/* -*- 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 namespace { void lcl_ResetIndentAttrs(SwDoc *pDoc, const SwPaM &rPam, sal_uInt16 marker, SwRootFrame const*const pLayout) { std::set aResetAttrsArray; aResetAttrsArray.insert( marker ); // #i114929# // On a selection setup a corresponding Point-and-Mark in order to get // the indentation attribute reset on all paragraphs touched by the selection if ( rPam.HasMark() && rPam.End()->nNode.GetNode().GetTextNode() ) { SwPaM aPam( rPam.Start()->nNode, rPam.End()->nNode ); aPam.Start()->nContent = 0; aPam.End()->nContent = rPam.End()->nNode.GetNode().GetTextNode()->Len(); pDoc->ResetAttrs( aPam, false, aResetAttrsArray, true, pLayout ); } else { pDoc->ResetAttrs( rPam, false, aResetAttrsArray, true, pLayout ); } } void ExpandPamForParaPropsNodes(SwPaM& rPam, SwRootFrame const*const pLayout) { if (pLayout) { // ensure that selection from the Shell includes the para-props node // to which the attributes should be applied if (rPam.GetPoint()->nNode.GetNode().IsTextNode()) { rPam.GetPoint()->nNode = *sw::GetParaPropsNode(*pLayout, rPam.GetPoint()->nNode); rPam.GetPoint()->nContent.Assign(rPam.GetPoint()->nNode.GetNode().GetContentNode(), 0); } if (rPam.GetMark()->nNode.GetNode().IsTextNode()) { rPam.GetMark()->nNode = *sw::GetParaPropsNode(*pLayout, rPam.GetMark()->nNode); rPam.GetMark()->nContent.Assign(rPam.GetMark()->nNode.GetNode().GetContentNode(), 0); } } } } static sal_uInt8 GetUpperLvlChg( sal_uInt8 nCurLvl, sal_uInt8 nLevel, sal_uInt16 nMask ) { if( 1 < nLevel ) { if( nCurLvl + 1 >= nLevel ) nCurLvl -= nLevel - 1; else nCurLvl = 0; } return static_cast((nMask - 1) & ~(( 1 << nCurLvl ) - 1)); } void SwDoc::SetOutlineNumRule( const SwNumRule& rRule ) { if( mpOutlineRule ) (*mpOutlineRule) = rRule; else { mpOutlineRule = new SwNumRule( rRule ); AddNumRule(mpOutlineRule); // #i36749# } mpOutlineRule->SetRuleType( OUTLINE_RULE ); mpOutlineRule->SetName(SwNumRule::GetOutlineRuleName(), getIDocumentListsAccess()); // assure that the outline numbering rule is an automatic rule mpOutlineRule->SetAutoRule( true ); // test whether the optional CharFormats are defined in this Document mpOutlineRule->CheckCharFormats( this ); // notify text nodes, which are registered at the outline style, about the // changed outline style SwNumRule::tTextNodeList aTextNodeList; mpOutlineRule->GetTextNodeList( aTextNodeList ); for ( SwTextNode* pTextNd : aTextNodeList ) { pTextNd->NumRuleChgd(); // assure that list level corresponds to outline level if ( pTextNd->GetTextColl()->IsAssignedToListLevelOfOutlineStyle() && pTextNd->GetAttrListLevel() != pTextNd->GetTextColl()->GetAssignedOutlineStyleLevel() ) { pTextNd->SetAttrListLevel( pTextNd->GetTextColl()->GetAssignedOutlineStyleLevel() ); } } PropagateOutlineRule(); mpOutlineRule->SetInvalidRule(true); UpdateNumRule(); // update if we have foot notes && numbering by chapter if( !GetFootnoteIdxs().empty() && FTNNUM_CHAPTER == GetFootnoteInfo().m_eNum ) GetFootnoteIdxs().UpdateAllFootnote(); getIDocumentFieldsAccess().UpdateExpFields(nullptr, true); getIDocumentState().SetModified(); } void SwDoc::PropagateOutlineRule() { for (auto pColl : *mpTextFormatCollTable) { if(pColl->IsAssignedToListLevelOfOutlineStyle()) { // Check only the list style, which is set at the paragraph style const SwNumRuleItem & rCollRuleItem = pColl->GetNumRule( false ); if ( rCollRuleItem.GetValue().isEmpty() ) { SwNumRule * pMyOutlineRule = GetOutlineNumRule(); if (pMyOutlineRule) { SwNumRuleItem aNumItem( pMyOutlineRule->GetName() ); pColl->SetFormatAttr(aNumItem); } } } } } // Increase/Decrease bool SwDoc::OutlineUpDown(const SwPaM& rPam, short nOffset, SwRootFrame const*const pLayout) { if( GetNodes().GetOutLineNds().empty() || !nOffset ) return false; // calculate the range SwPaM aPam(rPam, nullptr); ExpandPamForParaPropsNodes(aPam, pLayout); const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds(); const SwNodePtr pSttNd = &aPam.Start()->nNode.GetNode(); const SwNodePtr pEndNd = &aPam.End()->nNode.GetNode(); SwOutlineNodes::size_type nSttPos, nEndPos; if( !rOutlNds.Seek_Entry( pSttNd, &nSttPos ) && !nSttPos-- ) // we're not in an "Outline section" return false; if( rOutlNds.Seek_Entry( pEndNd, &nEndPos ) ) ++nEndPos; // We now have the wanted range in the OutlineNodes array, // so check now if we're not invalidating sublevels // (stepping over the limits) // Here we go: // 1. Create the style array: SwTextFormatColl* aCollArr[ MAXLEVEL ]; memset( aCollArr, 0, sizeof( SwTextFormatColl* ) * MAXLEVEL ); for( auto pTextFormatColl : *mpTextFormatCollTable ) { if (pTextFormatColl->IsAssignedToListLevelOfOutlineStyle()) { const int nLevel = pTextFormatColl->GetAssignedOutlineStyleLevel(); aCollArr[ nLevel ] = pTextFormatColl; } } int n; /* Find the last occupied level (backward). */ for (n = MAXLEVEL - 1; n > 0; n--) { if (aCollArr[n] != nullptr) break; } /* If an occupied level is found, choose next level (which IS unoccupied) until a valid level is found. If no occupied level was found n is 0 and aCollArr[0] is 0. In this case no demoting is possible. */ if (aCollArr[n] != nullptr) { while (n < MAXLEVEL - 1) { n++; SwTextFormatColl *aTmpColl = getIDocumentStylePoolAccess().GetTextCollFromPool(static_cast(RES_POOLCOLL_HEADLINE1 + n)); if( aTmpColl->IsAssignedToListLevelOfOutlineStyle() && aTmpColl->GetAssignedOutlineStyleLevel() == n ) { aCollArr[n] = aTmpColl; break; } } } /* Find the first occupied level (forward). */ for (n = 0; n < MAXLEVEL - 1; n++) { if (aCollArr[n] != nullptr) break; } /* If an occupied level is found, choose previous level (which IS unoccupied) until a valid level is found. If no occupied level was found n is MAXLEVEL - 1 and aCollArr[MAXLEVEL - 1] is 0. In this case no demoting is possible. */ if (aCollArr[n] != nullptr) { while (n > 0) { n--; SwTextFormatColl *aTmpColl = getIDocumentStylePoolAccess().GetTextCollFromPool(static_cast(RES_POOLCOLL_HEADLINE1 + n)); if( aTmpColl->IsAssignedToListLevelOfOutlineStyle() && aTmpColl->GetAssignedOutlineStyleLevel() == n ) { aCollArr[n] = aTmpColl; break; } } } /* --> #i13747# Build a move table that states from which level to which other level an outline will be moved. the move table: aMoveArr[n] = m: replace aCollArr[n] with aCollArr[m] */ int aMoveArr[MAXLEVEL]; int nStep; // step size for searching in aCollArr: -1 or 1 int nNum; // amount of steps for stepping in aCollArr if (nOffset < 0) { nStep = -1; nNum = -nOffset; } else { nStep = 1; nNum = nOffset; } /* traverse aCollArr */ for (n = 0; n < MAXLEVEL; n++) { /* If outline level n has an assigned paragraph style step nNum steps forwards (nStep == 1) or backwards (nStep == -1). One step is to go to the next non-null entry in aCollArr in the selected direction. If nNum steps were possible write the index of the entry found to aCollArr[n], i.e. outline level n will be replaced by outline level aCollArr[n]. If outline level n has no assigned paragraph style aMoveArr[n] is set to -1. */ if (aCollArr[n] != nullptr) { int m = n; int nCount = nNum; while (nCount > 0 && m + nStep >= 0 && m + nStep < MAXLEVEL) { m += nStep; if (aCollArr[m] != nullptr) nCount--; } if (nCount == 0) aMoveArr[n] = m; else aMoveArr[n] = -1; } else aMoveArr[n] = -1; } /* If moving of the outline levels is applicable, i.e. for all outline levels occurring in the document there has to be a valid target outline level implied by aMoveArr. */ bool bMoveApplicable = true; for (auto i = nSttPos; i < nEndPos; ++i) { SwTextNode* pTextNd = rOutlNds[ i ]->GetTextNode(); if (pLayout && !sw::IsParaPropsNode(*pLayout, *pTextNd)) { continue; } SwTextFormatColl* pColl = pTextNd->GetTextColl(); if( pColl->IsAssignedToListLevelOfOutlineStyle() ) { const int nLevel = pColl->GetAssignedOutlineStyleLevel(); if (aMoveArr[nLevel] == -1) bMoveApplicable = false; } // Check on outline level attribute of text node, if text node is // not an outline via a to outline style assigned paragraph style. else { const int nNewOutlineLevel = pTextNd->GetAttrOutlineLevel() + nOffset; if ( nNewOutlineLevel < 1 || nNewOutlineLevel > MAXLEVEL ) { bMoveApplicable = false; } } } if (! bMoveApplicable ) return false; if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().StartUndo(SwUndoId::OUTLINE_LR, nullptr); GetIDocumentUndoRedo().AppendUndo( std::make_unique(aPam, nOffset) ); } // 2. Apply the new style to all Nodes for (auto i = nSttPos; i < nEndPos; ++i) { SwTextNode* pTextNd = rOutlNds[ i ]->GetTextNode(); if (pLayout && !sw::IsParaPropsNode(*pLayout, *pTextNd)) { continue; } SwTextFormatColl* pColl = pTextNd->GetTextColl(); if( pColl->IsAssignedToListLevelOfOutlineStyle() ) { const int nLevel = pColl->GetAssignedOutlineStyleLevel(); OSL_ENSURE(aMoveArr[nLevel] >= 0, "move table: current TextColl not found when building table!"); if (nLevel < MAXLEVEL && aMoveArr[nLevel] >= 0) { pColl = aCollArr[ aMoveArr[nLevel] ]; if (pColl != nullptr) pTextNd->ChgFormatColl( pColl ); } } else if( pTextNd->GetAttrOutlineLevel() > 0) { int nLevel = pTextNd->GetAttrOutlineLevel() + nOffset; if( 0 <= nLevel && nLevel <= MAXLEVEL) pTextNd->SetAttrOutlineLevel( nLevel ); } // Undo ??? } if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().EndUndo(SwUndoId::OUTLINE_LR, nullptr); } ChkCondColls(); getIDocumentState().SetModified(); return true; } // Move up/down bool SwDoc::MoveOutlinePara( const SwPaM& rPam, SwOutlineNodes::difference_type nOffset ) { // Do not move to special sections in the nodes array const SwPosition& rStt = *rPam.Start(), & rEnd = &rStt == rPam.GetPoint() ? *rPam.GetMark() : *rPam.GetPoint(); if( GetNodes().GetOutLineNds().empty() || !nOffset || (rStt.nNode.GetIndex() < GetNodes().GetEndOfExtras().GetIndex()) || (rEnd.nNode.GetIndex() < GetNodes().GetEndOfExtras().GetIndex())) { return false; } SwOutlineNodes::size_type nCurrentPos = 0; SwNodeIndex aSttRg( rStt.nNode ), aEndRg( rEnd.nNode ); int nOutLineLevel = MAXLEVEL; SwNode* pSrch = &aSttRg.GetNode(); if( pSrch->IsTextNode()) nOutLineLevel = static_cast(pSrch->GetTextNode()->GetAttrOutlineLevel()-1); SwNode* pEndSrch = &aEndRg.GetNode(); if( !GetNodes().GetOutLineNds().Seek_Entry( pSrch, &nCurrentPos ) ) { if( !nCurrentPos ) return false; // Promoting or demoting before the first outline => no. if( --nCurrentPos ) aSttRg = *GetNodes().GetOutLineNds()[ nCurrentPos ]; else if( 0 > nOffset ) return false; // Promoting at the top of document?! else aSttRg = *GetNodes().GetEndOfContent().StartOfSectionNode(); } SwOutlineNodes::size_type nTmpPos = 0; // If the given range ends at an outlined text node we have to decide if it has to be a part of // the moving range or not. Normally it will be a sub outline of our chapter // and has to be moved, too. But if the chapter ends with a table(or a section end), // the next text node will be chosen and this could be the next outline of the same level. // The criteria has to be the outline level: sub level => incorporate, same/higher level => no. if( GetNodes().GetOutLineNds().Seek_Entry( pEndSrch, &nTmpPos ) ) { if( !pEndSrch->IsTextNode() || pEndSrch == pSrch || nOutLineLevel < pEndSrch->GetTextNode()->GetAttrOutlineLevel()-1 ) ++nTmpPos; // For sub outlines only! } aEndRg = nTmpPos < GetNodes().GetOutLineNds().size() ? *GetNodes().GetOutLineNds()[ nTmpPos ] : GetNodes().GetEndOfContent(); if( nOffset >= 0 ) nCurrentPos = nTmpPos; if( aEndRg == aSttRg ) { OSL_FAIL( "Moving outlines: Surprising selection" ); ++aEndRg; } const SwNode* pNd; // The following code corrects the range to handle sections (start/end nodes) // The range will be extended if the least node before the range is a start node // which ends inside the range => The complete section will be moved. // The range will be shrunk if the last position is a start node. // The range will be shrunk if the last node is an end node which starts before the range. --aSttRg; while( aSttRg.GetNode().IsStartNode() ) { pNd = aSttRg.GetNode().EndOfSectionNode(); if( pNd->GetIndex() >= aEndRg.GetIndex() ) break; --aSttRg; } ++aSttRg; --aEndRg; while( aEndRg.GetNode().IsStartNode() ) --aEndRg; while( aEndRg.GetNode().IsEndNode() ) { pNd = aEndRg.GetNode().StartOfSectionNode(); if( pNd->GetIndex() >= aSttRg.GetIndex() ) break; --aEndRg; } ++aEndRg; // calculation of the new position if( nOffset < 0 && nCurrentPos < o3tl::make_unsigned(-nOffset) ) pNd = GetNodes().GetEndOfContent().StartOfSectionNode(); else if( nCurrentPos + nOffset >= GetNodes().GetOutLineNds().size() ) pNd = &GetNodes().GetEndOfContent(); else pNd = GetNodes().GetOutLineNds()[ nCurrentPos + nOffset ]; sal_uLong nNewPos = pNd->GetIndex(); // And now a correction of the insert position if necessary... SwNodeIndex aInsertPos( *pNd, -1 ); while( aInsertPos.GetNode().IsStartNode() ) { // Just before the insert position starts a section: // when I'm moving forward I do not want to enter the section, // when I'm moving backward I want to stay in the section if I'm already a part of, // I want to stay outside if I was outside before. if( nOffset < 0 ) { pNd = aInsertPos.GetNode().EndOfSectionNode(); if( pNd->GetIndex() >= aEndRg.GetIndex() ) break; } --aInsertPos; --nNewPos; } if( nOffset >= 0 ) { // When just before the insert position a section ends, it is okay when I'm moving backward // because I want to stay outside the section. // When moving forward I've to check if I started inside or outside the section // because I don't want to enter of leave such a section while( aInsertPos.GetNode().IsEndNode() ) { pNd = aInsertPos.GetNode().StartOfSectionNode(); if( pNd->GetIndex() >= aSttRg.GetIndex() ) break; --aInsertPos; --nNewPos; } } // We do not want to move into tables (at the moment) ++aInsertPos; pNd = &aInsertPos.GetNode(); if( pNd->IsTableNode() ) pNd = pNd->StartOfSectionNode(); if( pNd->FindTableNode() ) return false; OSL_ENSURE( aSttRg.GetIndex() > nNewPos || nNewPos >= aEndRg.GetIndex(), "Position lies within Move range" ); // If a Position inside the special nodes array sections was calculated, // set it to document start instead. // Sections or Tables at the document start will be pushed backwards. nNewPos = std::max( nNewPos, GetNodes().GetEndOfExtras().GetIndex() + 2 ); long nOffs = nNewPos - ( 0 < nOffset ? aEndRg.GetIndex() : aSttRg.GetIndex()); SwPaM aPam( aSttRg, aEndRg, 0, -1 ); return MoveParagraph( aPam, nOffs, true ); } static SwTextNode* lcl_FindOutlineName(const SwOutlineNodes& rOutlNds, SwRootFrame const*const pLayout, const OUString& rName, bool const bExact) { SwTextNode * pExactButDeleted(nullptr); SwTextNode* pSavedNode = nullptr; for( auto pOutlNd : rOutlNds ) { SwTextNode* pTextNd = pOutlNd->GetTextNode(); const OUString sText( pTextNd->GetExpandText(pLayout) ); if (sText.startsWith(rName)) { if (sText.getLength() == rName.getLength()) { if (pLayout && !sw::IsParaPropsNode(*pLayout, *pTextNd)) { pExactButDeleted = pTextNd; } else { // Found "exact", set Pos to the Node return pTextNd; } } if (!bExact && !pSavedNode && (!pLayout || sw::IsParaPropsNode(*pLayout, *pTextNd))) { // maybe we just found the text's first part pSavedNode = pTextNd; } } } return bExact ? pExactButDeleted : pSavedNode; } static SwTextNode* lcl_FindOutlineNum(const SwOutlineNodes& rOutlNds, OUString& rName, SwRootFrame const*const pLayout) { // Valid numbers are (always just offsets!): // ([Number]+\.)+ (as a regular expression!) // (Number followed by a period, with 5 repetitions) // i.e.: "1.1.", "1.", "1.1.1." sal_Int32 nPos = 0; OUString sNum = rName.getToken( 0, '.', nPos ); if( -1 == nPos ) return nullptr; // invalid number! sal_uInt16 nLevelVal[ MAXLEVEL ]; // numbers of all levels memset( nLevelVal, 0, MAXLEVEL * sizeof( nLevelVal[0] )); int nLevel = 0; OUString sName( rName ); while( -1 != nPos ) { sal_uInt16 nVal = 0; for( sal_Int32 n = 0; n < sNum.getLength(); ++n ) { const sal_Unicode c {sNum[ n ]}; if( '0' <= c && c <= '9' ) { nVal *= 10; nVal += c - '0'; } else if( nLevel ) break; // "almost" valid number else return nullptr; // invalid number! } if( MAXLEVEL > nLevel ) nLevelVal[ nLevel++ ] = nVal; sName = sName.copy( nPos ); nPos = 0; sNum = sName.getToken( 0, '.', nPos ); // #i4533# without this check all parts delimited by a dot are treated as outline numbers if(!comphelper::string::isdigitAsciiString(sNum)) break; } rName = sName; // that's the follow-up text // read all levels, so search the document for this outline // Without OutlineNodes searching doesn't pay off // and we save a crash if( rOutlNds.empty() ) return nullptr; // search in the existing outline nodes for the required outline num array for( auto pOutlNd : rOutlNds ) { SwTextNode* pNd = pOutlNd->GetTextNode(); if ( pNd->GetAttrOutlineLevel() == nLevel ) { // #i51089#, #i68289# // Assure, that text node has the correct numbering level. Otherwise, // its number vector will not fit to the searched level. if (pNd->GetNum(pLayout) && pNd->GetActualListLevel() == nLevel - 1) { const SwNodeNum & rNdNum = *(pNd->GetNum(pLayout)); SwNumberTree::tNumberVector aLevelVal = rNdNum.GetNumberVector(); // now compare with the one searched for bool bEqual = true; nLevel = std::min(nLevel, MAXLEVEL); for( int n = 0; n < nLevel; ++n ) { if ( aLevelVal[n] != nLevelVal[n] ) { bEqual = false; break; } } if (bEqual) return pNd; } else { // A text node, which has an outline paragraph style applied and // has as hard attribute 'no numbering' set, has an outline level, // but no numbering tree node. Thus, consider this situation in // the assertion condition. OSL_ENSURE( !pNd->GetNumRule(), " - text node with outline level and numbering rule, but without numbering tree node. This is a serious defect" ); } } } return nullptr; } // rName can contain a Number and/or the Text. // First, we try to find the correct Entry via the Number. // If it exists, we compare the Text to see if it's the right one. // If that's not the case, we search again via the Text. If it is // found, we got the right entry. Or else we use the one found by // searching for the Number. // If we don't have a Number, we search via the Text only. bool SwDoc::GotoOutline(SwPosition& rPos, const OUString& rName, SwRootFrame const*const pLayout) const { if( !rName.isEmpty() ) { const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds(); // 1. step: via the Number: OUString sName( rName ); SwTextNode* pNd = ::lcl_FindOutlineNum(rOutlNds, sName, pLayout); if ( pNd ) { OUString sExpandedText = pNd->GetExpandText(pLayout); //#i4533# leading numbers followed by a dot have been remove while //searching for the outline position //to compensate this they must be removed from the paragraphs text content, too while(!sExpandedText.isEmpty()) { sal_Int32 nPos = 0; OUString sTempNum = sExpandedText.getToken(0, '.', nPos); if( sTempNum.isEmpty() || -1 == nPos || !comphelper::string::isdigitAsciiString(sTempNum)) break; sExpandedText = sExpandedText.copy(nPos); } if( sExpandedText != sName ) { SwTextNode *pTmpNd = ::lcl_FindOutlineName(rOutlNds, pLayout, sName, true); if ( pTmpNd ) // found via the Name { if (pLayout && !sw::IsParaPropsNode(*pLayout, *pTmpNd)) { // found the correct node but it's deleted! return false; // avoid fallback to inexact search } pNd = pTmpNd; } } rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return true; } pNd = ::lcl_FindOutlineName(rOutlNds, pLayout, rName, false); if ( pNd ) { rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return true; } // #i68289# additional search on hyperlink URL without its outline numbering part if ( sName != rName ) { pNd = ::lcl_FindOutlineName(rOutlNds, pLayout, sName, false); if ( pNd ) { rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return true; } } } return false; } static void lcl_ChgNumRule( SwDoc& rDoc, const SwNumRule& rRule ) { SwNumRule* pOld = rDoc.FindNumRulePtr( rRule.GetName() ); if (!pOld) //we cannot proceed without the old NumRule return; sal_uInt16 nChgFormatLevel = 0; sal_uInt16 nMask = 1; for ( sal_uInt8 n = 0; n < MAXLEVEL; ++n, nMask <<= 1 ) { const SwNumFormat& rOldFormat = pOld->Get( n ), &rNewFormat = rRule.Get( n ); if ( rOldFormat != rNewFormat ) { nChgFormatLevel |= nMask; } else if ( SVX_NUM_NUMBER_NONE > rNewFormat.GetNumberingType() && 1 < rNewFormat.GetIncludeUpperLevels() && 0 != ( nChgFormatLevel & GetUpperLvlChg( n, rNewFormat.GetIncludeUpperLevels(), nMask ) ) ) { nChgFormatLevel |= nMask; } } if( !nChgFormatLevel ) // Nothing has been changed? { const bool bInvalidateNumRule( pOld->IsContinusNum() != rRule.IsContinusNum() ); pOld->CheckCharFormats( &rDoc ); pOld->SetContinusNum( rRule.IsContinusNum() ); if ( bInvalidateNumRule ) { pOld->SetInvalidRule(true); } return ; } SwNumRule::tTextNodeList aTextNodeList; pOld->GetTextNodeList( aTextNodeList ); sal_uInt8 nLvl( 0 ); for ( SwTextNode* pTextNd : aTextNodeList ) { nLvl = static_cast(pTextNd->GetActualListLevel()); if( nLvl < MAXLEVEL ) { if( nChgFormatLevel & ( 1 << nLvl )) { pTextNd->NumRuleChgd(); } } } for ( sal_uInt8 n = 0; n < MAXLEVEL; ++n ) if ( nChgFormatLevel & ( 1 << n ) ) pOld->Set( n, rRule.GetNumFormat( n ) ); pOld->CheckCharFormats( &rDoc ); pOld->SetInvalidRule( true ); pOld->SetContinusNum( rRule.IsContinusNum() ); rDoc.UpdateNumRule(); } OUString SwDoc::SetNumRule( const SwPaM& rPam, const SwNumRule& rRule, const bool bCreateNewList, SwRootFrame const*const pLayout, const OUString& sContinuedListId, bool bSetItem, const bool bResetIndentAttrs ) { OUString sListId; SwPaM aPam(rPam, nullptr); ExpandPamForParaPropsNodes(aPam, pLayout); SwUndoInsNum * pUndo = nullptr; if (GetIDocumentUndoRedo().DoesUndo()) { // Start/End for attributes! GetIDocumentUndoRedo().StartUndo( SwUndoId::INSNUM, nullptr ); pUndo = new SwUndoInsNum( aPam, rRule ); GetIDocumentUndoRedo().AppendUndo(std::unique_ptr(pUndo)); } SwNumRule* pNewOrChangedNumRule = FindNumRulePtr( rRule.GetName() ); bool bNewNumRuleCreated = false; if ( pNewOrChangedNumRule == nullptr ) { // create new numbering rule based on given one pNewOrChangedNumRule = ( *mpNumRuleTable )[MakeNumRule( rRule.GetName(), &rRule )]; bNewNumRuleCreated = true; } else if ( rRule != *pNewOrChangedNumRule ) { // change existing numbering rule if (pUndo) { pUndo->SaveOldNumRule( *pNewOrChangedNumRule ); } ::lcl_ChgNumRule( *this, rRule ); if (pUndo) { pUndo->SetLRSpaceEndPos(); } } if ( bSetItem ) { if ( bCreateNewList ) { if ( bNewNumRuleCreated ) { // apply list id of list, which has been created for the new list style sListId = pNewOrChangedNumRule->GetDefaultListId(); } else { // create new list and apply its list id const SwList* pNewList = getIDocumentListsAccess().createList( OUString(), pNewOrChangedNumRule->GetName() ); OSL_ENSURE( pNewList, " - could not create new list. Serious defect." ); sListId = pNewList->GetListId(); } } else if ( !sContinuedListId.isEmpty() ) { // apply given list id sListId = sContinuedListId; } if (!sListId.isEmpty()) { getIDocumentContentOperations().InsertPoolItem(aPam, SfxStringItem(RES_PARATR_LIST_ID, sListId), SetAttrMode::DEFAULT, pLayout); } } if (!aPam.HasMark()) { SwTextNode * pTextNd = aPam.GetPoint()->nNode.GetNode().GetTextNode(); // robust code: consider case that the PaM doesn't denote a text node - e.g. it denotes a graphic node if ( pTextNd != nullptr ) { assert(!pLayout || sw::IsParaPropsNode(*pLayout, *pTextNd)); SwNumRule * pRule = pTextNd->GetNumRule(); if (pRule && pRule->GetName() == pNewOrChangedNumRule->GetName()) { bSetItem = false; if ( !pTextNd->IsInList() ) { pTextNd->AddToList(); } } // Only clear numbering attribute at text node, if at paragraph // style the new numbering rule is found. else if ( !pRule ) { SwTextFormatColl* pColl = pTextNd->GetTextColl(); if ( pColl ) { SwNumRule* pCollRule = FindNumRulePtr(pColl->GetNumRule().GetValue()); if ( pCollRule && pCollRule->GetName() == pNewOrChangedNumRule->GetName() ) { pTextNd->ResetAttr( RES_PARATR_NUMRULE ); bSetItem = false; } } } } } if ( bSetItem ) { getIDocumentContentOperations().InsertPoolItem(aPam, SwNumRuleItem(pNewOrChangedNumRule->GetName()), SetAttrMode::DEFAULT, pLayout); } if ( bResetIndentAttrs && pNewOrChangedNumRule->Get( 0 ).GetPositionAndSpaceMode() == SvxNumberFormat::LABEL_ALIGNMENT ) { ::lcl_ResetIndentAttrs(this, aPam, RES_LR_SPACE, pLayout); } if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().EndUndo( SwUndoId::INSNUM, nullptr ); } getIDocumentState().SetModified(); return sListId; } void SwDoc::SetCounted(const SwPaM & rPam, bool bCounted, SwRootFrame const*const pLayout) { if ( bCounted ) { ::lcl_ResetIndentAttrs(this, rPam, RES_PARATR_LIST_ISCOUNTED, pLayout); } else { getIDocumentContentOperations().InsertPoolItem(rPam, SfxBoolItem(RES_PARATR_LIST_ISCOUNTED, false), SetAttrMode::DEFAULT, pLayout); } } void SwDoc::SetNumRuleStart( const SwPosition& rPos, bool bFlag ) { SwTextNode* pTextNd = rPos.nNode.GetNode().GetTextNode(); if (pTextNd) { const SwNumRule* pRule = pTextNd->GetNumRule(); if( pRule && !bFlag != !pTextNd->IsListRestart()) { if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(rPos, bFlag) ); } pTextNd->SetListRestart(bFlag); getIDocumentState().SetModified(); } } } void SwDoc::SetNodeNumStart( const SwPosition& rPos, sal_uInt16 nStt ) { SwTextNode* pTextNd = rPos.nNode.GetNode().GetTextNode(); if (pTextNd) { if ( !pTextNd->HasAttrListRestartValue() || pTextNd->GetAttrListRestartValue() != nStt ) { if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(rPos, nStt) ); } pTextNd->SetAttrListRestartValue( nStt ); getIDocumentState().SetModified(); } } } // We can only delete if the Rule is unused! bool SwDoc::DelNumRule( const OUString& rName, bool bBroadcast ) { sal_uInt16 nPos = FindNumRule( rName ); if (nPos == USHRT_MAX) return false; if ( (*mpNumRuleTable)[ nPos ] == GetOutlineNumRule() ) { OSL_FAIL( " - No deletion of outline list style. This is serious defect" ); return false; } if( !IsUsed( *(*mpNumRuleTable)[ nPos ] )) { if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(*(*mpNumRuleTable)[nPos], this)); } if (bBroadcast) BroadcastStyleOperation(rName, SfxStyleFamily::Pseudo, SfxHintId::StyleSheetErased); getIDocumentListsAccess().deleteListForListStyle( rName ); getIDocumentListsAccess().deleteListsByDefaultListStyle( rName ); // #i34097# DeleteAndDestroy deletes rName if // rName is directly taken from the numrule. const OUString aTmpName( rName ); delete (*mpNumRuleTable)[ nPos ]; mpNumRuleTable->erase( mpNumRuleTable->begin() + nPos ); maNumRuleMap.erase(aTmpName); getIDocumentState().SetModified(); return true; } return false; } void SwDoc::ChgNumRuleFormats( const SwNumRule& rRule ) { SwNumRule* pRule = FindNumRulePtr( rRule.GetName() ); if( pRule ) { SwUndoInsNum* pUndo = nullptr; if (GetIDocumentUndoRedo().DoesUndo()) { pUndo = new SwUndoInsNum( *pRule, rRule, this ); pUndo->GetHistory(); GetIDocumentUndoRedo().AppendUndo( std::unique_ptr(pUndo) ); } ::lcl_ChgNumRule( *this, rRule ); if (pUndo) { pUndo->SetLRSpaceEndPos(); } getIDocumentState().SetModified(); } } bool SwDoc::RenameNumRule(const OUString & rOldName, const OUString & rNewName, bool bBroadcast) { assert(!FindNumRulePtr(rNewName)); bool bResult = false; SwNumRule * pNumRule = FindNumRulePtr(rOldName); if (pNumRule) { if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(rOldName, rNewName, this)); } SwNumRule::tTextNodeList aTextNodeList; pNumRule->GetTextNodeList( aTextNodeList ); pNumRule->SetName( rNewName, getIDocumentListsAccess() ); SwNumRuleItem aItem(rNewName); for ( SwTextNode* pTextNd : aTextNodeList ) { pTextNd->SetAttr(aItem); } bResult = true; if (bBroadcast) BroadcastStyleOperation(rOldName, SfxStyleFamily::Pseudo, SfxHintId::StyleSheetModified); } return bResult; } void SwDoc::StopNumRuleAnimations( OutputDevice* pOut ) { for( sal_uInt16 n = GetNumRuleTable().size(); n; ) { SwNumRule::tTextNodeList aTextNodeList; GetNumRuleTable()[ --n ]->GetTextNodeList( aTextNodeList ); for ( SwTextNode* pTNd : aTextNodeList ) { SwIterator aIter(*pTNd); for(SwTextFrame* pFrame = aIter.First(); pFrame; pFrame = aIter.Next() ) if (pFrame->HasAnimation() && (!pFrame->GetMergedPara() || pFrame->GetMergedPara()->pParaPropsNode == pTNd)) { pFrame->StopAnimation( pOut ); } } } } bool SwDoc::ReplaceNumRule( const SwPosition& rPos, const OUString& rOldRule, const OUString& rNewRule ) { bool bRet = false; SwNumRule *pOldRule = FindNumRulePtr( rOldRule ), *pNewRule = FindNumRulePtr( rNewRule ); if( pOldRule && pNewRule && pOldRule != pNewRule ) { SwUndoInsNum* pUndo = nullptr; if (GetIDocumentUndoRedo().DoesUndo()) { // Start/End for attributes! GetIDocumentUndoRedo().StartUndo( SwUndoId::START, nullptr ); pUndo = new SwUndoInsNum( rPos, *pNewRule, rOldRule ); GetIDocumentUndoRedo().AppendUndo(std::unique_ptr(pUndo)); } SwNumRule::tTextNodeList aTextNodeList; pOldRule->GetTextNodeList( aTextNodeList ); if ( !aTextNodeList.empty() ) { SwRegHistory aRegH( pUndo ? pUndo->GetHistory() : nullptr ); sal_uInt16 nChgFormatLevel = 0; for( sal_uInt8 n = 0; n < MAXLEVEL; ++n ) { const SwNumFormat& rOldFormat = pOldRule->Get( n ), & rNewFormat = pNewRule->Get( n ); if( rOldFormat.GetAbsLSpace() != rNewFormat.GetAbsLSpace() || rOldFormat.GetFirstLineOffset() != rNewFormat.GetFirstLineOffset() ) nChgFormatLevel |= ( 1 << n ); } const SwTextNode* pGivenTextNode = rPos.nNode.GetNode().GetTextNode(); SwNumRuleItem aRule( rNewRule ); for ( SwTextNode* pTextNd : aTextNodeList ) { if ( pGivenTextNode && pGivenTextNode->GetListId() == pTextNd->GetListId() ) { aRegH.RegisterInModify( pTextNd, *pTextNd ); pTextNd->SetAttr( aRule ); pTextNd->NumRuleChgd(); } } GetIDocumentUndoRedo().EndUndo( SwUndoId::END, nullptr ); getIDocumentState().SetModified(); bRet = true; } } return bRet; } namespace { struct ListStyleData { SwNumRule* pReplaceNumRule; bool bCreateNewList; OUString sListId; ListStyleData() : pReplaceNumRule( nullptr ), bCreateNewList( false ), sListId() {} }; } void SwDoc::MakeUniqueNumRules(const SwPaM & rPaM) { OSL_ENSURE( rPaM.GetDoc() == this, "need same doc" ); std::map aMyNumRuleMap; bool bFirst = true; const sal_uLong nStt = rPaM.Start()->nNode.GetIndex(); const sal_uLong nEnd = rPaM.End()->nNode.GetIndex(); for (sal_uLong n = nStt; n <= nEnd; n++) { SwTextNode * pCNd = GetNodes()[n]->GetTextNode(); if (pCNd) { SwNumRule * pRule = pCNd->GetNumRule(); if (pRule && pRule->IsAutoRule() && ! pRule->IsOutlineRule()) { ListStyleData aListStyleData = aMyNumRuleMap[pRule]; if ( aListStyleData.pReplaceNumRule == nullptr ) { if (bFirst) { SwPosition aPos(*pCNd); aListStyleData.pReplaceNumRule = const_cast (SearchNumRule( aPos, false, pCNd->HasNumber(), false, 0, aListStyleData.sListId, nullptr, true )); } if ( aListStyleData.pReplaceNumRule == nullptr ) { aListStyleData.pReplaceNumRule = new SwNumRule(*pRule); aListStyleData.pReplaceNumRule->SetName( GetUniqueNumRuleName(), getIDocumentListsAccess() ); aListStyleData.bCreateNewList = true; } aMyNumRuleMap[pRule] = aListStyleData; } SwPaM aPam(*pCNd); SetNumRule( aPam, *aListStyleData.pReplaceNumRule, aListStyleData.bCreateNewList, nullptr, aListStyleData.sListId ); if ( aListStyleData.bCreateNewList ) { aListStyleData.bCreateNewList = false; aListStyleData.sListId = pCNd->GetListId(); aMyNumRuleMap[pRule] = aListStyleData; } bFirst = false; } } } } bool SwDoc::NoNum( const SwPaM& rPam ) { bool bRet = getIDocumentContentOperations().SplitNode( *rPam.GetPoint(), false ); // Do we actually use Numbering at all? if( bRet ) { // Set NoNum and Update const SwNodeIndex& rIdx = rPam.GetPoint()->nNode; SwTextNode* pNd = rIdx.GetNode().GetTextNode(); const SwNumRule* pRule = pNd->GetNumRule(); if( pRule ) { pNd->SetCountedInList(false); getIDocumentState().SetModified(); } else bRet = false; // no Numbering or just always true? } return bRet; } void SwDoc::DelNumRules(const SwPaM& rPam, SwRootFrame const*const pLayout) { SwPaM aPam(rPam, nullptr); ExpandPamForParaPropsNodes(aPam, pLayout); sal_uLong nStt = aPam.Start()->nNode.GetIndex(); sal_uLong const nEnd = aPam.End()->nNode.GetIndex(); SwUndoDelNum* pUndo; if (GetIDocumentUndoRedo().DoesUndo()) { pUndo = new SwUndoDelNum( aPam ); GetIDocumentUndoRedo().AppendUndo(std::unique_ptr(pUndo)); } else pUndo = nullptr; SwRegHistory aRegH( pUndo ? pUndo->GetHistory() : nullptr ); SwNumRuleItem aEmptyRule; const SwNode* pOutlNd = nullptr; for( ; nStt <= nEnd; ++nStt ) { SwTextNode* pTNd = GetNodes()[ nStt ]->GetTextNode(); if (pLayout && pTNd) { pTNd = sw::GetParaPropsNode(*pLayout, *pTNd); } SwNumRule* pNumRuleOfTextNode = pTNd ? pTNd->GetNumRule() : nullptr; if ( pTNd && pNumRuleOfTextNode ) { // recognize changes of attribute for undo aRegH.RegisterInModify( pTNd, *pTNd ); if( pUndo ) pUndo->AddNode( *pTNd ); // directly set list style attribute is reset, otherwise empty // list style is applied const SfxItemSet* pAttrSet = pTNd->GetpSwAttrSet(); if ( pAttrSet && pAttrSet->GetItemState( RES_PARATR_NUMRULE, false ) == SfxItemState::SET ) pTNd->ResetAttr( RES_PARATR_NUMRULE ); else pTNd->SetAttr( aEmptyRule ); pTNd->ResetAttr( RES_PARATR_LIST_ID ); pTNd->ResetAttr( RES_PARATR_LIST_LEVEL ); pTNd->ResetAttr( RES_PARATR_LIST_ISRESTART ); pTNd->ResetAttr( RES_PARATR_LIST_RESTARTVALUE ); pTNd->ResetAttr( RES_PARATR_LIST_ISCOUNTED ); if( RES_CONDTXTFMTCOLL == pTNd->GetFormatColl()->Which() ) { pTNd->ChkCondColl(); } else if( !pOutlNd && static_cast(pTNd->GetFormatColl())->IsAssignedToListLevelOfOutlineStyle() ) { pOutlNd = pTNd; } } } // Finally, update all UpdateNumRule(); if( pOutlNd ) GetNodes().UpdateOutlineIdx( *pOutlNd ); } void SwDoc::InvalidateNumRules() { for (size_t n = 0; n < mpNumRuleTable->size(); ++n) (*mpNumRuleTable)[n]->SetInvalidRule(true); } // To the next/preceding Bullet at the same Level static bool lcl_IsNumOk( sal_uInt8 nSrchNum, sal_uInt8& rLower, sal_uInt8& rUpper, bool bOverUpper, sal_uInt8 nNumber ) { OSL_ENSURE( nNumber < MAXLEVEL, " - misusage of method" ); bool bRet = false; { if( bOverUpper ? nSrchNum == nNumber : nSrchNum >= nNumber ) bRet = true; else if( nNumber > rLower ) rLower = nNumber; else if( nNumber < rUpper ) rUpper = nNumber; } return bRet; } static bool lcl_IsValidPrevNextNumNode( const SwNodeIndex& rIdx ) { bool bRet = false; const SwNode& rNd = rIdx.GetNode(); switch( rNd.GetNodeType() ) { case SwNodeType::End: bRet = SwTableBoxStartNode == rNd.StartOfSectionNode()->GetStartNodeType() || rNd.StartOfSectionNode()->IsSectionNode(); break; case SwNodeType::Start: bRet = SwTableBoxStartNode == static_cast(rNd).GetStartNodeType(); break; case SwNodeType::Section: // that one's valid, so proceed bRet = true; break; default: break; } return bRet; } namespace sw { void GotoPrevLayoutTextFrame(SwNodeIndex & rIndex, SwRootFrame const*const pLayout) { if (pLayout && pLayout->IsHideRedlines()) { if (rIndex.GetNode().IsTextNode()) { if (rIndex.GetNode().GetRedlineMergeFlag() != SwNode::Merge::None) { rIndex = *static_cast(rIndex.GetNode().GetTextNode()->getLayoutFrame(pLayout))->GetMergedPara()->pFirstNode; } } else if (rIndex.GetNode().IsEndNode()) { if (rIndex.GetNode().GetRedlineMergeFlag() == SwNode::Merge::Hidden) { rIndex = *rIndex.GetNode().StartOfSectionNode(); assert(rIndex.GetNode().IsTableNode()); } } } --rIndex; if (pLayout && rIndex.GetNode().IsTextNode()) { rIndex = *sw::GetParaPropsNode(*pLayout, *rIndex.GetNode().GetTextNode()); } } void GotoNextLayoutTextFrame(SwNodeIndex & rIndex, SwRootFrame const*const pLayout) { if (pLayout && pLayout->IsHideRedlines()) { if (rIndex.GetNode().IsTextNode()) { if (rIndex.GetNode().GetRedlineMergeFlag() != SwNode::Merge::None) { rIndex = *static_cast(rIndex.GetNode().GetTextNode()->getLayoutFrame(pLayout))->GetMergedPara()->pLastNode; } } else if (rIndex.GetNode().IsTableNode()) { if (rIndex.GetNode().GetRedlineMergeFlag() == SwNode::Merge::Hidden) { rIndex = *rIndex.GetNode().EndOfSectionNode(); } } } ++rIndex; if (pLayout && rIndex.GetNode().IsTextNode()) { rIndex = *sw::GetParaPropsNode(*pLayout, *rIndex.GetNode().GetTextNode()); } } } // namespace sw static bool lcl_GotoNextPrevNum( SwPosition& rPos, bool bNext, bool bOverUpper, sal_uInt8* pUpper, sal_uInt8* pLower, SwRootFrame const*const pLayout) { const SwTextNode* pNd = rPos.nNode.GetNode().GetTextNode(); if (pNd && pLayout) { pNd = sw::GetParaPropsNode(*pLayout, *pNd); } if( !pNd || nullptr == pNd->GetNumRule() ) return false; sal_uInt8 nSrchNum = static_cast(pNd->GetActualListLevel()); SwNodeIndex aIdx( rPos.nNode ); if( ! pNd->IsCountedInList() ) { // If NO_NUMLEVEL is switched on, we search the preceding Node with Numbering bool bError = false; do { sw::GotoPrevLayoutTextFrame(aIdx, pLayout); if( aIdx.GetNode().IsTextNode() ) { pNd = aIdx.GetNode().GetTextNode(); const SwNumRule* pRule = pNd->GetNumRule(); sal_uInt8 nTmpNum; if( pRule ) { nTmpNum = static_cast(pNd->GetActualListLevel()); if( !( ! pNd->IsCountedInList() && (nTmpNum >= nSrchNum )) ) break; // found it! } else bError = true; } else bError = !lcl_IsValidPrevNextNumNode( aIdx ); } while( !bError ); if( bError ) return false; } sal_uInt8 nLower = nSrchNum, nUpper = nSrchNum; bool bRet = false; const SwTextNode* pLast; if( bNext ) { sw::GotoNextLayoutTextFrame(aIdx, pLayout); pLast = pNd; } else { sw::GotoPrevLayoutTextFrame(aIdx, pLayout); pLast = nullptr; } while( bNext ? ( aIdx.GetIndex() < aIdx.GetNodes().Count() - 1 ) : aIdx.GetIndex() != 0 ) { if( aIdx.GetNode().IsTextNode() ) { pNd = aIdx.GetNode().GetTextNode(); const SwNumRule* pRule = pNd->GetNumRule(); if( pRule ) { if( ::lcl_IsNumOk( nSrchNum, nLower, nUpper, bOverUpper, static_cast(pNd->GetActualListLevel()) )) { rPos.nNode = aIdx; rPos.nContent.Assign( const_cast(pNd), 0 ); bRet = true; break; } else pLast = pNd; } else break; } else if( !lcl_IsValidPrevNextNumNode( aIdx )) break; if( bNext ) sw::GotoNextLayoutTextFrame(aIdx, pLayout); else sw::GotoPrevLayoutTextFrame(aIdx, pLayout); } if( !bRet && !bOverUpper && pLast ) // do not iterate over higher numbers, but still to the end { if( bNext ) { rPos.nNode = aIdx; if( aIdx.GetNode().IsContentNode() ) rPos.nContent.Assign( aIdx.GetNode().GetContentNode(), 0 ); } else { rPos.nNode.Assign( *pLast ); rPos.nContent.Assign( const_cast(pLast), 0 ); } bRet = true; } if( bRet ) { if( pUpper ) *pUpper = nUpper; if( pLower ) *pLower = nLower; } return bRet; } bool SwDoc::GotoNextNum(SwPosition& rPos, SwRootFrame const*const pLayout, bool bOverUpper, sal_uInt8* pUpper, sal_uInt8* pLower) { return ::lcl_GotoNextPrevNum(rPos, true, bOverUpper, pUpper, pLower, pLayout); } const SwNumRule * SwDoc::SearchNumRule(const SwPosition & rPos, const bool bForward, const bool bNum, const bool bOutline, int nNonEmptyAllowed, OUString& sListId, SwRootFrame const* pLayout, const bool bInvestigateStartNode) { const SwNumRule * pResult = nullptr; SwTextNode * pTextNd = rPos.nNode.GetNode().GetTextNode(); if (pLayout) { pTextNd = sw::GetParaPropsNode(*pLayout, rPos.nNode); } SwNode * pStartFromNode = pTextNd; if (pTextNd) { SwNodeIndex aIdx(rPos.nNode); // - the start node has also been investigated, if requested. const SwNode * pNode = nullptr; do { if ( !bInvestigateStartNode ) { if (bForward) sw::GotoNextLayoutTextFrame(aIdx, pLayout); else sw::GotoPrevLayoutTextFrame(aIdx, pLayout); } if (aIdx.GetNode().IsTextNode()) { pTextNd = aIdx.GetNode().GetTextNode(); const SwNumRule * pNumRule = pTextNd->GetNumRule(); if (pNumRule) { if ( ( pNumRule->IsOutlineRule() == bOutline ) && ( ( bNum && pNumRule->Get(0).IsEnumeration()) || ( !bNum && pNumRule->Get(0).IsItemize() ) ) ) // #i22362#, #i29560# { pResult = pTextNd->GetNumRule(); // provide also the list id, to which the text node belongs. sListId = pTextNd->GetListId(); } break; } else if (pTextNd->Len() > 0 || nullptr != pTextNd->GetNumRule()) { if (nNonEmptyAllowed == 0) break; nNonEmptyAllowed--; if (nNonEmptyAllowed < 0) nNonEmptyAllowed = -1; } } if ( bInvestigateStartNode ) { if (bForward) sw::GotoNextLayoutTextFrame(aIdx, pLayout); else sw::GotoPrevLayoutTextFrame(aIdx, pLayout); } pNode = &aIdx.GetNode(); } while (!(pNode == GetNodes().DocumentSectionStartNode(pStartFromNode) || pNode == GetNodes().DocumentSectionEndNode(pStartFromNode))); } return pResult; } bool SwDoc::GotoPrevNum(SwPosition& rPos, SwRootFrame const*const pLayout, bool bOverUpper) { return ::lcl_GotoNextPrevNum(rPos, false, bOverUpper, nullptr, nullptr, pLayout); } bool SwDoc::NumUpDown(const SwPaM& rPam, bool bDown, SwRootFrame const*const pLayout) { SwPaM aPam(rPam, nullptr); ExpandPamForParaPropsNodes(aPam, pLayout); sal_uLong nStt = aPam.Start()->nNode.GetIndex(); sal_uLong const nEnd = aPam.End()->nNode.GetIndex(); // -> outline nodes are promoted or demoted differently bool bOnlyOutline = true; bool bOnlyNonOutline = true; for (sal_uLong n = nStt; n <= nEnd; n++) { SwTextNode * pTextNd = GetNodes()[n]->GetTextNode(); if (pTextNd) { if (pLayout) { pTextNd = sw::GetParaPropsNode(*pLayout, *pTextNd); } SwNumRule * pRule = pTextNd->GetNumRule(); if (pRule) { if (pRule->IsOutlineRule()) bOnlyNonOutline = false; else bOnlyOutline = false; } } } bool bRet = true; sal_Int8 nDiff = bDown ? 1 : -1; if (bOnlyOutline) bRet = OutlineUpDown(rPam, nDiff, pLayout); else if (bOnlyNonOutline) { /* #i24560# Only promote or demote if all selected paragraphs are promotable resp. demotable. */ for (sal_uLong nTmp = nStt; nTmp <= nEnd; ++nTmp) { SwTextNode* pTNd = GetNodes()[ nTmp ]->GetTextNode(); // Make code robust: consider case that the node doesn't denote a // text node. if ( pTNd ) { if (pLayout) { pTNd = sw::GetParaPropsNode(*pLayout, *pTNd); } SwNumRule * pRule = pTNd->GetNumRule(); if (pRule) { sal_uInt8 nLevel = static_cast(pTNd->GetActualListLevel()); if( (-1 == nDiff && 0 >= nLevel) || (1 == nDiff && MAXLEVEL - 1 <= nLevel)) bRet = false; } } } if( bRet ) { if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(aPam, nDiff) ); } SwTextNode* pPrev = nullptr; for(sal_uLong nTmp = nStt; nTmp <= nEnd; ++nTmp ) { SwTextNode* pTNd = GetNodes()[ nTmp ]->GetTextNode(); if( pTNd) { if (pLayout) { pTNd = sw::GetParaPropsNode(*pLayout, *pTNd); if (pTNd == pPrev) { continue; } pPrev = pTNd; } SwNumRule * pRule = pTNd->GetNumRule(); if (pRule) { sal_uInt8 nLevel = static_cast(pTNd->GetActualListLevel()); nLevel = nLevel + nDiff; pTNd->SetAttrListLevel(nLevel); } } } ChkCondColls(); getIDocumentState().SetModified(); } } return bRet; } // this function doesn't contain any numbering-related code, but it is // primarily called to move numbering-relevant paragraphs around, hence // it will expand its selection to include full SwTextFrames. bool SwDoc::MoveParagraph(SwPaM& rPam, long nOffset, bool const bIsOutlMv) { // sw_redlinehide: as long as a layout with Hide mode exists, only // move nodes that have merged frames *completely* SwRootFrame const* pLayout(nullptr); for (SwRootFrame const*const pLay : GetAllLayouts()) { if (pLay->IsHideRedlines()) { pLayout = pLay; } } if (pLayout) { std::pair nodes( sw::GetFirstAndLastNode(*pLayout, rPam.Start()->nNode)); if (nodes.first && nodes.first != &rPam.Start()->nNode.GetNode()) { assert(nodes.second); if (nOffset < 0) { nOffset += rPam.Start()->nNode.GetIndex() - nodes.first->GetIndex(); if (0 <= nOffset) // hack: there are callers that know what { // node they want; those should never need nOffset = -1; // this; other callers just pass in -1 } // and those should still move } if (!rPam.HasMark()) { rPam.SetMark(); } assert(nodes.first->GetIndex() < rPam.Start()->nNode.GetIndex()); rPam.Start()->nNode = *nodes.first; rPam.Start()->nContent.Assign(nodes.first, 0); } nodes = sw::GetFirstAndLastNode(*pLayout, rPam.End()->nNode); if (nodes.second && nodes.second != &rPam.End()->nNode.GetNode()) { assert(nodes.first); if (0 < nOffset) { nOffset -= nodes.second->GetIndex() - rPam.End()->nNode.GetIndex(); if (nOffset <= 0) // hack: there are callers that know what { // node they want; those should never need nOffset = +1; // this; other callers just pass in +1 } // and those should still move } if (!rPam.HasMark()) { rPam.SetMark(); } assert(rPam.End()->nNode.GetIndex() < nodes.second->GetIndex()); rPam.End()->nNode = *nodes.second; // until end, otherwise Impl will detect overlapping redline rPam.End()->nContent.Assign(nodes.second, nodes.second->GetTextNode()->Len()); } if (nOffset > 0) { // sw_redlinehide: avoid moving into delete redline, skip forward if (GetNodes().GetEndOfContent().GetIndex() <= rPam.End()->nNode.GetIndex() + nOffset) { return false; // can't move } SwNode const* pNode(GetNodes()[rPam.End()->nNode.GetIndex() + nOffset + 1]); if ( pNode->GetRedlineMergeFlag() != SwNode::Merge::None && pNode->GetRedlineMergeFlag() != SwNode::Merge::First) { for ( ; ; ++nOffset) { pNode = GetNodes()[rPam.End()->nNode.GetIndex() + nOffset]; if (pNode->IsTextNode()) { nodes = GetFirstAndLastNode(*pLayout, *pNode->GetTextNode()); assert(nodes.first && nodes.second); nOffset += nodes.second->GetIndex() - pNode->GetIndex(); // on last; will be incremented below to behind-last break; } } } } else { // sw_redlinehide: avoid moving into delete redline, skip backward if (rPam.Start()->nNode.GetIndex() + nOffset < 1) { return false; // can't move } SwNode const* pNode(GetNodes()[rPam.Start()->nNode.GetIndex() + nOffset]); if ( pNode->GetRedlineMergeFlag() != SwNode::Merge::None && pNode->GetRedlineMergeFlag() != SwNode::Merge::First) { for ( ; ; --nOffset) { pNode = GetNodes()[rPam.Start()->nNode.GetIndex() + nOffset]; if (pNode->IsTextNode()) { nodes = GetFirstAndLastNode(*pLayout, *pNode->GetTextNode()); assert(nodes.first && nodes.second); nOffset -= pNode->GetIndex() - nodes.first->GetIndex(); // on first break; } } } } } return MoveParagraphImpl(rPam, nOffset, bIsOutlMv, pLayout); } bool SwDoc::MoveParagraphImpl(SwPaM& rPam, long const nOffset, bool const bIsOutlMv, SwRootFrame const*const pLayout) { const SwPosition *pStt = rPam.Start(), *pEnd = rPam.End(); sal_uLong nStIdx = pStt->nNode.GetIndex(); sal_uLong nEndIdx = pEnd->nNode.GetIndex(); // Here are some sophisticated checks whether the wished PaM will be moved or not. // For moving outlines (bIsOutlMv) I've already done some checks, so here are two different // checks... SwNode *pTmp1; SwNode *pTmp2; if( bIsOutlMv ) { // For moving chapters (outline) the following reason will deny the move: // if a start node is inside the moved range and its end node outside or vice versa. // If a start node is the first moved paragraph, its end node has to be within the moved // range, too (e.g. as last node). // If an end node is the last node of the moved range, its start node has to be a part of // the moved section, too. pTmp1 = GetNodes()[ nStIdx ]; if( pTmp1->IsStartNode() ) { // First is a start node pTmp2 = pTmp1->EndOfSectionNode(); if( pTmp2->GetIndex() > nEndIdx ) return false; // Its end node is behind the moved range } pTmp1 = pTmp1->StartOfSectionNode()->EndOfSectionNode(); if( pTmp1->GetIndex() <= nEndIdx ) return false; // End node inside but start node before moved range => no. pTmp1 = GetNodes()[ nEndIdx ]; if( pTmp1->IsEndNode() ) { // The last one is an end node pTmp1 = pTmp1->StartOfSectionNode(); if( pTmp1->GetIndex() < nStIdx ) return false; // Its start node is before the moved range. } pTmp1 = pTmp1->StartOfSectionNode(); if( pTmp1->GetIndex() >= nStIdx ) return false; // A start node which ends behind the moved range => no. } sal_uLong nInStIdx, nInEndIdx; long nOffs = nOffset; if( nOffset > 0 ) { nInEndIdx = nEndIdx; nEndIdx += nOffset; ++nOffs; } else { // Impossible to move to negative index if( o3tl::make_unsigned(std::abs( nOffset )) > nStIdx) return false; nInEndIdx = nStIdx - 1; nStIdx += nOffset; } nInStIdx = nInEndIdx + 1; // The following paragraphs shall be swapped: // Swap [ nStIdx, nInEndIdx ] with [ nInStIdx, nEndIdx ] if( nEndIdx >= GetNodes().GetEndOfContent().GetIndex() ) return false; if( !bIsOutlMv ) { // And here the restrictions for moving paragraphs other than chapters (outlines) // The plan is to exchange [nStIdx,nInEndIdx] and [nStartIdx,nEndIdx] // It will checked if the both "start" nodes as well as the both "end" notes belongs to // the same start-end-section. This is more restrictive than the conditions checked above. // E.g. a paragraph will not escape from a section or be inserted to another section. pTmp1 = GetNodes()[ nStIdx ]->StartOfSectionNode(); pTmp2 = GetNodes()[ nInStIdx ]->StartOfSectionNode(); if( pTmp1 != pTmp2 ) return false; // "start" nodes in different sections pTmp1 = GetNodes()[ nEndIdx ]; bool bIsEndNode = pTmp1->IsEndNode(); if( !pTmp1->IsStartNode() ) { pTmp1 = pTmp1->StartOfSectionNode(); if( bIsEndNode ) // For end nodes the first start node is of course inside the range, pTmp1 = pTmp1->StartOfSectionNode(); // I've to check the start node of the start node. } pTmp1 = pTmp1->EndOfSectionNode(); pTmp2 = GetNodes()[ nInEndIdx ]; if( !pTmp2->IsStartNode() ) { bIsEndNode = pTmp2->IsEndNode(); pTmp2 = pTmp2->StartOfSectionNode(); if( bIsEndNode ) pTmp2 = pTmp2->StartOfSectionNode(); } pTmp2 = pTmp2->EndOfSectionNode(); if( pTmp1 != pTmp2 ) return false; // The "end" notes are in different sections } // Test for Redlining - Can the Selection be moved at all, actually? if( !getIDocumentRedlineAccess().IsIgnoreRedline() ) { SwRedlineTable::size_type nRedlPos = getIDocumentRedlineAccess().GetRedlinePos( pStt->nNode.GetNode(), RedlineType::Delete ); if( SwRedlineTable::npos != nRedlPos ) { SwPosition aStPos( *pStt ), aEndPos( *pEnd ); aStPos.nContent = 0; SwContentNode* pCNd = pEnd->nNode.GetNode().GetContentNode(); aEndPos.nContent = pCNd ? pCNd->Len() : 1; bool bCheckDel = true; // There is a some Redline Delete Object for the range for( ; nRedlPos < getIDocumentRedlineAccess().GetRedlineTable().size(); ++nRedlPos ) { const SwRangeRedline* pTmp = getIDocumentRedlineAccess().GetRedlineTable()[ nRedlPos ]; if( !bCheckDel || RedlineType::Delete == pTmp->GetType() ) { const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End(); switch( ComparePosition( *pRStt, *pREnd, aStPos, aEndPos )) { case SwComparePosition::CollideStart: case SwComparePosition::Behind: // Pos1 comes after Pos2 nRedlPos = getIDocumentRedlineAccess().GetRedlineTable().size(); break; case SwComparePosition::CollideEnd: case SwComparePosition::Before: // Pos1 comes before Pos2 break; case SwComparePosition::Inside: // Pos1 is completely inside Pos2 // that's valid, but check all following for overlapping bCheckDel = false; break; case SwComparePosition::Outside: // Pos2 is completely inside Pos1 case SwComparePosition::Equal: // Pos1 is equal to Pos2 case SwComparePosition::OverlapBefore: // Pos1 overlaps Pos2 in the beginning case SwComparePosition::OverlapBehind: // Pos1 overlaps Pos2 at the end return false; } } } } } { // Send DataChanged before moving. We then can detect // which objects are still in the range. // After the move they could come before/after the // Position. SwDataChanged aTmp( rPam ); } SwNodeIndex aIdx( nOffset > 0 ? pEnd->nNode : pStt->nNode, nOffs ); SwNodeRange aMvRg( pStt->nNode, 0, pEnd->nNode, +1 ); SwRangeRedline* pOwnRedl = nullptr; if( getIDocumentRedlineAccess().IsRedlineOn() ) { // If the range is completely in the own Redline, we can move it! SwRedlineTable::size_type nRedlPos = getIDocumentRedlineAccess().GetRedlinePos( pStt->nNode.GetNode(), RedlineType::Insert ); if( SwRedlineTable::npos != nRedlPos ) { SwRangeRedline* pTmp = getIDocumentRedlineAccess().GetRedlineTable()[ nRedlPos ]; const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End(); SwRangeRedline aTmpRedl( RedlineType::Insert, rPam ); const SwContentNode* pCEndNd = pEnd->nNode.GetNode().GetContentNode(); // Is completely in the range and is the own Redline too? if( aTmpRedl.IsOwnRedline( *pTmp ) && (pRStt->nNode < pStt->nNode || (pRStt->nNode == pStt->nNode && !pRStt->nContent.GetIndex()) ) && (pEnd->nNode < pREnd->nNode || (pEnd->nNode == pREnd->nNode && pCEndNd ? pREnd->nContent.GetIndex() == pCEndNd->Len() : !pREnd->nContent.GetIndex() )) ) { pOwnRedl = pTmp; if( nRedlPos + 1 < getIDocumentRedlineAccess().GetRedlineTable().size() ) { pTmp = getIDocumentRedlineAccess().GetRedlineTable()[ nRedlPos+1 ]; if( *pTmp->Start() == *pREnd ) // then don't! pOwnRedl = nullptr; } if( pOwnRedl && !( pRStt->nNode <= aIdx && aIdx <= pREnd->nNode )) { // it's not in itself, so don't move it pOwnRedl = nullptr; } } } if( !pOwnRedl ) { GetIDocumentUndoRedo().StartUndo( SwUndoId::START, nullptr ); // First the Insert, then the Delete SwPosition aInsPos( aIdx ); aInsPos.nContent.Assign( aIdx.GetNode().GetContentNode(), 0 ); SwPaM aPam( pStt->nNode, 0, aMvRg.aEnd, 0 ); SwPaM& rOrigPam(rPam); rOrigPam.DeleteMark(); rOrigPam.GetPoint()->nNode = aIdx.GetIndex() - 1; rOrigPam.GetPoint()->nContent.Assign( rOrigPam.GetContentNode(), 0 ); bool bDelLastPara = !aInsPos.nNode.GetNode().IsContentNode(); /* When copying to a non-content node Copy will insert a paragraph before that node and insert before that inserted node. Copy creates an SwUndoInserts that does not cover the extra paragraph. Thus we insert the extra paragraph ourselves, _with_ correct undo information. */ if (bDelLastPara) { /* aInsPos points to the non-content node. Move it to the previous content node. */ SwPaM aInsPam(aInsPos); const bool bMoved = aInsPam.Move(fnMoveBackward); OSL_ENSURE(bMoved, "No content node found!"); if (bMoved) { /* Append the new node after the content node found. The new position to insert the moved paragraph at is before the inserted paragraph. */ getIDocumentContentOperations().AppendTextNode(*aInsPam.GetPoint()); aInsPos = *aInsPam.GetPoint(); } } --aIdx; // move before insertion getIDocumentContentOperations().CopyRange(aPam, aInsPos, SwCopyFlags::CheckPosInFly); // now delete all the delete redlines that were copied #ifndef NDEBUG size_t nRedlines(getIDocumentRedlineAccess().GetRedlineTable().size()); #endif if (nOffset > 0) assert(aPam.End()->nNode.GetIndex() - aPam.Start()->nNode.GetIndex() + nOffset == aInsPos.nNode.GetIndex() - aPam.End()->nNode.GetIndex()); else assert(aPam.Start()->nNode.GetIndex() - aPam.End()->nNode.GetIndex() + nOffset == aInsPos.nNode.GetIndex() - aPam.End()->nNode.GetIndex()); SwRedlineTable::size_type i; getIDocumentRedlineAccess().GetRedline(*aPam.End(), &i); for ( ; 0 < i; --i) { // iterate backwards and offset via the start nodes difference SwRangeRedline const*const pRedline = getIDocumentRedlineAccess().GetRedlineTable()[i - 1]; if (*pRedline->End() < *aPam.Start()) { break; } if (pRedline->GetType() == RedlineType::Delete) { assert(*aPam.Start() <= *pRedline->Start()); // caller's fault SwRangeRedline* pNewRedline; { SwPaM pam(*pRedline, nullptr); sal_uLong const nCurrentOffset( aIdx.GetIndex() + 1 - aPam.Start()->nNode.GetIndex()); pam.GetPoint()->nNode += nCurrentOffset; pam.GetPoint()->nContent.Assign(pam.GetPoint()->nNode.GetNode().GetContentNode(), pam.GetPoint()->nContent.GetIndex()); pam.GetMark()->nNode += nCurrentOffset; pam.GetMark()->nContent.Assign(pam.GetMark()->nNode.GetNode().GetContentNode(), pam.GetMark()->nContent.GetIndex()); pNewRedline = new SwRangeRedline( RedlineType::Delete, pam ); } // note: effectively this will DeleteAndJoin the pam! getIDocumentRedlineAccess().AppendRedline(pNewRedline, true); assert(getIDocumentRedlineAccess().GetRedlineTable().size() <= nRedlines); } } if( bDelLastPara ) { // We need to remove the last empty Node again aIdx = aInsPos.nNode; SwContentNode* pCNd = SwNodes::GoPrevious( &aInsPos.nNode ); aInsPos.nContent.Assign( pCNd, pCNd ? pCNd->Len() : 0 ); // All, that are in the to-be-deleted Node, need to be // moved to the next Node for(SwRangeRedline* pTmp : getIDocumentRedlineAccess().GetRedlineTable()) { SwPosition* pPos = &pTmp->GetBound(); if( pPos->nNode == aIdx ) { ++pPos->nNode; pPos->nContent.Assign( pPos->nNode.GetNode().GetContentNode(),0); } pPos = &pTmp->GetBound(false); if( pPos->nNode == aIdx ) { ++pPos->nNode; pPos->nContent.Assign( pPos->nNode.GetNode().GetContentNode(),0); } } CorrRel( aIdx, aInsPos ); if (pCNd) pCNd->JoinNext(); } ++rOrigPam.GetPoint()->nNode; rOrigPam.GetPoint()->nContent.Assign( rOrigPam.GetContentNode(), 0 ); assert(*aPam.GetMark() < *aPam.GetPoint()); if (aPam.GetPoint()->nNode.GetNode().IsEndNode()) { // ensure redline ends on content node --aPam.GetPoint()->nNode; assert(aPam.GetPoint()->nNode.GetNode().IsTextNode()); SwTextNode *const pNode(aPam.GetPoint()->nNode.GetNode().GetTextNode()); aPam.GetPoint()->nContent.Assign(pNode, pNode->Len()); } RedlineFlags eOld = getIDocumentRedlineAccess().GetRedlineFlags(); if (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 DeleteAndJoin"); getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::On | RedlineFlags::ShowInsert | RedlineFlags::ShowDelete ); GetIDocumentUndoRedo().AppendUndo( std::make_unique(aPam, SwUndoId::DELETE)); } SwRangeRedline* pNewRedline = new SwRangeRedline( RedlineType::Delete, aPam ); // prevent assertion from aPam's target being deleted // (Alternatively, one could just let aPam go out of scope, but // that requires touching a lot of code.) aPam.GetBound().nContent.Assign( nullptr, 0 ); aPam.GetBound(false).nContent.Assign( nullptr, 0 ); getIDocumentRedlineAccess().AppendRedline( pNewRedline, true ); aPam.GetBound().nContent.Assign(aPam.GetBound().nNode.GetNode().GetContentNode(), 0); aPam.GetBound(false).nContent.Assign(aPam.GetBound(false).nNode.GetNode().GetContentNode(), 0); sw::UpdateFramesForAddDeleteRedline(*this, aPam); getIDocumentRedlineAccess().SetRedlineFlags( eOld ); GetIDocumentUndoRedo().EndUndo( SwUndoId::END, nullptr ); getIDocumentState().SetModified(); return true; } } if( !pOwnRedl && !getIDocumentRedlineAccess().IsIgnoreRedline() && !getIDocumentRedlineAccess().GetRedlineTable().empty() ) { SwPaM aTemp(aIdx); getIDocumentRedlineAccess().SplitRedline(aTemp); } sal_uLong nRedlSttNd(0), nRedlEndNd(0); if( pOwnRedl ) { const SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End(); nRedlSttNd = pRStt->nNode.GetIndex(); nRedlEndNd = pREnd->nNode.GetIndex(); } std::unique_ptr pUndo; sal_uLong nMoved = 0; if (GetIDocumentUndoRedo().DoesUndo()) { pUndo.reset(new SwUndoMoveNum( rPam, nOffset, bIsOutlMv )); nMoved = rPam.End()->nNode.GetIndex() - rPam.Start()->nNode.GetIndex() + 1; } (void) pLayout; // note: move will insert between aIdx-1 and aIdx assert(!pLayout // check not moving *into* delete redline (caller's fault) || aIdx.GetNode().GetRedlineMergeFlag() == SwNode::Merge::None || aIdx.GetNode().GetRedlineMergeFlag() == SwNode::Merge::First); getIDocumentContentOperations().MoveNodeRange( aMvRg, aIdx, SwMoveFlags::REDLINES ); if( pUndo ) { // i57907: Under circumstances (sections at the end of a chapter) // the rPam.Start() is not moved to the new position. // But aIdx should be at the new end position and as long as the // number of moved paragraphs is nMoved, I know, where the new // position is. pUndo->SetStartNode( aIdx.GetIndex() - nMoved ); GetIDocumentUndoRedo().AppendUndo(std::move(pUndo)); } if( pOwnRedl ) { SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End(); if( pRStt->nNode.GetIndex() != nRedlSttNd ) { pRStt->nNode = nRedlSttNd; pRStt->nContent.Assign( pRStt->nNode.GetNode().GetContentNode(),0); } if( pREnd->nNode.GetIndex() != nRedlEndNd ) { pREnd->nNode = nRedlEndNd; SwContentNode* pCNd = pREnd->nNode.GetNode().GetContentNode(); pREnd->nContent.Assign( pCNd, pCNd ? pCNd->Len() : 0 ); } } getIDocumentState().SetModified(); return true; } bool SwDoc::NumOrNoNum( const SwNodeIndex& rIdx, bool bDel ) { bool bResult = false; SwTextNode * pTextNd = rIdx.GetNode().GetTextNode(); if (pTextNd && pTextNd->GetNumRule() != nullptr && (pTextNd->HasNumber() || pTextNd->HasBullet())) { if ( !pTextNd->IsCountedInList() == !bDel) { bool bOldNum = bDel; bool bNewNum = !bDel; pTextNd->SetCountedInList(bNewNum); getIDocumentState().SetModified(); bResult = true; if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(rIdx, bOldNum, bNewNum)); } } else if (bDel && pTextNd->GetNumRule(false) && pTextNd->GetActualListLevel() >= 0 && pTextNd->GetActualListLevel() < MAXLEVEL) { SwPaM aPam(*pTextNd); DelNumRules(aPam); bResult = true; } } return bResult; } SwNumRule* SwDoc::GetNumRuleAtPos(SwPosition& rPos, SwRootFrame const*const pLayout) { SwNumRule* pRet = nullptr; SwTextNode* pTNd = rPos.nNode.GetNode().GetTextNode(); if ( pTNd != nullptr ) { if (pLayout && !sw::IsParaPropsNode(*pLayout, *pTNd)) { pTNd = static_cast(pTNd->getLayoutFrame(pLayout))->GetMergedPara()->pParaPropsNode; rPos.nNode = *pTNd; rPos.nContent.Assign(pTNd, 0); } pRet = pTNd->GetNumRule(); } return pRet; } sal_uInt16 SwDoc::FindNumRule( const OUString& rName ) const { for( sal_uInt16 n = mpNumRuleTable->size(); n; ) if( (*mpNumRuleTable)[ --n ]->GetName() == rName ) return n; return USHRT_MAX; } SwNumRule* SwDoc::FindNumRulePtr( const OUString& rName ) const { SwNumRule * pResult = maNumRuleMap[rName]; if ( !pResult ) { for (size_t n = 0; n < mpNumRuleTable->size(); ++n) { if ((*mpNumRuleTable)[n]->GetName() == rName) { pResult = (*mpNumRuleTable)[n]; break; } } } return pResult; } void SwDoc::AddNumRule(SwNumRule * pRule) { if ((SAL_MAX_UINT16 - 1) <= mpNumRuleTable->size()) { OSL_ENSURE(false, "SwDoc::AddNumRule: table full."); abort(); // this should never happen on real documents } mpNumRuleTable->push_back(pRule); maNumRuleMap[pRule->GetName()] = pRule; pRule->SetNumRuleMap(&maNumRuleMap); getIDocumentListsAccess().createListForListStyle( pRule->GetName() ); } sal_uInt16 SwDoc::MakeNumRule( const OUString &rName, const SwNumRule* pCpy, bool bBroadcast, const SvxNumberFormat::SvxNumPositionAndSpaceMode eDefaultNumberFormatPositionAndSpaceMode ) { SwNumRule* pNew; if( pCpy ) { pNew = new SwNumRule( *pCpy ); pNew->SetName( GetUniqueNumRuleName( &rName ), getIDocumentListsAccess() ); if( pNew->GetName() != rName ) { pNew->SetPoolFormatId( USHRT_MAX ); pNew->SetPoolHelpId( USHRT_MAX ); pNew->SetPoolHlpFileId( UCHAR_MAX ); pNew->SetDefaultListId( OUString() ); } pNew->CheckCharFormats( this ); } else { pNew = new SwNumRule( GetUniqueNumRuleName( &rName ), eDefaultNumberFormatPositionAndSpaceMode ); } sal_uInt16 nRet = mpNumRuleTable->size(); AddNumRule(pNew); if (GetIDocumentUndoRedo().DoesUndo()) { GetIDocumentUndoRedo().AppendUndo( std::make_unique(pNew, this)); } if (bBroadcast) BroadcastStyleOperation(pNew->GetName(), SfxStyleFamily::Pseudo, SfxHintId::StyleSheetCreated); return nRet; } OUString SwDoc::GetUniqueNumRuleName( const OUString* pChkStr, bool bAutoNum ) const { // If we got pChkStr, then the caller expects that in case it's not yet // used, it'll be returned. if( IsInMailMerge() && !pChkStr ) { OUString newName = "MailMergeNumRule" + OStringToOUString( DateTimeToOString( DateTime( DateTime::SYSTEM )), RTL_TEXTENCODING_ASCII_US ) + OUString::number( mpNumRuleTable->size() + 1 ); return newName; } OUString aName; if( bAutoNum ) { static bool bHack = (getenv("LIBO_ONEWAY_STABLE_ODF_EXPORT") != nullptr); if (bHack) { static sal_Int64 nIdCounter = SAL_CONST_INT64(8000000000); aName = OUString::number(nIdCounter++); } else { unsigned int const n(comphelper::rng::uniform_uint_distribution(0, std::numeric_limits::max())); aName = OUString::number(n); } if( pChkStr && pChkStr->isEmpty() ) pChkStr = nullptr; } else if( pChkStr && !pChkStr->isEmpty() ) aName = *pChkStr; else { pChkStr = nullptr; aName = SwResId( STR_NUMRULE_DEFNAME ); } sal_uInt16 nNum(0), nTmp, nFlagSize = ( mpNumRuleTable->size() / 8 ) +2; std::unique_ptr pSetFlags(new sal_uInt8[ nFlagSize ]); memset( pSetFlags.get(), 0, nFlagSize ); sal_Int32 nNmLen = aName.getLength(); if( !bAutoNum && pChkStr ) { while( nNmLen-- && '0' <= aName[nNmLen] && aName[nNmLen] <= '9' ) ; //nop if( ++nNmLen < aName.getLength() ) { aName = aName.copy(0, nNmLen ); pChkStr = nullptr; } } for( auto const & pNumRule: *mpNumRuleTable ) if( nullptr != pNumRule ) { const OUString sNm = pNumRule->GetName(); if( sNm.startsWith( aName ) ) { // Determine Number and set the Flag nNum = static_cast(sNm.copy( nNmLen ).toInt32()); if( nNum-- && nNum < mpNumRuleTable->size() ) pSetFlags[ nNum / 8 ] |= (0x01 << ( nNum & 0x07 )); } if( pChkStr && *pChkStr==sNm ) pChkStr = nullptr; } if( !pChkStr ) { // All Numbers have been flagged accordingly, so identify the right Number nNum = mpNumRuleTable->size(); for( sal_uInt16 n = 0; n < nFlagSize; ++n ) if( 0xff != ( nTmp = pSetFlags[ n ] )) { // identify the Number nNum = n * 8; while( nTmp & 1 ) { ++nNum; nTmp >>= 1; } break; } } if( pChkStr && !pChkStr->isEmpty() ) return *pChkStr; return aName + OUString::number( ++nNum ); } void SwDoc::UpdateNumRule() { const SwNumRuleTable& rNmTable = GetNumRuleTable(); for( size_t n = 0; n < rNmTable.size(); ++n ) if( rNmTable[ n ]->IsInvalidRule() ) rNmTable[ n ]->Validate(); } void SwDoc::MarkListLevel( const OUString& sListId, const int nListLevel, const bool bValue ) { SwList* pList = getIDocumentListsAccess().getListByName( sListId ); if ( pList ) { // Set new marked list level and notify all affected nodes of the changed mark. pList->MarkListLevel( nListLevel, bValue ); } } bool SwDoc::IsFirstOfNumRuleAtPos(const SwPosition & rPos, SwRootFrame const& rLayout) { bool bResult = false; const SwTextNode *const pTextNode = sw::GetParaPropsNode(rLayout, rPos.nNode); if ( pTextNode != nullptr ) { bResult = pTextNode->IsFirstOfNumRule(rLayout); } return bResult; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */