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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* 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 <config_feature_opencl.h>
#include <sal/config.h>
#include <sal/log.hxx>
#include <osl/diagnose.h>
#include <cassert>
#include <cstdlib>
#include <formulacell.hxx>
#include <grouptokenconverter.hxx>
#include <compiler.hxx>
#include <document.hxx>
#include <cellvalue.hxx>
#include <interpre.hxx>
#include <macromgr.hxx>
#include <refupdat.hxx>
#include <recursionhelper.hxx>
#include <docoptio.hxx>
#include <rangenam.hxx>
#include <rangelst.hxx>
#include <dbdata.hxx>
#include <progress.hxx>
#include <scmatrix.hxx>
#include <rechead.hxx>
#include <scitems.hxx>
#include <validat.hxx>
#include <editutil.hxx>
#include <chgtrack.hxx>
#include <tokenarray.hxx>
#include <comphelper/threadpool.hxx>
#include <editeng/editobj.hxx>
#include <formula/errorcodes.hxx>
#include <svl/intitem.hxx>
#include <svl/numformat.hxx>
#include <formulagroup.hxx>
#include <listenercontext.hxx>
#include <types.hxx>
#include <scopetools.hxx>
#include <refupdatecontext.hxx>
#include <tokenstringcontext.hxx>
#include <refhint.hxx>
#include <listenerquery.hxx>
#include <listenerqueryids.hxx>
#include <grouparealistener.hxx>
#include <formulalogger.hxx>
#include <com/sun/star/sheet/FormulaLanguage.hpp>
#if HAVE_FEATURE_OPENCL
#include <opencl/openclwrapper.hxx>
#endif
#include <memory>
#include <map>
using namespace formula;
#define DEBUG_CALCULATION 0
#if DEBUG_CALCULATION
static bool bDebugCalculationActive = false; // Set to true for global active init,
static ScAddress aDebugCalculationTriggerAddress(1,2,0); // or on cell Sheet1.B3, whatever you like
struct DebugCalculationEntry
{
ScAddress maPos;
OUString maResult;
const ScDocument& mrDoc;
sal_uInt32 mnGroup;
sal_uInt16 mnRecursion;
DebugCalculationEntry( const ScAddress& rPos, ScDocument& rDoc, sal_uInt32 nGroup ) :
maPos(rPos),
mrDoc(rDoc),
mnGroup(nGroup),
mnRecursion(rDoc.GetRecursionHelper().GetRecursionCount())
{
}
};
/** Debug/dump formula cell calculation chain.
Either, somewhere set aDC.mbActive=true, or
aDC.maTrigger=ScAddress(col,row,tab) of interest from where to start.
This does not work for deep recursion > MAXRECURSION, the results are
somewhat... funny... ;)
*/
static struct DebugCalculation
{
std::vector< DebugCalculationEntry > mvPos;
std::vector< DebugCalculationEntry > mvResults;
ScAddress maTrigger;
sal_uInt32 mnGroup;
bool mbActive;
bool mbSwitchOff;
bool mbPrint;
bool mbPrintResults;
DebugCalculation() : mnGroup(0), mbActive(bDebugCalculationActive), mbSwitchOff(false),
mbPrint(true), mbPrintResults(false) {}
/** Print chain in encountered dependency order. */
void print() const
{
for (auto const& it : mvPos)
{
OUString aStr( it.maPos.Format( ScRefFlags::VALID | ScRefFlags::TAB_3D, &it.mrDoc) +
" [" + OUString::number( it.mnRecursion) + "," + OUString::number( it.mnGroup) + "]");
fprintf( stderr, "%s -> ", aStr.toUtf8().getStr());
}
fprintf( stderr, "%s", "END\n");
}
/** Print chain results. */
void printResults() const
{
for (auto const& it : mvResults)
{
OUString aStr( it.maPos.Format( ScRefFlags::VALID | ScRefFlags::TAB_3D, &it.mrDoc));
aStr += " (" + it.maResult + ")";
fprintf( stderr, "%s, ", aStr.toUtf8().getStr());
}
fprintf( stderr, "%s", "END\n");
}
void storeResult( const svl::SharedString& rStr )
{
if (mbActive && !mvPos.empty())
mvPos.back().maResult = "\"" + rStr.getString() + "\"";
}
void storeResult( const double& fVal )
{
if (mbActive && !mvPos.empty())
mvPos.back().maResult = rtl::math::doubleToUString( fVal, rtl_math_StringFormat_G, 2, '.', true);
}
void storeResultError( FormulaError nErr )
{
if (mbActive && !mvPos.empty())
mvPos.back().maResult = "Err:" + OUString::number( int( nErr ));
}
void enterGroup()
{
++mnGroup;
}
void leaveGroup()
{
--mnGroup;
}
} aDC;
struct DebugCalculationStacker
{
DebugCalculationStacker( const ScAddress& rPos, ScDocument& rDoc )
{
if (!aDC.mbActive && rPos == aDC.maTrigger)
aDC.mbActive = aDC.mbSwitchOff = true;
if (aDC.mbActive)
{
aDC.mvPos.push_back( DebugCalculationEntry( rPos, rDoc, aDC.mnGroup));
aDC.mbPrint = true;
}
}
~DebugCalculationStacker()
{
if (aDC.mbActive)
{
if (!aDC.mvPos.empty())
{
if (aDC.mbPrint)
{
aDC.print();
aDC.mbPrint = false;
}
if (aDC.mbPrintResults)
{
// Store results until final result is available, reversing order.
aDC.mvResults.push_back( aDC.mvPos.back());
}
aDC.mvPos.pop_back();
if (aDC.mbPrintResults && aDC.mvPos.empty())
{
aDC.printResults();
std::vector< DebugCalculationEntry >().swap( aDC.mvResults);
}
if (aDC.mbSwitchOff && aDC.mvPos.empty())
aDC.mbActive = false;
}
}
}
};
#endif
namespace {
// More or less arbitrary, of course all recursions must fit into available
// stack space (which is what on all systems we don't know yet?). Choosing a
// lower value may be better than trying a much higher value that also isn't
// sufficient but temporarily leads to high memory consumption. On the other
// hand, if the value fits all recursions, execution is quicker as no resumes
// are necessary. Could be made a configurable option.
// Allow for a year's calendar (366).
const sal_uInt16 MAXRECURSION = 400;
typedef SCCOLROW(*DimensionSelector)(const ScDocument&, const ScAddress&, const ScSingleRefData&);
SCCOLROW lcl_GetCol(const ScDocument& rDoc, const ScAddress& rPos, const ScSingleRefData& rData)
{
return rData.toAbs(rDoc, rPos).Col();
}
SCCOLROW lcl_GetRow(const ScDocument& rDoc, const ScAddress& rPos, const ScSingleRefData& rData)
{
return rData.toAbs(rDoc, rPos).Row();
}
SCCOLROW lcl_GetTab(const ScDocument& rDoc, const ScAddress& rPos, const ScSingleRefData& rData)
{
return rData.toAbs(rDoc, rPos).Tab();
}
/** Check if both references span the same range in selected dimension.
*/
bool
lcl_checkRangeDimension(
const ScDocument& rDoc,
const ScAddress& rPos, const SingleDoubleRefProvider& rRef1, const SingleDoubleRefProvider& rRef2,
const DimensionSelector aWhich)
{
return aWhich(rDoc, rPos, rRef1.Ref1) == aWhich(rDoc, rPos, rRef2.Ref1) &&
aWhich(rDoc, rPos, rRef1.Ref2) == aWhich(rDoc, rPos, rRef2.Ref2);
}
bool
lcl_checkRangeDimensions(
const ScDocument& rDoc,
const ScAddress& rPos, const SingleDoubleRefProvider& rRef1, const SingleDoubleRefProvider& rRef2,
bool& bCol, bool& bRow, bool& bTab)
{
const bool bSameCols(lcl_checkRangeDimension(rDoc, rPos, rRef1, rRef2, lcl_GetCol));
const bool bSameRows(lcl_checkRangeDimension(rDoc, rPos, rRef1, rRef2, lcl_GetRow));
const bool bSameTabs(lcl_checkRangeDimension(rDoc, rPos, rRef1, rRef2, lcl_GetTab));
// Test if exactly two dimensions are equal
if (int(bSameCols) + int(bSameRows) + int(bSameTabs) == 2)
{
bCol = !bSameCols;
bRow = !bSameRows;
bTab = !bSameTabs;
return true;
}
return false;
}
/** Check if references in given reference list can possibly
form a range. To do that, two of their dimensions must be the same.
*/
bool
lcl_checkRangeDimensions(
const ScDocument& rDoc, const ScAddress& rPos,
const std::vector<formula::FormulaToken*>::const_iterator& rBegin,
const std::vector<formula::FormulaToken*>::const_iterator& rEnd,
bool& bCol, bool& bRow, bool& bTab)
{
std::vector<formula::FormulaToken*>::const_iterator aCur(rBegin);
++aCur;
const SingleDoubleRefProvider aRef(**rBegin);
bool bOk(false);
{
const SingleDoubleRefProvider aRefCur(**aCur);
bOk = lcl_checkRangeDimensions(rDoc, rPos, aRef, aRefCur, bCol, bRow, bTab);
}
while (bOk && aCur != rEnd)
{
const SingleDoubleRefProvider aRefCur(**aCur);
bool bColTmp(false);
bool bRowTmp(false);
bool bTabTmp(false);
bOk = lcl_checkRangeDimensions(rDoc, rPos, aRef, aRefCur, bColTmp, bRowTmp, bTabTmp);
bOk = bOk && (bCol == bColTmp && bRow == bRowTmp && bTab == bTabTmp);
++aCur;
}
return bOk && aCur == rEnd;
}
class LessByReference
{
const ScDocument& mrDoc;
ScAddress maPos;
DimensionSelector maFunc;
public:
LessByReference(const ScDocument& rDoc, const ScAddress& rPos, const DimensionSelector& rFunc) :
mrDoc(rDoc), maPos(rPos), maFunc(rFunc) {}
bool operator() (const formula::FormulaToken* pRef1, const formula::FormulaToken* pRef2)
{
const SingleDoubleRefProvider aRef1(*pRef1);
const SingleDoubleRefProvider aRef2(*pRef2);
return maFunc(mrDoc, maPos, aRef1.Ref1) < maFunc(mrDoc, maPos, aRef2.Ref1);
}
};
/**
* Returns true if range denoted by token p2 starts immediately after range
* denoted by token p1. Dimension, in which the comparison takes place, is
* given by maFunc.
*/
class AdjacentByReference
{
const ScDocument& mrDoc;
ScAddress maPos;
DimensionSelector maFunc;
public:
AdjacentByReference(const ScDocument& rDoc, const ScAddress& rPos, DimensionSelector aFunc) :
mrDoc(rDoc), maPos(rPos), maFunc(aFunc) {}
bool operator() (const formula::FormulaToken* p1, const formula::FormulaToken* p2)
{
const SingleDoubleRefProvider aRef1(*p1);
const SingleDoubleRefProvider aRef2(*p2);
return maFunc(mrDoc, maPos, aRef2.Ref1) - maFunc(mrDoc, maPos, aRef1.Ref2) == 1;
}
};
bool
lcl_checkIfAdjacent(
const ScDocument& rDoc,
const ScAddress& rPos, const std::vector<formula::FormulaToken*>& rReferences, const DimensionSelector aWhich)
{
auto aBegin(rReferences.cbegin());
auto aEnd(rReferences.cend());
auto aBegin1(aBegin);
++aBegin1;
--aEnd;
return std::equal(aBegin, aEnd, aBegin1, AdjacentByReference(rDoc, rPos, aWhich));
}
void
lcl_fillRangeFromRefList(
const ScDocument& rDoc,
const ScAddress& aPos, const std::vector<formula::FormulaToken*>& rReferences, ScRange& rRange)
{
const ScSingleRefData aStart(
SingleDoubleRefProvider(*rReferences.front()).Ref1);
rRange.aStart = aStart.toAbs(rDoc, aPos);
const ScSingleRefData aEnd(
SingleDoubleRefProvider(*rReferences.back()).Ref2);
rRange.aEnd = aEnd.toAbs(rDoc, aPos);
}
bool
lcl_refListFormsOneRange(
const ScDocument& rDoc,
const ScAddress& rPos, std::vector<formula::FormulaToken*>& rReferences,
ScRange& rRange)
{
if (rReferences.size() == 1)
{
lcl_fillRangeFromRefList(rDoc, rPos, rReferences, rRange);
return true;
}
bool bCell(false);
bool bRow(false);
bool bTab(false);
if (lcl_checkRangeDimensions(rDoc, rPos, rReferences.begin(), rReferences.end(), bCell, bRow, bTab))
{
DimensionSelector aWhich;
if (bCell)
{
aWhich = lcl_GetCol;
}
else if (bRow)
{
aWhich = lcl_GetRow;
}
else if (bTab)
{
aWhich = lcl_GetTab;
}
else
{
OSL_FAIL( "lcl_checkRangeDimensions shouldn't allow that!");
aWhich = lcl_GetRow; // initialize to avoid warning
}
// Sort the references by start of range
std::sort(rReferences.begin(), rReferences.end(), LessByReference(rDoc, rPos, aWhich));
if (lcl_checkIfAdjacent(rDoc, rPos, rReferences, aWhich))
{
lcl_fillRangeFromRefList(rDoc, rPos, rReferences, rRange);
return true;
}
}
return false;
}
bool lcl_isReference(const FormulaToken& rToken)
{
return
rToken.GetType() == svSingleRef ||
rToken.GetType() == svDoubleRef;
}
void adjustRangeName(formula::FormulaToken* pToken, ScDocument& rNewDoc, const ScDocument& rOldDoc,
const ScAddress& rNewPos, const ScAddress& rOldPos, bool bGlobalNamesToLocal)
{
ScRangeData* pRangeData = nullptr;
SCTAB nSheet = pToken->GetSheet();
sal_uInt16 nIndex = pToken->GetIndex();
if (!rOldDoc.CopyAdjustRangeName( nSheet, nIndex, pRangeData, rNewDoc, rNewPos, rOldPos, bGlobalNamesToLocal, true))
return; // nothing to do
if (!pRangeData)
{
// If this happened we have a real problem.
pToken->SetIndex(0);
assert(!"inserting the range name should not fail");
return;
}
pToken->SetIndex(nIndex);
pToken->SetSheet(nSheet);
}
void adjustDBRange(formula::FormulaToken* pToken, ScDocument& rNewDoc, const ScDocument& rOldDoc)
{
ScDBCollection* pOldDBCollection = rOldDoc.GetDBCollection();
if (!pOldDBCollection)
return;//strange error case, don't do anything
ScDBCollection::NamedDBs& aOldNamedDBs = pOldDBCollection->getNamedDBs();
ScDBData* pDBData = aOldNamedDBs.findByIndex(pToken->GetIndex());
if (!pDBData)
return; //invalid index
OUString aDBName = pDBData->GetUpperName();
//search in new document
ScDBCollection* pNewDBCollection = rNewDoc.GetDBCollection();
if (!pNewDBCollection)
{
rNewDoc.SetDBCollection(std::unique_ptr<ScDBCollection>(new ScDBCollection(rNewDoc)));
pNewDBCollection = rNewDoc.GetDBCollection();
}
ScDBCollection::NamedDBs& aNewNamedDBs = pNewDBCollection->getNamedDBs();
ScDBData* pNewDBData = aNewNamedDBs.findByUpperName(aDBName);
if (!pNewDBData)
{
pNewDBData = new ScDBData(*pDBData);
bool ins = aNewNamedDBs.insert(std::unique_ptr<ScDBData>(pNewDBData));
assert(ins); (void)ins;
}
pToken->SetIndex(pNewDBData->GetIndex());
}
}
bool AreaListenerKey::operator < ( const AreaListenerKey& r ) const
{
if (maRange.aStart.Tab() != r.maRange.aStart.Tab())
return maRange.aStart.Tab() < r.maRange.aStart.Tab();
if (maRange.aStart.Col() != r.maRange.aStart.Col())
return maRange.aStart.Col() < r.maRange.aStart.Col();
if (maRange.aStart.Row() != r.maRange.aStart.Row())
return maRange.aStart.Row() < r.maRange.aStart.Row();
if (maRange.aEnd.Tab() != r.maRange.aEnd.Tab())
return maRange.aEnd.Tab() < r.maRange.aEnd.Tab();
if (maRange.aEnd.Col() != r.maRange.aEnd.Col())
return maRange.aEnd.Col() < r.maRange.aEnd.Col();
if (maRange.aEnd.Row() != r.maRange.aEnd.Row())
return maRange.aEnd.Row() < r.maRange.aEnd.Row();
if (mbStartFixed != r.mbStartFixed)
return r.mbStartFixed;
if (mbEndFixed != r.mbEndFixed)
return r.mbEndFixed;
return false;
}
ScFormulaCellGroup::ScFormulaCellGroup() :
mnRefCount(0),
mpTopCell(nullptr),
mnLength(0),
mnWeight(0),
mnFormatType(SvNumFormatType::NUMBER),
mbInvariant(false),
mbSubTotal(false),
mbPartOfCycle(false),
meCalcState(sc::GroupCalcEnabled)
{
}
ScFormulaCellGroup::~ScFormulaCellGroup()
{
}
void ScFormulaCellGroup::setCode( const ScTokenArray& rCode )
{
mpCode = rCode.CloneValue();
mbInvariant = mpCode->IsInvariant();
mpCode->GenHash();
}
void ScFormulaCellGroup::compileCode(
ScDocument& rDoc, const ScAddress& rPos, FormulaGrammar::Grammar eGram )
{
if (!mpCode)
return;
if (mpCode->GetLen() && mpCode->GetCodeError() == FormulaError::NONE && !mpCode->GetCodeLen())
{
bool bMatrixFormula = mpTopCell->GetMatrixFlag() != ScMatrixMode::NONE;
ScCompiler aComp(rDoc, rPos, *mpCode, eGram, true, bMatrixFormula);
mbSubTotal = aComp.CompileTokenArray();
mnFormatType = aComp.GetNumFormatType();
}
else
{
mbSubTotal = mpCode->HasOpCodeRPN( ocSubTotal ) || mpCode->HasOpCodeRPN( ocAggregate );
}
}
sc::FormulaGroupAreaListener* ScFormulaCellGroup::getAreaListener(
ScFormulaCell** ppTopCell, const ScRange& rRange, bool bStartFixed, bool bEndFixed )
{
AreaListenerKey aKey(rRange, bStartFixed, bEndFixed);
AreaListenersType::iterator it = m_AreaListeners.lower_bound(aKey);
if (it == m_AreaListeners.end() || m_AreaListeners.key_comp()(aKey, it->first))
{
// Insert a new one.
it = m_AreaListeners.emplace_hint(
it, std::piecewise_construct,
std::forward_as_tuple(aKey),
std::forward_as_tuple(
rRange, (*ppTopCell)->GetDocument(), (*ppTopCell)->aPos, mnLength, bStartFixed, bEndFixed));
}
return &it->second;
}
void ScFormulaCellGroup::endAllGroupListening( ScDocument& rDoc )
{
for (auto& rEntry : m_AreaListeners)
{
sc::FormulaGroupAreaListener& rListener = rEntry.second;
ScRange aListenRange = rListener.getListeningRange();
// This "always listen" special range is never grouped.
bool bGroupListening = (aListenRange != BCA_LISTEN_ALWAYS);
rDoc.EndListeningArea(aListenRange, bGroupListening, &rListener);
}
m_AreaListeners.clear();
}
ScFormulaCell::ScFormulaCell( ScDocument& rDoc, const ScAddress& rPos ) :
bDirty(false),
bTableOpDirty(false),
bChanged(false),
bRunning(false),
bCompile(false),
bSubTotal(false),
bIsIterCell(false),
bInChangeTrack(false),
bNeedListening(false),
mbNeedsNumberFormat(false),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag(ScMatrixMode::NONE),
nSeenInIteration(0),
nFormatType(SvNumFormatType::NUMBER),
eTempGrammar(formula::FormulaGrammar::GRAM_DEFAULT),
pCode(new ScTokenArray(rDoc)),
rDocument(rDoc),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
}
ScFormulaCell::ScFormulaCell( ScDocument& rDoc, const ScAddress& rPos,
const OUString& rFormula,
const FormulaGrammar::Grammar eGrammar,
ScMatrixMode cMatInd ) :
bDirty( true ), // -> Because of the use of the Auto Pilot Function was: cMatInd != 0
bTableOpDirty( false ),
bChanged( false ),
bRunning( false ),
bCompile( false ),
bSubTotal( false ),
bIsIterCell( false ),
bInChangeTrack( false ),
bNeedListening( false ),
mbNeedsNumberFormat( false ),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag ( cMatInd ),
nSeenInIteration(0),
nFormatType ( SvNumFormatType::NUMBER ),
eTempGrammar( eGrammar),
pCode( nullptr ),
rDocument( rDoc ),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
Compile( rFormula, true, eGrammar ); // bNoListening, Insert does that
if (!pCode)
// We need to have a non-NULL token array instance at all times.
pCode = new ScTokenArray(rDoc);
}
ScFormulaCell::ScFormulaCell(
ScDocument& rDoc, const ScAddress& rPos, std::unique_ptr<ScTokenArray> pArray,
const FormulaGrammar::Grammar eGrammar, ScMatrixMode cMatInd ) :
bDirty( true ),
bTableOpDirty( false ),
bChanged( false ),
bRunning( false ),
bCompile( false ),
bSubTotal( false ),
bIsIterCell( false ),
bInChangeTrack( false ),
bNeedListening( false ),
mbNeedsNumberFormat( false ),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag ( cMatInd ),
nSeenInIteration(0),
nFormatType ( SvNumFormatType::NUMBER ),
eTempGrammar( eGrammar),
pCode(pArray.release()),
rDocument( rDoc ),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
assert(pCode); // Never pass a NULL pointer here.
pCode->Finalize(); // Reduce memory usage if needed.
// Generate RPN token array.
if (pCode->GetLen() && pCode->GetCodeError() == FormulaError::NONE && !pCode->GetCodeLen())
{
ScCompiler aComp(rDocument, aPos, *pCode, eTempGrammar, true, cMatrixFlag != ScMatrixMode::NONE);
bSubTotal = aComp.CompileTokenArray();
nFormatType = aComp.GetNumFormatType();
}
else
{
if ( pCode->HasOpCodeRPN( ocSubTotal ) || pCode->HasOpCodeRPN( ocAggregate ) )
bSubTotal = true;
}
if (bSubTotal)
rDocument.AddSubTotalCell(this);
pCode->GenHash();
}
ScFormulaCell::ScFormulaCell(
ScDocument& rDoc, const ScAddress& rPos, const ScTokenArray& rArray,
const FormulaGrammar::Grammar eGrammar, ScMatrixMode cMatInd ) :
bDirty( true ),
bTableOpDirty( false ),
bChanged( false ),
bRunning( false ),
bCompile( false ),
bSubTotal( false ),
bIsIterCell( false ),
bInChangeTrack( false ),
bNeedListening( false ),
mbNeedsNumberFormat( false ),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag ( cMatInd ),
nSeenInIteration(0),
nFormatType ( SvNumFormatType::NUMBER ),
eTempGrammar( eGrammar),
pCode(new ScTokenArray(rArray)), // also implicitly does Finalize() on the array
rDocument( rDoc ),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
// RPN array generation
if( pCode->GetLen() && pCode->GetCodeError() == FormulaError::NONE && !pCode->GetCodeLen() )
{
ScCompiler aComp( rDocument, aPos, *pCode, eTempGrammar, true, cMatrixFlag != ScMatrixMode::NONE );
bSubTotal = aComp.CompileTokenArray();
nFormatType = aComp.GetNumFormatType();
}
else
{
if ( pCode->HasOpCodeRPN( ocSubTotal ) || pCode->HasOpCodeRPN( ocAggregate ) )
bSubTotal = true;
}
if (bSubTotal)
rDocument.AddSubTotalCell(this);
pCode->GenHash();
}
ScFormulaCell::ScFormulaCell(
ScDocument& rDoc, const ScAddress& rPos, const ScFormulaCellGroupRef& xGroup,
const FormulaGrammar::Grammar eGrammar, ScMatrixMode cInd ) :
mxGroup(xGroup),
bDirty(true),
bTableOpDirty( false ),
bChanged( false ),
bRunning( false ),
bCompile( false ),
bSubTotal(xGroup->mbSubTotal),
bIsIterCell( false ),
bInChangeTrack( false ),
bNeedListening( false ),
mbNeedsNumberFormat( false ),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag ( cInd ),
nSeenInIteration(0),
nFormatType(xGroup->mnFormatType),
eTempGrammar( eGrammar),
pCode(xGroup->mpCode ? &*xGroup->mpCode : new ScTokenArray(rDoc)),
rDocument( rDoc ),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
ScFormulaCell::ScFormulaCell(const ScFormulaCell& rCell, ScDocument& rDoc, const ScAddress& rPos, ScCloneFlags nCloneFlags) :
bDirty( rCell.bDirty ),
bTableOpDirty( false ),
bChanged( rCell.bChanged ),
bRunning( false ),
bCompile( rCell.bCompile ),
bSubTotal( rCell.bSubTotal ),
bIsIterCell( false ),
bInChangeTrack( false ),
bNeedListening( false ),
mbNeedsNumberFormat( rCell.mbNeedsNumberFormat ),
mbAllowNumberFormatChange(false),
mbPostponedDirty(false),
mbIsExtRef(false),
mbSeenInPath(false),
mbFreeFlying(false),
cMatrixFlag ( rCell.cMatrixFlag ),
nSeenInIteration(0),
nFormatType( rCell.nFormatType ),
aResult( rCell.aResult ),
eTempGrammar( rCell.eTempGrammar),
rDocument( rDoc ),
pPrevious(nullptr),
pNext(nullptr),
pPreviousTrack(nullptr),
pNextTrack(nullptr),
aPos(rPos)
{
pCode = rCell.pCode->Clone().release();
// set back any errors and recompile
// not in the Clipboard - it must keep the received error flag
// Special Length=0: as bad cells are generated, then they are also retained
if ( pCode->GetCodeError() != FormulaError::NONE && !rDocument.IsClipboard() && pCode->GetLen() )
{
pCode->SetCodeError( FormulaError::NONE );
bCompile = true;
}
// Compile ColRowNames on URM_MOVE/URM_COPY _after_ UpdateReference !
bool bCompileLater = false;
bool bClipMode = rCell.rDocument.IsClipboard();
//update ScNameTokens
if (!rDocument.IsClipOrUndo() || rDoc.IsUndo())
{
if (!rDocument.IsClipboardSource() || aPos.Tab() != rCell.aPos.Tab())
{
bool bGlobalNamesToLocal = ((nCloneFlags & ScCloneFlags::NamesToLocal) != ScCloneFlags::Default);
formula::FormulaToken* pToken = nullptr;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
while((pToken = aIter.GetNextName())!= nullptr)
{
OpCode eOpCode = pToken->GetOpCode();
if (eOpCode == ocName)
adjustRangeName(pToken, rDoc, rCell.rDocument, aPos, rCell.aPos, bGlobalNamesToLocal);
else if (eOpCode == ocDBArea || eOpCode == ocTableRef)
adjustDBRange(pToken, rDoc, rCell.rDocument);
}
}
bool bCopyBetweenDocs = rDocument.GetPool() != rCell.rDocument.GetPool();
if (bCopyBetweenDocs && !(nCloneFlags & ScCloneFlags::NoMakeAbsExternal))
{
pCode->ReadjustAbsolute3DReferences(rCell.rDocument, rDoc, rCell.aPos);
}
pCode->AdjustAbsoluteRefs( rCell.rDocument, rCell.aPos, aPos, bCopyBetweenDocs );
}
if (!rDocument.IsClipOrUndo())
{
if (&rDocument.GetSharedStringPool() != &rCell.rDocument.GetSharedStringPool())
pCode->ReinternStrings( rDocument.GetSharedStringPool());
pCode->AdjustReferenceOnCopy( aPos);
}
if( !bCompile )
{ // Name references with references and ColRowNames
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
for (;;)
{
formula::FormulaToken* t = aIter.GetNextReferenceOrName();
if (!t || bCompile)
break;
if ( t->IsExternalRef() )
{
// External name, cell, and area references.
bCompile = true;
}
else if ( t->GetType() == svIndex )
{
const ScRangeData* pRangeData = rDoc.FindRangeNameBySheetAndIndex( t->GetSheet(), t->GetIndex());
if( pRangeData )
{
if( pRangeData->HasReferences() )
bCompile = true;
}
else
bCompile = true; // invalid reference!
}
else if ( t->GetOpCode() == ocColRowName )
{
bCompile = true; // new lookup needed
bCompileLater = bClipMode;
}
}
}
if( bCompile )
{
if ( !bCompileLater && bClipMode )
{
// Merging ranges needs the actual positions after UpdateReference.
// ColRowNames and TableRefs need new lookup after positions are
// adjusted.
bCompileLater = pCode->HasOpCode( ocRange) || pCode->HasOpCode( ocColRowName) ||
pCode->HasOpCode( ocTableRef);
}
if ( !bCompileLater )
{
// bNoListening, not at all if in Clipboard/Undo,
// and not from Clipboard either, instead after Insert(Clone) and UpdateReference.
CompileTokenArray( true );
}
}
if( nCloneFlags & ScCloneFlags::StartListening )
StartListeningTo( rDoc );
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
ScFormulaCell::~ScFormulaCell()
{
rDocument.RemoveFromFormulaTrack( this );
rDocument.RemoveFromFormulaTree( this );
rDocument.RemoveSubTotalCell(this);
if (pCode->HasOpCode(ocMacro))
rDocument.GetMacroManager()->RemoveDependentCell(this);
if (rDocument.HasExternalRefManager())
rDocument.GetExternalRefManager()->removeRefCell(this);
if (!mxGroup || !mxGroup->mpCode)
// Formula token is not shared.
delete pCode;
if (mxGroup && mxGroup->mpTopCell == this)
mxGroup->mpTopCell = nullptr;
}
ScFormulaCell* ScFormulaCell::Clone() const
{
return new ScFormulaCell(*this, rDocument, aPos);
}
ScFormulaCell* ScFormulaCell::Clone( const ScAddress& rPos ) const
{
return new ScFormulaCell(*this, rDocument, rPos, ScCloneFlags::Default);
}
size_t ScFormulaCell::GetHash() const
{
return pCode->GetHash();
}
OUString ScFormulaCell::GetFormula( const FormulaGrammar::Grammar eGrammar, const ScInterpreterContext* pContext ) const
{
if( pCode->GetCodeError() != FormulaError::NONE && !pCode->GetLen() )
{
return ScGlobal::GetErrorString(pCode->GetCodeError());
}
OUStringBuffer buffer;
if( cMatrixFlag == ScMatrixMode::Reference )
{
// Reference to another cell that contains a matrix formula.
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* p = aIter.GetNextReferenceRPN();
if( p )
{
/* FIXME: original GetFormula() code obtained
* pCell only if (!IsInChangeTrack()),
* GetEnglishFormula() omitted that test.
* Can we live without in all cases? */
ScFormulaCell* pCell = nullptr;
ScSingleRefData& rRef = *p->GetSingleRef();
ScAddress aAbs = rRef.toAbs(rDocument, aPos);
if (rDocument.ValidAddress(aAbs))
pCell = rDocument.GetFormulaCell(aAbs);
if (pCell)
{
return pCell->GetFormula( eGrammar, pContext );
}
else
{
ScCompiler aComp( rDocument, aPos, *pCode, eGrammar, false, false, pContext );
aComp.CreateStringFromTokenArray( buffer );
}
}
else
{
OSL_FAIL("ScFormulaCell::GetFormula: not a matrix");
}
}
else
{
ScCompiler aComp( rDocument, aPos, *pCode, eGrammar, false, false, pContext );
aComp.CreateStringFromTokenArray( buffer );
}
buffer.insert( 0, '=');
if( cMatrixFlag != ScMatrixMode::NONE )
{
buffer.insert( 0, '{');
buffer.append( '}');
}
return buffer.makeStringAndClear();
}
OUString ScFormulaCell::GetFormula( sc::CompileFormulaContext& rCxt, const ScInterpreterContext* pContext ) const
{
OUStringBuffer aBuf;
if (pCode->GetCodeError() != FormulaError::NONE && !pCode->GetLen())
{
ScTokenArray aCode(rCxt.getDoc());
aCode.AddToken( FormulaErrorToken( pCode->GetCodeError()));
ScCompiler aComp(rCxt, aPos, aCode, false, false, pContext);
aComp.CreateStringFromTokenArray(aBuf);
return aBuf.makeStringAndClear();
}
else if( cMatrixFlag == ScMatrixMode::Reference )
{
// Reference to another cell that contains a matrix formula.
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* p = aIter.GetNextReferenceRPN();
if( p )
{
/* FIXME: original GetFormula() code obtained
* pCell only if (!IsInChangeTrack()),
* GetEnglishFormula() omitted that test.
* Can we live without in all cases? */
ScFormulaCell* pCell = nullptr;
ScSingleRefData& rRef = *p->GetSingleRef();
ScAddress aAbs = rRef.toAbs(rDocument, aPos);
if (rDocument.ValidAddress(aAbs))
pCell = rDocument.GetFormulaCell(aAbs);
if (pCell)
{
return pCell->GetFormula(rCxt);
}
else
{
ScCompiler aComp(rCxt, aPos, *pCode, false, false, pContext);
aComp.CreateStringFromTokenArray(aBuf);
}
}
else
{
OSL_FAIL("ScFormulaCell::GetFormula: not a matrix");
}
}
else
{
ScCompiler aComp(rCxt, aPos, *pCode, false, false, pContext);
aComp.CreateStringFromTokenArray(aBuf);
}
aBuf.insert( 0, '=');
if( cMatrixFlag != ScMatrixMode::NONE )
{
aBuf.insert( 0, '{');
aBuf.append( '}');
}
return aBuf.makeStringAndClear();
}
void ScFormulaCell::GetResultDimensions( SCSIZE& rCols, SCSIZE& rRows )
{
MaybeInterpret();
if (pCode->GetCodeError() == FormulaError::NONE && aResult.GetType() == svMatrixCell)
{
const ScMatrix* pMat = aResult.GetToken()->GetMatrix();
if (pMat)
{
pMat->GetDimensions( rCols, rRows );
if (pCode->IsHyperLink())
{
// Row 2 element is the URL that is not to be displayed and the
// result dimension not to be extended.
assert(rRows == 2);
rRows = 1;
}
return;
}
}
rCols = 0;
rRows = 0;
}
void ScFormulaCell::ResetDirty() { bDirty = bTableOpDirty = mbPostponedDirty = false; }
void ScFormulaCell::SetNeedsListening( bool bVar ) { bNeedListening = bVar; }
void ScFormulaCell::SetNeedsDirty( bool bVar )
{
mbPostponedDirty = bVar;
}
void ScFormulaCell::SetNeedNumberFormat( bool bVal )
{
mbNeedsNumberFormat = mbAllowNumberFormatChange = bVal;
}
void ScFormulaCell::Compile( const OUString& rFormula, bool bNoListening,
const FormulaGrammar::Grammar eGrammar )
{
if ( rDocument.IsClipOrUndo() )
return;
bool bWasInFormulaTree = rDocument.IsInFormulaTree( this );
if ( bWasInFormulaTree )
rDocument.RemoveFromFormulaTree( this );
// pCode may not deleted for queries, but must be empty
if ( pCode )
pCode->Clear();
ScTokenArray* pCodeOld = pCode;
ScCompiler aComp( rDocument, aPos, eGrammar);
pCode = aComp.CompileString( rFormula ).release();
assert(!mxGroup);
delete pCodeOld;
if( pCode->GetCodeError() == FormulaError::NONE )
{
if ( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() && rFormula == aResult.GetHybridFormula() )
{ // not recursive CompileTokenArray/Compile/CompileTokenArray
if ( rFormula[0] == '=' )
pCode->AddBad( rFormula.copy(1) );
else
pCode->AddBad( rFormula );
}
bCompile = true;
CompileTokenArray( bNoListening );
}
else
bChanged = true;
if ( bWasInFormulaTree )
rDocument.PutInFormulaTree( this );
}
void ScFormulaCell::Compile(
sc::CompileFormulaContext& rCxt, const OUString& rFormula, bool bNoListening )
{
if ( rDocument.IsClipOrUndo() )
return;
bool bWasInFormulaTree = rDocument.IsInFormulaTree( this );
if ( bWasInFormulaTree )
rDocument.RemoveFromFormulaTree( this );
// pCode may not deleted for queries, but must be empty
if ( pCode )
pCode->Clear();
ScTokenArray* pCodeOld = pCode;
ScCompiler aComp(rCxt, aPos);
pCode = aComp.CompileString( rFormula ).release();
assert(!mxGroup);
delete pCodeOld;
if( pCode->GetCodeError() == FormulaError::NONE )
{
if ( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() && rFormula == aResult.GetHybridFormula() )
{ // not recursive CompileTokenArray/Compile/CompileTokenArray
if ( rFormula[0] == '=' )
pCode->AddBad( rFormula.copy(1) );
else
pCode->AddBad( rFormula );
}
bCompile = true;
CompileTokenArray(rCxt, bNoListening);
}
else
bChanged = true;
if ( bWasInFormulaTree )
rDocument.PutInFormulaTree( this );
}
void ScFormulaCell::CompileTokenArray( bool bNoListening )
{
// Not already compiled?
if( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() )
{
Compile( aResult.GetHybridFormula(), bNoListening, eTempGrammar);
}
else if( bCompile && !rDocument.IsClipOrUndo() && pCode->GetCodeError() == FormulaError::NONE )
{
// RPN length may get changed
bool bWasInFormulaTree = rDocument.IsInFormulaTree( this );
if ( bWasInFormulaTree )
rDocument.RemoveFromFormulaTree( this );
// Loading from within filter? No listening yet!
if( rDocument.IsInsertingFromOtherDoc() )
bNoListening = true;
if( !bNoListening && pCode->GetCodeLen() )
EndListeningTo( rDocument );
ScCompiler aComp(rDocument, aPos, *pCode, rDocument.GetGrammar(), true, cMatrixFlag != ScMatrixMode::NONE);
bSubTotal = aComp.CompileTokenArray();
if( pCode->GetCodeError() == FormulaError::NONE )
{
nFormatType = aComp.GetNumFormatType();
bChanged = true;
aResult.SetToken( nullptr);
bCompile = false;
if ( !bNoListening )
StartListeningTo( rDocument );
}
if ( bWasInFormulaTree )
rDocument.PutInFormulaTree( this );
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
}
void ScFormulaCell::CompileTokenArray( sc::CompileFormulaContext& rCxt, bool bNoListening )
{
// Not already compiled?
if( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() )
{
rCxt.setGrammar(eTempGrammar);
Compile(rCxt, aResult.GetHybridFormula(), bNoListening);
}
else if( bCompile && !rDocument.IsClipOrUndo() && pCode->GetCodeError() == FormulaError::NONE)
{
// RPN length may get changed
bool bWasInFormulaTree = rDocument.IsInFormulaTree( this );
if ( bWasInFormulaTree )
rDocument.RemoveFromFormulaTree( this );
// Loading from within filter? No listening yet!
if( rDocument.IsInsertingFromOtherDoc() )
bNoListening = true;
if( !bNoListening && pCode->GetCodeLen() )
EndListeningTo( rDocument );
ScCompiler aComp(rCxt, aPos, *pCode, true, cMatrixFlag != ScMatrixMode::NONE);
bSubTotal = aComp.CompileTokenArray();
if( pCode->GetCodeError() == FormulaError::NONE )
{
nFormatType = aComp.GetNumFormatType();
bChanged = true;
aResult.SetToken( nullptr);
bCompile = false;
if ( !bNoListening )
StartListeningTo( rDocument );
}
if ( bWasInFormulaTree )
rDocument.PutInFormulaTree( this );
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
}
void ScFormulaCell::CompileXML( sc::CompileFormulaContext& rCxt, ScProgress& rProgress )
{
if ( cMatrixFlag == ScMatrixMode::Reference )
{ // is already token code via ScDocFunc::EnterMatrix, ScDocument::InsertMatrixFormula
// just establish listeners
StartListeningTo( rDocument );
return ;
}
// Error constant formula cell stays as is.
if (!pCode->GetLen() && pCode->GetCodeError() != FormulaError::NONE)
return;
// Compilation changes RPN count, remove and reinsert to FormulaTree if it
// was in to update its count.
bool bWasInFormulaTree = rDocument.IsInFormulaTree( this);
if (bWasInFormulaTree)
rDocument.RemoveFromFormulaTree( this);
rCxt.setGrammar(eTempGrammar);
ScCompiler aComp(rCxt, aPos, *pCode, true, cMatrixFlag != ScMatrixMode::NONE);
OUString aFormula, aFormulaNmsp;
aComp.CreateStringFromXMLTokenArray( aFormula, aFormulaNmsp );
rDocument.DecXMLImportedFormulaCount( aFormula.getLength() );
rProgress.SetStateCountDownOnPercent( rDocument.GetXMLImportedFormulaCount() );
// pCode may not deleted for queries, but must be empty
pCode->Clear();
bool bDoCompile = true;
if ( !mxGroup && aFormulaNmsp.isEmpty() ) // optimization
{
ScAddress aPreviousCell( aPos );
aPreviousCell.IncRow( -1 );
ScFormulaCell *pPreviousCell = rDocument.GetFormulaCell( aPreviousCell );
if (pPreviousCell && pPreviousCell->GetCode()->IsShareable())
{
// Build formula string using the tokens from the previous cell,
// but use the current cell position.
ScCompiler aBackComp( rCxt, aPos, *(pPreviousCell->pCode) );
OUStringBuffer aShouldBeBuf;
aBackComp.CreateStringFromTokenArray( aShouldBeBuf );
// The initial '=' is optional in ODFF.
const sal_Int32 nLeadingEqual = (aFormula.getLength() > 0 && aFormula[0] == '=') ? 1 : 0;
if (aFormula.getLength() == aShouldBeBuf.getLength() + nLeadingEqual &&
aFormula.match( aShouldBeBuf, nLeadingEqual))
{
// Put them in the same formula group.
ScFormulaCellGroupRef xGroup = pPreviousCell->GetCellGroup();
if (!xGroup) // Last cell is not grouped yet. Start a new group.
xGroup = pPreviousCell->CreateCellGroup(1, false);
++xGroup->mnLength;
SetCellGroup( xGroup );
// Do setup here based on previous cell.
nFormatType = pPreviousCell->nFormatType;
bSubTotal = pPreviousCell->bSubTotal;
bChanged = true;
bCompile = false;
if (bSubTotal)
rDocument.AddSubTotalCell(this);
bDoCompile = false;
pCode = pPreviousCell->pCode;
if (pPreviousCell->mbIsExtRef)
rDocument.GetExternalRefManager()->insertRefCellFromTemplate( pPreviousCell, this );
}
}
}
if (bDoCompile)
{
ScTokenArray* pCodeOld = pCode;
pCode = aComp.CompileString( aFormula, aFormulaNmsp ).release();
assert(!mxGroup);
delete pCodeOld;
if( pCode->GetCodeError() == FormulaError::NONE )
{
if ( !pCode->GetLen() )
{
if ( !aFormula.isEmpty() && aFormula[0] == '=' )
pCode->AddBad( aFormula.copy( 1 ) );
else
pCode->AddBad( aFormula );
}
bSubTotal = aComp.CompileTokenArray();
if( pCode->GetCodeError() == FormulaError::NONE )
{
nFormatType = aComp.GetNumFormatType();
bChanged = true;
bCompile = false;
}
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
else
bChanged = true;
}
// After loading, it must be known if ocDde/ocWebservice is in any formula
// (for external links warning, CompileXML is called at the end of loading XML file)
rDocument.CheckLinkFormulaNeedingCheck(*pCode);
//volatile cells must be added here for import
if( !pCode->IsRecalcModeNormal() || pCode->IsRecalcModeForced())
{
// During load, only those cells that are marked explicitly dirty get
// recalculated. So we need to set it dirty here.
SetDirtyVar();
rDocument.AppendToFormulaTrack(this);
// Do not call TrackFormulas() here, not all listeners may have been
// established, postponed until ScDocument::CompileXML() finishes.
}
else if (bWasInFormulaTree)
rDocument.PutInFormulaTree(this);
}
void ScFormulaCell::CalcAfterLoad( sc::CompileFormulaContext& rCxt, bool bStartListening )
{
bool bNewCompiled = false;
// If a Calc 1.0-doc is read, we have a result, but no token array
if( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() )
{
rCxt.setGrammar(eTempGrammar);
Compile(rCxt, aResult.GetHybridFormula(), true);
aResult.SetToken( nullptr);
bDirty = true;
bNewCompiled = true;
}
// The RPN array is not created when a Calc 3.0-Doc has been read as the Range Names exist until now.
if( pCode->GetLen() && !pCode->GetCodeLen() && pCode->GetCodeError() == FormulaError::NONE )
{
ScCompiler aComp(rCxt, aPos, *pCode, true, cMatrixFlag != ScMatrixMode::NONE);
bSubTotal = aComp.CompileTokenArray();
nFormatType = aComp.GetNumFormatType();
bDirty = true;
bCompile = false;
bNewCompiled = true;
if (bSubTotal)
rDocument.AddSubTotalCell(this);
}
// On OS/2 with broken FPU exception, we can somehow store /0 without Err503. Later on in
// the BLC Lib NumberFormatter crashes when doing a fabs (NAN) (# 32739 #).
// We iron this out here for all systems, such that we also have an Err503 here.
if ( aResult.IsValue() && !std::isfinite( aResult.GetDouble() ) )
{
OSL_FAIL("Formula cell INFINITY!!! Where does this document come from?");
aResult.SetResultError( FormulaError::IllegalFPOperation );
bDirty = true;
}
// DoubleRefs for binary operators were always a Matrix before version v5.0.
// Now this is only the case when in an array formula, otherwise it's an implicit intersection
if ( ScDocument::GetSrcVersion() < SC_MATRIX_DOUBLEREF &&
GetMatrixFlag() == ScMatrixMode::NONE && pCode->HasMatrixDoubleRefOps() )
{
cMatrixFlag = ScMatrixMode::Formula;
SetMatColsRows( 1, 1);
}
// Do the cells need to be calculated? After Load cells can contain an error code, and then start
// the listener and Recalculate (if needed) if not ScRecalcMode::NORMAL
if( !bNewCompiled || pCode->GetCodeError() == FormulaError::NONE )
{
if (bStartListening)
StartListeningTo(rDocument);
if( !pCode->IsRecalcModeNormal() )
bDirty = true;
}
if ( pCode->IsRecalcModeAlways() )
{ // random(), today(), now() always stay in the FormulaTree, so that they are calculated
// for each F9
bDirty = true;
}
// No SetDirty yet, as no all Listeners are known yet (only in SetDirtyAfterLoad)
}
bool ScFormulaCell::MarkUsedExternalReferences()
{
return pCode && rDocument.MarkUsedExternalReferences(*pCode, aPos);
}
namespace {
class RecursionCounter
{
ScRecursionHelper& rRec;
bool bStackedInIteration;
#if defined DBG_UTIL && !defined NDEBUG
const ScFormulaCell* cell;
#endif
public:
RecursionCounter( ScRecursionHelper& r, ScFormulaCell* p )
: rRec(r)
#if defined DBG_UTIL && !defined NDEBUG
, cell(p)
#endif
{
bStackedInIteration = rRec.IsDoingIteration();
if (bStackedInIteration)
rRec.GetRecursionInIterationStack().push( p);
rRec.IncRecursionCount();
}
~RecursionCounter()
{
rRec.DecRecursionCount();
if (bStackedInIteration)
{
#if defined DBG_UTIL && !defined NDEBUG
assert(rRec.GetRecursionInIterationStack().top() == cell);
#endif
rRec.GetRecursionInIterationStack().pop();
}
}
};
// Forced calculation: OpenCL and threads require formula groups, so force even single cells to be a "group".
// Remove the group again at the end, since there are some places throughout the code
// that do not handle well groups with just 1 cell. Remove the groups only when the recursion level
// reaches 0 again (groups contain some info such as disabling threading because of cycles, so removing
// a group immediately would remove the info), for this reason affected cells are stored in the recursion
// helper.
struct TemporaryCellGroupMaker
{
TemporaryCellGroupMaker( ScFormulaCell* cell, bool enable )
: mCell( cell )
, mEnabled( enable )
{
if( mEnabled && mCell->GetCellGroup() == nullptr )
{
mCell->CreateCellGroup( 1, false );
mCell->GetDocument().GetRecursionHelper().AddTemporaryGroupCell( mCell );
}
}
~TemporaryCellGroupMaker() COVERITY_NOEXCEPT_FALSE
{
if( mEnabled )
mCell->GetDocument().GetRecursionHelper().CleanTemporaryGroupCells();
}
ScFormulaCell* mCell;
const bool mEnabled;
};
} // namespace
bool ScFormulaCell::Interpret(SCROW nStartOffset, SCROW nEndOffset)
{
ScRecursionHelper& rRecursionHelper = rDocument.GetRecursionHelper();
bool bGroupInterpreted = false;
// The result would possibly depend on a cell without a valid value, bail out
// the entire dependency computation.
if (rRecursionHelper.IsAbortingDependencyComputation())
return false;
if ((mxGroup && !rRecursionHelper.CheckFGIndependence(mxGroup.get())) || !rRecursionHelper.AreGroupsIndependent())
return bGroupInterpreted;
static ForceCalculationType forceType = ScCalcConfig::getForceCalculationType();
TemporaryCellGroupMaker cellGroupMaker( this, forceType != ForceCalculationNone && forceType != ForceCalculationCore );
ScFormulaCell* pTopCell = mxGroup ? mxGroup->mpTopCell : this;
if (pTopCell->mbSeenInPath && rRecursionHelper.GetDepComputeLevel() &&
rRecursionHelper.AnyCycleMemberInDependencyEvalMode(pTopCell))
{
// This call arose from a dependency calculation and we just found a cycle.
// This will mark all elements in the cycle as parts-of-cycle.
ScFormulaGroupCycleCheckGuard aCycleCheckGuard(rRecursionHelper, pTopCell);
// Reaching here does not necessarily mean a circular reference, so don't set Err:522 here yet.
// If there is a genuine circular reference, it will be marked so when all groups
// in the cycle get out of dependency evaluation mode.
// But returning without calculation a new value means other cells depending
// on this one would use a possibly invalid value, so ensure the dependency
// computation is aborted without resetting the dirty flag of any cell.
rRecursionHelper.AbortDependencyComputation();
return bGroupInterpreted;
}
#if DEBUG_CALCULATION
static bool bDebugCalculationInit = true;
if (bDebugCalculationInit)
{
aDC.maTrigger = aDebugCalculationTriggerAddress;
aDC.mbPrintResults = true;
bDebugCalculationInit = false;
}
DebugCalculationStacker aDebugEntry(aPos, rDocument);
#endif
if (!IsDirtyOrInTableOpDirty() || rRecursionHelper.IsInReturn())
return bGroupInterpreted; // no double/triple processing
//FIXME:
// If the call originates from a Reschedule in DdeLink update, leave dirty
// Better: Do a Dde Link Update without Reschedule or do it completely asynchronously!
if ( rDocument.IsInDdeLinkUpdate() )
return bGroupInterpreted;
if (bRunning)
{
if (!rDocument.GetDocOptions().IsIter())
{
aResult.SetResultError( FormulaError::CircularReference );
return bGroupInterpreted;
}
if (aResult.GetResultError() == FormulaError::CircularReference)
aResult.SetResultError( FormulaError::NONE );
// Start or add to iteration list.
if (!rRecursionHelper.IsDoingIteration() ||
!rRecursionHelper.GetRecursionInIterationStack().top()->bIsIterCell)
rRecursionHelper.SetInIterationReturn( true);
return bGroupInterpreted;
}
// no multiple interprets for GetErrCode, IsValue, GetValue and
// different entry point recursions. Would also lead to premature
// convergence in iterations.
if (rRecursionHelper.GetIteration() && nSeenInIteration ==
rRecursionHelper.GetIteration())
return bGroupInterpreted;
bool bOldRunning = bRunning;
if (rRecursionHelper.GetRecursionCount() > MAXRECURSION)
{
bRunning = true;
rRecursionHelper.SetInRecursionReturn( true);
}
else
{
rDocument.IncInterpretLevel();
#if DEBUG_CALCULATION
aDC.enterGroup();
#endif
bool bPartOfCycleBefore = mxGroup && mxGroup->mbPartOfCycle;
bGroupInterpreted = InterpretFormulaGroup(nStartOffset, nEndOffset);
bool bPartOfCycleAfter = mxGroup && mxGroup->mbPartOfCycle;
#if DEBUG_CALCULATION
aDC.leaveGroup();
#endif
if (!bGroupInterpreted)
{
// This call resulted from a dependency calculation for a multigroup-threading attempt,
// but found dependency among the groups.
if (!rRecursionHelper.AreGroupsIndependent())
{
rDocument.DecInterpretLevel();
return bGroupInterpreted;
}
// Dependency calc inside InterpretFormulaGroup() failed due to
// detection of a cycle and there are parent FG's in the cycle.
// Skip InterpretTail() in such cases, only run InterpretTail for the "cycle-starting" FG
if (!bPartOfCycleBefore && bPartOfCycleAfter && rRecursionHelper.AnyParentFGInCycle())
{
rDocument.DecInterpretLevel();
return bGroupInterpreted;
}
ScFormulaGroupCycleCheckGuard aCycleCheckGuard(rRecursionHelper, this);
ScInterpreterContextGetterGuard aContextGetterGuard(rDocument, rDocument.GetFormatTable());
InterpretTail( *aContextGetterGuard.GetInterpreterContext(), SCITP_NORMAL);
}
rDocument.DecInterpretLevel();
}
// While leaving a recursion or iteration stack, insert its cells to the
// recursion list in reverse order.
if (rRecursionHelper.IsInReturn())
{
bool bFreeFlyingInserted = false;
if (rRecursionHelper.GetRecursionCount() > 0 || !rRecursionHelper.IsDoingRecursion())
{
rRecursionHelper.Insert( this, bOldRunning, aResult);
bFreeFlyingInserted = mbFreeFlying;
}
bool bIterationFromRecursion = false;
bool bResumeIteration = false;
do
{
if ((rRecursionHelper.IsInIterationReturn() &&
rRecursionHelper.GetRecursionCount() == 0 &&
!rRecursionHelper.IsDoingIteration()) ||
bIterationFromRecursion || bResumeIteration)
{
bool & rDone = rRecursionHelper.GetConvergingReference();
rDone = false;
if (!bIterationFromRecursion && bResumeIteration)
{
bResumeIteration = false;
// Resuming iteration expands the range.
ScFormulaRecursionList::const_iterator aOldStart(
rRecursionHelper.GetLastIterationStart());
rRecursionHelper.ResumeIteration();
// Mark new cells being in iteration.
for (ScFormulaRecursionList::const_iterator aIter(
rRecursionHelper.GetIterationStart()); aIter !=
aOldStart; ++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
pIterCell->bIsIterCell = true;
}
// Mark older cells dirty again, in case they converted
// without accounting for all remaining cells in the circle
// that weren't touched so far, e.g. conditional. Restore
// backupped result.
sal_uInt16 nIteration = rRecursionHelper.GetIteration();
for (ScFormulaRecursionList::const_iterator aIter(
aOldStart); aIter !=
rRecursionHelper.GetIterationEnd(); ++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
if (pIterCell->nSeenInIteration == nIteration)
{
if (!pIterCell->bDirty || aIter == aOldStart)
{
pIterCell->aResult = (*aIter).aPreviousResult;
}
--pIterCell->nSeenInIteration;
}
pIterCell->bDirty = true;
}
}
else
{
bResumeIteration = false;
// Close circle once. If 'this' is self-referencing only
// (e.g. counter or self-adder) then it is already
// implicitly closed.
/* TODO: does this even make sense anymore? The last cell
* added above with rRecursionHelper.Insert() should always
* be 'this', shouldn't it? */
if (rRecursionHelper.GetList().size() > 1)
{
ScFormulaCell* pLastCell = rRecursionHelper.GetList().back().pCell;
if (pLastCell != this)
{
rDocument.IncInterpretLevel();
ScInterpreterContextGetterGuard aContextGetterGuard(rDocument, rDocument.GetFormatTable());
pLastCell->InterpretTail(
*aContextGetterGuard.GetInterpreterContext(), SCITP_CLOSE_ITERATION_CIRCLE);
rDocument.DecInterpretLevel();
}
}
// Start at 1, init things.
rRecursionHelper.StartIteration();
// Mark all cells being in iteration. Reset results to
// original values, formula cells have been interpreted
// already, discard that step.
for (ScFormulaRecursionList::const_iterator aIter(
rRecursionHelper.GetIterationStart()); aIter !=
rRecursionHelper.GetIterationEnd(); ++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
pIterCell->aResult = (*aIter).aPreviousResult;
pIterCell->bIsIterCell = true;
}
}
bIterationFromRecursion = false;
sal_uInt16 nIterMax = rDocument.GetDocOptions().GetIterCount();
for ( ; rRecursionHelper.GetIteration() <= nIterMax && !rDone;
rRecursionHelper.IncIteration())
{
rDone = false;
bool bFirst = true;
for ( ScFormulaRecursionList::iterator aIter(
rRecursionHelper.GetIterationStart()); aIter !=
rRecursionHelper.GetIterationEnd() &&
!rRecursionHelper.IsInReturn(); ++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
if (pIterCell->IsDirtyOrInTableOpDirty() &&
rRecursionHelper.GetIteration() !=
pIterCell->GetSeenInIteration())
{
(*aIter).aPreviousResult = pIterCell->aResult;
rDocument.IncInterpretLevel();
ScInterpreterContextGetterGuard aContextGetterGuard(rDocument, rDocument.GetFormatTable());
pIterCell->InterpretTail( *aContextGetterGuard.GetInterpreterContext(), SCITP_FROM_ITERATION);
rDocument.DecInterpretLevel();
}
if (bFirst)
{
rDone = !pIterCell->IsDirtyOrInTableOpDirty();
bFirst = false;
}
else if (rDone)
{
rDone = !pIterCell->IsDirtyOrInTableOpDirty();
}
}
if (rRecursionHelper.IsInReturn())
{
bResumeIteration = true;
break; // for
// Don't increment iteration.
}
}
if (!bResumeIteration)
{
if (rDone)
{
for (ScFormulaRecursionList::const_iterator aIter(
rRecursionHelper.GetIterationStart());
aIter != rRecursionHelper.GetIterationEnd();
++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
pIterCell->bIsIterCell = false;
pIterCell->nSeenInIteration = 0;
pIterCell->bRunning = (*aIter).bOldRunning;
}
}
else
{
for (ScFormulaRecursionList::const_iterator aIter(
rRecursionHelper.GetIterationStart());
aIter != rRecursionHelper.GetIterationEnd();
++aIter)
{
ScFormulaCell* pIterCell = (*aIter).pCell;
pIterCell->bIsIterCell = false;
pIterCell->nSeenInIteration = 0;
pIterCell->bRunning = (*aIter).bOldRunning;
pIterCell->ResetDirty();
// The difference to Excel is that Excel does not
// produce an error for non-convergence thus a
// delta of 0.001 still works to execute the
// maximum number of iterations and display the
// results no matter if the result anywhere reached
// near delta, but also never indicates whether the
// result actually makes sense in case of
// non-counter context. Calc does check the delta
// in every case. If we wanted to support what
// Excel does then add another option "indicate
// non-convergence error" (default on) and execute
// the following block only if set.
#if 1
// If one cell didn't converge, all cells of this
// circular dependency don't, no matter whether
// single cells did.
pIterCell->aResult.SetResultError( FormulaError::NoConvergence);
pIterCell->bChanged = true;
#endif
}
}
// End this iteration and remove entries.
rRecursionHelper.EndIteration();
bResumeIteration = rRecursionHelper.IsDoingIteration();
}
}
if (rRecursionHelper.IsInRecursionReturn() &&
rRecursionHelper.GetRecursionCount() == 0 &&
!rRecursionHelper.IsDoingRecursion())
{
bIterationFromRecursion = false;
// Iterate over cells known so far, start with the last cell
// encountered, inserting new cells if another recursion limit
// is reached. Repeat until solved.
rRecursionHelper.SetDoingRecursion( true);
do
{
rRecursionHelper.SetInRecursionReturn( false);
for (ScFormulaRecursionList::const_iterator aIter(
rRecursionHelper.GetIterationStart());
!rRecursionHelper.IsInReturn() && aIter !=
rRecursionHelper.GetIterationEnd(); ++aIter)
{
ScFormulaCell* pCell = (*aIter).pCell;
if (pCell->IsDirtyOrInTableOpDirty())
{
rDocument.IncInterpretLevel();
ScInterpreterContextGetterGuard aContextGetterGuard(rDocument, rDocument.GetFormatTable());
pCell->InterpretTail( *aContextGetterGuard.GetInterpreterContext(), SCITP_NORMAL);
rDocument.DecInterpretLevel();
if (!pCell->IsDirtyOrInTableOpDirty() && !pCell->IsIterCell())
pCell->bRunning = (*aIter).bOldRunning;
}
}
} while (rRecursionHelper.IsInRecursionReturn());
rRecursionHelper.SetDoingRecursion( false);
if (rRecursionHelper.IsInIterationReturn())
{
if (!bResumeIteration)
bIterationFromRecursion = true;
}
else if (bResumeIteration ||
rRecursionHelper.IsDoingIteration())
rRecursionHelper.GetList().erase(
rRecursionHelper.GetIterationStart(),
rRecursionHelper.GetLastIterationStart());
else
rRecursionHelper.Clear();
}
} while (bIterationFromRecursion || bResumeIteration);
if (bFreeFlyingInserted)
{
// Remove this from recursion list, it may get deleted.
// It additionally also should mean that the recursion/iteration
// ends here as it must had been triggered by this free-flying
// out-of-sheets cell
const bool bOnlyThis = (rRecursionHelper.GetList().size() == 1);
rRecursionHelper.GetList().remove_if([this](const ScFormulaRecursionEntry& r){return r.pCell == this;});
if (bOnlyThis)
{
assert(rRecursionHelper.GetList().empty());
if (rRecursionHelper.GetList().empty())
rRecursionHelper.EndIteration();
}
}
}
#if DEBUG_CALCULATION
FormulaError nErr = aResult.GetResultError();
if (nErr != FormulaError::NONE)
aDC.storeResultError( nErr);
else if (aResult.IsValue())
aDC.storeResult( aResult.GetDouble());
else
aDC.storeResult( aResult.GetString());
#endif
return bGroupInterpreted;
}
void ScFormulaCell::InterpretTail( ScInterpreterContext& rContext, ScInterpretTailParameter eTailParam )
{
RecursionCounter aRecursionCounter( rDocument.GetRecursionHelper(), this);
// TODO If this cell is not an iteration cell, add it to the list of iteration cells?
if(bIsIterCell)
nSeenInIteration = rDocument.GetRecursionHelper().GetIteration();
if( !pCode->GetCodeLen() && pCode->GetCodeError() == FormulaError::NONE )
{
// #i11719# no RPN and no error and no token code but result string present
// => interpretation of this cell during name-compilation and unknown names
// => can't exchange underlying code array in CompileTokenArray() /
// Compile() because interpreter's token iterator would crash or pCode
// would be deleted twice if this cell was interpreted during
// compilation.
// This should only be a temporary condition and, since we set an
// error, if ran into it again we'd bump into the dirty-clearing
// condition further down.
if ( !pCode->GetLen() && !aResult.GetHybridFormula().isEmpty() )
{
pCode->SetCodeError( FormulaError::NoCode );
// This is worth an assertion; if encountered in daily work
// documents we might need another solution. Or just confirm correctness.
return;
}
CompileTokenArray();
}
if( pCode->GetCodeLen() )
{
std::unique_ptr<ScInterpreter> pScopedInterpreter;
ScInterpreter* pInterpreter;
if (rContext.pInterpreter)
{
pInterpreter = rContext.pInterpreter;
pInterpreter->Init(this, aPos, *pCode);
}
else
{
pScopedInterpreter.reset(new ScInterpreter( this, rDocument, rContext, aPos, *pCode ));
pInterpreter = pScopedInterpreter.get();
}
FormulaError nOldErrCode = aResult.GetResultError();
if ( nSeenInIteration == 0 )
{ // Only the first time
// With bChanged=false, if a newly compiled cell has a result of
// 0.0, no change is detected and the cell will not be repainted.
// bChanged = false;
aResult.SetResultError( FormulaError::NONE );
}
switch ( aResult.GetResultError() )
{
case FormulaError::CircularReference : // will be determined again if so
aResult.SetResultError( FormulaError::NONE );
break;
default: break;
}
bool bOldRunning = bRunning;
bRunning = true;
pInterpreter->Interpret();
if (rDocument.GetRecursionHelper().IsInReturn() && eTailParam != SCITP_CLOSE_ITERATION_CIRCLE)
{
if (nSeenInIteration > 0)
--nSeenInIteration; // retry when iteration is resumed
if ( aResult.GetType() == formula::svUnknown )
aResult.SetToken( pInterpreter->GetResultToken().get() );
return;
}
bRunning = bOldRunning;
// The result may be invalid or depend on another invalid result, just abort
// without updating the cell value. Since the dirty flag will not be reset,
// the proper value will be computed later.
if(rDocument.GetRecursionHelper().IsAbortingDependencyComputation())
return;
// #i102616# For single-sheet saving consider only content changes, not format type,
// because format type isn't set on loading (might be changed later)
bool bContentChanged = false;
// Do not create a HyperLink() cell if the formula results in an error.
if( pInterpreter->GetError() != FormulaError::NONE && pCode->IsHyperLink())
pCode->SetHyperLink(false);
if( pInterpreter->GetError() != FormulaError::NONE && pInterpreter->GetError() != FormulaError::CircularReference)
{
bChanged = true;
if (pInterpreter->GetError() == FormulaError::RetryCircular)
{
// Array formula matrix calculation corner case. Keep dirty
// state, do not remove from formula tree or anything else, but
// store FormulaError::CircularReference in case this cell does not get
// recalculated.
aResult.SetResultError( FormulaError::CircularReference);
return;
}
ResetDirty();
}
if (eTailParam == SCITP_FROM_ITERATION && IsDirtyOrInTableOpDirty())
{
bool bIsValue = aResult.IsValue(); // the previous type
// Did it converge?
if ((bIsValue && pInterpreter->GetResultType() == svDouble && fabs(
pInterpreter->GetNumResult() - aResult.GetDouble()) <=
rDocument.GetDocOptions().GetIterEps()) ||
(!bIsValue && pInterpreter->GetResultType() == svString &&
pInterpreter->GetStringResult() == aResult.GetString()))
{
// A convergence in the first iteration doesn't necessarily
// mean that it's done, it may be as not all related cells
// of a circle changed their values yet. If the set really
// converges it will do so also during the next iteration. This
// fixes situations like of #i44115#. If this wasn't wanted an
// initial "uncalculated" value would be needed for all cells
// of a circular dependency => graph needed before calculation.
if (nSeenInIteration > 1 ||
rDocument.GetDocOptions().GetIterCount() == 1)
{
ResetDirty();
}
}
}
// New error code?
if( pInterpreter->GetError() != nOldErrCode )
{
bChanged = true;
// bContentChanged only has to be set if the file content would be changed
if ( aResult.GetCellResultType() != svUnknown )
bContentChanged = true;
}
ScFormulaResult aNewResult( pInterpreter->GetResultToken().get());
// For IF() and other jumps or changed formatted source data the result
// format may change for different runs, e.g. =IF(B1,B1) with first
// B1:0 boolean FALSE next B1:23 numeric 23, we don't want the 23
// displayed as TRUE. Do not force a general format though if
// mbNeedsNumberFormat is set (because there was a general format..).
// Note that nFormatType may be out of sync here if a format was
// applied or cleared after the last run, but obtaining the current
// format always just to check would be expensive. There may be
// cases where the format should be changed but is not. If that turns
// out to be a real problem then obtain the current format type after
// the initial check when needed.
bool bForceNumberFormat = (mbAllowNumberFormatChange && !mbNeedsNumberFormat &&
!SvNumberFormatter::IsCompatible( nFormatType, pInterpreter->GetRetFormatType()));
// We have some requirements additionally to IsCompatible().
// * Do not apply a NumberFormat::LOGICAL if the result value is not
// 1.0 or 0.0
// * Do not override an already set numeric number format if the result
// is of type NumberFormat::LOGICAL, it could be user applied.
// On the other hand, for an empty jump path instead of FALSE an
// unexpected for example 0% could be displayed. YMMV.
// * Never override a non-standard number format that indicates user
// applied.
// * NumberFormat::TEXT does not force a change.
if (bForceNumberFormat)
{
sal_uInt32 nOldFormatIndex = NUMBERFORMAT_ENTRY_NOT_FOUND;
const SvNumFormatType nRetType = pInterpreter->GetRetFormatType();
if (nRetType == SvNumFormatType::LOGICAL)
{
double fVal = aNewResult.GetDouble();
if (fVal != 1.0 && fVal != 0.0)
bForceNumberFormat = false;
else
{
nOldFormatIndex = rDocument.GetNumberFormat( rContext, aPos);
nFormatType = rContext.GetFormatTable()->GetType( nOldFormatIndex);
switch (nFormatType)
{
case SvNumFormatType::PERCENT:
case SvNumFormatType::CURRENCY:
case SvNumFormatType::SCIENTIFIC:
case SvNumFormatType::FRACTION:
bForceNumberFormat = false;
break;
case SvNumFormatType::NUMBER:
if ((nOldFormatIndex % SV_COUNTRY_LANGUAGE_OFFSET) != 0)
bForceNumberFormat = false;
break;
default: break;
}
}
}
else if (nRetType == SvNumFormatType::TEXT)
{
bForceNumberFormat = false;
}
if (bForceNumberFormat)
{
if (nOldFormatIndex == NUMBERFORMAT_ENTRY_NOT_FOUND)
{
nOldFormatIndex = rDocument.GetNumberFormat( rContext, aPos);
nFormatType = rContext.GetFormatTable()->GetType( nOldFormatIndex);
}
if (nOldFormatIndex !=
ScGlobal::GetStandardFormat( *rContext.GetFormatTable(), nOldFormatIndex, nFormatType))
bForceNumberFormat = false;
}
}
if( mbNeedsNumberFormat || bForceNumberFormat )
{
bool bSetFormat = true;
const SvNumFormatType nOldFormatType = nFormatType;
nFormatType = pInterpreter->GetRetFormatType();
sal_uInt32 nFormatIndex = pInterpreter->GetRetFormatIndex();
if (nFormatType == SvNumFormatType::TEXT)
{
// Don't set text format as hard format.
bSetFormat = false;
}
else if (nFormatType == SvNumFormatType::LOGICAL && cMatrixFlag != ScMatrixMode::NONE)
{
// In a matrix range do not set an (inherited) logical format
// as hard format if the value does not represent a strict TRUE
// or FALSE value. But do set for a top left error value so
// following matrix cells can inherit for non-error values.
// This solves a problem with IF() expressions in array context
// where incidentally the top left element results in logical
// type but some others don't. It still doesn't solve the
// reverse case though, where top left is not logical type but
// some other elements should be. We'd need to transport type
// or format information on arrays.
StackVar eNewCellResultType = aNewResult.GetCellResultType();
if (eNewCellResultType != svError || cMatrixFlag == ScMatrixMode::Reference)
{
if (eNewCellResultType != svDouble)
{
bSetFormat = false;
nFormatType = nOldFormatType; // that? or number?
}
else
{
double fVal = aNewResult.GetDouble();
if (fVal != 1.0 && fVal != 0.0)
{
bSetFormat = false;
nFormatType = SvNumFormatType::NUMBER;
}
}
}
}
if (bSetFormat && (bForceNumberFormat || ((nFormatIndex % SV_COUNTRY_LANGUAGE_OFFSET) == 0)))
nFormatIndex = ScGlobal::GetStandardFormat(*rContext.GetFormatTable(),
nFormatIndex, nFormatType);
// Do not replace a General format (which was the reason why
// mbNeedsNumberFormat was set) with a General format.
// 1. setting a format has quite some overhead in the
// ScPatternAttr/ScAttrArray handling, even if identical.
// 2. the General formats may be of different locales.
// XXX if mbNeedsNumberFormat was set even if the current format
// was not General then we'd have to obtain the current format here
// and check at least the types.
const bool bSetNumberFormat = bSetFormat && (bForceNumberFormat || ((nFormatIndex % SV_COUNTRY_LANGUAGE_OFFSET) != 0));
if (bSetNumberFormat && !rDocument.IsInLayoutStrings())
{
// set number format explicitly
if (!rDocument.IsThreadedGroupCalcInProgress())
rDocument.SetNumberFormat( aPos, nFormatIndex );
else
{
// SetNumberFormat() is not thread-safe (modifies ScAttrArray), delay the work
// to the main thread. Since thread calculations operate on formula groups,
// it's enough to store just the row.
DelayedSetNumberFormat data = { aPos.Col(), aPos.Row(), nFormatIndex };
rContext.maDelayedSetNumberFormat.push_back( data );
}
bChanged = true;
}
// Currently (2019-05-10) nothing else can cope with a duration
// format type, change to time as it was before.
if (nFormatType == SvNumFormatType::DURATION)
nFormatType = SvNumFormatType::TIME;
mbNeedsNumberFormat = false;
}
// In case of changes just obtain the result, no temporary and
// comparison needed anymore.
if (bChanged)
{
// #i102616# Compare anyway if the sheet is still marked unchanged for single-sheet saving
// Also handle special cases of initial results after loading.
if ( !bContentChanged && rDocument.IsStreamValid(aPos.Tab()) )
{
StackVar eOld = aResult.GetCellResultType();
StackVar eNew = aNewResult.GetCellResultType();
if ( eOld == svUnknown && ( eNew == svError || ( eNew == svDouble && aNewResult.GetDouble() == 0.0 ) ) )
{
// ScXMLTableRowCellContext::EndElement doesn't call SetFormulaResultDouble for 0
// -> no change
}
else
{
if ( eOld == svHybridCell ) // string result from SetFormulaResultString?
eOld = svString; // ScHybridCellToken has a valid GetString method
// #i106045# use approxEqual to compare with stored value
bContentChanged = (eOld != eNew ||
(eNew == svDouble && !rtl::math::approxEqual( aResult.GetDouble(), aNewResult.GetDouble() )) ||
(eNew == svString && aResult.GetString() != aNewResult.GetString()));
}
}
aResult.SetToken( pInterpreter->GetResultToken().get() );
}
else
{
StackVar eOld = aResult.GetCellResultType();
StackVar eNew = aNewResult.GetCellResultType();
bChanged = (eOld != eNew ||
(eNew == svDouble && aResult.GetDouble() != aNewResult.GetDouble()) ||
(eNew == svString && aResult.GetString() != aNewResult.GetString()));
// #i102616# handle special cases of initial results after loading
// (only if the sheet is still marked unchanged)
if ( bChanged && !bContentChanged && rDocument.IsStreamValid(aPos.Tab()) )
{
if ((eOld == svUnknown && (eNew == svError || (eNew == svDouble && aNewResult.GetDouble() == 0.0))) ||
((eOld == svHybridCell) &&
eNew == svString && aResult.GetString() == aNewResult.GetString()) ||
(eOld == svDouble && eNew == svDouble &&
rtl::math::approxEqual( aResult.GetDouble(), aNewResult.GetDouble())))
{
// no change, see above
}
else
bContentChanged = true;
}
aResult.Assign( aNewResult);
}
// Precision as shown?
if ( aResult.IsValue() && pInterpreter->GetError() == FormulaError::NONE
&& rDocument.GetDocOptions().IsCalcAsShown()
&& nFormatType != SvNumFormatType::DATE
&& nFormatType != SvNumFormatType::TIME
&& nFormatType != SvNumFormatType::DATETIME )
{
sal_uInt32 nFormat = rDocument.GetNumberFormat( rContext, aPos );
aResult.SetDouble( rDocument.RoundValueAsShown(
aResult.GetDouble(), nFormat, &rContext));
}
if (eTailParam == SCITP_NORMAL)
{
ResetDirty();
}
if( aResult.GetMatrix() )
{
// If the formula wasn't entered as a matrix formula, live on with
// the upper left corner and let reference counting delete the matrix.
if( cMatrixFlag != ScMatrixMode::Formula && !pCode->IsHyperLink() )
aResult.SetToken( aResult.GetCellResultToken().get());
}
if ( aResult.IsValue() && !std::isfinite( aResult.GetDouble() ) )
{
// Coded double error may occur via filter import.
FormulaError nErr = GetDoubleErrorValue( aResult.GetDouble());
aResult.SetResultError( nErr);
bChanged = bContentChanged = true;
}
if (bContentChanged && rDocument.IsStreamValid(aPos.Tab()))
{
// pass bIgnoreLock=true, because even if called from pending row height update,
// a changed result must still reset the stream flag
rDocument.SetStreamValid(aPos.Tab(), false, true);
}
if ( !rDocument.IsThreadedGroupCalcInProgress() && !pCode->IsRecalcModeAlways() )
rDocument.RemoveFromFormulaTree( this );
// FORCED cells also immediately tested for validity (start macro possibly)
if ( pCode->IsRecalcModeForced() )
{
sal_uLong nValidation = rDocument.GetAttr(
aPos.Col(), aPos.Row(), aPos.Tab(), ATTR_VALIDDATA )->GetValue();
if ( nValidation )
{
const ScValidationData* pData = rDocument.GetValidationEntry( nValidation );
ScRefCellValue aTmpCell(this);
if ( pData && !pData->IsDataValid(aTmpCell, aPos))
pData->DoCalcError( this );
}
}
// Reschedule slows the whole thing down considerably, thus only execute on percent change
if (!rDocument.IsThreadedGroupCalcInProgress())
{
ScProgress *pProgress = ScProgress::GetInterpretProgress();
if (pProgress && pProgress->Enabled())
{
pProgress->SetStateCountDownOnPercent(
rDocument.GetFormulaCodeInTree()/MIN_NO_CODES_PER_PROGRESS_UPDATE );
}
switch (pInterpreter->GetVolatileType())
{
case ScInterpreter::VOLATILE:
// Volatile via built-in volatile functions. No actions needed.
break;
case ScInterpreter::VOLATILE_MACRO:
// The formula contains a volatile macro.
pCode->SetExclusiveRecalcModeAlways();
rDocument.PutInFormulaTree(this);
StartListeningTo(rDocument);
break;
case ScInterpreter::NOT_VOLATILE:
if (pCode->IsRecalcModeAlways())
{
// The formula was previously volatile, but no more.
EndListeningTo(rDocument);
pCode->SetExclusiveRecalcModeNormal();
}
else
{
// non-volatile formula. End listening to the area in case
// it's listening due to macro module change.
rDocument.EndListeningArea(BCA_LISTEN_ALWAYS, false, this);
}
rDocument.RemoveFromFormulaTree(this);
break;
default:
;
}
}
}
else
{
// Cells with compiler errors should not be marked dirty forever
OSL_ENSURE( pCode->GetCodeError() != FormulaError::NONE, "no RPN code and no errors ?!?!" );
ResetDirty();
}
pCode->ClearRecalcModeMustAfterImport();
}
void ScFormulaCell::HandleStuffAfterParallelCalculation(ScInterpreter* pInterpreter)
{
if( !pCode->GetCodeLen() )
return;
if ( !pCode->IsRecalcModeAlways() )
rDocument.RemoveFromFormulaTree( this );
std::unique_ptr<ScInterpreter> pScopedInterpreter;
if (pInterpreter)
pInterpreter->Init(this, aPos, *pCode);
else
{
pScopedInterpreter.reset(new ScInterpreter( this, rDocument, rDocument.GetNonThreadedContext(), aPos, *pCode ));
pInterpreter = pScopedInterpreter.get();
}
switch (pInterpreter->GetVolatileType())
{
case ScInterpreter::VOLATILE_MACRO:
// The formula contains a volatile macro.
pCode->SetExclusiveRecalcModeAlways();
rDocument.PutInFormulaTree(this);
StartListeningTo(rDocument);
break;
case ScInterpreter::NOT_VOLATILE:
if (pCode->IsRecalcModeAlways())
{
// The formula was previously volatile, but no more.
EndListeningTo(rDocument);
pCode->SetExclusiveRecalcModeNormal();
}
else
{
// non-volatile formula. End listening to the area in case
// it's listening due to macro module change.
rDocument.EndListeningArea(BCA_LISTEN_ALWAYS, false, this);
}
rDocument.RemoveFromFormulaTree(this);
break;
default:
;
}
}
void ScFormulaCell::SetCompile( bool bVal )
{
bCompile = bVal;
}
void ScFormulaCell::SetMatColsRows( SCCOL nCols, SCROW nRows )
{
ScMatrixFormulaCellToken* pMat = aResult.GetMatrixFormulaCellTokenNonConst();
if (pMat)
pMat->SetMatColsRows( nCols, nRows );
else if (nCols || nRows)
{
aResult.SetToken( new ScMatrixFormulaCellToken( nCols, nRows));
// Setting the new token actually forces an empty result at this top
// left cell, so have that recalculated.
SetDirty();
}
}
void ScFormulaCell::GetMatColsRows( SCCOL & nCols, SCROW & nRows ) const
{
const ScMatrixFormulaCellToken* pMat = aResult.GetMatrixFormulaCellToken();
if (pMat)
pMat->GetMatColsRows( nCols, nRows);
else
{
nCols = 0;
nRows = 0;
}
}
void ScFormulaCell::SetInChangeTrack( bool bVal )
{
bInChangeTrack = bVal;
}
void ScFormulaCell::Notify( const SfxHint& rHint )
{
if (rDocument.IsInDtorClear())
return;
const SfxHintId nHint = rHint.GetId();
if (nHint == SfxHintId::ScReference)
{
const sc::RefHint& rRefHint = static_cast<const sc::RefHint&>(rHint);
switch (rRefHint.getType())
{
case sc::RefHint::ColumnReordered:
{
const sc::RefColReorderHint& rRefColReorder =
static_cast<const sc::RefColReorderHint&>(rRefHint);
if (!IsShared() || IsSharedTop())
pCode->MoveReferenceColReorder(
aPos, rRefColReorder.getTab(),
rRefColReorder.getStartRow(),
rRefColReorder.getEndRow(),
rRefColReorder.getColMap());
}
break;
case sc::RefHint::RowReordered:
{
const sc::RefRowReorderHint& rRefRowReorder =
static_cast<const sc::RefRowReorderHint&>(rRefHint);
if (!IsShared() || IsSharedTop())
pCode->MoveReferenceRowReorder(
aPos, rRefRowReorder.getTab(),
rRefRowReorder.getStartColumn(),
rRefRowReorder.getEndColumn(),
rRefRowReorder.getRowMap());
}
break;
case sc::RefHint::StartListening:
{
StartListeningTo(rDocument);
}
break;
case sc::RefHint::StopListening:
{
EndListeningTo(rDocument);
}
break;
default:
;
}
return;
}
if ( rDocument.GetHardRecalcState() != ScDocument::HardRecalcState::OFF )
return;
if (!(nHint == SfxHintId::ScDataChanged || nHint == SfxHintId::ScTableOpDirty || (bSubTotal && nHint == SfxHintId::ScHiddenRowsChanged)))
return;
bool bForceTrack = false;
if ( nHint == SfxHintId::ScTableOpDirty )
{
bForceTrack = !bTableOpDirty;
if ( !bTableOpDirty )
{
rDocument.AddTableOpFormulaCell( this );
bTableOpDirty = true;
}
}
else
{
bForceTrack = !bDirty;
SetDirtyVar();
}
// Don't remove from FormulaTree to put in FormulaTrack to
// put in FormulaTree again and again, only if necessary.
// Any other means except ScRecalcMode::ALWAYS by which a cell could
// be in FormulaTree if it would notify other cells through
// FormulaTrack which weren't in FormulaTrack/FormulaTree before?!?
// Yes. The new TableOpDirty made it necessary to have a
// forced mode where formulas may still be in FormulaTree from
// TableOpDirty but have to notify dependents for normal dirty.
if ( (bForceTrack || !rDocument.IsInFormulaTree( this )
|| pCode->IsRecalcModeAlways())
&& !rDocument.IsInFormulaTrack( this ) )
rDocument.AppendToFormulaTrack( this );
}
void ScFormulaCell::Query( SvtListener::QueryBase& rQuery ) const
{
switch (rQuery.getId())
{
case SC_LISTENER_QUERY_FORMULA_GROUP_POS:
{
sc::RefQueryFormulaGroup& rRefQuery =
static_cast<sc::RefQueryFormulaGroup&>(rQuery);
if (IsShared())
rRefQuery.add(aPos);
}
break;
default:
;
}
}
void ScFormulaCell::SetDirty( bool bDirtyFlag )
{
if (IsInChangeTrack())
return;
if ( rDocument.GetHardRecalcState() != ScDocument::HardRecalcState::OFF )
{
SetDirtyVar();
rDocument.SetStreamValid(aPos.Tab(), false);
return;
}
// Avoid multiple formula tracking in Load() and in CompileAll()
// after CopyScenario() and CopyBlockFromClip().
// If unconditional formula tracking is needed, set bDirty=false
// before calling SetDirty(), for example in CompileTokenArray().
if ( !bDirty || mbPostponedDirty || !rDocument.IsInFormulaTree( this ) )
{
if( bDirtyFlag )
SetDirtyVar();
rDocument.AppendToFormulaTrack( this );
// While loading a document listeners have not been established yet.
// Tracking would remove this cell from the FormulaTrack and add it to
// the FormulaTree, once in there it would be assumed that its
// dependents already had been tracked and it would be skipped on a
// subsequent notify. Postpone tracking until all listeners are set.
if (!rDocument.IsImportingXML() && !rDocument.IsInsertingFromOtherDoc())
rDocument.TrackFormulas();
}
rDocument.SetStreamValid(aPos.Tab(), false);
}
void ScFormulaCell::SetDirtyVar()
{
bDirty = true;
mbPostponedDirty = false;
if (mxGroup && mxGroup->meCalcState == sc::GroupCalcRunning)
{
mxGroup->meCalcState = sc::GroupCalcEnabled;
mxGroup->mbPartOfCycle = false;
}
// mark the sheet of this cell to be calculated
//#FIXME do we need to revert this remnant of old fake vba events? rDocument.AddCalculateTable( aPos.Tab() );
}
void ScFormulaCell::SetDirtyAfterLoad()
{
bDirty = true;
if ( rDocument.GetHardRecalcState() == ScDocument::HardRecalcState::OFF )
rDocument.PutInFormulaTree( this );
}
void ScFormulaCell::ResetTableOpDirtyVar()
{
bTableOpDirty = false;
}
void ScFormulaCell::SetTableOpDirty()
{
if ( IsInChangeTrack() )
return;
if ( rDocument.GetHardRecalcState() != ScDocument::HardRecalcState::OFF )
bTableOpDirty = true;
else
{
if ( !bTableOpDirty || !rDocument.IsInFormulaTree( this ) )
{
if ( !bTableOpDirty )
{
rDocument.AddTableOpFormulaCell( this );
bTableOpDirty = true;
}
rDocument.AppendToFormulaTrack( this );
rDocument.TrackFormulas( SfxHintId::ScTableOpDirty );
}
}
}
void ScFormulaCell::SetResultDouble( double n )
{
aResult.SetDouble(n);
}
void ScFormulaCell::SetResultToken( const formula::FormulaToken* pToken )
{
aResult.SetToken(pToken);
}
const svl::SharedString & ScFormulaCell::GetResultString() const
{
return aResult.GetString();
}
bool ScFormulaCell::HasHybridStringResult() const
{
return aResult.GetType() == formula::svHybridCell && !aResult.GetString().isEmpty();
}
void ScFormulaCell::SetResultMatrix( SCCOL nCols, SCROW nRows, const ScConstMatrixRef& pMat, const formula::FormulaToken* pUL )
{
aResult.SetMatrix(nCols, nRows, pMat, pUL);
}
void ScFormulaCell::SetErrCode( FormulaError n )
{
/* FIXME: check the numerous places where ScTokenArray::GetCodeError() is
* used whether it is solely for transport of a simple result error and get
* rid of that abuse. */
pCode->SetCodeError( n );
// Hard set errors are transported as result type value per convention,
// e.g. via clipboard. ScFormulaResult::IsValue() and
// ScFormulaResult::GetDouble() handle that.
aResult.SetResultError( n );
}
void ScFormulaCell::SetResultError( FormulaError n )
{
aResult.SetResultError( n );
}
void ScFormulaCell::AddRecalcMode( ScRecalcMode nBits )
{
if ( (nBits & ScRecalcMode::EMask) != ScRecalcMode::NORMAL )
SetDirtyVar();
pCode->AddRecalcMode( nBits );
}
void ScFormulaCell::SetHybridDouble( double n )
{
aResult.SetHybridDouble( n);
}
void ScFormulaCell::SetHybridString( const svl::SharedString& r )
{
aResult.SetHybridString( r);
}
void ScFormulaCell::SetHybridEmptyDisplayedAsString()
{
aResult.SetHybridEmptyDisplayedAsString();
}
void ScFormulaCell::SetHybridFormula( const OUString& r,
const formula::FormulaGrammar::Grammar eGrammar )
{
aResult.SetHybridFormula( r); eTempGrammar = eGrammar;
}
OUString ScFormulaCell::GetHybridFormula() const
{
return aResult.GetHybridFormula();
}
// Dynamically create the URLField on a mouse-over action on a hyperlink() cell.
void ScFormulaCell::GetURLResult( OUString& rURL, OUString& rCellText )
{
OUString aCellString;
const Color* pColor;
// Cell Text uses the Cell format while the URL uses
// the default format for the type.
const sal_uInt32 nCellFormat = rDocument.GetNumberFormat( aPos );
SvNumberFormatter* pFormatter = rDocument.GetFormatTable();
const sal_uInt32 nURLFormat = ScGlobal::GetStandardFormat( *pFormatter, nCellFormat, SvNumFormatType::NUMBER);
if ( IsValue() )
{
double fValue = GetValue();
pFormatter->GetOutputString( fValue, nCellFormat, rCellText, &pColor );
}
else
{
aCellString = GetString().getString();
pFormatter->GetOutputString( aCellString, nCellFormat, rCellText, &pColor );
}
ScConstMatrixRef xMat( aResult.GetMatrix());
if (xMat)
{
// determine if the matrix result is a string or value.
if (!xMat->IsValue(0, 1))
rURL = xMat->GetString(0, 1).getString();
else
pFormatter->GetOutputString(
xMat->GetDouble(0, 1), nURLFormat, rURL, &pColor);
}
if(rURL.isEmpty())
{
if(IsValue())
pFormatter->GetOutputString( GetValue(), nURLFormat, rURL, &pColor );
else
pFormatter->GetOutputString( aCellString, nURLFormat, rURL, &pColor );
}
}
bool ScFormulaCell::IsMultilineResult()
{
if (!IsValue())
return aResult.IsMultiline();
return false;
}
bool ScFormulaCell::IsHyperLinkCell() const
{
return pCode && pCode->IsHyperLink();
}
std::unique_ptr<EditTextObject> ScFormulaCell::CreateURLObject()
{
OUString aCellText;
OUString aURL;
GetURLResult( aURL, aCellText );
return ScEditUtil::CreateURLObjectFromURL( rDocument, aURL, aCellText );
}
bool ScFormulaCell::IsEmpty()
{
MaybeInterpret();
return aResult.GetCellResultType() == formula::svEmptyCell;
}
bool ScFormulaCell::IsEmptyDisplayedAsString()
{
MaybeInterpret();
return aResult.IsEmptyDisplayedAsString();
}
bool ScFormulaCell::IsValue()
{
MaybeInterpret();
return aResult.IsValue();
}
bool ScFormulaCell::IsValueNoError()
{
MaybeInterpret();
if (pCode->GetCodeError() != FormulaError::NONE)
return false;
return aResult.IsValueNoError();
}
bool ScFormulaCell::IsValueNoError() const
{
if (NeedsInterpret())
// false if the cell is dirty & needs to be interpreted.
return false;
if (pCode->GetCodeError() != FormulaError::NONE)
return false;
return aResult.IsValueNoError();
}
double ScFormulaCell::GetValue()
{
MaybeInterpret();
return GetRawValue();
}
const svl::SharedString & ScFormulaCell::GetString()
{
MaybeInterpret();
return GetRawString();
}
double ScFormulaCell::GetRawValue() const
{
if ((pCode->GetCodeError() == FormulaError::NONE) &&
aResult.GetResultError() == FormulaError::NONE)
return aResult.GetDouble();
return 0.0;
}
const svl::SharedString & ScFormulaCell::GetRawString() const
{
if ((pCode->GetCodeError() == FormulaError::NONE) &&
aResult.GetResultError() == FormulaError::NONE)
return aResult.GetString();
return svl::SharedString::getEmptyString();
}
const ScMatrix* ScFormulaCell::GetMatrix()
{
if ( rDocument.GetAutoCalc() )
{
if( IsDirtyOrInTableOpDirty()
// Was stored !bDirty but an accompanying matrix cell was bDirty?
|| (!bDirty && cMatrixFlag == ScMatrixMode::Formula && !aResult.GetMatrix()))
Interpret();
}
return aResult.GetMatrix().get();
}
bool ScFormulaCell::GetMatrixOrigin( const ScDocument& rDoc, ScAddress& rPos ) const
{
switch ( cMatrixFlag )
{
case ScMatrixMode::Formula :
rPos = aPos;
return true;
case ScMatrixMode::Reference :
{
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* t = aIter.GetNextReferenceRPN();
if( t )
{
ScSingleRefData& rRef = *t->GetSingleRef();
ScAddress aAbs = rRef.toAbs(rDoc, aPos);
if (rDoc.ValidAddress(aAbs))
{
rPos = aAbs;
return true;
}
}
}
break;
default: break;
}
return false;
}
sc::MatrixEdge ScFormulaCell::GetMatrixEdge( const ScDocument& rDoc, ScAddress& rOrgPos ) const
{
switch ( cMatrixFlag )
{
case ScMatrixMode::Formula :
case ScMatrixMode::Reference :
{
static thread_local SCCOL nC;
static thread_local SCROW nR;
ScAddress aOrg;
if ( !GetMatrixOrigin( rDoc, aOrg ) )
return sc::MatrixEdge::Nothing;
if ( aOrg != rOrgPos )
{ // First time or a different matrix than last time.
rOrgPos = aOrg;
const ScFormulaCell* pFCell;
if ( cMatrixFlag == ScMatrixMode::Reference )
pFCell = rDocument.GetFormulaCell(aOrg);
else
pFCell = this; // this ScMatrixMode::Formula
// There's only one this, don't compare pFCell==this.
if (pFCell && pFCell->cMatrixFlag == ScMatrixMode::Formula)
{
pFCell->GetMatColsRows( nC, nR );
if ( nC == 0 || nR == 0 )
{
// No ScMatrixFormulaCellToken available yet, calculate new.
nC = 1;
nR = 1;
ScAddress aTmpOrg;
ScFormulaCell* pCell;
ScAddress aAdr( aOrg );
aAdr.IncCol();
bool bCont = true;
do
{
pCell = rDocument.GetFormulaCell(aAdr);
if (pCell && pCell->cMatrixFlag == ScMatrixMode::Reference &&
pCell->GetMatrixOrigin(rDocument, aTmpOrg) && aTmpOrg == aOrg)
{
nC++;
aAdr.IncCol();
}
else
bCont = false;
} while ( bCont );
aAdr = aOrg;
aAdr.IncRow();
bCont = true;
do
{
pCell = rDocument.GetFormulaCell(aAdr);
if (pCell && pCell->cMatrixFlag == ScMatrixMode::Reference &&
pCell->GetMatrixOrigin(rDocument, aTmpOrg) && aTmpOrg == aOrg)
{
nR++;
aAdr.IncRow();
}
else
bCont = false;
} while ( bCont );
const_cast<ScFormulaCell*>(pFCell)->SetMatColsRows(nC, nR);
}
}
else
{
#if OSL_DEBUG_LEVEL > 0
SAL_WARN( "sc", "broken Matrix, no MatFormula at origin, Pos: "
<< aPos.Format(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID, &rDocument)
<< ", MatOrg: "
<< aOrg.Format(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID, &rDocument) );
#endif
return sc::MatrixEdge::Nothing;
}
}
// here we are, healthy and clean, somewhere in between
SCCOL dC = aPos.Col() - aOrg.Col();
SCROW dR = aPos.Row() - aOrg.Row();
sc::MatrixEdge nEdges = sc::MatrixEdge::Nothing;
if ( dC >= 0 && dR >= 0 && dC < nC && dR < nR )
{
if ( dC == 0 )
nEdges |= sc::MatrixEdge::Left;
if ( dC+1 == nC )
nEdges |= sc::MatrixEdge::Right;
if ( dR == 0 )
nEdges |= sc::MatrixEdge::Top;
if ( dR+1 == nR )
nEdges |= sc::MatrixEdge::Bottom;
if ( nEdges == sc::MatrixEdge::Nothing )
nEdges = sc::MatrixEdge::Inside;
}
else
{
SAL_WARN( "sc", "broken Matrix, Pos: "
<< aPos.Format(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID, &rDocument)
<< ", MatOrg: "
<< aOrg.Format(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID, &rDocument)
<< ", MatCols: " << static_cast<sal_Int32>( nC )
<< ", MatRows: " << static_cast<sal_Int32>( nR )
<< ", DiffCols: " << static_cast<sal_Int32>( dC )
<< ", DiffRows: " << static_cast<sal_Int32>( dR ));
}
return nEdges;
}
default:
return sc::MatrixEdge::Nothing;
}
}
FormulaError ScFormulaCell::GetErrCode()
{
MaybeInterpret();
/* FIXME: If ScTokenArray::SetCodeError() was really only for code errors
* and not also abused for signaling other error conditions we could bail
* out even before attempting to interpret broken code. */
FormulaError nErr = pCode->GetCodeError();
if (nErr != FormulaError::NONE)
return nErr;
return aResult.GetResultError();
}
FormulaError ScFormulaCell::GetRawError() const
{
FormulaError nErr = pCode->GetCodeError();
if (nErr != FormulaError::NONE)
return nErr;
return aResult.GetResultError();
}
bool ScFormulaCell::GetErrorOrValue( FormulaError& rErr, double& rVal )
{
MaybeInterpret();
rErr = pCode->GetCodeError();
if (rErr != FormulaError::NONE)
return true;
return aResult.GetErrorOrDouble(rErr, rVal);
}
sc::FormulaResultValue ScFormulaCell::GetResult()
{
MaybeInterpret();
FormulaError nErr = pCode->GetCodeError();
if (nErr != FormulaError::NONE)
return sc::FormulaResultValue(nErr);
return aResult.GetResult();
}
sc::FormulaResultValue ScFormulaCell::GetResult() const
{
FormulaError nErr = pCode->GetCodeError();
if (nErr != FormulaError::NONE)
return sc::FormulaResultValue(nErr);
return aResult.GetResult();
}
bool ScFormulaCell::HasOneReference( ScRange& r ) const
{
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* p = aIter.GetNextReferenceRPN();
if( p && !aIter.GetNextReferenceRPN() ) // only one!
{
SingleDoubleRefProvider aProv( *p );
r.aStart = aProv.Ref1.toAbs(rDocument, aPos);
r.aEnd = aProv.Ref2.toAbs(rDocument, aPos);
return true;
}
else
return false;
}
bool
ScFormulaCell::HasRefListExpressibleAsOneReference(ScRange& rRange) const
{
/* If there appears just one reference in the formula, it's the same
as HasOneReference(). If there are more of them, they can denote
one range if they are (sole) arguments of one function.
Union of these references must form one range and their
intersection must be empty set.
*/
// Detect the simple case of exactly one reference in advance without all
// overhead.
// #i107741# Doing so actually makes outlines using SUBTOTAL(x;reference)
// work again, where the function does not have only references.
if (HasOneReference( rRange))
return true;
// Get first reference, if any
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* const pFirstReference(aIter.GetNextReferenceRPN());
if (pFirstReference)
{
// Collect all consecutive references, starting by the one
// already found
std::vector<formula::FormulaToken*> aReferences { pFirstReference };
FormulaToken* pToken(aIter.NextRPN());
FormulaToken* pFunction(nullptr);
while (pToken)
{
if (lcl_isReference(*pToken))
{
aReferences.push_back(pToken);
pToken = aIter.NextRPN();
}
else
{
if (pToken->IsFunction())
{
pFunction = pToken;
}
break;
}
}
if (pFunction && !aIter.GetNextReferenceRPN()
&& (pFunction->GetParamCount() == aReferences.size()))
{
return lcl_refListFormsOneRange(rDocument, aPos, aReferences, rRange);
}
}
return false;
}
ScFormulaCell::RelNameRef ScFormulaCell::HasRelNameReference() const
{
RelNameRef eRelNameRef = RelNameRef::NONE;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReferenceRPN() ) != nullptr )
{
switch (t->GetType())
{
case formula::svSingleRef:
if (t->GetSingleRef()->IsRelName() && eRelNameRef == RelNameRef::NONE)
eRelNameRef = RelNameRef::SINGLE;
break;
case formula::svDoubleRef:
if (t->GetDoubleRef()->Ref1.IsRelName() || t->GetDoubleRef()->Ref2.IsRelName())
// May originate from individual cell names, in which case
// it needs recompilation.
return RelNameRef::DOUBLE;
/* TODO: have an extra flag at ScComplexRefData if range was
* extended? or too cumbersome? might narrow recompilation to
* only needed cases.
* */
break;
default:
; // nothing
}
}
return eRelNameRef;
}
bool ScFormulaCell::UpdatePosOnShift( const sc::RefUpdateContext& rCxt )
{
if (rCxt.meMode != URM_INSDEL)
// Just in case...
return false;
if (!rCxt.mnColDelta && !rCxt.mnRowDelta && !rCxt.mnTabDelta)
// No movement.
return false;
if (!rCxt.maRange.Contains(aPos))
return false;
// This formula cell itself is being shifted during cell range
// insertion or deletion. Update its position.
ScAddress aErrorPos( ScAddress::UNINITIALIZED );
if (!aPos.Move(rCxt.mnColDelta, rCxt.mnRowDelta, rCxt.mnTabDelta, aErrorPos, rCxt.mrDoc))
{
assert(!"can't move ScFormulaCell");
}
return true;
}
namespace {
/**
* Check if we need to re-compile column or row names.
*/
bool checkCompileColRowName(
const sc::RefUpdateContext& rCxt, ScDocument& rDoc, const ScTokenArray& rCode,
const ScAddress& aOldPos, const ScAddress& aPos, bool bValChanged)
{
switch (rCxt.meMode)
{
case URM_INSDEL:
{
if (rCxt.mnColDelta <= 0 && rCxt.mnRowDelta <= 0)
return false;
formula::FormulaTokenArrayPlainIterator aIter(rCode);
formula::FormulaToken* t;
ScRangePairList* pColList = rDoc.GetColNameRanges();
ScRangePairList* pRowList = rDoc.GetRowNameRanges();
while ((t = aIter.GetNextColRowName()) != nullptr)
{
ScSingleRefData& rRef = *t->GetSingleRef();
if (rCxt.mnRowDelta > 0 && rRef.IsColRel())
{ // ColName
ScAddress aAdr = rRef.toAbs(rDoc, aPos);
ScRangePair* pR = pColList->Find( aAdr );
if ( pR )
{ // defined
if (pR->GetRange(1).aStart.Row() == rCxt.maRange.aStart.Row())
return true;
}
else
{ // on the fly
if (aAdr.Row() + 1 == rCxt.maRange.aStart.Row())
return true;
}
}
if (rCxt.mnColDelta > 0 && rRef.IsRowRel())
{ // RowName
ScAddress aAdr = rRef.toAbs(rDoc, aPos);
ScRangePair* pR = pRowList->Find( aAdr );
if ( pR )
{ // defined
if ( pR->GetRange(1).aStart.Col() == rCxt.maRange.aStart.Col())
return true;
}
else
{ // on the fly
if (aAdr.Col() + 1 == rCxt.maRange.aStart.Col())
return true;
}
}
}
}
break;
case URM_MOVE:
{ // Recompile for Move/D&D when ColRowName was moved or this Cell
// points to one and was moved.
bool bMoved = (aPos != aOldPos);
if (bMoved)
return true;
formula::FormulaTokenArrayPlainIterator aIter(rCode);
const formula::FormulaToken* t = aIter.GetNextColRowName();
for (; t; t = aIter.GetNextColRowName())
{
const ScSingleRefData& rRef = *t->GetSingleRef();
ScAddress aAbs = rRef.toAbs(rDoc, aPos);
if (rDoc.ValidAddress(aAbs))
{
if (rCxt.maRange.Contains(aAbs))
return true;
}
}
}
break;
case URM_COPY:
return bValChanged;
default:
;
}
return false;
}
void setOldCodeToUndo(
ScDocument& rUndoDoc, const ScAddress& aUndoPos, const ScTokenArray* pOldCode, FormulaGrammar::Grammar eTempGrammar, ScMatrixMode cMatrixFlag)
{
// Copy the cell to aUndoPos, which is its current position in the document,
// so this works when UpdateReference is called before moving the cells
// (InsertCells/DeleteCells - aPos is changed above) as well as when UpdateReference
// is called after moving the cells (MoveBlock/PasteFromClip - aOldPos is changed).
// If there is already a formula cell in the undo document, don't overwrite it,
// the first (oldest) is the important cell.
if (rUndoDoc.GetCellType(aUndoPos) == CELLTYPE_FORMULA)
return;
ScFormulaCell* pFCell =
new ScFormulaCell(
rUndoDoc, aUndoPos, pOldCode ? *pOldCode : ScTokenArray(rUndoDoc), eTempGrammar, cMatrixFlag);
pFCell->SetResultToken(nullptr); // to recognize it as changed later (Cut/Paste!)
rUndoDoc.SetFormulaCell(aUndoPos, pFCell);
}
}
bool ScFormulaCell::UpdateReferenceOnShift(
const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos )
{
if (rCxt.meMode != URM_INSDEL)
// Just in case...
return false;
bool bCellStateChanged = false;
ScAddress aUndoPos( aPos ); // position for undo cell in pUndoDoc
if ( pUndoCellPos )
aUndoPos = *pUndoCellPos;
ScAddress aOldPos( aPos );
bCellStateChanged = UpdatePosOnShift(rCxt);
// Check presence of any references or column row names.
bool bHasRefs = pCode->HasReferences();
bool bHasColRowNames = false;
if (!bHasRefs)
{
bHasColRowNames = (formula::FormulaTokenArrayPlainIterator(*pCode).GetNextColRowName() != nullptr);
bHasRefs = bHasColRowNames;
}
bool bOnRefMove = pCode->IsRecalcModeOnRefMove();
if (!bHasRefs && !bOnRefMove)
// This formula cell contains no references, nor needs recalculating
// on reference update. Bail out.
return bCellStateChanged;
std::unique_ptr<ScTokenArray> pOldCode;
if (pUndoDoc)
pOldCode = pCode->Clone();
bool bValChanged = false;
bool bRefModified = false;
bool bRecompile = bCompile;
if (bHasRefs)
{
// Update cell or range references.
sc::RefUpdateResult aRes = pCode->AdjustReferenceOnShift(rCxt, aOldPos);
bRefModified = aRes.mbReferenceModified;
bValChanged = aRes.mbValueChanged;
if (aRes.mbNameModified)
bRecompile = true;
}
if (bValChanged || bRefModified)
bCellStateChanged = true;
if (bOnRefMove)
// Cell may reference itself, e.g. ocColumn, ocRow without parameter
bOnRefMove = (bValChanged || (aPos != aOldPos) || bRefModified);
bool bNewListening = false;
bool bInDeleteUndo = false;
if (bHasRefs)
{
// Upon Insert ColRowNames have to be recompiled in case the
// insertion occurs right in front of the range.
if (bHasColRowNames && !bRecompile)
bRecompile = checkCompileColRowName(rCxt, rDocument, *pCode, aOldPos, aPos, bValChanged);
ScChangeTrack* pChangeTrack = rDocument.GetChangeTrack();
bInDeleteUndo = (pChangeTrack && pChangeTrack->IsInDeleteUndo());
// RelNameRefs are always moved
bool bHasRelName = false;
if (!bRecompile)
{
RelNameRef eRelNameRef = HasRelNameReference();
bHasRelName = (eRelNameRef != RelNameRef::NONE);
bRecompile = (eRelNameRef == RelNameRef::DOUBLE);
}
// Reference changed and new listening needed?
// Except in Insert/Delete without specialities.
bNewListening = (bRefModified || bRecompile
|| (bValChanged && bInDeleteUndo) || bHasRelName);
if ( bNewListening )
EndListeningTo(rDocument, pOldCode.get(), aOldPos);
}
// NeedDirty for changes except for Copy and Move/Insert without RelNames
bool bNeedDirty = (bValChanged || bRecompile || bOnRefMove);
if (pUndoDoc && (bValChanged || bOnRefMove))
setOldCodeToUndo(*pUndoDoc, aUndoPos, pOldCode.get(), eTempGrammar, cMatrixFlag);
bCompile |= bRecompile;
if (bCompile)
{
CompileTokenArray( bNewListening ); // no Listening
bNeedDirty = true;
}
if ( !bInDeleteUndo )
{ // In ChangeTrack Delete-Reject listeners are established in
// InsertCol/InsertRow
if ( bNewListening )
{
// Inserts/Deletes re-establish listeners after all
// UpdateReference calls.
// All replaced shared formula listeners have to be
// established after an Insert or Delete. Do nothing here.
SetNeedsListening( true);
}
}
if (bNeedDirty)
{ // Cut off references, invalid or similar?
// Postpone SetDirty() until all listeners have been re-established in
// Inserts/Deletes.
mbPostponedDirty = true;
}
return bCellStateChanged;
}
bool ScFormulaCell::UpdateReferenceOnMove(
const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos )
{
if (rCxt.meMode != URM_MOVE)
return false;
ScAddress aUndoPos( aPos ); // position for undo cell in pUndoDoc
if ( pUndoCellPos )
aUndoPos = *pUndoCellPos;
ScAddress aOldPos( aPos );
bool bCellInMoveTarget = rCxt.maRange.Contains(aPos);
if ( bCellInMoveTarget )
{
// The cell is being moved or copied to a new position. I guess the
// position has been updated prior to this call? Determine
// its original position before the move which will be used to adjust
// relative references later.
aOldPos.Set(aPos.Col() - rCxt.mnColDelta, aPos.Row() - rCxt.mnRowDelta, aPos.Tab() - rCxt.mnTabDelta);
}
// Check presence of any references or column row names.
bool bHasRefs = pCode->HasReferences();
bool bHasColRowNames = false;
if (!bHasRefs)
{
bHasColRowNames = (formula::FormulaTokenArrayPlainIterator(*pCode).GetNextColRowName() != nullptr);
bHasRefs = bHasColRowNames;
}
bool bOnRefMove = pCode->IsRecalcModeOnRefMove();
if (!bHasRefs && !bOnRefMove)
// This formula cell contains no references, nor needs recalculating
// on reference update. Bail out.
return false;
bool bCellStateChanged = false;
std::unique_ptr<ScTokenArray> pOldCode;
if (pUndoDoc)
pOldCode = pCode->Clone();
bool bValChanged = false;
bool bRefModified = false;
if (bHasRefs)
{
// Update cell or range references.
sc::RefUpdateResult aRes = pCode->AdjustReferenceOnMove(rCxt, aOldPos, aPos);
bRefModified = aRes.mbReferenceModified || aRes.mbNameModified;
bValChanged = aRes.mbValueChanged;
if (aRes.mbNameModified)
// Re-compile to get the RPN token regenerated to reflect updated names.
bCompile = true;
}
if (bValChanged || bRefModified)
bCellStateChanged = true;
if (bOnRefMove)
// Cell may reference itself, e.g. ocColumn, ocRow without parameter
bOnRefMove = (bValChanged || (aPos != aOldPos));
bool bColRowNameCompile = false;
bool bHasRelName = false;
bool bNewListening = false;
bool bInDeleteUndo = false;
if (bHasRefs)
{
// Upon Insert ColRowNames have to be recompiled in case the
// insertion occurs right in front of the range.
if (bHasColRowNames)
bColRowNameCompile = checkCompileColRowName(rCxt, rDocument, *pCode, aOldPos, aPos, bValChanged);
ScChangeTrack* pChangeTrack = rDocument.GetChangeTrack();
bInDeleteUndo = (pChangeTrack && pChangeTrack->IsInDeleteUndo());
// RelNameRefs are always moved
RelNameRef eRelNameRef = HasRelNameReference();
bHasRelName = (eRelNameRef != RelNameRef::NONE);
bCompile |= (eRelNameRef == RelNameRef::DOUBLE);
// Reference changed and new listening needed?
// Except in Insert/Delete without specialties.
bNewListening = (bRefModified || bColRowNameCompile
|| bValChanged || bHasRelName)
// #i36299# Don't duplicate action during cut&paste / drag&drop
// on a cell in the range moved, start/end listeners is done
// via ScDocument::DeleteArea() and ScDocument::CopyFromClip().
&& !(rDocument.IsInsertingFromOtherDoc() && rCxt.maRange.Contains(aPos));
if ( bNewListening )
EndListeningTo(rDocument, pOldCode.get(), aOldPos);
}
bool bNeedDirty = false;
// NeedDirty for changes except for Copy and Move/Insert without RelNames
if ( bRefModified || bColRowNameCompile ||
(bValChanged && bHasRelName ) || bOnRefMove)
bNeedDirty = true;
if (pUndoDoc && !bCellInMoveTarget && (bValChanged || bRefModified || bOnRefMove))
setOldCodeToUndo(*pUndoDoc, aUndoPos, pOldCode.get(), eTempGrammar, cMatrixFlag);
bValChanged = false;
bCompile = (bCompile || bValChanged || bColRowNameCompile);
if ( bCompile )
{
CompileTokenArray( bNewListening ); // no Listening
bNeedDirty = true;
}
if ( !bInDeleteUndo )
{ // In ChangeTrack Delete-Reject listeners are established in
// InsertCol/InsertRow
if ( bNewListening )
{
StartListeningTo( rDocument );
}
}
if (bNeedDirty)
{ // Cut off references, invalid or similar?
sc::AutoCalcSwitch aACSwitch(rDocument, false);
SetDirty();
}
return bCellStateChanged;
}
bool ScFormulaCell::UpdateReferenceOnCopy(
const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos )
{
if (rCxt.meMode != URM_COPY)
return false;
ScAddress aUndoPos( aPos ); // position for undo cell in pUndoDoc
if ( pUndoCellPos )
aUndoPos = *pUndoCellPos;
ScAddress aOldPos( aPos );
if (rCxt.maRange.Contains(aPos))
{
// The cell is being moved or copied to a new position. I guess the
// position has been updated prior to this call? Determine
// its original position before the move which will be used to adjust
// relative references later.
aOldPos.Set(aPos.Col() - rCxt.mnColDelta, aPos.Row() - rCxt.mnRowDelta, aPos.Tab() - rCxt.mnTabDelta);
}
// Check presence of any references or column row names.
bool bHasRefs = pCode->HasReferences();
bool bHasColRowNames = (formula::FormulaTokenArrayPlainIterator(*pCode).GetNextColRowName() != nullptr);
bHasRefs = bHasRefs || bHasColRowNames;
bool bOnRefMove = pCode->IsRecalcModeOnRefMove();
if (!bHasRefs && !bOnRefMove)
// This formula cell contains no references, nor needs recalculating
// on reference update. Bail out.
return false;
std::unique_ptr<ScTokenArray> pOldCode;
if (pUndoDoc)
pOldCode = pCode->Clone();
if (bOnRefMove)
// Cell may reference itself, e.g. ocColumn, ocRow without parameter
bOnRefMove = (aPos != aOldPos);
bool bNeedDirty = bOnRefMove;
if (pUndoDoc && bOnRefMove)
setOldCodeToUndo(*pUndoDoc, aUndoPos, pOldCode.get(), eTempGrammar, cMatrixFlag);
if (bCompile)
{
CompileTokenArray(); // no Listening
bNeedDirty = true;
}
if (bNeedDirty)
{ // Cut off references, invalid or similar?
sc::AutoCalcSwitch aACSwitch(rDocument, false);
SetDirty();
}
return false;
}
bool ScFormulaCell::UpdateReference(
const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos )
{
if (rDocument.IsClipOrUndo())
return false;
if (mxGroup && mxGroup->mpTopCell != this)
{
// This is not a top cell of a formula group. Don't update references.
switch (rCxt.meMode)
{
case URM_INSDEL:
return UpdatePosOnShift(rCxt);
default:
;
}
return false;
}
switch (rCxt.meMode)
{
case URM_INSDEL:
return UpdateReferenceOnShift(rCxt, pUndoDoc, pUndoCellPos);
case URM_MOVE:
return UpdateReferenceOnMove(rCxt, pUndoDoc, pUndoCellPos);
case URM_COPY:
return UpdateReferenceOnCopy(rCxt, pUndoDoc, pUndoCellPos);
default:
;
}
return false;
}
void ScFormulaCell::UpdateInsertTab( const sc::RefUpdateInsertTabContext& rCxt )
{
// Adjust tokens only when it's not grouped or grouped top cell.
bool bAdjustCode = !mxGroup || mxGroup->mpTopCell == this;
bool bPosChanged = (rCxt.mnInsertPos <= aPos.Tab());
if (rDocument.IsClipOrUndo() || !pCode->HasReferences())
{
if (bPosChanged)
aPos.IncTab(rCxt.mnSheets);
return;
}
EndListeningTo( rDocument );
ScAddress aOldPos = aPos;
// IncTab _after_ EndListeningTo and _before_ Compiler UpdateInsertTab!
if (bPosChanged)
aPos.IncTab(rCxt.mnSheets);
if (!bAdjustCode)
return;
sc::RefUpdateResult aRes = pCode->AdjustReferenceOnInsertedTab(rCxt, aOldPos);
if (aRes.mbNameModified)
// Re-compile after new sheet(s) have been inserted.
bCompile = true;
// no StartListeningTo because the new sheets have not been inserted yet.
}
void ScFormulaCell::UpdateDeleteTab( const sc::RefUpdateDeleteTabContext& rCxt )
{
// Adjust tokens only when it's not grouped or grouped top cell.
bool bAdjustCode = !mxGroup || mxGroup->mpTopCell == this;
bool bPosChanged = (aPos.Tab() >= rCxt.mnDeletePos + rCxt.mnSheets);
if (rDocument.IsClipOrUndo() || !pCode->HasReferences())
{
if (bPosChanged)
aPos.IncTab(-1*rCxt.mnSheets);
return;
}
EndListeningTo( rDocument );
// IncTab _after_ EndListeningTo and _before_ Compiler UpdateDeleteTab!
ScAddress aOldPos = aPos;
if (bPosChanged)
aPos.IncTab(-1*rCxt.mnSheets);
if (!bAdjustCode)
return;
sc::RefUpdateResult aRes = pCode->AdjustReferenceOnDeletedTab(rCxt, aOldPos);
if (aRes.mbNameModified)
// Re-compile after sheet(s) have been deleted.
bCompile = true;
}
void ScFormulaCell::UpdateMoveTab( const sc::RefUpdateMoveTabContext& rCxt, SCTAB nTabNo )
{
// Adjust tokens only when it's not grouped or grouped top cell.
bool bAdjustCode = !mxGroup || mxGroup->mpTopCell == this;
if (!pCode->HasReferences() || rDocument.IsClipOrUndo())
{
aPos.SetTab(nTabNo);
return;
}
EndListeningTo(rDocument);
ScAddress aOldPos = aPos;
// SetTab _after_ EndListeningTo and _before_ Compiler UpdateMoveTab !
aPos.SetTab(nTabNo);
// no StartListeningTo because pTab[nTab] not yet correct!
if (!bAdjustCode)
return;
sc::RefUpdateResult aRes = pCode->AdjustReferenceOnMovedTab(rCxt, aOldPos);
if (aRes.mbNameModified)
// Re-compile after sheet(s) have been deleted.
bCompile = true;
}
void ScFormulaCell::UpdateInsertTabAbs(SCTAB nTable)
{
if (rDocument.IsClipOrUndo())
return;
bool bAdjustCode = !mxGroup || mxGroup->mpTopCell == this;
if (!bAdjustCode)
return;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* p = aIter.GetNextReferenceRPN();
while (p)
{
ScSingleRefData& rRef1 = *p->GetSingleRef();
if (!rRef1.IsTabRel() && nTable <= rRef1.Tab())
rRef1.IncTab(1);
if (p->GetType() == formula::svDoubleRef)
{
ScSingleRefData& rRef2 = p->GetDoubleRef()->Ref2;
if (!rRef2.IsTabRel() && nTable <= rRef2.Tab())
rRef2.IncTab(1);
}
p = aIter.GetNextReferenceRPN();
}
}
bool ScFormulaCell::TestTabRefAbs(SCTAB nTable)
{
if (rDocument.IsClipOrUndo())
return false;
bool bAdjustCode = !mxGroup || mxGroup->mpTopCell == this;
if (!bAdjustCode)
return false;
bool bRet = false;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* p = aIter.GetNextReferenceRPN();
while (p)
{
ScSingleRefData& rRef1 = *p->GetSingleRef();
if (!rRef1.IsTabRel())
{
if (nTable != rRef1.Tab())
bRet = true;
else if (nTable != aPos.Tab())
rRef1.SetAbsTab(aPos.Tab());
}
if (p->GetType() == formula::svDoubleRef)
{
ScSingleRefData& rRef2 = p->GetDoubleRef()->Ref2;
if (!rRef2.IsTabRel())
{
if(nTable != rRef2.Tab())
bRet = true;
else if (nTable != aPos.Tab())
rRef2.SetAbsTab(aPos.Tab());
}
}
p = aIter.GetNextReferenceRPN();
}
return bRet;
}
void ScFormulaCell::UpdateCompile( bool bForceIfNameInUse )
{
if ( bForceIfNameInUse && !bCompile )
bCompile = pCode->HasNameOrColRowName();
if ( bCompile )
pCode->SetCodeError( FormulaError::NONE ); // make sure it will really be compiled
CompileTokenArray();
}
static void lcl_TransposeReference(ScSingleRefData& rRef)
{
// References to or over filtered rows are not adjusted
// analog to the normal (non-transposed) case
SCCOLROW nTemp = rRef.Col();
rRef.SetRelCol(rRef.Row());
rRef.SetRelRow(nTemp);
}
// Reference transposition is only called in Clipboard Document
void ScFormulaCell::TransposeReference()
{
bool bFound = false;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReference() ) != nullptr )
{
ScSingleRefData& rRef1 = *t->GetSingleRef();
if ( rRef1.IsColRel() && rRef1.IsRowRel() )
{
bool bDouble = (t->GetType() == formula::svDoubleRef);
ScSingleRefData& rRef2 = (bDouble ? t->GetDoubleRef()->Ref2 : rRef1);
if ( !bDouble || (rRef2.IsColRel() && rRef2.IsRowRel()) )
{
lcl_TransposeReference(rRef1);
if ( bDouble )
lcl_TransposeReference(rRef2);
bFound = true;
}
}
}
if (bFound)
bCompile = true;
}
void ScFormulaCell::UpdateTranspose( const ScRange& rSource, const ScAddress& rDest,
ScDocument* pUndoDoc )
{
EndListeningTo( rDocument );
ScAddress aOldPos = aPos;
bool bPosChanged = false; // Whether this cell has been moved
// Dest range is transposed
ScRange aDestRange( rDest, ScAddress(
static_cast<SCCOL>(rDest.Col() + rSource.aEnd.Row() - rSource.aStart.Row()),
static_cast<SCROW>(rDest.Row() + rSource.aEnd.Col() - rSource.aStart.Col()),
rDest.Tab() + rSource.aEnd.Tab() - rSource.aStart.Tab() ) );
// cell within range
if ( aDestRange.Contains( aOldPos ) )
{
// References of these cells were not changed by ScTokenArray::AdjustReferenceOnMove()
// Count back Positions
SCCOL nRelPosX = aOldPos.Col();
SCROW nRelPosY = aOldPos.Row();
SCTAB nRelPosZ = aOldPos.Tab();
ScRefUpdate::DoTranspose( nRelPosX, nRelPosY, nRelPosZ, rDocument, aDestRange, rSource.aStart );
aOldPos.Set( nRelPosX, nRelPosY, nRelPosZ );
bPosChanged = true;
}
std::unique_ptr<ScTokenArray> pOld;
if (pUndoDoc)
pOld = pCode->Clone();
bool bRefChanged = false;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* t;
while( (t = aIter.GetNextReferenceOrName()) != nullptr )
{
if( t->GetOpCode() == ocName )
{
const ScRangeData* pName = rDocument.FindRangeNameBySheetAndIndex( t->GetSheet(), t->GetIndex());
if (pName && pName->IsModified())
bRefChanged = true;
}
else if( t->GetType() != svIndex )
{
SingleDoubleRefModifier aMod(*t);
ScComplexRefData& rRef = aMod.Ref();
ScRange aAbs = rRef.toAbs(rDocument, aOldPos);
bool bMod = (ScRefUpdate::UpdateTranspose(rDocument, rSource, rDest, aAbs) != UR_NOTHING || bPosChanged);
if (bMod)
{
rRef.SetRange(rDocument.GetSheetLimits(), aAbs, aPos); // based on the new anchor position.
bRefChanged = true;
// Absolute sheet reference => set 3D flag.
// More than one sheet referenced => has to have both 3D flags.
// If end part has 3D flag => start part must have it too.
// The same behavior as in ScTokenArray::AdjustReferenceOnMove() is used for 3D-Flags.
rRef.Ref2.SetFlag3D(aAbs.aStart.Tab() != aAbs.aEnd.Tab() || !rRef.Ref2.IsTabRel());
rRef.Ref1.SetFlag3D(
(rSource.aStart.Tab() != rDest.Tab() && !bPosChanged)
|| !rRef.Ref1.IsTabRel() || rRef.Ref2.IsFlag3D());
}
}
}
if (bRefChanged)
{
if (pUndoDoc)
{
// Similar to setOldCodeToUndo(), but it cannot be used due to the check
// pUndoDoc->GetCellType(aPos) == CELLTYPE_FORMULA
ScFormulaCell* pFCell = new ScFormulaCell(
*pUndoDoc, aPos, pOld ? *pOld : ScTokenArray(*pUndoDoc), eTempGrammar, cMatrixFlag);
pFCell->aResult.SetToken( nullptr); // to recognize it as changed later (Cut/Paste!)
pUndoDoc->SetFormulaCell(aPos, pFCell);
}
bCompile = true;
CompileTokenArray(); // also call StartListeningTo
SetDirty();
}
else
StartListeningTo( rDocument ); // Listener as previous
}
void ScFormulaCell::UpdateGrow( const ScRange& rArea, SCCOL nGrowX, SCROW nGrowY )
{
EndListeningTo( rDocument );
bool bRefChanged = false;
formula::FormulaTokenArrayPlainIterator aIter(*pCode);
formula::FormulaToken* t;
while( (t = aIter.GetNextReferenceOrName()) != nullptr )
{
if( t->GetOpCode() == ocName )
{
const ScRangeData* pName = rDocument.FindRangeNameBySheetAndIndex( t->GetSheet(), t->GetIndex());
if (pName && pName->IsModified())
bRefChanged = true;
}
else if( t->GetType() != svIndex )
{
SingleDoubleRefModifier aMod(*t);
ScComplexRefData& rRef = aMod.Ref();
ScRange aAbs = rRef.toAbs(rDocument, aPos);
bool bMod = (ScRefUpdate::UpdateGrow(rArea, nGrowX, nGrowY, aAbs) != UR_NOTHING);
if (bMod)
{
rRef.SetRange(rDocument.GetSheetLimits(), aAbs, aPos);
bRefChanged = true;
}
}
}
if (bRefChanged)
{
bCompile = true;
CompileTokenArray(); // Also call StartListeningTo
SetDirty();
}
else
StartListeningTo( rDocument ); // Listener as previous
}
// See also ScDocument::FindRangeNamesReferencingSheet()
static void lcl_FindRangeNamesInUse(sc::UpdatedRangeNames& rIndexes, const ScTokenArray* pCode, const ScDocument& rDoc,
int nRecursion)
{
FormulaTokenArrayPlainIterator aIter(*pCode);
for (FormulaToken* p = aIter.First(); p; p = aIter.Next())
{
if (p->GetOpCode() == ocName)
{
sal_uInt16 nTokenIndex = p->GetIndex();
SCTAB nTab = p->GetSheet();
rIndexes.setUpdatedName( nTab, nTokenIndex);
if (nRecursion < 126) // whatever... 42*3
{
ScRangeData* pSubName = rDoc.FindRangeNameBySheetAndIndex( nTab, nTokenIndex);
if (pSubName)
lcl_FindRangeNamesInUse(rIndexes, pSubName->GetCode(), rDoc, nRecursion+1);
}
}
}
}
void ScFormulaCell::FindRangeNamesInUse(sc::UpdatedRangeNames& rIndexes) const
{
lcl_FindRangeNamesInUse( rIndexes, pCode, rDocument, 0);
}
void ScFormulaCell::SetChanged(bool b)
{
bChanged = b;
}
void ScFormulaCell::SetCode( std::unique_ptr<ScTokenArray> pNew )
{
assert(!mxGroup); // Don't call this if it's shared.
delete pCode;
pCode = pNew.release(); // takes ownership.
}
void ScFormulaCell::SetRunning( bool bVal )
{
bRunning = bVal;
}
void ScFormulaCell::CompileDBFormula( sc::CompileFormulaContext& rCxt )
{
FormulaTokenArrayPlainIterator aIter(*pCode);
for( FormulaToken* p = aIter.First(); p; p = aIter.Next() )
{
OpCode eOp = p->GetOpCode();
if ( eOp == ocDBArea || eOp == ocTableRef )
{
bCompile = true;
CompileTokenArray(rCxt);
SetDirty();
break;
}
}
}
void ScFormulaCell::CompileColRowNameFormula( sc::CompileFormulaContext& rCxt )
{
FormulaTokenArrayPlainIterator aIter(*pCode);
for ( FormulaToken* p = aIter.First(); p; p = aIter.Next() )
{
if ( p->GetOpCode() == ocColRowName )
{
bCompile = true;
CompileTokenArray(rCxt);
SetDirty();
break;
}
}
}
void ScFormulaCell::SetPrevious( ScFormulaCell* pF ) { pPrevious = pF; }
void ScFormulaCell::SetNext( ScFormulaCell* pF ) { pNext = pF; }
void ScFormulaCell::SetPreviousTrack( ScFormulaCell* pF ) { pPreviousTrack = pF; }
void ScFormulaCell::SetNextTrack( ScFormulaCell* pF ) { pNextTrack = pF; }
ScFormulaCellGroupRef ScFormulaCell::CreateCellGroup( SCROW nLen, bool bInvariant )
{
if (mxGroup)
{
// You can't create a new group if the cell is already a part of a group.
// Is this a sign of some inconsistent or incorrect data structures? Or normal?
SAL_INFO("sc.opencl", "You can't create a new group if the cell is already a part of a group");
return ScFormulaCellGroupRef();
}
mxGroup.reset(new ScFormulaCellGroup);
mxGroup->mpTopCell = this;
mxGroup->mbInvariant = bInvariant;
mxGroup->mnLength = nLen;
mxGroup->mpCode = std::move(*pCode); // Move this to the shared location.
delete pCode;
pCode = &*mxGroup->mpCode;
return mxGroup;
}
void ScFormulaCell::SetCellGroup( const ScFormulaCellGroupRef &xRef )
{
if (!xRef)
{
// Make this cell a non-grouped cell.
if (mxGroup)
pCode = mxGroup->mpCode->Clone().release();
mxGroup = xRef;
return;
}
// Group object has shared token array.
if (!mxGroup)
// Currently not shared. Delete the existing token array first.
delete pCode;
mxGroup = xRef;
pCode = &*mxGroup->mpCode;
mxGroup->mnWeight = 0; // invalidate
}
ScFormulaCell::CompareState ScFormulaCell::CompareByTokenArray( const ScFormulaCell& rOther ) const
{
// no Matrix formulae yet.
if ( GetMatrixFlag() != ScMatrixMode::NONE )
return NotEqual;
// are these formulas at all similar ?
if ( GetHash() != rOther.GetHash() )
return NotEqual;
if (!pCode->IsShareable() || !rOther.pCode->IsShareable())
return NotEqual;
FormulaToken **pThis = pCode->GetCode();
sal_uInt16 nThisLen = pCode->GetCodeLen();
FormulaToken **pOther = rOther.pCode->GetCode();
sal_uInt16 nOtherLen = rOther.pCode->GetCodeLen();
if ( !pThis || !pOther )
{
// Error: no compiled code for cells !"
return NotEqual;
}
if ( nThisLen != nOtherLen )
return NotEqual;
// No tokens can be an error cell so check error code, otherwise we could
// end up with a series of equal error values instead of individual error
// values. Also if for any reason different errors are set even if all
// tokens are equal, the cells are not equal.
if (pCode->GetCodeError() != rOther.pCode->GetCodeError())
return NotEqual;
bool bInvariant = true;
// check we are basically the same function
for ( sal_uInt16 i = 0; i < nThisLen; i++ )
{
formula::FormulaToken *pThisTok = pThis[i];
formula::FormulaToken *pOtherTok = pOther[i];
if ( pThisTok->GetType() != pOtherTok->GetType() ||
pThisTok->GetOpCode() != pOtherTok->GetOpCode() ||
pThisTok->GetParamCount() != pOtherTok->GetParamCount() )
{
// Incompatible type, op-code or param counts.
return NotEqual;
}
switch (pThisTok->GetType())
{
case formula::svMatrix:
case formula::svExternalSingleRef:
case formula::svExternalDoubleRef:
// Ignoring matrix and external references for now.
return NotEqual;
case formula::svSingleRef:
{
// Single cell reference.
const ScSingleRefData& rRef = *pThisTok->GetSingleRef();
if (rRef != *pOtherTok->GetSingleRef())
return NotEqual;
if (rRef.IsRowRel())
bInvariant = false;
}
break;
case formula::svDoubleRef:
{
// Range reference.
const ScSingleRefData& rRef1 = *pThisTok->GetSingleRef();
const ScSingleRefData& rRef2 = *pThisTok->GetSingleRef2();
if (rRef1 != *pOtherTok->GetSingleRef())
return NotEqual;
if (rRef2 != *pOtherTok->GetSingleRef2())
return NotEqual;
if (rRef1.IsRowRel())
bInvariant = false;
if (rRef2.IsRowRel())
bInvariant = false;
}
break;
case formula::svDouble:
{
if(!rtl::math::approxEqual(pThisTok->GetDouble(), pOtherTok->GetDouble()))
return NotEqual;
}
break;
case formula::svString:
{
if(pThisTok->GetString() != pOtherTok->GetString())
return NotEqual;
}
break;
case formula::svIndex:
{
if(pThisTok->GetIndex() != pOtherTok->GetIndex() || pThisTok->GetSheet() != pOtherTok->GetSheet())
return NotEqual;
}
break;
case formula::svByte:
{
if(pThisTok->GetByte() != pOtherTok->GetByte())
return NotEqual;
}
break;
case formula::svExternal:
{
if (pThisTok->GetExternal() != pOtherTok->GetExternal())
return NotEqual;
if (pThisTok->GetByte() != pOtherTok->GetByte())
return NotEqual;
}
break;
case formula::svError:
{
if (pThisTok->GetError() != pOtherTok->GetError())
return NotEqual;
}
break;
default:
;
}
}
// If still the same, check lexical names as different names may result in
// identical RPN code.
pThis = pCode->GetArray();
nThisLen = pCode->GetLen();
pOther = rOther.pCode->GetArray();
nOtherLen = rOther.pCode->GetLen();
if ( !pThis || !pOther )
{
// Error: no code for cells !"
return NotEqual;
}
if ( nThisLen != nOtherLen )
return NotEqual;
for ( sal_uInt16 i = 0; i < nThisLen; i++ )
{
formula::FormulaToken *pThisTok = pThis[i];
formula::FormulaToken *pOtherTok = pOther[i];
if ( pThisTok->GetType() != pOtherTok->GetType() ||
pThisTok->GetOpCode() != pOtherTok->GetOpCode() ||
pThisTok->GetParamCount() != pOtherTok->GetParamCount() )
{
// Incompatible type, op-code or param counts.
return NotEqual;
}
switch (pThisTok->GetType())
{
// ScCompiler::HandleIIOpCode() may optimize some refs only in RPN code,
// resulting in identical RPN references that could lead to creating
// a formula group from formulas that should not be merged into a group,
// so check also the formula itself.
case formula::svSingleRef:
{
// Single cell reference.
const ScSingleRefData& rRef = *pThisTok->GetSingleRef();
if (rRef != *pOtherTok->GetSingleRef())
return NotEqual;
if (rRef.IsRowRel())
bInvariant = false;
}
break;
case formula::svDoubleRef:
{
// Range reference.
const ScSingleRefData& rRef1 = *pThisTok->GetSingleRef();
const ScSingleRefData& rRef2 = *pThisTok->GetSingleRef2();
if (rRef1 != *pOtherTok->GetSingleRef())
return NotEqual;
if (rRef2 != *pOtherTok->GetSingleRef2())
return NotEqual;
if (rRef1.IsRowRel())
bInvariant = false;
if (rRef2.IsRowRel())
bInvariant = false;
}
break;
// All index tokens are names. Different categories already had
// different OpCode values.
case formula::svIndex:
{
if (pThisTok->GetIndex() != pOtherTok->GetIndex())
return NotEqual;
switch (pThisTok->GetOpCode())
{
case ocTableRef:
// nothing, sheet value assumed as -1, silence
// ScTableRefToken::GetSheet() SAL_WARN about
// unhandled
;
break;
default: // ocName, ocDBArea
if (pThisTok->GetSheet() != pOtherTok->GetSheet())
return NotEqual;
}
}
break;
default:
;
}
}
return bInvariant ? EqualInvariant : EqualRelativeRef;
}
namespace {
// Split N into optimally equal-sized pieces, each not larger than K.
// Return value P is number of pieces. A returns the number of pieces
// one larger than N/P, 0..P-1.
int splitup(int N, int K, int& A)
{
assert(N > 0);
assert(K > 0);
A = 0;
if (N <= K)
return 1;
const int ideal_num_parts = N / K;
if (ideal_num_parts * K == N)
return ideal_num_parts;
const int num_parts = ideal_num_parts + 1;
const int nominal_part_size = N / num_parts;
A = N - num_parts * nominal_part_size;
return num_parts;
}
struct ScDependantsCalculator
{
ScDocument& mrDoc;
const ScTokenArray& mrCode;
const ScFormulaCellGroupRef& mxGroup;
const SCROW mnLen;
const ScAddress& mrPos;
const bool mFromFirstRow;
const SCROW mnStartOffset;
const SCROW mnEndOffset;
const SCROW mnSpanLen;
ScDependantsCalculator(ScDocument& rDoc, const ScTokenArray& rCode, const ScFormulaCell& rCell,
const ScAddress& rPos, bool fromFirstRow, SCROW nStartOffset, SCROW nEndOffset) :
mrDoc(rDoc),
mrCode(rCode),
mxGroup(rCell.GetCellGroup()),
mnLen(mxGroup->mnLength),
mrPos(rPos),
// ScColumn::FetchVectorRefArray() always fetches data from row 0, even if the data is used
// only from further rows. This data fetching could also lead to Interpret() calls, so
// in OpenCL mode the formula in practice depends on those cells too.
mFromFirstRow(fromFirstRow),
mnStartOffset(nStartOffset),
mnEndOffset(nEndOffset),
mnSpanLen(nEndOffset - nStartOffset + 1)
{
}
// FIXME: copy-pasted from ScGroupTokenConverter. factor out somewhere else
// (note already modified a bit, mFromFirstRow)
// I think what this function does is to check whether the relative row reference nRelRow points
// to a row that is inside the range of rows covered by the formula group.
bool isSelfReferenceRelative(const ScAddress& rRefPos, SCROW nRelRow)
{
if (rRefPos.Col() != mrPos.Col() || rRefPos.Tab() != mrPos.Tab())
return false;
SCROW nEndRow = mrPos.Row() + mnLen - 1;
if (nRelRow <= 0)
{
SCROW nTest = nEndRow;
nTest += nRelRow;
if (nTest >= mrPos.Row())
return true;
}
else
{
SCROW nTest = mrPos.Row(); // top row.
nTest += nRelRow;
if (nTest <= nEndRow)
return true;
// If pointing below the formula, it's always included if going from first row.
if (mFromFirstRow)
return true;
}
return false;
}
// FIXME: another copy-paste
// And this correspondingly checks whether an absolute row is inside the range of rows covered
// by the formula group.
bool isSelfReferenceAbsolute(const ScAddress& rRefPos)
{
if (rRefPos.Col() != mrPos.Col() || rRefPos.Tab() != mrPos.Tab())
return false;
SCROW nEndRow = mrPos.Row() + mnLen - 1;
if (rRefPos.Row() < mrPos.Row())
return false;
// If pointing below the formula, it's always included if going from first row.
if (rRefPos.Row() > nEndRow && !mFromFirstRow)
return false;
return true;
}
// Checks if the doubleref engulfs all of formula group cells
// Note : does not check if there is a partial overlap, that can be done by calling
// isSelfReference[Absolute|Relative]() on both the start and end of the double ref
bool isDoubleRefSpanGroupRange(const ScRange& rAbs, bool bIsRef1RowRel, bool bIsRef2RowRel)
{
if (rAbs.aStart.Col() > mrPos.Col() || rAbs.aEnd.Col() < mrPos.Col()
|| rAbs.aStart.Tab() > mrPos.Tab() || rAbs.aEnd.Tab() < mrPos.Tab())
{
return false;
}
SCROW nStartRow = mrPos.Row();
SCROW nEndRow = nStartRow + mnLen - 1;
SCROW nRefStartRow = rAbs.aStart.Row();
SCROW nRefEndRow = rAbs.aEnd.Row();
if (bIsRef1RowRel && bIsRef2RowRel &&
((nRefStartRow <= nStartRow && nRefEndRow >= nEndRow) ||
((nRefStartRow + mnLen - 1) <= nStartRow &&
(nRefEndRow + mnLen - 1) >= nEndRow)))
return true;
if (!bIsRef1RowRel && nRefStartRow <= nStartRow &&
(nRefEndRow >= nEndRow || (nRefEndRow + mnLen - 1) >= nEndRow))
return true;
if (!bIsRef2RowRel &&
nRefStartRow <= nStartRow && nRefEndRow >= nEndRow)
return true;
// If going from first row, the referenced range must be entirely above the formula,
// otherwise the formula would be included.
if (mFromFirstRow && nRefEndRow >= nStartRow)
return true;
return false;
}
// FIXME: another copy-paste
SCROW trimLength(SCTAB nTab, SCCOL nCol1, SCCOL nCol2, SCROW nRow, SCROW nRowLen)
{
SCROW nLastRow = nRow + nRowLen - 1; // current last row.
nLastRow = mrDoc.GetLastDataRow(nTab, nCol1, nCol2, nLastRow);
if (nLastRow < (nRow + nRowLen - 1))
{
// This can end up negative! Was that the original intent, or
// is it accidental? Was it not like that originally but the
// surrounding conditions changed?
nRowLen = nLastRow - nRow + 1;
// Anyway, let's assume it doesn't make sense to return a
// negative or zero value here.
if (nRowLen <= 0)
nRowLen = 1;
}
else if (nLastRow == 0)
// Column is empty.
nRowLen = 1;
return nRowLen;
}
// Because Lookup will extend the Result Vector under certain circumstances listed at:
// https://wiki.documentfoundation.org/Documentation/Calc_Functions/LOOKUP
// then if the Lookup has a Result Vector only accept the Lookup for parallelization
// of the Result Vector has the same dimensions as the Search Vector.
bool LookupResultVectorMismatch(sal_Int32 nTokenIdx)
{
if (nTokenIdx >= 3)
{
FormulaToken** pRPNArray = mrCode.GetCode();
if (pRPNArray[nTokenIdx - 1]->GetOpCode() == ocPush && // <- result vector
pRPNArray[nTokenIdx - 2]->GetOpCode() == ocPush && // <- search vector
pRPNArray[nTokenIdx - 2]->GetType() == svDoubleRef &&
pRPNArray[nTokenIdx - 3]->GetOpCode() == ocPush) // <- search criterion
{
auto res = pRPNArray[nTokenIdx - 1];
// If Result vector is just a single cell reference
// LOOKUP extends it as a column vector.
if (res->GetType() == svSingleRef)
return true;
// If Result vector is a cell range and the match position
// falls outside its length, it gets automatically extended
// to the length of Search vector, but in the direction of
// Result vector.
if (res->GetType() == svDoubleRef)
{
ScComplexRefData aRef1 = *res->GetDoubleRef();
ScComplexRefData aRef2 = *pRPNArray[nTokenIdx - 2]->GetDoubleRef();
ScRange resultRange = aRef1.toAbs(mrDoc, mrPos);
ScRange sourceRange = aRef2.toAbs(mrDoc, mrPos);
SCROW nResultRows = resultRange.aEnd.Row() - resultRange.aStart.Row();
SCROW nSourceRows = sourceRange.aEnd.Row() - sourceRange.aStart.Row();
if (nResultRows != nSourceRows)
return true;
SCCOL nResultCols = resultRange.aEnd.Col() - resultRange.aStart.Col();
SCCOL nSourceCols = sourceRange.aEnd.Col() - sourceRange.aStart.Col();
if (nResultCols != nSourceCols)
return true;
}
}
}
return false;
}
bool DoIt(ScRangeList* pSuccessfulDependencies, ScAddress* pDirtiedAddress)
{
// Partially from ScGroupTokenConverter::convert in sc/source/core/data/grouptokenconverter.cxx
ScRangeList aRangeList;
// Self references should be checked by considering the entire formula-group not just the provided span.
bool bHasSelfReferences = false;
bool bInDocShellRecalc = mrDoc.IsInDocShellRecalc();
FormulaToken** pRPNArray = mrCode.GetCode();
sal_uInt16 nCodeLen = mrCode.GetCodeLen();
for (sal_Int32 nTokenIdx = nCodeLen-1; nTokenIdx >= 0; --nTokenIdx)
{
auto p = pRPNArray[nTokenIdx];
if (!bInDocShellRecalc)
{
// The dependency evaluator evaluates all arguments of IF/IFS/SWITCH irrespective
// of the result of the condition expression.
// This is a perf problem if we *don't* intent on recalc'ing all dirty cells
// in the document. So lets disable threading and stop dependency evaluation if
// the call did not originate from ScDocShell::DoRecalc()/ScDocShell::DoHardRecalc()
// for formulae with IF/IFS/SWITCH
OpCode nOpCode = p->GetOpCode();
if (nOpCode == ocIf || nOpCode == ocIfs_MS || nOpCode == ocSwitch_MS)
return false;
}
if (p->GetOpCode() == ocLookup && LookupResultVectorMismatch(nTokenIdx))
{
SAL_INFO("sc.core.formulacell", "Lookup Result Vector size doesn't match Search Vector");
return false;
}
if (p->GetOpCode() == ocRange)
{
// We are just looking at svSingleRef/svDoubleRef, so we will miss that ocRange constructs
// a range from its arguments, and only examining the individual args doesn't capture the
// true range of dependencies
SAL_WARN("sc.core.formulacell", "dynamic range, dropping as candidate for parallelizing");
return false;
}
switch (p->GetType())
{
case svSingleRef:
{
ScSingleRefData aRef = *p->GetSingleRef(); // =Sheet1!A1
if( aRef.IsDeleted())
return false;
ScAddress aRefPos = aRef.toAbs(mrDoc, mrPos);
if (!mrDoc.HasTable(aRefPos.Tab()))
return false; // or true?
if (aRef.IsRowRel())
{
if (isSelfReferenceRelative(aRefPos, aRef.Row()))
{
bHasSelfReferences = true;
continue;
}
// Trim data array length to actual data range.
SCROW nTrimLen = trimLength(aRefPos.Tab(), aRefPos.Col(), aRefPos.Col(), aRefPos.Row() + mnStartOffset, mnSpanLen);
aRangeList.Join(ScRange(aRefPos.Col(), aRefPos.Row() + mnStartOffset, aRefPos.Tab(),
aRefPos.Col(), aRefPos.Row() + mnStartOffset + nTrimLen - 1, aRefPos.Tab()));
}
else
{
if (isSelfReferenceAbsolute(aRefPos))
{
bHasSelfReferences = true;
continue;
}
aRangeList.Join(ScRange(aRefPos.Col(), aRefPos.Row(), aRefPos.Tab()));
}
}
break;
case svDoubleRef:
{
ScComplexRefData aRef = *p->GetDoubleRef();
if( aRef.IsDeleted())
return false;
ScRange aAbs = aRef.toAbs(mrDoc, mrPos);
// Multiple sheet
if (aAbs.aStart.Tab() != aAbs.aEnd.Tab())
return false;
bool bIsRef1RowRel = aRef.Ref1.IsRowRel();
// Check for self reference.
if (bIsRef1RowRel)
{
if (isSelfReferenceRelative(aAbs.aStart, aRef.Ref1.Row()))
{
bHasSelfReferences = true;
continue;
}
}
else if (isSelfReferenceAbsolute(aAbs.aStart))
{
bHasSelfReferences = true;
continue;
}
bool bIsRef2RowRel = aRef.Ref2.IsRowRel();
if (bIsRef2RowRel)
{
if (isSelfReferenceRelative(aAbs.aEnd, aRef.Ref2.Row()))
{
bHasSelfReferences = true;
continue;
}
}
else if (isSelfReferenceAbsolute(aAbs.aEnd))
{
bHasSelfReferences = true;
continue;
}
if (isDoubleRefSpanGroupRange(aAbs, bIsRef1RowRel, bIsRef2RowRel))
{
bHasSelfReferences = true;
continue;
}
SCROW nFirstRefStartRow = bIsRef1RowRel ? aAbs.aStart.Row() + mnStartOffset : aAbs.aStart.Row();
SCROW nLastRefEndRow = bIsRef2RowRel ? aAbs.aEnd.Row() + mnEndOffset : aAbs.aEnd.Row();
SCROW nFirstRefEndRow = bIsRef1RowRel ? aAbs.aStart.Row() + mnEndOffset : aAbs.aStart.Row();
SCROW nLastRefStartRow = bIsRef2RowRel ? aAbs.aEnd.Row() + mnStartOffset : aAbs.aEnd.Row();
// The first row that will be referenced through the doubleref.
SCROW nFirstRefRow = std::min(nFirstRefStartRow, nLastRefStartRow);
// The last row that will be referenced through the doubleref.
SCROW nLastRefRow = std::max(nLastRefEndRow, nFirstRefEndRow);
// Number of rows to be evaluated from nFirstRefRow.
SCROW nArrayLength = nLastRefRow - nFirstRefRow + 1;
assert(nArrayLength > 0);
// Trim trailing empty rows.
nArrayLength = trimLength(aAbs.aStart.Tab(), aAbs.aStart.Col(), aAbs.aEnd.Col(), nFirstRefRow, nArrayLength);
aRangeList.Join(ScRange(aAbs.aStart.Col(), nFirstRefRow, aAbs.aStart.Tab(),
aAbs.aEnd.Col(), nFirstRefRow + nArrayLength - 1, aAbs.aEnd.Tab()));
}
break;
default:
break;
}
}
// Compute dependencies irrespective of the presence of any self references.
// These dependencies would get computed via InterpretTail anyway when we disable group calc, so lets do it now.
// The advantage is that the FG's get marked for cycles early if present, and can avoid lots of complications.
for (size_t i = 0; i < aRangeList.size(); ++i)
{
const ScRange & rRange = aRangeList[i];
assert(rRange.aStart.Tab() == rRange.aEnd.Tab());
for (auto nCol = rRange.aStart.Col(); nCol <= rRange.aEnd.Col(); nCol++)
{
SCROW nStartRow = rRange.aStart.Row();
SCROW nLength = rRange.aEnd.Row() - rRange.aStart.Row() + 1;
if( mFromFirstRow )
{ // include also all previous rows
nLength += nStartRow;
nStartRow = 0;
}
if (!mrDoc.HandleRefArrayForParallelism(ScAddress(nCol, nStartRow, rRange.aStart.Tab()),
nLength, mxGroup, pDirtiedAddress))
return false;
}
}
if (bHasSelfReferences)
mxGroup->mbPartOfCycle = true;
if (pSuccessfulDependencies && !bHasSelfReferences)
*pSuccessfulDependencies = aRangeList;
return !bHasSelfReferences;
}
};
} // anonymous namespace
bool ScFormulaCell::InterpretFormulaGroup(SCROW nStartOffset, SCROW nEndOffset)
{
if (!mxGroup || !pCode)
return false;
auto aScope = sc::FormulaLogger::get().enterGroup(rDocument, *this);
ScRecursionHelper& rRecursionHelper = rDocument.GetRecursionHelper();
if (mxGroup->mbPartOfCycle)
{
aScope.addMessage("This formula-group is part of a cycle");
return false;
}
if (mxGroup->meCalcState == sc::GroupCalcDisabled)
{
static constexpr OUStringLiteral MESSAGE = u"group calc disabled";
aScope.addMessage(MESSAGE);
return false;
}
// Use SC_FORCE_CALCULATION=opencl/threads to force calculation e.g. for unittests
static ForceCalculationType forceType = ScCalcConfig::getForceCalculationType();
if (forceType == ForceCalculationCore
|| ( GetWeight() < ScInterpreter::GetGlobalConfig().mnOpenCLMinimumFormulaGroupSize
&& forceType != ForceCalculationOpenCL
&& forceType != ForceCalculationThreads))
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
aScope.addGroupSizeThresholdMessage(*this);
return false;
}
if (cMatrixFlag != ScMatrixMode::NONE)
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
aScope.addMessage("matrix skipped");
return false;
}
if( forceType != ForceCalculationNone )
{
// ScConditionEntry::Interpret() creates a temporary cell and interprets it
// without it actually being in the document at the specified position.
// That would confuse opencl/threading code, as they refer to the cell group
// also using the position. This is normally not triggered (single cells
// are normally not in a cell group), but if forced, check for this explicitly.
if( rDocument.GetFormulaCell( aPos ) != this )
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
aScope.addMessage("cell not in document");
return false;
}
}
// Get rid of -1's in offsets (defaults) or any invalid offsets.
SCROW nMaxOffset = mxGroup->mnLength - 1;
nStartOffset = nStartOffset < 0 ? 0 : std::min(nStartOffset, nMaxOffset);
nEndOffset = nEndOffset < 0 ? nMaxOffset : std::min(nEndOffset, nMaxOffset);
if (nEndOffset < nStartOffset)
{
nStartOffset = 0;
nEndOffset = nMaxOffset;
}
if (nEndOffset == nStartOffset && forceType == ForceCalculationNone)
return false; // Do not use threads for a single row.
// Guard against endless recursion of Interpret() calls, for this to work
// ScFormulaCell::InterpretFormulaGroup() must never be called through
// anything else than ScFormulaCell::Interpret(), same as
// ScFormulaCell::InterpretTail()
RecursionCounter aRecursionCounter( rRecursionHelper, this);
bool bDependencyComputed = false;
bool bDependencyCheckFailed = false;
// Preference order: First try OpenCL, then threading.
// TODO: Do formula-group span computation for OCL too if nStartOffset/nEndOffset are non default.
if( InterpretFormulaGroupOpenCL(aScope, bDependencyComputed, bDependencyCheckFailed))
return true;
if( InterpretFormulaGroupThreading(aScope, bDependencyComputed, bDependencyCheckFailed, nStartOffset, nEndOffset))
return true;
return false;
}
bool ScFormulaCell::CheckComputeDependencies(sc::FormulaLogger::GroupScope& rScope, bool fromFirstRow,
SCROW nStartOffset, SCROW nEndOffset,
bool bCalcDependencyOnly,
ScRangeList* pSuccessfulDependencies,
ScAddress* pDirtiedAddress)
{
ScRecursionHelper& rRecursionHelper = rDocument.GetRecursionHelper();
// iterate over code in the formula ...
// ensure all input is pre-calculated -
// to avoid writing during the calculation
if (bCalcDependencyOnly)
{
// Lets not use "ScFormulaGroupDependencyComputeGuard" here as there is no corresponding
// "ScFormulaGroupCycleCheckGuard" for this formula-group.
// (We can only reach here from a multi-group dependency evaluation attempt).
// (These two have to be in pairs always for any given formula-group)
ScDependantsCalculator aCalculator(rDocument, *pCode, *this, mxGroup->mpTopCell->aPos, fromFirstRow, nStartOffset, nEndOffset);
return aCalculator.DoIt(pSuccessfulDependencies, pDirtiedAddress);
}
bool bOKToParallelize = false;
{
ScFormulaGroupCycleCheckGuard aCycleCheckGuard(rRecursionHelper, this);
if (mxGroup->mbPartOfCycle)
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
rScope.addMessage("found circular formula-group dependencies");
return false;
}
ScFormulaGroupDependencyComputeGuard aDepComputeGuard(rRecursionHelper);
ScDependantsCalculator aCalculator(rDocument, *pCode, *this, mxGroup->mpTopCell->aPos, fromFirstRow, nStartOffset, nEndOffset);
bOKToParallelize = aCalculator.DoIt(pSuccessfulDependencies, pDirtiedAddress);
}
if (rRecursionHelper.IsInRecursionReturn())
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
rScope.addMessage("Recursion limit reached, cannot thread this formula group now");
return false;
}
if (mxGroup->mbPartOfCycle)
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
rScope.addMessage("found circular formula-group dependencies");
return false;
}
if (!rRecursionHelper.AreGroupsIndependent())
{
// This call resulted from a dependency calculation for a multigroup-threading attempt,
// but found dependency among the groups.
rScope.addMessage("multi-group-dependency failed");
return false;
}
if (!bOKToParallelize)
{
mxGroup->meCalcState = sc::GroupCalcDisabled;
rScope.addMessage("could not do new dependencies calculation thing");
return false;
}
return true;
}
static SCCOL lcl_probeLeftOrRightFGs(const ScFormulaCellGroupRef& xGroup, const ScDocument& rDoc,
o3tl::sorted_vector<ScFormulaCellGroup*>& rFGSet,
std::map<SCCOL, ScFormulaCell*>& rFGMap, bool bLeft)
{
const SCROW nLen = xGroup->mnLength;
const sal_Int32 nWt = xGroup->mnWeight;
ScAddress aAddr(xGroup->mpTopCell->aPos);
SCCOL nColRet = aAddr.Col();
const SCCOL nMaxCol = rDoc.GetAllocatedColumnsCount(aAddr.Tab()) - 1;
if (bLeft)
--nColRet;
else
++nColRet;
while (nColRet >= 0 && nColRet <= nMaxCol)
{
aAddr.SetCol(nColRet);
const ScFormulaCell* pCell = rDoc.GetFormulaCell(aAddr);
if (!pCell)
break;
if (!pCell->NeedsInterpret())
break;
const ScFormulaCellGroupRef& xNGroup = pCell->GetCellGroup();
if (!xNGroup)
break;
if (!pCell->GetCode()->IsEnabledForThreading())
break;
if (xNGroup->mpTopCell->aPos.Row() != aAddr.Row())
break;
const SCROW nNLen = xNGroup->mnLength;
const sal_Int32 nNWt = pCell->GetWeight();
if (nNLen != nLen || nNWt != nWt)
break;
rFGSet.insert(xNGroup.get());
rFGMap[nColRet] = xNGroup->mpTopCell;
if (bLeft)
--nColRet;
else
++nColRet;
}
if (bLeft)
++nColRet;
else
--nColRet;
return nColRet;
}
// To be called only from InterpretFormulaGroup().
bool ScFormulaCell::InterpretFormulaGroupThreading(sc::FormulaLogger::GroupScope& aScope,
bool& bDependencyComputed,
bool& bDependencyCheckFailed,
SCROW nStartOffset,
SCROW nEndOffset)
{
static const bool bThreadingProhibited = std::getenv("SC_NO_THREADED_CALCULATION");
if (!bDependencyCheckFailed && !bThreadingProhibited &&
pCode->IsEnabledForThreading() &&
ScCalcConfig::isThreadingEnabled())
{
ScRangeList aOrigDependencies;
if(!bDependencyComputed && !CheckComputeDependencies(aScope, false, nStartOffset, nEndOffset, false, &aOrigDependencies))
{
bDependencyComputed = true;
bDependencyCheckFailed = true;
return false;
}
bDependencyComputed = true;
// Then do the threaded calculation
class Executor : public comphelper::ThreadTask
{
private:
const unsigned mnThisThread;
const unsigned mnThreadsTotal;
ScDocument* mpDocument;
ScInterpreterContext* mpContext;
const ScAddress& mrTopPos;
SCCOL mnStartCol;
SCCOL mnEndCol;
SCROW mnStartOffset;
SCROW mnEndOffset;
public:
Executor(const std::shared_ptr<comphelper::ThreadTaskTag>& rTag,
unsigned nThisThread,
unsigned nThreadsTotal,
ScDocument* pDocument2,
ScInterpreterContext* pContext,
const ScAddress& rTopPos,
SCCOL nStartCol,
SCCOL nEndCol,
SCROW nStartOff,
SCROW nEndOff) :
comphelper::ThreadTask(rTag),
mnThisThread(nThisThread),
mnThreadsTotal(nThreadsTotal),
mpDocument(pDocument2),
mpContext(pContext),
mrTopPos(rTopPos),
mnStartCol(nStartCol),
mnEndCol(nEndCol),
mnStartOffset(nStartOff),
mnEndOffset(nEndOff)
{
}
virtual void doWork() override
{
ScRange aCalcRange(mnStartCol, mrTopPos.Row() + mnStartOffset, mrTopPos.Tab(),
mnEndCol, mrTopPos.Row() + mnEndOffset, mrTopPos.Tab());
mpDocument->CalculateInColumnInThread(*mpContext, aCalcRange, mnThisThread, mnThreadsTotal);
}
};
SvNumberFormatter* pNonThreadedFormatter = rDocument.GetNonThreadedContext().GetFormatTable();
comphelper::ThreadPool& rThreadPool(comphelper::ThreadPool::getSharedOptimalPool());
sal_Int32 nThreadCount = rThreadPool.getWorkerCount();
SAL_INFO("sc.threaded", "Running " << nThreadCount << " threads");
o3tl::sorted_vector<ScFormulaCellGroup*> aFGSet;
std::map<SCCOL, ScFormulaCell*> aFGMap;
aFGSet.insert(mxGroup.get());
ScRecursionHelper& rRecursionHelper = rDocument.GetRecursionHelper();
SCCOL nColStart = aPos.Col();
SCCOL nColEnd = nColStart;
if (!rRecursionHelper.HasFormulaGroupSet() && rDocument.IsInDocShellRecalc())
{
nColStart = lcl_probeLeftOrRightFGs(mxGroup, rDocument, aFGSet, aFGMap, true);
nColEnd = lcl_probeLeftOrRightFGs(mxGroup, rDocument, aFGSet, aFGMap, false);
}
bool bFGOK = true;
ScAddress aDirtiedAddress(ScAddress::INITIALIZE_INVALID);
if (nColStart != nColEnd)
{
ScCheckIndependentFGGuard aGuard(rRecursionHelper, &aFGSet);
for (SCCOL nCurrCol = nColStart; nCurrCol <= nColEnd; ++nCurrCol)
{
if (nCurrCol == aPos.Col())
continue;
bFGOK = aFGMap[nCurrCol]->CheckComputeDependencies(aScope, false, nStartOffset, nEndOffset,
true, nullptr, &aDirtiedAddress);
if (!bFGOK || !aGuard.AreGroupsIndependent())
{
nColEnd = nColStart = aPos.Col();
break;
}
}
}
// tdf#156677 it is possible that if a check of a column in the new range fails that the check has
// now left a cell that the original range depended on in a Dirty state. So if the dirtied cell
// was part of the original dependencies re-run the initial CheckComputeDependencies to fix it.
if (!bFGOK && aDirtiedAddress.IsValid() && aOrigDependencies.Find(aDirtiedAddress))
{
SAL_WARN("sc.core.formulacell", "rechecking dependencies due to a dirtied cell during speculative probe");
const bool bRedoEntryCheckSucceeded = CheckComputeDependencies(aScope, false, nStartOffset, nEndOffset);
assert(bRedoEntryCheckSucceeded && "if it worked on the original range it should work again on that range");
(void)bRedoEntryCheckSucceeded;
}
std::vector<std::unique_ptr<ScInterpreter>> aInterpreters(nThreadCount);
{
assert(!rDocument.IsThreadedGroupCalcInProgress());
rDocument.SetThreadedGroupCalcInProgress(true);
ScMutationDisable aGuard(rDocument, ScMutationGuardFlags::CORE);
// Start nThreadCount new threads
std::shared_ptr<comphelper::ThreadTaskTag> aTag = comphelper::ThreadPool::createThreadTaskTag();
ScThreadedInterpreterContextGetterGuard aContextGetterGuard(nThreadCount, rDocument, pNonThreadedFormatter);
ScInterpreterContext* context = nullptr;
for (int i = 0; i < nThreadCount; ++i)
{
context = aContextGetterGuard.GetInterpreterContextForThreadIdx(i);
assert(!context->pInterpreter);
aInterpreters[i].reset(new ScInterpreter(this, rDocument, *context, mxGroup->mpTopCell->aPos, *pCode, true));
context->pInterpreter = aInterpreters[i].get();
rDocument.SetupContextFromNonThreadedContext(*context, i);
rThreadPool.pushTask(std::make_unique<Executor>(aTag, i, nThreadCount, &rDocument, context, mxGroup->mpTopCell->aPos,
nColStart, nColEnd, nStartOffset, nEndOffset));
}
SAL_INFO("sc.threaded", "Waiting for threads to finish work");
// Do not join the threads here. They will get joined in ScDocument destructor
// if they don't get joined from elsewhere before (via ThreadPool::waitUntilDone).
rThreadPool.waitUntilDone(aTag, false);
rDocument.SetThreadedGroupCalcInProgress(false);
for (int i = 0; i < nThreadCount; ++i)
{
context = aContextGetterGuard.GetInterpreterContextForThreadIdx(i);
// This is intentionally done in this main thread in order to avoid locking.
rDocument.MergeContextBackIntoNonThreadedContext(*context, i);
context->pInterpreter = nullptr;
}
SAL_INFO("sc.threaded", "Done");
}
ScAddress aStartPos(mxGroup->mpTopCell->aPos);
SCROW nSpanLen = nEndOffset - nStartOffset + 1;
aStartPos.SetRow(aStartPos.Row() + nStartOffset);
// Reuse one of the previously allocated interpreter objects here.
rDocument.HandleStuffAfterParallelCalculation(nColStart, nColEnd, aStartPos.Row(), nSpanLen,
aStartPos.Tab(), aInterpreters[0].get());
return true;
}
return false;
}
// To be called only from InterpretFormulaGroup().
bool ScFormulaCell::InterpretFormulaGroupOpenCL(sc::FormulaLogger::GroupScope& aScope,
bool& bDependencyComputed,
bool& bDependencyCheckFailed)
{
bool bCanVectorize = pCode->IsEnabledForOpenCL();
switch (pCode->GetVectorState())
{
case FormulaVectorEnabled:
case FormulaVectorCheckReference:
break;
// Not good.
case FormulaVectorDisabledByOpCode:
aScope.addMessage("group calc disabled due to vector state (non-vector-supporting opcode)");
break;
case FormulaVectorDisabledByStackVariable:
aScope.addMessage("group calc disabled due to vector state (non-vector-supporting stack variable)");
break;
case FormulaVectorDisabledNotInSubSet:
aScope.addMessage("group calc disabled due to vector state (opcode not in subset)");
break;
case FormulaVectorDisabled:
case FormulaVectorUnknown:
default:
aScope.addMessage("group calc disabled due to vector state (unknown)");
return false;
}
if (!bCanVectorize)
return false;
if (!ScCalcConfig::isOpenCLEnabled())
{
aScope.addMessage("opencl not enabled");
return false;
}
// TableOp does tricks with using a cell with different values, just bail out.
if(rDocument.IsInInterpreterTableOp())
return false;
if (bDependencyCheckFailed)
return false;
if(!bDependencyComputed && !CheckComputeDependencies(aScope, true, 0, mxGroup->mnLength - 1))
{
bDependencyComputed = true;
bDependencyCheckFailed = true;
return false;
}
bDependencyComputed = true;
// TODO : Disable invariant formula group interpretation for now in order
// to get implicit intersection to work.
if (mxGroup->mbInvariant && false)
return InterpretInvariantFormulaGroup();
int nMaxGroupLength = INT_MAX;
#ifdef _WIN32
// Heuristic: Certain old low-end OpenCL implementations don't
// work for us with too large group lengths. 1000 was determined
// empirically to be a good compromise.
if (openclwrapper::gpuEnv.mbNeedsTDRAvoidance)
nMaxGroupLength = 1000;
#endif
if (std::getenv("SC_MAX_GROUP_LENGTH"))
nMaxGroupLength = std::atoi(std::getenv("SC_MAX_GROUP_LENGTH"));
int nNumOnePlus;
const int nNumParts = splitup(GetSharedLength(), nMaxGroupLength, nNumOnePlus);
int nOffset = 0;
int nCurChunkSize;
ScAddress aOrigPos = mxGroup->mpTopCell->aPos;
for (int i = 0; i < nNumParts; i++, nOffset += nCurChunkSize)
{
nCurChunkSize = GetSharedLength()/nNumParts + (i < nNumOnePlus ? 1 : 0);
ScFormulaCellGroupRef xGroup;
if (nNumParts == 1)
xGroup = mxGroup;
else
{
// Ugly hack
xGroup = new ScFormulaCellGroup();
xGroup->mpTopCell = mxGroup->mpTopCell;
xGroup->mpTopCell->aPos = aOrigPos;
xGroup->mpTopCell->aPos.IncRow(nOffset);
xGroup->mbInvariant = mxGroup->mbInvariant;
xGroup->mnLength = nCurChunkSize;
xGroup->mpCode = std::move(mxGroup->mpCode); // temporarily transfer
}
ScTokenArray aCode(rDocument);
ScGroupTokenConverter aConverter(aCode, rDocument, *this, xGroup->mpTopCell->aPos);
// TODO avoid this extra compilation
ScCompiler aComp( rDocument, xGroup->mpTopCell->aPos, *pCode, formula::FormulaGrammar::GRAM_UNSPECIFIED, true, cMatrixFlag != ScMatrixMode::NONE );
aComp.CompileTokenArray();
if (aComp.HasUnhandledPossibleImplicitIntersections() || !aConverter.convert(*pCode, aScope))
{
if(aComp.HasUnhandledPossibleImplicitIntersections())
{
SAL_INFO("sc.opencl", "group " << xGroup->mpTopCell->aPos << " has unhandled implicit intersections, disabling");
#ifdef DBG_UTIL
for( const OpCode opcode : aComp.UnhandledPossibleImplicitIntersectionsOpCodes())
{
SAL_INFO("sc.opencl", "unhandled implicit intersection opcode "
<< formula::FormulaCompiler().GetOpCodeMap(com::sun::star::sheet::FormulaLanguage::ENGLISH)->getSymbol(opcode)
<< "(" << int(opcode) << ")");
}
#endif
}
else
SAL_INFO("sc.opencl", "conversion of group " << xGroup->mpTopCell->aPos << " failed, disabling");
mxGroup->meCalcState = sc::GroupCalcDisabled;
// Undo the hack above
if (nNumParts > 1)
{
mxGroup->mpTopCell->aPos = aOrigPos;
xGroup->mpTopCell = nullptr;
mxGroup->mpCode = std::move(xGroup->mpCode);
}
aScope.addMessage("group token conversion failed");
return false;
}
// The converted code does not have RPN tokens yet. The interpreter will
// generate them.
xGroup->meCalcState = mxGroup->meCalcState = sc::GroupCalcRunning;
sc::FormulaGroupInterpreter *pInterpreter = sc::FormulaGroupInterpreter::getStatic();
if (pInterpreter == nullptr ||
!pInterpreter->interpret(rDocument, xGroup->mpTopCell->aPos, xGroup, aCode))
{
SAL_INFO("sc.opencl", "interpreting group " << mxGroup->mpTopCell->aPos
<< " (state " << static_cast<int>(mxGroup->meCalcState) << ") failed, disabling");
mxGroup->meCalcState = sc::GroupCalcDisabled;
// Undo the hack above
if (nNumParts > 1)
{
mxGroup->mpTopCell->aPos = aOrigPos;
xGroup->mpTopCell = nullptr;
mxGroup->mpCode = std::move(xGroup->mpCode);
}
aScope.addMessage("group interpretation unsuccessful");
return false;
}
aScope.setCalcComplete();
if (nNumParts > 1)
{
xGroup->mpTopCell = nullptr;
mxGroup->mpCode = std::move(xGroup->mpCode);
}
}
if (nNumParts > 1)
mxGroup->mpTopCell->aPos = aOrigPos;
mxGroup->meCalcState = sc::GroupCalcEnabled;
return true;
}
bool ScFormulaCell::InterpretInvariantFormulaGroup()
{
if (pCode->GetVectorState() == FormulaVectorCheckReference)
{
// An invariant group should only have absolute row references, and no
// external references are allowed.
ScTokenArray aCode(rDocument);
FormulaTokenArrayPlainIterator aIter(*pCode);
for (const formula::FormulaToken* p = aIter.First(); p; p = aIter.Next())
{
switch (p->GetType())
{
case svSingleRef:
{
ScSingleRefData aRef = *p->GetSingleRef();
ScAddress aRefPos = aRef.toAbs(rDocument, aPos);
formula::FormulaTokenRef pNewToken = rDocument.ResolveStaticReference(aRefPos);
if (!pNewToken)
return false;
aCode.AddToken(*pNewToken);
}
break;
case svDoubleRef:
{
ScComplexRefData aRef = *p->GetDoubleRef();
ScRange aRefRange = aRef.toAbs(rDocument, aPos);
formula::FormulaTokenRef pNewToken = rDocument.ResolveStaticReference(aRefRange);
if (!pNewToken)
return false;
aCode.AddToken(*pNewToken);
}
break;
default:
aCode.AddToken(*p);
}
}
ScCompiler aComp(rDocument, aPos, aCode, rDocument.GetGrammar(), true, cMatrixFlag != ScMatrixMode::NONE);
aComp.CompileTokenArray(); // Create RPN token array.
ScInterpreter aInterpreter(this, rDocument, rDocument.GetNonThreadedContext(), aPos, aCode);
aInterpreter.Interpret();
aResult.SetToken(aInterpreter.GetResultToken().get());
}
else
{
// Formula contains no references.
ScInterpreter aInterpreter(this, rDocument, rDocument.GetNonThreadedContext(), aPos, *pCode);
aInterpreter.Interpret();
aResult.SetToken(aInterpreter.GetResultToken().get());
}
for ( sal_Int32 i = 0; i < mxGroup->mnLength; i++ )
{
ScAddress aTmpPos = aPos;
aTmpPos.SetRow(mxGroup->mpTopCell->aPos.Row() + i);
ScFormulaCell* pCell = rDocument.GetFormulaCell(aTmpPos);
if (!pCell)
{
SAL_WARN("sc.core.formulacell", "GetFormulaCell not found");
continue;
}
// FIXME: this set of horrors is unclear to me ... certainly
// the above GetCell is profoundly nasty & slow ...
// Ensure the cell truly has a result:
pCell->aResult = aResult;
pCell->ResetDirty();
pCell->SetChanged(true);
}
return true;
}
namespace {
void startListeningArea(
ScFormulaCell* pCell, ScDocument& rDoc, const ScAddress& rPos, const formula::FormulaToken& rToken)
{
const ScSingleRefData& rRef1 = *rToken.GetSingleRef();
const ScSingleRefData& rRef2 = *rToken.GetSingleRef2();
ScAddress aCell1 = rRef1.toAbs(rDoc, rPos);
ScAddress aCell2 = rRef2.toAbs(rDoc, rPos);
if (!(aCell1.IsValid() && aCell2.IsValid()))
return;
if (rToken.GetOpCode() == ocColRowNameAuto)
{ // automagically
if ( rRef1.IsColRel() )
{ // ColName
aCell2.SetRow(rDoc.MaxRow());
}
else
{ // RowName
aCell2.SetCol(rDoc.MaxCol());
}
}
rDoc.StartListeningArea(ScRange(aCell1, aCell2), false, pCell);
}
}
void ScFormulaCell::StartListeningTo( ScDocument& rDoc )
{
if (mxGroup)
mxGroup->endAllGroupListening(rDoc);
if (rDoc.IsClipOrUndo() || rDoc.GetNoListening() || IsInChangeTrack())
return;
rDoc.SetDetectiveDirty(true); // It has changed something
ScTokenArray* pArr = GetCode();
if( pArr->IsRecalcModeAlways() )
{
rDoc.StartListeningArea(BCA_LISTEN_ALWAYS, false, this);
SetNeedsListening( false);
return;
}
formula::FormulaTokenArrayPlainIterator aIter(*pArr);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReferenceRPN() ) != nullptr )
{
switch (t->GetType())
{
case svSingleRef:
{
ScAddress aCell = t->GetSingleRef()->toAbs(rDocument, aPos);
if (aCell.IsValid())
rDoc.StartListeningCell(aCell, this);
}
break;
case svDoubleRef:
startListeningArea(this, rDoc, aPos, *t);
break;
default:
; // nothing
}
}
SetNeedsListening( false);
}
void ScFormulaCell::StartListeningTo( sc::StartListeningContext& rCxt )
{
ScDocument& rDoc = rCxt.getDoc();
if (mxGroup)
mxGroup->endAllGroupListening(rDoc);
if (rDoc.IsClipOrUndo() || rDoc.GetNoListening() || IsInChangeTrack())
return;
rDoc.SetDetectiveDirty(true); // It has changed something
ScTokenArray* pArr = GetCode();
if( pArr->IsRecalcModeAlways() )
{
rDoc.StartListeningArea(BCA_LISTEN_ALWAYS, false, this);
SetNeedsListening( false);
return;
}
formula::FormulaTokenArrayPlainIterator aIter(*pArr);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReferenceRPN() ) != nullptr )
{
switch (t->GetType())
{
case svSingleRef:
{
ScAddress aCell = t->GetSingleRef()->toAbs(rDocument, aPos);
if (aCell.IsValid())
rDoc.StartListeningCell(rCxt, aCell, *this);
}
break;
case svDoubleRef:
startListeningArea(this, rDoc, aPos, *t);
break;
default:
; // nothing
}
}
SetNeedsListening( false);
}
namespace {
void endListeningArea(
ScFormulaCell* pCell, ScDocument& rDoc, const ScAddress& rPos, const formula::FormulaToken& rToken)
{
const ScSingleRefData& rRef1 = *rToken.GetSingleRef();
const ScSingleRefData& rRef2 = *rToken.GetSingleRef2();
ScAddress aCell1 = rRef1.toAbs(rDoc, rPos);
ScAddress aCell2 = rRef2.toAbs(rDoc, rPos);
if (!(aCell1.IsValid() && aCell2.IsValid()))
return;
if (rToken.GetOpCode() == ocColRowNameAuto)
{ // automagically
if ( rRef1.IsColRel() )
{ // ColName
aCell2.SetRow(rDoc.MaxRow());
}
else
{ // RowName
aCell2.SetCol(rDoc.MaxCol());
}
}
rDoc.EndListeningArea(ScRange(aCell1, aCell2), false, pCell);
}
}
void ScFormulaCell::EndListeningTo( ScDocument& rDoc, ScTokenArray* pArr,
ScAddress aCellPos )
{
if (mxGroup)
mxGroup->endAllGroupListening(rDoc);
if (rDoc.IsClipOrUndo() || IsInChangeTrack())
return;
if (!HasBroadcaster())
return;
rDoc.SetDetectiveDirty(true); // It has changed something
if ( GetCode()->IsRecalcModeAlways() )
{
rDoc.EndListeningArea(BCA_LISTEN_ALWAYS, false, this);
return;
}
if (!pArr)
{
pArr = GetCode();
aCellPos = aPos;
}
formula::FormulaTokenArrayPlainIterator aIter(*pArr);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReferenceRPN() ) != nullptr )
{
switch (t->GetType())
{
case svSingleRef:
{
ScAddress aCell = t->GetSingleRef()->toAbs(rDocument, aCellPos);
if (aCell.IsValid())
rDoc.EndListeningCell(aCell, this);
}
break;
case svDoubleRef:
endListeningArea(this, rDoc, aCellPos, *t);
break;
default:
; // nothing
}
}
}
void ScFormulaCell::EndListeningTo( sc::EndListeningContext& rCxt )
{
if (mxGroup)
mxGroup->endAllGroupListening(rCxt.getDoc());
if (rCxt.getDoc().IsClipOrUndo() || IsInChangeTrack())
return;
if (!HasBroadcaster())
return;
ScDocument& rDoc = rCxt.getDoc();
rDoc.SetDetectiveDirty(true); // It has changed something
ScTokenArray* pArr = rCxt.getOldCode();
ScAddress aCellPos = rCxt.getOldPosition(aPos);
if (!pArr)
pArr = pCode;
if (pArr->IsRecalcModeAlways())
{
rDoc.EndListeningArea(BCA_LISTEN_ALWAYS, false, this);
return;
}
formula::FormulaTokenArrayPlainIterator aIter(*pArr);
formula::FormulaToken* t;
while ( ( t = aIter.GetNextReferenceRPN() ) != nullptr )
{
switch (t->GetType())
{
case svSingleRef:
{
ScAddress aCell = t->GetSingleRef()->toAbs(rDocument, aCellPos);
if (aCell.IsValid())
rDoc.EndListeningCell(rCxt, aCell, *this);
}
break;
case svDoubleRef:
endListeningArea(this, rDoc, aCellPos, *t);
break;
default:
; // nothing
}
}
}
bool ScFormulaCell::IsShared() const
{
return bool(mxGroup);
}
bool ScFormulaCell::IsSharedTop() const
{
if (!mxGroup)
return false;
return mxGroup->mpTopCell == this;
}
SCROW ScFormulaCell::GetSharedTopRow() const
{
return mxGroup ? mxGroup->mpTopCell->aPos.Row() : -1;
}
SCROW ScFormulaCell::GetSharedLength() const
{
return mxGroup ? mxGroup->mnLength : 0;
}
sal_Int32 ScFormulaCell::GetWeight() const
{
if (!mxGroup)
return 1;
if (mxGroup->mnWeight > 0)
return mxGroup->mnWeight;
double nSharedCodeWeight = GetSharedCode()->GetWeight();
double nResult = nSharedCodeWeight * GetSharedLength();
if (nResult < SAL_MAX_INT32)
mxGroup->mnWeight = nResult;
else
mxGroup->mnWeight = SAL_MAX_INT32;
return mxGroup->mnWeight;
}
ScTokenArray* ScFormulaCell::GetSharedCode()
{
return mxGroup ? &*mxGroup->mpCode : nullptr;
}
const ScTokenArray* ScFormulaCell::GetSharedCode() const
{
return mxGroup ? &*mxGroup->mpCode : nullptr;
}
void ScFormulaCell::SyncSharedCode()
{
if (!mxGroup)
// Not a shared formula cell.
return;
pCode = &*mxGroup->mpCode;
}
#if DUMP_COLUMN_STORAGE
void ScFormulaCell::Dump() const
{
cout << "-- formula cell (" << aPos.Format(ScRefFlags::VALID | ScRefFlags::TAB_3D, &rDocument) << ")" << endl;
cout << " * shared: " << (mxGroup ? "true" : "false") << endl;
if (mxGroup)
{
cout << " * shared length: " << mxGroup->mnLength << endl;
cout << " * shared calc state: " << mxGroup->meCalcState << endl;
}
sc::TokenStringContext aCxt(rDocument, rDocument.GetGrammar());
cout << " * code: " << pCode->CreateString(aCxt, aPos) << endl;
FormulaError nErrCode = pCode->GetCodeError();
cout << " * code error: ";
if (nErrCode == FormulaError::NONE)
cout << "(none)";
else
{
OUString aStr = ScGlobal::GetErrorString(nErrCode);
cout << " * code error: " << aStr << " (" << int(nErrCode) << ")";
}
cout << endl;
cout << " * result: ";
sc::FormulaResultValue aRV = aResult.GetResult();
switch (aRV.meType)
{
case sc::FormulaResultValue::Value:
cout << aRV.mfValue << " (value)";
break;
case sc::FormulaResultValue::String:
cout << aRV.maString.getString() << " (string)";
break;
case sc::FormulaResultValue::Error:
cout << ScGlobal::GetErrorString(aRV.mnError) << " (error: " << int(aRV.mnError) << ")";
break;
case sc::FormulaResultValue::Invalid:
cout << "(invalid)";
break;
default:
;
}
cout << endl;
}
#endif
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