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libreoffice/xmloff/source/style/xmlimppr.cxx
Daniel Baumann 8e63e14cf6
Adding upstream version 4:25.2.3. 
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
2025-06-22 16:20:04 +02:00

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/* -*- 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 <com/sun/star/xml/AttributeData.hpp>
#include <com/sun/star/beans/XMultiPropertySet.hpp>
#include <com/sun/star/lang/IllegalArgumentException.hpp>
#include <com/sun/star/lang/WrappedTargetException.hpp>
#include <com/sun/star/beans/UnknownPropertyException.hpp>
#include <com/sun/star/beans/PropertyVetoException.hpp>
#include <com/sun/star/beans/TolerantPropertySetResultType.hpp>
#include <com/sun/star/beans/XTolerantMultiPropertySet.hpp>
#include <com/sun/star/beans/XPropertySet.hpp>
#include <sal/log.hxx>
#include <osl/diagnose.h>
#include <utility>
#include <xmloff/xmlprmap.hxx>
#include <xmloff/namespacemap.hxx>
#include <xmloff/xmlimppr.hxx>
#include <xmloff/xmlimp.hxx>
#include <xmloff/unoatrcn.hxx>
#include <xmloff/xmlnamespace.hxx>
#include <xmloff/xmltoken.hxx>
#include <xmloff/xmlerror.hxx>
#include <xmloff/xmltypes.hxx>
#include <xmloff/maptype.hxx>
#include <algorithm>
#include <vector>
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::beans;
using namespace ::com::sun::star::container;
using namespace ::com::sun::star::xml;
using namespace ::com::sun::star::xml::sax;
using namespace ::xmloff::token;
using ::com::sun::star::lang::IllegalArgumentException;
using ::com::sun::star::lang::WrappedTargetException;
using ::com::sun::star::beans::UnknownPropertyException;
using ::com::sun::star::beans::PropertyVetoException;
SvXMLImportPropertyMapper::SvXMLImportPropertyMapper(
rtl::Reference< XMLPropertySetMapper > xMapper,
SvXMLImport& rImp ):
m_rImport(rImp),
maPropMapper (std::move( xMapper ))
{
}
SvXMLImportPropertyMapper::~SvXMLImportPropertyMapper()
{
mxNextMapper = nullptr;
}
void SvXMLImportPropertyMapper::ChainImportMapper(
const rtl::Reference< SvXMLImportPropertyMapper>& rMapper )
{
// add map entries from rMapper to current map
maPropMapper->AddMapperEntry( rMapper->getPropertySetMapper() );
// rMapper uses the same map as 'this'
rMapper->maPropMapper = maPropMapper;
// set rMapper as last mapper in current chain
rtl::Reference< SvXMLImportPropertyMapper > xNext = mxNextMapper;
if( xNext.is())
{
while( xNext->mxNextMapper.is())
xNext = xNext->mxNextMapper;
xNext->mxNextMapper = rMapper;
}
else
mxNextMapper = rMapper;
// if rMapper was already chained, correct
// map pointer of successors
xNext = rMapper;
while( xNext->mxNextMapper.is())
{
xNext = xNext->mxNextMapper;
xNext->maPropMapper = maPropMapper;
}
}
/** fills the given itemset with the attributes in the given list */
void SvXMLImportPropertyMapper::importXML(
std::vector< XMLPropertyState >& rProperties,
const Reference< XFastAttributeList >& xAttrList,
const SvXMLUnitConverter& rUnitConverter,
const SvXMLNamespaceMap& rNamespaceMap,
sal_uInt32 nPropType,
sal_Int32 nStartIdx,
sal_Int32 nEndIdx ) const
{
Reference< XNameContainer > xAttrContainer;
if( -1 == nStartIdx )
nStartIdx = 0;
if( -1 == nEndIdx )
nEndIdx = maPropMapper->GetEntryCount();
for (auto &aIter : sax_fastparser::castToFastAttributeList( xAttrList ))
{
sal_Int32 nToken = aIter.getToken();
if( IsTokenInNamespace(nToken, XML_NAMESPACE_XMLNS) )
continue;
const OUString aPrefix = SvXMLImport::getNamespacePrefixFromToken(nToken, &rNamespaceMap);
const OUString aNamespaceURI = SvXMLImport::getNamespaceURIFromToken(nToken);
OUString sAttrName = SvXMLImport::getNameFromToken( nToken );
if ( !aPrefix.isEmpty() )
sAttrName = aPrefix + SvXMLImport::aNamespaceSeparator + sAttrName;
const OUString sValue = aIter.toString();
importXMLAttribute(rProperties, rUnitConverter, rNamespaceMap,
nPropType, nStartIdx, nEndIdx, xAttrContainer,
sAttrName, aNamespaceURI, sValue);
}
const css::uno::Sequence< css::xml::Attribute > unknownAttribs = xAttrList->getUnknownAttributes();
for (const css::xml::Attribute& rAttribute : unknownAttribs)
{
int nSepIndex = rAttribute.Name.indexOf(SvXMLImport::aNamespaceSeparator);
if (nSepIndex != -1)
{
// If it's an unknown attribute in a known namespace, ignore it.
OUString aPrefix = rAttribute.Name.copy(0, nSepIndex);
auto nKey = rNamespaceMap.GetKeyByPrefix(aPrefix);
if (nKey != USHRT_MAX && !(nKey & XML_NAMESPACE_UNKNOWN_FLAG))
continue;
}
importXMLAttribute(rProperties, rUnitConverter, rNamespaceMap,
nPropType, nStartIdx, nEndIdx, xAttrContainer,
rAttribute.Name, rAttribute.NamespaceURL, rAttribute.Value);
}
finished( rProperties, nStartIdx, nEndIdx );
}
void SvXMLImportPropertyMapper::importXMLAttribute(
std::vector< XMLPropertyState >& rProperties,
const SvXMLUnitConverter& rUnitConverter,
const SvXMLNamespaceMap& rNamespaceMap,
const sal_uInt32 nPropType,
const sal_Int32 nStartIdx,
const sal_Int32 nEndIdx,
Reference< XNameContainer >& xAttrContainer,
const OUString& rAttrName,
const OUString& aNamespaceURI,
const OUString& sValue) const
{
OUString aLocalName, aPrefix, aNamespace;
sal_uInt16 nPrefix = rNamespaceMap.GetKeyByAttrName( rAttrName, &aPrefix,
&aLocalName, &aNamespace );
// index of actual property map entry
// This looks very strange, but it works well:
// If the start index is 0, the new value will become -1, and
// GetEntryIndex will start searching with position 0.
// Otherwise GetEntryIndex will start with the next position specified.
sal_Int32 nIndex = nStartIdx - 1;
sal_uInt32 nFlags = 0; // flags of actual property map entry
bool bFound = false;
// for better error reporting: this should be set true if no
// warning is needed
bool bNoWarning = false;
do
{
// find an entry for this attribute
nIndex = maPropMapper->GetEntryIndex( nPrefix, aLocalName,
nPropType, nIndex );
if( nIndex > -1 && nIndex < nEndIdx )
{
// create a XMLPropertyState with an empty value
nFlags = maPropMapper->GetEntryFlags( nIndex );
if( ( nFlags & MID_FLAG_ELEMENT_ITEM_IMPORT ) == 0 )
{
XMLPropertyState aNewProperty( nIndex );
sal_Int32 nReference = -1;
// if this is a multi attribute check if another attribute already set
// this any. If so use this as an initial value
if( ( nFlags & MID_FLAG_MERGE_PROPERTY ) != 0 )
{
const OUString aAPIName( maPropMapper->GetEntryAPIName( nIndex ) );
const sal_Int32 nSize = rProperties.size();
for( nReference = 0; nReference < nSize; nReference++ )
{
sal_Int32 nRefIdx = rProperties[nReference].mnIndex;
if( (nRefIdx != -1) && (nIndex != nRefIdx) &&
(maPropMapper->GetEntryAPIName( nRefIdx ) == aAPIName ))
{
aNewProperty = rProperties[nReference];
aNewProperty.mnIndex = nIndex;
break;
}
}
if( nReference == nSize )
nReference = -1;
}
bool bSet = false;
if( ( nFlags & MID_FLAG_SPECIAL_ITEM_IMPORT ) == 0 )
{
// let the XMLPropertySetMapper decide how to import the value
bSet = maPropMapper->importXML( sValue, aNewProperty,
rUnitConverter );
}
else
{
sal_uInt32 nOldSize = rProperties.size();
bSet = handleSpecialItem( aNewProperty, rProperties,
sValue, rUnitConverter,
rNamespaceMap );
// no warning if handleSpecialItem added properties
bNoWarning |= ( nOldSize != rProperties.size() );
}
// no warning if we found could set the item. This
// 'remembers' bSet across multi properties.
bNoWarning |= bSet;
// store the property in the given vector
if( bSet )
{
if( nReference == -1 )
rProperties.push_back( aNewProperty );
else
rProperties[nReference] = std::move(aNewProperty);
}
else
{
// warn about unknown value. Unless it's a
// multi property: Then we get another chance
// to set the value.
if( !bNoWarning &&
((nFlags & MID_FLAG_MULTI_PROPERTY) == 0) )
{
m_rImport.SetError( XMLERROR_FLAG_WARNING |
XMLERROR_STYLE_ATTR_VALUE,
{ rAttrName, sValue } );
}
}
}
bFound = true;
continue;
}
if( !bFound )
{
SAL_INFO_IF((XML_NAMESPACE_NONE != nPrefix) &&
!(XML_NAMESPACE_UNKNOWN_FLAG & nPrefix),
"xmloff.style",
"unknown attribute: \"" << rAttrName << "\"");
if( (XML_NAMESPACE_UNKNOWN_FLAG & nPrefix) || (XML_NAMESPACE_NONE == nPrefix) )
{
if( !xAttrContainer.is() )
{
// add an unknown attribute container to the properties
xAttrContainer.set(SvUnoAttributeContainer_CreateInstance(), UNO_QUERY);
// find map entry and create new property state
if( -1 == nIndex )
{
switch( nPropType )
{
case XML_TYPE_PROP_CHART:
nIndex = maPropMapper->FindEntryIndex( "ChartUserDefinedAttributes", XML_NAMESPACE_TEXT, GetXMLToken(XML_XMLNS) );
break;
case XML_TYPE_PROP_PARAGRAPH:
nIndex = maPropMapper->FindEntryIndex( "ParaUserDefinedAttributes", XML_NAMESPACE_TEXT, GetXMLToken(XML_XMLNS) );
break;
case XML_TYPE_PROP_TEXT:
nIndex = maPropMapper->FindEntryIndex( "TextUserDefinedAttributes", XML_NAMESPACE_TEXT, GetXMLToken(XML_XMLNS) );
break;
default:
break;
}
// other property type or property not found
if( -1 == nIndex )
nIndex = maPropMapper->FindEntryIndex( "UserDefinedAttributes", XML_NAMESPACE_TEXT, GetXMLToken(XML_XMLNS) );
}
// #106963#; use userdefined attribute only if it is in the specified property range
if( nIndex != -1 && nIndex >= nStartIdx && nIndex < nEndIdx)
{
XMLPropertyState aNewProperty( nIndex, Any(xAttrContainer) );
// push it on our stack so we export it later
rProperties.push_back( aNewProperty );
}
}
if( xAttrContainer.is() )
{
AttributeData aData;
aData.Type = GetXMLToken( XML_CDATA );
aData.Value = sValue;
OUString sName;
if( XML_NAMESPACE_NONE != nPrefix )
{
sName = rAttrName;
aData.Namespace = aNamespaceURI;
}
else
sName = aLocalName;
xAttrContainer->insertByName( sName, Any(aData) );
}
}
}
}
while( ( nIndex >= 0 && nIndex + 1 < nEndIdx ) && (( nFlags & MID_FLAG_MULTI_PROPERTY ) != 0 ) );
}
/** this method is called for every item that has the MID_FLAG_SPECIAL_ITEM_IMPORT flag set */
bool SvXMLImportPropertyMapper::handleSpecialItem(
XMLPropertyState& rProperty,
std::vector< XMLPropertyState >& rProperties,
const OUString& rValue,
const SvXMLUnitConverter& rUnitConverter,
const SvXMLNamespaceMap& rNamespaceMap ) const
{
OSL_ENSURE( mxNextMapper.is(), "unsupported special item in xml import" );
if( mxNextMapper.is() )
return mxNextMapper->handleSpecialItem( rProperty, rProperties, rValue,
rUnitConverter, rNamespaceMap );
else
return false;
}
void SvXMLImportPropertyMapper::FillPropertySequence(
const ::std::vector< XMLPropertyState >& rProperties,
css::uno::Sequence< css::beans::PropertyValue >& rValues )
const
{
sal_Int32 nCount = rProperties.size();
sal_Int32 nValueCount = 0;
rValues.realloc( nCount );
PropertyValue *pProps = rValues.getArray();
for( sal_Int32 i=0; i < nCount; i++ )
{
const XMLPropertyState& rProp = rProperties[i];
sal_Int32 nIdx = rProp.mnIndex;
if( nIdx == -1 )
continue;
pProps->Name = maPropMapper->GetEntryAPIName( nIdx );
if( !pProps->Name.isEmpty() )
{
pProps->Value = rProp.maValue;
++pProps;
++nValueCount;
}
}
if( nValueCount < nCount )
rValues.realloc( nValueCount );
}
void SvXMLImportPropertyMapper::CheckSpecialContext(
const ::std::vector< XMLPropertyState >& aProperties,
const css::uno::Reference< css::beans::XPropertySet >& rPropSet,
ContextID_Index_Pair* pSpecialContextIds ) const
{
OSL_ENSURE( rPropSet.is(), "need an XPropertySet" );
sal_Int32 nCount = aProperties.size();
for( sal_Int32 i=0; i < nCount; i++ )
{
const XMLPropertyState& rProp = aProperties[i];
sal_Int32 nIdx = rProp.mnIndex;
// disregard property state if it has an invalid index
if( -1 == nIdx )
continue;
const sal_Int32 nPropFlags = maPropMapper->GetEntryFlags( nIdx );
// handle no-property and special items
if( ( pSpecialContextIds != nullptr ) &&
( ( 0 != ( nPropFlags & MID_FLAG_NO_PROPERTY_IMPORT ) ) ||
( 0 != ( nPropFlags & MID_FLAG_SPECIAL_ITEM_IMPORT ) ) ) )
{
// maybe it's one of our special context ids?
sal_Int16 nContextId = maPropMapper->GetEntryContextId(nIdx);
for ( sal_Int32 n = 0;
pSpecialContextIds[n].nContextID != -1;
n++ )
{
// found: set index in pSpecialContextIds array
if ( pSpecialContextIds[n].nContextID == nContextId )
{
pSpecialContextIds[n].nIndex = i;
break; // early out
}
}
}
}
}
bool SvXMLImportPropertyMapper::FillPropertySet(
const std::vector< XMLPropertyState >& aProperties,
const Reference< XPropertySet >& rPropSet,
ContextID_Index_Pair* pSpecialContextIds ) const
{
bool bSet = false;
Reference< XTolerantMultiPropertySet > xTolPropSet( rPropSet, UNO_QUERY );
if (xTolPropSet.is())
bSet = FillTolerantMultiPropertySet_( aProperties, xTolPropSet, maPropMapper, m_rImport,
pSpecialContextIds );
if (!bSet)
{
// get property set info
Reference< XPropertySetInfo > xInfo(rPropSet->getPropertySetInfo());
// check for multi-property set
Reference<XMultiPropertySet> xMultiPropSet( rPropSet, UNO_QUERY );
if ( xMultiPropSet.is() )
{
// Try XMultiPropertySet. If that fails, try the regular route.
bSet = FillMultiPropertySet_( aProperties, xMultiPropSet,
xInfo, maPropMapper,
pSpecialContextIds );
if ( !bSet )
bSet = FillPropertySet_( aProperties, rPropSet,
xInfo, maPropMapper, m_rImport,
pSpecialContextIds);
}
else
bSet = FillPropertySet_( aProperties, rPropSet, xInfo,
maPropMapper, m_rImport,
pSpecialContextIds );
}
return bSet;
}
bool SvXMLImportPropertyMapper::FillPropertySet_(
const std::vector<XMLPropertyState> & rProperties,
const Reference<XPropertySet> & rPropSet,
const Reference<XPropertySetInfo> & rPropSetInfo,
const rtl::Reference<XMLPropertySetMapper> & rPropMapper,
SvXMLImport& rImport,
ContextID_Index_Pair* pSpecialContextIds )
{
OSL_ENSURE( rPropSet.is(), "need an XPropertySet" );
OSL_ENSURE( rPropSetInfo.is(), "need an XPropertySetInfo" );
// preliminaries
bool bSet = false;
sal_Int32 nCount = rProperties.size();
// iterate over property states that we want to set
for( sal_Int32 i=0; i < nCount; i++ )
{
const XMLPropertyState& rProp = rProperties[i];
sal_Int32 nIdx = rProp.mnIndex;
// disregard property state if it has an invalid index
if( -1 == nIdx )
continue;
const OUString& rPropName = rPropMapper->GetEntryAPIName( nIdx );
const sal_Int32 nPropFlags = rPropMapper->GetEntryFlags( nIdx );
if ( ( 0 == ( nPropFlags & MID_FLAG_NO_PROPERTY ) ) &&
( ( 0 != ( nPropFlags & MID_FLAG_MUST_EXIST ) ) ||
rPropSetInfo->hasPropertyByName( rPropName ) ) )
{
// try setting the property
try
{
rPropSet->setPropertyValue( rPropName, rProp.maValue );
bSet = true;
}
catch ( const IllegalArgumentException& e )
{
// illegal value: check whether this property is
// allowed to throw this exception
if ( 0 == ( nPropFlags & MID_FLAG_PROPERTY_MAY_THROW ) )
{
Sequence<OUString> aSeq { rPropName };
rImport.SetError(
XMLERROR_STYLE_PROP_VALUE | XMLERROR_FLAG_ERROR,
aSeq, e.Message, nullptr );
}
}
catch ( const UnknownPropertyException& e )
{
// unknown property: This is always an error!
Sequence<OUString> aSeq { rPropName };
rImport.SetError(
XMLERROR_STYLE_PROP_UNKNOWN | XMLERROR_FLAG_ERROR,
aSeq, e.Message, nullptr );
}
catch ( const PropertyVetoException& e )
{
// property veto: this shouldn't happen
Sequence<OUString> aSeq { rPropName };
rImport.SetError(
XMLERROR_STYLE_PROP_OTHER | XMLERROR_FLAG_ERROR,
aSeq, e.Message, nullptr );
}
catch ( const WrappedTargetException& e )
{
// wrapped target: this shouldn't happen either
Sequence<OUString> aSeq { rPropName };
rImport.SetError(
XMLERROR_STYLE_PROP_OTHER | XMLERROR_FLAG_ERROR,
aSeq, e.Message, nullptr );
}
}
// handle no-property and special items
if( ( pSpecialContextIds != nullptr ) &&
( ( 0 != ( nPropFlags & MID_FLAG_NO_PROPERTY_IMPORT ) ) ||
( 0 != ( nPropFlags & MID_FLAG_SPECIAL_ITEM_IMPORT ) ) ) )
{
// maybe it's one of our special context ids?
sal_Int16 nContextId = rPropMapper->GetEntryContextId(nIdx);
for ( sal_Int32 n = 0;
pSpecialContextIds[n].nContextID != -1;
n++ )
{
// found: set index in pSpecialContextIds array
if ( pSpecialContextIds[n].nContextID == nContextId )
{
pSpecialContextIds[n].nIndex = i;
break; // early out
}
}
}
}
return bSet;
}
typedef std::pair<const OUString*, const Any* > PropertyPair;
namespace {
struct PropertyPairLessFunctor
{
bool operator()( const PropertyPair& a, const PropertyPair& b ) const
{
return (*a.first < *b.first);
}
};
}
void SvXMLImportPropertyMapper::PrepareForMultiPropertySet_(
const std::vector<XMLPropertyState> & rProperties,
const Reference<XPropertySetInfo> & rPropSetInfo,
const rtl::Reference<XMLPropertySetMapper> & rPropMapper,
ContextID_Index_Pair* pSpecialContextIds,
Sequence<OUString>& rNames,
Sequence<Any>& rValues)
{
sal_Int32 nCount = rProperties.size();
// property pairs structure stores names + values of properties to be set.
std::vector<PropertyPair> aPropertyPairs;
aPropertyPairs.reserve( nCount );
// iterate over property states that we want to set
sal_Int32 i;
for( i = 0; i < nCount; i++ )
{
const XMLPropertyState& rProp = rProperties[i];
sal_Int32 nIdx = rProp.mnIndex;
// disregard property state if it has an invalid index
if( -1 == nIdx )
continue;
const OUString& rPropName = rPropMapper->GetEntryAPIName( nIdx );
const sal_Int32 nPropFlags = rPropMapper->GetEntryFlags( nIdx );
if ( ( 0 == ( nPropFlags & MID_FLAG_NO_PROPERTY ) ) &&
( ( 0 != ( nPropFlags & MID_FLAG_MUST_EXIST ) ) ||
!rPropSetInfo.is() ||
rPropSetInfo->hasPropertyByName(rPropName) ) )
{
// save property into property pair structure
aPropertyPairs.emplace_back( &rPropName, &rProp.maValue );
}
// handle no-property and special items
if( ( pSpecialContextIds != nullptr ) &&
( ( 0 != ( nPropFlags & MID_FLAG_NO_PROPERTY_IMPORT ) ) ||
( 0 != ( nPropFlags & MID_FLAG_SPECIAL_ITEM_IMPORT ) ) ) )
{
// maybe it's one of our special context ids?
sal_Int16 nContextId = rPropMapper->GetEntryContextId(nIdx);
for ( sal_Int32 n = 0;
pSpecialContextIds[n].nContextID != -1;
n++ )
{
// found: set index in pSpecialContextIds array
if ( pSpecialContextIds[n].nContextID == nContextId )
{
pSpecialContextIds[n].nIndex = i;
break; // early out
}
}
}
}
// We now need to construct the sequences and actually the set
// values.
// sort the property pairs
sort( aPropertyPairs.begin(), aPropertyPairs.end(),
PropertyPairLessFunctor());
// create sequences
rNames.realloc( aPropertyPairs.size() );
OUString* pNamesArray = rNames.getArray();
rValues.realloc( aPropertyPairs.size() );
Any* pValuesArray = rValues.getArray();
// copy values into sequences
i = 0;
for( const auto& rPropertyPair : aPropertyPairs )
{
pNamesArray[i] = *(rPropertyPair.first);
pValuesArray[i++] = *(rPropertyPair.second);
}
}
bool SvXMLImportPropertyMapper::FillMultiPropertySet_(
const std::vector<XMLPropertyState> & rProperties,
const Reference<XMultiPropertySet> & rMultiPropSet,
const Reference<XPropertySetInfo> & rPropSetInfo,
const rtl::Reference<XMLPropertySetMapper> & rPropMapper,
ContextID_Index_Pair* pSpecialContextIds )
{
OSL_ENSURE( rMultiPropSet.is(), "Need multi property set. ");
OSL_ENSURE( rPropSetInfo.is(), "Need property set info." );
bool bSuccessful = false;
Sequence<OUString> aNames;
Sequence<Any> aValues;
PrepareForMultiPropertySet_(rProperties, rPropSetInfo, rPropMapper, pSpecialContextIds,
aNames, aValues);
// and, finally, try to set the values
try
{
rMultiPropSet->setPropertyValues( aNames, aValues );
bSuccessful = true;
}
catch ( ... )
{
OSL_ENSURE(bSuccessful, "Exception caught; style may not be imported correctly.");
}
return bSuccessful;
}
bool SvXMLImportPropertyMapper::FillTolerantMultiPropertySet_(
const std::vector<XMLPropertyState> & rProperties,
const Reference<XTolerantMultiPropertySet> & rTolMultiPropSet,
const rtl::Reference<XMLPropertySetMapper> & rPropMapper,
SvXMLImport& rImport,
ContextID_Index_Pair* pSpecialContextIds )
{
OSL_ENSURE( rTolMultiPropSet.is(), "Need tolerant multi property set. ");
bool bSuccessful = false;
Sequence<OUString> aNames;
Sequence<Any> aValues;
PrepareForMultiPropertySet_(rProperties, Reference<XPropertySetInfo>(nullptr), rPropMapper, pSpecialContextIds,
aNames, aValues);
// and, finally, try to set the values
try
{
const Sequence< SetPropertyTolerantFailed > aResults(rTolMultiPropSet->setPropertyValuesTolerant( aNames, aValues ));
bSuccessful = !aResults.hasElements();
for( const auto& rResult : aResults)
{
Sequence<OUString> aSeq { rResult.Name };
OUString sMessage;
switch (rResult.Result)
{
case TolerantPropertySetResultType::UNKNOWN_PROPERTY :
sMessage = "UNKNOWN_PROPERTY";
break;
case TolerantPropertySetResultType::ILLEGAL_ARGUMENT :
sMessage = "ILLEGAL_ARGUMENT";
break;
case TolerantPropertySetResultType::PROPERTY_VETO :
sMessage = "PROPERTY_VETO";
break;
case TolerantPropertySetResultType::WRAPPED_TARGET :
sMessage = "WRAPPED_TARGET";
break;
}
rImport.SetError(
XMLERROR_STYLE_PROP_OTHER | XMLERROR_FLAG_ERROR,
aSeq, sMessage, nullptr );
}
}
catch ( ... )
{
OSL_ENSURE(bSuccessful, "Exception caught; style may not be imported correctly.");
}
return bSuccessful;
}
void SvXMLImportPropertyMapper::finished(
std::vector< XMLPropertyState >& rProperties,
sal_Int32 nStartIndex, sal_Int32 nEndIndex ) const
{
// nothing to do here
if( mxNextMapper.is() )
mxNextMapper->finished( rProperties, nStartIndex, nEndIndex );
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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