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office-gobmx/basegfx/source/range/b2dpolyrange.cxx
thb 42c0c069b7 #i105939# Decided returning by const ref was a bad idea, coupling- 
and in terms of unwanted side effects (think vector re-allocating the
mem). Fixed iterator-to-ptr conversion for obvious oversights.
2009-10-16 22:58:23 +02:00

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/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2008 by Sun Microsystems, Inc.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* $RCSfile: b2dmultirange.cxx,v $
* $Revision: 1.8 $
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_basegfx.hxx"
#include <basegfx/range/b2dpolyrange.hxx>
#include <basegfx/range/b2drange.hxx>
#include <basegfx/range/b2drangeclipper.hxx>
#include <basegfx/tuple/b2dtuple.hxx>
#include <basegfx/polygon/b2dpolypolygon.hxx>
#include <boost/bind.hpp>
#include <boost/tuple/tuple.hpp>
#include <algorithm>
#include <vector>
static basegfx::B2VectorOrientation flipOrientation(
basegfx::B2VectorOrientation eOrient)
{
return eOrient == basegfx::ORIENTATION_POSITIVE ?
basegfx::ORIENTATION_NEGATIVE : basegfx::ORIENTATION_POSITIVE;
}
namespace basegfx
{
class ImplB2DPolyRange
{
void updateBounds()
{
maBounds.reset();
std::for_each(maRanges.begin(),
maRanges.end(),
boost::bind(
(void (B2DRange::*)(const B2DRange&))(
&B2DRange::expand),
boost::ref(maBounds),
_1));
}
public:
ImplB2DPolyRange() :
maBounds(),
maRanges(),
maOrient()
{}
explicit ImplB2DPolyRange( const B2DPolyRange::ElementType& rElem ) :
maBounds( boost::get<0>(rElem) ),
maRanges( 1, boost::get<0>(rElem) ),
maOrient( 1, boost::get<1>(rElem) )
{}
explicit ImplB2DPolyRange( const B2DRange& rRange, B2VectorOrientation eOrient ) :
maBounds( rRange ),
maRanges( 1, rRange ),
maOrient( 1, eOrient )
{}
bool operator==(const ImplB2DPolyRange& rRHS) const
{
return maRanges == rRHS.maRanges && maOrient == rRHS.maOrient;
}
sal_uInt32 count() const
{
return maRanges.size();
}
B2DPolyRange::ElementType getElement(sal_uInt32 nIndex) const
{
return boost::make_tuple(maRanges[nIndex],
maOrient[nIndex]);
}
void setElement(sal_uInt32 nIndex, const B2DPolyRange::ElementType& rElement )
{
maRanges[nIndex] = boost::get<0>(rElement);
maOrient[nIndex] = boost::get<1>(rElement);
updateBounds();
}
void setElement(sal_uInt32 nIndex, const B2DRange& rRange, B2VectorOrientation eOrient )
{
maRanges[nIndex] = rRange;
maOrient[nIndex] = eOrient;
updateBounds();
}
void insertElement(sal_uInt32 nIndex, const B2DPolyRange::ElementType& rElement, sal_uInt32 nCount)
{
maRanges.insert(maRanges.begin()+nIndex, nCount, boost::get<0>(rElement));
maOrient.insert(maOrient.begin()+nIndex, nCount, boost::get<1>(rElement));
maBounds.expand(boost::get<0>(rElement));
}
void insertElement(sal_uInt32 nIndex, const B2DRange& rRange, B2VectorOrientation eOrient, sal_uInt32 nCount)
{
maRanges.insert(maRanges.begin()+nIndex, nCount, rRange);
maOrient.insert(maOrient.begin()+nIndex, nCount, eOrient);
maBounds.expand(rRange);
}
void appendElement(const B2DPolyRange::ElementType& rElement, sal_uInt32 nCount)
{
maRanges.insert(maRanges.end(), nCount, boost::get<0>(rElement));
maOrient.insert(maOrient.end(), nCount, boost::get<1>(rElement));
maBounds.expand(boost::get<0>(rElement));
}
void appendElement(const B2DRange& rRange, B2VectorOrientation eOrient, sal_uInt32 nCount)
{
maRanges.insert(maRanges.end(), nCount, rRange);
maOrient.insert(maOrient.end(), nCount, eOrient);
maBounds.expand(rRange);
}
void insertPolyRange(sal_uInt32 nIndex, const ImplB2DPolyRange& rPolyRange)
{
maRanges.insert(maRanges.begin()+nIndex, rPolyRange.maRanges.begin(), rPolyRange.maRanges.end());
maOrient.insert(maOrient.begin()+nIndex, rPolyRange.maOrient.begin(), rPolyRange.maOrient.end());
updateBounds();
}
void appendPolyRange(const ImplB2DPolyRange& rPolyRange)
{
maRanges.insert(maRanges.end(),
rPolyRange.maRanges.begin(),
rPolyRange.maRanges.end());
maOrient.insert(maOrient.end(),
rPolyRange.maOrient.begin(),
rPolyRange.maOrient.end());
updateBounds();
}
void remove(sal_uInt32 nIndex, sal_uInt32 nCount)
{
maRanges.erase(maRanges.begin()+nIndex,maRanges.begin()+nIndex+nCount);
maOrient.erase(maOrient.begin()+nIndex,maOrient.begin()+nIndex+nCount);
updateBounds();
}
void clear()
{
std::vector<B2DRange> aTmpRanges;
std::vector<B2VectorOrientation> aTmpOrient;
maRanges.swap(aTmpRanges);
maOrient.swap(aTmpOrient);
maBounds.reset();
}
void flip()
{
std::for_each(maOrient.begin(),
maOrient.end(),
boost::bind(
&flipOrientation,
_1));
}
B2DRange getBounds() const
{
return maBounds;
}
template< typename ValueType > bool isInside( const ValueType& rValue ) const
{
if( !maBounds.isInside( rValue ) )
return false;
// cannot use boost::bind here, since isInside is overloaded.
// It is currently not possible to resolve the overload
// by considering one of the other template arguments.
std::vector<B2DRange>::const_iterator aCurr( maRanges.begin() );
const std::vector<B2DRange>::const_iterator aEnd ( maRanges.end() );
while( aCurr != aEnd )
if( aCurr->isInside( rValue ) )
return true;
return false;
}
bool overlaps( const B2DRange& rRange ) const
{
if( !maBounds.overlaps( rRange ) )
return false;
const std::vector<B2DRange>::const_iterator aEnd( maRanges.end() );
return std::find_if( maRanges.begin(),
aEnd,
boost::bind<bool>( boost::mem_fn( &B2DRange::overlaps ),
_1,
boost::cref(rRange) ) ) != aEnd;
}
B2DPolyPolygon solveCrossovers() const
{
return tools::solveCrossovers(maRanges,maOrient);
}
const B2DRange* begin() const
{
if(maRanges.empty())
return 0;
else
return &maRanges.front();
}
const B2DRange* end() const
{
if(maRanges.empty())
return 0;
else
return (&maRanges.back())+1;
}
B2DRange* begin()
{
if(maRanges.empty())
return 0;
else
return &maRanges.front();
}
B2DRange* end()
{
if(maRanges.empty())
return 0;
else
return (&maRanges.back())+1;
}
private:
B2DRange maBounds;
std::vector<B2DRange> maRanges;
std::vector<B2VectorOrientation> maOrient;
};
B2DPolyRange::B2DPolyRange() :
mpImpl()
{}
B2DPolyRange::~B2DPolyRange()
{}
B2DPolyRange::B2DPolyRange( const ElementType& rElem ) :
mpImpl( ImplB2DPolyRange( rElem ) )
{}
B2DPolyRange::B2DPolyRange( const B2DRange& rRange, B2VectorOrientation eOrient ) :
mpImpl( ImplB2DPolyRange( rRange, eOrient ) )
{}
B2DPolyRange::B2DPolyRange( const B2DPolyRange& rRange ) :
mpImpl( rRange.mpImpl )
{}
B2DPolyRange& B2DPolyRange::operator=( const B2DPolyRange& rRange )
{
mpImpl = rRange.mpImpl;
return *this;
}
void B2DPolyRange::makeUnique()
{
mpImpl.make_unique();
}
bool B2DPolyRange::operator==(const B2DPolyRange& rRange) const
{
if(mpImpl.same_object(rRange.mpImpl))
return true;
return ((*mpImpl) == (*rRange.mpImpl));
}
bool B2DPolyRange::operator!=(const B2DPolyRange& rRange) const
{
return !(*this == rRange);
}
sal_uInt32 B2DPolyRange::count() const
{
return mpImpl->count();
}
B2DPolyRange::ElementType B2DPolyRange::getElement(sal_uInt32 nIndex) const
{
return mpImpl->getElement(nIndex);
}
void B2DPolyRange::setElement(sal_uInt32 nIndex, const ElementType& rElement )
{
mpImpl->setElement(nIndex, rElement);
}
void B2DPolyRange::setElement(sal_uInt32 nIndex, const B2DRange& rRange, B2VectorOrientation eOrient )
{
mpImpl->setElement(nIndex, rRange, eOrient );
}
void B2DPolyRange::insertElement(sal_uInt32 nIndex, const ElementType& rElement, sal_uInt32 nCount)
{
mpImpl->insertElement(nIndex, rElement, nCount );
}
void B2DPolyRange::insertElement(sal_uInt32 nIndex, const B2DRange& rRange, B2VectorOrientation eOrient, sal_uInt32 nCount)
{
mpImpl->insertElement(nIndex, rRange, eOrient, nCount );
}
void B2DPolyRange::appendElement(const ElementType& rElement, sal_uInt32 nCount)
{
mpImpl->appendElement(rElement, nCount);
}
void B2DPolyRange::appendElement(const B2DRange& rRange, B2VectorOrientation eOrient, sal_uInt32 nCount)
{
mpImpl->appendElement(rRange, eOrient, nCount );
}
void B2DPolyRange::insertPolyRange(sal_uInt32 nIndex, const B2DPolyRange& rRange)
{
mpImpl->insertPolyRange(nIndex, *rRange.mpImpl);
}
void B2DPolyRange::appendPolyRange(const B2DPolyRange& rRange)
{
mpImpl->appendPolyRange(*rRange.mpImpl);
}
void B2DPolyRange::remove(sal_uInt32 nIndex, sal_uInt32 nCount)
{
mpImpl->remove(nIndex, nCount);
}
void B2DPolyRange::clear()
{
mpImpl->clear();
}
void B2DPolyRange::flip()
{
mpImpl->flip();
}
B2DRange B2DPolyRange::getBounds() const
{
return mpImpl->getBounds();
}
bool B2DPolyRange::isInside( const B2DTuple& rTuple ) const
{
return mpImpl->isInside(rTuple);
}
bool B2DPolyRange::isInside( const B2DRange& rRange ) const
{
return mpImpl->isInside(rRange);
}
bool B2DPolyRange::overlaps( const B2DRange& rRange ) const
{
return mpImpl->overlaps(rRange);
}
B2DPolyPolygon B2DPolyRange::solveCrossovers() const
{
return mpImpl->solveCrossovers();
}
const B2DRange* B2DPolyRange::begin() const
{
return mpImpl->begin();
}
const B2DRange* B2DPolyRange::end() const
{
return mpImpl->end();
}
B2DRange* B2DPolyRange::begin()
{
return mpImpl->begin();
}
B2DRange* B2DPolyRange::end()
{
return mpImpl->end();
}
} // end of namespace basegfx
// eof
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