vcglib/vcg/space/index/grid_util.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. *
* *
****************************************************************************/
/****************************************************************************
History
$Log: not supported by cvs2svn $
2006-08-23 17:21:35 +02:00
Revision 1.9 2005/12/02 00:27:22 cignoni
removed excess typenames
2005-12-02 01:27:22 +01:00
Revision 1.8 2005/10/03 16:21:10 spinelli
erase wrong assert on boxToIbox function
Revision 1.7 2005/10/02 23:16:26 cignoni
English comment and moved typedef to public scope
Revision 1.6 2005/09/30 13:12:46 pietroni
basic grid class is derived from Indexing base class defined in base,h
Revision 1.5 2005/09/16 11:56:38 cignoni
removed wrong typename and added ending \n
Revision 1.4 2005/08/02 11:01:05 pietroni
added IPToP and IBoxToBox functions, modified BoxToIBox function in order to use PToIP function
Revision 1.3 2005/07/28 06:11:12 cignoni
corrected error in GridP (did not compile)
Revision 1.2 2005/07/01 11:33:36 cignoni
Added a class BasicGrid with some utility function that are scattered among similar classes
Revision 1.1 2005/03/15 11:43:18 cignoni
Removed BestDim function from the grid_static_ptr class and moved to a indipendent file (grid_util.h) for sake of generality.
****************************************************************************/
#ifndef __VCGLIB_GRID_UTIL
#define __VCGLIB_GRID_UTIL
#include<vcg/space/index/base.h>
#include<vcg/space/box3.h>
#include <vcg/space/index/space_iterators.h>
namespace vcg {
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/** BasicGrid
Basic Class abstracting a gridded structure in a 3d space;
Usueful for having coherent float to integer conversion in a unique place:
Some Notes:
- bbox is the real occupation of the box in the space;
- siz is the number of cells for each side
OBJTYPE: Type of the indexed objects.
SCALARTYPE: Scalars type for structure's internal data (may differ from
object's scalar type).
*/
template <class OBJTYPE, class SCALARTYPE>
class BasicGrid:public SpatialIndex<OBJTYPE,SCALARTYPE>
{
public:
typedef SCALARTYPE ScalarType;
typedef Box3<ScalarType> Box3x;
typedef Point3<ScalarType> CoordType;
typedef OBJTYPE ObjType;
typedef OBJTYPE* ObjPtr;
typedef BasicGrid<OBJTYPE,SCALARTYPE> GridType;
Box3x bbox;
CoordType dim; /// Spatial Dimention (edge legth) of the bounding box
Point3i siz; /// Number of cells forming the grid
CoordType voxel; /// Dimensions of a single cell
/* Given a 3D point, returns the coordinates of the cell where the point is
* @param p is a 3D point
* @return integer coordinates of the cell
*/
inline Point3i GridP( const Point3<ScalarType> & p ) const
{
Point3i pi;
PToIP(p, pi);
return pi;
}
/* Given a 3D point p, returns the index of the corresponding cell
* @param p is a 3D point in the space
* @return integer coordinates pi of the cell
*/
inline void PToIP(const CoordType & p, Point3i &pi ) const
{
CoordType t = p - bbox.min;
pi[0] = int( t[0] / voxel[0] );
pi[1] = int( t[1] / voxel[1] );
pi[2] = int( t[2] / voxel[2] );
}
/* Given a cell index return the lower corner of the cell
* @param integer coordinates pi of the cell
* @return p is a 3D point representing the lower corner of the cell
*/
inline void IPToP(const Point3i & pi, CoordType &p ) const
{
p[0] = ((ScalarType)pi[0])*voxel[0];
p[1] = ((ScalarType)pi[1])*voxel[1];
p[2] = ((ScalarType)pi[2])*voxel[2];
p += bbox.min;
}
/* Given a cell in <ScalarType> coordinates, compute the corresponding cell in integer coordinates
* @param b is the cell in <ScalarType> coordinates
* @return ib is the correspondent box in integer coordinates
*/
void BoxToIBox( const Box3x & b, Box3i & ib ) const
{
PToIP(b.min, ib.min);
PToIP(b.max, ib.max);
//assert(ib.max[0]>=0 && ib.max[1]>=0 && ib.max[2]>=0);
}
/* Given a cell in integer coordinates, compute the corresponding cell in <ScalarType> coordinates
* @param ib is the cell in integer coordinates
* @return b is the correspondent box in <ScalarType> coordinates
*/
/// Dato un box in voxel ritorna gli estremi del box reale
void IBoxToBox( const Box3i & ib, Box3x & b ) const
{
IPtoP(ib.min,b.min);
IPtoP(ib.max,b.max);
}
};
/** Calcolo dimensioni griglia.
Calcola la dimensione della griglia in funzione
della ratio del bounding box e del numero di elementi
*/
template<class scalar_type>
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void BestDim( const int elems, const Point3<scalar_type> & size, Point3i & dim )
{
const int mincells = 1; // Numero minimo di celle
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const double GFactor = 1; // GridEntry = NumElem*GFactor
double diag = size.Norm(); // Diagonale del box
double eps = diag*1e-4; // Fattore di tolleranza
assert(elems>0);
assert(size[0]>=0.0);
assert(size[1]>=0.0);
assert(size[2]>=0.0);
int ncell = int(elems*GFactor); // Calcolo numero di voxel
if(ncell<mincells)
ncell = mincells;
dim[0] = 1;
dim[1] = 1;
dim[2] = 1;
if(size[0]>eps)
{
if(size[1]>eps)
{
if(size[2]>eps)
{
double k = pow((double)(ncell/(size[0]*size[1]*size[2])),double(1.0/3.f));
dim[0] = int(size[0] * k);
dim[1] = int(size[1] * k);
dim[2] = int(size[2] * k);
}
else
{
dim[0] = int(::sqrt(ncell*size[0]/size[1]));
dim[1] = int(::sqrt(ncell*size[1]/size[0]));
}
}
else
{
if(size[2]>eps)
{
dim[0] = int(::sqrt(ncell*size[0]/size[2]));
dim[2] = int(::sqrt(ncell*size[2]/size[0]));
}
else
dim[0] = int(ncell);
}
}
else
{
if(size[1]>eps)
{
if(size[2]>eps)
{
dim[1] = int(::sqrt(ncell*size[1]/size[2]));
dim[2] = int(::sqrt(ncell*size[2]/size[1]));
}
else
dim[1] = int(ncell);
}
else if(size[2]>eps)
dim[2] = int(ncell);
}
dim[0] = math::Max(dim[0],1);
dim[1] = math::Max(dim[1],1);
dim[2] = math::Max(dim[2],1);
}
}
#endif