/usr/include/CGAL/Triangular_field_2.h is in libcgal-dev 4.11-2build1.
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// All rights reserved.
//
// This file is part of CGAL (www.cgal.org).
// 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 3 of the License, or (at your option) any later version.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
//
//
// Author(s) : Abdelkrim Mebarki <Abdelkrim.Mebarki@sophia.inria.fr>
#ifndef CGAL_TRIANGULAR_FIELD_2_H_
#define CGAL_TRIANGULAR_FIELD_2_H_
#include <CGAL/license/Stream_lines_2.h>
#include <CGAL/Delaunay_triangulation_2.h>
#include <CGAL/Polygon_2_algorithms.h>
#include <CGAL/squared_distance_2.h>
#include <cfloat>
#include <cstdlib>
#include <iostream>
#include <fstream>
#include <list>
#include <cmath>
#include <string>
#include <CGAL/Triangulation_face_base_with_info_2.h>
namespace CGAL {
template <class StreamLinesTraits_2>
class Triangular_field_2
{
public:
typedef Triangular_field_2<StreamLinesTraits_2> Vector_field_2;
typedef StreamLinesTraits_2 Geom_traits;
typedef typename StreamLinesTraits_2::FT FT;
typedef typename StreamLinesTraits_2::Point_2 Point_2;
typedef typename StreamLinesTraits_2::Vector_2 Vector_2;
protected:
typedef CGAL::Triangulation_vertex_base_2<StreamLinesTraits_2> Vb;
typedef CGAL::Triangulation_face_base_with_info_2<Vector_2, StreamLinesTraits_2> Fb;
typedef CGAL::Triangulation_data_structure_2<Vb,Fb> TDS;
typedef CGAL::Delaunay_triangulation_2<StreamLinesTraits_2,TDS> D_Ttr;
typedef typename D_Ttr::Vertex_handle Vertex_handle;
typedef typename TDS::Face_handle Face_handle;
public:
typedef typename D_Ttr::Vertex_iterator Vertex_iterator;
D_Ttr m_D_Ttr;
protected:
Vector_2 get_vector_field(const Point_2 & p) const;
FT get_density_field(const Point_2 & p) const;
template <class PointInputIterator, class VectorInputIterator>
void fill(PointInputIterator pBegin, PointInputIterator pEnd, VectorInputIterator vBegin)
{
std::cout << "reading file...\n";
while(pBegin != pEnd)
{
Point_2 p;
Vector_2 v;
p = (*pBegin);
v = (*vBegin);
m_D_Ttr.insert(p);
field_map[p] = v;
if (m_D_Ttr.number_of_vertices() == 1)
{
maxx = minx = p.x();
maxy = miny = p.y();
}
if(p.x()<minx)
{
minx = p.x();
}
if(p.y()<miny)
{
miny = p.y();
}
if(p.x()>maxx)
{
maxx = p.x();
}
if(p.y()>maxy)
{
maxy = p.y();
}
++pBegin;
++vBegin;
}
std::cout << "number of samples " << m_D_Ttr.number_of_vertices() << "\n";
}
public:
template <class PointInputIterator, class VectorInputIterator>
Triangular_field_2(PointInputIterator pBegin, PointInputIterator
pEnd, VectorInputIterator vBegin)
{
fill(pBegin, pEnd, vBegin);
}
inline typename Geom_traits::Iso_rectangle_2 bbox() const;
std::pair<Vector_2,FT> get_field(const Point_2 & p) const
{
CGAL_assertion(is_in_domain(p));
Vector_2 v = get_vector_field(p);
FT density = get_density_field(p);
return std::make_pair(v, density);
}
bool is_in_domain(const Point_2 & p) const;
FT get_integration_step(const Point_2 &) const;
FT get_integration_step() const;
protected:
FT minx;
FT miny;
FT maxx;
FT maxy;
protected:
mutable std::map<Point_2, Vector_2> field_map;
FT distance(const Point_2 & p, const Point_2 & q)
{
return sqrt( CGAL::squared_distance(p, q) );
}
};
template <class StreamLinesTraits_2>
inline
typename Triangular_field_2<StreamLinesTraits_2>::Geom_traits::Iso_rectangle_2
Triangular_field_2<StreamLinesTraits_2>::bbox() const
{
return typename Geom_traits::Iso_rectangle_2(minx, miny, maxx,
maxy);
}
template <class StreamLinesTraits_2>
bool
Triangular_field_2<StreamLinesTraits_2>::is_in_domain(const Point_2 &
p) const
{
Face_handle f = m_D_Ttr.locate(p);
return !m_D_Ttr.is_infinite(f);
}
template <class StreamLinesTraits_2>
typename Triangular_field_2<StreamLinesTraits_2>::Vector_2
Triangular_field_2<StreamLinesTraits_2>::get_vector_field(const
Point_2 & p)
const
{
Face_handle m_Face_handle = m_D_Ttr.locate(p);
CGAL_assertion(is_in_domain(p));
Vertex_handle v0 = m_Face_handle->vertex(0);
Vertex_handle v1 = m_Face_handle->vertex(1);
Vertex_handle v2 = m_Face_handle->vertex(2);
const Point_2 & p0 = v0->point();
const Point_2 & p1 = v1->point();
const Point_2 & p2 = v2->point();
FT s0,s1,s2,s;
std::vector<Point_2> vec;
vec.push_back(p0); vec.push_back(p1); vec.push_back(p2);
s = polygon_area_2(vec.begin(), vec.end(), m_D_Ttr.geom_traits());
vec.clear();
vec.push_back(p); vec.push_back(p1); vec.push_back(p2);
s0 = polygon_area_2(vec.begin(), vec.end(), m_D_Ttr.geom_traits());
vec.clear();
vec.push_back(p0); vec.push_back(p); vec.push_back(p2);
s1 = polygon_area_2(vec.begin(), vec.end(), m_D_Ttr.geom_traits());
vec.clear();
vec.push_back(p0); vec.push_back(p1); vec.push_back(p);
s2 = polygon_area_2(vec.begin(), vec.end(), m_D_Ttr.geom_traits());
vec.clear();
s0 = s0 / s; s1 = s1 / s; s2 = s2 / s;
Vector_2 v_0 = field_map[p0];
Vector_2 v_1 = field_map[p1];
Vector_2 v_2 = field_map[p2];
FT x = ((v_0.x()*s0)+(v_1.x()*s1)+(v_2.x()*s2));
FT y = ((v_0.y()*s0)+(v_1.y()*s1)+(v_2.y()*s2));
FT normal = sqrt((x)*(x) + (y)*(y));
if (normal != 0)
{
x = x / normal;
y = y / normal;
}
Vector_2 v = Vector_2(x, y);
return v;
}
template <class StreamLinesTraits_2>
typename Triangular_field_2<StreamLinesTraits_2>::FT
Triangular_field_2<StreamLinesTraits_2>::get_density_field(const
Point_2 &
p) const
{
return p.x();
}
template<class StreamLinesTraits_2>
typename Triangular_field_2<StreamLinesTraits_2>::FT
Triangular_field_2<StreamLinesTraits_2>::get_integration_step(const
Point_2
&) const
{
return 1.0;
}
template<class StreamLinesTraits_2>
typename Triangular_field_2<StreamLinesTraits_2>::FT
Triangular_field_2<StreamLinesTraits_2>::get_integration_step() const
{
return 1.0;
}
} //namespace CGAL
#endif
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