/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #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 #include #include #include #include #include #include #include using namespace ::com::sun::star::i18n; namespace { // Copy method from SwDoc // Prevent copying into Flys that are anchored in the range bool lcl_ChkFlyFly( SwDoc* pDoc, sal_uLong nSttNd, sal_uLong nEndNd, sal_uLong nInsNd ) { const SwFrameFormats& rFrameFormatTable = *pDoc->GetSpzFrameFormats(); for( size_t n = 0; n < rFrameFormatTable.size(); ++n ) { SwFrameFormat const*const pFormat = rFrameFormatTable[n]; SwFormatAnchor const*const pAnchor = &pFormat->GetAnchor(); SwPosition const*const pAPos = pAnchor->GetContentAnchor(); if (pAPos && ((RndStdIds::FLY_AS_CHAR == pAnchor->GetAnchorId()) || (RndStdIds::FLY_AT_CHAR == pAnchor->GetAnchorId()) || (RndStdIds::FLY_AT_FLY == pAnchor->GetAnchorId()) || (RndStdIds::FLY_AT_PARA == pAnchor->GetAnchorId())) && nSttNd <= pAPos->nNode.GetIndex() && pAPos->nNode.GetIndex() < nEndNd ) { const SwFormatContent& rContent = pFormat->GetContent(); SwStartNode* pSNd; if( !rContent.GetContentIdx() || nullptr == ( pSNd = rContent.GetContentIdx()->GetNode().GetStartNode() )) continue; if( pSNd->GetIndex() < nInsNd && nInsNd < pSNd->EndOfSectionIndex() ) // Do not copy ! return true; if( lcl_ChkFlyFly( pDoc, pSNd->GetIndex(), pSNd->EndOfSectionIndex(), nInsNd ) ) // Do not copy ! return true; } } return false; } SwNodeIndex InitDelCount(SwPaM const& rSourcePaM, sal_uLong & rDelCount) { SwNodeIndex const& rStart(rSourcePaM.Start()->nNode); // Special handling for SwDoc::AppendDoc if (rSourcePaM.GetDoc()->GetNodes().GetEndOfExtras().GetIndex() + 1 == rStart.GetIndex()) { rDelCount = 1; return SwNodeIndex(rStart, +1); } else { rDelCount = 0; return rStart; } } /* The CopyBookmarks function has to copy bookmarks from the source to the destination nodes array. It is called after a call of the CopyNodes(..) function. But this function does not copy every node (at least at the moment: 2/08/2006 ), section start and end nodes will not be copied if the corresponding end/start node is outside the copied pam. The lcl_NonCopyCount function counts the number of these nodes, given the copied pam and a node index inside the pam. rPam is the original source pam, rLastIdx is the last calculated position, rDelCount the number of "non-copy" nodes between rPam.Start() and rLastIdx. nNewIdx is the new position of interest. */ void lcl_NonCopyCount( const SwPaM& rPam, SwNodeIndex& rLastIdx, const sal_uLong nNewIdx, sal_uLong& rDelCount ) { sal_uLong nStart = rPam.Start()->nNode.GetIndex(); sal_uLong nEnd = rPam.End()->nNode.GetIndex(); if( rLastIdx.GetIndex() < nNewIdx ) // Moving forward? { // We never copy the StartOfContent node do // count "non-copy" nodes { SwNode& rNode = rLastIdx.GetNode(); if( ( rNode.IsSectionNode() && rNode.EndOfSectionIndex() >= nEnd ) || ( rNode.IsEndNode() && rNode.StartOfSectionNode()->GetIndex() < nStart ) ) { ++rDelCount; } ++rLastIdx; } while( rLastIdx.GetIndex() < nNewIdx ); } else if( rDelCount ) // optimization: if there are no "non-copy" nodes until now, // no move backward needed { while( rLastIdx.GetIndex() > nNewIdx ) { SwNode& rNode = rLastIdx.GetNode(); if( ( rNode.IsSectionNode() && rNode.EndOfSectionIndex() >= nEnd ) || ( rNode.IsEndNode() && rNode.StartOfSectionNode()->GetIndex() < nStart ) ) { --rDelCount; } rLastIdx--; } } } void lcl_SetCpyPos( const SwPosition& rOrigPos, const SwPosition& rOrigStt, const SwPosition& rCpyStt, SwPosition& rChgPos, sal_uLong nDelCount ) { sal_uLong nNdOff = rOrigPos.nNode.GetIndex(); nNdOff -= rOrigStt.nNode.GetIndex(); nNdOff -= nDelCount; sal_Int32 nContentPos = rOrigPos.nContent.GetIndex(); // Always adjust at to be changed instance rChgPos.nNode = nNdOff + rCpyStt.nNode.GetIndex(); if( !nNdOff ) { // just adapt the content index if( nContentPos > rOrigStt.nContent.GetIndex() ) nContentPos -= rOrigStt.nContent.GetIndex(); else nContentPos = 0; nContentPos += rCpyStt.nContent.GetIndex(); } rChgPos.nContent.Assign( rChgPos.nNode.GetNode().GetContentNode(), nContentPos ); } } namespace sw { // TODO: use SaveBookmark (from DelBookmarks) void CopyBookmarks(const SwPaM& rPam, SwPosition& rCpyPam) { const SwDoc* pSrcDoc = rPam.GetDoc(); SwDoc* pDestDoc = rCpyPam.GetDoc(); const IDocumentMarkAccess* const pSrcMarkAccess = pSrcDoc->getIDocumentMarkAccess(); ::sw::UndoGuard const undoGuard(pDestDoc->GetIDocumentUndoRedo()); const SwPosition &rStt = *rPam.Start(), &rEnd = *rPam.End(); SwPosition const*const pCpyStt = &rCpyPam; std::vector< const ::sw::mark::IMark* > vMarksToCopy; for ( IDocumentMarkAccess::const_iterator_t ppMark = pSrcMarkAccess->getAllMarksBegin(); ppMark != pSrcMarkAccess->getAllMarksEnd(); ++ppMark ) { const ::sw::mark::IMark* const pMark = *ppMark; const SwPosition& rMarkStart = pMark->GetMarkStart(); const SwPosition& rMarkEnd = pMark->GetMarkEnd(); // only include marks that are in the range and not touching both start and end // - not for annotation or checkbox marks. const bool bIsNotOnBoundary = pMark->IsExpanded() ? (rMarkStart != rStt || rMarkEnd != rEnd) // rMarkStart != rMarkEnd : (rMarkStart != rStt && rMarkEnd != rEnd); // rMarkStart == rMarkEnd const IDocumentMarkAccess::MarkType aMarkType = IDocumentMarkAccess::GetType(*pMark); if ( rMarkStart >= rStt && rMarkEnd <= rEnd && ( bIsNotOnBoundary || aMarkType == IDocumentMarkAccess::MarkType::ANNOTATIONMARK || aMarkType == IDocumentMarkAccess::MarkType::TEXT_FIELDMARK || aMarkType == IDocumentMarkAccess::MarkType::CHECKBOX_FIELDMARK || aMarkType == IDocumentMarkAccess::MarkType::DROPDOWN_FIELDMARK || aMarkType == IDocumentMarkAccess::MarkType::DATE_FIELDMARK)) { vMarksToCopy.push_back(pMark); } } // We have to count the "non-copied" nodes... sal_uLong nDelCount; SwNodeIndex aCorrIdx(InitDelCount(rPam, nDelCount)); for(const sw::mark::IMark* const pMark : vMarksToCopy) { SwPaM aTmpPam(*pCpyStt); lcl_NonCopyCount(rPam, aCorrIdx, pMark->GetMarkPos().nNode.GetIndex(), nDelCount); lcl_SetCpyPos( pMark->GetMarkPos(), rStt, *pCpyStt, *aTmpPam.GetPoint(), nDelCount); if(pMark->IsExpanded()) { aTmpPam.SetMark(); lcl_NonCopyCount(rPam, aCorrIdx, pMark->GetOtherMarkPos().nNode.GetIndex(), nDelCount); lcl_SetCpyPos(pMark->GetOtherMarkPos(), rStt, *pCpyStt, *aTmpPam.GetMark(), nDelCount); } ::sw::mark::IMark* const pNewMark = pDestDoc->getIDocumentMarkAccess()->makeMark( aTmpPam, pMark->GetName(), IDocumentMarkAccess::GetType(*pMark), ::sw::mark::InsertMode::CopyText); // Explicitly try to get exactly the same name as in the source // because NavigatorReminders, DdeBookmarks etc. ignore the proposed name pDestDoc->getIDocumentMarkAccess()->renameMark(pNewMark, pMark->GetName()); // copying additional attributes for bookmarks or fieldmarks ::sw::mark::IBookmark* const pNewBookmark = dynamic_cast< ::sw::mark::IBookmark* const >(pNewMark); const ::sw::mark::IBookmark* const pOldBookmark = dynamic_cast< const ::sw::mark::IBookmark* >(pMark); if (pNewBookmark && pOldBookmark) { pNewBookmark->SetKeyCode(pOldBookmark->GetKeyCode()); pNewBookmark->SetShortName(pOldBookmark->GetShortName()); } ::sw::mark::IFieldmark* const pNewFieldmark = dynamic_cast< ::sw::mark::IFieldmark* const >(pNewMark); const ::sw::mark::IFieldmark* const pOldFieldmark = dynamic_cast< const ::sw::mark::IFieldmark* >(pMark); if (pNewFieldmark && pOldFieldmark) { pNewFieldmark->SetFieldname(pOldFieldmark->GetFieldname()); pNewFieldmark->SetFieldHelptext(pOldFieldmark->GetFieldHelptext()); ::sw::mark::IFieldmark::parameter_map_t* pNewParams = pNewFieldmark->GetParameters(); const ::sw::mark::IFieldmark::parameter_map_t* pOldParams = pOldFieldmark->GetParameters(); for (const auto& rEntry : *pOldParams ) { pNewParams->insert( rEntry ); } } ::sfx2::Metadatable const*const pMetadatable( dynamic_cast< ::sfx2::Metadatable const* >(pMark)); ::sfx2::Metadatable *const pNewMetadatable( dynamic_cast< ::sfx2::Metadatable * >(pNewMark)); if (pMetadatable && pNewMetadatable) { pNewMetadatable->RegisterAsCopyOf(*pMetadatable); } } } } // namespace sw namespace { void lcl_DeleteRedlines( const SwPaM& rPam, SwPaM& rCpyPam ) { const SwDoc* pSrcDoc = rPam.GetDoc(); const SwRedlineTable& rTable = pSrcDoc->getIDocumentRedlineAccess().GetRedlineTable(); if( !rTable.empty() ) { SwDoc* pDestDoc = rCpyPam.GetDoc(); SwPosition* pCpyStt = rCpyPam.Start(), *pCpyEnd = rCpyPam.End(); std::unique_ptr pDelPam; const SwPosition *pStt = rPam.Start(), *pEnd = rPam.End(); // We have to count the "non-copied" nodes sal_uLong nDelCount; SwNodeIndex aCorrIdx(InitDelCount(rPam, nDelCount)); SwRedlineTable::size_type n = 0; pSrcDoc->getIDocumentRedlineAccess().GetRedline( *pStt, &n ); for( ; n < rTable.size(); ++n ) { const SwRangeRedline* pRedl = rTable[ n ]; if( RedlineType::Delete == pRedl->GetType() && pRedl->IsVisible() ) { const SwPosition *pRStt = pRedl->Start(), *pREnd = pRedl->End(); SwComparePosition eCmpPos = ComparePosition( *pStt, *pEnd, *pRStt, *pREnd ); switch( eCmpPos ) { case SwComparePosition::CollideEnd: case SwComparePosition::Before: // Pos1 is before Pos2 break; case SwComparePosition::CollideStart: case SwComparePosition::Behind: // Pos1 is after Pos2 n = rTable.size(); break; default: { pDelPam.reset(new SwPaM( *pCpyStt, pDelPam.release() )); if( *pStt < *pRStt ) { lcl_NonCopyCount( rPam, aCorrIdx, pRStt->nNode.GetIndex(), nDelCount ); lcl_SetCpyPos( *pRStt, *pStt, *pCpyStt, *pDelPam->GetPoint(), nDelCount ); } pDelPam->SetMark(); if( *pEnd < *pREnd ) *pDelPam->GetPoint() = *pCpyEnd; else { lcl_NonCopyCount( rPam, aCorrIdx, pREnd->nNode.GetIndex(), nDelCount ); lcl_SetCpyPos( *pREnd, *pStt, *pCpyStt, *pDelPam->GetPoint(), nDelCount ); } if (pDelPam->GetNext() && *pDelPam->GetNext()->End() == *pDelPam->Start()) { *pDelPam->GetNext()->End() = *pDelPam->End(); pDelPam.reset(pDelPam->GetNext()); } } } } } if( pDelPam ) { RedlineFlags eOld = pDestDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDestDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld | RedlineFlags::Ignore ); ::sw::UndoGuard const undoGuard(pDestDoc->GetIDocumentUndoRedo()); do { pDestDoc->getIDocumentContentOperations().DeleteAndJoin( *pDelPam->GetNext() ); if( !pDelPam->IsMultiSelection() ) break; delete pDelPam->GetNext(); } while( true ); pDestDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); } } } void lcl_DeleteRedlines( const SwNodeRange& rRg, SwNodeRange const & rCpyRg ) { SwDoc* pSrcDoc = rRg.aStart.GetNode().GetDoc(); if( !pSrcDoc->getIDocumentRedlineAccess().GetRedlineTable().empty() ) { SwPaM aRgTmp( rRg.aStart, rRg.aEnd ); SwPaM aCpyTmp( rCpyRg.aStart, rCpyRg.aEnd ); lcl_DeleteRedlines( aRgTmp, aCpyTmp ); } } void lcl_ChainFormats( SwFlyFrameFormat *pSrc, SwFlyFrameFormat *pDest ) { SwFormatChain aSrc( pSrc->GetChain() ); if ( !aSrc.GetNext() ) { aSrc.SetNext( pDest ); pSrc->SetFormatAttr( aSrc ); } SwFormatChain aDest( pDest->GetChain() ); if ( !aDest.GetPrev() ) { aDest.SetPrev( pSrc ); pDest->SetFormatAttr( aDest ); } } // #i86492# bool lcl_ContainsOnlyParagraphsInList( const SwPaM& rPam ) { bool bRet = false; const SwTextNode* pTextNd = rPam.Start()->nNode.GetNode().GetTextNode(); const SwTextNode* pEndTextNd = rPam.End()->nNode.GetNode().GetTextNode(); if ( pTextNd && pTextNd->IsInList() && pEndTextNd && pEndTextNd->IsInList() ) { bRet = true; SwNodeIndex aIdx(rPam.Start()->nNode); do { ++aIdx; pTextNd = aIdx.GetNode().GetTextNode(); if ( !pTextNd || !pTextNd->IsInList() ) { bRet = false; break; } } while (pTextNd != pEndTextNd); } return bRet; } bool lcl_MarksWholeNode(const SwPaM & rPam) { bool bResult = false; const SwPosition* pStt = rPam.Start(); const SwPosition* pEnd = rPam.End(); if (nullptr != pStt && nullptr != pEnd) { const SwTextNode* pSttNd = pStt->nNode.GetNode().GetTextNode(); const SwTextNode* pEndNd = pEnd->nNode.GetNode().GetTextNode(); if (nullptr != pSttNd && nullptr != pEndNd && pStt->nContent.GetIndex() == 0 && pEnd->nContent.GetIndex() == pEndNd->Len()) { bResult = true; } } return bResult; } } //local functions originally from sw/source/core/doc/docedt.cxx namespace sw { void CalcBreaks(std::vector> & rBreaks, SwPaM const & rPam, bool const isOnlyFieldmarks) { sal_uLong const nStartNode(rPam.Start()->nNode.GetIndex()); sal_uLong const nEndNode(rPam.End()->nNode.GetIndex()); SwNodes const& rNodes(rPam.GetPoint()->nNode.GetNodes()); IDocumentMarkAccess const& rIDMA(*rPam.GetDoc()->getIDocumentMarkAccess()); std::stack> startedFields; for (sal_uLong n = nStartNode; n <= nEndNode; ++n) { SwNode *const pNode(rNodes[n]); if (pNode->IsTextNode()) { SwTextNode & rTextNode(*pNode->GetTextNode()); sal_Int32 const nStart(n == nStartNode ? rPam.Start()->nContent.GetIndex() : 0); sal_Int32 const nEnd(n == nEndNode ? rPam.End()->nContent.GetIndex() : rTextNode.Len()); for (sal_Int32 i = nStart; i < nEnd; ++i) { const sal_Unicode c(rTextNode.GetText()[i]); switch (c) { // note: CH_TXT_ATR_FORMELEMENT does not need handling // not sure how CH_TXT_ATR_INPUTFIELDSTART/END are currently handled case CH_TXTATR_INWORD: case CH_TXTATR_BREAKWORD: { // META hints only have dummy char at the start, not // at the end, so no need to check in nStartNode if (n == nEndNode && !isOnlyFieldmarks) { SwTextAttr const*const pAttr(rTextNode.GetTextAttrForCharAt(i)); if (pAttr && pAttr->End() && (nEnd < *pAttr->End())) { assert(pAttr->HasDummyChar()); rBreaks.emplace_back(n, i); } } break; } case CH_TXT_ATR_FIELDSTART: { auto const pFieldMark(rIDMA.getFieldmarkAt(SwPosition(rTextNode, i))); startedFields.emplace(pFieldMark, false, 0, 0); break; } case CH_TXT_ATR_FIELDSEP: { if (startedFields.empty()) { rBreaks.emplace_back(n, i); } else { // no way to find the field via MarkManager... assert(std::get<0>(startedFields.top())->IsCoveringPosition(SwPosition(rTextNode, i))); std::get<1>(startedFields.top()) = true; std::get<2>(startedFields.top()) = n; std::get<3>(startedFields.top()) = i; } break; } case CH_TXT_ATR_FIELDEND: { if (startedFields.empty()) { rBreaks.emplace_back(n, i); } else { // fieldmarks must not overlap => stack assert(std::get<0>(startedFields.top()) == rIDMA.getFieldmarkAt(SwPosition(rTextNode, i))); startedFields.pop(); } break; } } } } else if (pNode->IsStartNode()) { if (pNode->EndOfSectionIndex() <= nEndNode) { // fieldmark cannot overlap node section n = pNode->EndOfSectionIndex(); } } else { // EndNode can actually happen with sections :( assert(pNode->IsEndNode() || pNode->IsNoTextNode()); } } while (!startedFields.empty()) { SwPosition const& rStart(std::get<0>(startedFields.top())->GetMarkStart()); std::pair const pos( rStart.nNode.GetIndex(), rStart.nContent.GetIndex()); auto it = std::lower_bound(rBreaks.begin(), rBreaks.end(), pos); assert(it == rBreaks.end() || *it != pos); rBreaks.insert(it, pos); if (std::get<1>(startedFields.top())) { std::pair const posSep( std::get<2>(startedFields.top()), std::get<3>(startedFields.top())); it = std::lower_bound(rBreaks.begin(), rBreaks.end(), posSep); assert(it == rBreaks.end() || *it != posSep); rBreaks.insert(it, posSep); } startedFields.pop(); } } } namespace { bool lcl_DoWithBreaks(::sw::DocumentContentOperationsManager & rDocumentContentOperations, SwPaM & rPam, bool (::sw::DocumentContentOperationsManager::*pFunc)(SwPaM&, bool), const bool bForceJoinNext = false) { std::vector> Breaks; sw::CalcBreaks(Breaks, rPam); if (Breaks.empty()) { return (rDocumentContentOperations.*pFunc)(rPam, bForceJoinNext); } // Deletion must be split into several parts if the text node // contains a text attribute with end and with dummy character // and the selection does not contain the text attribute completely, // but overlaps its start (left), where the dummy character is. SwPosition const & rSelectionEnd( *rPam.End() ); bool bRet( true ); // iterate from end to start, to avoid invalidating the offsets! auto iter( Breaks.rbegin() ); sal_uLong nOffset(0); SwNodes const& rNodes(rPam.GetPoint()->nNode.GetNodes()); SwPaM aPam( rSelectionEnd, rSelectionEnd ); // end node! SwPosition & rEnd( *aPam.End() ); SwPosition & rStart( *aPam.Start() ); while (iter != Breaks.rend()) { rStart = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second + 1); if (rStart < rEnd) // check if part is empty { bRet &= (rDocumentContentOperations.*pFunc)(aPam, bForceJoinNext); nOffset = iter->first - rStart.nNode.GetIndex(); // deleted fly nodes... } rEnd = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second); ++iter; } rStart = *rPam.Start(); // set to original start if (rStart < rEnd) // check if part is empty { bRet &= (rDocumentContentOperations.*pFunc)(aPam, bForceJoinNext); } return bRet; } bool lcl_StrLenOverflow( const SwPaM& rPam ) { // If we try to merge two paragraphs we have to test if afterwards // the string doesn't exceed the allowed string length if( rPam.GetPoint()->nNode != rPam.GetMark()->nNode ) { const SwPosition* pStt = rPam.Start(), *pEnd = rPam.End(); const SwTextNode* pEndNd = pEnd->nNode.GetNode().GetTextNode(); if( (nullptr != pEndNd) && pStt->nNode.GetNode().IsTextNode() ) { const sal_uInt64 nSum = pStt->nContent.GetIndex() + pEndNd->GetText().getLength() - pEnd->nContent.GetIndex(); return nSum > o3tl::make_unsigned(SAL_MAX_INT32); } } return false; } struct SaveRedline { SwRangeRedline* pRedl; sal_uInt32 nStt, nEnd; sal_Int32 nSttCnt; sal_Int32 nEndCnt; SaveRedline( SwRangeRedline* pR, const SwNodeIndex& rSttIdx ) : pRedl(pR) , nEnd(0) , nEndCnt(0) { const SwPosition* pStt = pR->Start(), * pEnd = pR->GetMark() == pStt ? pR->GetPoint() : pR->GetMark(); sal_uInt32 nSttIdx = rSttIdx.GetIndex(); nStt = pStt->nNode.GetIndex() - nSttIdx; nSttCnt = pStt->nContent.GetIndex(); if( pR->HasMark() ) { nEnd = pEnd->nNode.GetIndex() - nSttIdx; nEndCnt = pEnd->nContent.GetIndex(); } pRedl->GetPoint()->nNode = 0; pRedl->GetPoint()->nContent.Assign( nullptr, 0 ); pRedl->GetMark()->nNode = 0; pRedl->GetMark()->nContent.Assign( nullptr, 0 ); } SaveRedline( SwRangeRedline* pR, const SwPosition& rPos ) : pRedl(pR) , nEnd(0) , nEndCnt(0) { const SwPosition* pStt = pR->Start(), * pEnd = pR->GetMark() == pStt ? pR->GetPoint() : pR->GetMark(); sal_uInt32 nSttIdx = rPos.nNode.GetIndex(); nStt = pStt->nNode.GetIndex() - nSttIdx; nSttCnt = pStt->nContent.GetIndex(); if( nStt == 0 ) nSttCnt = nSttCnt - rPos.nContent.GetIndex(); if( pR->HasMark() ) { nEnd = pEnd->nNode.GetIndex() - nSttIdx; nEndCnt = pEnd->nContent.GetIndex(); if( nEnd == 0 ) nEndCnt = nEndCnt - rPos.nContent.GetIndex(); } pRedl->GetPoint()->nNode = 0; pRedl->GetPoint()->nContent.Assign( nullptr, 0 ); pRedl->GetMark()->nNode = 0; pRedl->GetMark()->nContent.Assign( nullptr, 0 ); } void SetPos( sal_uInt32 nInsPos ) { pRedl->GetPoint()->nNode = nInsPos + nStt; pRedl->GetPoint()->nContent.Assign( pRedl->GetContentNode(), nSttCnt ); if( pRedl->HasMark() ) { pRedl->GetMark()->nNode = nInsPos + nEnd; pRedl->GetMark()->nContent.Assign( pRedl->GetContentNode(false), nEndCnt ); } } void SetPos( const SwPosition& aPos ) { pRedl->GetPoint()->nNode = aPos.nNode.GetIndex() + nStt; pRedl->GetPoint()->nContent.Assign( pRedl->GetContentNode(), nSttCnt + ( nStt == 0 ? aPos.nContent.GetIndex() : 0 ) ); if( pRedl->HasMark() ) { pRedl->GetMark()->nNode = aPos.nNode.GetIndex() + nEnd; pRedl->GetMark()->nContent.Assign( pRedl->GetContentNode(false), nEndCnt + ( nEnd == 0 ? aPos.nContent.GetIndex() : 0 ) ); } } }; typedef std::vector< SaveRedline > SaveRedlines_t; void lcl_SaveRedlines(const SwPaM& aPam, SaveRedlines_t& rArr) { SwDoc* pDoc = aPam.GetNode().GetDoc(); const SwPosition* pStart = aPam.Start(); const SwPosition* pEnd = aPam.End(); // get first relevant redline SwRedlineTable::size_type nCurrentRedline; pDoc->getIDocumentRedlineAccess().GetRedline( *pStart, &nCurrentRedline ); if( nCurrentRedline > 0) nCurrentRedline--; // redline mode RedlineFlags::Ignore|RedlineFlags::On; save old mode RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( ( eOld & ~RedlineFlags::Ignore) | RedlineFlags::On ); // iterate over relevant redlines and decide for each whether it should // be saved, or split + saved SwRedlineTable& rRedlineTable = pDoc->getIDocumentRedlineAccess().GetRedlineTable(); for( ; nCurrentRedline < rRedlineTable.size(); nCurrentRedline++ ) { SwRangeRedline* pCurrent = rRedlineTable[ nCurrentRedline ]; SwComparePosition eCompare = ComparePosition( *pCurrent->Start(), *pCurrent->End(), *pStart, *pEnd); // we must save this redline if it overlaps aPam // (we may have to split it, too) if( eCompare == SwComparePosition::OverlapBehind || eCompare == SwComparePosition::OverlapBefore || eCompare == SwComparePosition::Outside || eCompare == SwComparePosition::Inside || eCompare == SwComparePosition::Equal ) { rRedlineTable.Remove( nCurrentRedline-- ); // split beginning, if necessary if( eCompare == SwComparePosition::OverlapBefore || eCompare == SwComparePosition::Outside ) { SwRangeRedline* pNewRedline = new SwRangeRedline( *pCurrent ); *pNewRedline->End() = *pStart; *pCurrent->Start() = *pStart; pDoc->getIDocumentRedlineAccess().AppendRedline( pNewRedline, true ); } // split end, if necessary if( eCompare == SwComparePosition::OverlapBehind || eCompare == SwComparePosition::Outside ) { SwRangeRedline* pNewRedline = new SwRangeRedline( *pCurrent ); *pNewRedline->Start() = *pEnd; *pCurrent->End() = *pEnd; pDoc->getIDocumentRedlineAccess().AppendRedline( pNewRedline, true ); } // save the current redline rArr.emplace_back( pCurrent, *pStart ); } } // restore old redline mode pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); } void lcl_RestoreRedlines(SwDoc* pDoc, const SwPosition& rPos, SaveRedlines_t& rArr) { RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( ( eOld & ~RedlineFlags::Ignore) | RedlineFlags::On ); for(SaveRedline & rSvRedLine : rArr) { rSvRedLine.SetPos( rPos ); pDoc->getIDocumentRedlineAccess().AppendRedline( rSvRedLine.pRedl, true ); } pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); } void lcl_SaveRedlines(const SwNodeRange& rRg, SaveRedlines_t& rArr) { SwDoc* pDoc = rRg.aStart.GetNode().GetDoc(); SwRedlineTable::size_type nRedlPos; SwPosition aSrchPos( rRg.aStart ); aSrchPos.nNode--; aSrchPos.nContent.Assign( aSrchPos.nNode.GetNode().GetContentNode(), 0 ); if( pDoc->getIDocumentRedlineAccess().GetRedline( aSrchPos, &nRedlPos ) && nRedlPos ) --nRedlPos; else if( nRedlPos >= pDoc->getIDocumentRedlineAccess().GetRedlineTable().size() ) return ; RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( ( eOld & ~RedlineFlags::Ignore) | RedlineFlags::On ); SwRedlineTable& rRedlTable = pDoc->getIDocumentRedlineAccess().GetRedlineTable(); do { SwRangeRedline* pTmp = rRedlTable[ nRedlPos ]; const SwPosition* pRStt = pTmp->Start(), * pREnd = pTmp->GetMark() == pRStt ? pTmp->GetPoint() : pTmp->GetMark(); if( pRStt->nNode < rRg.aStart ) { if( pREnd->nNode > rRg.aStart && pREnd->nNode < rRg.aEnd ) { // Create a copy and set the end of the original to the end of the MoveArea. // The copy is moved too. SwRangeRedline* pNewRedl = new SwRangeRedline( *pTmp ); SwPosition* pTmpPos = pNewRedl->Start(); pTmpPos->nNode = rRg.aStart; pTmpPos->nContent.Assign( pTmpPos->nNode.GetNode().GetContentNode(), 0 ); rArr.emplace_back(pNewRedl, rRg.aStart); pTmpPos = pTmp->End(); pTmpPos->nNode = rRg.aEnd; pTmpPos->nContent.Assign( pTmpPos->nNode.GetNode().GetContentNode(), 0 ); } else if( pREnd->nNode == rRg.aStart ) { SwPosition* pTmpPos = pTmp->End(); pTmpPos->nNode = rRg.aEnd; pTmpPos->nContent.Assign( pTmpPos->nNode.GetNode().GetContentNode(), 0 ); } } else if( pRStt->nNode < rRg.aEnd ) { rRedlTable.Remove( nRedlPos-- ); if( pREnd->nNode < rRg.aEnd || ( pREnd->nNode == rRg.aEnd && !pREnd->nContent.GetIndex()) ) { // move everything rArr.emplace_back( pTmp, rRg.aStart ); } else { // split SwRangeRedline* pNewRedl = new SwRangeRedline( *pTmp ); SwPosition* pTmpPos = pNewRedl->End(); pTmpPos->nNode = rRg.aEnd; pTmpPos->nContent.Assign( pTmpPos->nNode.GetNode().GetContentNode(), 0 ); rArr.emplace_back( pNewRedl, rRg.aStart ); pTmpPos = pTmp->Start(); pTmpPos->nNode = rRg.aEnd; pTmpPos->nContent.Assign( pTmpPos->nNode.GetNode().GetContentNode(), 0 ); pDoc->getIDocumentRedlineAccess().AppendRedline( pTmp, true ); } } else break; } while( ++nRedlPos < pDoc->getIDocumentRedlineAccess().GetRedlineTable().size() ); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); } void lcl_RestoreRedlines(SwDoc *const pDoc, sal_uInt32 const nInsPos, SaveRedlines_t& rArr) { RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( ( eOld & ~RedlineFlags::Ignore) | RedlineFlags::On ); for(SaveRedline & rSvRedLine : rArr) { rSvRedLine.SetPos( nInsPos ); pDoc->getIDocumentRedlineAccess().AppendRedline( rSvRedLine.pRedl, true ); if (rSvRedLine.pRedl->GetType() == RedlineType::Delete) { UpdateFramesForAddDeleteRedline(*pDoc, *rSvRedLine.pRedl); } } pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); } bool lcl_SaveFootnote( const SwNodeIndex& rSttNd, const SwNodeIndex& rEndNd, const SwNodeIndex& rInsPos, SwFootnoteIdxs& rFootnoteArr, SwFootnoteIdxs& rSaveArr, const SwIndex* pSttCnt = nullptr, const SwIndex* pEndCnt = nullptr ) { bool bUpdateFootnote = false; const SwNodes& rNds = rInsPos.GetNodes(); const bool bDelFootnote = rInsPos.GetIndex() < rNds.GetEndOfAutotext().GetIndex() && rSttNd.GetIndex() >= rNds.GetEndOfAutotext().GetIndex(); const bool bSaveFootnote = !bDelFootnote && rInsPos.GetIndex() >= rNds.GetEndOfExtras().GetIndex(); if( !rFootnoteArr.empty() ) { size_t nPos = 0; rFootnoteArr.SeekEntry( rSttNd, &nPos ); SwTextFootnote* pSrch; const SwNode* pFootnoteNd; // Delete/save all that come after it while( nPos < rFootnoteArr.size() && ( pFootnoteNd = &( pSrch = rFootnoteArr[ nPos ] )->GetTextNode())->GetIndex() <= rEndNd.GetIndex() ) { const sal_Int32 nFootnoteSttIdx = pSrch->GetStart(); if( ( pEndCnt && pSttCnt ) ? (( &rSttNd.GetNode() == pFootnoteNd && pSttCnt->GetIndex() > nFootnoteSttIdx) || ( &rEndNd.GetNode() == pFootnoteNd && nFootnoteSttIdx >= pEndCnt->GetIndex() )) : ( &rEndNd.GetNode() == pFootnoteNd )) { ++nPos; // continue searching } else { // delete it if( bDelFootnote ) { SwTextNode& rTextNd = const_cast(pSrch->GetTextNode()); SwIndex aIdx( &rTextNd, nFootnoteSttIdx ); rTextNd.EraseText( aIdx, 1 ); } else { pSrch->DelFrames(nullptr); rFootnoteArr.erase( rFootnoteArr.begin() + nPos ); if( bSaveFootnote ) rSaveArr.insert( pSrch ); } bUpdateFootnote = true; } } while( nPos-- && ( pFootnoteNd = &( pSrch = rFootnoteArr[ nPos ] )-> GetTextNode())->GetIndex() >= rSttNd.GetIndex() ) { const sal_Int32 nFootnoteSttIdx = pSrch->GetStart(); if( !pEndCnt || !pSttCnt || ! (( &rSttNd.GetNode() == pFootnoteNd && pSttCnt->GetIndex() > nFootnoteSttIdx ) || ( &rEndNd.GetNode() == pFootnoteNd && nFootnoteSttIdx >= pEndCnt->GetIndex() )) ) { if( bDelFootnote ) { // delete it SwTextNode& rTextNd = const_cast(pSrch->GetTextNode()); SwIndex aIdx( &rTextNd, nFootnoteSttIdx ); rTextNd.EraseText( aIdx, 1 ); } else { pSrch->DelFrames(nullptr); rFootnoteArr.erase( rFootnoteArr.begin() + nPos ); if( bSaveFootnote ) rSaveArr.insert( pSrch ); } bUpdateFootnote = true; } } } // When moving from redline section into document content section, e.g. // after loading a document with (delete-)redlines, the footnote array // has to be adjusted... (#i70572) if( bSaveFootnote ) { SwNodeIndex aIdx( rSttNd ); while( aIdx < rEndNd ) // Check the moved section { SwNode* pNode = &aIdx.GetNode(); if( pNode->IsTextNode() ) // Looking for text nodes... { SwpHints *pHints = pNode->GetTextNode()->GetpSwpHints(); if( pHints && pHints->HasFootnote() ) //...with footnotes { bUpdateFootnote = true; // Heureka const size_t nCount = pHints->Count(); for( size_t i = 0; i < nCount; ++i ) { SwTextAttr *pAttr = pHints->Get( i ); if ( pAttr->Which() == RES_TXTATR_FTN ) { rSaveArr.insert( static_cast(pAttr) ); } } } } ++aIdx; } } return bUpdateFootnote; } bool lcl_MayOverwrite( const SwTextNode *pNode, const sal_Int32 nPos ) { sal_Unicode const cChr = pNode->GetText()[nPos]; switch (cChr) { case CH_TXTATR_BREAKWORD: case CH_TXTATR_INWORD: return !pNode->GetTextAttrForCharAt(nPos);// how could there be none? case CH_TXT_ATR_INPUTFIELDSTART: case CH_TXT_ATR_INPUTFIELDEND: case CH_TXT_ATR_FIELDSTART: case CH_TXT_ATR_FIELDSEP: case CH_TXT_ATR_FIELDEND: case CH_TXT_ATR_FORMELEMENT: return false; default: return true; } } void lcl_SkipAttr( const SwTextNode *pNode, SwIndex &rIdx, sal_Int32 &rStart ) { if( !lcl_MayOverwrite( pNode, rStart ) ) { // skip all special attributes do { ++rIdx; rStart = rIdx.GetIndex(); } while (rStart < pNode->GetText().getLength() && !lcl_MayOverwrite(pNode, rStart) ); } } bool lcl_GetTokenToParaBreak( OUString& rStr, OUString& rRet, bool bRegExpRplc ) { if( bRegExpRplc ) { sal_Int32 nPos = 0; const OUString sPara("\\n"); for (;;) { nPos = rStr.indexOf( sPara, nPos ); if (nPos<0) { break; } // Has this been escaped? if( nPos && '\\' == rStr[nPos-1]) { ++nPos; if( nPos >= rStr.getLength() ) { break; } } else { rRet = rStr.copy( 0, nPos ); rStr = rStr.copy( nPos + sPara.getLength() ); return true; } } } rRet = rStr; rStr.clear(); return false; } } namespace //local functions originally from docfmt.cxx { bool lcl_ApplyOtherSet( SwContentNode & rNode, SwHistory *const pHistory, SfxItemSet const& rOtherSet, SfxItemSet const& rFirstSet, SfxItemSet const& rPropsSet, SwRootFrame const*const pLayout, SwNodeIndex *const o_pIndex = nullptr) { assert(rOtherSet.Count()); bool ret(false); SwTextNode *const pTNd = rNode.GetTextNode(); sw::MergedPara const* pMerged(nullptr); if (pLayout && pLayout->IsHideRedlines() && pTNd) { SwTextFrame const*const pTextFrame(static_cast( pTNd->getLayoutFrame(pLayout))); if (pTextFrame) { pMerged = pTextFrame->GetMergedPara(); } if (pMerged) { if (rFirstSet.Count()) { if (pHistory) { SwRegHistory aRegH(pMerged->pFirstNode, *pMerged->pFirstNode, pHistory); ret = pMerged->pFirstNode->SetAttr(rFirstSet); } else { ret = pMerged->pFirstNode->SetAttr(rFirstSet); } } if (rPropsSet.Count()) { if (pHistory) { SwRegHistory aRegH(pMerged->pParaPropsNode, *pMerged->pParaPropsNode, pHistory); ret = pMerged->pParaPropsNode->SetAttr(rPropsSet) || ret; } else { ret = pMerged->pParaPropsNode->SetAttr(rPropsSet) || ret; } } if (o_pIndex) { *o_pIndex = *pMerged->pLastNode; // skip hidden } } } // input cursor can't be on hidden node, and iteration skips them assert(!pLayout || !pLayout->IsHideRedlines() || rNode.GetRedlineMergeFlag() != SwNode::Merge::Hidden); if (!pMerged) { if (pHistory) { SwRegHistory aRegH(&rNode, rNode, pHistory); ret = rNode.SetAttr( rOtherSet ); } else { ret = rNode.SetAttr( rOtherSet ); } } return ret; } #define DELETECHARSETS if ( bDelete ) { delete pCharSet; delete pOtherSet; } /// Insert Hints according to content types; // Is used in SwDoc::Insert(..., SwFormatHint &rHt) bool lcl_InsAttr( SwDoc *const pDoc, const SwPaM &rRg, const SfxItemSet& rChgSet, const SetAttrMode nFlags, SwUndoAttr *const pUndo, SwRootFrame const*const pLayout, const bool bExpandCharToPara, SwTextAttr **ppNewTextAttr) { // Divide the Sets (for selections in Nodes) const SfxItemSet* pCharSet = nullptr; const SfxItemSet* pOtherSet = nullptr; bool bDelete = false; bool bCharAttr = false; bool bOtherAttr = false; // Check, if we can work with rChgSet or if we have to create additional SfxItemSets if ( 1 == rChgSet.Count() ) { SfxItemIter aIter( rChgSet ); const SfxPoolItem* pItem = aIter.GetCurItem(); if (pItem && !IsInvalidItem(pItem)) { const sal_uInt16 nWhich = pItem->Which(); if ( isCHRATR(nWhich) || (RES_TXTATR_CHARFMT == nWhich) || (RES_TXTATR_INETFMT == nWhich) || (RES_TXTATR_AUTOFMT == nWhich) || (RES_TXTATR_UNKNOWN_CONTAINER == nWhich) ) { pCharSet = &rChgSet; bCharAttr = true; } if ( isPARATR(nWhich) || isPARATR_LIST(nWhich) || isFRMATR(nWhich) || isGRFATR(nWhich) || isUNKNOWNATR(nWhich) || isDrawingLayerAttribute(nWhich) ) { pOtherSet = &rChgSet; bOtherAttr = true; } } } // Build new itemset if either // - rChgSet.Count() > 1 or // - The attribute in rChgSet does not belong to one of the above categories if ( !bCharAttr && !bOtherAttr ) { SfxItemSet* pTmpCharItemSet = new SfxItemSet( pDoc->GetAttrPool(), svl::Items< RES_CHRATR_BEGIN, RES_CHRATR_END - 1, RES_TXTATR_AUTOFMT, RES_TXTATR_CHARFMT, RES_TXTATR_UNKNOWN_CONTAINER, RES_TXTATR_UNKNOWN_CONTAINER>{}); SfxItemSet* pTmpOtherItemSet = new SfxItemSet( pDoc->GetAttrPool(), svl::Items< RES_PARATR_BEGIN, RES_GRFATR_END - 1, RES_UNKNOWNATR_BEGIN, RES_UNKNOWNATR_END - 1, // FillAttribute support: XATTR_FILL_FIRST, XATTR_FILL_LAST>{}); pTmpCharItemSet->Put( rChgSet ); pTmpOtherItemSet->Put( rChgSet ); pCharSet = pTmpCharItemSet; pOtherSet = pTmpOtherItemSet; bDelete = true; } SwHistory* pHistory = pUndo ? &pUndo->GetHistory() : nullptr; bool bRet = false; const SwPosition *pStt = rRg.Start(), *pEnd = rRg.End(); SwContentNode* pNode = pStt->nNode.GetNode().GetContentNode(); if( pNode && pNode->IsTextNode() ) { // tdf#127606 at editing, remove different formatting of DOCX-like numbering symbol if (pLayout && pNode->GetTextNode()->getIDocumentSettingAccess()-> get(DocumentSettingId::APPLY_PARAGRAPH_MARK_FORMAT_TO_NUMBERING )) { SwContentNode* pEndNode = pEnd->nNode.GetNode().GetContentNode(); SwContentNode* pCurrentNode = pEndNode; auto nStartIndex = pNode->GetIndex(); auto nEndIndex = pEndNode->GetIndex(); SwNodeIndex aIdx( pEnd->nNode.GetNode() ); while ( pCurrentNode != nullptr && nStartIndex <= pCurrentNode->GetIndex() ) { if (pCurrentNode->GetSwAttrSet().HasItem(RES_PARATR_LIST_AUTOFMT) && // remove character formatting only on wholly selected paragraphs (nStartIndex < pCurrentNode->GetIndex() || pStt->nContent.GetIndex() == 0) && (pCurrentNode->GetIndex() < nEndIndex || pEnd->nContent.GetIndex() == pEndNode->Len())) { pCurrentNode->ResetAttr(RES_PARATR_LIST_AUTOFMT); // reset also paragraph marker SwIndex nIdx( pCurrentNode, pCurrentNode->Len() ); pCurrentNode->GetTextNode()->RstTextAttr(nIdx, 1); } pCurrentNode = SwNodes::GoPrevious( &aIdx ); } } // #i27615# if (rRg.IsInFrontOfLabel()) { SwTextNode * pTextNd = pNode->GetTextNode(); if (pLayout) { pTextNd = sw::GetParaPropsNode(*pLayout, *pTextNd); } SwNumRule * pNumRule = pTextNd->GetNumRule(); if ( !pNumRule ) { OSL_FAIL( " - PaM in front of label, but text node has no numbering rule set. This is a serious defect." ); DELETECHARSETS return false; } int nLevel = pTextNd->GetActualListLevel(); if (nLevel < 0) nLevel = 0; if (nLevel >= MAXLEVEL) nLevel = MAXLEVEL - 1; SwNumFormat aNumFormat = pNumRule->Get(static_cast(nLevel)); SwCharFormat * pCharFormat = pDoc->FindCharFormatByName(aNumFormat.GetCharFormatName()); if (pCharFormat) { if (pHistory) pHistory->Add(pCharFormat->GetAttrSet(), *pCharFormat); if ( pCharSet ) pCharFormat->SetFormatAttr(*pCharSet); } DELETECHARSETS return true; } const SwIndex& rSt = pStt->nContent; // Attributes without an end do not have a range if ( !bCharAttr && !bOtherAttr ) { SfxItemSet aTextSet( pDoc->GetAttrPool(), svl::Items{} ); aTextSet.Put( rChgSet ); if( aTextSet.Count() ) { SwRegHistory history( pNode, *pNode, pHistory ); bRet = history.InsertItems( aTextSet, rSt.GetIndex(), rSt.GetIndex(), nFlags, /*ppNewTextAttr*/nullptr ) || bRet; if (bRet && (pDoc->getIDocumentRedlineAccess().IsRedlineOn() || (!pDoc->getIDocumentRedlineAccess().IsIgnoreRedline() && !pDoc->getIDocumentRedlineAccess().GetRedlineTable().empty()))) { SwPaM aPam( pStt->nNode, pStt->nContent.GetIndex()-1, pStt->nNode, pStt->nContent.GetIndex() ); if( pUndo ) pUndo->SaveRedlineData( aPam, true ); if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() ) pDoc->getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Insert, aPam ), true); else pDoc->getIDocumentRedlineAccess().SplitRedline( aPam ); } } } // TextAttributes with an end never expand their range if ( !bCharAttr && !bOtherAttr ) { // CharFormat and URL attributes are treated separately! // TEST_TEMP ToDo: AutoFormat! SfxItemSet aTextSet( pDoc->GetAttrPool(), svl::Items< RES_TXTATR_REFMARK, RES_TXTATR_METAFIELD, RES_TXTATR_CJK_RUBY, RES_TXTATR_CJK_RUBY, RES_TXTATR_INPUTFIELD, RES_TXTATR_INPUTFIELD>{}); aTextSet.Put( rChgSet ); if( aTextSet.Count() ) { const sal_Int32 nInsCnt = rSt.GetIndex(); const sal_Int32 nEnd = pStt->nNode == pEnd->nNode ? pEnd->nContent.GetIndex() : pNode->Len(); SwRegHistory history( pNode, *pNode, pHistory ); bRet = history.InsertItems( aTextSet, nInsCnt, nEnd, nFlags, ppNewTextAttr ) || bRet; if (bRet && (pDoc->getIDocumentRedlineAccess().IsRedlineOn() || (!pDoc->getIDocumentRedlineAccess().IsIgnoreRedline() && !pDoc->getIDocumentRedlineAccess().GetRedlineTable().empty()))) { // Was text content inserted? (RefMark/TOXMarks without an end) bool bTextIns = nInsCnt != rSt.GetIndex(); // Was content inserted or set over the selection? SwPaM aPam( pStt->nNode, bTextIns ? nInsCnt + 1 : nEnd, pStt->nNode, nInsCnt ); if( pUndo ) pUndo->SaveRedlineData( aPam, bTextIns ); if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() ) pDoc->getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( bTextIns ? RedlineType::Insert : RedlineType::Format, aPam ), true); else if( bTextIns ) pDoc->getIDocumentRedlineAccess().SplitRedline( aPam ); } } } } // We always have to set the auto flag for PageDescs that are set at the Node! if( pOtherSet && pOtherSet->Count() ) { SwTableNode* pTableNd; const SwFormatPageDesc* pDesc; if( SfxItemState::SET == pOtherSet->GetItemState( RES_PAGEDESC, false, reinterpret_cast(&pDesc) )) { if( pNode ) { // Set auto flag. Only in the template it's without auto! SwFormatPageDesc aNew( *pDesc ); // Tables now also know line breaks if( !(nFlags & SetAttrMode::APICALL) && nullptr != ( pTableNd = pNode->FindTableNode() ) ) { SwTableNode* pCurTableNd = pTableNd; while ( nullptr != ( pCurTableNd = pCurTableNd->StartOfSectionNode()->FindTableNode() ) ) pTableNd = pCurTableNd; // set the table format SwFrameFormat* pFormat = pTableNd->GetTable().GetFrameFormat(); SwRegHistory aRegH( pFormat, *pTableNd, pHistory ); pFormat->SetFormatAttr( aNew ); bRet = true; } else { SwContentNode * pFirstNode(pNode); if (pLayout && pLayout->IsHideRedlines()) { pFirstNode = sw::GetFirstAndLastNode(*pLayout, pStt->nNode).first; } SwRegHistory aRegH( pFirstNode, *pFirstNode, pHistory ); bRet = pFirstNode->SetAttr( aNew ) || bRet; } } // bOtherAttr = true means that pOtherSet == rChgSet. In this case // we know, that there is only one attribute in pOtherSet. We cannot // perform the following operations, instead we return: if ( bOtherAttr ) return bRet; const_cast(pOtherSet)->ClearItem( RES_PAGEDESC ); if( !pOtherSet->Count() ) { DELETECHARSETS return bRet; } } // Tables now also know line breaks const SvxFormatBreakItem* pBreak; if( pNode && !(nFlags & SetAttrMode::APICALL) && nullptr != (pTableNd = pNode->FindTableNode() ) && SfxItemState::SET == pOtherSet->GetItemState( RES_BREAK, false, reinterpret_cast(&pBreak) ) ) { SwTableNode* pCurTableNd = pTableNd; while ( nullptr != ( pCurTableNd = pCurTableNd->StartOfSectionNode()->FindTableNode() ) ) pTableNd = pCurTableNd; // set the table format SwFrameFormat* pFormat = pTableNd->GetTable().GetFrameFormat(); SwRegHistory aRegH( pFormat, *pTableNd, pHistory ); pFormat->SetFormatAttr( *pBreak ); bRet = true; // bOtherAttr = true means that pOtherSet == rChgSet. In this case // we know, that there is only one attribute in pOtherSet. We cannot // perform the following operations, instead we return: if ( bOtherAttr ) return bRet; const_cast(pOtherSet)->ClearItem( RES_BREAK ); if( !pOtherSet->Count() ) { DELETECHARSETS return bRet; } } { // If we have a PoolNumRule, create it if needed const SwNumRuleItem* pRule; sal_uInt16 nPoolId=0; if( SfxItemState::SET == pOtherSet->GetItemState( RES_PARATR_NUMRULE, false, reinterpret_cast(&pRule) ) && !pDoc->FindNumRulePtr( pRule->GetValue() ) && USHRT_MAX != (nPoolId = SwStyleNameMapper::GetPoolIdFromUIName ( pRule->GetValue(), SwGetPoolIdFromName::NumRule )) ) pDoc->getIDocumentStylePoolAccess().GetNumRuleFromPool( nPoolId ); } } SfxItemSet firstSet(pDoc->GetAttrPool(), svl::Items{}); if (pOtherSet && pOtherSet->Count()) { // actually only RES_BREAK is possible here... firstSet.Put(*pOtherSet); } SfxItemSet propsSet(pDoc->GetAttrPool(), svl::Items{}); if (pOtherSet && pOtherSet->Count()) { propsSet.Put(*pOtherSet); } if( !rRg.HasMark() ) // no range { if( !pNode ) { DELETECHARSETS return bRet; } if( pNode->IsTextNode() && pCharSet && pCharSet->Count() ) { SwTextNode* pTextNd = pNode->GetTextNode(); const SwIndex& rSt = pStt->nContent; sal_Int32 nMkPos, nPtPos = rSt.GetIndex(); const OUString& rStr = pTextNd->GetText(); // Special case: if the Cursor is located within a URL attribute, we take over it's area SwTextAttr const*const pURLAttr( pTextNd->GetTextAttrAt(rSt.GetIndex(), RES_TXTATR_INETFMT)); if (pURLAttr && !pURLAttr->GetINetFormat().GetValue().isEmpty()) { nMkPos = pURLAttr->GetStart(); nPtPos = *pURLAttr->End(); } else { assert(g_pBreakIt && g_pBreakIt->GetBreakIter().is()); Boundary aBndry = g_pBreakIt->GetBreakIter()->getWordBoundary( pTextNd->GetText(), nPtPos, g_pBreakIt->GetLocale( pTextNd->GetLang( nPtPos ) ), WordType::ANY_WORD /*ANYWORD_IGNOREWHITESPACES*/, true); if( aBndry.startPos < nPtPos && nPtPos < aBndry.endPos ) { nMkPos = aBndry.startPos; nPtPos = aBndry.endPos; } else nPtPos = nMkPos = rSt.GetIndex(); } // Remove the overriding attributes from the SwpHintsArray, // if the selection spans across the whole paragraph. // These attributes are inserted as FormatAttributes and // never override the TextAttributes! if( !(nFlags & SetAttrMode::DONTREPLACE ) && pTextNd->HasHints() && !nMkPos && nPtPos == rStr.getLength()) { SwIndex aSt( pTextNd ); if( pHistory ) { // Save all attributes for the Undo. SwRegHistory aRHst( *pTextNd, pHistory ); pTextNd->GetpSwpHints()->Register( &aRHst ); pTextNd->RstTextAttr( aSt, nPtPos, 0, pCharSet ); if( pTextNd->GetpSwpHints() ) pTextNd->GetpSwpHints()->DeRegister(); } else pTextNd->RstTextAttr( aSt, nPtPos, 0, pCharSet ); } // the SwRegHistory inserts the attribute into the TextNode! SwRegHistory history( pNode, *pNode, pHistory ); bRet = history.InsertItems( *pCharSet, nMkPos, nPtPos, nFlags, /*ppNewTextAttr*/nullptr ) || bRet; if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() ) { SwPaM aPam( *pNode, nMkPos, *pNode, nPtPos ); if( pUndo ) pUndo->SaveRedlineData( aPam, false ); pDoc->getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Format, aPam ), true); } } if( pOtherSet && pOtherSet->Count() ) { // Need to check for unique item for DrawingLayer items of type NameOrIndex // and evtl. correct that item to ensure unique names for that type. This call may // modify/correct entries inside of the given SfxItemSet SfxItemSet aTempLocalCopy(*pOtherSet); pDoc->CheckForUniqueItemForLineFillNameOrIndex(aTempLocalCopy); bRet = lcl_ApplyOtherSet(*pNode, pHistory, aTempLocalCopy, firstSet, propsSet, pLayout) || bRet; } DELETECHARSETS return bRet; } if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() && pCharSet && pCharSet->Count() ) { if( pUndo ) pUndo->SaveRedlineData( rRg, false ); pDoc->getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Format, rRg ), true); } /* now if range */ sal_uLong nNodes = 0; SwNodeIndex aSt( pDoc->GetNodes() ); SwNodeIndex aEnd( pDoc->GetNodes() ); SwIndex aCntEnd( pEnd->nContent ); if( pNode ) { const sal_Int32 nLen = pNode->Len(); if( pStt->nNode != pEnd->nNode ) aCntEnd.Assign( pNode, nLen ); if( pStt->nContent.GetIndex() != 0 || aCntEnd.GetIndex() != nLen ) { // the SwRegHistory inserts the attribute into the TextNode! if( pNode->IsTextNode() && pCharSet && pCharSet->Count() ) { SwRegHistory history( pNode, *pNode, pHistory ); bRet = history.InsertItems(*pCharSet, pStt->nContent.GetIndex(), aCntEnd.GetIndex(), nFlags, /*ppNewTextAttr*/nullptr) || bRet; } if( pOtherSet && pOtherSet->Count() ) { bRet = lcl_ApplyOtherSet(*pNode, pHistory, *pOtherSet, firstSet, propsSet, pLayout) || bRet; } // Only selection in a Node. if( pStt->nNode == pEnd->nNode ) { //The data parameter flag: bExpandCharToPara, comes from the data member of SwDoc, //which is set in SW MS Word Binary filter WW8ImplRreader. With this flag on, means that //current setting attribute set is a character range properties set and comes from a MS Word //binary file, and the setting range include a paragraph end position (0X0D); //more specifications, as such property inside the character range properties set recorded in //MS Word binary file are dealt and inserted into data model (SwDoc) one by one, so we //only dealing the scenario that the char properties set with 1 item inside; if (bExpandCharToPara && pCharSet && pCharSet->Count() ==1 ) { SwTextNode* pCurrentNd = pStt->nNode.GetNode().GetTextNode(); if (pCurrentNd) { pCurrentNd->TryCharSetExpandToNum(*pCharSet); } } DELETECHARSETS return bRet; } ++nNodes; aSt.Assign( pStt->nNode.GetNode(), +1 ); } else aSt = pStt->nNode; aCntEnd = pEnd->nContent; // aEnd was changed! } else aSt.Assign( pStt->nNode.GetNode(), +1 ); // aSt points to the first full Node now /* * The selection spans more than one Node. */ if( pStt->nNode < pEnd->nNode ) { pNode = pEnd->nNode.GetNode().GetContentNode(); if(pNode) { if( aCntEnd.GetIndex() != pNode->Len() ) { // the SwRegHistory inserts the attribute into the TextNode! if( pNode->IsTextNode() && pCharSet && pCharSet->Count() ) { SwRegHistory history( pNode, *pNode, pHistory ); (void)history.InsertItems(*pCharSet, 0, aCntEnd.GetIndex(), nFlags, /*ppNewTextAttr*/nullptr); } if( pOtherSet && pOtherSet->Count() ) { lcl_ApplyOtherSet(*pNode, pHistory, *pOtherSet, firstSet, propsSet, pLayout); } ++nNodes; aEnd = pEnd->nNode; } else aEnd.Assign( pEnd->nNode.GetNode(), +1 ); } else aEnd = pEnd->nNode; } else aEnd.Assign( pEnd->nNode.GetNode(), +1 ); // aEnd points BEHIND the last full node now /* Edit the fully selected Nodes. */ // Reset all attributes from the set! if( pCharSet && pCharSet->Count() && !( SetAttrMode::DONTREPLACE & nFlags ) ) { ::sw::DocumentContentOperationsManager::ParaRstFormat aPara( pStt, pEnd, pHistory, pCharSet, pLayout); pDoc->GetNodes().ForEach( aSt, aEnd, ::sw::DocumentContentOperationsManager::lcl_RstTextAttr, &aPara ); } bool bCreateSwpHints = pCharSet && ( SfxItemState::SET == pCharSet->GetItemState( RES_TXTATR_CHARFMT, false ) || SfxItemState::SET == pCharSet->GetItemState( RES_TXTATR_INETFMT, false ) ); for (SwNodeIndex current = aSt; current < aEnd; ++current) { SwTextNode *const pTNd = current.GetNode().GetTextNode(); if (!pTNd) continue; if (pLayout && pLayout->IsHideRedlines() && pTNd->GetRedlineMergeFlag() == SwNode::Merge::Hidden) { // not really sure what to do here, but applying to hidden continue; // nodes doesn't make sense... } if( pHistory ) { SwRegHistory aRegH( pTNd, *pTNd, pHistory ); if (pCharSet && pCharSet->Count()) { SwpHints *pSwpHints = bCreateSwpHints ? &pTNd->GetOrCreateSwpHints() : pTNd->GetpSwpHints(); if( pSwpHints ) pSwpHints->Register( &aRegH ); pTNd->SetAttr(*pCharSet, 0, pTNd->GetText().getLength(), nFlags); if( pSwpHints ) pSwpHints->DeRegister(); } } else { if (pCharSet && pCharSet->Count()) pTNd->SetAttr(*pCharSet, 0, pTNd->GetText().getLength(), nFlags); } ++nNodes; } if (pOtherSet && pOtherSet->Count()) { for (; aSt < aEnd; ++aSt) { pNode = aSt.GetNode().GetContentNode(); if (!pNode) continue; lcl_ApplyOtherSet(*pNode, pHistory, *pOtherSet, firstSet, propsSet, pLayout, &aSt); ++nNodes; } } //The data parameter flag: bExpandCharToPara, comes from the data member of SwDoc, //which is set in SW MS Word Binary filter WW8ImplRreader. With this flag on, means that //current setting attribute set is a character range properties set and comes from a MS Word //binary file, and the setting range include a paragraph end position (0X0D); //more specifications, as such property inside the character range properties set recorded in //MS Word binary file are dealt and inserted into data model (SwDoc) one by one, so we //only dealing the scenario that the char properties set with 1 item inside; if (bExpandCharToPara && pCharSet && pCharSet->Count() ==1) { SwPosition aStartPos (*rRg.Start()); SwPosition aEndPos (*rRg.End()); if (aEndPos.nNode.GetNode().GetTextNode() && aEndPos.nContent != aEndPos.nNode.GetNode().GetTextNode()->Len()) aEndPos.nNode--; sal_uLong nStart = aStartPos.nNode.GetIndex(); sal_uLong nEnd = aEndPos.nNode.GetIndex(); for(; nStart <= nEnd; ++nStart) { SwNode* pNd = pDoc->GetNodes()[ nStart ]; if (!pNd || !pNd->IsTextNode()) continue; SwTextNode *pCurrentNd = pNd->GetTextNode(); pCurrentNd->TryCharSetExpandToNum(*pCharSet); } } DELETECHARSETS return (nNodes != 0) || bRet; } } namespace sw { namespace mark { bool IsFieldmarkOverlap(SwPaM const& rPaM) { std::vector> Breaks; sw::CalcBreaks(Breaks, rPaM); return !Breaks.empty(); } } DocumentContentOperationsManager::DocumentContentOperationsManager( SwDoc& i_rSwdoc ) : m_rDoc( i_rSwdoc ) { } /** * Checks if rStart..rEnd mark a range that makes sense to copy. * * IsMoveToFly means the copy is a move to create a fly * and so existing flys at the edge must not be copied. */ static bool IsEmptyRange(const SwPosition& rStart, const SwPosition& rEnd, SwCopyFlags const flags) { if (rStart == rEnd) { // check if a fly anchored there would be copied - then copy... return !IsDestroyFrameAnchoredAtChar(rStart, rStart, rEnd, (flags & SwCopyFlags::IsMoveToFly) ? DelContentType::WriterfilterHack|DelContentType::AllMask : DelContentType::AllMask); } else { return rEnd < rStart; } } // Copy an area into this document or into another document bool DocumentContentOperationsManager::CopyRange( SwPaM& rPam, SwPosition& rPos, SwCopyFlags const flags) const { const SwPosition *pStt = rPam.Start(), *pEnd = rPam.End(); SwDoc* pDoc = rPos.nNode.GetNode().GetDoc(); bool bColumnSel = pDoc->IsClipBoard() && pDoc->IsColumnSelection(); // Catch if there's no copy to do if (!rPam.HasMark() || (IsEmptyRange(*pStt, *pEnd, flags) && !bColumnSel)) return false; // Prevent copying into Flys that are anchored in the source range if (pDoc == &m_rDoc && (flags & SwCopyFlags::CheckPosInFly)) { // Correct the Start-/EndNode sal_uLong nStt = pStt->nNode.GetIndex(), nEnd = pEnd->nNode.GetIndex(), nDiff = nEnd - nStt +1; SwNode* pNd = m_rDoc.GetNodes()[ nStt ]; if( pNd->IsContentNode() && pStt->nContent.GetIndex() ) { ++nStt; --nDiff; } if( (pNd = m_rDoc.GetNodes()[ nEnd ])->IsContentNode() && static_cast(pNd)->Len() != pEnd->nContent.GetIndex() ) { --nEnd; --nDiff; } if( nDiff && lcl_ChkFlyFly( pDoc, nStt, nEnd, rPos.nNode.GetIndex() ) ) { return false; } } SwPaM* pRedlineRange = nullptr; if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() || (!pDoc->getIDocumentRedlineAccess().IsIgnoreRedline() && !pDoc->getIDocumentRedlineAccess().GetRedlineTable().empty() ) ) pRedlineRange = new SwPaM( rPos ); RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); bool bRet = false; if( pDoc != &m_rDoc ) { // ordinary copy bRet = CopyImpl(rPam, rPos, flags & ~SwCopyFlags::CheckPosInFly, pRedlineRange); } else if( ! ( *pStt <= rPos && rPos < *pEnd && ( pStt->nNode != pEnd->nNode || !pStt->nNode.GetNode().IsTextNode() )) ) { // Copy to a position outside of the area, or copy a single TextNode // Do an ordinary copy bRet = CopyImpl(rPam, rPos, flags & ~SwCopyFlags::CheckPosInFly, pRedlineRange); } else { // Copy the range in itself assert(!"mst: this is assumed to be dead code"); } pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); if( pRedlineRange ) { if( pDoc->getIDocumentRedlineAccess().IsRedlineOn() ) pDoc->getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Insert, *pRedlineRange ), true); else pDoc->getIDocumentRedlineAccess().SplitRedline( *pRedlineRange ); delete pRedlineRange; } return bRet; } /// Delete a full Section of the NodeArray. /// The passed Node is located somewhere in the designated Section. void DocumentContentOperationsManager::DeleteSection( SwNode *pNode ) { assert(pNode && "Didn't pass a Node."); SwStartNode* pSttNd = pNode->IsStartNode() ? static_cast(pNode) : pNode->StartOfSectionNode(); SwNodeIndex aSttIdx( *pSttNd ), aEndIdx( *pNode->EndOfSectionNode() ); // delete all Flys, Bookmarks, ... DelFlyInRange( aSttIdx, aEndIdx ); m_rDoc.getIDocumentRedlineAccess().DeleteRedline( *pSttNd, true, RedlineType::Any ); DelBookmarks(aSttIdx, aEndIdx); { // move all Cursor/StackCursor/UnoCursor out of the to-be-deleted area SwNodeIndex aMvStt( aSttIdx, 1 ); SwDoc::CorrAbs( aMvStt, aEndIdx, SwPosition( aSttIdx ), true ); } m_rDoc.GetNodes().DelNodes( aSttIdx, aEndIdx.GetIndex() - aSttIdx.GetIndex() + 1 ); } void DocumentContentOperationsManager::DeleteDummyChar( SwPosition const& rPos, sal_Unicode const cDummy) { SwPaM aPam(rPos, rPos); ++aPam.GetPoint()->nContent; assert(aPam.GetText().getLength() == 1 && aPam.GetText()[0] == cDummy); (void) cDummy; DeleteRangeImpl(aPam); if (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty()) { m_rDoc.getIDocumentRedlineAccess().CompressRedlines(); } } void DocumentContentOperationsManager::DeleteRange( SwPaM & rPam ) { lcl_DoWithBreaks( *this, rPam, &DocumentContentOperationsManager::DeleteRangeImpl ); if (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty()) { m_rDoc.getIDocumentRedlineAccess().CompressRedlines(); } } bool DocumentContentOperationsManager::DelFullPara( SwPaM& rPam ) { const SwPosition &rStt = *rPam.Start(), &rEnd = *rPam.End(); const SwNode* pNd = &rStt.nNode.GetNode(); sal_uInt32 nSectDiff = pNd->StartOfSectionNode()->EndOfSectionIndex() - pNd->StartOfSectionIndex(); sal_uInt32 nNodeDiff = rEnd.nNode.GetIndex() - rStt.nNode.GetIndex(); if ( nSectDiff-2 <= nNodeDiff || m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() || /* #i9185# Prevent getting the node after the end node (see below) */ rEnd.nNode.GetIndex() + 1 == m_rDoc.GetNodes().Count() ) { return false; } { SwPaM temp(rPam, nullptr); if (!temp.HasMark()) { temp.SetMark(); } if (SwTextNode *const pNode = temp.Start()->nNode.GetNode().GetTextNode()) { // rPam may not have nContent set but IsFieldmarkOverlap requires it pNode->MakeStartIndex(&temp.Start()->nContent); } if (SwTextNode *const pNode = temp.End()->nNode.GetNode().GetTextNode()) { pNode->MakeEndIndex(&temp.End()->nContent); } if (sw::mark::IsFieldmarkOverlap(temp)) { // a bit of a problem: we want to completely remove the nodes // but then how can the CH_TXT_ATR survive? return false; } } // Move hard page brakes to the following Node. bool bSavePageBreak = false, bSavePageDesc = false; /* #i9185# This would lead to a segmentation fault if not caught above. */ sal_uLong nNextNd = rEnd.nNode.GetIndex() + 1; SwTableNode *const pTableNd = m_rDoc.GetNodes()[ nNextNd ]->GetTableNode(); if( pTableNd && pNd->IsContentNode() ) { SwFrameFormat* pTableFormat = pTableNd->GetTable().GetFrameFormat(); { const SfxPoolItem *pItem; const SfxItemSet* pSet = static_cast(pNd)->GetpSwAttrSet(); if( pSet && SfxItemState::SET == pSet->GetItemState( RES_PAGEDESC, false, &pItem ) ) { pTableFormat->SetFormatAttr( *pItem ); bSavePageDesc = true; } if( pSet && SfxItemState::SET == pSet->GetItemState( RES_BREAK, false, &pItem ) ) { pTableFormat->SetFormatAttr( *pItem ); bSavePageBreak = true; } } } bool const bDoesUndo = m_rDoc.GetIDocumentUndoRedo().DoesUndo(); if( bDoesUndo ) { if( !rPam.HasMark() ) rPam.SetMark(); else if( rPam.GetPoint() == &rStt ) rPam.Exchange(); rPam.GetPoint()->nNode++; SwContentNode *pTmpNode = rPam.GetPoint()->nNode.GetNode().GetContentNode(); rPam.GetPoint()->nContent.Assign( pTmpNode, 0 ); bool bGoNext = (nullptr == pTmpNode); pTmpNode = rPam.GetMark()->nNode.GetNode().GetContentNode(); rPam.GetMark()->nContent.Assign( pTmpNode, 0 ); m_rDoc.GetIDocumentUndoRedo().ClearRedo(); SwPaM aDelPam( *rPam.GetMark(), *rPam.GetPoint() ); { SwPosition aTmpPos( *aDelPam.GetPoint() ); if( bGoNext ) { pTmpNode = m_rDoc.GetNodes().GoNext( &aTmpPos.nNode ); aTmpPos.nContent.Assign( pTmpNode, 0 ); } ::PaMCorrAbs( aDelPam, aTmpPos ); } std::unique_ptr pUndo(new SwUndoDelete( aDelPam, true )); *rPam.GetPoint() = *aDelPam.GetPoint(); pUndo->SetPgBrkFlags( bSavePageBreak, bSavePageDesc ); m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(pUndo)); rPam.DeleteMark(); } else { SwNodeRange aRg( rStt.nNode, rEnd.nNode ); rPam.Normalize(false); // Try to move past the End if( !rPam.Move( fnMoveForward, GoInNode ) ) { // Fair enough, at the Beginning then rPam.Exchange(); if( !rPam.Move( fnMoveBackward, GoInNode )) { SAL_WARN("sw.core", "DelFullPara: no more Nodes"); return false; } } // move bookmarks, redlines etc. if (aRg.aStart == aRg.aEnd) // only first CorrAbs variant handles this { m_rDoc.CorrAbs( aRg.aStart, *rPam.GetPoint(), 0, true ); } else { SwDoc::CorrAbs( aRg.aStart, aRg.aEnd, *rPam.GetPoint(), true ); } // What's with Flys? { // If there are FlyFrames left, delete these too for( size_t n = 0; n < m_rDoc.GetSpzFrameFormats()->size(); ++n ) { SwFrameFormat* pFly = (*m_rDoc.GetSpzFrameFormats())[n]; const SwFormatAnchor* pAnchor = &pFly->GetAnchor(); SwPosition const*const pAPos = pAnchor->GetContentAnchor(); if (pAPos && ((RndStdIds::FLY_AT_PARA == pAnchor->GetAnchorId()) || (RndStdIds::FLY_AT_CHAR == pAnchor->GetAnchorId())) && // note: here use <= not < like in // IsDestroyFrameAnchoredAtChar() because of the increment // of rPam in the bDoesUndo path above! aRg.aStart <= pAPos->nNode && pAPos->nNode <= aRg.aEnd ) { m_rDoc.getIDocumentLayoutAccess().DelLayoutFormat( pFly ); --n; } } } rPam.DeleteMark(); m_rDoc.GetNodes().Delete( aRg.aStart, nNodeDiff+1 ); } m_rDoc.getIDocumentState().SetModified(); return true; } // #i100466# Add handling of new optional parameter bool DocumentContentOperationsManager::DeleteAndJoin( SwPaM & rPam, const bool bForceJoinNext ) { if ( lcl_StrLenOverflow( rPam ) ) return false; bool const ret = lcl_DoWithBreaks( *this, rPam, (m_rDoc.getIDocumentRedlineAccess().IsRedlineOn()) ? &DocumentContentOperationsManager::DeleteAndJoinWithRedlineImpl : &DocumentContentOperationsManager::DeleteAndJoinImpl, bForceJoinNext ); return ret; } // It seems that this is mostly used by SwDoc internals; the only // way to call this from the outside seems to be the special case in // SwDoc::CopyRange (but I have not managed to actually hit that case). bool DocumentContentOperationsManager::MoveRange( SwPaM& rPaM, SwPosition& rPos, SwMoveFlags eMvFlags ) { // nothing moved: return const SwPosition *pStt = rPaM.Start(), *pEnd = rPaM.End(); if( !rPaM.HasMark() || *pStt >= *pEnd || (*pStt <= rPos && rPos < *pEnd)) return false; assert(!sw::mark::IsFieldmarkOverlap(rPaM)); // probably an invalid redline was created? // Save the paragraph anchored Flys, so that they can be moved. SaveFlyArr aSaveFlyArr; SaveFlyInRange( rPaM, rPos, aSaveFlyArr, bool( SwMoveFlags::ALLFLYS & eMvFlags ) ); // save redlines (if DOC_MOVEREDLINES is used) SaveRedlines_t aSaveRedl; if( SwMoveFlags::REDLINES & eMvFlags && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() ) { lcl_SaveRedlines( rPaM, aSaveRedl ); // #i17764# unfortunately, code below relies on undos being // in a particular order, and presence of bookmarks // will change this order. Hence, we delete bookmarks // here without undo. ::sw::UndoGuard const undoGuard(m_rDoc.GetIDocumentUndoRedo()); DelBookmarks( pStt->nNode, pEnd->nNode, nullptr, &pStt->nContent, &pEnd->nContent); } bool bUpdateFootnote = false; SwFootnoteIdxs aTmpFntIdx; std::unique_ptr pUndoMove; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); pUndoMove.reset(new SwUndoMove( rPaM, rPos )); pUndoMove->SetMoveRedlines( eMvFlags == SwMoveFlags::REDLINES ); } else { bUpdateFootnote = lcl_SaveFootnote( pStt->nNode, pEnd->nNode, rPos.nNode, m_rDoc.GetFootnoteIdxs(), aTmpFntIdx, &pStt->nContent, &pEnd->nContent ); } bool bSplit = false; SwPaM aSavePam( rPos, rPos ); // Move the SPoint to the beginning of the range if( rPaM.GetPoint() == pEnd ) rPaM.Exchange(); // If there is a TextNode before and after the Move, create a JoinNext in the EditShell. SwTextNode* pSrcNd = rPaM.GetPoint()->nNode.GetNode().GetTextNode(); bool bCorrSavePam = pSrcNd && pStt->nNode != pEnd->nNode; // If one ore more TextNodes are moved, SwNodes::Move will do a SplitNode. // However, this does not update the cursor. So we create a TextNode to keep // updating the indices. After the Move the Node is optionally deleted. SwTextNode * pTNd = rPos.nNode.GetNode().GetTextNode(); if( pTNd && rPaM.GetPoint()->nNode != rPaM.GetMark()->nNode && ( rPos.nContent.GetIndex() || ( pTNd->Len() && bCorrSavePam )) ) { bSplit = true; const sal_Int32 nMkContent = rPaM.GetMark()->nContent.GetIndex(); const std::shared_ptr pContentStore(sw::mark::ContentIdxStore::Create()); pContentStore->Save( &m_rDoc, rPos.nNode.GetIndex(), rPos.nContent.GetIndex(), true ); SwTextNode * pOrigNode = pTNd; assert(*aSavePam.GetPoint() == *aSavePam.GetMark() && *aSavePam.GetPoint() == rPos); assert(aSavePam.GetPoint()->nContent.GetIdxReg() == pOrigNode); assert(aSavePam.GetPoint()->nNode == rPos.nNode.GetIndex()); assert(rPos.nNode.GetIndex() == pOrigNode->GetIndex()); std::function restoreFunc( [&](SwTextNode *const, sw::mark::RestoreMode const eMode) { if (!pContentStore->Empty()) { pContentStore->Restore(&m_rDoc, pOrigNode->GetIndex()-1, 0, true, eMode); } }); pTNd = pTNd->SplitContentNode(rPos, &restoreFunc)->GetTextNode(); //A new node was inserted before the orig pTNd and the content up to //rPos moved into it. The old node is returned with the remainder //of the content in it. // //aSavePam was created with rPos, it continues to point to the //old node, but with the *original* content index into the node. //Seeing as all the orignode content before that index has //been removed, the new index into the original node should now be set //to 0 and the content index of rPos should also be adapted to the //truncated node assert(*aSavePam.GetPoint() == *aSavePam.GetMark() && *aSavePam.GetPoint() == rPos); assert(aSavePam.GetPoint()->nContent.GetIdxReg() == pOrigNode); assert(aSavePam.GetPoint()->nNode == rPos.nNode.GetIndex()); assert(rPos.nNode.GetIndex() == pOrigNode->GetIndex()); aSavePam.GetPoint()->nContent.Assign(pOrigNode, 0); rPos = *aSavePam.GetMark() = *aSavePam.GetPoint(); // correct the PaM! if( rPos.nNode == rPaM.GetMark()->nNode ) { rPaM.GetMark()->nNode = rPos.nNode.GetIndex()-1; rPaM.GetMark()->nContent.Assign( pTNd, nMkContent ); } } // Put back the Pam by one "content"; so that it's always outside of // the manipulated range. // tdf#99692 don't Move() back if that would end up in another node // because moving backward is not necessarily the inverse of forward then. // (but do Move() back if we have split the node) const bool bNullContent = !bSplit && aSavePam.GetPoint()->nContent == 0; if( bNullContent ) { aSavePam.GetPoint()->nNode--; aSavePam.GetPoint()->nContent.Assign(aSavePam.GetContentNode(), 0); } else { bool const success(aSavePam.Move(fnMoveBackward, GoInContent)); assert(success); (void) success; } // Copy all Bookmarks that are within the Move range into an array, // that saves the position as an offset. std::vector< ::sw::mark::SaveBookmark> aSaveBkmks; DelBookmarks( pStt->nNode, pEnd->nNode, &aSaveBkmks, &pStt->nContent, &pEnd->nContent); // If there is no range anymore due to the above deletions (e.g. the // footnotes got deleted), it's still a valid Move! if( *rPaM.GetPoint() != *rPaM.GetMark() ) { // now do the actual move m_rDoc.GetNodes().MoveRange( rPaM, rPos, m_rDoc.GetNodes() ); // after a MoveRange() the Mark is deleted if ( rPaM.HasMark() ) // => no Move occurred! { return false; } } else rPaM.DeleteMark(); OSL_ENSURE( *aSavePam.GetMark() == rPos || ( aSavePam.GetMark()->nNode.GetNode().GetContentNode() == nullptr ), "PaM was not moved. Aren't there ContentNodes at the beginning/end?" ); *aSavePam.GetMark() = rPos; rPaM.SetMark(); // create a Sel. around the new range pTNd = aSavePam.GetNode().GetTextNode(); assert(!m_rDoc.GetIDocumentUndoRedo().DoesUndo()); bool bRemove = true; // Do two Nodes have to be joined at the SavePam? if (bSplit && pTNd) { if (pTNd->CanJoinNext()) { // Always join next, because has to stay as it is. // A join previous from its next would more or less delete pTNd->JoinNext(); bRemove = false; } } if (bNullContent) { aSavePam.GetPoint()->nNode++; aSavePam.GetPoint()->nContent.Assign( aSavePam.GetContentNode(), 0 ); } else if (bRemove) // No move forward after joining with next paragraph { aSavePam.Move( fnMoveForward, GoInContent ); } // Insert the Bookmarks back into the Document. *rPaM.GetMark() = *aSavePam.Start(); for(auto& rBkmk : aSaveBkmks) rBkmk.SetInDoc( &m_rDoc, rPaM.GetMark()->nNode, &rPaM.GetMark()->nContent); *rPaM.GetPoint() = *aSavePam.End(); // Move the Flys to the new position. // note: rPos is at the end here; can't really tell flys that used to be // at the start of rPam from flys that used to be at the end of rPam // unfortunately, so some of them are going to end up with wrong anchor... RestFlyInRange( aSaveFlyArr, *rPaM.Start(), &(rPos.nNode) ); // restore redlines (if DOC_MOVEREDLINES is used) if( !aSaveRedl.empty() ) { lcl_RestoreRedlines( &m_rDoc, *aSavePam.Start(), aSaveRedl ); } if( bUpdateFootnote ) { if( !aTmpFntIdx.empty() ) { m_rDoc.GetFootnoteIdxs().insert( aTmpFntIdx ); aTmpFntIdx.clear(); } m_rDoc.GetFootnoteIdxs().UpdateAllFootnote(); } m_rDoc.getIDocumentState().SetModified(); return true; } bool DocumentContentOperationsManager::MoveNodeRange( SwNodeRange& rRange, SwNodeIndex& rPos, SwMoveFlags eMvFlags ) { // Moves all Nodes to the new position. // Bookmarks are moved too (currently without Undo support). // If footnotes are being moved to the special section, remove them now. // Or else delete the Frames for all footnotes that are being moved // and have it rebuild after the Move (footnotes can change pages). // Additionally we have to correct the FootnoteIdx array's sorting. bool bUpdateFootnote = false; SwFootnoteIdxs aTmpFntIdx; std::unique_ptr pUndo; if ((SwMoveFlags::CREATEUNDOOBJ & eMvFlags ) && m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { pUndo.reset(new SwUndoMove( &m_rDoc, rRange, rPos )); } else { bUpdateFootnote = lcl_SaveFootnote( rRange.aStart, rRange.aEnd, rPos, m_rDoc.GetFootnoteIdxs(), aTmpFntIdx ); } SaveRedlines_t aSaveRedl; std::vector aSavRedlInsPosArr; if( SwMoveFlags::REDLINES & eMvFlags && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() ) { lcl_SaveRedlines( rRange, aSaveRedl ); // Find all RedLines that end at the InsPos. // These have to be moved back to the "old" position after the Move. SwRedlineTable::size_type nRedlPos = m_rDoc.getIDocumentRedlineAccess().GetRedlinePos( rPos.GetNode(), RedlineType::Any ); if( SwRedlineTable::npos != nRedlPos ) { const SwPosition *pRStt, *pREnd; do { SwRangeRedline* pTmp = m_rDoc.getIDocumentRedlineAccess().GetRedlineTable()[ nRedlPos ]; pRStt = pTmp->Start(); pREnd = pTmp->End(); if( pREnd->nNode == rPos && pRStt->nNode < rPos ) { aSavRedlInsPosArr.push_back( pTmp ); } } while( pRStt->nNode < rPos && ++nRedlPos < m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().size()); } } // Copy all Bookmarks that are within the Move range into an array // that stores all references to positions as an offset. // The final mapping happens after the Move. std::vector< ::sw::mark::SaveBookmark> aSaveBkmks; DelBookmarks(rRange.aStart, rRange.aEnd, &aSaveBkmks); // Save the paragraph-bound Flys, so that they can be moved. SaveFlyArr aSaveFlyArr; if( !m_rDoc.GetSpzFrameFormats()->empty() ) SaveFlyInRange( rRange, aSaveFlyArr ); // Set it to before the Position, so that it cannot be moved further. SwNodeIndex aIdx( rPos, -1 ); std::unique_ptr pSaveInsPos; if( pUndo ) pSaveInsPos.reset(new SwNodeIndex( rRange.aStart, -1 )); // move the Nodes bool bNoDelFrames = bool(SwMoveFlags::NO_DELFRMS & eMvFlags); if( m_rDoc.GetNodes().MoveNodes( rRange, m_rDoc.GetNodes(), rPos, !bNoDelFrames ) ) { ++aIdx; // again back to old position if( pSaveInsPos ) ++(*pSaveInsPos); } else { aIdx = rRange.aStart; pUndo.reset(); } // move the Flys to the new position if( !aSaveFlyArr.empty() ) { SwPosition const tmp(aIdx); RestFlyInRange(aSaveFlyArr, tmp, nullptr); } // Add the Bookmarks back to the Document for(auto& rBkmk : aSaveBkmks) rBkmk.SetInDoc(&m_rDoc, aIdx); if( !aSavRedlInsPosArr.empty() ) { SwNode* pNewNd = &aIdx.GetNode(); for(SwRangeRedline* pTmp : aSavRedlInsPosArr) { if( m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().Contains( pTmp ) ) { SwPosition* pEnd = pTmp->End(); pEnd->nNode = aIdx; pEnd->nContent.Assign( pNewNd->GetContentNode(), 0 ); } } } if( !aSaveRedl.empty() ) lcl_RestoreRedlines( &m_rDoc, aIdx.GetIndex(), aSaveRedl ); if( pUndo ) { pUndo->SetDestRange( aIdx, rPos, *pSaveInsPos ); m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(pUndo)); } pSaveInsPos.reset(); if( bUpdateFootnote ) { if( !aTmpFntIdx.empty() ) { m_rDoc.GetFootnoteIdxs().insert( aTmpFntIdx ); aTmpFntIdx.clear(); } m_rDoc.GetFootnoteIdxs().UpdateAllFootnote(); } m_rDoc.getIDocumentState().SetModified(); return true; } bool DocumentContentOperationsManager::MoveAndJoin( SwPaM& rPaM, SwPosition& rPos ) { SwNodeIndex aIdx( rPaM.Start()->nNode ); bool bJoinText = aIdx.GetNode().IsTextNode(); bool bOneNode = rPaM.GetPoint()->nNode == rPaM.GetMark()->nNode; aIdx--; // in front of the move area! bool bRet = MoveRange( rPaM, rPos, SwMoveFlags::DEFAULT ); if( bRet && !bOneNode ) { if( bJoinText ) ++aIdx; SwTextNode * pTextNd = aIdx.GetNode().GetTextNode(); SwNodeIndex aNxtIdx( aIdx ); if( pTextNd && pTextNd->CanJoinNext( &aNxtIdx ) ) { { // Block so SwIndex into node is deleted before Join m_rDoc.CorrRel( aNxtIdx, SwPosition( aIdx, SwIndex(pTextNd, pTextNd->GetText().getLength()) ), 0, true ); } pTextNd->JoinNext(); } } return bRet; } // Overwrite only uses the point of the PaM, the mark is ignored; characters // are replaced from point until the end of the node; at the end of the node, // characters are inserted. bool DocumentContentOperationsManager::Overwrite( const SwPaM &rRg, const OUString &rStr ) { assert(rStr.getLength()); SwPosition& rPt = *const_cast(rRg.GetPoint()); if( m_rDoc.GetAutoCorrExceptWord() ) // Add to AutoCorrect { if( 1 == rStr.getLength() ) m_rDoc.GetAutoCorrExceptWord()->CheckChar( rPt, rStr[ 0 ] ); m_rDoc.DeleteAutoCorrExceptWord(); } SwTextNode *pNode = rPt.nNode.GetNode().GetTextNode(); if (!pNode || rStr.getLength() > pNode->GetSpaceLeft()) // worst case: no erase { return false; } if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); // AppendUndo not always called } const size_t nOldAttrCnt = pNode->GetpSwpHints() ? pNode->GetpSwpHints()->Count() : 0; SwDataChanged aTmp( rRg ); SwIndex& rIdx = rPt.nContent; sal_Int32 const nActualStart(rIdx.GetIndex()); sal_Int32 nStart = 0; bool bOldExpFlg = pNode->IsIgnoreDontExpand(); pNode->SetIgnoreDontExpand( true ); for( sal_Int32 nCnt = 0; nCnt < rStr.getLength(); ++nCnt ) { // start behind the characters (to fix the attributes!) nStart = rIdx.GetIndex(); if (nStart < pNode->GetText().getLength()) { lcl_SkipAttr( pNode, rIdx, nStart ); } sal_Unicode c = rStr[ nCnt ]; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { bool bMerged(false); if (m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) { SwUndo *const pUndo = m_rDoc.GetUndoManager().GetLastUndo(); SwUndoOverwrite *const pUndoOW( dynamic_cast(pUndo) ); if (pUndoOW) { // if CanGrouping() returns true it's already merged bMerged = pUndoOW->CanGrouping( &m_rDoc, rPt, c ); } } if (!bMerged) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique(&m_rDoc, rPt, c) ); } } else { // start behind the characters (to fix the attributes!) if (nStart < pNode->GetText().getLength()) ++rIdx; pNode->InsertText( OUString(c), rIdx, SwInsertFlags::EMPTYEXPAND ); if( nStart+1 < rIdx.GetIndex() ) { rIdx = nStart; pNode->EraseText( rIdx, 1 ); ++rIdx; } } } pNode->SetIgnoreDontExpand( bOldExpFlg ); const size_t nNewAttrCnt = pNode->GetpSwpHints() ? pNode->GetpSwpHints()->Count() : 0; if( nOldAttrCnt != nNewAttrCnt ) { SwUpdateAttr aHint(0,0,0); pNode->ModifyBroadcast(nullptr, &aHint); } if (!m_rDoc.GetIDocumentUndoRedo().DoesUndo() && !m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty()) { SwPaM aPam(rPt.nNode, nActualStart, rPt.nNode, rPt.nContent.GetIndex()); m_rDoc.getIDocumentRedlineAccess().DeleteRedline( aPam, true, RedlineType::Any ); } else if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() ) { // FIXME: this redline is WRONG: there is no DELETE, and the skipped // characters are also included in aPam SwPaM aPam(rPt.nNode, nActualStart, rPt.nNode, rPt.nContent.GetIndex()); m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Insert, aPam ), true); } m_rDoc.getIDocumentState().SetModified(); return true; } bool DocumentContentOperationsManager::InsertString( const SwPaM &rRg, const OUString &rStr, const SwInsertFlags nInsertMode ) { // tdf#119019 accept tracked paragraph formatting to do not hide new insertions if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() ) { RedlineFlags eOld = m_rDoc.getIDocumentRedlineAccess().GetRedlineFlags(); m_rDoc.getIDocumentRedlineAccess().AcceptRedlineParagraphFormatting( rRg ); if (eOld != m_rDoc.getIDocumentRedlineAccess().GetRedlineFlags()) m_rDoc.getIDocumentRedlineAccess().SetRedlineFlags( eOld ); } // fetching DoesUndo is surprisingly expensive bool bDoesUndo = m_rDoc.GetIDocumentUndoRedo().DoesUndo(); if (bDoesUndo) m_rDoc.GetIDocumentUndoRedo().ClearRedo(); // AppendUndo not always called! const SwPosition& rPos = *rRg.GetPoint(); if( m_rDoc.GetAutoCorrExceptWord() ) // add to auto correction { if( 1 == rStr.getLength() && m_rDoc.GetAutoCorrExceptWord()->IsDeleted() ) { m_rDoc.GetAutoCorrExceptWord()->CheckChar( rPos, rStr[ 0 ] ); } m_rDoc.DeleteAutoCorrExceptWord(); } SwTextNode *const pNode = rPos.nNode.GetNode().GetTextNode(); if(!pNode) return false; SwDataChanged aTmp( rRg ); if (!bDoesUndo || !m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) { OUString const ins(pNode->InsertText(rStr, rPos.nContent, nInsertMode)); if (bDoesUndo) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique(rPos.nNode, rPos.nContent.GetIndex(), ins.getLength(), nInsertMode)); } } else { // if Undo and grouping is enabled, everything changes! SwUndoInsert * pUndo = nullptr; // don't group the start if hints at the start should be expanded if (!(nInsertMode & SwInsertFlags::FORCEHINTEXPAND)) { SwUndo *const pLastUndo = m_rDoc.GetUndoManager().GetLastUndo(); SwUndoInsert *const pUndoInsert( dynamic_cast(pLastUndo) ); if (pUndoInsert && pUndoInsert->CanGrouping(rPos)) { pUndo = pUndoInsert; } } CharClass const& rCC = GetAppCharClass(); sal_Int32 nInsPos = rPos.nContent.GetIndex(); if (!pUndo) { pUndo = new SwUndoInsert( rPos.nNode, nInsPos, 0, nInsertMode, !rCC.isLetterNumeric( rStr, 0 ) ); m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::unique_ptr(pUndo) ); } OUString const ins(pNode->InsertText(rStr, rPos.nContent, nInsertMode)); for (sal_Int32 i = 0; i < ins.getLength(); ++i) { nInsPos++; // if CanGrouping() returns true, everything has already been done if (!pUndo->CanGrouping(ins[i])) { pUndo = new SwUndoInsert(rPos.nNode, nInsPos, 1, nInsertMode, !rCC.isLetterNumeric(ins, i)); m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::unique_ptr(pUndo) ); } } } // To-Do - add 'SwExtraRedlineTable' also ? if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() || (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() )) { SwPaM aPam( rPos.nNode, aTmp.GetContent(), rPos.nNode, rPos.nContent.GetIndex()); if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() ) { m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Insert, aPam ), true); } else { m_rDoc.getIDocumentRedlineAccess().SplitRedline( aPam ); } } m_rDoc.getIDocumentState().SetModified(); return true; } void DocumentContentOperationsManager::TransliterateText( const SwPaM& rPaM, utl::TransliterationWrapper& rTrans ) { std::unique_ptr pUndo; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) pUndo.reset(new SwUndoTransliterate( rPaM, rTrans )); const SwPosition* pStt = rPaM.Start(), * pEnd = rPaM.End(); sal_uLong nSttNd = pStt->nNode.GetIndex(), nEndNd = pEnd->nNode.GetIndex(); sal_Int32 nSttCnt = pStt->nContent.GetIndex(); sal_Int32 nEndCnt = pEnd->nContent.GetIndex(); SwTextNode* pTNd = pStt->nNode.GetNode().GetTextNode(); if( pStt == pEnd && pTNd ) // no selection? { // set current word as 'area of effect' assert(g_pBreakIt && g_pBreakIt->GetBreakIter().is()); Boundary aBndry = g_pBreakIt->GetBreakIter()->getWordBoundary( pTNd->GetText(), nSttCnt, g_pBreakIt->GetLocale( pTNd->GetLang( nSttCnt ) ), WordType::ANY_WORD /*ANYWORD_IGNOREWHITESPACES*/, true); if( aBndry.startPos < nSttCnt && nSttCnt < aBndry.endPos ) { nSttCnt = aBndry.startPos; nEndCnt = aBndry.endPos; } } if( nSttNd != nEndNd ) // is more than one text node involved? { // iterate over all effected text nodes, the first and the last one // may be incomplete because the selection starts and/or ends there SwNodeIndex aIdx( pStt->nNode ); if( nSttCnt ) { ++aIdx; if( pTNd ) pTNd->TransliterateText( rTrans, nSttCnt, pTNd->GetText().getLength(), pUndo.get()); } for( ; aIdx.GetIndex() < nEndNd; ++aIdx ) { pTNd = aIdx.GetNode().GetTextNode(); if (pTNd) { pTNd->TransliterateText( rTrans, 0, pTNd->GetText().getLength(), pUndo.get()); } } if( nEndCnt && nullptr != ( pTNd = pEnd->nNode.GetNode().GetTextNode() )) pTNd->TransliterateText( rTrans, 0, nEndCnt, pUndo.get() ); } else if( pTNd && nSttCnt < nEndCnt ) pTNd->TransliterateText( rTrans, nSttCnt, nEndCnt, pUndo.get() ); if( pUndo && pUndo->HasData() ) { m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(pUndo)); } m_rDoc.getIDocumentState().SetModified(); } SwFlyFrameFormat* DocumentContentOperationsManager::InsertGraphic( const SwPaM &rRg, const OUString& rGrfName, const OUString& rFltName, const Graphic* pGraphic, const SfxItemSet* pFlyAttrSet, const SfxItemSet* pGrfAttrSet, SwFrameFormat* pFrameFormat ) { if( !pFrameFormat ) pFrameFormat = m_rDoc.getIDocumentStylePoolAccess().GetFrameFormatFromPool( RES_POOLFRM_GRAPHIC ); SwGrfNode* pSwGrfNode = SwNodes::MakeGrfNode( SwNodeIndex( m_rDoc.GetNodes().GetEndOfAutotext() ), rGrfName, rFltName, pGraphic, m_rDoc.GetDfltGrfFormatColl() ); SwFlyFrameFormat* pSwFlyFrameFormat = InsNoTextNode( *rRg.GetPoint(), pSwGrfNode, pFlyAttrSet, pGrfAttrSet, pFrameFormat ); return pSwFlyFrameFormat; } SwFlyFrameFormat* DocumentContentOperationsManager::InsertGraphicObject( const SwPaM &rRg, const GraphicObject& rGrfObj, const SfxItemSet* pFlyAttrSet, const SfxItemSet* pGrfAttrSet ) { SwFrameFormat* pFrameFormat = m_rDoc.getIDocumentStylePoolAccess().GetFrameFormatFromPool( RES_POOLFRM_GRAPHIC ); SwGrfNode* pSwGrfNode = SwNodes::MakeGrfNode( SwNodeIndex( m_rDoc.GetNodes().GetEndOfAutotext() ), rGrfObj, m_rDoc.GetDfltGrfFormatColl() ); SwFlyFrameFormat* pSwFlyFrameFormat = InsNoTextNode( *rRg.GetPoint(), pSwGrfNode, pFlyAttrSet, pGrfAttrSet, pFrameFormat ); return pSwFlyFrameFormat; } SwFlyFrameFormat* DocumentContentOperationsManager::InsertEmbObject( const SwPaM &rRg, const svt::EmbeddedObjectRef& xObj, SfxItemSet* pFlyAttrSet) { sal_uInt16 nId = RES_POOLFRM_OLE; if (xObj.is()) { SvGlobalName aClassName( xObj->getClassID() ); if (SotExchange::IsMath(aClassName)) { nId = RES_POOLFRM_FORMEL; } } SwFrameFormat* pFrameFormat = m_rDoc.getIDocumentStylePoolAccess().GetFrameFormatFromPool( nId ); return InsNoTextNode( *rRg.GetPoint(), m_rDoc.GetNodes().MakeOLENode( SwNodeIndex( m_rDoc.GetNodes().GetEndOfAutotext() ), xObj, m_rDoc.GetDfltGrfFormatColl() ), pFlyAttrSet, nullptr, pFrameFormat ); } SwFlyFrameFormat* DocumentContentOperationsManager::InsertOLE(const SwPaM &rRg, const OUString& rObjName, sal_Int64 nAspect, const SfxItemSet* pFlyAttrSet, const SfxItemSet* pGrfAttrSet) { SwFrameFormat* pFrameFormat = m_rDoc.getIDocumentStylePoolAccess().GetFrameFormatFromPool( RES_POOLFRM_OLE ); return InsNoTextNode( *rRg.GetPoint(), m_rDoc.GetNodes().MakeOLENode( SwNodeIndex( m_rDoc.GetNodes().GetEndOfAutotext() ), rObjName, nAspect, m_rDoc.GetDfltGrfFormatColl(), nullptr ), pFlyAttrSet, pGrfAttrSet, pFrameFormat ); } void DocumentContentOperationsManager::ReRead( SwPaM& rPam, const OUString& rGrfName, const OUString& rFltName, const Graphic* pGraphic ) { SwGrfNode *pGrfNd; if( ( !rPam.HasMark() || rPam.GetPoint()->nNode.GetIndex() == rPam.GetMark()->nNode.GetIndex() ) && nullptr != ( pGrfNd = rPam.GetPoint()->nNode.GetNode().GetGrfNode() ) ) { if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::make_unique(rPam, *pGrfNd)); } // Because we don't know if we can mirror the graphic, the mirror attribute is always reset if( MirrorGraph::Dont != pGrfNd->GetSwAttrSet(). GetMirrorGrf().GetValue() ) pGrfNd->SetAttr( SwMirrorGrf() ); pGrfNd->ReRead( rGrfName, rFltName, pGraphic ); m_rDoc.getIDocumentState().SetModified(); } } // Insert drawing object, which has to be already inserted in the DrawModel SwDrawFrameFormat* DocumentContentOperationsManager::InsertDrawObj( const SwPaM &rRg, SdrObject& rDrawObj, const SfxItemSet& rFlyAttrSet ) { SwDrawFrameFormat* pFormat = m_rDoc.MakeDrawFrameFormat( OUString(), m_rDoc.GetDfltFrameFormat() ); const SwFormatAnchor* pAnchor = nullptr; rFlyAttrSet.GetItemState( RES_ANCHOR, false, reinterpret_cast(&pAnchor) ); pFormat->SetFormatAttr( rFlyAttrSet ); // Didn't set the Anchor yet? // DrawObjecte must never end up in the Header/Footer! RndStdIds eAnchorId = pAnchor != nullptr ? pAnchor->GetAnchorId() : pFormat->GetAnchor().GetAnchorId(); const bool bIsAtContent = (RndStdIds::FLY_AT_PAGE != eAnchorId); const SwNodeIndex* pChkIdx = nullptr; if ( pAnchor == nullptr ) { pChkIdx = &rRg.GetPoint()->nNode; } else if ( bIsAtContent ) { pChkIdx = pAnchor->GetContentAnchor() ? &pAnchor->GetContentAnchor()->nNode : &rRg.GetPoint()->nNode; } // allow drawing objects in header/footer, but control objects aren't allowed in header/footer. if( pChkIdx != nullptr && ::CheckControlLayer( &rDrawObj ) && m_rDoc.IsInHeaderFooter( *pChkIdx ) ) { // apply at-page anchor format eAnchorId = RndStdIds::FLY_AT_PAGE; pFormat->SetFormatAttr( SwFormatAnchor( eAnchorId ) ); } else if( pAnchor == nullptr || ( bIsAtContent && pAnchor->GetContentAnchor() == nullptr ) ) { // apply anchor format SwFormatAnchor aAnch( pAnchor != nullptr ? *pAnchor : pFormat->GetAnchor() ); eAnchorId = aAnch.GetAnchorId(); if ( eAnchorId == RndStdIds::FLY_AT_FLY ) { SwPosition aPos( *rRg.GetNode().FindFlyStartNode() ); aAnch.SetAnchor( &aPos ); } else { aAnch.SetAnchor( rRg.GetPoint() ); if ( eAnchorId == RndStdIds::FLY_AT_PAGE ) { eAnchorId = dynamic_cast( &rDrawObj) != nullptr ? RndStdIds::FLY_AS_CHAR : RndStdIds::FLY_AT_PARA; aAnch.SetType( eAnchorId ); } } pFormat->SetFormatAttr( aAnch ); } // insert text attribute for as-character anchored drawing object if ( eAnchorId == RndStdIds::FLY_AS_CHAR ) { bool bAnchorAtPageAsFallback = true; const SwFormatAnchor& rDrawObjAnchorFormat = pFormat->GetAnchor(); if ( rDrawObjAnchorFormat.GetContentAnchor() != nullptr ) { SwTextNode* pAnchorTextNode = rDrawObjAnchorFormat.GetContentAnchor()->nNode.GetNode().GetTextNode(); if ( pAnchorTextNode != nullptr ) { const sal_Int32 nStt = rDrawObjAnchorFormat.GetContentAnchor()->nContent.GetIndex(); SwFormatFlyCnt aFormat( pFormat ); pAnchorTextNode->InsertItem( aFormat, nStt, nStt ); bAnchorAtPageAsFallback = false; } } if ( bAnchorAtPageAsFallback ) { OSL_ENSURE( false, "DocumentContentOperationsManager::InsertDrawObj(..) - missing content anchor for as-character anchored drawing object --> anchor at-page" ); pFormat->SetFormatAttr( SwFormatAnchor( RndStdIds::FLY_AT_PAGE ) ); } } SwDrawContact* pContact = new SwDrawContact( pFormat, &rDrawObj ); // Create Frames if necessary if( m_rDoc.getIDocumentLayoutAccess().GetCurrentViewShell() ) { // create layout representation pFormat->MakeFrames(); // #i42319# - follow-up of #i35635# // move object to visible layer // #i79391# if ( pContact->GetAnchorFrame() ) { pContact->MoveObjToVisibleLayer( &rDrawObj ); } } if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique(pFormat, 0, 0) ); } m_rDoc.getIDocumentState().SetModified(); return pFormat; } bool DocumentContentOperationsManager::SplitNode( const SwPosition &rPos, bool bChkTableStart ) { SwContentNode *pNode = rPos.nNode.GetNode().GetContentNode(); if(nullptr == pNode) return false; { // BUG 26675: Send DataChanged before deleting, so that we notice which objects are in scope. // After that they can be before/after the position. SwDataChanged aTmp( &m_rDoc, rPos ); } SwUndoSplitNode* pUndo = nullptr; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); // insert the Undo object (currently only for TextNode) if( pNode->IsTextNode() ) { pUndo = new SwUndoSplitNode( &m_rDoc, rPos, bChkTableStart ); m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::unique_ptr(pUndo)); } } // Update the rsid of the old and the new node unless // the old node is split at the beginning or at the end SwTextNode *pTextNode = rPos.nNode.GetNode().GetTextNode(); const sal_Int32 nPos = rPos.nContent.GetIndex(); if( pTextNode && nPos && nPos != pTextNode->Len() ) { m_rDoc.UpdateParRsid( pTextNode ); } //JP 28.01.97: Special case for SplitNode at table start: // If it is at the beginning of a Doc/Fly/Footer/... or right at after a table // then insert a paragraph before it. if( bChkTableStart && !rPos.nContent.GetIndex() && pNode->IsTextNode() ) { sal_uLong nPrevPos = rPos.nNode.GetIndex() - 1; const SwTableNode* pTableNd; const SwNode* pNd = m_rDoc.GetNodes()[ nPrevPos ]; if( pNd->IsStartNode() && SwTableBoxStartNode == static_cast(pNd)->GetStartNodeType() && nullptr != ( pTableNd = m_rDoc.GetNodes()[ --nPrevPos ]->GetTableNode() ) && ((( pNd = m_rDoc.GetNodes()[ --nPrevPos ])->IsStartNode() && SwTableBoxStartNode != static_cast(pNd)->GetStartNodeType() ) || ( pNd->IsEndNode() && pNd->StartOfSectionNode()->IsTableNode() ) || pNd->IsContentNode() )) { if( pNd->IsContentNode() ) { //JP 30.04.99 Bug 65660: // There are no page breaks outside of the normal body area, // so this is not a valid condition to insert a paragraph. if( nPrevPos < m_rDoc.GetNodes().GetEndOfExtras().GetIndex() ) pNd = nullptr; else { // Only if the table has page breaks! const SwFrameFormat* pFrameFormat = pTableNd->GetTable().GetFrameFormat(); if( SfxItemState::SET != pFrameFormat->GetItemState(RES_PAGEDESC, false) && SfxItemState::SET != pFrameFormat->GetItemState( RES_BREAK, false ) ) pNd = nullptr; } } if( pNd ) { SwTextNode* pTextNd = m_rDoc.GetNodes().MakeTextNode( SwNodeIndex( *pTableNd ), m_rDoc.getIDocumentStylePoolAccess().GetTextCollFromPool( RES_POOLCOLL_TEXT )); if( pTextNd ) { const_cast(rPos).nNode = pTableNd->GetIndex()-1; const_cast(rPos).nContent.Assign( pTextNd, 0 ); // only add page breaks/styles to the body area if( nPrevPos > m_rDoc.GetNodes().GetEndOfExtras().GetIndex() ) { SwFrameFormat* pFrameFormat = pTableNd->GetTable().GetFrameFormat(); const SfxPoolItem *pItem; if( SfxItemState::SET == pFrameFormat->GetItemState( RES_PAGEDESC, false, &pItem ) ) { pTextNd->SetAttr( *pItem ); pFrameFormat->ResetFormatAttr( RES_PAGEDESC ); } if( SfxItemState::SET == pFrameFormat->GetItemState( RES_BREAK, false, &pItem ) ) { pTextNd->SetAttr( *pItem ); pFrameFormat->ResetFormatAttr( RES_BREAK ); } } if( pUndo ) pUndo->SetTableFlag(); m_rDoc.getIDocumentState().SetModified(); return true; } } } } const std::shared_ptr pContentStore(sw::mark::ContentIdxStore::Create()); pContentStore->Save( &m_rDoc, rPos.nNode.GetIndex(), rPos.nContent.GetIndex(), true ); assert(pNode->IsTextNode()); std::function restoreFunc( [&](SwTextNode *const, sw::mark::RestoreMode const eMode) { if (!pContentStore->Empty()) { // move all bookmarks, TOXMarks, FlyAtCnt pContentStore->Restore(&m_rDoc, rPos.nNode.GetIndex()-1, 0, true, eMode); } if (eMode & sw::mark::RestoreMode::NonFlys) { // To-Do - add 'SwExtraRedlineTable' also ? if (m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() || (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty())) { SwPaM aPam( rPos ); aPam.SetMark(); aPam.Move( fnMoveBackward ); if (m_rDoc.getIDocumentRedlineAccess().IsRedlineOn()) { m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline(RedlineType::Insert, aPam), true); } else { m_rDoc.getIDocumentRedlineAccess().SplitRedline(aPam); } } } }); pNode->GetTextNode()->SplitContentNode(rPos, &restoreFunc); m_rDoc.getIDocumentState().SetModified(); return true; } bool DocumentContentOperationsManager::AppendTextNode( SwPosition& rPos ) { // create new node before EndOfContent SwTextNode * pCurNode = rPos.nNode.GetNode().GetTextNode(); if( !pCurNode ) { // so then one can be created! SwNodeIndex aIdx( rPos.nNode, 1 ); pCurNode = m_rDoc.GetNodes().MakeTextNode( aIdx, m_rDoc.getIDocumentStylePoolAccess().GetTextCollFromPool( RES_POOLCOLL_STANDARD )); } else pCurNode = pCurNode->AppendNode( rPos )->GetTextNode(); rPos.nNode++; rPos.nContent.Assign( pCurNode, 0 ); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique( rPos.nNode ) ); } // To-Do - add 'SwExtraRedlineTable' also ? if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() || (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() )) { SwPaM aPam( rPos ); aPam.SetMark(); aPam.Move( fnMoveBackward ); if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() ) m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Insert, aPam ), true); else m_rDoc.getIDocumentRedlineAccess().SplitRedline( aPam ); } m_rDoc.getIDocumentState().SetModified(); return true; } bool DocumentContentOperationsManager::ReplaceRange( SwPaM& rPam, const OUString& rStr, const bool bRegExReplace ) { // unfortunately replace works slightly differently from delete, // so we cannot use lcl_DoWithBreaks here... std::vector> Breaks; SwPaM aPam( *rPam.GetMark(), *rPam.GetPoint() ); aPam.Normalize(false); if (aPam.GetPoint()->nNode != aPam.GetMark()->nNode) { aPam.Move(fnMoveBackward); } OSL_ENSURE((aPam.GetPoint()->nNode == aPam.GetMark()->nNode), "invalid pam?"); sw::CalcBreaks(Breaks, aPam); while (!Breaks.empty() // skip over prefix of dummy chars && (aPam.GetMark()->nNode.GetIndex() == Breaks.begin()->first) && (aPam.GetMark()->nContent.GetIndex() == Breaks.begin()->second)) { // skip! ++aPam.GetMark()->nContent; // always in bounds if Breaks valid Breaks.erase(Breaks.begin()); } *rPam.Start() = *aPam.GetMark(); // update start of original pam w/ prefix if (Breaks.empty()) { // park aPam somewhere so it does not point to node that is deleted aPam.DeleteMark(); *aPam.GetPoint() = SwPosition(m_rDoc.GetNodes().GetEndOfContent()); return ReplaceRangeImpl(rPam, rStr, bRegExReplace); // original pam! } // Deletion must be split into several parts if the text node // contains a text attribute with end and with dummy character // and the selection does not contain the text attribute completely, // but overlaps its start (left), where the dummy character is. bool bRet( true ); // iterate from end to start, to avoid invalidating the offsets! auto iter( Breaks.rbegin() ); sal_uLong nOffset(0); SwNodes const& rNodes(rPam.GetPoint()->nNode.GetNodes()); OSL_ENSURE(aPam.GetPoint() == aPam.End(), "wrong!"); SwPosition & rEnd( *aPam.End() ); SwPosition & rStart( *aPam.Start() ); // set end of temp pam to original end (undo Move backward above) rEnd = *rPam.End(); // after first deletion, rEnd will point into the original text node again! while (iter != Breaks.rend()) { rStart = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second + 1); if (rStart < rEnd) // check if part is empty { bRet &= (m_rDoc.getIDocumentRedlineAccess().IsRedlineOn()) ? DeleteAndJoinWithRedlineImpl(aPam) : DeleteAndJoinImpl(aPam, false); nOffset = iter->first - rStart.nNode.GetIndex(); // deleted fly nodes... } rEnd = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second); ++iter; } rStart = *rPam.Start(); // set to original start assert(rStart < rEnd && "replace part empty!"); if (rStart < rEnd) // check if part is empty { bRet &= ReplaceRangeImpl(aPam, rStr, bRegExReplace); } rPam = aPam; // update original pam (is this required?) return bRet; } ///Add a para for the char attribute exp... bool DocumentContentOperationsManager::InsertPoolItem( const SwPaM &rRg, const SfxPoolItem &rHt, const SetAttrMode nFlags, SwRootFrame const*const pLayout, const bool bExpandCharToPara, SwTextAttr **ppNewTextAttr) { if (utl::ConfigManager::IsFuzzing()) return false; SwDataChanged aTmp( rRg ); std::unique_ptr pUndoAttr; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); pUndoAttr.reset(new SwUndoAttr( rRg, rHt, nFlags )); } SfxItemSet aSet( m_rDoc.GetAttrPool(), {{rHt.Which(), rHt.Which()}} ); aSet.Put( rHt ); const bool bRet = lcl_InsAttr(&m_rDoc, rRg, aSet, nFlags, pUndoAttr.get(), pLayout, bExpandCharToPara, ppNewTextAttr); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::move(pUndoAttr) ); } if( bRet ) { m_rDoc.getIDocumentState().SetModified(); } return bRet; } void DocumentContentOperationsManager::InsertItemSet ( const SwPaM &rRg, const SfxItemSet &rSet, const SetAttrMode nFlags, SwRootFrame const*const pLayout) { SwDataChanged aTmp( rRg ); std::unique_ptr pUndoAttr; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); pUndoAttr.reset(new SwUndoAttr( rRg, rSet, nFlags )); } bool bRet = lcl_InsAttr(&m_rDoc, rRg, rSet, nFlags, pUndoAttr.get(), pLayout, /*bExpandCharToPara*/false, /*ppNewTextAttr*/nullptr ); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::move(pUndoAttr) ); } if( bRet ) m_rDoc.getIDocumentState().SetModified(); } void DocumentContentOperationsManager::RemoveLeadingWhiteSpace(const SwPosition & rPos ) { const SwTextNode* pTNd = rPos.nNode.GetNode().GetTextNode(); if ( pTNd ) { const OUString& rText = pTNd->GetText(); sal_Int32 nIdx = 0; while (nIdx < rText.getLength()) { sal_Unicode const cCh = rText[nIdx]; if (('\t' != cCh) && (' ' != cCh)) { break; } ++nIdx; } if ( nIdx > 0 ) { SwPaM aPam(rPos); aPam.GetPoint()->nContent = 0; aPam.SetMark(); aPam.GetMark()->nContent = nIdx; DeleteRange( aPam ); } } } // Copy method from SwDoc - "copy Flys in Flys" /// note: rRg/rInsPos *exclude* a partially selected start text node; /// pCopiedPaM *includes* a partially selected start text node void DocumentContentOperationsManager::CopyWithFlyInFly( const SwNodeRange& rRg, const SwNodeIndex& rInsPos, const std::pair* pCopiedPaM /*and real insert pos*/, const bool bMakeNewFrames, const bool bDelRedlines, const bool bCopyFlyAtFly, SwCopyFlags const flags) const { assert(!pCopiedPaM || pCopiedPaM->first.End()->nNode == rRg.aEnd); assert(!pCopiedPaM || pCopiedPaM->second.nNode <= rInsPos); SwDoc* pDest = rInsPos.GetNode().GetDoc(); SwNodeIndex aSavePos( rInsPos ); if (rRg.aStart != rRg.aEnd) { bool bEndIsEqualEndPos = rInsPos == rRg.aEnd; bool isRecreateEndNode(false); --aSavePos; SaveRedlEndPosForRestore aRedlRest( rInsPos, 0 ); // insert behind the already copied start node m_rDoc.GetNodes().CopyNodes( rRg, rInsPos, false, true ); aRedlRest.Restore(); if (bMakeNewFrames) // tdf#130685 only after aRedlRest { // recreate from previous node (could be merged now) if (SwTextNode *const pNode = aSavePos.GetNode().GetTextNode()) { std::unordered_set frames; SwTextNode *const pEndNode = rInsPos.GetNode().GetTextNode(); if (pEndNode) { SwIterator aIter(*pEndNode); for (SwTextFrame* pFrame = aIter.First(); pFrame; pFrame = aIter.Next()) { if (pFrame->getRootFrame()->IsHideRedlines()) { frames.insert(pFrame); } } } sw::RecreateStartTextFrames(*pNode); if (!frames.empty()) { // tdf#132187 check if the end node needs new frames SwIterator aIter(*pEndNode); for (SwTextFrame* pFrame = aIter.First(); pFrame; pFrame = aIter.Next()) { if (pFrame->getRootFrame()->IsHideRedlines()) { auto const it = frames.find(pFrame); if (it != frames.end()) { frames.erase(it); } } } if (!frames.empty()) // existing frame was deleted { // all layouts because MakeFrames recreates all layouts pEndNode->DelFrames(nullptr); isRecreateEndNode = true; } } } } bool const isAtStartOfSection(aSavePos.GetNode().IsStartNode()); ++aSavePos; if (bMakeNewFrames) { // it's possible that CheckParaRedlineMerge() deleted frames // on rInsPos so have to include it, but it must not be included // if it was the first node in the document so that MakeFrames() // will find the existing (wasn't deleted) frame on it SwNodeIndex const end(rInsPos, (!isRecreateEndNode || isAtStartOfSection) ? 0 : +1); ::MakeFrames(pDest, aSavePos, end); } if (bEndIsEqualEndPos) { const_cast(rRg.aEnd) = aSavePos; } } #if OSL_DEBUG_LEVEL > 0 { //JP 17.06.99: Bug 66973 - check count only if the selection is in // the same section or there's no section, because sections that are // not fully selected are not copied. const SwSectionNode* pSSectNd = rRg.aStart.GetNode().FindSectionNode(); SwNodeIndex aTmpI( rRg.aEnd, -1 ); const SwSectionNode* pESectNd = aTmpI.GetNode().FindSectionNode(); if( pSSectNd == pESectNd && !rRg.aStart.GetNode().IsSectionNode() && !aTmpI.GetNode().IsEndNode() ) { // If the range starts with a SwStartNode, it isn't copied sal_uInt16 offset = (rRg.aStart.GetNode().GetNodeType() != SwNodeType::Start) ? 1 : 0; OSL_ENSURE( rInsPos.GetIndex() - aSavePos.GetIndex() == rRg.aEnd.GetIndex() - rRg.aStart.GetIndex() - 1 + offset, "An insufficient number of nodes were copied!" ); } } #endif { ::sw::UndoGuard const undoGuard(pDest->GetIDocumentUndoRedo()); CopyFlyInFlyImpl(rRg, pCopiedPaM ? &pCopiedPaM->first : nullptr, // see comment below regarding use of pCopiedPaM->second (pCopiedPaM && rRg.aStart != pCopiedPaM->first.Start()->nNode) ? pCopiedPaM->second.nNode : aSavePos, bCopyFlyAtFly, flags); } SwNodeRange aCpyRange( aSavePos, rInsPos ); // Also copy all bookmarks // guess this must be done before the DelDummyNodes below as that // deletes nodes so would mess up the index arithmetic if( m_rDoc.getIDocumentMarkAccess()->getAllMarksCount() ) { SwPaM aRgTmp( rRg.aStart, rRg.aEnd ); SwPaM aCpyPaM(aCpyRange.aStart, aCpyRange.aEnd); if (pCopiedPaM && rRg.aStart != pCopiedPaM->first.Start()->nNode) { // there is 1 (partially selected, maybe) paragraph before assert(SwNodeIndex(rRg.aStart, -1) == pCopiedPaM->first.Start()->nNode); // only use the passed in target SwPosition if the source PaM point // is on a different node; if it was the same node then the target // position was likely moved along by the copy operation and now // points to the end of the range! *aCpyPaM.GetPoint() = pCopiedPaM->second; } sw::CopyBookmarks(pCopiedPaM ? pCopiedPaM->first : aRgTmp, *aCpyPaM.Start()); } if( bDelRedlines && ( RedlineFlags::DeleteRedlines & pDest->getIDocumentRedlineAccess().GetRedlineFlags() )) lcl_DeleteRedlines( rRg, aCpyRange ); pDest->GetNodes().DelDummyNodes( aCpyRange ); } // note: for the redline Show/Hide this must be in sync with // SwRangeRedline::CopyToSection()/DelCopyOfSection()/MoveFromSection() void DocumentContentOperationsManager::CopyFlyInFlyImpl( const SwNodeRange& rRg, SwPaM const*const pCopiedPaM, const SwNodeIndex& rStartIdx, const bool bCopyFlyAtFly, SwCopyFlags const flags) const { assert(!pCopiedPaM || pCopiedPaM->End()->nNode == rRg.aEnd); // First collect all Flys, sort them according to their ordering number, // and then only copy them. This maintains the ordering numbers (which are only // managed in the DrawModel). SwDoc *const pDest = rStartIdx.GetNode().GetDoc(); std::set< ZSortFly > aSet; const size_t nArrLen = m_rDoc.GetSpzFrameFormats()->size(); SwTextBoxHelper::SavedLink aOldTextBoxes; SwTextBoxHelper::saveLinks(*m_rDoc.GetSpzFrameFormats(), aOldTextBoxes); for ( size_t n = 0; n < nArrLen; ++n ) { SwFrameFormat* pFormat = (*m_rDoc.GetSpzFrameFormats())[n]; SwFormatAnchor const*const pAnchor = &pFormat->GetAnchor(); SwPosition const*const pAPos = pAnchor->GetContentAnchor(); if ( !pAPos ) continue; bool bAdd = false; sal_uLong nSkipAfter = pAPos->nNode.GetIndex(); sal_uLong nStart = rRg.aStart.GetIndex(); switch ( pAnchor->GetAnchorId() ) { case RndStdIds::FLY_AT_FLY: if(bCopyFlyAtFly) ++nSkipAfter; else if(m_rDoc.getIDocumentRedlineAccess().IsRedlineMove()) ++nStart; break; case RndStdIds::FLY_AT_PARA: { bAdd = IsSelectFrameAnchoredAtPara(*pAPos, pCopiedPaM ? *pCopiedPaM->Start() : SwPosition(rRg.aStart), pCopiedPaM ? *pCopiedPaM->End() : SwPosition(rRg.aEnd), (flags & SwCopyFlags::IsMoveToFly) ? DelContentType::AllMask|DelContentType::WriterfilterHack : DelContentType::AllMask); } break; case RndStdIds::FLY_AT_CHAR: { bAdd = IsDestroyFrameAnchoredAtChar(*pAPos, pCopiedPaM ? *pCopiedPaM->Start() : SwPosition(rRg.aStart), pCopiedPaM ? *pCopiedPaM->End() : SwPosition(rRg.aEnd), (flags & SwCopyFlags::IsMoveToFly) ? DelContentType::AllMask|DelContentType::WriterfilterHack : DelContentType::AllMask); } break; default: continue; } if (RndStdIds::FLY_AT_FLY == pAnchor->GetAnchorId()) { if (nStart > nSkipAfter) continue; if (pAPos->nNode > rRg.aEnd) continue; //frames at the last source node are not always copied: //- if the node is empty and is the last node of the document or a table cell // or a text frame then they have to be copied //- if the content index in this node is > 0 then paragraph and frame bound objects are copied //- to-character bound objects are copied if their index is <= nEndContentIndex if (pAPos->nNode < rRg.aEnd) bAdd = true; if (!bAdd && !m_rDoc.getIDocumentRedlineAccess().IsRedlineMove()) // fdo#40599: not for redline move { if (!bAdd) { // technically old code checked nContent of AT_FLY which is pointless bAdd = pCopiedPaM && 0 < pCopiedPaM->End()->nContent.GetIndex(); } } } if( bAdd ) { aSet.insert( ZSortFly( pFormat, pAnchor, nArrLen + aSet.size() )); } } // Store all copied (and also the newly created) frames in another array. // They are stored as matching the originals, so that we will be later // able to build the chains accordingly. std::vector< SwFrameFormat* > aVecSwFrameFormat; std::set< ZSortFly >::const_iterator it=aSet.begin(); while (it != aSet.end()) { // #i59964# // correct determination of new anchor position SwFormatAnchor aAnchor( *(*it).GetAnchor() ); assert( aAnchor.GetContentAnchor() != nullptr ); SwPosition newPos = *aAnchor.GetContentAnchor(); // for at-paragraph and at-character anchored objects the new anchor // position can *not* be determined by the difference of the current // anchor position to the start of the copied range, because not // complete selected sections in the copied range aren't copied - see // method . // Thus, the new anchor position in the destination document is found // by counting the text nodes. if ((aAnchor.GetAnchorId() == RndStdIds::FLY_AT_PARA) || (aAnchor.GetAnchorId() == RndStdIds::FLY_AT_CHAR) ) { // First, determine number of anchor text node in the copied range. // Note: The anchor text node *have* to be inside the copied range. sal_uLong nAnchorTextNdNumInRange( 0 ); bool bAnchorTextNdFound( false ); // start at the first node for which flys are copied SwNodeIndex aIdx(pCopiedPaM ? pCopiedPaM->Start()->nNode : rRg.aStart); while ( !bAnchorTextNdFound && aIdx <= rRg.aEnd ) { if ( aIdx.GetNode().IsTextNode() ) { ++nAnchorTextNdNumInRange; bAnchorTextNdFound = aAnchor.GetContentAnchor()->nNode == aIdx; } ++aIdx; } if ( !bAnchorTextNdFound ) { // This case can *not* happen, but to be robust take the first // text node in the destination document. OSL_FAIL( " - anchor text node in copied range not found" ); nAnchorTextNdNumInRange = 1; } // Second, search corresponding text node in destination document // by counting forward from start insert position the // determined number of text nodes. aIdx = rStartIdx; SwNodeIndex aAnchorNdIdx( rStartIdx ); const SwNode& aEndOfContentNd = aIdx.GetNode().GetNodes().GetEndOfContent(); while ( nAnchorTextNdNumInRange > 0 && &(aIdx.GetNode()) != &aEndOfContentNd ) { if ( aIdx.GetNode().IsTextNode() ) { --nAnchorTextNdNumInRange; aAnchorNdIdx = aIdx; } ++aIdx; } if ( !aAnchorNdIdx.GetNode().IsTextNode() ) { // This case can *not* happen, but to be robust take the first // text node in the destination document. OSL_FAIL( " - found anchor node index isn't a text node" ); aAnchorNdIdx = rStartIdx; while ( !aAnchorNdIdx.GetNode().IsTextNode() ) { ++aAnchorNdIdx; } } // apply found anchor text node as new anchor position newPos.nNode = aAnchorNdIdx; } else { long nOffset = newPos.nNode.GetIndex() - rRg.aStart.GetIndex(); SwNodeIndex aIdx( rStartIdx, nOffset ); newPos.nNode = aIdx; } // Set the character bound Flys back at the original character if ((RndStdIds::FLY_AT_CHAR == aAnchor.GetAnchorId()) && newPos.nNode.GetNode().IsTextNode() ) { // only if pCopiedPaM: care about partially selected start node sal_Int32 const nContent = pCopiedPaM && pCopiedPaM->Start()->nNode == aAnchor.GetContentAnchor()->nNode ? newPos.nContent.GetIndex() - pCopiedPaM->Start()->nContent.GetIndex() : newPos.nContent.GetIndex(); newPos.nContent.Assign(newPos.nNode.GetNode().GetTextNode(), nContent); } else { newPos.nContent.Assign( nullptr, 0 ); } aAnchor.SetAnchor( &newPos ); // Check recursion: if copying content inside the same frame, then don't copy the format. if( pDest == &m_rDoc ) { const SwFormatContent& rContent = (*it).GetFormat()->GetContent(); const SwStartNode* pSNd; if( rContent.GetContentIdx() && nullptr != ( pSNd = rContent.GetContentIdx()->GetNode().GetStartNode() ) && pSNd->GetIndex() < rStartIdx.GetIndex() && rStartIdx.GetIndex() < pSNd->EndOfSectionIndex() ) { it = aSet.erase(it); continue; } } // Ignore TextBoxes, they are already handled in // sw::DocumentLayoutManager::CopyLayoutFormat(). if (SwTextBoxHelper::isTextBox(it->GetFormat(), RES_FLYFRMFMT)) { it = aSet.erase(it); continue; } // Copy the format and set the new anchor aVecSwFrameFormat.push_back( pDest->getIDocumentLayoutAccess().CopyLayoutFormat( *(*it).GetFormat(), aAnchor, false, true ) ); ++it; } // Rebuild as much as possible of all chains that are available in the original, OSL_ENSURE( aSet.size() == aVecSwFrameFormat.size(), "Missing new Flys" ); if ( aSet.size() == aVecSwFrameFormat.size() ) { size_t n = 0; for (const auto& rFlyN : aSet) { const SwFrameFormat *pFormatN = rFlyN.GetFormat(); const SwFormatChain &rChain = pFormatN->GetChain(); int nCnt = int(nullptr != rChain.GetPrev()); nCnt += rChain.GetNext() ? 1: 0; size_t k = 0; for (const auto& rFlyK : aSet) { const SwFrameFormat *pFormatK = rFlyK.GetFormat(); if ( rChain.GetPrev() == pFormatK ) { ::lcl_ChainFormats( static_cast< SwFlyFrameFormat* >(aVecSwFrameFormat[k]), static_cast< SwFlyFrameFormat* >(aVecSwFrameFormat[n]) ); --nCnt; } else if ( rChain.GetNext() == pFormatK ) { ::lcl_ChainFormats( static_cast< SwFlyFrameFormat* >(aVecSwFrameFormat[n]), static_cast< SwFlyFrameFormat* >(aVecSwFrameFormat[k]) ); --nCnt; } ++k; } ++n; } // Re-create content property of draw formats, knowing how old shapes // were paired with old fly formats (aOldTextBoxes) and that aSet is // parallel with aVecSwFrameFormat. SwTextBoxHelper::restoreLinks(aSet, aVecSwFrameFormat, aOldTextBoxes); } } /* * Reset the text's hard formatting */ /** @params pArgs contains the document's ChrFormatTable * Is need for selections at the beginning/end and with no SSelection. */ bool DocumentContentOperationsManager::lcl_RstTextAttr( const SwNodePtr& rpNd, void* pArgs ) { ParaRstFormat* pPara = static_cast(pArgs); if (pPara->pLayout && pPara->pLayout->IsHideRedlines() && rpNd->GetRedlineMergeFlag() == SwNode::Merge::Hidden) { return true; // skip hidden, since new items aren't applied } SwTextNode * pTextNode = rpNd->GetTextNode(); if( pTextNode && pTextNode->GetpSwpHints() ) { SwIndex aSt( pTextNode, 0 ); sal_Int32 nEnd = pTextNode->Len(); if( &pPara->pSttNd->nNode.GetNode() == pTextNode && pPara->pSttNd->nContent.GetIndex() ) aSt = pPara->pSttNd->nContent.GetIndex(); if( &pPara->pEndNd->nNode.GetNode() == rpNd ) nEnd = pPara->pEndNd->nContent.GetIndex(); if( pPara->pHistory ) { // Save all attributes for the Undo. SwRegHistory aRHst( *pTextNode, pPara->pHistory ); pTextNode->GetpSwpHints()->Register( &aRHst ); pTextNode->RstTextAttr( aSt, nEnd - aSt.GetIndex(), pPara->nWhich, pPara->pDelSet, pPara->bInclRefToxMark, pPara->bExactRange ); if( pTextNode->GetpSwpHints() ) pTextNode->GetpSwpHints()->DeRegister(); } else pTextNode->RstTextAttr( aSt, nEnd - aSt.GetIndex(), pPara->nWhich, pPara->pDelSet, pPara->bInclRefToxMark, pPara->bExactRange ); } return true; } DocumentContentOperationsManager::~DocumentContentOperationsManager() { } //Private methods bool DocumentContentOperationsManager::DeleteAndJoinWithRedlineImpl( SwPaM & rPam, const bool ) { assert(m_rDoc.getIDocumentRedlineAccess().IsRedlineOn()); RedlineFlags eOld = m_rDoc.getIDocumentRedlineAccess().GetRedlineFlags(); if (*rPam.GetPoint() == *rPam.GetMark()) { return false; // do not add empty redlines } std::vector redlines; { auto pRedline(std::make_unique(RedlineType::Delete, rPam)); if (pRedline->HasValidRange()) { redlines.push_back(pRedline.release()); } else // sigh ... why is such a selection even possible... { // split it up so we get one SwUndoRedlineDelete per inserted RL redlines = GetAllValidRanges(std::move(pRedline)); } } if (redlines.empty()) { return false; } // tdf#54819 current redlining needs also modification of paragraph style and // attributes added to the same grouped Undo if (m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) m_rDoc.GetIDocumentUndoRedo().StartUndo(SwUndoId::EMPTY, nullptr); auto & rDMA(*m_rDoc.getIDocumentMarkAccess()); std::vector> MarkUndos; for (auto iter = rDMA.getAnnotationMarksBegin(); iter != rDMA.getAnnotationMarksEnd(); ) { // tdf#111524 remove annotation marks that have their field // characters deleted SwPosition const& rEndPos((**iter).GetMarkEnd()); if (*rPam.Start() < rEndPos && rEndPos <= *rPam.End()) { if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { MarkUndos.emplace_back(std::make_unique(**iter)); } // iter is into annotation mark vector so must be dereferenced! rDMA.deleteMark(&**iter); // this invalidates iter, have to start over... iter = rDMA.getAnnotationMarksBegin(); } else { // marks are sorted by start if (*rPam.End() < (**iter).GetMarkStart()) { break; } ++iter; } } // tdf#119019 accept tracked paragraph formatting to do not hide new deletions if (*rPam.GetPoint() != *rPam.GetMark()) m_rDoc.getIDocumentRedlineAccess().AcceptRedlineParagraphFormatting(rPam); std::vector> undos; if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { // this should no longer happen in calls from the UI but maybe via API // (randomTest and testTdf54819 triggers it) SAL_WARN_IF((eOld & RedlineFlags::ShowMask) != RedlineFlags::ShowMask, "sw.core", "redlines will be moved in DeleteAndJoin"); m_rDoc.getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::On | RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); for (SwRangeRedline * pRedline : redlines) { assert(pRedline->HasValidRange()); undos.emplace_back(std::make_unique( *pRedline, SwUndoId::DELETE)); } const SwRewriter aRewriter = undos.front()->GetRewriter(); // can only group a single undo action if (MarkUndos.empty() && undos.size() == 1 && m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) { SwUndo * const pLastUndo( m_rDoc.GetUndoManager().GetLastUndo() ); SwUndoRedlineDelete *const pUndoRedlineDel(dynamic_cast(pLastUndo)); bool const bMerged = pUndoRedlineDel && pUndoRedlineDel->CanGrouping(*undos.front()); if (!bMerged) { m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(undos.front())); } undos.clear(); // prevent unmatched EndUndo } else { m_rDoc.GetIDocumentUndoRedo().StartUndo(SwUndoId::DELETE, &aRewriter); for (auto& it : MarkUndos) { m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(it)); } for (auto & it : undos) { m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::move(it)); } } } for (SwRangeRedline *const pRedline : redlines) { // note: 1. the pRedline can still be merged & deleted // 2. the impl. can even DeleteAndJoin the range => no plain PaM std::shared_ptr const pCursor(m_rDoc.CreateUnoCursor(*pRedline->GetMark())); pCursor->SetMark(); *pCursor->GetPoint() = *pRedline->GetPoint(); m_rDoc.getIDocumentRedlineAccess().AppendRedline(pRedline, true); // sw_redlinehide: 2 reasons why this is needed: // 1. it's the first redline in node => RedlineDelText was sent but ignored // 2. redline spans multiple nodes => must merge text frames sw::UpdateFramesForAddDeleteRedline(m_rDoc, *pCursor); } m_rDoc.getIDocumentState().SetModified(); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { if (!undos.empty()) { m_rDoc.GetIDocumentUndoRedo().EndUndo(SwUndoId::EMPTY, nullptr); } m_rDoc.getIDocumentRedlineAccess().SetRedlineFlags( eOld ); } if (m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) m_rDoc.GetIDocumentUndoRedo().EndUndo(SwUndoId::EMPTY, nullptr); return true; } bool DocumentContentOperationsManager::DeleteAndJoinImpl( SwPaM & rPam, const bool bForceJoinNext ) { bool bJoinText, bJoinPrev; ::sw_GetJoinFlags( rPam, bJoinText, bJoinPrev ); // #i100466# if ( bForceJoinNext ) { bJoinPrev = false; } { bool const bSuccess( DeleteRangeImpl( rPam ) ); if (!bSuccess) return false; } if( bJoinText ) { ::sw_JoinText( rPam, bJoinPrev ); } if (!m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty()) { m_rDoc.getIDocumentRedlineAccess().CompressRedlines(); } return true; } bool DocumentContentOperationsManager::DeleteRangeImpl(SwPaM & rPam, const bool) { // Move all cursors out of the deleted range, but first copy the // passed PaM, because it could be a cursor that would be moved! SwPaM aDelPam( *rPam.GetMark(), *rPam.GetPoint() ); ::PaMCorrAbs( aDelPam, *aDelPam.GetPoint() ); bool const bSuccess( DeleteRangeImplImpl( aDelPam ) ); if (bSuccess) { // now copy position from temp copy to given PaM *rPam.GetPoint() = *aDelPam.GetPoint(); } return bSuccess; } bool DocumentContentOperationsManager::DeleteRangeImplImpl(SwPaM & rPam) { SwPosition *pStt = rPam.Start(), *pEnd = rPam.End(); if (!rPam.HasMark() || (*pStt == *pEnd && !IsFlySelectedByCursor(m_rDoc, *pStt, *pEnd))) { return false; } if( m_rDoc.GetAutoCorrExceptWord() ) { // if necessary the saved Word for the exception if( m_rDoc.GetAutoCorrExceptWord()->IsDeleted() || pStt->nNode != pEnd->nNode || pStt->nContent.GetIndex() + 1 != pEnd->nContent.GetIndex() || !m_rDoc.GetAutoCorrExceptWord()->CheckDelChar( *pStt )) { m_rDoc.DeleteAutoCorrExceptWord(); } } { // Delete all empty TextHints at the Mark's position SwTextNode* pTextNd = rPam.GetMark()->nNode.GetNode().GetTextNode(); SwpHints* pHts; if( pTextNd && nullptr != ( pHts = pTextNd->GetpSwpHints()) && pHts->Count() ) { const sal_Int32 nMkCntPos = rPam.GetMark()->nContent.GetIndex(); for( size_t n = pHts->Count(); n; ) { const SwTextAttr* pAttr = pHts->Get( --n ); if( nMkCntPos > pAttr->GetStart() ) break; const sal_Int32 *pEndIdx; if( nMkCntPos == pAttr->GetStart() && nullptr != (pEndIdx = pAttr->End()) && *pEndIdx == pAttr->GetStart() ) pTextNd->DestroyAttr( pHts->Cut( n ) ); } } } { // Send DataChanged before deletion, so that we still know // which objects are in the range. // Afterwards they could be before/after the Position. SwDataChanged aTmp( rPam ); } if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().ClearRedo(); bool bMerged(false); if (m_rDoc.GetIDocumentUndoRedo().DoesGroupUndo()) { SwUndo *const pLastUndo( m_rDoc.GetUndoManager().GetLastUndo() ); SwUndoDelete *const pUndoDelete( dynamic_cast(pLastUndo) ); if (pUndoDelete) { bMerged = pUndoDelete->CanGrouping( &m_rDoc, rPam ); // if CanGrouping() returns true it's already merged } } if (!bMerged) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique( rPam ) ); } m_rDoc.getIDocumentState().SetModified(); return true; } if( !m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() ) m_rDoc.getIDocumentRedlineAccess().DeleteRedline( rPam, true, RedlineType::Any ); // Delete and move all "Flys at the paragraph", which are within the Selection DelFlyInRange(rPam.GetMark()->nNode, rPam.GetPoint()->nNode, &rPam.GetMark()->nContent, &rPam.GetPoint()->nContent); DelBookmarks( pStt->nNode, pEnd->nNode, nullptr, &pStt->nContent, &pEnd->nContent); SwNodeIndex aSttIdx( pStt->nNode ); SwContentNode * pCNd = aSttIdx.GetNode().GetContentNode(); do { // middle checked loop! if( pCNd ) { SwTextNode * pStartTextNode( pCNd->GetTextNode() ); if ( pStartTextNode ) { // now move the Content to the new Node bool bOneNd = pStt->nNode == pEnd->nNode; const sal_Int32 nLen = ( bOneNd ? pEnd->nContent.GetIndex() : pCNd->Len() ) - pStt->nContent.GetIndex(); // Don't call again, if already empty if( nLen ) { pStartTextNode->EraseText( pStt->nContent, nLen ); if( !pStartTextNode->Len() ) { // METADATA: remove reference if empty (consider node deleted) pStartTextNode->RemoveMetadataReference(); } } if( bOneNd ) // that's it break; ++aSttIdx; } else { // So that there are no indices left registered when deleted, // we remove a SwPaM from the Content here. pStt->nContent.Assign( nullptr, 0 ); } } pCNd = pEnd->nNode.GetNode().GetContentNode(); if( pCNd ) { SwTextNode * pEndTextNode( pCNd->GetTextNode() ); if( pEndTextNode ) { // if already empty, don't call again if( pEnd->nContent.GetIndex() ) { SwIndex aIdx( pCNd, 0 ); pEndTextNode->EraseText( aIdx, pEnd->nContent.GetIndex() ); if( !pEndTextNode->Len() ) { // METADATA: remove reference if empty (consider node deleted) pEndTextNode->RemoveMetadataReference(); } } } else { // So that there are no indices left registered when deleted, // we remove a SwPaM from the Content here. pEnd->nContent.Assign( nullptr, 0 ); } } // if the end is not a content node, delete it as well sal_uInt32 nEnd = pEnd->nNode.GetIndex(); if( pCNd == nullptr ) nEnd++; if( aSttIdx != nEnd ) { // tdf#134436 delete section nodes like SwUndoDelete::SwUndoDelete SwNode *pTmpNd; while (pEnd == rPam.GetPoint() && nEnd + 2 < m_rDoc.GetNodes().Count() && (pTmpNd = m_rDoc.GetNodes()[nEnd + 1])->IsEndNode() && pTmpNd->StartOfSectionNode()->IsSectionNode() && aSttIdx <= pTmpNd->StartOfSectionNode()->GetIndex()) { SwNodeRange range(*pTmpNd->StartOfSectionNode(), *pTmpNd); m_rDoc.GetNodes().SectionUp(&range); --nEnd; // account for deleted start node } // delete the Nodes from the NodesArary m_rDoc.GetNodes().Delete( aSttIdx, nEnd - aSttIdx.GetIndex() ); } // If the Node that contained the Cursor has been deleted, // the Content has to be assigned to the current Content. pStt->nContent.Assign( pStt->nNode.GetNode().GetContentNode(), pStt->nContent.GetIndex() ); // If we deleted across Node boundaries we have to correct the PaM, // because they are in different Nodes now. // Also, the Selection is revoked. *pEnd = *pStt; rPam.DeleteMark(); } while( false ); m_rDoc.getIDocumentState().SetModified(); return true; } // It's possible to call Replace with a PaM that spans 2 paragraphs: // search with regex for "$", then replace _all_ bool DocumentContentOperationsManager::ReplaceRangeImpl( SwPaM& rPam, const OUString& rStr, const bool bRegExReplace ) { if (!rPam.HasMark()) return false; bool bJoinText, bJoinPrev; ::sw_GetJoinFlags( rPam, bJoinText, bJoinPrev ); { // Create a copy of the Cursor in order to move all Pams from // the other views out of the deletion range. // Except for itself! SwPaM aDelPam( *rPam.GetMark(), *rPam.GetPoint() ); ::PaMCorrAbs( aDelPam, *aDelPam.GetPoint() ); SwPosition *pStt = aDelPam.Start(), *pEnd = aDelPam.End(); bool bOneNode = pStt->nNode == pEnd->nNode; // Own Undo? OUString sRepl( rStr ); SwTextNode* pTextNd = pStt->nNode.GetNode().GetTextNode(); sal_Int32 nStt = pStt->nContent.GetIndex(); sal_Int32 nEnd; SwDataChanged aTmp( aDelPam ); if( m_rDoc.getIDocumentRedlineAccess().IsRedlineOn() ) { RedlineFlags eOld = m_rDoc.getIDocumentRedlineAccess().GetRedlineFlags(); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { // this should no longer happen in calls from the UI but maybe via API SAL_WARN_IF((eOld & RedlineFlags::ShowMask) != RedlineFlags::ShowMask, "sw.core", "redlines will be moved in ReplaceRange"); m_rDoc.GetIDocumentUndoRedo().StartUndo(SwUndoId::EMPTY, nullptr); // If any Redline will change (split!) the node const ::sw::mark::IMark* pBkmk = m_rDoc.getIDocumentMarkAccess()->makeMark( aDelPam, OUString(), IDocumentMarkAccess::MarkType::UNO_BOOKMARK, ::sw::mark::InsertMode::New); m_rDoc.getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::On | RedlineFlags::ShowInsert | RedlineFlags::ShowDelete ); *aDelPam.GetPoint() = pBkmk->GetMarkPos(); if(pBkmk->IsExpanded()) *aDelPam.GetMark() = pBkmk->GetOtherMarkPos(); m_rDoc.getIDocumentMarkAccess()->deleteMark(pBkmk); pStt = aDelPam.Start(); pTextNd = pStt->nNode.GetNode().GetTextNode(); nStt = pStt->nContent.GetIndex(); } if( !sRepl.isEmpty() ) { // Apply the first character's attributes to the ReplaceText SfxItemSet aSet( m_rDoc.GetAttrPool(), svl::Items{} ); pTextNd->GetParaAttr( aSet, nStt+1, nStt+1 ); aSet.ClearItem( RES_TXTATR_REFMARK ); aSet.ClearItem( RES_TXTATR_TOXMARK ); aSet.ClearItem( RES_TXTATR_CJK_RUBY ); aSet.ClearItem( RES_TXTATR_INETFMT ); aSet.ClearItem( RES_TXTATR_META ); aSet.ClearItem( RES_TXTATR_METAFIELD ); if( aDelPam.GetPoint() != aDelPam.End() ) aDelPam.Exchange(); // Remember the End SwNodeIndex aPtNd( aDelPam.GetPoint()->nNode, -1 ); const sal_Int32 nPtCnt = aDelPam.GetPoint()->nContent.GetIndex(); bool bFirst = true; OUString sIns; while ( lcl_GetTokenToParaBreak( sRepl, sIns, bRegExReplace ) ) { InsertString( aDelPam, sIns ); if( bFirst ) { SwNodeIndex aMkNd( aDelPam.GetMark()->nNode, -1 ); const sal_Int32 nMkCnt = aDelPam.GetMark()->nContent.GetIndex(); SplitNode( *aDelPam.GetPoint(), false ); ++aMkNd; aDelPam.GetMark()->nNode = aMkNd; aDelPam.GetMark()->nContent.Assign( aMkNd.GetNode().GetContentNode(), nMkCnt ); bFirst = false; } else SplitNode( *aDelPam.GetPoint(), false ); } if( !sIns.isEmpty() ) { InsertString( aDelPam, sIns ); } SwPaM aTmpRange( *aDelPam.GetPoint() ); aTmpRange.SetMark(); ++aPtNd; aDelPam.GetPoint()->nNode = aPtNd; aDelPam.GetPoint()->nContent.Assign( aPtNd.GetNode().GetContentNode(), nPtCnt); *aTmpRange.GetMark() = *aDelPam.GetPoint(); m_rDoc.RstTextAttrs( aTmpRange ); InsertItemSet( aTmpRange, aSet ); } if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique( aDelPam, SwUndoId::REPLACE )); } m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( RedlineType::Delete, aDelPam ), true); *rPam.GetMark() = *aDelPam.GetMark(); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { *aDelPam.GetPoint() = *rPam.GetPoint(); m_rDoc.GetIDocumentUndoRedo().EndUndo(SwUndoId::EMPTY, nullptr); // If any Redline will change (split!) the node const ::sw::mark::IMark* pBkmk = m_rDoc.getIDocumentMarkAccess()->makeMark( aDelPam, OUString(), IDocumentMarkAccess::MarkType::UNO_BOOKMARK, ::sw::mark::InsertMode::New); SwIndex& rIdx = aDelPam.GetPoint()->nContent; rIdx.Assign( nullptr, 0 ); aDelPam.GetMark()->nContent = rIdx; rPam.GetPoint()->nNode = 0; rPam.GetPoint()->nContent = rIdx; *rPam.GetMark() = *rPam.GetPoint(); m_rDoc.getIDocumentRedlineAccess().SetRedlineFlags( eOld ); *rPam.GetPoint() = pBkmk->GetMarkPos(); if(pBkmk->IsExpanded()) *rPam.GetMark() = pBkmk->GetOtherMarkPos(); m_rDoc.getIDocumentMarkAccess()->deleteMark(pBkmk); } bJoinText = false; } else { assert((pStt->nNode == pEnd->nNode || ( pStt->nNode.GetIndex() + 1 == pEnd->nNode.GetIndex() && !pEnd->nContent.GetIndex() )) && "invalid range: Point and Mark on different nodes" ); if( !m_rDoc.getIDocumentRedlineAccess().IsIgnoreRedline() && !m_rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty() ) m_rDoc.getIDocumentRedlineAccess().DeleteRedline( aDelPam, true, RedlineType::Any ); SwUndoReplace* pUndoRpl = nullptr; bool const bDoesUndo = m_rDoc.GetIDocumentUndoRedo().DoesUndo(); if (bDoesUndo) { pUndoRpl = new SwUndoReplace(aDelPam, sRepl, bRegExReplace); m_rDoc.GetIDocumentUndoRedo().AppendUndo(std::unique_ptr(pUndoRpl)); } ::sw::UndoGuard const undoGuard(m_rDoc.GetIDocumentUndoRedo()); if( aDelPam.GetPoint() != pStt ) aDelPam.Exchange(); SwNodeIndex aPtNd( pStt->nNode, -1 ); const sal_Int32 nPtCnt = pStt->nContent.GetIndex(); // Set the values again, if Frames or footnotes on the Text have been removed. nStt = nPtCnt; nEnd = bOneNode ? pEnd->nContent.GetIndex() : pTextNd->GetText().getLength(); bool bFirst = true; OUString sIns; while ( lcl_GetTokenToParaBreak( sRepl, sIns, bRegExReplace ) ) { if (!bFirst || nStt == pTextNd->GetText().getLength()) { InsertString( aDelPam, sIns ); } else if( nStt < nEnd || !sIns.isEmpty() ) { pTextNd->ReplaceText( pStt->nContent, nEnd - nStt, sIns ); } SplitNode( *pStt, false); bFirst = false; } if( bFirst || !sIns.isEmpty() ) { if (!bFirst || nStt == pTextNd->GetText().getLength()) { InsertString( aDelPam, sIns ); } else if( nStt < nEnd || !sIns.isEmpty() ) { pTextNd->ReplaceText( pStt->nContent, nEnd - nStt, sIns ); } } *rPam.GetPoint() = *aDelPam.GetMark(); ++aPtNd; rPam.GetMark()->nNode = aPtNd; rPam.GetMark()->nContent.Assign( aPtNd.GetNode().GetContentNode(), nPtCnt ); if (bJoinText) { assert(rPam.GetPoint() == rPam.End()); // move so that SetEnd remembers position after sw_JoinText rPam.Move(fnMoveBackward); } else if (aDelPam.GetPoint() == pStt) // backward selection? { assert(*rPam.GetMark() <= *rPam.GetPoint()); rPam.Exchange(); // swap so that rPam is backwards } if( pUndoRpl ) { pUndoRpl->SetEnd(rPam); } } } bool bRet(true); if (bJoinText) { bRet = ::sw_JoinText(rPam, bJoinPrev); } m_rDoc.getIDocumentState().SetModified(); return bRet; } SwFlyFrameFormat* DocumentContentOperationsManager::InsNoTextNode( const SwPosition& rPos, SwNoTextNode* pNode, const SfxItemSet* pFlyAttrSet, const SfxItemSet* pGrfAttrSet, SwFrameFormat* pFrameFormat) { SwFlyFrameFormat *pFormat = nullptr; if( pNode ) { pFormat = m_rDoc.MakeFlySection_( rPos, *pNode, RndStdIds::FLY_AT_PARA, pFlyAttrSet, pFrameFormat ); if( pGrfAttrSet ) pNode->SetAttr( *pGrfAttrSet ); } return pFormat; } #define NUMRULE_STATE \ SfxItemState aNumRuleState = SfxItemState::UNKNOWN; \ std::shared_ptr aNumRuleItem; \ SfxItemState aListIdState = SfxItemState::UNKNOWN; \ std::shared_ptr aListIdItem; \ #define PUSH_NUMRULE_STATE \ lcl_PushNumruleState( aNumRuleState, aNumRuleItem, aListIdState, aListIdItem, pDestTextNd ); #define POP_NUMRULE_STATE \ lcl_PopNumruleState( aNumRuleState, aNumRuleItem, aListIdState, aListIdItem, pDestTextNd, rPam ); static void lcl_PushNumruleState( SfxItemState &aNumRuleState, std::shared_ptr& aNumRuleItem, SfxItemState &aListIdState, std::shared_ptr& aListIdItem, const SwTextNode *pDestTextNd ) { // Safe numrule item at destination. // #i86492# - Safe also item of destination. const SfxItemSet * pAttrSet = pDestTextNd->GetpSwAttrSet(); if (pAttrSet != nullptr) { const SfxPoolItem * pItem = nullptr; aNumRuleState = pAttrSet->GetItemState(RES_PARATR_NUMRULE, false, &pItem); if (SfxItemState::SET == aNumRuleState) { aNumRuleItem.reset(static_cast(pItem->Clone())); } aListIdState = pAttrSet->GetItemState(RES_PARATR_LIST_ID, false, &pItem); if (SfxItemState::SET == aListIdState) { aListIdItem.reset(static_cast(pItem->Clone())); } } } static void lcl_PopNumruleState( SfxItemState aNumRuleState, const std::shared_ptr& aNumRuleItem, SfxItemState aListIdState, const std::shared_ptr& aListIdItem, SwTextNode *pDestTextNd, const SwPaM& rPam ) { /* If only a part of one paragraph is copied restore the numrule at the destination. */ // #i86492# - restore also item if ( !lcl_MarksWholeNode(rPam) ) { if (SfxItemState::SET == aNumRuleState) { pDestTextNd->SetAttr(*aNumRuleItem); } else { pDestTextNd->ResetAttr(RES_PARATR_NUMRULE); } if (SfxItemState::SET == aListIdState) { pDestTextNd->SetAttr(*aListIdItem); } else { pDestTextNd->ResetAttr(RES_PARATR_LIST_ID); } } } bool DocumentContentOperationsManager::CopyImpl(SwPaM& rPam, SwPosition& rPos, SwCopyFlags const flags, SwPaM *const pCopyRange) const { std::vector> Breaks; sw::CalcBreaks(Breaks, rPam, true); if (Breaks.empty()) { return CopyImplImpl(rPam, rPos, flags, pCopyRange); } SwPosition const & rSelectionEnd( *rPam.End() ); bool bRet(true); bool bFirst(true); // iterate from end to start, ... don't think it's necessary here? auto iter( Breaks.rbegin() ); sal_uLong nOffset(0); SwNodes const& rNodes(rPam.GetPoint()->nNode.GetNodes()); SwPaM aPam( rSelectionEnd, rSelectionEnd ); // end node! SwPosition & rEnd( *aPam.End() ); SwPosition & rStart( *aPam.Start() ); SwPaM copyRange(rPos, rPos); while (iter != Breaks.rend()) { rStart = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second + 1); if (rStart < rEnd) // check if part is empty { // pass in copyRange member as rPos; should work ... bRet &= CopyImplImpl(aPam, *copyRange.Start(), flags & ~SwCopyFlags::IsMoveToFly, ©Range); nOffset = iter->first - rStart.nNode.GetIndex(); // fly nodes... if (pCopyRange) { if (bFirst) { pCopyRange->SetMark(); *pCopyRange->GetMark() = *copyRange.End(); } *pCopyRange->GetPoint() = *copyRange.Start(); } bFirst = false; } rEnd = SwPosition(*rNodes[iter->first - nOffset]->GetTextNode(), iter->second); ++iter; } rStart = *rPam.Start(); // set to original start if (rStart < rEnd) // check if part is empty { bRet &= CopyImplImpl(aPam, *copyRange.Start(), flags & ~SwCopyFlags::IsMoveToFly, ©Range); if (pCopyRange) { if (bFirst) { pCopyRange->SetMark(); *pCopyRange->GetMark() = *copyRange.End(); } *pCopyRange->GetPoint() = *copyRange.Start(); } } return bRet; } bool DocumentContentOperationsManager::CopyImplImpl(SwPaM& rPam, SwPosition& rPos, SwCopyFlags const flags, SwPaM *const pCpyRange) const { SwDoc* pDoc = rPos.nNode.GetNode().GetDoc(); const bool bColumnSel = pDoc->IsClipBoard() && pDoc->IsColumnSelection(); SwPosition const*const pStt = rPam.Start(); SwPosition *const pEnd = rPam.End(); // Catch when there's no copy to do. if (!rPam.HasMark() || (IsEmptyRange(*pStt, *pEnd, flags) && !bColumnSel) || //JP 29.6.2001: 88963 - don't copy if inspos is in region of start to end //JP 15.11.2001: don't test inclusive the end, ever exclusive ( pDoc == &m_rDoc && *pStt <= rPos && rPos < *pEnd )) { return false; } const bool bEndEqualIns = pDoc == &m_rDoc && rPos == *pEnd; // If Undo is enabled, create the UndoCopy object SwUndoCpyDoc* pUndo = nullptr; // lcl_DeleteRedlines may delete the start or end node of the cursor when // removing the redlines so use cursor that is corrected by PaMCorrAbs std::shared_ptr const pCopyPam(pDoc->CreateUnoCursor(rPos)); SwTableNumFormatMerge aTNFM( m_rDoc, *pDoc ); std::unique_ptr> pFlys; std::vector const* pFlysAtInsPos; if (pDoc->GetIDocumentUndoRedo().DoesUndo()) { pUndo = new SwUndoCpyDoc(*pCopyPam); pDoc->GetIDocumentUndoRedo().AppendUndo( std::unique_ptr(pUndo) ); pFlysAtInsPos = pUndo->GetFlysAnchoredAt(); } else { pFlys = sw::GetFlysAnchoredAt(*pDoc, rPos.nNode.GetIndex()); pFlysAtInsPos = pFlys.get(); } RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern(eOld | RedlineFlags::Ignore); // Move the PaM one node back from the insert position, so that // the position doesn't get moved pCopyPam->SetMark(); bool bCanMoveBack = pCopyPam->Move(fnMoveBackward, GoInContent); // If the position was shifted from more than one node, an end node has been skipped bool bAfterTable = false; if ((rPos.nNode.GetIndex() - pCopyPam->GetPoint()->nNode.GetIndex()) > 1) { // First go back to the original place pCopyPam->GetPoint()->nNode = rPos.nNode; pCopyPam->GetPoint()->nContent = rPos.nContent; bCanMoveBack = false; bAfterTable = true; } if( !bCanMoveBack ) { pCopyPam->GetPoint()->nNode--; assert(pCopyPam->GetPoint()->nContent.GetIndex() == 0); } SwNodeRange aRg( pStt->nNode, pEnd->nNode ); SwNodeIndex aInsPos( rPos.nNode ); const bool bOneNode = pStt->nNode == pEnd->nNode; SwTextNode* pSttTextNd = pStt->nNode.GetNode().GetTextNode(); SwTextNode* pEndTextNd = pEnd->nNode.GetNode().GetTextNode(); SwTextNode* pDestTextNd = aInsPos.GetNode().GetTextNode(); bool bCopyCollFormat = !pDoc->IsInsOnlyTextGlossary() && ( (pDestTextNd && !pDestTextNd->GetText().getLength()) || ( !bOneNode && !rPos.nContent.GetIndex() ) ); bool bCopyBookmarks = true; bool bCopyPageSource = false; int nDeleteTextNodes = 0; // #i104585# copy outline num rule to clipboard (for ASCII filter) if (pDoc->IsClipBoard() && m_rDoc.GetOutlineNumRule()) { pDoc->SetOutlineNumRule(*m_rDoc.GetOutlineNumRule()); } // #i86492# // Correct the search for a previous list: // First search for non-outline numbering list. Then search for non-outline // bullet list. // Keep also the value for possible propagation. OUString aListIdToPropagate; const SwNumRule* pNumRuleToPropagate = pDoc->SearchNumRule( rPos, false, true, false, 0, aListIdToPropagate, nullptr, true ); if ( !pNumRuleToPropagate ) { pNumRuleToPropagate = pDoc->SearchNumRule( rPos, false, false, false, 0, aListIdToPropagate, nullptr, true ); } // #i86492# // Do not propagate previous found list, if // - destination is an empty paragraph which is not in a list and // - source contains at least one paragraph which is not in a list if ( pNumRuleToPropagate && pDestTextNd && !pDestTextNd->GetText().getLength() && !pDestTextNd->IsInList() && !lcl_ContainsOnlyParagraphsInList( rPam ) ) { pNumRuleToPropagate = nullptr; } // This do/while block is only there so that we can break out of it! do { if( pSttTextNd ) { ++nDeleteTextNodes; // must be joined in Undo // Don't copy the beginning completely? if( !bCopyCollFormat || bColumnSel || pStt->nContent.GetIndex() ) { SwIndex aDestIdx( rPos.nContent ); bool bCopyOk = false; if( !pDestTextNd ) { if( pStt->nContent.GetIndex() || bOneNode ) pDestTextNd = pDoc->GetNodes().MakeTextNode( aInsPos, pDoc->getIDocumentStylePoolAccess().GetTextCollFromPool(RES_POOLCOLL_STANDARD)); else { pDestTextNd = pSttTextNd->MakeCopy(pDoc, aInsPos, true)->GetTextNode(); bCopyOk = true; } aDestIdx.Assign( pDestTextNd, 0 ); bCopyCollFormat = true; } else if( !bOneNode || bColumnSel ) { const sal_Int32 nContentEnd = pEnd->nContent.GetIndex(); { ::sw::UndoGuard const ug(pDoc->GetIDocumentUndoRedo()); pDoc->getIDocumentContentOperations().SplitNode( rPos, false ); } if (bCanMoveBack && rPos == *pCopyPam->GetPoint()) { // after the SplitNode, span the CpyPam correctly again pCopyPam->Move( fnMoveBackward, GoInContent ); pCopyPam->Move( fnMoveBackward, GoInContent ); } pDestTextNd = pDoc->GetNodes()[ aInsPos.GetIndex()-1 ]->GetTextNode(); aDestIdx.Assign( pDestTextNd, pDestTextNd->GetText().getLength()); // Correct the area again if( bEndEqualIns ) { bool bChg = pEnd != rPam.GetPoint(); if( bChg ) rPam.Exchange(); rPam.Move( fnMoveBackward, GoInContent ); if( bChg ) rPam.Exchange(); } else if( rPos == *pEnd ) { // The end was also moved pEnd->nNode--; pEnd->nContent.Assign( pDestTextNd, nContentEnd ); } // tdf#63022 always reset pEndTextNd after SplitNode aRg.aEnd = pEnd->nNode; pEndTextNd = pEnd->nNode.GetNode().GetTextNode(); } NUMRULE_STATE if( bCopyCollFormat && bOneNode ) { PUSH_NUMRULE_STATE } if( !bCopyOk ) { const sal_Int32 nCpyLen = ( bOneNode ? pEnd->nContent.GetIndex() : pSttTextNd->GetText().getLength()) - pStt->nContent.GetIndex(); pSttTextNd->CopyText( pDestTextNd, aDestIdx, pStt->nContent, nCpyLen ); if( bEndEqualIns ) pEnd->nContent -= nCpyLen; } aRg.aStart++; if( bOneNode ) { if (bCopyCollFormat) { pSttTextNd->CopyCollFormat( *pDestTextNd ); POP_NUMRULE_STATE } // copy at-char flys in rPam SwNodeIndex temp(*pDestTextNd); // update to new (start) node for flys // tdf#126626 prevent duplicate Undos ::sw::UndoGuard const ug(pDoc->GetIDocumentUndoRedo()); CopyFlyInFlyImpl(aRg, &rPam, temp, false); break; } } } else if( pDestTextNd ) { // Problems with insertion of table selections into "normal" text solved. // We have to set the correct PaM for Undo, if this PaM starts in a textnode, // the undo operation will try to merge this node after removing the table. // If we didn't split a textnode, the PaM should start at the inserted table node if( rPos.nContent.GetIndex() == pDestTextNd->Len() ) { // Insertion at the last position of a textnode (empty or not) ++aInsPos; // The table will be inserted behind the text node } else if( rPos.nContent.GetIndex() ) { // Insertion in the middle of a text node, it has to be split // (and joined from undo) ++nDeleteTextNodes; const sal_Int32 nContentEnd = pEnd->nContent.GetIndex(); { ::sw::UndoGuard const ug(pDoc->GetIDocumentUndoRedo()); pDoc->getIDocumentContentOperations().SplitNode( rPos, false ); } if (bCanMoveBack && rPos == *pCopyPam->GetPoint()) { // after the SplitNode, span the CpyPam correctly again pCopyPam->Move( fnMoveBackward, GoInContent ); pCopyPam->Move( fnMoveBackward, GoInContent ); } // Correct the area again if( bEndEqualIns ) aRg.aEnd--; // The end would also be moved else if( rPos == *pEnd ) { rPos.nNode-=2; rPos.nContent.Assign( rPos.nNode.GetNode().GetContentNode(), nContentEnd ); rPos.nNode++; aRg.aEnd--; } } else if( bCanMoveBack ) { // Insertion at the first position of a text node. It will not be split, the table // will be inserted before the text node. // See below, before the SetInsertRange function of the undo object will be called, // the CpyPam would be moved to the next content position. This has to be avoided // We want to be moved to the table node itself thus we have to set bCanMoveBack // and to manipulate pCopyPam. bCanMoveBack = false; pCopyPam->GetPoint()->nNode--; } } pDestTextNd = aInsPos.GetNode().GetTextNode(); if (pEndTextNd) { SwIndex aDestIdx( rPos.nContent ); if( !pDestTextNd ) { pDestTextNd = pDoc->GetNodes().MakeTextNode( aInsPos, pDoc->getIDocumentStylePoolAccess().GetTextCollFromPool(RES_POOLCOLL_STANDARD)); aDestIdx.Assign( pDestTextNd, 0 ); aInsPos--; // if we have to insert an extra text node // at the destination, this node will be our new destination // (text) node, and thus we increment nDeleteTextNodes. This // will ensure that this node will be deleted during Undo. ++nDeleteTextNodes; // must be deleted } const bool bEmptyDestNd = pDestTextNd->GetText().isEmpty(); NUMRULE_STATE if( bCopyCollFormat && ( bOneNode || bEmptyDestNd )) { PUSH_NUMRULE_STATE } pEndTextNd->CopyText( pDestTextNd, aDestIdx, SwIndex( pEndTextNd ), pEnd->nContent.GetIndex() ); // Also copy all format templates if( bCopyCollFormat && ( bOneNode || bEmptyDestNd )) { pEndTextNd->CopyCollFormat( *pDestTextNd ); if ( bOneNode ) { POP_NUMRULE_STATE } } } SfxItemSet aBrkSet( pDoc->GetAttrPool(), aBreakSetRange ); if ((flags & SwCopyFlags::CopyAll) || aRg.aStart != aRg.aEnd) { if (pSttTextNd && bCopyCollFormat && pDestTextNd->HasSwAttrSet()) { aBrkSet.Put( *pDestTextNd->GetpSwAttrSet() ); if( SfxItemState::SET == aBrkSet.GetItemState( RES_BREAK, false ) ) pDestTextNd->ResetAttr( RES_BREAK ); if( SfxItemState::SET == aBrkSet.GetItemState( RES_PAGEDESC, false ) ) pDestTextNd->ResetAttr( RES_PAGEDESC ); } } { SwPosition startPos(SwNodeIndex(pCopyPam->GetPoint()->nNode, +1), SwIndex(SwNodeIndex(pCopyPam->GetPoint()->nNode, +1).GetNode().GetContentNode())); if (bCanMoveBack) { // pCopyPam is actually 1 before the copy range so move it fwd SwPaM temp(*pCopyPam->GetPoint()); temp.Move(fnMoveForward, GoInContent); startPos = *temp.GetPoint(); } assert(startPos.nNode.GetNode().IsContentNode()); std::pair tmp(rPam, startPos); if( aInsPos == pEnd->nNode ) { SwNodeIndex aSaveIdx( aInsPos, -1 ); assert(pStt->nNode != pEnd->nNode); pEnd->nContent = 0; // TODO why this? CopyWithFlyInFly(aRg, aInsPos, &tmp, /*bMakeNewFrames*/true, false, /*bCopyFlyAtFly=*/false, flags); ++aSaveIdx; pEnd->nNode = aSaveIdx; pEnd->nContent.Assign( aSaveIdx.GetNode().GetTextNode(), 0 ); } else CopyWithFlyInFly(aRg, aInsPos, &tmp, /*bMakeNewFrames*/true, false, /*bCopyFlyAtFly=*/false, flags); bCopyBookmarks = false; } // at-char anchors post SplitNode are on index 0 of 2nd node and will // remain there - move them back to the start (end would also work?) // ... also for at-para anchors; here start is preferable because // it's consistent with SplitNode from SwUndoInserts::RedoImpl() if (pFlysAtInsPos) { // init *again* - because CopyWithFlyInFly moved startPos SwPosition startPos(SwNodeIndex(pCopyPam->GetPoint()->nNode, +1), SwIndex(SwNodeIndex(pCopyPam->GetPoint()->nNode, +1).GetNode().GetContentNode())); if (bCanMoveBack) { // pCopyPam is actually 1 before the copy range so move it fwd SwPaM temp(*pCopyPam->GetPoint()); temp.Move(fnMoveForward, GoInContent); startPos = *temp.GetPoint(); } assert(startPos.nNode.GetNode().IsContentNode()); SwPosition startPosAtPara(startPos); startPosAtPara.nContent.Assign(nullptr, 0); for (SwFrameFormat * pFly : *pFlysAtInsPos) { SwFormatAnchor const*const pAnchor = &pFly->GetAnchor(); if (pAnchor->GetAnchorId() == RndStdIds::FLY_AT_CHAR) { SwFormatAnchor anchor(*pAnchor); anchor.SetAnchor( &startPos ); pFly->SetFormatAttr(anchor); } else if (pAnchor->GetAnchorId() == RndStdIds::FLY_AT_PARA) { SwFormatAnchor anchor(*pAnchor); anchor.SetAnchor( &startPosAtPara ); pFly->SetFormatAttr(anchor); } } } if ((flags & SwCopyFlags::CopyAll) || aRg.aStart != aRg.aEnd) { // Put the breaks back into the first node if( aBrkSet.Count() && nullptr != ( pDestTextNd = pDoc->GetNodes()[ pCopyPam->GetPoint()->nNode.GetIndex()+1 ]->GetTextNode())) { pDestTextNd->SetAttr( aBrkSet ); bCopyPageSource = true; } } } while( false ); // it is not possible to make this test when copy from the clipBoard to document // in this case the PageNum not exist anymore // tdf#39400 and tdf#97526 // when copy from document to ClipBoard, and it is from the first page // and not the source has the page break if (pDoc->IsClipBoard() && (rPam.GetPageNum(pStt == rPam.GetPoint()) == 1) && !bCopyPageSource) { pDestTextNd->ResetAttr(RES_BREAK); // remove the page-break pDestTextNd->ResetAttr(RES_PAGEDESC); } // Adjust position (in case it was moved / in another node) rPos.nContent.Assign( rPos.nNode.GetNode().GetContentNode(), rPos.nContent.GetIndex() ); if( rPos.nNode != aInsPos ) { pCopyPam->GetMark()->nNode = aInsPos; if (aInsPos < rPos.nNode) { // tdf#134250 decremented in (pEndTextNd && !pDestTextNd) above pCopyPam->GetContentNode(false)->MakeEndIndex(&pCopyPam->GetMark()->nContent); } else // incremented in (!pSttTextNd && pDestTextNd) above { pCopyPam->GetMark()->nContent.Assign(pCopyPam->GetContentNode(false), 0); } rPos = *pCopyPam->GetMark(); } else *pCopyPam->GetMark() = rPos; if ( !bAfterTable ) pCopyPam->Move( fnMoveForward, bCanMoveBack ? GoInContent : GoInNode ); else { pCopyPam->GetPoint()->nNode++; // Reset the offset to 0 as it was before the insertion pCopyPam->GetPoint()->nContent.Assign(pCopyPam->GetPoint()->nNode.GetNode().GetContentNode(), 0); // If the next node is a start node, then step back: the start node // has been copied and needs to be in the selection for the undo if (pCopyPam->GetPoint()->nNode.GetNode().IsStartNode()) pCopyPam->GetPoint()->nNode--; } pCopyPam->Exchange(); // Also copy all bookmarks if( bCopyBookmarks && m_rDoc.getIDocumentMarkAccess()->getAllMarksCount() ) { sw::CopyBookmarks(rPam, *pCopyPam->Start()); } if( RedlineFlags::DeleteRedlines & eOld ) { assert(*pCopyPam->GetPoint() == rPos); // the Node rPos points to may be deleted so unregister ... rPos.nContent.Assign(nullptr, 0); lcl_DeleteRedlines(rPam, *pCopyPam); rPos = *pCopyPam->GetPoint(); // ... and restore. } // If Undo is enabled, store the inserted area if (pDoc->GetIDocumentUndoRedo().DoesUndo()) { pUndo->SetInsertRange(*pCopyPam, true, nDeleteTextNodes); } if( pCpyRange ) { pCpyRange->SetMark(); *pCpyRange->GetPoint() = *pCopyPam->GetPoint(); *pCpyRange->GetMark() = *pCopyPam->GetMark(); } if ( pNumRuleToPropagate != nullptr ) { // #i86492# - use , because it also handles the // Don't reset indent attributes, that would mean loss of direct // formatting. pDoc->SetNumRule( *pCopyPam, *pNumRuleToPropagate, false, nullptr, aListIdToPropagate, true, /*bResetIndentAttrs=*/false ); } pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); pDoc->getIDocumentState().SetModified(); return true; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */