test is manifold

git-svn-id: svn+ssh://scm.gforge.inria.fr/svnroot/gudhi/trunk@437 636b058d-ea47-450e-bf9e-a15bfbe3eedb

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1 files changed, 137 insertions, 0 deletions

diff --git a/src/GudhUI/utils/Critical_points.h b/src/GudhUI/utils/Critical_points.h
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+/*
+ * Critical_points.h
+ *  Created on: Jan 27, 2015
+ * This file is part of the Gudhi Library. The Gudhi library 
+ *    (Geometric Understanding in Higher Dimensions) is a generic C++ 
+ *    library for computational topology.
+ *
+ *    Author(s):       David Salinas
+ *
+ *    Copyright (C) 2014  INRIA Sophia Antipolis-Méditerranée (France)
+ *
+ *    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 3 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 for more details.
+ *
+ *    You should have received a copy of the GNU General Public License
+ *    along with this program.  If not, see <http://www.gnu.org/licenses/>.
+ * 
+ */
+
+
+#ifndef CRITICAL_POINTS_H_
+#define CRITICAL_POINTS_H_
+
+#include <deque>
+#include "utils/Edge_contractor.h"
+
+/**
+ * Iteratively tries to anticollapse smallest edge non added so far.
+ * If its link is contractible then no topological change and else possible topological change.
+ *
+ * todo do a sparsification with some parameter eps while growing
+ */
+template<typename SkBlComplex> class Critical_points{
+private:
+	SkBlComplex filled_complex_;
+	const SkBlComplex& input_complex_;
+	double max_length_;
+	std::ostream& stream_;
+public:
+	typedef typename SkBlComplex::Vertex_handle Vertex_handle;
+	typedef typename SkBlComplex::Edge_handle Edge_handle;
+	typedef typename std::pair<Vertex_handle,Vertex_handle> Edge;
+
+	/**
+	 * @brief check all pair of points with length smaller than max_length
+	 */
+	Critical_points(const SkBlComplex& input_complex,std::ostream& stream,double max_length):
+		input_complex_(input_complex),max_length_(max_length),stream_(stream)
+	{
+
+		std::deque<Edge> edges;
+		auto vertices = input_complex.vertex_range();
+		for(auto p = vertices.begin(); p!= vertices.end(); ++p){
+			filled_complex_.add_vertex(input_complex.point(*p));
+			for (auto q = p; ++q != vertices.end(); /**/)
+				if (squared_eucl_distance(input_complex.point(*p),input_complex.point(*q)) < max_length_*max_length_)
+					edges.emplace_back(*p,*q);
+		}
+
+		std::sort(edges.begin(),edges.end(),
+				[&](Edge e1,Edge e2){
+			return squared_edge_length(e1) < squared_edge_length(e2);
+		});
+
+		anti_collapse_edges(edges);
+
+	}
+
+private:
+	double squared_eucl_distance(const Point& p1,const Point& p2) const{
+		return Geometry_trait::Squared_distance_d()(p1,p2);
+	}
+
+
+	void anti_collapse_edges(const std::deque<Edge>& edges){
+		unsigned pos = 0;
+		for(Edge e : edges){
+			std::cout<<"edge "<<pos++<<"/"<<edges.size()<<"\n";
+			auto eh = filled_complex_.add_edge(e.first,e.second);
+			int is_contractible(is_link_reducible(eh));
+
+			switch (is_contractible) {
+				case 0:
+					stream_<<"alpha="<<std::sqrt(squared_edge_length(e))<< " topological change"<<std::endl;
+					break;
+				case 2:
+					stream_<<"alpha="<<std::sqrt(squared_edge_length(e))<< " maybe a topological change"<<std::endl;
+					break;
+				default:
+					break;
+			}
+		}
+
+	}
+
+
+	//0 -> not
+	//1 -> yes
+	//2 -> maybe
+	int is_link_reducible(Edge_handle e){
+		auto link = filled_complex_.link(e);
+
+		if(link.empty()) return 0;
+
+		Edge_contractor<Complex> contractor(link,link.num_vertices()-1);
+
+		if(link.num_connected_components()>1) return 0; //one than more CC -> not contractible
+
+		if (link.num_vertices()==1) return 1; //reduced to one point -> contractible
+		else return 2; //we dont know
+	}
+
+
+	double squared_edge_length(Edge_handle e) const{
+		return squared_eucl_distance(input_complex_.point(input_complex_.first_vertex(e)),input_complex_.point(input_complex_.second_vertex(e)));
+	}
+
+	double squared_edge_length(Edge e) const{
+		return squared_eucl_distance(input_complex_.point(e.first),input_complex_.point(e.second));
+	}
+
+
+
+};
+
+
+
+
+
+#endif /* CRITICAL_POINTS_H_ */