/* -*- 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 "SchXMLTableContext.hxx" #include "SchXMLParagraphContext.hxx" #include "SchXMLTextListContext.hxx" #include "SchXMLImport.hxx" #include "SchXMLTools.hxx" #include "transporttypes.hxx" #include "XMLStringBufferImportContext.hxx" #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 ::xmloff::token; using ::com::sun::star::uno::Sequence; using ::com::sun::star::uno::Reference; namespace { const char aLabelPrefix[] = "label "; const char aCategoriesRange[] = "categories"; typedef ::std::multimap< OUString, OUString > lcl_tOriginalRangeToInternalRangeMap; struct lcl_ApplyCellToData : public ::std::unary_function< SchXMLCell, void > { lcl_ApplyCellToData( Sequence< double > & rOutData ) : m_rData( rOutData ), m_nIndex( 0 ), m_nSize( rOutData.getLength()), m_fNaN( 0.0 ) { ::rtl::math::setNan( &m_fNaN ); } void operator() ( const SchXMLCell & rCell ) { if( m_nIndex < m_nSize ) { if( rCell.eType == SCH_CELL_TYPE_FLOAT ) m_rData[m_nIndex] = rCell.fValue; else m_rData[m_nIndex] = m_fNaN; } ++m_nIndex; } sal_Int32 getCurrentIndex() const { return m_nIndex; } private: Sequence< double > & m_rData; sal_Int32 m_nIndex; sal_Int32 m_nSize; double m_fNaN; }; void lcl_fillRangeMapping( const SchXMLTable & rTable, lcl_tOriginalRangeToInternalRangeMap & rOutRangeMap, chart::ChartDataRowSource eDataRowSource ) { sal_Int32 nRowOffset = ( rTable.bHasHeaderRow ? 1 : 0 ); sal_Int32 nColOffset = ( rTable.bHasHeaderColumn ? 1 : 0 ); const OUString lcl_aCategoriesRange(aCategoriesRange); const OUString lcl_aLabelPrefix(aLabelPrefix); // Fill range mapping const size_t nTableRowCount( rTable.aData.size()); for( size_t nRow = 0; nRow < nTableRowCount; ++nRow ) { const ::std::vector< SchXMLCell > & rRow( rTable.aData[nRow] ); const size_t nTableColCount( rRow.size()); for( size_t nCol = 0; nCol < nTableColCount; ++nCol ) { const OUString aRangeId( rRow[nCol].aRangeId ); if( !aRangeId.isEmpty()) { if( eDataRowSource == chart::ChartDataRowSource_COLUMNS ) { if( nCol == 0 && rTable.bHasHeaderColumn ) { SAL_WARN_IF( static_cast< sal_Int32 >( nRow ) != nRowOffset, "xmloff.chart", "nRow != nRowOffset" ); rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, lcl_aCategoriesRange )); } else { OUString aColNumStr = OUString::number( nCol - nColOffset); if( nRow == 0 && rTable.bHasHeaderRow ) rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, lcl_aLabelPrefix + aColNumStr )); else rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, aColNumStr )); } } else // eDataRowSource == chart::ChartDataRowSource_ROWS { if( nRow == 0 && rTable.bHasHeaderRow ) { SAL_WARN_IF( static_cast< sal_Int32 >( nCol ) != nColOffset, "xmloff.chart", "nCol != nColOffset" ); rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, lcl_aCategoriesRange )); } else { OUString aRowNumStr = OUString::number( nRow - nRowOffset); if( nCol == 0 && rTable.bHasHeaderColumn ) rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, lcl_aLabelPrefix + aRowNumStr )); else rOutRangeMap.insert( lcl_tOriginalRangeToInternalRangeMap::value_type( aRangeId, aRowNumStr )); } } } } } } Reference< chart2::data::XDataSequence > lcl_reassignDataSequence( const Reference< chart2::data::XDataSequence > & xSequence, const Reference< chart2::data::XDataProvider > & xDataProvider, lcl_tOriginalRangeToInternalRangeMap & rRangeMap, const OUString & rRange ) { Reference< chart2::data::XDataSequence > xResult( xSequence ); lcl_tOriginalRangeToInternalRangeMap::iterator aIt( rRangeMap.find( rRange )); if( aIt != rRangeMap.end()) { // set sequence with correct data xResult.set( xDataProvider->createDataSequenceByRangeRepresentation( aIt->second )); // remove translation, because it was used rRangeMap.erase( aIt ); } return xResult; } bool lcl_mapContainsRange( lcl_tOriginalRangeToInternalRangeMap & rRangeMap, const OUString & rRange ) { lcl_tOriginalRangeToInternalRangeMap::iterator aIt( rRangeMap.find( rRange )); return ( aIt != rRangeMap.end()); } bool lcl_tableOfRangeMatches( const OUString & rRange, const OUString & rTableName ) { // both strings are non-empty and the table name is part of the range return ( !rRange.isEmpty() && !rTableName.isEmpty() && (rRange.indexOf( rTableName ) != -1 )); } template< typename T > ::std::vector< T > lcl_SequenceToVector( const uno::Sequence< T > & rSequence ) { ::std::vector< T > aResult( rSequence.getLength()); ::std::copy( rSequence.getConstArray(), rSequence.getConstArray() + rSequence.getLength(), aResult.begin()); return aResult; } } // anonymous namespace // class SchXMLTableContext SchXMLTableContext::SchXMLTableContext( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, const OUString& rLName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLName ), mrImportHelper( rImpHelper ), mrTable( aTable ), mbHasRowPermutation( false ), mbHasColumnPermutation( false ) { mrTable.nColumnIndex = -1; mrTable.nMaxColumnIndex = -1; mrTable.nRowIndex = -1; mrTable.aData.clear(); } SchXMLTableContext::~SchXMLTableContext() { } SvXMLImportContext *SchXMLTableContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; const SvXMLTokenMap& rTokenMap = mrImportHelper.GetTableElemTokenMap(); switch( rTokenMap.Get( nPrefix, rLocalName )) { case XML_TOK_TABLE_HEADER_COLS: mrTable.bHasHeaderColumn = true; // fall through intended case XML_TOK_TABLE_COLUMNS: pContext = new SchXMLTableColumnsContext( GetImport(), rLocalName, mrTable ); break; case XML_TOK_TABLE_COLUMN: pContext = new SchXMLTableColumnContext( GetImport(), rLocalName, mrTable ); break; case XML_TOK_TABLE_HEADER_ROWS: mrTable.bHasHeaderRow = true; // fall through intended case XML_TOK_TABLE_ROWS: pContext = new SchXMLTableRowsContext( mrImportHelper, GetImport(), rLocalName, mrTable ); break; case XML_TOK_TABLE_ROW: pContext = new SchXMLTableRowContext( mrImportHelper, GetImport(), rLocalName, mrTable ); break; default: pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } return pContext; } void SchXMLTableContext::StartElement( const uno::Reference< xml::sax::XAttributeList >& xAttrList ) { // get table-name sal_Int16 nAttrCount = xAttrList.is()? xAttrList->getLength(): 0; for( sal_Int16 i = 0; i < nAttrCount; i++ ) { OUString sAttrName = xAttrList->getNameByIndex( i ); OUString aLocalName; sal_uInt16 nPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( sAttrName, &aLocalName ); if ( nPrefix == XML_NAMESPACE_TABLE ) { if ( IsXMLToken( aLocalName, XML_NAME ) ) { mrTable.aTableNameOfFile = xAttrList->getValueByIndex( i ); } else if ( IsXMLToken( aLocalName, XML_PROTECTED ) ) { if ( IsXMLToken( xAttrList->getValueByIndex( i ), XML_TRUE ) ) { mrTable.bProtected = true; } } } } } void SchXMLTableContext::EndElement() { if( mbHasColumnPermutation ) { SAL_WARN_IF( mbHasRowPermutation, "xmloff.chart", "mbHasColumnPermutation is true" ); ::std::vector< sal_Int32 > aPermutation( lcl_SequenceToVector( maColumnPermutation )); SAL_WARN_IF( aPermutation.empty(), "xmloff.chart", "aPermutation is NULL"); if( aPermutation.empty()) return; // permute the values of all rows according to aPermutation for( ::std::vector< ::std::vector< SchXMLCell > >::iterator aRowIt( mrTable.aData.begin()); aRowIt != mrTable.aData.end(); ++aRowIt ) { bool bModified = false; ::std::vector< SchXMLCell > aModifiedRow; const size_t nPermSize = aPermutation.size(); SAL_WARN_IF( static_cast< sal_Int32 >( nPermSize ) - 1 != *(::std::max_element( aPermutation.begin(), aPermutation.end())), "xmloff.chart", "nPermSize - 1 != *(::std::max_element( aPermutation.begin(), aPermutation.end())"); const size_t nRowSize = aRowIt->size(); const size_t nDestSize = ::std::min( nPermSize, nRowSize ); for( size_t nDestinationIndex = 0; nDestinationIndex < nDestSize; ++nDestinationIndex ) { const size_t nSourceIndex = static_cast< size_t >( aPermutation[ nDestinationIndex ] ); if( nSourceIndex != nDestinationIndex && nSourceIndex < nRowSize ) { // copy original on first real permutation if( !bModified ) { SAL_WARN_IF( !aModifiedRow.empty(), "xmloff.chart", "aModifiedRow is NOT NULL"); aModifiedRow.reserve( aRowIt->size()); ::std::copy( aRowIt->begin(), aRowIt->end(), ::std::back_inserter( aModifiedRow )); SAL_WARN_IF( aModifiedRow.empty(), "xmloff.chart", "aModifiedRow is NULL"); } SAL_WARN_IF( nDestinationIndex >= aModifiedRow.size(), "xmloff.chart", "nDestinationIndex >= aModifiedRow.size()"); aModifiedRow[ nDestinationIndex ] = (*aRowIt)[ nSourceIndex ]; bModified = true; } } // copy back if( bModified ) ::std::copy( aModifiedRow.begin(), aModifiedRow.end(), aRowIt->begin()); } } else if( mbHasRowPermutation ) { ::std::vector< sal_Int32 > aPermutation( lcl_SequenceToVector( maRowPermutation )); SAL_WARN_IF( aPermutation.empty(), "xmloff.chart", "aPermutation is NULL"); if( aPermutation.empty()) return; bool bModified = false; const size_t nPermSize = aPermutation.size(); SAL_WARN_IF( static_cast< sal_Int32 >( nPermSize ) - 1 != *(::std::max_element( aPermutation.begin(), aPermutation.end())), "xmloff.chart", "nPermSize - 1 != *(::std::max_element( aPermutation.begin(), aPermutation.end())"); const size_t nTableRowCount = mrTable.aData.size(); const size_t nDestSize = ::std::min( nPermSize, nTableRowCount ); ::std::vector< ::std::vector< SchXMLCell > > aDestination; for( size_t nDestinationIndex = 0; nDestinationIndex < nDestSize; ++nDestinationIndex ) { const size_t nSourceIndex = static_cast< size_t >( aPermutation[ nDestinationIndex ] ); if( nSourceIndex != nDestinationIndex && nSourceIndex < nTableRowCount ) { // copy original on first real permutation if( !bModified ) { SAL_WARN_IF( !aDestination.empty(), "xmloff.chart", "aDestination is NOT NULL"); aDestination.reserve( mrTable.aData.size()); ::std::copy( mrTable.aData.begin(), mrTable.aData.end(), ::std::back_inserter( aDestination )); SAL_WARN_IF( aDestination.empty(), "xmloff.chart", "aDestination is NULL"); } SAL_WARN_IF( nDestinationIndex >= aDestination.size(), "xmloff.chart", "nDestinationIndex >= aDestination.size()"); aDestination[ nDestinationIndex ] = mrTable.aData[ nSourceIndex ]; bModified = true; } } if( bModified ) { // copy back ::std::copy( aDestination.begin(), aDestination.end(), mrTable.aData.begin()); } } } void SchXMLTableContext::setRowPermutation( const uno::Sequence< sal_Int32 > & rPermutation ) { maRowPermutation = rPermutation; mbHasRowPermutation = ( rPermutation.getLength() > 0 ); if( mbHasRowPermutation && mbHasColumnPermutation ) { mbHasColumnPermutation = false; maColumnPermutation.realloc( 0 ); } } void SchXMLTableContext::setColumnPermutation( const uno::Sequence< sal_Int32 > & rPermutation ) { maColumnPermutation = rPermutation; mbHasColumnPermutation = ( rPermutation.getLength() > 0 ); if( mbHasColumnPermutation && mbHasRowPermutation ) { mbHasRowPermutation = false; maRowPermutation.realloc( 0 ); } } // classes for columns // class SchXMLTableColumnsContext SchXMLTableColumnsContext::SchXMLTableColumnsContext( SvXMLImport& rImport, const OUString& rLocalName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLocalName ), mrTable( aTable ) { } SchXMLTableColumnsContext::~SchXMLTableColumnsContext() { } SvXMLImportContext* SchXMLTableColumnsContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken( rLocalName, XML_TABLE_COLUMN ) ) { pContext = new SchXMLTableColumnContext( GetImport(), rLocalName, mrTable ); } else pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); return pContext; } // class SchXMLTableColumnContext SchXMLTableColumnContext::SchXMLTableColumnContext( SvXMLImport& rImport, const OUString& rLocalName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLocalName ), mrTable( aTable ) { } void SchXMLTableColumnContext::StartElement( const uno::Reference< xml::sax::XAttributeList >& xAttrList ) { // get number-columns-repeated attribute sal_Int16 nAttrCount = xAttrList.is()? xAttrList->getLength(): 0; sal_Int32 nRepeated = 1; bool bHidden = false; for( sal_Int16 i = 0; i < nAttrCount; i++ ) { OUString sAttrName = xAttrList->getNameByIndex( i ); OUString aLocalName; sal_uInt16 nPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( sAttrName, &aLocalName ); if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken( aLocalName, XML_NUMBER_COLUMNS_REPEATED ) ) { OUString aValue = xAttrList->getValueByIndex( i ); if( !aValue.isEmpty()) nRepeated = aValue.toInt32(); } else if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken( aLocalName, XML_VISIBILITY ) ) { OUString aVisibility = xAttrList->getValueByIndex( i ); bHidden = aVisibility.equals( GetXMLToken( XML_COLLAPSE ) ); } } sal_Int32 nOldCount = mrTable.nNumberOfColsEstimate; sal_Int32 nNewCount = nOldCount + nRepeated; mrTable.nNumberOfColsEstimate = nNewCount; if( bHidden ) { //i91578 display of hidden values (copy paste scenario; use hidden flag during migration to locale table upon paste ) sal_Int32 nColOffset = ( mrTable.bHasHeaderColumn ? 1 : 0 ); for( sal_Int32 nN = nOldCount; nN=0 ) mrTable.aHiddenColumns.push_back(nHiddenColumnIndex); } } } SchXMLTableColumnContext::~SchXMLTableColumnContext() { } // classes for rows // class SchXMLTableRowsContext SchXMLTableRowsContext::SchXMLTableRowsContext( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, const OUString& rLocalName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLocalName ), mrImportHelper( rImpHelper ), mrTable( aTable ) { } SchXMLTableRowsContext::~SchXMLTableRowsContext() { } SvXMLImportContext* SchXMLTableRowsContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken( rLocalName, XML_TABLE_ROW ) ) { pContext = new SchXMLTableRowContext( mrImportHelper, GetImport(), rLocalName, mrTable ); } else { pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } return pContext; } // class SchXMLTableRowContext SchXMLTableRowContext::SchXMLTableRowContext( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, const OUString& rLocalName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLocalName ), mrImportHelper( rImpHelper ), mrTable( aTable ) { mrTable.nColumnIndex = -1; mrTable.nRowIndex++; std::vector< SchXMLCell > aNewRow; aNewRow.reserve( mrTable.nNumberOfColsEstimate ); while( mrTable.aData.size() <= (unsigned long)mrTable.nRowIndex ) mrTable.aData.push_back( aNewRow ); } SchXMLTableRowContext::~SchXMLTableRowContext() { } SvXMLImportContext* SchXMLTableRowContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; // element if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken(rLocalName, XML_TABLE_CELL ) ) { pContext = new SchXMLTableCellContext( mrImportHelper, GetImport(), rLocalName, mrTable ); } else { pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } return pContext; } class SchXMLRangeSomewhereContext : public SvXMLImportContext { //#i113950# previously the range was exported to attribute text:id, //but that attribute does not allow arbitrary strings anymore //so we need to find an alternative to save that range info for copy/paste scenario ... //-> use description at an empty group element for now private: OUString& mrRangeString; OUStringBuffer maRangeStringBuffer; public: SchXMLRangeSomewhereContext( SvXMLImport& rImport, sal_uInt16 nPrefix, const OUString& rLocalName, OUString& rRangeString ); virtual ~SchXMLRangeSomewhereContext(); virtual SvXMLImportContext* CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const com::sun::star::uno::Reference< com::sun::star::xml::sax::XAttributeList >& xAttrList ); virtual void EndElement(); }; // classes for cells and their content // class SchXMLTableCellContext SchXMLTableCellContext::SchXMLTableCellContext( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, const OUString& rLocalName, SchXMLTable& aTable ) : SvXMLImportContext( rImport, XML_NAMESPACE_TABLE, rLocalName ), mrImportHelper( rImpHelper ), mrTable( aTable ) { } SchXMLTableCellContext::~SchXMLTableCellContext() { } void SchXMLTableCellContext::StartElement( const uno::Reference< xml::sax::XAttributeList >& xAttrList ) { sal_Int16 nAttrCount = xAttrList.is()? xAttrList->getLength(): 0; OUString aValue; OUString aLocalName; OUString aCellContent; SchXMLCellType eValueType = SCH_CELL_TYPE_UNKNOWN; const SvXMLTokenMap& rAttrTokenMap = mrImportHelper.GetCellAttrTokenMap(); for( sal_Int16 i = 0; i < nAttrCount; i++ ) { OUString sAttrName = xAttrList->getNameByIndex( i ); sal_uInt16 nPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( sAttrName, &aLocalName ); switch( rAttrTokenMap.Get( nPrefix, aLocalName )) { case XML_TOK_CELL_VAL_TYPE: aValue = xAttrList->getValueByIndex( i ); if( IsXMLToken( aValue, XML_FLOAT ) ) eValueType = SCH_CELL_TYPE_FLOAT; else if( IsXMLToken( aValue, XML_STRING ) ) eValueType = SCH_CELL_TYPE_STRING; break; case XML_TOK_CELL_VALUE: aCellContent = xAttrList->getValueByIndex( i ); break; } } mbReadText = true; SchXMLCell aCell; aCell.eType = eValueType; if( eValueType == SCH_CELL_TYPE_FLOAT ) { double fData; // the result may be false if a NaN is read, but that's ok ::sax::Converter::convertDouble( fData, aCellContent ); aCell.fValue = fData; // dont read text from following or element mbReadText = false; } mrTable.aData[ mrTable.nRowIndex ].push_back( aCell ); mrTable.nColumnIndex++; if( mrTable.nMaxColumnIndex < mrTable.nColumnIndex ) mrTable.nMaxColumnIndex = mrTable.nColumnIndex; } SvXMLImportContext* SchXMLTableCellContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; // element if( nPrefix == XML_NAMESPACE_TEXT && IsXMLToken( rLocalName, XML_LIST ) && mbReadText ) { SchXMLCell& rCell = mrTable.aData[ mrTable.nRowIndex ][ mrTable.nColumnIndex ]; rCell.aComplexString = Sequence< OUString >(); rCell.eType = SCH_CELL_TYPE_COMPLEX_STRING; pContext = new SchXMLTextListContext( GetImport(), rLocalName, rCell.aComplexString ); mbReadText = false;//don't apply text from } // element - read text (and range from text:id old version) else if( nPrefix == XML_NAMESPACE_TEXT && IsXMLToken( rLocalName, XML_P ) ) { pContext = new SchXMLParagraphContext( GetImport(), rLocalName, maCellContent, &maRangeId ); } // element - read range else if( nPrefix == XML_NAMESPACE_DRAW && IsXMLToken( rLocalName, XML_G ) ) { //#i113950# previously the range was exported to attribute text:id, but that attribute does not allow arbitrary strings anymore //so we need to find an alternative to save that range info for copy/paste scenario ... -> use description at an empty group element for now pContext = new SchXMLRangeSomewhereContext( GetImport(), nPrefix, rLocalName, maRangeId ); } else { pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } return pContext; } void SchXMLTableCellContext::EndElement() { if( mbReadText && !maCellContent.isEmpty() ) //apply text from element mrTable.aData[ mrTable.nRowIndex ][ mrTable.nColumnIndex ].aString = maCellContent; if( !maRangeId.isEmpty()) mrTable.aData[ mrTable.nRowIndex ][ mrTable.nColumnIndex ].aRangeId = maRangeId; } static void lcl_ApplyCellToComplexLabel( const SchXMLCell& rCell, Sequence< uno::Any >& rComplexLabel ) { if( rCell.eType == SCH_CELL_TYPE_STRING ) { rComplexLabel.realloc(1); rComplexLabel[0] = uno::makeAny( rCell.aString ); } else if( rCell.aComplexString.getLength() && rCell.eType == SCH_CELL_TYPE_COMPLEX_STRING ) { sal_Int32 nCount = rCell.aComplexString.getLength(); rComplexLabel.realloc( nCount ); for( sal_Int32 nN=0; nN xChartDoc ) { // apply all data read from the local table to the internal data provider if( !xChartDoc.is() || !xChartDoc->hasInternalDataProvider() ) return; Reference< chart2::data::XDataProvider > xDataProv( xChartDoc->getDataProvider() ); if( !xDataProv.is() ) return; //prepare the read local table data sal_Int32 nNumRows( static_cast< sal_Int32 >( rTable.aData.size())); sal_Int32 nRowOffset = 0; if( rTable.bHasHeaderRow ) { --nNumRows; nRowOffset = 1; } sal_Int32 nNumColumns( rTable.nMaxColumnIndex + 1 ); sal_Int32 nColOffset = 0; if( rTable.bHasHeaderColumn ) { --nNumColumns; nColOffset = 1; } Sequence< Sequence< double > > aDataInRows( nNumRows ); Sequence< Sequence< uno::Any > > aComplexRowDescriptions( nNumRows ); Sequence< Sequence< uno::Any > > aComplexColumnDescriptions( nNumColumns ); for( sal_Int32 i=0; i& rFirstRow = rTable.aData.front(); const sal_Int32 nColumnLabelsSize = aComplexColumnDescriptions.getLength(); const sal_Int32 nMax = ::std::min< sal_Int32 >( nColumnLabelsSize, static_cast< sal_Int32 >( rFirstRow.size()) - nColOffset ); SAL_WARN_IF( nMax != nColumnLabelsSize, "xmloff.chart", "nMax != nColumnLabelsSize"); for( sal_Int32 i=0; i >::const_iterator aRowIter( rTable.aData.begin() + nRowOffset ); std::vector< ::std::vector< SchXMLCell > >::const_iterator aEnd( rTable.aData.end() ); for( sal_Int32 nRow = 0; aRowIter != aEnd && nRow < nNumRows; ++aRowIter, ++nRow ) { const ::std::vector< SchXMLCell >& rRow = *aRowIter; if( !rRow.empty() ) { // row label if( rTable.bHasHeaderColumn ) lcl_ApplyCellToComplexLabel( rRow.front(), aComplexRowDescriptions[nRow] ); // values Sequence< double >& rTargetRow = aDataInRows[nRow]; lcl_ApplyCellToData aApplyCellToData = ::std::for_each( rRow.begin() + nColOffset, rRow.end(), lcl_ApplyCellToData( rTargetRow ) ); double fNaN = 0.0; ::rtl::math::setNan( &fNaN ); for( sal_Int32 nCurrentIndex = aApplyCellToData.getCurrentIndex(); nCurrentIndex xDataAccess( xDataProv, uno::UNO_QUERY ); if( !xDataAccess.is() ) return; xDataAccess->setData( aDataInRows ); if( rTable.bHasHeaderColumn ) xDataAccess->setAnyRowDescriptions( aComplexRowDescriptions ); if( rTable.bHasHeaderRow ) xDataAccess->setAnyColumnDescriptions( aComplexColumnDescriptions ); if ( rTable.bProtected ) { try { Reference< beans::XPropertySet > xProps( xChartDoc, uno::UNO_QUERY_THROW ); xProps->setPropertyValue( "DisableDataTableDialog", uno::makeAny( sal_True ) ); xProps->setPropertyValue( "DisableComplexChartTypes", uno::makeAny( sal_True ) ); } catch ( uno::Exception& ) { } } } void SchXMLTableHelper::switchRangesFromOuterToInternalIfNecessary( const SchXMLTable& rTable, const tSchXMLLSequencesPerIndex & rLSequencesPerIndex, uno::Reference< chart2::XChartDocument > xChartDoc, chart::ChartDataRowSource eDataRowSource ) { if( ! (xChartDoc.is() && xChartDoc->hasInternalDataProvider())) return; // If the range-strings are valid (starting with "local-table") they should // be interpreted like given, otherwise (when the ranges refer to Calc- or // Writer-ranges, but the container is not available like when pasting a // chart from Calc to Impress) the range is ignored, and every object gets // one table column in the order of appearance, which is: 1. categories, // 2. data series: 2.a) domains, 2.b) values (main-role, usually y-values) Reference< chart2::data::XDataProvider > xDataProv( xChartDoc->getDataProvider()); // create a mapping from original ranges to new ranges lcl_tOriginalRangeToInternalRangeMap aRangeMap; lcl_fillRangeMapping( rTable, aRangeMap, eDataRowSource ); const OUString lcl_aCategoriesRange(aCategoriesRange); // translate ranges (using the map created before) for( tSchXMLLSequencesPerIndex::const_iterator aLSeqIt( rLSequencesPerIndex.begin()); aLSeqIt != rLSequencesPerIndex.end(); ++aLSeqIt ) { if( aLSeqIt->second.is()) { // values/error bars/categories if( aLSeqIt->first.second == SCH_XML_PART_VALUES || aLSeqIt->first.second == SCH_XML_PART_ERROR_BARS ) { Reference< chart2::data::XDataSequence > xSeq( aLSeqIt->second->getValues()); OUString aRange; if( xSeq.is() && SchXMLTools::getXMLRangePropertyFromDataSequence( xSeq, aRange, /* bClearProp = */ true ) && lcl_mapContainsRange( aRangeMap, aRange )) { Reference< chart2::data::XDataSequence > xNewSeq( lcl_reassignDataSequence( xSeq, xDataProv, aRangeMap, aRange )); if( xNewSeq != xSeq ) { SchXMLTools::copyProperties( Reference< beans::XPropertySet >( xSeq, uno::UNO_QUERY ), Reference< beans::XPropertySet >( xNewSeq, uno::UNO_QUERY )); aLSeqIt->second->setValues( xNewSeq ); } } else { if( !lcl_tableOfRangeMatches( aRange, rTable.aTableNameOfFile )) { if( aLSeqIt->first.first == SCH_XML_CATEGORIES_INDEX ) { Reference< beans::XPropertySet > xOldSequenceProp( aLSeqIt->second->getValues(), uno::UNO_QUERY ); Reference< chart2::data::XDataSequence > xNewSequence( xDataProv->createDataSequenceByRangeRepresentation( OUString("categories"))); SchXMLTools::copyProperties( xOldSequenceProp, Reference< beans::XPropertySet >( xNewSequence, uno::UNO_QUERY )); aLSeqIt->second->setValues( xNewSequence ); } else { Reference< beans::XPropertySet > xOldSequenceProp( aLSeqIt->second->getValues(), uno::UNO_QUERY ); OUString aRep( OUString::number( aLSeqIt->first.first )); Reference< chart2::data::XDataSequence > xNewSequence( xDataProv->createDataSequenceByRangeRepresentation( aRep )); SchXMLTools::copyProperties( xOldSequenceProp, Reference< beans::XPropertySet >( xNewSequence, uno::UNO_QUERY )); aLSeqIt->second->setValues( xNewSequence ); } } } } else // labels { SAL_WARN_IF( aLSeqIt->first.second != SCH_XML_PART_LABEL, "xmloff.chart", "aLSeqIt->first.second != SCH_XML_PART_LABEL" ); // labels Reference< chart2::data::XDataSequence > xSeq( aLSeqIt->second->getLabel()); OUString aRange; if( xSeq.is() && SchXMLTools::getXMLRangePropertyFromDataSequence( xSeq, aRange, /* bClearProp = */ true ) && lcl_mapContainsRange( aRangeMap, aRange )) { Reference< chart2::data::XDataSequence > xNewSeq( lcl_reassignDataSequence( xSeq, xDataProv, aRangeMap, aRange )); if( xNewSeq != xSeq ) { SchXMLTools::copyProperties( Reference< beans::XPropertySet >( xSeq, uno::UNO_QUERY ), Reference< beans::XPropertySet >( xNewSeq, uno::UNO_QUERY )); aLSeqIt->second->setLabel( xNewSeq ); } } else if( ! lcl_tableOfRangeMatches( aRange, rTable.aTableNameOfFile )) { OUString aRep("label "); aRep += OUString::number( aLSeqIt->first.first ); Reference< chart2::data::XDataSequence > xNewSeq( xDataProv->createDataSequenceByRangeRepresentation( aRep )); SchXMLTools::copyProperties( Reference< beans::XPropertySet >( xSeq, uno::UNO_QUERY ), Reference< beans::XPropertySet >( xNewSeq, uno::UNO_QUERY )); aLSeqIt->second->setLabel( xNewSeq ); } } } } // there exist files with own data without a categories element but with row // descriptions. The row descriptions were used as categories even without // the categories element if( ! bCategoriesApplied ) { SchXMLTools::CreateCategories( xDataProv, xChartDoc, OUString("categories"), 0 /* nCooSysIndex */, 0 /* nDimension */ ); } //i91578 display of hidden values (copy paste scenario; use hidden flag during migration to locale table upon paste ) //remove series that consist only of hidden columns Reference< chart2::XInternalDataProvider > xInternalDataProvider( xDataProv, uno::UNO_QUERY ); if( xInternalDataProvider.is() && !rTable.aHiddenColumns.empty() ) { try { Reference< chart2::XCoordinateSystemContainer > xCooSysCnt( xChartDoc->getFirstDiagram(), uno::UNO_QUERY_THROW ); Sequence< Reference< chart2::XCoordinateSystem > > aCooSysSeq( xCooSysCnt->getCoordinateSystems() ); for( sal_Int32 nC=0; nC xCooSysContainer( aCooSysSeq[nC], uno::UNO_QUERY_THROW ); Sequence< Reference< chart2::XChartType > > aChartTypeSeq( xCooSysContainer->getChartTypes()); for( sal_Int32 nT=0; nT xSeriesContainer( aChartTypeSeq[nT], uno::UNO_QUERY ); if(!xSeriesContainer.is()) continue; Sequence< Reference< chart2::XDataSeries > > aSeriesSeq( xSeriesContainer->getDataSeries() ); std::vector< Reference< chart2::XDataSeries > > aRemainingSeries; for( sal_Int32 nS = 0; nS < aSeriesSeq.getLength(); nS++ ) { Reference< chart2::data::XDataSource > xDataSource( aSeriesSeq[nS], uno::UNO_QUERY ); if( xDataSource.is() ) { bool bHasUnhiddenColumns = false; OUString aRange; uno::Sequence< Reference< chart2::data::XLabeledDataSequence > > aSequences( xDataSource->getDataSequences() ); for( sal_Int32 nN=0; nN< aSequences.getLength(); ++nN ) { Reference< chart2::data::XLabeledDataSequence > xLabeledSequence( aSequences[nN] ); if(!xLabeledSequence.is()) continue; Reference< chart2::data::XDataSequence > xValues( xLabeledSequence->getValues() ); if( xValues.is() ) { aRange = xValues->getSourceRangeRepresentation(); if( ::std::find( rTable.aHiddenColumns.begin(), rTable.aHiddenColumns.end(), aRange.toInt32() ) == rTable.aHiddenColumns.end() ) bHasUnhiddenColumns = true; } if( !bHasUnhiddenColumns ) { Reference< chart2::data::XDataSequence > xLabel( xLabeledSequence->getLabel() ); if( xLabel.is() ) { aRange = xLabel->getSourceRangeRepresentation(); sal_Int32 nSearchIndex = 0; OUString aSecondToken = aRange.getToken( 1, ' ', nSearchIndex ); if( ::std::find( rTable.aHiddenColumns.begin(), rTable.aHiddenColumns.end(), aSecondToken.toInt32() ) == rTable.aHiddenColumns.end() ) bHasUnhiddenColumns = true; } } } if( bHasUnhiddenColumns ) aRemainingSeries.push_back( aSeriesSeq[nS] ); } } if( static_cast(aRemainingSeries.size()) != aSeriesSeq.getLength() ) { //remove the series that have only hidden data Sequence< Reference< chart2::XDataSeries > > aRemainingSeriesSeq( aRemainingSeries.size()); ::std::copy( aRemainingSeries.begin(), aRemainingSeries.end(), aRemainingSeriesSeq.getArray()); xSeriesContainer->setDataSeries( aRemainingSeriesSeq ); //remove unused sequences Reference< chart2::data::XDataSource > xDataSource( xChartDoc, uno::UNO_QUERY ); if( xDataSource.is() ) { //first detect which collumns are really used std::map< sal_Int32, bool > aUsageMap; OUString aRange; Sequence< Reference< chart2::data::XLabeledDataSequence > > aUsedSequences( xDataSource->getDataSequences() ); for( sal_Int32 nN=0; nN< aUsedSequences.getLength(); ++nN ) { Reference< chart2::data::XLabeledDataSequence > xLabeledSequence( aUsedSequences[nN] ); if(!xLabeledSequence.is()) continue; Reference< chart2::data::XDataSequence > xValues( xLabeledSequence->getValues() ); if( xValues.is() ) { aRange = xValues->getSourceRangeRepresentation(); sal_Int32 nIndex = aRange.toInt32(); if( nIndex!=0 || !aRange.equals(lcl_aCategoriesRange) ) aUsageMap[nIndex] = true; } Reference< chart2::data::XDataSequence > xLabel( xLabeledSequence->getLabel() ); if( xLabel.is() ) { aRange = xLabel->getSourceRangeRepresentation(); sal_Int32 nSearchIndex = 0; OUString aSecondToken = aRange.getToken( 1, ' ', nSearchIndex ); if( !aSecondToken.isEmpty() ) aUsageMap[aSecondToken.toInt32()] = true; } } ::std::vector< sal_Int32 > aSequenceIndexesToDelete; for( ::std::vector< sal_Int32 >::const_iterator aIt( rTable.aHiddenColumns.begin()); aIt != rTable.aHiddenColumns.end(); ++aIt ) { sal_Int32 nSequenceIndex = *aIt; if( aUsageMap.find(nSequenceIndex) != aUsageMap.end() ) continue; aSequenceIndexesToDelete.push_back(nSequenceIndex); } // delete unnecessary sequences of the internal data // iterate using greatest index first, so that deletion does not // shift other sequences that will be deleted later ::std::sort( aSequenceIndexesToDelete.begin(), aSequenceIndexesToDelete.end()); for( ::std::vector< sal_Int32 >::reverse_iterator aIt( aSequenceIndexesToDelete.rbegin()); aIt != aSequenceIndexesToDelete.rend(); ++aIt ) { if( *aIt != -1 ) xInternalDataProvider->deleteSequence( *aIt ); } } } } } } catch( const uno::Exception & ) { } } } SchXMLRangeSomewhereContext::SchXMLRangeSomewhereContext( SvXMLImport& rImport, sal_uInt16 nPrefix, const OUString& rLocalName, OUString& rRangeString ) : SvXMLImportContext( rImport, nPrefix, rLocalName ), mrRangeString( rRangeString ) { } SchXMLRangeSomewhereContext::~SchXMLRangeSomewhereContext() { } SvXMLImportContext* SchXMLRangeSomewhereContext::CreateChildContext( sal_uInt16 nPrefix, const OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { if( XML_NAMESPACE_SVG == nPrefix && IsXMLToken( rLocalName, XML_DESC ) ) { return new XMLStringBufferImportContext( GetImport(), nPrefix, rLocalName, maRangeStringBuffer ); } return new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } void SchXMLRangeSomewhereContext::EndElement() { mrRangeString = maRangeStringBuffer.makeStringAndClear(); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */