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/****************************************************************************
* VCGLib o o *
* Visual and Computer Graphics Library o o *
* _ O _ *
* Copyright(C) 2004 \/)\/ *
* 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: gen_normal.h,v $
Revision 1.2 2006/08/12 04:28:00 tarini
Better AO prediction. New icon.
Revision 1.1 2006/07/27 07:05:25 cignoni
*** empty log message ***
Revision 1.1 2006/06/07 15:15:46 tarini
*** empty log message ***
Revision 1.4 2006/03/23 07:55:54 cignoni
*** empty log message ***
Revision 1.3 2006/03/21 12:05:35 cignoni
*** empty log message ***
Revision 1.2 2006/03/21 11:47:16 cignoni
*** empty log message ***
Revision 1.1 2006/03/21 10:39:45 cignoni
*** empty log message ***
Revision 1.4 2004/09/28 09:43:46 cignoni
minor changes
Revision 1.3 2004/09/16 14:23:57 ponchio
fixed gcc template compatibility issues.
Revision 1.2 2004/09/10 14:02:20 cignoni
Added Cone directions
Revision 1.1 2004/09/09 22:38:57 cignoni
Initial Update
****************************************************************************/
#ifndef __VCG_GEN_NORMAL
#define __VCG_GEN_NORMAL
#include <wrap/gl/math.h>
#include <algorithm>
namespace vcg {
template <class ScalarType>
class GenNormal
{
public:
typedef Point3<ScalarType> Point3x;
static void Random(int vn, std::vector<Point3<ScalarType > > &NN)
{
NN.clear();
while(NN.size()<vn)
{
Point3x pp(((float)rand())/RAND_MAX,
((float)rand())/RAND_MAX,
((float)rand())/RAND_MAX);
pp=pp*2.0-Point3x(1,1,1);
if(pp.SquaredNorm()<1)
{
Normalize(pp);
NN.push_back(pp);
}
}
}
static void UniformCone(int vn, std::vector<Point3<ScalarType > > &NN, ScalarType AngleRad, Point3x dir=Point3x(0,1,0))
{
std::vector<Point3<ScalarType > > NNT;
NN.clear();
// per prima cosa si calcola il volume della spherical cap di angolo AngleRad
ScalarType Height= 1.0 - cos(AngleRad); // height is measured from top...
// Surface is the one of the tangent cylinder
ScalarType CapArea = 2.0*M_PI*Height;
ScalarType Ratio = CapArea / (4.0*M_PI );
printf("----------AngleRad %f Angledeg %f ratio %f vn %i vn2 %i \n",AngleRad,math::ToDeg(AngleRad),Ratio,vn,int(vn/Ratio));
Uniform(vn/Ratio,NNT);
printf("asked %i got %i (expecting %i instead of %i)\n", int(vn/Ratio), NNT.size(), int(NNT.size()*Ratio), vn);
typename std::vector<Point3<ScalarType> >::iterator vi;
ScalarType DotProd = cos(AngleRad);
for(vi=NNT.begin();vi!=NNT.end();++vi)
{
if(dir*(*vi) >= DotProd) NN.push_back(*vi);
}
}
static void Uniform(int vn, std::vector<Point3<ScalarType > > &NN)
{
OctaLevel pp;
int ll=10;
while(pow(4.0f,ll)+2>vn) ll--;
pp.Init(ll);
sort(pp.v.begin(),pp.v.end());
int newsize = unique(pp.v.begin(),pp.v.end())-pp.v.begin();
pp.v.resize(newsize);
NN=pp.v;
Perturb(NN);
}
static void Perturb(std::vector<Point3<ScalarType > > &NN)
{
float width=0.25f/sqrt(float(NN.size()));
typename std::vector<Point3<ScalarType> >::iterator vi;
for(vi=NN.begin(); vi!=NN.end();++vi)
{
Point3x pp(((float)rand())/RAND_MAX,
((float)rand())/RAND_MAX,
((float)rand())/RAND_MAX);
pp=pp*2.0-Point3x(1,1,1);
pp*=width;
(*vi)+=pp;
(*vi).Normalize();
}
}
private :
class OctaLevel
{
public:
std::vector<Point3x> v;
int level;
int sz;
Point3f &Val(int i, int j) {
assert(i>=0 && i<sz);
assert(j>=0 && j<sz);
return v[i+j*sz];
}
void Init(int lev)
{
sz=int(pow(2.0f,lev+1)+1);
v.resize(sz*sz);
if(lev==0)
{
Val(0,0)=Point3x( 0, 0,-1); Val(0,1)=Point3x( 0, 1, 0); Val(0,2)=Point3x( 0, 0,-1);
Val(1,0)=Point3x(-1, 0, 0); Val(1,1)=Point3x( 0, 0, 1); Val(1,2)=Point3x( 1, 0, 0);
Val(2,0)=Point3x( 0, 0,-1); Val(2,1)=Point3x( 0,-1, 0); Val(2,2)=Point3x( 0, 0,-1);
}
else
{
OctaLevel tmp;
tmp.Init(lev-1);
int i,j;
for(i=0;i<sz;++i)
for(j=0;j<sz;++j)
{
if((i%2)==0 && (j%2)==0)
Val(i,j)=tmp.Val(i/2,j/2);
if((i%2)!=0 && (j%2)==0)
Val(i,j)=(tmp.Val(i/2+0,j/2)+tmp.Val(i/2+1,j/2))/2.0;
if((i%2)==0 && (j%2)!=0)
Val(i,j)=(tmp.Val(i/2,j/2+0)+tmp.Val(i/2,j/2+1))/2.0;
if((i%2)!=0 && (j%2)!=0)
Val(i,j)=(tmp.Val(i/2+0,j/2+0)+tmp.Val(i/2+0,j/2+1)+tmp.Val(i/2+1,j/2+0)+tmp.Val(i/2+1,j/2+1))/4.0;
}
typename std::vector<Point3<ScalarType> >::iterator vi;
for(vi=v.begin(); vi!=v.end();++vi)
(*vi).Normalize();
}
}
};
};
}
#endif
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