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added support for primitive subdivision into cells

This commit is contained in:
Nico Pietroni 2012-08-27 12:47:12 +00:00
parent 461c8e1552
commit fc97ed0e1c
1 changed files with 70 additions and 240 deletions
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306
vcg/space/index/index2D/grid_closest_2D.h
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@ -20,70 +20,7 @@
* for more details. * * for more details. *
* * * *
****************************************************************************/ ****************************************************************************/
/****************************************************************************
History
$Log: not supported by cvs2svn $
Revision 1.16 2006/10/02 09:34:03 cignoni
Re-added diff 1.12 by Pietroni (cancelled by previous rollback):
in GridDoRay function the RayIterator must be initialized with maximum distance
Revision 1.15 2006/10/02 09:28:45 cignoni
Reverted to version 1.10 to nullify dangerous marfr960's changes
Revision 1.10 2006/05/17 12:48:52 pietroni
corrected bug in GridGetInBox function
Revision 1.9 2006/01/27 09:58:47 corsini
fix signed/unsigned mismatch
Revision 1.8 2005/12/06 18:00:39 pietroni
added deleted objects control for GridClosest() function call
Revision 1.7 2005/12/02 00:30:27 cignoni
Corrected typename usage and removed excess ';' from end of template functions, for gcc compiling
Revision 1.6 2005/10/03 13:57:32 pietroni
added GridGetInSphere and GridGetInBox functions
Revision 1.5 2005/10/02 23:18:06 cignoni
Small bug in the computation of the intersection between the todo box and the grid bbox that failed for extrema points.
Revision 1.4 2005/09/30 15:12:16 cignoni
Completely rewrote the GridClosest, now it:
- works for point out of the grid
- expands the box in a distance coherent way
- does not re-visit already visited cells
- shorter code!!
( still to be tested :) )
Revision 1.3 2005/09/30 13:15:48 pietroni
added functions:
- GetKClosest
- DoRay
Revision 1.2 2005/09/28 08:27:11 cignoni
Added a control to avoid multiple check of the same cells during radial expansion
Still miss some code to properly initialize when point is out of the BBox of the grid.
Revision 1.1 2005/09/27 15:09:38 cignoni
First Version
****************************************************************************/
///** Returns the closest posistion of a point _p and its distance
//@param _p a 3d point
//@param _maxDist maximum distance not to search beyond.
//@param _getPointDistance (templated type) a functor object used to calculate distance from a grid object to the point _p.
//@param _minDist the returned closest distance
//@param _closestPt the returned closest point
//@return The closest element
//*/
///*
// A DISTFUNCT object must implement an operator () with signature:
// bool operator () (const ObjType& obj, const CoordType & _p, ScalarType & min_dist, CoordType & _closestPt);
//*/
#ifndef __VCGLIB_GRID_CLOSEST #ifndef __VCGLIB_GRID_CLOSEST
#define __VCGLIB_GRID_CLOSEST #define __VCGLIB_GRID_CLOSEST
@ -91,197 +28,29 @@ First Version
namespace vcg{ namespace vcg{
//template <class SPATIAL_INDEX, class OBJPOINTDISTFUNCTOR, class OBJMARKER>
// typename SPATIAL_INDEX::ObjPtr GridClosest(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::Box3x Box3x;
//
// Point3<ScalarType> _p = OBJPOINTDISTFUNCTOR::Pos(_p_obj);
// // Initialize min_dist with _maxDist to exploit early rejection test.
// _minDist = _maxDist;
// ObjPtr winner=NULL;
// _marker.UnMarkAll();
// ScalarType newradius = Si.voxel.Norm();
// ScalarType radius;
// Box3i iboxdone,iboxtodo;
// CoordType t_res;
// typename SPATIAL_INDEX::CellIterator first,last,l;
// if(Si.bbox.IsInEx(_p))
// {
// Point3i _ip;
// Si.PToIP(_p,_ip);
// Si.Grid( _ip[0],_ip[1],_ip[2], first, last );
// for(l=first;l!=last;++l)
// {
// ObjPtr elem=&(**l);
// if (!elem->IsD())
// {
// if (_getPointDistance((**l), _p_obj,_minDist, t_res)) // <-- NEW: use of distance functor
// {
// winner=elem;
// _closestPt=t_res;
// newradius=_minDist; //
// }
// _marker.Mark(elem);
// }
// }
// iboxdone=Box3i(_ip,_ip);
// }
// int ix,iy,iz;
// Box3i ibox(Point3i(0,0,0),Si.siz-Point3i(1,1,1));
// do
// {
// radius=newradius;
// Box3x boxtodo=Box3x(_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++)
// for (iz=iboxtodo.min[2]; iz<=iboxtodo.max[2]; iz++)
// 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] ||
// iz<iboxdone.min[2] || iz>iboxdone.max[2] )
// {
// Si.Grid( ix, iy, iz, 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;
// }
// while (_minDist>radius);
// return winner;
//}
//template <class SPATIALINDEXING,class OBJPOINTDISTFUNCTOR, class OBJMARKER,
//class OBJPTRCONTAINER, class DISTCONTAINER, class POINTCONTAINER>
// unsigned int GridGetKClosest(SPATIALINDEXING &_Si,
// OBJPOINTDISTFUNCTOR & _getPointDistance,
// OBJMARKER & _marker,
// const unsigned int _k,
// const typename SPATIALINDEXING::CoordType & _p,
// const typename SPATIALINDEXING::ScalarType & _maxDist,
// OBJPTRCONTAINER & _objectPtrs,
// DISTCONTAINER & _distances,
// POINTCONTAINER & _points)
//{
// typedef vcg::ClosestIterator<SPATIALINDEXING,OBJPOINTDISTFUNCTOR,OBJMARKER> ClosestIteratorType;
// ClosestIteratorType Cli=ClosestIteratorType(_Si,_getPointDistance);
// Cli.SetMarker(_marker);
// Cli.Init(_p,_maxDist);
// unsigned int i=0;
// _objectPtrs.clear();
// _distances.clear();
// _points.clear();
// while ((!Cli.End())&&(i<_k))
// {
// _objectPtrs.push_back(&(*Cli));
// _distances.push_back(Cli.Dist());
// _points.push_back(Cli.NearestPoint());
// ++Cli;
// i++;
// }
// return (i);
//}
//template <class SPATIALINDEXING,class OBJRAYISECTFUNCTOR, class OBJMARKER>
// typename SPATIALINDEXING::ObjPtr GridDoRay(SPATIALINDEXING &_Si,
// OBJRAYISECTFUNCTOR &_rayIntersector,
// OBJMARKER &_marker,
// const Ray3<typename SPATIALINDEXING::ScalarType> & _ray,
// const typename SPATIALINDEXING::ScalarType & _maxDist,
// typename SPATIALINDEXING::ScalarType & _t)
//{
// typedef vcg::RayIterator<SPATIALINDEXING,OBJRAYISECTFUNCTOR,OBJMARKER> RayIteratorType;
// RayIteratorType RayIte=RayIteratorType(_Si,_rayIntersector,_maxDist);
// RayIte.SetMarker(_marker);
// RayIte.Init(_ray);
// if (!RayIte.End())
// {
// _t=RayIte.Dist();
// return(&(*RayIte));
// }
// return 0;
//}
//
//template <class SPATIALINDEXING, class OBJPOINTDISTFUNCTOR, class OBJMARKER, class OBJPTRCONTAINER, class DISTCONTAINER, class POINTCONTAINER>
// unsigned int GridGetInSphere(SPATIALINDEXING &_Si,
// OBJPOINTDISTFUNCTOR & _getPointDistance,
// OBJMARKER & _marker,
// const typename SPATIALINDEXING::CoordType & _p,
// const typename SPATIALINDEXING::ScalarType & _r,
// OBJPTRCONTAINER & _objectPtrs,
// DISTCONTAINER & _distances,
// POINTCONTAINER & _points)
//{
// typedef vcg::ClosestIterator<SPATIALINDEXING,OBJPOINTDISTFUNCTOR,OBJMARKER> ClosestIteratorType;
// ClosestIteratorType Cli=ClosestIteratorType(_Si,_getPointDistance);
// Cli.SetMarker(_marker);
// Cli.Init(_p,_r);
// _objectPtrs.clear();
// _distances.clear();
// _points.clear();
// while (!Cli.End())
// {
// _objectPtrs.push_back(&(*Cli));
// _distances.push_back(Cli.Dist());
// _points.push_back(Cli.NearestPoint());
// ++Cli;
// }
// return ((int)_objectPtrs.size());
// }
template <class SPATIALINDEXING,class OBJMARKER, class OBJPTRCONTAINER> template <class SPATIALINDEXING,class OBJMARKER, class OBJPTRCONTAINER>
unsigned int GridGetInBox2D(SPATIALINDEXING &_Si, unsigned int GridGetInBox2D(SPATIALINDEXING &_Si,
OBJMARKER & _marker, OBJMARKER & _marker,
const vcg::Box2<typename SPATIALINDEXING::ScalarType> &_bbox, const vcg::Box2<typename SPATIALINDEXING::ScalarType> &_bbox,
OBJPTRCONTAINER & _objectPtrs) OBJPTRCONTAINER & _objectPtrs,
bool update_global_mark=true)
{ {
typename SPATIALINDEXING::CellIterator first,last,l; typename SPATIALINDEXING::CellIterator first,last,l;
_objectPtrs.clear(); //_objectPtrs.clear();
vcg::Box2i ibbox; vcg::Box2i ibbox;
Box2i Si_ibox(Point2i(0,0),_Si.siz-Point2i(1,1)); Box2i Si_ibox(Point2i(0,0),_Si.siz-Point2i(1,1));
_Si.BoxToIBox(_bbox, ibbox); _Si.BoxToIBox(_bbox, ibbox);
ibbox.Intersect(Si_ibox); ibbox.Intersect(Si_ibox);
if (update_global_mark)
_marker.UnMarkAll(); _marker.UnMarkAll();
if (ibbox.IsNull()) if (ibbox.IsNull())
return 0; return 0;
else else
{ {
int ix,iy,iz; int ix,iy;
for (ix=ibbox.min[0]; ix<=ibbox.max[0]; ix++) for (ix=ibbox.min[0]; ix<=ibbox.max[0]; ix++)
for (iy=ibbox.min[1]; iy<=ibbox.max[1]; iy++) for (iy=ibbox.min[1]; iy<=ibbox.max[1]; iy++)
{ {
@ -302,6 +71,67 @@ namespace vcg{
} }
} }
/*template <class SPATIALINDEXING,class OBJMARKER, class OBJPTRCONTAINER>
unsigned int GridGetInBoxes2D(SPATIALINDEXING &_Si,
OBJMARKER & _marker,
const std::vector<vcg::Box2<typename SPATIALINDEXING::ScalarType> > &_bbox,
OBJPTRCONTAINER & _objectPtrs)
{
typename SPATIALINDEXING::CellIterator first,last,l;
_objectPtrs.clear();
_marker.UnMarkAll();
for (int i=0;i<_bbox.size();i++)
GridGetInBox2D(_Si,_marker,_bbox[i],_objectPtrs,false);
return (static_cast<unsigned int>(_objectPtrs.size()));
}*/
template <class SPATIALINDEXING,class OBJMARKER, class OBJPTRCONTAINER>
unsigned int GridGetInBoxes2D(SPATIALINDEXING &_Si,
OBJMARKER & _marker,
const std::vector<vcg::Box2<typename SPATIALINDEXING::ScalarType> > &_bbox,
OBJPTRCONTAINER & _objectPtrs)
{
typename SPATIALINDEXING::CellIterator first,last,l;
_objectPtrs.clear();
_marker.UnMarkAll();
std::vector<vcg::Point2i> cells;
for (int i=0;i<_bbox.size();i++)
{
vcg::Box2i ibbox;
Box2i Si_ibox(Point2i(0,0),_Si.siz-Point2i(1,1));
_Si.BoxToIBox(_bbox[i], ibbox);
ibbox.Intersect(Si_ibox);
if (ibbox.IsNull())continue;
int ix,iy;
for (ix=ibbox.min[0]; ix<=ibbox.max[0]; ix++)
for (iy=ibbox.min[1]; iy<=ibbox.max[1]; iy++)
cells.push_back(vcg::Point2i(ix,iy));
}
//printf("%d \n",cells.size());
std::sort(cells.begin(),cells.end());
std::vector<vcg::Point2i>::iterator it=std::unique(cells.begin(),cells.end());
cells.resize( it - cells.begin() );
for (int i=0;i<cells.size();i++)
{
_Si.Grid( cells[i].X(), cells[i].Y(), first, last );
for(l=first;l!=last;++l)
if (!(**l).IsD())
{
typename SPATIALINDEXING::ObjPtr elem=&(**l);
if ( ! _marker.IsMarked(elem))
{
_objectPtrs.push_back(elem);
_marker.Mark(elem);
}
}
}
return (static_cast<unsigned int>(_objectPtrs.size()));
}
}//end namespace vcg }//end namespace vcg
#endif #endif