xref: /trunk/main/sc/source/core/tool/chartpos.cxx (revision b3f79822)

/**************************************************************
 *
 * 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 <tools/table.hxx>

#include "chartpos.hxx"
#include "document.hxx"
#include "rechead.hxx"

namespace
{
    bool lcl_hasValueDataButNoDates( ScDocument* pDocument, SCCOL nCol, SCROW nRow, SCTAB nTab )
    {
        bool bReturn = false;
        if (pDocument->HasValueData( nCol, nRow, nTab ))
        {
            //treat dates like text #i25706#
            sal_uInt32 nNumberFormat = pDocument->GetNumberFormat( ScAddress( nCol, nRow, nTab ) );
            short nType = pDocument->GetFormatTable()->GetType(nNumberFormat);
			bool bIsDate = (nType & NUMBERFORMAT_DATE);
			bReturn = !bIsDate;
        }
        return bReturn;
    }
}

ScChartPositioner::ScChartPositioner( ScDocument* pDoc, SCTAB nTab,
					SCCOL nStartColP, SCROW nStartRowP, SCCOL nEndColP, SCROW nEndRowP) :
		pDocument( pDoc ),
		pPositionMap( NULL ),
		eGlue( SC_CHARTGLUE_NA ),
		nStartCol(0),
		nStartRow(0),
		bColHeaders( sal_False ),
		bRowHeaders( sal_False ),
		bDummyUpperLeft( sal_False )
{
	SetRangeList( ScRange( nStartColP, nStartRowP, nTab, nEndColP, nEndRowP, nTab ) );
	CheckColRowHeaders();
}

ScChartPositioner::ScChartPositioner( ScDocument* pDoc, const ScRangeListRef& rRangeList ) :
		aRangeListRef( rRangeList ),
		pDocument( pDoc ),
		pPositionMap( NULL ),
		eGlue( SC_CHARTGLUE_NA ),
		nStartCol(0),
		nStartRow(0),
		bColHeaders( sal_False ),
		bRowHeaders( sal_False ),
		bDummyUpperLeft( sal_False )
{
	if ( aRangeListRef.Is() )
		CheckColRowHeaders();
}

ScChartPositioner::ScChartPositioner( const ScChartPositioner& rPositioner ) :
		aRangeListRef( rPositioner.aRangeListRef ),
		pDocument(rPositioner.pDocument),
		pPositionMap( NULL ),
		eGlue(rPositioner.eGlue),
		nStartCol(rPositioner.nStartCol),
		nStartRow(rPositioner.nStartRow),
		bColHeaders(rPositioner.bColHeaders),
		bRowHeaders(rPositioner.bRowHeaders),
		bDummyUpperLeft( rPositioner.bDummyUpperLeft )
{
}

ScChartPositioner::~ScChartPositioner()
{
	delete pPositionMap;
}

sal_Bool ScChartPositioner::operator==(const ScChartPositioner& rCmp) const
{
	return bColHeaders == rCmp.bColHeaders
		&& bRowHeaders == rCmp.bRowHeaders
		&& *aRangeListRef == *rCmp.aRangeListRef;
}

void ScChartPositioner::SetRangeList( const ScRange& rRange )
{
	aRangeListRef = new ScRangeList;
	aRangeListRef->Append( rRange );
	InvalidateGlue();
}

void ScChartPositioner::GlueState()
{
	if ( eGlue != SC_CHARTGLUE_NA )
		return;
	bDummyUpperLeft = sal_False;
	ScRangePtr pR;
	if ( aRangeListRef->Count() <= 1 )
	{
		if ( (pR = aRangeListRef->First())!=NULL )
		{
			if ( pR->aStart.Tab() == pR->aEnd.Tab() )
				eGlue = SC_CHARTGLUE_NONE;
			else
				eGlue = SC_CHARTGLUE_COLS;	// mehrere Tabellen spaltenweise
			nStartCol = pR->aStart.Col();
			nStartRow = pR->aStart.Row();
		}
		else
		{
			InvalidateGlue();
			nStartCol = 0;
			nStartRow = 0;
		}
		return;
	}
// 	sal_uLong nOldPos = aRangeListRef->GetCurPos();

	pR = aRangeListRef->First();
	nStartCol = pR->aStart.Col();
	nStartRow = pR->aStart.Row();
	SCCOL nMaxCols, nEndCol;
	SCROW nMaxRows, nEndRow;
	nMaxCols = nEndCol = 0;
	nMaxRows = nEndRow = 0;
	do
	{	// umspannenden Bereich etc. feststellen
		SCCOLROW nTmp, n1, n2;
		if ( (n1 = pR->aStart.Col()) < nStartCol )
			nStartCol = static_cast<SCCOL>(n1);
		if ( (n2 = pR->aEnd.Col()) > nEndCol )
			nEndCol = static_cast<SCCOL>(n2);
		if ( (nTmp = n2 - n1 + 1) > nMaxCols )
			nMaxCols = static_cast<SCCOL>(nTmp);
		if ( (n1 = pR->aStart.Row()) < nStartRow )
			nStartRow = static_cast<SCROW>(n1);
		if ( (n2 = pR->aEnd.Row()) > nEndRow )
			nEndRow = static_cast<SCROW>(n2);
		if ( (nTmp = n2 - n1 + 1) > nMaxRows )
			nMaxRows = static_cast<SCROW>(nTmp);
	} while ( (pR = aRangeListRef->Next())!=NULL );
	SCCOL nC = nEndCol - nStartCol + 1;
	if ( nC == 1 )
	{
		eGlue = SC_CHARTGLUE_ROWS;
		return;
	}
	SCROW nR = nEndRow - nStartRow + 1;
	if ( nR == 1 )
	{
		eGlue = SC_CHARTGLUE_COLS;
		return;
	}
	sal_uLong nCR = (sal_uLong)nC * nR;
//2do:
/*
	Erstmal simpel ohne Bitmaskiererei, maximal koennten so 8MB alloziert
	werden (256 Cols mal 32000 Rows), das liesse sich mit 2 Bit je Eintrag
	auf 2MB reduzieren, andererseits ist es so schneller.
	Weitere Platz-Optimierung waere, in dem Array nur die wirklich benutzten
	Zeilen/Spalten abzulegen, wuerde aber ein weiteres durchlaufen der
	RangeList und indirekten Zugriff auf das Array bedeuten.
 */
	const sal_uInt8 nHole = 0;
	const sal_uInt8 nOccu = 1;
	const sal_uInt8 nFree = 2;
	const sal_uInt8 nGlue = 3;
	sal_uInt8* p;
	sal_uInt8* pA = new sal_uInt8[ nCR ];
	memset( pA, 0, nCR * sizeof(sal_uInt8) );

	SCCOL nCol, nCol1, nCol2;
	SCROW nRow, nRow1, nRow2;
	for ( pR = aRangeListRef->First(); pR; pR = aRangeListRef->Next() )
	{	// Selektionen 2D als belegt markieren
		nCol1 = pR->aStart.Col() - nStartCol;
		nCol2 = pR->aEnd.Col() - nStartCol;
		nRow1 = pR->aStart.Row() - nStartRow;
		nRow2 = pR->aEnd.Row() - nStartRow;
		for ( nCol = nCol1; nCol <= nCol2; nCol++ )
		{
			p = pA + (sal_uLong)nCol * nR + nRow1;
			for ( nRow = nRow1; nRow <= nRow2; nRow++, p++ )
				*p = nOccu;
		}
	}
	sal_Bool bGlue = sal_True;

	sal_Bool bGlueCols = sal_False;
	for ( nCol = 0; bGlue && nCol < nC; nCol++ )
	{	// Spalten probieren durchzugehen und als frei markieren
		p = pA + (sal_uLong)nCol * nR;
		for ( nRow = 0; bGlue && nRow < nR; nRow++, p++ )
		{
			if ( *p == nOccu )
			{	// Wenn einer mittendrin liegt ist keine Zusammenfassung
				// moeglich. Am Rand koennte ok sein, wenn in dieser Spalte
				// in jeder belegten Zeile einer belegt ist.
				if ( nRow > 0 && nCol > 0 )
					bGlue = sal_False;		// nCol==0 kann DummyUpperLeft sein
				else
					nRow = nR;
			}
			else
				*p = nFree;
		}
		if ( bGlue && *(p = (pA + ((((sal_uLong)nCol+1) * nR) - 1))) == nFree )
		{	// Spalte als komplett frei markieren
			*p = nGlue;
			bGlueCols = sal_True;		// mindestens eine freie Spalte
		}
	}

	sal_Bool bGlueRows = sal_False;
	for ( nRow = 0; bGlue && nRow < nR; nRow++ )
	{	// Zeilen probieren durchzugehen und als frei markieren
		p = pA + nRow;
		for ( nCol = 0; bGlue && nCol < nC; nCol++, p+=nR )
		{
			if ( *p == nOccu )
			{
				if ( nCol > 0 && nRow > 0 )
					bGlue = sal_False;		// nRow==0 kann DummyUpperLeft sein
				else
					nCol = nC;
			}
			else
				*p = nFree;
		}
		if ( bGlue && *(p = (pA + ((((sal_uLong)nC-1) * nR) + nRow))) == nFree )
		{	// Zeile als komplett frei markieren
			*p = nGlue;
			bGlueRows = sal_True;		// mindestens eine freie Zeile
		}
	}

	// n=1: die linke obere Ecke koennte bei Beschriftung automagisch
	// hinzugezogen werden
	p = pA + 1;
	for ( sal_uLong n = 1; bGlue && n < nCR; n++, p++ )
	{	// ein unberuehrtes Feld heisst, dass es weder spaltenweise noch
		// zeilenweise zu erreichen war, also nichts zusamenzufassen
		if ( *p == nHole )
			bGlue = sal_False;
	}
	if ( bGlue )
	{
		if ( bGlueCols && bGlueRows )
			eGlue = SC_CHARTGLUE_BOTH;
		else if ( bGlueRows )
			eGlue = SC_CHARTGLUE_ROWS;
		else
			eGlue = SC_CHARTGLUE_COLS;
		if ( *pA != nOccu )
			bDummyUpperLeft = sal_True;
	}
	else
	{
		eGlue = SC_CHARTGLUE_NONE;
	}

	delete [] pA;
}

void ScChartPositioner::CheckColRowHeaders()
{
	SCCOL nCol1, nCol2, iCol;
	SCROW nRow1, nRow2, iRow;
	SCTAB nTab1, nTab2;

	sal_Bool bColStrings = sal_True;
	sal_Bool bRowStrings = sal_True;
	GlueState();
	if ( aRangeListRef->Count() == 1 )
	{
		aRangeListRef->First()->GetVars( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 );
		if ( nCol1 > nCol2 || nRow1 > nRow2 )
			bColStrings = bRowStrings = sal_False;
		else
		{
			for (iCol=nCol1; iCol<=nCol2 && bColStrings; iCol++)
			{
				if (lcl_hasValueDataButNoDates( pDocument, iCol, nRow1, nTab1 ))
						bColStrings = sal_False;
			}
			for (iRow=nRow1; iRow<=nRow2 && bRowStrings; iRow++)
			{
				if (lcl_hasValueDataButNoDates( pDocument, nCol1, iRow, nTab1 ))
						bRowStrings = sal_False;
			}
		}
	}
	else
	{
		sal_Bool bVert = (eGlue == SC_CHARTGLUE_NONE || eGlue == SC_CHARTGLUE_ROWS);
		for ( ScRangePtr pR = aRangeListRef->First();
				pR && (bColStrings || bRowStrings);
				pR = aRangeListRef->Next() )
		{
			pR->GetVars( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 );
			sal_Bool bTopRow = (nRow1 == nStartRow);
			if ( bRowStrings && (bVert || nCol1 == nStartCol) )
			{	// NONE oder ROWS: RowStrings in jeder Selektion moeglich
				// COLS oder BOTH: nur aus der ersten Spalte
				if ( nCol1 <= nCol2 )
					for (iRow=nRow1; iRow<=nRow2 && bRowStrings; iRow++)
					{
						if (lcl_hasValueDataButNoDates( pDocument, nCol1, iRow, nTab1 ))
								bRowStrings = sal_False;
					}
			}
			if ( bColStrings && bTopRow )
			{	// ColStrings nur aus der ersten Zeile
				if ( nRow1 <= nRow2 )
					for (iCol=nCol1; iCol<=nCol2 && bColStrings; iCol++)
					{
						if (lcl_hasValueDataButNoDates( pDocument, iCol, nRow1, nTab1 ))
								bColStrings = sal_False;
					}
			}
		}
	}
	bColHeaders = bColStrings;
	bRowHeaders = bRowStrings;
}

const ScChartPositionMap* ScChartPositioner::GetPositionMap()
{
    CreatePositionMap();
	return pPositionMap;
}


void ScChartPositioner::CreatePositionMap()
{
	if ( eGlue == SC_CHARTGLUE_NA && pPositionMap )
	{
		delete pPositionMap;
		pPositionMap = NULL;
	}

	if ( pPositionMap )
		return ;

	SCSIZE nColAdd = bRowHeaders ? 1 : 0;
	SCSIZE nRowAdd = bColHeaders ? 1 : 0;

	SCCOL nCol, nCol1, nCol2;
	SCROW nRow, nRow1, nRow2;
	SCTAB nTab, nTab1, nTab2;

	//
	//	wirkliche Groesse (ohne versteckte Zeilen/Spalten)
	//

	SCSIZE nColCount = 0;
    SCSIZE nRowCount = 0;

	GlueState();

	sal_Bool bNoGlue = (eGlue == SC_CHARTGLUE_NONE);
	Table* pCols = new Table;
	Table* pNewRowTable = new Table;
	ScAddress* pNewAddress = new ScAddress;
	ScRangePtr pR;
	Table* pCol;
	ScAddress* pPos;
	SCROW nNoGlueRow = 0;
	for ( pR = aRangeListRef->First(); pR; pR = aRangeListRef->Next() )
	{
		pR->GetVars( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 );
		for ( nTab = nTab1; nTab <= nTab2; nTab++ )
		{
			// nTab im ColKey, um gleiche Col/Row in anderer Table haben zu koennen
            sal_uLong nInsCol = (static_cast<sal_uLong>(nTab) << 16) | (bNoGlue ? 0 :
                    static_cast<sal_uLong>(nCol1));
			for ( nCol = nCol1; nCol <= nCol2; ++nCol, ++nInsCol )
			{
				if ( bNoGlue || eGlue == SC_CHARTGLUE_ROWS )
				{	// meistens gleiche Cols
					if ( (pCol = (Table*) pCols->Get( nInsCol ))==NULL )
					{
						pCols->Insert( nInsCol, pNewRowTable );
						pCol = pNewRowTable;
						pNewRowTable = new Table;
					}
				}
				else
				{	// meistens neue Cols
					if ( pCols->Insert( nInsCol, pNewRowTable ) )
					{
						pCol = pNewRowTable;
						pNewRowTable = new Table;
					}
					else
						pCol = (Table*) pCols->Get( nInsCol );
				}
				// bei anderer Tabelle wurde bereits neuer ColKey erzeugt,
				// die Zeilen muessen fuer's Dummy fuellen gleich sein!
				sal_uLong nInsRow = (bNoGlue ? nNoGlueRow : nRow1);
				for ( nRow = nRow1; nRow <= nRow2; nRow++, nInsRow++ )
				{
					if ( pCol->Insert( nInsRow, pNewAddress ) )
					{
						pNewAddress->Set( nCol, nRow, nTab );
						pNewAddress = new ScAddress;
					}
				}
			}
		}
		// bei NoGlue werden zusammengehoerige Tabellen als ColGlue dargestellt
		nNoGlueRow += nRow2 - nRow1 + 1;
	}
	delete pNewAddress;
	delete pNewRowTable;

	// Anzahl der Daten
	nColCount = static_cast< SCSIZE >( pCols->Count());
	if ( (pCol = (Table*) pCols->First())!=NULL )
	{
		if ( bDummyUpperLeft )
			pCol->Insert( 0, (void*)0 );		// Dummy fuer Beschriftung
		nRowCount = static_cast< SCSIZE >( pCol->Count());
	}
	else
		nRowCount = 0;
	if ( nColCount > 0 )
		nColCount -= nColAdd;
	if ( nRowCount > 0 )
		nRowCount -= nRowAdd;

	if ( nColCount==0 || nRowCount==0 )
	{	// einen Eintrag ohne Daten erzeugen
		pR = aRangeListRef->First();
		if ( pCols->Count() > 0 )
			pCol = (Table*) pCols->First();
		else
		{
			pCol = new Table;
			pCols->Insert( 0, pCol );
		}
		nColCount = 1;
		if ( pCol->Count() > 0 )
		{	// kann ja eigentlich nicht sein, wenn nColCount==0 || nRowCount==0
			pPos = (ScAddress*) pCol->First();
			if ( pPos )
			{
				delete pPos;
				pCol->Replace( pCol->GetCurKey(), (void*)0 );
			}
		}
		else
			pCol->Insert( 0, (void*)0 );
		nRowCount = 1;
		nColAdd = 0;
		nRowAdd = 0;
	}
	else
	{
		if ( bNoGlue )
		{	// Luecken mit Dummies fuellen, erste Spalte ist Master
			Table* pFirstCol = (Table*) pCols->First();
			sal_uLong nCount = pFirstCol->Count();
			pFirstCol->First();
			for ( sal_uLong n = 0; n < nCount; n++, pFirstCol->Next() )
			{
				sal_uLong nKey = pFirstCol->GetCurKey();
				pCols->First();
				while ( (pCol = (Table*) pCols->Next())!=NULL )
					pCol->Insert( nKey, (void*)0 );		// keine Daten
			}
		}
	}

	pPositionMap = new ScChartPositionMap( static_cast<SCCOL>(nColCount), static_cast<SCROW>(nRowCount),
		static_cast<SCCOL>(nColAdd), static_cast<SCROW>(nRowAdd), *pCols );

	//	Aufraeumen
	for ( pCol = (Table*) pCols->First(); pCol; pCol = (Table*) pCols->Next() )
	{	//! nur Tables loeschen, nicht die ScAddress*
		delete pCol;
	}
	delete pCols;
}


ScChartPositionMap::ScChartPositionMap( SCCOL nChartCols, SCROW nChartRows,
			SCCOL nColAdd, SCROW nRowAdd, Table& rCols ) :
		ppData( new ScAddress* [ nChartCols * nChartRows ] ),
		ppColHeader( new ScAddress* [ nChartCols ] ),
		ppRowHeader( new ScAddress* [ nChartRows ] ),
		nCount( (sal_uLong) nChartCols * nChartRows ),
		nColCount( nChartCols ),
		nRowCount( nChartRows )
{
	DBG_ASSERT( nColCount && nRowCount, "ScChartPositionMap without dimension" );

	ScAddress* pPos;
	SCCOL nCol;
	SCROW nRow;

	Table* pCol = (Table*) rCols.First();

	// Zeilen-Header
	pPos = (ScAddress*) pCol->First();
	if ( nRowAdd )
		pPos = (ScAddress*) pCol->Next();
	if ( nColAdd )
	{	// eigenstaendig
		for ( nRow = 0; nRow < nRowCount; nRow++ )
		{
			ppRowHeader[ nRow ] = pPos;
			pPos = (ScAddress*) pCol->Next();
		}
	}
	else
	{	// Kopie
		for ( nRow = 0; nRow < nRowCount; nRow++ )
		{
			ppRowHeader[ nRow ] = ( pPos ? new ScAddress( *pPos ) : NULL );
			pPos = (ScAddress*) pCol->Next();
		}
	}
	if ( nColAdd )
		pCol = (Table*) rCols.Next();

	// Daten spaltenweise und Spalten-Header
	sal_uLong nIndex = 0;
	for ( nCol = 0; nCol < nColCount; nCol++ )
	{
		if ( pCol )
		{
			pPos = (ScAddress*) pCol->First();
			if ( nRowAdd )
			{
				ppColHeader[ nCol ] = pPos;		// eigenstaendig
				pPos = (ScAddress*) pCol->Next();
			}
			else
				ppColHeader[ nCol ] = ( pPos ? new ScAddress( *pPos ) : NULL );
			for ( nRow = 0; nRow < nRowCount; nRow++, nIndex++ )
			{
				ppData[ nIndex ] = pPos;
				pPos = (ScAddress*) pCol->Next();
			}
		}
		else
		{
			ppColHeader[ nCol ] = NULL;
			for ( nRow = 0; nRow < nRowCount; nRow++, nIndex++ )
			{
				ppData[ nIndex ] = NULL;
			}
		}
		pCol = (Table*) rCols.Next();
	}
}


ScChartPositionMap::~ScChartPositionMap()
{
	for ( sal_uLong nIndex=0; nIndex < nCount; nIndex++ )
	{
		delete ppData[nIndex];
	}
	delete [] ppData;

	SCCOL j;
	for ( j=0; j < nColCount; j++ )
	{
		delete ppColHeader[j];
	}
	delete [] ppColHeader;
	SCROW i;
	for ( i=0; i < nRowCount; i++ )
	{
		delete ppRowHeader[i];
	}
	delete [] ppRowHeader;
}


//UNUSED2009-05 ScRangeListRef ScChartPositionMap::GetColRanges( SCCOL nChartCol ) const
//UNUSED2009-05 {
//UNUSED2009-05     ScRangeListRef xRangeList = new ScRangeList;
//UNUSED2009-05     if ( nChartCol < nColCount )
//UNUSED2009-05     {
//UNUSED2009-05         sal_uLong nStop = GetIndex( nChartCol, nRowCount );
//UNUSED2009-05         for ( sal_uLong nIndex = GetIndex( nChartCol, 0 ); nIndex < nStop; nIndex++ )
//UNUSED2009-05         {
//UNUSED2009-05             if ( ppData[ nIndex ] )
//UNUSED2009-05                 xRangeList->Join( *ppData[ nIndex ] );
//UNUSED2009-05         }
//UNUSED2009-05     }
//UNUSED2009-05     return xRangeList;
//UNUSED2009-05 }


//UNUSED2009-05 ScRangeListRef ScChartPositionMap::GetRowRanges( SCROW nChartRow ) const
//UNUSED2009-05 {
//UNUSED2009-05     ScRangeListRef xRangeList = new ScRangeList;
//UNUSED2009-05     if ( nChartRow < nRowCount )
//UNUSED2009-05     {
//UNUSED2009-05         sal_uLong nStop = GetIndex( nColCount, nChartRow );
//UNUSED2009-05         for ( sal_uLong nIndex = GetIndex( 0, nChartRow ); nIndex < nStop;
//UNUSED2009-05                 nIndex += nRowCount )
//UNUSED2009-05         {
//UNUSED2009-05             if ( ppData[ nIndex ] )
//UNUSED2009-05                 xRangeList->Join( *ppData[ nIndex ] );
//UNUSED2009-05         }
//UNUSED2009-05     }
//UNUSED2009-05     return xRangeList;
//UNUSED2009-05 }