/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_starmath.hxx" /* Warning: The SvXMLElementExport helper class creates the beginning and closing tags of xml elements in its constructor and destructor, so theres hidden stuff going on, on occasion the ordering of these classes declarations may be significant */ #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 #include #include #include #include #include #include #include #include "mathmlexport.hxx" #include #include #include #include #include using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::document; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::uno; using namespace ::com::sun::star; using namespace ::xmloff::token; using ::rtl::OUString; using ::rtl::OUStringBuffer; #define EXPORT_SVC_NAME RTL_CONSTASCII_USTRINGPARAM("com.sun.star.xml.XMLExportFilter") #undef WANTEXCEPT //////////////////////////////////////////////////////////// sal_Bool SmXMLExportWrapper::Export(SfxMedium &rMedium) { sal_Bool bRet=sal_True; uno::Reference xServiceFactory(utl::getProcessServiceFactory()); DBG_ASSERT(xServiceFactory.is(),"got no service manager"); //Get model uno::Reference< lang::XComponent > xModelComp(xModel, uno::UNO_QUERY ); sal_Bool bEmbedded = sal_False; uno::Reference xTunnel; xTunnel = uno::Reference (xModel,uno::UNO_QUERY); SmModel *pModel = reinterpret_cast (xTunnel->getSomething(SmModel::getUnoTunnelId())); SmDocShell *pDocShell = pModel ? static_cast(pModel->GetObjectShell()) : 0; if ( pDocShell && SFX_CREATE_MODE_EMBEDDED == pDocShell->GetCreateMode() ) bEmbedded = sal_True; uno::Reference xStatusIndicator; if (!bEmbedded) { if (pDocShell /*&& pDocShell->GetMedium()*/) { DBG_ASSERT( pDocShell->GetMedium() == &rMedium, "different SfxMedium found" ); SfxItemSet* pSet = rMedium.GetItemSet(); if (pSet) { const SfxUnoAnyItem* pItem = static_cast( pSet->GetItem(SID_PROGRESS_STATUSBAR_CONTROL) ); if (pItem) pItem->GetValue() >>= xStatusIndicator; } } // set progress range and start status indicator if (xStatusIndicator.is()) { sal_Int32 nProgressRange = bFlat ? 1 : 3; xStatusIndicator->start(String(SmResId(STR_STATSTR_WRITING)), nProgressRange); } } // create XPropertySet with three properties for status indicator comphelper::PropertyMapEntry aInfoMap[] = { { "UsePrettyPrinting", sizeof("UsePrettyPrinting")-1, 0, &::getBooleanCppuType(), beans::PropertyAttribute::MAYBEVOID, 0}, { "BaseURI", sizeof("BaseURI")-1, 0, &::getCppuType( (OUString *)0 ), beans::PropertyAttribute::MAYBEVOID, 0 }, { "StreamRelPath", sizeof("StreamRelPath")-1, 0, &::getCppuType( (OUString *)0 ), beans::PropertyAttribute::MAYBEVOID, 0 }, { "StreamName", sizeof("StreamName")-1, 0, &::getCppuType( (OUString *)0 ), beans::PropertyAttribute::MAYBEVOID, 0 }, { NULL, 0, 0, NULL, 0, 0 } }; uno::Reference< beans::XPropertySet > xInfoSet( comphelper::GenericPropertySet_CreateInstance( new comphelper::PropertySetInfo( aInfoMap ) ) ); SvtSaveOptions aSaveOpt; OUString sUsePrettyPrinting(RTL_CONSTASCII_USTRINGPARAM("UsePrettyPrinting")); sal_Bool bUsePrettyPrinting( bFlat || aSaveOpt.IsPrettyPrinting() ); xInfoSet->setPropertyValue( sUsePrettyPrinting, uno::makeAny(bUsePrettyPrinting)); // Set base URI OUString sPropName( RTL_CONSTASCII_USTRINGPARAM("BaseURI") ); xInfoSet->setPropertyValue( sPropName, makeAny( rMedium.GetBaseURL( true ) ) ); sal_Int32 nSteps=0; if (xStatusIndicator.is()) xStatusIndicator->setValue(nSteps++); if (!bFlat) //Storage (Package) of Stream { uno::Reference < embed::XStorage > xStg = rMedium.GetOutputStorage(); sal_Bool bOASIS = ( SotStorage::GetVersion( xStg ) > SOFFICE_FILEFORMAT_60 ); // TODO/LATER: handle the case of embedded links gracefully if ( bEmbedded ) //&& !pStg->IsRoot() ) { OUString aName; if ( rMedium.GetItemSet() ) { const SfxStringItem* pDocHierarchItem = static_cast( rMedium.GetItemSet()->GetItem(SID_DOC_HIERARCHICALNAME) ); if ( pDocHierarchItem ) aName = pDocHierarchItem->GetValue(); } if ( aName.getLength() ) { sPropName = OUString(RTL_CONSTASCII_USTRINGPARAM("StreamRelPath")); xInfoSet->setPropertyValue( sPropName, makeAny( aName ) ); } } if ( !bEmbedded ) { if (xStatusIndicator.is()) xStatusIndicator->setValue(nSteps++); bRet = WriteThroughComponent( xStg, xModelComp, "meta.xml", xServiceFactory, xInfoSet, (bOASIS ? "com.sun.star.comp.Math.XMLOasisMetaExporter" : "com.sun.star.comp.Math.XMLMetaExporter"), sal_False); } if ( bRet ) { if (xStatusIndicator.is()) xStatusIndicator->setValue(nSteps++); bRet = WriteThroughComponent( xStg, xModelComp, "content.xml", xServiceFactory, xInfoSet, "com.sun.star.comp.Math.XMLContentExporter"); } if ( bRet ) { if (xStatusIndicator.is()) xStatusIndicator->setValue(nSteps++); bRet = WriteThroughComponent( xStg, xModelComp, "settings.xml", xServiceFactory, xInfoSet, (bOASIS ? "com.sun.star.comp.Math.XMLOasisSettingsExporter" : "com.sun.star.comp.Math.XMLSettingsExporter") ); } } else { SvStream *pStream = rMedium.GetOutStream(); uno::Reference xOut( new utl::OOutputStreamWrapper(*pStream) ); if (xStatusIndicator.is()) xStatusIndicator->setValue(nSteps++); bRet = WriteThroughComponent( xOut, xModelComp, xServiceFactory, xInfoSet, "com.sun.star.comp.Math.XMLContentExporter"); } if (xStatusIndicator.is()) xStatusIndicator->end(); return bRet; } /// export through an XML exporter component (output stream version) sal_Bool SmXMLExportWrapper::WriteThroughComponent( Reference xOutputStream, Reference xComponent, Reference & rFactory, Reference & rPropSet, const sal_Char* pComponentName ) { DBG_ASSERT(xOutputStream.is(), "I really need an output stream!"); DBG_ASSERT(xComponent.is(), "Need component!"); DBG_ASSERT(NULL != pComponentName, "Need component name!"); // get component Reference< io::XActiveDataSource > xSaxWriter( rFactory->createInstance( OUString::createFromAscii("com.sun.star.xml.sax.Writer") ), UNO_QUERY ); DBG_ASSERT( xSaxWriter.is(), "can't instantiate XML writer" ); if (!xSaxWriter.is()) return sal_False; // connect XML writer to output stream xSaxWriter->setOutputStream( xOutputStream ); // prepare arguments (prepend doc handler to given arguments) Reference xDocHandler( xSaxWriter,UNO_QUERY); Sequence aArgs( 2 ); aArgs[0] <<= xDocHandler; aArgs[1] <<= rPropSet; // get filter component Reference< document::XExporter > xExporter( rFactory->createInstanceWithArguments( OUString::createFromAscii(pComponentName), aArgs), UNO_QUERY); DBG_ASSERT( xExporter.is(), "can't instantiate export filter component" ); if ( !xExporter.is() ) return sal_False; // connect model and filter xExporter->setSourceDocument( xComponent ); // filter! Reference < XFilter > xFilter( xExporter, UNO_QUERY ); uno::Sequence< PropertyValue > aProps(0); xFilter->filter( aProps ); uno::Reference xFilterTunnel; xFilterTunnel = uno::Reference ( xFilter, uno::UNO_QUERY ); SmXMLExport *pFilter = reinterpret_cast< SmXMLExport * >( sal::static_int_cast< sal_uIntPtr >( xFilterTunnel->getSomething( SmXMLExport::getUnoTunnelId() ))); return pFilter ? pFilter->GetSuccess() : sal_True; } /// export through an XML exporter component (storage version) sal_Bool SmXMLExportWrapper::WriteThroughComponent( const Reference < embed::XStorage >& xStorage, Reference xComponent, const sal_Char* pStreamName, Reference & rFactory, Reference & rPropSet, const sal_Char* pComponentName, sal_Bool bCompress ) { DBG_ASSERT(xStorage.is(), "Need storage!"); DBG_ASSERT(NULL != pStreamName, "Need stream name!"); // open stream Reference < io::XStream > xStream; OUString sStreamName = OUString::createFromAscii(pStreamName); try { xStream = xStorage->openStreamElement( sStreamName, embed::ElementModes::READWRITE | embed::ElementModes::TRUNCATE ); } catch ( uno::Exception& ) { DBG_ERROR( "Can't create output stream in package!" ); return sal_False; } String aPropName( String::CreateFromAscii( RTL_CONSTASCII_STRINGPARAM("MediaType") ) ); OUString aMime( RTL_CONSTASCII_USTRINGPARAM("text/xml") ); uno::Any aAny; aAny <<= aMime; uno::Reference < beans::XPropertySet > xSet( xStream, uno::UNO_QUERY ); xSet->setPropertyValue( aPropName, aAny ); if ( !bCompress ) { aPropName = String::CreateFromAscii( RTL_CONSTASCII_STRINGPARAM("Compressed") ); sal_Bool bFalse = sal_False; aAny.setValue( &bFalse, ::getBooleanCppuType() ); xSet->setPropertyValue( aPropName, aAny ); } // even plain stream must be encrypted in encrypted document OUString aTmpPropName( RTL_CONSTASCII_USTRINGPARAM("UseCommonStoragePasswordEncryption") ); sal_Bool bTrue = sal_True; aAny.setValue( &bTrue, ::getBooleanCppuType() ); xSet->setPropertyValue( aTmpPropName, aAny ); // set Base URL if ( rPropSet.is() ) { OUString sPropName( RTL_CONSTASCII_USTRINGPARAM("StreamName") ); rPropSet->setPropertyValue( sPropName, makeAny( sStreamName ) ); } // write the stuff sal_Bool bRet = WriteThroughComponent( xStream->getOutputStream(), xComponent, rFactory, rPropSet, pComponentName ); // stream is closed by SAX parser //if ( bRet ) // xStream->getOutputStream()->closeOutput(); return bRet; } //////////////////////////////////////////////////////////// // #110680# SmXMLExport::SmXMLExport( const ::com::sun::star::uno::Reference< ::com::sun::star::lang::XMultiServiceFactory > xServiceFactory, sal_uInt16 nExportFlags) : SvXMLExport( xServiceFactory, MAP_INCH, XML_MATH, nExportFlags ) , pTree(0) , bSuccess(sal_False) { } sal_Int64 SAL_CALL SmXMLExport::getSomething( const uno::Sequence< sal_Int8 >& rId ) throw(uno::RuntimeException) { if ( rId.getLength() == 16 && 0 == rtl_compareMemory( getUnoTunnelId().getConstArray(), rId.getConstArray(), 16 ) ) return sal::static_int_cast< sal_Int64 >(reinterpret_cast< sal_uIntPtr >(this)); return SvXMLExport::getSomething( rId ); } const uno::Sequence< sal_Int8 > & SmXMLExport::getUnoTunnelId() throw() { static uno::Sequence< sal_Int8 > * pSeq = 0; if ( !pSeq ) { osl::Guard< osl::Mutex > aGuard( osl::Mutex::getGlobalMutex() ); if ( !pSeq ) { static uno::Sequence< sal_Int8 > aSeq( 16 ); rtl_createUuid( (sal_uInt8*)aSeq.getArray(), 0, sal_True ); pSeq = &aSeq; } } return *pSeq; } OUString SAL_CALL SmXMLExport_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExport_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExport_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_ALL ); // EXPORT_OASIS is required here although there is no differrence between // OOo and OASIS, because without the flag, a transformation to OOo would // be chained in. return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_OASIS|EXPORT_ALL ); } //////////////////////////////////////////////////////////// OUString SAL_CALL SmXMLExportMetaOOO_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLMetaExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExportMetaOOO_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExportMetaOOO_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_META ); return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_META ); } //////////////////////////////////////////////////////////// OUString SAL_CALL SmXMLExportMeta_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLOasisMetaExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExportMeta_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExportMeta_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_META ); return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_OASIS|EXPORT_META ); } //////////////////////////////////////////////////////////// OUString SAL_CALL SmXMLExportSettingsOOO_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLSettingsExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExportSettingsOOO_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExportSettingsOOO_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_SETTINGS ); return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_SETTINGS ); } //////////////////////////////////////////////////////////// OUString SAL_CALL SmXMLExportSettings_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLOasisSettingsExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExportSettings_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExportSettings_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_SETTINGS ); return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_OASIS|EXPORT_SETTINGS ); } //////////////////////////////////////////////////////////// OUString SAL_CALL SmXMLExportContent_getImplementationName() throw() { return OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.comp.Math.XMLContentExporter" ) ); } uno::Sequence< OUString > SAL_CALL SmXMLExportContent_getSupportedServiceNames() throw() { const OUString aServiceName( EXPORT_SVC_NAME ); const uno::Sequence< OUString > aSeq( &aServiceName, 1 ); return aSeq; } uno::Reference< uno::XInterface > SAL_CALL SmXMLExportContent_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rSMgr) throw( uno::Exception ) { // #110680# // return (cppu::OWeakObject*)new SmXMLExport( EXPORT_CONTENT ); // The EXPORT_OASIS flag is only required to avoid that a transformer is // chanied in return (cppu::OWeakObject*)new SmXMLExport( rSMgr, EXPORT_OASIS|EXPORT_CONTENT ); } //////////////////////////////////////////////////////////// // XServiceInfo // override empty method from parent class rtl::OUString SAL_CALL SmXMLExport::getImplementationName() throw(uno::RuntimeException) { OUString aTxt; switch( getExportFlags() ) { case EXPORT_META: aTxt = SmXMLExportMeta_getImplementationName(); break; case EXPORT_SETTINGS: aTxt = SmXMLExportSettings_getImplementationName(); break; case EXPORT_CONTENT: aTxt = SmXMLExportContent_getImplementationName(); break; case EXPORT_ALL: default: aTxt = SmXMLExport_getImplementationName(); break; } return aTxt; } sal_uInt32 SmXMLExport::exportDoc(enum XMLTokenEnum eClass) { if ( (getExportFlags() & EXPORT_CONTENT) == 0 ) { SvXMLExport::exportDoc( eClass ); } else { uno::Reference xModel = GetModel(); uno::Reference xTunnel; xTunnel = uno::Reference (xModel,uno::UNO_QUERY); SmModel *pModel = reinterpret_cast (xTunnel->getSomething(SmModel::getUnoTunnelId())); if (pModel) { SmDocShell *pDocShell = static_cast(pModel->GetObjectShell()); pTree = pDocShell->GetFormulaTree(); aText = pDocShell->GetText(); } GetDocHandler()->startDocument(); /*Add xmlns line*/ SvXMLAttributeList &rList = GetAttrList(); // make use of a default namespace ResetNamespaceMap(); // Math doesn't need namespaces from xmloff, since it now uses default namespaces (because that is common with current MathML usage in the web) _GetNamespaceMap().Add( OUString::createFromAscii(""), GetXMLToken(XML_N_MATH), XML_NAMESPACE_MATH ); rList.AddAttribute(GetNamespaceMap().GetAttrNameByKey(XML_NAMESPACE_MATH_IDX), GetNamespaceMap().GetNameByKey( XML_NAMESPACE_MATH_IDX)); //I think we need something like ImplExportEntities(); _ExportContent(); GetDocHandler()->endDocument(); } bSuccess=sal_True; return 0; } void SmXMLExport::_ExportContent() { SvXMLElementExport aEquation(*this, XML_NAMESPACE_MATH, XML_MATH, sal_True, sal_True); SvXMLElementExport *pSemantics=0; if (aText.Len()) { pSemantics = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_SEMANTICS, sal_True, sal_True); } ExportNodes(pTree, 0); if (aText.Len()) { // Convert symbol names uno::Reference xModel = GetModel(); uno::Reference xTunnel; xTunnel = uno::Reference (xModel,uno::UNO_QUERY); SmModel *pModel = reinterpret_cast (xTunnel->getSomething(SmModel::getUnoTunnelId())); SmDocShell *pDocShell = pModel ? static_cast(pModel->GetObjectShell()) : 0; DBG_ASSERT( pDocShell, "doc shell missing" ); if (pDocShell) { SmParser &rParser = pDocShell->GetParser(); sal_Bool bVal = rParser.IsExportSymbolNames(); rParser.SetExportSymbolNames( sal_True ); SmNode *pTmpTree = rParser.Parse( aText ); aText = rParser.GetText(); delete pTmpTree; rParser.SetExportSymbolNames( bVal ); } AddAttribute(XML_NAMESPACE_MATH, XML_ENCODING, OUString(RTL_CONSTASCII_USTRINGPARAM("StarMath 5.0"))); SvXMLElementExport aAnnotation(*this, XML_NAMESPACE_MATH, XML_ANNOTATION, sal_True, sal_False); GetDocHandler()->characters(OUString( aText )); } delete pSemantics; } void SmXMLExport::GetViewSettings( Sequence < PropertyValue >& aProps) { uno::Reference xModel = GetModel(); if ( !xModel.is() ) return; uno::Reference xTunnel; xTunnel = uno::Reference (xModel,uno::UNO_QUERY); SmModel *pModel = reinterpret_cast (xTunnel->getSomething(SmModel::getUnoTunnelId())); if ( !pModel ) return; SmDocShell *pDocShell = static_cast(pModel->GetObjectShell()); if ( !pDocShell ) return; aProps.realloc( 4 ); PropertyValue *pValue = aProps.getArray(); sal_Int32 nIndex = 0; Rectangle aRect( pDocShell->GetVisArea() ); pValue[nIndex].Name = OUString( RTL_CONSTASCII_USTRINGPARAM ( "ViewAreaTop") ); pValue[nIndex++].Value <<= aRect.Top(); pValue[nIndex].Name = OUString( RTL_CONSTASCII_USTRINGPARAM ( "ViewAreaLeft") ); pValue[nIndex++].Value <<= aRect.Left(); pValue[nIndex].Name = OUString( RTL_CONSTASCII_USTRINGPARAM ( "ViewAreaWidth") ); pValue[nIndex++].Value <<= aRect.GetWidth(); pValue[nIndex].Name = OUString( RTL_CONSTASCII_USTRINGPARAM ( "ViewAreaHeight") ); pValue[nIndex++].Value <<= aRect.GetHeight(); } void SmXMLExport::GetConfigurationSettings( Sequence < PropertyValue > & rProps) { Reference < XPropertySet > xProps ( GetModel(), UNO_QUERY ); if ( xProps.is() ) { Reference< XPropertySetInfo > xPropertySetInfo = xProps->getPropertySetInfo(); if (xPropertySetInfo.is()) { Sequence< Property > aProps = xPropertySetInfo->getProperties(); sal_Int32 nCount(aProps.getLength()); if (nCount > 0) { rProps.realloc(nCount); PropertyValue* pProps = rProps.getArray(); if (pProps) { SmConfig *pConfig = SM_MOD()->GetConfig(); const bool bUsedSymbolsOnly = pConfig ? pConfig->IsSaveOnlyUsedSymbols() : false; const OUString sFormula ( RTL_CONSTASCII_USTRINGPARAM ( "Formula" ) ); const OUString sBasicLibraries ( RTL_CONSTASCII_USTRINGPARAM ( "BasicLibraries" ) ); const OUString sDialogLibraries ( RTL_CONSTASCII_USTRINGPARAM ( "DialogLibraries" ) ); const OUString sRuntimeUID ( RTL_CONSTASCII_USTRINGPARAM ( "RuntimeUID" ) ); for (sal_Int32 i = 0; i < nCount; i++, pProps++) { const OUString &rPropName = aProps[i].Name; if (rPropName != sFormula && rPropName != sBasicLibraries && rPropName != sDialogLibraries && rPropName != sRuntimeUID) { pProps->Name = rPropName; rtl::OUString aActualName( rPropName ); // handle 'save used symbols only' if (bUsedSymbolsOnly && rPropName.equalsAscii("Symbols")) aActualName = OUString( RTL_CONSTASCII_USTRINGPARAM ( "UserDefinedSymbolsInUse" ) ); pProps->Value = xProps->getPropertyValue( aActualName ); } } } } } } } void SmXMLExport::ExportLine(const SmNode *pNode, int nLevel) { ExportExpression(pNode, nLevel); } void SmXMLExport::ExportBinaryHorizontal(const SmNode *pNode, int nLevel) { ExportExpression(pNode, nLevel); } void SmXMLExport::ExportUnaryHorizontal(const SmNode *pNode, int nLevel) { ExportExpression(pNode, nLevel); } void SmXMLExport::ExportExpression(const SmNode *pNode, int nLevel) { SvXMLElementExport *pRow=0; sal_uLong nSize = pNode->GetNumSubNodes(); // #i115443: nodes of type expression always need to be grouped with mrow statement if (nSize > 1 || (pNode && pNode->GetType() == NEXPRESSION)) pRow = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MROW, sal_True, sal_True); //if (nSize) //{ for (sal_uInt16 i = 0; i < nSize; i++) if (const SmNode *pTemp = pNode->GetSubNode(i)) ExportNodes(pTemp, nLevel+1); //} #if 0 else { //This saves us from situations like "a newline" where the //lack of a term following the newline would otherwise create //a incorrect token like SvXMLElementExport aDummy(*this, XML_NAMESPACE_MATH, XML_MI, sal_True, sal_False); sal_Unicode nArse[2] = {'\n','\0'}; GetDocHandler()->characters(nArse); } #endif delete pRow; } void SmXMLExport::ExportBinaryVertical(const SmNode *pNode, int nLevel) { DBG_ASSERT(pNode->GetNumSubNodes()==3,"Bad Fraction"); SvXMLElementExport aFraction(*this, XML_NAMESPACE_MATH, XML_MFRAC, sal_True, sal_True); ExportNodes(pNode->GetSubNode(0), nLevel); ExportNodes(pNode->GetSubNode(2), nLevel); } void SmXMLExport::ExportTable(const SmNode *pNode, int nLevel) { SvXMLElementExport *pTable=0; sal_uInt16 nSize = pNode->GetNumSubNodes(); //If the list ends in newline then the last entry has //no subnodes, the newline is superfulous so we just drop //the last node, inclusion would create a bad MathML //table if (nSize >= 1 && pNode->GetSubNode(nSize-1)->GetNumSubNodes() == 0) --nSize; // try to avoid creating a mtable element when the formula consists only // of a single output line if (nLevel || (nSize >1)) pTable = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MTABLE, sal_True, sal_True); for (sal_uInt16 i = 0; i < nSize; i++) if (const SmNode *pTemp = pNode->GetSubNode(i)) { SvXMLElementExport *pRow=0; SvXMLElementExport *pCell=0; if (pTable) { pRow = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MTR, sal_True, sal_True); pCell = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MTD, sal_True, sal_True); } ExportNodes(pTemp, nLevel+1); delete pCell; delete pRow; } delete pTable; } void SmXMLExport::ExportMath(const SmNode *pNode, int /*nLevel*/) { const SmMathSymbolNode *pTemp = static_cast(pNode); SvXMLElementExport aMath(*this, XML_NAMESPACE_MATH, XML_MO, sal_True, sal_False); sal_Unicode nArse[2]; nArse[0] = pTemp->GetText().GetChar(0); sal_Unicode cTmp = ConvertMathToMathML( nArse[0] ); if (cTmp != 0) nArse[0] = cTmp; DBG_ASSERT(nArse[0] != 0xffff,"Non existent symbol"); nArse[1] = 0; GetDocHandler()->characters(nArse); } void SmXMLExport::ExportText(const SmNode *pNode, int /*nLevel*/) { SvXMLElementExport *pText; const SmTextNode *pTemp = static_cast(pNode); switch (pNode->GetToken().eType) { default: case TIDENT: { //Note that we change the fontstyle to italic for strings that //are italic and longer than a single character. sal_Bool bIsItalic = IsItalic( pTemp->GetFont() ); if ((pTemp->GetText().Len() > 1) && bIsItalic) AddAttribute(XML_NAMESPACE_MATH, XML_MATHVARIANT, XML_ITALIC); else if ((pTemp->GetText().Len() == 1) && !bIsItalic) AddAttribute(XML_NAMESPACE_MATH, XML_MATHVARIANT, XML_NORMAL); pText = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MI,sal_True,sal_False); break; } case TNUMBER: pText = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MN,sal_True,sal_False); break; case TTEXT: pText = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MTEXT,sal_True,sal_False); break; } GetDocHandler()->characters(OUString(pTemp->GetText().GetBuffer())); delete pText; } void SmXMLExport::ExportBlank(const SmNode * /*pNode*/, int /*nLevel*/) { //!! exports an empty tag since for example "~_~" is allowed in //!! Math (so it has no sense at all) but must not result in an empty //!! tag in MathML !! SvXMLElementExport *pText; //const SmBlankNode *pTemp = static_cast(pNode); pText = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MI, sal_True, sal_False); GetDocHandler()->characters( OUString() ); delete pText; } void SmXMLExport::ExportSubSupScript(const SmNode *pNode, int nLevel) { const SmNode *pSub = 0; const SmNode *pSup = 0; const SmNode *pCSub = 0; const SmNode *pCSup = 0; const SmNode *pLSub = 0; const SmNode *pLSup = 0; SvXMLElementExport *pThing = 0, *pThing2 = 0; //if we have prescripts at all then we must use the tensor notation //This is one of those excellent locations where scope is vital to //arrange the construction and destruction of the element helper //classes correctly pLSub = pNode->GetSubNode(LSUB+1); pLSup = pNode->GetSubNode(LSUP+1); if (pLSub || pLSup) { SvXMLElementExport aMultiScripts(*this, XML_NAMESPACE_MATH, XML_MMULTISCRIPTS, sal_True, sal_True); if (NULL != (pCSub = pNode->GetSubNode(CSUB+1)) && NULL != (pCSup = pNode->GetSubNode(CSUP+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MUNDEROVER, sal_True,sal_True); } else if (NULL != (pCSub = pNode->GetSubNode(CSUB+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MUNDER, sal_True,sal_True); } else if (NULL != (pCSup = pNode->GetSubNode(CSUP+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MOVER, sal_True,sal_True); } ExportNodes(pNode->GetSubNode(0), nLevel+1); //Main Term if (pCSub) ExportNodes(pCSub, nLevel+1); if (pCSup) ExportNodes(pCSup, nLevel+1); delete pThing2; pSub = pNode->GetSubNode(RSUB+1); pSup = pNode->GetSubNode(RSUP+1); if (pSub || pSup) { if (pSub) ExportNodes(pSub, nLevel+1); else { SvXMLElementExport aNone(*this, XML_NAMESPACE_MATH, XML_NONE,sal_True,sal_True); } if (pSup) ExportNodes(pSup, nLevel+1); else { SvXMLElementExport aNone(*this, XML_NAMESPACE_MATH, XML_NONE,sal_True,sal_True); } } //Seperator element between suffix and prefix sub/sup pairs { SvXMLElementExport aPrescripts(*this, XML_NAMESPACE_MATH, XML_MPRESCRIPTS, sal_True,sal_True); } if (pLSub) ExportNodes(pLSub, nLevel+1); else { SvXMLElementExport aNone(*this, XML_NAMESPACE_MATH, XML_NONE, sal_True,sal_True); } if (pLSup) ExportNodes(pLSup, nLevel+1); else { SvXMLElementExport aNone(*this, XML_NAMESPACE_MATH, XML_NONE, sal_True,sal_True); } } else { if (NULL != (pSub = pNode->GetSubNode(RSUB+1)) && NULL != (pSup = pNode->GetSubNode(RSUP+1))) { pThing = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MSUBSUP, sal_True,sal_True); } else if (NULL != (pSub = pNode->GetSubNode(RSUB+1))) { pThing = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MSUB, sal_True,sal_True); } else if (NULL != (pSup = pNode->GetSubNode(RSUP+1))) { pThing = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MSUP, sal_True,sal_True); } if (NULL != (pCSub = pNode->GetSubNode(CSUB+1)) && NULL != (pCSup=pNode->GetSubNode(CSUP+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MUNDEROVER, sal_True,sal_True); } else if (NULL != (pCSub = pNode->GetSubNode(CSUB+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MUNDER, sal_True,sal_True); } else if (NULL != (pCSup = pNode->GetSubNode(CSUP+1))) { pThing2 = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MOVER, sal_True,sal_True); } ExportNodes(pNode->GetSubNode(0), nLevel+1); //Main Term if (pCSub) ExportNodes(pCSub, nLevel+1); if (pCSup) ExportNodes(pCSup, nLevel+1); delete pThing2; if (pSub) ExportNodes(pSub, nLevel+1); if (pSup) ExportNodes(pSup, nLevel+1); delete pThing; } } void SmXMLExport::ExportBrace(const SmNode *pNode, int nLevel) { const SmNode *pTemp; const SmNode *pLeft=pNode->GetSubNode(0); const SmNode *pRight=pNode->GetSubNode(2); SvXMLElementExport *pFences=0,*pRow=0; if ( ((pLeft) && (pLeft->GetToken().eType != TNONE)) && ((pRight) && (pRight->GetToken().eType != TNONE)) && (pNode->GetScaleMode() == SCALE_HEIGHT)) { sal_Unicode nArse[2]; nArse[1] = 0; nArse[0] = static_cast< const SmMathSymbolNode* >(pLeft)->GetText().GetChar(0); DBG_ASSERT(nArse[0] != 0xffff,"Non existent symbol"); AddAttribute(XML_NAMESPACE_MATH, XML_OPEN,nArse); nArse[0] = static_cast< const SmMathSymbolNode* >(pRight)->GetText().GetChar(0); DBG_ASSERT(nArse[0] != 0xffff,"Non existent symbol"); AddAttribute(XML_NAMESPACE_MATH, XML_CLOSE,nArse); pFences = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MFENCED, sal_True,sal_True); } else if (pLeft && (pLeft->GetToken().eType != TNONE)) { pRow = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MROW, sal_True, sal_True); if (pNode->GetScaleMode() == SCALE_HEIGHT) AddAttribute(XML_NAMESPACE_MATH, XML_STRETCHY, XML_TRUE); else AddAttribute(XML_NAMESPACE_MATH, XML_STRETCHY, XML_FALSE); ExportNodes(pLeft, nLevel+1); } else pRow = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MROW, sal_True, sal_True); if (NULL != (pTemp = pNode->GetSubNode(1))) ExportNodes(pTemp, nLevel+1); if (pFences) delete pFences; else if (pRight && (pRight->GetToken().eType != TNONE)) { if (pNode->GetScaleMode() == SCALE_HEIGHT) AddAttribute(XML_NAMESPACE_MATH, XML_STRETCHY, XML_TRUE); else AddAttribute(XML_NAMESPACE_MATH, XML_STRETCHY, XML_FALSE); ExportNodes(pRight, nLevel+1); } delete pRow; } void SmXMLExport::ExportRoot(const SmNode *pNode, int nLevel) { if (pNode->GetSubNode(0)) { SvXMLElementExport aRoot(*this, XML_NAMESPACE_MATH, XML_MROOT,sal_True, sal_True); ExportNodes(pNode->GetSubNode(2), nLevel+1); ExportNodes(pNode->GetSubNode(0), nLevel+1); } else { SvXMLElementExport aSqrt(*this, XML_NAMESPACE_MATH, XML_MSQRT,sal_True, sal_True); ExportNodes(pNode->GetSubNode(2), nLevel+1); } } void SmXMLExport::ExportOperator(const SmNode *pNode, int nLevel) { /*we need to either use content or font and size attributes *here*/ #if 0 { SvXMLElementExport aMath(*this, XML_NAMESPACE_MATH, XML_MO, sal_True,sal_False); SmTextNode *pTemp = (SmTextNode *)pNode->GetSubNode(0); GetDocHandler()->characters(pTemp->GetText()); } #endif SvXMLElementExport aRow(*this, XML_NAMESPACE_MATH, XML_MROW, sal_True, sal_True); ExportNodes(pNode->GetSubNode(0), nLevel+1); ExportNodes(pNode->GetSubNode(1), nLevel+1); } void SmXMLExport::ExportAttributes(const SmNode *pNode, int nLevel) { SvXMLElementExport *pElement=0; if (pNode->GetToken().eType == TUNDERLINE) { AddAttribute(XML_NAMESPACE_MATH, XML_ACCENTUNDER, XML_TRUE); pElement = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MUNDER, sal_True,sal_True); } else if (pNode->GetToken().eType != TOVERSTRIKE) { AddAttribute(XML_NAMESPACE_MATH, XML_ACCENT, XML_TRUE); pElement = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MOVER, sal_True,sal_True); } ExportNodes(pNode->GetSubNode(1), nLevel+1); switch (pNode->GetToken().eType) { case TOVERLINE: { //proper entity support required SvXMLElementExport aMath(*this, XML_NAMESPACE_MATH, XML_MO, sal_True,sal_True); #if 0 GetDocHandler()->characters( OUString(RTL_CONSTASCII_USTRINGPARAM("&overbar;"))); #else sal_Unicode nArse[2] = {0xAF,0x00}; #endif GetDocHandler()->characters(nArse); } break; case TUNDERLINE: { //proper entity support required SvXMLElementExport aMath(*this, XML_NAMESPACE_MATH, XML_MO, sal_True,sal_True); #if 0 GetDocHandler()->characters( OUString(RTL_CONSTASCII_USTRINGPARAM("&underbar;"))); #else sal_Unicode nArse[2] = {0x0332,0x00}; #endif GetDocHandler()->characters(nArse); } break; case TOVERSTRIKE: break; default: ExportNodes(pNode->GetSubNode(0), nLevel+1); break; } delete pElement; } static bool lcl_HasEffectOnMathvariant( const SmTokenType eType ) { return eType == TBOLD || eType == TNBOLD || eType == TITALIC || eType == TNBOLD || eType == TSANS || eType == TSERIF || eType == TFIXED; } void SmXMLExport::ExportFont(const SmNode *pNode, int nLevel) { SvXMLElementExport *pElement = 0; // // gather the mathvariant attribut relevant data from all // successively following SmFontNodes... // int nBold = -1; // for the following variables: -1 = yet undefined; 0 = false; 1 = true; int nItalic = -1; // for the following variables: -1 = yet undefined; 0 = false; 1 = true; int nSansSerifFixed = -1; SmTokenType eNodeType = TUNKNOWN; while (lcl_HasEffectOnMathvariant( (eNodeType = pNode->GetToken().eType) )) { switch (eNodeType) { case TBOLD : nBold = 1; break; case TNBOLD : nBold = 0; break; case TITALIC : nItalic = 1; break; case TNITALIC : nItalic = 0; break; case TSANS : nSansSerifFixed = 0; break; case TSERIF : nSansSerifFixed = 1; break; case TFIXED : nSansSerifFixed = 2; break; default: DBG_ASSERT( 0, "unexpected case" ); } // According to the parser every node that is to be evaluated heres // has a single non-zero subnode at index 1!! Thus we only need to check // that single node for follow-up nodes that have an effect on the attribute. if (pNode->GetNumSubNodes() > 1 && pNode->GetSubNode(1) && lcl_HasEffectOnMathvariant( pNode->GetSubNode(1)->GetToken().eType)) { pNode = pNode->GetSubNode(1); } else break; } switch (pNode->GetToken().eType) { //wrap a phantom element around everything*/ case TPHANTOM: pElement = new SvXMLElementExport(*this, XML_NAMESPACE_MATH, XML_MPHANTOM, sal_True,sal_True); break; case TBLACK: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_BLACK); break; case TWHITE: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_WHITE); break; case TRED: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_RED); break; case TGREEN: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_GREEN); break; case TBLUE: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_BLUE); break; case TCYAN: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_AQUA); break; case TMAGENTA: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_FUCHSIA); break; case TYELLOW: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_YELLOW); break; case TSILVER: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_SILVER); break; case TGRAY: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_GRAY); break; case TMAROON: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_MAROON); break; case TOLIVE: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_OLIVE); break; case TLIME: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_LIME); break; case TAQUA: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_AQUA); break; case TTEAL: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_TEAL); break; case TNAVY: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_NAVY); break; case TFUCHSIA: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_FUCHSIA); break; case TPURPLE: AddAttribute(XML_NAMESPACE_MATH, XML_COLOR, XML_PURPLE); break; case TSIZE: { const SmFontNode *pFontNode = static_cast(pNode); const Fraction &aFrac = pFontNode->GetSizeParameter(); OUStringBuffer sStrBuf; switch(pFontNode->GetSizeType()) { case FNTSIZ_MULTIPLY: SvXMLUnitConverter::convertDouble(sStrBuf, static_cast(aFrac*Fraction(100.00))); sStrBuf.append(static_cast('%')); break; case FNTSIZ_DIVIDE: SvXMLUnitConverter::convertDouble(sStrBuf, static_cast(Fraction(100.00)/aFrac)); sStrBuf.append(static_cast('%')); break; case FNTSIZ_ABSOLUT: SvXMLUnitConverter::convertDouble(sStrBuf, static_cast(aFrac)); sStrBuf.append( GetXMLToken(XML_UNIT_PT)); break; default: { //The problem here is that the wheels fall off because //font size is stored in 100th's of a mm not pts, and //rounding errors take their toll on the original //value specified in points. //Must fix StarMath to retain the original pt values Fraction aTemp = Sm100th_mmToPts(pFontNode->GetFont(). GetSize().Height()); if (pFontNode->GetSizeType() == FNTSIZ_MINUS) aTemp-=aFrac; else aTemp+=aFrac; double mytest = static_cast(aTemp); mytest = ::rtl::math::round(mytest,1); SvXMLUnitConverter::convertDouble(sStrBuf,mytest); sStrBuf.append(GetXMLToken(XML_UNIT_PT)); } break; } OUString sStr(sStrBuf.makeStringAndClear()); AddAttribute(XML_NAMESPACE_MATH, XML_MATHSIZE, sStr); } break; case TBOLD: case TITALIC: case TNBOLD: case TNITALIC: case TFIXED: case TSANS: case TSERIF: { // nBold: -1 = yet undefined; 0 = false; 1 = true; // nItalic: -1 = yet undefined; 0 = false; 1 = true; // nSansSerifFixed: -1 = undefined; 0 = sans; 1 = serif; 2 = fixed; const sal_Char *pText = "normal"; if (nSansSerifFixed == -1 || nSansSerifFixed == 1) { pText = "normal"; if (nBold == 1 && nItalic != 1) pText = "bold"; else if (nBold != 1 && nItalic == 1) pText = "italic"; else if (nBold == 1 && nItalic == 1) pText = "bold-italic"; } else if (nSansSerifFixed == 0) { pText = "sans-serif"; if (nBold == 1 && nItalic != 1) pText = "bold-sans-serif"; else if (nBold != 1 && nItalic == 1) pText = "sans-serif-italic"; else if (nBold == 1 && nItalic == 1) pText = "sans-serif-bold-italic"; } else if (nSansSerifFixed == 2) pText = "monospace"; // no modifiers allowed for monospace ... else { DBG_ASSERT( 0, "unexpected case" ); } AddAttribute(XML_NAMESPACE_MATH, XML_MATHVARIANT, A2OU(pText)); } break; default: break; } #if 0 if (pNode->GetNumSubNodes() > 1) //or in the future is a node that //cannot take the currently supported //properties #endif //for now we will just always export with a style and not worry about //anyone else for the moment. { //wrap a style around it SvXMLElementExport aStyle(*this, XML_NAMESPACE_MATH, XML_MSTYLE, sal_True,sal_True); ExportExpression(pNode, nLevel); } #if 0 else ExportNodes(pNode->GetSubNode(0), nLevel+1); #endif delete pElement; } void SmXMLExport::ExportVerticalBrace(const SmNode *pNode, int nLevel) { //Place the overbrace value OVER a vertical brace and then place that //expression OVER the overbrace value, If someone can find a //dedicated term in MathML to handle this overbrace/underbrace concept //let me know. C. XMLTokenEnum which; switch (pNode->GetToken().eType) { case TOVERBRACE: default: which = XML_MOVER; break; case TUNDERBRACE: which = XML_MUNDER; break; } DBG_ASSERT(pNode->GetNumSubNodes()==3,"Bad Vertical Brace"); SvXMLElementExport aOver1(*this, XML_NAMESPACE_MATH,which, sal_True, sal_True); {//Scoping // using accents will draw the over-/underbraces too close to the base // see http://www.w3.org/TR/MathML2/chapter3.html#id.3.4.5.2 // also XML_ACCENT is illegal with XML_MUNDER. Thus no XML_ACCENT attribut here! // AddAttribute(XML_NAMESPACE_MATH, XML_ACCENT, XML_sal_True); SvXMLElementExport aOver2(*this, XML_NAMESPACE_MATH,which, sal_True, sal_True); ExportNodes(pNode->GetSubNode(0), nLevel); ExportNodes(pNode->GetSubNode(1), nLevel); } ExportNodes(pNode->GetSubNode(2), nLevel); } void SmXMLExport::ExportMatrix(const SmNode *pNode, int nLevel) { SvXMLElementExport aTable(*this, XML_NAMESPACE_MATH, XML_MTABLE, sal_True, sal_True); const SmMatrixNode *pMatrix = static_cast(pNode); sal_uInt16 i=0; for (sal_uLong y = 0; y < pMatrix->GetNumRows(); y++) { SvXMLElementExport aRow(*this, XML_NAMESPACE_MATH, XML_MTR, sal_True, sal_True); for (sal_uLong x = 0; x < pMatrix->GetNumCols(); x++) if (const SmNode *pTemp = pNode->GetSubNode(i++)) { SvXMLElementExport aCell(*this, XML_NAMESPACE_MATH, XML_MTD, sal_True, sal_True); ExportNodes(pTemp, nLevel+1); } } } void SmXMLExport::ExportNodes(const SmNode *pNode, int nLevel) { if (!pNode) return; switch(pNode->GetType()) { case NTABLE: ExportTable(pNode, nLevel); break; case NALIGN: case NBRACEBODY: case NEXPRESSION: ExportExpression(pNode, nLevel); break; case NLINE: ExportLine(pNode, nLevel); break; case NTEXT: ExportText(pNode, nLevel); break; case NSPECIAL: //NSPECIAL requires some sort of Entity preservation in the XML engine. case NGLYPH_SPECIAL: case NMATH: { sal_Unicode cTmp = 0; const SmTextNode *pTemp = static_cast< const SmTextNode * >(pNode); if (pTemp->GetText().Len() > 0) cTmp = ConvertMathToMathML( pTemp->GetText().GetChar(0) ); if (cTmp == 0) { // no conversion to MathML implemented -> export it as text // thus at least it will not vanish into nothing ExportText(pNode, nLevel); } else { //To fully handle generic MathML we need to implement the full //operator dictionary, we will generate MathML with explicit //stretchiness for now. sal_Int16 nLength = GetAttrList().getLength(); sal_Bool bAddStretch=sal_True; for ( sal_Int16 i = 0; i < nLength; i++ ) { OUString sLocalName; sal_uInt16 nPrefix = GetNamespaceMap().GetKeyByAttrName( GetAttrList().getNameByIndex(i), &sLocalName ); if ( ( XML_NAMESPACE_MATH == nPrefix ) && IsXMLToken(sLocalName, XML_STRETCHY) ) { bAddStretch = sal_False; break; } } if (bAddStretch) { AddAttribute(XML_NAMESPACE_MATH, XML_STRETCHY, XML_FALSE); } ExportMath(pNode, nLevel); } } break; case NPLACE: ExportMath(pNode, nLevel); break; case NBINHOR: ExportBinaryHorizontal(pNode, nLevel); break; case NUNHOR: ExportUnaryHorizontal(pNode, nLevel); break; case NBRACE: ExportBrace(pNode, nLevel); break; case NBINVER: ExportBinaryVertical(pNode, nLevel); break; case NSUBSUP: ExportSubSupScript(pNode, nLevel); break; case NROOT: ExportRoot(pNode, nLevel); break; case NOPER: ExportOperator(pNode, nLevel); break; case NATTRIBUT: ExportAttributes(pNode, nLevel); break; case NFONT: ExportFont(pNode, nLevel); break; case NVERTICAL_BRACE: ExportVerticalBrace(pNode, nLevel); break; case NMATRIX: ExportMatrix(pNode, nLevel); break; case NBLANK: ExportBlank(pNode, nLevel); break; default: DBG_ASSERT( 0, "Warning: failed to export a node?" ); break; #if 0 default: { sal_uLong nSize = pNode->GetNumSubNodes(); for (sal_uLong i = 0; i < nSize; i++) if (SmNode *pTemp = pNode->GetSubNode(i)) ExportNodes(pTemp, nLevel+1); } break; #endif } } ////////////////////////////////////////////////////////////