/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::comphelper; using namespace connectivity; using namespace connectivity::file; using namespace ::cppu; using namespace dbtools; using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::beans; using namespace com::sun::star::sdbc; using namespace com::sun::star::sdbcx; using namespace com::sun::star::container; namespace { void lcl_throwError(TranslateId pErrorId, const css::uno::Reference< css::uno::XInterface>& _xContext) { ::connectivity::SharedResources aResources; const OUString sMessage = aResources.getResourceString(pErrorId); ::dbtools::throwGenericSQLException(sMessage ,_xContext); } } IMPLEMENT_SERVICE_INFO(OResultSet,"com.sun.star.sdbcx.drivers.file.ResultSet","com.sun.star.sdbc.ResultSet"); OResultSet::OResultSet(OStatement_Base* pStmt,OSQLParseTreeIterator& _aSQLIterator) : OResultSet_BASE(m_aMutex) ,::comphelper::OPropertyContainer(OResultSet_BASE::rBHelper) ,m_aSkipDeletedSet(this) ,m_pParseTree(pStmt->getParseTree()) ,m_pSQLAnalyzer(nullptr) ,m_aSQLIterator(_aSQLIterator) ,m_nFetchSize(0) ,m_nResultSetType(ResultSetType::SCROLL_INSENSITIVE) ,m_nFetchDirection(FetchDirection::FORWARD) ,m_nResultSetConcurrency(ResultSetConcurrency::UPDATABLE) ,m_xStatement(*pStmt) ,m_nRowPos(-1) ,m_nFilePos(0) ,m_nLastVisitedPos(-1) ,m_nRowCountResult(-1) ,m_nColumnCount(0) ,m_bWasNull(false) ,m_bInserted(false) ,m_bRowUpdated(false) ,m_bRowInserted(false) ,m_bRowDeleted(false) ,m_bShowDeleted(pStmt->getOwnConnection()->showDeleted()) ,m_bIsCount(false) { osl_atomic_increment( &m_refCount ); m_bIsCount = (m_pParseTree && m_pParseTree->count() > 2 && SQL_ISRULE(m_pParseTree->getChild(2),scalar_exp_commalist) && SQL_ISRULE(m_pParseTree->getChild(2)->getChild(0),derived_column) && SQL_ISRULE(m_pParseTree->getChild(2)->getChild(0)->getChild(0),general_set_fct) && m_pParseTree->getChild(2)->getChild(0)->getChild(0)->count() == 4 ); m_nResultSetConcurrency = isCount() ? ResultSetConcurrency::READ_ONLY : ResultSetConcurrency::UPDATABLE; construct(); m_aSkipDeletedSet.SetDeletedVisible(m_bShowDeleted); osl_atomic_decrement( &m_refCount ); } OResultSet::~OResultSet() { osl_atomic_increment( &m_refCount ); disposing(); } void OResultSet::construct() { registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHSIZE), PROPERTY_ID_FETCHSIZE, 0,&m_nFetchSize, ::cppu::UnoType::get()); registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETTYPE), PROPERTY_ID_RESULTSETTYPE, PropertyAttribute::READONLY,&m_nResultSetType, ::cppu::UnoType::get()); registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHDIRECTION), PROPERTY_ID_FETCHDIRECTION, 0,&m_nFetchDirection, ::cppu::UnoType::get()); registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETCONCURRENCY), PROPERTY_ID_RESULTSETCONCURRENCY,PropertyAttribute::READONLY,&m_nResultSetConcurrency, ::cppu::UnoType::get()); } void OResultSet::disposing() { OPropertySetHelper::disposing(); ::osl::MutexGuard aGuard(m_aMutex); m_xStatement.clear(); m_xMetaData.clear(); m_pParseTree = nullptr; m_xColNames.clear(); m_xColumns = nullptr; m_xColsIdx.clear(); if ( m_pTable.is() ) m_pTable->removeEventListener(this); m_pTable.clear(); m_pFileSet = nullptr; m_pSortIndex.reset(); if(m_aInsertRow.is()) m_aInsertRow->clear(); m_aSkipDeletedSet.clear(); } Any SAL_CALL OResultSet::queryInterface( const Type & rType ) { Any aRet = OPropertySetHelper::queryInterface(rType); return aRet.hasValue() ? aRet : OResultSet_BASE::queryInterface(rType); } Sequence< Type > SAL_CALL OResultSet::getTypes( ) { ::osl::MutexGuard aGuard( m_aMutex ); OTypeCollection aTypes( cppu::UnoType::get(), cppu::UnoType::get(), cppu::UnoType::get()); return ::comphelper::concatSequences(aTypes.getTypes(),OResultSet_BASE::getTypes()); } sal_Int32 SAL_CALL OResultSet::findColumn( const OUString& columnName ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); Reference< XResultSetMetaData > xMeta = getMetaData(); sal_Int32 nLen = xMeta->getColumnCount(); sal_Int32 i = 1; for(;i<=nLen;++i) { if(xMeta->isCaseSensitive(i) ? columnName == xMeta->getColumnName(i) : columnName.equalsIgnoreAsciiCase(xMeta->getColumnName(i))) return i; } ::dbtools::throwInvalidColumnException( columnName, *this ); assert(false); return 0; // Never reached } const ORowSetValue& OResultSet::getValue(sal_Int32 columnIndex) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); checkIndex(columnIndex ); m_bWasNull = (*m_aSelectRow)[columnIndex]->getValue().isNull(); return *(*m_aSelectRow)[columnIndex]; } void OResultSet::checkIndex(sal_Int32 columnIndex ) { if ( columnIndex <= 0 || columnIndex >= m_nColumnCount ) ::dbtools::throwInvalidIndexException(*this); } Reference< css::io::XInputStream > SAL_CALL OResultSet::getBinaryStream( sal_Int32 /*columnIndex*/ ) { return nullptr; } Reference< css::io::XInputStream > SAL_CALL OResultSet::getCharacterStream( sal_Int32 /*columnIndex*/ ) { return nullptr; } sal_Bool SAL_CALL OResultSet::getBoolean( sal_Int32 columnIndex ) { return getValue(columnIndex).getBool(); } sal_Int8 SAL_CALL OResultSet::getByte( sal_Int32 columnIndex ) { return getValue(columnIndex).getInt8(); } Sequence< sal_Int8 > SAL_CALL OResultSet::getBytes( sal_Int32 columnIndex ) { return getValue(columnIndex).getSequence(); } css::util::Date SAL_CALL OResultSet::getDate( sal_Int32 columnIndex ) { return getValue(columnIndex).getDate(); } double SAL_CALL OResultSet::getDouble( sal_Int32 columnIndex ) { return getValue(columnIndex).getDouble(); } float SAL_CALL OResultSet::getFloat( sal_Int32 columnIndex ) { return getValue(columnIndex).getFloat(); } sal_Int32 SAL_CALL OResultSet::getInt( sal_Int32 columnIndex ) { return getValue(columnIndex).getInt32(); } sal_Int32 SAL_CALL OResultSet::getRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); OSL_ENSURE((m_bShowDeleted || !m_aRow->isDeleted()),"getRow called for deleted row"); return m_aSkipDeletedSet.getMappedPosition((*m_aRow)[0]->getValue().getInt32()); } sal_Int64 SAL_CALL OResultSet::getLong( sal_Int32 columnIndex ) { return getValue(columnIndex).getLong(); } Reference< XResultSetMetaData > SAL_CALL OResultSet::getMetaData( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_xMetaData.is()) m_xMetaData = new OResultSetMetaData(m_xColumns,m_aSQLIterator.getTables().begin()->first,m_pTable.get()); return m_xMetaData; } Reference< XArray > SAL_CALL OResultSet::getArray( sal_Int32 /*columnIndex*/ ) { return nullptr; } Reference< XClob > SAL_CALL OResultSet::getClob( sal_Int32 /*columnIndex*/ ) { return nullptr; } Reference< XBlob > SAL_CALL OResultSet::getBlob( sal_Int32 /*columnIndex*/ ) { return nullptr; } Reference< XRef > SAL_CALL OResultSet::getRef( sal_Int32 /*columnIndex*/ ) { return nullptr; } Any SAL_CALL OResultSet::getObject( sal_Int32 columnIndex, const Reference< css::container::XNameAccess >& /*typeMap*/ ) { return getValue(columnIndex).makeAny(); } sal_Int16 SAL_CALL OResultSet::getShort( sal_Int32 columnIndex ) { return getValue(columnIndex).getInt16(); } OUString SAL_CALL OResultSet::getString( sal_Int32 columnIndex ) { return getValue(columnIndex).getString(); } css::util::Time SAL_CALL OResultSet::getTime( sal_Int32 columnIndex ) { return getValue(columnIndex).getTime(); } css::util::DateTime SAL_CALL OResultSet::getTimestamp( sal_Int32 columnIndex ) { return getValue(columnIndex).getDateTime(); } sal_Bool SAL_CALL OResultSet::isAfterLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == sal_Int32(m_pFileSet->size()); } sal_Bool SAL_CALL OResultSet::isFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == 0; } sal_Bool SAL_CALL OResultSet::isLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == sal_Int32(m_pFileSet->size() - 1); } void SAL_CALL OResultSet::beforeFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(first()) previous(); } void SAL_CALL OResultSet::afterLast( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(last()) next(); } void SAL_CALL OResultSet::close( ) { dispose(); } sal_Bool SAL_CALL OResultSet::first( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::FIRST,1,true); } sal_Bool SAL_CALL OResultSet::last( ) { // here I know definitely that I stand on the last record ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::LAST,1,true); } sal_Bool SAL_CALL OResultSet::absolute( sal_Int32 row ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::ABSOLUTE1,row,true); } sal_Bool SAL_CALL OResultSet::relative( sal_Int32 row ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::RELATIVE1,row,true); } sal_Bool SAL_CALL OResultSet::previous( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::PRIOR,0,true); } Reference< XInterface > SAL_CALL OResultSet::getStatement( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_xStatement; } sal_Bool SAL_CALL OResultSet::rowDeleted( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bRowDeleted; } sal_Bool SAL_CALL OResultSet::rowInserted( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bRowInserted; } sal_Bool SAL_CALL OResultSet::rowUpdated( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bRowUpdated; } sal_Bool SAL_CALL OResultSet::isBeforeFirst( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_nRowPos == -1; } sal_Bool SAL_CALL OResultSet::next( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_pTable.is() && m_aSkipDeletedSet.skipDeleted(IResultSetHelper::NEXT,1,true); } sal_Bool SAL_CALL OResultSet::wasNull( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); return m_bWasNull; } void SAL_CALL OResultSet::cancel( ) { } void SAL_CALL OResultSet::clearWarnings( ) { } Any SAL_CALL OResultSet::getWarnings( ) { return Any(); } void SAL_CALL OResultSet::insertRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_bInserted || !m_pTable.is()) throwFunctionSequenceException(*this); // we know that we append new rows at the end // so we have to know where the end is (void)m_aSkipDeletedSet.skipDeleted(IResultSetHelper::LAST,1,false); m_bRowInserted = m_pTable->InsertRow(*m_aInsertRow, m_xColsIdx); if(m_bRowInserted && m_pFileSet.is()) { sal_Int32 nPos = (*m_aInsertRow)[0]->getValue().getInt32(); m_pFileSet->push_back(nPos); *(*m_aInsertRow)[0] = sal_Int32(m_pFileSet->size()); clearInsertRow(); m_aSkipDeletedSet.insertNewPosition((*m_aRow)[0]->getValue().getInt32()); } } void SAL_CALL OResultSet::updateRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_pTable.is() || m_pTable->isReadOnly()) lcl_throwError(STR_TABLE_READONLY,*this); m_bRowUpdated = m_pTable->UpdateRow(*m_aInsertRow, m_aRow,m_xColsIdx); *(*m_aInsertRow)[0] = (*m_aRow)[0]->getValue().getInt32(); clearInsertRow(); } void SAL_CALL OResultSet::deleteRow() { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_pTable.is() || m_pTable->isReadOnly()) lcl_throwError(STR_TABLE_READONLY,*this); if (m_bShowDeleted) lcl_throwError(STR_DELETE_ROW,*this); if(m_aRow->isDeleted()) lcl_throwError(STR_ROW_ALREADY_DELETED,*this); sal_Int32 nPos = (*m_aRow)[0]->getValue().getInt32(); m_bRowDeleted = m_pTable->DeleteRow(*m_xColumns); if(m_bRowDeleted && m_pFileSet.is()) { m_aRow->setDeleted(true); // don't touch the m_pFileSet member here m_aSkipDeletedSet.deletePosition(nPos); } } void SAL_CALL OResultSet::cancelRowUpdates( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); m_bInserted = false; m_bRowUpdated = false; m_bRowInserted = false; m_bRowDeleted = false; if(m_aInsertRow.is()) { OValueRefVector::iterator aIter = m_aInsertRow->begin()+1; for(;aIter != m_aInsertRow->end();++aIter) { (*aIter)->setBound(false); (*aIter)->setNull(); } } } void SAL_CALL OResultSet::moveToInsertRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!m_pTable.is() || m_pTable->isReadOnly()) lcl_throwError(STR_TABLE_READONLY,*this); m_bInserted = true; OValueRefVector::iterator aIter = m_aInsertRow->begin()+1; for(;aIter != m_aInsertRow->end();++aIter) { (*aIter)->setBound(false); (*aIter)->setNull(); } } void SAL_CALL OResultSet::moveToCurrentRow( ) { } void OResultSet::updateValue(sal_Int32 columnIndex ,const ORowSetValue& x) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); checkIndex(columnIndex ); columnIndex = mapColumn(columnIndex); (*m_aInsertRow)[columnIndex]->setBound(true); *(*m_aInsertRow)[columnIndex] = x; } void SAL_CALL OResultSet::updateNull( sal_Int32 columnIndex ) { ORowSetValue aEmpty; updateValue(columnIndex,aEmpty); } void SAL_CALL OResultSet::updateBoolean( sal_Int32 columnIndex, sal_Bool x ) { updateValue(columnIndex, static_cast(x)); } void SAL_CALL OResultSet::updateByte( sal_Int32 columnIndex, sal_Int8 x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateShort( sal_Int32 columnIndex, sal_Int16 x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateInt( sal_Int32 columnIndex, sal_Int32 x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateLong( sal_Int32 /*columnIndex*/, sal_Int64 /*x*/ ) { ::dbtools::throwFeatureNotImplementedSQLException( "XRowUpdate::updateLong", *this ); } void SAL_CALL OResultSet::updateFloat( sal_Int32 columnIndex, float x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateDouble( sal_Int32 columnIndex, double x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateString( sal_Int32 columnIndex, const OUString& x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateBytes( sal_Int32 columnIndex, const Sequence< sal_Int8 >& x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateDate( sal_Int32 columnIndex, const css::util::Date& x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateTime( sal_Int32 columnIndex, const css::util::Time& x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateTimestamp( sal_Int32 columnIndex, const css::util::DateTime& x ) { updateValue(columnIndex,x); } void SAL_CALL OResultSet::updateBinaryStream( sal_Int32 columnIndex, const Reference< css::io::XInputStream >& x, sal_Int32 length ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); if(!x.is()) ::dbtools::throwFunctionSequenceException(*this); Sequence aSeq; x->readBytes(aSeq,length); updateValue(columnIndex,aSeq); } void SAL_CALL OResultSet::updateCharacterStream( sal_Int32 columnIndex, const Reference< css::io::XInputStream >& x, sal_Int32 length ) { updateBinaryStream(columnIndex,x,length); } void SAL_CALL OResultSet::refreshRow( ) { ::osl::MutexGuard aGuard( m_aMutex ); checkDisposed(OResultSet_BASE::rBHelper.bDisposed); } void SAL_CALL OResultSet::updateObject( sal_Int32 columnIndex, const Any& x ) { if (!::dbtools::implUpdateObject(this, columnIndex, x)) throw SQLException(); } void SAL_CALL OResultSet::updateNumericObject( sal_Int32 columnIndex, const Any& x, sal_Int32 /*scale*/ ) { if (!::dbtools::implUpdateObject(this, columnIndex, x)) throw SQLException(); } IPropertyArrayHelper* OResultSet::createArrayHelper( ) const { Sequence< Property > aProps; describeProperties(aProps); return new ::cppu::OPropertyArrayHelper(aProps); } IPropertyArrayHelper & OResultSet::getInfoHelper() { return *getArrayHelper(); } bool OResultSet::ExecuteRow(IResultSetHelper::Movement eFirstCursorPosition, sal_Int32 nFirstOffset, bool bEvaluate, bool bRetrieveData) { OSL_ENSURE(m_pSQLAnalyzer,"OResultSet::ExecuteRow: Analyzer isn't set!"); // For further Fetch-Operations this information may possibly be changed ... IResultSetHelper::Movement eCursorPosition = eFirstCursorPosition; sal_Int32 nOffset = nFirstOffset; if (!m_pTable.is()) return false; const OSQLColumns & rTableCols = *(m_pTable->getTableColumns()); bool bHasRestriction = m_pSQLAnalyzer->hasRestriction(); again: // protect from reading over the end when somebody is inserting while we are reading // this method works only for dBase at the moment!!! if (eCursorPosition == IResultSetHelper::NEXT && m_nFilePos == m_nLastVisitedPos) { return false; } if (!m_pTable.is() || !m_pTable->seekRow(eCursorPosition, nOffset, m_nFilePos)) { return false; } if (!bEvaluate) // If no evaluation runs, then just fill the results-row { m_pTable->fetchRow(m_aRow,rTableCols, bRetrieveData); } else { m_pTable->fetchRow(m_aEvaluateRow, rTableCols, bRetrieveData || bHasRestriction); if ( ( !m_bShowDeleted && m_aEvaluateRow->isDeleted() ) || ( bHasRestriction && !m_pSQLAnalyzer->evaluateRestriction() ) ) { // Evaluate the next record // delete current row in Keyset if (m_pFileSet.is()) { OSL_ENSURE(eCursorPosition == IResultSetHelper::NEXT, "Wrong CursorPosition!"); eCursorPosition = IResultSetHelper::NEXT; nOffset = 1; } else if (eCursorPosition == IResultSetHelper::FIRST || eCursorPosition == IResultSetHelper::NEXT || eCursorPosition == IResultSetHelper::ABSOLUTE1) { eCursorPosition = IResultSetHelper::NEXT; nOffset = 1; } else if (eCursorPosition == IResultSetHelper::LAST || eCursorPosition == IResultSetHelper::PRIOR) { eCursorPosition = IResultSetHelper::PRIOR; nOffset = 1; } else if (eCursorPosition == IResultSetHelper::RELATIVE1) { eCursorPosition = (nOffset >= 0) ? IResultSetHelper::NEXT : IResultSetHelper::PRIOR; } else { return false; } // Try again ... goto again; } } // Evaluate may only be set, // if the Keyset will be constructed further if ( ( m_aSQLIterator.getStatementType() == OSQLStatementType::Select ) && !isCount() && bEvaluate ) { if (m_pSortIndex) { std::unique_ptr pKeyValue = GetOrderbyKeyValue( m_aSelectRow ); m_pSortIndex->AddKeyValue(std::move(pKeyValue)); } else if (m_pFileSet.is()) { sal_uInt32 nBookmarkValue = std::abs((*m_aEvaluateRow)[0]->getValue().getInt32()); m_pFileSet->push_back(nBookmarkValue); } } else if (m_aSQLIterator.getStatementType() == OSQLStatementType::Update) { bool bOK = true; if (bEvaluate) { // read the actual result-row bOK = m_pTable->fetchRow(m_aEvaluateRow, *(m_pTable->getTableColumns()), true); } if (bOK) { // just give the values to be changed: if(!m_pTable->UpdateRow(*m_aAssignValues,m_aEvaluateRow, m_xColsIdx)) return false; } } else if (m_aSQLIterator.getStatementType() == OSQLStatementType::Delete) { bool bOK = true; if (bEvaluate) { bOK = m_pTable->fetchRow(m_aEvaluateRow, *(m_pTable->getTableColumns()), true); } if (bOK) { if(!m_pTable->DeleteRow(*m_xColumns)) return false; } } return true; } bool OResultSet::Move(IResultSetHelper::Movement eCursorPosition, sal_Int32 nOffset, bool bRetrieveData) { sal_Int32 nTempPos = m_nRowPos; if (m_aSQLIterator.getStatementType() == OSQLStatementType::Select && !isCount()) { if (!m_pFileSet.is()) //no Index available { // Normal FETCH ExecuteRow(eCursorPosition,nOffset,false,bRetrieveData); // now set the bookmark for outside this is the logical pos and not the file pos *(*m_aRow->begin()) = sal_Int32(m_nRowPos + 1); } else { switch(eCursorPosition) { case IResultSetHelper::NEXT: ++m_nRowPos; break; case IResultSetHelper::PRIOR: if (m_nRowPos >= 0) --m_nRowPos; break; case IResultSetHelper::FIRST: m_nRowPos = 0; break; case IResultSetHelper::LAST: m_nRowPos = m_pFileSet->size() - 1; break; case IResultSetHelper::RELATIVE1: m_nRowPos += nOffset; break; case IResultSetHelper::ABSOLUTE1: case IResultSetHelper::BOOKMARK: if ( m_nRowPos == (nOffset -1) ) return true; m_nRowPos = nOffset -1; break; } // OffRange? // The FileCursor is outside of the valid range, if: // a.) m_nRowPos < 1 // b.) a KeySet exists and m_nRowPos > m_pFileSet->size() if (m_nRowPos < 0 || (m_pFileSet->isFrozen() && eCursorPosition != IResultSetHelper::BOOKMARK && o3tl::make_unsigned(m_nRowPos) >= m_pFileSet->size() )) // && m_pFileSet->IsFrozen() { goto Error; } else { if (m_nRowPos < static_cast(m_pFileSet->size())) { // Fetch via Index bool bOK = ExecuteRow(IResultSetHelper::BOOKMARK,(*m_pFileSet)[m_nRowPos],false,bRetrieveData); if (!bOK) goto Error; // now set the bookmark for outside *(*m_aRow->begin()) = sal_Int32(m_nRowPos + 1); if ( (bRetrieveData || m_pSQLAnalyzer->hasRestriction()) && m_pSQLAnalyzer->hasFunctions() ) { m_pSQLAnalyzer->setSelectionEvaluationResult(m_aSelectRow,m_aColMapping); } } else // Index must be further constructed { // set first on the last known row if (m_pFileSet->empty()) { m_pTable->seekRow(IResultSetHelper::ABSOLUTE1, 0, m_nFilePos); } else { m_aFileSetIter = m_pFileSet->end()-1; m_pTable->seekRow(IResultSetHelper::BOOKMARK, *m_aFileSetIter, m_nFilePos); } bool bOK = true; // Determine the number of further Fetches while (bOK && m_nRowPos >= static_cast(m_pFileSet->size())) { bOK = ExecuteRow(IResultSetHelper::NEXT,1,true, false);//bRetrieveData); } if (bOK) { // read the results again m_pTable->fetchRow(m_aRow, *(m_pTable->getTableColumns()), bRetrieveData); // now set the bookmark for outside *(*m_aRow->begin()) = sal_Int32(m_nRowPos + 1); if ( (bRetrieveData || m_pSQLAnalyzer->hasRestriction()) && m_pSQLAnalyzer->hasFunctions() ) { m_pSQLAnalyzer->setSelectionEvaluationResult(m_aSelectRow,m_aColMapping); } } else if (!m_pFileSet->isFrozen()) // no valid record found { m_pFileSet->setFrozen(); goto Error; } } } } } else if (m_aSQLIterator.getStatementType() == OSQLStatementType::Select && isCount()) { // Fetch the COUNT(*) switch (eCursorPosition) { case IResultSetHelper::NEXT: ++m_nRowPos; break; case IResultSetHelper::PRIOR: --m_nRowPos; break; case IResultSetHelper::FIRST: m_nRowPos = 0; break; case IResultSetHelper::LAST: m_nRowPos = 0; break; case IResultSetHelper::RELATIVE1: m_nRowPos += nOffset; break; case IResultSetHelper::ABSOLUTE1: case IResultSetHelper::BOOKMARK: m_nRowPos = nOffset - 1; break; } if ( m_nRowPos < 0 ) goto Error; else if (m_nRowPos == 0) { // put COUNT(*) in result-row // (must be the first and only variable in the row) if (m_aRow->size() >= 2) { *(*m_aRow)[1] = m_nRowCountResult; *(*m_aRow)[0] = sal_Int32(1); (*m_aRow)[1]->setBound(true); (*m_aSelectRow)[1] = (*m_aRow)[1]; } } else { m_nRowPos = 1; return false; } } else // Fetch only possible at SELECT! return false; return true; Error: // is the Cursor positioned before the first row // then the position will be maintained if (nTempPos == -1) m_nRowPos = nTempPos; else { switch(eCursorPosition) { case IResultSetHelper::PRIOR: case IResultSetHelper::FIRST: m_nRowPos = -1; break; case IResultSetHelper::LAST: case IResultSetHelper::NEXT: case IResultSetHelper::ABSOLUTE1: case IResultSetHelper::RELATIVE1: if (nOffset > 0) m_nRowPos = m_pFileSet.is() ? static_cast(m_pFileSet->size()) : -1; else if (nOffset < 0) m_nRowPos = -1; break; case IResultSetHelper::BOOKMARK: m_nRowPos = nTempPos; // last Position } } return false; } void OResultSet::sortRows() { if (!m_pSQLAnalyzer->hasRestriction() && m_aOrderbyColumnNumber.size() == 1) { // is just one field given for sorting // and this field is indexed, then the Index will be used Reference xIndexSup; m_pTable->queryInterface(cppu::UnoType::get()) >>= xIndexSup; Reference xIndexes; if(xIndexSup.is()) { xIndexes.set(xIndexSup->getIndexes(),UNO_QUERY); Reference xColProp; if(m_aOrderbyColumnNumber[0] < xIndexes->getCount()) { xColProp.set(xIndexes->getByIndex(m_aOrderbyColumnNumber[0]),UNO_QUERY); // iterate through the indexes to find the matching column const sal_Int32 nCount = xIndexes->getCount(); for(sal_Int32 i=0; i < nCount;++i) { Reference xIndex(xIndexes->getByIndex(i),UNO_QUERY); Reference xIndexCols = xIndex->getColumns(); if(xIndexCols->hasByName(comphelper::getString(xColProp->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME))))) { m_pFileSet = new OKeySet(); if(fillIndexValues(xIndex)) return; } } } } } OSortIndex::TKeyTypeVector eKeyType(m_aOrderbyColumnNumber.size()); size_t i = 0; for (auto const& elem : m_aOrderbyColumnNumber) { OSL_ENSURE(static_cast(m_aSelectRow->size()) > elem,"Invalid Index"); switch ((*(m_aSelectRow->begin()+elem))->getValue().getTypeKind()) { case DataType::CHAR: case DataType::VARCHAR: case DataType::LONGVARCHAR: eKeyType[i] = OKeyType::String; break; case DataType::OTHER: case DataType::TINYINT: case DataType::SMALLINT: case DataType::INTEGER: case DataType::DECIMAL: case DataType::NUMERIC: case DataType::REAL: case DataType::DOUBLE: case DataType::DATE: case DataType::TIME: case DataType::TIMESTAMP: case DataType::BIT: eKeyType[i] = OKeyType::Double; break; // Other types aren't implemented (so they are always FALSE) default: eKeyType[i] = OKeyType::NONE; SAL_WARN( "connectivity.drivers","OFILECursor::Execute: Data type not implemented"); break; } (*m_aSelectRow)[elem]->setBound(true); ++i; } m_pSortIndex.reset(new OSortIndex(std::move(eKeyType), std::vector(m_aOrderbyAscending))); while ( ExecuteRow( IResultSetHelper::NEXT, 1, false ) ) { (*m_aSelectRow)[0]->setValue( (*m_aRow)[0]->getValue() ); if ( m_pSQLAnalyzer->hasFunctions() ) m_pSQLAnalyzer->setSelectionEvaluationResult( m_aSelectRow, m_aColMapping ); const sal_Int32 nBookmark = (*m_aRow->begin())->getValue().getInt32(); ExecuteRow( IResultSetHelper::BOOKMARK, nBookmark, true, false ); } // create sorted Keyset m_pFileSet = nullptr; m_pFileSet = m_pSortIndex->CreateKeySet(); m_pSortIndex.reset(); // now access to a sorted set is possible via Index } void OResultSet::OpenImpl() { OSL_ENSURE(m_pSQLAnalyzer,"No analyzer set with setSqlAnalyzer!"); if(!m_pTable.is()) { const OSQLTables& rTabs = m_aSQLIterator.getTables(); if (rTabs.empty() || !rTabs.begin()->second.is()) lcl_throwError(STR_QUERY_TOO_COMPLEX,*this); if ( rTabs.size() > 1 || m_aSQLIterator.hasErrors() ) lcl_throwError(STR_QUERY_MORE_TABLES,*this); OSQLTable xTable = rTabs.begin()->second; m_xColumns = m_aSQLIterator.getSelectColumns(); m_xColNames = xTable->getColumns(); m_xColsIdx.set(m_xColNames,UNO_QUERY); doTableSpecials(xTable); Reference xComp(xTable,UNO_QUERY); if(xComp.is()) xComp->addEventListener(this); } m_pTable->refreshHeader(); sal_Int32 nColumnCount = m_xColsIdx->getCount(); initializeRow(m_aRow,nColumnCount); initializeRow(m_aEvaluateRow,nColumnCount); initializeRow(m_aInsertRow,nColumnCount); m_nResultSetConcurrency = (m_pTable->isReadOnly() || isCount()) ? ResultSetConcurrency::READ_ONLY : ResultSetConcurrency::UPDATABLE; // create new Index: m_pFileSet = nullptr; // position at the beginning m_nRowPos = -1; m_nFilePos = 0; m_nRowCountResult = -1; m_pTable->seekRow(IResultSetHelper::ABSOLUTE1, 0, m_nFilePos); m_nLastVisitedPos = m_pTable->getCurrentLastPos(); switch(m_aSQLIterator.getStatementType()) { case OSQLStatementType::Select: { if(isCount()) { if(m_xColumns->size() > 1) lcl_throwError(STR_QUERY_COMPLEX_COUNT,*this); m_nRowCountResult = 0; // for now simply iterate over all rows and // do all actions (or just count) { bool bOK = true; while (bOK) { bOK = ExecuteRow(IResultSetHelper::NEXT); if (bOK) { m_nRowCountResult++; } } // save result of COUNT(*) in m_nRowCountResult. // nRowCount (number of Rows in the result) = 1 for this request! } } else { bool bDistinct = false; assert(m_pParseTree != nullptr); OSQLParseNode *pDistinct = m_pParseTree->getChild(1); assert(m_aOrderbyColumnNumber.size() == m_aOrderbyAscending.size()); if (pDistinct && pDistinct->getTokenID() == SQL_TOKEN_DISTINCT ) { // To eliminate duplicates we need to sort on all columns. // This is not a problem because the SQL spec says that the // order of columns that are not specified in ORDER BY // clause is undefined, so it doesn't hurt to sort on // these; pad the vectors to include them. for (size_t i = 1; // 0: bookmark (see setBoundedColumns) i < m_aColMapping.size(); ++i) { if (std::find(m_aOrderbyColumnNumber.begin(), m_aOrderbyColumnNumber.end(), sal::static_int_cast(i)) == m_aOrderbyColumnNumber.end()) { m_aOrderbyColumnNumber.push_back(i); // ASC or DESC doesn't matter m_aOrderbyAscending.push_back(TAscendingOrder::ASC); } } bDistinct = true; } if (IsSorted()) sortRows(); if (!m_pFileSet.is()) { m_pFileSet = new OKeySet(); if (!m_pSQLAnalyzer->hasRestriction()) // now the Keyset can be filled! // But be careful: It is assumed, that the FilePositions will be stored as sequence 1..n { if ( m_nLastVisitedPos > 0) m_pFileSet->reserve( m_nLastVisitedPos ); for (sal_Int32 i = 0; i < m_nLastVisitedPos; i++) m_pFileSet->push_back(i + 1); } } OSL_ENSURE(m_pFileSet.is(),"No KeySet existing! :-("); if(bDistinct && m_pFileSet.is()) { OValueRow aSearchRow = new OValueVector(m_aRow->size()); OValueRefVector::iterator aRowIter = m_aRow->begin(); OValueVector::iterator aSearchIter = aSearchRow->begin(); for ( ++aRowIter,++aSearchIter; // the first column is the bookmark column aRowIter != m_aRow->end(); ++aRowIter,++aSearchIter) aSearchIter->setBound((*aRowIter)->isBound()); size_t nMaxRow = m_pFileSet->size(); if (nMaxRow) { #if OSL_DEBUG_LEVEL > 1 sal_Int32 nFound=0; #endif sal_Int32 nPos; sal_Int32 nKey; for( size_t j = nMaxRow-1; j > 0; --j) { nPos = (*m_pFileSet)[j]; ExecuteRow(IResultSetHelper::BOOKMARK,nPos,false); m_pSQLAnalyzer->setSelectionEvaluationResult(m_aSelectRow,m_aColMapping); { // cop*y row values OValueRefVector::iterator copyFrom = m_aSelectRow->begin(); OValueVector::iterator copyTo = aSearchRow->begin(); for ( ++copyFrom,++copyTo; // the first column is the bookmark column copyFrom != m_aSelectRow->end(); ++copyFrom,++copyTo) *copyTo = *(*copyFrom); } // compare with next row nKey = (*m_pFileSet)[j-1]; ExecuteRow(IResultSetHelper::BOOKMARK,nKey,false); m_pSQLAnalyzer->setSelectionEvaluationResult(m_aSelectRow,m_aColMapping); auto rowsMismatchIters = std::mismatch(std::next(m_aSelectRow->begin()), m_aSelectRow->end(), std::next(aSearchRow->begin()), // the first column is the bookmark column [](const OValueRefVector::value_type& a, const OValueVector::value_type& b) { return !a->isBound() || (*a == b); }); if(rowsMismatchIters.first == m_aSelectRow->end()) (*m_pFileSet)[j] = 0; // Rows match -- Mark for deletion by setting key to 0 #if OSL_DEBUG_LEVEL > 1 else nFound++; #endif } m_pFileSet->erase(std::remove(m_pFileSet->begin(),m_pFileSet->end(),0) ,m_pFileSet->end()); } } } } break; case OSQLStatementType::Update: case OSQLStatementType::Delete: // during processing count the number of processed Rows m_nRowCountResult = 0; // for now simply iterate over all rows and // run the actions (or simply count): { bool bOK = true; while (bOK) { bOK = ExecuteRow(IResultSetHelper::NEXT); if (bOK) { m_nRowCountResult++; } } // save result of COUNT(*) in nRowCountResult. // nRowCount (number of rows in the result-set) = 1 for this request! } break; case OSQLStatementType::Insert: m_nRowCountResult = 0; OSL_ENSURE(m_aAssignValues.is(),"No assign values set!"); if(!m_pTable->InsertRow(*m_aAssignValues, m_xColsIdx)) { m_nFilePos = 0; return; } m_nRowCountResult = 1; break; default: SAL_WARN( "connectivity.drivers", "OResultSet::OpenImpl: unsupported statement type!" ); break; } // reset FilePos m_nFilePos = 0; } const Sequence< sal_Int8 > & OResultSet::getUnoTunnelId() { static const comphelper::UnoIdInit implId; return implId.getSeq(); } // css::lang::XUnoTunnel sal_Int64 OResultSet::getSomething( const Sequence< sal_Int8 > & rId ) { return comphelper::getSomethingImpl(rId, this); } void OResultSet::setBoundedColumns(const OValueRefRow& _rRow, const OValueRefRow& _rSelectRow, const ::rtl::Reference& _rxColumns, const Reference& _xNames, bool _bSetColumnMapping, const Reference& _xMetaData, std::vector& _rColMapping) { ::comphelper::UStringMixEqual aCase(_xMetaData->supportsMixedCaseQuotedIdentifiers()); Reference xTableColumn; OUString sTableColumnName, sSelectColumnRealName; const OUString sName = OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME); const OUString sRealName = OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_REALNAME); const OUString sType = OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_TYPE); std::map aSelectIters; OValueRefVector::const_iterator aRowIter = _rRow->begin()+1; for (sal_Int32 i=0; // the first column is the bookmark column aRowIter != _rRow->end(); ++i, ++aRowIter ) { (*aRowIter)->setBound(false); try { // get the table column and its name _xNames->getByIndex(i) >>= xTableColumn; OSL_ENSURE(xTableColumn.is(), "OResultSet::setBoundedColumns: invalid table column!"); if (xTableColumn.is()) xTableColumn->getPropertyValue(sName) >>= sTableColumnName; else sTableColumnName.clear(); // look if we have such a select column // TODO: would like to have a O(log n) search here ... for ( OSQLColumns::iterator aIter = _rxColumns->begin(); aIter != _rxColumns->end(); ++aIter ) { if((*aIter)->getPropertySetInfo()->hasPropertyByName(sRealName)) (*aIter)->getPropertyValue(sRealName) >>= sSelectColumnRealName; else (*aIter)->getPropertyValue(sName) >>= sSelectColumnRealName; if ( aCase(sTableColumnName, sSelectColumnRealName) && !(*aRowIter)->isBound() && aSelectIters.end() == aSelectIters.find(aIter) ) { aSelectIters.emplace(aIter,true); if(_bSetColumnMapping) { sal_Int32 nSelectColumnPos = aIter - _rxColumns->begin() + 1; // the getXXX methods are 1-based ... sal_Int32 nTableColumnPos = i + 1; // get first table column is the bookmark column ... _rColMapping[nSelectColumnPos] = nTableColumnPos; (*_rSelectRow)[nSelectColumnPos] = *aRowIter; } (*aRowIter)->setBound(true); sal_Int32 nType = DataType::OTHER; if (xTableColumn.is()) xTableColumn->getPropertyValue(sType) >>= nType; (*aRowIter)->setTypeKind(nType); break; } } } catch (Exception&) { TOOLS_WARN_EXCEPTION( "connectivity.drivers",""); } } // in this case we got more select columns as columns exist in the table if ( !(_bSetColumnMapping && aSelectIters.size() != _rColMapping.size()) ) return; Reference xNameAccess(_xNames,UNO_QUERY); Sequence< OUString > aSelectColumns = xNameAccess->getElementNames(); for ( OSQLColumns::iterator aIter = _rxColumns->begin(); aIter != _rxColumns->end(); ++aIter ) { if ( aSelectIters.end() == aSelectIters.find(aIter) ) { if ( (*aIter)->getPropertySetInfo()->hasPropertyByName(sRealName) ) (*aIter)->getPropertyValue(sRealName) >>= sSelectColumnRealName; else (*aIter)->getPropertyValue(sName) >>= sSelectColumnRealName; if ( xNameAccess->hasByName( sSelectColumnRealName ) ) { aSelectIters.emplace(aIter,true); sal_Int32 nSelectColumnPos = aIter - _rxColumns->begin() + 1; const OUString* pBegin = aSelectColumns.getConstArray(); const OUString* pEnd = pBegin + aSelectColumns.getLength(); for(sal_Int32 i=0;pBegin != pEnd;++pBegin,++i) { if ( aCase(*pBegin, sSelectColumnRealName) ) { // the getXXX methods are 1-based ... sal_Int32 nTableColumnPos = i + 1; // get first table column is the bookmark column ... _rColMapping[nSelectColumnPos] = nTableColumnPos; (*_rSelectRow)[nSelectColumnPos] = (*_rRow)[nTableColumnPos]; break; } } } } } } void SAL_CALL OResultSet::acquire() noexcept { OResultSet_BASE::acquire(); } void SAL_CALL OResultSet::release() noexcept { OResultSet_BASE::release(); } Reference< css::beans::XPropertySetInfo > SAL_CALL OResultSet::getPropertySetInfo( ) { return ::cppu::OPropertySetHelper::createPropertySetInfo(getInfoHelper()); } void OResultSet::doTableSpecials(const OSQLTable& _xTable) { Reference xTunnel(_xTable, UNO_QUERY_THROW); m_pTable = comphelper::getFromUnoTunnel(xTunnel); assert(m_pTable.is()); } void OResultSet::clearInsertRow() { m_aRow->setDeleted(false); // set to false here because this is the new row sal_Int32 nPos = 0; for(ORowSetValueDecoratorRef& rValue : *m_aInsertRow) { if ( rValue->isBound() ) { (*m_aRow)[nPos]->setValue( rValue->getValue() ); } rValue->setBound(nPos == 0); rValue->setModified(false); rValue->setNull(); ++nPos; } } void OResultSet::initializeRow(OValueRefRow& _rRow,sal_Int32 _nColumnCount) { if(!_rRow.is()) { _rRow = new OValueRefVector(_nColumnCount); (*_rRow)[0]->setBound(true); std::for_each(_rRow->begin()+1,_rRow->end(),TSetRefBound(false)); } } bool OResultSet::fillIndexValues(const Reference< XColumnsSupplier> &/*_xIndex*/) { return false; } bool OResultSet::move(IResultSetHelper::Movement _eCursorPosition, sal_Int32 _nOffset, bool _bRetrieveData) { return Move(_eCursorPosition,_nOffset,_bRetrieveData); } sal_Int32 OResultSet::getDriverPos() const { return (*m_aRow)[0]->getValue().getInt32(); } bool OResultSet::isRowDeleted() const { return m_aRow->isDeleted(); } void SAL_CALL OResultSet::disposing( const EventObject& Source ) { Reference xProp = m_pTable; if(m_pTable.is() && Source.Source == xProp) { m_pTable.clear(); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */