/* -*- 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 using namespace ::com::sun::star::uno; using namespace ::com::sun::star::table; using namespace ::com::sun::star::container; using namespace ::com::sun::star::beans; namespace sdr { namespace table { struct RTFCellDefault { SfxItemSet maItemSet; sal_Int32 mnRowSpan; sal_Int32 mnColSpan; // MergeCell if >1, merged cells if 0 sal_Int32 mnCellX; explicit RTFCellDefault( SfxItemPool* pPool ) : maItemSet( *pPool ), mnRowSpan(1), mnColSpan(1), mnCellX(0) {} }; typedef std::vector< std::shared_ptr< RTFCellDefault > > RTFCellDefaultVector; struct RTFCellInfo { SfxItemSet const maItemSet; sal_Int32 mnStartPara; sal_Int32 mnParaCount; sal_Int32 mnCellX; sal_Int32 mnRowSpan; std::shared_ptr< RTFCellInfo > mxVMergeCell; explicit RTFCellInfo( SfxItemPool& rPool ) : maItemSet( rPool ), mnStartPara(0), mnParaCount(0), mnCellX(0), mnRowSpan(1) {} }; typedef std::shared_ptr< RTFCellInfo > RTFCellInfoPtr; typedef std::vector< RTFCellInfoPtr > RTFColumnVector; typedef std::shared_ptr< RTFColumnVector > RTFColumnVectorPtr; class SdrTableRTFParser { public: explicit SdrTableRTFParser( SdrTableObj& rTableObj ); void Read( SvStream& rStream ); void ProcToken( RtfImportInfo* pInfo ); void NextRow(); void NextColumn(); void NewCellRow(); void InsertCell( RtfImportInfo const * pInfo ); void InsertColumnEdge( sal_Int32 nEdge ); void FillTable(); DECL_LINK( RTFImportHdl, RtfImportInfo&, void ); private: SdrTableObj& mrTableObj; std::unique_ptr mpOutliner; SfxItemPool& mrItemPool; RTFCellDefaultVector maDefaultList; RTFCellDefaultVector::iterator maDefaultIterator; int mnLastToken; bool mbNewDef; sal_Int32 mnStartPara; sal_Int32 mnRowCnt; sal_Int32 mnLastEdge; sal_Int32 mnVMergeIdx; std::vector< sal_Int32 > maColumnEdges; std::vector< sal_Int32 >::iterator maLastEdge; std::vector< RTFColumnVectorPtr > maRows; std::unique_ptr mpInsDefault; RTFCellDefault* mpActDefault; RTFCellDefault* mpDefMerge; Reference< XTable > mxTable; RTFColumnVectorPtr mxLastRow; // Copy assignment is forbidden and not implemented. SdrTableRTFParser (const SdrTableRTFParser &) = delete; SdrTableRTFParser & operator= (const SdrTableRTFParser &) = delete; }; SdrTableRTFParser::SdrTableRTFParser( SdrTableObj& rTableObj ) : mrTableObj( rTableObj ) , mpOutliner( SdrMakeOutliner( OutlinerMode::TextObject, rTableObj.getSdrModelFromSdrObject() ) ) , mrItemPool( rTableObj.getSdrModelFromSdrObject().GetItemPool() ) , mnLastToken( 0 ) , mbNewDef( false ) , mnStartPara( 0 ) , mnRowCnt( 0 ) , mnLastEdge( 0 ) , mnVMergeIdx ( 0 ) , mpActDefault( nullptr ) , mpDefMerge( nullptr ) , mxTable( rTableObj.getTable() ) { mpOutliner->SetUpdateMode(true); mpOutliner->SetStyleSheet( 0, mrTableObj.GetStyleSheet() ); mpInsDefault.reset( new RTFCellDefault( &mrItemPool ) ); } void SdrTableRTFParser::Read( SvStream& rStream ) { EditEngine& rEdit = const_cast< EditEngine& >( mpOutliner->GetEditEngine() ); Link aOldLink( rEdit.GetRtfImportHdl() ); rEdit.SetRtfImportHdl( LINK( this, SdrTableRTFParser, RTFImportHdl ) ); mpOutliner->Read( rStream, OUString(), EETextFormat::Rtf ); rEdit.SetRtfImportHdl( aOldLink ); FillTable(); } IMPL_LINK( SdrTableRTFParser, RTFImportHdl, RtfImportInfo&, rInfo, void ) { switch ( rInfo.eState ) { case RtfImportState::NextToken: ProcToken( &rInfo ); break; case RtfImportState::UnknownAttr: ProcToken( &rInfo ); break; case RtfImportState::Start: { SvxRTFParser* pParser = static_cast(rInfo.pParser); pParser->SetAttrPool( &mrItemPool ); RTFPardAttrMapIds& rMap = pParser->GetPardMap(); rMap.nBox = SDRATTR_TABLE_BORDER; } break; case RtfImportState::End: if ( rInfo.aSelection.nEndPos ) { mpActDefault = nullptr; rInfo.nToken = RTF_PAR; rInfo.aSelection.nEndPara++; ProcToken( &rInfo ); } break; case RtfImportState::SetAttr: case RtfImportState::InsertText: case RtfImportState::InsertPara: break; default: SAL_WARN( "svx.table","unknown ImportInfo.eState"); } } void SdrTableRTFParser::NextRow() { mxLastRow = maRows.back(); mnVMergeIdx = 0; ++mnRowCnt; } void SdrTableRTFParser::InsertCell( RtfImportInfo const * pInfo ) { RTFCellInfoPtr xCellInfo( new RTFCellInfo(mrItemPool) ); xCellInfo->mnStartPara = mnStartPara; xCellInfo->mnParaCount = pInfo->aSelection.nEndPara - 1 - mnStartPara; xCellInfo->mnCellX = mpActDefault->mnCellX; xCellInfo->mnRowSpan = mpActDefault->mnRowSpan; if ( mxLastRow != nullptr ) { sal_Int32 nSize = mxLastRow->size(); while( mnVMergeIdx < nSize && (*mxLastRow)[mnVMergeIdx]->mnCellX < xCellInfo->mnCellX ) ++mnVMergeIdx; if ( xCellInfo->mnRowSpan == 0 && mnVMergeIdx < nSize ) { RTFCellInfoPtr xLastCell( (*mxLastRow)[mnVMergeIdx] ); if (xLastCell->mnRowSpan) xCellInfo->mxVMergeCell = xLastCell; else xCellInfo->mxVMergeCell = xLastCell->mxVMergeCell; } } if( !maRows.empty() ) { RTFColumnVectorPtr xColumn( maRows.back() ); if ( xCellInfo->mxVMergeCell ) { if ( xColumn->empty() || xColumn->back()->mxVMergeCell != xCellInfo->mxVMergeCell ) xCellInfo->mxVMergeCell->mnRowSpan++; } xColumn->push_back( xCellInfo ); } mnStartPara = pInfo->aSelection.nEndPara - 1; } void SdrTableRTFParser::InsertColumnEdge( sal_Int32 nEdge ) { auto aNextEdge = std::lower_bound( maLastEdge, maColumnEdges.end(), nEdge ); if ( aNextEdge == maColumnEdges.end() || nEdge != *aNextEdge ) { maLastEdge = maColumnEdges.insert( aNextEdge , nEdge ); mnLastEdge = nEdge; } } void SdrTableRTFParser::FillTable() { try { sal_Int32 nColCount = mxTable->getColumnCount(); Reference< XTableColumns > xCols( mxTable->getColumns(), UNO_SET_THROW ); sal_Int32 nColMax = maColumnEdges.size(); if( nColCount < nColMax ) { xCols->insertByIndex( nColCount, nColMax - nColCount ); nColCount = mxTable->getColumnCount(); } const OUString sWidth("Width"); sal_Int32 nCol, nLastEdge = 0; for( nCol = 0; nCol < nColCount; nCol++ ) { Reference< XPropertySet > xSet( xCols->getByIndex( nCol ), UNO_QUERY_THROW ); sal_Int32 nWidth = maColumnEdges[nCol] - nLastEdge; xSet->setPropertyValue( sWidth, Any( nWidth ) ); nLastEdge += nWidth; } const sal_Int32 nRowCount = mxTable->getRowCount(); if( nRowCount < mnRowCnt ) { Reference< XTableRows > xRows( mxTable->getRows(), UNO_SET_THROW ); xRows->insertByIndex( nRowCount, mnRowCnt - nRowCount ); } for( sal_Int32 nRow = 0; nRow < static_cast(maRows.size()); nRow++ ) { RTFColumnVectorPtr xColumn( maRows[nRow] ); nCol = 0; auto aEdge = maColumnEdges.begin(); for( sal_Int32 nIdx = 0; nCol < nColMax && nIdx < static_cast(xColumn->size()); nIdx++ ) { RTFCellInfoPtr xCellInfo( (*xColumn)[nIdx] ); CellRef xCell( dynamic_cast< Cell* >( mxTable->getCellByPosition( nCol, nRow ).get() ) ); if( xCell.is() && xCellInfo.get() ) { const SfxPoolItem *pPoolItem = nullptr; if( xCellInfo->maItemSet.GetItemState(SDRATTR_TABLE_BORDER,false,&pPoolItem)==SfxItemState::SET) xCell->SetMergedItem( *pPoolItem ); std::unique_ptr pTextObject(mpOutliner->CreateParaObject( xCellInfo->mnStartPara, xCellInfo->mnParaCount )); if( pTextObject ) { SdrOutliner& rOutliner=mrTableObj.ImpGetDrawOutliner(); rOutliner.SetUpdateMode(true); rOutliner.SetText( *pTextObject ); mrTableObj.NbcSetOutlinerParaObjectForText( rOutliner.CreateParaObject(), xCell.get() ); } sal_Int32 nLastRow = nRow; if ( xCellInfo->mnRowSpan ) nLastRow += xCellInfo->mnRowSpan - 1; aEdge = std::lower_bound( aEdge, maColumnEdges.end(), xCellInfo->mnCellX ); sal_Int32 nLastCol = nCol; if ( aEdge != maColumnEdges.end() ) { nLastCol = std::distance( maColumnEdges.begin(), aEdge); ++aEdge; } if ( nLastCol > nCol || nLastRow > nRow ) { Reference< XMergeableCellRange > xRange( mxTable->createCursorByRange( mxTable->getCellRangeByPosition( nCol, nRow, nLastCol, nLastRow ) ), UNO_QUERY_THROW ); if( xRange->isMergeable() ) xRange->merge(); } nCol = nLastCol + 1; } } } tools::Rectangle aRect( mrTableObj.GetSnapRect() ); aRect.SetRight( aRect.Left() + nLastEdge ); mrTableObj.NbcSetSnapRect( aRect ); } catch( Exception& ) { OSL_FAIL("sdr::table::SdrTableRTFParser::InsertCell(), exception caught!" ); } } void SdrTableRTFParser::NewCellRow() { if( mbNewDef ) { mbNewDef = false; maRows.push_back( std::make_shared>>( ) ); } mpDefMerge = nullptr; maDefaultIterator = maDefaultList.begin(); NextColumn(); DBG_ASSERT( mpActDefault, "NewCellRow: pActDefault==0" ); } void SdrTableRTFParser::NextColumn() { if( maDefaultIterator != maDefaultList.end() ) mpActDefault = (*maDefaultIterator++).get(); else mpActDefault = nullptr; } static long TwipsToHundMM( long nIn ) { long nRet = OutputDevice::LogicToLogic( nIn, MapUnit::MapTwip, MapUnit::Map100thMM ); return nRet; } void SdrTableRTFParser::ProcToken( RtfImportInfo* pInfo ) { switch ( pInfo->nToken ) { case RTF_TROWD: // denotes table row default, before RTF_CELLX { maDefaultList.clear(); mpDefMerge = nullptr; mnLastToken = pInfo->nToken; maLastEdge = maColumnEdges.begin(); mnLastEdge = 0; } break; case RTF_CLMGF: // The first cell of cells to be merged { mpDefMerge = mpInsDefault.get(); mnLastToken = pInfo->nToken; } break; case RTF_CLMRG: // A cell to be merged with the preceding cell { if ( !mpDefMerge ) mpDefMerge = maDefaultList.back().get(); DBG_ASSERT( mpDefMerge, "RTF_CLMRG: pDefMerge==0" ); if( mpDefMerge ) mpDefMerge->mnColSpan++; mpInsDefault->mnColSpan = 0; mnLastToken = pInfo->nToken; } break; case RTF_CLVMGF: { mnLastToken = pInfo->nToken; } break; case RTF_CLVMRG: { mpInsDefault->mnRowSpan = 0; mnLastToken = pInfo->nToken; } break; case RTF_CELLX: // closes cell default { mbNewDef = true; std::shared_ptr pDefault( mpInsDefault.release() ); maDefaultList.push_back( pDefault ); const sal_Int32 nSize = TwipsToHundMM( pInfo->nTokenValue ); if ( nSize > mnLastEdge ) InsertColumnEdge( nSize ); pDefault->mnCellX = nSize; // Record cellx in the first merged cell. if ( mpDefMerge && pDefault->mnColSpan == 0 ) mpDefMerge->mnCellX = nSize; mpInsDefault.reset( new RTFCellDefault( &mrItemPool ) ); mnLastToken = pInfo->nToken; } break; case RTF_INTBL: // before the first RTF_CELL { if ( mnLastToken != RTF_INTBL && mnLastToken != RTF_CELL && mnLastToken != RTF_PAR ) { NewCellRow(); mnLastToken = pInfo->nToken; } } break; case RTF_CELL: // denotes the end of a cell. { DBG_ASSERT( mpActDefault, "RTF_CELL: pActDefault==0" ); if ( mbNewDef || !mpActDefault ) NewCellRow(); if ( !mpActDefault ) mpActDefault = mpInsDefault.get(); if ( mpActDefault->mnColSpan > 0 ) { InsertCell(pInfo); } NextColumn(); mnLastToken = pInfo->nToken; } break; case RTF_ROW: // means the end of a row { NextRow(); mnLastToken = pInfo->nToken; } break; case RTF_PAR: // Paragraph mnLastToken = pInfo->nToken; break; default: { // do not set nLastToken switch ( pInfo->nToken & ~(0xff | RTF_TABLEDEF) ) { case RTF_SHADINGDEF: // ((SvxRTFParser*)pInfo->pParser)->ReadBackgroundAttr(pInfo->nToken, mpInsDefault->maItemSet, sal_True ); break; case RTF_BRDRDEF: static_cast(pInfo->pParser)->ReadBorderAttr(pInfo->nToken, mpInsDefault->maItemSet, true ); break; } } } } void SdrTableObj::ImportAsRTF( SvStream& rStream, SdrTableObj& rObj ) { SdrTableRTFParser aParser( rObj ); aParser.Read( rStream ); } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */