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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <queryiter.hxx>
#include <comphelper/flagguard.hxx>
#include <o3tl/safeint.hxx>
#include <svl/numformat.hxx>
#include <svl/zforlist.hxx>
#include <global.hxx>
#include <dociter.hxx>
#include <document.hxx>
#include <table.hxx>
#include <column.hxx>
#include <formulacell.hxx>
#include <attarray.hxx>
#include <patattr.hxx>
#include <docoptio.hxx>
#include <cellform.hxx>
#include <segmenttree.hxx>
#include <progress.hxx>
#include <queryparam.hxx>
#include <queryentry.hxx>
#include <globstr.hrc>
#include <scresid.hxx>
#include <cellvalue.hxx>
#include <scmatrix.hxx>
#include <rowheightcontext.hxx>
#include <queryevaluator.hxx>
#include <rangecache.hxx>
#include <refdata.hxx>
#include <o3tl/safeint.hxx>
#include <tools/fract.hxx>
#include <editeng/editobj.hxx>
#include <svl/sharedstring.hxx>
#include <unotools/collatorwrapper.hxx>
#include <osl/diagnose.h>
#include <sal/log.hxx>
#include <algorithm>
#include <limits>
#include <vector>
template< ScQueryCellIteratorAccess accessType, ScQueryCellIteratorType queryType >
ScQueryCellIteratorBase< accessType, queryType >::ScQueryCellIteratorBase(ScDocument& rDocument,
ScInterpreterContext& rContext, SCTAB nTable, const ScQueryParam& rParam, bool bMod )
: AccessBase( rDocument, rContext, rParam )
, nStopOnMismatch( nStopOnMismatchDisabled )
, nTestEqualCondition( nTestEqualConditionDisabled )
, bAdvanceQuery( false )
, bIgnoreMismatchOnLeadingStrings( false )
{
nTab = nTable;
nCol = maParam.nCol1;
nRow = maParam.nRow1;
SCSIZE i;
if (!bMod) // Or else it's already inserted
return;
SCSIZE nCount = maParam.GetEntryCount();
for (i = 0; (i < nCount) && (maParam.GetEntry(i).bDoQuery); ++i)
{
ScQueryEntry& rEntry = maParam.GetEntry(i);
ScQueryEntry::Item& rItem = rEntry.GetQueryItem();
sal_uInt32 nIndex = 0;
bool bNumber = mrContext.GetFormatTable()->IsNumberFormat(
rItem.maString.getString(), nIndex, rItem.mfVal);
rItem.meType = bNumber ? ScQueryEntry::ByValue : ScQueryEntry::ByString;
}
}
template< ScQueryCellIteratorAccess accessType, ScQueryCellIteratorType queryType >
void ScQueryCellIteratorBase< accessType, queryType >::PerformQuery()
{
assert(nTab < rDoc.GetTableCount() && "index out of bounds, FIX IT");
const ScQueryEntry& rEntry = maParam.GetEntry(0);
const ScQueryEntry::Item& rItem = rEntry.GetQueryItem();
const bool bSingleQueryItem = rEntry.GetQueryItems().size() == 1;
SCCOLROW nFirstQueryField = rEntry.nField;
bool bAllStringIgnore = bIgnoreMismatchOnLeadingStrings &&
rItem.meType != ScQueryEntry::ByString;
bool bFirstStringIgnore = bIgnoreMismatchOnLeadingStrings &&
!maParam.bHasHeader && rItem.meType == ScQueryEntry::ByString &&
((maParam.bByRow && nRow == maParam.nRow1) ||
(!maParam.bByRow && nCol == maParam.nCol1));
bool bTestEqualCondition = false;
ScQueryEvaluator queryEvaluator(rDoc, *rDoc.maTabs[nTab], maParam, &mrContext,
(nTestEqualCondition ? &bTestEqualCondition : nullptr));
if( queryType == ScQueryCellIteratorType::CountIf )
{
// These are not used for COUNTIF, so should not be set, make the compiler
// explicitly aware of it so that the relevant parts are optimized away.
assert( !bAllStringIgnore );
assert( !bIgnoreMismatchOnLeadingStrings );
assert( nStopOnMismatch == nStopOnMismatchDisabled );
assert( nTestEqualCondition == nTestEqualConditionDisabled );
bAllStringIgnore = false;
bIgnoreMismatchOnLeadingStrings = false;
nStopOnMismatch = nStopOnMismatchDisabled;
nTestEqualCondition = nTestEqualConditionDisabled;
// This one is always set.
assert( bAdvanceQuery );
bAdvanceQuery = true;
}
ScColumn* pCol = &(rDoc.maTabs[nTab])->aCol[nCol];
while (true)
{
bool bNextColumn = maCurPos.first == pCol->maCells.end();
if (!bNextColumn)
{
if (nRow > maParam.nRow2)
bNextColumn = true;
}
if (bNextColumn)
{
do
{
++nCol;
if (nCol > maParam.nCol2 || nCol >= rDoc.maTabs[nTab]->GetAllocatedColumnsCount())
return;
if ( bAdvanceQuery )
{
AdvanceQueryParamEntryField();
nFirstQueryField = rEntry.nField;
}
pCol = &(rDoc.maTabs[nTab])->aCol[nCol];
}
while (!rItem.mbMatchEmpty && pCol->IsEmptyData());
InitPos();
bFirstStringIgnore = bIgnoreMismatchOnLeadingStrings &&
!maParam.bHasHeader && rItem.meType == ScQueryEntry::ByString &&
maParam.bByRow;
}
if (maCurPos.first->type == sc::element_type_empty)
{
if (rItem.mbMatchEmpty && bSingleQueryItem)
{
// This shortcut, instead of determining if any SC_OR query
// exists or this query is SC_AND'ed (which wouldn't make
// sense, but..) and evaluating them in ValidQuery(), is
// possible only because the interpreter is the only caller
// that sets mbMatchEmpty and there is only one item in those
// cases.
// XXX this would have to be reworked if other filters used it
// in different manners and evaluation would have to be done in
// ValidQuery().
if(HandleItemFound())
return;
IncPos();
continue;
}
else
{
IncBlock();
continue;
}
}
ScRefCellValue aCell = sc::toRefCell(maCurPos.first, maCurPos.second);
if (bAllStringIgnore && aCell.hasString())
IncPos();
else
{
if ( queryEvaluator.ValidQuery( nRow,
(nCol == static_cast<SCCOL>(nFirstQueryField) ? &aCell : nullptr)))
{
if ( nTestEqualCondition && bTestEqualCondition )
nTestEqualCondition |= nTestEqualConditionMatched;
if ( aCell.isEmpty())
return;
if( HandleItemFound())
return;
IncPos();
continue;
}
else if ( nStopOnMismatch )
{
// Yes, even a mismatch may have a fulfilled equal
// condition if regular expressions were involved and
// SC_LESS_EQUAL or SC_GREATER_EQUAL were queried.
if ( nTestEqualCondition && bTestEqualCondition )
{
nTestEqualCondition |= nTestEqualConditionMatched;
nStopOnMismatch |= nStopOnMismatchOccurred;
return;
}
bool bStop;
if (bFirstStringIgnore)
{
if (aCell.hasString())
{
IncPos();
bStop = false;
}
else
bStop = true;
}
else
bStop = true;
if (bStop)
{
nStopOnMismatch |= nStopOnMismatchOccurred;
return;
}
}
else
IncPos();
}
bFirstStringIgnore = false;
}
}
template< ScQueryCellIteratorAccess accessType, ScQueryCellIteratorType queryType >
void ScQueryCellIteratorBase< accessType, queryType >::InitPos()
{
if constexpr( accessType != ScQueryCellIteratorAccess::SortedCache )
AccessBase::InitPos();
else
{
// This should be all in AccessBase::InitPos(), but that one can't call
// BinarySearch(), so do it this way instead.
AccessBase::InitPosStart();
ScQueryOp& op = maParam.GetEntry(0).eOp;
SCROW beforeRow = -1;
SCROW lastRow = -1;
if( op == SC_EQUAL )
{
if( BinarySearch( nCol ))
{
// BinarySearch() searches for the last item that matches. Now we
// also need to find the first item where to start. Find the last
// non-matching position using SC_LESS and the start position
// is the one after it.
lastRow = nRow;
ScQueryOp saveOp = op;
op = SC_LESS;
if( BinarySearch( nCol, true ))
beforeRow = nRow;
// If BinarySearch() returns false, there was no match, which means
// there's no value smaller. In that case BinarySearch() has set
// the position to the first row in the range.
op = saveOp; // back to SC_EQUAL
}
else if( maParam.GetEntry(0).GetQueryItem().mbMatchEmpty
&& rDoc.IsEmptyData(nCol, maParam.nRow1, nCol, maParam.nRow2, nTab))
{
// BinarySearch() returns false in case it's all empty data,
// handle that specially.
beforeRow = -1;
lastRow = maParam.nRow2;
}
}
else
{ // The range is from the start up to and including the last matching.
if( BinarySearch( nCol ))
lastRow = nRow;
}
AccessBase::InitPosFinish( beforeRow, lastRow );
}
}
template< ScQueryCellIteratorAccess accessType, ScQueryCellIteratorType queryType >
void ScQueryCellIteratorBase< accessType, queryType >::AdvanceQueryParamEntryField()
{
SCSIZE nEntries = maParam.GetEntryCount();
for ( SCSIZE j = 0; j < nEntries; j++ )
{
ScQueryEntry& rEntry = maParam.GetEntry( j );
if ( rEntry.bDoQuery )
{
if ( rEntry.nField < rDoc.MaxCol() )
rEntry.nField++;
else
{
assert(!"AdvanceQueryParamEntryField: ++rEntry.nField > MAXCOL");
}
}
else
break; // for
}
}
namespace {
template<typename Iter>
void incBlock(std::pair<Iter, size_t>& rPos)
{
// Move to the next block.
++rPos.first;
rPos.second = 0;
}
template<typename Iter>
void decBlock(std::pair<Iter, size_t>& rPos)
{
// Move to the last element of the previous block.
--rPos.first;
rPos.second = rPos.first->size - 1;
}
}
template< ScQueryCellIteratorAccess accessType, ScQueryCellIteratorType queryType >
bool ScQueryCellIteratorBase< accessType, queryType >::BinarySearch( SCCOL col, bool forEqual )
{
assert(maParam.GetEntry(0).bDoQuery && !maParam.GetEntry(1).bDoQuery
&& maParam.GetEntry(0).GetQueryItems().size() == 1 );
assert(maParam.eSearchType == utl::SearchParam::SearchType::Normal);
assert(maParam.GetEntry(0).GetQueryItem().meType == ScQueryEntry::ByString
|| maParam.GetEntry(0).GetQueryItem().meType == ScQueryEntry::ByValue);
assert(maParam.bByRow);
assert(maParam.GetEntry(0).eOp == SC_LESS || maParam.GetEntry(0).eOp == SC_LESS_EQUAL
|| maParam.GetEntry(0).eOp == SC_GREATER || maParam.GetEntry(0).eOp == SC_GREATER_EQUAL
|| maParam.GetEntry(0).eOp == SC_EQUAL);
// TODO: This will be extremely slow with mdds::multi_type_vector.
assert(nTab < rDoc.GetTableCount() && "index out of bounds, FIX IT");
nCol = col;
nRow = maParam.nRow1;
if (nCol >= rDoc.maTabs[nTab]->GetAllocatedColumnsCount())
return false;
ScColumn* pCol = &(rDoc.maTabs[nTab])->aCol[nCol];
if (pCol->IsEmptyData())
return false;
CollatorWrapper& rCollator = ScGlobal::GetCollator(maParam.bCaseSens);
SvNumberFormatter& rFormatter = *(mrContext.GetFormatTable());
const ScQueryEntry& rEntry = maParam.GetEntry(0);
const ScQueryEntry::Item& rItem = rEntry.GetQueryItem();
bool bAscending = rEntry.eOp == SC_LESS || rEntry.eOp == SC_LESS_EQUAL || rEntry.eOp == SC_EQUAL;
bool bByString = rItem.meType == ScQueryEntry::ByString;
bool bForceStr = bByString && ( rEntry.eOp == SC_EQUAL || forEqual );
bool bAllStringIgnore = bIgnoreMismatchOnLeadingStrings && !bByString;
bool bFirstStringIgnore = bIgnoreMismatchOnLeadingStrings &&
!maParam.bHasHeader && bByString;
if (maParam.bHasHeader)
++nRow;
if (bFirstStringIgnore)
{
sc::CellStoreType::const_position_type aPos = pCol->maCells.position(nRow);
if (aPos.first->type == sc::element_type_string || aPos.first->type == sc::element_type_edittext)
{
ScRefCellValue aCell = sc::toRefCell(aPos.first, aPos.second);
sal_uInt32 nFormat = pCol->GetNumberFormat(mrContext, nRow);
OUString aCellStr = ScCellFormat::GetInputString(aCell, nFormat, rFormatter, rDoc);
sal_Int32 nTmp = rCollator.compareString(aCellStr, rEntry.GetQueryItem().maString.getString());
if ((rEntry.eOp == SC_LESS_EQUAL && nTmp > 0) ||
(rEntry.eOp == SC_GREATER_EQUAL && nTmp < 0) ||
(rEntry.eOp == SC_EQUAL && nTmp != 0) ||
(rEntry.eOp == SC_LESS && nTmp >= 0) ||
(rEntry.eOp == SC_GREATER && nTmp <= 0))
++nRow;
}
}
// Skip leading empty block, if any.
sc::CellStoreType::const_position_type startPos = pCol->maCells.position(nRow);
if (startPos.first->type == sc::element_type_empty)
incBlock(startPos);
if(bAllStringIgnore)
{
// Skip all leading string or empty blocks.
while (startPos.first != pCol->maCells.end()
&& (startPos.first->type == sc::element_type_string ||
startPos.first->type == sc::element_type_edittext ||
startPos.first->type == sc::element_type_empty))
{
incBlock(startPos);
}
}
if(startPos.first == pCol->maCells.end())
return false;
nRow = startPos.first->position + startPos.second;
if (nRow > maParam.nRow2)
return false;
auto aIndexer = MakeBinarySearchIndexer(pCol->maCells, nRow, maParam.nRow2);
if (!aIndexer.isValid())
return false;
size_t nLo = aIndexer.getLowIndex();
size_t nHi = aIndexer.getHighIndex();
BinarySearchCellType aCellData;
// Bookkeeping values for breaking up the binary search in case the data
// range isn't strictly sorted.
size_t nLastInRange = nLo;
double fLastInRangeValue = bAscending ?
-(::std::numeric_limits<double>::max()) :
::std::numeric_limits<double>::max();
OUString aLastInRangeString;
if (!bAscending)
aLastInRangeString = OUString(u'\xFFFF');
aCellData = aIndexer.getCell(nLastInRange);
ScRefCellValue aCell = aCellData.first;
if (bForceStr || aCell.hasString())
{
sal_uInt32 nFormat = pCol->GetNumberFormat(mrContext, aCellData.second);
OUString aStr = ScCellFormat::GetInputString(aCell, nFormat, rFormatter, rDoc);
aLastInRangeString = aStr;
}
else
{
switch (aCell.meType)
{
case CELLTYPE_VALUE :
fLastInRangeValue = aCell.mfValue;
break;
case CELLTYPE_FORMULA :
fLastInRangeValue = aCell.mpFormula->GetValue();
break;
default:
{
// added to avoid warnings
}
}
}
sal_Int32 nRes = 0;
std::optional<size_t> found;
bool bDone = false;
bool orderBroken = false;
while (nLo <= nHi && !bDone)
{
size_t nMid = (nLo+nHi)/2;
size_t i = nMid;
aCellData = aIndexer.getCell(i);
aCell = aCellData.first;
bool bStr = bForceStr || aCell.hasString();
nRes = 0;
// compares are content<query:-1, content>query:1
// Cell value comparison similar to ScTable::ValidQuery()
if (!bStr && !bByString)
{
double nCellVal;
switch (aCell.meType)
{
case CELLTYPE_VALUE :
case CELLTYPE_FORMULA :
nCellVal = aCell.getValue();
break;
default:
nCellVal = 0.0;
}
if ((nCellVal < rItem.mfVal) && !::rtl::math::approxEqual(
nCellVal, rItem.mfVal))
{
nRes = -1;
if (bAscending)
{
if (fLastInRangeValue <= nCellVal)
{
fLastInRangeValue = nCellVal;
nLastInRange = i;
}
else if (fLastInRangeValue >= nCellVal)
{
// not strictly sorted, continue with GetThis()
orderBroken = true;
bDone = true;
}
}
}
else if ((nCellVal > rItem.mfVal) && !::rtl::math::approxEqual(
nCellVal, rItem.mfVal))
{
nRes = 1;
if (!bAscending)
{
if (fLastInRangeValue >= nCellVal)
{
fLastInRangeValue = nCellVal;
nLastInRange = i;
}
else if (fLastInRangeValue <= nCellVal)
{
// not strictly sorted, continue with GetThis()
orderBroken = true;
bDone = true;
}
}
}
}
else if (bStr && bByString)
{
sal_uInt32 nFormat = pCol->GetNumberFormat(mrContext, aCellData.second);
OUString aCellStr = ScCellFormat::GetInputString(aCell, nFormat, rFormatter, rDoc);
nRes = rCollator.compareString(aCellStr, rEntry.GetQueryItem().maString.getString());
if (nRes < 0 && bAscending)
{
sal_Int32 nTmp = rCollator.compareString( aLastInRangeString,
aCellStr);
if (nTmp <= 0)
{
aLastInRangeString = aCellStr;
nLastInRange = i;
}
else if (nTmp > 0)
{
// not strictly sorted, continue with GetThis()
orderBroken = true;
bDone = true;
}
}
else if (nRes > 0 && !bAscending)
{
sal_Int32 nTmp = rCollator.compareString( aLastInRangeString,
aCellStr);
if (nTmp >= 0)
{
aLastInRangeString = aCellStr;
nLastInRange = i;
}
else if (nTmp < 0)
{
// not strictly sorted, continue with GetThis()
orderBroken = true;
bDone = true;
}
}
}
else if (!bStr && bByString)
{
nRes = -1; // numeric < string
if (bAscending)
nLastInRange = i;
}
else // if (bStr && !bByString)
{
nRes = 1; // string > numeric
if (!bAscending)
nLastInRange = i;
}
if (nRes < 0)
{
if (bAscending)
nLo = nMid + 1;
else // assumed to be SC_GREATER_EQUAL
{
if (nMid > 0)
nHi = nMid - 1;
else
bDone = true;
}
}
else if (nRes > 0)
{
if (bAscending)
{
if (nMid > 0)
nHi = nMid - 1;
else
bDone = true;
}
else // assumed to be SC_GREATER_EQUAL
nLo = nMid + 1;
}
else
{
if(rEntry.eOp == SC_LESS_EQUAL || rEntry.eOp == SC_GREATER_EQUAL || rEntry.eOp == SC_EQUAL)
{
found = i;
nLastInRange = i;
// But keep searching to find the last matching one.
nLo = nMid + 1;
}
else if (bAscending)
{
if (nMid > 0)
nHi = nMid - 1;
else
bDone = true;
}
else
{
if (nMid > 0)
nHi = nMid - 1;
else
bDone = true;
}
}
}
bool isInRange;
if (orderBroken)
{
// Reset position to the first row in range and force caller
// to search from start.
nLo = aIndexer.getLowIndex();
isInRange = false;
}
else if (found)
{
nLo = *found;
isInRange = true;
}
else
{
// Not nothing was found and the search position is at the start,
// then the possible match would need to be before the data range.
// In that case return false to force the caller to search from the start
// and detect this.
isInRange = nLo != aIndexer.getLowIndex();
// If nothing was found, that is either because there is no value
// that would match exactly, or the data range is not properly sorted
// and we failed to detect (doing so reliably would require a linear scan).
// Set the position to the last one that was in matching range (i.e. before
// where the exact match would be), and leave sorting it out to GetThis()
// or whatever the caller uses.
nLo = nLastInRange;
}
aCellData = aIndexer.getCell(nLo);
if (nLo <= nHi && aCellData.second <= maParam.nRow2)
{
nRow = aCellData.second;
maCurPos = aIndexer.getPosition(nLo);
return isInRange;
}
else
{
nRow = maParam.nRow2 + 1;
// Set current position to the last possible row.
maCurPos.first = pCol->maCells.end();
--maCurPos.first;
maCurPos.second = maCurPos.first->size - 1;
return false;
}
}
template< ScQueryCellIteratorAccess accessType >
bool ScQueryCellIterator< accessType >::FindEqualOrSortedLastInRange( SCCOL& nFoundCol,
SCROW& nFoundRow )
{
// Set and automatically reset mpParam->mbRangeLookup when returning.
comphelper::FlagRestorationGuard aRangeLookupResetter( maParam.mbRangeLookup, true );
nFoundCol = rDoc.MaxCol()+1;
nFoundRow = rDoc.MaxRow()+1;
SetStopOnMismatch( true ); // assume sorted keys
SetTestEqualCondition( true );
bIgnoreMismatchOnLeadingStrings = true;
bool bLiteral = maParam.eSearchType == utl::SearchParam::SearchType::Normal &&
maParam.GetEntry(0).GetQueryItem().meType == ScQueryEntry::ByString;
bool bBinary = maParam.bByRow &&
(bLiteral || maParam.GetEntry(0).GetQueryItem().meType == ScQueryEntry::ByValue) &&
(maParam.GetEntry(0).eOp == SC_LESS_EQUAL || maParam.GetEntry(0).eOp == SC_GREATER_EQUAL);
bool bFound = false;
if (bBinary)
{
if (BinarySearch( maParam.nCol1 ))
{
// BinarySearch() already positions correctly and only needs real
// query comparisons afterwards, skip the verification check below.
maParam.mbRangeLookup = false;
bFound = GetThis();
}
else // Not sorted properly, or before the range (in which case GetFirst() will be simple).
bFound = GetFirst();
}
else
{
bFound = GetFirst();
}
if (bFound)
{
// First equal entry or last smaller than (greater than) entry.
PositionType aPosSave;
bool bNext = false;
do
{
nFoundCol = GetCol();
nFoundRow = GetRow();
aPosSave = maCurPos;
if (IsEqualConditionFulfilled())
break;
bNext = GetNext();
}
while (bNext);
// There may be no pNext but equal condition fulfilled if regular
// expressions are involved. Keep the found entry and proceed.
if (!bNext && !IsEqualConditionFulfilled())
{
// Step back to last in range and adjust position markers for
// GetNumberFormat() or similar.
SCCOL nColDiff = nCol - nFoundCol;
nCol = nFoundCol;
nRow = nFoundRow;
maCurPos = aPosSave;
if (maParam.mbRangeLookup)
{
// Verify that the found entry does not only fulfill the range
// lookup but also the real query, i.e. not numeric was found
// if query is ByString and vice versa.
maParam.mbRangeLookup = false;
// Step back the last field advance if GetNext() did one.
if (bAdvanceQuery && nColDiff)
{
SCSIZE nEntries = maParam.GetEntryCount();
for (SCSIZE j=0; j < nEntries; ++j)
{
ScQueryEntry& rEntry = maParam.GetEntry( j );
if (rEntry.bDoQuery)
{
if (rEntry.nField - nColDiff >= 0)
rEntry.nField -= nColDiff;
else
{
assert(!"FindEqualOrSortedLastInRange: rEntry.nField -= nColDiff < 0");
}
}
else
break; // for
}
}
// Check it.
if (!GetThis())
{
nFoundCol = rDoc.MaxCol()+1;
nFoundRow = rDoc.MaxRow()+1;
}
}
}
}
if ( IsEqualConditionFulfilled() )
{
// Position on last equal entry.
SCSIZE nEntries = maParam.GetEntryCount();
for ( SCSIZE j = 0; j < nEntries; j++ )
{
ScQueryEntry& rEntry = maParam.GetEntry( j );
if ( rEntry.bDoQuery )
{
switch ( rEntry.eOp )
{
case SC_LESS_EQUAL :
case SC_GREATER_EQUAL :
rEntry.eOp = SC_EQUAL;
break;
default:
{
// added to avoid warnings
}
}
}
else
break; // for
}
PositionType aPosSave;
bIgnoreMismatchOnLeadingStrings = false;
SetTestEqualCondition( false );
do
{
nFoundCol = GetCol();
nFoundRow = GetRow();
aPosSave = maCurPos;
} while (GetNext());
// Step back conditions are the same as above
nCol = nFoundCol;
nRow = nFoundRow;
maCurPos = aPosSave;
return true;
}
if ( (maParam.eSearchType != utl::SearchParam::SearchType::Normal) &&
StoppedOnMismatch() )
{
// Assume found entry to be the last value less than respectively
// greater than the query. But keep on searching for an equal match.
SCSIZE nEntries = maParam.GetEntryCount();
for ( SCSIZE j = 0; j < nEntries; j++ )
{
ScQueryEntry& rEntry = maParam.GetEntry( j );
if ( rEntry.bDoQuery )
{
switch ( rEntry.eOp )
{
case SC_LESS_EQUAL :
case SC_GREATER_EQUAL :
rEntry.eOp = SC_EQUAL;
break;
default:
{
// added to avoid warnings
}
}
}
else
break; // for
}
SetStopOnMismatch( false );
SetTestEqualCondition( false );
if (GetNext())
{
// Last of a consecutive area, avoid searching the entire parameter
// range as it is a real performance bottleneck in case of regular
// expressions.
PositionType aPosSave;
do
{
nFoundCol = GetCol();
nFoundRow = GetRow();
aPosSave = maCurPos;
SetStopOnMismatch( true );
} while (GetNext());
nCol = nFoundCol;
nRow = nFoundRow;
maCurPos = aPosSave;
}
}
return (nFoundCol <= rDoc.MaxCol()) && (nFoundRow <= rDoc.MaxRow());
}
// Direct linear cell access using mdds.
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >
::ScQueryCellIteratorAccessSpecific( ScDocument& rDocument,
ScInterpreterContext& rContext, const ScQueryParam& rParam )
: maParam( rParam )
, rDoc( rDocument )
, mrContext( rContext )
{
// coverity[uninit_member] - this just contains data, subclass will initialize some of it
}
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::InitPos()
{
nRow = maParam.nRow1;
if (maParam.bHasHeader && maParam.bByRow)
++nRow;
const ScColumn& rCol = rDoc.maTabs[nTab]->CreateColumnIfNotExists(nCol);
maCurPos = rCol.maCells.position(nRow);
}
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::IncPos()
{
if (maCurPos.second + 1 < maCurPos.first->size)
{
// Move within the same block.
++maCurPos.second;
++nRow;
}
else
// Move to the next block.
IncBlock();
}
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::IncBlock()
{
++maCurPos.first;
maCurPos.second = 0;
nRow = maCurPos.first->position;
}
/**
* This class sequentially indexes non-empty cells in order, from the top of
* the block where the start row position is, to the bottom of the block
* where the end row position is. It skips all empty blocks that may be
* present in between.
*
* The index value is an offset from the first element of the first block
* disregarding all empty cell blocks.
*/
class ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::NonEmptyCellIndexer
{
typedef std::map<size_t, sc::CellStoreType::const_iterator> BlockMapType;
BlockMapType maBlockMap;
const sc::CellStoreType& mrCells;
size_t mnLowIndex;
size_t mnHighIndex;
bool mbValid;
public:
/**
* @param rCells cell storage container
* @param nStartRow logical start row position
* @param nEndRow logical end row position, inclusive.
*/
NonEmptyCellIndexer(
const sc::CellStoreType& rCells, SCROW nStartRow, SCROW nEndRow) :
mrCells(rCells), mnLowIndex(0), mnHighIndex(0), mbValid(true)
{
// Find the low position.
sc::CellStoreType::const_position_type aLoPos = mrCells.position(nStartRow);
assert(aLoPos.first->type != sc::element_type_empty);
assert(aLoPos.first != rCells.end());
SCROW nFirstRow = aLoPos.first->position;
SCROW nLastRow = aLoPos.first->position + aLoPos.first->size - 1;
if (nFirstRow > nEndRow)
{
// Both start and end row positions are within the leading skipped
// blocks.
mbValid = false;
return;
}
// Calculate the index of the low position.
if (nFirstRow < nStartRow)
mnLowIndex = nStartRow - nFirstRow;
else
{
// Start row is within the skipped block(s). Set it to the first
// element of the low block.
mnLowIndex = 0;
}
if (nEndRow < nLastRow)
{
assert(nEndRow >= nFirstRow);
mnHighIndex = nEndRow - nFirstRow;
maBlockMap.emplace(aLoPos.first->size, aLoPos.first);
return;
}
// Find the high position.
sc::CellStoreType::const_position_type aHiPos = mrCells.position(aLoPos.first, nEndRow);
if (aHiPos.first->type == sc::element_type_empty)
{
// Move to the last position of the previous block.
decBlock(aHiPos);
// Check the row position of the end of the previous block, and make sure it's valid.
SCROW nBlockEndRow = aHiPos.first->position + aHiPos.first->size - 1;
if (nBlockEndRow < nStartRow)
{
mbValid = false;
return;
}
}
// Tag the start and end blocks, and all blocks in between in order
// but skip all empty blocks.
size_t nPos = 0;
sc::CellStoreType::const_iterator itBlk = aLoPos.first;
while (itBlk != aHiPos.first)
{
if (itBlk->type == sc::element_type_empty)
{
++itBlk;
continue;
}
nPos += itBlk->size;
maBlockMap.emplace(nPos, itBlk);
++itBlk;
if (itBlk->type == sc::element_type_empty)
++itBlk;
assert(itBlk != mrCells.end());
}
assert(itBlk == aHiPos.first);
nPos += itBlk->size;
maBlockMap.emplace(nPos, itBlk);
// Calculate the high index.
BlockMapType::const_reverse_iterator ri = maBlockMap.rbegin();
mnHighIndex = ri->first;
mnHighIndex -= ri->second->size;
mnHighIndex += aHiPos.second;
}
sc::CellStoreType::const_position_type getPosition( size_t nIndex ) const
{
assert(mbValid);
assert(mnLowIndex <= nIndex);
assert(nIndex <= mnHighIndex);
sc::CellStoreType::const_position_type aRet(mrCells.end(), 0);
BlockMapType::const_iterator it = maBlockMap.upper_bound(nIndex);
if (it == maBlockMap.end())
return aRet;
sc::CellStoreType::const_iterator itBlk = it->second;
size_t nBlkIndex = it->first - itBlk->size; // index of the first element of the block.
assert(nBlkIndex <= nIndex);
assert(nIndex < it->first);
size_t nOffset = nIndex - nBlkIndex;
aRet.first = itBlk;
aRet.second = nOffset;
return aRet;
}
BinarySearchCellType getCell( size_t nIndex ) const
{
BinarySearchCellType aRet;
aRet.second = -1;
sc::CellStoreType::const_position_type aPos = getPosition(nIndex);
if (aPos.first == mrCells.end())
return aRet;
aRet.first = sc::toRefCell(aPos.first, aPos.second);
aRet.second = aPos.first->position + aPos.second;
return aRet;
}
size_t getLowIndex() const { return mnLowIndex; }
size_t getHighIndex() const { return mnHighIndex; }
bool isValid() const { return mbValid; }
};
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::NonEmptyCellIndexer
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::Direct >::MakeBinarySearchIndexer(
const sc::CellStoreType& rCells, SCROW nStartRow, SCROW nEndRow )
{
return NonEmptyCellIndexer(rCells, nStartRow, nEndRow);
}
// Sorted access using ScSortedRangeCache.
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >
::ScQueryCellIteratorAccessSpecific( ScDocument& rDocument,
ScInterpreterContext& rContext, const ScQueryParam& rParam )
: maParam( rParam )
, rDoc( rDocument )
, mrContext( rContext )
{
// coverity[uninit_member] - this just contains data, subclass will initialize some of it
}
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::SetSortedRangeCache(
const ScSortedRangeCache& cache)
{
sortedCache = &cache;
}
// The idea in iterating using the sorted cache is that the iteration is instead done
// over indexes of the sorted cache (which is a stable sort of the cell contents) in the range
// that fits the query condition and then that is mapped to rows. This will result in iterating
// over only matching rows in their sorted order (and for equal rows in their row order).
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::InitPosStart()
{
ScRange aSortedRangeRange( nCol, maParam.nRow1, nTab, nCol, maParam.nRow2, nTab );
// We want all matching values first in the sort order,
SetSortedRangeCache( rDoc.GetSortedRangeCache( aSortedRangeRange, maParam, &mrContext ));
// InitPosFinish() needs to be called after this, ScQueryCellIteratorBase::InitPos()
// will handle that
}
void ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::InitPosFinish(
SCROW beforeRow, SCROW lastRow )
{
pColumn = &rDoc.maTabs[nTab]->CreateColumnIfNotExists(nCol);
if(lastRow >= 0)
{
sortedCachePos = beforeRow >= 0 ? sortedCache->indexForRow(beforeRow) + 1 : 0;
sortedCachePosLast = sortedCache->indexForRow(lastRow);
if(sortedCachePos <= sortedCachePosLast)
{
nRow = sortedCache->rowForIndex(sortedCachePos);
maCurPos = pColumn->maCells.position(nRow);
return;
}
}
// No rows, set to end.
sortedCachePos = sortedCachePosLast = 0;
maCurPos.first = pColumn->maCells.end();
maCurPos.second = 0;
}
template<bool fast>
bool ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::IncPosImpl()
{
if(sortedCachePos < sortedCachePosLast)
{
++sortedCachePos;
nRow = sortedCache->rowForIndex(sortedCachePos);
#ifndef DBG_UTIL
if constexpr (!fast)
#endif
{
// Avoid mdds position() call if row is in the same block.
if(maCurPos.first != pColumn->maCells.end() && o3tl::make_unsigned(nRow) >= maCurPos.first->position
&& o3tl::make_unsigned(nRow) < maCurPos.first->position + maCurPos.first->size)
maCurPos.second = nRow - maCurPos.first->position;
else
maCurPos = pColumn->maCells.position(nRow);
}
return true;
}
else
{
// This will make PerformQuery() go to next column.
// Necessary even in fast mode, as GetNext() will call GetThis() in this case.
maCurPos.first = pColumn->maCells.end();
maCurPos.second = 0;
return false;
}
}
// Helper that allows binary search of unsorted cells using ScSortedRangeCache.
// Rows in the given range are kept in a sorted vector and that vector is binary-searched.
class ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::SortedCacheIndexer
{
std::vector<SCROW> mSortedRowsCopy;
const std::vector<SCROW>& mSortedRows;
const sc::CellStoreType& mCells;
size_t mLowIndex;
size_t mHighIndex;
bool mValid;
const std::vector<SCROW>& makeSortedRows( const ScSortedRangeCache* cache, SCROW startRow, SCROW endRow )
{
// Keep a reference to rows from the cache if equal, otherwise make a copy.
if(startRow == cache->getRange().aStart.Row() && endRow == cache->getRange().aEnd.Row())
return cache->sortedRows();
else
{
mSortedRowsCopy.reserve( cache->sortedRows().size());
for( SCROW row : cache->sortedRows())
if( row >= startRow && row <= endRow )
mSortedRowsCopy.emplace_back( row );
return mSortedRowsCopy;
}
}
public:
SortedCacheIndexer( const sc::CellStoreType& cells, SCROW startRow, SCROW endRow,
const ScSortedRangeCache* cache )
: mSortedRows( makeSortedRows( cache, startRow, endRow ))
, mCells( cells )
, mValid( false )
{
if(mSortedRows.empty())
{
// coverity[uninit_member] - these are initialized only if valid
return;
}
mLowIndex = 0;
mHighIndex = mSortedRows.size() - 1;
mValid = true;
}
sc::CellStoreType::const_position_type getPosition( size_t nIndex ) const
{
// TODO optimize?
SCROW row = mSortedRows[ nIndex ];
return mCells.position(row);
}
BinarySearchCellType getCell( size_t nIndex ) const
{
BinarySearchCellType aRet;
aRet.second = -1;
sc::CellStoreType::const_position_type aPos = getPosition(nIndex);
if (aPos.first == mCells.end())
return aRet;
aRet.first = sc::toRefCell(aPos.first, aPos.second);
aRet.second = aPos.first->position + aPos.second;
return aRet;
}
size_t getLowIndex() const { return mLowIndex; }
size_t getHighIndex() const { return mHighIndex; }
bool isValid() const { return mValid; }
};
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::SortedCacheIndexer
ScQueryCellIteratorAccessSpecific< ScQueryCellIteratorAccess::SortedCache >::MakeBinarySearchIndexer(
const sc::CellStoreType& rCells, SCROW nStartRow, SCROW nEndRow)
{
return SortedCacheIndexer(rCells, nStartRow, nEndRow, sortedCache);
}
static bool CanBeUsedForSorterCache(ScDocument& /*rDoc*/, const ScQueryParam& /*rParam*/,
SCTAB /*nTab*/, const ScFormulaCell* /*cell*/, const ScComplexRefData* /*refData*/,
ScInterpreterContext& /*context*/)
{
#if 1
/* TODO: tdf#151958 broken by string query of binary search on sorted
* cache, use the direct query instead for releases and fix SortedCache
* implementation after. Not only COUNTIF() is broken, but also COUNTIFS(),
* and maybe lcl_LookupQuery() for VLOOKUP() etc. as well. Just disable
* this for now.
* Can't just return false because below would be unreachable code. Can't
* just #if/#else/#endif either because parameters would be unused. Crap
* this and comment out parameter names. */
return false;
#else
if(!rParam.GetEntry(0).bDoQuery || rParam.GetEntry(1).bDoQuery
|| rParam.GetEntry(0).GetQueryItems().size() != 1 )
return false;
if(rParam.eSearchType != utl::SearchParam::SearchType::Normal)
return false;
if(rParam.GetEntry(0).GetQueryItem().meType != ScQueryEntry::ByValue
&& rParam.GetEntry(0).GetQueryItem().meType != ScQueryEntry::ByString)
return false;
if(!rParam.bByRow)
return false;
if(rParam.bHasHeader)
return false;
if(rParam.mbRangeLookup)
return false;
if(rParam.GetEntry(0).GetQueryItem().meType == ScQueryEntry::ByString
&& !ScQueryEvaluator::isMatchWholeCell(rDoc, rParam.GetEntry(0).eOp))
return false; // substring matching cannot be sorted
if(rParam.GetEntry(0).eOp != SC_LESS && rParam.GetEntry(0).eOp != SC_LESS_EQUAL
&& rParam.GetEntry(0).eOp != SC_GREATER && rParam.GetEntry(0).eOp != SC_GREATER_EQUAL
&& rParam.GetEntry(0).eOp != SC_EQUAL)
return false;
// For unittests allow inefficient caching, in order for the code to be checked.
static bool inUnitTest = getenv("LO_TESTNAME") != nullptr;
if(refData == nullptr || refData->Ref1.IsRowRel() || refData->Ref2.IsRowRel())
{
// If this is not a range, then a cache is not worth it. If rows are relative, then each
// computation will use a different area, so the cache wouldn't be reused. Tab/cols are
// not a problem, because formula group computations are done for the same tab/col.
if(!inUnitTest)
return false;
}
if(rParam.nRow2 - rParam.nRow1 < 10)
{
if(!inUnitTest)
return false;
}
if( !cell )
return false;
if( !cell->GetCellGroup() || cell->GetCellGroup()->mnLength < 10 )
{
if(!inUnitTest)
return false;
}
// Check that all the relevant caches would be valid (may not be the case when mixing
// numeric and string cells for ByValue lookups).
for(SCCOL col : rDoc.GetAllocatedColumnsRange(nTab, rParam.nCol1, rParam.nCol2))
{
ScRange aSortedRangeRange( col, rParam.nRow1, nTab, col, rParam.nRow2, nTab);
if( aSortedRangeRange.Contains( cell->aPos ))
return false; // self-referencing, can't create cache
ScSortedRangeCache& cache = rDoc.GetSortedRangeCache( aSortedRangeRange, rParam, &context );
if(!cache.isValid())
return false;
}
return true;
#endif
}
// Generic query implementation.
bool ScQueryCellIteratorTypeSpecific< ScQueryCellIteratorType::Generic >::HandleItemFound()
{
getThisResult = true;
return true; // Return from PerformQuery().
}
template< ScQueryCellIteratorAccess accessType >
bool ScQueryCellIterator< accessType >::GetThis()
{
getThisResult = false;
PerformQuery();
return getThisResult;
}
template< ScQueryCellIteratorAccess accessType >
bool ScQueryCellIterator< accessType >::GetFirst()
{
assert(nTab < rDoc.GetTableCount() && "index out of bounds, FIX IT");
nCol = maParam.nCol1;
InitPos();
return GetThis();
}
template< ScQueryCellIteratorAccess accessType >
bool ScQueryCellIterator< accessType >::GetNext()
{
IncPos();
if ( nStopOnMismatch )
nStopOnMismatch = nStopOnMismatchEnabled;
if ( nTestEqualCondition )
nTestEqualCondition = nTestEqualConditionEnabled;
return GetThis();
}
template<>
bool ScQueryCellIterator< ScQueryCellIteratorAccess::SortedCache >::GetNext()
{
assert( !nStopOnMismatch );
assert( !nTestEqualCondition );
// When searching using sorted cache, we should always find cells that match,
// because InitPos()/IncPos() select only such rows, so skip GetThis() (and thus
// the somewhat expensive PerformQuery) as long as we're not at the end
// of a column. As an optimization IncPosFast() returns true if not at the end,
// in which case in non-DBG_UTIL mode it doesn't even bother to set maCurPos.
if( IncPosFast())
{
#ifdef DBG_UTIL
assert(GetThis());
#endif
return true;
}
return GetThis();
}
bool ScQueryCellIteratorSortedCache::CanBeUsed(ScDocument& rDoc, const ScQueryParam& rParam,
SCTAB nTab, const ScFormulaCell* cell, const ScComplexRefData* refData,
ScInterpreterContext& context)
{
return CanBeUsedForSorterCache(rDoc, rParam, nTab, cell, refData, context);
}
// Countifs implementation.
bool ScQueryCellIteratorTypeSpecific< ScQueryCellIteratorType::CountIf >::HandleItemFound()
{
++countIfCount;
return false; // Continue searching.
}
template< ScQueryCellIteratorAccess accessType >
sal_uInt64 ScCountIfCellIterator< accessType >::GetCount()
{
// Keep Entry.nField in iterator on column change
SetAdvanceQueryParamEntryField( true );
assert(nTab < rDoc.GetTableCount() && "try to access index out of bounds, FIX IT");
maParam.nCol1 = rDoc.ClampToAllocatedColumns(nTab, maParam.nCol1);
maParam.nCol2 = rDoc.ClampToAllocatedColumns(nTab, maParam.nCol2);
nCol = maParam.nCol1;
InitPos();
countIfCount = 0;
PerformQuery();
return countIfCount;
}
bool ScCountIfCellIteratorSortedCache::CanBeUsed(ScDocument& rDoc, const ScQueryParam& rParam,
SCTAB nTab, const ScFormulaCell* cell, const ScComplexRefData* refData,
ScInterpreterContext& context)
{
return CanBeUsedForSorterCache(rDoc, rParam, nTab, cell, refData, context);
}
template<>
sal_uInt64 ScCountIfCellIterator< ScQueryCellIteratorAccess::SortedCache >::GetCount()
{
// Keep Entry.nField in iterator on column change
SetAdvanceQueryParamEntryField( true );
assert(nTab < rDoc.GetTableCount() && "try to access index out of bounds, FIX IT");
sal_uInt64 count = 0;
// Each column must be sorted separately.
for(SCCOL col : rDoc.GetAllocatedColumnsRange(nTab, maParam.nCol1, maParam.nCol2))
{
nCol = col;
nRow = maParam.nRow1;
ScRange aSortedRangeRange( col, maParam.nRow1, nTab, col, maParam.nRow2, nTab);
ScQueryOp& op = maParam.GetEntry(0).eOp;
SetSortedRangeCache( rDoc.GetSortedRangeCache( aSortedRangeRange, maParam, &mrContext ));
if( op == SC_EQUAL )
{
// BinarySearch() searches for the last item that matches. Therefore first
// find the last non-matching position using SC_LESS and then find the last
// matching position using SC_EQUAL.
ScQueryOp saveOp = op;
op = SC_LESS;
if( BinarySearch( nCol, true ))
{
op = saveOp; // back to SC_EQUAL
size_t lastNonMatching = sortedCache->indexForRow(nRow);
if( BinarySearch( nCol ))
{
size_t lastMatching = sortedCache->indexForRow(nRow);
assert(lastMatching >= lastNonMatching);
count += lastMatching - lastNonMatching;
}
else
{
// BinarySearch() should at least find the same result as the SC_LESS
// call, so this should not happen.
assert(false);
}
}
else
{
// BinarySearch() returning false means that all values are larger,
// so try to find matching ones and count those up to and including
// the found one.
op = saveOp; // back to SC_EQUAL
if( BinarySearch( nCol ))
{
size_t lastMatching = sortedCache->indexForRow(nRow) + 1;
count += lastMatching;
}
else if( maParam.GetEntry(0).GetQueryItem().mbMatchEmpty
&& rDoc.IsEmptyData(col, maParam.nRow1, col, maParam.nRow2, nTab))
{
// BinarySearch() returns false in case it's all empty data,
// handle that specially.
count += maParam.nRow2 - maParam.nRow1 + 1;
}
}
}
else
{
// BinarySearch() searches for the last item that matches. Therefore everything
// up to and including the found row matches the condition.
if( BinarySearch( nCol ))
count += sortedCache->indexForRow(nRow) + 1;
}
}
if( maParam.GetEntry(0).GetQueryItem().mbMatchEmpty
&& maParam.nCol2 >= rDoc.GetAllocatedColumnsCount( nTab ))
{
count += (maParam.nCol2 - rDoc.GetAllocatedColumnsCount( nTab ))
* ( maParam.nRow2 - maParam.nRow1 + 1 );
}
return count;
}
template class ScQueryCellIterator< ScQueryCellIteratorAccess::Direct >;
template class ScQueryCellIterator< ScQueryCellIteratorAccess::SortedCache >;
template class ScCountIfCellIterator< ScQueryCellIteratorAccess::Direct >;
template class ScCountIfCellIterator< ScQueryCellIteratorAccess::SortedCache >;
// gcc for some reason needs these too
template class ScQueryCellIteratorBase< ScQueryCellIteratorAccess::Direct, ScQueryCellIteratorType::Generic >;
template class ScQueryCellIteratorBase< ScQueryCellIteratorAccess::SortedCache, ScQueryCellIteratorType::Generic >;
template class ScQueryCellIteratorBase< ScQueryCellIteratorAccess::Direct, ScQueryCellIteratorType::CountIf >;
template class ScQueryCellIteratorBase< ScQueryCellIteratorAccess::SortedCache, ScQueryCellIteratorType::CountIf >;
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