/************************************************************** * * 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_sc.hxx" // INCLUDE --------------------------------------------------------------- #include #include "markdata.hxx" #include "markarr.hxx" #include "rangelst.hxx" // STATIC DATA ----------------------------------------------------------- //------------------------------------------------------------------------ ScMarkData::ScMarkData() : pMultiSel( NULL ) { for (SCTAB i=0; i<=MAXTAB; i++) bTabMarked[i] = sal_False; ResetMark(); } ScMarkData::ScMarkData(const ScMarkData& rData) : aMarkRange( rData.aMarkRange ), aMultiRange( rData.aMultiRange ), pMultiSel( NULL ) { bMarked = rData.bMarked; bMultiMarked = rData.bMultiMarked; bMarking = rData.bMarking; bMarkIsNeg = rData.bMarkIsNeg; for (SCTAB i=0; i<=MAXTAB; i++) bTabMarked[i] = rData.bTabMarked[i]; if (rData.pMultiSel) { pMultiSel = new ScMarkArray[MAXCOLCOUNT]; for (SCCOL j=0; j mark that one. if ( !GetSelectCount() ) bTabMarked[ aMarkRange.aStart.Tab() ] = sal_True; bMarked = sal_True; } } void ScMarkData::GetMarkArea( ScRange& rRange ) const { rRange = aMarkRange; //! inline ? } void ScMarkData::GetMultiMarkArea( ScRange& rRange ) const { rRange = aMultiRange; } void ScMarkData::SetMultiMarkArea( const ScRange& rRange, sal_Bool bMark ) { if (!pMultiSel) { pMultiSel = new ScMarkArray[MAXCOL+1]; // if simple mark range is set, copy to multi marks if ( bMarked && !bMarkIsNeg ) { bMarked = sal_False; SetMultiMarkArea( aMarkRange, sal_True ); } } SCCOL nStartCol = rRange.aStart.Col(); SCROW nStartRow = rRange.aStart.Row(); SCCOL nEndCol = rRange.aEnd.Col(); SCROW nEndRow = rRange.aEnd.Row(); PutInOrder( nStartRow, nEndRow ); PutInOrder( nStartCol, nEndCol ); SCCOL nCol; for (nCol=nStartCol; nCol<=nEndCol; nCol++) pMultiSel[nCol].SetMarkArea( nStartRow, nEndRow, bMark ); if ( bMultiMarked ) // aMultiRange updaten { if ( nStartCol < aMultiRange.aStart.Col() ) aMultiRange.aStart.SetCol( nStartCol ); if ( nStartRow < aMultiRange.aStart.Row() ) aMultiRange.aStart.SetRow( nStartRow ); if ( nEndCol > aMultiRange.aEnd.Col() ) aMultiRange.aEnd.SetCol( nEndCol ); if ( nEndRow > aMultiRange.aEnd.Row() ) aMultiRange.aEnd.SetRow( nEndRow ); } else { aMultiRange = rRange; // neu bMultiMarked = sal_True; } } void ScMarkData::SetAreaTab( SCTAB nTab ) { aMarkRange.aStart.SetTab(nTab); aMarkRange.aEnd.SetTab(nTab); aMultiRange.aStart.SetTab(nTab); aMultiRange.aEnd.SetTab(nTab); } void ScMarkData::SelectOneTable( SCTAB nTab ) { for (SCTAB i=0; i<=MAXTAB; i++) bTabMarked[i] = ( nTab == i ); } SCTAB ScMarkData::GetSelectCount() const { SCTAB nCount = 0; for (SCTAB i=0; i<=MAXTAB; i++) if (bTabMarked[i]) ++nCount; return nCount; } SCTAB ScMarkData::GetFirstSelected() const { for (SCTAB i=0; i<=MAXTAB; i++) if (bTabMarked[i]) return i; DBG_ERROR("GetFirstSelected: keine markiert"); return 0; } void ScMarkData::MarkToMulti() { if ( bMarked && !bMarking ) { SetMultiMarkArea( aMarkRange, !bMarkIsNeg ); bMarked = sal_False; // check if all multi mark ranges have been removed if ( bMarkIsNeg && !HasAnyMultiMarks() ) ResetMark(); } } void ScMarkData::MarkToSimple() { if ( bMarking ) return; if ( bMultiMarked && bMarked ) MarkToMulti(); // may result in bMarked and bMultiMarked reset if ( bMultiMarked ) { DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); ScRange aNew = aMultiRange; sal_Bool bOk = sal_False; SCCOL nStartCol = aNew.aStart.Col(); SCCOL nEndCol = aNew.aEnd.Col(); while ( nStartCol < nEndCol && !pMultiSel[nStartCol].HasMarks() ) ++nStartCol; while ( nStartCol < nEndCol && !pMultiSel[nEndCol].HasMarks() ) --nEndCol; // Zeilen werden nur aus MarkArray genommen SCROW nStartRow, nEndRow; if ( pMultiSel[nStartCol].HasOneMark( nStartRow, nEndRow ) ) { bOk = sal_True; SCROW nCmpStart, nCmpEnd; for (SCCOL nCol=nStartCol+1; nCol<=nEndCol && bOk; nCol++) if ( !pMultiSel[nCol].HasOneMark( nCmpStart, nCmpEnd ) || nCmpStart != nStartRow || nCmpEnd != nEndRow ) bOk = sal_False; } if (bOk) { aNew.aStart.SetCol(nStartCol); aNew.aStart.SetRow(nStartRow); aNew.aEnd.SetCol(nEndCol); aNew.aEnd.SetRow(nEndRow); ResetMark(); aMarkRange = aNew; bMarked = sal_True; bMarkIsNeg = sal_False; } } } sal_Bool ScMarkData::IsCellMarked( SCCOL nCol, SCROW nRow, sal_Bool bNoSimple ) const { if ( bMarked && !bNoSimple && !bMarkIsNeg ) if ( aMarkRange.aStart.Col() <= nCol && aMarkRange.aEnd.Col() >= nCol && aMarkRange.aStart.Row() <= nRow && aMarkRange.aEnd.Row() >= nRow ) return sal_True; if (bMultiMarked) { //! hier auf negative Markierung testen ? DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); return pMultiSel[nCol].GetMark( nRow ); } return sal_False; } sal_Bool ScMarkData::IsColumnMarked( SCCOL nCol ) const { // bMarkIsNeg inzwischen auch fuer Spaltenkoepfe //! GetMarkColumnRanges fuer komplett markierte Spalten if ( bMarked && !bMarkIsNeg && aMarkRange.aStart.Col() <= nCol && aMarkRange.aEnd.Col() >= nCol && aMarkRange.aStart.Row() == 0 && aMarkRange.aEnd.Row() == MAXROW ) return sal_True; if ( bMultiMarked && pMultiSel[nCol].IsAllMarked(0,MAXROW) ) return sal_True; return sal_False; } sal_Bool ScMarkData::IsRowMarked( SCROW nRow ) const { // bMarkIsNeg inzwischen auch fuer Zeilenkoepfe //! GetMarkRowRanges fuer komplett markierte Zeilen if ( bMarked && !bMarkIsNeg && aMarkRange.aStart.Col() == 0 && aMarkRange.aEnd.Col() == MAXCOL && aMarkRange.aStart.Row() <= nRow && aMarkRange.aEnd.Row() >= nRow ) return sal_True; if ( bMultiMarked ) { DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); for (SCCOL nCol=0; nCol<=MAXCOL; nCol++) if (!pMultiSel[nCol].GetMark(nRow)) return sal_False; return sal_True; } return sal_False; } void ScMarkData::MarkFromRangeList( const ScRangeList& rList, sal_Bool bReset ) { if (bReset) { for (SCTAB i=0; i<=MAXTAB; i++) bTabMarked[i] = sal_False; // Tabellen sind nicht in ResetMark ResetMark(); } sal_uLong nCount = rList.Count(); if ( nCount == 1 && !bMarked && !bMultiMarked ) { ScRange aRange = *rList.GetObject(0); SetMarkArea( aRange ); SelectTable( aRange.aStart.Tab(), sal_True ); } else { for (sal_uLong i=0; iRemoveAll(); //! bei mehreren selektierten Tabellen mehrere Ranges eintragen !!! if ( bMultiMarked ) { DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); SCTAB nTab = aMultiRange.aStart.Tab(); SCCOL nStartCol = aMultiRange.aStart.Col(); SCCOL nEndCol = aMultiRange.aEnd.Col(); for (SCCOL nCol=nStartCol; nCol<=nEndCol; nCol++) if (pMultiSel[nCol].HasMarks()) { SCROW nTop, nBottom; ScRange aRange( nCol, 0, nTab ); ScMarkArrayIter aMarkIter( &pMultiSel[nCol] ); while ( aMarkIter.Next( nTop, nBottom ) ) { aRange.aStart.SetRow( nTop ); aRange.aEnd.SetRow( nBottom ); pList->Join( aRange ); } } } if ( bMarked ) pList->Append( aMarkRange ); } void ScMarkData::ExtendRangeListTables( ScRangeList* pList ) const { if (!pList) return; ScRangeList aOldList(*pList); pList->RemoveAll(); //! oder die vorhandenen unten weglassen for (SCTAB nTab=0; nTab<=MAXTAB; nTab++) if (bTabMarked[nTab]) { sal_uLong nCount = aOldList.Count(); for (sal_uLong i=0; iAppend( aRange ); } } } SCCOLROW ScMarkData::GetMarkColumnRanges( SCCOLROW* pRanges ) { if (bMarked) MarkToMulti(); if (!bMultiMarked) return 0; DBG_ASSERT(pMultiSel, "bMultiMarked, but pMultiSel == 0"); const SCCOLROW nMultiStart = aMultiRange.aStart.Col(); const SCCOLROW nMultiEnd = aMultiRange.aEnd.Col(); if (nMultiStart == 0 && nMultiEnd == MAXCOL) { // One or more entire rows. pRanges[0] = 0; pRanges[1] = MAXCOL; return 1; } SCCOLROW nRangeCnt = 0; SCCOLROW nStart = nMultiStart; while (nStart <= nMultiEnd) { while (nStart < nMultiEnd && !pMultiSel[nStart].HasMarks()) ++nStart; if (pMultiSel[nStart].HasMarks()) { SCCOLROW nEnd = nStart; while (nEnd < nMultiEnd && pMultiSel[nEnd].HasMarks()) ++nEnd; if (!pMultiSel[nEnd].HasMarks()) --nEnd; pRanges[2*nRangeCnt ] = nStart; pRanges[2*nRangeCnt+1] = nEnd; ++nRangeCnt; nStart = nEnd+1; } else nStart = nMultiEnd+1; } return nRangeCnt; } SCCOLROW ScMarkData::GetMarkRowRanges( SCCOLROW* pRanges ) { if (bMarked) MarkToMulti(); if (!bMultiMarked) return 0; DBG_ASSERT(pMultiSel, "bMultiMarked, but pMultiSel == 0"); // Which rows are marked? // Optimized to not loop over MAXCOL*MAXROW as worst case, i.e. Ctrl+A const SCCOLROW nMultiStart = aMultiRange.aStart.Row(); const SCCOLROW nMultiEnd = aMultiRange.aEnd.Row(); sal_Bool* bRowMarked = new sal_Bool[MAXROWCOUNT]; memset( bRowMarked, 0, sizeof(sal_Bool) * MAXROWCOUNT); SCROW nRow; SCCOL nCol; SCROW nTop = -1, nBottom = -1; for (nCol = aMultiRange.aStart.Col(); nCol <= aMultiRange.aEnd.Col(); ++nCol) { ScMarkArrayIter aMarkIter( &pMultiSel[nCol] ); while (aMarkIter.Next( nTop, nBottom )) for (nRow=nTop; nRow<=nBottom; nRow++) bRowMarked[nRow] = sal_True; if (nTop == nMultiStart && nBottom == nMultiEnd) break; // for, all relevant rows marked } if (nTop == nMultiStart && nBottom == nMultiEnd) { pRanges[0] = nTop; pRanges[1] = nBottom; delete[] bRowMarked; return 1; } // Combine to ranges of rows. SCCOLROW nRangeCnt = 0; SCCOLROW nStart = nMultiStart; while (nStart <= nMultiEnd) { while (nStart < nMultiEnd && !bRowMarked[nStart]) ++nStart; if (bRowMarked[nStart]) { SCCOLROW nEnd = nStart; while (nEnd < nMultiEnd && bRowMarked[nEnd]) ++nEnd; if (!bRowMarked[nEnd]) --nEnd; pRanges[2*nRangeCnt ] = nStart; pRanges[2*nRangeCnt+1] = nEnd; ++nRangeCnt; nStart = nEnd+1; } else nStart = nMultiEnd+1; } delete[] bRowMarked; return nRangeCnt; } sal_Bool ScMarkData::IsAllMarked( const ScRange& rRange ) const { if ( !bMultiMarked ) return sal_False; DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); SCCOL nStartCol = rRange.aStart.Col(); SCROW nStartRow = rRange.aStart.Row(); SCCOL nEndCol = rRange.aEnd.Col(); SCROW nEndRow = rRange.aEnd.Row(); sal_Bool bOk = sal_True; for (SCCOL nCol=nStartCol; nCol<=nEndCol && bOk; nCol++) if ( !pMultiSel[nCol].IsAllMarked( nStartRow, nEndRow ) ) bOk = sal_False; return bOk; } SCsROW ScMarkData::GetNextMarked( SCCOL nCol, SCsROW nRow, sal_Bool bUp ) const { if ( !bMultiMarked ) return nRow; DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); return pMultiSel[nCol].GetNextMarked( nRow, bUp ); } sal_Bool ScMarkData::HasMultiMarks( SCCOL nCol ) const { if ( !bMultiMarked ) return sal_False; DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); return pMultiSel[nCol].HasMarks(); } sal_Bool ScMarkData::HasAnyMultiMarks() const { if ( !bMultiMarked ) return sal_False; DBG_ASSERT(pMultiSel, "bMultiMarked, aber pMultiSel == 0"); for (SCCOL nCol=0; nCol<=MAXCOL; nCol++) if ( pMultiSel[nCol].HasMarks() ) return sal_True; return sal_False; // nix } void ScMarkData::InsertTab( SCTAB nTab ) { for (SCTAB i=MAXTAB; i>nTab; i--) bTabMarked[i] = bTabMarked[i-1]; bTabMarked[nTab] = sal_False; } void ScMarkData::DeleteTab( SCTAB nTab ) { for (SCTAB i=nTab; i