/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::xmloff::token; #define GET_PROP_TYPE( f ) static_cast((f & XML_TYPE_PROP_MASK) >> XML_TYPE_PROP_SHIFT) namespace { struct XMLPropTokens_Impl { sal_uInt16 nType; XMLTokenEnum eToken; }; const sal_uInt16 MAX_PROP_TYPES = (XML_TYPE_PROP_END >> XML_TYPE_PROP_SHIFT) - (XML_TYPE_PROP_START >> XML_TYPE_PROP_SHIFT); XMLPropTokens_Impl const aPropTokens[MAX_PROP_TYPES] = { { GET_PROP_TYPE(XML_TYPE_PROP_CHART), XML_CHART_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_GRAPHIC), XML_GRAPHIC_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_TABLE), XML_TABLE_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_TABLE_COLUMN), XML_TABLE_COLUMN_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_TABLE_ROW), XML_TABLE_ROW_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_TABLE_CELL), XML_TABLE_CELL_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_LIST_LEVEL), XML_LIST_LEVEL_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_PARAGRAPH), XML_PARAGRAPH_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_TEXT), XML_TEXT_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_DRAWING_PAGE), XML_DRAWING_PAGE_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_PAGE_LAYOUT), XML_PAGE_LAYOUT_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_HEADER_FOOTER), XML_HEADER_FOOTER_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_RUBY), XML_RUBY_PROPERTIES }, { GET_PROP_TYPE(XML_TYPE_PROP_SECTION), XML_SECTION_PROPERTIES } }; // public methods // Take all properties of the XPropertySet which are also found in the // XMLPropertyMapEntry-array and which are not set to their default-value, // if a state is available. // After that I call the method 'ContextFilter'. struct ComparePropertyState { bool operator()(XMLPropertyState const& lhs, XMLPropertyState const& rhs) { return lhs.mnIndex < rhs.mnIndex; } }; class XMLPropertyStates_Impl { o3tl::sorted_vector aPropStates; public: XMLPropertyStates_Impl(); void AddPropertyState(const XMLPropertyState& rPropState); void FillPropertyStateVector(std::vector& rVector); }; XMLPropertyStates_Impl::XMLPropertyStates_Impl() { } void XMLPropertyStates_Impl::AddPropertyState( const XMLPropertyState& rPropState) { aPropStates.insert(rPropState); } void XMLPropertyStates_Impl::FillPropertyStateVector( std::vector& rVector) { rVector.insert( rVector.begin(), aPropStates.begin(), aPropStates.end() ); } class FilterPropertyInfo_Impl { OUString msApiName; std::vector maIndexes; public: FilterPropertyInfo_Impl( OUString aApiName, const sal_uInt32 nIndex); const OUString& GetApiName() const { return msApiName; } std::vector& GetIndexes() { return maIndexes; } // for sort bool operator< ( const FilterPropertyInfo_Impl& rArg ) const { return (GetApiName() < rArg.GetApiName()); } }; FilterPropertyInfo_Impl::FilterPropertyInfo_Impl( OUString aApiName, const sal_uInt32 nIndex ) : msApiName(std::move( aApiName )) { maIndexes.push_back(nIndex); } typedef std::list FilterPropertyInfoList_Impl; class FilterPropertiesInfo_Impl { FilterPropertyInfoList_Impl aPropInfos; std::optional> mxApiNames; public: FilterPropertiesInfo_Impl(); void AddProperty(const OUString& rApiName, const sal_uInt32 nIndex); const uno::Sequence& GetApiNames(); void FillPropertyStateArray( std::vector< XMLPropertyState >& rPropStates, const Reference< XPropertySet >& xPropSet, const rtl::Reference< XMLPropertySetMapper >& maPropMapper, const bool bDefault); sal_uInt32 GetPropertyCount() const { return aPropInfos.size(); } }; FilterPropertiesInfo_Impl::FilterPropertiesInfo_Impl() { } void FilterPropertiesInfo_Impl::AddProperty( const OUString& rApiName, const sal_uInt32 nIndex) { aPropInfos.emplace_back(rApiName, nIndex); OSL_ENSURE( !mxApiNames, "performance warning: API names already retrieved" ); mxApiNames.reset(); } const uno::Sequence& FilterPropertiesInfo_Impl::GetApiNames() { if( !mxApiNames ) { // we have to do three things: // 1) sort API names, // 2) merge duplicates, // 3) construct sequence // sort names aPropInfos.sort(); // merge duplicates if ( aPropInfos.size() > 1 ) { FilterPropertyInfoList_Impl::iterator aOld = aPropInfos.begin(); FilterPropertyInfoList_Impl::iterator aEnd = aPropInfos.end(); FilterPropertyInfoList_Impl::iterator aCurrent = aOld; ++aCurrent; while ( aCurrent != aEnd ) { // equal to next element? if ( aOld->GetApiName() == aCurrent->GetApiName() ) { // if equal: merge index lists std::vector aMerged; std::merge(aOld->GetIndexes().begin(), aOld->GetIndexes().end(), aCurrent->GetIndexes().begin(), aCurrent->GetIndexes().end(), std::back_inserter(aMerged)); aOld->GetIndexes() = std::move(aMerged); aCurrent->GetIndexes().clear(); // erase element, and continue with next aCurrent = aPropInfos.erase( aCurrent ); } else { // remember old element and continue with next aOld = aCurrent; ++aCurrent; } } } // construct sequence mxApiNames.emplace( aPropInfos.size() ); OUString *pNames = mxApiNames->getArray(); for (auto const& propInfo : aPropInfos) { *pNames = propInfo.GetApiName(); ++pNames; } } return *mxApiNames; } void FilterPropertiesInfo_Impl::FillPropertyStateArray( std::vector< XMLPropertyState >& rPropStates, const Reference< XPropertySet >& rPropSet, const rtl::Reference< XMLPropertySetMapper >& rPropMapper, const bool bDefault ) { XMLPropertyStates_Impl aPropStates; const uno::Sequence& rApiNames = GetApiNames(); Reference < XTolerantMultiPropertySet > xTolPropSet( rPropSet, UNO_QUERY ); if (xTolPropSet.is()) { if (!bDefault) { Sequence < beans::GetDirectPropertyTolerantResult > aResults(xTolPropSet->getDirectPropertyValuesTolerant(rApiNames)); sal_Int32 nResultCount(aResults.getLength()); if (nResultCount > 0) { const beans::GetDirectPropertyTolerantResult *pResults = aResults.getConstArray(); FilterPropertyInfoList_Impl::iterator aPropIter(aPropInfos.begin()); XMLPropertyState aNewProperty( -1 ); while (nResultCount > 0 && aPropIter != aPropInfos.end()) { if (pResults->Name == aPropIter->GetApiName()) { aNewProperty.mnIndex = -1; aNewProperty.maValue = pResults->Value; for (auto const& index : aPropIter->GetIndexes()) { aNewProperty.mnIndex = index; aPropStates.AddPropertyState( aNewProperty ); } ++pResults; --nResultCount; } ++aPropIter; } } } else { const Sequence < beans::GetPropertyTolerantResult > aResults(xTolPropSet->getPropertyValuesTolerant(rApiNames)); OSL_ENSURE( rApiNames.getLength() == aResults.getLength(), "wrong implemented XTolerantMultiPropertySet" ); FilterPropertyInfoList_Impl::iterator aPropIter(aPropInfos.begin()); XMLPropertyState aNewProperty( -1 ); OSL_ENSURE( aPropInfos.size() == static_cast(aResults.getLength()), "wrong implemented XTolerantMultiPropertySet??" ); for( const auto& rResult : aResults ) { if ((rResult.Result == beans::TolerantPropertySetResultType::SUCCESS) && ((rResult.State == PropertyState_DIRECT_VALUE) || (rResult.State == PropertyState_DEFAULT_VALUE))) { aNewProperty.mnIndex = -1; aNewProperty.maValue = rResult.Value; for (auto const& index : aPropIter->GetIndexes()) { aNewProperty.mnIndex = index; aPropStates.AddPropertyState( aNewProperty ); } } ++aPropIter; } } } else { Sequence < PropertyState > aStates; const PropertyState *pStates = nullptr; Reference< XPropertyState > xPropState( rPropSet, UNO_QUERY ); if( xPropState.is() ) { aStates = xPropState->getPropertyStates( rApiNames ); pStates = aStates.getConstArray(); } Reference < XMultiPropertySet > xMultiPropSet( rPropSet, UNO_QUERY ); if( xMultiPropSet.is() && !bDefault ) { Sequence < Any > aValues; if( pStates ) { // step 1: get value count sal_uInt32 nValueCount = 0; for (size_t i = 0; i < aPropInfos.size(); ++i, ++pStates) { if( *pStates == PropertyState_DIRECT_VALUE ) nValueCount++; } if( nValueCount ) { // step 2: collect property names Sequence < OUString > aAPINames( nValueCount ); OUString *pAPINames = aAPINames.getArray(); ::std::vector< FilterPropertyInfoList_Impl::iterator > aPropIters; aPropIters.reserve( nValueCount ); FilterPropertyInfoList_Impl::iterator aItr = aPropInfos.begin(); OSL_ENSURE(aItr != aPropInfos.end(),"Invalid iterator!"); pStates = aStates.getConstArray(); sal_uInt32 i = 0; while( i < nValueCount ) { if( *pStates == PropertyState_DIRECT_VALUE ) { *pAPINames++ = aItr->GetApiName(); aPropIters.push_back( aItr ); ++i; } ++aItr; ++pStates; } aValues = xMultiPropSet->getPropertyValues( aAPINames ); const Any *pValues = aValues.getConstArray(); ::std::vector< FilterPropertyInfoList_Impl::iterator >::const_iterator pPropIter = aPropIters.begin(); XMLPropertyState aNewProperty( -1 ); for( i = 0; i < nValueCount; ++i ) { aNewProperty.mnIndex = -1; aNewProperty.maValue = *pValues; for (auto const& index : (*pPropIter)->GetIndexes()) { aNewProperty.mnIndex = index; aPropStates.AddPropertyState( aNewProperty ); } ++pPropIter; ++pValues; } } } else { aValues = xMultiPropSet->getPropertyValues( rApiNames ); const Any *pValues = aValues.getConstArray(); FilterPropertyInfoList_Impl::iterator aItr = aPropInfos.begin(); for (size_t i = 0; i < aPropInfos.size(); ++i) { // The value is stored in the PropertySet itself, add to list. XMLPropertyState aNewProperty( -1 ); aNewProperty.maValue = *pValues; ++pValues; for (auto const& index : aItr->GetIndexes()) { aNewProperty.mnIndex = index; aPropStates.AddPropertyState( aNewProperty ); } ++aItr; } } } else { FilterPropertyInfoList_Impl::iterator aItr = aPropInfos.begin(); for (size_t i = 0; i < aPropInfos.size(); ++i) { bool bDirectValue = !pStates || *pStates == PropertyState_DIRECT_VALUE; if( bDirectValue || bDefault ) { // The value is stored in the PropertySet itself, add to list. bool bGotValue = false; XMLPropertyState aNewProperty( -1 ); for (auto const& index : aItr->GetIndexes()) { if( bDirectValue || (rPropMapper->GetEntryFlags(index) & MID_FLAG_DEFAULT_ITEM_EXPORT) != 0 ) { try { if( !bGotValue ) { aNewProperty.maValue = rPropSet->getPropertyValue( aItr->GetApiName() ); bGotValue = true; } aNewProperty.mnIndex = index; aPropStates.AddPropertyState( aNewProperty ); } catch( UnknownPropertyException& ) { // might be a problem of getImplementationId TOOLS_WARN_EXCEPTION("xmloff.style", "unknown property in getPropertyValue" ); } } } } ++aItr; if( pStates ) ++pStates; } } } aPropStates.FillPropertyStateVector(rPropStates); } } struct SvXMLExportPropertyMapper::Impl { typedef std::map, std::unique_ptr> CacheType; CacheType maCache; rtl::Reference mxNextMapper; rtl::Reference mxPropMapper; OUString maStyleName; }; // ctor/dtor , class SvXMLExportPropertyMapper SvXMLExportPropertyMapper::SvXMLExportPropertyMapper( const rtl::Reference< XMLPropertySetMapper >& rMapper ) : mpImpl(new Impl) { mpImpl->mxPropMapper = rMapper; } SvXMLExportPropertyMapper::~SvXMLExportPropertyMapper() { } void SvXMLExportPropertyMapper::ChainExportMapper( const rtl::Reference< SvXMLExportPropertyMapper>& rMapper ) { // add map entries from rMapper to current map mpImpl->mxPropMapper->AddMapperEntry( rMapper->getPropertySetMapper() ); // rMapper uses the same map as 'this' rMapper->mpImpl->mxPropMapper = mpImpl->mxPropMapper; // set rMapper as last mapper in current chain rtl::Reference< SvXMLExportPropertyMapper > xNext = mpImpl->mxNextMapper; if( xNext.is()) { while (xNext->mpImpl->mxNextMapper.is()) xNext = xNext->mpImpl->mxNextMapper; xNext->mpImpl->mxNextMapper = rMapper; } else mpImpl->mxNextMapper = rMapper; // if rMapper was already chained, correct // map pointer of successors xNext = rMapper; while (xNext->mpImpl->mxNextMapper.is()) { xNext = xNext->mpImpl->mxNextMapper; xNext->mpImpl->mxPropMapper = mpImpl->mxPropMapper; } } std::vector SvXMLExportPropertyMapper::Filter( SvXMLExport const& rExport, const uno::Reference& rPropSet, bool bEnableFoFontFamily ) const { return Filter_(rExport, rPropSet, false, bEnableFoFontFamily); } std::vector SvXMLExportPropertyMapper::FilterDefaults( SvXMLExport const& rExport, const uno::Reference& rPropSet ) const { return Filter_(rExport, rPropSet, true, false/*bEnableFoFontFamily*/); } std::vector SvXMLExportPropertyMapper::Filter_( SvXMLExport const& rExport, const Reference& xPropSet, bool bDefault, bool bEnableFoFontFamily ) const { std::vector< XMLPropertyState > aPropStateArray; // Retrieve XPropertySetInfo and XPropertyState Reference< XPropertySetInfo > xInfo( xPropSet->getPropertySetInfo() ); if( !xInfo.is() ) return aPropStateArray; sal_Int32 nProps = mpImpl->mxPropMapper->GetEntryCount(); FilterPropertiesInfo_Impl *pFilterInfo = nullptr; Impl::CacheType::iterator aIter = mpImpl->maCache.find(xInfo); if (aIter != mpImpl->maCache.end()) pFilterInfo = (*aIter).second.get(); bool bDelInfo = false; if( !pFilterInfo ) { assert(GetODFDefaultVersion() != SvtSaveOptions::ODFVER_UNKNOWN); const SvtSaveOptions::ODFSaneDefaultVersion nCurrentVersion(rExport.getSaneDefaultVersion()); pFilterInfo = new FilterPropertiesInfo_Impl; for( sal_Int32 i=0; i < nProps; i++ ) { // Are we allowed to ask for the property? (MID_FLAG_NO_PROP..) // Does the PropertySet contain name of mpEntries-array ? const OUString& rAPIName = mpImpl->mxPropMapper->GetEntryAPIName( i ); const sal_Int32 nFlags = mpImpl->mxPropMapper->GetEntryFlags( i ); if( (0 == (nFlags & MID_FLAG_NO_PROPERTY_EXPORT)) && ( (0 != (nFlags & MID_FLAG_MUST_EXIST)) || xInfo->hasPropertyByName( rAPIName ) ) ) { const SvtSaveOptions::ODFSaneDefaultVersion nEarliestODFVersionForExport( mpImpl->mxPropMapper->GetEarliestODFVersionForExport(i)); // note: only standard ODF versions are allowed here, // only exception is the unknown future assert((nEarliestODFVersionForExport & SvtSaveOptions::ODFSVER_EXTENDED) == 0 || nEarliestODFVersionForExport == SvtSaveOptions::ODFSVER_FUTURE_EXTENDED); static_assert(SvtSaveOptions::ODFSVER_LATEST_EXTENDED < SvtSaveOptions::ODFSVER_FUTURE_EXTENDED); /// standard ODF namespaces for elements and attributes static sal_uInt16 s_OdfNs[] = { XML_NAMESPACE_OFFICE, XML_NAMESPACE_STYLE, XML_NAMESPACE_TEXT, XML_NAMESPACE_TABLE, XML_NAMESPACE_DRAW, XML_NAMESPACE_FO, XML_NAMESPACE_XLINK, XML_NAMESPACE_DC, XML_NAMESPACE_META, XML_NAMESPACE_NUMBER, XML_NAMESPACE_PRESENTATION, XML_NAMESPACE_SVG, XML_NAMESPACE_CHART, XML_NAMESPACE_DR3D, XML_NAMESPACE_MATH, XML_NAMESPACE_FORM, XML_NAMESPACE_SCRIPT, XML_NAMESPACE_CONFIG, XML_NAMESPACE_DB, XML_NAMESPACE_XFORMS, XML_NAMESPACE_SMIL, XML_NAMESPACE_ANIMATION, XML_NAMESPACE_XML, XML_NAMESPACE_XHTML, XML_NAMESPACE_GRDDL, }; static bool s_Assert(false); if (!s_Assert) { assert(std::is_sorted(std::begin(s_OdfNs), std::end(s_OdfNs))); s_Assert = true; } //static_assert(std::is_sorted(std::begin(s_OdfNs), std::end(s_OdfNs))); auto const ns(mpImpl->mxPropMapper->GetEntryNameSpace(i)); auto const iter(std::lower_bound(std::begin(s_OdfNs), std::end(s_OdfNs), ns)); bool const isExtension(iter == std::end(s_OdfNs) || *iter != ns // FIXME: very special hack to suppress style:hyperlink || (ns == XML_NAMESPACE_STYLE && mpImpl->mxPropMapper->GetEntryXMLName(i) == GetXMLToken(XML_HYPERLINK))); if (isExtension ? ((nCurrentVersion & SvtSaveOptions::ODFSVER_EXTENDED) // if it's in standard ODF, don't export extension && (nCurrentVersion < nEarliestODFVersionForExport)) : (nEarliestODFVersionForExport <= nCurrentVersion)) { pFilterInfo->AddProperty(rAPIName, i); } } } // Check whether the property set info is destroyed if it is assigned to // a weak reference only; If it is destroyed, then every instance of // getPropertySetInfo returns a new object; such property set infos must // not be cached: WeakReference < XPropertySetInfo > xWeakInfo( xInfo ); xInfo.clear(); xInfo = xWeakInfo; if( xInfo.is() ) { mpImpl->maCache.emplace(xInfo, std::unique_ptr(pFilterInfo)); } else bDelInfo = true; } if( pFilterInfo->GetPropertyCount() ) { try { pFilterInfo->FillPropertyStateArray( aPropStateArray, xPropSet, mpImpl->mxPropMapper, bDefault); } catch( UnknownPropertyException& ) { // might be a problem of getImplementationId TOOLS_WARN_EXCEPTION("xmloff.style", "unknown property in getPropertyStates" ); } } // Call context-filter if( !aPropStateArray.empty() ) ContextFilter(bEnableFoFontFamily, aPropStateArray, xPropSet); // Have to do if we change from a vector to a list or something like that if( bDelInfo ) delete pFilterInfo; return aPropStateArray; } void SvXMLExportPropertyMapper::ContextFilter( bool bEnableFoFontFamily, std::vector< XMLPropertyState >& rProperties, const Reference< XPropertySet >& rPropSet ) const { // Derived class could implement this. if (mpImpl->mxNextMapper.is()) mpImpl->mxNextMapper->ContextFilter(bEnableFoFontFamily, rProperties, rPropSet); } // Compares two Sequences of XMLPropertyState: // 1.Number of elements equal ? // 2.Index of each element equal ? (So I know whether the propertynames are the same) // 3.Value of each element equal ? bool SvXMLExportPropertyMapper::Equals( const std::vector< XMLPropertyState >& aProperties1, const std::vector< XMLPropertyState >& aProperties2 ) const { if (aProperties1.size() < aProperties2.size()) return true; if (aProperties1.size() > aProperties2.size()) return false; sal_uInt32 nCount = aProperties1.size(); for (sal_uInt32 nIndex = 0; nIndex < nCount; ++nIndex) { const XMLPropertyState& rProp1 = aProperties1[ nIndex ]; const XMLPropertyState& rProp2 = aProperties2[ nIndex ]; // Compare index. If equal, compare value if( rProp1.mnIndex < rProp2.mnIndex ) return true; if( rProp1.mnIndex > rProp2.mnIndex ) return false; if( rProp1.mnIndex != -1 ) { // Now compare values if ( (mpImpl->mxPropMapper->GetEntryType( rProp1.mnIndex ) & XML_TYPE_BUILDIN_CMP ) != 0 ) { // simple type ( binary compare ) if ( rProp1.maValue != rProp2.maValue) return false; } else { // complex type ( ask for compare-function ) if (!mpImpl->mxPropMapper->GetPropertyHandler( rProp1.mnIndex )->equals( rProp1.maValue, rProp2.maValue )) return false; } } } return true; } // Compares two Sequences of XMLPropertyState: // 1.Number of elements equal ? // 2.Index of each element equal ? (So I know whether the propertynames are the same) // 3.Value of each element equal ? bool SvXMLExportPropertyMapper::LessPartial( const std::vector< XMLPropertyState >& aProperties1, const std::vector< XMLPropertyState >& aProperties2 ) const { if (aProperties1.size() < aProperties2.size()) return true; if (aProperties1.size() > aProperties2.size()) return false; sal_uInt32 nCount = aProperties1.size(); for (sal_uInt32 nIndex = 0; nIndex < nCount; ++nIndex) { const XMLPropertyState& rProp1 = aProperties1[ nIndex ]; const XMLPropertyState& rProp2 = aProperties2[ nIndex ]; // Compare index. If equal, compare value if( rProp1.mnIndex < rProp2.mnIndex ) return true; if( rProp1.mnIndex > rProp2.mnIndex ) return false; if( rProp1.mnIndex != -1 ) { // Now compare values if ( (mpImpl->mxPropMapper->GetEntryType( rProp1.mnIndex ) & XML_TYPE_BUILDIN_CMP ) != 0 ) { // simple type ( binary compare ) if ( comphelper::anyLess(rProp1.maValue, rProp2.maValue) ) return true; if ( comphelper::anyLess(rProp2.maValue, rProp1.maValue ) ) return false; } } } return false; } /** fills the given attribute list with the items in the given set void SvXMLExportPropertyMapper::exportXML( SvXMLAttributeList& rAttrList, const ::std::vector< XMLPropertyState >& rProperties, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap, sal_uInt16 nFlags ) const { _exportXML( rAttrList, rProperties, rUnitConverter, rNamespaceMap, nFlags, 0, -1, -1 ); } void SvXMLExportPropertyMapper::exportXML( SvXMLAttributeList& rAttrList, const ::std::vector< XMLPropertyState >& rProperties, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap, sal_Int32 nPropMapStartIdx, sal_Int32 nPropMapEndIdx, sal_uInt16 nFlags ) const { _exportXML( rAttrList, rProperties, rUnitConverter, rNamespaceMap, nFlags, 0, nPropMapStartIdx, nPropMapEndIdx ); } */ void SvXMLExportPropertyMapper::exportXML( SvXMLExport& rExport, const ::std::vector< XMLPropertyState >& rProperties, SvXmlExportFlags nFlags, bool bUseExtensionNamespaceForGraphicProperties) const { exportXML(rExport, rProperties, -1, -1, nFlags, bUseExtensionNamespaceForGraphicProperties); } void SvXMLExportPropertyMapper::exportXML( SvXMLExport& rExport, const ::std::vector< XMLPropertyState >& rProperties, sal_Int32 nPropMapStartIdx, sal_Int32 nPropMapEndIdx, SvXmlExportFlags nFlags, bool bUseExtensionNamespaceForGraphicProperties) const { sal_uInt16 nPropTypeFlags = 0; for( sal_uInt16 i=0; i aIndexArray; _exportXML( nPropType, nPropTypeFlags, rExport.GetAttrList(), rProperties, rExport.GetMM100UnitConverter(), rExport.GetNamespaceMap(), &aIndexArray, nPropMapStartIdx, nPropMapEndIdx ); if( rExport.GetAttrList().getLength() > 0 || !aIndexArray.empty() ) { SvXMLElementExport aElem( rExport, nNamespace, aPropTokens[i].eToken, bool(nFlags & SvXmlExportFlags::IGN_WS), false ); exportElementItems( rExport, rProperties, nFlags, aIndexArray ); } } } } /** this method is called for every item that has the MID_FLAG_SPECIAL_ITEM_EXPORT flag set */ void SvXMLExportPropertyMapper::handleSpecialItem( comphelper::AttributeList& rAttrList, const XMLPropertyState& rProperty, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap, const ::std::vector< XMLPropertyState > *pProperties, sal_uInt32 nIdx ) const { OSL_ENSURE(mpImpl->mxNextMapper.is(), "special item not handled in xml export"); if (mpImpl->mxNextMapper.is()) mpImpl->mxNextMapper->handleSpecialItem( rAttrList, rProperty, rUnitConverter, rNamespaceMap, pProperties, nIdx); } /** this method is called for every item that has the MID_FLAG_ELEMENT_EXPORT flag set */ void SvXMLExportPropertyMapper::handleElementItem( SvXMLExport& rExport, const XMLPropertyState& rProperty, SvXmlExportFlags nFlags, const ::std::vector< XMLPropertyState > *pProperties, sal_uInt32 nIdx ) const { OSL_ENSURE(mpImpl->mxNextMapper.is(), "element item not handled in xml export"); if (mpImpl->mxNextMapper.is()) mpImpl->mxNextMapper->handleElementItem(rExport, rProperty, nFlags, pProperties, nIdx); } // protected methods /** fills the given attribute list with the items in the given set */ void SvXMLExportPropertyMapper::_exportXML( sal_uInt16 nPropType, sal_uInt16& rPropTypeFlags, comphelper::AttributeList& rAttrList, const ::std::vector< XMLPropertyState >& rProperties, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap, std::vector* pIndexArray, sal_Int32 nPropMapStartIdx, sal_Int32 nPropMapEndIdx ) const { const sal_uInt32 nCount = rProperties.size(); sal_uInt32 nIndex = 0; if( -1 == nPropMapStartIdx ) nPropMapStartIdx = 0; if( -1 == nPropMapEndIdx ) nPropMapEndIdx = mpImpl->mxPropMapper->GetEntryCount(); while( nIndex < nCount ) { sal_Int32 nPropMapIdx = rProperties[nIndex].mnIndex; if( nPropMapIdx >= nPropMapStartIdx && nPropMapIdx < nPropMapEndIdx )// valid entry? { sal_uInt32 nEFlags = mpImpl->mxPropMapper->GetEntryFlags(nPropMapIdx); sal_uInt16 nEPType = GET_PROP_TYPE(nEFlags); OSL_ENSURE(nEPType >= (XML_TYPE_PROP_START >> XML_TYPE_PROP_SHIFT), "no prop type specified"); rPropTypeFlags |= (1 << nEPType); if( nEPType == nPropType ) { // we have a valid map entry here, so lets use it... if( ( nEFlags & MID_FLAG_ELEMENT_ITEM_EXPORT ) != 0 ) { // element items do not add any properties, // we export it later if( pIndexArray ) { pIndexArray->push_back( static_cast(nIndex) ); } } else { _exportXML( rAttrList, rProperties[nIndex], rUnitConverter, rNamespaceMap, &rProperties, nIndex ); } } } nIndex++; } } namespace { // -1 = Attribute needs extended namespace, but current ODF version is strict. // 1 = Attribute needs extended namespace and current ODF version allows it. // 0 = Attribute does not need extended namespace sal_Int8 CheckExtendedNamespace(std::u16string_view sXMLAttributeName, std::u16string_view sValue, const SvtSaveOptions::ODFSaneDefaultVersion nODFVersion) { if (IsXMLToken(sXMLAttributeName, XML_WRITING_MODE) && (IsXMLToken(sValue, XML_BT_LR) || IsXMLToken(sValue, XML_TB_RL90))) return nODFVersion & SvtSaveOptions::ODFSVER_EXTENDED ? 1 : -1; else if (IsXMLToken(sXMLAttributeName, XML_VERTICAL_REL) && (IsXMLToken(sValue, XML_PAGE_CONTENT_BOTTOM) || IsXMLToken(sValue, XML_PAGE_CONTENT_TOP))) return nODFVersion & SvtSaveOptions::ODFSVER_EXTENDED ? 1 : -1; return 0; } } void SvXMLExportPropertyMapper::_exportXML( comphelper::AttributeList& rAttrList, const XMLPropertyState& rProperty, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap, const ::std::vector< XMLPropertyState > *pProperties, sal_uInt32 nIdx ) const { if ((mpImpl->mxPropMapper->GetEntryFlags(rProperty.mnIndex) & MID_FLAG_SPECIAL_ITEM_EXPORT) != 0) { uno::Reference< container::XNameContainer > xAttrContainer; if( (rProperty.maValue >>= xAttrContainer) && xAttrContainer.is() ) { std::unique_ptr pNewNamespaceMap; const SvXMLNamespaceMap *pNamespaceMap = &rNamespaceMap; const uno::Sequence< OUString > aAttribNames( xAttrContainer->getElementNames() ); xml::AttributeData aData; for( const auto& rAttribName : aAttribNames ) { xAttrContainer->getByName( rAttribName ) >>= aData; OUString sAttribName( rAttribName ); // extract namespace prefix from attribute name if it exists OUString sPrefix; const sal_Int32 nColonPos = rAttribName.indexOf( ':' ); if( nColonPos != -1 ) sPrefix = rAttribName.copy( 0, nColonPos ); if( !sPrefix.isEmpty() ) { OUString sNamespace( aData.Namespace ); // if the prefix isn't defined yet or has another meaning, // we have to redefine it now. sal_uInt16 nKey = pNamespaceMap->GetKeyByPrefix( sPrefix ); if( USHRT_MAX == nKey || pNamespaceMap->GetNameByKey( nKey ) != sNamespace ) { bool bAddNamespace = false; if( USHRT_MAX == nKey ) { // The prefix is unused, so it is sufficient // to add it to the namespace map. bAddNamespace = true; } else { // check if there is a prefix registered for the // namespace URI nKey = pNamespaceMap->GetKeyByName( sNamespace ); if( XML_NAMESPACE_UNKNOWN == nKey ) { // There is no prefix for the namespace, so // we have to generate one and have to add it. sal_Int32 n=0; OUString sOrigPrefix( sPrefix ); do { sPrefix = sOrigPrefix + OUString::number( ++n ); nKey = pNamespaceMap->GetKeyByPrefix( sPrefix ); } while( nKey != USHRT_MAX ); bAddNamespace = true; } else { // If there is a prefix for the namespace, // we reuse that. sPrefix = pNamespaceMap->GetPrefixByKey( nKey ); } // In any case, the attribute name has to be adapted. sAttribName = sPrefix + ":" + rAttribName.subView(nColonPos+1); } if( bAddNamespace ) { if( !pNewNamespaceMap ) { pNewNamespaceMap.reset(new SvXMLNamespaceMap( rNamespaceMap )); pNamespaceMap = pNewNamespaceMap.get(); } pNewNamespaceMap->Add( sPrefix, sNamespace ); OUString sAttr = GetXMLToken(XML_XMLNS) + ":" + sPrefix; rAttrList.AddAttribute( sAttr, sNamespace ); } } } OUString sOldValue( rAttrList.getValueByName( sAttribName ) ); OSL_ENSURE( sOldValue.isEmpty(), "alien attribute exists already" ); OSL_ENSURE(aData.Type == GetXMLToken(XML_CDATA), "different type to our default type which should be written out"); if( sOldValue.isEmpty() ) rAttrList.AddAttribute( sAttribName, aData.Value ); } } else { handleSpecialItem( rAttrList, rProperty, rUnitConverter, rNamespaceMap, pProperties, nIdx ); } } else if ((mpImpl->mxPropMapper->GetEntryFlags(rProperty.mnIndex) & MID_FLAG_ELEMENT_ITEM_EXPORT ) == 0) { OUString aValue; OUString sName = rNamespaceMap.GetQNameByKey( mpImpl->mxPropMapper->GetEntryNameSpace(rProperty.mnIndex), mpImpl->mxPropMapper->GetEntryXMLName(rProperty.mnIndex)); bool bRemove = false; if ((mpImpl->mxPropMapper->GetEntryFlags( rProperty.mnIndex ) & MID_FLAG_MERGE_ATTRIBUTE) != 0) { aValue = rAttrList.getValueByName( sName ); bRemove = true; } if (mpImpl->mxPropMapper->exportXML(aValue, rProperty, rUnitConverter)) { if( bRemove ) rAttrList.RemoveAttribute( sName ); // We don't seem to have a generic mechanism to write an attribute in the extension // namespace in case of certain attribute values only, so do this manually. sal_Int8 nExtendedStatus = CheckExtendedNamespace(mpImpl->mxPropMapper->GetEntryXMLName(rProperty.mnIndex), aValue, rUnitConverter.getSaneDefaultVersion()); if (nExtendedStatus == -1) return; if (nExtendedStatus == 1) sName = rNamespaceMap.GetQNameByKey( XML_NAMESPACE_LO_EXT, mpImpl->mxPropMapper->GetEntryXMLName(rProperty.mnIndex)); rAttrList.AddAttribute( sName, aValue ); } } } void SvXMLExportPropertyMapper::exportElementItems( SvXMLExport& rExport, const ::std::vector< XMLPropertyState >& rProperties, SvXmlExportFlags nFlags, const std::vector& rIndexArray ) const { bool bItemsExported = false; for (const sal_uInt16 nElement : rIndexArray) { OSL_ENSURE( 0 != (mpImpl->mxPropMapper->GetEntryFlags( rProperties[nElement].mnIndex ) & MID_FLAG_ELEMENT_ITEM_EXPORT), "wrong mid flag!" ); rExport.IgnorableWhitespace(); handleElementItem( rExport, rProperties[nElement], nFlags, &rProperties, nElement ); bItemsExported = true; } if( bItemsExported ) rExport.IgnorableWhitespace(); } const rtl::Reference& SvXMLExportPropertyMapper::getPropertySetMapper() const { return mpImpl->mxPropMapper; } void SvXMLExportPropertyMapper::SetStyleName( const OUString& rStyleName ) { mpImpl->maStyleName = rStyleName; } const OUString& SvXMLExportPropertyMapper::GetStyleName() const { return mpImpl->maStyleName; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */