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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 <tools/debug.hxx>
#include <tools/multisel.hxx>
#include <rtl/ustrbuf.hxx>
void MultiSelection::ImplClear()
{
// no selected indexes
nSelCount = 0;
for ( size_t i = 0, n = aSels.size(); i < n; ++i ) {
delete aSels[ i ];
}
aSels.clear();
}
size_t MultiSelection::ImplFindSubSelection( long nIndex ) const
{
// iterate through the sub selections
size_t n = 0;
for ( ;
n < aSels.size() && nIndex > aSels[ n ]->Max();
++n ) {} /* empty loop */
return n;
}
bool MultiSelection::ImplMergeSubSelections( size_t nPos1, size_t nPos2 )
{
// didn't a sub selection at nPos2 exist?
if ( nPos2 >= aSels.size() )
return false;
// did the sub selections touch each other?
if ( (aSels[ nPos1 ]->Max() + 1) == aSels[ nPos2 ]->Min() )
{
// merge them
aSels[ nPos1 ]->Max() = aSels[ nPos2 ]->Max();
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nPos2 );
delete *it;
aSels.erase( it );
return true;
}
return false;
}
MultiSelection::MultiSelection():
aTotRange( 0, -1 ),
nCurSubSel(0),
nCurIndex(0),
nSelCount(0),
bInverseCur(false),
bCurValid(false),
bSelectNew(false)
{
}
MultiSelection::MultiSelection( const MultiSelection& rOrig ) :
aTotRange(rOrig.aTotRange),
nSelCount(rOrig.nSelCount),
bCurValid(rOrig.bCurValid),
bSelectNew(false)
{
if ( bCurValid )
{
nCurSubSel = rOrig.nCurSubSel;
nCurIndex = rOrig.nCurIndex;
bInverseCur = rOrig.bInverseCur;
}
else
{
nCurSubSel = 0;
nCurIndex = 0;
bInverseCur = false;
}
// copy the sub selections
for ( size_t n = 0; n < rOrig.aSels.size(); ++n )
aSels.push_back( new Range( *rOrig.aSels[ n ] ) );
}
MultiSelection::MultiSelection( const Range& rRange ):
aTotRange(rRange),
nCurSubSel(0),
nCurIndex(0),
nSelCount(0),
bInverseCur(false),
bCurValid(false),
bSelectNew(false)
{
}
MultiSelection::~MultiSelection()
{
for ( size_t i = 0, n = aSels.size(); i < n; ++i )
delete aSels[ i ];
aSels.clear();
}
MultiSelection& MultiSelection::operator= ( const MultiSelection& rOrig )
{
aTotRange = rOrig.aTotRange;
bCurValid = rOrig.bCurValid;
if ( bCurValid )
{
nCurSubSel = rOrig.nCurSubSel;
nCurIndex = rOrig.nCurIndex;
}
// clear the old and copy the sub selections
ImplClear();
for ( size_t n = 0; n < rOrig.aSels.size(); ++n )
aSels.push_back( new Range( *rOrig.aSels[ n ] ) );
nSelCount = rOrig.nSelCount;
return *this;
}
bool MultiSelection::operator== ( MultiSelection& rWith )
{
if ( aTotRange != rWith.aTotRange || nSelCount != rWith.nSelCount ||
aSels.size() != rWith.aSels.size() )
return false;
// compare the sub selections
for ( size_t n = 0; n < aSels.size(); ++n )
if ( *aSels[ n ] != *rWith.aSels[ n ] )
return false;
return true;
}
void MultiSelection::SelectAll( bool bSelect )
{
ImplClear();
if ( bSelect )
{
aSels.push_back( new Range(aTotRange) );
nSelCount = aTotRange.Len();
}
}
bool MultiSelection::Select( long nIndex, bool bSelect )
{
DBG_ASSERT( aTotRange.IsInside(nIndex), "selected index out of range" );
// out of range?
if ( !aTotRange.IsInside(nIndex) )
return false;
// find the virtual target position
size_t nSubSelPos = ImplFindSubSelection( nIndex );
if ( bSelect )
{
// is it included in the found sub selection?
if ( nSubSelPos < aSels.size() && aSels[ nSubSelPos ]->IsInside( nIndex ) )
// already selected, nothing to do
return false;
// it will become selected
++nSelCount;
// is it at the end of the previous sub selection
if ( nSubSelPos > 0 &&
aSels[ nSubSelPos-1 ]->Max() == (nIndex-1) )
{
// expand the previous sub selection
aSels[ nSubSelPos-1 ]->Max() = nIndex;
// try to merge the previous sub selection
ImplMergeSubSelections( nSubSelPos-1, nSubSelPos );
}
// is it at the beginning of the found sub selection
else if ( nSubSelPos < aSels.size()
&& aSels[ nSubSelPos ]->Min() == (nIndex+1)
)
// expand the found sub selection
aSels[ nSubSelPos ]->Min() = nIndex;
else
{
// create a new sub selection
if ( nSubSelPos < aSels.size() ) {
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nSubSelPos );
aSels.insert( it, new Range( nIndex, nIndex ) );
} else {
aSels.push_back( new Range( nIndex, nIndex ) );
}
if ( bCurValid && nCurSubSel >= nSubSelPos )
++nCurSubSel;
}
}
else
{
// is it excluded from the found sub selection?
if ( nSubSelPos >= aSels.size()
|| !aSels[ nSubSelPos ]->IsInside( nIndex )
) {
// not selected, nothing to do
return false;
}
// it will become deselected
--nSelCount;
// is it the only index in the found sub selection?
if ( aSels[ nSubSelPos ]->Len() == 1 )
{
// remove the complete sub selection
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nSubSelPos );
delete *it;
aSels.erase( it );
return true;
}
// is it at the beginning of the found sub selection?
if ( aSels[ nSubSelPos ]->Min() == nIndex )
++aSels[ nSubSelPos ]->Min();
// is it at the end of the found sub selection?
else if ( aSels[ nSubSelPos ]->Max() == nIndex )
--aSels[ nSubSelPos ]->Max();
// it is in the middle of the found sub selection?
else
{
// split the sub selection
if ( nSubSelPos < aSels.size() ) {
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nSubSelPos );
aSels.insert( it, new Range( aSels[ nSubSelPos ]->Min(), nIndex-1 ) );
} else {
aSels.push_back( new Range( aSels[ nSubSelPos ]->Min(), nIndex-1 ) );
}
aSels[ nSubSelPos+1 ]->Min() = nIndex + 1;
}
}
return true;
}
void MultiSelection::Select( const Range& rIndexRange, bool bSelect )
{
Range* pRange;
long nOld;
sal_uIntPtr nTmpMin = rIndexRange.Min();
sal_uIntPtr nTmpMax = rIndexRange.Max();
sal_uIntPtr nCurMin = FirstSelected();
sal_uIntPtr nCurMax = LastSelected();
DBG_ASSERT(aTotRange.IsInside(nTmpMax), "selected index out of range" );
DBG_ASSERT(aTotRange.IsInside(nTmpMin), "selected index out of range" );
// replace whole selection?
if( nTmpMin <= nCurMin && nTmpMax >= nCurMax )
{
ImplClear();
if ( bSelect )
{
aSels.push_back( new Range(rIndexRange) );
nSelCount = rIndexRange.Len();
}
return;
}
// expand on left side?
if( nTmpMax < nCurMin )
{
if( bSelect )
{
// extend first range?
if( nCurMin > (nTmpMax+1) )
{
pRange = new Range( rIndexRange );
aSels.insert( aSels.begin() , pRange );
nSelCount += pRange->Len();
}
else
{
pRange = aSels.front();
nOld = pRange->Min();
pRange->Min() = (long)nTmpMin;
nSelCount += ( nOld - nTmpMin );
}
bCurValid = false;
}
return;
}
// expand on right side?
else if( nTmpMin > nCurMax )
{
if( bSelect )
{
// extend last range?
if( nTmpMin > (nCurMax+1) )
{
pRange = new Range( rIndexRange );
aSels.push_back( pRange );
nSelCount += pRange->Len();
}
else
{
pRange = aSels.back();
nOld = pRange->Max();
pRange->Max() = (long)nTmpMax;
nSelCount += ( nTmpMax - nOld );
}
bCurValid = false;
}
return;
}
// TODO here is potential for optimization
while( nTmpMin <= nTmpMax )
{
Select( nTmpMin, bSelect );
nTmpMin++;
}
}
bool MultiSelection::IsSelected( long nIndex ) const
{
// find the virtual target position
size_t nSubSelPos = ImplFindSubSelection( nIndex );
return nSubSelPos < aSels.size() && aSels[ nSubSelPos ]->IsInside(nIndex);
}
void MultiSelection::Insert( long nIndex, long nCount )
{
// find the virtual target position
size_t nSubSelPos = ImplFindSubSelection( nIndex );
// did we need to shift the sub selections?
if ( nSubSelPos < aSels.size() )
{ // did we insert an unselected into an existing sub selection?
if ( !bSelectNew
&& aSels[ nSubSelPos ]->Min() != nIndex
&& aSels[ nSubSelPos ]->IsInside(nIndex)
) { // split the sub selection
if ( nSubSelPos < aSels.size() ) {
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nSubSelPos );
aSels.insert( it, new Range( aSels[ nSubSelPos ]->Min(), nIndex-1 ) );
} else {
aSels.push_back( new Range( aSels[ nSubSelPos ]->Min(), nIndex-1 ) );
}
++nSubSelPos;
aSels[ nSubSelPos ]->Min() = nIndex;
}
// did we append an selected to an existing sub selection?
else if ( bSelectNew
&& nSubSelPos > 0
&& aSels[ nSubSelPos ]->Max() == nIndex-1
) // expand the previous sub selection
aSels[ nSubSelPos-1 ]->Max() += nCount;
// did we insert an selected into an existing sub selection?
else if ( bSelectNew
&& aSels[ nSubSelPos ]->Min() == nIndex
) { // expand the sub selection
aSels[ nSubSelPos ]->Max() += nCount;
++nSubSelPos;
}
// shift the sub selections behind the inserting position
for ( size_t nPos = nSubSelPos; nPos < aSels.size(); ++nPos )
{
aSels[ nPos ]->Min() += nCount;
aSels[ nPos ]->Max() += nCount;
}
}
bCurValid = false;
aTotRange.Max() += nCount;
if ( bSelectNew )
nSelCount += nCount;
}
void MultiSelection::Remove( long nIndex )
{
// find the virtual target position
size_t nSubSelPos = ImplFindSubSelection( nIndex );
// did we remove from an existing sub selection?
if ( nSubSelPos < aSels.size()
&& aSels[ nSubSelPos ]->IsInside(nIndex)
) {
// does this sub selection only contain the index to be deleted
if ( aSels[ nSubSelPos ]->Len() == 1 ) {
// completely remove the sub selection
ImpSelList::iterator it = aSels.begin();
::std::advance( it, nSubSelPos );
delete *it;
aSels.erase( it );
} else {
// shorten this sub selection
--( aSels[ nSubSelPos++ ]->Max() );
}
// adjust the selected counter
--nSelCount;
}
// shift the sub selections behind the removed index
for ( size_t nPos = nSubSelPos; nPos < aSels.size(); ++nPos )
{
--( aSels[ nPos ]->Min() );
--( aSels[ nPos ]->Max() );
}
bCurValid = false;
aTotRange.Max() -= 1;
}
long MultiSelection::ImplFwdUnselected()
{
if ( !bCurValid )
return SFX_ENDOFSELECTION;
if ( ( nCurSubSel < aSels.size() )
&& ( aSels[ nCurSubSel ]->Min() <= nCurIndex )
)
nCurIndex = aSels[ nCurSubSel++ ]->Max() + 1;
if ( nCurIndex <= aTotRange.Max() )
return nCurIndex;
else
return SFX_ENDOFSELECTION;
}
long MultiSelection::FirstSelected( bool bInverse )
{
bInverseCur = bInverse;
nCurSubSel = 0;
if ( bInverseCur )
{
bCurValid = nSelCount < sal_uIntPtr(aTotRange.Len());
if ( bCurValid )
{
nCurIndex = 0;
return ImplFwdUnselected();
}
}
else
{
bCurValid = !aSels.empty();
if ( bCurValid )
return nCurIndex = aSels[ 0 ]->Min();
}
return SFX_ENDOFSELECTION;
}
long MultiSelection::LastSelected()
{
nCurSubSel = aSels.size() - 1;
bCurValid = !aSels.empty();
if ( bCurValid )
return nCurIndex = aSels[ nCurSubSel ]->Max();
return SFX_ENDOFSELECTION;
}
long MultiSelection::NextSelected()
{
if ( !bCurValid )
return SFX_ENDOFSELECTION;
if ( bInverseCur )
{
++nCurIndex;
return ImplFwdUnselected();
}
else
{
// is the next index in the current sub selection too?
if ( nCurIndex < aSels[ nCurSubSel ]->Max() )
return ++nCurIndex;
// are there further sub selections?
if ( ++nCurSubSel < aSels.size() )
return nCurIndex = aSels[ nCurSubSel ]->Min();
// we are at the end!
return SFX_ENDOFSELECTION;
}
}
void MultiSelection::SetTotalRange( const Range& rTotRange )
{
aTotRange = rTotRange;
// adjust lower boundary
Range* pRange = aSels.empty() ? nullptr : aSels.front();
while( pRange )
{
if( pRange->Max() < aTotRange.Min() )
{
delete pRange;
aSels.erase( aSels.begin() );
}
else if( pRange->Min() < aTotRange.Min() )
{
pRange->Min() = aTotRange.Min();
break;
}
else
break;
pRange = aSels.empty() ? nullptr : aSels.front();
}
// adjust upper boundary
size_t nCount = aSels.size();
while( nCount )
{
pRange = aSels[ nCount - 1 ];
if( pRange->Min() > aTotRange.Max() )
{
delete pRange;
aSels.pop_back();
}
else if( pRange->Max() > aTotRange.Max() )
{
pRange->Max() = aTotRange.Max();
break;
}
else
break;
nCount = aSels.size();
}
// re-calculate selection count
nSelCount = 0;
for ( size_t i = 0, n = aSels.size(); i < n; ++ i )
nSelCount += aSels[i]->Len();
bCurValid = false;
nCurIndex = 0;
}
// StringRangeEnumerator
StringRangeEnumerator::StringRangeEnumerator( const OUString& i_rInput,
sal_Int32 i_nMinNumber,
sal_Int32 i_nMaxNumber,
sal_Int32 i_nLogicalOffset
)
: mnCount( 0 )
, mnMin( i_nMinNumber )
, mnMax( i_nMaxNumber )
, mnOffset( i_nLogicalOffset )
, mbValidInput( false )
{
// Parse string only if boundaries are valid.
if( mnMin >= 0 && mnMax >= 0 && mnMin <= mnMax )
mbValidInput = setRange( i_rInput );
}
bool StringRangeEnumerator::checkValue( sal_Int32 i_nValue, const std::set< sal_Int32 >* i_pPossibleValues ) const
{
if( i_nValue < 0 || i_nValue < mnMin || i_nValue > mnMax )
return false;
if( i_pPossibleValues && i_pPossibleValues->find( i_nValue ) == i_pPossibleValues->end() )
return false;
return true;
}
bool StringRangeEnumerator::insertRange( sal_Int32 i_nFirst, sal_Int32 i_nLast, bool bSequence, bool bMayAdjust )
{
bool bSuccess = true;
if( bSequence )
{
if( bMayAdjust )
{
if( i_nFirst < mnMin )
i_nFirst = mnMin;
if( i_nFirst > mnMax )
i_nFirst = mnMax;
if( i_nLast < mnMin )
i_nLast = mnMin;
if( i_nLast > mnMax )
i_nLast = mnMax;
}
if( checkValue( i_nFirst ) && checkValue( i_nLast ) )
{
maSequence.push_back( Range( i_nFirst, i_nLast ) );
sal_Int32 nNumber = i_nLast - i_nFirst;
nNumber = nNumber < 0 ? -nNumber : nNumber;
mnCount += nNumber + 1;
}
else
bSuccess = false;
}
else
{
if( checkValue( i_nFirst ) )
{
maSequence.push_back( Range( i_nFirst, i_nFirst ) );
mnCount++;
}
else if( checkValue( i_nLast ) )
{
maSequence.push_back( Range( i_nLast, i_nLast ) );
mnCount++;
}
else
bSuccess = false;
}
return bSuccess;
}
bool StringRangeEnumerator::insertJoinedRanges(
const std::vector< sal_Int32 >& rNumbers, bool i_bStrict )
{
size_t nCount = rNumbers.size();
if( nCount == 0 )
return true;
if( nCount == 1 )
return insertRange( rNumbers[0], -1, false, ! i_bStrict );
for( size_t i = 0; i < nCount - 1; i++ )
{
sal_Int32 nFirst = rNumbers[i];
sal_Int32 nLast = rNumbers[i + 1];
if( i > 0 )
{
if ( nFirst > nLast ) nFirst--;
else if( nFirst < nLast ) nFirst++;
}
if ( ! insertRange( nFirst, nLast, nFirst != nLast, ! i_bStrict ) && i_bStrict)
return false;
}
return true;
}
bool StringRangeEnumerator::setRange( const OUString& i_rNewRange, bool i_bStrict )
{
mnCount = 0;
maSequence.clear();
const sal_Unicode* pInput = i_rNewRange.getStr();
OUStringBuffer aNumberBuf( 16 );
std::vector< sal_Int32 > aNumbers;
bool bSequence = false;
while( *pInput )
{
while( *pInput >= '0' && *pInput <= '9' )
aNumberBuf.append( *pInput++ );
if( !aNumberBuf.isEmpty() )
{
sal_Int32 nNumber = aNumberBuf.makeStringAndClear().toInt32() + mnOffset;
aNumbers.push_back( nNumber );
bSequence = false;
}
if( *pInput == '-' )
{
bSequence = true;
if( aNumbers.empty() )
aNumbers.push_back( mnMin );
}
else if( *pInput == ',' || *pInput == ';' )
{
if( bSequence && !aNumbers.empty() )
aNumbers.push_back( mnMax );
if( ! insertJoinedRanges( aNumbers, i_bStrict ) && i_bStrict )
return false;
aNumbers.clear();
bSequence = false;
}
else if( *pInput && *pInput != ' ' )
return false; // parse error
if( *pInput )
pInput++;
}
// insert last entries
if( bSequence && !aNumbers.empty() )
aNumbers.push_back( mnMax );
if( ! insertJoinedRanges( aNumbers, i_bStrict ) && i_bStrict )
return false;
return true;
}
bool StringRangeEnumerator::hasValue( sal_Int32 i_nValue, const std::set< sal_Int32 >* i_pPossibleValues ) const
{
if( i_pPossibleValues && i_pPossibleValues->find( i_nValue ) == i_pPossibleValues->end() )
return false;
size_t n = maSequence.size();
for( size_t i= 0; i < n; ++i )
{
const StringRangeEnumerator::Range rRange( maSequence[i] );
if( rRange.nFirst < rRange.nLast )
{
if( i_nValue >= rRange.nFirst && i_nValue <= rRange.nLast )
return true;
}
else
{
if( i_nValue >= rRange.nLast && i_nValue <= rRange.nFirst )
return true;
}
}
return false;
}
StringRangeEnumerator::Iterator& StringRangeEnumerator::Iterator::operator++()
{
if( nRangeIndex >= 0 && nCurrent >= 0 && pEnumerator )
{
const StringRangeEnumerator::Range& rRange( pEnumerator->maSequence[nRangeIndex] );
bool bRangeChange = false;
if( rRange.nLast < rRange.nFirst )
{
// backward range
if( nCurrent > rRange.nLast )
nCurrent--;
else
bRangeChange = true;
}
else
{
// forward range
if( nCurrent < rRange.nLast )
nCurrent++;
else
bRangeChange = true;
}
if( bRangeChange )
{
nRangeIndex++;
if( size_t(nRangeIndex) == pEnumerator->maSequence.size() )
{
// reached the end
nRangeIndex = nCurrent = -1;
}
else
nCurrent = pEnumerator->maSequence[nRangeIndex].nFirst;
}
if( nRangeIndex != -1 && nCurrent != -1 )
{
if( ! pEnumerator->checkValue( nCurrent, pPossibleValues ) )
return ++(*this);
}
}
return *this;
}
bool StringRangeEnumerator::Iterator::operator==( const Iterator& i_rCompare ) const
{
return i_rCompare.pEnumerator == pEnumerator && i_rCompare.nRangeIndex == nRangeIndex && i_rCompare.nCurrent == nCurrent;
}
StringRangeEnumerator::Iterator StringRangeEnumerator::begin( const std::set< sal_Int32 >* i_pPossibleValues ) const
{
StringRangeEnumerator::Iterator it( this,
i_pPossibleValues,
maSequence.empty() ? -1 : 0,
maSequence.empty() ? -1 : maSequence[0].nFirst );
if( ! checkValue(*it, i_pPossibleValues ) )
++it;
return it;
}
StringRangeEnumerator::Iterator StringRangeEnumerator::end( const std::set< sal_Int32 >* i_pPossibleValues ) const
{
return StringRangeEnumerator::Iterator( this, i_pPossibleValues, -1, -1 );
}
bool StringRangeEnumerator::getRangesFromString( const OUString& i_rPageRange,
std::vector< sal_Int32 >& o_rPageVector,
sal_Int32 i_nMinNumber,
sal_Int32 i_nMaxNumber,
sal_Int32 i_nLogicalOffset,
std::set< sal_Int32 >* i_pPossibleValues
)
{
o_rPageVector.clear();
StringRangeEnumerator aEnum( i_rPageRange, i_nMinNumber, i_nMaxNumber, i_nLogicalOffset ) ;
//Even if the input range wasn't completely valid, return what ranges could
//be extracted from the input.
o_rPageVector.reserve( static_cast< size_t >( aEnum.size() ) );
for( StringRangeEnumerator::Iterator it = aEnum.begin( i_pPossibleValues );
it != aEnum.end( i_pPossibleValues ); ++it )
{
o_rPageVector.push_back( *it );
}
return aEnum.isValidInput();
}
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