/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sw.hxx" #include #include #include #include // fuer SwAttrSetChg #include #include #include #include #include #include #include #include #include #include #include #include #include #include // fuer RedlineTbl() #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef DBG_UTIL #define CHECK_TABLE(t) #else #ifdef DEBUG #define CHECK_TABLE(t) (t).CheckConsistency(); #else #define CHECK_TABLE(t) #endif #endif using namespace com::sun::star; TYPEINIT1( SwTable, SwClient ); TYPEINIT1( SwTableBox, SwClient ); TYPEINIT1( SwTableLine, SwClient ); TYPEINIT1( SwTableFmt, SwFrmFmt ); TYPEINIT1( SwTableBoxFmt, SwFrmFmt ); TYPEINIT1( SwTableLineFmt, SwFrmFmt ); SV_IMPL_PTRARR(SwTableLines,SwTableLine*); SV_IMPL_PTRARR(SwTableBoxes,SwTableBox*); SV_IMPL_PTRARR_SORT(SwTableSortBoxes,SwTableBoxPtr); SV_IMPL_REF( SwServerObject ) #define COLFUZZY 20 void ChgTextToNum( SwTableBox& rBox, const String& rTxt, const Color* pCol, sal_Bool bChgAlign,sal_uLong nNdPos ); //---------------------------------- class SwTableBox_Impl { Color *mpUserColor, *mpNumFmtColor; long mnRowSpan; bool mbDummyFlag; void SetNewCol( Color** ppCol, const Color* pNewCol ); public: SwTableBox_Impl() : mpUserColor(0), mpNumFmtColor(0), mnRowSpan(1), mbDummyFlag( false ) {} ~SwTableBox_Impl() { delete mpUserColor; delete mpNumFmtColor; } const Color* GetSaveUserColor() const { return mpUserColor; } const Color* GetSaveNumFmtColor() const { return mpNumFmtColor; } void SetSaveUserColor(const Color* p ) { SetNewCol( &mpUserColor, p ); } void SetSaveNumFmtColor( const Color* p ) { SetNewCol( &mpNumFmtColor, p ); } long getRowSpan() const { return mnRowSpan; } void setRowSpan( long nNewRowSpan ) { mnRowSpan = nNewRowSpan; } bool getDummyFlag() const { return mbDummyFlag; } void setDummyFlag( bool bDummy ) { mbDummyFlag = bDummy; } }; // ----------- Inlines ----------------------------- inline const Color* SwTableBox::GetSaveUserColor() const { return pImpl ? pImpl->GetSaveUserColor() : 0; } inline const Color* SwTableBox::GetSaveNumFmtColor() const { return pImpl ? pImpl->GetSaveNumFmtColor() : 0; } inline void SwTableBox::SetSaveUserColor(const Color* p ) { if( pImpl ) pImpl->SetSaveUserColor( p ); else if( p ) ( pImpl = new SwTableBox_Impl ) ->SetSaveUserColor( p ); } inline void SwTableBox::SetSaveNumFmtColor( const Color* p ) { if( pImpl ) pImpl->SetSaveNumFmtColor( p ); else if( p ) ( pImpl = new SwTableBox_Impl )->SetSaveNumFmtColor( p ); } long SwTableBox::getRowSpan() const { return pImpl ? pImpl->getRowSpan() : 1; } void SwTableBox::setRowSpan( long nNewRowSpan ) { if( !pImpl ) { if( nNewRowSpan == 1 ) return; pImpl = new SwTableBox_Impl(); } pImpl->setRowSpan( nNewRowSpan ); } bool SwTableBox::getDummyFlag() const { return pImpl ? pImpl->getDummyFlag() : false; } void SwTableBox::setDummyFlag( bool bDummy ) { if( !pImpl ) { if( !bDummy ) return; pImpl = new SwTableBox_Impl(); } pImpl->setDummyFlag( bDummy ); } //JP 15.09.98: Bug 55741 - Tabs beibehalten (vorne und hinten) String& lcl_TabToBlankAtSttEnd( String& rTxt ) { sal_Unicode c; xub_StrLen n; for( n = 0; n < rTxt.Len() && ' ' >= ( c = rTxt.GetChar( n )); ++n ) if( '\x9' == c ) rTxt.SetChar( n, ' ' ); for( n = rTxt.Len(); n && ' ' >= ( c = rTxt.GetChar( --n )); ) if( '\x9' == c ) rTxt.SetChar( n, ' ' ); return rTxt; } String& lcl_DelTabsAtSttEnd( String& rTxt ) { sal_Unicode c; xub_StrLen n; for( n = 0; n < rTxt.Len() && ' ' >= ( c = rTxt.GetChar( n )); ++n ) if( '\x9' == c ) rTxt.Erase( n--, 1 ); for( n = rTxt.Len(); n && ' ' >= ( c = rTxt.GetChar( --n )); ) if( '\x9' == c ) rTxt.Erase( n, 1 ); return rTxt; } void _InsTblBox( SwDoc* pDoc, SwTableNode* pTblNd, SwTableLine* pLine, SwTableBoxFmt* pBoxFrmFmt, SwTableBox* pBox, sal_uInt16 nInsPos, sal_uInt16 nCnt ) { ASSERT( pBox->GetSttNd(), "Box ohne Start-Node" ); SwNodeIndex aIdx( *pBox->GetSttNd(), +1 ); SwCntntNode* pCNd = aIdx.GetNode().GetCntntNode(); if( !pCNd ) pCNd = pDoc->GetNodes().GoNext( &aIdx ); ASSERT( pCNd, "Box ohne ContentNode" ); if( pCNd->IsTxtNode() ) { if( pBox->GetSaveNumFmtColor() && pCNd->GetpSwAttrSet() ) { SwAttrSet aAttrSet( *pCNd->GetpSwAttrSet() ); if( pBox->GetSaveUserColor() ) aAttrSet.Put( SvxColorItem( *pBox->GetSaveUserColor(), RES_CHRATR_COLOR )); else aAttrSet.ClearItem( RES_CHRATR_COLOR ); pDoc->GetNodes().InsBoxen( pTblNd, pLine, pBoxFrmFmt, ((SwTxtNode*)pCNd)->GetTxtColl(), &aAttrSet, nInsPos, nCnt ); } else pDoc->GetNodes().InsBoxen( pTblNd, pLine, pBoxFrmFmt, ((SwTxtNode*)pCNd)->GetTxtColl(), pCNd->GetpSwAttrSet(), nInsPos, nCnt ); } else pDoc->GetNodes().InsBoxen( pTblNd, pLine, pBoxFrmFmt, (SwTxtFmtColl*)pDoc->GetDfltTxtFmtColl(), 0, nInsPos, nCnt ); long nRowSpan = pBox->getRowSpan(); if( nRowSpan != 1 ) { SwTableBoxes& rTblBoxes = pLine->GetTabBoxes(); for( sal_uInt16 i = 0; i < nCnt; ++i ) { pBox = rTblBoxes[ i + nInsPos ]; pBox->setRowSpan( nRowSpan ); } } } /************************************************************************* |* |* SwTable::SwTable() |* |*************************************************************************/ SwTable::SwTable( SwTableFmt* pFmt ) : SwClient( pFmt ), pHTMLLayout( 0 ), pTableNode( 0 ), nGrfsThatResize( 0 ), nRowsToRepeat( 1 ), bModifyLocked( sal_False ), bNewModel( sal_True ) { // default Wert aus den Optionen setzen eTblChgMode = (TblChgMode)GetTblChgDefaultMode(); } SwTable::SwTable( const SwTable& rTable ) : SwClient( rTable.GetFrmFmt() ), pHTMLLayout( 0 ), pTableNode( 0 ), eTblChgMode( rTable.eTblChgMode ), nGrfsThatResize( 0 ), nRowsToRepeat( rTable.GetRowsToRepeat() ), bModifyLocked( sal_False ), bNewModel( rTable.bNewModel ) { } void DelBoxNode( SwTableSortBoxes& rSortCntBoxes ) { for( sal_uInt16 n = 0; n < rSortCntBoxes.Count(); ++n ) rSortCntBoxes[ n ]->pSttNd = 0; } SwTable::~SwTable() { if( refObj.Is() ) { SwDoc* pDoc = GetFrmFmt()->GetDoc(); if( !pDoc->IsInDtor() ) // dann aus der Liste entfernen pDoc->GetLinkManager().RemoveServer( &refObj ); refObj->Closed(); } // ist die Tabelle der letzte Client im FrameFormat, kann dieses // geloescht werden SwTableFmt* pFmt = (SwTableFmt*)GetFrmFmt(); pFmt->Remove( this ); // austragen, if( !pFmt->GetDepends() ) pFmt->GetDoc()->DelTblFrmFmt( pFmt ); // und loeschen // Loesche die Pointer aus dem SortArray der Boxen, die // Objecte bleiben erhalten und werden vom DTOR der Lines/Boxes // Arrays geloescht. //JP: reicht leider nicht, es muessen die Pointer auf den StartNode // der Section geloescht werden DelBoxNode( aSortCntBoxes ); aSortCntBoxes.Remove( (sal_uInt16)0, aSortCntBoxes.Count() ); delete pHTMLLayout; } /************************************************************************* |* |* SwTable::Modify() |* |*************************************************************************/ inline void FmtInArr( SvPtrarr& rFmtArr, SwFmt* pBoxFmt ) { sal_Bool bRet = USHRT_MAX != rFmtArr.GetPos( (VoidPtr)pBoxFmt ); if( !bRet ) rFmtArr.Insert( (VoidPtr)pBoxFmt, rFmtArr.Count() ); } void lcl_ModifyBoxes( SwTableBoxes &rBoxes, const long nOld, const long nNew, SvPtrarr& rFmtArr ); void lcl_ModifyLines( SwTableLines &rLines, const long nOld, const long nNew, SvPtrarr& rFmtArr, const bool bCheckSum ) { for ( sal_uInt16 i = 0; i < rLines.Count(); ++i ) ::lcl_ModifyBoxes( rLines[i]->GetTabBoxes(), nOld, nNew, rFmtArr ); if( bCheckSum ) { for( sal_uInt16 i = 0; i < rFmtArr.Count(); ++i ) { SwFmt* pFmt = (SwFmt*)rFmtArr[i]; sal_uInt64 nBox = pFmt->GetFrmSize().GetWidth(); nBox *= nNew; nBox /= nOld; SwFmtFrmSize aNewBox( ATT_VAR_SIZE, SwTwips(nBox), 0 ); pFmt->LockModify(); pFmt->SetFmtAttr( aNewBox ); pFmt->UnlockModify(); } } } void lcl_ModifyBoxes( SwTableBoxes &rBoxes, const long nOld, const long nNew, SvPtrarr& rFmtArr ) { sal_uInt64 nSum = 0; // To avoid rounding errors we summarize all box widths sal_uInt64 nOriginalSum = 0; // Sum of original widths for ( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { SwTableBox &rBox = *rBoxes[i]; if ( rBox.GetTabLines().Count() ) { // For SubTables the rounding problem will not be solved :-( ::lcl_ModifyLines( rBox.GetTabLines(), nOld, nNew, rFmtArr, false ); } //Die Box anpassen SwFrmFmt *pFmt = rBox.GetFrmFmt(); sal_uInt64 nBox = pFmt->GetFrmSize().GetWidth(); nOriginalSum += nBox; nBox *= nNew; nBox /= nOld; sal_uInt64 nWishedSum = nOriginalSum; nWishedSum *= nNew; nWishedSum /= nOld; nWishedSum -= nSum; if( nWishedSum > 0 ) { if( nBox == nWishedSum ) FmtInArr( rFmtArr, pFmt ); else { nBox = nWishedSum; pFmt = rBox.ClaimFrmFmt(); SwFmtFrmSize aNewBox( ATT_VAR_SIZE, static_cast< SwTwips >(nBox), 0 ); pFmt->LockModify(); pFmt->SetFmtAttr( aNewBox ); pFmt->UnlockModify(); } } else { ASSERT( false, "Rounding error" ); } nSum += nBox; } } void SwTable::Modify( const SfxPoolItem* pOld, const SfxPoolItem *pNew ) { // fange SSize Aenderungen ab, um die Lines/Boxen anzupassen sal_uInt16 nWhich = pOld ? pOld->Which() : pNew ? pNew->Which() : 0 ; const SwFmtFrmSize* pNewSize = 0, *pOldSize = 0; if( RES_ATTRSET_CHG == nWhich ) { if( SFX_ITEM_SET == ((SwAttrSetChg*)pNew)->GetChgSet()->GetItemState( RES_FRM_SIZE, sal_False, (const SfxPoolItem**)&pNewSize )) pOldSize = &((SwAttrSetChg*)pOld)->GetChgSet()->GetFrmSize(); } else if( RES_FRM_SIZE == nWhich ) { pOldSize = (const SwFmtFrmSize*)pOld; pNewSize = (const SwFmtFrmSize*)pNew; } else CheckRegistration( pOld, pNew ); if( pOldSize || pNewSize ) { if ( !IsModifyLocked() ) { ASSERT( pOldSize && pOldSize->Which() == RES_FRM_SIZE && pNewSize && pNewSize->Which() == RES_FRM_SIZE, "Kein Old oder New fuer FmtFrmSize-Modify der SwTable." ); AdjustWidths( pOldSize->GetWidth(), pNewSize->GetWidth() ); } } } void SwTable::AdjustWidths( const long nOld, const long nNew ) { SvPtrarr aFmtArr( (sal_uInt8)aLines[0]->GetTabBoxes().Count(), 1 ); ::lcl_ModifyLines( aLines, nOld, nNew, aFmtArr, true ); } /************************************************************************* |* |* SwTable::GetTabCols() |* |*************************************************************************/ void lcl_RefreshHidden( SwTabCols &rToFill, sal_uInt16 nPos ) { for ( sal_uInt16 i = 0; i < rToFill.Count(); ++i ) { if ( Abs((long)(nPos - rToFill[i])) <= COLFUZZY ) { rToFill.SetHidden( i, sal_False ); break; } } } void lcl_SortedTabColInsert( SwTabCols &rToFill, const SwTableBox *pBox, const SwFrmFmt *pTabFmt, const sal_Bool bHidden, const FASTBOOL bRefreshHidden ) { const long nWish = pTabFmt->GetFrmSize().GetWidth(); const long nAct = rToFill.GetRight() - rToFill.GetLeft(); // +1 why? //Der Wert fuer die linke Kante der Box errechnet sich aus den //Breiten der vorhergehenden Boxen. sal_uInt16 nPos = 0; sal_uInt16 nSum = 0; sal_uInt16 nLeftMin = 0; sal_uInt16 nRightMax = 0; const SwTableBox *pCur = pBox; const SwTableLine *pLine = pBox->GetUpper(); while ( pLine ) { const SwTableBoxes &rBoxes = pLine->GetTabBoxes(); for ( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { SwTwips nWidth = rBoxes[i]->GetFrmFmt()->GetFrmSize().GetWidth(); nSum = (sal_uInt16)(nSum + nWidth); sal_uInt64 nTmp = nSum; nTmp *= nAct; nTmp /= nWish; if (rBoxes[i] != pCur) { if ( pLine == pBox->GetUpper() || 0 == nLeftMin ) nLeftMin = (sal_uInt16)(nTmp - nPos); nPos = (sal_uInt16)nTmp; } else { nSum = (sal_uInt16)(nSum - nWidth); if ( 0 == nRightMax ) nRightMax = (sal_uInt16)(nTmp - nPos); break; } } pCur = pLine->GetUpper(); pLine = pCur ? pCur->GetUpper() : 0; } sal_Bool bInsert = !bRefreshHidden; for ( sal_uInt16 j = 0; bInsert && (j < rToFill.Count()); ++j ) { long nCmp = rToFill[j]; if ( (nPos >= ((nCmp >= COLFUZZY) ? nCmp - COLFUZZY : nCmp)) && (nPos <= (nCmp + COLFUZZY)) ) { bInsert = sal_False; //Hat ihn schon. } else if ( nPos < nCmp ) { bInsert = sal_False; rToFill.Insert( nPos, bHidden, j ); } } if ( bInsert ) rToFill.Insert( nPos, bHidden, rToFill.Count() ); else if ( bRefreshHidden ) ::lcl_RefreshHidden( rToFill, nPos ); if ( bHidden && !bRefreshHidden ) { // calculate minimum/maximum values for the existing entries: nLeftMin = nPos - nLeftMin; nRightMax = nPos + nRightMax; // check if nPos is entry: bool bFoundPos = false; bool bFoundMax = false; for ( sal_uInt16 j = 0; !(bFoundPos && bFoundMax ) && j < rToFill.Count(); ++j ) { SwTabColsEntry& rEntry = rToFill.GetEntry( j ); long nCmp = rToFill[j]; if ( (nPos >= ((nCmp >= COLFUZZY) ? nCmp - COLFUZZY : nCmp)) && (nPos <= (nCmp + COLFUZZY)) ) { // check if nLeftMin is > old minimum for entry nPos: const long nOldMin = rEntry.nMin; if ( nLeftMin > nOldMin ) rEntry.nMin = nLeftMin; // check if nRightMin is < old maximum for entry nPos: const long nOldMax = rEntry.nMax; if ( nRightMax < nOldMax ) rEntry.nMax = nRightMax; bFoundPos = true; } else if ( (nRightMax >= ((nCmp >= COLFUZZY) ? nCmp - COLFUZZY : nCmp)) && (nRightMax <= (nCmp + COLFUZZY)) ) { // check if nPos is > old minimum for entry nRightMax: const long nOldMin = rEntry.nMin; if ( nPos > nOldMin ) rEntry.nMin = nPos; bFoundMax = true; } } } } void lcl_ProcessBoxGet( const SwTableBox *pBox, SwTabCols &rToFill, const SwFrmFmt *pTabFmt, FASTBOOL bRefreshHidden ) { if ( pBox->GetTabLines().Count() ) { const SwTableLines &rLines = pBox->GetTabLines(); for ( sal_uInt16 i = 0; i < rLines.Count(); ++i ) { const SwTableBoxes &rBoxes = rLines[i]->GetTabBoxes(); for ( sal_uInt16 j = 0; j < rBoxes.Count(); ++j ) ::lcl_ProcessBoxGet( rBoxes[j], rToFill, pTabFmt, bRefreshHidden); } } else ::lcl_SortedTabColInsert( rToFill, pBox, pTabFmt, sal_False, bRefreshHidden ); } void lcl_ProcessLineGet( const SwTableLine *pLine, SwTabCols &rToFill, const SwFrmFmt *pTabFmt ) { for ( sal_uInt16 i = 0; i < pLine->GetTabBoxes().Count(); ++i ) { const SwTableBox *pBox = pLine->GetTabBoxes()[i]; if ( pBox->GetSttNd() ) ::lcl_SortedTabColInsert( rToFill, pBox, pTabFmt, sal_True, sal_False ); else for ( sal_uInt16 j = 0; j < pBox->GetTabLines().Count(); ++j ) ::lcl_ProcessLineGet( pBox->GetTabLines()[j], rToFill, pTabFmt ); } } // MS: Sonst Absturz auf der DEC-Kiste // #if defined(ALPHA) && defined(WNT) #pragma optimize("", off) #endif void SwTable::GetTabCols( SwTabCols &rToFill, const SwTableBox *pStart, sal_Bool bRefreshHidden, sal_Bool bCurRowOnly ) const { //MA 30. Nov. 95: Opt: wenn bHidden gesetzt ist, wird nur das Hidden //Array aktualisiert. if ( bRefreshHidden ) { //Korrekturen entfernen sal_uInt16 i; for ( i = 0; i < rToFill.Count(); ++i ) { SwTabColsEntry& rEntry = rToFill.GetEntry( i ); rEntry.nPos -= rToFill.GetLeft(); rEntry.nMin -= rToFill.GetLeft(); rEntry.nMax -= rToFill.GetLeft(); } //Alle sind hidden, dann die sichtbaren eintragen. for ( i = 0; i < rToFill.Count(); ++i ) rToFill.SetHidden( i, sal_True ); } else { rToFill.Remove( 0, rToFill.Count() ); } //Eingetragen werden: //1. Alle Boxen unterhalb der dem Start uebergeordneten Line sowie // deren untergeordnete Boxen falls vorhanden. //2. Ausgehend von der Line die uebergeordnete Box sowie deren Nachbarn; // nicht aber deren untergeordnete. //3. Mit der der Boxenkette uebergeordneten Line wieder wie 2. bis einer // Line keine Box (sondern die Table) uebergeordnet ist. //Es werden nur diejenigen Boxen eingetragen, die keine weiteren Zeilen //enhalten. Die eintragende Funktion sorgt dafuer, dass keine doppelten //eingetragen werden. Um dies zu gewaehrleisten wird mit einer gewissen //Unschaerfe gearbeitet (um Rundungsfehler auszuschalten). //Es werden nur die linken Kanten der Boxen eingetragen. //Am Schluss wird der Erste wieder ausgetragen denn er ist bereits vom //Rand abgedeckt. //4. Nochmalige abscannen der Tabelle und eintragen _aller_ Boxen, // jetzt aber als Hidden. const SwFrmFmt *pTabFmt = GetFrmFmt(); //1. const SwTableBoxes &rBoxes = pStart->GetUpper()->GetTabBoxes(); sal_uInt16 i; for ( i = 0; i < rBoxes.Count(); ++i ) ::lcl_ProcessBoxGet( rBoxes[i], rToFill, pTabFmt, bRefreshHidden ); //2. und 3. const SwTableLine *pLine = pStart->GetUpper()->GetUpper() ? pStart->GetUpper()->GetUpper()->GetUpper() : 0; while ( pLine ) { const SwTableBoxes &rBoxes2 = pLine->GetTabBoxes(); for ( sal_uInt16 k = 0; k < rBoxes2.Count(); ++k ) ::lcl_SortedTabColInsert( rToFill, rBoxes2[k], pTabFmt, sal_False, bRefreshHidden ); pLine = pLine->GetUpper() ? pLine->GetUpper()->GetUpper() : 0; } if ( !bRefreshHidden ) { //4. if ( !bCurRowOnly ) { for ( i = 0; i < aLines.Count(); ++i ) ::lcl_ProcessLineGet( aLines[i], rToFill, pTabFmt ); } rToFill.Remove( 0, 1 ); } //Die Koordinaten sind jetzt relativ zum linken Rand der Tabelle - also //relativ zum nLeft vom SwTabCols. Die Werte werden aber relativ zum //linken Rand - also nLeftMin vom SwTabCols - erwartet. //Alle Werte muessen also um nLeft erweitert werden. for ( i = 0; i < rToFill.Count(); ++i ) { SwTabColsEntry& rEntry = rToFill.GetEntry( i ); rEntry.nPos += rToFill.GetLeft(); rEntry.nMin += rToFill.GetLeft(); rEntry.nMax += rToFill.GetLeft(); } } #if defined(ALPHA) && defined(WNT) #pragma optimize("", on) #endif /************************************************************************* |* |* SwTable::SetTabCols() |* |*************************************************************************/ //Struktur zur Parameteruebergabe struct Parm { const SwTabCols &rNew; const SwTabCols &rOld; long nNewWish, nOldWish; SvPtrarr aBoxArr; SwShareBoxFmts aShareFmts; Parm( const SwTabCols &rN, const SwTabCols &rO ) : rNew( rN ), rOld( rO ), aBoxArr( 10, 1 ) {} }; inline sal_Bool BoxInArr( SvPtrarr& rArr, SwTableBox* pBox ) { sal_Bool bRet = USHRT_MAX != rArr.GetPos( (VoidPtr)pBox ); if( !bRet ) rArr.Insert( (VoidPtr)pBox, rArr.Count() ); return bRet; } void lcl_ProcessBoxSet( SwTableBox *pBox, Parm &rParm ); void lcl_ProcessLine( SwTableLine *pLine, Parm &rParm ) { SwTableBoxes &rBoxes = pLine->GetTabBoxes(); for ( int i = rBoxes.Count()-1; i >= 0; --i ) ::lcl_ProcessBoxSet( rBoxes[ static_cast< sal_uInt16 >(i) ], rParm ); } void lcl_ProcessBoxSet( SwTableBox *pBox, Parm &rParm ) { if ( pBox->GetTabLines().Count() ) { SwTableLines &rLines = pBox->GetTabLines(); for ( int i = rLines.Count()-1; i >= 0; --i ) lcl_ProcessLine( rLines[ static_cast< sal_uInt16 >(i) ], rParm ); } else { //Aktuelle Position (linke und rechte Kante berechnen) und im //alten TabCols suchen. Im neuen TabCols die Werte vergleichen und //wenn es Unterschiede gibt die Box entsprechend anpassen. //Wenn an der veraenderten Kante kein Nachbar existiert werden auch //alle uebergeordneten Boxen angepasst. const long nOldAct = rParm.rOld.GetRight() - rParm.rOld.GetLeft(); // +1 why? //Der Wert fuer die linke Kante der Box errechnet sich aus den //Breiten der vorhergehenden Boxen plus dem linken Rand long nLeft = rParm.rOld.GetLeft(); const SwTableBox *pCur = pBox; const SwTableLine *pLine = pBox->GetUpper(); while ( pLine ) { const SwTableBoxes &rBoxes = pLine->GetTabBoxes(); for ( sal_uInt16 i = 0; (i < rBoxes.Count()) && (rBoxes[i] != pCur); ++i) { sal_uInt64 nWidth = rBoxes[i]->GetFrmFmt()-> GetFrmSize().GetWidth(); nWidth *= nOldAct; nWidth /= rParm.nOldWish; nLeft += (sal_uInt16)nWidth; } pCur = pLine->GetUpper(); pLine = pCur ? pCur->GetUpper() : 0; } long nLeftDiff; long nRightDiff = 0; if ( nLeft != rParm.rOld.GetLeft() ) //Es gibt noch Boxen davor. { //Rechte Kante ist linke Kante plus Breite. sal_uInt64 nWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); nWidth *= nOldAct; nWidth /= rParm.nOldWish; long nRight = nLeft + (long)nWidth; sal_uInt16 nLeftPos = USHRT_MAX, nRightPos = USHRT_MAX; for ( sal_uInt16 i = 0; i < rParm.rOld.Count(); ++i ) { if ( nLeft >= (rParm.rOld[i] - COLFUZZY) && nLeft <= (rParm.rOld[i] + COLFUZZY) ) nLeftPos = i; else if ( nRight >= (rParm.rOld[i] - COLFUZZY) && nRight <= (rParm.rOld[i] + COLFUZZY) ) nRightPos = i; } nLeftDiff = nLeftPos != USHRT_MAX ? (int)rParm.rOld[nLeftPos] - (int)rParm.rNew[nLeftPos] : 0; nRightDiff= nRightPos!= USHRT_MAX ? (int)rParm.rNew[nRightPos] - (int)rParm.rOld[nRightPos] : 0; } else //Die erste Box. { nLeftDiff = (long)rParm.rOld.GetLeft() - (long)rParm.rNew.GetLeft(); if ( rParm.rOld.Count() ) { //Differnz zu der Kante berechnen, von der die erste Box //beruehrt wird. sal_uInt64 nWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); nWidth *= nOldAct; nWidth /= rParm.nOldWish; long nTmp = (long)nWidth; nTmp += rParm.rOld.GetLeft(); sal_uInt16 nLeftPos = USHRT_MAX; for ( sal_uInt16 i = 0; i < rParm.rOld.Count() && nLeftPos == USHRT_MAX; ++i ) { if ( nTmp >= (rParm.rOld[i] - COLFUZZY) && nTmp <= (rParm.rOld[i] + COLFUZZY) ) nLeftPos = i; } if ( nLeftPos != USHRT_MAX ) nRightDiff = (long)rParm.rNew[nLeftPos] - (long)rParm.rOld[nLeftPos]; } //MA 11. Feb. 99: #61577# 0 sollte doch gerade richtig sein, weil die //Kante doch schon in SetTabCols() korrigiert wurde. // else // nRightDiff = (long)rParm.rNew.GetRight() - // (long)rParm.rOld.GetRight(); } if( pBox->getRowSpan() == 1 ) { SwTableBoxes& rTblBoxes = pBox->GetUpper()->GetTabBoxes(); sal_uInt16 nPos = rTblBoxes.C40_GETPOS( SwTableBox, pBox ); if( nPos && rTblBoxes[ nPos - 1 ]->getRowSpan() != 1 ) nLeftDiff = 0; if( nPos + 1 < rTblBoxes.Count() && rTblBoxes[ nPos + 1 ]->getRowSpan() != 1 ) nRightDiff = 0; } else nLeftDiff = nRightDiff = 0; if ( nLeftDiff || nRightDiff ) { //Die Differenz ist der tatsaechliche Differenzbetrag; die //Attribute der Boxen um diesen Betrag anzupassen macht keinen //Sinn wenn die Tabelle gestrecht ist. Der Differenzbetrag muss //entsprechend umgerechnet werden. long nTmp = rParm.rNew.GetRight() - rParm.rNew.GetLeft(); // +1 why? nLeftDiff *= rParm.nNewWish; nLeftDiff /= nTmp; nRightDiff *= rParm.nNewWish; nRightDiff /= nTmp; long nDiff = nLeftDiff + nRightDiff; //Box und alle uebergeordneten um den Differenzbetrag anpassen. while ( pBox ) { SwFmtFrmSize aFmtFrmSize( pBox->GetFrmFmt()->GetFrmSize() ); aFmtFrmSize.SetWidth( aFmtFrmSize.GetWidth() + nDiff ); if ( aFmtFrmSize.GetWidth() < 0 ) aFmtFrmSize.SetWidth( -aFmtFrmSize.GetWidth() ); rParm.aShareFmts.SetSize( *pBox, aFmtFrmSize ); // The outer cells of the last row are responsible to adjust a surrounding cell. // Last line check: if ( pBox->GetUpper()->GetUpper() && pBox->GetUpper() != pBox->GetUpper()->GetUpper()->GetTabLines() [pBox->GetUpper()->GetUpper()->GetTabLines().Count()-1]) { pBox = 0; } else { // Middle cell check: if ( pBox != pBox->GetUpper()->GetTabBoxes()[0] ) nDiff = nRightDiff; if ( pBox != pBox->GetUpper()->GetTabBoxes() [pBox->GetUpper()->GetTabBoxes().Count()-1] ) nDiff -= nRightDiff; pBox = nDiff ? pBox->GetUpper()->GetUpper() : 0; } } } } } void lcl_ProcessBoxPtr( SwTableBox *pBox, SvPtrarr &rBoxArr, sal_Bool bBefore ) { if ( pBox->GetTabLines().Count() ) { const SwTableLines &rLines = pBox->GetTabLines(); for ( sal_uInt16 i = 0; i < rLines.Count(); ++i ) { const SwTableBoxes &rBoxes = rLines[i]->GetTabBoxes(); for ( sal_uInt16 j = 0; j < rBoxes.Count(); ++j ) ::lcl_ProcessBoxPtr( rBoxes[j], rBoxArr, bBefore ); } } else if ( bBefore ) rBoxArr.Insert( (VoidPtr)pBox, 0 ); else rBoxArr.Insert( (VoidPtr)pBox, rBoxArr.Count() ); } void lcl_AdjustBox( SwTableBox *pBox, const long nDiff, Parm &rParm ); void lcl_AdjustLines( SwTableLines &rLines, const long nDiff, Parm &rParm ) { for ( sal_uInt16 i = 0; i < rLines.Count(); ++i ) { SwTableBox *pBox = rLines[i]->GetTabBoxes() [rLines[i]->GetTabBoxes().Count()-1]; lcl_AdjustBox( pBox, nDiff, rParm ); } } void lcl_AdjustBox( SwTableBox *pBox, const long nDiff, Parm &rParm ) { if ( pBox->GetTabLines().Count() ) ::lcl_AdjustLines( pBox->GetTabLines(), nDiff, rParm ); //Groesse der Box anpassen. SwFmtFrmSize aFmtFrmSize( pBox->GetFrmFmt()->GetFrmSize() ); aFmtFrmSize.SetWidth( aFmtFrmSize.GetWidth() + nDiff ); //#30009# if ( aFmtFrmSize.GetWidth() < 0 ) // aFmtFrmSize.SetWidth( -aFmtFrmSize.GetWidth() ); rParm.aShareFmts.SetSize( *pBox, aFmtFrmSize ); } void SwTable::SetTabCols( const SwTabCols &rNew, const SwTabCols &rOld, const SwTableBox *pStart, sal_Bool bCurRowOnly ) { CHECK_TABLE( *this ) SetHTMLTableLayout( 0 ); // MIB 9.7.97: HTML-Layout loeschen // FME: Made rOld const. The caller is responsible for passing correct // values of rOld. Therefore we do not have to call GetTabCols anymore: //GetTabCols( rOld, pStart ); Parm aParm( rNew, rOld ); ASSERT( rOld.Count() == rNew.Count(), "Columnanzahl veraendert."); //Raender verarbeiten. Groesse der Tabelle und ein paar Boxen mussen //angepasst werden. Bei der Groesseneinstellung darf allerdings das //Modify nicht verarbeitet werden - dieses wuerde alle Boxen anpassen //und das koennen wir ueberhaupt nicht gebrauchen. SwFrmFmt *pFmt = GetFrmFmt(); aParm.nOldWish = aParm.nNewWish = pFmt->GetFrmSize().GetWidth(); if ( (rOld.GetLeft() != rNew.GetLeft()) || (rOld.GetRight()!= rNew.GetRight()) ) { LockModify(); { SvxLRSpaceItem aLR( pFmt->GetLRSpace() ); SvxShadowItem aSh( pFmt->GetShadow() ); SwTwips nShRight = aSh.CalcShadowSpace( SHADOW_RIGHT ); SwTwips nShLeft = aSh.CalcShadowSpace( SHADOW_LEFT ); aLR.SetLeft ( rNew.GetLeft() - nShLeft ); aLR.SetRight( rNew.GetRightMax() - rNew.GetRight() - nShRight ); pFmt->SetFmtAttr( aLR ); //Die Ausrichtung der Tabelle muss entsprechend angepasst werden, //das geschieht so, dass die Tabelle genauso stehenbleibt wie der //Anwender sie gerade hingezuppelt hat. SwFmtHoriOrient aOri( pFmt->GetHoriOrient() ); if(text::HoriOrientation::NONE != aOri.GetHoriOrient()) { const sal_Bool bLeftDist = rNew.GetLeft() != nShLeft; const sal_Bool bRightDist = rNew.GetRight() + nShRight != rNew.GetRightMax(); if(!bLeftDist && !bRightDist) aOri.SetHoriOrient( text::HoriOrientation::FULL ); else if(!bRightDist && rNew.GetLeft() > nShLeft ) aOri.SetHoriOrient( text::HoriOrientation::RIGHT ); else if(!bLeftDist && rNew.GetRight() + nShRight < rNew.GetRightMax()) aOri.SetHoriOrient( text::HoriOrientation::LEFT ); else aOri.SetHoriOrient( text::HoriOrientation::NONE ); } pFmt->SetFmtAttr( aOri ); } const long nAct = rOld.GetRight() - rOld.GetLeft(); // +1 why? long nTabDiff = 0; if ( rOld.GetLeft() != rNew.GetLeft() ) { nTabDiff = rOld.GetLeft() - rNew.GetLeft(); nTabDiff *= aParm.nOldWish; nTabDiff /= nAct; } if ( rOld.GetRight() != rNew.GetRight() ) { long nDiff = rNew.GetRight() - rOld.GetRight(); nDiff *= aParm.nOldWish; nDiff /= nAct; nTabDiff += nDiff; if( !IsNewModel() ) ::lcl_AdjustLines( GetTabLines(), nDiff, aParm ); } //Groesse der Tabelle anpassen. Es muss beachtet werden, das die //Tabelle gestrecht sein kann. if ( nTabDiff ) { aParm.nNewWish += nTabDiff; if ( aParm.nNewWish < 0 ) aParm.nNewWish = USHRT_MAX; //Uuups! Eine Rolle rueckwaerts. SwFmtFrmSize aSz( pFmt->GetFrmSize() ); if ( aSz.GetWidth() != aParm.nNewWish ) { aSz.SetWidth( aParm.nNewWish ); aSz.SetWidthPercent( 0 ); pFmt->SetFmtAttr( aSz ); } } UnlockModify(); } if( IsNewModel() ) NewSetTabCols( aParm, rNew, rOld, pStart, bCurRowOnly ); else { if ( bCurRowOnly ) { //Um die aktuelle Zeile anzupassen muessen wir analog zu dem //Verfahren zum fuellen der TabCols (siehe GetTabCols()) die //Boxen der aktuellen Zeile abklappern. //Leider muessen wir auch hier dafuer sorgen, dass die Boxen von //hinten nach vorne bzw. von innen nach aussen veraendert werden. //Der beste Weg hierzu scheint mir darin zu liegen die //entsprechenden Boxen in einem PtrArray vorzumerken. const SwTableBoxes &rBoxes = pStart->GetUpper()->GetTabBoxes(); for ( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) ::lcl_ProcessBoxPtr( rBoxes[i], aParm.aBoxArr, sal_False ); const SwTableLine *pLine = pStart->GetUpper()->GetUpper() ? pStart->GetUpper()->GetUpper()->GetUpper() : 0; const SwTableBox *pExcl = pStart->GetUpper()->GetUpper(); while ( pLine ) { const SwTableBoxes &rBoxes2 = pLine->GetTabBoxes(); sal_Bool bBefore = sal_True; for ( sal_uInt16 i = 0; i < rBoxes2.Count(); ++i ) { if ( rBoxes2[i] != pExcl ) ::lcl_ProcessBoxPtr( rBoxes2[i], aParm.aBoxArr, bBefore ); else bBefore = sal_False; } pExcl = pLine->GetUpper(); pLine = pLine->GetUpper() ? pLine->GetUpper()->GetUpper() : 0; } //Nachdem wir haufenweise Boxen (hoffentlich alle und in der richtigen //Reihenfolge) eingetragen haben, brauchen diese nur noch rueckwaerts //verarbeitet zu werden. for ( int j = aParm.aBoxArr.Count()-1; j >= 0; --j ) { SwTableBox *pBox = (SwTableBox*)aParm.aBoxArr[ static_cast< sal_uInt16 >(j)]; ::lcl_ProcessBoxSet( pBox, aParm ); } } else { //Die gesamte Tabelle anzupassen ist 'einfach'. //Es werden alle Boxen, die keine Lines mehr enthalten angepasst. //Diese Boxen passen alle uebergeordneten Boxen entsprechend mit an. //Um uns nicht selbst hereinzulegen muss natuerlich rueckwaerst //gearbeitet werden! SwTableLines &rLines = GetTabLines(); for ( int i = rLines.Count()-1; i >= 0; --i ) ::lcl_ProcessLine( rLines[ static_cast< sal_uInt16 >(i) ], aParm ); } } #ifdef DBG_UTIL { // steht im tblrwcl.cxx extern void _CheckBoxWidth( const SwTableLine&, SwTwips ); // checke doch mal ob die Tabellen korrekte Breiten haben SwTwips nSize = GetFrmFmt()->GetFrmSize().GetWidth(); for( sal_uInt16 n = 0; n < aLines.Count(); ++n ) _CheckBoxWidth( *aLines[ n ], nSize ); } #endif } typedef std::pair ColChange; typedef std::list< ColChange > ChangeList; static void lcl_AdjustWidthsInLine( SwTableLine* pLine, ChangeList& rOldNew, Parm& rParm, sal_uInt16 nColFuzzy ) { ChangeList::iterator pCurr = rOldNew.begin(); if( pCurr == rOldNew.end() ) return; sal_uInt16 nCount = pLine->GetTabBoxes().Count(); sal_uInt16 i = 0; SwTwips nBorder = 0; SwTwips nRest = 0; while( i < nCount ) { SwTableBox* pBox = pLine->GetTabBoxes()[i++]; SwTwips nWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); SwTwips nNewWidth = nWidth - nRest; nRest = 0; nBorder += nWidth; if( pCurr != rOldNew.end() && nBorder + nColFuzzy >= pCurr->first ) { nBorder -= nColFuzzy; while( pCurr != rOldNew.end() && nBorder > pCurr->first ) ++pCurr; if( pCurr != rOldNew.end() ) { nBorder += nColFuzzy; if( nBorder + nColFuzzy >= pCurr->first ) { if( pCurr->second == pCurr->first ) nRest = 0; else nRest = pCurr->second - nBorder; nNewWidth += nRest; ++pCurr; } } } if( nNewWidth != nWidth ) { if( nNewWidth < 0 ) { nRest += 1 - nNewWidth; nNewWidth = 1; } SwFmtFrmSize aFmtFrmSize( pBox->GetFrmFmt()->GetFrmSize() ); aFmtFrmSize.SetWidth( nNewWidth ); rParm.aShareFmts.SetSize( *pBox, aFmtFrmSize ); } } } static void lcl_CalcNewWidths( std::list &rSpanPos, ChangeList& rChanges, SwTableLine* pLine, long nWish, long nWidth, bool bTop ) { if( !rChanges.size() ) { rSpanPos.clear(); return; } if( !rSpanPos.size() ) { rChanges.clear(); return; } std::list aNewSpanPos; ChangeList aNewChanges; ChangeList::iterator pCurr = rChanges.begin(); aNewChanges.push_back( *pCurr ); // Nullposition std::list::iterator pSpan = rSpanPos.begin(); sal_uInt16 nCurr = 0; sal_uInt16 nOrgSum = 0; bool bRowSpan = false; sal_uInt16 nRowSpanCount = 0; sal_uInt16 nCount = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; SwTwips nCurrWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); const long nRowSpan = pBox->getRowSpan(); const bool bCurrRowSpan = bTop ? nRowSpan < 0 : ( nRowSpan > 1 || nRowSpan < -1 ); if( bRowSpan || bCurrRowSpan ) aNewSpanPos.push_back( nRowSpanCount ); bRowSpan = bCurrRowSpan; nOrgSum = (sal_uInt16)(nOrgSum + nCurrWidth); sal_uInt64 nSum = nOrgSum; nSum *= nWidth; nSum /= nWish; nSum *= nWish; nSum /= nWidth; sal_uInt16 nPos = (sal_uInt16)nSum; while( pCurr != rChanges.end() && pCurr->first < nPos ) { #ifdef DBG_UTIL sal_uInt16 nTemp = pCurr->first; nTemp = pCurr->second; #endif ++nCurr; ++pCurr; } bool bNew = true; if( pCurr != rChanges.end() && pCurr->first <= nPos && pCurr->first != pCurr->second ) { while( pSpan != rSpanPos.end() && *pSpan < nCurr ) ++pSpan; if( pSpan != rSpanPos.end() && *pSpan == nCurr ) { aNewChanges.push_back( *pCurr ); ++nRowSpanCount; bNew = false; } } if( bNew ) { ColChange aTmp( nPos, nPos ); aNewChanges.push_back( aTmp ); ++nRowSpanCount; } } pCurr = aNewChanges.begin(); ChangeList::iterator pLast = pCurr; ChangeList::iterator pLeftMove = pCurr; while( pCurr != aNewChanges.end() ) { if( pLeftMove == pCurr ) { while( ++pLeftMove != aNewChanges.end() && pLeftMove->first <= pLeftMove->second ) ; } if( pCurr->second == pCurr->first ) { if( pLeftMove != aNewChanges.end() && pCurr->second > pLeftMove->second ) { if( pLeftMove->first == pLast->first ) pCurr->second = pLeftMove->second; else { sal_uInt64 nTmp = pCurr->first - pLast->first; nTmp *= pLeftMove->second - pLast->second; nTmp /= pLeftMove->first - pLast->first; nTmp += pLast->second; pCurr->second = (sal_uInt16)nTmp; } } pLast = pCurr; ++pCurr; } else if( pCurr->second > pCurr->first ) { pLast = pCurr; ++pCurr; ChangeList::iterator pNext = pCurr; while( pNext != pLeftMove && pNext->second == pNext->first && pNext->second < pLast->second ) ++pNext; while( pCurr != pNext ) { if( pNext == aNewChanges.end() || pNext->first == pLast->first ) pCurr->second = pLast->second; else { sal_uInt64 nTmp = pCurr->first - pLast->first; nTmp *= pNext->second - pLast->second; nTmp /= pNext->first - pLast->first; nTmp += pLast->second; pCurr->second = (sal_uInt16)nTmp; } ++pCurr; } pLast = pCurr; } else { pLast = pCurr; ++pCurr; } } rChanges.clear(); ChangeList::iterator pCopy = aNewChanges.begin(); while( pCopy != aNewChanges.end() ) rChanges.push_back( *pCopy++ ); rSpanPos.clear(); std::list::iterator pSpCopy = aNewSpanPos.begin(); while( pSpCopy != aNewSpanPos.end() ) rSpanPos.push_back( *pSpCopy++ ); } void SwTable::NewSetTabCols( Parm &rParm, const SwTabCols &rNew, const SwTabCols &rOld, const SwTableBox *pStart, sal_Bool bCurRowOnly ) { #ifdef DBG_UTIL static int nCallCount = 0; ++nCallCount; #endif // First step: evaluate which lines have been moved/which widths changed ChangeList aOldNew; const long nNewWidth = rParm.rNew.GetRight() - rParm.rNew.GetLeft(); const long nOldWidth = rParm.rOld.GetRight() - rParm.rOld.GetLeft(); if( nNewWidth < 1 || nOldWidth < 1 ) return; for( sal_uInt16 i = 0; i <= rOld.Count(); ++i ) { sal_uInt64 nNewPos; sal_uInt64 nOldPos; if( i == rOld.Count() ) { nOldPos = rParm.rOld.GetRight() - rParm.rOld.GetLeft(); nNewPos = rParm.rNew.GetRight() - rParm.rNew.GetLeft(); } else { nOldPos = rOld[i] - rParm.rOld.GetLeft(); nNewPos = rNew[i] - rParm.rNew.GetLeft(); } nNewPos *= rParm.nNewWish; nNewPos /= nNewWidth; nOldPos *= rParm.nOldWish; nOldPos /= nOldWidth; if( nOldPos != nNewPos && nNewPos > 0 && nOldPos > 0 ) { ColChange aChg( (sal_uInt16)nOldPos, (sal_uInt16)nNewPos ); aOldNew.push_back( aChg ); } } // Finished first step int nCount = aOldNew.size(); if( !nCount ) return; // no change, nothing to do SwTableLines &rLines = GetTabLines(); if( bCurRowOnly ) { const SwTableLine* pCurrLine = pStart->GetUpper(); sal_uInt16 nCurr = rLines.C40_GETPOS( SwTableLine, pCurrLine ); if( nCurr >= USHRT_MAX ) return; ColChange aChg( 0, 0 ); aOldNew.push_front( aChg ); std::list aRowSpanPos; if( nCurr ) { ChangeList aCopy; ChangeList::iterator pCop = aOldNew.begin(); sal_uInt16 nPos = 0; while( pCop != aOldNew.end() ) { aCopy.push_back( *pCop ); ++pCop; aRowSpanPos.push_back( nPos++ ); } lcl_CalcNewWidths( aRowSpanPos, aCopy, rLines[nCurr], rParm.nOldWish, nOldWidth, true ); bool bGoOn = aRowSpanPos.size() > 0; sal_uInt16 j = nCurr; while( bGoOn ) { lcl_CalcNewWidths( aRowSpanPos, aCopy, rLines[--j], rParm.nOldWish, nOldWidth, true ); lcl_AdjustWidthsInLine( rLines[j], aCopy, rParm, 0 ); bGoOn = aRowSpanPos.size() > 0 && j > 0; }; aRowSpanPos.clear(); } if( nCurr+1 < rLines.Count() ) { ChangeList aCopy; ChangeList::iterator pCop = aOldNew.begin(); sal_uInt16 nPos = 0; while( pCop != aOldNew.end() ) { aCopy.push_back( *pCop ); ++pCop; aRowSpanPos.push_back( nPos++ ); } lcl_CalcNewWidths( aRowSpanPos, aCopy, rLines[nCurr], rParm.nOldWish, nOldWidth, false ); bool bGoOn = aRowSpanPos.size() > 0; sal_uInt16 j = nCurr; while( bGoOn ) { lcl_CalcNewWidths( aRowSpanPos, aCopy, rLines[++j], rParm.nOldWish, nOldWidth, false ); lcl_AdjustWidthsInLine( rLines[j], aCopy, rParm, 0 ); bGoOn = aRowSpanPos.size() > 0 && j+1 < rLines.Count(); }; } ::lcl_AdjustWidthsInLine( rLines[nCurr], aOldNew, rParm, 1 ); } else for( sal_uInt16 i = 0; i < rLines.Count(); ++i ) ::lcl_AdjustWidthsInLine( rLines[i], aOldNew, rParm, COLFUZZY ); CHECK_TABLE( *this ) } /************************************************************************* |* |* const SwTableBox* SwTable::GetTblBox( const Strn?ng& rName ) const |* gebe den Pointer auf die benannte Box zurueck. |* |*************************************************************************/ sal_Bool IsValidRowName( const String& rStr ) { sal_Bool bIsValid = sal_True; xub_StrLen nLen = rStr.Len(); for (xub_StrLen i = 0; i < nLen && bIsValid; ++i) { const sal_Unicode cChar = rStr.GetChar(i); if (cChar < '0' || cChar > '9') bIsValid = sal_False; } return bIsValid; } // --> OD 2007-08-03 #i80314# // add 3rd parameter and its handling sal_uInt16 SwTable::_GetBoxNum( String& rStr, sal_Bool bFirstPart, const bool bPerformValidCheck ) { sal_uInt16 nRet = 0; xub_StrLen nPos = 0; if( bFirstPart ) // sal_True == column; sal_False == row { // die 1. ist mit Buchstaben addressiert! sal_Unicode cChar; sal_Bool bFirst = sal_True; while( 0 != ( cChar = rStr.GetChar( nPos )) && ( (cChar >= 'A' && cChar <= 'Z') || (cChar >= 'a' && cChar <= 'z') ) ) { if( (cChar -= 'A') >= 26 ) cChar -= 'a' - '['; if( bFirst ) bFirst = sal_False; else ++nRet; nRet = nRet * 52 + cChar; ++nPos; } rStr.Erase( 0, nPos ); // Zeichen aus dem String loeschen } else if( STRING_NOTFOUND == ( nPos = rStr.Search( aDotStr ) )) { nRet = 0; if ( !bPerformValidCheck || IsValidRowName( rStr ) ) { nRet = static_cast(rStr.ToInt32()); } rStr.Erase(); } else { nRet = 0; String aTxt( rStr.Copy( 0, nPos ) ); if ( !bPerformValidCheck || IsValidRowName( aTxt ) ) { nRet = static_cast(aTxt.ToInt32()); } rStr.Erase( 0, nPos+1 ); } return nRet; } // <-- // --> OD 2007-08-03 #i80314# // add 2nd parameter and its handling const SwTableBox* SwTable::GetTblBox( const String& rName, const bool bPerformValidCheck ) const { const SwTableBox* pBox = 0; const SwTableLine* pLine; const SwTableLines* pLines; const SwTableBoxes* pBoxes; sal_uInt16 nLine, nBox; String aNm( rName ); while( aNm.Len() ) { nBox = SwTable::_GetBoxNum( aNm, 0 == pBox, bPerformValidCheck ); // erste Box ? if( !pBox ) pLines = &GetTabLines(); else { pLines = &pBox->GetTabLines(); if( nBox ) --nBox; } nLine = SwTable::_GetBoxNum( aNm, sal_False, bPerformValidCheck ); // bestimme die Line if( !nLine || nLine > pLines->Count() ) return 0; pLine = (*pLines)[ nLine-1 ]; // bestimme die Box pBoxes = &pLine->GetTabBoxes(); if( nBox >= pBoxes->Count() ) return 0; pBox = (*pBoxes)[ nBox ]; } // abpruefen, ob die gefundene Box auch wirklich eine Inhaltstragende // Box ist ?? if( pBox && !pBox->GetSttNd() ) { ASSERT( sal_False, "Box ohne Inhalt, suche die naechste !!" ); // "herunterfallen lassen" bis zur ersten Box while( pBox->GetTabLines().Count() ) pBox = pBox->GetTabLines()[0]->GetTabBoxes()[0]; } return pBox; } SwTableBox* SwTable::GetTblBox( sal_uLong nSttIdx ) { //MA: Zur Optimierung nicht immer umstaendlich das ganze SortArray abhuenern. //OS: #102675# converting text to table tries und certain conditions // to ask for a table box of a table that is not yet having a format if(!GetFrmFmt()) return 0; SwTableBox* pRet = 0; SwNodes& rNds = GetFrmFmt()->GetDoc()->GetNodes(); sal_uLong nIndex = nSttIdx + 1; SwCntntNode* pCNd = 0; SwTableNode* pTblNd = 0; while ( nIndex < rNds.Count() ) { pTblNd = rNds[ nIndex ]->GetTableNode(); if ( pTblNd ) break; pCNd = rNds[ nIndex ]->GetCntntNode(); if ( pCNd ) break; ++nIndex; } if ( pCNd || pTblNd ) { SwModify* pModify = pCNd; // --> FME 2007-3-26 #144862# Better handling of table in table: if ( pTblNd && pTblNd->GetTable().GetFrmFmt() ) pModify = pTblNd->GetTable().GetFrmFmt(); // <-- SwFrm* pFrm = SwIterator::FirstElement( *pModify ); while ( pFrm && !pFrm->IsCellFrm() ) pFrm = pFrm->GetUpper(); if ( pFrm ) pRet = (SwTableBox*)((SwCellFrm*)pFrm)->GetTabBox(); } //Falls es das Layout noch nicht gibt oder sonstwie etwas schieft geht. if ( !pRet ) { for( sal_uInt16 n = aSortCntBoxes.Count(); n; ) if( aSortCntBoxes[ --n ]->GetSttIdx() == nSttIdx ) return aSortCntBoxes[ n ]; } return pRet; } sal_Bool SwTable::IsTblComplex() const { // returnt sal_True wenn sich in der Tabelle Verschachtelungen befinden // steht eine Box nicht in der obersten Line, da wurde gesplittet/ // gemergt und die Struktur ist komplexer. for( sal_uInt16 n = 0; n < aSortCntBoxes.Count(); ++n ) if( aSortCntBoxes[ n ]->GetUpper()->GetUpper() ) return sal_True; return sal_False; } /************************************************************************* |* |* SwTableLine::SwTableLine() |* |*************************************************************************/ SwTableLine::SwTableLine( SwTableLineFmt *pFmt, sal_uInt16 nBoxes, SwTableBox *pUp ) : SwClient( pFmt ), aBoxes( (sal_uInt8)nBoxes, 1 ), pUpper( pUp ) { } SwTableLine::~SwTableLine() { // ist die TabelleLine der letzte Client im FrameFormat, kann dieses // geloescht werden SwModify* pMod = GetFrmFmt(); pMod->Remove( this ); // austragen, if( !pMod->GetDepends() ) delete pMod; // und loeschen } /************************************************************************* |* |* SwTableLine::ClaimFrmFmt(), ChgFrmFmt() |* |*************************************************************************/ SwFrmFmt* SwTableLine::ClaimFrmFmt() { // This method makes sure that this object is an exclusive SwTableLine client // of an SwTableLineFmt object // If other SwTableLine objects currently listen to the same SwTableLineFmt as // this one, something needs to be done SwTableLineFmt *pRet = (SwTableLineFmt*)GetFrmFmt(); SwIterator aIter( *pRet ); for( SwTableLine* pLast = aIter.First(); pLast; pLast = aIter.Next() ) { if ( pLast != this ) { // found another SwTableLine that is a client of the current Fmt // create a new Fmt as a copy and use it for this object SwTableLineFmt *pNewFmt = pRet->GetDoc()->MakeTableLineFmt(); *pNewFmt = *pRet; // register SwRowFrms that know me as clients at the new Fmt SwIterator aFrmIter( *pRet ); for( SwRowFrm* pFrm = aFrmIter.First(); pFrm; pFrm = aFrmIter.Next() ) if( pFrm->GetTabLine() == this ) pFrm->RegisterToFormat( *pNewFmt ); // register myself pNewFmt->Add( this ); pRet = pNewFmt; break; } } return pRet; } void SwTableLine::ChgFrmFmt( SwTableLineFmt *pNewFmt ) { SwFrmFmt *pOld = GetFrmFmt(); SwIterator aIter( *pOld ); //Erstmal die Frms ummelden. for( SwRowFrm* pRow = aIter.First(); pRow; pRow = aIter.Next() ) { if( pRow->GetTabLine() == this ) { pRow->RegisterToFormat( *pNewFmt ); pRow->InvalidateSize(); pRow->_InvalidatePrt(); pRow->SetCompletePaint(); pRow->ReinitializeFrmSizeAttrFlags(); // --> FME 2004-10-27 #i35063# // consider 'split row allowed' attribute SwTabFrm* pTab = pRow->FindTabFrm(); bool bInFollowFlowRow = false; const bool bInFirstNonHeadlineRow = pTab->IsFollow() && pRow == pTab->GetFirstNonHeadlineRow(); if ( bInFirstNonHeadlineRow || !pRow->GetNext() || 0 != ( bInFollowFlowRow = pRow->IsInFollowFlowRow() ) || 0 != pRow->IsInSplitTableRow() ) { if ( bInFirstNonHeadlineRow || bInFollowFlowRow ) pTab = pTab->FindMaster(); pTab->SetRemoveFollowFlowLinePending( sal_True ); pTab->InvalidatePos(); } // <-- } } //Jetzt noch mich selbst ummelden. pNewFmt->Add( this ); if ( !pOld->GetDepends() ) delete pOld; } SwTwips SwTableLine::GetTableLineHeight( bool& bLayoutAvailable ) const { SwTwips nRet = 0; bLayoutAvailable = false; SwIterator aIter( *GetFrmFmt() ); // A row could appear several times in headers/footers so only one chain of master/follow tables // will be accepted... const SwTabFrm* pChain = NULL; // My chain for( SwRowFrm* pLast = aIter.First(); pLast; pLast = aIter.Next() ) { if( pLast->GetTabLine() == this ) { const SwTabFrm* pTab = pLast->FindTabFrm(); bLayoutAvailable = ( pTab && pTab->IsVertical() ) ? ( 0 < pTab->Frm().Height() ) : ( 0 < pTab->Frm().Width() ); // The first one defines the chain, if a chain is defined, only members of the chain // will be added. if( !pChain || pChain->IsAnFollow( pTab ) || pTab->IsAnFollow( pChain ) ) { pChain = pTab; // defines my chain (even it is already) if( pTab->IsVertical() ) nRet += pLast->Frm().Width(); else nRet += pLast->Frm().Height(); // Optimization, if there are no master/follows in my chain, nothing more to add if( !pTab->HasFollow() && !pTab->IsFollow() ) break; // This is not an optimization, this is necessary to avoid double additions of // repeating rows if( pTab->IsInHeadline(*pLast) ) break; } } } return nRet; } /************************************************************************* |* |* SwTableBox::SwTableBox() |* |*************************************************************************/ SwTableBox::SwTableBox( SwTableBoxFmt* pFmt, sal_uInt16 nLines, SwTableLine *pUp ) : SwClient( 0 ), aLines( (sal_uInt8)nLines, 1 ), pSttNd( 0 ), pUpper( pUp ), pImpl( 0 ) { CheckBoxFmt( pFmt )->Add( this ); } SwTableBox::SwTableBox( SwTableBoxFmt* pFmt, const SwNodeIndex &rIdx, SwTableLine *pUp ) : SwClient( 0 ), aLines( 0, 0 ), pUpper( pUp ), pImpl( 0 ) { CheckBoxFmt( pFmt )->Add( this ); pSttNd = rIdx.GetNode().GetStartNode(); // an der Table eintragen const SwTableNode* pTblNd = pSttNd->FindTableNode(); ASSERT( pTblNd, "in welcher Tabelle steht denn die Box?" ); SwTableSortBoxes& rSrtArr = (SwTableSortBoxes&)pTblNd->GetTable(). GetTabSortBoxes(); SwTableBox* p = this; // error: &this rSrtArr.Insert( p ); // eintragen } SwTableBox::SwTableBox( SwTableBoxFmt* pFmt, const SwStartNode& rSttNd, SwTableLine *pUp ) : SwClient( 0 ), aLines( 0, 0 ), pSttNd( &rSttNd ), pUpper( pUp ), pImpl( 0 ) { CheckBoxFmt( pFmt )->Add( this ); // an der Table eintragen const SwTableNode* pTblNd = pSttNd->FindTableNode(); ASSERT( pTblNd, "in welcher Tabelle steht denn die Box?" ); SwTableSortBoxes& rSrtArr = (SwTableSortBoxes&)pTblNd->GetTable(). GetTabSortBoxes(); SwTableBox* p = this; // error: &this rSrtArr.Insert( p ); // eintragen } SwTableBox::~SwTableBox() { // Inhaltstragende Box ? if( !GetFrmFmt()->GetDoc()->IsInDtor() && pSttNd ) { // an der Table austragen const SwTableNode* pTblNd = pSttNd->FindTableNode(); ASSERT( pTblNd, "in welcher Tabelle steht denn die Box?" ); SwTableSortBoxes& rSrtArr = (SwTableSortBoxes&)pTblNd->GetTable(). GetTabSortBoxes(); SwTableBox *p = this; // error: &this rSrtArr.Remove( p ); // austragen } // ist die TabelleBox der letzte Client im FrameFormat, kann dieses // geloescht werden SwModify* pMod = GetFrmFmt(); pMod->Remove( this ); // austragen, if( !pMod->GetDepends() ) delete pMod; // und loeschen delete pImpl; } SwTableBoxFmt* SwTableBox::CheckBoxFmt( SwTableBoxFmt* pFmt ) { // sollte das Format eine Formel oder einen Value tragen, dann muss die // Box alleine am Format haengen. Ggfs. muss ein neues angelegt werden. if( SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_VALUE, sal_False ) || SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_FORMULA, sal_False ) ) { SwTableBox* pOther = SwIterator::FirstElement( *pFmt ); if( pOther ) { SwTableBoxFmt* pNewFmt = pFmt->GetDoc()->MakeTableBoxFmt(); pNewFmt->LockModify(); *pNewFmt = *pFmt; // Values und Formeln entfernen pNewFmt->ResetFmtAttr( RES_BOXATR_FORMULA, RES_BOXATR_VALUE ); pNewFmt->UnlockModify(); pFmt = pNewFmt; } } return pFmt; } /************************************************************************* |* |* SwTableBox::ClaimFrmFmt(), ChgFrmFmt() |* |*************************************************************************/ SwFrmFmt* SwTableBox::ClaimFrmFmt() { // This method makes sure that this object is an exclusive SwTableBox client // of an SwTableBoxFmt object // If other SwTableBox objects currently listen to the same SwTableBoxFmt as // this one, something needs to be done SwTableBoxFmt *pRet = (SwTableBoxFmt*)GetFrmFmt(); SwIterator aIter( *pRet ); for( SwTableBox* pLast = aIter.First(); pLast; pLast = aIter.Next() ) { if ( pLast != this ) { // Found another SwTableBox object // create a new Fmt as a copy and assign me to it // don't copy values and formulas SwTableBoxFmt* pNewFmt = pRet->GetDoc()->MakeTableBoxFmt(); pNewFmt->LockModify(); *pNewFmt = *pRet; pNewFmt->ResetFmtAttr( RES_BOXATR_FORMULA, RES_BOXATR_VALUE ); pNewFmt->UnlockModify(); // re-register SwCellFrm objects that know me SwIterator aFrmIter( *pRet ); for( SwCellFrm* pCell = aFrmIter.First(); pCell; pCell = aFrmIter.Next() ) if( pCell->GetTabBox() == this ) pCell->RegisterToFormat( *pNewFmt ); // re-register myself pNewFmt->Add( this ); pRet = pNewFmt; break; } } return pRet; } void SwTableBox::ChgFrmFmt( SwTableBoxFmt* pNewFmt ) { SwFrmFmt *pOld = GetFrmFmt(); SwIterator aIter( *pOld ); //Erstmal die Frms ummelden. for( SwCellFrm* pCell = aIter.First(); pCell; pCell = aIter.Next() ) { if( pCell->GetTabBox() == this ) { pCell->RegisterToFormat( *pNewFmt ); pCell->InvalidateSize(); pCell->_InvalidatePrt(); pCell->SetCompletePaint(); pCell->SetDerivedVert( sal_False ); pCell->CheckDirChange(); // --> FME 2005-04-15 #i47489# // make sure that the row will be formatted, in order // to have the correct Get(Top|Bottom)MarginForLowers values // set at the row. const SwTabFrm* pTab = pCell->FindTabFrm(); if ( pTab && pTab->IsCollapsingBorders() ) { SwFrm* pRow = pCell->GetUpper(); pRow->_InvalidateSize(); pRow->_InvalidatePrt(); } // <-- } } //Jetzt noch mich selbst ummelden. pNewFmt->Add( this ); if( !pOld->GetDepends() ) delete pOld; } /************************************************************************* |* |* String SwTableBox::GetName() const |* gebe den Namen dieser Box zurueck. Dieser wird dynamisch bestimmt |* und ergibt sich aus der Position in den Lines/Boxen/Tabelle |* |*************************************************************************/ void lcl_GetTblBoxColStr( sal_uInt16 nCol, String& rNm ) { const sal_uInt16 coDiff = 52; // 'A'-'Z' 'a' - 'z' sal_uInt16 nCalc; do { nCalc = nCol % coDiff; if( nCalc >= 26 ) rNm.Insert( sal_Unicode('a' - 26 + nCalc ), 0 ); else rNm.Insert( sal_Unicode('A' + nCalc ), 0 ); if( 0 == (nCol = nCol - nCalc) ) break; nCol /= coDiff; --nCol; } while( 1 ); } String SwTableBox::GetName() const { if( !pSttNd ) // keine Content Box ?? { // die naechste erste Box suchen ?? return aEmptyStr; } const SwTable& rTbl = pSttNd->FindTableNode()->GetTable(); sal_uInt16 nPos; String sNm, sTmp; const SwTableBox* pBox = this; do { const SwTableBoxes* pBoxes = &pBox->GetUpper()->GetTabBoxes(); const SwTableLine* pLine = pBox->GetUpper(); // auf oberstere Ebene ? const SwTableLines* pLines = pLine->GetUpper() ? &pLine->GetUpper()->GetTabLines() : &rTbl.GetTabLines(); sTmp = String::CreateFromInt32( nPos = pLines->GetPos( pLine ) + 1 ); if( sNm.Len() ) sNm.Insert( aDotStr, 0 ).Insert( sTmp, 0 ); else sNm = sTmp; sTmp = String::CreateFromInt32(( nPos = pBoxes->GetPos( pBox )) + 1 ); if( 0 != ( pBox = pLine->GetUpper()) ) sNm.Insert( aDotStr, 0 ).Insert( sTmp, 0 ); else ::lcl_GetTblBoxColStr( nPos, sNm ); } while( pBox ); return sNm; } sal_Bool SwTableBox::IsInHeadline( const SwTable* pTbl ) const { if( !GetUpper() ) // sollte nur beim Merge vorkommen. return sal_False; if( !pTbl ) pTbl = &pSttNd->FindTableNode()->GetTable(); const SwTableLine* pLine = GetUpper(); while( pLine->GetUpper() ) pLine = pLine->GetUpper()->GetUpper(); // Headerline? return pTbl->GetTabLines()[ 0 ] == pLine; } #ifdef DBG_UTIL sal_uLong SwTableBox::GetSttIdx() const { return pSttNd ? pSttNd->GetIndex() : 0; } #endif // erfrage vom Client Informationen sal_Bool SwTable::GetInfo( SfxPoolItem& rInfo ) const { switch( rInfo.Which() ) { case RES_AUTOFMT_DOCNODE: { const SwTableNode* pTblNode = GetTableNode(); if( pTblNode && &pTblNode->GetNodes() == ((SwAutoFmtGetDocNode&)rInfo).pNodes ) { if ( aSortCntBoxes.Count() ) { SwNodeIndex aIdx( *aSortCntBoxes[ 0 ]->GetSttNd() ); ((SwAutoFmtGetDocNode&)rInfo).pCntntNode = GetFrmFmt()->GetDoc()->GetNodes().GoNext( &aIdx ); } return sal_False; } break; } case RES_FINDNEARESTNODE: if( GetFrmFmt() && ((SwFmtPageDesc&)GetFrmFmt()->GetFmtAttr( RES_PAGEDESC )).GetPageDesc() && aSortCntBoxes.Count() && aSortCntBoxes[ 0 ]->GetSttNd()->GetNodes().IsDocNodes() ) ((SwFindNearestNode&)rInfo).CheckNode( * aSortCntBoxes[ 0 ]->GetSttNd()->FindTableNode() ); break; case RES_CONTENT_VISIBLE: { ((SwPtrMsgPoolItem&)rInfo).pObject = SwIterator::FirstElement( *GetFrmFmt() ); } return sal_False; } return sal_True; } SwTable * SwTable::FindTable( SwFrmFmt const*const pFmt ) { return (pFmt) ? SwIterator::FirstElement(*pFmt) : 0; } SwTableNode* SwTable::GetTableNode() const { return GetTabSortBoxes().Count() ? (SwTableNode*)GetTabSortBoxes()[ 0 ]->GetSttNd()->FindTableNode() : pTableNode; } void SwTable::SetRefObject( SwServerObject* pObj ) { if( refObj.Is() ) refObj->Closed(); refObj = pObj; } void SwTable::SetHTMLTableLayout( SwHTMLTableLayout *p ) { delete pHTMLLayout; pHTMLLayout = p; } void ChgTextToNum( SwTableBox& rBox, const String& rTxt, const Color* pCol, sal_Bool bChgAlign ) { sal_uLong nNdPos = rBox.IsValidNumTxtNd( sal_True ); ChgTextToNum( rBox,rTxt,pCol,bChgAlign,nNdPos); } void ChgTextToNum( SwTableBox& rBox, const String& rTxt, const Color* pCol, sal_Bool bChgAlign,sal_uLong nNdPos ) { if( ULONG_MAX != nNdPos ) { SwDoc* pDoc = rBox.GetFrmFmt()->GetDoc(); SwTxtNode* pTNd = pDoc->GetNodes()[ nNdPos ]->GetTxtNode(); const SfxPoolItem* pItem; // Ausrichtung umsetzen if( bChgAlign ) { pItem = &pTNd->SwCntntNode::GetAttr( RES_PARATR_ADJUST ); SvxAdjust eAdjust = ((SvxAdjustItem*)pItem)->GetAdjust(); if( SVX_ADJUST_LEFT == eAdjust || SVX_ADJUST_BLOCK == eAdjust ) { SvxAdjustItem aAdjust( *(SvxAdjustItem*)pItem ); aAdjust.SetAdjust( SVX_ADJUST_RIGHT ); pTNd->SetAttr( aAdjust ); } } // Farbe umsetzen oder "Benutzer Farbe" sichern if( !pTNd->GetpSwAttrSet() || SFX_ITEM_SET != pTNd->GetpSwAttrSet()-> GetItemState( RES_CHRATR_COLOR, sal_False, &pItem )) pItem = 0; const Color* pOldNumFmtColor = rBox.GetSaveNumFmtColor(); const Color* pNewUserColor = pItem ? &((SvxColorItem*)pItem)->GetValue() : 0; if( ( pNewUserColor && pOldNumFmtColor && *pNewUserColor == *pOldNumFmtColor ) || ( !pNewUserColor && !pOldNumFmtColor )) { // User Color nicht veraendern aktuellen Werte setzen // ggfs. die alte NumFmtColor loeschen if( pCol ) // ggfs. die Farbe setzen pTNd->SetAttr( SvxColorItem( *pCol, RES_CHRATR_COLOR )); else if( pItem ) { pNewUserColor = rBox.GetSaveUserColor(); if( pNewUserColor ) pTNd->SetAttr( SvxColorItem( *pNewUserColor, RES_CHRATR_COLOR )); else pTNd->ResetAttr( RES_CHRATR_COLOR ); } } else { // User Color merken, ggfs. die NumFormat Color setzen, aber // nie die Farbe zurueck setzen rBox.SetSaveUserColor( pNewUserColor ); if( pCol ) // ggfs. die Farbe setzen pTNd->SetAttr( SvxColorItem( *pCol, RES_CHRATR_COLOR )); } rBox.SetSaveNumFmtColor( pCol ); if( pTNd->GetTxt() != rTxt ) { // Text austauschen //JP 15.09.98: Bug 55741 - Tabs beibehalten (vorne und hinten!) const String& rOrig = pTNd->GetTxt(); xub_StrLen n; for( n = 0; n < rOrig.Len() && '\x9' == rOrig.GetChar( n ); ++n ) ; for( ; n < rOrig.Len() && '\x01' == rOrig.GetChar( n ); ++n ) ; SwIndex aIdx( pTNd, n ); for( n = rOrig.Len(); n && '\x9' == rOrig.GetChar( --n ); ) ; n -= aIdx.GetIndex() - 1; //JP 06.04.99: Bug 64321 - DontExpand-Flags vorm Austauschen // zuruecksetzen, damit sie wieder aufgespannt werden { SwIndex aResetIdx( aIdx, n ); pTNd->DontExpandFmt( aResetIdx, sal_False, sal_False ); } if( !pDoc->IsIgnoreRedline() && pDoc->GetRedlineTbl().Count() ) { SwPaM aTemp(*pTNd, 0, *pTNd, rOrig.Len()); pDoc->DeleteRedline(aTemp, true, USHRT_MAX); } pTNd->EraseText( aIdx, n, IDocumentContentOperations::INS_EMPTYEXPAND ); pTNd->InsertText( rTxt, aIdx, IDocumentContentOperations::INS_EMPTYEXPAND ); if( pDoc->IsRedlineOn() ) { SwPaM aTemp(*pTNd, 0, *pTNd, rTxt.Len()); pDoc->AppendRedline(new SwRedline(nsRedlineType_t::REDLINE_INSERT, aTemp), true); } } // vertikale Ausrichtung umsetzen if( bChgAlign && ( SFX_ITEM_SET != rBox.GetFrmFmt()->GetItemState( RES_VERT_ORIENT, sal_True, &pItem ) || text::VertOrientation::TOP == ((SwFmtVertOrient*)pItem)->GetVertOrient() )) { rBox.GetFrmFmt()->SetFmtAttr( SwFmtVertOrient( 0, text::VertOrientation::BOTTOM )); } } } void ChgNumToText( SwTableBox& rBox, sal_uLong nFmt ) { sal_uLong nNdPos = rBox.IsValidNumTxtNd( sal_False ); if( ULONG_MAX != nNdPos ) { SwDoc* pDoc = rBox.GetFrmFmt()->GetDoc(); SwTxtNode* pTNd = pDoc->GetNodes()[ nNdPos ]->GetTxtNode(); sal_Bool bChgAlign = pDoc->IsInsTblAlignNum(); const SfxPoolItem* pItem; Color* pCol = 0; if( NUMBERFORMAT_TEXT != nFmt ) { // speziellen Textformat: String sTmp, sTxt( pTNd->GetTxt() ); pDoc->GetNumberFormatter()->GetOutputString( sTxt, nFmt, sTmp, &pCol ); if( sTxt != sTmp ) { // Text austauschen SwIndex aIdx( pTNd, sTxt.Len() ); //JP 06.04.99: Bug 64321 - DontExpand-Flags vorm Austauschen // zuruecksetzen, damit sie wieder aufgespannt werden pTNd->DontExpandFmt( aIdx, sal_False, sal_False ); aIdx = 0; pTNd->EraseText( aIdx, STRING_LEN, IDocumentContentOperations::INS_EMPTYEXPAND ); pTNd->InsertText( sTmp, aIdx, IDocumentContentOperations::INS_EMPTYEXPAND ); } } const SfxItemSet* pAttrSet = pTNd->GetpSwAttrSet(); // Ausrichtung umsetzen if( bChgAlign && pAttrSet && SFX_ITEM_SET == pAttrSet->GetItemState( RES_PARATR_ADJUST, sal_False, &pItem ) && SVX_ADJUST_RIGHT == ((SvxAdjustItem*)pItem)->GetAdjust() ) { pTNd->SetAttr( SvxAdjustItem( SVX_ADJUST_LEFT, RES_PARATR_ADJUST ) ); } // Farbe umsetzen oder "Benutzer Farbe" sichern if( !pAttrSet || SFX_ITEM_SET != pAttrSet-> GetItemState( RES_CHRATR_COLOR, sal_False, &pItem )) pItem = 0; const Color* pOldNumFmtColor = rBox.GetSaveNumFmtColor(); const Color* pNewUserColor = pItem ? &((SvxColorItem*)pItem)->GetValue() : 0; if( ( pNewUserColor && pOldNumFmtColor && *pNewUserColor == *pOldNumFmtColor ) || ( !pNewUserColor && !pOldNumFmtColor )) { // User Color nicht veraendern aktuellen Werte setzen // ggfs. die alte NumFmtColor loeschen if( pCol ) // ggfs. die Farbe setzen pTNd->SetAttr( SvxColorItem( *pCol, RES_CHRATR_COLOR )); else if( pItem ) { pNewUserColor = rBox.GetSaveUserColor(); if( pNewUserColor ) pTNd->SetAttr( SvxColorItem( *pNewUserColor, RES_CHRATR_COLOR )); else pTNd->ResetAttr( RES_CHRATR_COLOR ); } } else { // User Color merken, ggfs. die NumFormat Color setzen, aber // nie die Farbe zurueck setzen rBox.SetSaveUserColor( pNewUserColor ); if( pCol ) // ggfs. die Farbe setzen pTNd->SetAttr( SvxColorItem( *pCol, RES_CHRATR_COLOR )); } rBox.SetSaveNumFmtColor( pCol ); // vertikale Ausrichtung umsetzen if( bChgAlign && SFX_ITEM_SET == rBox.GetFrmFmt()->GetItemState( RES_VERT_ORIENT, sal_False, &pItem ) && text::VertOrientation::BOTTOM == ((SwFmtVertOrient*)pItem)->GetVertOrient() ) { rBox.GetFrmFmt()->SetFmtAttr( SwFmtVertOrient( 0, text::VertOrientation::TOP )); } } } // zum Erkennen von Veraenderungen (haupts. TableBoxAttribute) void SwTableBoxFmt::Modify( const SfxPoolItem* pOld, const SfxPoolItem* pNew ) { if( !IsModifyLocked() && !IsInDocDTOR() ) { const SwTblBoxNumFormat *pNewFmt = 0; const SwTblBoxFormula *pNewFml = 0; const SwTblBoxValue *pNewVal = 0; double aOldValue = 0; sal_uLong nOldFmt = NUMBERFORMAT_TEXT; switch( pNew ? pNew->Which() : 0 ) { case RES_ATTRSET_CHG: { const SfxItemSet& rSet = *((SwAttrSetChg*)pNew)->GetChgSet(); if( SFX_ITEM_SET == rSet.GetItemState( RES_BOXATR_FORMAT, sal_False, (const SfxPoolItem**)&pNewFmt ) ) nOldFmt = ((SwTblBoxNumFormat&)((SwAttrSetChg*)pOld)-> GetChgSet()->Get( RES_BOXATR_FORMAT )).GetValue(); rSet.GetItemState( RES_BOXATR_FORMULA, sal_False, (const SfxPoolItem**)&pNewFml ); if( SFX_ITEM_SET == rSet.GetItemState( RES_BOXATR_VALUE, sal_False, (const SfxPoolItem**)&pNewVal ) ) aOldValue = ((SwTblBoxValue&)((SwAttrSetChg*)pOld)-> GetChgSet()->Get( RES_BOXATR_VALUE )).GetValue(); } break; case RES_BOXATR_FORMAT: pNewFmt = (SwTblBoxNumFormat*)pNew; nOldFmt = ((SwTblBoxNumFormat*)pOld)->GetValue(); break; case RES_BOXATR_FORMULA: pNewFml = (SwTblBoxFormula*)pNew; break; case RES_BOXATR_VALUE: pNewVal = (SwTblBoxValue*)pNew; aOldValue = ((SwTblBoxValue*)pOld)->GetValue(); break; } // es hat sich etwas getan und im Set ist noch irgendein BoxAttribut // vorhanden! if( pNewFmt || pNewFml || pNewVal ) { GetDoc()->SetFieldsDirty(true, NULL, 0); if( SFX_ITEM_SET == GetItemState( RES_BOXATR_FORMAT, sal_False ) || SFX_ITEM_SET == GetItemState( RES_BOXATR_VALUE, sal_False ) || SFX_ITEM_SET == GetItemState( RES_BOXATR_FORMULA, sal_False ) ) { // die Box holen SwIterator aIter( *this ); SwTableBox* pBox = aIter.First(); if( pBox ) { ASSERT( !aIter.Next(), "keine Box oder mehrere am Format" ); sal_uLong nNewFmt; if( pNewFmt ) { nNewFmt = pNewFmt->GetValue(); // neu Formatieren // ist es neuer oder wurde der akt. entfernt? if( SFX_ITEM_SET != GetItemState( RES_BOXATR_VALUE, sal_False )) pNewFmt = 0; } else { // das akt. Item besorgen GetItemState( RES_BOXATR_FORMAT, sal_False, (const SfxPoolItem**)&pNewFmt ); nOldFmt = GetTblBoxNumFmt().GetValue(); nNewFmt = pNewFmt ? pNewFmt->GetValue() : nOldFmt; } // ist es neuer oder wurde der akt. entfernt? if( pNewVal ) { if( NUMBERFORMAT_TEXT != nNewFmt ) { if( SFX_ITEM_SET == GetItemState( RES_BOXATR_VALUE, sal_False )) nOldFmt = NUMBERFORMAT_TEXT; else nNewFmt = NUMBERFORMAT_TEXT; } else if( NUMBERFORMAT_TEXT == nNewFmt ) nOldFmt = 0; } // Logik: // ValueAenderung: -> "simuliere" eine FormatAenderung! // FormatAenderung: // Text -> !Text oder FormatAenderung: // - Ausrichtung auf RECHTS, wenn LINKS oder Blocksatz // - vertikale Ausrichtung auf UNTEN wenn OBEN oder nicht // gesetzt ist. // - Text ersetzen (Farbe?? neg. Zahlen ROT??) // !Text -> Text: // - Ausrichtung auf LINKS, wenn RECHTS // - vertikale Ausrichtung auf OEBN, wenn UNTEN gesetzt ist SvNumberFormatter* pNumFmtr = GetDoc()->GetNumberFormatter(); sal_Bool bNewIsTxtFmt = pNumFmtr->IsTextFormat( nNewFmt ) || NUMBERFORMAT_TEXT == nNewFmt; if( (!bNewIsTxtFmt && nOldFmt != nNewFmt) || pNewFml ) { sal_Bool bChgTxt = sal_True; double fVal = 0; if( !pNewVal && SFX_ITEM_SET != GetItemState( RES_BOXATR_VALUE, sal_False, (const SfxPoolItem**)&pNewVal )) { // es wurde noch nie ein Wert gesetzt, dann versuche // doch mal den Inhalt auszuwerten sal_uLong nNdPos = pBox->IsValidNumTxtNd( sal_True ); if( ULONG_MAX != nNdPos ) { sal_uInt32 nTmpFmtIdx = nNewFmt; String aTxt( GetDoc()->GetNodes()[ nNdPos ] ->GetTxtNode()->GetRedlineTxt()); if( !aTxt.Len() ) bChgTxt = sal_False; else { //JP 15.09.98: Bug 55741 - Tabs beibehalten lcl_TabToBlankAtSttEnd( aTxt ); // JP 22.04.98: Bug 49659 - // Sonderbehandlung fuer Prozent sal_Bool bIsNumFmt = sal_False; if( NUMBERFORMAT_PERCENT == pNumFmtr->GetType( nNewFmt )) { sal_uInt32 nTmpFmt = 0; if( pNumFmtr->IsNumberFormat( aTxt, nTmpFmt, fVal )) { if( NUMBERFORMAT_NUMBER == pNumFmtr->GetType( nTmpFmt )) aTxt += '%'; bIsNumFmt = pNumFmtr->IsNumberFormat( aTxt, nTmpFmtIdx, fVal ); } } else bIsNumFmt = pNumFmtr->IsNumberFormat( aTxt, nTmpFmtIdx, fVal ); if( bIsNumFmt ) { // dann setze den Value direkt in den Set - // ohne Modify int bIsLockMod = IsModifyLocked(); LockModify(); SetFmtAttr( SwTblBoxValue( fVal )); if( !bIsLockMod ) UnlockModify(); } } } } else fVal = pNewVal->GetValue(); // den Inhalt mit dem neuen Wert Formtieren und in den Absatz // schbreiben Color* pCol = 0; String sNewTxt; if( DBL_MAX == fVal ) sNewTxt = ViewShell::GetShellRes()->aCalc_Error; else { pNumFmtr->GetOutputString( fVal, nNewFmt, sNewTxt, &pCol ); if( !bChgTxt ) sNewTxt.Erase(); } // ueber alle Boxen ChgTextToNum( *pBox, sNewTxt, pCol, GetDoc()->IsInsTblAlignNum() ); } else if( bNewIsTxtFmt && nOldFmt != nNewFmt ) { // auf jedenfall muessen jetzt die Formeln/Values // geloescht werden! // LockModify(); // ResetAttr( RES_BOXATR_FORMULA, RES_BOXATR_VALUE ); // UnlockModify(); ChgNumToText( *pBox, nNewFmt ); } } } } } // Und die Basis-Klasse rufen SwFrmFmt::Modify( pOld, pNew ); } sal_Bool SwTableBox::HasNumCntnt( double& rNum, sal_uInt32& rFmtIndex, sal_Bool& rIsEmptyTxtNd ) const { sal_Bool bRet = sal_False; sal_uLong nNdPos = IsValidNumTxtNd( sal_True ); if( ULONG_MAX != nNdPos ) { String aTxt( pSttNd->GetNodes()[ nNdPos ]->GetTxtNode()-> GetRedlineTxt() ); //JP 15.09.98: Bug 55741 - Tabs beibehalten lcl_TabToBlankAtSttEnd( aTxt ); rIsEmptyTxtNd = 0 == aTxt.Len(); SvNumberFormatter* pNumFmtr = GetFrmFmt()->GetDoc()->GetNumberFormatter(); const SfxPoolItem* pItem; if( SFX_ITEM_SET == GetFrmFmt()->GetItemState( RES_BOXATR_FORMAT, sal_False, &pItem )) { rFmtIndex = ((SwTblBoxNumFormat*)pItem)->GetValue(); // JP 22.04.98: Bug 49659 - Sonderbehandlung fuer Prozent if( !rIsEmptyTxtNd && NUMBERFORMAT_PERCENT == pNumFmtr->GetType( rFmtIndex )) { sal_uInt32 nTmpFmt = 0; if( pNumFmtr->IsNumberFormat( aTxt, nTmpFmt, rNum ) && NUMBERFORMAT_NUMBER == pNumFmtr->GetType( nTmpFmt )) aTxt += '%'; } } else rFmtIndex = 0; bRet = pNumFmtr->IsNumberFormat( aTxt, rFmtIndex, rNum ); } else rIsEmptyTxtNd = sal_False; return bRet; } sal_Bool SwTableBox::IsNumberChanged() const { sal_Bool bRet = sal_True; if( SFX_ITEM_SET == GetFrmFmt()->GetItemState( RES_BOXATR_FORMULA, sal_False )) { const SwTblBoxNumFormat *pNumFmt; const SwTblBoxValue *pValue; if( SFX_ITEM_SET != GetFrmFmt()->GetItemState( RES_BOXATR_VALUE, sal_False, (const SfxPoolItem**)&pValue )) pValue = 0; if( SFX_ITEM_SET != GetFrmFmt()->GetItemState( RES_BOXATR_FORMAT, sal_False, (const SfxPoolItem**)&pNumFmt )) pNumFmt = 0; sal_uLong nNdPos; if( pNumFmt && pValue && ULONG_MAX != ( nNdPos = IsValidNumTxtNd( sal_True ) ) ) { String sNewTxt, sOldTxt( pSttNd->GetNodes()[ nNdPos ]-> GetTxtNode()->GetRedlineTxt() ); lcl_DelTabsAtSttEnd( sOldTxt ); Color* pCol = 0; GetFrmFmt()->GetDoc()->GetNumberFormatter()->GetOutputString( pValue->GetValue(), pNumFmt->GetValue(), sNewTxt, &pCol ); bRet = sNewTxt != sOldTxt || !( ( !pCol && !GetSaveNumFmtColor() ) || ( pCol && GetSaveNumFmtColor() && *pCol == *GetSaveNumFmtColor() )); } } return bRet; } sal_uLong SwTableBox::IsValidNumTxtNd( sal_Bool bCheckAttr ) const { sal_uLong nPos = ULONG_MAX; if( pSttNd ) { SwNodeIndex aIdx( *pSttNd ); sal_uLong nIndex = aIdx.GetIndex(); const sal_uLong nIndexEnd = pSttNd->GetNodes()[ nIndex ]->EndOfSectionIndex(); const SwTxtNode *pTextNode = 0; while( ++nIndex < nIndexEnd ) { const SwNode* pNode = pSttNd->GetNodes()[nIndex]; if( pNode->IsTableNode() ) { /*return ULONG_MAX if the cell contains a table(in table)*/ pTextNode = 0; break; } if( pNode->IsTxtNode() ) { if( pTextNode ) { /*return ULONG_MAX if the cell contains complex paragraphs*/ pTextNode = 0; break; } else { pTextNode = pNode->GetTxtNode(); nPos = nIndex; } } } if( pTextNode ) { if( bCheckAttr ) { const SwpHints* pHts = pTextNode->GetpSwpHints(); const String& rTxt = pTextNode->GetTxt(); // dann teste doch mal, ob das wirklich nur Text im Node steht! // Flys/Felder/.. if( pHts ) { xub_StrLen nNextSetField = 0; for( sal_uInt16 n = 0; n < pHts->Count(); ++n ) { const SwTxtAttr* pAttr = (*pHts)[ n ]; if( RES_TXTATR_NOEND_BEGIN <= pAttr->Which() || *pAttr->GetStart() || *pAttr->GetAnyEnd() < rTxt.Len() ) { if ((*pAttr->GetStart() == nNextSetField) && (pAttr->Which() == RES_TXTATR_FIELD)) { // #i104949# hideous hack for report builder: // it inserts hidden variable-set fields at // the beginning of para in cell, but they // should not turn cell into text cell const SwField* pField = pAttr->GetFmtFld().GetField(); if (pField && (pField->GetTypeId() == TYP_SETFLD) && (0 != (static_cast (pField)->GetSubType() & nsSwExtendedSubType::SUB_INVISIBLE))) { nNextSetField = *pAttr->GetStart() + 1; continue; } } nPos = ULONG_MAX; break; } } } } } else nPos = ULONG_MAX; } return nPos; } // ist das eine FormelBox oder eine Box mit numerischen Inhalt (AutoSum) sal_uInt16 SwTableBox::IsFormulaOrValueBox() const { sal_uInt16 nWhich = 0; const SwTxtNode* pTNd; SwFrmFmt* pFmt = GetFrmFmt(); if( SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_FORMULA, sal_False )) nWhich = RES_BOXATR_FORMULA; else if( SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_VALUE, sal_False ) && !pFmt->GetDoc()->GetNumberFormatter()->IsTextFormat( pFmt->GetTblBoxNumFmt().GetValue() )) nWhich = RES_BOXATR_VALUE; else if( pSttNd && pSttNd->GetIndex() + 2 == pSttNd->EndOfSectionIndex() && 0 != ( pTNd = pSttNd->GetNodes()[ pSttNd->GetIndex() + 1 ] ->GetTxtNode() ) && !pTNd->GetTxt().Len() ) nWhich = USHRT_MAX; return nWhich; } void SwTableBox::ActualiseValueBox() { const SfxPoolItem *pFmtItem, *pValItem; SwFrmFmt* pFmt = GetFrmFmt(); if( SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_FORMAT, sal_True, &pFmtItem ) && SFX_ITEM_SET == pFmt->GetItemState( RES_BOXATR_VALUE, sal_True, &pValItem )) { const sal_uLong nFmtId = ((SwTblBoxNumFormat*)pFmtItem)->GetValue(); sal_uLong nNdPos = ULONG_MAX; SvNumberFormatter* pNumFmtr = pFmt->GetDoc()->GetNumberFormatter(); if( !pNumFmtr->IsTextFormat( nFmtId ) && ULONG_MAX != (nNdPos = IsValidNumTxtNd( sal_True )) ) { double fVal = ((SwTblBoxValue*)pValItem)->GetValue(); Color* pCol = 0; String sNewTxt; pNumFmtr->GetOutputString( fVal, nFmtId, sNewTxt, &pCol ); const String& rTxt = pSttNd->GetNodes()[ nNdPos ]->GetTxtNode()->GetTxt(); if( rTxt != sNewTxt ) ChgTextToNum( *this, sNewTxt, pCol, sal_False ,nNdPos); } } } void SwTableBox_Impl::SetNewCol( Color** ppCol, const Color* pNewCol ) { if( *ppCol != pNewCol ) { delete *ppCol; if( pNewCol ) *ppCol = new Color( *pNewCol ); else *ppCol = 0; } } struct SwTableCellInfo::Impl { const SwTable * m_pTable; const SwCellFrm * m_pCellFrm; const SwTabFrm * m_pTabFrm; typedef ::std::set TableBoxes_t; TableBoxes_t m_HandledTableBoxes; public: Impl() : m_pTable(NULL), m_pCellFrm(NULL), m_pTabFrm(NULL) { } ~Impl() {} void setTable(const SwTable * pTable) { m_pTable = pTable; SwFrmFmt * pFrmFmt = m_pTable->GetFrmFmt(); m_pTabFrm = SwIterator::FirstElement(*pFrmFmt); if (m_pTabFrm->IsFollow()) m_pTabFrm = m_pTabFrm->FindMaster(true); } const SwTable * getTable() const { return m_pTable; } const SwCellFrm * getCellFrm() const { return m_pCellFrm; } const SwFrm * getNextFrmInTable(const SwFrm * pFrm); const SwCellFrm * getNextCellFrm(const SwFrm * pFrm); const SwCellFrm * getNextTableBoxsCellFrm(const SwFrm * pFrm); bool getNext(); }; const SwFrm * SwTableCellInfo::Impl::getNextFrmInTable(const SwFrm * pFrm) { const SwFrm * pResult = NULL; if (((! pFrm->IsTabFrm()) || pFrm == m_pTabFrm) && pFrm->GetLower()) pResult = pFrm->GetLower(); else if (pFrm->GetNext()) pResult = pFrm->GetNext(); else { while (pFrm->GetUpper() != NULL) { pFrm = pFrm->GetUpper(); if (pFrm->IsTabFrm()) { m_pTabFrm = static_cast(pFrm)->GetFollow(); pResult = m_pTabFrm; break; } else if (pFrm->GetNext()) { pResult = pFrm->GetNext(); break; } } } return pResult; } const SwCellFrm * SwTableCellInfo::Impl::getNextCellFrm(const SwFrm * pFrm) { const SwCellFrm * pResult = NULL; while ((pFrm = getNextFrmInTable(pFrm)) != NULL) { if (pFrm->IsCellFrm()) { pResult = static_cast(pFrm); break; } } return pResult; } const SwCellFrm * SwTableCellInfo::Impl::getNextTableBoxsCellFrm(const SwFrm * pFrm) { const SwCellFrm * pResult = NULL; while ((pFrm = getNextCellFrm(pFrm)) != NULL) { const SwCellFrm * pCellFrm = static_cast(pFrm); const SwTableBox * pTabBox = pCellFrm->GetTabBox(); TableBoxes_t::const_iterator aIt = m_HandledTableBoxes.find(pTabBox); if (aIt == m_HandledTableBoxes.end()) { pResult = pCellFrm; m_HandledTableBoxes.insert(pTabBox); break; } } return pResult; } const SwCellFrm * SwTableCellInfo::getCellFrm() const { return m_pImpl->getCellFrm(); } bool SwTableCellInfo::Impl::getNext() { if (m_pCellFrm == NULL) { if (m_pTabFrm != NULL) m_pCellFrm = Impl::getNextTableBoxsCellFrm(m_pTabFrm); } else m_pCellFrm = Impl::getNextTableBoxsCellFrm(m_pCellFrm); return m_pCellFrm != NULL; } SwTableCellInfo::SwTableCellInfo(const SwTable * pTable) { m_pImpl.reset(new Impl()); m_pImpl->setTable(pTable); } SwTableCellInfo::~SwTableCellInfo() { } bool SwTableCellInfo::getNext() { return m_pImpl->getNext(); } SwRect SwTableCellInfo::getRect() const { SwRect aRet; if (getCellFrm() != NULL) aRet = getCellFrm()->Frm(); return aRet; } const SwTableBox * SwTableCellInfo::getTableBox() const { const SwTableBox * pRet = NULL; if (getCellFrm() != NULL) pRet = getCellFrm()->GetTabBox(); return pRet; } void SwTable::RegisterToFormat( SwFmt& rFmt ) { rFmt.Add( this ); } void SwTableLine::RegisterToFormat( SwFmt& rFmt ) { rFmt.Add( this ); } void SwTableBox::RegisterToFormat( SwFmt& rFmt ) { rFmt.Add( this ); } void SwTableBox::ForgetFrmFmt() { if ( GetRegisteredIn() ) GetRegisteredInNonConst()->Remove(this); }