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858 | /* -*- 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/any.hxx>
#include <o3tl/safeint.hxx>
#include <osl/diagnose.h>
#include <cppuhelper/implbase.hxx>
#include <cppuhelper/supportsservice.hxx>
#include <typelib/typedescription.hxx>
#include <uno/data.h>
#ifdef _WIN32
#include <cmath>
#else
#include <math.h>
#endif
#include <float.h>
#include <com/sun/star/lang/IllegalArgumentException.hpp>
#include <com/sun/star/lang/XServiceInfo.hpp>
#include <com/sun/star/script/CannotConvertException.hpp>
#include <com/sun/star/script/XTypeConverter.hpp>
#include <com/sun/star/script/FailReason.hpp>
namespace com::sun::star::uno { class XComponentContext; }
using namespace css::uno;
using namespace css::lang;
using namespace css::script;
using namespace cppu;
using namespace osl;
namespace stoc_tcv
{
static double round( double aVal )
{
bool bPos = (aVal >= 0.0);
aVal = ::fabs( aVal );
double aUpper = ::ceil( aVal );
aVal = ((aUpper-aVal) <= 0.5) ? aUpper : (aUpper - 1.0);
return (bPos ? aVal : -aVal);
}
static bool getNumericValue( double & rfVal, const OUString & rStr )
{
double fRet = rStr.toDouble();
if (fRet == 0.0)
{
sal_Int32 nLen = rStr.getLength();
if (!nLen || (nLen == 1 && rStr[0] == '0')) // common case
{
rfVal = 0.0;
return true;
}
OUString trim( rStr.trim() );
// try hex
sal_Int32 nX = trim.indexOf( 'x' );
if (nX < 0)
nX = trim.indexOf( 'X' );
if (nX > 0 && trim[nX-1] == '0') // 0x
{
bool bNeg = false;
switch (nX)
{
case 2: // (+|-)0x...
if (trim[0] == '-')
bNeg = true;
else if (trim[0] != '+')
return false;
break;
case 1: // 0x...
break;
default:
return false;
}
OUString aHexRest( trim.copy( nX+1 ) );
sal_uInt64 nRet = aHexRest.toUInt64( 16 );
if (nRet == 0)
{
for ( sal_Int32 nPos = aHexRest.getLength(); nPos--; )
{
if (aHexRest[nPos] != '0')
return false;
}
}
rfVal = (bNeg ? -static_cast<double>(nRet) : static_cast<double>(nRet));
return true;
}
nLen = trim.getLength();
sal_Int32 nPos = 0;
// skip +/-
if (nLen && (trim[0] == '-' || trim[0] == '+'))
++nPos;
while (nPos < nLen) // skip leading zeros
{
if (trim[nPos] != '0')
{
if (trim[nPos] != '.')
return false;
++nPos;
while (nPos < nLen) // skip trailing zeros
{
if (trim[nPos] != '0')
return false;
++nPos;
}
break;
}
++nPos;
}
}
rfVal = fRet;
return true;
}
static bool getHyperValue( sal_Int64 & rnVal, const OUString & rStr )
{
sal_Int32 nLen = rStr.getLength();
if (!nLen || (nLen == 1 && rStr[0] == '0')) // common case
{
rnVal = 0;
return true;
}
OUString trim( rStr.trim() );
// try hex
sal_Int32 nX = trim.indexOf( 'x' );
if (nX < 0)
nX = trim.indexOf( 'X' );
if (nX >= 0)
{
if (nX > 0 && trim[nX-1] == '0') // 0x
{
bool bNeg = false;
switch (nX)
{
case 2: // (+|-)0x...
if (trim[0] == '-')
bNeg = true;
else if (trim[0] != '+')
return false;
break;
case 1: // 0x...
break;
default:
return false;
}
OUString aHexRest( trim.copy( nX+1 ) );
sal_uInt64 nRet = aHexRest.toUInt64( 16 );
if (nRet == 0)
{
for ( sal_Int32 nPos = aHexRest.getLength(); nPos--; )
{
if (aHexRest[nPos] != '0')
return false;
}
}
rnVal = (bNeg ? -static_cast<sal_Int64>(nRet) : nRet);
return true;
}
return false;
}
double fVal;
if (getNumericValue( fVal, rStr ) &&
fVal >= double(SAL_MIN_INT64) &&
fVal <= double(SAL_MAX_UINT64))
{
rnVal = static_cast<sal_Int64>(round( fVal ));
return true;
}
return false;
}
namespace {
class TypeConverter_Impl : public WeakImplHelper< XTypeConverter, XServiceInfo >
{
// ...misc helpers...
/// @throws CannotConvertException
static sal_Int64 toHyper(
const Any& rAny, sal_Int64 min, sal_uInt64 max = SAL_MAX_UINT64 );
/// @throws CannotConvertException
static double toDouble( const Any& rAny, double min = -DBL_MAX, double max = DBL_MAX );
public:
TypeConverter_Impl();
// XServiceInfo
virtual OUString SAL_CALL getImplementationName() override;
virtual sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override;
virtual Sequence< OUString > SAL_CALL getSupportedServiceNames() override;
// XTypeConverter
virtual Any SAL_CALL convertTo( const Any& aFrom, const Type& DestinationType ) override;
virtual Any SAL_CALL convertToSimpleType( const Any& aFrom, TypeClass aDestinationType ) override;
};
}
TypeConverter_Impl::TypeConverter_Impl() {}
// XServiceInfo
OUString TypeConverter_Impl::getImplementationName()
{
return "com.sun.star.comp.stoc.TypeConverter";
}
// XServiceInfo
sal_Bool TypeConverter_Impl::supportsService(const OUString& ServiceName)
{
return cppu::supportsService(this, ServiceName);
}
// XServiceInfo
Sequence< OUString > TypeConverter_Impl::getSupportedServiceNames()
{
return { "com.sun.star.script.Converter" };
}
sal_Int64 TypeConverter_Impl::toHyper( const Any& rAny, sal_Int64 min, sal_uInt64 max )
{
sal_Int64 nRet;
TypeClass aDestinationClass = rAny.getValueTypeClass();
switch (aDestinationClass)
{
// ENUM
case TypeClass_ENUM:
nRet = *static_cast<sal_Int32 const *>(rAny.getValue());
break;
// BOOL
case TypeClass_BOOLEAN:
nRet = *o3tl::forceAccess<bool>(rAny) ? 1 : 0;
break;
// CHAR, BYTE
case TypeClass_CHAR:
nRet = *o3tl::forceAccess<sal_Unicode>(rAny);
break;
case TypeClass_BYTE:
nRet = *o3tl::forceAccess<sal_Int8>(rAny);
break;
// SHORT
case TypeClass_SHORT:
nRet = *o3tl::forceAccess<sal_Int16>(rAny);
break;
// UNSIGNED SHORT
case TypeClass_UNSIGNED_SHORT:
nRet = *o3tl::forceAccess<sal_uInt16>(rAny);
break;
// LONG
case TypeClass_LONG:
nRet = *o3tl::forceAccess<sal_Int32>(rAny);
break;
// UNSIGNED LONG
case TypeClass_UNSIGNED_LONG:
nRet = *o3tl::forceAccess<sal_uInt32>(rAny);
break;
// HYPER
case TypeClass_HYPER:
nRet = *o3tl::forceAccess<sal_Int64>(rAny);
break;
// UNSIGNED HYPER
case TypeClass_UNSIGNED_HYPER:
{
auto const n = *o3tl::forceAccess<sal_uInt64>(rAny);
if ((min < 0 || n >= o3tl::make_unsigned(min)) && // lower bound
n <= max) // upper bound
{
return static_cast<sal_Int64>(n);
}
throw CannotConvertException(
"UNSIGNED HYPER out of range!",
Reference<XInterface>(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
// FLOAT, DOUBLE
case TypeClass_FLOAT:
{
double fVal = round( *o3tl::forceAccess<float>(rAny) );
if (fVal >= min && fVal <= max)
{
nRet = (fVal >= 0.0 ? static_cast<sal_Int64>(static_cast<sal_uInt64>(fVal)) : static_cast<sal_Int64>(fVal));
return nRet;
}
throw CannotConvertException(
"FLOAT out of range!",
Reference<XInterface>(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
case TypeClass_DOUBLE:
{
double fVal = round( *o3tl::forceAccess<double>(rAny) );
if (fVal >= min && fVal <= max)
{
nRet = (fVal >= 0.0 ? static_cast<sal_Int64>(static_cast<sal_uInt64>(fVal)) : static_cast<sal_Int64>(fVal));
return nRet;
}
throw CannotConvertException(
"DOUBLE out of range!",
Reference<XInterface>(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
// STRING
case TypeClass_STRING:
{
sal_Int64 nVal = SAL_CONST_INT64(0);
if (! getHyperValue( nVal, *o3tl::forceAccess<OUString>(rAny) ))
{
throw CannotConvertException(
"invalid STRING value!",
Reference<XInterface>(), aDestinationClass, FailReason::IS_NOT_NUMBER, 0 );
}
nRet = nVal;
if (nVal >= min && (nVal < 0 || o3tl::make_unsigned(nVal) <= max))
return nRet;
throw CannotConvertException(
"STRING value out of range!",
Reference<XInterface>(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
default:
throw CannotConvertException(
"TYPE is not supported!",
Reference<XInterface>(), aDestinationClass, FailReason::TYPE_NOT_SUPPORTED, 0 );
}
if (nRet >= min && (nRet < 0 || o3tl::make_unsigned(nRet) <= max))
return nRet;
throw CannotConvertException(
"VALUE is out of range!",
Reference<XInterface>(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
double TypeConverter_Impl::toDouble( const Any& rAny, double min, double max )
{
double fRet;
TypeClass aDestinationClass = rAny.getValueTypeClass();
switch (aDestinationClass)
{
// ENUM
case TypeClass_ENUM:
fRet = *static_cast<sal_Int32 const *>(rAny.getValue());
break;
// BOOL
case TypeClass_BOOLEAN:
fRet = *o3tl::forceAccess<bool>(rAny) ? 1.0 : 0.0;
break;
// CHAR, BYTE
case TypeClass_CHAR:
fRet = *o3tl::forceAccess<sal_Unicode>(rAny);
break;
case TypeClass_BYTE:
fRet = *o3tl::forceAccess<sal_Int8>(rAny);
break;
// SHORT
case TypeClass_SHORT:
fRet = *o3tl::forceAccess<sal_Int16>(rAny);
break;
// UNSIGNED SHORT
case TypeClass_UNSIGNED_SHORT:
fRet = *o3tl::forceAccess<sal_uInt16>(rAny);
break;
// LONG
case TypeClass_LONG:
fRet = *o3tl::forceAccess<sal_Int32>(rAny);
break;
// UNSIGNED LONG
case TypeClass_UNSIGNED_LONG:
fRet = *o3tl::forceAccess<sal_uInt32>(rAny);
break;
// HYPER
case TypeClass_HYPER:
fRet = static_cast<double>(*o3tl::forceAccess<sal_Int64>(rAny));
break;
// UNSIGNED HYPER
case TypeClass_UNSIGNED_HYPER:
fRet = static_cast<double>(*o3tl::forceAccess<sal_uInt64>(rAny));
break;
// FLOAT, DOUBLE
case TypeClass_FLOAT:
fRet = *o3tl::forceAccess<float>(rAny);
break;
case TypeClass_DOUBLE:
fRet = *o3tl::forceAccess<double>(rAny);
break;
// STRING
case TypeClass_STRING:
{
if (! getNumericValue( fRet, *o3tl::forceAccess<OUString>(rAny) ))
{
throw CannotConvertException(
"invalid STRING value!",
Reference<XInterface>(), aDestinationClass, FailReason::IS_NOT_NUMBER, 0 );
}
break;
}
default:
throw CannotConvertException(
"TYPE is not supported!",
Reference< XInterface >(), aDestinationClass, FailReason::TYPE_NOT_SUPPORTED, 0 );
}
if (fRet >= min && fRet <= max)
return fRet;
throw CannotConvertException(
"VALUE is out of range!",
Reference< XInterface >(), aDestinationClass, FailReason::OUT_OF_RANGE, 0 );
}
Any SAL_CALL TypeConverter_Impl::convertTo( const Any& rVal, const Type& aDestType )
{
const Type& aSourceType = rVal.getValueType();
if (aSourceType == aDestType)
return rVal;
TypeClass aSourceClass = aSourceType.getTypeClass();
TypeClass aDestinationClass = aDestType.getTypeClass();
Any aRet;
// convert to...
switch (aDestinationClass)
{
// --- to VOID ------------------------------------------------------------------------------
case TypeClass_VOID:
return Any();
// --- to ANY -------------------------------------------------------------------------------
case TypeClass_ANY:
return rVal;
// --- to STRUCT, EXCEPTION ----------------------------------------------------------
case TypeClass_STRUCT:
case TypeClass_EXCEPTION:
{
// same types or destination type is derived source type?
TypeDescription aSourceTD( aSourceType );
TypeDescription aDestTD( aDestType );
if (!typelib_typedescription_isAssignableFrom( aDestTD.get(), aSourceTD.get() ))
{
throw CannotConvertException(
"value is not of same or derived type!",
Reference< XInterface >(), aDestinationClass,
FailReason::SOURCE_IS_NO_DERIVED_TYPE, 0 );
}
aRet.setValue( rVal.getValue(), aDestTD.get() ); // evtl. .uP.cAsT.
break;
}
// --- to INTERFACE -------------------------------------------------------------------------
case TypeClass_INTERFACE:
{
if (! rVal.hasValue())
{
// void -> interface (null)
void * null_ref = nullptr;
aRet.setValue( &null_ref, aDestType );
break;
}
auto ifc = o3tl::tryAccess<css::uno::Reference<css::uno::XInterface>>(
rVal);
if (!ifc || !ifc->is())
{
throw CannotConvertException(
"value is not interface",
Reference< XInterface >(), aDestinationClass, FailReason::NO_SUCH_INTERFACE, 0 );
}
aRet = (*ifc)->queryInterface(aDestType );
if (! aRet.hasValue())
{
throw CannotConvertException(
"value does not implement " + aDestType.getTypeName(),
Reference< XInterface >(), aDestinationClass, FailReason::NO_SUCH_INTERFACE, 0 );
}
break;
}
// --- to SEQUENCE --------------------------------------------------------------------------
case TypeClass_SEQUENCE:
{
if (aSourceClass==TypeClass_SEQUENCE)
{
if( aSourceType == aDestType )
return rVal;
TypeDescription aSourceTD( aSourceType );
TypeDescription aDestTD( aDestType );
typelib_TypeDescription * pSourceElementTD = nullptr;
TYPELIB_DANGER_GET(
&pSourceElementTD,
reinterpret_cast<typelib_IndirectTypeDescription *>(aSourceTD.get())->pType );
typelib_TypeDescription * pDestElementTD = nullptr;
TYPELIB_DANGER_GET(
&pDestElementTD,
reinterpret_cast<typelib_IndirectTypeDescription *>(aDestTD.get())->pType );
sal_uInt32 nPos = (*static_cast<const uno_Sequence * const *>(rVal.getValue()))->nElements;
uno_Sequence * pRet = nullptr;
uno_sequence_construct(
&pRet, aDestTD.get(), nullptr, nPos,
reinterpret_cast< uno_AcquireFunc >(cpp_acquire) );
aRet.setValue( &pRet, aDestTD.get() );
uno_destructData(
&pRet, aDestTD.get(),
reinterpret_cast< uno_ReleaseFunc >(cpp_release) );
// decr ref count
char * pDestElements = (*static_cast<uno_Sequence * const *>(aRet.getValue()))->elements;
const char * pSourceElements =
(*static_cast<const uno_Sequence * const *>(rVal.getValue()))->elements;
while (nPos--)
{
char * pDestPos = pDestElements + (nPos * pDestElementTD->nSize);
const char * pSourcePos = pSourceElements + (nPos * pSourceElementTD->nSize);
Any aElement(
convertTo( Any( pSourcePos, pSourceElementTD ), pDestElementTD->pWeakRef ) );
if (!uno_assignData(
pDestPos, pDestElementTD,
(pDestElementTD->eTypeClass == typelib_TypeClass_ANY
? &aElement
: const_cast< void * >( aElement.getValue() )),
pDestElementTD,
reinterpret_cast< uno_QueryInterfaceFunc >(
cpp_queryInterface),
reinterpret_cast< uno_AcquireFunc >(cpp_acquire),
reinterpret_cast< uno_ReleaseFunc >(cpp_release) ))
{
OSL_ASSERT( false );
}
}
TYPELIB_DANGER_RELEASE( pDestElementTD );
TYPELIB_DANGER_RELEASE( pSourceElementTD );
}
break;
}
// --- to ENUM ------------------------------------------------------------------------------
case TypeClass_ENUM:
{
TypeDescription aEnumTD( aDestType );
aEnumTD.makeComplete();
sal_Int32 nPos = -1;
if (aSourceClass==TypeClass_STRING)
{
for ( nPos = reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->nEnumValues; nPos--; )
{
if (o3tl::forceAccess<OUString>(rVal)->equalsIgnoreAsciiCase(
reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->ppEnumNames[nPos] ))
break;
}
}
else if (aSourceClass!=TypeClass_ENUM && // exclude some unwanted types for toHyper()
aSourceClass!=TypeClass_BOOLEAN &&
aSourceClass!=TypeClass_CHAR)
{
sal_Int32 nEnumValue = static_cast<sal_Int32>(toHyper( rVal, -sal_Int64(0x80000000), 0x7fffffff ));
for ( nPos = reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->nEnumValues; nPos--; )
{
if (nEnumValue == reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->pEnumValues[nPos])
break;
}
}
if (nPos < 0)
{
throw CannotConvertException(
"value cannot be converted to demanded ENUM!",
Reference< XInterface >(), aDestinationClass, FailReason::IS_NOT_ENUM, 0 );
}
aRet.setValue(
&reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->pEnumValues[nPos],
aEnumTD.get() );
break;
}
default:
// else simple type conversion possible?
try
{
aRet = convertToSimpleType( rVal, aDestinationClass );
}
catch (IllegalArgumentException &)
{
// ...FailReason::INVALID is thrown
}
}
if (aRet.hasValue())
return aRet;
throw CannotConvertException(
"conversion not possible!",
Reference< XInterface >(), aDestinationClass, FailReason::INVALID, 0 );
}
Any TypeConverter_Impl::convertToSimpleType( const Any& rVal, TypeClass aDestinationClass )
{
switch (aDestinationClass)
{
// only simple Conversion of _simple_ types
case TypeClass_VOID:
case TypeClass_BOOLEAN:
case TypeClass_BYTE:
case TypeClass_SHORT:
case TypeClass_UNSIGNED_SHORT:
case TypeClass_LONG:
case TypeClass_UNSIGNED_LONG:
case TypeClass_HYPER:
case TypeClass_UNSIGNED_HYPER:
case TypeClass_FLOAT:
case TypeClass_DOUBLE:
case TypeClass_CHAR:
case TypeClass_STRING:
case TypeClass_ANY:
break;
default:
throw IllegalArgumentException(
"destination type is not simple!",
Reference< XInterface >(), sal_Int16(1) );
}
const Type& aSourceType = rVal.getValueType();
TypeClass aSourceClass = aSourceType.getTypeClass();
if (aDestinationClass == aSourceClass)
return rVal;
Any aRet;
// Convert to...
switch (aDestinationClass)
{
// --- to VOID ------------------------------------------------------------------------------
case TypeClass_VOID:
return Any();
// --- to ANY -------------------------------------------------------------------------------
case TypeClass_ANY:
return rVal;
// --- to BOOL ------------------------------------------------------------------------------
case TypeClass_BOOLEAN:
switch (aSourceClass)
{
default:
aRet <<= (toDouble( rVal ) != 0.0);
break;
case TypeClass_ENUM: // exclude enums
break;
case TypeClass_STRING:
{
const OUString & aStr = *o3tl::forceAccess<OUString>(rVal);
if ( aStr == "0" || aStr.equalsIgnoreAsciiCase( "false" ))
{
aRet <<= false;
}
else if ( aStr == "1" || aStr.equalsIgnoreAsciiCase( "true" ))
{
aRet <<= true;
}
else
{
throw CannotConvertException(
"STRING has no boolean value, " + aStr,
Reference< XInterface >(), aDestinationClass, FailReason::IS_NOT_BOOL, 0 );
}
}
}
break;
// --- to CHAR, BYTE ------------------------------------------------------------------------
case TypeClass_CHAR:
{
if (aSourceClass==TypeClass_STRING)
{
auto const s = o3tl::forceAccess<OUString>(rVal);
if (s->getLength() == 1) // single char
aRet <<= (*s)[0];
}
else if (aSourceClass!=TypeClass_ENUM && // exclude enums, chars
aSourceClass!=TypeClass_CHAR)
{
aRet <<= sal_Unicode(toHyper( rVal, 0, 0xffff )); // range
}
break;
}
case TypeClass_BYTE:
aRet <<= static_cast<sal_Int8>( toHyper( rVal, -sal_Int64(0x80), 0x7f ) );
break;
// --- to SHORT, UNSIGNED SHORT -------------------------------------------------------------
case TypeClass_SHORT:
aRet <<= static_cast<sal_Int16>( toHyper( rVal, -sal_Int64(0x8000), 0x7fff ) );
break;
case TypeClass_UNSIGNED_SHORT:
aRet <<= static_cast<sal_uInt16>( toHyper( rVal, 0, 0xffff ) );
break;
// --- to LONG, UNSIGNED LONG ---------------------------------------------------------------
case TypeClass_LONG:
aRet <<= static_cast<sal_Int32>( toHyper( rVal, -sal_Int64(0x80000000), 0x7fffffff ) );
break;
case TypeClass_UNSIGNED_LONG:
aRet <<= static_cast<sal_uInt32>( toHyper( rVal, 0, 0xffffffff ) );
break;
// --- to HYPER, UNSIGNED HYPER--------------------------------------------
case TypeClass_HYPER:
aRet <<= toHyper( rVal, SAL_MIN_INT64, SAL_MAX_INT64 );
break;
case TypeClass_UNSIGNED_HYPER:
aRet <<= static_cast<sal_uInt64>( toHyper( rVal, 0 ) );
break;
// --- to FLOAT, DOUBLE ---------------------------------------------------------------------
case TypeClass_FLOAT:
aRet <<= static_cast<float>( toDouble( rVal, -FLT_MAX, FLT_MAX ) );
break;
case TypeClass_DOUBLE:
aRet <<= toDouble( rVal, -DBL_MAX, DBL_MAX );
break;
// --- to STRING ----------------------------------------------------------------------------
case TypeClass_STRING:
switch (aSourceClass)
{
case TypeClass_ENUM:
{
TypeDescription aEnumTD( aSourceType );
aEnumTD.makeComplete();
sal_Int32 nPos;
sal_Int32 nEnumValue = *static_cast<sal_Int32 const *>(rVal.getValue());
for ( nPos = reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->nEnumValues; nPos--; )
{
if (nEnumValue == reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->pEnumValues[nPos])
break;
}
if (nPos < 0)
{
throw CannotConvertException(
"value is not ENUM!",
Reference< XInterface >(), aDestinationClass, FailReason::IS_NOT_ENUM, 0 );
}
aRet <<= OUString::unacquired(
&reinterpret_cast<typelib_EnumTypeDescription *>(aEnumTD.get())->ppEnumNames[nPos]);
break;
}
case TypeClass_BOOLEAN:
aRet <<= *o3tl::forceAccess<bool>(rVal) ?
OUString("true") :
OUString("false");
break;
case TypeClass_CHAR:
aRet <<= OUString(*o3tl::forceAccess<sal_Unicode>(rVal));
break;
case TypeClass_BYTE:
aRet <<= OUString::number( *o3tl::forceAccess<sal_Int8>(rVal) );
break;
case TypeClass_SHORT:
aRet <<= OUString::number( *o3tl::forceAccess<sal_Int16>(rVal) );
break;
case TypeClass_UNSIGNED_SHORT:
aRet <<= OUString::number( *o3tl::forceAccess<sal_uInt16>(rVal) );
break;
case TypeClass_LONG:
aRet <<= OUString::number( *o3tl::forceAccess<sal_Int32>(rVal) );
break;
case TypeClass_UNSIGNED_LONG:
aRet <<= OUString::number( *o3tl::forceAccess<sal_uInt32>(rVal) );
break;
case TypeClass_HYPER:
aRet <<= OUString::number( *o3tl::forceAccess<sal_Int64>(rVal) );
break;
// case TypeClass_UNSIGNED_HYPER:
// aRet <<= OUString::valueOf( (sal_Int64)*(sal_uInt64 const *)rVal.getValue() );
// break;
// handle unsigned hyper like double
default:
aRet <<= OUString::number( toDouble( rVal ) );
}
break;
default:
OSL_ASSERT(false);
break;
}
if (aRet.hasValue())
return aRet;
throw CannotConvertException(
"conversion not possible!",
Reference< XInterface >(), aDestinationClass, FailReason::INVALID, 0 );
}
}
extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface*
com_sun_star_comp_stoc_TypeConverter_get_implementation(css::uno::XComponentContext*,<--- The function 'com_sun_star_comp_stoc_TypeConverter_get_implementation' is never used.
css::uno::Sequence<css::uno::Any> const &)
{
return ::cppu::acquire(new stoc_tcv::TypeConverter_Impl());
}
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