/************************************************************** * * 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" // So kann man die Linguistik-Statistik ( (Tmp-Path)\swlingu.stk ) aktivieren: //#define LINGU_STATISTIK #ifdef LINGU_STATISTIK #include // in SwLinguStatistik::DTOR #include // getenv() #include // clock() #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // GetDoc() #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // SwRedline #include // SwRedlineTbl #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using rtl::OUString; using namespace ::com::sun::star; using namespace ::com::sun::star::frame; using namespace ::com::sun::star::i18n; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::linguistic2; using namespace ::com::sun::star::smarttags; // Wir ersparen uns in Hyphenate ein GetFrm() // Achtung: in edlingu.cxx stehen die Variablen! extern const SwTxtNode *pLinguNode; extern SwTxtFrm *pLinguFrm; bool lcl_IsSkippableWhiteSpace( xub_Unicode cCh ) { return 0x3000 == cCh || ' ' == cCh || '\t' == cCh || 0x0a == cCh; } /* * This has basically the same function as SwScriptInfo::MaskHiddenRanges, * only for deleted redlines */ sal_uInt16 lcl_MaskRedlines( const SwTxtNode& rNode, XubString& rText, const xub_StrLen nStt, const xub_StrLen nEnd, const xub_Unicode cChar ) { sal_uInt16 nNumOfMaskedRedlines = 0; const SwDoc& rDoc = *rNode.GetDoc(); sal_uInt16 nAct = rDoc.GetRedlinePos( rNode, USHRT_MAX ); for ( ; nAct < rDoc.GetRedlineTbl().Count(); nAct++ ) { const SwRedline* pRed = rDoc.GetRedlineTbl()[ nAct ]; if ( pRed->Start()->nNode > rNode.GetIndex() ) break; if( nsRedlineType_t::REDLINE_DELETE == pRed->GetType() ) { xub_StrLen nRedlineEnd; xub_StrLen nRedlineStart; pRed->CalcStartEnd( rNode.GetIndex(), nRedlineStart, nRedlineEnd ); if ( nRedlineEnd < nStt || nRedlineStart > nEnd ) continue; while ( nRedlineStart < nRedlineEnd && nRedlineStart < nEnd ) { if ( nRedlineStart >= nStt && nRedlineStart < nEnd ) { rText.SetChar( nRedlineStart, cChar ); ++nNumOfMaskedRedlines; } ++nRedlineStart; } } } return nNumOfMaskedRedlines; } /* * Used for spell checking. Deleted redlines and hidden characters are masked */ sal_uInt16 lcl_MaskRedlinesAndHiddenText( const SwTxtNode& rNode, XubString& rText, const xub_StrLen nStt, const xub_StrLen nEnd, const xub_Unicode cChar = CH_TXTATR_INWORD, bool bCheckShowHiddenChar = true ) { sal_uInt16 nRedlinesMasked = 0; sal_uInt16 nHiddenCharsMasked = 0; const SwDoc& rDoc = *rNode.GetDoc(); const bool bShowChg = 0 != IDocumentRedlineAccess::IsShowChanges( rDoc.GetRedlineMode() ); // If called from word count or from spell checking, deleted redlines // should be masked: if ( bShowChg ) { nRedlinesMasked = lcl_MaskRedlines( rNode, rText, nStt, nEnd, cChar ); } const bool bHideHidden = !SW_MOD()->GetViewOption(rDoc.get(IDocumentSettingAccess::HTML_MODE))->IsShowHiddenChar(); // If called from word count, we want to mask the hidden ranges even // if they are visible: if ( !bCheckShowHiddenChar || bHideHidden ) { nHiddenCharsMasked = SwScriptInfo::MaskHiddenRanges( rNode, rText, nStt, nEnd, cChar ); } return nRedlinesMasked + nHiddenCharsMasked; } /* * Used for spell checking. Calculates a rectangle for repaint. */ static SwRect lcl_CalculateRepaintRect( SwTxtFrm& rTxtFrm, xub_StrLen nChgStart, xub_StrLen nChgEnd ) { SwRect aRect; SwTxtNode *pNode = rTxtFrm.GetTxtNode(); SwNodeIndex aNdIdx( *pNode ); SwPosition aPos( aNdIdx, SwIndex( pNode, nChgEnd ) ); SwCrsrMoveState aTmpState( MV_NONE ); aTmpState.b2Lines = sal_True; rTxtFrm.GetCharRect( aRect, aPos, &aTmpState ); // information about end of repaint area Sw2LinesPos* pEnd2Pos = aTmpState.p2Lines; const SwTxtFrm *pEndFrm = &rTxtFrm; while( pEndFrm->HasFollow() && nChgEnd >= pEndFrm->GetFollow()->GetOfst() ) pEndFrm = pEndFrm->GetFollow(); if ( pEnd2Pos ) { // we are inside a special portion, take left border SWRECTFN( pEndFrm ) (aRect.*fnRect->fnSetTop)( (pEnd2Pos->aLine.*fnRect->fnGetTop)() ); if ( pEndFrm->IsRightToLeft() ) (aRect.*fnRect->fnSetLeft)( (pEnd2Pos->aPortion.*fnRect->fnGetLeft)() ); else (aRect.*fnRect->fnSetLeft)( (pEnd2Pos->aPortion.*fnRect->fnGetRight)() ); (aRect.*fnRect->fnSetWidth)( 1 ); (aRect.*fnRect->fnSetHeight)( (pEnd2Pos->aLine.*fnRect->fnGetHeight)() ); delete pEnd2Pos; } aTmpState.p2Lines = NULL; SwRect aTmp; aPos = SwPosition( aNdIdx, SwIndex( pNode, nChgStart ) ); rTxtFrm.GetCharRect( aTmp, aPos, &aTmpState ); // i63141: GetCharRect(..) could cause a formatting, // during the formatting SwTxtFrms could be joined, deleted, created... // => we have to reinit pStartFrm and pEndFrm after the formatting const SwTxtFrm* pStartFrm = &rTxtFrm; while( pStartFrm->HasFollow() && nChgStart >= pStartFrm->GetFollow()->GetOfst() ) pStartFrm = pStartFrm->GetFollow(); pEndFrm = pStartFrm; while( pEndFrm->HasFollow() && nChgEnd >= pEndFrm->GetFollow()->GetOfst() ) pEndFrm = pEndFrm->GetFollow(); // information about start of repaint area Sw2LinesPos* pSt2Pos = aTmpState.p2Lines; if ( pSt2Pos ) { // we are inside a special portion, take right border SWRECTFN( pStartFrm ) (aTmp.*fnRect->fnSetTop)( (pSt2Pos->aLine.*fnRect->fnGetTop)() ); if ( pStartFrm->IsRightToLeft() ) (aTmp.*fnRect->fnSetLeft)( (pSt2Pos->aPortion.*fnRect->fnGetRight)() ); else (aTmp.*fnRect->fnSetLeft)( (pSt2Pos->aPortion.*fnRect->fnGetLeft)() ); (aTmp.*fnRect->fnSetWidth)( 1 ); (aTmp.*fnRect->fnSetHeight)( (pSt2Pos->aLine.*fnRect->fnGetHeight)() ); delete pSt2Pos; } sal_Bool bSameFrame = sal_True; if( rTxtFrm.HasFollow() ) { if( pEndFrm != pStartFrm ) { bSameFrame = sal_False; SwRect aStFrm( pStartFrm->PaintArea() ); { SWRECTFN( pStartFrm ) (aTmp.*fnRect->fnSetLeft)( (aStFrm.*fnRect->fnGetLeft)() ); (aTmp.*fnRect->fnSetRight)( (aStFrm.*fnRect->fnGetRight)() ); (aTmp.*fnRect->fnSetBottom)( (aStFrm.*fnRect->fnGetBottom)() ); } aStFrm = pEndFrm->PaintArea(); { SWRECTFN( pEndFrm ) (aRect.*fnRect->fnSetTop)( (aStFrm.*fnRect->fnGetTop)() ); (aRect.*fnRect->fnSetLeft)( (aStFrm.*fnRect->fnGetLeft)() ); (aRect.*fnRect->fnSetRight)( (aStFrm.*fnRect->fnGetRight)() ); } aRect.Union( aTmp ); while( sal_True ) { pStartFrm = pStartFrm->GetFollow(); if( pStartFrm == pEndFrm ) break; aRect.Union( pStartFrm->PaintArea() ); } } } if( bSameFrame ) { SWRECTFN( pStartFrm ) if( (aTmp.*fnRect->fnGetTop)() == (aRect.*fnRect->fnGetTop)() ) (aRect.*fnRect->fnSetLeft)( (aTmp.*fnRect->fnGetLeft)() ); else { SwRect aStFrm( pStartFrm->PaintArea() ); (aRect.*fnRect->fnSetLeft)( (aStFrm.*fnRect->fnGetLeft)() ); (aRect.*fnRect->fnSetRight)( (aStFrm.*fnRect->fnGetRight)() ); (aRect.*fnRect->fnSetTop)( (aTmp.*fnRect->fnGetTop)() ); } if( aTmp.Height() > aRect.Height() ) aRect.Height( aTmp.Height() ); } return aRect; } /* * Used for automatic styles. Used during RstAttr. */ static bool lcl_HaveCommonAttributes( IStyleAccess& rStyleAccess, const SfxItemSet* pSet1, sal_uInt16 nWhichId, const SfxItemSet& rSet2, boost::shared_ptr& pStyleHandle ) { bool bRet = false; SfxItemSet* pNewSet = 0; if ( !pSet1 ) { ASSERT( nWhichId, "lcl_HaveCommonAttributes not used correctly" ) if ( SFX_ITEM_SET == rSet2.GetItemState( nWhichId, sal_False ) ) { pNewSet = rSet2.Clone( sal_True ); pNewSet->ClearItem( nWhichId ); } } else if ( pSet1->Count() ) { SfxItemIter aIter( *pSet1 ); const SfxPoolItem* pItem = aIter.GetCurItem(); while( sal_True ) { if ( SFX_ITEM_SET == rSet2.GetItemState( pItem->Which(), sal_False ) ) { if ( !pNewSet ) pNewSet = rSet2.Clone( sal_True ); pNewSet->ClearItem( pItem->Which() ); } if( aIter.IsAtEnd() ) break; pItem = aIter.NextItem(); } } if ( pNewSet ) { if ( pNewSet->Count() ) pStyleHandle = rStyleAccess.getAutomaticStyle( *pNewSet, IStyleAccess::AUTO_STYLE_CHAR ); delete pNewSet; bRet = true; } return bRet; } inline sal_Bool InRange(xub_StrLen nIdx, xub_StrLen nStart, xub_StrLen nEnd) { return ((nIdx >=nStart) && (nIdx <= nEnd)); } /* * void SwTxtNode::RstAttr(const SwIndex &rIdx, sal_uInt16 nLen) * * Deletes all attributes, starting at position rIdx, for length nLen. */ /* 5 cases: * 1) The attribute is completely in the deletion range: * -> delete it * 2) The end of the attribute is in the deletion range: * -> delete it, then re-insert it with new end * 3) The start of the attribute is in the deletion range: * -> delete it, then re-insert it with new start * 4) The attribute contains the deletion range: * Split, i.e., * -> Delete, re-insert from old start to start of deletion range * -> insert new attribute from end of deletion range to old end * 5) The attribute is outside the deletion range * -> nothing to do */ void SwTxtNode::RstAttr(const SwIndex &rIdx, xub_StrLen nLen, sal_uInt16 nWhich, const SfxItemSet* pSet, sal_Bool bInclRefToxMark ) { // Attribute? if ( !GetpSwpHints() ) return; sal_uInt16 i = 0; xub_StrLen nStt = rIdx.GetIndex(); xub_StrLen nEnd = nStt + nLen; xub_StrLen nAttrStart; SwTxtAttr *pHt; sal_Bool bChanged = sal_False; // nMin and nMax initialized to maximum / minimum (inverse) xub_StrLen nMin = m_Text.Len(); xub_StrLen nMax = nStt; const sal_Bool bNoLen = !nMin; // We have to remember the "new" attributes, which have // been introduced by splitting surrounding attributes (case 4). // They may not be forgotten inside the "Forget" function //std::vector< const SwTxtAttr* > aNewAttributes; // iterate over attribute array until start of attribute is behind // deletion range while ((i < m_pSwpHints->Count()) && ((( nAttrStart = *(*m_pSwpHints)[i]->GetStart()) < nEnd ) || nLen==0) ) { pHt = m_pSwpHints->GetTextHint(i); // attributes without end stay in! xub_StrLen * const pAttrEnd = pHt->GetEnd(); if ( !pAttrEnd /*|| pHt->HasDummyChar()*/ ) // see bInclRefToxMark { i++; continue; } // Default behavior is to process all attributes: bool bSkipAttr = false;; boost::shared_ptr pStyleHandle; // 1. case: We want to reset only the attributes listed in pSet: if ( pSet ) { bSkipAttr = SFX_ITEM_SET != pSet->GetItemState( pHt->Which(), sal_False ); if ( bSkipAttr && RES_TXTATR_AUTOFMT == pHt->Which() ) { // if the current attribute is an autostyle, we have to check if the autostyle // and pSet have any attributes in common. If so, pStyleHandle will contain // a handle to AutoStyle / pSet: bSkipAttr = !lcl_HaveCommonAttributes( getIDocumentStyleAccess(), pSet, 0, *static_cast(pHt->GetAttr()).GetStyleHandle(), pStyleHandle ); } } else if ( nWhich ) { // 2. case: We want to reset only the attributes with WhichId nWhich: bSkipAttr = nWhich != pHt->Which(); if ( bSkipAttr && RES_TXTATR_AUTOFMT == pHt->Which() ) { bSkipAttr = !lcl_HaveCommonAttributes( getIDocumentStyleAccess(), 0, nWhich, *static_cast(pHt->GetAttr()).GetStyleHandle(), pStyleHandle ); } } else if ( !bInclRefToxMark ) { // 3. case: Reset all attributes except from ref/toxmarks: // skip hints with CH_TXTATR here // (deleting those is ONLY allowed for UNDO!) bSkipAttr = RES_TXTATR_REFMARK == pHt->Which() || RES_TXTATR_TOXMARK == pHt->Which() || RES_TXTATR_META == pHt->Which() || RES_TXTATR_METAFIELD == pHt->Which(); } if ( bSkipAttr ) { i++; continue; } if( nStt <= nAttrStart ) // Faelle: 1,3,5 { if( nEnd > nAttrStart || ( nEnd == *pAttrEnd && nEnd==nAttrStart ) ) { // Faelle: 1,3 if ( nMin > nAttrStart ) nMin = nAttrStart; if ( nMax < *pAttrEnd ) nMax = *pAttrEnd; // Falls wir nur ein nichtaufgespanntes Attribut entfernen, // tun wir mal so, als ob sich nichts geaendert hat. bChanged = bChanged || nEnd > nAttrStart || bNoLen; if( *pAttrEnd <= nEnd ) // Fall: 1 { const xub_StrLen nAttrEnd = *pAttrEnd; m_pSwpHints->DeleteAtPos(i); DestroyAttr( pHt ); if ( pStyleHandle.get() ) { SwTxtAttr* pNew = MakeTxtAttr( *GetDoc(), *pStyleHandle, nAttrStart, nAttrEnd ); InsertHint( pNew, nsSetAttrMode::SETATTR_NOHINTADJUST ); } // if the last attribute is a Field, the HintsArray is // deleted! if ( !m_pSwpHints ) break; //JP 26.11.96: // beim DeleteAtPos wird ein Resort ausgefuehrt!! // darum muessen wir wieder bei 0 anfangen!!! // ueber den Fall 3 koennen Attribute nach hinten // verschoben worden sein; damit stimmt jetzt das i // nicht mehr!!! i = 0; continue; } else // Fall: 3 { m_pSwpHints->NoteInHistory( pHt ); *pHt->GetStart() = nEnd; m_pSwpHints->NoteInHistory( pHt, sal_True ); if ( pStyleHandle.get() && nAttrStart < nEnd ) { SwTxtAttr* pNew = MakeTxtAttr( *GetDoc(), *pStyleHandle, nAttrStart, nEnd ); InsertHint( pNew, nsSetAttrMode::SETATTR_NOHINTADJUST ); } bChanged = sal_True; } } } else // Faelle: 2,4,5 if( *pAttrEnd > nStt ) // Faelle: 2,4 { if( *pAttrEnd < nEnd ) // Fall: 2 { if ( nMin > nAttrStart ) nMin = nAttrStart; if ( nMax < *pAttrEnd ) nMax = *pAttrEnd; bChanged = sal_True; const xub_StrLen nAttrEnd = *pAttrEnd; m_pSwpHints->NoteInHistory( pHt ); *pAttrEnd = nStt; m_pSwpHints->NoteInHistory( pHt, sal_True ); if ( pStyleHandle.get() ) { SwTxtAttr* pNew = MakeTxtAttr( *GetDoc(), *pStyleHandle, nStt, nAttrEnd ); InsertHint( pNew, nsSetAttrMode::SETATTR_NOHINTADJUST ); } } else if( nLen ) // Fall: 4 { // bei Lange 0 werden beide Hints vom Insert(Ht) // wieder zu einem zusammengezogen !!!! if ( nMin > nAttrStart ) nMin = nAttrStart; if ( nMax < *pAttrEnd ) nMax = *pAttrEnd; bChanged = sal_True; xub_StrLen nTmpEnd = *pAttrEnd; m_pSwpHints->NoteInHistory( pHt ); *pAttrEnd = nStt; m_pSwpHints->NoteInHistory( pHt, sal_True ); if ( pStyleHandle.get() && nStt < nEnd ) { SwTxtAttr* pNew = MakeTxtAttr( *GetDoc(), *pStyleHandle, nStt, nEnd ); InsertHint( pNew, nsSetAttrMode::SETATTR_NOHINTADJUST ); } if( nEnd < nTmpEnd ) { SwTxtAttr* pNew = MakeTxtAttr( *GetDoc(), pHt->GetAttr(), nEnd, nTmpEnd ); if ( pNew ) { SwTxtCharFmt* pCharFmt = dynamic_cast(pHt); if ( pCharFmt ) static_cast(pNew)->SetSortNumber( pCharFmt->GetSortNumber() ); InsertHint( pNew, nsSetAttrMode::SETATTR_NOHINTADJUST ); } // jetzt kein i+1, weil das eingefuegte Attribut // ein anderes auf die Position geschoben hat ! continue; } } } ++i; } TryDeleteSwpHints(); if (bChanged) { if ( HasHints() ) { m_pSwpHints->Resort(); } //TxtFrm's reagieren auf aHint, andere auf aNew SwUpdateAttr aHint( nMin, nMax, 0 ); NotifyClients( 0, &aHint ); SwFmtChg aNew( GetFmtColl() ); NotifyClients( 0, &aNew ); } } /************************************************************************* * SwTxtNode::GetCurWord() * * Aktuelles Wort zurueckliefern: * Wir suchen immer von links nach rechts, es wird also das Wort * vor nPos gesucht. Es sei denn, wir befinden uns am Anfang des * Absatzes, dann wird das erste Wort zurueckgeliefert. * Wenn dieses erste Wort nur aus Whitespaces besteht, returnen wir * einen leeren String. *************************************************************************/ XubString SwTxtNode::GetCurWord( xub_StrLen nPos ) const { ASSERT( nPos <= m_Text.Len(), "SwTxtNode::GetCurWord: invalid index." ); if (!m_Text.Len()) return m_Text; Boundary aBndry; const uno::Reference< XBreakIterator > &rxBreak = pBreakIt->GetBreakIter(); if (rxBreak.is()) { sal_Int16 nWordType = WordType::DICTIONARY_WORD; lang::Locale aLocale( pBreakIt->GetLocale( GetLang( nPos ) ) ); #ifdef DEBUG sal_Bool bBegin = rxBreak->isBeginWord( m_Text, nPos, aLocale, nWordType ); sal_Bool bEnd = rxBreak->isEndWord ( m_Text, nPos, aLocale, nWordType ); (void)bBegin; (void)bEnd; #endif aBndry = rxBreak->getWordBoundary( m_Text, nPos, aLocale, nWordType, sal_True ); // if no word was found use previous word (if any) if (aBndry.startPos == aBndry.endPos) { aBndry = rxBreak->previousWord( m_Text, nPos, aLocale, nWordType ); } } // check if word was found and if it uses a symbol font, if so // enforce returning an empty string if (aBndry.endPos != aBndry.startPos && IsSymbol( (xub_StrLen)aBndry.startPos )) aBndry.endPos = aBndry.startPos; return m_Text.Copy( static_cast(aBndry.startPos), static_cast(aBndry.endPos - aBndry.startPos) ); } SwScanner::SwScanner( const SwTxtNode& rNd, const String& rTxt, const LanguageType* pLang, const ModelToViewHelper::ConversionMap* pConvMap, sal_uInt16 nType, xub_StrLen nStart, xub_StrLen nEnde, sal_Bool bClp ) : rNode( rNd ), rText( rTxt), pLanguage( pLang ), pConversionMap( pConvMap ), nLen( 0 ), nWordType( nType ), bClip( bClp ) { ASSERT( rText.Len(), "SwScanner: EmptyString" ); nStartPos = nBegin = nStart; nEndPos = nEnde; if ( pLanguage ) { aCurrLang = *pLanguage; } else { ModelToViewHelper::ModelPosition aModelBeginPos = ModelToViewHelper::ConvertToModelPosition( pConversionMap, nBegin ); const xub_StrLen nModelBeginPos = (xub_StrLen)aModelBeginPos.mnPos; aCurrLang = rNd.GetLang( nModelBeginPos ); } } sal_Bool SwScanner::NextWord() { nBegin = nBegin + nLen; Boundary aBound; CharClass& rCC = GetAppCharClass(); lang::Locale aOldLocale = rCC.getLocale(); while ( true ) { // skip non-letter characters: while ( nBegin < rText.Len() ) { if ( !lcl_IsSkippableWhiteSpace( rText.GetChar( nBegin ) ) ) { if ( !pLanguage ) { const sal_uInt16 nNextScriptType = pBreakIt->GetBreakIter()->getScriptType( rText, nBegin ); ModelToViewHelper::ModelPosition aModelBeginPos = ModelToViewHelper::ConvertToModelPosition( pConversionMap, nBegin ); const xub_StrLen nBeginModelPos = (xub_StrLen)aModelBeginPos.mnPos; aCurrLang = rNode.GetLang( nBeginModelPos, 1, nNextScriptType ); } if ( nWordType != i18n::WordType::WORD_COUNT ) { rCC.setLocale( pBreakIt->GetLocale( aCurrLang ) ); if ( rCC.isLetterNumeric( rText.GetChar( nBegin ) ) ) break; } else break; } ++nBegin; } if ( nBegin >= rText.Len() || nBegin >= nEndPos ) return sal_False; // get the word boundaries aBound = pBreakIt->GetBreakIter()->getWordBoundary( rText, nBegin, pBreakIt->GetLocale( aCurrLang ), nWordType, sal_True ); ASSERT( aBound.endPos >= aBound.startPos, "broken aBound result" ); //no word boundaries could be found if(aBound.endPos == aBound.startPos) return sal_False; //if a word before is found it has to be searched for the next if(aBound.endPos == nBegin) ++nBegin; else break; } // end while( true ) rCC.setLocale( aOldLocale ); // #i89042, as discussed with HDU: don't evaluate script changes for word count. Use whole word. if ( nWordType == i18n::WordType::WORD_COUNT ) { nBegin = Max( static_cast< xub_StrLen >(aBound.startPos), nBegin ); nLen = 0; if (static_cast< xub_StrLen >(aBound.endPos) > nBegin) nLen = static_cast< xub_StrLen >(aBound.endPos) - nBegin; } else { // we have to differenciate between these cases: if ( aBound.startPos <= nBegin ) { ASSERT( aBound.endPos >= nBegin, "Unexpected aBound result" ) // restrict boundaries to script boundaries and nEndPos const sal_uInt16 nCurrScript = pBreakIt->GetBreakIter()->getScriptType( rText, nBegin ); XubString aTmpWord = rText.Copy( nBegin, static_cast(aBound.endPos - nBegin) ); const sal_Int32 nScriptEnd = nBegin + pBreakIt->GetBreakIter()->endOfScript( aTmpWord, 0, nCurrScript ); const sal_Int32 nEnd = Min( aBound.endPos, nScriptEnd ); // restrict word start to last script change position sal_Int32 nScriptBegin = 0; if ( aBound.startPos < nBegin ) { // search from nBegin backwards until the next script change aTmpWord = rText.Copy( static_cast(aBound.startPos), static_cast(nBegin - aBound.startPos + 1) ); nScriptBegin = aBound.startPos + pBreakIt->GetBreakIter()->beginOfScript( aTmpWord, nBegin - aBound.startPos, nCurrScript ); } nBegin = (xub_StrLen)Max( aBound.startPos, nScriptBegin ); nLen = (xub_StrLen)(nEnd - nBegin); } else { const sal_uInt16 nCurrScript = pBreakIt->GetBreakIter()->getScriptType( rText, aBound.startPos ); XubString aTmpWord = rText.Copy( static_cast(aBound.startPos), static_cast(aBound.endPos - aBound.startPos) ); const sal_Int32 nScriptEnd = aBound.startPos + pBreakIt->GetBreakIter()->endOfScript( aTmpWord, 0, nCurrScript ); const sal_Int32 nEnd = Min( aBound.endPos, nScriptEnd ); nBegin = (xub_StrLen)aBound.startPos; nLen = (xub_StrLen)(nEnd - nBegin); } } // optionally clip the result of getWordBoundaries: if ( bClip ) { aBound.startPos = Max( (xub_StrLen)aBound.startPos, nStartPos ); aBound.endPos = Min( (xub_StrLen)aBound.endPos, nEndPos ); nBegin = (xub_StrLen)aBound.startPos; nLen = (xub_StrLen)(aBound.endPos - nBegin); } if( ! nLen ) return sal_False; aWord = rText.Copy( nBegin, nLen ); return sal_True; } sal_uInt16 SwTxtNode::Spell(SwSpellArgs* pArgs) { // Die Aehnlichkeiten zu SwTxtFrm::_AutoSpell sind beabsichtigt ... // ACHTUNG: Ev. Bugs in beiden Routinen fixen! uno::Reference xProp( GetLinguPropertySet() ); xub_StrLen nBegin, nEnd; // modify string according to redline information and hidden text const XubString aOldTxt( m_Text ); const bool bRestoreString = lcl_MaskRedlinesAndHiddenText( *this, m_Text, 0, m_Text.Len() ) > 0; if ( pArgs->pStartNode != this ) nBegin = 0; else nBegin = pArgs->pStartIdx->GetIndex(); nEnd = ( pArgs->pEndNode != this ) ? m_Text.Len() : pArgs->pEndIdx->GetIndex(); pArgs->xSpellAlt = NULL; // 4 cases: // // 1. IsWrongDirty = 0 and GetWrong = 0 // Everything is checked and correct // 2. IsWrongDirty = 0 and GetWrong = 1 // Everything is checked and errors are identified in the wrong list // 3. IsWrongDirty = 1 and GetWrong = 0 // Nothing has been checked // 4. IsWrongDirty = 1 and GetWrong = 1 // Text has been checked but there is an invalid range in the wrong list // // Nothing has to be done for case 1. if ( ( IsWrongDirty() || GetWrong() ) && m_Text.Len() ) { if ( nBegin > m_Text.Len() ) { nBegin = m_Text.Len(); } if ( nEnd > m_Text.Len() ) { nEnd = m_Text.Len(); } // if(!IsWrongDirty()) { xub_StrLen nTemp = GetWrong()->NextWrong( nBegin ); if(nTemp > nEnd) { // reset original text if ( bRestoreString ) { m_Text = aOldTxt; } return 0; } if(nTemp > nBegin) nBegin = nTemp; } // In case 2. we pass the wrong list to the scanned, because only // the words in the wrong list have to be checked SwScanner aScanner( *this, m_Text, 0, 0, WordType::DICTIONARY_WORD, nBegin, nEnd ); while( !pArgs->xSpellAlt.is() && aScanner.NextWord() ) { const XubString& rWord = aScanner.GetWord(); // get next language for next word, consider language attributes // within the word LanguageType eActLang = aScanner.GetCurrentLanguage(); if( rWord.Len() > 0 && LANGUAGE_NONE != eActLang ) { if (pArgs->xSpeller.is()) { SvxSpellWrapper::CheckSpellLang( pArgs->xSpeller, eActLang ); pArgs->xSpellAlt = pArgs->xSpeller->spell( rWord, eActLang, Sequence< PropertyValue >() ); } if( (pArgs->xSpellAlt).is() ) { if( IsSymbol( aScanner.GetBegin() ) ) { pArgs->xSpellAlt = NULL; } else { // make sure the selection build later from the // data below does not include footnotes and other // "in word" character to the left and right in order // to preserve those. Therefore count those "in words" // in order to modify the selection accordingly. const sal_Unicode* pChar = rWord.GetBuffer(); xub_StrLen nLeft = 0; while (pChar && *pChar++ == CH_TXTATR_INWORD) ++nLeft; pChar = rWord.Len() ? rWord.GetBuffer() + rWord.Len() - 1 : 0; xub_StrLen nRight = 0; while (pChar && *pChar-- == CH_TXTATR_INWORD) ++nRight; pArgs->pStartNode = this; pArgs->pEndNode = this; pArgs->pStartIdx->Assign(this, aScanner.GetEnd() - nRight ); pArgs->pEndIdx->Assign(this, aScanner.GetBegin() + nLeft ); } } } } } // reset original text if ( bRestoreString ) { m_Text = aOldTxt; } return pArgs->xSpellAlt.is() ? 1 : 0; } void SwTxtNode::SetLanguageAndFont( const SwPaM &rPaM, LanguageType nLang, sal_uInt16 nLangWhichId, const Font *pFont, sal_uInt16 nFontWhichId ) { sal_uInt16 aRanges[] = { nLangWhichId, nLangWhichId, nFontWhichId, nFontWhichId, 0, 0, 0 }; if (!pFont) aRanges[2] = aRanges[3] = 0; // clear entries with font WhichId SwEditShell *pEditShell = GetDoc()->GetEditShell(); SfxItemSet aSet( pEditShell->GetAttrPool(), aRanges ); aSet.Put( SvxLanguageItem( nLang, nLangWhichId ) ); DBG_ASSERT( pFont, "target font missing?" ); if (pFont) { SvxFontItem aFontItem = (SvxFontItem&) aSet.Get( nFontWhichId ); aFontItem.SetFamilyName( pFont->GetName()); aFontItem.SetFamily( pFont->GetFamily()); aFontItem.SetStyleName( pFont->GetStyleName()); aFontItem.SetPitch( pFont->GetPitch()); aFontItem.SetCharSet( pFont->GetCharSet() ); aSet.Put( aFontItem ); } GetDoc()->InsertItemSet( rPaM, aSet, 0 ); // SetAttr( aSet ); <- Does not set language attribute of empty paragraphs correctly, // <- because since there is no selection the flag to garbage // <- collect all attributes is set, and therefore attributes spanned // <- over empty selection are removed. } sal_uInt16 SwTxtNode::Convert( SwConversionArgs &rArgs ) { // get range of text within node to be converted // (either all the text or the the text within the selection // when the conversion was started) xub_StrLen nTextBegin, nTextEnd; // if ( rArgs.pStartNode != this ) { nTextBegin = 0; } else nTextBegin = rArgs.pStartIdx->GetIndex(); if (nTextBegin > m_Text.Len()) { nTextBegin = m_Text.Len(); } nTextEnd = ( rArgs.pEndNode != this ) ? m_Text.Len() : ::std::min( rArgs.pEndIdx->GetIndex(), m_Text.Len() ); rArgs.aConvText = rtl::OUString(); // modify string according to redline information and hidden text const XubString aOldTxt( m_Text ); const bool bRestoreString = lcl_MaskRedlinesAndHiddenText( *this, m_Text, 0, m_Text.Len() ) > 0; sal_Bool bFound = sal_False; xub_StrLen nBegin = nTextBegin; xub_StrLen nLen = 0; LanguageType nLangFound = LANGUAGE_NONE; if (!m_Text.Len()) { if (rArgs.bAllowImplicitChangesForNotConvertibleText) { // create SwPaM with mark & point spanning empty paragraph //SwPaM aCurPaM( *this, *this, nBegin, nBegin + nLen ); <-- wrong c-tor, does sth different SwPaM aCurPaM( *this, 0 ); SetLanguageAndFont( aCurPaM, rArgs.nConvTargetLang, RES_CHRATR_CJK_LANGUAGE, rArgs.pTargetFont, RES_CHRATR_CJK_FONT ); } } else { SwLanguageIterator aIter( *this, nBegin ); // find non zero length text portion of appropriate language do { nLangFound = aIter.GetLanguage(); sal_Bool bLangOk = (nLangFound == rArgs.nConvSrcLang) || (editeng::HangulHanjaConversion::IsChinese( nLangFound ) && editeng::HangulHanjaConversion::IsChinese( rArgs.nConvSrcLang )); xub_StrLen nChPos = aIter.GetChgPos(); // the position at the end of the paragraph returns -1 // which becomes 65535 when converted to xub_StrLen, // and thus must be cut to the end of the actual string. if (nChPos == (xub_StrLen) -1) { nChPos = m_Text.Len(); } nLen = nChPos - nBegin; bFound = bLangOk && nLen > 0; if (!bFound) { // create SwPaM with mark & point spanning the attributed text //SwPaM aCurPaM( *this, *this, nBegin, nBegin + nLen ); <-- wrong c-tor, does sth different SwPaM aCurPaM( *this, nBegin ); aCurPaM.SetMark(); aCurPaM.GetPoint()->nContent = nBegin + nLen; // check script type of selected text SwEditShell *pEditShell = GetDoc()->GetEditShell(); pEditShell->Push(); // save current cursor on stack pEditShell->SetSelection( aCurPaM ); sal_Bool bIsAsianScript = (SCRIPTTYPE_ASIAN == pEditShell->GetScriptType()); pEditShell->Pop( sal_False ); // restore cursor from stack if (!bIsAsianScript && rArgs.bAllowImplicitChangesForNotConvertibleText) { SetLanguageAndFont( aCurPaM, rArgs.nConvTargetLang, RES_CHRATR_CJK_LANGUAGE, rArgs.pTargetFont, RES_CHRATR_CJK_FONT ); } nBegin = nChPos; // start of next language portion } } while (!bFound && aIter.Next()); /* loop while nothing was found and still sth is left to be searched */ } // keep resulting text within selection / range of text to be converted if (nBegin < nTextBegin) nBegin = nTextBegin; if (nBegin + nLen > nTextEnd) nLen = nTextEnd - nBegin; sal_Bool bInSelection = nBegin < nTextEnd; if (bFound && bInSelection) // convertible text found within selection/range? { const XubString aTxtPortion = m_Text.Copy( nBegin, nLen ); DBG_ASSERT( m_Text.Len() > 0, "convertible text portion missing!" ); rArgs.aConvText = m_Text.Copy( nBegin, nLen ); rArgs.nConvTextLang = nLangFound; // position where to start looking in next iteration (after current ends) rArgs.pStartNode = this; rArgs.pStartIdx->Assign(this, nBegin + nLen ); // end position (when we have travelled over the whole document) rArgs.pEndNode = this; rArgs.pEndIdx->Assign(this, nBegin ); } // restore original text if ( bRestoreString ) { m_Text = aOldTxt; } return rArgs.aConvText.getLength() ? 1 : 0; } // Die Aehnlichkeiten zu SwTxtNode::Spell sind beabsichtigt ... // ACHTUNG: Ev. Bugs in beiden Routinen fixen! SwRect SwTxtFrm::_AutoSpell( const SwCntntNode* pActNode, const SwViewOption& rViewOpt, xub_StrLen nActPos ) { SwRect aRect; #if OSL_DEBUG_LEVEL > 1 static sal_Bool bStop = sal_False; if ( bStop ) return aRect; #endif // Die Aehnlichkeiten zu SwTxtNode::Spell sind beabsichtigt ... // ACHTUNG: Ev. Bugs in beiden Routinen fixen! SwTxtNode *pNode = GetTxtNode(); if( pNode != pActNode || !nActPos ) nActPos = STRING_LEN; SwAutoCompleteWord& rACW = SwDoc::GetAutoCompleteWords(); // modify string according to redline information and hidden text const XubString aOldTxt( pNode->GetTxt() ); const bool bRestoreString = lcl_MaskRedlinesAndHiddenText( *pNode, pNode->m_Text, 0, pNode->GetTxt().Len() ) > 0; // a change of data indicates that at least one word has been modified const sal_Bool bRedlineChg = ( pNode->GetTxt().GetBuffer() != aOldTxt.GetBuffer() ); xub_StrLen nBegin = 0; xub_StrLen nEnd = pNode->GetTxt().Len(); xub_StrLen nInsertPos = 0; xub_StrLen nChgStart = STRING_LEN; xub_StrLen nChgEnd = 0; xub_StrLen nInvStart = STRING_LEN; xub_StrLen nInvEnd = 0; const sal_Bool bAddAutoCmpl = pNode->IsAutoCompleteWordDirty() && rViewOpt.IsAutoCompleteWords(); if( pNode->GetWrong() ) { nBegin = pNode->GetWrong()->GetBeginInv(); if( STRING_LEN != nBegin ) { nEnd = pNode->GetWrong()->GetEndInv(); if ( nEnd > pNode->GetTxt().Len() ) { nEnd = pNode->GetTxt().Len(); } } // get word around nBegin, we start at nBegin - 1 if ( STRING_LEN != nBegin ) { if ( nBegin ) --nBegin; LanguageType eActLang = pNode->GetLang( nBegin ); Boundary aBound = pBreakIt->GetBreakIter()->getWordBoundary( pNode->GetTxt(), nBegin, pBreakIt->GetLocale( eActLang ), WordType::DICTIONARY_WORD, sal_True ); nBegin = xub_StrLen(aBound.startPos); } // get the position in the wrong list nInsertPos = pNode->GetWrong()->GetWrongPos( nBegin ); // sometimes we have to skip one entry if( nInsertPos < pNode->GetWrong()->Count() && nBegin == pNode->GetWrong()->Pos( nInsertPos ) + pNode->GetWrong()->Len( nInsertPos ) ) nInsertPos++; } sal_Bool bFresh = nBegin < nEnd; if( nBegin < nEnd ) { //! register listener to LinguServiceEvents now in order to get //! notified about relevant changes in the future SwModule *pModule = SW_MOD(); if (!pModule->GetLngSvcEvtListener().is()) pModule->CreateLngSvcEvtListener(); uno::Reference< XSpellChecker1 > xSpell( ::GetSpellChecker() ); SwDoc* pDoc = pNode->GetDoc(); SwScanner aScanner( *pNode, pNode->GetTxt(), 0, 0, WordType::DICTIONARY_WORD, nBegin, nEnd); while( aScanner.NextWord() ) { const XubString& rWord = aScanner.GetWord(); nBegin = aScanner.GetBegin(); xub_StrLen nLen = aScanner.GetLen(); // get next language for next word, consider language attributes // within the word LanguageType eActLang = aScanner.GetCurrentLanguage(); sal_Bool bSpell = sal_True; bSpell = xSpell.is() ? xSpell->hasLanguage( eActLang ) : sal_False; if( bSpell && rWord.Len() > 0 ) { // check for: bAlter => xHyphWord.is() DBG_ASSERT(!bSpell || xSpell.is(), "NULL pointer"); if( !xSpell->isValid( rWord, eActLang, Sequence< PropertyValue >() ) ) { xub_StrLen nSmartTagStt = nBegin; xub_StrLen nDummy = 1; if ( !pNode->GetSmartTags() || !pNode->GetSmartTags()->InWrongWord( nSmartTagStt, nDummy ) ) { if( !pNode->GetWrong() ) { pNode->SetWrong( new SwWrongList( WRONGLIST_SPELL ) ); pNode->GetWrong()->SetInvalid( 0, nEnd ); } if( pNode->GetWrong()->Fresh( nChgStart, nChgEnd, nBegin, nLen, nInsertPos, nActPos ) ) pNode->GetWrong()->Insert( rtl::OUString(), 0, nBegin, nLen, nInsertPos++ ); else { nInvStart = nBegin; nInvEnd = nBegin + nLen; } } } else if( bAddAutoCmpl && rACW.GetMinWordLen() <= rWord.Len() ) { if ( bRedlineChg ) { XubString rNewWord( rWord ); rACW.InsertWord( rNewWord, *pDoc ); } else rACW.InsertWord( rWord, *pDoc ); } } } } // reset original text // i63141 before calling GetCharRect(..) with formatting! if ( bRestoreString ) { pNode->m_Text = aOldTxt; } if( pNode->GetWrong() ) { if( bFresh ) pNode->GetWrong()->Fresh( nChgStart, nChgEnd, nEnd, 0, nInsertPos, nActPos ); // // Calculate repaint area: // if( nChgStart < nChgEnd ) { aRect = lcl_CalculateRepaintRect( *this, nChgStart, nChgEnd ); } pNode->GetWrong()->SetInvalid( nInvStart, nInvEnd ); pNode->SetWrongDirty( STRING_LEN != pNode->GetWrong()->GetBeginInv() ); if( !pNode->GetWrong()->Count() && ! pNode->IsWrongDirty() ) pNode->SetWrong( NULL ); } else pNode->SetWrongDirty( false ); if( bAddAutoCmpl ) pNode->SetAutoCompleteWordDirty( false ); return aRect; } /** Function: SmartTagScan Function scans words in current text and checks them in the smarttag libraries. If the check returns true to bounds of the recognized words are stored into a list which is used later for drawing the underline. @param SwCntntNode* pActNode @param xub_StrLen nActPos @return SwRect: Repaint area */ SwRect SwTxtFrm::SmartTagScan( SwCntntNode* /*pActNode*/, xub_StrLen /*nActPos*/ ) { SwRect aRet; SwTxtNode *pNode = GetTxtNode(); const rtl::OUString& rText = pNode->GetTxt(); // Iterate over language portions SmartTagMgr& rSmartTagMgr = SwSmartTagMgr::Get(); SwWrongList* pSmartTagList = pNode->GetSmartTags(); xub_StrLen nBegin = 0; xub_StrLen nEnd = static_cast< xub_StrLen >(rText.getLength()); if ( pSmartTagList ) { if ( pSmartTagList->GetBeginInv() != STRING_LEN ) { nBegin = pSmartTagList->GetBeginInv(); nEnd = Min( pSmartTagList->GetEndInv(), (xub_StrLen)rText.getLength() ); if ( nBegin < nEnd ) { const LanguageType aCurrLang = pNode->GetLang( nBegin ); const com::sun::star::lang::Locale aCurrLocale = pBreakIt->GetLocale( aCurrLang ); nBegin = static_cast< xub_StrLen >(pBreakIt->GetBreakIter()->beginOfSentence( rText, nBegin, aCurrLocale )); nEnd = static_cast< xub_StrLen >(Min( rText.getLength(), pBreakIt->GetBreakIter()->endOfSentence( rText, nEnd, aCurrLocale ) )); } } } const sal_uInt16 nNumberOfEntries = pSmartTagList ? pSmartTagList->Count() : 0; sal_uInt16 nNumberOfRemovedEntries = 0; sal_uInt16 nNumberOfInsertedEntries = 0; // clear smart tag list between nBegin and nEnd: if ( 0 != nNumberOfEntries ) { xub_StrLen nChgStart = STRING_LEN; xub_StrLen nChgEnd = 0; const sal_uInt16 nCurrentIndex = pSmartTagList->GetWrongPos( nBegin ); pSmartTagList->Fresh( nChgStart, nChgEnd, nBegin, nEnd - nBegin, nCurrentIndex, STRING_LEN ); nNumberOfRemovedEntries = nNumberOfEntries - pSmartTagList->Count(); } if ( nBegin < nEnd ) { // Expand the string: rtl::OUString aExpandText; const ModelToViewHelper::ConversionMap* pConversionMap = pNode->BuildConversionMap( aExpandText ); // Ownership ov ConversionMap is passed to SwXTextMarkup object! Reference< com::sun::star::text::XTextMarkup > xTextMarkup = new SwXTextMarkup( *pNode, pConversionMap ); Reference< ::com::sun::star::frame::XController > xController = pNode->GetDoc()->GetDocShell()->GetController(); SwPosition start(*pNode, nBegin); SwPosition end (*pNode, nEnd); Reference< ::com::sun::star::text::XTextRange > xRange = SwXTextRange::CreateXTextRange(*pNode->GetDoc(), start, &end); rSmartTagMgr.RecognizeTextRange(xRange, xTextMarkup, xController); xub_StrLen nLangBegin = nBegin; xub_StrLen nLangEnd = nEnd; // smart tag recognization has to be done for each language portion: SwLanguageIterator aIter( *pNode, nLangBegin ); do { const LanguageType nLang = aIter.GetLanguage(); const com::sun::star::lang::Locale aLocale = pBreakIt->GetLocale( nLang ); nLangEnd = Min( nEnd, aIter.GetChgPos() ); const sal_uInt32 nExpandBegin = ModelToViewHelper::ConvertToViewPosition( pConversionMap, nLangBegin ); const sal_uInt32 nExpandEnd = ModelToViewHelper::ConvertToViewPosition( pConversionMap, nLangEnd ); rSmartTagMgr.RecognizeString(aExpandText, xTextMarkup, xController, aLocale, nExpandBegin, nExpandEnd - nExpandBegin ); nLangBegin = nLangEnd; } while ( aIter.Next() && nLangEnd < nEnd ); pSmartTagList = pNode->GetSmartTags(); const sal_uInt16 nNumberOfEntriesAfterRecognize = pSmartTagList ? pSmartTagList->Count() : 0; nNumberOfInsertedEntries = nNumberOfEntriesAfterRecognize - ( nNumberOfEntries - nNumberOfRemovedEntries ); } if( pSmartTagList ) { // // Update WrongList stuff // pSmartTagList->SetInvalid( STRING_LEN, 0 ); pNode->SetSmartTagDirty( STRING_LEN != pSmartTagList->GetBeginInv() ); if( !pSmartTagList->Count() && !pNode->IsSmartTagDirty() ) pNode->SetSmartTags( NULL ); // // Calculate repaint area: // #if OSL_DEBUG_LEVEL > 1 const sal_uInt16 nNumberOfEntriesAfterRecognize2 = pSmartTagList->Count(); (void) nNumberOfEntriesAfterRecognize2; #endif if ( nBegin < nEnd && ( 0 != nNumberOfRemovedEntries || 0 != nNumberOfInsertedEntries ) ) { aRet = lcl_CalculateRepaintRect( *this, nBegin, nEnd ); } } else pNode->SetSmartTagDirty( false ); return aRet; } // Wird vom CollectAutoCmplWords gerufen void SwTxtFrm::CollectAutoCmplWrds( SwCntntNode* pActNode, xub_StrLen nActPos ) { SwTxtNode *pNode = GetTxtNode(); if( pNode != pActNode || !nActPos ) nActPos = STRING_LEN; SwDoc* pDoc = pNode->GetDoc(); SwAutoCompleteWord& rACW = SwDoc::GetAutoCompleteWords(); xub_StrLen nBegin = 0; xub_StrLen nEnd = pNode->GetTxt().Len(); xub_StrLen nLen; sal_Bool bACWDirty = sal_False, bAnyWrd = sal_False; if( nBegin < nEnd ) { sal_uInt16 nCnt = 200; SwScanner aScanner( *pNode, pNode->GetTxt(), 0, 0, WordType::DICTIONARY_WORD, nBegin, nEnd ); while( aScanner.NextWord() ) { nBegin = aScanner.GetBegin(); nLen = aScanner.GetLen(); if( rACW.GetMinWordLen() <= nLen ) { const XubString& rWord = aScanner.GetWord(); if( nActPos < nBegin || ( nBegin + nLen ) < nActPos ) { if( rACW.GetMinWordLen() <= rWord.Len() ) rACW.InsertWord( rWord, *pDoc ); bAnyWrd = sal_True; } else bACWDirty = sal_True; } if( !--nCnt ) { if ( Application::AnyInput( INPUT_ANY ) ) return; nCnt = 100; } } } if( bAnyWrd && !bACWDirty ) pNode->SetAutoCompleteWordDirty( sal_False ); } /************************************************************************* * SwTxtNode::Hyphenate *************************************************************************/ // Findet den TxtFrm und sucht dessen CalcHyph sal_Bool SwTxtNode::Hyphenate( SwInterHyphInfo &rHyphInf ) { // Abkuerzung: am Absatz ist keine Sprache eingestellt: if ( LANGUAGE_NONE == sal_uInt16( GetSwAttrSet().GetLanguage().GetLanguage() ) && USHRT_MAX == GetLang( 0, m_Text.Len() ) ) { if( !rHyphInf.IsCheck() ) rHyphInf.SetNoLang( sal_True ); return sal_False; } if( pLinguNode != this ) { pLinguNode = this; pLinguFrm = (SwTxtFrm*)getLayoutFrm( GetDoc()->GetCurrentLayout(), (Point*)(rHyphInf.GetCrsrPos()) ); } SwTxtFrm *pFrm = pLinguFrm; if( pFrm ) pFrm = &(pFrm->GetFrmAtOfst( rHyphInf.nStart )); else { // 4935: Seit der Trennung ueber Sonderbereiche sind Faelle // moeglich, in denen kein Frame zum Node vorliegt. // Also kein ASSERT! #if OSL_DEBUG_LEVEL > 1 ASSERT( pFrm, "!SwTxtNode::Hyphenate: can't find any frame" ); #endif return sal_False; } while( pFrm ) { if( pFrm->Hyphenate( rHyphInf ) ) { // Das Layout ist nicht robust gegen "Direktformatierung" // (7821, 7662, 7408); vgl. layact.cxx, // SwLayAction::_TurboAction(), if( !pCnt->IsValid() ... pFrm->SetCompletePaint(); return sal_True; } pFrm = (SwTxtFrm*)(pFrm->GetFollow()); if( pFrm ) { rHyphInf.nLen = rHyphInf.nLen - (pFrm->GetOfst() - rHyphInf.nStart); rHyphInf.nStart = pFrm->GetOfst(); } } return sal_False; } #ifdef LINGU_STATISTIK // globale Variable SwLinguStatistik aSwLinguStat; void SwLinguStatistik::Flush() { if ( !nWords ) return ; static char *pLogName = 0; const sal_Bool bFirstOpen = pLogName ? sal_False : sal_True; if( bFirstOpen ) { char *pPath = getenv( "TEMP" ); char *pName = "swlingu.stk"; if( !pPath ) pLogName = pName; else { const int nLen = strlen(pPath); // fuer dieses new wird es kein delete geben. pLogName = new char[nLen + strlen(pName) + 3]; if(nLen && (pPath[nLen-1] == '\\') || (pPath[nLen-1] == '/')) snprintf( pLogName, sizeof(pLogName), "%s%s", pPath, pName ); else snprintf( pLogName, sizeof(pLogName), "%s/%s", pPath, pName ); } } SvFileStream aStream( String::CreateFromAscii(pLogName), (bFirstOpen ? STREAM_WRITE | STREAM_TRUNC : STREAM_WRITE )); if( !aStream.GetError() ) { if ( bFirstOpen ) aStream << "\nLinguistik-Statistik\n"; aStream << endl << ++nFlushCnt << ". Messung\n"; aStream << "Rechtschreibung\n"; aStream << "gepruefte Worte: \t" << nWords << endl; aStream << "als fehlerhaft erkannt:\t" << nWrong << endl; aStream << "Alternativvorschlaege:\t" << nAlter << endl; if ( nWrong ) aStream << "Durchschnitt:\t\t" << nAlter*1.0 / nWrong << endl; aStream << "Dauer (msec):\t\t" << nSpellTime << endl; aStream << "\nThesaurus\n"; aStream << "Synonyme gesamt:\t" << nSynonym << endl; if ( nSynonym ) aStream << "Synonym-Durchschnitt:\t" << nSynonym*1.0 / ( nWords - nNoSynonym ) << endl; aStream << "ohne Synonyme:\t\t" << nNoSynonym << endl; aStream << "Bedeutungen gesamt:\t" << nSynonym << endl; aStream << "keine Bedeutungen:\t"<< nNoSynonym << endl; aStream << "Dauer (msec):\t\t" << nTheTime << endl; aStream << "\nHyphenator\n"; aStream << "Trennstellen gesamt:\t" << nHyphens << endl; if ( nHyphens ) aStream << "Hyphen-Durchschnitt:\t" << nHyphens*1.0 / ( nWords - nNoHyph - nHyphErr ) << endl; aStream << "keine Trennstellen:\t" << nNoHyph << endl; aStream << "Trennung verweigert:\t" << nHyphErr << endl; aStream << "Dauer (msec):\t\t" << nHyphTime << endl; aStream << "---------------------------------------------\n"; } nWords = nWrong = nAlter = nSynonym = nNoSynonym = nHyphens = nNoHyph = nHyphErr = nSpellTime = nTheTime = nHyphTime = 0; //pThes = NULL; } #endif namespace sw // #i120045# namespace to avoid XCode template-misoptimization { struct TransliterationChgData { xub_StrLen nStart; xub_StrLen nLen; String sChanged; Sequence< sal_Int32 > aOffsets; }; } using sw::TransliterationChgData; // change text to Upper/Lower/Hiragana/Katagana/... void SwTxtNode::TransliterateText( utl::TransliterationWrapper& rTrans, xub_StrLen nStt, xub_StrLen nEnd, SwUndoTransliterate* pUndo ) { if (nStt < nEnd && pBreakIt->GetBreakIter().is()) { // since we don't use Hiragana/Katakana or half-width/full-width transliterations here // it is fine to use ANYWORD_IGNOREWHITESPACES. (ANY_WORD btw is broken and will // occasionaly miss words in consecutive sentences). Also with ANYWORD_IGNOREWHITESPACES // text like 'just-in-time' will be converted to 'Just-In-Time' which seems to be the // proper thing to do. const sal_Int16 nWordType = WordType::ANYWORD_IGNOREWHITESPACES; //! In order to have less trouble with changing text size, e.g. because //! of ligatures or � (German small sz) being resolved, we need to process //! the text replacements from end to start. //! This way the offsets for the yet to be changed words will be //! left unchanged by the already replaced text. //! For this we temporarily save the changes to be done in this vector std::vector< TransliterationChgData > aChanges; TransliterationChgData aChgData; if (rTrans.getType() == (sal_uInt32)TransliterationModulesExtra::TITLE_CASE) { // for 'capitalize every word' we need to iterate over each word Boundary aSttBndry; Boundary aEndBndry; aSttBndry = pBreakIt->GetBreakIter()->getWordBoundary( GetTxt(), nStt, pBreakIt->GetLocale( GetLang( nStt ) ), nWordType, sal_True /*prefer forward direction*/); aEndBndry = pBreakIt->GetBreakIter()->getWordBoundary( GetTxt(), nEnd, pBreakIt->GetLocale( GetLang( nEnd ) ), nWordType, sal_False /*prefer backward direction*/); // prevent backtracking to the previous word if selection is at word boundary if (aSttBndry.endPos <= nStt) { aSttBndry = pBreakIt->GetBreakIter()->nextWord( GetTxt(), aSttBndry.endPos, pBreakIt->GetLocale( GetLang( aSttBndry.endPos ) ), nWordType); } // prevent advancing to the next word if selection is at word boundary if (aEndBndry.startPos >= nEnd) { aEndBndry = pBreakIt->GetBreakIter()->previousWord( GetTxt(), aEndBndry.startPos, pBreakIt->GetLocale( GetLang( aEndBndry.startPos ) ), nWordType); } Boundary aCurWordBndry( aSttBndry ); while (aCurWordBndry.startPos <= aEndBndry.startPos) { nStt = (xub_StrLen)aCurWordBndry.startPos; nEnd = (xub_StrLen)aCurWordBndry.endPos; sal_Int32 nLen = nEnd - nStt; DBG_ASSERT( nLen > 0, "invalid word length of 0" ); #if OSL_DEBUG_LEVEL > 1 String aText( GetTxt().Copy( nStt, nLen ) ); #endif Sequence aOffsets; String sChgd( rTrans.transliterate( GetTxt(), GetLang( nStt ), nStt, nLen, &aOffsets )); if (!m_Text.Equals( sChgd, nStt, nLen )) { aChgData.nStart = nStt; aChgData.nLen = nLen; aChgData.sChanged = sChgd; aChgData.aOffsets = aOffsets; aChanges.push_back( aChgData ); } aCurWordBndry = pBreakIt->GetBreakIter()->nextWord( GetTxt(), nEnd, pBreakIt->GetLocale( GetLang( nEnd ) ), nWordType); } } else if (rTrans.getType() == (sal_uInt32)TransliterationModulesExtra::SENTENCE_CASE) { // for 'sentence case' we need to iterate sentence by sentence sal_Int32 nLastStart = pBreakIt->GetBreakIter()->beginOfSentence( GetTxt(), nEnd, pBreakIt->GetLocale( GetLang( nEnd ) ) ); sal_Int32 nLastEnd = pBreakIt->GetBreakIter()->endOfSentence( GetTxt(), nLastStart, pBreakIt->GetLocale( GetLang( nLastStart ) ) ); // extend nStt, nEnd to the current sentence boundaries sal_Int32 nCurrentStart = pBreakIt->GetBreakIter()->beginOfSentence( GetTxt(), nStt, pBreakIt->GetLocale( GetLang( nStt ) ) ); sal_Int32 nCurrentEnd = pBreakIt->GetBreakIter()->endOfSentence( GetTxt(), nCurrentStart, pBreakIt->GetLocale( GetLang( nCurrentStart ) ) ); // prevent backtracking to the previous sentence if selection starts at end of a sentence if (nCurrentEnd <= nStt) { // now nCurrentStart is probably located on a non-letter word. (unless we // are in Asian text with no spaces...) // Thus to get the real sentence start we should locate the next real word, // that is one found by DICTIONARY_WORD i18n::Boundary aBndry = pBreakIt->GetBreakIter()->nextWord( GetTxt(), nCurrentEnd, pBreakIt->GetLocale( GetLang( nCurrentEnd ) ), i18n::WordType::DICTIONARY_WORD); // now get new current sentence boundaries nCurrentStart = pBreakIt->GetBreakIter()->beginOfSentence( GetTxt(), aBndry.startPos, pBreakIt->GetLocale( GetLang( aBndry.startPos) ) ); nCurrentEnd = pBreakIt->GetBreakIter()->endOfSentence( GetTxt(), nCurrentStart, pBreakIt->GetLocale( GetLang( nCurrentStart) ) ); } // prevent advancing to the next sentence if selection ends at start of a sentence if (nLastStart >= nEnd) { // now nCurrentStart is probably located on a non-letter word. (unless we // are in Asian text with no spaces...) // Thus to get the real sentence start we should locate the previous real word, // that is one found by DICTIONARY_WORD i18n::Boundary aBndry = pBreakIt->GetBreakIter()->previousWord( GetTxt(), nLastStart, pBreakIt->GetLocale( GetLang( nLastStart) ), i18n::WordType::DICTIONARY_WORD); nLastEnd = pBreakIt->GetBreakIter()->endOfSentence( GetTxt(), aBndry.startPos, pBreakIt->GetLocale( GetLang( aBndry.startPos) ) ); if (nCurrentEnd > nLastEnd) nCurrentEnd = nLastEnd; } while (nCurrentStart < nLastEnd) { sal_Int32 nLen = nCurrentEnd - nCurrentStart; DBG_ASSERT( nLen > 0, "invalid word length of 0" ); #if OSL_DEBUG_LEVEL > 1 String aText( GetTxt().Copy( nCurrentStart, nLen ) ); #endif Sequence aOffsets; String sChgd( rTrans.transliterate( GetTxt(), GetLang( nCurrentStart ), nCurrentStart, nLen, &aOffsets )); if (!m_Text.Equals( sChgd, nStt, nLen )) { aChgData.nStart = nCurrentStart; aChgData.nLen = nLen; aChgData.sChanged = sChgd; aChgData.aOffsets = aOffsets; aChanges.push_back( aChgData ); } Boundary aFirstWordBndry; aFirstWordBndry = pBreakIt->GetBreakIter()->nextWord( GetTxt(), nCurrentEnd, pBreakIt->GetLocale( GetLang( nCurrentEnd ) ), nWordType); nCurrentStart = aFirstWordBndry.startPos; nCurrentEnd = pBreakIt->GetBreakIter()->endOfSentence( GetTxt(), nCurrentStart, pBreakIt->GetLocale( GetLang( nCurrentStart ) ) ); } } else { // here we may transliterate over complete language portions... SwLanguageIterator* pIter; if( rTrans.needLanguageForTheMode() ) pIter = new SwLanguageIterator( *this, nStt ); else pIter = 0; xub_StrLen nEndPos; sal_uInt16 nLang; do { if( pIter ) { nLang = pIter->GetLanguage(); nEndPos = pIter->GetChgPos(); if( nEndPos > nEnd ) nEndPos = nEnd; } else { nLang = LANGUAGE_SYSTEM; nEndPos = nEnd; } xub_StrLen nLen = nEndPos - nStt; Sequence aOffsets; String sChgd( rTrans.transliterate( m_Text, nLang, nStt, nLen, &aOffsets )); if (!m_Text.Equals( sChgd, nStt, nLen )) { aChgData.nStart = nStt; aChgData.nLen = nLen; aChgData.sChanged = sChgd; aChgData.aOffsets = aOffsets; aChanges.push_back( aChgData ); } nStt = nEndPos; } while( nEndPos < nEnd && pIter && pIter->Next() ); delete pIter; } if (aChanges.size() > 0) { // now apply the changes from end to start to leave the offsets of the // yet unchanged text parts remain the same. for (size_t i = 0; i < aChanges.size(); ++i) { TransliterationChgData &rData = aChanges[ aChanges.size() - 1 - i ]; if (pUndo) pUndo->AddChanges( *this, rData.nStart, rData.nLen, rData.aOffsets ); ReplaceTextOnly( rData.nStart, rData.nLen, rData.sChanged, rData.aOffsets ); } } } } void SwTxtNode::ReplaceTextOnly( xub_StrLen nPos, xub_StrLen nLen, const XubString& rText, const Sequence& rOffsets ) { m_Text.Replace( nPos, nLen, rText ); xub_StrLen nTLen = rText.Len(); const sal_Int32* pOffsets = rOffsets.getConstArray(); // now look for no 1-1 mapping -> move the indizies! xub_StrLen nI, nMyOff; for( nI = 0, nMyOff = nPos; nI < nTLen; ++nI, ++nMyOff ) { xub_StrLen nOff = (xub_StrLen)pOffsets[ nI ]; if( nOff < nMyOff ) { // something is inserted xub_StrLen nCnt = 1; while( nI + nCnt < nTLen && nOff == pOffsets[ nI + nCnt ] ) ++nCnt; Update( SwIndex( this, nMyOff ), nCnt, sal_False ); nMyOff = nOff; //nMyOff -= nCnt; nI += nCnt - 1; } else if( nOff > nMyOff ) { // something is deleted Update( SwIndex( this, nMyOff+1 ), nOff - nMyOff, sal_True ); nMyOff = nOff; } } if( nMyOff < nLen ) // something is deleted at the end Update( SwIndex( this, nMyOff ), nLen - nMyOff, sal_True ); // notify the layout! SwDelTxt aDelHint( nPos, nTLen ); NotifyClients( 0, &aDelHint ); SwInsTxt aHint( nPos, nTLen ); NotifyClients( 0, &aHint ); } void SwTxtNode::CountWords( SwDocStat& rStat, xub_StrLen nStt, xub_StrLen nEnd ) const { ++rStat.nAllPara; // #i93174#: count _all_ paragraphs if( nStt < nEnd ) { if ( !IsHidden() ) { ++rStat.nPara; sal_uLong nTmpWords = 0; sal_uLong nTmpChars = 0; // Shortcut: Whole paragraph should be considered and cached values // are valid: if ( 0 == nStt && GetTxt().Len() == nEnd && !IsWordCountDirty() ) { nTmpWords = GetParaNumberOfWords(); nTmpChars = GetParaNumberOfChars(); } else { String aOldStr( m_Text ); String& rCastStr = const_cast(m_Text); // fills the deleted redlines and hidden ranges with cChar: const xub_Unicode cChar(' '); const sal_uInt16 nNumOfMaskedChars = lcl_MaskRedlinesAndHiddenText( *this, rCastStr, nStt, nEnd, cChar, false ); // expand fields rtl::OUString aExpandText; const ModelToViewHelper::ConversionMap* pConversionMap = BuildConversionMap( aExpandText ); const sal_uInt32 nExpandBegin = ModelToViewHelper::ConvertToViewPosition( pConversionMap, nStt ); const sal_uInt32 nExpandEnd = ModelToViewHelper::ConvertToViewPosition( pConversionMap, nEnd ); aExpandText = aExpandText.copy( nExpandBegin, nExpandEnd - nExpandBegin ); const bool bCount = aExpandText.getLength() > 0; // count words in 'regular' text: if( bCount && pBreakIt->GetBreakIter().is() ) { // split into different script languages sal_Int32 nScriptBegin = 0; while ( nScriptBegin < aExpandText.getLength() ) { const sal_Int16 nCurrScript = pBreakIt->GetBreakIter()->getScriptType( aExpandText, nScriptBegin ); const sal_Int32 nScriptEnd = pBreakIt->GetBreakIter()->endOfScript( aExpandText, nScriptBegin, nCurrScript ); rtl::OUString aScriptText = aExpandText.copy( nScriptBegin, nScriptEnd - nScriptBegin ); // Asian languages count words as characters if ( nCurrScript == ::com::sun::star::i18n::ScriptType::ASIAN ) { // substract white spaces sal_Int32 nSpaceCount = 0; sal_Int32 nSpacePos = 0; // substract normal white spaces nSpacePos = -1; while ( ( nSpacePos = aScriptText.indexOf( ' ', nSpacePos + 1 ) ) != -1 ) { nSpaceCount++; } // substract Asian full-width white spaces nSpacePos = -1; while ( ( nSpacePos = aScriptText.indexOf( 12288, nSpacePos + 1 ) ) != -1 ) { nSpaceCount++; } nTmpWords += nScriptEnd - nScriptBegin - nSpaceCount; } else { const String aScannerText( aScriptText ); SwScanner aScanner( *this, aScannerText, 0, pConversionMap, i18n::WordType::WORD_COUNT, (xub_StrLen)0, (xub_StrLen)aScriptText.getLength() ); const rtl::OUString aBreakWord( CH_TXTATR_BREAKWORD ); while ( aScanner.NextWord() ) { if ( aScanner.GetLen() > 1 || CH_TXTATR_BREAKWORD != aScriptText.match(aBreakWord, aScanner.GetBegin() ) ) ++nTmpWords; } } nScriptBegin = nScriptEnd; } } ASSERT( aExpandText.getLength() >= nNumOfMaskedChars, "More characters hidden that characters in string!" ) nTmpChars = nExpandEnd - nExpandBegin - nNumOfMaskedChars; // count words in numbering string: if ( nStt == 0 && bCount ) { // add numbering label const String aNumString = GetNumString(); const xub_StrLen nNumStringLen = aNumString.Len(); if ( nNumStringLen > 0 ) { LanguageType aLanguage = GetLang( 0 ); SwScanner aScanner( *this, aNumString, &aLanguage, 0, i18n::WordType::WORD_COUNT, 0, nNumStringLen ); while ( aScanner.NextWord() ) ++nTmpWords; nTmpChars += nNumStringLen; } else if ( HasBullet() ) { ++nTmpWords; ++nTmpChars; } } delete pConversionMap; rCastStr = aOldStr; // If the whole paragraph has been calculated, update cached // values: if ( 0 == nStt && GetTxt().Len() == nEnd ) { SetParaNumberOfWords( nTmpWords ); SetParaNumberOfChars( nTmpChars ); SetWordCountDirty( false ); } } rStat.nWord += nTmpWords; rStat.nChar += nTmpChars; } } } // // Paragraph statistics start // struct SwParaIdleData_Impl { SwWrongList* pWrong; // for spell checking SwGrammarMarkUp* pGrammarCheck; // for grammar checking / proof reading SwWrongList* pSmartTags; sal_uLong nNumberOfWords; sal_uLong nNumberOfChars; bool bWordCountDirty : 1; bool bWrongDirty : 1; // Ist das Wrong-Feld auf invalid? bool bGrammarCheckDirty : 1; bool bSmartTagDirty : 1; bool bAutoComplDirty : 1; // die ACompl-Liste muss angepasst werden SwParaIdleData_Impl() : pWrong ( 0 ), pGrammarCheck ( 0 ), pSmartTags ( 0 ), nNumberOfWords ( 0 ), nNumberOfChars ( 0 ), bWordCountDirty ( true ), bWrongDirty ( true ), bGrammarCheckDirty ( true ), bSmartTagDirty ( true ), bAutoComplDirty ( true ) {}; }; void SwTxtNode::InitSwParaStatistics( bool bNew ) { if ( bNew ) { m_pParaIdleData_Impl = new SwParaIdleData_Impl; } else if ( m_pParaIdleData_Impl ) { delete m_pParaIdleData_Impl->pWrong; delete m_pParaIdleData_Impl->pGrammarCheck; delete m_pParaIdleData_Impl->pSmartTags; delete m_pParaIdleData_Impl; m_pParaIdleData_Impl = 0; } } void SwTxtNode::SetWrong( SwWrongList* pNew, bool bDelete ) { if ( m_pParaIdleData_Impl ) { if ( bDelete ) { delete m_pParaIdleData_Impl->pWrong; } m_pParaIdleData_Impl->pWrong = pNew; } } SwWrongList* SwTxtNode::GetWrong() { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->pWrong : 0; } // --> OD 2008-05-27 #i71360# const SwWrongList* SwTxtNode::GetWrong() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->pWrong : 0; } // <-- void SwTxtNode::SetGrammarCheck( SwGrammarMarkUp* pNew, bool bDelete ) { if ( m_pParaIdleData_Impl ) { if ( bDelete ) { delete m_pParaIdleData_Impl->pGrammarCheck; } m_pParaIdleData_Impl->pGrammarCheck = pNew; } } SwGrammarMarkUp* SwTxtNode::GetGrammarCheck() { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->pGrammarCheck : 0; } void SwTxtNode::SetSmartTags( SwWrongList* pNew, bool bDelete ) { ASSERT( !pNew || SwSmartTagMgr::Get().IsSmartTagsEnabled(), "Weird - we have a smart tag list without any recognizers?" ) if ( m_pParaIdleData_Impl ) { if ( bDelete ) { delete m_pParaIdleData_Impl->pSmartTags; } m_pParaIdleData_Impl->pSmartTags = pNew; } } SwWrongList* SwTxtNode::GetSmartTags() { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->pSmartTags : 0; } void SwTxtNode::SetParaNumberOfWords( sal_uLong nNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->nNumberOfWords = nNew; } } sal_uLong SwTxtNode::GetParaNumberOfWords() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->nNumberOfWords : 0; } void SwTxtNode::SetParaNumberOfChars( sal_uLong nNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->nNumberOfChars = nNew; } } sal_uLong SwTxtNode::GetParaNumberOfChars() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->nNumberOfChars : 0; } void SwTxtNode::SetWordCountDirty( bool bNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->bWordCountDirty = bNew; } } bool SwTxtNode::IsWordCountDirty() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->bWordCountDirty : 0; } void SwTxtNode::SetWrongDirty( bool bNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->bWrongDirty = bNew; } } bool SwTxtNode::IsWrongDirty() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->bWrongDirty : 0; } void SwTxtNode::SetGrammarCheckDirty( bool bNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->bGrammarCheckDirty = bNew; } } bool SwTxtNode::IsGrammarCheckDirty() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->bGrammarCheckDirty : 0; } void SwTxtNode::SetSmartTagDirty( bool bNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->bSmartTagDirty = bNew; } } bool SwTxtNode::IsSmartTagDirty() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->bSmartTagDirty : 0; } void SwTxtNode::SetAutoCompleteWordDirty( bool bNew ) const { if ( m_pParaIdleData_Impl ) { m_pParaIdleData_Impl->bAutoComplDirty = bNew; } } bool SwTxtNode::IsAutoCompleteWordDirty() const { return m_pParaIdleData_Impl ? m_pParaIdleData_Impl->bAutoComplDirty : 0; } // // Paragraph statistics end // //Bug 120881:Modify here for Directly Page Numbering sal_Bool SwTxtFrm::HasPageNumberField() { return GetRegisteredIn()?((SwTxtNode*)GetRegisteredIn())->HasPageNumberField():false; } //Bug 120881(End)