Milena (Olena): distance_and_closest_point

00001 // Copyright (C) 2008, 2009 EPITA Research and Development Laboratory (LRDE)
00002 //
00003 // This file is part of Olena.
00004 //
00005 // Olena is free software: you can redistribute it and/or modify it under
00006 // the terms of the GNU General Public License as published by the Free
00007 // Software Foundation, version 2 of the License.
00008 //
00009 // Olena is distributed in the hope that it will be useful,
00010 // but WITHOUT ANY WARRANTY; without even the implied warranty of
00011 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
00012 // General Public License for more details.
00013 //
00014 // You should have received a copy of the GNU General Public License
00015 // along with Olena.  If not, see <http://www.gnu.org/licenses/>.
00016 //
00017 // As a special exception, you may use this file as part of a free
00018 // software project without restriction.  Specifically, if other files
00019 // instantiate templates or use macros or inline functions from this
00020 // file, or you compile this file and link it with other files to produce
00021 // an executable, this file does not by itself cause the resulting
00022 // executable to be covered by the GNU General Public License.  This
00023 // exception does not however invalidate any other reasons why the
00024 // executable file might be covered by the GNU General Public License.
00025 
00026 #ifndef MLN_TRANSFORM_DISTANCE_AND_CLOSEST_POINT_GEODESIC_HH
00027 # define MLN_TRANSFORM_DISTANCE_AND_CLOSEST_POINT_GEODESIC_HH
00028 
00032 
00033 # include <mln/canvas/distance_geodesic.hh>
00034 # include <mln/transform/internal/closest_point_functor.hh>
00035 
00036 # include <mln/data/fill.hh>
00037 # include <mln/util/couple.hh>
00038 
00039 
00040 namespace mln
00041 {
00042 
00043   namespace transform
00044   {
00045 
00057     template <typename I, typename N, typename D>
00058     util::couple<mln_ch_value(I,D), mln_ch_value(I,mln_psite(I))>
00059     distance_and_closest_point_geodesic(const Image<I>& input,
00060                                         const Neighborhood<N>& nbh,
00061                                         D max);
00062 
00063 
00076     template <typename P, typename N, typename D>
00077     util::couple<mln_image_from_grid(mln_grid(P),D),
00078                  mln_image_from_grid(mln_grid(P),unsigned)>
00079     distance_and_closest_point_geodesic(const p_array<P>& pset,
00080                                         const box<P>& closest_point_domain,
00081                                         const Neighborhood<N>& nbh,
00082                                         D max);
00083 
00084 
00085 # ifndef MLN_INCLUDE_ONLY
00086 
00087     template <typename I, typename N, typename D>
00088     inline
00089     util::couple<mln_ch_value(I,D), mln_ch_value(I, mln_psite(I))>
00090     distance_and_closest_point_geodesic(const Image<I>& input,
00091                                         const Neighborhood<N>& nbh,
00092                                         D max)
00093     {
00094       trace::entering("transform::distance_closest_point_geodesic");
00095 
00096       mln_precondition(exact(input).is_valid());
00097       mln_precondition(exact(nbh).is_valid());
00098 
00099       internal::closest_point_functor_with_sites<I> f;
00100       mln_ch_value(I,D) dmap = mln::canvas::distance_geodesic(input, nbh,
00101                                                               max, f);
00102 
00103       trace::exiting("transform::distance_and_closest_point_geodesic");
00104       return make::couple(dmap, f.cp_ima);
00105     }
00106 
00107     template <typename P, typename N, typename D>
00108     inline
00109     util::couple<mln_image_from_grid(mln_grid(P),D), mln_image_from_grid(mln_grid(P),unsigned)>
00110     distance_and_closest_point_geodesic(const p_array<P>& pset,
00111                                         const box<P>& closest_point_domain,
00112                                         const Neighborhood<N>& nbh,
00113                                         D max)
00114     {
00115       trace::entering("transform::distance_and_closest_point_geodesic");
00116 
00117       mln_precondition(closest_point_domain.is_valid());
00118       mln_precondition(exact(nbh).is_valid());
00119       mln_precondition(geom::bbox(pset) <= closest_point_domain);
00120 
00121       typedef mln_image_from_grid(mln_grid(P), bool) I;
00122       internal::closest_point_functor_with_indexes<I> f(pset);
00123 
00124       I ima(closest_point_domain);
00125       data::fill(ima, false);
00126       data::fill((ima | pset).rw(), true);
00127 
00128       mln_ch_value(I,D) dmap = mln::canvas::distance_geodesic(ima, nbh, max, f);
00129 
00130       trace::exiting("transform::distance_and_closest_point_geodesic");
00131       return make::couple(dmap, f.cp_ima);
00132     }
00133 
00134 # endif // ! MLN_INCLUDE_ONLY
00135 
00136   } // end of namespace mln::transform
00137 
00138 } // end of namespace mln
00139 
00140 
00141 #endif // ! MLN_TRANSFORM_DISTANCE_AND_CLOSEST_POINT_GEODESIC_HH
distance_and_closest_point_geodesic.hh
