameter(xPrep,UNO_QUERY); + // and then the values of the where condition + sal_Int32 i = 1; + for (auto const& keyColumn : *m_pKeyColumnNames) + { + if ( keyColumn.second.sTableName == elem.first ) + { + setParameter(i++,xParameter,io_aRow[keyColumn.second.nPosition],keyColumn.second.nType,keyColumn.second.nScale); + } + } + Reference xRes = xPrep->executeQuery(); + Reference xRow(xRes,UNO_QUERY); + if ( xRow.is() && xRes->next() ) + { + i = 1; + for (auto const& columnName : *m_pColumnNames) + { + if ( columnName.second.sTableName == elem.first ) + { + io_aRow[columnName.second.nPosition].fill(i++, columnName.second.nType, xRow); + io_aRow[columnName.second.nPosition].setModified(true); + } + } + } + } + catch(const SQLException&) + { + } + } + } + } +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ -- cgit v1.2.3