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path: root/sc/source/core/tool/interpr2.cxx
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
 * This file is part of the LibreOffice project.
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/.
 *
 * This file incorporates work covered by the following license notice:
 *
 *   Licensed to the Apache Software Foundation (ASF) under one or more
 *   contributor license agreements. See the NOTICE file distributed
 *   with this work for additional information regarding copyright
 *   ownership. The ASF licenses this file to you under the Apache
 *   License, Version 2.0 (the "License"); you may not use this file
 *   except in compliance with the License. You may obtain a copy of
 *   the License at http://www.apache.org/licenses/LICENSE-2.0 .
 */

#include <memory>
#include <interpre.hxx>

#include <comphelper/string.hxx>
#include <o3tl/float_int_conversion.hxx>
#include <sfx2/bindings.hxx>
#include <sfx2/linkmgr.hxx>
#include <sfx2/objsh.hxx>
#include <svl/numformat.hxx>
#include <svl/zforlist.hxx>
#include <sal/macros.h>
#include <osl/diagnose.h>

#include <sc.hrc>
#include <ddelink.hxx>
#include <scmatrix.hxx>
#include <formulacell.hxx>
#include <document.hxx>
#include <dociter.hxx>
#include <unitconv.hxx>
#include <hints.hxx>
#include <dpobject.hxx>
#include <tokenarray.hxx>
#include <globalnames.hxx>
#include <stlpool.hxx>
#include <stlsheet.hxx>
#include <dpcache.hxx>

#include <com/sun/star/sheet/DataPilotFieldFilter.hpp>

#include <string.h>

using ::std::vector;
using namespace com::sun::star;
using namespace formula;

#define SCdEpsilon                1.0E-7

// Date and Time

double ScInterpreter::GetDateSerial( sal_Int16 nYear, sal_Int16 nMonth, sal_Int16 nDay,
        bool bStrict )
{
    if ( nYear < 100 && !bStrict )
        nYear = pFormatter->ExpandTwoDigitYear( nYear );
    // Do not use a default Date ctor here because it asks system time with a
    // performance penalty.
    sal_Int16 nY, nM, nD;
    if (bStrict)
    {
        nY = nYear;
        nM = nMonth;
        nD = nDay;
    }
    else
    {
        if (nMonth > 0)
        {
            nY = nYear + (nMonth-1) / 12;
            nM = ((nMonth-1) % 12) + 1;
        }
        else
        {
            nY = nYear + (nMonth-12) / 12;
            nM = 12 - (-nMonth) % 12;
        }
        nD = 1;
    }
    Date aDate( nD, nM, nY);
    if (!bStrict)
        aDate.AddDays( nDay - 1 );
    if (aDate.IsValidAndGregorian())
        return static_cast<double>(aDate - pFormatter->GetNullDate());
    else
    {
        SetError(FormulaError::NoValue);
        return 0;
    }
}

void ScInterpreter::ScGetActDate()
{
    nFuncFmtType = SvNumFormatType::DATE;
    Date aActDate( Date::SYSTEM );
    tools::Long nDiff = aActDate - pFormatter->GetNullDate();
    PushDouble(static_cast<double>(nDiff));
}

void ScInterpreter::ScGetActTime()
{
    nFuncFmtType = SvNumFormatType::DATETIME;
    DateTime aActTime( DateTime::SYSTEM );
    tools::Long nDiff = aActTime - pFormatter->GetNullDate();
    double fTime = aActTime.GetHour()    / static_cast<double>(::tools::Time::hourPerDay)   +
                   aActTime.GetMin()     / static_cast<double>(::tools::Time::minutePerDay) +
                   aActTime.GetSec()     / static_cast<double>(::tools::Time::secondPerDay) +
                   aActTime.GetNanoSec() / static_cast<double>(::tools::Time::nanoSecPerDay);
    PushDouble( static_cast<double>(nDiff) + fTime );
}

void ScInterpreter::ScGetYear()
{
    Date aDate = pFormatter->GetNullDate();
    aDate.AddDays( GetInt32());
    PushDouble( static_cast<double>(aDate.GetYear()) );
}

void ScInterpreter::ScGetMonth()
{
    Date aDate = pFormatter->GetNullDate();
    aDate.AddDays( GetInt32());
    PushDouble( static_cast<double>(aDate.GetMonth()) );
}

void ScInterpreter::ScGetDay()
{
    Date aDate = pFormatter->GetNullDate();
    aDate.AddDays( GetInt32());
    PushDouble(static_cast<double>(aDate.GetDay()));
}

void ScInterpreter::ScGetMin()
{
    sal_uInt16 nHour, nMinute, nSecond;
    double fFractionOfSecond;
    tools::Time::GetClock( GetDouble(), nHour, nMinute, nSecond, fFractionOfSecond, 0);
    PushDouble( nMinute);
}

void ScInterpreter::ScGetSec()
{
    sal_uInt16 nHour, nMinute, nSecond;
    double fFractionOfSecond;
    tools::Time::GetClock( GetDouble(), nHour, nMinute, nSecond, fFractionOfSecond, 0);
    if ( fFractionOfSecond >= 0.5 )
        nSecond = ( nSecond + 1 ) % 60;
    PushDouble( nSecond );

}

void ScInterpreter::ScGetHour()
{
    sal_uInt16 nHour, nMinute, nSecond;
    double fFractionOfSecond;
    tools::Time::GetClock( GetDouble(), nHour, nMinute, nSecond, fFractionOfSecond, 0);
    PushDouble( nHour);
}

void ScInterpreter::ScGetDateValue()
{
    OUString aInputString = GetString().getString();
    sal_uInt32 nFIndex = 0;                 // for a default country/language
    double fVal;
    if (pFormatter->IsNumberFormat(aInputString, nFIndex, fVal))
    {
        SvNumFormatType eType = pFormatter->GetType(nFIndex);
        if (eType == SvNumFormatType::DATE || eType == SvNumFormatType::DATETIME)
        {
            nFuncFmtType = SvNumFormatType::DATE;
            PushDouble(::rtl::math::approxFloor(fVal));
        }
        else
            PushIllegalArgument();
    }
    else
        PushIllegalArgument();
}

void ScInterpreter::ScGetDayOfWeek()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    sal_Int16 nFlag;
    if (nParamCount == 2)
        nFlag = GetInt16();
    else
        nFlag = 1;

    Date aDate = pFormatter->GetNullDate();
    aDate.AddDays( GetInt32());
    int nVal = static_cast<int>(aDate.GetDayOfWeek());  // MONDAY = 0
    switch (nFlag)
    {
        case 1:     // Sunday = 1
            if (nVal == 6)
                nVal = 1;
            else
                nVal += 2;
        break;
        case 2:     // Monday = 1
            nVal += 1;
        break;
        case 3:     // Monday = 0
            ;   // nothing
        break;
        case 11:    // Monday = 1
        case 12:    // Tuesday = 1
        case 13:    // Wednesday = 1
        case 14:    // Thursday = 1
        case 15:    // Friday = 1
        case 16:    // Saturday = 1
        case 17:    // Sunday = 1
            if (nVal < nFlag - 11)      // x = nFlag - 11 = 0,1,2,3,4,5,6
                nVal += 19 - nFlag;     // nVal += (8 - (nFlag - 11) = 8 - x = 8,7,6,5,4,3,2)
            else
                nVal -= nFlag - 12;     // nVal -= ((nFlag - 11) - 1 = x - 1 = -1,0,1,2,3,4,5)
        break;
        default:
            SetError( FormulaError::IllegalArgument);
    }
    PushInt( nVal );
}

void ScInterpreter::ScWeeknumOOo()
{
    if ( MustHaveParamCount( GetByte(), 2 ) )
    {
        sal_Int16 nFlag = GetInt16();

        Date aDate = pFormatter->GetNullDate();
        aDate.AddDays( GetInt32());
        PushInt( static_cast<int>(aDate.GetWeekOfYear( nFlag == 1 ? SUNDAY : MONDAY )));
    }
}

void ScInterpreter::ScGetWeekOfYear()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    sal_Int16 nFlag = ( nParamCount == 1 ) ? 1 : GetInt16();

    Date aDate = pFormatter->GetNullDate();
    aDate.AddDays( GetInt32());

    sal_Int32 nMinimumNumberOfDaysInWeek;
    DayOfWeek eFirstDayOfWeek;
    switch ( nFlag )
    {
        case   1 :
            eFirstDayOfWeek = SUNDAY;
            nMinimumNumberOfDaysInWeek = 1;
            break;
        case   2 :
            eFirstDayOfWeek = MONDAY;
            nMinimumNumberOfDaysInWeek = 1;
            break;
        case  11 :
        case  12 :
        case  13 :
        case  14 :
        case  15 :
        case  16 :
        case  17 :
            eFirstDayOfWeek = static_cast<DayOfWeek>( nFlag - 11 ); // MONDAY := 0
            nMinimumNumberOfDaysInWeek = 1; //the week containing January 1 is week 1
            break;
        case  21 :
        case 150 :
            // ISO 8601
            eFirstDayOfWeek = MONDAY;
            nMinimumNumberOfDaysInWeek = 4;
            break;
        default :
            PushIllegalArgument();
            return;
    }
    PushInt( static_cast<int>(aDate.GetWeekOfYear( eFirstDayOfWeek, nMinimumNumberOfDaysInWeek )) );
}

void ScInterpreter::ScGetIsoWeekOfYear()
{
    if ( MustHaveParamCount( GetByte(), 1 ) )
    {
        Date aDate = pFormatter->GetNullDate();
        aDate.AddDays( GetInt32());
        PushInt( static_cast<int>(aDate.GetWeekOfYear()) );
    }
}

void ScInterpreter::ScEasterSunday()
{
    nFuncFmtType = SvNumFormatType::DATE;
    if ( !MustHaveParamCount( GetByte(), 1 ) )
        return;

    sal_Int16 nYear = GetInt16();
    if (nGlobalError != FormulaError::NONE)
    {
        PushError( nGlobalError);
        return;
    }
    if ( nYear < 100 )
        nYear = pFormatter->ExpandTwoDigitYear( nYear );
    if (nYear < 1583 || nYear > 9956)
    {
        // Valid Gregorian and maximum year constraints not met.
        PushIllegalArgument();
        return;
    }
    // don't worry, be happy :)
    int B,C,D,E,F,G,H,I,K,L,M,N,O;
    N = nYear % 19;
    B = int(nYear / 100);
    C = nYear % 100;
    D = int(B / 4);
    E = B % 4;
    F = int((B + 8) / 25);
    G = int((B - F + 1) / 3);
    H = (19 * N + B - D - G + 15) % 30;
    I = int(C / 4);
    K = C % 4;
    L = (32 + 2 * E + 2 * I - H - K) % 7;
    M = int((N + 11 * H + 22 * L) / 451);
    O = H + L - 7 * M + 114;
    sal_Int16 nDay = sal::static_int_cast<sal_Int16>( O % 31 + 1 );
    sal_Int16 nMonth = sal::static_int_cast<sal_Int16>( int(O / 31) );
    PushDouble( GetDateSerial( nYear, nMonth, nDay, true ) );
}

FormulaError ScInterpreter::GetWeekendAndHolidayMasks(
    const sal_uInt8 nParamCount, const sal_uInt32 nNullDate, vector< double >& rSortArray,
    bool bWeekendMask[ 7 ] )
{
    if ( nParamCount == 4 )
    {
        vector< double > nWeekendDays;
        GetNumberSequenceArray( 1, nWeekendDays, false );
        if ( nGlobalError != FormulaError::NONE )
            return nGlobalError;
        else
        {
            if ( nWeekendDays.size() != 7 )
                return  FormulaError::IllegalArgument;

            // Weekend days defined by string, Sunday...Saturday
            for ( int i = 0; i < 7; i++ )
                bWeekendMask[ i ] = static_cast<bool>(nWeekendDays[ ( i == 6 ? 0 : i + 1 ) ]);
        }
    }
    else
    {
        for ( int i = 0; i < 7; i++ )
            bWeekendMask[ i] = false;

        bWeekendMask[ SATURDAY ] = true;
        bWeekendMask[ SUNDAY ]   = true;
    }

    if ( nParamCount >= 3 )
    {
        GetSortArray( 1, rSortArray, nullptr, true, true );
        size_t nMax = rSortArray.size();
        for ( size_t i = 0; i < nMax; i++ )
            rSortArray.at( i ) = ::rtl::math::approxFloor( rSortArray.at( i ) ) + nNullDate;
    }

    return nGlobalError;
}

FormulaError ScInterpreter::GetWeekendAndHolidayMasks_MS(
    const sal_uInt8 nParamCount, const sal_uInt32 nNullDate, vector< double >& rSortArray,
    bool bWeekendMask[ 7 ], bool bWorkdayFunction )
{
    FormulaError nErr = FormulaError::NONE;
    OUString aWeekendDays;
    if ( nParamCount == 4 )
    {
        GetSortArray( 1, rSortArray, nullptr, true, true );
        size_t nMax = rSortArray.size();
        for ( size_t i = 0; i < nMax; i++ )
            rSortArray.at( i ) = ::rtl::math::approxFloor( rSortArray.at( i ) ) + nNullDate;
    }

    if ( nParamCount >= 3 )
    {
        if ( IsMissing() )
            Pop();
        else
        {
            switch ( GetStackType() )
            {
                case svDoubleRef :
                case svExternalDoubleRef :
                    return FormulaError::NoValue;

                default :
                    {
                        double fDouble;
                        svl::SharedString aSharedString;
                        bool bDouble = GetDoubleOrString( fDouble, aSharedString);
                        if ( bDouble )
                        {
                            if ( fDouble >= 1.0 && fDouble <= 17 )
                                aWeekendDays = OUString::number( fDouble );
                            else
                                return FormulaError::NoValue;
                        }
                        else
                        {
                            if ( aSharedString.isEmpty() || aSharedString.getLength() != 7 ||
                                 ( bWorkdayFunction && aSharedString.getString() == "1111111" ) )
                                return FormulaError::NoValue;
                            else
                                aWeekendDays = aSharedString.getString();
                        }
                    }
                    break;
            }
        }
    }

    for ( int i = 0; i < 7; i++ )
        bWeekendMask[ i] = false;

    if ( aWeekendDays.isEmpty() )
    {
        bWeekendMask[ SATURDAY ] = true;
        bWeekendMask[ SUNDAY ]   = true;
    }
    else
    {
        switch ( aWeekendDays.getLength() )
        {
            case 1 :
                // Weekend days defined by code
                switch ( aWeekendDays[ 0 ] )
                {
                    case '1' : bWeekendMask[ SATURDAY ]  = true; bWeekendMask[ SUNDAY ]    = true; break;
                    case '2' : bWeekendMask[ SUNDAY ]    = true; bWeekendMask[ MONDAY ]    = true; break;
                    case '3' : bWeekendMask[ MONDAY ]    = true; bWeekendMask[ TUESDAY ]   = true; break;
                    case '4' : bWeekendMask[ TUESDAY ]   = true; bWeekendMask[ WEDNESDAY ] = true; break;
                    case '5' : bWeekendMask[ WEDNESDAY ] = true; bWeekendMask[ THURSDAY ]  = true; break;
                    case '6' : bWeekendMask[ THURSDAY ]  = true; bWeekendMask[ FRIDAY ]    = true; break;
                    case '7' : bWeekendMask[ FRIDAY ]    = true; bWeekendMask[ SATURDAY ]  = true; break;
                    default  : nErr = FormulaError::IllegalArgument;                                          break;
                }
                break;
            case 2 :
                // Weekend day defined by code
                if ( aWeekendDays[ 0 ] == '1' )
                {
                    switch ( aWeekendDays[ 1 ] )
                    {
                        case '1' : bWeekendMask[ SUNDAY ]    = true; break;
                        case '2' : bWeekendMask[ MONDAY ]    = true; break;
                        case '3' : bWeekendMask[ TUESDAY ]   = true; break;
                        case '4' : bWeekendMask[ WEDNESDAY ] = true; break;
                        case '5' : bWeekendMask[ THURSDAY ]  = true; break;
                        case '6' : bWeekendMask[ FRIDAY ]    = true; break;
                        case '7' : bWeekendMask[ SATURDAY ]  = true; break;
                        default  : nErr = FormulaError::IllegalArgument;        break;
                    }
                }
                else
                    nErr = FormulaError::IllegalArgument;
                break;
            case 7 :
                // Weekend days defined by string
                for ( int i = 0; i < 7 && nErr == FormulaError::NONE; i++ )
                {
                    switch ( aWeekendDays[ i ] )
                    {
                        case '0' : bWeekendMask[ i ] = false; break;
                        case '1' : bWeekendMask[ i ] = true;  break;
                        default  : nErr = FormulaError::IllegalArgument; break;
                    }
                }
                break;
            default :
                nErr = FormulaError::IllegalArgument;
                break;
        }
    }
    return nErr;
}

void ScInterpreter::ScNetWorkdays( bool bOOXML_Version )
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2, 4 ) )
        return;

    vector<double> nSortArray;
    bool bWeekendMask[ 7 ];
    const Date& rNullDate = pFormatter->GetNullDate();
    sal_uInt32 nNullDate = Date::DateToDays( rNullDate.GetDay(), rNullDate.GetMonth(), rNullDate.GetYear() );
    FormulaError nErr;
    if ( bOOXML_Version )
    {
        nErr = GetWeekendAndHolidayMasks_MS( nParamCount, nNullDate,
                        nSortArray, bWeekendMask, false );
    }
    else
    {
        nErr = GetWeekendAndHolidayMasks( nParamCount, nNullDate,
                        nSortArray, bWeekendMask );
    }
    if ( nErr != FormulaError::NONE )
        PushError( nErr );
    else
    {
        sal_uInt32 nDate2 = GetUInt32();
        sal_uInt32 nDate1 = GetUInt32();
        if (nGlobalError != FormulaError::NONE || (nDate1 > SAL_MAX_UINT32 - nNullDate) || nDate2 > (SAL_MAX_UINT32 - nNullDate))
        {
            PushIllegalArgument();
            return;
        }
        nDate2 += nNullDate;
        nDate1 += nNullDate;

        sal_Int32 nCnt = 0;
        size_t nRef = 0;
        bool bReverse = ( nDate1 > nDate2 );
        if ( bReverse )
        {
            sal_uInt32 nTemp = nDate1;
            nDate1 = nDate2;
            nDate2 = nTemp;
        }
        size_t nMax = nSortArray.size();
        while ( nDate1 <= nDate2 )
        {
            if ( !bWeekendMask[ GetDayOfWeek( nDate1 ) ] )
            {
                while ( nRef < nMax && nSortArray.at( nRef ) < nDate1 )
                    nRef++;
                if ( nRef >= nMax || nSortArray.at( nRef ) != nDate1 )
                    nCnt++;
            }
            ++nDate1;
        }
        PushDouble( static_cast<double>( bReverse ? -nCnt : nCnt ) );
    }
}

void ScInterpreter::ScWorkday_MS()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2, 4 ) )
        return;

    nFuncFmtType = SvNumFormatType::DATE;
    vector<double> nSortArray;
    bool bWeekendMask[ 7 ];
    const Date& rNullDate = pFormatter->GetNullDate();
    sal_uInt32 nNullDate = Date::DateToDays( rNullDate.GetDay(), rNullDate.GetMonth(), rNullDate.GetYear() );
    FormulaError nErr = GetWeekendAndHolidayMasks_MS( nParamCount, nNullDate,
                        nSortArray, bWeekendMask, true );
    if ( nErr != FormulaError::NONE )
        PushError( nErr );
    else
    {
        sal_Int32 nDays = GetInt32();
        sal_uInt32 nDate = GetUInt32();
        if (nGlobalError != FormulaError::NONE || (nDate > SAL_MAX_UINT32 - nNullDate))
        {
            PushIllegalArgument();
            return;
        }
        nDate += nNullDate;

        if ( !nDays )
            PushDouble( static_cast<double>( nDate - nNullDate ) );
        else
        {
            size_t nMax = nSortArray.size();
            if ( nDays > 0 )
            {
                size_t nRef = 0;
                while ( nDays )
                {
                    do
                    {
                        ++nDate;
                    }
                    while ( bWeekendMask[ GetDayOfWeek( nDate ) ] ); //jump over weekend day(s)

                    while ( nRef < nMax && nSortArray.at( nRef ) < nDate )
                        nRef++;

                    if ( nRef >= nMax || nSortArray.at( nRef ) != nDate || nRef >= nMax )
                        nDays--;
                }
            }
            else
            {
                sal_Int16 nRef = nMax - 1;
                while ( nDays )
                {
                    do
                    {
                      --nDate;
                    }
                    while ( bWeekendMask[ GetDayOfWeek( nDate ) ] ); //jump over weekend day(s)

                    while ( nRef >= 0 && nSortArray.at( nRef ) > nDate )
                        nRef--;

                    if (nRef < 0 || nSortArray.at(nRef) != nDate)
                         nDays++;
                }
            }
            PushDouble( static_cast<double>( nDate - nNullDate ) );
        }
    }
}

void ScInterpreter::ScGetDate()
{
    nFuncFmtType = SvNumFormatType::DATE;
    if ( !MustHaveParamCount( GetByte(), 3 ) )
        return;

    sal_Int16 nDay   = GetInt16();
    sal_Int16 nMonth = GetInt16();
    if (IsMissing())
        SetError( FormulaError::ParameterExpected);    // Year must be given.
    sal_Int16 nYear  = GetInt16();
    if (nGlobalError != FormulaError::NONE || nYear < 0)
        PushIllegalArgument();
    else
        PushDouble(GetDateSerial(nYear, nMonth, nDay, false));
}

void ScInterpreter::ScGetTime()
{
    nFuncFmtType = SvNumFormatType::TIME;
    if ( MustHaveParamCount( GetByte(), 3 ) )
    {
        double fSec = GetDouble();
        double fMin = GetDouble();
        double fHour = GetDouble();
        double fTime = fmod( (fHour * ::tools::Time::secondPerHour) + (fMin * ::tools::Time::secondPerMinute) + fSec, DATE_TIME_FACTOR) / DATE_TIME_FACTOR;
        if (fTime < 0)
            PushIllegalArgument();
        else
            PushDouble( fTime);
    }
}

void ScInterpreter::ScGetDiffDate()
{
    if ( MustHaveParamCount( GetByte(), 2 ) )
    {
        double fDate2 = GetDouble();
        double fDate1 = GetDouble();
        PushDouble(fDate1 - fDate2);
    }
}

void ScInterpreter::ScGetDiffDate360()
{
    /* Implementation follows
     * http://www.bondmarkets.com/eCommerce/SMD_Fields_030802.pdf
     * Appendix B: Day-Count Bases, there are 7 different ways to calculate the
     * 30-days count. That document also claims that Excel implements the "PSA
     * 30" or "NASD 30" method (funny enough they also state that Excel is the
     * only tool that does so).
     *
     * Note that the definition given in
     * http://msdn.microsoft.com/library/en-us/office97/html/SEB7C.asp
     * is _not_ the way how it is actually calculated by Excel (that would not
     * even match any of the 7 methods mentioned above) and would result in the
     * following test cases producing wrong results according to that appendix B:
     *
     * 28-Feb-95  31-Aug-95  181 instead of 180
     * 29-Feb-96  31-Aug-96  181 instead of 180
     * 30-Jan-96  31-Mar-96   61 instead of  60
     * 31-Jan-96  31-Mar-96   61 instead of  60
     *
     * Still, there is a difference between OOoCalc and Excel:
     * In Excel:
     * 02-Feb-99 31-Mar-00 results in  419
     * 31-Mar-00 02-Feb-99 results in -418
     * In Calc the result is 419 respectively -419. I consider the -418 a bug in Excel.
     */

    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2, 3 ) )
        return;

    bool bFlag = nParamCount == 3 && GetBool();
    sal_Int32 nDate2 = GetInt32();
    sal_Int32 nDate1 = GetInt32();
    if (nGlobalError != FormulaError::NONE)
        PushError( nGlobalError);
    else
    {
        sal_Int32 nSign;
        // #i84934# only for non-US European algorithm swap dates. Else
        // follow Excel's meaningless extrapolation for "interoperability".
        if (bFlag && (nDate2 < nDate1))
        {
            nSign = nDate1;
            nDate1 = nDate2;
            nDate2 = nSign;
            nSign = -1;
        }
        else
            nSign = 1;
        Date aDate1 = pFormatter->GetNullDate();
        aDate1.AddDays( nDate1);
        Date aDate2 = pFormatter->GetNullDate();
        aDate2.AddDays( nDate2);
        if (aDate1.GetDay() == 31)
            aDate1.AddDays( -1);
        else if (!bFlag)
        {
            if (aDate1.GetMonth() == 2)
            {
                switch ( aDate1.GetDay() )
                {
                    case 28 :
                        if ( !aDate1.IsLeapYear() )
                            aDate1.SetDay(30);
                    break;
                    case 29 :
                        aDate1.SetDay(30);
                    break;
                }
            }
        }
        if (aDate2.GetDay() == 31)
        {
            if (!bFlag )
            {
                if (aDate1.GetDay() == 30)
                    aDate2.AddDays( -1);
            }
            else
                aDate2.SetDay(30);
        }
        PushDouble( static_cast<double>(nSign) *
            (  static_cast<double>(aDate2.GetDay()) + static_cast<double>(aDate2.GetMonth()) * 30.0 +
               static_cast<double>(aDate2.GetYear()) * 360.0
             - static_cast<double>(aDate1.GetDay()) - static_cast<double>(aDate1.GetMonth()) * 30.0
             - static_cast<double>(aDate1.GetYear()) * 360.0) );
    }
}

// fdo#44456 function DATEDIF as defined in ODF1.2 (Par. 6.10.3)
void ScInterpreter::ScGetDateDif()
{
    if ( !MustHaveParamCount( GetByte(), 3 ) )
        return;

    OUString aInterval = GetString().getString();
    sal_Int32 nDate2 = GetInt32();
    sal_Int32 nDate1 = GetInt32();

    if (nGlobalError != FormulaError::NONE)
    {
        PushError( nGlobalError);
        return;
    }

    // Excel doesn't swap dates or return negative numbers, so don't we.
    if (nDate1 > nDate2)
    {
        PushIllegalArgument();
        return;
    }

    double dd = nDate2 - nDate1;
    // Zero difference or number of days can be returned immediately.
    if (dd == 0.0 || aInterval.equalsIgnoreAsciiCase( "d" ))
    {
        PushDouble( dd );
        return;
    }

    // split dates in day, month, year for use with formats other than "d"
    sal_uInt16 d1, m1, d2, m2;
    sal_Int16 y1, y2;
    Date aDate1( pFormatter->GetNullDate());
    aDate1.AddDays( nDate1);
    y1 = aDate1.GetYear();
    m1 = aDate1.GetMonth();
    d1 = aDate1.GetDay();
    Date aDate2( pFormatter->GetNullDate());
    aDate2.AddDays( nDate2);
    y2 = aDate2.GetYear();
    m2 = aDate2.GetMonth();
    d2 = aDate2.GetDay();

    // Close the year 0 gap to calculate year difference.
    if (y1 < 0 && y2 > 0)
        ++y1;
    else if (y1 > 0 && y2 < 0)
        ++y2;

    if (  aInterval.equalsIgnoreAsciiCase( "m" ) )
    {
        // Return number of months.
        int md = m2 - m1 + 12 * (y2 - y1);
        if (d1 > d2)
            --md;
        PushInt( md );
    }
    else if ( aInterval.equalsIgnoreAsciiCase( "y" ) )
    {
        // Return number of years.
        int yd;
        if ( y2 > y1 )
        {
            if (m2 > m1 || (m2 == m1 && d2 >= d1))
                yd = y2 - y1;       // complete years between dates
            else
                yd = y2 - y1 - 1;   // one incomplete year
        }
        else
        {
            // Year is equal as we don't allow reversed arguments, no
            // complete year between dates.
            yd = 0;
        }
        PushInt( yd );
    }
    else if ( aInterval.equalsIgnoreAsciiCase( "md" ) )
    {
        // Return number of days, excluding months and years.
        // This is actually the remainder of days when subtracting years
        // and months from the difference of dates. Birthday-like 23 years
        // and 10 months and 19 days.

        // Algorithm's roll-over behavior extracted from Excel by try and
        // error...
        // If day1 <= day2 then simply day2 - day1.
        // If day1 > day2 then set month1 to month2-1 and year1 to
        // year2(-1) and subtract dates, e.g. for 2012-01-28,2012-03-01 set
        // 2012-02-28 and then (2012-03-01)-(2012-02-28) => 2 days (leap
        // year).
        // For 2011-01-29,2011-03-01 the non-existent 2011-02-29 rolls over
        // to 2011-03-01 so the result is 0. Same for day 31 in months with
        // only 30 days.

        tools::Long nd;
        if (d1 <= d2)
            nd = d2 - d1;
        else
        {
            if (m2 == 1)
            {
                aDate1.SetYear( y2 == 1 ? -1 : y2 - 1 );
                aDate1.SetMonth( 12 );
            }
            else
            {
                aDate1.SetYear( y2 );
                aDate1.SetMonth( m2 - 1 );
            }
            aDate1.Normalize();
            nd = aDate2 - aDate1;
        }
        PushDouble( nd );
    }
    else if ( aInterval.equalsIgnoreAsciiCase( "ym" ) )
    {
        // Return number of months, excluding years.
        int md = m2 - m1 + 12 * (y2 - y1);
        if (d1 > d2)
            --md;
        md %= 12;
        PushInt( md );
    }
    else if ( aInterval.equalsIgnoreAsciiCase( "yd" ) )
    {
        // Return number of days, excluding years.

        // Condition corresponds with "y".
        if (m2 > m1 || (m2 == m1 && d2 >= d1))
            aDate1.SetYear( y2 );
        else
            aDate1.SetYear( y2 - 1 );
            // XXX NOTE: Excel for the case 1988-06-22,2012-05-11 returns
            // 323, whereas the result here is 324. Don't they use the leap
            // year of 2012?
            // http://www.cpearson.com/excel/datedif.aspx "DATEDIF And Leap
            // Years" is not correct and Excel 2010 correctly returns 0 in
            // both cases mentioned there. Also using year1 as mentioned
            // produces incorrect results in other cases and different from
            // Excel 2010. Apparently they fixed some calculations.
        aDate1.Normalize();
        double fd = aDate2 - aDate1;
        PushDouble( fd );
    }
    else
        PushIllegalArgument();               // unsupported format
}

void ScInterpreter::ScGetTimeValue()
{
    OUString aInputString = GetString().getString();
    sal_uInt32 nFIndex = 0;                 // damit default Land/Spr.
    double fVal;
    if (pFormatter->IsNumberFormat(aInputString, nFIndex, fVal, SvNumInputOptions::LAX_TIME))
    {
        SvNumFormatType eType = pFormatter->GetType(nFIndex);
        if (eType == SvNumFormatType::TIME || eType == SvNumFormatType::DATETIME)
        {
            nFuncFmtType = SvNumFormatType::TIME;
            double fDateVal = rtl::math::approxFloor(fVal);
            double fTimeVal = fVal - fDateVal;
            PushDouble(fTimeVal);
        }
        else
            PushIllegalArgument();
    }
    else
        PushIllegalArgument();
}

void ScInterpreter::ScPlusMinus()
{
    double fVal = GetDouble();
    short n = 0;
    if (fVal < 0.0)
        n = -1;
    else if (fVal > 0.0)
        n = 1;
    PushInt( n );
}

void ScInterpreter::ScAbs()
{
    PushDouble(std::abs(GetDouble()));
}

void ScInterpreter::ScInt()
{
    PushDouble(::rtl::math::approxFloor(GetDouble()));
}

void ScInterpreter::RoundNumber( rtl_math_RoundingMode eMode )
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fVal = 0.0;
    if (nParamCount == 1)
        fVal = ::rtl::math::round( GetDouble(), 0, eMode );
    else
    {
        sal_Int16 nDec = GetInt16();
        double fX = GetDouble();
        if (nGlobalError == FormulaError::NONE)
        {
            if ( ( eMode == rtl_math_RoundingMode_Down ||
                   eMode == rtl_math_RoundingMode_Up ) &&
                 nDec < 12 && fmod( fX, 1.0 ) != 0.0 )
            {
                // tdf124286 : round to 12 significant digits before rounding
                //             down or up to avoid unexpected rounding errors
                //             caused by decimal -> binary -> decimal conversion
                double fRes;
                RoundSignificant( fX, 12, fRes );
                fVal = ::rtl::math::round( fRes, nDec, eMode );
            }
            else
                fVal = ::rtl::math::round( fX, nDec, eMode );
        }
    }
    PushDouble(fVal);
}

void ScInterpreter::ScRound()
{
    RoundNumber( rtl_math_RoundingMode_Corrected );
}

void ScInterpreter::ScRoundDown()
{
    RoundNumber( rtl_math_RoundingMode_Down );
}

void ScInterpreter::ScRoundUp()
{
    RoundNumber( rtl_math_RoundingMode_Up );
}

void ScInterpreter::RoundSignificant( double fX, double fDigits, double &fRes )
{
    double fTemp = ::rtl::math::approxFloor( log10( std::abs(fX) ) ) + 1.0 - fDigits;
    fRes = ::rtl::math::round( pow(10.0, -fTemp ) * fX ) * pow( 10.0, fTemp );
}

// tdf#105931
void ScInterpreter::ScRoundSignificant()
{
    if ( !MustHaveParamCount( GetByte(), 2 ) )
        return;

    double fDigits = ::rtl::math::approxFloor( GetDouble() );
    double fX = GetDouble();
    if ( nGlobalError != FormulaError::NONE || fDigits < 1.0 )
    {
        PushIllegalArgument();
        return;
    }

    if ( fX == 0.0 )
        PushDouble( 0.0 );
    else
    {
        double fRes;
        RoundSignificant( fX, fDigits, fRes );
        PushDouble( fRes );
    }
}

/** tdf69552 ODFF1.2 function CEILING and Excel function CEILING.MATH
    In essence, the difference between the two is that ODFF-CEILING needs to
    have arguments value and significance of the same sign and with
    CEILING.MATH the sign of argument significance is irrevelevant.
    This is why ODFF-CEILING is exported to Excel as CEILING.MATH and
    CEILING.MATH is imported in Calc as CEILING.MATH
 */
void ScInterpreter::ScCeil( bool bODFF )
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 3 ) )
        return;

    bool bAbs = nParamCount == 3 && GetBool();
    double fDec, fVal;
    if ( nParamCount == 1 )
    {
        fVal = GetDouble();
        fDec = ( fVal < 0 ? -1 : 1 );
    }
    else
    {
        bool bArgumentMissing = IsMissing();
        fDec = GetDouble();
        fVal = GetDouble();
        if ( bArgumentMissing )
            fDec = ( fVal < 0 ? -1 : 1 );
    }
    if ( fVal == 0 || fDec == 0.0 )
        PushInt( 0 );
    else
    {
        if ( bODFF && fVal * fDec < 0 )
            PushIllegalArgument();
        else
        {
            if ( fVal * fDec < 0.0 )
                fDec = -fDec;

            if ( !bAbs && fVal < 0.0 )
                PushDouble(::rtl::math::approxFloor( fVal / fDec ) * fDec );
            else
                PushDouble(::rtl::math::approxCeil( fVal / fDec ) * fDec );
        }
    }
}

void ScInterpreter::ScCeil_MS()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2 ) )
        return;

    double fDec = GetDouble();
    double fVal = GetDouble();
    if ( fVal == 0 || fDec == 0.0 )
        PushInt(0);
    else if ( fVal * fDec > 0 )
        PushDouble(::rtl::math::approxCeil( fVal / fDec ) * fDec );
    else if ( fVal < 0.0 )
        PushDouble(::rtl::math::approxFloor( fVal / -fDec ) * -fDec );
    else
        PushIllegalArgument();
}

void ScInterpreter::ScCeil_Precise()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fDec, fVal;
    if ( nParamCount == 1 )
    {
        fVal = GetDouble();
        fDec = 1.0;
    }
    else
    {
        fDec = std::abs( GetDoubleWithDefault( 1.0 ));
        fVal = GetDouble();
    }
    if ( fDec == 0.0 || fVal == 0.0 )
        PushInt( 0 );
    else
        PushDouble(::rtl::math::approxCeil( fVal / fDec ) * fDec );
}

/** tdf69552 ODFF1.2 function FLOOR and Excel function FLOOR.MATH
    In essence, the difference between the two is that ODFF-FLOOR needs to
    have arguments value and significance of the same sign and with
    FLOOR.MATH the sign of argument significance is irrevelevant.
    This is why ODFF-FLOOR is exported to Excel as FLOOR.MATH and
    FLOOR.MATH is imported in Calc as FLOOR.MATH
 */
void ScInterpreter::ScFloor( bool bODFF )
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 3 ) )
        return;

    bool bAbs = ( nParamCount == 3 && GetBool() );
    double fDec, fVal;
    if ( nParamCount == 1 )
    {
        fVal = GetDouble();
        fDec = ( fVal < 0 ? -1 : 1 );
    }
    else
    {
        bool bArgumentMissing = IsMissing();
        fDec = GetDouble();
        fVal = GetDouble();
        if ( bArgumentMissing )
            fDec = ( fVal < 0 ? -1 : 1 );
    }
    if ( fDec == 0.0 || fVal == 0.0 )
        PushInt( 0 );
    else
    {
        if ( bODFF && ( fVal * fDec < 0.0 ) )
            PushIllegalArgument();
        else
        {
            if ( fVal * fDec < 0.0 )
                fDec = -fDec;

            if ( !bAbs && fVal < 0.0 )
                PushDouble(::rtl::math::approxCeil( fVal / fDec ) * fDec );
            else
                PushDouble(::rtl::math::approxFloor( fVal / fDec ) * fDec );
        }
    }
}

void ScInterpreter::ScFloor_MS()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2 ) )
        return;

    double fDec = GetDouble();
    double fVal = GetDouble();

    if ( fVal == 0 )
        PushInt( 0 );
    else if ( fVal * fDec > 0 )
        PushDouble(::rtl::math::approxFloor( fVal / fDec ) * fDec );
    else if ( fDec == 0 )
        PushIllegalArgument();
    else if ( fVal < 0.0 )
        PushDouble(::rtl::math::approxCeil( fVal / -fDec ) * -fDec );
    else
        PushIllegalArgument();
}

void ScInterpreter::ScFloor_Precise()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fDec = nParamCount == 1 ? 1.0 : std::abs( GetDoubleWithDefault( 1.0 ) );
    double fVal = GetDouble();
    if ( fDec == 0.0 || fVal == 0.0 )
        PushInt( 0 );
    else
        PushDouble(::rtl::math::approxFloor( fVal / fDec ) * fDec );
}

void ScInterpreter::ScEven()
{
    double fVal = GetDouble();
    if (fVal < 0.0)
        PushDouble(::rtl::math::approxFloor(fVal/2.0) * 2.0);
    else
        PushDouble(::rtl::math::approxCeil(fVal/2.0) * 2.0);
}

void ScInterpreter::ScOdd()
{
    double fVal = GetDouble();
    if (fVal >= 0.0)
    {
        fVal = ::rtl::math::approxCeil(fVal);
        if (fmod(fVal, 2.0) == 0.0)
            ++fVal;
    }
    else
    {
        fVal = ::rtl::math::approxFloor(fVal);
        if (fmod(fVal, 2.0) == 0.0)
            --fVal;
    }
    PushDouble(fVal);
}

void ScInterpreter::ScArcTan2()
{
    if ( MustHaveParamCount( GetByte(), 2 ) )
    {
        double fVal2 = GetDouble();
        double fVal1 = GetDouble();
        PushDouble(atan2(fVal2, fVal1));
    }
}

void ScInterpreter::ScLog()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fBase = nParamCount == 2 ? GetDouble() : 10.0;
    double fVal = GetDouble();
    if (fVal > 0.0 && fBase > 0.0 && fBase != 1.0)
        PushDouble(log(fVal) / log(fBase));
    else
        PushIllegalArgument();
}

void ScInterpreter::ScLn()
{
    double fVal = GetDouble();
    if (fVal > 0.0)
        PushDouble(log(fVal));
    else
        PushIllegalArgument();
}

void ScInterpreter::ScLog10()
{
    double fVal = GetDouble();
    if (fVal > 0.0)
        PushDouble(log10(fVal));
    else
        PushIllegalArgument();
}

void ScInterpreter::ScNPV()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    short nParamCount = GetByte();
    if ( !MustHaveParamCountMin( nParamCount, 2) )
        return;

    KahanSum fVal = 0.0;
    // We turn the stack upside down!
    ReverseStack( nParamCount);
    if (nGlobalError == FormulaError::NONE)
    {
        double  fCount = 1.0;
        double  fRate = GetDouble();
        --nParamCount;
        size_t nRefInList = 0;
        ScRange aRange;
        while (nParamCount-- > 0)
        {
            switch (GetStackType())
            {
                case svDouble :
                {
                    fVal += GetDouble() / pow(1.0 + fRate, fCount);
                    fCount++;
                }
                break;
                case svSingleRef :
                {
                    ScAddress aAdr;
                    PopSingleRef( aAdr );
                    ScRefCellValue aCell(mrDoc, aAdr);
                    if (!aCell.hasEmptyValue() && aCell.hasNumeric())
                    {
                        double fCellVal = GetCellValue(aAdr, aCell);
                        fVal += fCellVal / pow(1.0 + fRate, fCount);
                        fCount++;
                    }
                }
                break;
                case svDoubleRef :
                case svRefList :
                {
                    FormulaError nErr = FormulaError::NONE;
                    double fCellVal;
                    PopDoubleRef( aRange, nParamCount, nRefInList);
                    ScHorizontalValueIterator aValIter( mrDoc, aRange );
                    while ((nErr == FormulaError::NONE) && aValIter.GetNext(fCellVal, nErr))
                    {
                        fVal += fCellVal / pow(1.0 + fRate, fCount);
                        fCount++;
                    }
                    if ( nErr != FormulaError::NONE )
                        SetError(nErr);
                }
                break;
                case svMatrix :
                case svExternalSingleRef:
                case svExternalDoubleRef:
                {
                    ScMatrixRef pMat = GetMatrix();
                    if (pMat)
                    {
                        SCSIZE nC, nR;
                        pMat->GetDimensions(nC, nR);
                        if (nC == 0 || nR == 0)
                        {
                            PushIllegalArgument();
                            return;
                        }
                        else
                        {
                            double fx;
                            for ( SCSIZE j = 0; j < nC; j++ )
                            {
                                for (SCSIZE k = 0; k < nR; ++k)
                                {
                                    if (!pMat->IsValue(j,k))
                                    {
                                        PushIllegalArgument();
                                        return;
                                    }
                                    fx = pMat->GetDouble(j,k);
                                    fVal += fx / pow(1.0 + fRate, fCount);
                                    fCount++;
                                }
                            }
                        }
                    }
                }
                break;
                default : SetError(FormulaError::IllegalParameter); break;
            }
        }
    }
    PushDouble(fVal.get());
}

void ScInterpreter::ScIRR()
{
    nFuncFmtType = SvNumFormatType::PERCENT;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;
    double fEstimated = nParamCount == 2 ? GetDouble() : 0.1;
    double fEps = 1.0;
    // If it's -1 the default result for division by zero else startvalue
    double x = fEstimated == -1.0 ? 0.1 : fEstimated;
    double fValue;

    ScRange aRange;
    ScMatrixRef pMat;
    SCSIZE nC = 0;
    SCSIZE nR = 0;
    bool bIsMatrix = false;
    switch (GetStackType())
    {
        case svDoubleRef:
            PopDoubleRef(aRange);
        break;
        case svMatrix:
        case svExternalSingleRef:
        case svExternalDoubleRef:
            pMat = GetMatrix();
            if (pMat)
            {
                pMat->GetDimensions(nC, nR);
                if (nC == 0 || nR == 0)
                {
                    PushIllegalParameter();
                    return;
                }
                bIsMatrix = true;
            }
            else
            {
                PushIllegalParameter();
                return;
            }
            break;
        default:
        {
            PushIllegalParameter();
            return;
        }
    }
    const sal_uInt16 nIterationsMax = 20;
    sal_uInt16 nItCount = 0;
    FormulaError nIterError = FormulaError::NONE;
    while (fEps > SCdEpsilon && nItCount < nIterationsMax && nGlobalError == FormulaError::NONE)
    {                                       // Newtons method:
        KahanSum fNom = 0.0;
        KahanSum fDenom = 0.0;
        double fCount = 0.0;
        if (bIsMatrix)
        {
            for (SCSIZE j = 0; j < nC && nGlobalError == FormulaError::NONE; j++)
            {
                for (SCSIZE k = 0; k < nR; k++)
                {
                    if (!pMat->IsValue(j, k))
                        continue;
                    fValue = pMat->GetDouble(j, k);
                    if (nGlobalError != FormulaError::NONE)
                        break;

                    fNom   +=           fValue / pow(1.0+x,fCount);
                    fDenom += -fCount * fValue / pow(1.0+x,fCount+1.0);
                    fCount++;
                }
            }
        }
        else
        {
            ScValueIterator aValIter(mrContext, mrDoc, aRange, mnSubTotalFlags);
            bool bLoop = aValIter.GetFirst(fValue, nIterError);
            while (bLoop && nIterError == FormulaError::NONE)
            {
                fNom   +=           fValue / pow(1.0+x,fCount);
                fDenom += -fCount * fValue / pow(1.0+x,fCount+1.0);
                fCount++;

                bLoop = aValIter.GetNext(fValue, nIterError);
            }
            SetError(nIterError);
        }
        double xNew = x - fNom.get() / fDenom.get();  // x(i+1) = x(i)-f(x(i))/f'(x(i))
        nItCount++;
        fEps = std::abs(xNew - x);
        x = xNew;
    }
    if (fEstimated == 0.0 && std::abs(x) < SCdEpsilon)
        x = 0.0;                        // adjust to zero
    if (fEps < SCdEpsilon)
        PushDouble(x);
    else
        PushError( FormulaError::NoConvergence);
}

void ScInterpreter::ScMIRR()
{   // range_of_values ; rate_invest ; rate_reinvest
    nFuncFmtType = SvNumFormatType::PERCENT;
    if ( !MustHaveParamCount( GetByte(), 3 ) )
        return;

    double fRate1_reinvest = GetDouble() + 1;
    double fRate1_invest = GetDouble() + 1;

    ScRange aRange;
    ScMatrixRef pMat;
    SCSIZE nC = 0;
    SCSIZE nR = 0;
    bool bIsMatrix = false;
    switch ( GetStackType() )
    {
        case svDoubleRef :
            PopDoubleRef( aRange );
            break;
        case svMatrix :
        case svExternalSingleRef:
        case svExternalDoubleRef:
            {
                pMat = GetMatrix();
                if ( pMat )
                {
                    pMat->GetDimensions( nC, nR );
                    if ( nC == 0 || nR == 0 )
                        SetError( FormulaError::IllegalArgument );
                    bIsMatrix = true;
                }
                else
                    SetError( FormulaError::IllegalArgument );
            }
            break;
        default :
            SetError( FormulaError::IllegalParameter );
            break;
    }

    if ( nGlobalError != FormulaError::NONE )
        PushError( nGlobalError );
    else
    {
        KahanSum fNPV_reinvest = 0.0;
        double fPow_reinvest = 1.0;
        KahanSum fNPV_invest = 0.0;
        double fPow_invest = 1.0;
        sal_uLong nCount = 0;
        bool bHasPosValue = false;
        bool bHasNegValue = false;

        if ( bIsMatrix )
        {
            double fX;
            for ( SCSIZE j = 0; j < nC; j++ )
            {
                for ( SCSIZE k = 0; k < nR; ++k )
                {
                    if ( !pMat->IsValue( j, k ) )
                        continue;
                    fX = pMat->GetDouble( j, k );
                    if ( nGlobalError != FormulaError::NONE )
                        break;

                    if ( fX > 0.0 )
                    {    // reinvestments
                        bHasPosValue = true;
                        fNPV_reinvest += fX * fPow_reinvest;
                    }
                    else if ( fX < 0.0 )
                    {   // investments
                        bHasNegValue = true;
                        fNPV_invest += fX * fPow_invest;
                    }
                    fPow_reinvest /= fRate1_reinvest;
                    fPow_invest /= fRate1_invest;
                    nCount++;
                }
            }
        }
        else
        {
            ScValueIterator aValIter( mrContext, mrDoc, aRange, mnSubTotalFlags );
            double fCellValue;
            FormulaError nIterError = FormulaError::NONE;

            bool bLoop = aValIter.GetFirst( fCellValue, nIterError );
            while( bLoop )
            {
                if( fCellValue > 0.0 )          // reinvestments
                {    // reinvestments
                    bHasPosValue = true;
                    fNPV_reinvest += fCellValue * fPow_reinvest;
                }
                else if( fCellValue < 0.0 )     // investments
                {   // investments
                    bHasNegValue = true;
                    fNPV_invest += fCellValue * fPow_invest;
                }
                fPow_reinvest /= fRate1_reinvest;
                fPow_invest /= fRate1_invest;
                nCount++;

                bLoop = aValIter.GetNext( fCellValue, nIterError );
            }

            if ( nIterError != FormulaError::NONE )
                SetError( nIterError );
        }
        if ( !( bHasPosValue && bHasNegValue ) )
            SetError( FormulaError::IllegalArgument );

        if ( nGlobalError != FormulaError::NONE )
            PushError( nGlobalError );
        else
        {
            double fResult = -fNPV_reinvest.get() / fNPV_invest.get();
            fResult *= pow( fRate1_reinvest, static_cast<double>( nCount - 1 ) );
            fResult = pow( fResult, div( 1.0, (nCount - 1)) );
            PushDouble( fResult - 1.0 );
        }
    }
}

void ScInterpreter::ScISPMT()
{   // rate ; period ; total_periods ; invest
    if( MustHaveParamCount( GetByte(), 4 ) )
    {
        double fInvest = GetDouble();
        double fTotal = GetDouble();
        double fPeriod = GetDouble();
        double fRate = GetDouble();

        if( nGlobalError != FormulaError::NONE )
            PushError( nGlobalError);
        else
            PushDouble( fInvest * fRate * (fPeriod / fTotal - 1.0) );
    }
}

// financial functions
double ScInterpreter::ScGetPV(double fRate, double fNper, double fPmt,
                              double fFv, bool bPayInAdvance)
{
    double fPv;
    if (fRate == 0.0)
        fPv = fFv + fPmt * fNper;
    else
    {
        if (bPayInAdvance)
            fPv = (fFv * pow(1.0 + fRate, -fNper))
                    + (fPmt * (1.0 - pow(1.0 + fRate, -fNper + 1.0)) / fRate)
                    + fPmt;
        else
            fPv = (fFv * pow(1.0 + fRate, -fNper))
                    + (fPmt * (1.0 - pow(1.0 + fRate, -fNper)) / fRate);
    }
    return -fPv;
}

void ScInterpreter::ScPV()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 5 ) )
        return;

    bool bPayInAdvance = nParamCount == 5 && GetBool();
    double fFv   = nParamCount >= 4 ? GetDouble() : 0;
    double fPmt  = GetDouble();
    double fNper = GetDouble();
    double fRate = GetDouble();
    PushDouble(ScGetPV(fRate, fNper, fPmt, fFv, bPayInAdvance));
}

void ScInterpreter::ScSYD()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    if ( MustHaveParamCount( GetByte(), 4 ) )
    {
        double fPer = GetDouble();
        double fLife = GetDouble();
        double fSalvage = GetDouble();
        double fCost = GetDouble();
        double fSyd = ((fCost - fSalvage) * (fLife - fPer + 1.0)) /
                      ((fLife * (fLife + 1.0)) / 2.0);
        PushDouble(fSyd);
    }
}

double ScInterpreter::ScGetDDB(double fCost, double fSalvage, double fLife,
                double fPeriod, double fFactor)
{
    double fDdb, fRate, fOldValue, fNewValue;
    fRate = fFactor / fLife;
    if (fRate >= 1.0)
    {
        fRate = 1.0;
        fOldValue = fPeriod == 1.0 ? fCost : 0;
    }
    else
        fOldValue = fCost * pow(1.0 - fRate, fPeriod - 1.0);
    fNewValue = fCost * pow(1.0 - fRate, fPeriod);

    fDdb = fNewValue < fSalvage ? fOldValue - fSalvage : fOldValue - fNewValue;
    return fDdb < 0 ? 0 : fDdb;
}

void ScInterpreter::ScDDB()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 4, 5 ) )
        return;

    double fFactor = nParamCount == 5 ? GetDouble() : 2.0;
    double fPeriod = GetDouble();
    double fLife   = GetDouble();
    double fSalvage    = GetDouble();
    double fCost    = GetDouble();
    if (fCost < 0.0 || fSalvage < 0.0 || fFactor <= 0.0 || fSalvage > fCost
                    || fPeriod < 1.0 || fPeriod > fLife)
        PushIllegalArgument();
    else
        PushDouble(ScGetDDB(fCost, fSalvage, fLife, fPeriod, fFactor));
}

void ScInterpreter::ScDB()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 4, 5 ) )
        return ;
    double fMonths = nParamCount == 4 ? 12.0 : ::rtl::math::approxFloor(GetDouble());
    double fPeriod = GetDouble();
    double fLife = GetDouble();
    double fSalvage = GetDouble();
    double fCost = GetDouble();
    if (fMonths < 1.0 || fMonths > 12.0 || fLife > 1200.0 || fSalvage < 0.0 ||
        fPeriod > (fLife + 1.0) || fSalvage > fCost || fCost <= 0.0 ||
        fLife <= 0 || fPeriod <= 0 )
    {
        PushIllegalArgument();
        return;
    }
    double fOffRate = 1.0 - pow(fSalvage / fCost, 1.0 / fLife);
    fOffRate = ::rtl::math::approxFloor((fOffRate * 1000.0) + 0.5) / 1000.0;
    double fFirstOffRate = fCost * fOffRate * fMonths / 12.0;
    double fDb = 0.0;
    if (::rtl::math::approxFloor(fPeriod) == 1)
        fDb = fFirstOffRate;
    else
    {
        KahanSum fSumOffRate = fFirstOffRate;
        double fMin = fLife;
        if (fMin > fPeriod) fMin = fPeriod;
        sal_uInt16 iMax = static_cast<sal_uInt16>(::rtl::math::approxFloor(fMin));
        for (sal_uInt16 i = 2; i <= iMax; i++)
        {
            fDb = -(fSumOffRate - fCost).get() * fOffRate;
            fSumOffRate += fDb;
        }
        if (fPeriod > fLife)
            fDb = -(fSumOffRate - fCost).get() * fOffRate * (12.0 - fMonths) / 12.0;
    }
    PushDouble(fDb);
}

double ScInterpreter::ScInterVDB(double fCost, double fSalvage, double fLife,
                             double fLife1, double fPeriod, double fFactor)
{
    KahanSum fVdb = 0.0;
    double fIntEnd   = ::rtl::math::approxCeil(fPeriod);
    sal_uLong nLoopEnd   = static_cast<sal_uLong>(fIntEnd);

    double fTerm, fSln = 0; // SLN: Straight-Line Depreciation
    double fSalvageValue = fCost - fSalvage;
    bool bNowSln = false;

    double fDdb;
    sal_uLong i;
    for ( i = 1; i <= nLoopEnd; i++)
    {
        if(!bNowSln)
        {
            fDdb = ScGetDDB(fCost, fSalvage, fLife, static_cast<double>(i), fFactor);
            fSln = fSalvageValue/ (fLife1 - static_cast<double>(i-1));

            if (fSln > fDdb)
            {
                fTerm = fSln;
                bNowSln = true;
            }
            else
            {
                fTerm = fDdb;
                fSalvageValue -= fDdb;
            }
        }
        else
        {
            fTerm = fSln;
        }

        if ( i == nLoopEnd)
            fTerm *= ( fPeriod + 1.0 - fIntEnd );

        fVdb += fTerm;
    }
    return fVdb.get();
}

void ScInterpreter::ScVDB()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 5, 7 ) )
        return;

    KahanSum fVdb = 0.0;
    bool bNoSwitch = nParamCount == 7 && GetBool();
    double  fFactor = nParamCount >= 6 ? GetDouble() : 2.0;
    double fEnd   = GetDouble();
    double fStart = GetDouble();
    double fLife  = GetDouble();
    double fSalvage   = GetDouble();
    double fCost   = GetDouble();
    if (fStart < 0.0 || fEnd < fStart || fEnd > fLife || fCost < 0.0
                      || fSalvage > fCost || fFactor <= 0.0)
        PushIllegalArgument();
    else
    {
        double fIntStart = ::rtl::math::approxFloor(fStart);
        double fIntEnd   = ::rtl::math::approxCeil(fEnd);
        sal_uLong nLoopStart = static_cast<sal_uLong>(fIntStart);
        sal_uLong nLoopEnd   = static_cast<sal_uLong>(fIntEnd);

        if (bNoSwitch)
        {
            for (sal_uLong i = nLoopStart + 1; i <= nLoopEnd; i++)
            {
                double fTerm = ScGetDDB(fCost, fSalvage, fLife, static_cast<double>(i), fFactor);

                //respect partial period in the Beginning/ End:
                if ( i == nLoopStart+1 )
                    fTerm *= ( std::min( fEnd, fIntStart + 1.0 ) - fStart );
                else if ( i == nLoopEnd )
                    fTerm *= ( fEnd + 1.0 - fIntEnd );

                fVdb += fTerm;
            }
        }
        else
        {
            double fPart = 0.0;
            // respect partial period in the Beginning / End:
            if ( !::rtl::math::approxEqual( fStart, fIntStart ) ||
                 !::rtl::math::approxEqual( fEnd, fIntEnd ) )
            {
                if ( !::rtl::math::approxEqual( fStart, fIntStart ) )
                {
                    // part to be subtracted at the beginning
                    double fTempIntEnd = fIntStart + 1.0;
                    double fTempValue = fCost -
                        ScInterVDB( fCost, fSalvage, fLife, fLife, fIntStart, fFactor );
                    fPart += ( fStart - fIntStart ) *
                        ScInterVDB( fTempValue, fSalvage, fLife, fLife - fIntStart,
                        fTempIntEnd - fIntStart, fFactor);
                }
                if ( !::rtl::math::approxEqual( fEnd, fIntEnd ) )
                {
                    // part to be subtracted at the end
                    double fTempIntStart = fIntEnd - 1.0;
                    double fTempValue = fCost -
                        ScInterVDB( fCost, fSalvage, fLife, fLife, fTempIntStart, fFactor );
                    fPart += ( fIntEnd - fEnd ) *
                        ScInterVDB( fTempValue, fSalvage, fLife, fLife - fTempIntStart,
                        fIntEnd - fTempIntStart, fFactor);
                }
            }
            // calculate depreciation for whole periods
            fCost -= ScInterVDB( fCost, fSalvage, fLife, fLife, fIntStart, fFactor );
            fVdb = ScInterVDB( fCost, fSalvage, fLife, fLife - fIntStart,
                fIntEnd - fIntStart, fFactor);
            fVdb -= fPart;
        }
    }
    PushDouble(fVdb.get());
}

void ScInterpreter::ScPDuration()
{
    if ( MustHaveParamCount( GetByte(), 3 ) )
    {
        double fFuture = GetDouble();
        double fPresent = GetDouble();
        double fRate = GetDouble();
        if ( fFuture <= 0.0 || fPresent <= 0.0 || fRate <= 0.0 )
            PushIllegalArgument();
        else
            PushDouble( std::log( fFuture / fPresent ) / rtl::math::log1p( fRate ) );
    }
}

void ScInterpreter::ScSLN()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    if ( MustHaveParamCount( GetByte(), 3 ) )
    {
        double fLife = GetDouble();
        double fSalvage = GetDouble();
        double fCost = GetDouble();
        PushDouble( div( fCost - fSalvage, fLife ) );
    }
}

double ScInterpreter::ScGetPMT(double fRate, double fNper, double fPv,
                       double fFv, bool bPayInAdvance)
{
    double fPayment;
    if (fRate == 0.0)
        fPayment = (fPv + fFv) / fNper;
    else
    {
        if (bPayInAdvance) // payment in advance
            fPayment = (fFv + fPv * exp( fNper * ::rtl::math::log1p(fRate) ) ) * fRate /
                (std::expm1( (fNper + 1) * ::rtl::math::log1p(fRate) ) - fRate);
        else  // payment in arrear
            fPayment = (fFv + fPv * exp(fNper * ::rtl::math::log1p(fRate) ) ) * fRate /
                std::expm1( fNper * ::rtl::math::log1p(fRate) );
    }
    return -fPayment;
}

void ScInterpreter::ScPMT()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 5 ) )
        return;
    bool bPayInAdvance = nParamCount == 5 && GetBool();
    double fFv   = nParamCount >= 4 ? GetDouble() : 0;
    double fPv   = GetDouble();
    double fNper = GetDouble();
    double fRate = GetDouble();
    PushDouble(ScGetPMT(fRate, fNper, fPv, fFv, bPayInAdvance));
}

void ScInterpreter::ScRRI()
{
    nFuncFmtType = SvNumFormatType::PERCENT;
    if ( MustHaveParamCount( GetByte(), 3 ) )
    {
        double fFutureValue = GetDouble();
        double fPresentValue = GetDouble();
        double fNrOfPeriods = GetDouble();
        if ( fNrOfPeriods <= 0.0  || fPresentValue == 0.0 )
            PushIllegalArgument();
        else
            PushDouble(pow(fFutureValue / fPresentValue, 1.0 / fNrOfPeriods) - 1.0);
    }
}

double ScInterpreter::ScGetFV(double fRate, double fNper, double fPmt,
                              double fPv, bool bPayInAdvance)
{
    double fFv;
    if (fRate == 0.0)
        fFv = fPv + fPmt * fNper;
    else
    {
        double fTerm = pow(1.0 + fRate, fNper);
        if (bPayInAdvance)
            fFv = fPv * fTerm + fPmt*(1.0 + fRate)*(fTerm - 1.0)/fRate;
        else
            fFv = fPv * fTerm + fPmt*(fTerm - 1.0)/fRate;
    }
    return -fFv;
}

void ScInterpreter::ScFV()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 5 ) )
        return;
    bool bPayInAdvance = nParamCount == 5 && GetBool();
    double fPv   = nParamCount >= 4 ? GetDouble() : 0;
    double fPmt  = GetDouble();
    double fNper = GetDouble();
    double fRate = GetDouble();
    PushDouble(ScGetFV(fRate, fNper, fPmt, fPv, bPayInAdvance));
}

void ScInterpreter::ScNper()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 5 ) )
        return;
    bool bPayInAdvance = nParamCount == 5 && GetBool();
    double fFV   = nParamCount >= 4 ? GetDouble() : 0;
    double fPV   = GetDouble();      // Present Value
    double fPmt  = GetDouble();      // Payment
    double fRate = GetDouble();
    // Note that due to the function specification in ODFF1.2 (and Excel) the
    // amount to be paid to get from fPV to fFV is fFV_+_fPV.
    if ( fPV + fFV == 0.0 )
        PushDouble( 0.0 );
    else if (fRate == 0.0)
        PushDouble(-(fPV + fFV)/fPmt);
    else if (bPayInAdvance)
        PushDouble(log(-(fRate*fFV-fPmt*(1.0+fRate))/(fRate*fPV+fPmt*(1.0+fRate)))
                  / rtl::math::log1p(fRate));
    else
        PushDouble(log(-(fRate*fFV-fPmt)/(fRate*fPV+fPmt)) / rtl::math::log1p(fRate));
}

bool ScInterpreter::RateIteration( double fNper, double fPayment, double fPv,
                                   double fFv, bool bPayType, double & fGuess )
{
    // See also #i15090#
    // Newton-Raphson method: x(i+1) = x(i) - f(x(i)) / f'(x(i))
    // This solution handles integer and non-integer values of Nper different.
    // If ODFF will constraint Nper to integer, the distinction of cases can be
    // removed; only the integer-part is needed then.
    bool bValid = true, bFound = false;
    double fX, fXnew, fTerm, fTermDerivation;
    double fGeoSeries, fGeoSeriesDerivation;
    const sal_uInt16 nIterationsMax = 150;
    sal_uInt16 nCount = 0;
    const double fEpsilonSmall = 1.0E-14;
    if ( bPayType )
    {
        // payment at beginning of each period
        fFv = fFv - fPayment;
        fPv = fPv + fPayment;
    }
    if (fNper == ::rtl::math::round( fNper ))
    { // Nper is an integer value
        fX = fGuess;
        while (!bFound && nCount < nIterationsMax)
        {
            double fPowN, fPowNminus1;  // for (1.0+fX)^Nper and (1.0+fX)^(Nper-1)
            fPowNminus1 = pow( 1.0+fX, fNper-1.0);
            fPowN = fPowNminus1 * (1.0+fX);
            if (fX == 0.0)
            {
                fGeoSeries = fNper;
                fGeoSeriesDerivation = fNper * (fNper-1.0)/2.0;
            }
            else
            {
                fGeoSeries = (fPowN-1.0)/fX;
                fGeoSeriesDerivation = fNper * fPowNminus1 / fX - fGeoSeries / fX;
            }
            fTerm = fFv + fPv *fPowN+ fPayment * fGeoSeries;
            fTermDerivation = fPv * fNper * fPowNminus1 + fPayment * fGeoSeriesDerivation;
            if (std::abs(fTerm) < fEpsilonSmall)
                bFound = true;  // will catch root which is at an extreme
            else
            {
                if (fTermDerivation == 0.0)
                    fXnew = fX + 1.1 * SCdEpsilon;  // move away from zero slope
                else
                    fXnew = fX - fTerm / fTermDerivation;
                nCount++;
                // more accuracy not possible in oscillating cases
                bFound = (std::abs(fXnew - fX) < SCdEpsilon);
                fX = fXnew;
            }
        }
        // Gnumeric returns roots < -1, Excel gives an error in that cases,
        // ODFF says nothing about it. Enable the statement, if you want Excel's
        // behavior.
        //bValid =(fX >=-1.0);
        // Update 2013-06-17: Gnumeric (v1.12.2) doesn't return roots <= -1
        // anymore.
        bValid = (fX > -1.0);
    }
    else
    { // Nper is not an integer value.
        fX = (fGuess < -1.0) ? -1.0 : fGuess;   // start with a valid fX
        while (bValid && !bFound && nCount < nIterationsMax)
        {
            if (fX == 0.0)
            {
                fGeoSeries = fNper;
                fGeoSeriesDerivation = fNper * (fNper-1.0)/2.0;
            }
            else
            {
                fGeoSeries = (pow( 1.0+fX, fNper) - 1.0) / fX;
                fGeoSeriesDerivation = fNper * pow( 1.0+fX, fNper-1.0) / fX - fGeoSeries / fX;
            }
            fTerm = fFv + fPv *pow(1.0 + fX,fNper)+ fPayment * fGeoSeries;
            fTermDerivation = fPv * fNper * pow( 1.0+fX, fNper-1.0) + fPayment * fGeoSeriesDerivation;
            if (std::abs(fTerm) < fEpsilonSmall)
                bFound = true;  // will catch root which is at an extreme
            else
            {
                if (fTermDerivation == 0.0)
                    fXnew = fX + 1.1 * SCdEpsilon;  // move away from zero slope
                else
                    fXnew = fX - fTerm / fTermDerivation;
                nCount++;
                // more accuracy not possible in oscillating cases
                bFound = (std::abs(fXnew - fX) < SCdEpsilon);
                fX = fXnew;
                bValid = (fX >= -1.0);  // otherwise pow(1.0+fX,fNper) will fail
            }
        }
    }
    fGuess = fX;    // return approximate root
    return bValid && bFound;
}

// In Calc UI it is the function RATE(Nper;Pmt;Pv;Fv;Type;Guess)
void ScInterpreter::ScRate()
{
    nFuncFmtType = SvNumFormatType::PERCENT;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 6 ) )
        return;

    // defaults for missing arguments, see ODFF spec
    double fGuess = nParamCount == 6 ? GetDouble() : 0.1;
    bool bDefaultGuess = nParamCount != 6;
    bool bPayType = nParamCount >= 5 && GetBool();
    double fFv = nParamCount >= 4 ? GetDouble() : 0;
    double fPv = GetDouble();
    double fPayment = GetDouble();
    double fNper = GetDouble();
    double fOrigGuess = fGuess;

    if (fNper <= 0.0) // constraint from ODFF spec
    {
        PushIllegalArgument();
        return;
    }
    bool bValid = RateIteration(fNper, fPayment, fPv, fFv, bPayType, fGuess);

    if (!bValid)
    {
        /* TODO: try also for specified guess values, not only default? As is,
         * a specified 0.1 guess may be error result but a default 0.1 guess
         * may succeed. On the other hand, using a different guess value than
         * the specified one may not be desired, even if that didn't match. */
        if (bDefaultGuess)
        {
            /* TODO: this is rather ugly, instead of looping over different
             * guess values and doing a Newton goal seek for each we could
             * first insert the values into the RATE equation to obtain a set
             * of y values and then do a bisecting goal seek, possibly using
             * different algorithms. */
            double fX = fOrigGuess;
            for (int nStep = 2; nStep <= 10 && !bValid; ++nStep)
            {
                fGuess = fX * nStep;
                bValid = RateIteration( fNper, fPayment, fPv, fFv, bPayType, fGuess);
                if (!bValid)
                {
                    fGuess = fX / nStep;
                    bValid = RateIteration( fNper, fPayment, fPv, fFv, bPayType, fGuess);
                }
            }
        }
        if (!bValid)
            SetError(FormulaError::NoConvergence);
    }
    PushDouble(fGuess);
}

double ScInterpreter::ScGetIpmt(double fRate, double fPer, double fNper, double fPv,
                                 double fFv, bool bPayInAdvance, double& fPmt)
{
    fPmt = ScGetPMT(fRate, fNper, fPv, fFv, bPayInAdvance);     // for PPMT also if fPer == 1
    double fIpmt;
    nFuncFmtType = SvNumFormatType::CURRENCY;
    if (fPer == 1.0)
        fIpmt = bPayInAdvance ? 0.0 : -fPv;
    else
    {
        if (bPayInAdvance)
            fIpmt = ScGetFV(fRate, fPer-2.0, fPmt, fPv, true) - fPmt;
        else
            fIpmt = ScGetFV(fRate, fPer-1.0, fPmt, fPv, false);
    }
    return fIpmt * fRate;
}

void ScInterpreter::ScIpmt()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 4, 6 ) )
        return;
    bool bPayInAdvance = nParamCount == 6 && GetBool();
    double fFv   = nParamCount >= 5 ? GetDouble() : 0;
    double fPv   = GetDouble();
    double fNper = GetDouble();
    double fPer  = GetDouble();
    double fRate = GetDouble();
    if (fPer < 1.0 || fPer > fNper)
        PushIllegalArgument();
    else
    {
        double fPmt;
        PushDouble(ScGetIpmt(fRate, fPer, fNper, fPv, fFv, bPayInAdvance, fPmt));
    }
}

void ScInterpreter::ScPpmt()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 4, 6 ) )
        return;
    bool bPayInAdvance = nParamCount == 6 && GetBool();
    double fFv   = nParamCount >= 5 ? GetDouble() : 0;
    double fPv   = GetDouble();
    double fNper = GetDouble();
    double fPer  = GetDouble();
    double fRate = GetDouble();
    if (fPer < 1.0 || fPer > fNper)
        PushIllegalArgument();
    else
    {
        double fPmt;
        double fInterestPer = ScGetIpmt(fRate, fPer, fNper, fPv, fFv, bPayInAdvance, fPmt);
        PushDouble(fPmt - fInterestPer);
    }
}

void ScInterpreter::ScCumIpmt()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    if ( !MustHaveParamCount( GetByte(), 6 ) )
        return;

    double fFlag  = GetDoubleWithDefault( -1.0 );
    double fEnd   = ::rtl::math::approxFloor(GetDouble());
    double fStart = ::rtl::math::approxFloor(GetDouble());
    double fPv    = GetDouble();
    double fNper  = GetDouble();
    double fRate  = GetDouble();
    if (fStart < 1.0 || fEnd < fStart || fRate <= 0.0 ||
        fEnd > fNper  || fNper <= 0.0 || fPv <= 0.0 ||
        ( fFlag != 0.0 && fFlag != 1.0 ))
        PushIllegalArgument();
    else
    {
        bool bPayInAdvance = static_cast<bool>(fFlag);
        sal_uLong nStart = static_cast<sal_uLong>(fStart);
        sal_uLong nEnd = static_cast<sal_uLong>(fEnd) ;
        double fPmt = ScGetPMT(fRate, fNper, fPv, 0.0, bPayInAdvance);
        KahanSum fIpmt = 0.0;
        if (nStart == 1)
        {
            if (!bPayInAdvance)
                fIpmt = -fPv;
            nStart++;
        }
        for (sal_uLong i = nStart; i <= nEnd; i++)
        {
            if (bPayInAdvance)
                fIpmt += ScGetFV(fRate, static_cast<double>(i-2), fPmt, fPv, true) - fPmt;
            else
                fIpmt += ScGetFV(fRate, static_cast<double>(i-1), fPmt, fPv, false);
        }
        fIpmt *= fRate;
        PushDouble(fIpmt.get());
    }
}

void ScInterpreter::ScCumPrinc()
{
    nFuncFmtType = SvNumFormatType::CURRENCY;
    if ( !MustHaveParamCount( GetByte(), 6 ) )
        return;

    double fFlag  = GetDoubleWithDefault( -1.0 );
    double fEnd   = ::rtl::math::approxFloor(GetDouble());
    double fStart = ::rtl::math::approxFloor(GetDouble());
    double fPv    = GetDouble();
    double fNper  = GetDouble();
    double fRate  = GetDouble();
    if (fStart < 1.0 || fEnd < fStart || fRate <= 0.0 ||
        fEnd > fNper  || fNper <= 0.0 || fPv <= 0.0 ||
        ( fFlag != 0.0 && fFlag != 1.0 ))
        PushIllegalArgument();
    else
    {
        bool bPayInAdvance = static_cast<bool>(fFlag);
        double fPmt = ScGetPMT(fRate, fNper, fPv, 0.0, bPayInAdvance);
        KahanSum fPpmt = 0.0;
        sal_uLong nStart = static_cast<sal_uLong>(fStart);
        sal_uLong nEnd = static_cast<sal_uLong>(fEnd);
        if (nStart == 1)
        {
            fPpmt = bPayInAdvance ? fPmt : fPmt + fPv * fRate;
            nStart++;
        }
        for (sal_uLong i = nStart; i <= nEnd; i++)
        {
            if (bPayInAdvance)
                fPpmt += fPmt - (ScGetFV(fRate, static_cast<double>(i-2), fPmt, fPv, true) - fPmt) * fRate;
            else
                fPpmt += fPmt - ScGetFV(fRate, static_cast<double>(i-1), fPmt, fPv, false) * fRate;
        }
        PushDouble(fPpmt.get());
    }
}

void ScInterpreter::ScEffect()
{
    nFuncFmtType = SvNumFormatType::PERCENT;
    if ( !MustHaveParamCount( GetByte(), 2 ) )
        return;

    double fPeriods = GetDouble();
    double fNominal = GetDouble();
    if (fPeriods < 1.0 || fNominal < 0.0)
        PushIllegalArgument();
    else if ( fNominal == 0.0 )
        PushDouble( 0.0 );
    else
    {
        fPeriods = ::rtl::math::approxFloor(fPeriods);
        PushDouble(pow(1.0 + fNominal/fPeriods, fPeriods) - 1.0);
    }
}

void ScInterpreter::ScNominal()
{
    nFuncFmtType = SvNumFormatType::PERCENT;
    if ( MustHaveParamCount( GetByte(), 2 ) )
    {
        double fPeriods = GetDouble();
        double fEffective = GetDouble();
        if (fPeriods < 1.0 || fEffective <= 0.0)
            PushIllegalArgument();
        else
        {
            fPeriods = ::rtl::math::approxFloor(fPeriods);
            PushDouble( (pow(fEffective + 1.0, 1.0 / fPeriods) - 1.0) * fPeriods );
        }
    }
}

void ScInterpreter::ScMod()
{
    if ( !MustHaveParamCount( GetByte(), 2 ) )
        return;

    double fDenom   = GetDouble();   // Denominator
    if ( fDenom == 0.0 )
    {
        PushError(FormulaError::DivisionByZero);
        return;
    }
    double fNum = GetDouble();   // Numerator
    double fRes = ::rtl::math::approxSub( fNum,
            ::rtl::math::approxFloor( fNum / fDenom ) * fDenom );
    if ( ( fDenom > 0 && fRes >= 0 && fRes < fDenom ) ||
         ( fDenom < 0 && fRes <= 0 && fRes > fDenom ) )
        PushDouble( fRes );
    else
        PushError( FormulaError::NoValue );
}

void ScInterpreter::ScIntersect()
{
    formula::FormulaConstTokenRef p2nd = PopToken();
    formula::FormulaConstTokenRef p1st = PopToken();

    if (nGlobalError != FormulaError::NONE || !p2nd || !p1st)
    {
        PushIllegalArgument();
        return;
    }

    StackVar sv1 = p1st->GetType();
    StackVar sv2 = p2nd->GetType();
    if ((sv1 != svSingleRef && sv1 != svDoubleRef && sv1 != svRefList) ||
        (sv2 != svSingleRef && sv2 != svDoubleRef && sv2 != svRefList))
    {
        PushIllegalArgument();
        return;
    }

    const formula::FormulaToken* x1 = p1st.get();
    const formula::FormulaToken* x2 = p2nd.get();
    if (sv1 == svRefList || sv2 == svRefList)
    {
        // Now this is a bit nasty but it simplifies things, and having
        // intersections with lists isn't too common, if at all...
        // Convert a reference to list.
        const formula::FormulaToken* xt[2] = { x1, x2 };
        StackVar sv[2] = { sv1, sv2 };
        // There may only be one reference; the other is necessarily a list
        // Ensure converted list proper destruction
        std::unique_ptr<formula::FormulaToken> p;
        for (size_t i=0; i<2; ++i)
        {
            if (sv[i] == svSingleRef)
            {
                ScComplexRefData aRef;
                aRef.Ref1 = aRef.Ref2 = *xt[i]->GetSingleRef();
                p.reset(new ScRefListToken);
                p->GetRefList()->push_back( aRef);
                xt[i] = p.get();
            }
            else if (sv[i] == svDoubleRef)
            {
                ScComplexRefData aRef = *xt[i]->GetDoubleRef();
                p.reset(new ScRefListToken);
                p->GetRefList()->push_back( aRef);
                xt[i] = p.get();
            }
        }
        x1 = xt[0];
        x2 = xt[1];

        ScTokenRef xRes = new ScRefListToken;
        ScRefList* pRefList = xRes->GetRefList();
        for (const auto& rRef1 : *x1->GetRefList())
        {
            const ScAddress& r11 = rRef1.Ref1.toAbs(mrDoc, aPos);
            const ScAddress& r12 = rRef1.Ref2.toAbs(mrDoc, aPos);
            for (const auto& rRef2 : *x2->GetRefList())
            {
                const ScAddress& r21 = rRef2.Ref1.toAbs(mrDoc, aPos);
                const ScAddress& r22 = rRef2.Ref2.toAbs(mrDoc, aPos);
                SCCOL nCol1 = ::std::max( r11.Col(), r21.Col());
                SCROW nRow1 = ::std::max( r11.Row(), r21.Row());
                SCTAB nTab1 = ::std::max( r11.Tab(), r21.Tab());
                SCCOL nCol2 = ::std::min( r12.Col(), r22.Col());
                SCROW nRow2 = ::std::min( r12.Row(), r22.Row());
                SCTAB nTab2 = ::std::min( r12.Tab(), r22.Tab());
                if (nCol2 < nCol1 || nRow2 < nRow1 || nTab2 < nTab1)
                    ;   // nothing
                else
                {
                    ScComplexRefData aRef;
                    aRef.InitRange( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2);
                    pRefList->push_back( aRef);
                }
            }
        }
        size_t n = pRefList->size();
        if (!n)
            PushError( FormulaError::NoRef);
        else if (n == 1)
        {
            const ScComplexRefData& rRef = (*pRefList)[0];
            if (rRef.Ref1 == rRef.Ref2)
                PushTempToken( new ScSingleRefToken(mrDoc.GetSheetLimits(), rRef.Ref1));
            else
                PushTempToken( new ScDoubleRefToken(mrDoc.GetSheetLimits(), rRef));
        }
        else
            PushTokenRef( xRes);
    }
    else
    {
        const formula::FormulaToken* pt[2] = { x1, x2 };
        StackVar sv[2] = { sv1, sv2 };
        SCCOL nC1[2], nC2[2];
        SCROW nR1[2], nR2[2];
        SCTAB nT1[2], nT2[2];
        for (size_t i=0; i<2; ++i)
        {
            switch (sv[i])
            {
                case svSingleRef:
                case svDoubleRef:
                {
                    {
                        const ScAddress& r = pt[i]->GetSingleRef()->toAbs(mrDoc, aPos);
                        nC1[i] = r.Col();
                        nR1[i] = r.Row();
                        nT1[i] = r.Tab();
                    }
                    if (sv[i] == svDoubleRef)
                    {
                        const ScAddress& r = pt[i]->GetSingleRef2()->toAbs(mrDoc, aPos);
                        nC2[i] = r.Col();
                        nR2[i] = r.Row();
                        nT2[i] = r.Tab();
                    }
                    else
                    {
                        nC2[i] = nC1[i];
                        nR2[i] = nR1[i];
                        nT2[i] = nT1[i];
                    }
                }
                break;
                default:
                    ;   // nothing, prevent compiler warning
            }
        }
        SCCOL nCol1 = ::std::max( nC1[0], nC1[1]);
        SCROW nRow1 = ::std::max( nR1[0], nR1[1]);
        SCTAB nTab1 = ::std::max( nT1[0], nT1[1]);
        SCCOL nCol2 = ::std::min( nC2[0], nC2[1]);
        SCROW nRow2 = ::std::min( nR2[0], nR2[1]);
        SCTAB nTab2 = ::std::min( nT2[0], nT2[1]);
        if (nCol2 < nCol1 || nRow2 < nRow1 || nTab2 < nTab1)
            PushError( FormulaError::NoRef);
        else if (nCol2 == nCol1 && nRow2 == nRow1 && nTab2 == nTab1)
            PushSingleRef( nCol1, nRow1, nTab1);
        else
            PushDoubleRef( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2);
    }
}

void ScInterpreter::ScRangeFunc()
{
    formula::FormulaConstTokenRef x2 = PopToken();
    formula::FormulaConstTokenRef x1 = PopToken();

    if (nGlobalError != FormulaError::NONE || !x2 || !x1)
    {
        PushIllegalArgument();
        return;
    }
    // We explicitly tell extendRangeReference() to not reuse the token,
    // casting const away spares two clones.
    FormulaTokenRef xRes = extendRangeReference(
            mrDoc.GetSheetLimits(), const_cast<FormulaToken&>(*x1), const_cast<FormulaToken&>(*x2), aPos, false);
    if (!xRes)
        PushIllegalArgument();
    else
        PushTokenRef( xRes);
}

void ScInterpreter::ScUnionFunc()
{
    formula::FormulaConstTokenRef p2nd = PopToken();
    formula::FormulaConstTokenRef p1st = PopToken();

    if (nGlobalError != FormulaError::NONE || !p2nd || !p1st)
    {
        PushIllegalArgument();
        return;
    }

    StackVar sv1 = p1st->GetType();
    StackVar sv2 = p2nd->GetType();
    if ((sv1 != svSingleRef && sv1 != svDoubleRef && sv1 != svRefList) ||
        (sv2 != svSingleRef && sv2 != svDoubleRef && sv2 != svRefList))
    {
        PushIllegalArgument();
        return;
    }

    const formula::FormulaToken* x1 = p1st.get();
    const formula::FormulaToken* x2 = p2nd.get();

    ScTokenRef xRes;
    // Append to an existing RefList if there is one.
    if (sv1 == svRefList)
    {
        xRes = x1->Clone();
        sv1 = svUnknown;    // mark as handled
    }
    else if (sv2 == svRefList)
    {
        xRes = x2->Clone();
        sv2 = svUnknown;    // mark as handled
    }
    else
        xRes = new ScRefListToken;
    ScRefList* pRes = xRes->GetRefList();
    const formula::FormulaToken* pt[2] = { x1, x2 };
    StackVar sv[2] = { sv1, sv2 };
    for (size_t i=0; i<2; ++i)
    {
        if (pt[i] == xRes)
            continue;
        switch (sv[i])
        {
            case svSingleRef:
                {
                    ScComplexRefData aRef;
                    aRef.Ref1 = aRef.Ref2 = *pt[i]->GetSingleRef();
                    pRes->push_back( aRef);
                }
                break;
            case svDoubleRef:
                pRes->push_back( *pt[i]->GetDoubleRef());
                break;
            case svRefList:
                {
                    const ScRefList* p = pt[i]->GetRefList();
                    for (const auto& rRef : *p)
                    {
                        pRes->push_back( rRef);
                    }
                }
                break;
            default:
                ;   // nothing, prevent compiler warning
        }
    }
    ValidateRef( *pRes);    // set #REF! if needed
    PushTokenRef( xRes);
}

void ScInterpreter::ScCurrent()
{
    FormulaConstTokenRef xTok( PopToken());
    if (xTok)
    {
        PushTokenRef( xTok);
        PushTokenRef( xTok);
    }
    else
        PushError( FormulaError::UnknownStackVariable);
}

void ScInterpreter::ScStyle()
{
    sal_uInt8 nParamCount = GetByte();
    if (!MustHaveParamCount(nParamCount, 1, 3))
        return;

    OUString aStyle2;                           // Style after timer
    if (nParamCount >= 3)
        aStyle2 = GetString().getString();
    tools::Long nTimeOut = 0;                          // timeout
    if (nParamCount >= 2)
        nTimeOut = static_cast<tools::Long>(GetDouble()*1000.0);
    OUString aStyle1 = GetString().getString(); // Style for immediate

    if (nTimeOut < 0)
        nTimeOut = 0;

    // Execute request to apply style
    if ( !mrDoc.IsClipOrUndo() )
    {
        SfxObjectShell* pShell = mrDoc.GetDocumentShell();
        if (pShell)
        {
            // Normalize style names right here, making sure that character case is correct,
            // and that we only apply anything when there's something to apply
            auto pPool = mrDoc.GetStyleSheetPool();
            if (!aStyle1.isEmpty())
            {
                if (auto pNewStyle = pPool->FindAutoStyle(aStyle1))
                    aStyle1 = pNewStyle->GetName();
                else
                    aStyle1.clear();
            }
            if (!aStyle2.isEmpty())
            {
                if (auto pNewStyle = pPool->FindAutoStyle(aStyle2))
                    aStyle2 = pNewStyle->GetName();
                else
                    aStyle2.clear();
            }
            // notify object shell directly!
            if (!aStyle1.isEmpty() || !aStyle2.isEmpty())
            {
                const ScStyleSheet* pStyle = mrDoc.GetStyle(aPos.Col(), aPos.Row(), aPos.Tab());

                const bool bNotify = !pStyle
                                     || (!aStyle1.isEmpty() && pStyle->GetName() != aStyle1)
                                     || (!aStyle2.isEmpty() && pStyle->GetName() != aStyle2);
                if (bNotify)
                {
                    ScRange aRange(aPos);
                    ScAutoStyleHint aHint(aRange, aStyle1, nTimeOut, aStyle2);
                    pShell->Broadcast(aHint);
                }
            }
        }
    }

    PushDouble(0.0);
}

static ScDdeLink* lcl_GetDdeLink( const sfx2::LinkManager* pLinkMgr,
                                std::u16string_view rA, std::u16string_view rT, std::u16string_view rI, sal_uInt8 nM )
{
    size_t nCount = pLinkMgr->GetLinks().size();
    for (size_t i=0; i<nCount; i++ )
    {
        ::sfx2::SvBaseLink* pBase = pLinkMgr->GetLinks()[i].get();
        if (ScDdeLink* pLink = dynamic_cast<ScDdeLink*>(pBase))
        {
            if ( pLink->GetAppl() == rA &&
                 pLink->GetTopic() == rT &&
                 pLink->GetItem() == rI &&
                 pLink->GetMode() == nM )
                return pLink;
        }
    }

    return nullptr;
}

void ScInterpreter::ScDde()
{
    //  application, file, scope
    //  application, Topic, Item

    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 4 ) )
        return;

    sal_uInt8 nMode = SC_DDE_DEFAULT;
    if (nParamCount == 4)
    {
        sal_uInt32 nTmp = GetUInt32();
        if (nGlobalError != FormulaError::NONE || nTmp > SAL_MAX_UINT8)
        {
            PushIllegalArgument();
            return;
        }
        nMode = static_cast<sal_uInt8>(nTmp);
    }
    OUString aItem  = GetString().getString();
    OUString aTopic = GetString().getString();
    OUString aAppl  = GetString().getString();

    if (nMode > SC_DDE_TEXT)
        nMode = SC_DDE_DEFAULT;

    //  temporary documents (ScFunctionAccess) have no DocShell
    //  and no LinkManager -> abort

    //sfx2::LinkManager* pLinkMgr = mrDoc.GetLinkManager();
    if (!mpLinkManager)
    {
        PushNoValue();
        return;
    }

    // Need to reinterpret after loading (build links)
    pArr->AddRecalcMode( ScRecalcMode::ONLOAD_LENIENT );

        //  while the link is not evaluated, idle must be disabled (to avoid circular references)

    bool bOldEnabled = mrDoc.IsIdleEnabled();
    mrDoc.EnableIdle(false);

        // Get/ Create link object

    ScDdeLink* pLink = lcl_GetDdeLink( mpLinkManager, aAppl, aTopic, aItem, nMode );

    //TODO: Save Dde-links (in addition) more efficient at document !!!!!
    //      ScDdeLink* pLink = mrDoc.GetDdeLink( aAppl, aTopic, aItem );

    bool bWasError = ( pMyFormulaCell && pMyFormulaCell->GetRawError() != FormulaError::NONE );

    if (!pLink)
    {
        pLink = new ScDdeLink( mrDoc, aAppl, aTopic, aItem, nMode );
        mpLinkManager->InsertDDELink( pLink, aAppl, aTopic, aItem );
        if ( mpLinkManager->GetLinks().size() == 1 )                    // the first one?
        {
            SfxBindings* pBindings = mrDoc.GetViewBindings();
            if (pBindings)
                pBindings->Invalidate( SID_LINKS );             // Link-Manager enabled
        }

        //if the document was just loaded, but the ScDdeLink entry was missing, then
        //don't update this link until the links are updated in response to the users
        //decision
        if (!mrDoc.HasLinkFormulaNeedingCheck())
        {
                                //TODO: evaluate asynchron ???
            pLink->TryUpdate(); //  TryUpdate doesn't call Update multiple times
        }

        if (pMyFormulaCell)
        {
            // StartListening after the Update to avoid circular references
            pMyFormulaCell->StartListening( *pLink );
        }
    }
    else
    {
        if (pMyFormulaCell)
            pMyFormulaCell->StartListening( *pLink );
    }

    //  If a new Error from Reschedule appears when the link is executed then reset the errorflag


    if ( pMyFormulaCell && pMyFormulaCell->GetRawError() != FormulaError::NONE && !bWasError )
        pMyFormulaCell->SetErrCode(FormulaError::NONE);

        //  check the value

    const ScMatrix* pLinkMat = pLink->GetResult();
    if (pLinkMat)
    {
        SCSIZE nC, nR;
        pLinkMat->GetDimensions(nC, nR);
        ScMatrixRef pNewMat = GetNewMat( nC, nR, /*bEmpty*/true);
        if (pNewMat)
        {
            pLinkMat->MatCopy(*pNewMat);        // copy
            PushMatrix( pNewMat );
        }
        else
            PushIllegalArgument();
    }
    else
        PushNA();

    mrDoc.EnableIdle(bOldEnabled);
    mpLinkManager->CloseCachedComps();
}

void ScInterpreter::ScBase()
{   // Value, Base [, MinLen]
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 2, 3 ) )
        return;

    static const sal_Unicode pDigits[] = {
        '0','1','2','3','4','5','6','7','8','9',
        'A','B','C','D','E','F','G','H','I','J','K','L','M',
        'N','O','P','Q','R','S','T','U','V','W','X','Y','Z',
        0
    };
    static const int nDigits = SAL_N_ELEMENTS(pDigits) - 1;
    sal_Int32 nMinLen;
    if ( nParamCount == 3 )
    {
        double fLen = ::rtl::math::approxFloor( GetDouble() );
        if ( 1.0 <= fLen && fLen < SAL_MAX_UINT16 )
            nMinLen = static_cast<sal_Int32>(fLen);
        else
            nMinLen = fLen == 0.0 ? 1 : 0; // 0 means error
    }
    else
        nMinLen = 1;
    double fBase = ::rtl::math::approxFloor( GetDouble() );
    double fVal = ::rtl::math::approxFloor( GetDouble() );
    double fChars = ((fVal > 0.0 && fBase > 0.0) ?
        (ceil( log( fVal ) / log( fBase ) ) + 2.0) :
        2.0);
    if ( fChars >= SAL_MAX_UINT16 )
        nMinLen = 0;    // Error

    if ( nGlobalError == FormulaError::NONE && nMinLen && 2 <= fBase && fBase <= nDigits && 0 <= fVal )
    {
        const sal_Int32 nConstBuf = 128;
        sal_Unicode aBuf[nConstBuf];
        sal_Int32 nBuf = std::max<sal_Int32>( fChars, nMinLen + 1 );
        sal_Unicode* pBuf = (nBuf <= nConstBuf ? aBuf : new sal_Unicode[nBuf]);
        for ( sal_Int32 j = 0; j < nBuf; ++j )
        {
            pBuf[j] = '0';
        }
        sal_Unicode* p = pBuf + nBuf - 1;
        *p = 0;
        if ( o3tl::convertsToAtMost(fVal, sal_uLong(~0)) )
        {
            sal_uLong nVal = static_cast<sal_uLong>(fVal);
            sal_uLong nBase = static_cast<sal_uLong>(fBase);
            while ( nVal && p > pBuf )
            {
                *--p = pDigits[ nVal % nBase ];
                nVal /= nBase;
            }
            fVal = static_cast<double>(nVal);
        }
        else
        {
            bool bDirt = false;
            while ( fVal && p > pBuf )
            {
//TODO: roundoff error starting with numbers greater than 2**48
//                  double fDig = ::rtl::math::approxFloor( fmod( fVal, fBase ) );
// a little bit better:
                double fInt = ::rtl::math::approxFloor( fVal / fBase );
                double fMult = fInt * fBase;
#if 0
                // =BASIS(1e308;36) => GPF with
                // nDig = (size_t) ::rtl::math::approxFloor( fVal - fMult );
                // in spite off previous test if fVal >= fMult
                double fDebug1 = fVal - fMult;
                // fVal    := 7,5975311883090e+290
                // fMult   := 7,5975311883090e+290
                // fDebug1 := 1,3848924157003e+275  <- RoundOff-Error
                // fVal != fMult, aber: ::rtl::math::approxEqual( fVal, fMult ) == TRUE
                double fDebug2 = ::rtl::math::approxSub( fVal, fMult );
                // and ::rtl::math::approxSub( fVal, fMult ) == 0
                double fDebug3 = ( fInt ? fVal / fInt : 0.0 );

                // Actual after strange fDebug1 and fVal < fMult is fDebug2 == fBase, but
                // anyway it can't be compared, then bDirt is executed an everything is good...

                // prevent compiler warnings
                (void)fDebug1; (void)fDebug2; (void)fDebug3;
#endif
                size_t nDig;
                if ( fVal < fMult )
                {   // something is wrong there
                    bDirt = true;
                    nDig = 0;
                }
                else
                {
                    double fDig = ::rtl::math::approxFloor( ::rtl::math::approxSub( fVal, fMult ) );
                    if ( bDirt )
                    {
                        bDirt = false;
                        --fDig;
                    }
                    if ( fDig <= 0.0 )
                        nDig = 0;
                    else if ( fDig >= fBase )
                        nDig = static_cast<size_t>(fBase) - 1;
                    else
                        nDig = static_cast<size_t>(fDig);
                }
                *--p = pDigits[ nDig ];
                fVal = fInt;
            }
        }
        if ( fVal )
            PushError( FormulaError::StringOverflow );
        else
        {
            if ( nBuf - (p - pBuf) <= nMinLen )
                p = pBuf + nBuf - 1 - nMinLen;
            PushStringBuffer( p );
        }
        if ( pBuf != aBuf )
            delete [] pBuf;
    }
    else
        PushIllegalArgument();
}

void ScInterpreter::ScDecimal()
{   // Text, Base
    if ( !MustHaveParamCount( GetByte(), 2 ) )
        return;

    double fBase = ::rtl::math::approxFloor( GetDouble() );
    OUString aStr = GetString().getString();
    if ( nGlobalError == FormulaError::NONE && 2 <= fBase && fBase <= 36 )
    {
        double fVal = 0.0;
        int nBase = static_cast<int>(fBase);
        const sal_Unicode* p = aStr.getStr();
        while ( *p == ' ' || *p == '\t' )
            p++;        // strip leading white space
        if ( nBase == 16 )
        {   // evtl. hex-prefix stripped
            if ( *p == 'x' || *p == 'X' )
                p++;
            else if ( *p == '0' && (*(p+1) == 'x' || *(p+1) == 'X') )
                p += 2;
        }
        while ( *p )
        {
            int n;
            if ( '0' <= *p && *p <= '9' )
                n = *p - '0';
            else if ( 'A' <= *p && *p <= 'Z' )
                n = 10 + (*p - 'A');
            else if ( 'a' <= *p && *p <= 'z' )
                n = 10 + (*p - 'a');
            else
                n = nBase;
            if ( nBase <= n )
            {
                if ( *(p+1) == 0 &&
                        ( (nBase ==  2 && (*p == 'b' || *p == 'B'))
                        ||(nBase == 16 && (*p == 'h' || *p == 'H')) )
                    )
                    ;       // 101b and F00Dh are ok
                else
                {
                    PushIllegalArgument();
                    return ;
                }
            }
            else
                fVal = fVal * fBase + n;
            p++;

        }
        PushDouble( fVal );
    }
    else
        PushIllegalArgument();
}

void ScInterpreter::ScConvertOOo()
{   // Value, FromUnit, ToUnit
    if ( !MustHaveParamCount( GetByte(), 3 ) )
        return;

    OUString aToUnit = GetString().getString();
    OUString aFromUnit = GetString().getString();
    double fVal = GetDouble();
    if ( nGlobalError != FormulaError::NONE )
        PushError( nGlobalError);
    else
    {
        // first of all search for the given order; if it can't be found then search for the inverse
        double fConv;
        if ( ScGlobal::GetUnitConverter()->GetValue( fConv, aFromUnit, aToUnit ) )
            PushDouble( fVal * fConv );
        else if ( ScGlobal::GetUnitConverter()->GetValue( fConv, aToUnit, aFromUnit ) )
            PushDouble( fVal / fConv );
        else
            PushNA();
    }
}

void ScInterpreter::ScRoman()
{   // Value [Mode]
    sal_uInt8 nParamCount = GetByte();
    if( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fMode = (nParamCount == 2) ? ::rtl::math::approxFloor( GetDouble() ) : 0.0;
    double fVal = ::rtl::math::approxFloor( GetDouble() );
    if( nGlobalError != FormulaError::NONE )
        PushError( nGlobalError);
    else if( (fMode >= 0.0) && (fMode < 5.0) && (fVal >= 0.0) && (fVal < 4000.0) )
    {
        static const sal_Unicode pChars[] = { 'M', 'D', 'C', 'L', 'X', 'V', 'I' };
        static const sal_uInt16 pValues[] = { 1000, 500, 100, 50, 10, 5, 1 };
        static const sal_uInt16 nMaxIndex = sal_uInt16(SAL_N_ELEMENTS(pValues) - 1);

        OUStringBuffer aRoman;
        sal_uInt16 nVal = static_cast<sal_uInt16>(fVal);
        sal_uInt16 nMode = static_cast<sal_uInt16>(fMode);

        for( sal_uInt16 i = 0; i <= nMaxIndex / 2; i++ )
        {
            sal_uInt16 nIndex = 2 * i;
            sal_uInt16 nDigit = nVal / pValues[ nIndex ];

            if( (nDigit % 5) == 4 )
            {
                // assert can't happen with nVal<4000 precondition
                assert( ((nDigit == 4) ? (nIndex >= 1) : (nIndex >= 2)));

                sal_uInt16 nIndex2 = (nDigit == 4) ? nIndex - 1 : nIndex - 2;
                sal_uInt16 nSteps = 0;
                while( (nSteps < nMode) && (nIndex < nMaxIndex) )
                {
                    nSteps++;
                    if( pValues[ nIndex2 ] - pValues[ nIndex + 1 ] <= nVal )
                        nIndex++;
                    else
                        nSteps = nMode;
                }
                aRoman.append( pChars[ nIndex ] ).append( pChars[ nIndex2 ] );
                nVal = sal::static_int_cast<sal_uInt16>( nVal + pValues[ nIndex ] );
                nVal = sal::static_int_cast<sal_uInt16>( nVal - pValues[ nIndex2 ] );
            }
            else
            {
                if( nDigit > 4 )
                {
                    // assert can't happen with nVal<4000 precondition
                    assert( nIndex >= 1 );
                    aRoman.append( pChars[ nIndex - 1 ] );
                }
                sal_Int32 nPad = nDigit % 5;
                if (nPad)
                {
                    comphelper::string::padToLength(aRoman, aRoman.getLength() + nPad,
                        pChars[nIndex]);
                }
                nVal %= pValues[ nIndex ];
            }
        }

        PushString( aRoman.makeStringAndClear() );
    }
    else
        PushIllegalArgument();
}

static bool lcl_GetArabicValue( sal_Unicode cChar, sal_uInt16& rnValue, bool& rbIsDec )
{
    switch( cChar )
    {
        case 'M':   rnValue = 1000; rbIsDec = true;     break;
        case 'D':   rnValue = 500;  rbIsDec = false;    break;
        case 'C':   rnValue = 100;  rbIsDec = true;     break;
        case 'L':   rnValue = 50;   rbIsDec = false;    break;
        case 'X':   rnValue = 10;   rbIsDec = true;     break;
        case 'V':   rnValue = 5;    rbIsDec = false;    break;
        case 'I':   rnValue = 1;    rbIsDec = true;     break;
        default:    return false;
    }
    return true;
}

void ScInterpreter::ScArabic()
{
    OUString aRoman = GetString().getString();
    if( nGlobalError != FormulaError::NONE )
        PushError( nGlobalError);
    else
    {
        aRoman = aRoman.toAsciiUpperCase();

        sal_uInt16 nValue = 0;
        sal_uInt16 nValidRest = 3999;
        sal_Int32 nCharIndex = 0;
        sal_Int32 nCharCount = aRoman.getLength();
        bool bValid = true;

        while( bValid && (nCharIndex < nCharCount) )
        {
            sal_uInt16 nDigit1 = 0;
            sal_uInt16 nDigit2 = 0;
            bool bIsDec1 = false;
            bValid = lcl_GetArabicValue( aRoman[nCharIndex], nDigit1, bIsDec1 );
            if( bValid && (nCharIndex + 1 < nCharCount) )
            {
                bool bIsDec2 = false;
                bValid = lcl_GetArabicValue( aRoman[nCharIndex + 1], nDigit2, bIsDec2 );
            }
            if( bValid )
            {
                if( nDigit1 >= nDigit2 )
                {
                    nValue = sal::static_int_cast<sal_uInt16>( nValue + nDigit1 );
                    nValidRest %= (nDigit1 * (bIsDec1 ? 5 : 2));
                    bValid = (nValidRest >= nDigit1);
                    if( bValid )
                        nValidRest = sal::static_int_cast<sal_uInt16>( nValidRest - nDigit1 );
                    nCharIndex++;
                }
                else if( nDigit1 * 2 != nDigit2 )
                {
                    sal_uInt16 nDiff = nDigit2 - nDigit1;
                    nValue = sal::static_int_cast<sal_uInt16>( nValue + nDiff );
                    bValid = (nValidRest >= nDiff);
                    if( bValid )
                        nValidRest = nDigit1 - 1;
                    nCharIndex += 2;
                }
                else
                    bValid = false;
            }
        }
        if( bValid )
            PushInt( nValue );
        else
            PushIllegalArgument();
    }
}

void ScInterpreter::ScHyperLink()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1, 2 ) )
        return;

    double fVal = 0.0;
    svl::SharedString aStr;
    ScMatValType nResultType = ScMatValType::String;

    if ( nParamCount == 2 )
    {
        switch ( GetStackType() )
        {
            case svDouble:
                fVal = GetDouble();
                nResultType = ScMatValType::Value;
            break;
            case svString:
                aStr = GetString();
            break;
            case svSingleRef:
            case svDoubleRef:
            {
                ScAddress aAdr;
                if ( !PopDoubleRefOrSingleRef( aAdr ) )
                    break;

                ScRefCellValue aCell(mrDoc, aAdr);
                if (aCell.hasEmptyValue())
                    nResultType = ScMatValType::Empty;
                else
                {
                    FormulaError nErr = GetCellErrCode(aCell);
                    if (nErr != FormulaError::NONE)
                        SetError( nErr);
                    else if (aCell.hasNumeric())
                    {
                        fVal = GetCellValue(aAdr, aCell);
                        nResultType = ScMatValType::Value;
                    }
                    else
                        GetCellString(aStr, aCell);
                }
            }
            break;
            case svMatrix:
                nResultType = GetDoubleOrStringFromMatrix( fVal, aStr);
            break;
            case svMissing:
            case svEmptyCell:
                Pop();
                // mimic xcl
                fVal = 0.0;
                nResultType = ScMatValType::Value;
            break;
            default:
                PopError();
                SetError( FormulaError::IllegalArgument);
        }
    }
    svl::SharedString aUrl = GetString();
    ScMatrixRef pResMat = GetNewMat( 1, 2);
    if (nGlobalError != FormulaError::NONE)
    {
        fVal = CreateDoubleError( nGlobalError);
        nResultType = ScMatValType::Value;
    }
    if (nParamCount == 2 || nGlobalError != FormulaError::NONE)
    {
        if (ScMatrix::IsValueType( nResultType))
            pResMat->PutDouble( fVal, 0);
        else if (ScMatrix::IsRealStringType( nResultType))
            pResMat->PutString(aStr, 0);
        else    // EmptyType, EmptyPathType, mimic xcl
            pResMat->PutDouble( 0.0, 0 );
    }
    else
        pResMat->PutString(aUrl, 0);
    pResMat->PutString(aUrl, 1);
    bMatrixFormula = true;
    PushMatrix(pResMat);
}

/** Resources at the website of the European Commission:
    http://ec.europa.eu/economy_finance/euro/adoption/conversion/
    http://ec.europa.eu/economy_finance/euro/countries/
 */
static bool lclConvertMoney( const OUString& aSearchUnit, double& rfRate, int& rnDec )
{
    struct ConvertInfo
    {
        const char* pCurrText;
        double      fRate;
        int         nDec;
    };
    static const ConvertInfo aConvertTable[] = {
        { "EUR", 1.0,      2 },
        { "ATS", 13.7603,  2 },
        { "BEF", 40.3399,  0 },
        { "DEM", 1.95583,  2 },
        { "ESP", 166.386,  0 },
        { "FIM", 5.94573,  2 },
        { "FRF", 6.55957,  2 },
        { "IEP", 0.787564, 2 },
        { "ITL", 1936.27,  0 },
        { "LUF", 40.3399,  0 },
        { "NLG", 2.20371,  2 },
        { "PTE", 200.482,  2 },
        { "GRD", 340.750,  2 },
        { "SIT", 239.640,  2 },
        { "MTL", 0.429300, 2 },
        { "CYP", 0.585274, 2 },
        { "SKK", 30.1260,  2 },
        { "EEK", 15.6466,  2 },
        { "LVL", 0.702804, 2 },
        { "LTL", 3.45280,  2 },
        { "HRK", 7.53450,  2 }
    };

    for (const auto & i : aConvertTable)
        if ( aSearchUnit.equalsIgnoreAsciiCaseAscii( i.pCurrText ) )
        {
            rfRate = i.fRate;
            rnDec  = i.nDec;
            return true;
        }
    return false;
}

void ScInterpreter::ScEuroConvert()
{   //Value, FromUnit, ToUnit[, FullPrecision, [TriangulationPrecision]]
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 3, 5 ) )
        return;

    double fPrecision = 0.0;
    if ( nParamCount == 5 )
    {
        fPrecision = ::rtl::math::approxFloor(GetDouble());
        if ( fPrecision < 3 )
        {
            PushIllegalArgument();
            return;
        }
    }

    bool bFullPrecision = nParamCount >= 4 && GetBool();
    OUString aToUnit = GetString().getString();
    OUString aFromUnit = GetString().getString();
    double fVal = GetDouble();
    if ( nGlobalError != FormulaError::NONE )
        PushError( nGlobalError);
    else
    {
        double fFromRate;
        double fToRate;
        int    nFromDec;
        int    nToDec;
        if ( lclConvertMoney( aFromUnit, fFromRate, nFromDec )
            && lclConvertMoney( aToUnit, fToRate, nToDec ) )
        {
            double fRes;
            if ( aFromUnit.equalsIgnoreAsciiCase( aToUnit ) )
                fRes = fVal;
            else
            {
                if ( aFromUnit.equalsIgnoreAsciiCase( "EUR" ) )
                   fRes = fVal * fToRate;
                else
                {
                    double fIntermediate = fVal / fFromRate;
                    if ( fPrecision )
                        fIntermediate = ::rtl::math::round( fIntermediate,
                                                        static_cast<int>(fPrecision) );
                    fRes = fIntermediate * fToRate;
                }
                if ( !bFullPrecision )
                    fRes = ::rtl::math::round( fRes, nToDec );
            }
            PushDouble( fRes );
        }
        else
            PushIllegalArgument();
    }
}

// BAHTTEXT
#define UTF8_TH_0       "\340\270\250\340\270\271\340\270\231\340\270\242\340\271\214"
#define UTF8_TH_1       "\340\270\253\340\270\231\340\270\266\340\271\210\340\270\207"
#define UTF8_TH_2       "\340\270\252\340\270\255\340\270\207"
#define UTF8_TH_3       "\340\270\252\340\270\262\340\270\241"
#define UTF8_TH_4       "\340\270\252\340\270\265\340\271\210"
#define UTF8_TH_5       "\340\270\253\340\271\211\340\270\262"
#define UTF8_TH_6       "\340\270\253\340\270\201"
#define UTF8_TH_7       "\340\271\200\340\270\210\340\271\207\340\270\224"
#define UTF8_TH_8       "\340\271\201\340\270\233\340\270\224"
#define UTF8_TH_9       "\340\271\200\340\270\201\340\271\211\340\270\262"
#define UTF8_TH_10      "\340\270\252\340\270\264\340\270\232"
#define UTF8_TH_11      "\340\271\200\340\270\255\340\271\207\340\270\224"
#define UTF8_TH_20      "\340\270\242\340\270\265\340\271\210"
#define UTF8_TH_1E2     "\340\270\243\340\271\211\340\270\255\340\270\242"
#define UTF8_TH_1E3     "\340\270\236\340\270\261\340\270\231"
#define UTF8_TH_1E4     "\340\270\253\340\270\241\340\270\267\340\271\210\340\270\231"
#define UTF8_TH_1E5     "\340\271\201\340\270\252\340\270\231"
#define UTF8_TH_1E6     "\340\270\245\340\271\211\340\270\262\340\270\231"
#define UTF8_TH_DOT0    "\340\270\226\340\271\211\340\270\247\340\270\231"
#define UTF8_TH_BAHT    "\340\270\232\340\270\262\340\270\227"
#define UTF8_TH_SATANG  "\340\270\252\340\270\225\340\270\262\340\270\207\340\270\204\340\271\214"
#define UTF8_TH_MINUS   "\340\270\245\340\270\232"

// local functions
namespace {

void lclSplitBlock( double& rfInt, sal_Int32& rnBlock, double fValue, double fSize )
{
    rnBlock = static_cast< sal_Int32 >( modf( (fValue + 0.1) / fSize, &rfInt ) * fSize + 0.1 );
}

/** Appends a digit (0 to 9) to the passed string. */
void lclAppendDigit( OStringBuffer& rText, sal_Int32 nDigit )
{
    switch( nDigit )
    {
        case 0: rText.append( UTF8_TH_0 ); break;
        case 1: rText.append( UTF8_TH_1 ); break;
        case 2: rText.append( UTF8_TH_2 ); break;
        case 3: rText.append( UTF8_TH_3 ); break;
        case 4: rText.append( UTF8_TH_4 ); break;
        case 5: rText.append( UTF8_TH_5 ); break;
        case 6: rText.append( UTF8_TH_6 ); break;
        case 7: rText.append( UTF8_TH_7 ); break;
        case 8: rText.append( UTF8_TH_8 ); break;
        case 9: rText.append( UTF8_TH_9 ); break;
        default:    OSL_FAIL( "lclAppendDigit - illegal digit" );
    }
}

/** Appends a value raised to a power of 10: nDigit*10^nPow10.
    @param nDigit  A digit in the range from 1 to 9.
    @param nPow10  A value in the range from 2 to 5.
 */
void lclAppendPow10( OStringBuffer& rText, sal_Int32 nDigit, sal_Int32 nPow10 )
{
    OSL_ENSURE( (1 <= nDigit) && (nDigit <= 9), "lclAppendPow10 - illegal digit" );
    lclAppendDigit( rText, nDigit );
    switch( nPow10 )
    {
        case 2: rText.append( UTF8_TH_1E2 );   break;
        case 3: rText.append( UTF8_TH_1E3 );   break;
        case 4: rText.append( UTF8_TH_1E4 );   break;
        case 5: rText.append( UTF8_TH_1E5 );   break;
        default:    OSL_FAIL( "lclAppendPow10 - illegal power" );
    }
}

/** Appends a block of 6 digits (value from 1 to 999,999) to the passed string. */
void lclAppendBlock( OStringBuffer& rText, sal_Int32 nValue )
{
    OSL_ENSURE( (1 <= nValue) && (nValue <= 999999), "lclAppendBlock - illegal value" );
    if( nValue >= 100000 )
    {
        lclAppendPow10( rText, nValue / 100000, 5 );
        nValue %= 100000;
    }
    if( nValue >= 10000 )
    {
        lclAppendPow10( rText, nValue / 10000, 4 );
        nValue %= 10000;
    }
    if( nValue >= 1000 )
    {
        lclAppendPow10( rText, nValue / 1000, 3 );
        nValue %= 1000;
    }
    if( nValue >= 100 )
    {
        lclAppendPow10( rText, nValue / 100, 2 );
        nValue %= 100;
    }
    if( nValue <= 0 )
        return;

    sal_Int32 nTen = nValue / 10;
    sal_Int32 nOne = nValue % 10;
    if( nTen >= 1 )
    {
        if( nTen >= 3 )
            lclAppendDigit( rText, nTen );
        else if( nTen == 2 )
            rText.append( UTF8_TH_20 );
        rText.append( UTF8_TH_10 );
    }
    if( (nTen > 0) && (nOne == 1) )
        rText.append( UTF8_TH_11 );
    else if( nOne > 0 )
        lclAppendDigit( rText, nOne );
}

} // namespace

void ScInterpreter::ScBahtText()
{
    sal_uInt8 nParamCount = GetByte();
    if ( !MustHaveParamCount( nParamCount, 1 ) )
        return;

    double fValue = GetDouble();
    if( nGlobalError != FormulaError::NONE )
    {
        PushError( nGlobalError);
        return;
    }

    // sign
    bool bMinus = fValue < 0.0;
    fValue = std::abs( fValue );

    // round to 2 digits after decimal point, fValue contains Satang as integer
    fValue = ::rtl::math::approxFloor( fValue * 100.0 + 0.5 );

    // split Baht and Satang
    double fBaht = 0.0;
    sal_Int32 nSatang = 0;
    lclSplitBlock( fBaht, nSatang, fValue, 100.0 );

    OStringBuffer aText;

    // generate text for Baht value
    if( fBaht == 0.0 )
    {
        if( nSatang == 0 )
            aText.append( UTF8_TH_0 );
    }
    else while( fBaht > 0.0 )
    {
        OStringBuffer aBlock;
        sal_Int32 nBlock = 0;
        lclSplitBlock( fBaht, nBlock, fBaht, 1.0e6 );
        if( nBlock > 0 )
            lclAppendBlock( aBlock, nBlock );
        // add leading "million", if there will come more blocks
        if( fBaht > 0.0 )
            aBlock.insert( 0, UTF8_TH_1E6 );

        aText.insert(0, aBlock);
    }
    if (!aText.isEmpty())
        aText.append( UTF8_TH_BAHT );

    // generate text for Satang value
    if( nSatang == 0 )
    {
        aText.append( UTF8_TH_DOT0 );
    }
    else
    {
        lclAppendBlock( aText, nSatang );
        aText.append( UTF8_TH_SATANG );
    }

    // add the minus sign
    if( bMinus )
        aText.insert( 0, UTF8_TH_MINUS );

    PushString( OStringToOUString(aText, RTL_TEXTENCODING_UTF8) );
}

void ScInterpreter::ScGetPivotData()
{
    sal_uInt8 nParamCount = GetByte();

    if (!MustHaveParamCountMin(nParamCount, 2) || (nParamCount % 2) == 1)
    {
        PushError(FormulaError::NoRef);
        return;
    }

    bool bOldSyntax = false;
    if (nParamCount == 2)
    {
        // if the first parameter is a ref, assume old syntax
        StackVar eFirstType = GetStackType(2);
        if (eFirstType == svSingleRef || eFirstType == svDoubleRef)
            bOldSyntax = true;
    }

    std::vector<sheet::DataPilotFieldFilter> aFilters;
    OUString aDataFieldName;
    ScRange aBlock;

    if (bOldSyntax)
    {
        aDataFieldName = GetString().getString();

        switch (GetStackType())
        {
            case svDoubleRef :
                PopDoubleRef(aBlock);
            break;
            case svSingleRef :
            {
                ScAddress aAddr;
                PopSingleRef(aAddr);
                aBlock = aAddr;
            }
            break;
            default:
                PushError(FormulaError::NoRef);
                return;
        }
    }
    else
    {
        // Standard syntax: separate name/value pairs

        sal_uInt16 nFilterCount = nParamCount / 2 - 1;
        aFilters.resize(nFilterCount);

        sal_uInt16 i = nFilterCount;
        while (i-- > 0)
        {
            /* TODO: also, in case of numeric the entire filter match should
             * not be on a (even if locale independent) formatted string down
             * below in pDPObj->GetPivotData(). */

            bool bEvaluateFormatIndex;
            switch (GetRawStackType())
            {
                case svSingleRef:
                case svDoubleRef:
                    bEvaluateFormatIndex = true;
                break;
                default:
                    bEvaluateFormatIndex = false;
            }

            double fDouble;
            svl::SharedString aSharedString;
            bool bDouble = GetDoubleOrString( fDouble, aSharedString);
            if (nGlobalError != FormulaError::NONE)
            {
                PushError( nGlobalError);
                return;
            }

            if (bDouble)
            {
                sal_uInt32 nNumFormat;
                if (bEvaluateFormatIndex && nCurFmtIndex)
                    nNumFormat = nCurFmtIndex;
                else
                {
                    if (nCurFmtType == SvNumFormatType::UNDEFINED)
                        nNumFormat = 0;
                    else
                        nNumFormat = pFormatter->GetStandardFormat( nCurFmtType, ScGlobal::eLnge);
                }
                const Color* pColor;
                pFormatter->GetOutputString( fDouble, nNumFormat, aFilters[i].MatchValueName, &pColor);
                aFilters[i].MatchValue = ScDPCache::GetLocaleIndependentFormattedString(
                        fDouble, *pFormatter, nNumFormat);
            }
            else
            {
                aFilters[i].MatchValueName = aSharedString.getString();

                // Parse possible number from MatchValueName and format
                // locale independent as MatchValue.
                sal_uInt32 nNumFormat = 0;
                double fValue;
                if (pFormatter->IsNumberFormat( aFilters[i].MatchValueName, nNumFormat, fValue))
                    aFilters[i].MatchValue = ScDPCache::GetLocaleIndependentFormattedString(
                            fValue, *pFormatter, nNumFormat);
                else
                    aFilters[i].MatchValue = aFilters[i].MatchValueName;
            }

            aFilters[i].FieldName = GetString().getString();
        }

        switch (GetStackType())
        {
            case svDoubleRef :
                PopDoubleRef(aBlock);
            break;
            case svSingleRef :
            {
                ScAddress aAddr;
                PopSingleRef(aAddr);
                aBlock = aAddr;
            }
            break;
            default:
                PushError(FormulaError::NoRef);
                return;
        }

        aDataFieldName = GetString().getString(); // First parameter is data field name.
    }

    // Early bail-out, don't grind through data pilot cache and all.
    if (nGlobalError != FormulaError::NONE)
    {
        PushError( nGlobalError);
        return;
    }

    // NOTE : MS Excel docs claim to use the 'most recent' which is not
    // exactly the same as what we do in ScDocument::GetDPAtBlock
    // However we do need to use GetDPABlock
    ScDPObject* pDPObj = mrDoc.GetDPAtBlock(aBlock);
    if (!pDPObj)
    {
        PushError(FormulaError::NoRef);
        return;
    }

    if (bOldSyntax)
    {
        OUString aFilterStr = aDataFieldName;
        std::vector<sal_Int16> aFilterFuncs;
        if (!pDPObj->ParseFilters(aDataFieldName, aFilters, aFilterFuncs, aFilterStr))
        {
            PushError(FormulaError::NoRef);
            return;
        }

        // TODO : For now, we ignore filter functions since we couldn't find a
        // live example of how they are supposed to be used. We'll support
        // this again once we come across a real-world example.
    }

    double fVal = pDPObj->GetPivotData(aDataFieldName, aFilters);
    if (std::isnan(fVal))
    {
        PushError(FormulaError::NoRef);
        return;
    }
    PushDouble(fVal);
}

/* vim:set shiftwidth=4 softtabstop=4 expandtab: */