office-gobmx/connectivity/source/commontools/FValue.cxx
2010-01-27 13:51:16 +01:00

2273 lines
80 KiB
C++

/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2008 by Sun Microsystems, Inc.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* $RCSfile: FValue.cxx,v $
* $Revision: 1.34 $
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_connectivity.hxx"
#include <stdio.h>
#include "connectivity/FValue.hxx"
#include "connectivity/CommonTools.hxx"
#include <connectivity/dbconversion.hxx>
#include <cppuhelper/extract.hxx>
#include <com/sun/star/io/XInputStream.hpp>
#include <rtl/ustrbuf.hxx>
#include <rtl/logfile.hxx>
using namespace ::dbtools;
using namespace ::com::sun::star::sdbc;
using namespace ::com::sun::star::sdb;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::util;
using namespace ::com::sun::star::io;
namespace connectivity
{
namespace {
static sal_Bool isStorageCompatible(sal_Int32 _eType1, sal_Int32 _eType2)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::isStorageCompatible" );
sal_Bool bIsCompatible = sal_True;
if (_eType1 != _eType2)
{
RTL_LOGFILE_CONTEXT_TRACE( aLogger, "ORowSetValue::isStorageCompatible _eType1 != _eType2" );
switch (_eType1)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
bIsCompatible = (DataType::CHAR == _eType2)
|| (DataType::VARCHAR == _eType2)
|| (DataType::DECIMAL == _eType2)
|| (DataType::NUMERIC == _eType2)
|| (DataType::LONGVARCHAR == _eType2);
break;
case DataType::DOUBLE:
case DataType::REAL:
bIsCompatible = (DataType::DOUBLE == _eType2)
|| (DataType::REAL == _eType2);
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
bIsCompatible = (DataType::BINARY == _eType2)
|| (DataType::VARBINARY == _eType2)
|| (DataType::LONGVARBINARY == _eType2);
break;
case DataType::INTEGER:
bIsCompatible = (DataType::SMALLINT == _eType2)
|| (DataType::TINYINT == _eType2)
|| (DataType::BIT == _eType2)
|| (DataType::BOOLEAN == _eType2);
break;
case DataType::SMALLINT:
bIsCompatible = (DataType::TINYINT == _eType2)
|| (DataType::BIT == _eType2)
|| (DataType::BOOLEAN == _eType2);
break;
case DataType::TINYINT:
bIsCompatible = (DataType::BIT == _eType2)
|| (DataType::BOOLEAN == _eType2);
break;
case DataType::BLOB:
case DataType::CLOB:
case DataType::OBJECT:
bIsCompatible = (DataType::BLOB == _eType2)
|| (DataType::CLOB == _eType2)
|| (DataType::OBJECT == _eType2);
break;
default:
bIsCompatible = sal_False;
}
}
return bIsCompatible;
}
}
// -----------------------------------------------------------------------------
#ifdef DBG_UTIL
#include <vector>
#include <rtl/string.h>
namespace tracing
{
struct AllocationType
{
const sal_Char* pName;
sal_Int32 nAllocatedUnits;
AllocationType( ) : pName( NULL ), nAllocatedUnits( 0 ) { }
};
// =============================================================================
class AllocationTracer
{
public:
typedef ::std::vector< AllocationType > AllocationState;
static AllocationState s_aAllocated;
static ::osl::Mutex s_aMutex;
public:
static void registerUnit( const sal_Char* _pName );
static void revokeUnit( const sal_Char* _pName );
private:
static AllocationState::iterator getLocation( const sal_Char* _pName );
};
// =============================================================================
AllocationTracer::AllocationState::iterator AllocationTracer::getLocation( const sal_Char* _pName )
{
AllocationState::iterator aLookFor = s_aAllocated.begin();
for ( ;
aLookFor != s_aAllocated.end();
++aLookFor
)
{
if ( 0 == rtl_str_compare( aLookFor->pName, _pName ) )
// found
return aLookFor;
}
// not found
s_aAllocated.push_back( AllocationType() );
aLookFor = s_aAllocated.end(); --aLookFor;
aLookFor->pName = _pName; // note that this assumes that _pName is a constant string ....
return aLookFor;
}
// =============================================================================
AllocationTracer::AllocationState AllocationTracer::s_aAllocated;
::osl::Mutex AllocationTracer::s_aMutex;
// =============================================================================
void AllocationTracer::registerUnit( const sal_Char* _pName )
{
::osl::MutexGuard aGuard( s_aMutex );
AllocationState::iterator aPos = getLocation( _pName );
++aPos->nAllocatedUnits;
}
// =============================================================================
void AllocationTracer::revokeUnit( const sal_Char* _pName )
{
::osl::MutexGuard aGuard( s_aMutex );
AllocationState::iterator aPos = getLocation( _pName );
--aPos->nAllocatedUnits;
}
#define TRACE_ALLOC( type ) tracing::AllocationTracer::registerUnit( #type );
#define TRACE_FREE( type ) tracing::AllocationTracer::revokeUnit( #type );
}
#else
#define TRACE_ALLOC( type )
#define TRACE_FREE( type )
#endif
// -----------------------------------------------------------------------------
void ORowSetValue::setTypeKind(sal_Int32 _eType)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::setTypeKind" );
if ( !m_bNull && !isStorageCompatible(_eType, m_eTypeKind) )
{
switch(_eType)
{
case DataType::VARCHAR:
case DataType::CHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
(*this) = getString();
break;
case DataType::BIGINT:
(*this) = getLong();
break;
case DataType::FLOAT:
(*this) = getFloat();
break;
case DataType::DOUBLE:
case DataType::REAL:
(*this) = getDouble();
break;
case DataType::TINYINT:
(*this) = getInt8();
break;
case DataType::SMALLINT:
(*this) = getInt16();
break;
case DataType::INTEGER:
(*this) = getInt32();
break;
case DataType::BIT:
case DataType::BOOLEAN:
(*this) = getBool();
break;
case DataType::DATE:
(*this) = getDate();
break;
case DataType::TIME:
(*this) = getTime();
break;
case DataType::TIMESTAMP:
(*this) = getDateTime();
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
(*this) = getSequence();
break;
case DataType::BLOB:
case DataType::CLOB:
case DataType::OBJECT:
case DataType::OTHER:
(*this) = getAny();
break;
default:
OSL_ENSURE(0,"ORowSetValue:operator==(): UNSPUPPORTED TYPE!");
}
}
m_eTypeKind = _eType;
}
// -----------------------------------------------------------------------------
void ORowSetValue::free()
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::free" );
if(!m_bNull)
{
switch(m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
OSL_ENSURE(m_aValue.m_pString,"String pointer is null!");
rtl_uString_release(m_aValue.m_pString);
m_aValue.m_pString = NULL;
break;
case DataType::INTEGER:
if ( !m_bSigned )
{
delete (sal_Int64*)m_aValue.m_pValue;
TRACE_FREE( sal_Int64 )
m_aValue.m_pValue = NULL;
}
break;
case DataType::BIGINT:
if ( m_bSigned )
{
delete (sal_Int64*)m_aValue.m_pValue;
TRACE_FREE( sal_Int64 )
m_aValue.m_pValue = NULL;
}
else
{
OSL_ENSURE(m_aValue.m_pString,"String pointer is null!");
rtl_uString_release(m_aValue.m_pString);
m_aValue.m_pString = NULL;
}
break;
case DataType::FLOAT:
delete (float*)m_aValue.m_pValue;
TRACE_FREE( float )
m_aValue.m_pValue = NULL;
break;
case DataType::DOUBLE:
case DataType::REAL:
delete (double*)m_aValue.m_pValue;
TRACE_FREE( double )
m_aValue.m_pValue = NULL;
break;
case DataType::DATE:
delete (::com::sun::star::util::Date*)m_aValue.m_pValue;
TRACE_FREE( Date )
m_aValue.m_pValue = NULL;
break;
case DataType::TIME:
delete (::com::sun::star::util::Time*)m_aValue.m_pValue;
TRACE_FREE( Time )
m_aValue.m_pValue = NULL;
break;
case DataType::TIMESTAMP:
delete (::com::sun::star::util::DateTime*)m_aValue.m_pValue;
TRACE_FREE( DateTime )
m_aValue.m_pValue = NULL;
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
delete (Sequence<sal_Int8>*)m_aValue.m_pValue;
TRACE_FREE( Sequence_sal_Int8 )
m_aValue.m_pValue = NULL;
break;
case DataType::BLOB:
case DataType::CLOB:
case DataType::OBJECT:
delete (Any*)m_aValue.m_pValue;
TRACE_FREE( Any )
m_aValue.m_pValue = NULL;
break;
}
m_bNull = sal_True;
}
}
// -----------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const ORowSetValue& _rRH)
{
if(&_rRH == this)
return *this;
if ( m_eTypeKind != _rRH.m_eTypeKind || (_rRH.m_bNull && !m_bNull) || m_bSigned != _rRH.m_bSigned)
free();
m_bBound = _rRH.m_bBound;
m_eTypeKind = _rRH.m_eTypeKind;
m_bSigned = _rRH.m_bSigned;
if(m_bNull && !_rRH.m_bNull)
{
switch(_rRH.m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
rtl_uString_acquire(_rRH.m_aValue.m_pString);
m_aValue.m_pString = _rRH.m_aValue.m_pString;
break;
case DataType::BIGINT:
if ( _rRH.m_bSigned )
{
m_aValue.m_pValue = new sal_Int64(*(sal_Int64*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( sal_Int64 )
}
else
{
rtl_uString_acquire(_rRH.m_aValue.m_pString);
m_aValue.m_pString = _rRH.m_aValue.m_pString;
}
break;
case DataType::FLOAT:
m_aValue.m_pValue = new float(*(float*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( float )
break;
case DataType::DOUBLE:
case DataType::REAL:
m_aValue.m_pValue = new double(*(double*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( double )
break;
case DataType::DATE:
m_aValue.m_pValue = new Date(*(Date*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( Date )
break;
case DataType::TIME:
m_aValue.m_pValue = new Time(*(Time*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( Time )
break;
case DataType::TIMESTAMP:
m_aValue.m_pValue = new DateTime(*(DateTime*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( DateTime )
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
m_aValue.m_pValue = new Sequence<sal_Int8>(*(Sequence<sal_Int8>*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( Sequence_sal_Int8 )
break;
case DataType::BIT:
case DataType::BOOLEAN:
m_aValue.m_bBool = _rRH.m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( _rRH.m_bSigned )
m_aValue.m_nInt8 = _rRH.m_aValue.m_nInt8;
else
m_aValue.m_nInt16 = _rRH.m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( _rRH.m_bSigned )
m_aValue.m_nInt16 = _rRH.m_aValue.m_nInt16;
else
m_aValue.m_nInt32 = _rRH.m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( _rRH.m_bSigned )
m_aValue.m_nInt32 = _rRH.m_aValue.m_nInt32;
else
{
m_aValue.m_pValue = new sal_Int64(*(sal_Int64*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( sal_Int64 )
}
break;
default:
m_aValue.m_pValue = new Any(*(Any*)_rRH.m_aValue.m_pValue);
TRACE_ALLOC( Any )
}
}
else if(!_rRH.m_bNull)
{
switch(_rRH.m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
(*this) = ::rtl::OUString(_rRH.m_aValue.m_pString);
break;
case DataType::BIGINT:
if ( _rRH.m_bSigned )
(*this) = *(sal_Int64*)_rRH.m_aValue.m_pValue;
else
(*this) = ::rtl::OUString(_rRH.m_aValue.m_pString);
break;
case DataType::FLOAT:
(*this) = *(float*)_rRH.m_aValue.m_pValue;
break;
case DataType::DOUBLE:
case DataType::REAL:
(*this) = *(double*)_rRH.m_aValue.m_pValue;
break;
case DataType::DATE:
(*this) = *(Date*)_rRH.m_aValue.m_pValue;
break;
case DataType::TIME:
(*this) = *(Time*)_rRH.m_aValue.m_pValue;
break;
case DataType::TIMESTAMP:
(*this) = *(DateTime*)_rRH.m_aValue.m_pValue;
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
(*this) = *(Sequence<sal_Int8>*)_rRH.m_aValue.m_pValue;
break;
case DataType::BIT:
case DataType::BOOLEAN:
m_aValue.m_bBool = _rRH.m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( _rRH.m_bSigned )
m_aValue.m_nInt8 = _rRH.m_aValue.m_nInt8;
else
m_aValue.m_nInt16 = _rRH.m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( _rRH.m_bSigned )
m_aValue.m_nInt16 = _rRH.m_aValue.m_nInt16;
else
m_aValue.m_nInt32 = _rRH.m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( _rRH.m_bSigned )
m_aValue.m_nInt32 = _rRH.m_aValue.m_nInt32;
else
*static_cast<sal_Int64*>(m_aValue.m_pValue) = *(sal_Int64*)_rRH.m_aValue.m_pValue;
break;
default:
(*(Any*)m_aValue.m_pValue) = (*(Any*)_rRH.m_aValue.m_pValue);
}
}
m_bNull = _rRH.m_bNull;
// OJ: BUGID: 96277
m_eTypeKind = _rRH.m_eTypeKind;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const Date& _rRH)
{
if(m_eTypeKind != DataType::DATE)
free();
if(m_bNull)
{
m_aValue.m_pValue = new Date(_rRH);
TRACE_ALLOC( Date )
m_eTypeKind = DataType::DATE;
m_bNull = sal_False;
}
else
*(Date*)m_aValue.m_pValue = _rRH;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const Time& _rRH)
{
if(m_eTypeKind != DataType::TIME)
free();
if(m_bNull)
{
m_aValue.m_pValue = new Time(_rRH);
TRACE_ALLOC( Time )
m_eTypeKind = DataType::TIME;
m_bNull = sal_False;
}
else
*(Time*)m_aValue.m_pValue = _rRH;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const DateTime& _rRH)
{
if(m_eTypeKind != DataType::TIMESTAMP)
free();
if(m_bNull)
{
m_aValue.m_pValue = new DateTime(_rRH);
TRACE_ALLOC( DateTime )
m_eTypeKind = DataType::TIMESTAMP;
m_bNull = sal_False;
}
else
*(DateTime*)m_aValue.m_pValue = _rRH;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const ::rtl::OUString& _rRH)
{
if(m_eTypeKind != DataType::VARCHAR || m_aValue.m_pString != _rRH.pData)
{
free();
m_bNull = sal_False;
m_aValue.m_pString = _rRH.pData;
rtl_uString_acquire(m_aValue.m_pString);
m_eTypeKind = DataType::VARCHAR;
}
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const double& _rRH)
{
if( !isStorageCompatible(m_eTypeKind,DataType::DOUBLE) )
free();
if(m_bNull)
{
m_aValue.m_pValue = new double(_rRH);
TRACE_ALLOC( double )
m_eTypeKind = DataType::DOUBLE;
m_bNull = sal_False;
}
else
*(double*)m_aValue.m_pValue = _rRH;
return *this;
}
// -----------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const float& _rRH)
{
if(m_eTypeKind != DataType::FLOAT)
free();
if(m_bNull)
{
m_aValue.m_pValue = new float(_rRH);
TRACE_ALLOC( float )
m_eTypeKind = DataType::FLOAT;
m_bNull = sal_False;
}
else
*(float*)m_aValue.m_pValue = _rRH;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const sal_Int8& _rRH)
{
if(m_eTypeKind != DataType::TINYINT )
free();
m_aValue.m_nInt8 = _rRH;
m_eTypeKind = DataType::TINYINT;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const sal_Int16& _rRH)
{
if(m_eTypeKind != DataType::SMALLINT )
free();
m_aValue.m_nInt16 = _rRH;
m_eTypeKind = DataType::SMALLINT;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const sal_Int32& _rRH)
{
if(m_eTypeKind != DataType::INTEGER )
free();
if ( m_bSigned )
m_aValue.m_nInt32 = _rRH;
else
{
if ( m_bNull )
{
m_aValue.m_pValue = new sal_Int64(_rRH);
TRACE_ALLOC( sal_Int64 )
}
else
*static_cast<sal_Int64*>(m_aValue.m_pValue) = static_cast<sal_Int64>(_rRH);
}
m_eTypeKind = DataType::INTEGER;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const sal_Bool _rRH)
{
if(m_eTypeKind != DataType::BIT && DataType::BOOLEAN != m_eTypeKind )
free();
m_aValue.m_bBool = _rRH;
m_eTypeKind = DataType::BIT;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const sal_Int64& _rRH)
{
if ( DataType::BIGINT != m_eTypeKind || !m_bSigned )
free();
if ( m_bSigned )
{
if(m_bNull)
{
m_aValue.m_pValue = new sal_Int64(_rRH);
TRACE_ALLOC( sal_Int64 )
}
else
*static_cast<sal_Int64*>(m_aValue.m_pValue) = _rRH;
}
else
{
::rtl::OUString aVal = ::rtl::OUString::valueOf(_rRH);
m_aValue.m_pString = aVal.pData;
rtl_uString_acquire(m_aValue.m_pString);
}
m_eTypeKind = DataType::BIGINT;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const Sequence<sal_Int8>& _rRH)
{
if (!isStorageCompatible(DataType::LONGVARBINARY,m_eTypeKind))
free();
if (m_bNull)
{
m_aValue.m_pValue = new Sequence<sal_Int8>(_rRH);
TRACE_ALLOC( Sequence_sal_Int8 )
}
else
*static_cast< Sequence< sal_Int8 >* >(m_aValue.m_pValue) = _rRH;
m_eTypeKind = DataType::LONGVARBINARY;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
ORowSetValue& ORowSetValue::operator=(const Any& _rAny)
{
if (!isStorageCompatible(DataType::OBJECT,m_eTypeKind))
free();
if ( m_bNull )
{
m_aValue.m_pValue = new Any(_rAny);
TRACE_ALLOC( Any )
}
else
*static_cast<Any*>(m_aValue.m_pValue) = _rAny;
m_eTypeKind = DataType::OBJECT;
m_bNull = sal_False;
return *this;
}
// -------------------------------------------------------------------------
sal_Bool operator==(const Date& _rLH,const Date& _rRH)
{
return _rLH.Day == _rRH.Day && _rLH.Month == _rRH.Month && _rLH.Year == _rRH.Year;
}
// -------------------------------------------------------------------------
sal_Bool operator==(const Time& _rLH,const Time& _rRH)
{
return _rLH.Minutes == _rRH.Minutes && _rLH.Hours == _rRH.Hours && _rLH.Seconds == _rRH.Seconds && _rLH.HundredthSeconds == _rRH.HundredthSeconds;
}
// -------------------------------------------------------------------------
sal_Bool operator==(const DateTime& _rLH,const DateTime& _rRH)
{
return _rLH.Day == _rRH.Day && _rLH.Month == _rRH.Month && _rLH.Year == _rRH.Year &&
_rLH.Minutes == _rRH.Minutes && _rLH.Hours == _rRH.Hours && _rLH.Seconds == _rRH.Seconds && _rLH.HundredthSeconds == _rRH.HundredthSeconds;
}
// -------------------------------------------------------------------------
bool ORowSetValue::operator==(const ORowSetValue& _rRH) const
{
if(m_eTypeKind != _rRH.m_eTypeKind)
return false;
if ( m_bSigned != _rRH.m_bSigned )
return false;
if(m_bNull != _rRH.isNull())
return false;
if(m_bNull && _rRH.isNull())
return true;
bool bRet = false;
OSL_ENSURE(!m_bNull,"SHould not be null!");
switch(m_eTypeKind)
{
case DataType::VARCHAR:
case DataType::CHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
{
::rtl::OUString aVal1(m_aValue.m_pString);
::rtl::OUString aVal2(_rRH.m_aValue.m_pString);
bRet = aVal1 == aVal2;
break;
}
case DataType::FLOAT:
bRet = *(float*)m_aValue.m_pValue == *(float*)_rRH.m_aValue.m_pValue;
break;
case DataType::DOUBLE:
case DataType::REAL:
bRet = *(double*)m_aValue.m_pValue == *(double*)_rRH.m_aValue.m_pValue;
break;
case DataType::TINYINT:
bRet = m_bSigned ? ( m_aValue.m_nInt8 == _rRH.m_aValue.m_nInt8 ) : (m_aValue.m_nInt16 == _rRH.m_aValue.m_nInt16);
break;
case DataType::SMALLINT:
bRet = m_bSigned ? ( m_aValue.m_nInt16 == _rRH.m_aValue.m_nInt16 ) : (m_aValue.m_nInt32 == _rRH.m_aValue.m_nInt32);
break;
case DataType::INTEGER:
bRet = m_bSigned ? ( m_aValue.m_nInt32 == _rRH.m_aValue.m_nInt32 ) : (*(sal_Int64*)m_aValue.m_pValue == *(sal_Int64*)_rRH.m_aValue.m_pValue);
break;
case DataType::BIGINT:
if ( m_bSigned )
bRet = *(sal_Int64*)m_aValue.m_pValue == *(sal_Int64*)_rRH.m_aValue.m_pValue;
else
{
::rtl::OUString aVal1(m_aValue.m_pString);
::rtl::OUString aVal2(_rRH.m_aValue.m_pString);
bRet = aVal1 == aVal2;
}
break;
case DataType::BIT:
case DataType::BOOLEAN:
bRet = m_aValue.m_bBool == _rRH.m_aValue.m_bBool;
break;
case DataType::DATE:
bRet = *(Date*)m_aValue.m_pValue == *(Date*)_rRH.m_aValue.m_pValue;
break;
case DataType::TIME:
bRet = *(Time*)m_aValue.m_pValue == *(Time*)_rRH.m_aValue.m_pValue;
break;
case DataType::TIMESTAMP:
bRet = *(DateTime*)m_aValue.m_pValue == *(DateTime*)_rRH.m_aValue.m_pValue;
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
bRet = false;
break;
case DataType::BLOB:
case DataType::CLOB:
case DataType::OBJECT:
case DataType::OTHER:
bRet = false;
break;
default:
OSL_ENSURE(0,"ORowSetValue::operator==(): UNSPUPPORTED TYPE!");
}
return bRet;
}
// -------------------------------------------------------------------------
Any ORowSetValue::makeAny() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::makeAny" );
Any rValue;
if(isBound() && !isNull())
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
OSL_ENSURE(m_aValue.m_pString,"Value is null!");
rValue <<= (::rtl::OUString)m_aValue.m_pString;
break;
case DataType::BIGINT:
if ( m_bSigned )
{
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(sal_Int64*)m_aValue.m_pValue;
}
else
{
OSL_ENSURE(m_aValue.m_pString,"Value is null!");
rValue <<= (::rtl::OUString)m_aValue.m_pString;
}
break;
case DataType::FLOAT:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(float*)m_aValue.m_pValue;
break;
case DataType::DOUBLE:
case DataType::REAL:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(double*)m_aValue.m_pValue;
break;
case DataType::DATE:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(Date*)m_aValue.m_pValue;
break;
case DataType::TIME:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(Time*)m_aValue.m_pValue;
break;
case DataType::TIMESTAMP:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(DateTime*)m_aValue.m_pValue;
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(Sequence<sal_Int8>*)m_aValue.m_pValue;
break;
case DataType::BLOB:
case DataType::CLOB:
case DataType::OBJECT:
case DataType::OTHER:
rValue = getAny();
break;
case DataType::BIT:
case DataType::BOOLEAN:
rValue.setValue( &m_aValue.m_bBool, ::getCppuBooleanType() );
break;
case DataType::TINYINT:
if ( m_bSigned )
rValue <<= m_aValue.m_nInt8;
else
rValue <<= m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
rValue <<= m_aValue.m_nInt16;
else
rValue <<= m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( m_bSigned )
rValue <<= m_aValue.m_nInt32;
else
{
OSL_ENSURE(m_aValue.m_pValue,"Value is null!");
rValue <<= *(sal_Int64*)m_aValue.m_pValue;
}
break;
default:
OSL_ENSURE(0,"ORowSetValue::makeAny(): UNSPUPPORTED TYPE!");
}
}
return rValue;
}
// -------------------------------------------------------------------------
::rtl::OUString ORowSetValue::getString( ) const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getString" );
::rtl::OUString aRet;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
aRet = m_aValue.m_pString;
break;
case DataType::BIGINT:
if ( m_bSigned )
aRet = ::rtl::OUString::valueOf((sal_Int64)*this);
else
aRet = m_aValue.m_pString;
break;
case DataType::FLOAT:
aRet = ::rtl::OUString::valueOf((float)*this);
break;
case DataType::DOUBLE:
case DataType::REAL:
aRet = ::rtl::OUString::valueOf((double)*this);
break;
case DataType::DATE:
aRet = connectivity::toDateString(*this);
break;
case DataType::TIME:
aRet = connectivity::toTimeString(*this);
break;
case DataType::TIMESTAMP:
aRet = connectivity::toDateTimeString(*this);
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
{
::rtl::OUStringBuffer sVal = ::rtl::OUString::createFromAscii("0x");
Sequence<sal_Int8> aSeq(getSequence());
const sal_Int8* pBegin = aSeq.getConstArray();
const sal_Int8* pEnd = pBegin + aSeq.getLength();
for(;pBegin != pEnd;++pBegin)
sVal.append((sal_Int32)*pBegin,16);
aRet = sVal.makeStringAndClear();
}
break;
case DataType::BIT:
case DataType::BOOLEAN:
aRet = ::rtl::OUString::valueOf((sal_Int32)(sal_Bool)*this);
break;
case DataType::TINYINT:
if ( m_bSigned )
aRet = ::rtl::OUString::valueOf((sal_Int32)(sal_Int8)*this);
else
aRet = ::rtl::OUString::valueOf((sal_Int32)(sal_Int16)*this);
break;
case DataType::SMALLINT:
if ( m_bSigned )
aRet = ::rtl::OUString::valueOf((sal_Int32)(sal_Int16)*this);
else
aRet = ::rtl::OUString::valueOf((sal_Int32)*this);
break;
case DataType::INTEGER:
if ( m_bSigned )
aRet = ::rtl::OUString::valueOf((sal_Int32)*this);
else
aRet = ::rtl::OUString::valueOf((sal_Int64)*this);
break;
case DataType::CLOB:
{
Any aValue( getAny() );
Reference< XClob > xClob;
if ( aValue >>= xClob )
{
if ( xClob.is() )
{
aRet = xClob->getSubString(1,(sal_Int32)xClob->length() );
}
}
}
break;
}
}
return aRet;
}
// -------------------------------------------------------------------------
sal_Bool ORowSetValue::getBool() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getBool" );
sal_Bool bRet = sal_False;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
{
const ::rtl::OUString sValue(m_aValue.m_pString);
const static ::rtl::OUString s_sTrue(RTL_CONSTASCII_USTRINGPARAM("true"));
const static ::rtl::OUString s_sFalse(RTL_CONSTASCII_USTRINGPARAM("false"));
if ( sValue.equalsIgnoreAsciiCase(s_sTrue) )
{
bRet = sal_True;
break;
}
else if ( sValue.equalsIgnoreAsciiCase(s_sFalse) )
{
bRet = sal_False;
break;
}
}
// run through
case DataType::DECIMAL:
case DataType::NUMERIC:
bRet = ::rtl::OUString(m_aValue.m_pString).toInt32() != 0;
break;
case DataType::BIGINT:
if ( m_bSigned )
bRet = *(sal_Int64*)m_aValue.m_pValue != 0;
else
bRet = ::rtl::OUString(m_aValue.m_pString).toInt64() != 0;
break;
case DataType::FLOAT:
bRet = *(float*)m_aValue.m_pValue != 0.0;
break;
case DataType::DOUBLE:
case DataType::REAL:
bRet = *(double*)m_aValue.m_pValue != 0.0;
break;
case DataType::DATE:
case DataType::TIME:
case DataType::TIMESTAMP:
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
OSL_ASSERT(!"getBool() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
bRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
bRet = m_bSigned ? (m_aValue.m_nInt8 != 0) : (m_aValue.m_nInt16 != 0);
break;
case DataType::SMALLINT:
bRet = m_bSigned ? (m_aValue.m_nInt16 != 0) : (m_aValue.m_nInt32 != 0);
break;
case DataType::INTEGER:
bRet = m_bSigned ? (m_aValue.m_nInt32 != 0) : (*static_cast<sal_Int64*>(m_aValue.m_pValue) != sal_Int64(0));
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return bRet;
}
// -------------------------------------------------------------------------
sal_Int8 ORowSetValue::getInt8() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getInt8" );
sal_Int8 nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = sal_Int8(::rtl::OUString(m_aValue.m_pString).toInt32());
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = sal_Int8(*(sal_Int64*)m_aValue.m_pValue);
else
nRet = sal_Int8(::rtl::OUString(m_aValue.m_pString).toInt32());
break;
case DataType::FLOAT:
nRet = sal_Int8(*(float*)m_aValue.m_pValue);
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = sal_Int8(*(double*)m_aValue.m_pValue);
break;
case DataType::DATE:
case DataType::TIME:
case DataType::TIMESTAMP:
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getInt8() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = static_cast<sal_Int8>(m_aValue.m_nInt16);
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = static_cast<sal_Int8>(m_aValue.m_nInt16);
else
nRet = static_cast<sal_Int8>(m_aValue.m_nInt32);
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = static_cast<sal_Int8>(m_aValue.m_nInt32);
else
nRet = static_cast<sal_Int8>(*static_cast<sal_Int64*>(m_aValue.m_pValue));
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
sal_Int16 ORowSetValue::getInt16() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getInt16" );
sal_Int16 nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = sal_Int16(::rtl::OUString(m_aValue.m_pString).toInt32());
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = sal_Int16(*(sal_Int64*)m_aValue.m_pValue);
else
nRet = sal_Int16(::rtl::OUString(m_aValue.m_pString).toInt32());
break;
case DataType::FLOAT:
nRet = sal_Int16(*(float*)m_aValue.m_pValue);
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = sal_Int16(*(double*)m_aValue.m_pValue);
break;
case DataType::DATE:
case DataType::TIME:
case DataType::TIMESTAMP:
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getInt16() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt16;
else
nRet = static_cast<sal_Int16>(m_aValue.m_nInt32);
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = static_cast<sal_Int16>(m_aValue.m_nInt32);
else
nRet = static_cast<sal_Int16>(*static_cast<sal_Int64*>(m_aValue.m_pValue));
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
sal_Int32 ORowSetValue::getInt32() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getInt32" );
sal_Int32 nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = ::rtl::OUString(m_aValue.m_pString).toInt32();
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = sal_Int32(*(sal_Int64*)m_aValue.m_pValue);
else
nRet = ::rtl::OUString(m_aValue.m_pString).toInt32();
break;
case DataType::FLOAT:
nRet = sal_Int32(*(float*)m_aValue.m_pValue);
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = sal_Int32(*(double*)m_aValue.m_pValue);
break;
case DataType::DATE:
nRet = dbtools::DBTypeConversion::toDays(*(::com::sun::star::util::Date*)m_aValue.m_pValue);
break;
case DataType::TIME:
case DataType::TIMESTAMP:
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getInt32() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt16;
else
nRet = m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = m_aValue.m_nInt32;
else
nRet = static_cast<sal_Int32>(*static_cast<sal_Int64*>(m_aValue.m_pValue));
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
sal_Int64 ORowSetValue::getLong() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getLong" );
sal_Int64 nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = ::rtl::OUString(m_aValue.m_pString).toInt64();
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = *(sal_Int64*)m_aValue.m_pValue;
else
nRet = ::rtl::OUString(m_aValue.m_pString).toInt64();
break;
case DataType::FLOAT:
nRet = sal_Int64(*(float*)m_aValue.m_pValue);
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = sal_Int64(*(double*)m_aValue.m_pValue);
break;
case DataType::DATE:
nRet = dbtools::DBTypeConversion::toDays(*(::com::sun::star::util::Date*)m_aValue.m_pValue);
break;
case DataType::TIME:
case DataType::TIMESTAMP:
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getInt32() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt16;
else
nRet = m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = m_aValue.m_nInt32;
else
nRet = *(sal_Int64*)m_aValue.m_pValue;
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
float ORowSetValue::getFloat() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getFloat" );
float nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = ::rtl::OUString(m_aValue.m_pString).toFloat();
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = float(*(sal_Int64*)m_aValue.m_pValue);
else
nRet = ::rtl::OUString(m_aValue.m_pString).toFloat();
break;
case DataType::FLOAT:
nRet = *(float*)m_aValue.m_pValue;
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = (float)*(double*)m_aValue.m_pValue;
break;
case DataType::DATE:
nRet = (float)dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::Date*)m_aValue.m_pValue);
break;
case DataType::TIME:
nRet = (float)dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::Time*)m_aValue.m_pValue);
break;
case DataType::TIMESTAMP:
nRet = (float)dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::DateTime*)m_aValue.m_pValue);
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getDouble() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt16;
else
nRet = (float)m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = (float)m_aValue.m_nInt32;
else
nRet = float(*(sal_Int64*)m_aValue.m_pValue);
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
double ORowSetValue::getDouble() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getDouble" );
double nRet = 0;
if(!m_bNull)
{
switch(getTypeKind())
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
nRet = ::rtl::OUString(m_aValue.m_pString).toDouble();
break;
case DataType::BIGINT:
if ( m_bSigned )
nRet = double(*(sal_Int64*)m_aValue.m_pValue);
else
nRet = ::rtl::OUString(m_aValue.m_pString).toDouble();
break;
case DataType::FLOAT:
nRet = *(float*)m_aValue.m_pValue;
break;
case DataType::DOUBLE:
case DataType::REAL:
nRet = *(double*)m_aValue.m_pValue;
break;
case DataType::DATE:
nRet = dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::Date*)m_aValue.m_pValue);
break;
case DataType::TIME:
nRet = dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::Time*)m_aValue.m_pValue);
break;
case DataType::TIMESTAMP:
nRet = dbtools::DBTypeConversion::toDouble(*(::com::sun::star::util::DateTime*)m_aValue.m_pValue);
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"getDouble() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
nRet = m_aValue.m_bBool;
break;
case DataType::TINYINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt8;
else
nRet = m_aValue.m_nInt16;
break;
case DataType::SMALLINT:
if ( m_bSigned )
nRet = m_aValue.m_nInt16;
else
nRet = m_aValue.m_nInt32;
break;
case DataType::INTEGER:
if ( m_bSigned )
nRet = m_aValue.m_nInt32;
else
nRet = double(*(sal_Int64*)m_aValue.m_pValue);
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return nRet;
}
// -------------------------------------------------------------------------
void ORowSetValue::setFromDouble(const double& _rVal,sal_Int32 _nDatatype)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::setFromDouble" );
free();
m_bNull = sal_False;
switch(_nDatatype)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
{
::rtl::OUString aVal = ::rtl::OUString::valueOf(_rVal);
m_aValue.m_pString = aVal.pData;
rtl_uString_acquire(m_aValue.m_pString);
}
break;
case DataType::BIGINT:
if ( m_bSigned )
{
m_aValue.m_pValue = new sal_Int64((sal_Int64)_rVal);
TRACE_ALLOC( sal_Int64 )
}
else
{
::rtl::OUString aVal = ::rtl::OUString::valueOf(_rVal);
m_aValue.m_pString = aVal.pData;
rtl_uString_acquire(m_aValue.m_pString);
}
break;
case DataType::FLOAT:
m_aValue.m_pValue = new float((float)_rVal);
TRACE_ALLOC( float )
break;
case DataType::DOUBLE:
case DataType::REAL:
m_aValue.m_pValue = new double(_rVal);
TRACE_ALLOC( double )
break;
case DataType::DATE:
m_aValue.m_pValue = new Date(dbtools::DBTypeConversion::toDate(_rVal));
TRACE_ALLOC( Date )
break;
case DataType::TIME:
m_aValue.m_pValue = new Time(dbtools::DBTypeConversion::toTime(_rVal));
TRACE_ALLOC( Time )
break;
case DataType::TIMESTAMP:
m_aValue.m_pValue = new DateTime(dbtools::DBTypeConversion::toDateTime(_rVal));
TRACE_ALLOC( DateTime )
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
case DataType::BLOB:
case DataType::CLOB:
OSL_ASSERT(!"setFromDouble() for this type is not allowed!");
break;
case DataType::BIT:
case DataType::BOOLEAN:
m_aValue.m_bBool = _rVal != 0.0;
break;
case DataType::TINYINT:
if ( m_bSigned )
m_aValue.m_nInt8 = sal_Int8(_rVal);
else
m_aValue.m_nInt16 = sal_Int16(_rVal);
break;
case DataType::SMALLINT:
if ( m_bSigned )
m_aValue.m_nInt16 = sal_Int16(_rVal);
else
m_aValue.m_nInt32 = sal_Int32(_rVal);
break;
case DataType::INTEGER:
if ( m_bSigned )
m_aValue.m_nInt32 = sal_Int32(_rVal);
else
{
m_aValue.m_pValue = new sal_Int64((sal_Int64)_rVal);
TRACE_ALLOC( sal_Int64 )
}
break;
}
m_eTypeKind = _nDatatype;
}
// -----------------------------------------------------------------------------
Sequence<sal_Int8> ORowSetValue::getSequence() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getSequence" );
Sequence<sal_Int8> aSeq;
if (!m_bNull)
{
switch(m_eTypeKind)
{
case DataType::OBJECT:
case DataType::CLOB:
case DataType::BLOB:
{
Reference<XInputStream> xStream;
const Any aValue = makeAny();
if(aValue.hasValue())
{
Reference<XBlob> xBlob(aValue,UNO_QUERY);
if ( xBlob.is() )
xStream = xBlob->getBinaryStream();
else
{
Reference<XClob> xClob(aValue,UNO_QUERY);
if ( xClob.is() )
xStream = xClob->getCharacterStream();
}
if(xStream.is())
{
const sal_uInt32 nBytesToRead = 65535;
sal_uInt32 nRead;
do
{
::com::sun::star::uno::Sequence< sal_Int8 > aReadSeq;
nRead = xStream->readSomeBytes( aReadSeq, nBytesToRead );
if( nRead )
{
const sal_uInt32 nOldLength = aSeq.getLength();
aSeq.realloc( nOldLength + nRead );
rtl_copyMemory( aSeq.getArray() + nOldLength, aReadSeq.getConstArray(), aReadSeq.getLength() );
}
}
while( nBytesToRead == nRead );
xStream->closeInput();
}
}
}
break;
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
{
::rtl::OUString sVal(m_aValue.m_pString);
aSeq = Sequence<sal_Int8>(reinterpret_cast<const sal_Int8*>(sVal.getStr()),sizeof(sal_Unicode)*sVal.getLength());
}
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
aSeq = *static_cast< Sequence<sal_Int8>*>(m_aValue.m_pValue);
break;
default:
;
}
}
return aSeq;
}
// -----------------------------------------------------------------------------
::com::sun::star::util::Date ORowSetValue::getDate() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getDate" );
::com::sun::star::util::Date aValue;
if(!m_bNull)
{
switch(m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
aValue = DBTypeConversion::toDate(getString());
break;
case DataType::DECIMAL:
case DataType::NUMERIC:
aValue = DBTypeConversion::toDate((double)*this);
break;
case DataType::FLOAT:
case DataType::DOUBLE:
case DataType::REAL:
aValue = DBTypeConversion::toDate((double)*this);
break;
case DataType::DATE:
aValue = *static_cast< ::com::sun::star::util::Date*>(m_aValue.m_pValue);
break;
case DataType::TIMESTAMP:
{
::com::sun::star::util::DateTime* pDateTime = static_cast< ::com::sun::star::util::DateTime*>(m_aValue.m_pValue);
aValue.Day = pDateTime->Day;
aValue.Month = pDateTime->Month;
aValue.Year = pDateTime->Year;
}
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return aValue;
}
// -----------------------------------------------------------------------------
::com::sun::star::util::Time ORowSetValue::getTime() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getTime" );
::com::sun::star::util::Time aValue;
if(!m_bNull)
{
switch(m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
aValue = DBTypeConversion::toTime(getString());
break;
case DataType::DECIMAL:
case DataType::NUMERIC:
aValue = DBTypeConversion::toTime((double)*this);
break;
case DataType::FLOAT:
case DataType::DOUBLE:
case DataType::REAL:
aValue = DBTypeConversion::toTime((double)*this);
break;
case DataType::TIMESTAMP:
{
::com::sun::star::util::DateTime* pDateTime = static_cast< ::com::sun::star::util::DateTime*>(m_aValue.m_pValue);
aValue.HundredthSeconds = pDateTime->HundredthSeconds;
aValue.Seconds = pDateTime->Seconds;
aValue.Minutes = pDateTime->Minutes;
aValue.Hours = pDateTime->Hours;
}
break;
case DataType::TIME:
aValue = *static_cast< ::com::sun::star::util::Time*>(m_aValue.m_pValue);
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return aValue;
}
// -----------------------------------------------------------------------------
::com::sun::star::util::DateTime ORowSetValue::getDateTime() const
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::getDateTime" );
::com::sun::star::util::DateTime aValue;
if(!m_bNull)
{
switch(m_eTypeKind)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::LONGVARCHAR:
aValue = DBTypeConversion::toDateTime(getString());
break;
case DataType::DECIMAL:
case DataType::NUMERIC:
aValue = DBTypeConversion::toDateTime((double)*this);
break;
case DataType::FLOAT:
case DataType::DOUBLE:
case DataType::REAL:
aValue = DBTypeConversion::toDateTime((double)*this);
break;
case DataType::DATE:
{
::com::sun::star::util::Date* pDate = static_cast< ::com::sun::star::util::Date*>(m_aValue.m_pValue);
aValue.Day = pDate->Day;
aValue.Month = pDate->Month;
aValue.Year = pDate->Year;
}
break;
case DataType::TIME:
{
::com::sun::star::util::Time* pTime = static_cast< ::com::sun::star::util::Time*>(m_aValue.m_pValue);
aValue.HundredthSeconds = pTime->HundredthSeconds;
aValue.Seconds = pTime->Seconds;
aValue.Minutes = pTime->Minutes;
aValue.Hours = pTime->Hours;
}
break;
case DataType::TIMESTAMP:
aValue = *static_cast< ::com::sun::star::util::DateTime*>(m_aValue.m_pValue);
break;
default:
OSL_ENSURE(0,"Illegal conversion!");
break;
}
}
return aValue;
}
// -----------------------------------------------------------------------------
void ORowSetValue::setSigned(sal_Bool _bMod)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::setSigned" );
if ( m_bSigned != _bMod )
{
m_bSigned = _bMod;
if ( !m_bNull )
{
sal_Int32 nType = m_eTypeKind;
switch(m_eTypeKind)
{
case DataType::BIGINT:
if ( m_bSigned ) // now we are signed, so we were unsigned and need to call getString()
{
m_bSigned = !m_bSigned;
const ::rtl::OUString sValue = getString();
free();
m_bSigned = !m_bSigned;
(*this) = sValue;
}
else
{
m_bSigned = !m_bSigned;
const sal_Int64 nValue = getLong();
free();
m_bSigned = !m_bSigned;
(*this) = nValue;
}
break;
case DataType::TINYINT:
if ( m_bSigned )
(*this) = getInt8();
else
{
m_bSigned = !m_bSigned;
(*this) = getInt16();
m_bSigned = !m_bSigned;
}
break;
case DataType::SMALLINT:
if ( m_bSigned )
(*this) = getInt16();
else
{
m_bSigned = !m_bSigned;
(*this) = getInt32();
m_bSigned = !m_bSigned;
}
break;
case DataType::INTEGER:
if ( m_bSigned )
(*this) = getInt32();
else
{
m_bSigned = !m_bSigned;
(*this) = getLong();
m_bSigned = !m_bSigned;
}
break;
}
m_eTypeKind = nType;
}
}
}
// -----------------------------------------------------------------------------
namespace detail
{
class SAL_NO_VTABLE IValueSource
{
public:
virtual ::rtl::OUString getString() const = 0;
virtual sal_Bool getBoolean() const = 0;
virtual sal_Int8 getByte() const = 0;
virtual sal_Int16 getShort() const = 0;
virtual sal_Int32 getInt() const = 0;
virtual sal_Int64 getLong() const = 0;
virtual float getFloat() const = 0;
virtual double getDouble() const = 0;
virtual Date getDate() const = 0;
virtual Time getTime() const = 0;
virtual DateTime getTimestamp() const = 0;
virtual Sequence< sal_Int8 > getBytes() const = 0;
virtual Reference< XInputStream > getBinaryStream() const = 0;
virtual Reference< XInputStream > getCharacterStream() const = 0;
virtual Reference< XBlob > getBlob() const = 0;
virtual Reference< XClob > getClob() const = 0;
virtual Any getObject() const = 0;
virtual sal_Bool wasNull() const = 0;
virtual ~IValueSource() { }
};
class RowValue : public IValueSource
{
public:
RowValue( const Reference< XRow >& _xRow, const sal_Int32 _nPos )
:m_xRow( _xRow )
,m_nPos( _nPos )
{
}
// IValueSource
virtual ::rtl::OUString getString() const { return m_xRow->getString( m_nPos ); };
virtual sal_Bool getBoolean() const { return m_xRow->getBoolean( m_nPos ); };
virtual sal_Int8 getByte() const { return m_xRow->getByte( m_nPos ); };
virtual sal_Int16 getShort() const { return m_xRow->getShort( m_nPos ); }
virtual sal_Int32 getInt() const { return m_xRow->getInt( m_nPos ); }
virtual sal_Int64 getLong() const { return m_xRow->getLong( m_nPos ); }
virtual float getFloat() const { return m_xRow->getFloat( m_nPos ); };
virtual double getDouble() const { return m_xRow->getDouble( m_nPos ); };
virtual Date getDate() const { return m_xRow->getDate( m_nPos ); };
virtual Time getTime() const { return m_xRow->getTime( m_nPos ); };
virtual DateTime getTimestamp() const { return m_xRow->getTimestamp( m_nPos ); };
virtual Sequence< sal_Int8 > getBytes() const { return m_xRow->getBytes( m_nPos ); };
virtual Reference< XInputStream > getBinaryStream() const { return m_xRow->getBinaryStream( m_nPos ); };
virtual Reference< XInputStream > getCharacterStream() const { return m_xRow->getCharacterStream( m_nPos ); };
virtual Reference< XBlob > getBlob() const { return m_xRow->getBlob( m_nPos ); };
virtual Reference< XClob > getClob() const { return m_xRow->getClob( m_nPos ); };
virtual Any getObject() const { return m_xRow->getObject( m_nPos ,NULL); };
virtual sal_Bool wasNull() const { return m_xRow->wasNull( ); };
private:
const Reference< XRow > m_xRow;
const sal_Int32 m_nPos;
};
class ColumnValue : public IValueSource
{
public:
ColumnValue( const Reference< XColumn >& _rxColumn )
:m_xColumn( _rxColumn )
{
}
// IValueSource
virtual ::rtl::OUString getString() const { return m_xColumn->getString(); };
virtual sal_Bool getBoolean() const { return m_xColumn->getBoolean(); };
virtual sal_Int8 getByte() const { return m_xColumn->getByte(); };
virtual sal_Int16 getShort() const { return m_xColumn->getShort(); }
virtual sal_Int32 getInt() const { return m_xColumn->getInt(); }
virtual sal_Int64 getLong() const { return m_xColumn->getLong(); }
virtual float getFloat() const { return m_xColumn->getFloat(); };
virtual double getDouble() const { return m_xColumn->getDouble(); };
virtual Date getDate() const { return m_xColumn->getDate(); };
virtual Time getTime() const { return m_xColumn->getTime(); };
virtual DateTime getTimestamp() const { return m_xColumn->getTimestamp(); };
virtual Sequence< sal_Int8 > getBytes() const { return m_xColumn->getBytes(); };
virtual Reference< XInputStream > getBinaryStream() const { return m_xColumn->getBinaryStream(); };
virtual Reference< XInputStream > getCharacterStream() const { return m_xColumn->getCharacterStream(); };
virtual Reference< XBlob > getBlob() const { return m_xColumn->getBlob(); };
virtual Reference< XClob > getClob() const { return m_xColumn->getClob(); };
virtual Any getObject() const { return m_xColumn->getObject( NULL ); };
virtual sal_Bool wasNull() const { return m_xColumn->wasNull( ); };
private:
const Reference< XColumn > m_xColumn;
};
}
// -----------------------------------------------------------------------------
void ORowSetValue::fill( const sal_Int32 _nType, const Reference< XColumn >& _rxColumn )
{
detail::ColumnValue aColumnValue( _rxColumn );
impl_fill( _nType, sal_True, aColumnValue );
}
// -----------------------------------------------------------------------------
void ORowSetValue::fill( sal_Int32 _nPos, sal_Int32 _nType, sal_Bool _bNullable, const Reference< XRow>& _xRow )
{
detail::RowValue aRowValue( _xRow, _nPos );
impl_fill( _nType, _bNullable, aRowValue );
}
// -----------------------------------------------------------------------------
void ORowSetValue::fill(sal_Int32 _nPos,
sal_Int32 _nType,
const ::com::sun::star::uno::Reference< ::com::sun::star::sdbc::XRow>& _xRow)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::fill (1)" );
fill(_nPos,_nType,sal_True,_xRow);
}
// -----------------------------------------------------------------------------
void ORowSetValue::impl_fill( const sal_Int32 _nType, sal_Bool _bNullable, const detail::IValueSource& _rValueSource )
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::fill (2)" );
sal_Bool bReadData = sal_True;
switch(_nType)
{
case DataType::CHAR:
case DataType::VARCHAR:
case DataType::DECIMAL:
case DataType::NUMERIC:
case DataType::LONGVARCHAR:
(*this) = _rValueSource.getString();
break;
case DataType::BIGINT:
if ( isSigned() )
(*this) = _rValueSource.getLong();
else
(*this) = _rValueSource.getString();
break;
case DataType::FLOAT:
(*this) = _rValueSource.getFloat();
break;
case DataType::DOUBLE:
case DataType::REAL:
(*this) = _rValueSource.getDouble();
break;
case DataType::DATE:
(*this) = _rValueSource.getDate();
break;
case DataType::TIME:
(*this) = _rValueSource.getTime();
break;
case DataType::TIMESTAMP:
(*this) = _rValueSource.getTimestamp();
break;
case DataType::BINARY:
case DataType::VARBINARY:
case DataType::LONGVARBINARY:
(*this) = _rValueSource.getBytes();
break;
case DataType::BIT:
case DataType::BOOLEAN:
(*this) = _rValueSource.getBoolean();
break;
case DataType::TINYINT:
if ( isSigned() )
(*this) = _rValueSource.getByte();
else
(*this) = _rValueSource.getShort();
break;
case DataType::SMALLINT:
if ( isSigned() )
(*this) = _rValueSource.getShort();
else
(*this) = _rValueSource.getInt();
break;
case DataType::INTEGER:
if ( isSigned() )
(*this) = _rValueSource.getInt();
else
(*this) = _rValueSource.getLong();
break;
case DataType::CLOB:
(*this) = ::com::sun::star::uno::makeAny(_rValueSource.getClob());
setTypeKind(DataType::CLOB);
break;
case DataType::BLOB:
(*this) = ::com::sun::star::uno::makeAny(_rValueSource.getBlob());
setTypeKind(DataType::BLOB);
break;
case DataType::OTHER:
(*this) = _rValueSource.getObject();
setTypeKind(DataType::OTHER);
break;
default:
OSL_ENSURE( false, "ORowSetValue::fill: unsupported type!" );
bReadData = false;
break;
}
if ( bReadData && _bNullable && _rValueSource.wasNull() )
setNull();
setTypeKind(_nType);
}
// -----------------------------------------------------------------------------
void ORowSetValue::fill(const Any& _rValue)
{
RTL_LOGFILE_CONTEXT_AUTHOR( aLogger, "dbtools", "Ocke.Janssen@sun.com", "ORowSetValue::fill (3)" );
switch (_rValue.getValueType().getTypeClass())
{
case TypeClass_VOID:
setNull();
break;
case TypeClass_BOOLEAN:
{
sal_Bool bValue( sal_False );
_rValue >>= bValue;
(*this) = bValue;
break;
}
case TypeClass_CHAR:
{
sal_Unicode aDummy(0);
_rValue >>= aDummy;
(*this) = ::rtl::OUString(aDummy);
break;
}
case TypeClass_STRING:
{
::rtl::OUString sDummy;
_rValue >>= sDummy;
(*this) = sDummy;
break;
}
case TypeClass_FLOAT:
{
float aDummy;
_rValue >>= aDummy;
(*this) = aDummy;
break;
}
case TypeClass_DOUBLE:
{
double aDummy;
_rValue >>= aDummy;
(*this) = aDummy;
break;
}
case TypeClass_BYTE:
{
sal_Int8 aDummy;
_rValue >>= aDummy;
(*this) = aDummy;
break;
}
case TypeClass_SHORT:
{
sal_Int16 aDummy;
_rValue >>= aDummy;
(*this) = aDummy;
break;
}
case TypeClass_LONG:
{
sal_Int32 aDummy;
_rValue >>= aDummy;
(*this) = aDummy;
break;
}
case TypeClass_UNSIGNED_SHORT:
{
sal_uInt16 nValue(0);
_rValue >>= nValue;
(*this) = static_cast<sal_Int32>(nValue);
setSigned(sal_False);
break;
}
case TypeClass_HYPER:
{
sal_Int64 nValue(0);
_rValue >>= nValue;
(*this) = nValue;
break;
}
case TypeClass_UNSIGNED_HYPER:
{
sal_uInt64 nValue(0);
_rValue >>= nValue;
(*this) = static_cast<sal_Int64>(nValue);
setSigned(sal_False);
break;
}
case TypeClass_UNSIGNED_LONG:
{
sal_uInt32 nValue(0);
_rValue >>= nValue;
(*this) = static_cast<sal_Int64>(nValue);
setSigned(sal_False);
break;
}
case TypeClass_ENUM:
{
sal_Int32 enumValue( 0 );
::cppu::enum2int( enumValue, _rValue );
(*this) = enumValue;
}
break;
case TypeClass_SEQUENCE:
{
Sequence<sal_Int8> aDummy;
if ( _rValue >>= aDummy )
(*this) = aDummy;
else
OSL_ENSURE( false, "ORowSetValue::fill: unsupported sequence type!" );
break;
}
case TypeClass_STRUCT:
{
::com::sun::star::util::Date aDate;
::com::sun::star::util::Time aTime;
::com::sun::star::util::DateTime aDateTime;
if ( _rValue >>= aDate )
{
(*this) = aDate;
}
else if ( _rValue >>= aTime )
{
(*this) = aTime;
}
else if ( _rValue >>= aDateTime )
{
(*this) = aDateTime;
}
else
OSL_ENSURE( false, "ORowSetValue::fill: unsupported structure!" );
break;
}
case TypeClass_INTERFACE:
{
Reference< XClob > xClob;
if ( _rValue >>= xClob )
{
(*this) = _rValue;
setTypeKind(DataType::CLOB);
}
else
{
Reference< XBlob > xBlob;
if ( _rValue >>= xBlob )
{
(*this) = _rValue;
setTypeKind(DataType::BLOB);
}
else
{
(*this) = _rValue;
}
}
}
break;
default:
OSL_ENSURE(0,"Unknown type");
break;
}
}
} // namespace connectivity