/* -*- 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 "toolkit/controls/geometrycontrolmodel.hxx" #include #include #include #include #include #include #include #include #include #include #define GCM_PROPERTY_ID_POS_X 1 #define GCM_PROPERTY_ID_POS_Y 2 #define GCM_PROPERTY_ID_WIDTH 3 #define GCM_PROPERTY_ID_HEIGHT 4 #define GCM_PROPERTY_ID_NAME 5 #define GCM_PROPERTY_ID_TABINDEX 6 #define GCM_PROPERTY_ID_STEP 7 #define GCM_PROPERTY_ID_TAG 8 #define GCM_PROPERTY_ID_RESOURCERESOLVER 9 #define GCM_PROPERTY_POS_X OUString("PositionX") #define GCM_PROPERTY_POS_Y OUString("PositionY") #define GCM_PROPERTY_WIDTH OUString("Width") #define GCM_PROPERTY_HEIGHT OUString("Height") #define GCM_PROPERTY_NAME OUString("Name") #define GCM_PROPERTY_TABINDEX OUString("TabIndex") #define GCM_PROPERTY_STEP OUString("Step") #define GCM_PROPERTY_TAG OUString("Tag") #define GCM_PROPERTY_RESOURCERESOLVER OUString("ResourceResolver") #define DEFAULT_ATTRIBS() PropertyAttribute::BOUND | PropertyAttribute::TRANSIENT // namespace toolkit // { using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::util; using namespace ::com::sun::star::container; using namespace ::comphelper; //= OGeometryControlModel_Base OGeometryControlModel_Base::OGeometryControlModel_Base(::com::sun::star::uno::XAggregation* _pAggregateInstance) :OPropertySetAggregationHelper( m_aBHelper ) ,OPropertyContainer( m_aBHelper ) ,OGCM_Base( m_aMutex ) ,m_nPosX(0) ,m_nPosY(0) ,m_nWidth(0) ,m_nHeight(0) ,m_nTabIndex(-1) ,m_nStep(0) ,m_bCloneable(false) { OSL_ENSURE(NULL != _pAggregateInstance, "OGeometryControlModel_Base::OGeometryControlModel_Base: invalid aggregate!"); increment(m_refCount); { m_xAggregate = _pAggregateInstance; { // check if the aggregate is cloneable Reference< XCloneable > xCloneAccess(m_xAggregate, UNO_QUERY); m_bCloneable = xCloneAccess.is(); } setAggregation(m_xAggregate); m_xAggregate->setDelegator(static_cast< XWeak* >(this)); } decrement(m_refCount); registerProperties(); } OGeometryControlModel_Base::OGeometryControlModel_Base(Reference< XCloneable >& _rxAggregateInstance) :OPropertySetAggregationHelper( m_aBHelper ) ,OPropertyContainer( m_aBHelper ) ,OGCM_Base( m_aMutex ) ,m_nPosX(0) ,m_nPosY(0) ,m_nWidth(0) ,m_nHeight(0) ,m_nTabIndex(-1) ,m_nStep(0) ,m_bCloneable(_rxAggregateInstance.is()) { increment(m_refCount); { { // ensure that the temporary gets destructed NOW m_xAggregate = Reference< XAggregation >(_rxAggregateInstance, UNO_QUERY); } OSL_ENSURE(m_xAggregate.is(), "OGeometryControlModel_Base::OGeometryControlModel_Base: invalid object given!"); // now the aggregate has a ref count of 2, but before setting the delegator it must be 1 _rxAggregateInstance.clear(); // now it should be the 1 we need here ... setAggregation(m_xAggregate); m_xAggregate->setDelegator(static_cast< XWeak* >(this)); } decrement(m_refCount); registerProperties(); } Sequence< Type > SAL_CALL OGeometryControlModel_Base::getTypes( ) throw (RuntimeException, std::exception) { // our own types Sequence< Type > aTypes = ::comphelper::concatSequences( OPropertySetAggregationHelper::getTypes(), getBaseTypes(), OGCM_Base::getTypes() ); if ( m_xAggregate.is() ) { // retrieve the types of the aggregate Reference< XTypeProvider > xAggregateTypeProv; m_xAggregate->queryAggregation( ::getCppuType( &xAggregateTypeProv ) ) >>= xAggregateTypeProv; OSL_ENSURE( xAggregateTypeProv.is(), "OGeometryControlModel_Base::getTypes: aggregate should be a type provider!" ); Sequence< Type > aAggTypes; if ( xAggregateTypeProv.is() ) aAggTypes = xAggregateTypeProv->getTypes(); // concat the sequences sal_Int32 nOldSize = aTypes.getLength(); aTypes.realloc( nOldSize + aAggTypes.getLength() ); ::std::copy( aAggTypes.getConstArray(), aAggTypes.getConstArray() + aAggTypes.getLength(), aTypes.getArray() + nOldSize ); } return aTypes; } void OGeometryControlModel_Base::registerProperties() { // register our members for the property handling of the OPropertyContainer registerProperty(GCM_PROPERTY_POS_X, GCM_PROPERTY_ID_POS_X, DEFAULT_ATTRIBS(), &m_nPosX, ::getCppuType(&m_nPosX)); registerProperty(GCM_PROPERTY_POS_Y, GCM_PROPERTY_ID_POS_Y, DEFAULT_ATTRIBS(), &m_nPosY, ::getCppuType(&m_nPosY)); registerProperty(GCM_PROPERTY_WIDTH, GCM_PROPERTY_ID_WIDTH, DEFAULT_ATTRIBS(), &m_nWidth, ::getCppuType(&m_nWidth)); registerProperty(GCM_PROPERTY_HEIGHT, GCM_PROPERTY_ID_HEIGHT, DEFAULT_ATTRIBS(), &m_nHeight, ::getCppuType(&m_nHeight)); registerProperty(GCM_PROPERTY_NAME, GCM_PROPERTY_ID_NAME, DEFAULT_ATTRIBS(), &m_aName, ::getCppuType(&m_aName)); registerProperty(GCM_PROPERTY_TABINDEX, GCM_PROPERTY_ID_TABINDEX, DEFAULT_ATTRIBS(), &m_nTabIndex, ::getCppuType(&m_nTabIndex)); registerProperty(GCM_PROPERTY_STEP, GCM_PROPERTY_ID_STEP, DEFAULT_ATTRIBS(), &m_nStep, ::getCppuType(&m_nStep)); registerProperty(GCM_PROPERTY_TAG, GCM_PROPERTY_ID_TAG, DEFAULT_ATTRIBS(), &m_aTag, ::getCppuType(&m_aTag)); registerProperty(GCM_PROPERTY_RESOURCERESOLVER, GCM_PROPERTY_ID_RESOURCERESOLVER, DEFAULT_ATTRIBS(), &m_xStrResolver, ::getCppuType(&m_xStrResolver)); } ::com::sun::star::uno::Any OGeometryControlModel_Base::ImplGetDefaultValueByHandle(sal_Int32 nHandle) const { ::com::sun::star::uno::Any aDefault; switch ( nHandle ) { case GCM_PROPERTY_ID_POS_X: aDefault <<= (sal_Int32) 0; break; case GCM_PROPERTY_ID_POS_Y: aDefault <<= (sal_Int32) 0; break; case GCM_PROPERTY_ID_WIDTH: aDefault <<= (sal_Int32) 0; break; case GCM_PROPERTY_ID_HEIGHT: aDefault <<= (sal_Int32) 0; break; case GCM_PROPERTY_ID_NAME: aDefault <<= OUString(); break; case GCM_PROPERTY_ID_TABINDEX: aDefault <<= (sal_Int16) -1; break; case GCM_PROPERTY_ID_STEP: aDefault <<= (sal_Int32) 0; break; case GCM_PROPERTY_ID_TAG: aDefault <<= OUString(); break; case GCM_PROPERTY_ID_RESOURCERESOLVER: aDefault <<= Reference< resource::XStringResourceResolver >(); break; default: OSL_FAIL( "ImplGetDefaultValueByHandle - unknown Property" ); } return aDefault; } ::com::sun::star::uno::Any OGeometryControlModel_Base::ImplGetPropertyValueByHandle(sal_Int32 nHandle) const { ::com::sun::star::uno::Any aValue; switch ( nHandle ) { case GCM_PROPERTY_ID_POS_X: aValue <<= m_nPosX; break; case GCM_PROPERTY_ID_POS_Y: aValue <<= m_nPosY; break; case GCM_PROPERTY_ID_WIDTH: aValue <<= m_nWidth; break; case GCM_PROPERTY_ID_HEIGHT: aValue <<= m_nHeight; break; case GCM_PROPERTY_ID_NAME: aValue <<= m_aName; break; case GCM_PROPERTY_ID_TABINDEX: aValue <<= m_nTabIndex; break; case GCM_PROPERTY_ID_STEP: aValue <<= m_nStep; break; case GCM_PROPERTY_ID_TAG: aValue <<= m_aTag; break; case GCM_PROPERTY_ID_RESOURCERESOLVER: aValue <<= m_xStrResolver; break; default: OSL_FAIL( "ImplGetPropertyValueByHandle - unknown Property" ); } return aValue; } void OGeometryControlModel_Base::ImplSetPropertyValueByHandle(sal_Int32 nHandle, const :: com::sun::star::uno::Any& aValue) { switch ( nHandle ) { case GCM_PROPERTY_ID_POS_X: aValue >>= m_nPosX; break; case GCM_PROPERTY_ID_POS_Y: aValue >>= m_nPosY; break; case GCM_PROPERTY_ID_WIDTH: aValue >>= m_nWidth; break; case GCM_PROPERTY_ID_HEIGHT: aValue >>= m_nHeight; break; case GCM_PROPERTY_ID_NAME: aValue >>= m_aName; break; case GCM_PROPERTY_ID_TABINDEX: aValue >>= m_nTabIndex; break; case GCM_PROPERTY_ID_STEP: aValue >>= m_nStep; break; case GCM_PROPERTY_ID_TAG: aValue >>= m_aTag; break; case GCM_PROPERTY_ID_RESOURCERESOLVER: aValue >>= m_xStrResolver; break; default: OSL_FAIL( "ImplSetPropertyValueByHandle - unknown Property" ); } } Any SAL_CALL OGeometryControlModel_Base::queryAggregation( const Type& _rType ) throw(RuntimeException, std::exception) { Any aReturn; if (_rType.equals(::getCppuType(static_cast< Reference< XCloneable>* >(NULL))) && !m_bCloneable) // somebody is asking for the XCloneable interface, but our aggregate does not support it // -> outta here // (need this extra check, cause OGCM_Base::queryAggregation would return this interface // in every case) return aReturn; aReturn = OGCM_Base::queryAggregation(_rType); // the basic interfaces (XInterface, XAggregation etc) if (!aReturn.hasValue()) aReturn = OPropertySetAggregationHelper::queryInterface(_rType); // the property set related interfaces if (!aReturn.hasValue() && m_xAggregate.is()) aReturn = m_xAggregate->queryAggregation(_rType); // the interfaces our aggregate can provide return aReturn; } Any SAL_CALL OGeometryControlModel_Base::queryInterface( const Type& _rType ) throw(RuntimeException, std::exception) { return OGCM_Base::queryInterface(_rType); } void SAL_CALL OGeometryControlModel_Base::acquire( ) throw() { OGCM_Base::acquire(); } void SAL_CALL OGeometryControlModel_Base::release( ) throw() { OGCM_Base::release(); } void OGeometryControlModel_Base::releaseAggregation() { // release the aggregate (_before_ clearing m_xAggregate) if (m_xAggregate.is()) m_xAggregate->setDelegator(NULL); setAggregation(NULL); } OGeometryControlModel_Base::~OGeometryControlModel_Base() { releaseAggregation(); } sal_Bool SAL_CALL OGeometryControlModel_Base::convertFastPropertyValue(Any& _rConvertedValue, Any& _rOldValue, sal_Int32 _nHandle, const Any& _rValue) throw (IllegalArgumentException) { return OPropertyContainer::convertFastPropertyValue(_rConvertedValue, _rOldValue, _nHandle, _rValue); } void SAL_CALL OGeometryControlModel_Base::setFastPropertyValue_NoBroadcast(sal_Int32 _nHandle, const Any& _rValue) throw (Exception, std::exception) { OPropertyContainer::setFastPropertyValue_NoBroadcast(_nHandle, _rValue); } void SAL_CALL OGeometryControlModel_Base::getFastPropertyValue(Any& _rValue, sal_Int32 _nHandle) const { OPropertyArrayAggregationHelper& rPH = static_cast(const_cast(this)->getInfoHelper()); OUString sPropName; sal_Int32 nOriginalHandle = -1; if (rPH.fillAggregatePropertyInfoByHandle(&sPropName, &nOriginalHandle, _nHandle)) OPropertySetAggregationHelper::getFastPropertyValue(_rValue, _nHandle); else OPropertyContainer::getFastPropertyValue(_rValue, _nHandle); } ::com::sun::star::beans::PropertyState OGeometryControlModel_Base::getPropertyStateByHandle(sal_Int32 nHandle) { ::com::sun::star::uno::Any aValue = ImplGetPropertyValueByHandle( nHandle ); ::com::sun::star::uno::Any aDefault = ImplGetDefaultValueByHandle( nHandle ); return CompareProperties( aValue, aDefault ) ? ::com::sun::star::beans::PropertyState_DEFAULT_VALUE : ::com::sun::star::beans::PropertyState_DIRECT_VALUE; } void OGeometryControlModel_Base::setPropertyToDefaultByHandle(sal_Int32 nHandle) { ImplSetPropertyValueByHandle( nHandle , ImplGetDefaultValueByHandle( nHandle ) ); } ::com::sun::star::uno::Any OGeometryControlModel_Base::getPropertyDefaultByHandle( sal_Int32 nHandle ) const { return ImplGetDefaultValueByHandle( nHandle ); } Reference< XPropertySetInfo> SAL_CALL OGeometryControlModel_Base::getPropertySetInfo() throw(RuntimeException, std::exception) { return OPropertySetAggregationHelper::createPropertySetInfo(getInfoHelper()); } Reference< XCloneable > SAL_CALL OGeometryControlModel_Base::createClone( ) throw(RuntimeException, std::exception) { OSL_ENSURE(m_bCloneable, "OGeometryControlModel_Base::createClone: invalid call!"); if (!m_bCloneable) return Reference< XCloneable >(); // let the aggregate create it's own clone // the interface Reference< XCloneable > xCloneAccess; m_xAggregate->queryAggregation(::getCppuType(&xCloneAccess)) >>= xCloneAccess; OSL_ENSURE(xCloneAccess.is(), "OGeometryControlModel_Base::createClone: suspicious aggregate!"); if (!xCloneAccess.is()) return Reference< XCloneable >(); // the aggregate's clone Reference< XCloneable > xAggregateClone = xCloneAccess->createClone(); OSL_ENSURE(xAggregateClone.is(), "OGeometryControlModel_Base::createClone: suspicious return of the aggregate!"); // create a new wrapper aggregating this return value OGeometryControlModel_Base* pOwnClone = createClone_Impl(xAggregateClone); OSL_ENSURE(pOwnClone, "OGeometryControlModel_Base::createClone: invalid derivee behaviour!"); OSL_ENSURE(!xAggregateClone.is(), "OGeometryControlModel_Base::createClone: invalid ctor behaviour!"); // should have been reset // set properties pOwnClone->m_nPosX = m_nPosX; pOwnClone->m_nPosY = m_nPosY; pOwnClone->m_nWidth = m_nWidth; pOwnClone->m_nHeight = m_nHeight; pOwnClone->m_aName = m_aName; pOwnClone->m_nTabIndex = m_nTabIndex; pOwnClone->m_nStep = m_nStep; pOwnClone->m_aTag = m_aTag; // Clone event container Reference< ::com::sun::star::script::XScriptEventsSupplier > xEventsSupplier = static_cast< ::com::sun::star::script::XScriptEventsSupplier* >( this ); Reference< ::com::sun::star::script::XScriptEventsSupplier > xCloneEventsSupplier = static_cast< ::com::sun::star::script::XScriptEventsSupplier* >( pOwnClone ); if( xEventsSupplier.is() && xCloneEventsSupplier.is() ) { Reference< XNameContainer > xEventCont = xEventsSupplier->getEvents(); Reference< XNameContainer > xCloneEventCont = xCloneEventsSupplier->getEvents(); ::com::sun::star::uno::Sequence< OUString > aNames = xEventCont->getElementNames(); const OUString* pNames = aNames.getConstArray(); sal_Int32 i, nNameCount = aNames.getLength(); for( i = 0 ; i < nNameCount ; i++ ) { OUString aName = pNames[ i ]; ::com::sun::star::uno::Any aElement = xEventCont->getByName( aName ); xCloneEventCont->insertByName( aName, aElement ); } } return pOwnClone; } Reference< XNameContainer > SAL_CALL OGeometryControlModel_Base::getEvents() throw(RuntimeException, std::exception) { if( !mxEventContainer.is() ) mxEventContainer = (XNameContainer*)new toolkit::ScriptEventContainer(); return mxEventContainer; } void SAL_CALL OGeometryControlModel_Base::disposing() { OGCM_Base::disposing(); OPropertySetAggregationHelper::disposing(); Reference xComp; if ( query_aggregation( m_xAggregate, xComp ) ) xComp->dispose(); } //= OCommonGeometryControlModel typedef ::boost::unordered_map< OUString, sal_Int32, OUStringHash > HashMapString2Int; typedef ::std::vector< ::com::sun::star::uno::Sequence< ::com::sun::star::beans::Property > > PropSeqArray; typedef ::std::vector< ::std::vector< sal_Int32 > > IntArrayArray; // for creating class-unique PropertySetInfo's, we need some info: namespace { struct ServiceSpecifierMap : public rtl::Static< HashMapString2Int, ServiceSpecifierMap > {}; } // this one maps from a String, which is the service specifier for our // aggregate, to a unique id namespace { struct AggregateProperties : public rtl::Static< PropSeqArray, AggregateProperties > {}; } // this one contains the properties which belong to all the unique ids // in ServiceSpecifierMap namespace { struct AmbiguousPropertyIds : public rtl::Static< IntArrayArray, AmbiguousPropertyIds > {}; } // the ids of the properties which we as well as our aggregate supply // For such props, we let our base class handle them, and whenever such // a prop is set, we forward this to our aggregate. // With this, we can ensure that two instances of this class share the // same PropertySetInfo if and only if both aggregates have the same // service specifier. OCommonGeometryControlModel::OCommonGeometryControlModel( Reference< XCloneable >& _rxAgg, const OUString& _rServiceSpecifier ) :OGeometryControlModel_Base( _rxAgg ) ,m_sServiceSpecifier( _rServiceSpecifier ) ,m_nPropertyMapId( 0 ) { Reference< XPropertySetInfo > xPI; if ( m_xAggregateSet.is() ) xPI = m_xAggregateSet->getPropertySetInfo(); if ( !xPI.is() ) { releaseAggregation(); throw IllegalArgumentException(); } HashMapString2Int &rMap = ServiceSpecifierMap::get(); HashMapString2Int::iterator aPropMapIdPos = rMap.find( m_sServiceSpecifier ); if ( rMap.end() == aPropMapIdPos ) { PropSeqArray &rAggProperties = AggregateProperties::get(); m_nPropertyMapId = rAggProperties.size(); rAggProperties.push_back( xPI->getProperties() ); AmbiguousPropertyIds::get().push_back( IntArrayArray::value_type() ); rMap[ m_sServiceSpecifier ] = m_nPropertyMapId; } else m_nPropertyMapId = aPropMapIdPos->second; } struct PropertyNameLess : public ::std::binary_function< Property, Property, bool > { bool operator()( const Property& _rLHS, const Property& _rRHS ) { return _rLHS.Name < _rRHS.Name ? true : false; } }; struct PropertyNameEqual : public ::std::unary_function< Property, bool > { const OUString& m_rCompare; PropertyNameEqual( const OUString& _rCompare ) : m_rCompare( _rCompare ) { } bool operator()( const Property& _rLHS ) { return _rLHS.Name == m_rCompare ? true : false; } }; ::cppu::IPropertyArrayHelper* OCommonGeometryControlModel::createArrayHelper( sal_Int32 _nId ) const { OSL_ENSURE( _nId == m_nPropertyMapId, "OCommonGeometryControlModel::createArrayHelper: invalid argument!" ); OSL_ENSURE( _nId < (sal_Int32)AggregateProperties::get().size(), "OCommonGeometryControlModel::createArrayHelper: invalid status info (1)!" ); OSL_ENSURE( _nId < (sal_Int32)AmbiguousPropertyIds::get().size(), "OCommonGeometryControlModel::createArrayHelper: invalid status info (2)!" ); // our own properties Sequence< Property > aProps; OPropertyContainer::describeProperties( aProps ); // the aggregate properties Sequence< Property > aAggregateProps; aAggregateProps = AggregateProperties::get()[ _nId ]; // look for duplicates, and remember them IntArrayArray::value_type& rDuplicateIds = AmbiguousPropertyIds::get()[ _nId ]; // for this, sort the aggregate properties ::std::sort( aAggregateProps.getArray(), aAggregateProps.getArray() + aAggregateProps.getLength(), PropertyNameLess() ); const Property* pAggProps = aAggregateProps.getConstArray(); const Property* pAggPropsEnd = aAggregateProps.getConstArray() + aAggregateProps.getLength(); // now loop through our own props const Property* pProp = aProps.getConstArray(); const Property* pPropEnd = aProps.getConstArray() + aProps.getLength(); while ( pProp < pPropEnd ) { // look for the current property in the properties of our aggregate const Property* pAggPropPos = ::std::find_if( pAggProps, pAggPropsEnd, PropertyNameEqual( pProp->Name ) ); if ( pAggPropPos != pAggPropsEnd ) { // found a duplicate // -> remove from the aggregate property sequence ::comphelper::removeElementAt( aAggregateProps, pAggPropPos - pAggProps ); // which means we have to adjust the pointers pAggProps = aAggregateProps.getConstArray(), pAggPropsEnd = aAggregateProps.getConstArray() + aAggregateProps.getLength(), // and additionally, remember the id of this property rDuplicateIds.push_back( pProp->Handle ); } ++pProp; } // now, finally, sort the duplicates ::std::sort( rDuplicateIds.begin(), rDuplicateIds.end(), ::std::less< sal_Int32 >() ); return new OPropertyArrayAggregationHelper(aProps, aAggregateProps); } ::cppu::IPropertyArrayHelper& SAL_CALL OCommonGeometryControlModel::getInfoHelper() { return *getArrayHelper( m_nPropertyMapId ); } OGeometryControlModel_Base* OCommonGeometryControlModel::createClone_Impl( Reference< XCloneable >& _rxAggregateInstance ) { return new OCommonGeometryControlModel( _rxAggregateInstance, m_sServiceSpecifier ); } Sequence< sal_Int8 > SAL_CALL OCommonGeometryControlModel::getImplementationId( ) throw (RuntimeException, std::exception) { return css::uno::Sequence(); } struct Int32Equal : public ::std::unary_function< sal_Int32, bool > { sal_Int32 m_nCompare; Int32Equal( sal_Int32 _nCompare ) : m_nCompare( _nCompare ) { } bool operator()( sal_Int32 _nLHS ) { return _nLHS == m_nCompare ? true : false; } }; void SAL_CALL OCommonGeometryControlModel::setFastPropertyValue_NoBroadcast( sal_Int32 _nHandle, const Any& _rValue ) throw ( Exception, std::exception ) { OGeometryControlModel_Base::setFastPropertyValue_NoBroadcast( _nHandle, _rValue ); // look if this id is one we recognized as duplicate IntArrayArray::value_type& rDuplicateIds = AmbiguousPropertyIds::get()[ m_nPropertyMapId ]; IntArrayArray::value_type::const_iterator aPos = ::std::find_if( rDuplicateIds.begin(), rDuplicateIds.end(), Int32Equal( _nHandle ) ); if ( rDuplicateIds.end() != aPos ) { // yes, it is such a property OUString sPropName; sal_Int16 nAttributes(0); static_cast< OPropertyArrayAggregationHelper* >( getArrayHelper( m_nPropertyMapId ) )->fillPropertyMembersByHandle( &sPropName, &nAttributes, _nHandle ); if ( m_xAggregateSet.is() && !sPropName.isEmpty() ) m_xAggregateSet->setPropertyValue( sPropName, _rValue ); } } // } // namespace toolkit /* vim:set shiftwidth=4 softtabstop=4 expandtab: */