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Quelle markmulti.cxx Sprache: C |
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/* -*- 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 <markmulti.hxx> #include <markarr.hxx> #include <rangelst.hxx> #include <segmenttree.hxx> #include <sheetlimits.hxx> #include <o3tl/safeint.hxx> #include <algorithm> ScMultiSel::ScMultiSel(const ScSheetLimits& rSheetLimits) : aRowSel(rSheetLimits), mrSheetLimits(rSheetLimits) { } ScMultiSel& ScMultiSel::operator=(const ScMultiSel& rOther) { aMultiSelContainer = rOther.aMultiSelContainer; aRowSel = rOther.aRowSel; return *this; } ScMultiSel& ScMultiSel::operator=(ScMultiSel&& rOther) { aMultiSelContainer = std::move(rOther.aMultiSelContainer); aRowSel = std::move(rOther.aRowSel); return *this; } void ScMultiSel::Clear() { aMultiSelContainer.clear(); aRowSel.Reset(); } SCCOL ScMultiSel::GetMultiSelectionCount() const { SCCOL nCount = 0; for (const auto & i : aMultiSelContainer) if (i.HasMarks()) ++nCount; return nCount; } bool ScMultiSel::HasMarks( SCCOL nCol ) const { if ( aRowSel.HasMarks() ) return true; return nCol < static_cast<SCCOL>(aMultiSelContainer.size()) && aMultiSelContainer[nCol].Ha } bool ScMultiSel::HasOneMark( SCCOL nCol, SCROW& rStartRow, SCROW& rEndRow ) const { SCROW nRow1 = -1, nRow2 = -1, nRow3 = -1, nRow4 = -1; bool aResult1 = aRowSel.HasOneMark( nRow1, nRow2 ); bool aResult2 = nCol < static_cast<SCCOL>(aMultiSelContainer.size()) && aMultiSelContainer[nCol].HasOneMark( nRow3, nRow4 ); if ( aResult1 || aResult2 ) { if ( aResult1 && aResult2 ) { if ( ( nRow2 + 1 ) < nRow3 ) return false; if ( ( nRow4 + 1 ) < nRow1 ) return false; auto aRows = std::minmax( { nRow1, nRow2, nRow3, nRow4 } ); rStartRow = aRows.first; rEndRow = aRows.second; return true; } if ( aResult1 ) { rStartRow = nRow1; rEndRow = nRow2; return true; } rStartRow = nRow3; rEndRow = nRow4; return true; } return false; } bool ScMultiSel::GetMark( SCCOL nCol, SCROW nRow ) const { if ( aRowSel.GetMark( nRow ) ) return true; return nCol < static_cast<SCCOL>(aMultiSelContainer.size()) && aMultiSelContainer[nCol].Ge } bool ScMultiSel::IsAllMarked( SCCOL nCol, SCROW nStartRow, SCROW nEndRow ) const { bool bHasMarks1 = aRowSel.HasMarks(); bool bHasMarks2 = nCol < static_cast<SCCOL>(aMultiSelContainer.size()) && aMultiSelContainer if ( !bHasMarks1 && !bHasMarks2 ) return false; if ( bHasMarks1 && bHasMarks2 ) { if ( aRowSel.IsAllMarked( nStartRow, nEndRow ) || aMultiSelContainer[nCol].IsAllMarked( nStartRow, nEndRow ) ) return true; ScMultiSelIter aMultiIter( *this, nCol ); ScFlatBoolRowSegments::RangeData aRowRange; bool bRet = aMultiIter.GetRangeData( nStartRow, aRowRange ); return bRet && aRowRange.mbValue && aRowRange.mnRow2 >= nEndRow; } if ( bHasMarks1 ) return aRowSel.IsAllMarked( nStartRow, nEndRow ); return aMultiSelContainer[nCol].IsAllMarked( nStartRow, nEndRow ); } bool ScMultiSel::HasEqualRowsMarked( SCCOL nCol1, SCCOL nCol2 ) const { bool bCol1Exists = nCol1 < static_cast<SCCOL>(aMultiSelContainer.size()); bool bCol2Exists = nCol2 < static_cast<SCCOL>(aMultiSelContainer.size()); if ( bCol1Exists || bCol2Exists ) { if ( bCol1Exists && bCol2Exists ) return aMultiSelContainer[nCol1] == aMultiSelContainer[nCol2]; else if ( bCol1Exists ) return !aMultiSelContainer[nCol1].HasMarks(); else return !aMultiSelContainer[nCol2].HasMarks(); } return true; } SCCOL ScMultiSel::GetStartOfEqualColumns( SCCOL nLastCol, SCCOL nMinCol ) const { if( nMinCol > nLastCol ) return nMinCol; if( nLastCol >= static_cast<SCCOL>(aMultiSelContainer.size())) { if( nMinCol >= static_cast<SCCOL>(aMultiSelContainer.size())) return nMinCol; SCCOL nCol = static_cast<SCCOL>(aMultiSelContainer.size()) - 1; while( nCol >= nMinCol && aMultiSelContainer[nCol] == aRowSel ) --nCol; return nCol + 1; } SCCOL nCol = nLastCol - 1; while( nCol >= nMinCol && aMultiSelContainer[nCol] == aMultiSelContainer[nLastCol] ) --nCol; return nCol + 1; } SCROW ScMultiSel::GetNextMarked( SCCOL nCol, SCROW nRow, bool bUp ) const { if ( nCol >= static_cast<SCCOL>(aMultiSelContainer.size()) || !aMultiSelContainer[nCol].H return aRowSel.GetNextMarked( nRow, bUp ); SCROW nRow1, nRow2; nRow1 = aRowSel.GetNextMarked( nRow, bUp ); nRow2 = aMultiSelContainer[nCol].GetNextMarked( nRow, bUp ); if ( nRow1 == nRow2 ) return nRow1; if ( nRow1 == -1 ) return nRow2; if ( nRow2 == -1 ) return nRow1; PutInOrder( nRow1, nRow2 ); return ( bUp ? nRow2 : nRow1 ); } void ScMultiSel::MarkAllCols( SCROW nStartRow, SCROW nEndRow ) { aMultiSelContainer.resize(mrSheetLimits.mnMaxCol+1, ScMarkArray(mrSheetLimits)); for ( SCCOL nCol = mrSheetLimits.mnMaxCol; nCol >= 0; --nCol ) { aMultiSelContainer[nCol].SetMarkArea( nStartRow, nEndRow, true ); } } void ScMultiSel::SetMarkArea( SCCOL nStartCol, SCCOL nEndCol, SCROW nStartRow, SCROW nEnd { if ( nStartCol == 0 && nEndCol == mrSheetLimits.mnMaxCol ) { aRowSel.SetMarkArea( nStartRow, nEndRow, bMark ); if ( !bMark ) { // Remove any per column marks for the row range. for ( auto& aIter : aMultiSelContainer ) if ( aIter.HasMarks() ) aIter.SetMarkArea( nStartRow, nEndRow, false ); } return; } // Bad case - we need to extend aMultiSelContainer size to MAXCOL // and move row marks from aRowSel to aMultiSelContainer if ( !bMark && aRowSel.HasMarks() ) { SCROW nBeg, nLast = nEndRow; if ( aRowSel.GetMark( nStartRow ) ) { nBeg = nStartRow; nLast = aRowSel.GetMarkEnd( nStartRow, false ); } else { nBeg = aRowSel.GetNextMarked( nStartRow, false ); if ( nBeg != mrSheetLimits.GetMaxRowCount() ) nLast = aRowSel.GetMarkEnd( nBeg, false ); } if ( nBeg != mrSheetLimits.GetMaxRowCount() && nLast >= nEndRow && nBeg <= nEndRow ) MarkAllCols( nBeg, nEndRow ); else { while ( nBeg != mrSheetLimits.GetMaxRowCount() && nLast < nEndRow ) { MarkAllCols( nBeg, nLast ); nBeg = aRowSel.GetNextMarked( nLast + 1, false ); if ( nBeg != mrSheetLimits.GetMaxRowCount() ) nLast = aRowSel.GetMarkEnd( nBeg, false ); } if ( nBeg != mrSheetLimits.GetMaxRowCount() && nLast >= nEndRow && nBeg <= nEndRow ) MarkAllCols( nBeg, nEndRow ); } aRowSel.SetMarkArea( nStartRow, nEndRow, false ); } if (nEndCol >= static_cast<SCCOL>(aMultiSelContainer.size())) aMultiSelContainer.resize(nEndCol+1, ScMarkArray(mrSheetLimits)); for ( SCCOL nColIter = nEndCol; nColIter >= nStartCol; --nColIter ) aMultiSelContainer[nColIter].SetMarkArea( nStartRow, nEndRow, bMark ); } /** optimised init-from-range-list. Specifically this is optimised for cases where we have very large data columns with lots and lots of ranges. */ void ScMultiSel::Set( ScRangeList const & rList ) { Clear(); if (rList.empty()) return; // sort by row to make the combining/merging faster auto aNewList = rList; std::sort(aNewList.begin(), aNewList.end(), [](const ScRange& lhs, const ScRange& rhs) { return lhs.aStart.Row() < rhs.aStart.Row(); }); std::vector<std::vector<ScMarkEntry>> aMarkEntriesPerCol(mrSheetLimits.mnMaxCol+1); SCCOL nMaxCol = -1; for (const ScRange& rRange : aNewList) { SCCOL nStartCol = rRange.aStart.Col(); SCROW nStartRow = rRange.aStart.Row(); SCCOL nEndCol = rRange.aEnd.Col(); SCROW nEndRow = rRange.aEnd.Row(); assert( nEndRow >= nStartRow && "this method assumes the input data has ranges with endr assert( nEndCol >= nStartCol && "this method assumes the input data has ranges with endc if ( nStartCol == 0 && nEndCol == mrSheetLimits.mnMaxCol ) aRowSel.SetMarkArea( nStartRow, nEndRow, /*bMark*/true ); else { for ( SCCOL nCol = nStartCol; nCol <= nEndCol; ++nCol ) { auto & rMarkEntries = aMarkEntriesPerCol[nCol]; int nEntries = rMarkEntries.size(); if (nEntries > 1 && nStartRow >= rMarkEntries[nEntries-2].nRow+1 && nStartRow <= rMarkEntries[nEntries-1].nRow+1) { // overlaps or directly adjacent previous range rMarkEntries.back().nRow = std::max(nEndRow, rMarkEntries.back().nRow); } else { // new range if (nStartRow > 0) rMarkEntries.emplace_back(ScMarkEntry{nStartRow-1, false}); rMarkEntries.emplace_back(ScMarkEntry{nEndRow, true}); } } nMaxCol = std::max(nMaxCol, nEndCol); } } aMultiSelContainer.resize(nMaxCol+1, ScMarkArray(mrSheetLimits)); for (SCCOL nCol = 0; nCol<=nMaxCol; ++nCol) if (!aMarkEntriesPerCol[nCol].empty()) aMultiSelContainer[nCol].Set( std::move(aMarkEntriesPerCol[nCol]) ); } bool ScMultiSel::IsRowMarked( SCROW nRow ) const { return aRowSel.GetMark( nRow ); } bool ScMultiSel::IsRowRangeMarked( SCROW nStartRow, SCROW nEndRow ) const { if ( !aRowSel.GetMark( nStartRow ) ) return false; SCROW nLast = aRowSel.GetMarkEnd( nStartRow, false ); return ( nLast >= nEndRow ); } ScMarkArray ScMultiSel::GetMarkArray( SCCOL nCol ) const { ScMultiSelIter aMultiIter( *this, nCol ); ScMarkArray aMarkArray(mrSheetLimits); SCROW nTop, nBottom; while( aMultiIter.Next( nTop, nBottom ) ) aMarkArray.SetMarkArea( nTop, nBottom, true ); return aMarkArray; } bool ScMultiSel::HasAnyMarks() const { if ( aRowSel.HasMarks() ) return true; for ( const auto& aPair : aMultiSelContainer ) if ( aPair.HasMarks() ) return true; return false; } void ScMultiSel::ShiftCols(SCCOL nStartCol, sal_Int32 nColOffset) { if (nStartCol > mrSheetLimits.mnMaxCol || nStartCol >= static_cast<SCCOL>(aMultiSelContaine return; if (nColOffset > 0) { aMultiSelContainer.insert(aMultiSelContainer.begin() + nStartCol, nColOffset, ScMark } else { sal_Int32 tempOffset = nStartCol - nColOffset >= static_cast<SCCOL>(aMultiSelContainer.siz aMultiSelContainer.erase(aMultiSelContainer.begin() + nStartCol, aMultiSelContainer } } void ScMultiSel::ShiftRows(SCROW nStartRow, sal_Int32 nRowOffset) { for (auto& aPair: aMultiSelContainer) aPair.Shift(nStartRow, nRowOffset); aRowSel.Shift(nStartRow, nRowOffset); } const ScMarkArray* ScMultiSel::GetMultiSelArray( SCCOL nCol ) const { if (nCol >= static_cast<SCCOL>(aMultiSelContainer.size())) return nullptr; return &aMultiSelContainer[nCol]; } ScMultiSelIter::ScMultiSelIter( const ScMultiSel& rMultiSel, SCCOL nCol ) : aMarkArrayIter(nullptr), nNextSegmentStart(0) { bool bHasMarks1 = rMultiSel.aRowSel.HasMarks(); bool bHasMarks2 = nCol < static_cast<SCCOL>(rMultiSel.aMultiSelContainer.size()) && rMultiSel.aMultiSelContainer[nCol].HasMarks(); if (bHasMarks1 && bHasMarks2) { pRowSegs.reset( new ScFlatBoolRowSegments(rMultiSel.mrSheetLimits.mnMaxRow) ); pRowSegs->setFalse( 0, rMultiSel.mrSheetLimits.mnMaxRow ); { ScMarkArrayIter aMarkIter( &rMultiSel.aRowSel ); SCROW nTop, nBottom; while ( aMarkIter.Next( nTop, nBottom ) ) pRowSegs->setTrue( nTop, nBottom ); } { ScMarkArrayIter aMarkIter( &rMultiSel.aMultiSelContainer[nCol] ); SCROW nTop, nBottom; while ( aMarkIter.Next( nTop, nBottom ) ) pRowSegs->setTrue( nTop, nBottom ); } } else if (bHasMarks1) { aMarkArrayIter.reset( &rMultiSel.aRowSel); } else if (bHasMarks2) { aMarkArrayIter.reset( &rMultiSel.aMultiSelContainer[nCol]); } } bool ScMultiSelIter::Next( SCROW& rTop, SCROW& rBottom ) { if (pRowSegs) { ScFlatBoolRowSegments::RangeData aRowRange; bool bRet = pRowSegs->getRangeData( nNextSegmentStart, aRowRange ); if ( bRet && !aRowRange.mbValue ) { nNextSegmentStart = aRowRange.mnRow2 + 1; bRet = pRowSegs->getRangeData( nNextSegmentStart, aRowRange ); } if ( bRet ) { rTop = aRowRange.mnRow1; rBottom = aRowRange.mnRow2; nNextSegmentStart = rBottom + 1; } return bRet; } return aMarkArrayIter.Next( rTop, rBottom); } bool ScMultiSelIter::GetRangeData( SCROW nRow, ScFlatBoolRowSegments::RangeData& { assert(pRowSegs); return pRowSegs->getRangeData( nRow, rRowRange); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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2026-04-02