235 lines
6.7 KiB
C++
235 lines
6.7 KiB
C++
// Copyright (c) 2005 INRIA Sophia-Antipolis (France).
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// All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org).
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//
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// $URL: https://github.com/CGAL/cgal/blob/v5.1/Stream_lines_2/include/CGAL/Regular_grid_2.h $
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// $Id: Regular_grid_2.h 0779373 2020-03-26T13:31:46+01:00 Sébastien Loriot
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// SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-Commercial
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//
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//
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// Author(s) : Abdelkrim Mebarki <Abdelkrim.Mebarki@sophia.inria.fr>
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#ifndef CGAL_REGULAR_GRID_2_H_
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#define CGAL_REGULAR_GRID_2_H_
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#include <CGAL/license/Stream_lines_2.h>
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#include <CGAL/basic.h>
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#include <CGAL/streamlines_assertions.h>
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#include <boost/shared_ptr.hpp>
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#include <vector>
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namespace CGAL {
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// The class Regular_grid_2 provides a rectangular visualization
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// domain, with a vector field defined on a regular grid, and also a
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// bilinear interpolation to extract the vector field values
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template <class StreamLinesTraits_2>
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class Regular_grid_2
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{
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public:
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typedef Regular_grid_2<StreamLinesTraits_2> Vector_field_2;
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typedef StreamLinesTraits_2 Geom_traits;
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typedef typename StreamLinesTraits_2::FT FT;
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typedef typename StreamLinesTraits_2::Point_2 Point_2;
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typedef typename StreamLinesTraits_2::Vector_2 Vector_2;
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protected:
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boost::shared_ptr< std::vector<FT> > vector_field;
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inline int get_index(int i,int j) const;
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int number_of_samples_x;
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int number_of_samples_y;
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FT domain_size_x;
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FT domain_size_y;
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Vector_2 get_vector_field(const Point_2 & p) const;
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FT get_density_field(const Point_2 & p) const;
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bool is_in_samples(int i,int j) const;
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public:
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Regular_grid_2(int m, int n,const FT & x, const FT & y);
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// Regular_grid_2();
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~Regular_grid_2()
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{}
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inline typename Geom_traits::Iso_rectangle_2 bbox() const;
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std::pair<Vector_2,FT>
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get_field(const Point_2 & p) const
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{
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CGAL_streamlines_precondition(is_in_domain(p));
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Vector_2 v = get_vector_field(p);
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FT density = get_density_field(p);
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return std::pair<Vector_2, FT>(v,density);
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}
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inline bool is_in_domain(const Point_2 & p) const;
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inline FT get_integration_step(const Point_2 &) const;
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inline FT get_integration_step() const;
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inline void set_field(int i, int j, const Vector_2 & v);
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inline Vector_2 get_field(int i, int j) const;
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inline std::pair<int, int> get_dimension()
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{
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return std::pair<int, int>(number_of_samples_x, number_of_samples_y);
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}
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inline std::pair<FT, FT> get_size()
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{
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return std::pair<FT,
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FT>(domain_size_x,
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domain_size_y);
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}
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inline FT container_value(int i) const
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{
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if (i < 2*number_of_samples_x*number_of_samples_y)
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return (*vector_field)[i];
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else
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return 0.0;
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}
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};
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template <class StreamLinesTraits_2>
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inline
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typename Regular_grid_2<StreamLinesTraits_2>::Geom_traits::Iso_rectangle_2
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Regular_grid_2<StreamLinesTraits_2>::bbox() const
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{
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return typename Geom_traits::Iso_rectangle_2(0.0, 0.0,
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domain_size_x,
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domain_size_y);
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}
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template <class StreamLinesTraits_2>
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inline int
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Regular_grid_2<StreamLinesTraits_2>::get_index(int i, int j) const
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{
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return 2*(number_of_samples_x*j + i);
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}
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template <class StreamLinesTraits_2>
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Regular_grid_2<StreamLinesTraits_2>::Regular_grid_2(int m,
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int
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n,const FT & x,
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const FT & y)
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{
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number_of_samples_x = m;
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number_of_samples_y = n;
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domain_size_x = x;
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domain_size_y = y;
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vector_field = boost::shared_ptr<std::vector<FT> >(new std::vector<FT>(number_of_samples_x*number_of_samples_y* 2));
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}
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template <class StreamLinesTraits_2>
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inline typename Regular_grid_2<StreamLinesTraits_2>::Vector_2
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Regular_grid_2<StreamLinesTraits_2>::get_field(int i, int j) const
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{
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CGAL_streamlines_precondition(is_in_samples(i,j));
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int index = get_index(i,j);
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return Vector_2((*vector_field)[index], (*vector_field)[index+1]);
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}
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template <class StreamLinesTraits_2>
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inline void
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Regular_grid_2<StreamLinesTraits_2>::set_field(int i,
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int j, const Vector_2
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& v)
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{
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CGAL_streamlines_precondition(is_in_samples(i,j));
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int index = get_index(i,j);
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(*vector_field)[index++] = v.x();
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(*vector_field)[index] = v.y();
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}
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template <class StreamLinesTraits_2>
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inline bool
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Regular_grid_2<StreamLinesTraits_2>::is_in_domain(const Point_2 & p)
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const
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{
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return ((p.x()>=0.0) && (p.x()<=domain_size_x) && (p.y()>=0.0) &&
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(p.y()<=domain_size_y));
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}
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template <class StreamLinesTraits_2>
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bool
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Regular_grid_2<StreamLinesTraits_2>::is_in_samples(int i,
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int j)
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const
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{
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return ((i>=0) && (i<=number_of_samples_x-1) && (j>=0) &&
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(j<=number_of_samples_y-1));
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}
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template <class StreamLinesTraits_2>
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typename Regular_grid_2<StreamLinesTraits_2>::Vector_2
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Regular_grid_2<StreamLinesTraits_2>::get_vector_field(const Point_2 &
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p) const
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{
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FT fXv,fYv;
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FT x = (p.x() / domain_size_x) * (number_of_samples_x-1);
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FT y = (p.y() / domain_size_y) * (number_of_samples_y-1);
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int i = (int) x;
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int j = (int) y;
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FT xfract = x - (FT) i;
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FT yfract = y - (FT) j;
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int iIndex_1 = get_index(i,j);
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int iIndex_2 = get_index(i+1,j);
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int iIndex_3 = get_index(i,j+1);
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int iIndex_4 = get_index(i+1,j+1);
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FT x00 = container_value(iIndex_1);
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FT x01 = container_value(iIndex_2);
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FT x10 = container_value(iIndex_3);
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FT x11 = container_value(iIndex_4);
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FT x0 = x00 + xfract * (x01 - x00);
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FT x1 = x10 + xfract * (x11 - x10);
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fXv = x0 + yfract * (x1 - x0);
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iIndex_1++;
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iIndex_2++;
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iIndex_3++;
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iIndex_4++;
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FT y00 = container_value(iIndex_1);
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FT y01 = container_value(iIndex_2);
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FT y10 = container_value(iIndex_3);
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FT y11 = container_value(iIndex_4);
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FT y0 = y00 + xfract * (y01 - y00);
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FT y1 = y10 + xfract * (y11 - y10);
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fYv = y0 + yfract * (y1 - y0);
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// normalization step
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FT normal = sqrt((fXv)*(fXv) + (fYv)*(fYv));
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fXv = fXv / normal;
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fYv = fYv / normal;
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Vector_2 v = Vector_2(fXv, fYv);
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return v;
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}
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template <class StreamLinesTraits_2>
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typename Regular_grid_2<StreamLinesTraits_2>::FT
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Regular_grid_2<StreamLinesTraits_2>::get_density_field(const Point_2 & ) const
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{
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return 1.0;
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}
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template<class StreamLinesTraits_2>
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inline
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typename Regular_grid_2<StreamLinesTraits_2>::FT
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Regular_grid_2<StreamLinesTraits_2>::get_integration_step(const Point_2 &)
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const
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{
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return 1.0;
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}
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template<class StreamLinesTraits_2>
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inline
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typename Regular_grid_2<StreamLinesTraits_2>::FT
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Regular_grid_2<StreamLinesTraits_2>::get_integration_step() const
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{
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return 1.0;
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}
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} //namespace CGAL
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#endif
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