/************************************************************************* * * OpenOffice.org - a multi-platform office productivity suite * * $RCSfile: docnum.cxx,v $ * * $Revision: 1.71 $ * * last change: $Author: obo $ $Date: 2008-02-26 10:37:38 $ * * The Contents of this file are made available subject to * the terms of GNU Lesser General Public License Version 2.1. * * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2005 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sw.hxx" #ifndef _HINTIDS_HXX #include #endif #ifndef _DATE_HXX //autogen #include #endif #ifndef _TIME_HXX //autogen #include #endif #ifndef _TOOLS_RESID_HXX //autogen #include #endif #ifndef _SVX_LRSPITEM_HXX //autogen #include #endif #ifndef _FTNINFO_HXX //autogen #include #endif #ifndef _FTNIDX_HXX //autogen #include #endif #ifndef _DOC_HXX #include #endif #ifndef _PAM_HXX #include #endif #ifndef _NDTXT_HXX #include #endif #ifndef _DOCTXM_HXX #include // pTOXBaseRing #endif #ifndef _POOLFMT_HXX #include #endif #ifndef _UNDOBJ_HXX #include #endif #ifndef _SWUNDO_HXX #include #endif #ifndef _SW_UNDO_TXT_FMT_COLL_HXX #include #endif #ifndef _ROLBCK_HXX #include #endif #ifndef _PARATR_HXX #include #endif #ifndef _DOCARY_HXX #include #endif #ifndef _MVSAVE_HXX #include #endif #ifndef _TXTFRM_HXX #include #endif #ifndef _PAMTYP_HXX #include #endif #ifndef _REDLINE_HXX #include #endif #ifndef _COMCORE_HRC #include #endif #ifndef _SVX_ADJITEM_HXX #include #endif #ifndef _SVX_FRMDIRITEM_HXX #include #endif #ifndef _FRMATR_HXX #include #endif #ifndef _SWSTYLENAMEMAPPER_HXX #include #endif #include using std::map; inline BYTE GetUpperLvlChg( BYTE nCurLvl, BYTE nLevel, USHORT nMask ) { if( 1 < nLevel ) { if( nCurLvl + 1 >= nLevel ) nCurLvl -= nLevel - 1; else nCurLvl = 0; } return static_cast((nMask - 1) & ~(( 1 << nCurLvl ) - 1)); } // --> OD 2005-11-02 #i51089 - TUNING# // The only and only outline numbering rule is the outline numbering rule // found in member . Thus, implement this method inline. // Note: is created in //SwNumRule * SwDoc::GetOutlineNumRule() const //{ // SwNumRule * pResult = NULL; // if (pNumRuleTbl) // { // for (USHORT nI = 0; nI < pNumRuleTbl->Count(); nI++) // if ((*pNumRuleTbl)[nI]->GetName() == // String(SwNumRule::GetOutlineRuleName(), // RTL_TEXTENCODING_ASCII_US)) // { // pResult = (*pNumRuleTbl)[nI]; // } // } // return pResult; //} // <-- void SwDoc::SetOutlineNumRule( const SwNumRule& rRule ) { if( pOutlineRule ) (*pOutlineRule) = rRule; else { pOutlineRule = new SwNumRule( rRule ); AddNumRule(pOutlineRule); // #i36749# } pOutlineRule->SetRuleType( OUTLINE_RULE ); pOutlineRule->SetName( String::CreateFromAscii( SwNumRule::GetOutlineRuleName() )); // --> OD 2006-09-21 #i69522# // assure that the outline numbering rule is an automatic rule pOutlineRule->SetAutoRule( TRUE ); // <-- // teste ob die evt. gesetzen CharFormate in diesem Document // definiert sind pOutlineRule->CheckCharFmts( this ); PropagateOutlineRule(); pOutlineRule->SetInvalidRule(TRUE); UpdateNumRule(); // gibt es Fussnoten && gilt Kapitelweises Nummerieren, dann updaten if( GetFtnIdxs().Count() && FTNNUM_CHAPTER == GetFtnInfo().eNum ) GetFtnIdxs().UpdateAllFtn(); UpdateExpFlds(NULL, true); SetModified(); } void SwDoc::PropagateOutlineRule() { for (USHORT n = 0; n < pTxtFmtCollTbl->Count(); n++) { SwTxtFmtColl *pColl = (*pTxtFmtCollTbl)[n]; if (NO_NUMBERING != pColl->GetOutlineLevel()) { SwClientIter aIter(*pColl); // --> OD 2006-11-20 #i71764# // Check only the list style, which is set at the paragraph style const SwNumRuleItem & rCollRuleItem = pColl->GetNumRule( FALSE ); // <-- // --> OD 2006-11-20 #i71764# // Check on document setting OUTLINE_LEVEL_YIELDS_OUTLINE_RULE no longer needed. if ( rCollRuleItem.GetValue().Len() == 0 ) // <-- { SwNumRule * pMyOutlineRule = GetOutlineNumRule(); if (pMyOutlineRule) { SwNumRuleItem aNumItem( pMyOutlineRule->GetName() ); pColl->SetAttr(aNumItem); } } SwClient * pClient = aIter.First(TYPE(SwTxtNode)); while (pClient) { SwTxtNode * pTxtNode = ((SwTxtNode *) pClient); if (pTxtNode->GetOutlineLevel() == NO_NUMBERING) { BYTE nOutlineLevel = pColl->GetOutlineLevel(); if (nOutlineLevel < MAXLEVEL) { //pTxtNode->SetOutlineLevel(pColl->GetOutlineLevel()); aNodes.UpdateOutlineNode(*pTxtNode); pTxtNode->UpdateOutlineState(); } } pTxtNode->SyncNumberAndNumRule(); // --> OD 2006-01-12 #126588# - applying outline level of // paragraph style at text node, if its numbering rule is the // outline numbering rule doesn't seem to be necessary due to // the changes in . // Thus, only assert, if numbering level of text node with // outline numbering rule doesn't fit to outline level of // its paragraph style. ASSERT( pTxtNode->GetNumRule() != GetOutlineNumRule() || pTxtNode->GetLevel() == pColl->GetOutlineLevel(), " - text node doesn't have excepted numbering level" ); // SwNumRule * pCurNumRule = pTxtNode->GetNumRule(); // // --> OD 2006-01-12 #126588# // // Do not set numbering level at text node, if text node has // // no numbering rule. Because in this situation, it isn't inserted // // into any numbering tree. Thus, a isn't correct - // // it only creates an not inserted numbering tree node. // if ( pCurNumRule == GetOutlineNumRule() ) // { // pTxtNode->SetLevel(pColl->GetOutlineLevel()); // } pClient = aIter.Next(); } } } } // Hoch-/Runterstufen BOOL SwDoc::OutlineUpDown( const SwPaM& rPam, short nOffset ) { if( !GetNodes().GetOutLineNds().Count() || !nOffset ) return FALSE; // den Bereich feststellen const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds(); const SwNodePtr pSttNd = (SwNodePtr)&rPam.Start()->nNode.GetNode(); const SwNodePtr pEndNd = (SwNodePtr)&rPam.End()->nNode.GetNode(); USHORT nSttPos, nEndPos; if( !rOutlNds.Seek_Entry( pSttNd, &nSttPos ) && !nSttPos-- ) // wir stehen in keiner "Outline-Section" return FALSE; if( rOutlNds.Seek_Entry( pEndNd, &nEndPos ) ) ++nEndPos; // jetzt haben wir unseren Bereich im OutlineNodes-Array // dann prufe ersmal, ob nicht unterebenen aufgehoben werden // (Stufung ueber die Grenzen) USHORT n; // so, dann koennen wir: // 1. Vorlagen-Array anlegen SwTxtFmtColl* aCollArr[ MAXLEVEL ]; memset( aCollArr, 0, sizeof( SwTxtFmtColl* ) * MAXLEVEL ); for( n = 0; n < pTxtFmtCollTbl->Count(); ++n ) { BYTE nLevel = (*pTxtFmtCollTbl)[ n ]->GetOutlineLevel(); if( nLevel < MAXLEVEL ) aCollArr[ nLevel ] = (*pTxtFmtCollTbl)[ n ]; } /* --> #111107# */ /* Find the last occupied level (backward). */ for (n = MAXLEVEL - 1; n > 0; n--) { if (aCollArr[n] != 0) 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] != 0) { while (n < MAXLEVEL - 1) { n++; SwTxtFmtColl *aTmpColl = GetTxtCollFromPool(static_cast(RES_POOLCOLL_HEADLINE1 + n)); if (aTmpColl->GetOutlineLevel() == n) { aCollArr[n] = aTmpColl; break; } } } /* Find the first occupied level (forward). */ for (n = 0; n < MAXLEVEL - 1; n++) { if (aCollArr[n] != 0) 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] != 0) { while (n > 0) { n--; SwTxtFmtColl *aTmpColl = GetTxtCollFromPool(static_cast(RES_POOLCOLL_HEADLINE1 + n)); if (aTmpColl->GetOutlineLevel() == n) { aCollArr[n] = aTmpColl; break; } } } /* <-- #111107# */ /* --> #i13747# Build a move table that states from which level an outline will be moved to which other level. */ /* 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] != NULL) { USHORT m = n; int nCount = nNum; while (nCount > 0 && m + nStep >= 0 && m + nStep < MAXLEVEL) { m = static_cast(m + nStep); if (aCollArr[m] != NULL) 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 occuring in the document there has to be a valid target outline level implied by aMoveArr. */ bool bMoveApplicable = true; for (n = nSttPos; n < nEndPos; n++) { SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode(); SwTxtFmtColl* pColl = pTxtNd->GetTxtColl(); int nLevel = pColl->GetOutlineLevel(); if (aMoveArr[nLevel] == -1) bMoveApplicable = false; } if (! bMoveApplicable ) return FALSE; /* <-- #i13747 # */ if( DoesUndo() ) { ClearRedo(); StartUndo(UNDO_OUTLINE_LR, NULL); AppendUndo( new SwUndoOutlineLeftRight( rPam, nOffset ) ); } // 2. allen Nodes die neue Vorlage zuweisen n = nSttPos; while( n < nEndPos) { SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode(); SwTxtFmtColl* pColl = pTxtNd->GetTxtColl(); ASSERT(pColl->GetOutlineLevel() < MAXLEVEL, "non outline node in outline nodes?"); int nLevel = pColl->GetOutlineLevel(); ASSERT(aMoveArr[nLevel] >= 0, "move table: current TxtColl not found when building table!"); if (nLevel < MAXLEVEL && aMoveArr[nLevel] >= 0) { pColl = aCollArr[ aMoveArr[nLevel] ]; if (pColl != NULL) pColl = (SwTxtFmtColl*)pTxtNd->ChgFmtColl( pColl ); } n++; // Undo ??? } if (DoesUndo()) EndUndo(UNDO_OUTLINE_LR, NULL); ChkCondColls(); SetModified(); return TRUE; } // Hoch-/Runter - Verschieben ! BOOL SwDoc::MoveOutlinePara( const SwPaM& rPam, short nOffset ) { // kein Verschiebung in den Sonderbereichen const SwPosition& rStt = *rPam.Start(), & rEnd = &rStt == rPam.GetPoint() ? *rPam.GetMark() : *rPam.GetPoint(); if( !GetNodes().GetOutLineNds().Count() || !nOffset || rStt.nNode.GetIndex() < aNodes.GetEndOfExtras().GetIndex() || rEnd.nNode.GetIndex() < aNodes.GetEndOfExtras().GetIndex() ) return FALSE; USHORT nAktPos = 0; SwNodeIndex aSttRg( rStt.nNode ), aEndRg( rEnd.nNode ); BYTE nOutLineLevel = NO_NUMBERING; SwNode* pSrch = &aSttRg.GetNode(); if( pSrch->IsTxtNode() ) nOutLineLevel = static_cast(((SwTxtNode*)pSrch)->GetOutlineLevel()); SwNode* pEndSrch = &aEndRg.GetNode(); if( !GetNodes().GetOutLineNds().Seek_Entry( pSrch, &nAktPos ) ) { if( !nAktPos ) return FALSE; // Promoting or demoting before the first outline => no. if( --nAktPos ) aSttRg = *GetNodes().GetOutLineNds()[ nAktPos ]; else if( 0 > nOffset ) return FALSE; // Promoting at the top of document?! else aSttRg = *GetNodes().GetEndOfContent().StartOfSectionNode(); } USHORT 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 choosen 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->IsTxtNode() || pEndSrch == pSrch || nOutLineLevel < ((SwTxtNode*)pEndSrch)->GetOutlineLevel() ) ++nTmpPos; // For sub outlines only! } aEndRg = nTmpPos < GetNodes().GetOutLineNds().Count() ? *GetNodes().GetOutLineNds()[ nTmpPos ] : GetNodes().GetEndOfContent(); if( nOffset >= 0 ) nAktPos = nTmpPos; if( aEndRg == aSttRg ) { ASSERT( false, "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 shrinked if the last position is a start node. // The range will be shrinked 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 && nAktPos < USHORT(-nOffset) ) pNd = GetNodes().GetEndOfContent().StartOfSectionNode(); else if( nAktPos + nOffset >= GetNodes().GetOutLineNds().Count() ) pNd = &GetNodes().GetEndOfContent(); else pNd = GetNodes().GetOutLineNds()[ nAktPos + nOffset ]; 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; ASSERT( aSttRg.GetIndex() > nNewPos || nNewPos >= aEndRg.GetIndex(), "Position liegt im MoveBereich" ); // wurde ein Position in den Sonderbereichen errechnet, dann // setze die Position auf den Dokumentanfang. // Sollten da Bereiche oder Tabellen stehen, so werden sie nach // hinten verschoben. nNewPos = Max( nNewPos, aNodes.GetEndOfExtras().GetIndex() + 2 ); long nOffs = nNewPos - ( 0 < nOffset ? aEndRg.GetIndex() : aSttRg.GetIndex()); SwPaM aPam( aSttRg, aEndRg, 0, -1 ); return MoveParagraph( aPam, nOffs, TRUE ); } USHORT lcl_FindOutlineName( const SwNodes& rNds, const String& rName, BOOL bExact ) { USHORT nSavePos = USHRT_MAX; const SwOutlineNodes& rOutlNds = rNds.GetOutLineNds(); for( USHORT n = 0; n < rOutlNds.Count(); ++n ) { SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode(); String sTxt( pTxtNd->GetExpandTxt() ); if( sTxt.Equals( rName ) ) { // "exact" gefunden, setze Pos auf den Node nSavePos = n; break; } else if( !bExact && USHRT_MAX == nSavePos && COMPARE_EQUAL == sTxt.CompareTo( rName, rName.Len()) ) { // dann vielleicht nur den den 1.Teil vom Text gefunden nSavePos = n; } } return nSavePos; } USHORT lcl_FindOutlineNum( const SwNodes& rNds, String& rName ) { // Gueltig Nummern sind (immer nur Offsets!!!): // ([Nummer]+\.)+ (als regulaerer Ausdruck!) // (Nummer gefolgt von Punkt, zum 5 Wiederholungen) // also: "1.1.", "1.", "1.1.1." xub_StrLen nPos = 0; String sNum = rName.GetToken( 0, '.', nPos ); if( STRING_NOTFOUND == nPos ) return USHRT_MAX; // ungueltige Nummer!!! USHORT nLevelVal[ MAXLEVEL ]; // Nummern aller Levels memset( nLevelVal, 0, MAXLEVEL * sizeof( nLevelVal[0] )); BYTE nLevel = 0; String sName( rName ); while( STRING_NOTFOUND != nPos ) { USHORT nVal = 0; sal_Unicode c; for( USHORT n = 0; n < sNum.Len(); ++n ) if( '0' <= ( c = sNum.GetChar( n )) && c <= '9' ) { nVal *= 10; nVal += c - '0'; } else if( nLevel ) break; // "fast" gueltige Nummer else return USHRT_MAX; // ungueltige Nummer!!! if( MAXLEVEL > nLevel ) nLevelVal[ nLevel++ ] = nVal; sName.Erase( 0, nPos ); nPos = 0; sNum = sName.GetToken( 0, '.', nPos ); // #i4533# without this check all parts delimited by a dot are treated as outline numbers if(!ByteString(sNum, gsl_getSystemTextEncoding()).IsNumericAscii()) nPos = STRING_NOTFOUND; } rName = sName; // das ist der nachfolgende Text. // alle Levels gelesen, dann suche mal im Document nach dieser // Gliederung: const SwOutlineNodes& rOutlNds = rNds.GetOutLineNds(); // OS: ohne OutlineNodes lohnt die Suche nicht // und man spart sich einen Absturz #42958# if(!rOutlNds.Count()) return USHRT_MAX; SwTxtNode* pNd; nPos = 0; //search in the existing outline nodes for the required outline num array for( ; nPos < rOutlNds.Count(); ++nPos ) { pNd = rOutlNds[ nPos ]->GetTxtNode(); BYTE nLvl = pNd->GetTxtColl()->GetOutlineLevel(); if( nLvl == nLevel - 1) { // check for the outline num // --> OD 2005-11-02 #i51089 - TUNING# // --> OD 2006-09-22 #i68289# // Assure, that text node has the correct numbering level. Otherwise, // its number vector will not fit to the searched level. // if ( pNd->GetNum() ) if ( pNd->GetNum() && pNd->GetLevel() == ( nLevel - 1 ) ) // <-- { const SwNodeNum & rNdNum = *(pNd->GetNum()); SwNodeNum::tNumberVector aLevelVal = rNdNum.GetNumberVector(); //now compare with the one searched for bool bEqual = true; for( BYTE n = 0; (n < nLevel) && bEqual; ++n ) { bEqual = aLevelVal[n] == nLevelVal[n]; } if(bEqual) { break; } } else { // --> OD 2006-01-12 #126588# // 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. ASSERT( !pNd->GetNumRule(), " - text node with outline level and numbering rule, but without numbering tree node. This is a serious defect -> inform OD" ); } } } if( nPos >= rOutlNds.Count() ) nPos = USHRT_MAX; return nPos; } // zu diesem Gliederungspunkt // JP 13.06.96: // im Namen kann eine Nummer oder/und der Text stehen. // zuerst wird ueber die Nummer versucht den richtigen Eintrag zu finden. // Gibt es diesen, dann wird ueber den Text verglichen, od es der // gewuenschte ist. Ist das nicht der Fall, wird noch mal nur ueber den // Text gesucht. Wird dieser gefunden ist es der Eintrag. Ansonsten der, // der ueber die Nummer gefunden wurde. // Ist keine Nummer angegeben, dann nur den Text suchen. BOOL SwDoc::GotoOutline( SwPosition& rPos, const String& rName ) const { if( rName.Len() ) { const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds(); // 1. Schritt: ueber die Nummer: String sName( rName ); USHORT nFndPos = ::lcl_FindOutlineNum( GetNodes(), sName ); if( USHRT_MAX != nFndPos ) { SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode(); String sExpandedText = pNd->GetExpandTxt(); //#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 USHORT nPos = 0; String sTempNum; while(sExpandedText.Len() && (sTempNum = sExpandedText.GetToken(0, '.', nPos)).Len() && STRING_NOTFOUND != nPos && ByteString(sTempNum, gsl_getSystemTextEncoding()).IsNumericAscii()) { sExpandedText.Erase(0, nPos); nPos = 0; } if( !sExpandedText.Equals( sName ) ) { USHORT nTmp = ::lcl_FindOutlineName( GetNodes(), sName, TRUE ); if( USHRT_MAX != nTmp ) // ueber den Namen gefunden { nFndPos = nTmp; pNd = rOutlNds[ nFndPos ]->GetTxtNode(); } } rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return TRUE; } nFndPos = ::lcl_FindOutlineName( GetNodes(), rName, FALSE ); if( USHRT_MAX != nFndPos ) { SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode(); rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return TRUE; } // --> OD 2006-09-22 #i68289# // additional search on hyperlink URL without its outline numbering part if ( !sName.Equals( rName ) ) { nFndPos = ::lcl_FindOutlineName( GetNodes(), sName, FALSE ); if( USHRT_MAX != nFndPos ) { SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode(); rPos.nNode = *pNd; rPos.nContent.Assign( pNd, 0 ); return TRUE; } } // <-- } return FALSE; } /* */ // --- Nummerierung ----------------------------------------- void SwNumRuleInfo::MakeList( SwDoc& rDoc, BOOL ) { SwNumRule* pRule = rDoc.FindNumRulePtr(rName); // no rule, no fun. if ( !pRule ) return; // // 1. Case: Information already available at pRule: // if (pRule->GetList()) { // copy list to own pList pointer: aList = *pRule->GetList(); return; } // // 2. Case: Information has to be generated from scratch: // if (pRule->IsOutlineRule()) { const SwOutlineNodes & rOutlineNodes = rDoc.GetNodes().GetOutLineNds(); for (USHORT i = 0; i < rOutlineNodes.Count(); ++i) { SwTxtNode & aNode = *((SwTxtNode *) rOutlineNodes[i]); if (pRule == aNode.GetNumRule()) AddNode(aNode); } } { SwModify* pMod; const SfxPoolItem* pItem; USHORT i, nMaxItems = rDoc.GetAttrPool().GetItemCount ( RES_PARATR_NUMRULE); for( i = 0; i < nMaxItems; ++i ) { pItem = rDoc.GetAttrPool().GetItem( RES_PARATR_NUMRULE, i ); if( 0 != pItem) { pMod = (SwModify*)((SwNumRuleItem*)pItem)->GetDefinedIn(); if (0 != pMod && ((SwNumRuleItem*)pItem)->GetValue().Len() && ((SwNumRuleItem*)pItem)->GetValue() == rName ) { if( pMod->IsA( TYPE( SwFmt )) ) pMod->GetInfo( *this ); else { SwTxtNode* pModTxtNode = (SwTxtNode*)pMod; // #115901# if( pModTxtNode->GetNodes().IsDocNodes()) { AddNode( *pModTxtNode ); } } } } } } // --> FME 2004-11-03 #i36571# The numrule and this info structure should // have different instances of the list: // --> OD 2006-09-12 #i69145# // method copies content of list provided by the parameter pRule->SetList( aList ); // <-- } void lcl_ChgNumRule( SwDoc& rDoc, const SwNumRule& rRule ) { SwNumRule* pOld = rDoc.FindNumRulePtr( rRule.GetName() ); ASSERT( pOld, "ohne die alte NumRule geht gar nichts" ); USHORT nChkLevel = 0, nChgFmtLevel = 0, nMask = 1; BYTE n; for( n = 0; n < MAXLEVEL; ++n, nMask <<= 1 ) { const SwNumFmt& rOldFmt = pOld->Get( n ), & rNewFmt = rRule.Get( n ); if( rOldFmt != rNewFmt ) { nChgFmtLevel |= nMask; if( rOldFmt.GetAbsLSpace() != rNewFmt.GetAbsLSpace() || rOldFmt.GetFirstLineOffset() != rNewFmt.GetFirstLineOffset() ) nChkLevel |= nMask; } else if( SVX_NUM_NUMBER_NONE > rNewFmt.GetNumberingType() && 1 < rNewFmt.GetIncludeUpperLevels() && 0 != (nChgFmtLevel & GetUpperLvlChg( n, rNewFmt.GetIncludeUpperLevels(),nMask )) ) nChgFmtLevel |= nMask; } if( !nChgFmtLevel ) // es wurde nichts veraendert? { // --> OD 2006-04-27 #i64311# const bool bInvalidateNumRule( pOld->IsContinusNum() != rRule.IsContinusNum() ); // <-- pOld->CheckCharFmts( &rDoc ); pOld->SetContinusNum( rRule.IsContinusNum() ); pOld->SetRuleType( rRule.GetRuleType() ); // --> OD 2006-04-27 #i64311# if ( bInvalidateNumRule ) { pOld->SetInvalidRule(TRUE); } // <-- return ; } SwNumRuleInfo* pUpd = new SwNumRuleInfo( rRule.GetName() ); pUpd->MakeList( rDoc ); BYTE nLvl; for( ULONG nFirst = 0, nLast = pUpd->GetList().Count(); nFirst < nLast; ++nFirst ) { SwTxtNode* pTxtNd = pUpd->GetList().GetObject( nFirst ); nLvl = static_cast(pTxtNd->GetLevel()); if( nLvl < MAXLEVEL ) { if( nChgFmtLevel & ( 1 << nLvl )) { pTxtNd->NumRuleChgd(); } } } for( n = 0; n < MAXLEVEL; ++n ) if( nChgFmtLevel & ( 1 << n )) pOld->Set( n, rRule.GetNumFmt( n )); pOld->CheckCharFmts( &rDoc ); pOld->SetInvalidRule(TRUE); pOld->SetContinusNum( rRule.IsContinusNum() ); pOld->SetRuleType( rRule.GetRuleType() ); delete pUpd; rDoc.UpdateNumRule(); } void SwDoc::SetNumRule( const SwPaM& rPam, const SwNumRule& rRule, sal_Bool bSetItem ) { SwUndoInsNum * pUndo = NULL; if (DoesUndo()) { ClearRedo(); StartUndo( UNDO_INSNUM, NULL ); // Klammerung fuer die Attribute! AppendUndo( pUndo = new SwUndoInsNum( rPam, rRule ) ); } SwNumRule * pNew = FindNumRulePtr( rRule.GetName() ); bool bUpdateRule = false; if( !pNew ) { pNew = (*pNumRuleTbl)[ MakeNumRule( rRule.GetName(), &rRule ) ]; } else if (rRule != *pNew) { bUpdateRule = true; } if (bUpdateRule) { if( pUndo ) { pUndo->SaveOldNumRule( *pNew ); ::lcl_ChgNumRule( *this, rRule ); pUndo->SetLRSpaceEndPos(); } else { ::lcl_ChgNumRule( *this, rRule ); } } if ( ! rPam.HasMark()) { SwTxtNode * pTxtNd = rPam.GetPoint()->nNode.GetNode().GetTxtNode(); // --> OD 2006-10-19 #134160# // consider case that the PaM doesn't denote a text node - e.g. it denotes a graphic node if ( pTxtNd ) { SwNumRule * pRule = pTxtNd->GetNumRuleSync(); if (pRule && pRule->GetName() == pNew->GetName()) { bSetItem = sal_False; } // --> OD 2005-10-26 #b6340308# - only clear numbering attribute at // text node, if at paragraph style the new numbering rule is found. else if ( !pRule ) { SwTxtFmtColl* pColl = pTxtNd->GetTxtColl(); if ( pColl ) { SwNumRule* pCollRule = FindNumRulePtr(pColl->GetNumRule().GetValue()); if ( pCollRule && pCollRule->GetName() == pNew->GetName() ) { pTxtNd->SwCntntNode::ResetAttr( RES_PARATR_NUMRULE ); bSetItem = sal_False; } } } // <-- } // <-- } // --> OD 2006-01-13 #i60395# // It's not allowed to apply the outline numbering rule as hard attribute // to document content - typically paragraphs. if ( bSetItem && pNew != GetOutlineNumRule() ) // <-- { Insert( rPam, SwNumRuleItem( pNew->GetName() ), 0 ); } if (DoesUndo()) EndUndo( UNDO_INSNUM, NULL ); SetModified(); } void SwDoc::SetCounted(const SwPaM & rPam, bool bCounted) { ULONG nStartPos = rPam.Start()->nNode.GetIndex(); ULONG nEndPos = rPam.End()->nNode.GetIndex(); for (ULONG n = nStartPos; n <= nEndPos; n++) { SwTxtNode * pNd = GetNodes()[n]->GetTxtNode(); if (pNd) pNd->SetCounted(bCounted); } } void SwDoc::ReplaceNumRule(const SwPaM & rPaM, const SwNumRule & rNumRule) { if (DoesUndo()) StartUndo(UNDO_START, NULL); ULONG nStt = rPaM.Start()->nNode.GetIndex(); ULONG nEnd = rPaM.End()->nNode.GetIndex(); for (ULONG n = nStt; n <= nEnd; n++) { SwTxtNode * pCNd = GetNodes()[n]->GetTxtNode(); if (pCNd && NULL != pCNd->GetNumRule()) { SwPaM aPam(*pCNd); Insert(aPam, SwNumRuleItem(rNumRule.GetName()), 0); } } if (DoesUndo()) EndUndo(UNDO_START, NULL); } void SwDoc::SetNumRuleStart( const SwPosition& rPos, BOOL bFlag ) { SwTxtNode* pTxtNd = rPos.nNode.GetNode().GetTxtNode(); if (pTxtNd) { const SwNumRule* pRule = pTxtNd->GetNumRule(); if( pRule && !bFlag != !pTxtNd->IsRestart()) { if( DoesUndo() ) { ClearRedo(); AppendUndo( new SwUndoNumRuleStart( rPos, bFlag )); } pTxtNd->SetRestart(bFlag ? true : false); SetModified(); } } } void SwDoc::SetNodeNumStart( const SwPosition& rPos, USHORT nStt ) { SwTxtNode* pTxtNd = rPos.nNode.GetNode().GetTxtNode(); if (pTxtNd) { const SwNumRule* pRule = pTxtNd->GetNumRule(); if( pRule && nStt != pTxtNd->GetStart() ) { if( DoesUndo() ) { ClearRedo(); AppendUndo( new SwUndoNumRuleStart( rPos, nStt )); } } pTxtNd->SetStart(nStt); SetModified(); } } // loeschen geht nur, wenn die Rule niemand benutzt! BOOL SwDoc::DelNumRule( const String& rName, BOOL bBroadcast ) { USHORT nPos = FindNumRule( rName ); // --> OD 2007-12-17 #151213# if ( (*pNumRuleTbl)[ nPos ] == GetOutlineNumRule() ) { ASSERT( false, " - No deletion of outline list style. This is serious defect - please inform OD" ); return FALSE; } // <-- if( USHRT_MAX != nPos && !IsUsed( *(*pNumRuleTbl)[ nPos ] )) { if (DoesUndo()) { SwUndo * pUndo = new SwUndoNumruleDelete(*(*pNumRuleTbl)[nPos], this); AppendUndo(pUndo); } if (bBroadcast) BroadcastStyleOperation(rName, SFX_STYLE_FAMILY_PSEUDO, SFX_STYLESHEET_ERASED); // --> FME 2004-11-02 #i34097# DeleteAndDestroy deletes rName if // rName is directly taken from the numrule. const String aTmpName( rName ); // <-- pNumRuleTbl->DeleteAndDestroy( nPos ); aNumRuleMap.erase(aTmpName); SetModified(); return TRUE; } return FALSE; } // #106897# void SwDoc::ChgNumRuleFmts( const SwNumRule& rRule, const String * pName ) { // #106897# SwNumRule* pRule = FindNumRulePtr( pName ? *pName : rRule.GetName() ); if( pRule ) { SwUndoInsNum* pUndo = 0; if( DoesUndo() ) { ClearRedo(); pUndo = new SwUndoInsNum( *pRule, rRule ); pUndo->GetHistory(); AppendUndo( pUndo ); } ::lcl_ChgNumRule( *this, rRule ); if( pUndo ) pUndo->SetLRSpaceEndPos(); SetModified(); } } sal_Bool SwDoc::RenameNumRule(const String & rOldName, const String & rNewName, BOOL bBroadcast) { sal_Bool bResult = sal_False; SwNumRule * pNumRule = FindNumRulePtr(rOldName); if (pNumRule) { if (DoesUndo()) { SwUndo * pUndo = new SwUndoNumruleRename(rOldName, rNewName, this); AppendUndo(pUndo); } SwNumRuleInfo aInfo(rOldName); aInfo.MakeList(*this); pNumRule->SetName(rNewName); SwNumRuleItem aItem(rNewName); for (ULONG nI = 0; nI < aInfo.GetList().Count(); ++nI) { SwTxtNode * pTxtNd = aInfo.GetList().GetObject(nI); pTxtNd->SwCntntNode::SetAttr(aItem); } bResult = sal_True; if (bBroadcast) BroadcastStyleOperation(rOldName, SFX_STYLE_FAMILY_PSEUDO, SFX_STYLESHEET_MODIFIED); } return bResult; } void SwDoc::StopNumRuleAnimations( OutputDevice* pOut ) { for( USHORT n = GetNumRuleTbl().Count(); n; ) { SwNumRuleInfo aUpd( GetNumRuleTbl()[ --n ]->GetName() ); aUpd.MakeList( *this ); for( ULONG nFirst = 0, nLast = aUpd.GetList().Count(); nFirst < nLast; ++nFirst ) { SwTxtNode* pTNd = aUpd.GetList().GetObject( nFirst ); SwClientIter aIter( *pTNd ); for( SwFrm* pFrm = (SwFrm*)aIter.First( TYPE(SwFrm) ); pFrm; pFrm = (SwFrm*)aIter.Next() ) if( ((SwTxtFrm*)pFrm)->HasAnimation() ) ((SwTxtFrm*)pFrm)->StopAnimation( pOut ); } } } BOOL SwDoc::ReplaceNumRule( const SwPosition& rPos, const String& rOldRule, const String& rNewRule ) { BOOL bRet = FALSE; SwNumRule *pOldRule = FindNumRulePtr( rOldRule ), *pNewRule = FindNumRulePtr( rNewRule ); if( pOldRule && pNewRule && pOldRule != pNewRule ) { SwUndoInsNum* pUndo = 0; if( DoesUndo() ) { ClearRedo(); StartUndo( UNDO_START, NULL ); // Klammerung fuer die Attribute! AppendUndo( pUndo = new SwUndoInsNum( rPos, *pNewRule, rOldRule ) ); } SwNumRuleInfo aUpd( rOldRule ); aUpd.MakeList( *this ); if (aUpd.GetList().Count() > 0) // #106897# { // Position suchen und bestimme ob ein Node davor oder dahinter // einen Start erzwingt SwTxtNode* pTxtNd; ULONG nFndPos, nFirst, nLast; if( TABLE_ENTRY_NOTFOUND != aUpd.GetList().SearchKey( rPos.nNode.GetIndex(), &nFndPos )) ++nFndPos; for( nLast = nFndPos; nLast < aUpd.GetList().Count(); ++nLast ) { pTxtNd = aUpd.GetList().GetObject( nLast ); if(pTxtNd->IsRestart()) break; } for( nFirst = nFndPos; nFirst; ) { pTxtNd = aUpd.GetList().GetObject( --nFirst ); if( pTxtNd->IsRestart() ) break; } // dann neue Numerierung ueber diesen Bereich // definieren und den Start am Anfang/Ende zurueck setzen pTxtNd = aUpd.GetList().GetObject( nFirst ); if( pTxtNd->IsRestart() ) { pTxtNd->SetRestart(false); if( pUndo ) pUndo->SetSttNum( pTxtNd->GetIndex() ); } // --> OD 2007-07-11 #i56253# SwRegHistory aRegH( *this, pUndo ? pUndo->GetHistory() : 0 ); // <-- USHORT nChgFmtLevel = 0; for( BYTE n = 0; n < MAXLEVEL; ++n ) { const SwNumFmt& rOldFmt = pOldRule->Get( n ), & rNewFmt = pNewRule->Get( n ); if( rOldFmt.GetAbsLSpace() != rNewFmt.GetAbsLSpace() || rOldFmt.GetFirstLineOffset() != rNewFmt.GetFirstLineOffset() ) nChgFmtLevel |= ( 1 << n ); } SwNumRuleItem aRule( rNewRule ); for( ; nFirst < nLast; ++nFirst ) { pTxtNd = aUpd.GetList().GetObject( nFirst ); aRegH.RegisterInModify( pTxtNd, *pTxtNd ); pTxtNd->SwCntntNode::SetAttr( aRule ); pTxtNd->NumRuleChgd(); } EndUndo( UNDO_END, NULL ); SetModified(); bRet = TRUE; // #106897# } } return bRet; } void SwDoc::MakeUniqueNumRules(const SwPaM & rPaM) { ASSERT( rPaM.GetDoc() == this, "need same doc" ); map aMyNumRuleMap; ULONG nStt = rPaM.Start()->nNode.GetIndex(); ULONG nEnd = rPaM.End()->nNode.GetIndex(); bool bFirst = true; for (ULONG n = nStt; n <= nEnd; n++) { SwTxtNode * pCNd = GetNodes()[n]->GetTxtNode(); if (pCNd) { SwNumRule * pRule = pCNd->GetNumRule(); if (pRule && pRule->IsAutoRule() && ! pRule->IsOutlineRule()) { SwNumRule * pReplaceNumRule = aMyNumRuleMap[pRule]; if (! pReplaceNumRule) { if (pRule->IsOutlineRule()) pReplaceNumRule = pRule; else if (bFirst) { SwPosition aPos(*pCNd); pReplaceNumRule = const_cast (SearchNumRule( aPos, FALSE, pCNd->HasNumber(), FALSE, 0, true )); } if (! pReplaceNumRule) { pReplaceNumRule = new SwNumRule(*pRule); pReplaceNumRule->SetName(GetUniqueNumRuleName()); } aMyNumRuleMap[pRule] = pReplaceNumRule; } SwPaM aPam(*pCNd); SetNumRule(aPam, *pReplaceNumRule); bFirst = false; } } } } BOOL SwDoc::NoNum( const SwPaM& rPam ) { BOOL bRet = SplitNode( *rPam.GetPoint(), false ); // ist ueberhaupt Nummerierung im Spiel ? if( bRet ) { // NoNum setzen und Upaten const SwNodeIndex& rIdx = rPam.GetPoint()->nNode; SwTxtNode* pNd = rIdx.GetNode().GetTxtNode(); const SwNumRule* pRule = pNd->GetNumRule(); if( pRule ) { pNd->SetCounted(false); SetModified(); } else bRet = FALSE; // keine Nummerierung , ?? oder immer TRUE ?? } return bRet; } BOOL SwDoc::DelNumRules( const SwPaM& rPam ) { ULONG nStt = rPam.GetPoint()->nNode.GetIndex(), nEnd = rPam.GetMark()->nNode.GetIndex(); if( nStt > nEnd ) { ULONG nTmp = nStt; nStt = nEnd; nEnd = nTmp; } SwUndoDelNum* pUndo; if( DoesUndo() ) { ClearRedo(); AppendUndo( pUndo = new SwUndoDelNum( rPam ) ); } else pUndo = 0; // --> OD 2007-07-11 #i56253# SwRegHistory aRegH( *this, pUndo ? pUndo->GetHistory() : 0 ); // <-- SwNumRuleItem aEmptyRule( aEmptyStr ); SvxLRSpaceItem aLRSpace( RES_LR_SPACE ); String sNumRule; const SfxPoolItem* pItem; const String* pName; SwNumRule* pRule; const SwNode* pOutlNd = 0; for( ; nStt <= nEnd; ++nStt ) { SwTxtNode* pTNd = GetNodes()[ nStt ]->GetTxtNode(); if( pTNd && 0 != ( pItem = pTNd->GetNoCondAttr( RES_PARATR_NUMRULE, TRUE ) ) && ( pName = &((SwNumRuleItem*)pItem)->GetValue())->Len() ) { if( *pName != sNumRule ) { sNumRule = *pName; pRule = FindNumRulePtr( *pName ); pRule->SetInvalidRule( TRUE ); } // fuers Undo - Attribut Aenderungen merken aRegH.RegisterInModify( pTNd, *pTNd ); BOOL bResetNumRule = FALSE; const SfxItemSet* pAttrSet = pTNd->GetpSwAttrSet(); if( pUndo ) pUndo->AddNode( *pTNd, bResetNumRule ); // kommt die Rule vom Node, dann Reseten, sonst auf leer setzen if( pAttrSet && SFX_ITEM_SET == pAttrSet->GetItemState( RES_PARATR_NUMRULE, FALSE )) pTNd->SwCntntNode::ResetAttr( RES_PARATR_NUMRULE ); else pTNd->SwCntntNode::SetAttr( aEmptyRule ); if( RES_CONDTXTFMTCOLL == pTNd->GetFmtColl()->Which() ) pTNd->ChkCondColl(); else if( !pOutlNd && NO_NUMBERING != ((SwTxtFmtColl*)pTNd->GetFmtColl())->GetOutlineLevel() ) pOutlNd = pTNd; } } // dann noch alle Updaten UpdateNumRule(); if( pOutlNd ) GetNodes().UpdtOutlineIdx( *pOutlNd ); // irgendetwas wurde geupdatet return 0 != sNumRule.Len(); } void SwDoc::InvalidateNumRules() { for (USHORT n = 0; n < pNumRuleTbl->Count(); ++n) (*pNumRuleTbl)[n]->SetInvalidRule(TRUE); } void SwDoc::SyncNumRulesAndNodes() { ULONG n; for (n = 0; n < aNodes.Count(); n++) { SwTxtNode * pTxtNode = aNodes[n]->GetTxtNode(); if (pTxtNode != NULL) { pTxtNode->SyncNumberAndNumRule(); aNodes.UpdateOutlineNode(*pTxtNode); } } } // zum naechsten/vorhergehenden Punkt auf gleicher Ebene BOOL lcl_IsNumOk( BYTE nSrchNum, BYTE& rLower, BYTE& rUpper, BOOL bOverUpper, BYTE nNumber ) { BOOL bRet = FALSE; if( nNumber < MAXLEVEL ) // keine Nummerierung ueberspringen { if( bOverUpper ? nSrchNum == nNumber : nSrchNum >= nNumber ) bRet = TRUE; else if( nNumber > rLower ) rLower = nNumber; else if( nNumber < rUpper ) rUpper = nNumber; } else if( !IsNum(nNumber)) { SetNoNum(&nNumber, FALSE); if( bOverUpper ? FALSE : nSrchNum > nNumber ) bRet = TRUE; else if( nNumber > rLower ) rLower = nNumber; else if( nNumber < rUpper ) rUpper = nNumber; } return bRet; } BOOL lcl_IsValidPrevNextNumNode( const SwNodeIndex& rIdx ) { BOOL bRet = FALSE; const SwNode& rNd = rIdx.GetNode(); switch( rNd.GetNodeType() ) { case ND_ENDNODE: bRet = SwTableBoxStartNode == rNd.StartOfSectionNode()->GetStartNodeType() || rNd.StartOfSectionNode()->IsSectionNode(); break; case ND_STARTNODE: bRet = SwTableBoxStartNode == ((SwStartNode&)rNd).GetStartNodeType(); break; case ND_SECTIONNODE: // der ist erlaubt, also weiter bRet = TRUE; break; } return bRet; } BOOL lcl_GotoNextPrevNum( SwPosition& rPos, BOOL bNext, BOOL bOverUpper, BYTE* pUpper, BYTE* pLower ) { const SwTxtNode* pNd = rPos.nNode.GetNode().GetTxtNode(); const SwNumRule* pRule; if( !pNd || 0 == ( pRule = pNd->GetNumRule())) return FALSE; BYTE nSrchNum = static_cast(pNd->GetLevel()); SwNodeIndex aIdx( rPos.nNode ); if( ! pNd->IsCounted() ) { // falls gerade mal NO_NUMLEVEL an ist, so such den vorherigen Node // mit Nummerierung BOOL bError = FALSE; do { aIdx--; if( aIdx.GetNode().IsTxtNode() ) { pNd = aIdx.GetNode().GetTxtNode(); pRule = pNd->GetNumRule(); BYTE nTmpNum; if( pRule ) { nTmpNum = static_cast(pNd->GetLevel()); if( !( ! pNd->IsCounted() && (nTmpNum >= nSrchNum )) ) break; // gefunden } else bError = TRUE; } else bError = !lcl_IsValidPrevNextNumNode( aIdx ); } while( !bError ); if( bError ) return FALSE; } BYTE nLower = nSrchNum, nUpper = nSrchNum; BOOL bRet = FALSE; const SwTxtNode* pLast; if( bNext ) aIdx++, pLast = pNd; else aIdx--, pLast = 0; while( bNext ? ( aIdx.GetIndex() < aIdx.GetNodes().Count() - 1 ) : aIdx.GetIndex() ) { if( aIdx.GetNode().IsTxtNode() ) { pNd = aIdx.GetNode().GetTxtNode(); pRule = pNd->GetNumRule(); if( pRule ) { if( ::lcl_IsNumOk( nSrchNum, nLower, nUpper, bOverUpper, static_cast(pNd->GetLevel()) )) { rPos.nNode = aIdx; rPos.nContent.Assign( (SwTxtNode*)pNd, 0 ); bRet = TRUE; break; } else pLast = pNd; } else break; } else if( !lcl_IsValidPrevNextNumNode( aIdx )) break; if( bNext ) aIdx++; else aIdx--; } if( !bRet && !bOverUpper && pLast ) // nicht ueber hoehere Nummmern, aber bis Ende { if( bNext ) { rPos.nNode = aIdx; if( aIdx.GetNode().IsCntntNode() ) rPos.nContent.Assign( aIdx.GetNode().GetCntntNode(), 0 ); } else { rPos.nNode.Assign( *pLast ); rPos.nContent.Assign( (SwTxtNode*)pLast, 0 ); } bRet = TRUE; } if( bRet ) { if( pUpper ) *pUpper = nUpper; if( pLower ) *pLower = nLower; } return bRet; } BOOL SwDoc::GotoNextNum( SwPosition& rPos, BOOL bOverUpper, BYTE* pUpper, BYTE* pLower ) { return ::lcl_GotoNextPrevNum( rPos, TRUE, bOverUpper, pUpper, pLower ); } // -> #i23731# const SwNumRule * SwDoc::SearchNumRule(SwPosition & rPos, BOOL bForward, BOOL bNum, BOOL bOutline, int nNonEmptyAllowed, bool _bInvestigateStartNode) { const SwNumRule * pResult = NULL; SwTxtNode * pTxtNd = rPos.nNode.GetNode().GetTxtNode(); SwNode * pStartFromNode = pTxtNd; if (pTxtNd) { SwNodeIndex aIdx(rPos.nNode); // --> OD 2005-10-20 #i55391# // - the start node has also been investigated, if requested. const SwNode * pNode = NULL; do { // --> OD 2005-10-20 #i55391# if ( !_bInvestigateStartNode ) { if (bForward) aIdx++; else aIdx--; } // <-- if (aIdx.GetNode().IsTxtNode()) { pTxtNd = aIdx.GetNode().GetTxtNode(); const SwNumRule * pNumRule = pTxtNd->GetNumRule(); if (pNumRule) { if (pNumRule->IsOutlineRule() == bOutline && // #115901# (bNum && pNumRule->Get(0).IsEnumeration() || !bNum && pNumRule->Get(0).IsItemize())) // #i22362#, #i29560# pResult = pTxtNd->GetNumRule(); break; } else if (pTxtNd->Len() > 0 || NULL != pTxtNd->GetNumRule()) { if (nNonEmptyAllowed == 0) break; nNonEmptyAllowed--; if (nNonEmptyAllowed < 0) nNonEmptyAllowed = -1; } } // --> OD 2005-10-20 #i55391# if ( _bInvestigateStartNode ) { if (bForward) aIdx++; else aIdx--; } // <-- pNode = &aIdx.GetNode(); } while (! (pNode == aNodes.DocumentSectionStartNode(pStartFromNode) || pNode == aNodes.DocumentSectionEndNode(pStartFromNode))); // <-- } return pResult; } // <- #i23731# BOOL SwDoc::GotoPrevNum( SwPosition& rPos, BOOL bOverUpper, BYTE* pUpper, BYTE* pLower ) { return ::lcl_GotoNextPrevNum( rPos, FALSE, bOverUpper, pUpper, pLower ); } BOOL SwDoc::NumUpDown( const SwPaM& rPam, BOOL bDown ) { ULONG nStt = rPam.GetPoint()->nNode.GetIndex(), nEnd = rPam.GetMark()->nNode.GetIndex(); if( nStt > nEnd ) { ULONG nTmp = nStt; nStt = nEnd; nEnd = nTmp; } // -> #115901# outline nodes are promoted or demoted differently bool bOnlyOutline = true; bool bOnlyNonOutline = true; for (ULONG n = nStt; n <= nEnd; n++) { SwTxtNode * pTxtNd = GetNodes()[n]->GetTxtNode(); if (pTxtNd) { SwNumRule * pRule = pTxtNd->GetNumRule(); if (pRule) { if (pRule->IsOutlineRule()) bOnlyNonOutline = false; else bOnlyOutline = false; } } } // <- #115901# BOOL bRet = TRUE; char nDiff = bDown ? 1 : -1; // ->#115901# if (bOnlyOutline) bRet = OutlineUpDown(rPam, nDiff); else if (bOnlyNonOutline) { /* --> #i24560# Only promote or demote if all selected paragraphs are promotable resp. demotable. */ for (ULONG nTmp = nStt; nTmp <= nEnd; ++nTmp) { SwTxtNode* pTNd = GetNodes()[ nTmp ]->GetTxtNode(); // --> OD 2006-10-19 #134160# - make code robust: // consider case that the node doesn't denote a text node. if ( pTNd ) { SwNumRule * pRule = pTNd->GetNumRule(); if (pRule) { BYTE nLevel = static_cast(pTNd->GetLevel()); if( (-1 == nDiff && 0 >= nLevel) || (1 == nDiff && MAXLEVEL - 1 <= nLevel)) bRet = FALSE; } } // <-- } if( bRet ) { /* <-- #i24560# */ if( DoesUndo() ) { ClearRedo(); AppendUndo( new SwUndoNumUpDown( rPam, nDiff ) ); } String sNumRule; for(ULONG nTmp = nStt; nTmp <= nEnd; ++nTmp ) { SwTxtNode* pTNd = GetNodes()[ nTmp ]->GetTxtNode(); if( pTNd) { SwNumRule * pRule = pTNd->GetNumRule(); if (pRule) { BYTE nLevel = static_cast(pTNd->GetLevel()); nLevel = nLevel + nDiff; pTNd->SetLevel(nLevel); } } } ChkCondColls(); SetModified(); } } return bRet; } BOOL SwDoc::MoveParagraph( const SwPaM& rPam, long nOffset, BOOL bIsOutlMv ) { const SwPosition *pStt = rPam.Start(), *pEnd = rPam.End(); ULONG nStIdx = pStt->nNode.GetIndex(); 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 area 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 // area, too (e.g. as last node). // If an end node is the last node of the moved area, 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 area => no. } ULONG nInStIdx, nInEndIdx; long nOffs = nOffset; if( nOffset > 0 ) { nInEndIdx = nEndIdx; nEndIdx += nOffset; ++nOffs; } else { nInEndIdx = nStIdx - 1; nStIdx += nOffset; } nInStIdx = nInEndIdx + 1; // Folgende Absatzbloecke sollen vertauscht werden: // [ nStIdx, nInEndIdx ] mit [ 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 } // auf Redlining testen - darf die Selektion ueberhaupt verschoben // werden? if( !IsIgnoreRedline() ) { USHORT nRedlPos = GetRedlinePos( pStt->nNode.GetNode(), nsRedlineType_t::REDLINE_DELETE ); if( USHRT_MAX != nRedlPos ) { SwPosition aStPos( *pStt ), aEndPos( *pEnd ); aStPos.nContent = 0; SwCntntNode* pCNd = pEnd->nNode.GetNode().GetCntntNode(); aEndPos.nContent = pCNd ? pCNd->Len() : 1; BOOL bCheckDel = TRUE; // es existiert fuer den Bereich irgendein Redline-Delete-Object for( ; nRedlPos < GetRedlineTbl().Count(); ++nRedlPos ) { const SwRedline* pTmp = GetRedlineTbl()[ nRedlPos ]; if( !bCheckDel || nsRedlineType_t::REDLINE_DELETE == pTmp->GetType() ) { const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End(); switch( ComparePosition( *pRStt, *pREnd, aStPos, aEndPos )) { case POS_COLLIDE_START: case POS_BEHIND: // Pos1 liegt hinter Pos2 nRedlPos = GetRedlineTbl().Count(); break; case POS_COLLIDE_END: case POS_BEFORE: // Pos1 liegt vor Pos2 break; case POS_INSIDE: // Pos1 liegt vollstaendig in Pos2 // ist erlaubt, aber checke dann alle nachfolgenden // auf Ueberlappungen bCheckDel = FALSE; break; case POS_OUTSIDE: // Pos2 liegt vollstaendig in Pos1 case POS_EQUAL: // Pos1 ist genauso gross wie Pos2 case POS_OVERLAP_BEFORE: // Pos1 ueberlappt Pos2 am Anfang case POS_OVERLAP_BEHIND: // Pos1 ueberlappt Pos2 am Ende return FALSE; } } } } } { // DataChanged vorm verschieben verschicken, dann bekommt // man noch mit, welche Objecte sich im Bereich befinden. // Danach koennen sie vor/hinter der Position befinden. SwDataChanged aTmp( rPam, 0 ); } SwNodeIndex aIdx( nOffset > 0 ? pEnd->nNode : pStt->nNode, nOffs ); SwNodeRange aMvRg( pStt->nNode, 0, pEnd->nNode, +1 ); SwRedline* pOwnRedl = 0; if( IsRedlineOn() ) { // wenn der Bereich komplett im eigenen Redline liegt, kann es // verschoben werden! USHORT nRedlPos = GetRedlinePos( pStt->nNode.GetNode(), nsRedlineType_t::REDLINE_INSERT ); if( USHRT_MAX != nRedlPos ) { SwRedline* pTmp = GetRedlineTbl()[ nRedlPos ]; const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End(); SwRedline aTmpRedl( nsRedlineType_t::REDLINE_INSERT, rPam ); const SwCntntNode* pCEndNd = pEnd->nNode.GetNode().GetCntntNode(); // liegt komplett im Bereich, und ist auch der eigene Redline? 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 < GetRedlineTbl().Count() ) { pTmp = GetRedlineTbl()[ nRedlPos+1 ]; if( *pTmp->Start() == *pREnd ) // dann doch nicht! pOwnRedl = 0; } if( pOwnRedl && !( pRStt->nNode <= aIdx && aIdx <= pREnd->nNode )) { // nicht in sich selbst, dann auch nicht moven pOwnRedl = 0; } } } if( !pOwnRedl ) { StartUndo( UNDO_START, NULL ); // zuerst das Insert, dann das Loeschen SwPosition aInsPos( aIdx ); aInsPos.nContent.Assign( aIdx.GetNode().GetCntntNode(), 0 ); SwPaM aPam( pStt->nNode, aMvRg.aEnd ); SwPaM& rOrigPam = (SwPaM&)rPam; rOrigPam.DeleteMark(); rOrigPam.GetPoint()->nNode = aIdx.GetIndex() - 1; BOOL bDelLastPara = !aInsPos.nNode.GetNode().IsCntntNode(); /* #101076# 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); BOOL bMoved = aInsPam.Move(fnMoveBackward); ASSERT(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. */ AppendTxtNode(*aInsPam.GetPoint()); aInsPos = *aInsPam.GetPoint(); } } Copy( aPam, aInsPos ); if( bDelLastPara ) { // dann muss der letzte leere Node wieder entfernt werden aIdx = aInsPos.nNode; SwCntntNode* pCNd = GetNodes().GoPrevious( &aInsPos.nNode ); xub_StrLen nCLen = 0; if( pCNd ) nCLen = pCNd->Len(); aInsPos.nContent.Assign( pCNd, nCLen ); // alle die im zu loeschenden Node stehen, mussen auf den // naechsten umgestezt werden SwPosition* pPos; for( USHORT n = 0; n < GetRedlineTbl().Count(); ++n ) { SwRedline* pTmp = GetRedlineTbl()[ n ]; if( ( pPos = &pTmp->GetBound(TRUE))->nNode == aIdx ) { pPos->nNode++; pPos->nContent.Assign( pPos->nNode.GetNode().GetCntntNode(),0); } if( ( pPos = &pTmp->GetBound(FALSE))->nNode == aIdx ) { pPos->nNode++; pPos->nContent.Assign( pPos->nNode.GetNode().GetCntntNode(),0); } } CorrRel( aIdx, aInsPos, 0, FALSE ); pCNd->JoinNext(); } rOrigPam.GetPoint()->nNode++; rOrigPam.GetPoint()->nContent.Assign( rOrigPam.GetCntntNode(), 0 ); RedlineMode_t eOld = GetRedlineMode(); checkRedlining(eOld); if( DoesUndo() ) { //JP 06.01.98: MUSS noch optimiert werden!!! SetRedlineMode( (RedlineMode_t)(nsRedlineMode_t::REDLINE_ON | nsRedlineMode_t::REDLINE_SHOW_INSERT | nsRedlineMode_t::REDLINE_SHOW_DELETE)); AppendUndo( new SwUndoRedlineDelete( aPam, UNDO_DELETE )); } SwRedline* pNewRedline = new SwRedline( nsRedlineType_t::REDLINE_DELETE, aPam ); // #101654# 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(TRUE).nContent.Assign( NULL, 0 ); aPam.GetBound(FALSE).nContent.Assign( NULL, 0 ); AppendRedline( pNewRedline, true ); //JP 06.01.98: MUSS noch optimiert werden!!! SetRedlineMode( eOld ); EndUndo( UNDO_END, NULL ); SetModified(); return TRUE; } } if( !pOwnRedl && !IsIgnoreRedline() && GetRedlineTbl().Count() ) { SwPaM aTemp(aIdx); SplitRedline(aTemp); } ULONG nRedlSttNd(0), nRedlEndNd(0); if( pOwnRedl ) { const SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End(); nRedlSttNd = pRStt->nNode.GetIndex(); nRedlEndNd = pREnd->nNode.GetIndex(); } SwUndoMoveNum* pUndo = 0; ULONG nMoved = 0; if( DoesUndo() ) { pUndo = new SwUndoMoveNum( rPam, nOffset, bIsOutlMv ); nMoved = rPam.End()->nNode.GetIndex() - rPam.Start()->nNode.GetIndex() + 1; } Move( aMvRg, aIdx, DOC_MOVEREDLINES ); if( pUndo ) { ClearRedo(); // 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 ); AppendUndo( pUndo ); } if( pOwnRedl ) { SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End(); if( pRStt->nNode.GetIndex() != nRedlSttNd ) { pRStt->nNode = nRedlSttNd; pRStt->nContent.Assign( pRStt->nNode.GetNode().GetCntntNode(),0); } if( pREnd->nNode.GetIndex() != nRedlEndNd ) { pREnd->nNode = nRedlEndNd; SwCntntNode* pCNd = pREnd->nNode.GetNode().GetCntntNode(); xub_StrLen nL = 0; if( pCNd ) nL = pCNd->Len(); pREnd->nContent.Assign( pCNd, nL ); } } SetModified(); return TRUE; } BOOL SwDoc::NumOrNoNum( const SwNodeIndex& rIdx, BOOL bDel ) { BOOL bResult = FALSE; SwTxtNode * pTxtNd = rIdx.GetNode().GetTxtNode(); if (pTxtNd && pTxtNd->GetNumRule(TRUE) != NULL && (pTxtNd->HasNumber() || pTxtNd->HasBullet())) { if ( !pTxtNd->IsCounted() == !bDel) { BOOL bOldNum = bDel; // == pTxtNd->IsCounted(); BOOL bNewNum = bDel ? FALSE : TRUE; pTxtNd->SetCounted(bNewNum ? true : false); SetModified(); bResult = TRUE; if (DoesUndo()) { SwUndoNumOrNoNum * pUndo = new SwUndoNumOrNoNum(rIdx, bOldNum, bNewNum); AppendUndo(pUndo); } } else if (bDel && pTxtNd->GetNumRule(FALSE) && pTxtNd->GetLevel() >= 0 && pTxtNd->GetLevel() < MAXLEVEL) { SwPaM aPam(*pTxtNd); DelNumRules(aPam); bResult = TRUE; } } return bResult; } SwNumRule* SwDoc::GetCurrNumRule( const SwPosition& rPos ) const { SwNumRule* pRet = 0; SwTxtNode* pTNd = rPos.nNode.GetNode().GetTxtNode(); if( pTNd ) { pTNd->SyncNumberAndNumRule(); pRet = pTNd->GetNumRule(); } return pRet; } USHORT SwDoc::FindNumRule( const String& rName ) const { for( USHORT n = pNumRuleTbl->Count(); n; ) if( (*pNumRuleTbl)[ --n ]->GetName() == rName ) return n; return USHRT_MAX; } SwNumRule* SwDoc::FindNumRulePtr( const String& rName ) const { SwNumRule * pResult = 0; pResult = aNumRuleMap[rName]; if ( !pResult ) { for (USHORT n = 0; n < pNumRuleTbl->Count(); ++n) { if ((*pNumRuleTbl)[n]->GetName() == rName) { pResult = (*pNumRuleTbl)[n]; break; } } } return pResult; } void SwDoc::AddNumRuleRanges(SwNumRule * pRule, SwNodes & rNodes) { SwNode * pNode = rNodes[0]; do { SwPaM aPam(*pNode, *pNode->EndOfSectionNode()); pRule->NewNumberRange(aPam); pNode = pNode->EndOfSectionNode(); if (pNode != &rNodes.GetEndOfContent()) { ULONG nIndex = pNode->GetIndex(); nIndex++; pNode = rNodes[nIndex]; } } while (pNode != &rNodes.GetEndOfContent()); } // #i36749# void SwDoc::AddNumRule(SwNumRule * pRule) { pNumRuleTbl->Insert(pRule, pNumRuleTbl->Count()); aNumRuleMap[pRule->GetName()] = pRule; pRule->SetNumRuleMap(&aNumRuleMap); // --> OD 2005-10-21 - only the counting of phantoms for the // outline rule depends on // pRule->SetCountPhantoms(! IsOldNumbering()); // <-- AddNumRuleRanges(pRule, aNodes); AddNumRuleRanges(pRule, aUndoNodes); } USHORT SwDoc::MakeNumRule( const String &rName, const SwNumRule* pCpy, BOOL bBroadcast) { SwNumRule* pNew; if( pCpy ) { pNew = new SwNumRule( *pCpy ); pNew->SetName( GetUniqueNumRuleName( &rName )); if( pNew->GetName() != rName ) { pNew->SetPoolFmtId( USHRT_MAX ); pNew->SetPoolHelpId( USHRT_MAX ); pNew->SetPoolHlpFileId( UCHAR_MAX ); } pNew->CheckCharFmts( this ); } else pNew = new SwNumRule( GetUniqueNumRuleName( &rName ) ); USHORT nRet = pNumRuleTbl->Count(); AddNumRule(pNew); // #i36749# if (DoesUndo()) { SwUndo * pUndo = new SwUndoNumruleCreate(pNew, this); AppendUndo(pUndo); } if (bBroadcast) BroadcastStyleOperation(pNew->GetName(), SFX_STYLE_FAMILY_PSEUDO, SFX_STYLESHEET_CREATED); return nRet; } String SwDoc::GetUniqueNumRuleName( const String* pChkStr, BOOL bAutoNum ) const { String aName; if( bAutoNum ) { long n = Time().GetTime(); n += Date().GetDate(); aName = String::CreateFromInt32( n ); if( pChkStr && !pChkStr->Len() ) pChkStr = 0; } else if( pChkStr && pChkStr->Len() ) aName = *pChkStr; else { pChkStr = 0; aName = SW_RESSTR( STR_NUMRULE_DEFNAME ); } USHORT nNum(0), nTmp, nFlagSize = ( pNumRuleTbl->Count() / 8 ) +2; BYTE* pSetFlags = new BYTE[ nFlagSize ]; memset( pSetFlags, 0, nFlagSize ); xub_StrLen nNmLen = aName.Len(); if( !bAutoNum && pChkStr ) { while( nNmLen-- && '0' <= aName.GetChar( nNmLen ) && '9' >= aName.GetChar( nNmLen ) ) ; //nop if( ++nNmLen < aName.Len() ) { aName.Erase( nNmLen ); pChkStr = 0; } } const SwNumRule* pNumRule; USHORT n; for( n = 0; n < pNumRuleTbl->Count(); ++n ) if( 0 != ( pNumRule = (*pNumRuleTbl)[ n ] ) ) { const String& rNm = pNumRule->GetName(); if( rNm.Match( aName ) == nNmLen ) { // Nummer bestimmen und das Flag setzen nNum = (USHORT)rNm.Copy( nNmLen ).ToInt32(); if( nNum-- && nNum < pNumRuleTbl->Count() ) pSetFlags[ nNum / 8 ] |= (0x01 << ( nNum & 0x07 )); } if( pChkStr && pChkStr->Equals( rNm ) ) pChkStr = 0; } if( !pChkStr ) { // alle Nummern entsprechend geflag, also bestimme die richtige Nummer nNum = pNumRuleTbl->Count(); for( n = 0; n < nFlagSize; ++n ) if( 0xff != ( nTmp = pSetFlags[ n ] )) { // also die Nummer bestimmen nNum = n * 8; while( nTmp & 1 ) ++nNum, nTmp >>= 1; break; } } delete [] pSetFlags; if( pChkStr && pChkStr->Len() ) return *pChkStr; return aName += String::CreateFromInt32( ++nNum ); } void SwDoc::UpdateNumRule() { const SwNumRuleTbl& rNmTbl = GetNumRuleTbl(); for( USHORT n = 0; n < rNmTbl.Count(); ++n ) if( rNmTbl[ n ]->IsInvalidRule() ) rNmTbl[ n ]->Validate(); } // -> #i27615# void SwDoc::SetMarkedNumLevel(SwNumRule & rNumRule, BYTE nLevel, BOOL nValue) { /* - Set new marked level. - Notify all affected nodes of the changed mark. */ SwBitArray aChangedLevels = rNumRule.SetLevelMarked(nLevel, nValue); SwNumRuleInfo aInfo(rNumRule.GetName()); aInfo.MakeList(*this, FALSE); for ( ULONG i = 0; i < aInfo.GetList().Count(); ++i ) { SwTxtNode * pTxtNd = aInfo.GetList().GetObject(i); if (aChangedLevels.Get(pTxtNd->GetLevel())) pTxtNd->NumRuleChgd(); } } void SwDoc::SetMarkedNumLevel(const String & sNumRule, BYTE nLevel, BOOL bValue) { SwNumRule * pNumRule = FindNumRulePtr(sNumRule); if (pNumRule) SetMarkedNumLevel(*pNumRule, nLevel, bValue); } // <- #i27615# // #i23726# BOOL SwDoc::IsFirstOfNumRule(SwPosition & rPos) { BOOL bResult = FALSE; SwTxtNode * pTxtNode = rPos.nNode.GetNode().GetTxtNode(); if (pTxtNode) { SwNumRule * pNumRule = pTxtNode->GetNumRule(); if (pNumRule) bResult = pTxtNode->IsFirstOfNumRule(); } return bResult; } // --> OD 2007-10-26 #i83479# // implementation for interface bool SwDoc::lessThanNodeNum::operator()( const SwNodeNum* pNodeNumOne, const SwNodeNum* pNodeNumTwo ) const { return pNodeNumOne->LessThan( *pNodeNumTwo ); } void SwDoc::addListItem( const SwNodeNum& rNodeNum ) { if ( mpListItemsList == 0 ) { return; } const bool bAlreadyInserted( mpListItemsList->find( &rNodeNum ) != mpListItemsList->end() ); ASSERT( !bAlreadyInserted, " - instance already registered as numbered item!" ); if ( !bAlreadyInserted ) { mpListItemsList->insert( &rNodeNum ); } } void SwDoc::removeListItem( const SwNodeNum& rNodeNum ) { if ( mpListItemsList == 0 ) { return; } const tImplSortedNodeNumList::size_type nDeleted = mpListItemsList->erase( &rNodeNum ); if ( nDeleted > 1 ) { ASSERT( false, " - was registered more than once as numbered item!" ); } } String SwDoc::getListItemText( const SwNodeNum& rNodeNum, const bool bWithNumber, const bool bWithSpacesForLevel ) const { return rNodeNum.GetTxtNode() ? rNodeNum.GetTxtNode()->GetExpandTxt( 0, STRING_LEN, bWithNumber, bWithNumber, bWithSpacesForLevel ) : String(); } void SwDoc::getListItems( tSortedNodeNumList& orNodeNumList ) const { orNodeNumList.clear(); orNodeNumList.reserve( mpListItemsList->size() ); tImplSortedNodeNumList::iterator aIter; tImplSortedNodeNumList::iterator aEndIter = mpListItemsList->end(); for ( aIter = mpListItemsList->begin(); aIter != aEndIter; ++aIter ) { orNodeNumList.push_back( (*aIter) ); } } void SwDoc::getNumItems( tSortedNodeNumList& orNodeNumList ) const { orNodeNumList.clear(); orNodeNumList.reserve( mpListItemsList->size() ); tImplSortedNodeNumList::iterator aIter; tImplSortedNodeNumList::iterator aEndIter = mpListItemsList->end(); for ( aIter = mpListItemsList->begin(); aIter != aEndIter; ++aIter ) { const SwNodeNum* pNodeNum = (*aIter); if ( pNodeNum->IsCounted() && pNodeNum->GetTxtNode() && pNodeNum->GetTxtNode()->HasNumber() ) { orNodeNumList.push_back( pNodeNum ); } } } // <-- // --> OD 2007-11-15 #i83479# // implementation for interface sal_Int32 SwDoc::getOutlineNodesCount() const { return GetNodes().GetOutLineNds().Count(); } int SwDoc::getOutlineLevel( const sal_Int32 nIdx ) const { return GetNodes().GetOutLineNds()[ static_cast(nIdx) ]-> GetTxtNode()->GetOutlineLevel(); } String SwDoc::getOutlineText( const sal_Int32 nIdx, const bool bWithNumber, const bool bWithSpacesForLevel ) const { return GetNodes().GetOutLineNds()[ static_cast(nIdx) ]-> GetTxtNode()->GetExpandTxt( 0, STRING_LEN, bWithNumber, bWithNumber, bWithSpacesForLevel ); } SwTxtNode* SwDoc::getOutlineNode( const sal_Int32 nIdx ) const { return GetNodes().GetOutLineNds()[ static_cast(nIdx) ]->GetTxtNode(); } void SwDoc::getOutlineNodes( IDocumentOutlineNodes::tSortedOutlineNodeList& orOutlineNodeList ) const { orOutlineNodeList.clear(); orOutlineNodeList.reserve( getOutlineNodesCount() ); const USHORT nOutlCount( static_cast(getOutlineNodesCount()) ); for ( USHORT i = 0; i < nOutlCount; ++i ) { orOutlineNodeList.push_back( GetNodes().GetOutLineNds()[i]->GetTxtNode() ); } } // <--