/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace { const sal_Unicode cRelSeparator = ','; const sal_Unicode cRelIdentifier = '\x12'; // CTRL-R enum { cMAXSTACKSIZE = 50 }; } static const SwFrame* lcl_GetBoxFrame( const SwTableBox& rBox ); static sal_Int32 lcl_GetLongBoxNum( OUString& rStr ); static const SwTableBox* lcl_RelToBox( const SwTable& rTable, const SwTableBox* pRefBox, const OUString& sGetName); static OUString lcl_BoxNmToRel( const SwTable& rTable, const SwTableNode& rTableNd, const OUString& sRefBoxNm, const OUString& sGetStr, bool bExtrnlNm); /** Get value of this box. * * The value is comes from the first TextNode. If it starts with a number/ * formula then calculate it, if it starts with a field then get the value. * All other conditions return 0 (and an error?). */ double SwTableBox::GetValue( SwTableCalcPara& rCalcPara ) const { double nRet = 0; if( rCalcPara.m_rCalc.IsCalcError() ) return nRet; // stop if there is already an error set rCalcPara.m_rCalc.SetCalcError( SwCalcError::Syntax ); // default: error // no content box? if( !m_pStartNode ) return nRet; if( rCalcPara.IncStackCnt() ) return nRet; rCalcPara.SetLastTableBox( this ); // Does it create a recursion? SwTableBox* pBox = const_cast(this); if( rCalcPara.m_pBoxStack->find( pBox ) != rCalcPara.m_pBoxStack->end() ) return nRet; // already on the stack: error // re-start with this box rCalcPara.SetLastTableBox( this ); rCalcPara.m_pBoxStack->insert( pBox ); // add do { // Middle-Check-Loop, so that we can jump from here. Used so that the box pointer // will be removed from stack at the end. SwDoc* pDoc = GetFrameFormat()->GetDoc(); const SfxPoolItem* pItem; if( SfxItemState::SET == GetFrameFormat()->GetItemState( RES_BOXATR_FORMULA, false, &pItem ) ) { rCalcPara.m_rCalc.SetCalcError( SwCalcError::NONE ); // reset status if( !static_cast(pItem)->IsValid() ) { // calculate const SwTable* pTmp = rCalcPara.m_pTable; rCalcPara.m_pTable = &pBox->GetSttNd()->FindTableNode()->GetTable(); const_cast(static_cast(pItem))->Calc( rCalcPara, nRet ); if( !rCalcPara.IsStackOverflow() ) { SwFrameFormat* pFormat = pBox->ClaimFrameFormat(); SfxItemSet aTmp( pDoc->GetAttrPool(), svl::Items{} ); aTmp.Put( SwTableBoxValue( nRet ) ); if( SfxItemState::SET != pFormat->GetItemState( RES_BOXATR_FORMAT )) aTmp.Put( SwTableBoxNumFormat( 0 )); pFormat->SetFormatAttr( aTmp ); } rCalcPara.m_pTable = pTmp; } else nRet = GetFrameFormat()->GetTableBoxValue().GetValue(); break; } else if( SfxItemState::SET == pBox->GetFrameFormat()->GetItemState( RES_BOXATR_VALUE, false, &pItem ) ) { rCalcPara.m_rCalc.SetCalcError( SwCalcError::NONE ); // reset status nRet = static_cast(pItem)->GetValue(); break; } SwTextNode* pTextNd = pDoc->GetNodes()[ m_pStartNode->GetIndex() + 1 ]->GetTextNode(); if( !pTextNd ) break; sal_Int32 nSttPos = 0; OUString sText = pTextNd->GetText(); while ( nSttPos < sText.getLength() && ( sText[nSttPos]==' ' || sText[nSttPos]=='\t' ) ) ++nSttPos; // if there is a calculation field at position 1, get the value of it const bool bOK = nSttPos(pTextNd->GetTextAttrForCharAt(nSttPos, RES_TXTATR_FIELD)); } if ( pTextField != nullptr ) { rCalcPara.m_rCalc.SetCalcError( SwCalcError::NONE ); // reset status const SwField* pField = pTextField->GetFormatField().GetField(); switch ( pField->GetTyp()->Which() ) { case SwFieldIds::SetExp: nRet = static_cast(pField)->GetValue(rCalcPara.m_pLayout); break; case SwFieldIds::User: nRet = static_cast(pField)->GetValue(); break; case SwFieldIds::Table: { SwTableField* pTableField = const_cast(static_cast(pField)); if( !pTableField->IsValid() ) { // use the right table! const SwTable* pTmp = rCalcPara.m_pTable; rCalcPara.m_pTable = &pTextNd->FindTableNode()->GetTable(); pTableField->CalcField( rCalcPara ); rCalcPara.m_pTable = pTmp; } nRet = pTableField->GetValue(); } break; case SwFieldIds::DateTime: nRet = static_cast( pField )->GetValue(); break; case SwFieldIds::JumpEdit: //JP 14.09.98: Bug 56112 - placeholder never have the right content! nRet = 0; break; default: nRet = rCalcPara.m_rCalc.Calculate( pField->ExpandField(true, nullptr) ).GetDouble(); } } else if ( nSttPos < sText.getLength() && Char == CH_TXT_ATR_INPUTFIELDSTART ) { const SwTextInputField * pTextInputField = dynamic_cast< const SwTextInputField* >( pTextNd->GetTextAttrAt( nSttPos, RES_TXTATR_INPUTFIELD ) ); if ( pTextInputField == nullptr ) break; nRet = rCalcPara.m_rCalc.Calculate( pTextInputField->GetFieldContent() ).GetDouble(); } else if ( Char != CH_TXTATR_BREAKWORD ) { // result is 0 but no error! rCalcPara.m_rCalc.SetCalcError( SwCalcError::NONE ); // reset status double aNum = 0.0; sText = bOK ? sText.copy( nSttPos ) : OUString(); sal_uInt32 nFormatIndex = GetFrameFormat()->GetTableBoxNumFormat().GetValue(); SvNumberFormatter* pNumFormatr = pDoc->GetNumberFormatter(); const SvNumFormatType nFormatType = pNumFormatr->GetType( nFormatIndex ); if( nFormatType == SvNumFormatType::TEXT ) nFormatIndex = 0; // JP 22.04.98: Bug 49659 - special treatment for percentages else if( !sText.isEmpty() && SvNumFormatType::PERCENT == nFormatType) { sal_uInt32 nTmpFormat = 0; if( pDoc->IsNumberFormat( sText, nTmpFormat, aNum ) && SvNumFormatType::NUMBER == pNumFormatr->GetType( nTmpFormat )) sText += "%"; } if( pDoc->IsNumberFormat( sText, nFormatIndex, aNum )) nRet = aNum; } // ?? otherwise it is an error } while( false ); if( !rCalcPara.IsStackOverflow() ) { rCalcPara.m_pBoxStack->erase( pBox ); // remove from stack rCalcPara.DecStackCnt(); } //JP 12.01.99: error detection, Bug 60794 if( DBL_MAX == nRet ) rCalcPara.m_rCalc.SetCalcError( SwCalcError::Syntax ); // set error return nRet; } // structure needed for calculation of tables SwTableCalcPara::SwTableCalcPara(SwCalc& rCalculator, const SwTable& rTable, SwRootFrame const*const pLayout) : m_pLastTableBox(nullptr) , m_nStackCount( 0 ) , m_nMaxSize( cMAXSTACKSIZE ) , m_pLayout(pLayout) , m_pBoxStack( new SwTableSortBoxes ) , m_rCalc( rCalculator ) , m_pTable( &rTable ) { } SwTableCalcPara::~SwTableCalcPara() { } bool SwTableCalcPara::CalcWithStackOverflow() { // If a stack overflow was detected, redo with last box. sal_uInt16 nSaveMaxSize = m_nMaxSize; m_nMaxSize = cMAXSTACKSIZE - 5; sal_uInt16 nCnt = 0; SwTableBoxes aStackOverflows; do { SwTableBox* pBox = const_cast(m_pLastTableBox); m_nStackCount = 0; m_rCalc.SetCalcError( SwCalcError::NONE ); aStackOverflows.insert( aStackOverflows.begin() + nCnt++, pBox ); m_pBoxStack->erase( pBox ); pBox->GetValue( *this ); } while( IsStackOverflow() ); m_nMaxSize = cMAXSTACKSIZE - 3; // decrease at least one level // if recursion was detected m_nStackCount = 0; m_rCalc.SetCalcError( SwCalcError::NONE ); m_pBoxStack->clear(); while( !m_rCalc.IsCalcError() && nCnt ) { aStackOverflows[ --nCnt ]->GetValue( *this ); if( IsStackOverflow() && !CalcWithStackOverflow() ) break; } m_nMaxSize = nSaveMaxSize; aStackOverflows.clear(); return !m_rCalc.IsCalcError(); } SwTableFormula::SwTableFormula( const OUString& rFormula ) : m_sFormula( rFormula ) , m_eNmType( EXTRNL_NAME ) , m_bValidValue( false ) { } SwTableFormula::~SwTableFormula() { } void SwTableFormula::MakeFormula_( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { SwTableCalcPara* pCalcPara = static_cast(pPara); if( pCalcPara->m_rCalc.IsCalcError() ) // stop if there is already an error set return; SwTableBox *pEndBox = nullptr; rFirstBox = rFirstBox.copy(1); // erase label of this box // a region in this area? if( pLastBox ) { pEndBox = reinterpret_cast(sal::static_int_cast(pLastBox->toInt64())); // Is it actually a valid pointer? if( rTable.GetTabSortBoxes().find( pEndBox ) == rTable.GetTabSortBoxes().end() ) pEndBox = nullptr; rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } SwTableBox* pSttBox = reinterpret_cast( sal::static_int_cast(rFirstBox.toInt64())); // Is it actually a valid pointer? if( rTable.GetTabSortBoxes().find( pSttBox ) == rTable.GetTabSortBoxes().end() ) pSttBox = nullptr; rNewStr.append(" "); if( pEndBox && pSttBox ) // area? { // get all selected boxes via layout and calculate their values SwSelBoxes aBoxes; GetBoxes( *pSttBox, *pEndBox, aBoxes ); rNewStr.append("("); bool bDelim = false; for (size_t n = 0; n < aBoxes.size() && !pCalcPara->m_rCalc.IsCalcError(); ++n) { const SwTableBox* pTableBox = aBoxes[n]; if ( pTableBox->getRowSpan() >= 1 ) { if( bDelim ) rNewStr.append(cListDelim); bDelim = true; rNewStr.append(pCalcPara->m_rCalc.GetStrResult( pTableBox->GetValue( *pCalcPara ) )); } } rNewStr.append(")"); } else if( pSttBox && !pLastBox ) // only the StartBox? { // JP 12.01.99: and no EndBox in the formula! // calculate the value of the box if ( pSttBox->getRowSpan() >= 1 ) { rNewStr.append("("); rNewStr.append(pCalcPara->m_rCalc.GetStrResult( pSttBox->GetValue( *pCalcPara ) )); rNewStr.append(")"); } } else pCalcPara->m_rCalc.SetCalcError( SwCalcError::Syntax ); // set error rNewStr.append(" "); } void SwTableFormula::RelNmsToBoxNms( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { // relative name w.r.t. box name (external presentation) SwNode* pNd = static_cast(pPara); OSL_ENSURE( pNd, "Field isn't in any TextNode" ); const SwTableBox *pBox = rTable.GetTableBox( pNd->FindTableBoxStartNode()->GetIndex() ); rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); if( pLastBox ) { const SwTableBox *pRelLastBox = lcl_RelToBox( rTable, pBox, *pLastBox ); if ( pRelLastBox ) rNewStr.append(pRelLastBox->GetName()); else rNewStr.append("A1"); rNewStr.append(":"); rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } const SwTableBox *pRelFirstBox = lcl_RelToBox( rTable, pBox, rFirstBox ); if (pRelFirstBox) rNewStr.append(pRelFirstBox->GetName()); else rNewStr.append("A1"); // get label for the box rNewStr.append(rFirstBox[ rFirstBox.getLength()-1 ]); } void SwTableFormula::RelBoxNmsToPtr( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { // relative name w.r.t. box name (internal presentation) SwNode* pNd = static_cast(pPara); OSL_ENSURE( pNd, "Field not placed in any Node" ); const SwTableBox *pBox = rTable.GetTableBox( pNd->FindTableBoxStartNode()->GetIndex() ); rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); if( pLastBox ) { const SwTableBox *pRelLastBox = lcl_RelToBox( rTable, pBox, *pLastBox ); if ( pRelLastBox ) rNewStr.append(OUString::number(reinterpret_cast(pRelLastBox))); else rNewStr.append("0"); rNewStr.append(":"); rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } const SwTableBox *pRelFirstBox = lcl_RelToBox( rTable, pBox, rFirstBox ); if ( pRelFirstBox ) rNewStr.append(OUString::number(reinterpret_cast(pRelFirstBox))); else rNewStr.append("0"); // get label for the box rNewStr.append(rFirstBox[ rFirstBox.getLength()-1 ]); } void SwTableFormula::BoxNmsToRelNm( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { // box name (external presentation) w.r.t. relative name SwNode* pNd = static_cast(pPara); OSL_ENSURE( pNd, "Field not placed in any Node" ); const SwTableNode* pTableNd = pNd->FindTableNode(); OUString sRefBoxNm; if( &pTableNd->GetTable() == &rTable ) { const SwTableBox *pBox = rTable.GetTableBox( pNd->FindTableBoxStartNode()->GetIndex() ); OSL_ENSURE( pBox, "Field not placed in any Table" ); sRefBoxNm = pBox->GetName(); } rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); if( pLastBox ) { rNewStr.append(lcl_BoxNmToRel( rTable, *pTableNd, sRefBoxNm, *pLastBox, m_eNmType == EXTRNL_NAME )); rNewStr.append(":"); rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } rNewStr.append(lcl_BoxNmToRel( rTable, *pTableNd, sRefBoxNm, rFirstBox, m_eNmType == EXTRNL_NAME )); // get label for the box rNewStr.append(rFirstBox[ rFirstBox.getLength()-1 ]); } void SwTableFormula::PtrToBoxNms( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* ) const { // area in these parentheses? SwTableBox* pBox; rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); if( pLastBox ) { pBox = reinterpret_cast(sal::static_int_cast(pLastBox->toInt64())); // Is it actually a valid pointer? if( rTable.GetTabSortBoxes().find( pBox ) != rTable.GetTabSortBoxes().end() ) rNewStr.append(pBox->GetName()); else rNewStr.append("?"); rNewStr.append(":"); rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } pBox = reinterpret_cast(sal::static_int_cast(rFirstBox.toInt64())); // Is it actually a valid pointer? if( rTable.GetTabSortBoxes().find( pBox ) != rTable.GetTabSortBoxes().end() ) rNewStr.append(pBox->GetName()); else rNewStr.append("?"); // get label for the box rNewStr.append(rFirstBox[ rFirstBox.getLength()-1 ]); } void SwTableFormula::BoxNmsToPtr( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* ) const { // area in these parentheses? const SwTableBox* pBox; rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); if( pLastBox ) { pBox = rTable.GetTableBox( *pLastBox ); rNewStr.append(OUString::number(reinterpret_cast(pBox))) .append(":"); rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } pBox = rTable.GetTableBox( rFirstBox ); rNewStr.append(OUString::number(reinterpret_cast(pBox))) .append(rFirstBox[ rFirstBox.getLength()-1 ]); // get label for the box } /// create external formula (for UI) void SwTableFormula::PtrToBoxNm( const SwTable* pTable ) { const SwNode* pNd = nullptr; FnScanFormula fnFormula = nullptr; switch (m_eNmType) { case INTRNL_NAME: if( pTable ) fnFormula = &SwTableFormula::PtrToBoxNms; break; case REL_NAME: if( pTable ) { fnFormula = &SwTableFormula::RelNmsToBoxNms; pNd = GetNodeOfFormula(); } break; case EXTRNL_NAME: return; } m_sFormula = ScanString( fnFormula, *pTable, const_cast(static_cast(pNd)) ); m_eNmType = EXTRNL_NAME; } /// create internal formula (in CORE) void SwTableFormula::BoxNmToPtr( const SwTable* pTable ) { const SwNode* pNd = nullptr; FnScanFormula fnFormula = nullptr; switch (m_eNmType) { case EXTRNL_NAME: if( pTable ) fnFormula = &SwTableFormula::BoxNmsToPtr; break; case REL_NAME: if( pTable ) { fnFormula = &SwTableFormula::RelBoxNmsToPtr; pNd = GetNodeOfFormula(); } break; case INTRNL_NAME: return; } m_sFormula = ScanString( fnFormula, *pTable, const_cast(static_cast(pNd)) ); m_eNmType = INTRNL_NAME; } /// create relative formula (for copy) void SwTableFormula::ToRelBoxNm( const SwTable* pTable ) { const SwNode* pNd = nullptr; FnScanFormula fnFormula = nullptr; switch (m_eNmType) { case INTRNL_NAME: case EXTRNL_NAME: if( pTable ) { fnFormula = &SwTableFormula::BoxNmsToRelNm; pNd = GetNodeOfFormula(); } break; case REL_NAME: return; } m_sFormula = ScanString( fnFormula, *pTable, const_cast(static_cast(pNd)) ); m_eNmType = REL_NAME; } OUString SwTableFormula::ScanString( FnScanFormula fnFormula, const SwTable& rTable, void* pPara ) const { OUStringBuffer aStr; sal_Int32 nFormula = 0; sal_Int32 nEnd = 0; do { // If the formula is preceded by a name, use this table! const SwTable* pTable = &rTable; sal_Int32 nStt = m_sFormula.indexOf( '<', nFormula ); if ( nStt>=0 ) { while ( nStt>=0 ) { const sal_Int32 nNxt = nStt+1; if (nNxt>=m_sFormula.getLength()) { nStt = -1; break; } if ( m_sFormula[nNxt]!=' ' && m_sFormula[nNxt]!='=' ) break; nStt = m_sFormula.indexOf( '<', nNxt ); } if ( nStt>=0 ) // Start searching from current position, which is valid for sure nEnd = m_sFormula.indexOf( '>', nStt ); } if (nStt<0 || nEnd<0 ) { // set the rest and finish aStr.append(std::u16string_view(m_sFormula).substr(nFormula)); break; } // write beginning aStr.append(std::u16string_view(m_sFormula).substr(nFormula, nStt - nFormula)); if (fnFormula) { sal_Int32 nSeparator = 0; // Is a table name preceded? // JP 16.02.99: SplitMergeBoxNm take care of the name themself // JP 22.02.99: Linux compiler needs cast // JP 28.06.99: rel. BoxName has no preceding tablename! if( fnFormula != &SwTableFormula::SplitMergeBoxNm_ && m_sFormula.getLength()>(nStt+1) && cRelIdentifier != m_sFormula[nStt+1] && (nSeparator = m_sFormula.indexOf( '.', nStt ))>=0 && nSeparator < nEnd ) { OUString sTableNm( m_sFormula.copy( nStt, nEnd - nStt )); // If there are dots in the name, then they appear in pairs (e.g. A1.1.1)! if( (comphelper::string::getTokenCount(sTableNm, '.') - 1) & 1 ) { sTableNm = sTableNm.copy( 0, nSeparator - nStt ); // when creating a formula the table name is unwanted if( fnFormula != &SwTableFormula::MakeFormula_ ) aStr.append(sTableNm); nStt = nSeparator; sTableNm = sTableNm.copy( 1 ); // delete separator if( sTableNm != rTable.GetFrameFormat()->GetName() ) { // then search for table const SwTable* pFnd = FindTable( *rTable.GetFrameFormat()->GetDoc(), sTableNm ); if( pFnd ) pTable = pFnd; // ?? OSL_ENSURE( pFnd, "No table found. What now?" ); } } } OUString sBox( m_sFormula.copy( nStt, nEnd - nStt + 1 )); // area in these parentheses? nSeparator = m_sFormula.indexOf( ':', nStt ); if ( nSeparator>=0 && nSeparator*fnFormula)( *pTable, aStr, sBox, &aFirstBox, pPara ); } else (this->*fnFormula)( *pTable, aStr, sBox, nullptr, pPara ); } nFormula = nEnd+1; } while( true ); return aStr.makeStringAndClear(); } const SwTable* SwTableFormula::FindTable( SwDoc& rDoc, const OUString& rNm ) { const SwFrameFormats& rTableFormats = *rDoc.GetTableFrameFormats(); const SwTable* pTmpTable = nullptr, *pRet = nullptr; for( auto nFormatCnt = rTableFormats.size(); nFormatCnt; ) { SwFrameFormat* pFormat = rTableFormats[ --nFormatCnt ]; // if we are called from Sw3Writer, a number is dependent on the format name SwTableBox* pFBox; if ( rNm == pFormat->GetName().getToken(0, 0x0a) && nullptr != ( pTmpTable = SwTable::FindTable( pFormat ) ) && nullptr != (pFBox = pTmpTable->GetTabSortBoxes()[0] ) && pFBox->GetSttNd() && pFBox->GetSttNd()->GetNodes().IsDocNodes() ) { // a table in the normal NodesArr pRet = pTmpTable; break; } } return pRet; } static const SwFrame* lcl_GetBoxFrame( const SwTableBox& rBox ) { SwNodeIndex aIdx( *rBox.GetSttNd() ); SwContentNode* pCNd = aIdx.GetNodes().GoNext( &aIdx ); OSL_ENSURE( pCNd, "Box has no TextNode" ); Point aPt; // get the first frame of the layout - table headline std::pair const tmp(aPt, false); return pCNd->getLayoutFrame(pCNd->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout(), nullptr, &tmp); } static sal_Int32 lcl_GetLongBoxNum( OUString& rStr ) { sal_Int32 nRet; const sal_Int32 nPos = rStr.indexOf( cRelSeparator ); if ( nPos<0 ) { nRet = rStr.toInt32(); rStr.clear(); } else { nRet = rStr.copy( 0, nPos ).toInt32(); rStr = rStr.copy( nPos+1 ); } return nRet; } static const SwTableBox* lcl_RelToBox( const SwTable& rTable, const SwTableBox* pRefBox, const OUString& _sGetName ) { // get line const SwTableBox* pBox = nullptr; OUString sGetName = _sGetName; // Is it really a relative value? if ( cRelIdentifier == sGetName[0] ) // yes { if( !pRefBox ) return nullptr; sGetName = sGetName.copy( 1 ); const SwTableLines* pLines = &rTable.GetTabLines(); const SwTableBoxes* pBoxes; const SwTableLine* pLine; // determine starting values of the box,... pBox = pRefBox; pLine = pBox->GetUpper(); while( pLine->GetUpper() ) { pBox = pLine->GetUpper(); pLine = pBox->GetUpper(); } sal_uInt16 nSttBox = pLine->GetBoxPos( pBox ); sal_uInt16 nSttLine = rTable.GetTabLines().GetPos( pLine ); const sal_Int32 nBoxOffset = lcl_GetLongBoxNum( sGetName ) + nSttBox; const sal_Int32 nLineOffset = lcl_GetLongBoxNum( sGetName ) + nSttLine; if( nBoxOffset < 0 || nLineOffset < 0 ) return nullptr; if( o3tl::make_unsigned(nLineOffset) >= pLines->size() ) return nullptr; pLine = (*pLines)[ nLineOffset ]; // ... then search the box pBoxes = &pLine->GetTabBoxes(); if( o3tl::make_unsigned(nBoxOffset) >= pBoxes->size() ) return nullptr; pBox = (*pBoxes)[ nBoxOffset ]; while (!sGetName.isEmpty()) { nSttBox = SwTable::GetBoxNum( sGetName ); pLines = &pBox->GetTabLines(); if( nSttBox ) --nSttBox; nSttLine = SwTable::GetBoxNum( sGetName ); // determine line if( !nSttLine || nSttLine > pLines->size() ) break; pLine = (*pLines)[ nSttLine-1 ]; // determine box pBoxes = &pLine->GetTabBoxes(); if( nSttBox >= pBoxes->size() ) break; pBox = (*pBoxes)[ nSttBox ]; } if( pBox ) { if( !pBox->GetSttNd() ) // "bubble up" to first box while( !pBox->GetTabLines().empty() ) pBox = pBox->GetTabLines().front()->GetTabBoxes().front(); } } else { // otherwise it is an absolute external presentation pBox = rTable.GetTableBox( sGetName ); } return pBox; } static OUString lcl_BoxNmToRel( const SwTable& rTable, const SwTableNode& rTableNd, const OUString& _sRefBoxNm, const OUString& _sTmp, bool bExtrnlNm ) { OUString sTmp = _sTmp; OUString sRefBoxNm = _sRefBoxNm; if( !bExtrnlNm ) { // convert into external presentation SwTableBox* pBox = reinterpret_cast(sal::static_int_cast(sTmp.toInt64())); if( rTable.GetTabSortBoxes().find( pBox ) == rTable.GetTabSortBoxes().end() ) return OUString('?'); sTmp = pBox->GetName(); } // If the formula is spanning over a table then keep external presentation if( &rTable == &rTableNd.GetTable() ) { long nBox = SwTable::GetBoxNum( sTmp, true ); nBox -= SwTable::GetBoxNum( sRefBoxNm, true ); long nLine = SwTable::GetBoxNum( sTmp ); nLine -= SwTable::GetBoxNum( sRefBoxNm ); const OUString sCpy = sTmp; //JP 01.11.95: add rest from box name sTmp = OUStringChar(cRelIdentifier) + OUString::number( nBox ) + OUStringChar(cRelSeparator) + OUString::number( nLine ); if (!sCpy.isEmpty()) { sTmp += OUStringChar(cRelSeparator) + sCpy; } } if (sTmp.endsWith(">")) return sTmp.copy(0, sTmp.getLength()-1 ); return sTmp; } void SwTableFormula::GetBoxesOfFormula( const SwTable& rTable, SwSelBoxes& rBoxes ) { rBoxes.clear(); BoxNmToPtr( &rTable ); ScanString( &SwTableFormula::GetFormulaBoxes, rTable, &rBoxes ); } void SwTableFormula::GetFormulaBoxes( const SwTable& rTable, OUStringBuffer& , OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { SwSelBoxes* pBoxes = static_cast(pPara); SwTableBox* pEndBox = nullptr; rFirstBox = rFirstBox.copy(1); // delete box label // area in these parentheses? if( pLastBox ) { pEndBox = reinterpret_cast(sal::static_int_cast(pLastBox->toInt64())); // Is it actually a valid pointer? if( rTable.GetTabSortBoxes().find( pEndBox ) == rTable.GetTabSortBoxes().end() ) pEndBox = nullptr; rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); } SwTableBox *pSttBox = reinterpret_cast(sal::static_int_cast(rFirstBox.toInt64())); // Is it actually a valid pointer? if( !pSttBox || rTable.GetTabSortBoxes().find( pSttBox ) == rTable.GetTabSortBoxes().end() ) return; if ( pEndBox ) // area? { // get all selected boxes via layout and calculate their values SwSelBoxes aBoxes; GetBoxes( *pSttBox, *pEndBox, aBoxes ); pBoxes->insert( aBoxes ); } else // only the StartBox? pBoxes->insert( pSttBox ); } void SwTableFormula::GetBoxes( const SwTableBox& rSttBox, const SwTableBox& rEndBox, SwSelBoxes& rBoxes ) { // get all selected boxes via layout const SwLayoutFrame *pStt, *pEnd; const SwFrame* pFrame = lcl_GetBoxFrame( rSttBox ); pStt = pFrame ? pFrame->GetUpper() : nullptr; pFrame = lcl_GetBoxFrame( rEndBox ); pEnd = pFrame ? pFrame->GetUpper() : nullptr; if( !pStt || !pEnd ) return ; // no valid selection GetTableSel( pStt, pEnd, rBoxes, nullptr ); const SwTable* pTable = pStt->FindTabFrame()->GetTable(); // filter headline boxes if( pTable->GetRowsToRepeat() > 0 ) { do { // middle-check loop const SwTableLine* pLine = rSttBox.GetUpper(); while( pLine->GetUpper() ) pLine = pLine->GetUpper()->GetUpper(); if( pTable->IsHeadline( *pLine ) ) break; // headline in this area! // maybe start and end are swapped pLine = rEndBox.GetUpper(); while ( pLine->GetUpper() ) pLine = pLine->GetUpper()->GetUpper(); if( pTable->IsHeadline( *pLine ) ) break; // headline in this area! const SwTabFrame *pStartTable = pStt->FindTabFrame(); const SwTabFrame *pEndTable = pEnd->FindTabFrame(); if (pStartTable == pEndTable) // no split table break; // then remove table headers for (size_t n = 0; n < rBoxes.size(); ++n) { pLine = rBoxes[n]->GetUpper(); while( pLine->GetUpper() ) pLine = pLine->GetUpper()->GetUpper(); if( pTable->IsHeadline( *pLine ) ) rBoxes.erase( rBoxes.begin() + n-- ); } } while( false ); } } /// Are all boxes valid that are referenced by the formula? void SwTableFormula::HasValidBoxes_( const SwTable& rTable, OUStringBuffer& , OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { bool* pBValid = static_cast(pPara); if( *pBValid ) // wrong is wrong { SwTableBox* pSttBox = nullptr, *pEndBox = nullptr; rFirstBox = rFirstBox.copy(1); // delete identifier of box // area in this parenthesis? if( pLastBox ) rFirstBox = rFirstBox.copy( pLastBox->getLength()+1 ); switch (m_eNmType) { case INTRNL_NAME: if( pLastBox ) pEndBox = reinterpret_cast(sal::static_int_cast(pLastBox->toInt64())); pSttBox = reinterpret_cast(sal::static_int_cast(rFirstBox.toInt64())); break; case REL_NAME: { const SwNode* pNd = GetNodeOfFormula(); const SwTableBox* pBox = !pNd ? nullptr : const_cast(rTable.GetTableBox( pNd->FindTableBoxStartNode()->GetIndex() )); if( pLastBox ) pEndBox = const_cast(lcl_RelToBox( rTable, pBox, *pLastBox )); pSttBox = const_cast(lcl_RelToBox( rTable, pBox, rFirstBox )); } break; case EXTRNL_NAME: if( pLastBox ) pEndBox = const_cast(rTable.GetTableBox( *pLastBox )); pSttBox = const_cast(rTable.GetTableBox( rFirstBox )); break; } // Are these valid pointers? if( ( pLastBox && ( !pEndBox || rTable.GetTabSortBoxes().find( pEndBox ) == rTable.GetTabSortBoxes().end() ) ) || ( !pSttBox || rTable.GetTabSortBoxes().find( pSttBox ) == rTable.GetTabSortBoxes().end() ) ) *pBValid = false; } } bool SwTableFormula::HasValidBoxes() const { bool bRet = true; const SwNode* pNd = GetNodeOfFormula(); if( pNd && nullptr != ( pNd = pNd->FindTableNode() ) ) ScanString( &SwTableFormula::HasValidBoxes_, static_cast(pNd)->GetTable(), &bRet ); return bRet; } sal_uInt16 SwTableFormula::GetLnPosInTable( const SwTable& rTable, const SwTableBox* pBox ) { sal_uInt16 nRet = USHRT_MAX; if( pBox ) { const SwTableLine* pLn = pBox->GetUpper(); while( pLn->GetUpper() ) pLn = pLn->GetUpper()->GetUpper(); nRet = rTable.GetTabLines().GetPos( pLn ); } return nRet; } void SwTableFormula::SplitMergeBoxNm_( const SwTable& rTable, OUStringBuffer& rNewStr, OUString& rFirstBox, OUString* pLastBox, void* pPara ) const { SwTableFormulaUpdate& rTableUpd = *static_cast(pPara); rNewStr.append(rFirstBox[0]); // get label for the box rFirstBox = rFirstBox.copy(1); OUString sTableNm; const SwTable* pTable = &rTable; OUString* pTableNmBox = pLastBox ? pLastBox : &rFirstBox; const sal_Int32 nLastBoxLen = pTableNmBox->getLength(); const sal_Int32 nSeparator = pTableNmBox->indexOf('.'); if ( nSeparator>=0 && // If there are dots in the name, then these appear in pairs (e.g. A1.1.1)! (comphelper::string::getTokenCount(*pTableNmBox, '.') - 1) & 1 ) { sTableNm = pTableNmBox->copy( 0, nSeparator ); *pTableNmBox = pTableNmBox->copy( nSeparator + 1); // remove dot const SwTable* pFnd = FindTable( *rTable.GetFrameFormat()->GetDoc(), sTableNm ); if( pFnd ) pTable = pFnd; if( TBL_MERGETBL == rTableUpd.m_eFlags ) { if( pFnd ) { if( pFnd == rTableUpd.m_aData.pDelTable ) { if( rTableUpd.m_pTable != &rTable ) // not the current one rNewStr.append(rTableUpd.m_pTable->GetFrameFormat()->GetName()).append("."); // set new table name rTableUpd.m_bModified = true; } else if( pFnd != rTableUpd.m_pTable || ( rTableUpd.m_pTable != &rTable && &rTable != rTableUpd.m_aData.pDelTable)) rNewStr.append(sTableNm).append("."); // keep table name else rTableUpd.m_bModified = true; } else rNewStr.append(sTableNm).append("."); // keep table name } } if( pTableNmBox == pLastBox ) rFirstBox = rFirstBox.copy( nLastBoxLen + 1 ); SwTableBox* pSttBox = nullptr, *pEndBox = nullptr; switch (m_eNmType) { case INTRNL_NAME: if( pLastBox ) pEndBox = reinterpret_cast(sal::static_int_cast(pLastBox->toInt64())); pSttBox = reinterpret_cast(sal::static_int_cast(rFirstBox.toInt64())); break; case REL_NAME: { const SwNode* pNd = GetNodeOfFormula(); const SwTableBox* pBox = pNd ? pTable->GetTableBox( pNd->FindTableBoxStartNode()->GetIndex() ) : nullptr; if( pLastBox ) pEndBox = const_cast(lcl_RelToBox( *pTable, pBox, *pLastBox )); pSttBox = const_cast(lcl_RelToBox( *pTable, pBox, rFirstBox )); } break; case EXTRNL_NAME: if( pLastBox ) pEndBox = const_cast(pTable->GetTableBox( *pLastBox )); pSttBox = const_cast(pTable->GetTableBox( rFirstBox )); break; } if( pLastBox && pTable->GetTabSortBoxes().find( pEndBox ) == pTable->GetTabSortBoxes().end() ) pEndBox = nullptr; if( pTable->GetTabSortBoxes().find( pSttBox ) == pTable->GetTabSortBoxes().end() ) pSttBox = nullptr; if( TBL_SPLITTBL == rTableUpd.m_eFlags ) { // Where are the boxes - in the old or in the new table? bool bInNewTable = false; if( pLastBox ) { // It is the "first" box in this selection. It determines if the formula is placed in // the new or the old table. sal_uInt16 nEndLnPos = SwTableFormula::GetLnPosInTable( *pTable, pEndBox ), nSttLnPos = SwTableFormula::GetLnPosInTable( *pTable, pSttBox ); if( USHRT_MAX != nSttLnPos && USHRT_MAX != nEndLnPos && ((rTableUpd.m_nSplitLine <= nSttLnPos) == (rTableUpd.m_nSplitLine <= nEndLnPos)) ) { // stay in same table bInNewTable = rTableUpd.m_nSplitLine <= nEndLnPos && pTable == rTableUpd.m_pTable; } else { // this is definitely an invalid formula, also mark as modified for Undo rTableUpd.m_bModified = true; if( pEndBox ) bInNewTable = USHRT_MAX != nEndLnPos && rTableUpd.m_nSplitLine <= nEndLnPos && pTable == rTableUpd.m_pTable; } } else { sal_uInt16 nSttLnPos = SwTableFormula::GetLnPosInTable( *pTable, pSttBox ); // Put it in the new table? bInNewTable = USHRT_MAX != nSttLnPos && rTableUpd.m_nSplitLine <= nSttLnPos && pTable == rTableUpd.m_pTable; } // formula goes into new table if( rTableUpd.m_bBehindSplitLine ) { if( !bInNewTable ) { rTableUpd.m_bModified = true; rNewStr.append(rTableUpd.m_pTable->GetFrameFormat()->GetName()).append("."); } else if( !sTableNm.isEmpty() ) rNewStr.append(sTableNm).append("."); } else if( bInNewTable ) { rTableUpd.m_bModified = true; rNewStr.append(*rTableUpd.m_aData.pNewTableNm).append("."); } else if( !sTableNm.isEmpty() ) rNewStr.append(sTableNm).append("."); } if( pLastBox ) rNewStr.append(OUString::number(reinterpret_cast(pEndBox))).append(":"); rNewStr.append(OUString::number(reinterpret_cast(pSttBox))) .append(rFirstBox[ rFirstBox.getLength()-1] ); } /// Create external formula but remember that the formula is placed in a split/merged table void SwTableFormula::ToSplitMergeBoxNm( SwTableFormulaUpdate& rTableUpd ) { const SwTable* pTable; const SwNode* pNd = GetNodeOfFormula(); if( pNd && nullptr != ( pNd = pNd->FindTableNode() )) pTable = &static_cast(pNd)->GetTable(); else pTable = rTableUpd.m_pTable; m_sFormula = ScanString( &SwTableFormula::SplitMergeBoxNm_, *pTable, static_cast(&rTableUpd) ); m_eNmType = INTRNL_NAME; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */