vcglib/vcg/space/index/grid_closest2d.h

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/****************************************************************************
* VCGLib o o *
* Visual and Computer Graphics Library o o *
* _ O _ *
* Copyright(C) 2005 \/)\/ *
* Visual Computing Lab /\/| *
* ISTI - Italian National Research Council | *
* \ *
* All rights reserved. *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program 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 General Public License (http://www.gnu.org/licenses/gpl.txt) *
* for more details. *
* *
****************************************************************************/
#ifndef __VCGLIB_GRID_CLOSEST_2D
#define __VCGLIB_GRID_CLOSEST_2D
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#include <vcg/space/index/space_iterators2d.h>
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#include <vcg/space/intersection2.h>
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namespace vcg{
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template <class SPATIALINDEXING,class OBJMARKER, class OBJPTRCONTAINER>
unsigned int GridGetInBox2D(SPATIALINDEXING &_Si,
OBJMARKER & _marker,
const vcg::Box2<typename SPATIALINDEXING::ScalarType> &_bbox,
OBJPTRCONTAINER & _objectPtrs,
bool update_global_mark=true)
{
typename SPATIALINDEXING::CellIterator first,last,l;
//_objectPtrs.clear();
vcg::Box2i ibbox;
Box2i Si_ibox(Point2i(0,0),_Si.siz-Point2i(1,1));
_Si.BoxToIBox(_bbox, ibbox);
ibbox.Intersect(Si_ibox);
if (update_global_mark)
_marker.UnMarkAll();
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if (ibbox.IsNull())
return 0;
else
{
int ix,iy;
for (ix=ibbox.min[0]; ix<=ibbox.max[0]; ix++)
for (iy=ibbox.min[1]; iy<=ibbox.max[1]; iy++)
{
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_Si.Grid( ix, iy, first, last );
for(l=first;l!=last;++l)
if (!(**l).IsD())
{
typename SPATIALINDEXING::ObjPtr elem=&(**l);
vcg::Box2<typename SPATIALINDEXING::ScalarType> box_elem;
box_elem=elem->BBox();
if (update_global_mark)
{
if(( ! _marker.IsMarked(elem))&&(box_elem.Collide(_bbox)))
{
_objectPtrs.push_back(elem);
_marker.Mark(elem);
}
}else
{
if(box_elem.Collide(_bbox))
_objectPtrs.push_back(elem);
}
}
}
return (static_cast<unsigned int>(_objectPtrs.size()));
}
}
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template <class SPATIAL_INDEX, class OBJPOINTDISTFUNCTOR, class OBJMARKER>
typename SPATIAL_INDEX::ObjPtr GridClosest2D(SPATIAL_INDEX &Si,
OBJPOINTDISTFUNCTOR _getPointDistance,
OBJMARKER & _marker,
const typename OBJPOINTDISTFUNCTOR::QueryType & _p_obj,
const typename SPATIAL_INDEX::ScalarType & _maxDist,
typename SPATIAL_INDEX::ScalarType & _minDist,
typename SPATIAL_INDEX:: CoordType &_closestPt)
{
typedef typename SPATIAL_INDEX::ObjPtr ObjPtr;
typedef SPATIAL_INDEX SpatialIndex;
typedef typename SPATIAL_INDEX::CoordType CoordType;
typedef typename SPATIAL_INDEX::ScalarType ScalarType;
typedef typename SPATIAL_INDEX::Box2x Box2x;
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Point2<ScalarType> _p = OBJPOINTDISTFUNCTOR::Pos(_p_obj);
// Initialize min_dist with _maxDist to exploit early rejection test.
_minDist = _maxDist;
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ObjPtr winner=NULL;
_marker.UnMarkAll();
ScalarType newradius = Si.voxel.Norm();
ScalarType radius;
Box2i iboxdone,iboxtodo;
CoordType t_res;
typename SPATIAL_INDEX::CellIterator first,last,l;
if(Si.bbox.IsInEx(_p))
{
Point2i _ip;
Si.PToIP(_p,_ip);
Si.Grid( _ip[0],_ip[1], first, last );
for(l=first;l!=last;++l)
{
ObjPtr elem=&(**l);
if (!elem->IsD())
{
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if (_getPointDistance((**l), _p_obj,_minDist, t_res))
{
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winner=elem;
_closestPt=t_res;
newradius=_minDist; //
}
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_marker.Mark(elem);
}
}
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iboxdone=Box2i(_ip,_ip);
}
int ix,iy;
Box2i ibox(Point2i(0,0),Si.siz-Point2i(1,1));
do
{
radius=newradius;
Box2x boxtodo=Box2x(_p,radius);
//boxtodo.Intersect(Si.bbox);
Si.BoxToIBox(boxtodo, iboxtodo);
iboxtodo.Intersect(ibox);
if(!boxtodo.IsNull())
{
for (ix=iboxtodo.min[0]; ix<=iboxtodo.max[0]; ix++)
for (iy=iboxtodo.min[1]; iy<=iboxtodo.max[1]; iy++)
if(ix<iboxdone.min[0] || ix>iboxdone.max[0] || // this test is to avoid to re-process already analyzed cells.
iy<iboxdone.min[1] || iy>iboxdone.max[1] )
{
Si.Grid( ix, iy, first, last );
for(l=first;l!=last;++l) if (!(**l).IsD())
{
ObjPtr elem=&(**l);
if (!elem->IsD())
{
if( ! _marker.IsMarked(elem))
{
if (_getPointDistance((**l), _p_obj, _minDist, t_res))
{
winner=elem;
_closestPt=t_res;
};
_marker.Mark(elem);
}
}
}
}
}
if(!winner) newradius=radius+Si.voxel.Norm();
else newradius = _minDist;
iboxdone=iboxtodo;
}
while (_minDist>radius);
return winner;
}
template <class SPATIALINDEXING,class OBJRAYISECTFUNCTOR, class OBJMARKER>
typename SPATIALINDEXING::ObjPtr GridDoRay2D(SPATIALINDEXING &_Si,
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OBJRAYISECTFUNCTOR &_rayIntersector,
OBJMARKER &_marker,
const Ray2<typename SPATIALINDEXING::ScalarType> & _ray,
const typename SPATIALINDEXING::ScalarType & _maxDist,
typename SPATIALINDEXING::ScalarType & _t)
{
typedef vcg::RayIterator2D<SPATIALINDEXING,OBJRAYISECTFUNCTOR,OBJMARKER> RayIteratorType;
RayIteratorType RayIte=RayIteratorType(_Si,_rayIntersector,_maxDist,_marker);
RayIte.Init(_ray);
if (!RayIte.End())
{
_t=RayIte.Dist();
return(&(*RayIte));
}
return NULL;
}
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}//end namespace vcg
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#endif