/* -*- 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 <sal/config.h>
#include <o3tl/safeint.hxx>
#include <osl/diagnose.h>
#include <file/FStatement.hxx>
#include <file/FConnection.hxx>
#include <sqlbison.hxx>
#include <file/FDriver.hxx>
#include <file/FResultSet.hxx>
#include <sal/log.hxx>
#include <com/sun/star/sdbc/ResultSetConcurrency.hpp>
#include <com/sun/star/sdbc/ResultSetType.hpp>
#include <com/sun/star/sdbc/FetchDirection.hpp>
#include <com/sun/star/lang/DisposedException.hpp>
#include <comphelper/sequence.hxx>
#include <comphelper/servicehelper.hxx>
#include <cppuhelper/typeprovider.hxx>
#include <comphelper/types.hxx>
#include <connectivity/dbexception.hxx>
#include <strings.hrc>
#include <algorithm>
#include <cstddef>
namespace connectivity::file
{
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;
OStatement_Base::OStatement_Base(OConnection* _pConnection )
:OStatement_BASE(m_aMutex)
,::comphelper::OPropertyContainer(OStatement_BASE::rBHelper)
,m_xDBMetaData(_pConnection->getMetaData())
,m_aParser( _pConnection->getDriver()->getComponentContext() )
,m_aSQLIterator( _pConnection, _pConnection->createCatalog()->getTables(), m_aParser )
,m_pConnection(_pConnection)
,m_pParseTree(nullptr)
,m_nMaxFieldSize(0)
,m_nMaxRows(0)
,m_nQueryTimeOut(0)
,m_nFetchSize(0)
,m_nResultSetType(ResultSetType::FORWARD_ONLY)
,m_nFetchDirection(FetchDirection::FORWARD)
,m_nResultSetConcurrency(ResultSetConcurrency::UPDATABLE)
,m_bEscapeProcessing(true)
{
sal_Int32 nAttrib = 0;
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_CURSORNAME), PROPERTY_ID_CURSORNAME, nAttrib,&m_aCursorName, ::cppu::UnoType<OUString>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_MAXFIELDSIZE), PROPERTY_ID_MAXFIELDSIZE, nAttrib,&m_nMaxFieldSize, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_MAXROWS), PROPERTY_ID_MAXROWS, nAttrib,&m_nMaxRows, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_QUERYTIMEOUT), PROPERTY_ID_QUERYTIMEOUT, nAttrib,&m_nQueryTimeOut, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHSIZE), PROPERTY_ID_FETCHSIZE, nAttrib,&m_nFetchSize, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETTYPE), PROPERTY_ID_RESULTSETTYPE, nAttrib,&m_nResultSetType, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FETCHDIRECTION), PROPERTY_ID_FETCHDIRECTION, nAttrib,&m_nFetchDirection, ::cppu::UnoType<sal_Int32>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ESCAPEPROCESSING),PROPERTY_ID_ESCAPEPROCESSING, nAttrib,&m_bEscapeProcessing,cppu::UnoType<bool>::get());
registerProperty(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_RESULTSETCONCURRENCY), PROPERTY_ID_RESULTSETCONCURRENCY, nAttrib,&m_nResultSetConcurrency, ::cppu::UnoType<sal_Int32>::get());
}
OStatement_Base::~OStatement_Base()
{
osl_atomic_increment( &m_refCount );
disposing();
}
void OStatement_Base::disposeResultSet()
{
SAL_INFO( "connectivity.drivers", "file Ocke.Janssen@sun.com OStatement_Base::disposeResultSet" );
// free the cursor if alive
rtl::Reference< OResultSet > xComp(m_xResultSet.get());
assert(xComp.is() || !m_xResultSet.get().is());
if (xComp.is())
xComp->dispose();
m_xResultSet.clear();
}
void OStatement_BASE2::disposing()
{
::osl::MutexGuard aGuard(m_aMutex);
disposeResultSet();
if(m_pSQLAnalyzer)
m_pSQLAnalyzer->dispose();
if(m_aRow.is())
{
m_aRow->clear();
m_aRow = nullptr;
}
m_aSQLIterator.dispose();
m_pTable.clear();
m_pConnection.clear();
if ( m_pParseTree )
{
delete m_pParseTree;
m_pParseTree = nullptr;
}
OStatement_Base::disposing();
}
void SAL_CALL OStatement_Base::acquire() noexcept
{
OStatement_BASE::acquire();
}
void SAL_CALL OStatement_BASE2::release() noexcept
{
OStatement_BASE::release();
}
Any SAL_CALL OStatement_Base::queryInterface( const Type & rType )
{
const Any aRet = OStatement_BASE::queryInterface(rType);
return aRet.hasValue() ? aRet : OPropertySetHelper::queryInterface(rType);
}
Sequence< Type > SAL_CALL OStatement_Base::getTypes( )
{
::cppu::OTypeCollection aTypes( cppu::UnoType<css::beans::XMultiPropertySet>::get(),
cppu::UnoType<css::beans::XFastPropertySet>::get(),
cppu::UnoType<css::beans::XPropertySet>::get());
return ::comphelper::concatSequences(aTypes.getTypes(),OStatement_BASE::getTypes());
}
void SAL_CALL OStatement_Base::cancel( )
{
}
void SAL_CALL OStatement_Base::close()
{
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
}
dispose();
}
void OStatement_Base::closeResultSet()
{
SAL_INFO( "connectivity.drivers", "file Ocke.Janssen@sun.com OStatement_Base::clearMyResultSet " );
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
rtl::Reference< OResultSet > xCloseable(m_xResultSet.get());
assert(xCloseable.is() || !m_xResultSet.get().is());
if (xCloseable.is())
{
try
{
xCloseable->close();
}
catch( const DisposedException& ) { }
}
m_xResultSet.clear();
}
Any SAL_CALL OStatement_Base::getWarnings( )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
return Any(m_aLastWarning);
}
void SAL_CALL OStatement_Base::clearWarnings( )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
m_aLastWarning = SQLWarning();
}
::cppu::IPropertyArrayHelper* OStatement_Base::createArrayHelper( ) const
{
Sequence< Property > aProps;
describeProperties(aProps);
return new ::cppu::OPropertyArrayHelper(aProps);
}
::cppu::IPropertyArrayHelper & OStatement_Base::getInfoHelper()
{
return *getArrayHelper();
}
rtl::Reference<OResultSet> OStatement::createResultSet()
{
return new OResultSet(this,m_aSQLIterator);
}
IMPLEMENT_SERVICE_INFO(OStatement,u"com.sun.star.sdbc.driver.file.Statement"_ustr,u"com.sun.star.sdbc.Statement"_ustr);
void SAL_CALL OStatement::acquire() noexcept
{
OStatement_BASE2::acquire();
}
void SAL_CALL OStatement::release() noexcept
{
OStatement_BASE2::release();
}
sal_Bool SAL_CALL OStatement::execute( const OUString& sql )
{
::osl::MutexGuard aGuard( m_aMutex );
executeQuery(sql);
return m_aSQLIterator.getStatementType() == OSQLStatementType::Select;
}
Reference< XResultSet > SAL_CALL OStatement::executeQuery( const OUString& sql )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
construct(sql);
rtl::Reference<OResultSet> pResult = createResultSet();
initializeResultSet(pResult.get());
m_xResultSet = pResult.get();
pResult->OpenImpl();
return pResult;
}
Reference< XConnection > SAL_CALL OStatement::getConnection( )
{
return m_pConnection;
}
sal_Int32 SAL_CALL OStatement::executeUpdate( const OUString& sql )
{
::osl::MutexGuard aGuard( m_aMutex );
checkDisposed(OStatement_BASE::rBHelper.bDisposed);
construct(sql);
rtl::Reference<OResultSet> pResult = createResultSet();
initializeResultSet(pResult.get());
pResult->OpenImpl();
return pResult->getRowCountResult();
}
void SAL_CALL OStatement_Base::disposing()
{
if(m_aEvaluateRow.is())
{
m_aEvaluateRow->clear();
m_aEvaluateRow = nullptr;
}
OStatement_BASE::disposing();
}
Reference< css::beans::XPropertySetInfo > SAL_CALL OStatement_Base::getPropertySetInfo( )
{
return ::cppu::OPropertySetHelper::createPropertySetInfo(getInfoHelper());
}
Any SAL_CALL OStatement::queryInterface( const Type & rType )
{
Any aRet = OStatement_XStatement::queryInterface( rType);
return aRet.hasValue() ? aRet : OStatement_BASE2::queryInterface( rType);
}
void OStatement_Base::analyzeSQL()
{
OSL_ENSURE(m_pSQLAnalyzer,"OResultSet::analyzeSQL: Analyzer isn't set!");
// start analysing the statement
m_pSQLAnalyzer->setOrigColumns(m_xColNames);
m_pSQLAnalyzer->start(m_pParseTree);
const OSQLParseNode* pOrderbyClause = m_aSQLIterator.getOrderTree();
if(!pOrderbyClause)
return;
OSQLParseNode * pOrderingSpecCommalist = pOrderbyClause->getChild(2);
OSL_ENSURE(SQL_ISRULE(pOrderingSpecCommalist,ordering_spec_commalist),"OResultSet: Error in Parse Tree");
for (size_t m = 0; m < pOrderingSpecCommalist->count(); m++)
{
OSQLParseNode * pOrderingSpec = pOrderingSpecCommalist->getChild(m);
OSL_ENSURE(SQL_ISRULE(pOrderingSpec,ordering_spec),"OResultSet: Error in Parse Tree");
OSL_ENSURE(pOrderingSpec->count() == 2,"OResultSet: Error in Parse Tree");
OSQLParseNode * pColumnRef = pOrderingSpec->getChild(0);
if(!SQL_ISRULE(pColumnRef,column_ref))
{
throw SQLException();
}
OSQLParseNode * pAscendingDescending = pOrderingSpec->getChild(1);
setOrderbyColumn(pColumnRef,pAscendingDescending);
}
}
void OStatement_Base::setOrderbyColumn( OSQLParseNode const * pColumnRef,
OSQLParseNode const * pAscendingDescending)
{
OUString aColumnName;
if (pColumnRef->count() == 1)
aColumnName = pColumnRef->getChild(0)->getTokenValue();
else if (pColumnRef->count() == 3)
{
pColumnRef->getChild(2)->parseNodeToStr( aColumnName, getOwnConnection(), nullptr, false, false );
}
else
{
throw SQLException();
}
Reference<XColumnLocate> xColLocate(m_xColNames,UNO_QUERY);
if(!xColLocate.is())
return;
// Everything tested and we have the name of the Column.
// What number is the Column?
::rtl::Reference<OSQLColumns> aSelectColumns = m_aSQLIterator.getSelectColumns();
::comphelper::UStringMixEqual aCase;
OSQLColumns::const_iterator aFind = ::connectivity::find(aSelectColumns->begin(),aSelectColumns->end(),aColumnName,aCase);
if ( aFind == aSelectColumns->end() )
throw SQLException();
m_aOrderbyColumnNumber.push_back((aFind - aSelectColumns->begin()) + 1);
// Ascending or Descending?
m_aOrderbyAscending.push_back(SQL_ISTOKEN(pAscendingDescending,DESC) ? TAscendingOrder::DESC : TAscendingOrder::ASC);
}
void OStatement_Base::construct(const OUString& sql)
{
OUString aErr;
m_pParseTree = m_aParser.parseTree(aErr,sql).release();
if(!m_pParseTree)
throw SQLException(aErr,*this,OUString(),0,Any());
m_aSQLIterator.setParseTree(m_pParseTree);
m_aSQLIterator.traverseAll();
const OSQLTables& rTabs = m_aSQLIterator.getTables();
// sanity checks
if ( rTabs.empty() )
// no tables -> nothing to operate on -> error
m_pConnection->throwGenericSQLException(STR_QUERY_NO_TABLE,*this);
if ( rTabs.size() > 1 || m_aSQLIterator.hasErrors() )
// more than one table -> can't operate on them -> error
m_pConnection->throwGenericSQLException(STR_QUERY_MORE_TABLES,*this);
if ( (m_aSQLIterator.getStatementType() == OSQLStatementType::Select) && m_aSQLIterator.getSelectColumns()->empty() )
// SELECT statement without columns -> error
m_pConnection->throwGenericSQLException(STR_QUERY_NO_COLUMN,*this);
switch(m_aSQLIterator.getStatementType())
{
case OSQLStatementType::CreateTable:
case OSQLStatementType::OdbcCall:
case OSQLStatementType::Unknown:
m_pConnection->throwGenericSQLException(STR_QUERY_TOO_COMPLEX,*this);
break;
case OSQLStatementType::Select:
if(SQL_ISRULE(m_aSQLIterator.getParseTree(), union_statement))
{
m_pConnection->throwGenericSQLException(STR_QUERY_TOO_COMPLEX, *this);
}
assert(SQL_ISRULE(m_aSQLIterator.getParseTree(), select_statement));
break;
default:
break;
}
// at this moment we support only one table per select statement
m_pTable = dynamic_cast<OFileTable*>(rTabs.begin()->second.get());
OSL_ENSURE(m_pTable.is(),"No table!");
if ( m_pTable.is() )
m_xColNames = m_pTable->getColumns();
Reference<XIndexAccess> xNames(m_xColNames,UNO_QUERY);
// set the binding of the resultrow
m_aRow = new OValueRefVector(xNames->getCount());
(*m_aRow)[0]->setBound(true);
std::for_each(m_aRow->begin()+1,m_aRow->end(),TSetRefBound(false));
// set the binding of the resultrow
m_aEvaluateRow = new OValueRefVector(xNames->getCount());
(*m_aEvaluateRow)[0]->setBound(true);
std::for_each(m_aEvaluateRow->begin()+1,m_aEvaluateRow->end(),TSetRefBound(false));
// set the select row
m_aSelectRow = new OValueRefVector(m_aSQLIterator.getSelectColumns()->size());
std::for_each(m_aSelectRow->begin(),m_aSelectRow->end(),TSetRefBound(true));
// create the column mapping
createColumnMapping();
m_pSQLAnalyzer.reset( new OSQLAnalyzer(m_pConnection.get()) );
analyzeSQL();
}
void OStatement_Base::createColumnMapping()
{
// initialize the column index map (mapping select columns to table columns)
::rtl::Reference<connectivity::OSQLColumns> xColumns = m_aSQLIterator.getSelectColumns();
m_aColMapping.resize(xColumns->size() + 1);
for (std::size_t i=0; i<m_aColMapping.size(); ++i)
m_aColMapping[i] = i;
Reference<XIndexAccess> xNames(m_xColNames,UNO_QUERY);
// now check which columns are bound
OResultSet::setBoundedColumns(m_aRow,m_aSelectRow,xColumns,xNames,true,m_xDBMetaData,m_aColMapping);
}
void OStatement_Base::initializeResultSet(OResultSet* _pResult)
{
GetAssignValues();
_pResult->setSqlAnalyzer(m_pSQLAnalyzer.get());
_pResult->setOrderByColumns(std::vector(m_aOrderbyColumnNumber));
_pResult->setOrderByAscending(std::vector(m_aOrderbyAscending));
_pResult->setBindingRow(m_aRow);
_pResult->setColumnMapping(std::vector(m_aColMapping));
_pResult->setEvaluationRow(m_aEvaluateRow);
_pResult->setAssignValues(m_aAssignValues);
_pResult->setSelectRow(m_aSelectRow);
m_pSQLAnalyzer->bindSelectRow(m_aRow);
m_pSQLAnalyzer->bindEvaluationRow(m_aEvaluateRow); // Set values in the code of the Compiler
}
void OStatement_Base::GetAssignValues()
{
if (m_pParseTree == nullptr)
{
::dbtools::throwFunctionSequenceException(*this);
return;
}
if (SQL_ISRULE(m_pParseTree,select_statement))
// no values have to be set for SELECT
return;
else if (SQL_ISRULE(m_pParseTree,insert_statement))
{
// Create Row for the values to be set (Reference through new)
if(m_aAssignValues.is())
m_aAssignValues->clear();
sal_Int32 nCount = Reference<XIndexAccess>(m_xColNames,UNO_QUERY_THROW)->getCount();
m_aAssignValues = new OAssignValues(nCount);
// unbound all
std::for_each(m_aAssignValues->begin()+1,m_aAssignValues->end(),TSetRefBound(false));
m_aParameterIndexes.resize(nCount+1,SQL_NO_PARAMETER);
// List of Column-Names, that exist in the column_commalist (separated by ;):
std::vector<OUString> aColumnNameList;
OSL_ENSURE(m_pParseTree->count() >= 4,"OResultSet: Error in Parse Tree");
OSQLParseNode * pOptColumnCommalist = m_pParseTree->getChild(3);
OSL_ENSURE(pOptColumnCommalist != nullptr,"OResultSet: Error in Parse Tree");
OSL_ENSURE(SQL_ISRULE(pOptColumnCommalist,opt_column_commalist),"OResultSet: Error in Parse Tree");
if (pOptColumnCommalist->count() == 0)
{
const Sequence< OUString> aNames = m_xColNames->getElementNames();
aColumnNameList.insert(aColumnNameList.end(), aNames.begin(), aNames.end());
}
else
{
OSL_ENSURE(pOptColumnCommalist->count() == 3,"OResultSet: Error in Parse Tree");
OSQLParseNode * pColumnCommalist = pOptColumnCommalist->getChild(1);
OSL_ENSURE(pColumnCommalist != nullptr,"OResultSet: Error in Parse Tree");
OSL_ENSURE(SQL_ISRULE(pColumnCommalist,column_commalist),"OResultSet: Error in Parse Tree");
OSL_ENSURE(pColumnCommalist->count() > 0,"OResultSet: Error in Parse Tree");
// All Columns in the column_commalist ...
for (size_t i = 0; i < pColumnCommalist->count(); i++)
{
OSQLParseNode * pCol = pColumnCommalist->getChild(i);
OSL_ENSURE(pCol != nullptr,"OResultSet: Error in Parse Tree");
aColumnNameList.push_back(pCol->getTokenValue());
}
}
if ( aColumnNameList.empty() )
throwFunctionSequenceException(*this);
// Values ...
OSQLParseNode * pValuesOrQuerySpec = m_pParseTree->getChild(4);
OSL_ENSURE(pValuesOrQuerySpec != nullptr,"OResultSet: pValuesOrQuerySpec must not be NULL!");
OSL_ENSURE(SQL_ISRULE(pValuesOrQuerySpec,values_or_query_spec),"OResultSet: ! SQL_ISRULE(pValuesOrQuerySpec,values_or_query_spec)");
OSL_ENSURE(pValuesOrQuerySpec->count() > 0,"OResultSet: pValuesOrQuerySpec->count() <= 0");
// just "VALUES" is allowed ...
if (! SQL_ISTOKEN(pValuesOrQuerySpec->getChild(0),VALUES))
throwFunctionSequenceException(*this);
OSL_ENSURE(pValuesOrQuerySpec->count() == 4,"OResultSet: pValuesOrQuerySpec->count() != 4");
// List of values
OSQLParseNode * pInsertAtomCommalist = pValuesOrQuerySpec->getChild(2);
OSL_ENSURE(pInsertAtomCommalist != nullptr,"OResultSet: pInsertAtomCommalist must not be NULL!");
OSL_ENSURE(pInsertAtomCommalist->count() > 0,"OResultSet: pInsertAtomCommalist <= 0");
sal_Int32 nIndex=0;
for (size_t i = 0; i < pInsertAtomCommalist->count(); i++)
{
OSQLParseNode * pRow_Value_Const = pInsertAtomCommalist->getChild(i); // row_value_constructor
OSL_ENSURE(pRow_Value_Const != nullptr,"OResultSet: pRow_Value_Const must not be NULL!");
if(SQL_ISRULE(pRow_Value_Const,parameter))
{
ParseAssignValues(aColumnNameList,pRow_Value_Const,nIndex++); // only one Columnname allowed per loop
}
else if(pRow_Value_Const->isToken())
ParseAssignValues(aColumnNameList,pRow_Value_Const,i);
else
{
if(pRow_Value_Const->count() == aColumnNameList.size())
{
for (size_t j = 0; j < pRow_Value_Const->count(); ++j)
ParseAssignValues(aColumnNameList,pRow_Value_Const->getChild(j),nIndex++);
}
else
throwFunctionSequenceException(*this);
}
}
}
else if (SQL_ISRULE(m_pParseTree,update_statement_searched))
{
if(m_aAssignValues.is())
m_aAssignValues->clear();
sal_Int32 nCount = Reference<XIndexAccess>(m_xColNames,UNO_QUERY_THROW)->getCount();
m_aAssignValues = new OAssignValues(nCount);
// unbound all
std::for_each(m_aAssignValues->begin()+1,m_aAssignValues->end(),TSetRefBound(false));
m_aParameterIndexes.resize(nCount+1,SQL_NO_PARAMETER);
OSL_ENSURE(m_pParseTree->count() >= 4,"OResultSet: Error in Parse Tree");
OSQLParseNode * pAssignmentCommalist = m_pParseTree->getChild(3);
assert(pAssignmentCommalist && "OResultSet: pAssignmentCommalist == NULL");
OSL_ENSURE(SQL_ISRULE(pAssignmentCommalist,assignment_commalist),"OResultSet: Error in Parse Tree");
OSL_ENSURE(pAssignmentCommalist->count() > 0,"OResultSet: pAssignmentCommalist->count() <= 0");
// work on all assignments (commalist) ...
std::vector< OUString> aList(1);
for (size_t i = 0; i < pAssignmentCommalist->count(); i++)
{
OSQLParseNode * pAssignment = pAssignmentCommalist->getChild(i);
assert(pAssignment && "OResultSet: pAssignment == NULL");
OSL_ENSURE(SQL_ISRULE(pAssignment,assignment),"OResultSet: Error in Parse Tree");
OSL_ENSURE(pAssignment->count() == 3,"OResultSet: pAssignment->count() != 3");
OSQLParseNode * pCol = pAssignment->getChild(0);
assert(pCol && "OResultSet: pCol == NULL");
OSQLParseNode * pComp = pAssignment->getChild(1);
assert(pComp && "OResultSet: pComp == NULL");
OSL_ENSURE(pComp->getNodeType() == SQLNodeType::Equal,"OResultSet: pComp->getNodeType() != SQLNodeType::Comparison");
if (pComp->getTokenValue().toChar() != '=')
{
throwFunctionSequenceException(*this);
}
OSQLParseNode * pVal = pAssignment->getChild(2);
OSL_ENSURE(pVal != nullptr,"OResultSet: pVal == NULL");
aList[0] = pCol->getTokenValue();
ParseAssignValues(aList,pVal,0);
}
}
}
void OStatement_Base::ParseAssignValues(const std::vector< OUString>& aColumnNameList,OSQLParseNode* pRow_Value_Constructor_Elem, sal_Int32 nIndex)
{
OSL_ENSURE(o3tl::make_unsigned(nIndex) <= aColumnNameList.size(),"SdbFileCursor::ParseAssignValues: nIndex > aColumnNameList.GetTokenCount()");
const OUString& aColumnName(aColumnNameList[nIndex]);
OSL_ENSURE(aColumnName.getLength() > 0,"OResultSet: Column-Name not found");
assert(pRow_Value_Constructor_Elem != nullptr && "OResultSet: pRow_Value_Constructor_Elem must not be NULL!");
if (pRow_Value_Constructor_Elem->getNodeType() == SQLNodeType::String ||
pRow_Value_Constructor_Elem->getNodeType() == SQLNodeType::IntNum ||
pRow_Value_Constructor_Elem->getNodeType() == SQLNodeType::ApproxNum)
{
// set value:
SetAssignValue(aColumnName, pRow_Value_Constructor_Elem->getTokenValue());
}
else if (SQL_ISTOKEN(pRow_Value_Constructor_Elem,NULL))
{
// set NULL
SetAssignValue(aColumnName, OUString(), true);
}
else if (SQL_ISRULE(pRow_Value_Constructor_Elem,parameter))
parseParamterElem(aColumnName,pRow_Value_Constructor_Elem);
else
{
throwFunctionSequenceException(*this);
}
}
void OStatement_Base::SetAssignValue(const OUString& aColumnName,
const OUString& aValue,
bool bSetNull,
sal_uInt32 nParameter)
{
Reference<XPropertySet> xCol;
m_xColNames->getByName(aColumnName) >>= xCol;
sal_Int32 nId = Reference<XColumnLocate>(m_xColNames,UNO_QUERY_THROW)->findColumn(aColumnName);
// does this column actually exist in the file?
if (!xCol.is())
{
// This Column doesn't exist!
throwFunctionSequenceException(*this);
}
// Everything tested and we have the names of the Column.
// Now allocate one Value, set the value and tie the value to the Row.
if (bSetNull)
(*m_aAssignValues)[nId]->setNull();
else
{
switch (::comphelper::getINT32(xCol->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_TYPE))))
{
// put criteria depending on the Type as String or double in the variable
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
*(*m_aAssignValues)[nId] = ORowSetValue(aValue);
//Characterset is already converted, since the entire statement was converted
break;
case DataType::BIT:
if (aValue.equalsIgnoreAsciiCase("TRUE") || aValue[0] == '1')
*(*m_aAssignValues)[nId] = true;
else if (aValue.equalsIgnoreAsciiCase("FALSE") || aValue[0] == '0')
*(*m_aAssignValues)[nId] = false;
else
throwFunctionSequenceException(*this);
break;
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:
*(*m_aAssignValues)[nId] = ORowSetValue(aValue);
break;
default:
throwFunctionSequenceException(*this);
}
}
// save Parameter-No. (as User Data)
// SQL_NO_PARAMETER = no Parameter.
m_aAssignValues->setParameterIndex(nId,nParameter);
if(nParameter != SQL_NO_PARAMETER)
m_aParameterIndexes[nParameter] = nId;
}
void OStatement_Base::parseParamterElem(const OUString& /*_sColumnName*/,OSQLParseNode* /*pRow_Value_Constructor_Elem*/)
{
// do nothing here
}
}// namespace
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V1053 Calling the 'disposing' virtual function in the destructor may lead to unexpected result at runtime.
↑ V1037 Two or more case-branches perform the same actions. Check lines: 666, 688