/* -*- 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 "table.hxx" using namespace ::xmloff::token; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::table; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::text; using namespace ::com::sun::star::style; #define MAP_(name,prefix,token,type,context) { name, sizeof(name)-1, prefix, token, type, context, SvtSaveOptions::ODFSVER_010, false } #define CMAP(name,prefix,token,type,context) MAP_(name,prefix,token,type|XML_TYPE_PROP_TABLE_COLUMN,context) #define RMAP(name,prefix,token,type,context) MAP_(name,prefix,token,type|XML_TYPE_PROP_TABLE_ROW,context) #define CELLMAP(name,prefix,token,type,context) MAP_(name,prefix,token,type|XML_TYPE_PROP_TABLE_CELL,context) #define MAP_END { nullptr, 0, 0, XML_EMPTY, 0, 0, SvtSaveOptions::ODFSVER_010, false } const XMLPropertyMapEntry* getColumnPropertiesMap() { static const XMLPropertyMapEntry aXMLColumnProperties[] = { CMAP( "Width", XML_NAMESPACE_STYLE, XML_COLUMN_WIDTH, XML_TYPE_MEASURE, 0 ), CMAP( "OptimalWidth", XML_NAMESPACE_STYLE, XML_USE_OPTIMAL_COLUMN_WIDTH, XML_TYPE_BOOL, 0 ), MAP_END }; return &aXMLColumnProperties[0]; } const XMLPropertyMapEntry* getRowPropertiesMap() { static const XMLPropertyMapEntry aXMLRowProperties[] = { RMAP( "Height", XML_NAMESPACE_STYLE, XML_ROW_HEIGHT, XML_TYPE_MEASURE, 0 ), RMAP( "MinHeight", XML_NAMESPACE_STYLE, XML_MIN_ROW_HEIGHT, XML_TYPE_MEASURE, 0 ), RMAP( "OptimalHeight", XML_NAMESPACE_STYLE, XML_USE_OPTIMAL_ROW_HEIGHT, XML_TYPE_BOOL, 0 ), MAP_END }; return &aXMLRowProperties[0]; } const XMLPropertyMapEntry* getCellPropertiesMap() { static const XMLPropertyMapEntry aXMLCellProperties[] = { CELLMAP( "RotateAngle", XML_NAMESPACE_STYLE, XML_ROTATION_ANGLE, XML_SD_TYPE_CELL_ROTATION_ANGLE, 0), MAP_END }; return &aXMLCellProperties[0]; } namespace { class StringStatisticHelper { private: std::map< OUString, sal_Int32 > mStats; public: void add( const OUString& rStyleName ); void clear() { mStats.clear(); } sal_Int32 getModeString( /* out */ OUString& rModeString ); }; } void StringStatisticHelper::add( const OUString& rStyleName ) { std::map< OUString, sal_Int32 >::iterator iter( mStats.find( rStyleName ) ); if( iter == mStats.end() ) { mStats[rStyleName] = 1; } else { (*iter).second += 1; } } sal_Int32 StringStatisticHelper::getModeString( OUString& rStyleName ) { sal_Int32 nMax = 0; for( const auto& rStatsEntry : mStats ) { if( rStatsEntry.second > nMax ) { rStyleName = rStatsEntry.first; nMax = rStatsEntry.second; } } return nMax; } namespace { class XMLCellExportPropertyMapper : public SvXMLExportPropertyMapper { public: using SvXMLExportPropertyMapper::SvXMLExportPropertyMapper; /** this method is called for every item that has the MID_FLAG_SPECIAL_ITEM_EXPORT flag set */ virtual void handleSpecialItem(SvXMLAttributeList&, const XMLPropertyState&, const SvXMLUnitConverter&, const SvXMLNamespaceMap&, const std::vector*, sal_uInt32) const override { // the SpecialItem NumberFormat must not be handled by this method } }; } XMLTableExport::XMLTableExport(SvXMLExport& rExp, const rtl::Reference< SvXMLExportPropertyMapper >& xExportPropertyMapper, const rtl::Reference< XMLPropertyHandlerFactory >& xFactoryRef ) : mrExport( rExp ) , mbExportTables( false ) , mbWriter( false ) { Reference< XMultiServiceFactory > xFac( rExp.GetModel(), UNO_QUERY ); if( xFac.is() ) try { Sequence< OUString > sSNS( xFac->getAvailableServiceNames() ); const OUString* pSNS = std::find_if(sSNS.begin(), sSNS.end(), [](const OUString& rSNS) { return rSNS == "com.sun.star.drawing.TableShape" || rSNS == "com.sun.star.style.TableStyle"; }); if (pSNS != sSNS.end()) { mbExportTables = true; mbWriter = (*pSNS == "com.sun.star.style.TableStyle"); } } catch(const Exception&) { } if (mbWriter) { mxCellExportPropertySetMapper = new XMLCellExportPropertyMapper(new XMLTextPropertySetMapper(TextPropMap::CELL, true)); } else { mxCellExportPropertySetMapper = xExportPropertyMapper; mxCellExportPropertySetMapper->ChainExportMapper(XMLTextParagraphExport::CreateParaExtPropMapper(rExp)); mxCellExportPropertySetMapper->ChainExportMapper(new SvXMLExportPropertyMapper(new XMLPropertySetMapper(getCellPropertiesMap(), xFactoryRef.get(), true))); } mxRowExportPropertySetMapper = new SvXMLExportPropertyMapper( new XMLPropertySetMapper( getRowPropertiesMap(), xFactoryRef.get(), true ) ); mxColumnExportPropertySetMapper = new SvXMLExportPropertyMapper( new XMLPropertySetMapper( getColumnPropertiesMap(), xFactoryRef.get(), true ) ); mrExport.GetAutoStylePool()->AddFamily(XmlStyleFamily::TABLE_COLUMN, OUString(XML_STYLE_FAMILY_TABLE_COLUMN_STYLES_NAME), mxColumnExportPropertySetMapper.get(), OUString(XML_STYLE_FAMILY_TABLE_COLUMN_STYLES_PREFIX)); mrExport.GetAutoStylePool()->AddFamily(XmlStyleFamily::TABLE_ROW, OUString(XML_STYLE_FAMILY_TABLE_ROW_STYLES_NAME), mxRowExportPropertySetMapper.get(), OUString(XML_STYLE_FAMILY_TABLE_ROW_STYLES_PREFIX)); mrExport.GetAutoStylePool()->AddFamily(XmlStyleFamily::TABLE_CELL, OUString(XML_STYLE_FAMILY_TABLE_CELL_STYLES_NAME), mxCellExportPropertySetMapper.get(), OUString(XML_STYLE_FAMILY_TABLE_CELL_STYLES_PREFIX)); } XMLTableExport::~XMLTableExport () { } static bool has_states( const std::vector< XMLPropertyState >& xPropStates ) { return std::any_of(xPropStates.cbegin(), xPropStates.cend(), [](const XMLPropertyState& rPropertyState) { return rPropertyState.mnIndex != -1; }); } void XMLTableExport::collectTableAutoStyles(const Reference < XColumnRowRange >& xColumnRowRange) { if( !mbExportTables ) return; auto xTableInfo = std::make_shared(); maTableInfoMap[xColumnRowRange] = xTableInfo; try { Reference< XIndexAccess > xIndexAccessCols( xColumnRowRange->getColumns(), UNO_QUERY_THROW ); const sal_Int32 nColumnCount = xIndexAccessCols->getCount(); for( sal_Int32 nColumn = 0; nColumn < nColumnCount; ++nColumn ) try { Reference< XPropertySet > xPropSet( xIndexAccessCols->getByIndex(nColumn) , UNO_QUERY_THROW ); std::vector< XMLPropertyState > aPropStates( mxColumnExportPropertySetMapper->Filter( xPropSet ) ); if( has_states( aPropStates ) ) { const OUString sStyleName( mrExport.GetAutoStylePool()->Add(XmlStyleFamily::TABLE_COLUMN, aPropStates) ); Reference< XInterface > xKey( xPropSet, UNO_QUERY ); xTableInfo->maColumnStyleMap[xKey] = sStyleName; } } catch(const Exception&) { OSL_FAIL("xmloff::XMLTableExport::collectTableAutoStyles(), exception during column style collection!"); } Reference< XIndexAccess > xIndexAccessRows( xColumnRowRange->getRows(), UNO_QUERY_THROW ); const sal_Int32 nRowCount = xIndexAccessRows->getCount(); xTableInfo->maDefaultRowCellStyles.resize(nRowCount); StringStatisticHelper aStringStatistic; for( sal_Int32 nRow = 0; nRow < nRowCount; ++nRow ) try { Reference< XPropertySet > xPropSet( xIndexAccessRows->getByIndex(nRow) , UNO_QUERY_THROW ); std::vector< XMLPropertyState > aRowPropStates( mxRowExportPropertySetMapper->Filter( xPropSet ) ); if( has_states( aRowPropStates ) ) { const OUString sStyleName( mrExport.GetAutoStylePool()->Add(XmlStyleFamily::TABLE_ROW, aRowPropStates) ); Reference< XInterface > xKey( xPropSet, UNO_QUERY ); xTableInfo->maRowStyleMap[xKey] = sStyleName; } // get the current row Reference< XCellRange > xCellRange( xPropSet, UNO_QUERY_THROW ); for ( sal_Int32 nColumn = 0; nColumn < nColumnCount; ++nColumn ) { // get current cell, remarks row index is 0, because we get the range for each row separate Reference< XPropertySet > xCellSet( xCellRange->getCellByPosition(nColumn, 0), UNO_QUERY_THROW ); // get style OUString sParentStyleName; Reference< XPropertySetInfo > xPropertySetInfo( xCellSet->getPropertySetInfo() ); if( xPropertySetInfo.is() && xPropertySetInfo->hasPropertyByName("Style") ) { Reference< XStyle > xStyle( xCellSet->getPropertyValue("Style"), UNO_QUERY ); if( xStyle.is() ) sParentStyleName = xStyle->getName(); } // create auto style, if needed OUString sStyleName; std::vector< XMLPropertyState > aCellPropStates( mxCellExportPropertySetMapper->Filter( xCellSet ) ); if( has_states( aCellPropStates ) ) sStyleName = mrExport.GetAutoStylePool()->Add(XmlStyleFamily::TABLE_CELL, aCellPropStates); else sStyleName = sParentStyleName; if( !sStyleName.isEmpty() ) { Reference< XInterface > xKey( xCellSet, UNO_QUERY ); xTableInfo->maCellStyleMap[xKey] = sStyleName; } // create auto style for text Reference< XText > xText(xCellSet, UNO_QUERY); if(xText.is() && !xText->getString().isEmpty()) GetExport().GetTextParagraphExport()->collectTextAutoStyles( xText ); aStringStatistic.add( sStyleName ); } OUString sDefaultCellStyle; if( aStringStatistic.getModeString( sDefaultCellStyle ) > 1 ) xTableInfo->maDefaultRowCellStyles[nRow] = sDefaultCellStyle; aStringStatistic.clear(); } catch(const Exception&) { OSL_FAIL("xmloff::XMLTableExport::collectTableAutoStyles(), exception during column style collection!"); } } catch(const Exception&) { OSL_FAIL("xmloff::XMLTableExport::collectTableAutoStyles(), exception caught!"); } } void XMLTableExport::exportTable( const Reference < XColumnRowRange >& xColumnRowRange ) { if( !mbExportTables ) return; try { std::shared_ptr< XMLTableInfo > xTableInfo( maTableInfoMap[xColumnRowRange] ); // get row and column count Reference< XIndexAccess > xIndexAccess( xColumnRowRange->getRows(), UNO_QUERY_THROW ); Reference< XIndexAccess > xIndexAccessCols( xColumnRowRange->getColumns(), UNO_QUERY_THROW ); const sal_Int32 rowCount = xIndexAccess->getCount(); const sal_Int32 columnCount = xIndexAccessCols->getCount(); SvXMLElementExport tableElement( mrExport, XML_NAMESPACE_TABLE, XML_TABLE, true, true ); // export table columns ExportTableColumns( xIndexAccessCols, xTableInfo ); // start iterating rows and columns for ( sal_Int32 rowIndex = 0; rowIndex < rowCount; rowIndex++ ) { // get the current row Reference< XCellRange > xCellRange( xIndexAccess->getByIndex(rowIndex), UNO_QUERY_THROW ); OUString sDefaultCellStyle; // table:style-name if( xTableInfo ) { Reference< XInterface > xKey( xCellRange, UNO_QUERY ); const OUString sStyleName( xTableInfo->maRowStyleMap[xKey] ); if( !sStyleName.isEmpty() ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_STYLE_NAME, sStyleName ); sDefaultCellStyle = xTableInfo->maDefaultRowCellStyles[rowIndex]; if( !sDefaultCellStyle.isEmpty() ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_DEFAULT_CELL_STYLE_NAME, sDefaultCellStyle ); } // write row element SvXMLElementExport tableRowElement( mrExport, XML_NAMESPACE_TABLE, XML_TABLE_ROW, true, true ); for ( sal_Int32 columnIndex = 0; columnIndex < columnCount; columnIndex++ ) { // get current cell, remarks row index is 0, because we get the range for each row separate Reference< XCell > xCell( xCellRange->getCellByPosition(columnIndex, 0), UNO_SET_THROW ); // use XMergeableCell interface from offapi Reference< XMergeableCell > xMergeableCell( xCell, UNO_QUERY_THROW ); // export cell ExportCell( xCell, xTableInfo, sDefaultCellStyle ); } } } catch(const Exception&) { OSL_FAIL( "XMLTableExport::exportTable(), exception caught!" ); } } // Export the table columns void XMLTableExport::ExportTableColumns( const Reference < XIndexAccess >& xtableColumnsIndexAccess, const std::shared_ptr< XMLTableInfo >& rTableInfo ) { const sal_Int32 nColumnCount = xtableColumnsIndexAccess->getCount(); for( sal_Int32 nColumn = 0; nColumn < nColumnCount; ++nColumn ) { Reference< XPropertySet > xColumnProperties( xtableColumnsIndexAccess->getByIndex(nColumn) , UNO_QUERY ); if ( xColumnProperties.is() ) { // table:style-name if( rTableInfo ) { Reference< XInterface > xKey( xColumnProperties, UNO_QUERY ); const OUString sStyleName( rTableInfo->maColumnStyleMap[xKey] ); if( !sStyleName.isEmpty() ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_STYLE_NAME, sStyleName ); } // TODO: all columns first have to be checked if someone // have identical properties. If yes, attr table:number-columns-repeated // has to be written. SvXMLElementExport tableColumnElement( mrExport, XML_NAMESPACE_TABLE, XML_TABLE_COLUMN, true, true ); } } } // ODF export for a table cell. void XMLTableExport::ExportCell( const Reference < XCell >& xCell, const std::shared_ptr< XMLTableInfo >& rTableInfo, const OUString& rDefaultCellStyle ) { bool bIsMerged = false; sal_Int32 nRowSpan = 0; sal_Int32 nColSpan = 0; try { if( rTableInfo ) { // table:style-name Reference< XInterface > xKey( xCell, UNO_QUERY ); const OUString sStyleName( rTableInfo->maCellStyleMap[xKey] ); if( !sStyleName.isEmpty() && (sStyleName != rDefaultCellStyle) ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_STYLE_NAME, sStyleName ); } Reference< XMergeableCell > xMerge( xCell, UNO_QUERY ); if( xMerge.is() ) { bIsMerged = xMerge->isMerged(); nRowSpan = xMerge->getRowSpan(); nColSpan = xMerge->getColumnSpan(); } SAL_WARN_IF( (nRowSpan < 1) || (nColSpan < 1), "xmloff", "xmloff::XMLTableExport::ExportCell(), illegal row or col span < 1?" ); } catch (const Exception&) { OSL_FAIL( "exception while exporting a table cell" ); } // table:number-columns-repeated // todo // table:number-columns-spanned if( nColSpan > 1 ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_NUMBER_COLUMNS_SPANNED, OUString::number( nColSpan ) ); // table:number-rows-spanned if( nRowSpan > 1 ) mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_NUMBER_ROWS_SPANNED, OUString::number( nRowSpan ) ); // or SvXMLElementExport tableCellElement( mrExport, XML_NAMESPACE_TABLE, bIsMerged ? XML_COVERED_TABLE_CELL : XML_TABLE_CELL, true, true ); // export cells text content ImpExportText( xCell ); } // ODF export of the text contents of a table cell. // Remarks: Up to now we only export text contents! // TODO: Check against nested tables... void XMLTableExport::ImpExportText( const Reference< XCell >& xCell ) { Reference< XText > xText( xCell, UNO_QUERY ); if( xText.is() && !xText->getString().isEmpty()) mrExport.GetTextParagraphExport()->exportText( xText ); } void XMLTableExport::exportTableStyles() { if( !mbExportTables ) return; rtl::Reference aStEx; OUString sCellStyleName; if (mbWriter) { sCellStyleName = "CellStyles"; aStEx.set(new XMLCellStyleExport(mrExport)); } else { // write graphic family styles sCellStyleName = "cell"; aStEx.set(new XMLStyleExport(mrExport, mrExport.GetAutoStylePool().get())); } aStEx->exportStyleFamily(sCellStyleName, OUString(XML_STYLE_FAMILY_TABLE_CELL_STYLES_NAME), mxCellExportPropertySetMapper.get(), true, XmlStyleFamily::TABLE_CELL); exportTableTemplates(); } // Export the collected automatic styles void XMLTableExport::exportAutoStyles() { if( !mbExportTables ) return; mrExport.GetAutoStylePool()->exportXML( XmlStyleFamily::TABLE_COLUMN ); mrExport.GetAutoStylePool()->exportXML( XmlStyleFamily::TABLE_ROW ); mrExport.GetAutoStylePool()->exportXML( XmlStyleFamily::TABLE_CELL ); } const TableStyleElement* getTableStyleMap() { static const struct TableStyleElement gTableStyleElements[] = { { XML_FIRST_ROW, OUString("first-row") }, { XML_LAST_ROW, OUString("last-row") }, { XML_FIRST_COLUMN, OUString("first-column") }, { XML_LAST_COLUMN, OUString("last-column") }, { XML_BODY, OUString("body") }, { XML_EVEN_ROWS, OUString("even-rows") }, { XML_ODD_ROWS, OUString("odd-rows") }, { XML_EVEN_COLUMNS, OUString("even-columns") }, { XML_ODD_COLUMNS, OUString("odd-columns") }, { XML_BACKGROUND, OUString("background") }, { XML_TOKEN_END, OUString() } }; return &gTableStyleElements[0]; } const TableStyleElement* getWriterSpecificTableStyleMap() { static const struct TableStyleElement gWriterSpecificTableStyleElements[] = { { XML_FIRST_ROW_EVEN_COLUMN, OUString("first-row-even-column") }, { XML_LAST_ROW_EVEN_COLUMN, OUString("last-row-even-column") }, { XML_FIRST_ROW_END_COLUMN, OUString("first-row-end-column") }, { XML_FIRST_ROW_START_COLUMN, OUString("first-row-start-column") }, { XML_LAST_ROW_END_COLUMN, OUString("last-row-end-column") }, { XML_LAST_ROW_START_COLUMN, OUString("last-row-start-column") }, { XML_TOKEN_END, OUString() } }; return &gWriterSpecificTableStyleElements[0]; } static const TableStyleElement* getWriterSpecificTableStyleAttributes() { static const struct TableStyleElement gWriterSpecifitTableStyleAttributes[] = { { XML_FIRST_ROW_END_COLUMN, OUString("FirstRowEndColumn") }, { XML_FIRST_ROW_START_COLUMN, OUString("FirstRowStartColumn") }, { XML_LAST_ROW_END_COLUMN, OUString("LastRowEndColumn") }, { XML_LAST_ROW_START_COLUMN, OUString("LastRowStartColumn") }, { XML_TOKEN_END, OUString() } }; return &gWriterSpecifitTableStyleAttributes[0]; } void XMLTableExport::exportTableTemplates() { if( !mbExportTables ) return; try { Reference< XStyleFamiliesSupplier > xFamiliesSupp( mrExport.GetModel(), UNO_QUERY_THROW ); Reference< XNameAccess > xFamilies( xFamiliesSupp->getStyleFamilies() ); OUString sFamilyName; if (mbWriter) sFamilyName = "TableStyles"; else sFamilyName = "table"; Reference< XIndexAccess > xTableFamily( xFamilies->getByName( sFamilyName ), UNO_QUERY_THROW ); for( sal_Int32 nIndex = 0; nIndex < xTableFamily->getCount(); nIndex++ ) try { SvtSaveOptions::ODFSaneDefaultVersion eVersion = mrExport.getSaneDefaultVersion(); Reference< XStyle > xTableStyle( xTableFamily->getByIndex( nIndex ), UNO_QUERY_THROW ); if( !xTableStyle->isInUse() ) continue; const TableStyleElement* pElements; if (mbWriter) { mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_NAME, xTableStyle->getName()); Reference xTableStylePropSet(xTableStyle, UNO_QUERY_THROW); pElements = getWriterSpecificTableStyleAttributes(); while(pElements->meElement != XML_TOKEN_END) { try { OUString sVal; xTableStylePropSet->getPropertyValue(pElements->msStyleName) >>= sVal; mrExport.AddAttribute(XML_NAMESPACE_TABLE, pElements->meElement, sVal); } catch(const Exception&) { TOOLS_WARN_EXCEPTION("xmloff", "XMLTableExport::exportTableTemplates(), export Writer specific attributes, exception caught!"); } pElements++; } } else { // checks if any of the extended version of ODF are set if (eVersion == SvtSaveOptions::ODFSVER_012_EXT_COMPAT) { // tdf#106780 historically this wrong attribute was used // for the name; write it if extended because LO < 5.3 can // read only text:style-name, not the correct table:name mrExport.AddAttribute(XML_NAMESPACE_TEXT, XML_STYLE_NAME, GetExport().EncodeStyleName( xTableStyle->getName() ) ); } mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_NAME, GetExport().EncodeStyleName(xTableStyle->getName())); } SvXMLElementExport tableTemplate( mrExport, XML_NAMESPACE_TABLE, XML_TABLE_TEMPLATE, true, true ); Reference< XNameAccess > xStyleNames( xTableStyle, UNO_QUERY_THROW ); pElements = getTableStyleMap(); while( pElements->meElement != XML_TOKEN_END ) { try { Reference< XStyle > xStyle( xStyleNames->getByName( pElements->msStyleName ), UNO_QUERY ); if( xStyle.is() ) { mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_STYLE_NAME, GetExport().EncodeStyleName( xStyle->getName() ) ); SvXMLElementExport element( mrExport, XML_NAMESPACE_TABLE, pElements->meElement, true, true ); } } catch(const Exception&) { OSL_FAIL("xmloff::XMLTableExport::exportTableTemplates(), exception caught!"); } pElements++; } if (mbWriter && ((eVersion & SvtSaveOptions::ODFSVER_EXTENDED) != 0)) { pElements = getWriterSpecificTableStyleMap(); while(pElements->meElement != XML_TOKEN_END) { try { Reference xStyle(xStyleNames->getByName(pElements->msStyleName), UNO_QUERY); if(xStyle.is()) { mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_STYLE_NAME, GetExport().EncodeStyleName(xStyle->getName())); SvXMLElementExport element(mrExport, XML_NAMESPACE_LO_EXT, pElements->meElement, true, true); } } catch(const Exception&) { TOOLS_WARN_EXCEPTION("xmloff", "XMLTableExport::exportTableTemplates(), export Writer specific styles, exception caught!"); } pElements++; } } } catch(const Exception&) { TOOLS_WARN_EXCEPTION("xmloff", "XMLTableExport::exportTableDesigns(), exception caught while exporting a table design!"); } } catch(const Exception&) { TOOLS_WARN_EXCEPTION("xmloff", "XMLTableExport::exportTableDesigns()"); } } void XMLCellStyleExport::exportStyleContent(const Reference& /*rStyle*/) { } void XMLCellStyleExport::exportStyleAttributes(const Reference& rStyle) { Reference xPropSet(rStyle, UNO_QUERY); if (xPropSet.is()) { Reference xPropSetInfo(xPropSet->getPropertySetInfo()); const OUString sNumberFormat("NumberFormat"); if (xPropSetInfo->hasPropertyByName(sNumberFormat)) { Reference xPropState(xPropSet, UNO_QUERY); if (xPropState.is() && (PropertyState_DIRECT_VALUE == xPropState->getPropertyState(sNumberFormat))) { sal_Int32 nNumberFormat = 0; if (xPropSet->getPropertyValue(sNumberFormat) >>= nNumberFormat) GetExport().AddAttribute(XML_NAMESPACE_STYLE, XML_DATA_STYLE_NAME, GetExport().getDataStyleName(nNumberFormat)); } } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */