xref: /trunk/main/sc/source/core/data/column3.cxx (revision 7a6646f1)

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 *
 * 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 <sfx2/objsh.hxx>
#include <svl/zforlist.hxx>
#include <svl/zformat.hxx>

#include "boost/tuple/tuple.hpp"
#include <boost/function.hpp>
#include "boost/lambda/bind.hpp"
#include "boost/bind.hpp"
#include "boost/lambda/lambda.hpp"
#include "scitems.hxx"
#include "column.hxx"
#include "cell.hxx"
#include "document.hxx"
#include "attarray.hxx"
#include "patattr.hxx"
#include "cellform.hxx"
#include "collect.hxx"
#include "formula/errorcodes.hxx"
#include "formula/token.hxx"
#include "brdcst.hxx"
#include "docoptio.hxx"			// GetStdPrecision fuer GetMaxNumberStringLen
#include "subtotal.hxx"
#include "markdata.hxx"
#include "detfunc.hxx"			// fuer Notizen bei DeleteRange
#include "postit.hxx"
#include "stringutil.hxx"
#include "dpglobal.hxx"
#include <dptablecache.hxx>
#include <com/sun/star/i18n/LocaleDataItem.hpp>
using ::com::sun::star::i18n::LocaleDataItem;
using ::rtl::OUString;
using ::rtl::OUStringBuffer;

// Err527 Workaround
extern const ScFormulaCell* pLastFormulaTreeTop;	// in cellform.cxx
using namespace formula;
// STATIC DATA -----------------------------------------------------------

sal_Bool ScColumn::bDoubleAlloc = sal_False;	// fuer Import: Groesse beim Allozieren verdoppeln


void ScColumn::Insert( SCROW nRow, ScBaseCell* pNewCell )
{
	sal_Bool bIsAppended = sal_False;
	if (pItems && nCount>0)
	{
		if (pItems[nCount-1].nRow < nRow)
		{
			Append(nRow, pNewCell );
			bIsAppended = sal_True;
		}
	}
	if ( !bIsAppended )
	{
		SCSIZE	nIndex;
		if (Search(nRow, nIndex))
		{
			ScBaseCell* pOldCell = pItems[nIndex].pCell;

            // move broadcaster and note to new cell, if not existing in new cell
            if (pOldCell->HasBroadcaster() && !pNewCell->HasBroadcaster())
                pNewCell->TakeBroadcaster( pOldCell->ReleaseBroadcaster() );
            if (pOldCell->HasNote() && !pNewCell->HasNote())
				pNewCell->TakeNote( pOldCell->ReleaseNote() );

            if ( pOldCell->GetCellType() == CELLTYPE_FORMULA && !pDocument->IsClipOrUndo() )
			{
				pOldCell->EndListeningTo( pDocument );
				// falls in EndListening NoteCell in gleicher Col zerstoert
				if ( nIndex >= nCount || pItems[nIndex].nRow != nRow )
					Search(nRow, nIndex);
			}
			pOldCell->Delete();
			pItems[nIndex].pCell = pNewCell;
		}
		else
		{
			if (nCount + 1 > nLimit)
			{
				if (bDoubleAlloc)
				{
					if (nLimit < COLUMN_DELTA)
						nLimit = COLUMN_DELTA;
					else
					{
						nLimit *= 2;
                        if ( nLimit > sal::static_int_cast<SCSIZE>(MAXROWCOUNT) )
							nLimit = MAXROWCOUNT;
					}
				}
				else
					nLimit += COLUMN_DELTA;

				ColEntry* pNewItems = new ColEntry[nLimit];
				if (pItems)
				{
					memmove( pNewItems, pItems, nCount * sizeof(ColEntry) );
					delete[] pItems;
				}
				pItems = pNewItems;
			}
			memmove( &pItems[nIndex + 1], &pItems[nIndex], (nCount - nIndex) * sizeof(ColEntry) );
			pItems[nIndex].pCell = pNewCell;
			pItems[nIndex].nRow  = nRow;
			++nCount;
		}
	}
	// Bei aus Clipboard sind hier noch falsche (alte) Referenzen!
	// Werden in CopyBlockFromClip per UpdateReference umgesetzt,
	// danach StartListeningFromClip und BroadcastFromClip gerufen.
	// Wird ins Clipboard/UndoDoc gestellt, wird kein Broadcast gebraucht.
	// Nach Import wird CalcAfterLoad gerufen, dort Listening.
	if ( !(pDocument->IsClipOrUndo() || pDocument->IsInsertingFromOtherDoc()) )
	{
		pNewCell->StartListeningTo( pDocument );
		CellType eCellType = pNewCell->GetCellType();
		// Notizzelle entsteht beim Laden nur durch StartListeningCell,
		// ausloesende Formelzelle muss sowieso dirty sein.
		if ( !(pDocument->IsCalcingAfterLoad() && eCellType == CELLTYPE_NOTE) )
		{
			if ( eCellType == CELLTYPE_FORMULA )
				((ScFormulaCell*)pNewCell)->SetDirty();
			else
				pDocument->Broadcast( ScHint( SC_HINT_DATACHANGED,
					ScAddress( nCol, nRow, nTab ), pNewCell ) );
		}
	}
}


void ScColumn::Insert( SCROW nRow, sal_uLong nNumberFormat, ScBaseCell* pCell )
{
	Insert(nRow, pCell);
	short eOldType = pDocument->GetFormatTable()->
						GetType( (sal_uLong)
							((SfxUInt32Item*)GetAttr( nRow, ATTR_VALUE_FORMAT ))->
								GetValue() );
	short eNewType = pDocument->GetFormatTable()->GetType(nNumberFormat);
	if (!pDocument->GetFormatTable()->IsCompatible(eOldType, eNewType))
		ApplyAttr( nRow, SfxUInt32Item( ATTR_VALUE_FORMAT, (sal_uInt32) nNumberFormat) );
}


void ScColumn::Append( SCROW nRow, ScBaseCell* pCell )
{
	if (nCount + 1 > nLimit)
	{
		if (bDoubleAlloc)
		{
			if (nLimit < COLUMN_DELTA)
				nLimit = COLUMN_DELTA;
			else
			{
				nLimit *= 2;
                if ( nLimit > sal::static_int_cast<SCSIZE>(MAXROWCOUNT) )
					nLimit = MAXROWCOUNT;
			}
		}
		else
			nLimit += COLUMN_DELTA;

		ColEntry* pNewItems = new ColEntry[nLimit];
		if (pItems)
		{
			memmove( pNewItems, pItems, nCount * sizeof(ColEntry) );
			delete[] pItems;
		}
		pItems = pNewItems;
	}
	pItems[nCount].pCell = pCell;
	pItems[nCount].nRow  = nRow;
	++nCount;
}


void ScColumn::Delete( SCROW nRow )
{
	SCSIZE	nIndex;

	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		ScNoteCell* pNoteCell = new ScNoteCell;
		pItems[nIndex].pCell = pNoteCell;		// Dummy fuer Interpret
		pDocument->Broadcast( ScHint( SC_HINT_DYING,
			ScAddress( nCol, nRow, nTab ), pCell ) );
        if ( SvtBroadcaster* pBC = pCell->ReleaseBroadcaster() )
		{
            pNoteCell->TakeBroadcaster( pBC );
		}
		else
		{
			delete pNoteCell;
			--nCount;
			memmove( &pItems[nIndex], &pItems[nIndex + 1], (nCount - nIndex) * sizeof(ColEntry) );
			pItems[nCount].nRow = 0;
			pItems[nCount].pCell = NULL;
			//	Soll man hier den Speicher freigeben (delta)? Wird dann langsamer!
		}
		pCell->EndListeningTo( pDocument );
		pCell->Delete();
	}
}


void ScColumn::DeleteAtIndex( SCSIZE nIndex )
{
	ScBaseCell* pCell = pItems[nIndex].pCell;
	ScNoteCell* pNoteCell = new ScNoteCell;
	pItems[nIndex].pCell = pNoteCell;		// Dummy fuer Interpret
	pDocument->Broadcast( ScHint( SC_HINT_DYING,
		ScAddress( nCol, pItems[nIndex].nRow, nTab ), pCell ) );
	delete pNoteCell;
	--nCount;
	memmove( &pItems[nIndex], &pItems[nIndex + 1], (nCount - nIndex) * sizeof(ColEntry) );
	pItems[nCount].nRow = 0;
	pItems[nCount].pCell = NULL;
	pCell->EndListeningTo( pDocument );
	pCell->Delete();
}


void ScColumn::FreeAll()
{
	if (pItems)
	{
		for (SCSIZE i = 0; i < nCount; i++)
			pItems[i].pCell->Delete();
		delete[] pItems;
		pItems = NULL;
	}
	nCount = 0;
	nLimit = 0;
}


void ScColumn::DeleteRow( SCROW nStartRow, SCSIZE nSize )
{
	pAttrArray->DeleteRow( nStartRow, nSize );

	if ( !pItems || !nCount )
		return ;

	SCSIZE nFirstIndex;
	Search( nStartRow, nFirstIndex );
	if ( nFirstIndex >= nCount )
		return ;

	sal_Bool bOldAutoCalc = pDocument->GetAutoCalc();
	pDocument->SetAutoCalc( sal_False );	// Mehrfachberechnungen vermeiden

	sal_Bool bFound=sal_False;
	SCROW nEndRow = nStartRow + nSize - 1;
    SCSIZE nStartIndex = 0;
    SCSIZE nEndIndex = 0;
	SCSIZE i;

	for ( i = nFirstIndex; i < nCount && pItems[i].nRow <= nEndRow; i++ )
	{
		if (!bFound)
		{
			nStartIndex = i;
			bFound = sal_True;
		}
		nEndIndex = i;

		ScBaseCell* pCell = pItems[i].pCell;
		SvtBroadcaster* pBC = pCell->GetBroadcaster();
		if (pBC)
		{
// gibt jetzt invalid reference, kein Aufruecken der direkten Referenzen
//			MoveListeners( *pBC, nRow+nSize );
            pCell->DeleteBroadcaster();
			//	in DeleteRange werden leere Broadcaster geloescht
		}
	}
	if (bFound)
	{
		DeleteRange( nStartIndex, nEndIndex, IDF_CONTENTS );
		Search( nStartRow, i );
		if ( i >= nCount )
		{
			pDocument->SetAutoCalc( bOldAutoCalc );
			return ;
		}
	}
	else
		i = nFirstIndex;

	ScAddress aAdr( nCol, 0, nTab );
    ScHint aHint( SC_HINT_DATACHANGED, aAdr, NULL );    // only areas (ScBaseCell* == NULL)
    ScAddress& rAddress = aHint.GetAddress();
    // for sparse occupation use single broadcasts, not ranges
    sal_Bool bSingleBroadcasts = (((pItems[nCount-1].nRow - pItems[i].nRow) /
                (nCount - i)) > 1);
    if ( bSingleBroadcasts )
    {
        SCROW nLastBroadcast = MAXROW+1;
        for ( ; i < nCount; i++ )
        {
            SCROW nOldRow = pItems[i].nRow;
            // #43940# Aenderung Quelle broadcasten
            rAddress.SetRow( nOldRow );
            pDocument->AreaBroadcast( aHint );
            SCROW nNewRow = (pItems[i].nRow -= nSize);
            // #43940# Aenderung Ziel broadcasten
            if ( nLastBroadcast != nNewRow )
            {   // direkt aufeinanderfolgende nicht doppelt broadcasten
                rAddress.SetRow( nNewRow );
                pDocument->AreaBroadcast( aHint );
            }
            nLastBroadcast = nOldRow;
            ScBaseCell* pCell = pItems[i].pCell;
            if ( pCell->GetCellType() == CELLTYPE_FORMULA )
                ((ScFormulaCell*)pCell)->aPos.SetRow( nNewRow );
        }
    }
    else
    {
        rAddress.SetRow( pItems[i].nRow );
        ScRange aRange( rAddress );
        aRange.aEnd.SetRow( pItems[nCount-1].nRow );
        for ( ; i < nCount; i++ )
        {
            SCROW nNewRow = (pItems[i].nRow -= nSize);
            ScBaseCell* pCell = pItems[i].pCell;
            if ( pCell->GetCellType() == CELLTYPE_FORMULA )
                ((ScFormulaCell*)pCell)->aPos.SetRow( nNewRow );
        }
        pDocument->AreaBroadcastInRange( aRange, aHint );
    }

	pDocument->SetAutoCalc( bOldAutoCalc );
}


void ScColumn::DeleteRange( SCSIZE nStartIndex, SCSIZE nEndIndex, sal_uInt16 nDelFlag )
{
    /*  If caller specifies to not remove the note caption objects, all cells
        have to forget the pointers to them. This is used e.g. while undoing a
        "paste cells" operation, which removes the caption objects later in
        drawing undo. */
    bool bDeleteNote = (nDelFlag & IDF_NOTE) != 0;
    bool bNoCaptions = (nDelFlag & IDF_NOCAPTIONS) != 0;
    if (bDeleteNote && bNoCaptions)
		for ( SCSIZE nIdx = nStartIndex; nIdx <= nEndIndex; ++nIdx )
			if ( ScPostIt* pNote = pItems[ nIdx ].pCell->GetNote() )
				pNote->ForgetCaption();

    // special simple mode if all contents are deleted and cells do not contain broadcasters
	bool bSimple = ((nDelFlag & IDF_CONTENTS) == IDF_CONTENTS);
	if (bSimple)
		for ( SCSIZE nIdx = nStartIndex; bSimple && (nIdx <= nEndIndex); ++nIdx )
			if (pItems[ nIdx ].pCell->GetBroadcaster())
				bSimple = false;

    ScHint aHint( SC_HINT_DYING, ScAddress( nCol, 0, nTab ), 0 );

    // cache all formula cells, they will be deleted at end of this function
	typedef ::std::vector< ScFormulaCell* > FormulaCellVector;
	FormulaCellVector aDelCells;
    aDelCells.reserve( nEndIndex - nStartIndex + 1 );

    // simple deletion of the cell objects
	if (bSimple)
	{
        // pNoteCell: dummy replacement for old cells, to prevent that interpreter uses old cell
		ScNoteCell* pNoteCell = new ScNoteCell;
		for ( SCSIZE nIdx = nStartIndex; nIdx <= nEndIndex; ++nIdx )
		{
			ScBaseCell* pOldCell = pItems[ nIdx ].pCell;
			if (pOldCell->GetCellType() == CELLTYPE_FORMULA)
            {
                // cache formula cell, will be deleted below
				aDelCells.push_back( static_cast< ScFormulaCell* >( pOldCell ) );
            }
			else
			{
				// interpret in broadcast must not use the old cell
				pItems[ nIdx ].pCell = pNoteCell;
                aHint.GetAddress().SetRow( pItems[ nIdx ].nRow );
                aHint.SetCell( pOldCell );
				pDocument->Broadcast( aHint );
				pOldCell->Delete();
			}
		}
		delete pNoteCell;
		memmove( &pItems[nStartIndex], &pItems[nEndIndex + 1], (nCount - nEndIndex - 1) * sizeof(ColEntry) );
		nCount -= nEndIndex-nStartIndex+1;
	}

    // else: delete some contents of the cells
	else
	{
		SCSIZE j = nStartIndex;
        for ( SCSIZE nIdx = nStartIndex; nIdx <= nEndIndex; ++nIdx )
		{
            // decide whether to delete the cell object according to passed flags
			bool bDelete = false;
			ScBaseCell* pOldCell = pItems[j].pCell;
			CellType eCellType = pOldCell->GetCellType();
			switch ( eCellType )
			{
				case CELLTYPE_VALUE:
                {
                    sal_uInt16 nValFlags = nDelFlag & (IDF_DATETIME|IDF_VALUE);
                    // delete values and dates?
					bDelete = nValFlags == (IDF_DATETIME|IDF_VALUE);
                    // if not, decide according to cell number format
					if( !bDelete && (nValFlags != 0) )
					{
						sal_uLong nIndex = (sal_uLong)((SfxUInt32Item*)GetAttr( pItems[j].nRow, ATTR_VALUE_FORMAT ))->GetValue();
						short nType = pDocument->GetFormatTable()->GetType(nIndex);
						bool bIsDate = (nType == NUMBERFORMAT_DATE) || (nType == NUMBERFORMAT_TIME) || (nType == NUMBERFORMAT_DATETIME);
                        bDelete = nValFlags == (bIsDate ? IDF_DATETIME : IDF_VALUE);
					}
                }
                break;

				case CELLTYPE_STRING:
				case CELLTYPE_EDIT:
                    bDelete = (nDelFlag & IDF_STRING) != 0;
                break;

				case CELLTYPE_FORMULA:
                    bDelete = (nDelFlag & IDF_FORMULA) != 0;
                break;

				case CELLTYPE_NOTE:
                    // do note delete note cell with broadcaster
					bDelete = bDeleteNote && !pOldCell->GetBroadcaster();
                break;

                default:;   // added to avoid warnings
			}

			if (bDelete)
			{
                // try to create a replacement note cell, if note or broadcaster exists
				ScNoteCell* pNoteCell = 0;
				if (eCellType != CELLTYPE_NOTE)
				{
                    // do not rescue note if it has to be deleted according to passed flags
					ScPostIt* pNote = bDeleteNote ? 0 : pOldCell->ReleaseNote();
                    // #i99844# do not release broadcaster from old cell, it still has to notify deleted content
                    SvtBroadcaster* pBC = pOldCell->GetBroadcaster();
                    if( pNote || pBC )
                        pNoteCell = new ScNoteCell( pNote, pBC );
				}

                // remove cell entry in cell item list
				SCROW nOldRow = pItems[j].nRow;
				if (pNoteCell)
				{
                    // replace old cell with the replacement note cell
					pItems[j].pCell = pNoteCell;
					++j;
				}
				else
				{
                    // remove the old cell from the cell item list
					--nCount;
					memmove( &pItems[j], &pItems[j + 1], (nCount - j) * sizeof(ColEntry) );
					pItems[nCount].nRow = 0;
					pItems[nCount].pCell = 0;
				}

                // cache formula cells (will be deleted later), delete cell of other type
				if (eCellType == CELLTYPE_FORMULA)
				{
					aDelCells.push_back( static_cast< ScFormulaCell* >( pOldCell ) );
				}
				else
				{
                    aHint.GetAddress().SetRow( nOldRow );
                    aHint.SetCell( pOldCell );
					pDocument->Broadcast( aHint );
                    // #i99844# after broadcasting, old cell has to forget the broadcaster (owned by pNoteCell)
                    pOldCell->ReleaseBroadcaster();
					pOldCell->Delete();
				}
			}
			else
			{
                // delete cell note
				if (bDeleteNote)
					pItems[j].pCell->DeleteNote();
                // cell not deleted, move index to next cell
				++j;
			}
		}
	}

    // *** delete all formula cells ***

	// first, all cells stop listening, may save unneeded recalcualtions
	for ( FormulaCellVector::iterator aIt = aDelCells.begin(), aEnd = aDelCells.end(); aIt != aEnd; ++aIt )
		(*aIt)->EndListeningTo( pDocument );

    // #i101869# if the note cell with the broadcaster was deleted in EndListening,
    // forget the pointer to the broadcaster
    for ( FormulaCellVector::iterator aIt = aDelCells.begin(), aEnd = aDelCells.end(); aIt != aEnd; ++aIt )
    {
        SCSIZE nIndex;
        if ( !Search( (*aIt)->aPos.Row(), nIndex ) )
            (*aIt)->ReleaseBroadcaster();
    }

    // broadcast SC_HINT_DYING for all cells and delete them
	for ( FormulaCellVector::iterator aIt = aDelCells.begin(), aEnd = aDelCells.end(); aIt != aEnd; ++aIt )
	{
        aHint.SetAddress( (*aIt)->aPos );
        aHint.SetCell( *aIt );
		pDocument->Broadcast( aHint );
        // #i99844# after broadcasting, old cell has to forget the broadcaster (owned by replacement note cell)
        (*aIt)->ReleaseBroadcaster();
		(*aIt)->Delete();
	}
}


void ScColumn::DeleteArea(SCROW nStartRow, SCROW nEndRow, sal_uInt16 nDelFlag)
{
	//	FreeAll darf hier nicht gerufen werden wegen Broadcastern

	//	Attribute erst am Ende, damit vorher noch zwischen Zahlen und Datum
	//	unterschieden werden kann (#47901#)

    sal_uInt16 nContMask = IDF_CONTENTS;
    //  IDF_NOCAPTIONS needs to be passed too, if IDF_NOTE is set
    if( nDelFlag & IDF_NOTE )
        nContMask |= IDF_NOCAPTIONS;
    sal_uInt16 nContFlag = nDelFlag & nContMask;

	if (pItems && nCount>0 && nContFlag)
	{
		if (nStartRow==0 && nEndRow==MAXROW)
            DeleteRange( 0, nCount-1, nContFlag );
		else
		{
			sal_Bool bFound=sal_False;
            SCSIZE nStartIndex = 0;
            SCSIZE nEndIndex = 0;
			for (SCSIZE i = 0; i < nCount; i++)
				if ((pItems[i].nRow >= nStartRow) && (pItems[i].nRow <= nEndRow))
				{
					if (!bFound)
					{
						nStartIndex = i;
						bFound = sal_True;
					}
					nEndIndex = i;
				}
			if (bFound)
                DeleteRange( nStartIndex, nEndIndex, nContFlag );
		}
	}

	if ( nDelFlag & IDF_EDITATTR )
	{
		DBG_ASSERT( nContFlag == 0, "DeleteArea: falsche Flags" );
		RemoveEditAttribs( nStartRow, nEndRow );
	}

	//	Attribute erst hier
	if ((nDelFlag & IDF_ATTRIB) == IDF_ATTRIB) pAttrArray->DeleteArea( nStartRow, nEndRow );
	else if ((nDelFlag & IDF_ATTRIB) != 0) pAttrArray->DeleteHardAttr( nStartRow, nEndRow );
}


ScFormulaCell* ScColumn::CreateRefCell( ScDocument* pDestDoc, const ScAddress& rDestPos,
											SCSIZE nIndex, sal_uInt16 nFlags ) const
{
	sal_uInt16 nContFlags = nFlags & IDF_CONTENTS;
	if (!nContFlags)
		return NULL;

	//	Testen, ob Zelle kopiert werden soll
	//	auch bei IDF_CONTENTS komplett, wegen Notes / Broadcastern

	sal_Bool bMatch = sal_False;
	ScBaseCell* pCell = pItems[nIndex].pCell;
	CellType eCellType = pCell->GetCellType();
	switch ( eCellType )
	{
		case CELLTYPE_VALUE:
			{
				sal_uInt16 nValFlags = nFlags & (IDF_DATETIME|IDF_VALUE);

				if ( nValFlags == (IDF_DATETIME|IDF_VALUE) )
					bMatch = sal_True;
				else if ( nValFlags )
				{
					sal_uLong nNumIndex = (sal_uLong)((SfxUInt32Item*)GetAttr(
									pItems[nIndex].nRow, ATTR_VALUE_FORMAT ))->GetValue();
					short nTyp = pDocument->GetFormatTable()->GetType(nNumIndex);
					if ((nTyp == NUMBERFORMAT_DATE) || (nTyp == NUMBERFORMAT_TIME) || (nTyp == NUMBERFORMAT_DATETIME))
						bMatch = ((nFlags & IDF_DATETIME) != 0);
					else
						bMatch = ((nFlags & IDF_VALUE) != 0);
				}
			}
			break;
		case CELLTYPE_STRING:
		case CELLTYPE_EDIT:		bMatch = ((nFlags & IDF_STRING) != 0); break;
		case CELLTYPE_FORMULA:	bMatch = ((nFlags & IDF_FORMULA) != 0); break;
        default:
        {
            // added to avoid warnings
        }
	}
	if (!bMatch)
		return NULL;


	//	Referenz einsetzen
	ScSingleRefData aRef;
	aRef.nCol = nCol;
	aRef.nRow = pItems[nIndex].nRow;
	aRef.nTab = nTab;
	aRef.InitFlags();							// -> alles absolut
	aRef.SetFlag3D(sal_True);

	//!	3D(sal_False) und TabRel(sal_True), wenn die endgueltige Position auf der selben Tabelle ist?
	//!	(bei TransposeClip ist die Zielposition noch nicht bekannt)

	aRef.CalcRelFromAbs( rDestPos );

	ScTokenArray aArr;
	aArr.AddSingleReference( aRef );

	return new ScFormulaCell( pDestDoc, rDestPos, &aArr );
}


//	rColumn = Quelle
//	nRow1, nRow2 = Zielposition

void ScColumn::CopyFromClip(SCROW nRow1, SCROW nRow2, long nDy,
								sal_uInt16 nInsFlag, sal_Bool bAsLink, sal_Bool bSkipAttrForEmpty,
								ScColumn& rColumn)
{
	if ((nInsFlag & IDF_ATTRIB) != 0)
	{
		if ( bSkipAttrForEmpty )
		{
			//	copy only attributes for non-empty cells
			//	(notes are not counted as non-empty here, to match the content behavior)

			SCSIZE nStartIndex;
			rColumn.Search( nRow1-nDy, nStartIndex );
			while ( nStartIndex < rColumn.nCount && rColumn.pItems[nStartIndex].nRow <= nRow2-nDy )
			{
				SCSIZE nEndIndex = nStartIndex;
				if ( rColumn.pItems[nStartIndex].pCell->GetCellType() != CELLTYPE_NOTE )
				{
					SCROW nStartRow = rColumn.pItems[nStartIndex].nRow;
					SCROW nEndRow = nStartRow;

					//	find consecutive non-empty cells

					while ( nEndRow < nRow2-nDy &&
							nEndIndex+1 < rColumn.nCount &&
							rColumn.pItems[nEndIndex+1].nRow == nEndRow+1 &&
							rColumn.pItems[nEndIndex+1].pCell->GetCellType() != CELLTYPE_NOTE )
					{
						++nEndIndex;
						++nEndRow;
					}

					rColumn.pAttrArray->CopyAreaSafe( nStartRow+nDy, nEndRow+nDy, nDy, *pAttrArray );
				}
				nStartIndex = nEndIndex + 1;
			}
		}
		else
			rColumn.pAttrArray->CopyAreaSafe( nRow1, nRow2, nDy, *pAttrArray );
	}
    if ((nInsFlag & IDF_CONTENTS) == 0)
		return;

	if ( bAsLink && nInsFlag == IDF_ALL )
	{
		//	bei "alles" werden auch leere Zellen referenziert
		//!	IDF_ALL muss immer mehr Flags enthalten, als bei "Inhalte Einfuegen"
		//!	einzeln ausgewaehlt werden koennen!

		Resize( nCount + static_cast<SCSIZE>(nRow2-nRow1+1) );

		ScAddress aDestPos( nCol, 0, nTab );		// Row wird angepasst

		//	Referenz erzeugen (Quell-Position)
		ScSingleRefData aRef;
		aRef.nCol = rColumn.nCol;
		//	nRow wird angepasst
		aRef.nTab = rColumn.nTab;
		aRef.InitFlags();							// -> alles absolut
		aRef.SetFlag3D(sal_True);

		for (SCROW nDestRow = nRow1; nDestRow <= nRow2; nDestRow++)
		{
			aRef.nRow = nDestRow - nDy;				// Quell-Zeile
			aDestPos.SetRow( nDestRow );

			aRef.CalcRelFromAbs( aDestPos );
			ScTokenArray aArr;
			aArr.AddSingleReference( aRef );
			Insert( nDestRow, new ScFormulaCell( pDocument, aDestPos, &aArr ) );
		}

		return;
	}

	SCSIZE nColCount = rColumn.nCount;

    // ignore IDF_FORMULA - "all contents but no formulas" results in the same number of cells
	if ((nInsFlag & ( IDF_CONTENTS & ~IDF_FORMULA )) == ( IDF_CONTENTS & ~IDF_FORMULA ) && nRow2-nRow1 >= 64)
	{
        //! Always do the Resize from the outside, where the number of repetitions is known
        //! (then it can be removed here)

		SCSIZE nNew = nCount + nColCount;
		if ( nLimit < nNew )
			Resize( nNew );
	}

    // IDF_ADDNOTES must be passed without other content flags than IDF_NOTE
    bool bAddNotes = (nInsFlag & (IDF_CONTENTS | IDF_ADDNOTES)) == (IDF_NOTE | IDF_ADDNOTES);

	sal_Bool bAtEnd = sal_False;
	for (SCSIZE i = 0; i < nColCount && !bAtEnd; i++)
	{
		SCsROW nDestRow = rColumn.pItems[i].nRow + nDy;
		if ( nDestRow > (SCsROW) nRow2 )
			bAtEnd = sal_True;
		else if ( nDestRow >= (SCsROW) nRow1 )
		{
			//	rows at the beginning may be skipped if filtered rows are left out,
			//	nDestRow may be negative then

            ScAddress aDestPos( nCol, (SCROW)nDestRow, nTab );

            /*  #i102056# Paste from clipboard needs to paste the cell notes in
                a second pass. This must not overwrite the existing cells
                already copied to the destination position in the first pass.
                To indicate this special case, the modifier IDF_ADDNOTES is
                passed together with IDF_NOTE in nInsFlag. Of course, there is
                still the need to create a new cell, if there is no cell at the
                destination position at all. */
            ScBaseCell* pAddNoteCell = bAddNotes ? GetCell( aDestPos.Row() ) : 0;
            if (pAddNoteCell)
            {
                // do nothing if source cell does not contain a note
                const ScBaseCell* pSourceCell = rColumn.pItems[i].pCell;
                const ScPostIt* pSourceNote = pSourceCell ? pSourceCell->GetNote() : 0;
                if (pSourceNote)
                {
                    DBG_ASSERT( !pAddNoteCell->HasNote(), "ScColumn::CopyFromClip - unexpected note at destination cell" );
                    bool bCloneCaption = (nInsFlag & IDF_NOCAPTIONS) == 0;
                    // #i52342# if caption is cloned, the note must be constructed with the destination document
                    ScAddress aSourcePos( rColumn.nCol, rColumn.pItems[i].nRow, rColumn.nTab );
                    ScPostIt* pNewNote = pSourceNote->Clone( aSourcePos, *pDocument, aDestPos, bCloneCaption );
                    pAddNoteCell->TakeNote( pNewNote );
                }
            }
            else
            {
                ScBaseCell* pNewCell = bAsLink ?
                    rColumn.CreateRefCell( pDocument, aDestPos, i, nInsFlag ) :
                    rColumn.CloneCell( i, nInsFlag, *pDocument, aDestPos );
                if (pNewCell)
                    Insert( aDestPos.Row(), pNewCell );
            }
		}
	}
}


namespace {

/** Helper for ScColumn::CloneCell - decides whether to clone a value cell depending on clone flags and number format. */
bool lclCanCloneValue( ScDocument& rDoc, const ScColumn& rCol, SCROW nRow, bool bCloneValue, bool bCloneDateTime )
{
    // values and dates, or nothing to be cloned -> not needed to check number format
    if( bCloneValue == bCloneDateTime )
        return bCloneValue;

    // check number format of value cell
    sal_uLong nNumIndex = (sal_uLong)((SfxUInt32Item*)rCol.GetAttr( nRow, ATTR_VALUE_FORMAT ))->GetValue();
    short nTyp = rDoc.GetFormatTable()->GetType( nNumIndex );
    bool bIsDateTime = (nTyp == NUMBERFORMAT_DATE) || (nTyp == NUMBERFORMAT_TIME) || (nTyp == NUMBERFORMAT_DATETIME);
    return bIsDateTime ? bCloneDateTime : bCloneValue;
}

} // namespace


ScBaseCell* ScColumn::CloneCell(SCSIZE nIndex, sal_uInt16 nFlags, ScDocument& rDestDoc, const ScAddress& rDestPos)
{
    bool bCloneValue    = (nFlags & IDF_VALUE) != 0;
    bool bCloneDateTime = (nFlags & IDF_DATETIME) != 0;
    bool bCloneString   = (nFlags & IDF_STRING) != 0;
    bool bCloneFormula  = (nFlags & IDF_FORMULA) != 0;
    bool bCloneNote     = (nFlags & IDF_NOTE) != 0;

    ScBaseCell* pNew = 0;
    ScBaseCell& rSource = *pItems[nIndex].pCell;
    switch (rSource.GetCellType())
	{
		case CELLTYPE_NOTE:
            // note will be cloned below
        break;

        case CELLTYPE_STRING:
		case CELLTYPE_EDIT:
            // note will be cloned below
            if (bCloneString)
                pNew = rSource.CloneWithoutNote( rDestDoc, rDestPos );
        break;

		case CELLTYPE_VALUE:
            // note will be cloned below
            if (lclCanCloneValue( *pDocument, *this, pItems[nIndex].nRow, bCloneValue, bCloneDateTime ))
                pNew = rSource.CloneWithoutNote( rDestDoc, rDestPos );
        break;

		case CELLTYPE_FORMULA:
            if (bCloneFormula)
            {
                // note will be cloned below
                pNew = rSource.CloneWithoutNote( rDestDoc, rDestPos );
            }
            else if ( (bCloneValue || bCloneDateTime || bCloneString) && !rDestDoc.IsUndo() )
            {
                //  #48491# ins Undo-Dokument immer nur die Original-Zelle kopieren,
                //  aus Formeln keine Value/String-Zellen erzeugen
                ScFormulaCell& rForm = (ScFormulaCell&)rSource;
                sal_uInt16 nErr = rForm.GetErrCode();
                if ( nErr )
                {
                    // error codes are cloned with values
                    if (bCloneValue)
                    {
                        ScFormulaCell* pErrCell = new ScFormulaCell( &rDestDoc, rDestPos );
                        pErrCell->SetErrCode( nErr );
                        pNew = pErrCell;
                    }
                }
                else if (rForm.IsValue())
                {
                    if (lclCanCloneValue( *pDocument, *this, pItems[nIndex].nRow, bCloneValue, bCloneDateTime ))
                    {
                        double nVal = rForm.GetValue();
                        pNew = new ScValueCell(nVal);
                    }
                }
                else if (bCloneString)
                {
                    String aString;
                    rForm.GetString( aString );
                    // #33224# do not clone empty string
                    if (aString.Len() > 0)
                    {
                        if ( rForm.IsMultilineResult() )
                        {
                            pNew = new ScEditCell( aString, &rDestDoc );
                        }
                        else
                        {
                            pNew = new ScStringCell( aString );
                        }
                    }
                }
            }
        break;

        default: DBG_ERRORFILE( "ScColumn::CloneCell - unknown cell type" );
	}

    // clone the cell note
    if (bCloneNote)
    {
        if (ScPostIt* pNote = rSource.GetNote())
        {
            bool bCloneCaption = (nFlags & IDF_NOCAPTIONS) == 0;
            // #i52342# if caption is cloned, the note must be constructed with the destination document
            ScAddress aOwnPos( nCol, pItems[nIndex].nRow, nTab );
            ScPostIt* pNewNote = pNote->Clone( aOwnPos, rDestDoc, rDestPos, bCloneCaption );
            if (!pNew)
                pNew = new ScNoteCell( pNewNote );
            else
                pNew->TakeNote( pNewNote );
        }
    }

	return pNew;
}


void ScColumn::MixMarked( const ScMarkData& rMark, sal_uInt16 nFunction,
							sal_Bool bSkipEmpty, ScColumn& rSrcCol )
{
	SCROW nRow1, nRow2;

	if (rMark.IsMultiMarked())
	{
		ScMarkArrayIter aIter( rMark.GetArray()+nCol );
		while (aIter.Next( nRow1, nRow2 ))
			MixData( nRow1, nRow2, nFunction, bSkipEmpty, rSrcCol );
	}
}


//	Ergebnis in rVal1

sal_Bool lcl_DoFunction( double& rVal1, double nVal2, sal_uInt16 nFunction )
{
	sal_Bool bOk = sal_False;
	switch (nFunction)
	{
		case PASTE_ADD:
			bOk = SubTotal::SafePlus( rVal1, nVal2 );
			break;
		case PASTE_SUB:
			nVal2 = -nVal2;		//! geht das immer ohne Fehler?
			bOk = SubTotal::SafePlus( rVal1, nVal2 );
			break;
		case PASTE_MUL:
			bOk = SubTotal::SafeMult( rVal1, nVal2 );
			break;
		case PASTE_DIV:
			bOk = SubTotal::SafeDiv( rVal1, nVal2 );
			break;
	}
	return bOk;
}


void lcl_AddCode( ScTokenArray& rArr, ScFormulaCell* pCell )
{
	rArr.AddOpCode(ocOpen);

	ScTokenArray* pCode = pCell->GetCode();
	if (pCode)
	{
        const formula::FormulaToken* pToken = pCode->First();
		while (pToken)
		{
			rArr.AddToken( *pToken );
			pToken = pCode->Next();
		}
	}

	rArr.AddOpCode(ocClose);
}


void ScColumn::MixData( SCROW nRow1, SCROW nRow2,
							sal_uInt16 nFunction, sal_Bool bSkipEmpty,
							ScColumn& rSrcCol )
{
	SCSIZE nSrcCount = rSrcCol.nCount;

	SCSIZE nIndex;
	Search( nRow1, nIndex );

//	SCSIZE nSrcIndex = 0;
	SCSIZE nSrcIndex;
	rSrcCol.Search( nRow1, nSrcIndex );			//! Testen, ob Daten ganz vorne

	SCROW nNextThis = MAXROW+1;
	if ( nIndex < nCount )
		nNextThis = pItems[nIndex].nRow;
	SCROW nNextSrc = MAXROW+1;
	if ( nSrcIndex < nSrcCount )
		nNextSrc = rSrcCol.pItems[nSrcIndex].nRow;

	while ( nNextThis <= nRow2 || nNextSrc <= nRow2 )
	{
		SCROW nRow = Min( nNextThis, nNextSrc );

		ScBaseCell* pSrc = NULL;
		ScBaseCell* pDest = NULL;
		ScBaseCell* pNew = NULL;
		sal_Bool bDelete = sal_False;

		if ( nSrcIndex < nSrcCount && nNextSrc == nRow )
			pSrc = rSrcCol.pItems[nSrcIndex].pCell;

		if ( nIndex < nCount && nNextThis == nRow )
			pDest = pItems[nIndex].pCell;

        DBG_ASSERT( pSrc || pDest, "Nanu ?" );

		CellType eSrcType  = pSrc  ? pSrc->GetCellType()  : CELLTYPE_NONE;
		CellType eDestType = pDest ? pDest->GetCellType() : CELLTYPE_NONE;

		sal_Bool bSrcEmpty = ( eSrcType == CELLTYPE_NONE || eSrcType == CELLTYPE_NOTE );
		sal_Bool bDestEmpty = ( eDestType == CELLTYPE_NONE || eDestType == CELLTYPE_NOTE );

		if ( bSkipEmpty && bDestEmpty )		// Originalzelle wiederherstellen
		{
			if ( pSrc )						// war da eine Zelle?
			{
                pNew = pSrc->CloneWithoutNote( *pDocument );
			}
		}
		else if ( nFunction )				// wirklich Rechenfunktion angegeben
		{
			double nVal1;
			double nVal2;
			if ( eSrcType == CELLTYPE_VALUE )
				nVal1 = ((ScValueCell*)pSrc)->GetValue();
			else
				nVal1 = 0.0;
			if ( eDestType == CELLTYPE_VALUE )
				nVal2 = ((ScValueCell*)pDest)->GetValue();
			else
				nVal2 = 0.0;

			//	leere Zellen werden als Werte behandelt

			sal_Bool bSrcVal  = ( bSrcEmpty || eSrcType == CELLTYPE_VALUE );
			sal_Bool bDestVal  = ( bDestEmpty || eDestType == CELLTYPE_VALUE );

			sal_Bool bSrcText = ( eSrcType == CELLTYPE_STRING ||
								eSrcType == CELLTYPE_EDIT );
			sal_Bool bDestText = ( eDestType == CELLTYPE_STRING ||
								eDestType == CELLTYPE_EDIT );

			//	sonst bleibt nur Formel...

			if ( bSrcEmpty && bDestEmpty )
			{
				//	beide leer -> nix
			}
			else if ( bSrcVal && bDestVal )
			{
				//	neuen Wert eintragen, oder Fehler bei Ueberlauf

				sal_Bool bOk = lcl_DoFunction( nVal1, nVal2, nFunction );

				if (bOk)
					pNew = new ScValueCell( nVal1 );
				else
				{
					ScFormulaCell* pFC = new ScFormulaCell( pDocument,
												ScAddress( nCol, nRow, nTab ) );
					pFC->SetErrCode( errNoValue );
					//!	oder NOVALUE, dann auch in consoli,
					//!	sonst in Interpreter::GetCellValue die Abfrage auf errNoValue raus
					//!	(dann geht Stringzelle+Wertzelle nicht mehr)
					pNew = pFC;
				}
			}
			else if ( bSrcText || bDestText )
			{
				//	mit Texten wird nicht gerechnet - immer "alte" Zelle, also pSrc

				if (pSrc)
                    pNew = pSrc->CloneWithoutNote( *pDocument );
				else if (pDest)
					bDelete = sal_True;
			}
			else
			{
				//	Kombination aus Wert und mindestens einer Formel -> Formel erzeugen

				ScTokenArray aArr;

				//	erste Zelle
				if ( eSrcType == CELLTYPE_FORMULA )
					lcl_AddCode( aArr, (ScFormulaCell*)pSrc );
				else
					aArr.AddDouble( nVal1 );

				//	Operator
				OpCode eOp = ocAdd;
				switch ( nFunction )
				{
					case PASTE_ADD:	eOp = ocAdd; break;
					case PASTE_SUB:	eOp = ocSub; break;
					case PASTE_MUL:	eOp = ocMul; break;
					case PASTE_DIV:	eOp = ocDiv; break;
				}
				aArr.AddOpCode(eOp);				// Funktion

				//	zweite Zelle
				if ( eDestType == CELLTYPE_FORMULA )
					lcl_AddCode( aArr, (ScFormulaCell*)pDest );
				else
					aArr.AddDouble( nVal2 );

				pNew = new ScFormulaCell( pDocument, ScAddress( nCol, nRow, nTab ), &aArr );
			}
		}


		if ( pNew || bDelete )			// neues Ergebnis ?
		{
			if (pDest && !pNew)						// alte Zelle da ?
			{
				if ( pDest->GetBroadcaster() )
					pNew = new ScNoteCell;			// Broadcaster uebernehmen
				else
					Delete(nRow);					// -> loeschen
			}
			if (pNew)
				Insert(nRow, pNew);		// neue einfuegen

			Search( nRow, nIndex );		// alles kann sich verschoben haben
			if (pNew)
				nNextThis = nRow;		// nIndex zeigt jetzt genau auf nRow
			else
				nNextThis = ( nIndex < nCount ) ? pItems[nIndex].nRow : MAXROW+1;
		}

		if ( nNextThis == nRow )
		{
			++nIndex;
			nNextThis = ( nIndex < nCount ) ? pItems[nIndex].nRow : MAXROW+1;
		}
		if ( nNextSrc == nRow )
		{
			++nSrcIndex;
			nNextSrc = ( nSrcIndex < nSrcCount ) ?
							rSrcCol.pItems[nSrcIndex].nRow :
							MAXROW+1;
		}
	}
}


ScAttrIterator* ScColumn::CreateAttrIterator( SCROW nStartRow, SCROW nEndRow ) const
{
	return new ScAttrIterator( pAttrArray, nStartRow, nEndRow );
}


void ScColumn::StartAllListeners()
{
	if (pItems)
		for (SCSIZE i = 0; i < nCount; i++)
		{
			ScBaseCell* pCell = pItems[i].pCell;
			if ( pCell->GetCellType() == CELLTYPE_FORMULA )
			{
				SCROW nRow = pItems[i].nRow;
				((ScFormulaCell*)pCell)->StartListeningTo( pDocument );
				if ( nRow != pItems[i].nRow )
					Search( nRow, i );		// Listener eingefuegt?
			}
		}
}


void ScColumn::StartNeededListeners()
{
	if (pItems)
    {
		for (SCSIZE i = 0; i < nCount; i++)
		{
			ScBaseCell* pCell = pItems[i].pCell;
			if ( pCell->GetCellType() == CELLTYPE_FORMULA )
			{
                ScFormulaCell* pFCell = static_cast<ScFormulaCell*>(pCell);
                if (pFCell->NeedsListening())
                {
                    SCROW nRow = pItems[i].nRow;
                    pFCell->StartListeningTo( pDocument );
                    if ( nRow != pItems[i].nRow )
                        Search( nRow, i );		// Listener eingefuegt?
                }
			}
		}
    }
}


void ScColumn::BroadcastInArea( SCROW nRow1, SCROW nRow2 )
{
	if ( pItems )
	{
        SCROW nRow;
        SCSIZE nIndex;
		Search( nRow1, nIndex );
		while ( nIndex < nCount && (nRow = pItems[nIndex].nRow) <= nRow2 )
		{
			ScBaseCell* pCell = pItems[nIndex].pCell;
			if ( pCell->GetCellType() == CELLTYPE_FORMULA )
				((ScFormulaCell*)pCell)->SetDirty();
			else
				pDocument->Broadcast( ScHint( SC_HINT_DATACHANGED,
					ScAddress( nCol, nRow, nTab ), pCell ) );
			nIndex++;
		}
	}
}


void ScColumn::StartListeningInArea( SCROW nRow1, SCROW nRow2 )
{
	if ( pItems )
	{
        SCROW nRow;
        SCSIZE nIndex;
		Search( nRow1, nIndex );
		while ( nIndex < nCount && (nRow = pItems[nIndex].nRow) <= nRow2 )
		{
			ScBaseCell* pCell = pItems[nIndex].pCell;
			if ( pCell->GetCellType() == CELLTYPE_FORMULA )
				((ScFormulaCell*)pCell)->StartListeningTo( pDocument );
			if ( nRow != pItems[nIndex].nRow )
				Search( nRow, nIndex );		// durch Listening eingefuegt
			nIndex++;
		}
	}
}


//	sal_True = Zahlformat gesetzt
sal_Bool ScColumn::SetString( SCROW nRow, SCTAB nTabP, const String& rString,
                          formula::FormulaGrammar::AddressConvention eConv,
                          SvNumberFormatter* pLangFormatter, bool bDetectNumberFormat )
{
	sal_Bool bNumFmtSet = sal_False;
	if (VALIDROW(nRow))
	{
		ScBaseCell* pNewCell = NULL;
		sal_Bool bIsLoading = sal_False;
		if (rString.Len() > 0)
		{
			double nVal;
            sal_uInt32 nIndex, nOldIndex = 0;
			sal_Unicode cFirstChar;
            // #i110979# If a different NumberFormatter is passed in (pLangFormatter),
            // its formats aren't valid in the document.
            // Only use the language / LocaleDataWrapper from pLangFormatter,
            // always the document's number formatter for IsNumberFormat.
            SvNumberFormatter* pFormatter = pDocument->GetFormatTable();
			SfxObjectShell* pDocSh = pDocument->GetDocumentShell();
			if ( pDocSh )
				bIsLoading = pDocSh->IsLoading();
			// IsLoading bei ConvertFrom Import
			if ( !bIsLoading )
			{
				nIndex = nOldIndex = GetNumberFormat( nRow );
				if ( rString.Len() > 1
						&& pFormatter->GetType(nIndex) != NUMBERFORMAT_TEXT )
					cFirstChar = rString.GetChar(0);
				else
					cFirstChar = 0;								// Text
			}
			else
			{	// waehrend ConvertFrom Import gibt es keine gesetzten Formate
				cFirstChar = rString.GetChar(0);
			}

			if ( cFirstChar == '=' )
			{
				if ( rString.Len() == 1 )						// = Text
					pNewCell = new ScStringCell( rString );
				else											// =Formel
					pNewCell = new ScFormulaCell( pDocument,
                        ScAddress( nCol, nRow, nTabP ), rString,
                        formula::FormulaGrammar::mergeToGrammar( formula::FormulaGrammar::GRAM_DEFAULT,
                            eConv), MM_NONE );
			}
			else if ( cFirstChar == '\'')						// 'Text
				pNewCell = new ScStringCell( rString.Copy(1) );
			else
			{
				sal_Bool bIsText = sal_False;
				if ( bIsLoading )
				{
					if ( pItems && nCount )
					{
						String aStr;
						SCSIZE i = nCount;
						SCSIZE nStop = (i >= 3 ? i - 3 : 0);
						// die letzten Zellen vergleichen, ob gleicher String
						// und IsNumberFormat eingespart werden kann
						do
						{
							i--;
							ScBaseCell* pCell = pItems[i].pCell;
							switch ( pCell->GetCellType() )
							{
								case CELLTYPE_STRING :
									((ScStringCell*)pCell)->GetString( aStr );
									if ( rString == aStr )
										bIsText = sal_True;
								break;
								case CELLTYPE_NOTE :	// durch =Formel referenziert
								break;
								default:
									if ( i == nCount - 1 )
										i = 0;
										// wahrscheinlich ganze Spalte kein String
							}
						} while ( i && i > nStop && !bIsText );
					}
					// nIndex fuer IsNumberFormat vorbelegen
					if ( !bIsText )
						nIndex = nOldIndex = pFormatter->GetStandardIndex();
				}

                do
                {
                    if (bIsText)
                        break;

                    if (bDetectNumberFormat)
                    {
                        if ( pLangFormatter )
                        {
                            // for number detection: valid format index for selected language
                            nIndex = pFormatter->GetStandardIndex( pLangFormatter->GetLanguage() );
                        }

                        if (!pFormatter->IsNumberFormat(rString, nIndex, nVal))
                            break;

                        if ( pLangFormatter )
                        {
                            // convert back to the original language if a built-in format was detected
                            const SvNumberformat* pOldFormat = pFormatter->GetEntry( nOldIndex );
                            if ( pOldFormat )
                                nIndex = pFormatter->GetFormatForLanguageIfBuiltIn( nIndex, pOldFormat->GetLanguage() );
                        }

                        pNewCell = new ScValueCell( nVal );
                        if ( nIndex != nOldIndex)
                        {
                            // #i22345# New behavior: Apply the detected number format only if
                            // the old one was the default number, date, time or boolean format.
                            // Exception: If the new format is boolean, always apply it.

                            sal_Bool bOverwrite = sal_False;
                            const SvNumberformat* pOldFormat = pFormatter->GetEntry( nOldIndex );
                            if ( pOldFormat )
                            {
                                short nOldType = pOldFormat->GetType() & ~NUMBERFORMAT_DEFINED;
                                if ( nOldType == NUMBERFORMAT_NUMBER || nOldType == NUMBERFORMAT_DATE ||
                                     nOldType == NUMBERFORMAT_TIME || nOldType == NUMBERFORMAT_LOGICAL )
                                {
                                    if ( nOldIndex == pFormatter->GetStandardFormat(
                                                        nOldType, pOldFormat->GetLanguage() ) )
                                    {
                                        bOverwrite = sal_True;      // default of these types can be overwritten
                                    }
                                }
                            }
                            if ( !bOverwrite && pFormatter->GetType( nIndex ) == NUMBERFORMAT_LOGICAL )
                            {
                                bOverwrite = sal_True;              // overwrite anything if boolean was detected
                            }

                            if ( bOverwrite )
                            {
                                ApplyAttr( nRow, SfxUInt32Item( ATTR_VALUE_FORMAT,
                                    (sal_uInt32) nIndex) );
                                bNumFmtSet = sal_True;
                            }
                        }
                    }
                    else
                    {
                        // Only check if the string is a regular number.
                        SvNumberFormatter* pLocaleSource = pLangFormatter ? pLangFormatter : pFormatter;
                        const LocaleDataWrapper* pLocale = pLocaleSource->GetLocaleData();
                        if (!pLocale)
                            break;

                        LocaleDataItem aLocaleItem = pLocale->getLocaleItem();
                        const OUString& rDecSep = aLocaleItem.decimalSeparator;
                        const OUString& rGroupSep = aLocaleItem.thousandSeparator;
                        if (rDecSep.getLength() != 1 || rGroupSep.getLength() != 1)
                            break;

                        sal_Unicode dsep = rDecSep.getStr()[0];
                        sal_Unicode gsep = rGroupSep.getStr()[0];

                        if (!ScStringUtil::parseSimpleNumber(rString, dsep, gsep, nVal))
                            break;

                        pNewCell = new ScValueCell(nVal);
                    }
                }
                while (false);

                if (!pNewCell)
                    pNewCell = new ScStringCell(rString);
            }
        }

		if ( bIsLoading && (!nCount || nRow > pItems[nCount-1].nRow) )
		{	// Search einsparen und ohne Umweg ueber Insert, Listener aufbauen
			// und Broadcast kommt eh erst nach dem Laden
			if ( pNewCell )
				Append( nRow, pNewCell );
		}
		else
		{
			SCSIZE i;
			if (Search(nRow, i))
			{
				ScBaseCell* pOldCell = pItems[i].pCell;
				ScPostIt* pNote = pOldCell->ReleaseNote();
                SvtBroadcaster* pBC = pOldCell->ReleaseBroadcaster();
				if (pNewCell || pNote || pBC)
				{
					if (pNewCell)
                        pNewCell->TakeNote( pNote );
                    else
						pNewCell = new ScNoteCell( pNote );
					if (pBC)
					{
                        pNewCell->TakeBroadcaster(pBC);
						pLastFormulaTreeTop = 0;	// Err527 Workaround
					}

					if ( pOldCell->GetCellType() == CELLTYPE_FORMULA )
					{
						pOldCell->EndListeningTo( pDocument );
						// falls in EndListening NoteCell in gleicher Col zerstoert
						if ( i >= nCount || pItems[i].nRow != nRow )
							Search(nRow, i);
					}
					pOldCell->Delete();
					pItems[i].pCell = pNewCell;			// ersetzen
					if ( pNewCell->GetCellType() == CELLTYPE_FORMULA )
					{
						pNewCell->StartListeningTo( pDocument );
						((ScFormulaCell*)pNewCell)->SetDirty();
					}
					else
						pDocument->Broadcast( ScHint( SC_HINT_DATACHANGED,
                            ScAddress( nCol, nRow, nTabP ), pNewCell ) );
				}
				else
				{
					DeleteAtIndex(i);					// loeschen und Broadcast
				}
			}
			else if (pNewCell)
			{
				Insert(nRow, pNewCell);					// neu eintragen und Broadcast
			}
		}

		//	hier keine Formate mehr fuer Formeln setzen!
		//	(werden bei der Ausgabe abgefragt)

	}
	return bNumFmtSet;
}


void ScColumn::GetFilterEntries(SCROW nStartRow, SCROW nEndRow, TypedScStrCollection& rStrings, bool& rHasDates)
{
    bool bHasDates = false;
	SvNumberFormatter* pFormatter = pDocument->GetFormatTable();
	String aString;
    SCROW nRow = 0;
	SCSIZE nIndex;

	Search( nStartRow, nIndex );

	while ( (nIndex < nCount) ? ((nRow=pItems[nIndex].nRow) <= nEndRow) : sal_False )
	{
		ScBaseCell*			 pCell	  = pItems[nIndex].pCell;
		TypedStrData*		 pData;
		sal_uLong				 nFormat  = GetNumberFormat( nRow );

		ScCellFormat::GetInputString( pCell, nFormat, aString, *pFormatter );

		if ( pDocument->HasStringData( nCol, nRow, nTab ) )
			pData = new TypedStrData( aString );
		else
		{
			double nValue;

			switch ( pCell->GetCellType() )
			{
				case CELLTYPE_VALUE:
					nValue = ((ScValueCell*)pCell)->GetValue();
					break;

				case CELLTYPE_FORMULA:
					nValue = ((ScFormulaCell*)pCell)->GetValue();
					break;

				default:
					nValue = 0.0;
			}

            if (pFormatter)
            {
                short nType = pFormatter->GetType(nFormat);
                if ((nType & NUMBERFORMAT_DATE) && !(nType & NUMBERFORMAT_TIME))
                {
                    // special case for date values.  Disregard the time
                    // element if the number format is of date type.
                    nValue = ::rtl::math::approxFloor(nValue);
                    bHasDates = true;
                }
            }

			pData = new TypedStrData( aString, nValue, SC_STRTYPE_VALUE );
		}
#if 0 // DR
		ScPostIt aCellNote( ScPostIt::UNINITIALIZED );
		// Hide visible notes during Filtering.
		if(pCell->GetNote(aCellNote) && aCellNote.IsCaptionShown())
		{
		    ScDetectiveFunc( pDocument, nTab ).HideComment( nCol, nRow );
		    aCellNote.SetShown( false );
		    pCell->SetNote(aCellNote);
		}
#endif

		if ( !rStrings.Insert( pData ) )
			delete pData;								// doppelt

		++nIndex;
	}

    rHasDates = bHasDates;
}

//
//	GetDataEntries - Strings aus zusammenhaengendem Bereich um nRow
//

//	DATENT_MAX		- max. Anzahl Eintrage in Liste fuer Auto-Eingabe
//	DATENT_SEARCH	- max. Anzahl Zellen, die durchsucht werden - neu: nur Strings zaehlen
#define DATENT_MAX		200
#define DATENT_SEARCH	2000


sal_Bool ScColumn::GetDataEntries(SCROW nStartRow, TypedScStrCollection& rStrings, sal_Bool bLimit)
{
	sal_Bool bFound = sal_False;
	SCSIZE nThisIndex;
	sal_Bool bThisUsed = Search( nStartRow, nThisIndex );
	String aString;
	sal_uInt16 nCells = 0;

	//	Die Beschraenkung auf angrenzende Zellen (ohne Luecken) ist nicht mehr gewollt
	//	(Featurekommission zur 5.1), stattdessen abwechselnd nach oben und unten suchen,
	//	damit naheliegende Zellen wenigstens zuerst gefunden werden.
	//!	Abstaende der Zeilennummern vergleichen? (Performance??)

	SCSIZE nUpIndex = nThisIndex;		// zeigt hinter die Zelle
	SCSIZE nDownIndex = nThisIndex;		// zeigt auf die Zelle
	if (bThisUsed)
		++nDownIndex;					// Startzelle ueberspringen

	while ( nUpIndex || nDownIndex < nCount )
	{
		if ( nUpIndex )					// nach oben
		{
			ScBaseCell* pCell = pItems[nUpIndex-1].pCell;
			CellType eType = pCell->GetCellType();
			if (eType == CELLTYPE_STRING || eType == CELLTYPE_EDIT)		// nur Strings interessieren
			{
				if (eType == CELLTYPE_STRING)
					((ScStringCell*)pCell)->GetString(aString);
				else
					((ScEditCell*)pCell)->GetString(aString);

				TypedStrData* pData = new TypedStrData(aString);
				if ( !rStrings.Insert( pData ) )
					delete pData;											// doppelt
				else if ( bLimit && rStrings.GetCount() >= DATENT_MAX )
					break;													// Maximum erreicht
				bFound = sal_True;

				if ( bLimit )
					if (++nCells >= DATENT_SEARCH)
						break;									// genug gesucht
			}
			--nUpIndex;
		}

		if ( nDownIndex < nCount )		// nach unten
		{
			ScBaseCell* pCell = pItems[nDownIndex].pCell;
			CellType eType = pCell->GetCellType();
			if (eType == CELLTYPE_STRING || eType == CELLTYPE_EDIT)		// nur Strings interessieren
			{
				if (eType == CELLTYPE_STRING)
					((ScStringCell*)pCell)->GetString(aString);
				else
					((ScEditCell*)pCell)->GetString(aString);

				TypedStrData* pData = new TypedStrData(aString);
				if ( !rStrings.Insert( pData ) )
					delete pData;											// doppelt
				else if ( bLimit && rStrings.GetCount() >= DATENT_MAX )
					break;													// Maximum erreicht
				bFound = sal_True;

				if ( bLimit )
					if (++nCells >= DATENT_SEARCH)
						break;									// genug gesucht
			}
			++nDownIndex;
		}
	}

	return bFound;
}

#undef DATENT_MAX
#undef DATENT_SEARCH


void ScColumn::RemoveProtected( SCROW nStartRow, SCROW nEndRow )
{
	ScAttrIterator aAttrIter( pAttrArray, nStartRow, nEndRow );
	SCROW nTop = -1;
	SCROW nBottom = -1;
	SCSIZE nIndex;
	const ScPatternAttr* pPattern = aAttrIter.Next( nTop, nBottom );
	while (pPattern)
	{
		const ScProtectionAttr* pAttr = (const ScProtectionAttr*)&pPattern->GetItem(ATTR_PROTECTION);
		if ( pAttr->GetHideCell() )
			DeleteArea( nTop, nBottom, IDF_CONTENTS );
		else if ( pAttr->GetHideFormula() )
		{
			Search( nTop, nIndex );
			while ( nIndex<nCount && pItems[nIndex].nRow<=nBottom )
			{
				if ( pItems[nIndex].pCell->GetCellType() == CELLTYPE_FORMULA )
				{
					ScFormulaCell* pFormula = (ScFormulaCell*)pItems[nIndex].pCell;
					if (pFormula->IsValue())
					{
						double nVal = pFormula->GetValue();
						pItems[nIndex].pCell = new ScValueCell( nVal );
					}
					else
					{
						String aString;
						pFormula->GetString(aString);
						pItems[nIndex].pCell = new ScStringCell( aString );
					}
					delete pFormula;
				}
				++nIndex;
			}
		}

		pPattern = aAttrIter.Next( nTop, nBottom );
	}
}


void ScColumn::SetError( SCROW nRow, const sal_uInt16 nError)
{
	if (VALIDROW(nRow))
	{
		ScFormulaCell* pCell = new ScFormulaCell
			( pDocument, ScAddress( nCol, nRow, nTab ) );
		pCell->SetErrCode( nError );
		Insert( nRow, pCell );
	}
}


void ScColumn::SetValue( SCROW nRow, const double& rVal)
{
	if (VALIDROW(nRow))
	{
		ScBaseCell* pCell = new ScValueCell(rVal);
		Insert( nRow, pCell );
	}
}


void ScColumn::GetString( SCROW nRow, String& rString ) const
{
	SCSIZE	nIndex;
	Color* pColor;
	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		if (pCell->GetCellType() != CELLTYPE_NOTE)
		{
			sal_uLong nFormat = GetNumberFormat( nRow );
			ScCellFormat::GetString( pCell, nFormat, rString, &pColor, *(pDocument->GetFormatTable()) );
		}
		else
			rString.Erase();
	}
	else
		rString.Erase();
}

template<>
void  ScColumn::FillDPCacheT( long nDim, SCROW nStartRow, SCROW nEndRow, const boost::function<void(ScDPItemData*)> & rAddLabel, const boost::function<sal_Bool(long,ScDPItemData*, bool)> & rAddData )
{
    SCROW nPattenRowStart = -1, nPatternRowEnd = -1;
    SvNumberFormatter* pFormatter = pDocument->GetFormatTable();
    sal_uLong nNumberFormat = 0;
    sal_uLong nNumberFormatType = NUMBERFORMAT_NUMBER;
    SCROW nCurRow = nStartRow;
    ScDPItemData * pDPItemData = NULL;

    if ( pItems )
    {
        SCSIZE nIndex;

        for ( Search( nStartRow, nIndex ) ? void( ) : void(nIndex = nCount); nIndex < nCount && pItems[nIndex].nRow <= nEndRow; ++nIndex, ++nCurRow )
        {
            for( ; nCurRow < pItems[nIndex].nRow; nCurRow++ )
                if( nCurRow == nStartRow )
                    rAddLabel( new ScDPItemData() );
                else
                    rAddData( nDim, new ScDPItemData(), false);

            if( nCurRow > nPatternRowEnd )
                if( const ScPatternAttr* pPattern = pAttrArray ? pAttrArray->GetPatternRange( nPattenRowStart, nPatternRowEnd, nCurRow ) : NULL )
                    nNumberFormatType = pFormatter->GetType( nNumberFormat = pPattern->GetNumberFormat( pFormatter ) );
                else
                    nNumberFormatType = NUMBERFORMAT_NUMBER, nNumberFormat = 0;

            if( ScBaseCell* pCell = pItems[nIndex].pCell )
                if( pCell->GetCellType() == CELLTYPE_FORMULA && ((ScFormulaCell*)pCell)->GetErrCode() )
		{
		    String str( GetStringFromCell( pCell, nNumberFormat, pFormatter ) );
		    sal_uInt8 bFlag = ScDPItemData::MK_ERR;
                    pDPItemData = new ScDPItemData( 0, str, 0.0, bFlag );
		}
                else if( pCell->HasValueData() )
                {
                    double fVal = GetValueFromCell( pCell );
                    String str( GetStringFromCell( pCell, nNumberFormat, pFormatter ) );
                    sal_uInt8 bFlag = ScDPItemData::MK_VAL|ScDPItemData::MK_DATA|(ScDPItemData::MK_DATE * isDateFormat( nNumberFormatType ));
                    pDPItemData = new ScDPItemData( nNumberFormat, str, fVal, bFlag );
                }
                else if( !pCell->IsBlank() )
                    pDPItemData = new ScDPItemData( GetStringFromCell( pCell, nNumberFormat, pFormatter ) );
                else
                    pDPItemData = new ScDPItemData();
            else
                pDPItemData = new ScDPItemData();

            if( nCurRow == nStartRow )
                rAddLabel( pDPItemData );
            else
                rAddData( nDim, pDPItemData, false );
        }
    }

    for( ; nCurRow <= nEndRow; nCurRow++ )
        if( nCurRow == nStartRow )
            rAddLabel( new ScDPItemData() );
        else
            rAddData( nDim, new ScDPItemData(), false );
}
void  ScColumn::FillDPCache( ScDPTableDataCache * pCache, long nDim, SCROW nStartRow, SCROW nEndRow )
{
    FillDPCacheT<boost::function<void(ScDPItemData*)>, boost::function<sal_Bool(long,ScDPItemData*, bool)> >( nDim, nStartRow, nEndRow, boost::bind( &ScDPTableDataCache::AddLabel, pCache, _1 ), boost::bind( &ScDPTableDataCache::AddData, pCache, _1, _2, _3 ) );
}

void ScColumn::GetInputString( SCROW nRow, String& rString ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		if (pCell->GetCellType() != CELLTYPE_NOTE)
		{
			sal_uLong nFormat = GetNumberFormat( nRow );
			ScCellFormat::GetInputString( pCell, nFormat, rString, *(pDocument->GetFormatTable()) );
		}
		else
			rString.Erase();
	}
	else
		rString.Erase();
}


double ScColumn::GetValue( SCROW nRow ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		switch (pCell->GetCellType())
		{
			case CELLTYPE_VALUE:
				return ((ScValueCell*)pCell)->GetValue();
//                break;
			case CELLTYPE_FORMULA:
				{
					if (((ScFormulaCell*)pCell)->IsValue())
						return ((ScFormulaCell*)pCell)->GetValue();
					else
						return 0.0;
				}
//                break;
			default:
				return 0.0;
//                break;
		}
	}
	return 0.0;
}


void ScColumn::GetFormula( SCROW nRow, String& rFormula, sal_Bool ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		if (pCell->GetCellType() == CELLTYPE_FORMULA)
			((ScFormulaCell*)pCell)->GetFormula( rFormula );
		else
			rFormula.Erase();
	}
	else
		rFormula.Erase();
}


CellType ScColumn::GetCellType( SCROW nRow ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
		return pItems[nIndex].pCell->GetCellType();
	return CELLTYPE_NONE;
}


sal_uInt16 ScColumn::GetErrCode( SCROW nRow ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
	{
		ScBaseCell* pCell = pItems[nIndex].pCell;
		if (pCell->GetCellType() == CELLTYPE_FORMULA)
			return ((ScFormulaCell*)pCell)->GetErrCode();
	}
	return 0;
}


sal_Bool ScColumn::HasStringData( SCROW nRow ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
		return (pItems[nIndex].pCell)->HasStringData();
	return sal_False;
}


sal_Bool ScColumn::HasValueData( SCROW nRow ) const
{
	SCSIZE	nIndex;
	if (Search(nRow, nIndex))
		return (pItems[nIndex].pCell)->HasValueData();
	return sal_False;
}

sal_Bool ScColumn::HasStringCells( SCROW nStartRow, SCROW nEndRow ) const
{
	//	sal_True, wenn String- oder Editzellen im Bereich

	if ( pItems )
	{
		SCSIZE nIndex;
		Search( nStartRow, nIndex );
		while ( nIndex < nCount && pItems[nIndex].nRow <= nEndRow )
		{
			CellType eType = pItems[nIndex].pCell->GetCellType();
			if ( eType == CELLTYPE_STRING || eType == CELLTYPE_EDIT )
				return sal_True;
			++nIndex;
		}
	}
	return sal_False;
}


ScPostIt* ScColumn::GetNote( SCROW nRow )
{
	SCSIZE nIndex;
	return Search( nRow, nIndex ) ? pItems[ nIndex ].pCell->GetNote() : 0;
}


void ScColumn::TakeNote( SCROW nRow, ScPostIt* pNote )
{
	SCSIZE nIndex;
	if( Search( nRow, nIndex ) )
		pItems[ nIndex ].pCell->TakeNote( pNote );
    else
        Insert( nRow, new ScNoteCell( pNote ) );
}


ScPostIt* ScColumn::ReleaseNote( SCROW nRow )
{
    ScPostIt* pNote = 0;
	SCSIZE nIndex;
	if( Search( nRow, nIndex ) )
	{
		ScBaseCell* pCell = pItems[ nIndex ].pCell;
        pNote = pCell->ReleaseNote();
		if( (pCell->GetCellType() == CELLTYPE_NOTE) && !pCell->GetBroadcaster() )
			DeleteAtIndex( nIndex );
	}
    return pNote;
}


void ScColumn::DeleteNote( SCROW nRow )
{
    delete ReleaseNote( nRow );
}


sal_Int32 ScColumn::GetMaxStringLen( SCROW nRowStart, SCROW nRowEnd, CharSet eCharSet ) const
{
	sal_Int32 nStringLen = 0;
	if ( pItems )
	{
		String aString;
        rtl::OString aOString;
        bool bIsOctetTextEncoding = rtl_isOctetTextEncoding( eCharSet);
		SvNumberFormatter* pNumFmt = pDocument->GetFormatTable();
        SCSIZE nIndex;
        SCROW nRow;
		Search( nRowStart, nIndex );
		while ( nIndex < nCount && (nRow = pItems[nIndex].nRow) <= nRowEnd )
		{
			ScBaseCell* pCell = pItems[nIndex].pCell;
			if ( pCell->GetCellType() != CELLTYPE_NOTE )
			{
				Color* pColor;
				sal_uLong nFormat = (sal_uLong) ((SfxUInt32Item*) GetAttr(
					nRow, ATTR_VALUE_FORMAT ))->GetValue();
				ScCellFormat::GetString( pCell, nFormat, aString, &pColor,
					*pNumFmt );
                sal_Int32 nLen;
                if (bIsOctetTextEncoding)
                {
                    rtl::OUString aOUString( aString);
                    if (!aOUString.convertToString( &aOString, eCharSet,
                                RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR |
                                RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR))
                    {
                        // TODO: anything? this is used by the dBase export filter
                        // that throws an error anyway, but in case of another
                        // context we might want to indicate a conversion error
                        // early.
                    }
                    nLen = aOString.getLength();
                }
                else
                    nLen = aString.Len() * sizeof(sal_Unicode);
				if ( nStringLen < nLen)
					nStringLen = nLen;
			}
			nIndex++;
		}
	}
	return nStringLen;
}


xub_StrLen ScColumn::GetMaxNumberStringLen(
    sal_uInt16& nPrecision, SCROW nRowStart, SCROW nRowEnd ) const
{
    xub_StrLen nStringLen = 0;
    nPrecision = pDocument->GetDocOptions().GetStdPrecision();
    if ( nPrecision == SvNumberFormatter::UNLIMITED_PRECISION )
        // In case of unlimited precision, use 2 instead.
        nPrecision = 2;

    if ( pItems )
    {
        String aString;
        SvNumberFormatter* pNumFmt = pDocument->GetFormatTable();
        SCSIZE nIndex;
        SCROW nRow;
        Search( nRowStart, nIndex );
        while ( nIndex < nCount && (nRow = pItems[nIndex].nRow) <= nRowEnd )
        {
            ScBaseCell* pCell = pItems[nIndex].pCell;
            CellType eType = pCell->GetCellType();
            if ( eType == CELLTYPE_VALUE || (eType == CELLTYPE_FORMULA
                    && ((ScFormulaCell*)pCell)->IsValue()) )
            {
                sal_uLong nFormat = (sal_uLong) ((SfxUInt32Item*) GetAttr(
                    nRow, ATTR_VALUE_FORMAT ))->GetValue();
                ScCellFormat::GetInputString( pCell, nFormat, aString, *pNumFmt );
                xub_StrLen nLen = aString.Len();
                if ( nLen )
                {
                    if ( nFormat )
                    {   // more decimals than standard?
                        sal_uInt16 nPrec = pNumFmt->GetFormatPrecision( nFormat );
                        if ( nPrec != SvNumberFormatter::UNLIMITED_PRECISION && nPrec > nPrecision )
                            nPrecision = nPrec;
                    }
                    if ( nPrecision )
                    {   // less than nPrecision in string => widen it
                        // more => shorten it
                        String aSep = pNumFmt->GetFormatDecimalSep( nFormat );
                        xub_StrLen nTmp = aString.Search( aSep );
                        if ( nTmp == STRING_NOTFOUND )
                            nLen += nPrecision + aSep.Len();
                        else
                        {
                            nTmp = aString.Len() - (nTmp + aSep.Len());
                            if ( nTmp != nPrecision )
                                nLen += nPrecision - nTmp;
                                // nPrecision > nTmp : nLen + Diff
                                // nPrecision < nTmp : nLen - Diff
                        }
                    }
                    if ( nStringLen < nLen )
                        nStringLen = nLen;
                }
            }
            nIndex++;
        }
    }
    return nStringLen;
}