/* -*- 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 #include #include #include #include #include #include "TConnection.hxx" #include #include #include #include #include #include namespace dbtools { using namespace ::com::sun::star::uno; using namespace ::com::sun::star::sdb; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::sdbcx; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::task; using namespace ::com::sun::star::form; using namespace ::com::sun::star::container; using namespace ::comphelper; using namespace ::connectivity; ParameterManager::ParameterManager( ::osl::Mutex& _rMutex, const Reference< XComponentContext >& _rxContext ) :m_rMutex ( _rMutex ) ,m_aParameterListeners( _rMutex ) ,m_xContext ( _rxContext ) ,m_pOuterParameters ( nullptr ) ,m_nInnerCount ( 0 ) ,m_bUpToDate ( false ) { OSL_ENSURE( m_xContext.is(), "ParameterManager::ParameterManager: no service factory!" ); } void ParameterManager::initialize( const Reference< XPropertySet >& _rxComponent, const Reference< XAggregation >& _rxComponentAggregate ) { OSL_ENSURE( !m_xComponent.get().is(), "ParameterManager::initialize: already initialized!" ); m_xComponent = _rxComponent; m_xAggregatedRowSet = _rxComponentAggregate; if ( m_xAggregatedRowSet.is() ) m_xAggregatedRowSet->queryAggregation( cppu::UnoType::get() ) >>= m_xInnerParamUpdate; OSL_ENSURE( m_xComponent.get().is() && m_xInnerParamUpdate.is(), "ParameterManager::initialize: invalid arguments!" ); if ( !m_xComponent.get().is() || !m_xInnerParamUpdate.is() ) return; } void ParameterManager::dispose( ) { clearAllParameterInformation(); m_xComposer.clear(); m_xParentComposer.clear(); //m_xComponent.clear(); m_xInnerParamUpdate.clear(); m_xAggregatedRowSet.clear(); } void ParameterManager::clearAllParameterInformation() { m_xInnerParamColumns.clear(); if ( m_pOuterParameters.is() ) m_pOuterParameters->dispose(); m_pOuterParameters = nullptr; m_nInnerCount = 0; ParameterInformation aEmptyInfo; m_aParameterInformation.swap( aEmptyInfo ); m_aMasterFields.clear(); m_aDetailFields.clear(); m_sIdentifierQuoteString.clear(); m_sSpecialCharacters.clear(); m_xConnectionMetadata.clear(); ::std::vector< bool > aEmptyArray; m_aParametersVisited.swap( aEmptyArray ); m_bUpToDate = false; } void ParameterManager::setAllParametersNull() { OSL_PRECOND( isAlive(), "ParameterManager::setAllParametersNull: not initialized, or already disposed!" ); if ( !isAlive() ) return; for ( sal_Int32 i = 1; i <= m_nInnerCount; ++i ) m_xInnerParamUpdate->setNull( i, DataType::VARCHAR ); } bool ParameterManager::initializeComposerByComponent( const Reference< XPropertySet >& _rxComponent ) { OSL_PRECOND( _rxComponent.is(), "ParameterManager::initializeComposerByComponent: invalid !" ); m_xComposer.clear(); m_xInnerParamColumns.clear(); m_nInnerCount = 0; // create and fill a composer try { // get a query composer for the 's settings m_xComposer.reset( getCurrentSettingsComposer( _rxComponent, m_xContext ), SharedQueryComposer::TakeOwnership ); // see if the composer found parameters Reference< XParametersSupplier > xParamSupp( m_xComposer, UNO_QUERY ); if ( xParamSupp.is() ) m_xInnerParamColumns = xParamSupp->getParameters(); if ( m_xInnerParamColumns.is() ) m_nInnerCount = m_xInnerParamColumns->getCount(); } catch( const SQLException& ) { } return m_xInnerParamColumns.is(); } void ParameterManager::collectInnerParameters( bool _bSecondRun ) { OSL_PRECOND( m_xInnerParamColumns.is(), "ParameterManager::collectInnerParameters: missing some internal data!" ); if ( !m_xInnerParamColumns.is() ) return; // strip previous index information if ( _bSecondRun ) { for ( ParameterInformation::iterator aParamInfo = m_aParameterInformation.begin(); aParamInfo != m_aParameterInformation.end(); ++aParamInfo ) { aParamInfo->second.aInnerIndexes.clear(); } } // we need to map the parameter names (which is all we get from the 's // MasterFields property) to indices, which are needed by the XParameters // interface of the row set) Reference xParam; for ( sal_Int32 i = 0; i < m_nInnerCount; ++i ) { try { xParam.clear(); m_xInnerParamColumns->getByIndex( i ) >>= xParam; OUString sName; xParam->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME) ) >>= sName; // only append additional parameters when they are not already in the list ParameterInformation::iterator aExistentPos = m_aParameterInformation.find( sName ); OSL_ENSURE( !_bSecondRun || ( aExistentPos != m_aParameterInformation.end() ), "ParameterManager::collectInnerParameters: the parameter information should already exist in the second run!" ); if ( aExistentPos == m_aParameterInformation.end() ) { aExistentPos = m_aParameterInformation.insert( ParameterInformation::value_type( sName, xParam ) ).first; } else aExistentPos->second.xComposerColumn = xParam; aExistentPos->second.aInnerIndexes.push_back( i ); } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::collectInnerParameters: caught an exception!" ); } } } OUString ParameterManager::createFilterConditionFromColumnLink( const OUString &_rMasterColumn, const Reference < XPropertySet > &xDetailField, OUString &o_rNewParamName ) { OUString sFilter; // format is: // = : { OUString tblName; xDetailField->getPropertyValue("TableName") >>= tblName; if (!tblName.isEmpty()) sFilter = ::dbtools::quoteTableName( m_xConnectionMetadata, tblName, ::dbtools::EComposeRule::InDataManipulation ) + "."; } { OUString colName; xDetailField->getPropertyValue("RealName") >>= colName; sFilter += quoteName( m_sIdentifierQuoteString, colName ) + " = :"; } // generate a parameter name which is not already used o_rNewParamName = "link_from_"; o_rNewParamName += convertName2SQLName( _rMasterColumn, m_sSpecialCharacters ); while ( m_aParameterInformation.find( o_rNewParamName ) != m_aParameterInformation.end() ) { o_rNewParamName += "_"; } return sFilter += o_rNewParamName; } void ParameterManager::classifyLinks( const Reference< XNameAccess >& _rxParentColumns, const Reference< XNameAccess >& _rxColumns, ::std::vector< OUString >& _out_rAdditionalFilterComponents ) { OSL_PRECOND( m_aMasterFields.size() == m_aDetailFields.size(), "ParameterManager::classifyLinks: master and detail fields should have the same length!" ); OSL_ENSURE( _rxColumns.is(), "ParameterManager::classifyLinks: invalid columns!" ); if ( !_rxColumns.is() ) return; // we may need to strip any links which are invalid, so here go the containers // for temporarirly holding the new pairs ::std::vector< OUString > aStrippedMasterFields; ::std::vector< OUString > aStrippedDetailFields; bool bNeedExchangeLinks = false; // classify the links auto pMasterFields = m_aMasterFields.begin(); auto pDetailFields = m_aDetailFields.begin(); auto pDetailFieldsEnd = m_aDetailFields.end(); for ( ; pDetailFields != pDetailFieldsEnd; ++pDetailFields, ++pMasterFields ) { if ( pMasterFields->isEmpty() || pDetailFields->isEmpty() ) continue; // if not even the master part of the relationship exists in the parent , the // link is invalid as a whole // #i63674# / 2006-03-28 / frank.schoenheit@sun.com if ( !_rxParentColumns->hasByName( *pMasterFields ) ) { bNeedExchangeLinks = true; continue; } bool bValidLink = true; // is there an inner parameter with this name? That is, a parameter which is already part of // the very original statement (not the one we create ourselves, with the additional parameters) ParameterInformation::iterator aPos = m_aParameterInformation.find( *pDetailFields ); if ( aPos != m_aParameterInformation.end() ) { // there is an inner parameter with this name aPos->second.eType = ParameterClassification::LinkedByParamName; aStrippedDetailFields.push_back( *pDetailFields ); } else { // does the detail name denote a column? if ( _rxColumns->hasByName( *pDetailFields ) ) { Reference< XPropertySet > xDetailField(_rxColumns->getByName( *pDetailFields ), UNO_QUERY); assert(xDetailField.is()); OUString sNewParamName; const OUString sFilterCondition = createFilterConditionFromColumnLink( *pMasterFields, xDetailField, sNewParamName ); OSL_PRECOND( !sNewParamName.isEmpty(), "ParameterManager::classifyLinks: createFilterConditionFromColumnLink returned nonsense!" ); // remember meta information about this new parameter ::std::pair< ParameterInformation::iterator, bool > aInsertionPos = m_aParameterInformation.insert( ParameterInformation::value_type( sNewParamName, ParameterMetaData( nullptr ) ) ); OSL_ENSURE( aInsertionPos.second, "ParameterManager::classifyLinks: there already was a parameter with this name!" ); aInsertionPos.first->second.eType = ParameterClassification::LinkedByColumnName; // remember the filter component _out_rAdditionalFilterComponents.push_back( sFilterCondition ); // remember the new "detail field" for this link aStrippedDetailFields.push_back( sNewParamName ); bNeedExchangeLinks = true; } else { // the detail field neither denotes a column name, nor a parameter name bValidLink = false; bNeedExchangeLinks = true; } } if ( bValidLink ) aStrippedMasterFields.push_back( *pMasterFields ); } SAL_WARN_IF( aStrippedMasterFields.size() != aStrippedDetailFields.size(), "connectivity.commontools", "ParameterManager::classifyLinks: inconsistency in new link pairs!" ); if ( bNeedExchangeLinks ) { m_aMasterFields.swap(aStrippedMasterFields); m_aDetailFields.swap(aStrippedDetailFields); } } void ParameterManager::analyzeFieldLinks( FilterManager& _rFilterManager, bool& /* [out] */ _rColumnsInLinkDetails ) { OSL_PRECOND( isAlive(), "ParameterManager::analyzeFieldLinks: not initialized, or already disposed!" ); if ( !isAlive() ) return; _rColumnsInLinkDetails = false; try { // the links as determined by the properties Reference< XPropertySet > xProp = m_xComponent; OSL_ENSURE(xProp.is(),"Someone already released my component!"); if ( xProp.is() ) { Sequence aTmp; if (xProp->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_MASTERFIELDS) ) >>= aTmp) comphelper::sequenceToContainer(m_aMasterFields, aTmp); if (xProp->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_DETAILFIELDS) ) >>= aTmp) comphelper::sequenceToContainer(m_aDetailFields, aTmp); } { // normalize to equal length sal_Int32 nMasterLength = m_aMasterFields.size(); sal_Int32 nDetailLength = m_aDetailFields.size(); if ( nMasterLength > nDetailLength ) m_aMasterFields.resize( nDetailLength ); else if ( nDetailLength > nMasterLength ) m_aDetailFields.resize( nMasterLength ); } Reference< XNameAccess > xColumns; if ( !getColumns( xColumns, true ) ) // already asserted in getColumns return; Reference< XNameAccess > xParentColumns; if ( !getParentColumns( xParentColumns, true ) ) return; // classify the links - depending on what the detail fields in each link pair denotes ::std::vector< OUString > aAdditionalFilterComponents; classifyLinks( xParentColumns, xColumns, aAdditionalFilterComponents ); // did we find links where the detail field refers to a detail column (instead of a parameter name)? if ( !aAdditionalFilterComponents.empty() ) { // build a conjunction of all the filter components OUStringBuffer sAdditionalFilter; for ( ::std::vector< OUString >::const_iterator aComponent = aAdditionalFilterComponents.begin(); aComponent != aAdditionalFilterComponents.end(); ++aComponent ) { if ( !sAdditionalFilter.isEmpty() ) sAdditionalFilter.append(" AND "); sAdditionalFilter.append("( "); sAdditionalFilter.append(*aComponent); sAdditionalFilter.append(" )"); } // now set this filter at the 's filter manager _rFilterManager.setFilterComponent( FilterManager::FilterComponent::LinkFilter, sAdditionalFilter.makeStringAndClear() ); _rColumnsInLinkDetails = true; } } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::analyzeFieldLinks: caught an exception!" ); } } void ParameterManager::createOuterParameters() { OSL_PRECOND( !m_pOuterParameters.is(), "ParameterManager::createOuterParameters: outer parameters not initialized!" ); OSL_PRECOND( m_xInnerParamUpdate.is(), "ParameterManager::createOuterParameters: no write access to the inner parameters!" ); if ( !m_xInnerParamUpdate.is() ) return; m_pOuterParameters = new param::ParameterWrapperContainer; #if OSL_DEBUG_LEVEL > 0 sal_Int32 nSmallestIndexLinkedByColumnName = -1; sal_Int32 nLargestIndexNotLinkedByColumnName = -1; #endif for ( ParameterInformation::iterator aParam = m_aParameterInformation.begin(); aParam != m_aParameterInformation.end(); ++aParam ) { #if OSL_DEBUG_LEVEL > 0 if ( aParam->second.aInnerIndexes.size() ) { if ( aParam->second.eType == ParameterClassification::LinkedByColumnName ) { if ( nSmallestIndexLinkedByColumnName == -1 ) nSmallestIndexLinkedByColumnName = aParam->second.aInnerIndexes[ 0 ]; } else { nLargestIndexNotLinkedByColumnName = aParam->second.aInnerIndexes[ aParam->second.aInnerIndexes.size() - 1 ]; } } #endif if ( aParam->second.eType != ParameterClassification::FilledExternally ) continue; // check which of the parameters have already been visited (e.g. filled via XParameters) size_t nAlreadyVisited = 0; for ( ::std::vector< sal_Int32 >::iterator aIndex = aParam->second.aInnerIndexes.begin(); aIndex != aParam->second.aInnerIndexes.end(); ++aIndex ) { if ( ( m_aParametersVisited.size() > (size_t)*aIndex ) && m_aParametersVisited[ *aIndex ] ) { // exclude this index *aIndex = -1; ++nAlreadyVisited; } } if ( nAlreadyVisited == aParam->second.aInnerIndexes.size() ) continue; // need a wrapper for this .... the "inner parameters" as supplied by a result set don't have a "Value" // property, but the parameter listeners expect such a property. So we need an object "aggregating" // xParam and supplying an additional property ("Value") // (it's no real aggregation of course ...) m_pOuterParameters->push_back( new param::ParameterWrapper( aParam->second.xComposerColumn, m_xInnerParamUpdate, aParam->second.aInnerIndexes ) ); } #if OSL_DEBUG_LEVEL > 0 OSL_ENSURE( ( nSmallestIndexLinkedByColumnName == -1 ) || ( nLargestIndexNotLinkedByColumnName == -1 ) || ( nSmallestIndexLinkedByColumnName > nLargestIndexNotLinkedByColumnName ), "ParameterManager::createOuterParameters: inconsistency!" ); // for the master-detail links, where the detail field denoted a column name, we created an additional ("artificial") // filter, and *appended* it to all other (potentially) existing filters of the row set. This means that the indexes // for the parameters resulting from the artificial filter should be larger than any other parameter index, and this // is what the assertion checks. // If the assertion fails, then we would need another handling for the "parameters visited" flags, since they're based // on parameter indexes *without* the artificial filter (because this filter is not visible from the outside). #endif } void ParameterManager::updateParameterInfo( FilterManager& _rFilterManager ) { OSL_PRECOND( isAlive(), "ParameterManager::updateParameterInfo: not initialized, or already disposed!" ); if ( !isAlive() ) return; clearAllParameterInformation(); cacheConnectionInfo(); // check whether the is based on a statement/query which requires parameters Reference< XPropertySet > xProp = m_xComponent; OSL_ENSURE(xProp.is(),"Some already released my component!"); if ( xProp.is() ) { if ( !initializeComposerByComponent( xProp ) ) { // okay, nothing to do m_bUpToDate = true; return; } // if ( !initializeComposerByComponent( m_xComponent ) ) } SAL_WARN_IF( !m_xInnerParamColumns.is(), "connectivity.commontools", "ParameterManager::updateParameterInfo: initializeComposerByComponent did nonsense (1)!" ); // collect all parameters which are defined by the "inner parameters" collectInnerParameters( false ); // analyze the master-detail relationships bool bColumnsInLinkDetails = false; analyzeFieldLinks( _rFilterManager, bColumnsInLinkDetails ); if ( bColumnsInLinkDetails ) { // okay, in this case, analyzeFieldLinks modified the "real" filter at the RowSet, to contain // an additional restriction (which we created ourself) // So we need to update all information about our inner parameter columns Reference< XPropertySet > xDirectRowSetProps; m_xAggregatedRowSet->queryAggregation( cppu::UnoType::get() ) >>= xDirectRowSetProps; OSL_VERIFY( initializeComposerByComponent( xDirectRowSetProps ) ); collectInnerParameters( true ); } if ( !m_nInnerCount ) { // no parameters at all m_bUpToDate = true; return; } // for what now remains as outer parameters, create the wrappers for the single // parameter columns createOuterParameters(); m_bUpToDate = true; } void ParameterManager::fillLinkedParameters( const Reference< XNameAccess >& _rxParentColumns ) { OSL_PRECOND( isAlive(), "ParameterManager::fillLinkedParameters: not initialized, or already disposed!" ); if ( !isAlive() ) return; OSL_PRECOND( m_xInnerParamColumns.is(), "ParameterManager::fillLinkedParameters: no inner parameters found!" ); OSL_ENSURE ( _rxParentColumns.is(), "ParameterManager::fillLinkedParameters: invalid parent columns!" ); try { // the master and detail field( name)s of the auto pMasterFields = m_aMasterFields.begin(); auto pDetailFields = m_aDetailFields.begin(); sal_Int32 nMasterLen = m_aMasterFields.size(); // loop through all master fields. For each of them, get the respective column from the // parent , and forward its current value as parameter value to the (inner) row set for ( sal_Int32 i = 0; i < nMasterLen; ++i, ++pMasterFields, ++pDetailFields ) { // does the name denote a valid column in the parent? if ( !_rxParentColumns->hasByName( *pMasterFields ) ) { SAL_WARN( "connectivity.commontools", "ParameterManager::fillLinkedParameters: invalid master names should have been stripped long before!" ); continue; } // do we, for this name, know where to place the values? ParameterInformation::const_iterator aParamInfo = m_aParameterInformation.find( *pDetailFields ); if ( ( aParamInfo == m_aParameterInformation.end() ) || ( aParamInfo->second.aInnerIndexes.empty() ) ) { SAL_WARN( "connectivity.commontools", "ParameterManager::fillLinkedParameters: nothing known about this detail field!" ); continue; } // the concrete master field Reference< XPropertySet > xMasterField(_rxParentColumns->getByName( *pMasterFields ),UNO_QUERY); // the positions where we have to fill in values for the current parameter name for ( ::std::vector< sal_Int32 >::const_iterator aPosition = aParamInfo->second.aInnerIndexes.begin(); aPosition != aParamInfo->second.aInnerIndexes.end(); ++aPosition ) { // the concrete detail field Reference< XPropertySet > xDetailField(m_xInnerParamColumns->getByIndex( *aPosition ),UNO_QUERY); OSL_ENSURE( xDetailField.is(), "ParameterManager::fillLinkedParameters: invalid detail field!" ); if ( !xDetailField.is() ) continue; // type and scale of the parameter field sal_Int32 nParamType = DataType::VARCHAR; OSL_VERIFY( xDetailField->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_TYPE) ) >>= nParamType ); sal_Int32 nScale = 0; if ( xDetailField->getPropertySetInfo()->hasPropertyByName( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_SCALE) ) ) OSL_VERIFY( xDetailField->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_SCALE) ) >>= nScale ); // transfer the param value try { m_xInnerParamUpdate->setObjectWithInfo( *aPosition + 1, // parameters are based at 1 xMasterField->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_VALUE) ), nParamType, nScale ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); SAL_WARN( "connectivity.commontools", "ParameterManager::fillLinkedParameters: master-detail parameter number " << sal_Int32( *aPosition + 1 ) << " could not be filled!" ); } } } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } bool ParameterManager::completeParameters( const Reference< XInteractionHandler >& _rxCompletionHandler, const Reference< XConnection >& _rxConnection ) { OSL_PRECOND( isAlive(), "ParameterManager::completeParameters: not initialized, or already disposed!" ); OSL_ENSURE ( _rxCompletionHandler.is(), "ParameterManager::completeParameters: invalid interaction handler!" ); // two continuations (Ok and Cancel) OInteractionAbort* pAbort = new OInteractionAbort; OParameterContinuation* pParams = new OParameterContinuation; // the request ParametersRequest aRequest; aRequest.Parameters = m_pOuterParameters.get(); aRequest.Connection = _rxConnection; OInteractionRequest* pRequest = new OInteractionRequest( makeAny( aRequest ) ); Reference< XInteractionRequest > xRequest( pRequest ); // some knittings pRequest->addContinuation( pAbort ); pRequest->addContinuation( pParams ); // execute the request try { _rxCompletionHandler->handle( xRequest ); } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::completeParameters: caught an exception while calling the handler!" ); } if ( !pParams->wasSelected() ) // canceled by the user (i.e. (s)he canceled the dialog) return false; try { // transfer the values from the continuation object to the parameter columns Sequence< PropertyValue > aFinalValues = pParams->getValues(); const PropertyValue* pFinalValues = aFinalValues.getConstArray(); for ( sal_Int32 i = 0; i < aFinalValues.getLength(); ++i, ++pFinalValues ) { Reference< XPropertySet > xParamColumn(aRequest.Parameters->getByIndex( i ),UNO_QUERY); if ( xParamColumn.is() ) { #ifdef DBG_UTIL OUString sName; xParamColumn->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME) ) >>= sName; OSL_ENSURE( sName == pFinalValues->Name, "ParameterManager::completeParameters: inconsistent parameter names!" ); #endif xParamColumn->setPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_VALUE), pFinalValues->Value ); // the property sets are wrapper classes, translating the Value property into a call to // the appropriate XParameters interface } } } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::completeParameters: caught an exception while propagating the values!" ); } return true; } bool ParameterManager::consultParameterListeners( ::osl::ResettableMutexGuard& _rClearForNotifies ) { bool bCanceled = false; sal_Int32 nParamsLeft = m_pOuterParameters->getParameters().size(); // TODO: shouldn't we subtract all the parameters which were already visited? if ( nParamsLeft ) { ::comphelper::OInterfaceIteratorHelper2 aIter( m_aParameterListeners ); Reference< XPropertySet > xProp = m_xComponent; OSL_ENSURE(xProp.is(),"Some already released my component!"); DatabaseParameterEvent aEvent( xProp.get(), m_pOuterParameters.get() ); _rClearForNotifies.clear(); while ( aIter.hasMoreElements() && !bCanceled ) bCanceled = !static_cast< XDatabaseParameterListener* >( aIter.next() )->approveParameter( aEvent ); _rClearForNotifies.reset(); } return !bCanceled; } bool ParameterManager::fillParameterValues( const Reference< XInteractionHandler >& _rxCompletionHandler, ::osl::ResettableMutexGuard& _rClearForNotifies ) { OSL_PRECOND( isAlive(), "ParameterManager::fillParameterValues: not initialized, or already disposed!" ); if ( !isAlive() ) return true; if ( m_nInnerCount == 0 ) // no parameters at all return true; // fill the parameters from the master-detail relationship Reference< XNameAccess > xParentColumns; if ( getParentColumns( xParentColumns, false ) && xParentColumns->hasElements() && m_aMasterFields.size() ) fillLinkedParameters( xParentColumns ); // let the user (via the interaction handler) fill all remaining parameters Reference< XConnection > xConnection; getConnection( xConnection ); if ( _rxCompletionHandler.is() ) return completeParameters( _rxCompletionHandler, xConnection ); return consultParameterListeners( _rClearForNotifies ); } bool ParameterManager::getConnection( Reference< XConnection >& /* [out] */ _rxConnection ) { OSL_PRECOND( isAlive(), "ParameterManager::getConnection: not initialized, or already disposed!" ); if ( !isAlive() ) return false; _rxConnection.clear(); try { Reference< XPropertySet > xProp = m_xComponent; OSL_ENSURE(xProp.is(),"Some already released my component!"); if ( xProp.is() ) xProp->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ACTIVE_CONNECTION) ) >>= _rxConnection; } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::getConnection: could not retrieve the connection of the !" ); } return _rxConnection.is(); } void ParameterManager::cacheConnectionInfo() { try { Reference< XConnection > xConnection; getConnection( xConnection ); Reference< XDatabaseMetaData > xMeta; if ( xConnection.is() ) xMeta = xConnection->getMetaData(); if ( xMeta.is() ) { m_xConnectionMetadata = xMeta; m_sIdentifierQuoteString = xMeta->getIdentifierQuoteString(); m_sSpecialCharacters = xMeta->getExtraNameCharacters(); } } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::cacheConnectionInfo: caught an exception!" ); } } bool ParameterManager::getColumns( Reference< XNameAccess >& /* [out] */ _rxColumns, bool _bFromComposer ) { _rxColumns.clear(); Reference< XColumnsSupplier > xColumnSupp; if ( _bFromComposer ) xColumnSupp.set(m_xComposer, css::uno::UNO_QUERY); else xColumnSupp.set( m_xComponent.get(),UNO_QUERY); if ( xColumnSupp.is() ) _rxColumns = xColumnSupp->getColumns(); OSL_ENSURE( _rxColumns.is(), "ParameterManager::getColumns: could not retrieve the columns for the detail !" ); return _rxColumns.is(); } bool ParameterManager::getParentColumns( Reference< XNameAccess >& /* [out] */ _out_rxParentColumns, bool _bFromComposer ) { OSL_PRECOND( isAlive(), "ParameterManager::getParentColumns: not initialized, or already disposed!" ); _out_rxParentColumns.clear(); try { // get the parent of the component we're working for Reference< XChild > xAsChild( m_xComponent.get(), UNO_QUERY_THROW ); Reference< XPropertySet > xParent( xAsChild->getParent(), UNO_QUERY ); if ( !xParent.is() ) return false; // the columns supplier: either from a composer, or directly from the Reference< XColumnsSupplier > xParentColSupp; if ( _bFromComposer ) { // re-create the parent composer all the time. Else, we'd have to bother with // being a listener at its properties, its loaded state, and event the parent-relationship. m_xParentComposer.reset( getCurrentSettingsComposer( xParent, m_xContext ), SharedQueryComposer::TakeOwnership ); xParentColSupp.set(m_xParentComposer, css::uno::UNO_QUERY); } else xParentColSupp.set(xParent, css::uno::UNO_QUERY); // get the columns of the parent if ( xParentColSupp.is() ) _out_rxParentColumns = xParentColSupp->getColumns(); } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::getParentColumns: caught an exception!" ); } return _out_rxParentColumns.is(); } void ParameterManager::addParameterListener( const Reference< XDatabaseParameterListener >& _rxListener ) { if ( _rxListener.is() ) m_aParameterListeners.addInterface( _rxListener ); } void ParameterManager::removeParameterListener( const Reference< XDatabaseParameterListener >& _rxListener ) { m_aParameterListeners.removeInterface( _rxListener ); } void ParameterManager::resetParameterValues( ) { OSL_PRECOND( isAlive(), "ParameterManager::resetParameterValues: not initialized, or already disposed!" ); if ( !isAlive() ) return; if ( !m_nInnerCount ) // no parameters at all return; try { Reference< XNameAccess > xColumns; if ( !getColumns( xColumns, false ) ) // already asserted in getColumns return; Reference< XNameAccess > xParentColumns; if ( !getParentColumns( xParentColumns, false ) ) return; // loop through all links pairs auto pMasterFields = m_aMasterFields.begin(); auto pDetailFields = m_aDetailFields.begin(); Reference< XPropertySet > xMasterField; Reference< XPropertySet > xDetailField; // now really .... auto pDetailFieldsEnd = m_aDetailFields.end(); for ( ; pDetailFields != pDetailFieldsEnd; ++pDetailFields, ++pMasterFields ) { if ( !xParentColumns->hasByName( *pMasterFields ) ) { // if this name is unknown in the parent columns, then we don't have a source // for copying the value to the detail columns SAL_WARN( "connectivity.commontools", "ParameterManager::resetParameterValues: this should have been stripped long before!" ); continue; } // for all inner parameters which are bound to the name as specified by the // slave element of the link, propagate the value from the master column to this // parameter column ParameterInformation::const_iterator aParamInfo = m_aParameterInformation.find( *pDetailFields ); if ( ( aParamInfo == m_aParameterInformation.end() ) || ( aParamInfo->second.aInnerIndexes.empty() ) ) { SAL_WARN( "connectivity.commontools", "ParameterManager::resetParameterValues: nothing known about this detail field!" ); continue; } xParentColumns->getByName( *pMasterFields ) >>= xMasterField; if ( !xMasterField.is() ) continue; for ( ::std::vector< sal_Int32 >::const_iterator aPosition = aParamInfo->second.aInnerIndexes.begin(); aPosition != aParamInfo->second.aInnerIndexes.end(); ++aPosition ) { Reference< XPropertySet > xInnerParameter; m_xInnerParamColumns->getByIndex( *aPosition ) >>= xInnerParameter; if ( !xInnerParameter.is() ) continue; OUString sParamColumnRealName; xInnerParameter->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_REALNAME) ) >>= sParamColumnRealName; if ( xColumns->hasByName( sParamColumnRealName ) ) { // our own columns have a column which's name equals the real name of the param column // -> transfer the value property xColumns->getByName( sParamColumnRealName ) >>= xDetailField; if ( xDetailField.is() ) xDetailField->setPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_VALUE), xMasterField->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_VALUE) ) ); } } } } catch( const Exception& ) { SAL_WARN( "connectivity.commontools", "ParameterManager::resetParameterValues: caught an exception!" ); } } void ParameterManager::externalParameterVisited( sal_Int32 _nIndex ) { if ( m_aParametersVisited.size() < (size_t)_nIndex ) { m_aParametersVisited.reserve( _nIndex ); for ( sal_Int32 i = m_aParametersVisited.size(); i < _nIndex; ++i ) m_aParametersVisited.push_back( false ); } m_aParametersVisited[ _nIndex - 1 ] = true; } #define VISIT_PARAMETER( method ) \ ::osl::MutexGuard aGuard( m_rMutex ); \ OSL_ENSURE( m_xInnerParamUpdate.is(), "ParameterManager::XParameters::setXXX: no XParameters access to the RowSet!" ); \ if ( !m_xInnerParamUpdate.is() ) \ return; \ m_xInnerParamUpdate->method; \ externalParameterVisited( _nIndex ) \ void ParameterManager::setNull( sal_Int32 _nIndex, sal_Int32 sqlType ) { VISIT_PARAMETER( setNull( _nIndex, sqlType ) ); } void ParameterManager::setObjectNull( sal_Int32 _nIndex, sal_Int32 sqlType, const OUString& typeName ) { VISIT_PARAMETER( setObjectNull( _nIndex, sqlType, typeName ) ); } void ParameterManager::setBoolean( sal_Int32 _nIndex, bool x ) { VISIT_PARAMETER( setBoolean( _nIndex, x ) ); } void ParameterManager::setByte( sal_Int32 _nIndex, sal_Int8 x ) { VISIT_PARAMETER( setByte( _nIndex, x ) ); } void ParameterManager::setShort( sal_Int32 _nIndex, sal_Int16 x ) { VISIT_PARAMETER( setShort( _nIndex, x ) ); } void ParameterManager::setInt( sal_Int32 _nIndex, sal_Int32 x ) { VISIT_PARAMETER( setInt( _nIndex, x ) ); } void ParameterManager::setLong( sal_Int32 _nIndex, sal_Int64 x ) { VISIT_PARAMETER( setLong( _nIndex, x ) ); } void ParameterManager::setFloat( sal_Int32 _nIndex, float x ) { VISIT_PARAMETER( setFloat( _nIndex, x ) ); } void ParameterManager::setDouble( sal_Int32 _nIndex, double x ) { VISIT_PARAMETER( setDouble( _nIndex, x ) ); } void ParameterManager::setString( sal_Int32 _nIndex, const OUString& x ) { VISIT_PARAMETER( setString( _nIndex, x ) ); } void ParameterManager::setBytes( sal_Int32 _nIndex, const css::uno::Sequence< sal_Int8 >& x ) { VISIT_PARAMETER( setBytes( _nIndex, x ) ); } void ParameterManager::setDate( sal_Int32 _nIndex, const css::util::Date& x ) { VISIT_PARAMETER( setDate( _nIndex, x ) ); } void ParameterManager::setTime( sal_Int32 _nIndex, const css::util::Time& x ) { VISIT_PARAMETER( setTime( _nIndex, x ) ); } void ParameterManager::setTimestamp( sal_Int32 _nIndex, const css::util::DateTime& x ) { VISIT_PARAMETER( setTimestamp( _nIndex, x ) ); } void ParameterManager::setBinaryStream( sal_Int32 _nIndex, const css::uno::Reference< css::io::XInputStream>& x, sal_Int32 length ) { VISIT_PARAMETER( setBinaryStream( _nIndex, x, length ) ); } void ParameterManager::setCharacterStream( sal_Int32 _nIndex, const css::uno::Reference< css::io::XInputStream>& x, sal_Int32 length ) { VISIT_PARAMETER( setCharacterStream( _nIndex, x, length ) ); } void ParameterManager::setObject( sal_Int32 _nIndex, const css::uno::Any& x ) { VISIT_PARAMETER( setObject( _nIndex, x ) ); } void ParameterManager::setObjectWithInfo( sal_Int32 _nIndex, const css::uno::Any& x, sal_Int32 targetSqlType, sal_Int32 scale ) { VISIT_PARAMETER( setObjectWithInfo( _nIndex, x, targetSqlType, scale ) ); } void ParameterManager::setRef( sal_Int32 _nIndex, const css::uno::Reference< css::sdbc::XRef>& x ) { VISIT_PARAMETER( setRef( _nIndex, x ) ); } void ParameterManager::setBlob( sal_Int32 _nIndex, const css::uno::Reference< css::sdbc::XBlob>& x ) { VISIT_PARAMETER( setBlob( _nIndex, x ) ); } void ParameterManager::setClob( sal_Int32 _nIndex, const css::uno::Reference< css::sdbc::XClob>& x ) { VISIT_PARAMETER( setClob( _nIndex, x ) ); } void ParameterManager::setArray( sal_Int32 _nIndex, const css::uno::Reference< css::sdbc::XArray>& x ) { VISIT_PARAMETER( setArray( _nIndex, x ) ); } void ParameterManager::clearParameters( ) { if ( m_xInnerParamUpdate.is() ) m_xInnerParamUpdate->clearParameters( ); } void SAL_CALL OParameterContinuation::setParameters( const Sequence< PropertyValue >& _rValues ) throw( RuntimeException, std::exception ) { m_aValues = _rValues; } } // namespace frm /* vim:set shiftwidth=4 softtabstop=4 expandtab: */