tools/lgf-gen.cc
author Balazs Dezso <deba@inf.elte.hu>
Wed, 17 Mar 2010 12:35:52 +0100
changeset 955 7f6e2bd76654
parent 670 7c1324b35d89
child 1308 89e1877e335f
permissions -rw-r--r--
Fix multiple executions in matchings (fract. mathcings) (#356)
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2009
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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/// \ingroup tools
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/// \file
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/// \brief Special plane graph generator.
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///
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/// Graph generator application for various types of plane graphs.
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///
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/// See
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/// \code
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///   lgf-gen --help
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/// \endcode
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/// for more information on the usage.
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#include <algorithm>
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#include <set>
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#include <ctime>
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#include <lemon/list_graph.h>
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#include <lemon/random.h>
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#include <lemon/dim2.h>
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#include <lemon/bfs.h>
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#include <lemon/counter.h>
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#include <lemon/suurballe.h>
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#include <lemon/graph_to_eps.h>
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#include <lemon/lgf_writer.h>
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#include <lemon/arg_parser.h>
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#include <lemon/euler.h>
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#include <lemon/math.h>
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#include <lemon/kruskal.h>
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#include <lemon/time_measure.h>
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using namespace lemon;
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typedef dim2::Point<double> Point;
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GRAPH_TYPEDEFS(ListGraph);
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bool progress=true;
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int N;
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// int girth;
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ListGraph g;
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std::vector<Node> nodes;
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ListGraph::NodeMap<Point> coords(g);
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double totalLen(){
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  double tlen=0;
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  for(EdgeIt e(g);e!=INVALID;++e)
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    tlen+=std::sqrt((coords[g.v(e)]-coords[g.u(e)]).normSquare());
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  return tlen;
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}
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int tsp_impr_num=0;
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const double EPSILON=1e-8;
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bool tsp_improve(Node u, Node v)
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{
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  double luv=std::sqrt((coords[v]-coords[u]).normSquare());
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  Node u2=u;
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  Node v2=v;
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  do {
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    Node n;
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    for(IncEdgeIt e(g,v2);(n=g.runningNode(e))==u2;++e) { }
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    u2=v2;
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    v2=n;
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    if(luv+std::sqrt((coords[v2]-coords[u2]).normSquare())-EPSILON>
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       std::sqrt((coords[u]-coords[u2]).normSquare())+
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       std::sqrt((coords[v]-coords[v2]).normSquare()))
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      {
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         g.erase(findEdge(g,u,v));
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         g.erase(findEdge(g,u2,v2));
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        g.addEdge(u2,u);
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        g.addEdge(v,v2);
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        tsp_impr_num++;
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        return true;
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      }
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  } while(v2!=u);
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  return false;
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}
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bool tsp_improve(Node u)
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{
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  for(IncEdgeIt e(g,u);e!=INVALID;++e)
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    if(tsp_improve(u,g.runningNode(e))) return true;
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  return false;
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}
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void tsp_improve()
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{
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  bool b;
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  do {
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    b=false;
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    for(NodeIt n(g);n!=INVALID;++n)
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      if(tsp_improve(n)) b=true;
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  } while(b);
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}
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void tsp()
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{
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  for(int i=0;i<N;i++) g.addEdge(nodes[i],nodes[(i+1)%N]);
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  tsp_improve();
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}
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class Line
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{
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public:
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  Point a;
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  Point b;
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  Line(Point _a,Point _b) :a(_a),b(_b) {}
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  Line(Node _a,Node _b) : a(coords[_a]),b(coords[_b]) {}
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  Line(const Arc &e) : a(coords[g.source(e)]),b(coords[g.target(e)]) {}
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  Line(const Edge &e) : a(coords[g.u(e)]),b(coords[g.v(e)]) {}
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};
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inline std::ostream& operator<<(std::ostream &os, const Line &l)
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{
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  os << l.a << "->" << l.b;
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  return os;
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}
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bool cross(Line a, Line b)
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{
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  Point ao=rot90(a.b-a.a);
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  Point bo=rot90(b.b-b.a);
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  return (ao*(b.a-a.a))*(ao*(b.b-a.a))<0 &&
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    (bo*(a.a-b.a))*(bo*(a.b-b.a))<0;
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}
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struct Parc
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{
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  Node a;
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  Node b;
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  double len;
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};
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bool pedgeLess(Parc a,Parc b)
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{
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  return a.len<b.len;
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}
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std::vector<Edge> arcs;
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namespace _delaunay_bits {
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  struct Part {
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    int prev, curr, next;
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    Part(int p, int c, int n) : prev(p), curr(c), next(n) {}
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  };
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  inline std::ostream& operator<<(std::ostream& os, const Part& part) {
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    os << '(' << part.prev << ',' << part.curr << ',' << part.next << ')';
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    return os;
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  }
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  inline double circle_point(const Point& p, const Point& q, const Point& r) {
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    double a = p.x * (q.y - r.y) + q.x * (r.y - p.y) + r.x * (p.y - q.y);
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    if (a == 0) return std::numeric_limits<double>::quiet_NaN();
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    double d = (p.x * p.x + p.y * p.y) * (q.y - r.y) +
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      (q.x * q.x + q.y * q.y) * (r.y - p.y) +
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      (r.x * r.x + r.y * r.y) * (p.y - q.y);
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    double e = (p.x * p.x + p.y * p.y) * (q.x - r.x) +
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      (q.x * q.x + q.y * q.y) * (r.x - p.x) +
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      (r.x * r.x + r.y * r.y) * (p.x - q.x);
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    double f = (p.x * p.x + p.y * p.y) * (q.x * r.y - r.x * q.y) +
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      (q.x * q.x + q.y * q.y) * (r.x * p.y - p.x * r.y) +
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      (r.x * r.x + r.y * r.y) * (p.x * q.y - q.x * p.y);
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    return d / (2 * a) + std::sqrt((d * d + e * e) / (4 * a * a) + f / a);
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  }
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  inline bool circle_form(const Point& p, const Point& q, const Point& r) {
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    return rot90(q - p) * (r - q) < 0.0;
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  }
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  inline double intersection(const Point& p, const Point& q, double sx) {
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    const double epsilon = 1e-8;
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    if (p.x == q.x) return (p.y + q.y) / 2.0;
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    if (sx < p.x + epsilon) return p.y;
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    if (sx < q.x + epsilon) return q.y;
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    double a = q.x - p.x;
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    double b = (q.x - sx) * p.y - (p.x - sx) * q.y;
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    double d = (q.x - sx) * (p.x - sx) * (p - q).normSquare();
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    return (b - std::sqrt(d)) / a;
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  }
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  struct YLess {
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    YLess(const std::vector<Point>& points, double& sweep)
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      : _points(points), _sweep(sweep) {}
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    bool operator()(const Part& l, const Part& r) const {
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      const double epsilon = 1e-8;
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      //      std::cerr << l << " vs " << r << std::endl;
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      double lbx = l.prev != -1 ?
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        intersection(_points[l.prev], _points[l.curr], _sweep) :
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        - std::numeric_limits<double>::infinity();
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      double rbx = r.prev != -1 ?
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        intersection(_points[r.prev], _points[r.curr], _sweep) :
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        - std::numeric_limits<double>::infinity();
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      double lex = l.next != -1 ?
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        intersection(_points[l.curr], _points[l.next], _sweep) :
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        std::numeric_limits<double>::infinity();
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      double rex = r.next != -1 ?
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        intersection(_points[r.curr], _points[r.next], _sweep) :
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        std::numeric_limits<double>::infinity();
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      if (lbx > lex) std::swap(lbx, lex);
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      if (rbx > rex) std::swap(rbx, rex);
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      if (lex < epsilon + rex && lbx + epsilon < rex) return true;
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      if (rex < epsilon + lex && rbx + epsilon < lex) return false;
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      return lex < rex;
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    }
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    const std::vector<Point>& _points;
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    double& _sweep;
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  };
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  struct BeachIt;
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  typedef std::multimap<double, BeachIt> SpikeHeap;
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  typedef std::multimap<Part, SpikeHeap::iterator, YLess> Beach;
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  struct BeachIt {
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    Beach::iterator it;
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    BeachIt(Beach::iterator iter) : it(iter) {}
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  };
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}
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inline void delaunay() {
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  Counter cnt("Number of arcs added: ");
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  using namespace _delaunay_bits;
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  typedef _delaunay_bits::Part Part;
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  typedef std::vector<std::pair<double, int> > SiteHeap;
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  std::vector<Point> points;
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  std::vector<Node> nodes;
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  for (NodeIt it(g); it != INVALID; ++it) {
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    nodes.push_back(it);
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    points.push_back(coords[it]);
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  }
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  SiteHeap siteheap(points.size());
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  double sweep;
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  for (int i = 0; i < int(siteheap.size()); ++i) {
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    siteheap[i] = std::make_pair(points[i].x, i);
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  }
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  std::sort(siteheap.begin(), siteheap.end());
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  sweep = siteheap.front().first;
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  YLess yless(points, sweep);
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  Beach beach(yless);
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  SpikeHeap spikeheap;
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  std::set<std::pair<int, int> > arcs;
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  int siteindex = 0;
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  {
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    SiteHeap front;
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    while (siteindex < int(siteheap.size()) &&
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           siteheap[0].first == siteheap[siteindex].first) {
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      front.push_back(std::make_pair(points[siteheap[siteindex].second].y,
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                                     siteheap[siteindex].second));
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      ++siteindex;
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    }
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    std::sort(front.begin(), front.end());
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    for (int i = 0; i < int(front.size()); ++i) {
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      int prev = (i == 0 ? -1 : front[i - 1].second);
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      int curr = front[i].second;
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      int next = (i + 1 == int(front.size()) ? -1 : front[i + 1].second);
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      beach.insert(std::make_pair(Part(prev, curr, next),
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                                  spikeheap.end()));
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    }
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  }
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  while (siteindex < int(points.size()) || !spikeheap.empty()) {
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    SpikeHeap::iterator spit = spikeheap.begin();
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    if (siteindex < int(points.size()) &&
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        (spit == spikeheap.end() || siteheap[siteindex].first < spit->first)) {
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      int site = siteheap[siteindex].second;
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      sweep = siteheap[siteindex].first;
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      Beach::iterator bit = beach.upper_bound(Part(site, site, site));
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      if (bit->second != spikeheap.end()) {
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        spikeheap.erase(bit->second);
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      }
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      int prev = bit->first.prev;
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      int curr = bit->first.curr;
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      int next = bit->first.next;
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      beach.erase(bit);
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      SpikeHeap::iterator pit = spikeheap.end();
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      if (prev != -1 &&
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          circle_form(points[prev], points[curr], points[site])) {
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        double x = circle_point(points[prev], points[curr], points[site]);
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        pit = spikeheap.insert(std::make_pair(x, BeachIt(beach.end())));
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        pit->second.it =
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          beach.insert(std::make_pair(Part(prev, curr, site), pit));
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      } else {
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        beach.insert(std::make_pair(Part(prev, curr, site), pit));
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      }
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      beach.insert(std::make_pair(Part(curr, site, curr), spikeheap.end()));
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      SpikeHeap::iterator nit = spikeheap.end();
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      if (next != -1 &&
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          circle_form(points[site], points[curr],points[next])) {
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        double x = circle_point(points[site], points[curr], points[next]);
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        nit = spikeheap.insert(std::make_pair(x, BeachIt(beach.end())));
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        nit->second.it =
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          beach.insert(std::make_pair(Part(site, curr, next), nit));
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      } else {
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        beach.insert(std::make_pair(Part(site, curr, next), nit));
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      }
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      ++siteindex;
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    } else {
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      sweep = spit->first;
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      Beach::iterator bit = spit->second.it;
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      int prev = bit->first.prev;
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      int curr = bit->first.curr;
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      int next = bit->first.next;
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      {
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        std::pair<int, int> arc;
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        arc = prev < curr ?
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          std::make_pair(prev, curr) : std::make_pair(curr, prev);
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        if (arcs.find(arc) == arcs.end()) {
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          arcs.insert(arc);
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          g.addEdge(nodes[prev], nodes[curr]);
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          ++cnt;
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        }
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        arc = curr < next ?
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   388
          std::make_pair(curr, next) : std::make_pair(next, curr);
alpar@570
   389
alpar@570
   390
        if (arcs.find(arc) == arcs.end()) {
alpar@570
   391
          arcs.insert(arc);
alpar@570
   392
          g.addEdge(nodes[curr], nodes[next]);
alpar@570
   393
          ++cnt;
alpar@570
   394
        }
alpar@570
   395
      }
alpar@570
   396
alpar@570
   397
      Beach::iterator pbit = bit; --pbit;
alpar@570
   398
      int ppv = pbit->first.prev;
alpar@570
   399
      Beach::iterator nbit = bit; ++nbit;
alpar@570
   400
      int nnt = nbit->first.next;
alpar@570
   401
alpar@570
   402
      if (bit->second != spikeheap.end()) spikeheap.erase(bit->second);
alpar@570
   403
      if (pbit->second != spikeheap.end()) spikeheap.erase(pbit->second);
alpar@570
   404
      if (nbit->second != spikeheap.end()) spikeheap.erase(nbit->second);
alpar@570
   405
alpar@570
   406
      beach.erase(nbit);
alpar@570
   407
      beach.erase(bit);
alpar@570
   408
      beach.erase(pbit);
alpar@570
   409
alpar@570
   410
      SpikeHeap::iterator pit = spikeheap.end();
alpar@570
   411
      if (ppv != -1 && ppv != next &&
alpar@570
   412
          circle_form(points[ppv], points[prev], points[next])) {
alpar@570
   413
        double x = circle_point(points[ppv], points[prev], points[next]);
alpar@570
   414
        if (x < sweep) x = sweep;
alpar@570
   415
        pit = spikeheap.insert(std::make_pair(x, BeachIt(beach.end())));
alpar@570
   416
        pit->second.it =
alpar@570
   417
          beach.insert(std::make_pair(Part(ppv, prev, next), pit));
alpar@570
   418
      } else {
alpar@570
   419
        beach.insert(std::make_pair(Part(ppv, prev, next), pit));
alpar@570
   420
      }
alpar@570
   421
alpar@570
   422
      SpikeHeap::iterator nit = spikeheap.end();
alpar@570
   423
      if (nnt != -1 && prev != nnt &&
alpar@570
   424
          circle_form(points[prev], points[next], points[nnt])) {
alpar@570
   425
        double x = circle_point(points[prev], points[next], points[nnt]);
alpar@570
   426
        if (x < sweep) x = sweep;
alpar@570
   427
        nit = spikeheap.insert(std::make_pair(x, BeachIt(beach.end())));
alpar@570
   428
        nit->second.it =
alpar@570
   429
          beach.insert(std::make_pair(Part(prev, next, nnt), nit));
alpar@570
   430
      } else {
alpar@570
   431
        beach.insert(std::make_pair(Part(prev, next, nnt), nit));
alpar@570
   432
      }
alpar@570
   433
alpar@570
   434
    }
alpar@570
   435
  }
alpar@570
   436
alpar@570
   437
  for (Beach::iterator it = beach.begin(); it != beach.end(); ++it) {
alpar@570
   438
    int curr = it->first.curr;
alpar@570
   439
    int next = it->first.next;
alpar@570
   440
alpar@570
   441
    if (next == -1) continue;
alpar@570
   442
alpar@570
   443
    std::pair<int, int> arc;
alpar@570
   444
alpar@570
   445
    arc = curr < next ?
alpar@570
   446
      std::make_pair(curr, next) : std::make_pair(next, curr);
alpar@570
   447
alpar@570
   448
    if (arcs.find(arc) == arcs.end()) {
alpar@570
   449
      arcs.insert(arc);
alpar@570
   450
      g.addEdge(nodes[curr], nodes[next]);
alpar@570
   451
      ++cnt;
alpar@570
   452
    }
alpar@570
   453
  }
alpar@570
   454
}
alpar@570
   455
alpar@570
   456
void sparse(int d)
alpar@570
   457
{
alpar@570
   458
  Counter cnt("Number of arcs removed: ");
alpar@570
   459
  Bfs<ListGraph> bfs(g);
alpar@570
   460
  for(std::vector<Edge>::reverse_iterator ei=arcs.rbegin();
alpar@570
   461
      ei!=arcs.rend();++ei)
alpar@570
   462
    {
alpar@570
   463
      Node a=g.u(*ei);
alpar@570
   464
      Node b=g.v(*ei);
alpar@570
   465
      g.erase(*ei);
alpar@570
   466
      bfs.run(a,b);
alpar@570
   467
      if(bfs.predArc(b)==INVALID || bfs.dist(b)>d)
alpar@570
   468
        g.addEdge(a,b);
alpar@570
   469
      else cnt++;
alpar@570
   470
    }
alpar@570
   471
}
alpar@570
   472
alpar@570
   473
void sparse2(int d)
alpar@570
   474
{
alpar@570
   475
  Counter cnt("Number of arcs removed: ");
alpar@570
   476
  for(std::vector<Edge>::reverse_iterator ei=arcs.rbegin();
alpar@570
   477
      ei!=arcs.rend();++ei)
alpar@570
   478
    {
alpar@570
   479
      Node a=g.u(*ei);
alpar@570
   480
      Node b=g.v(*ei);
alpar@570
   481
      g.erase(*ei);
alpar@570
   482
      ConstMap<Arc,int> cegy(1);
kpeter@670
   483
      Suurballe<ListGraph,ConstMap<Arc,int> > sur(g,cegy);
kpeter@670
   484
      int k=sur.run(a,b,2);
alpar@570
   485
      if(k<2 || sur.totalLength()>d)
alpar@570
   486
        g.addEdge(a,b);
alpar@570
   487
      else cnt++;
alpar@570
   488
//       else std::cout << "Remove arc " << g.id(a) << "-" << g.id(b) << '\n';
alpar@570
   489
    }
alpar@570
   490
}
alpar@570
   491
alpar@570
   492
void sparseTriangle(int d)
alpar@570
   493
{
alpar@570
   494
  Counter cnt("Number of arcs added: ");
alpar@570
   495
  std::vector<Parc> pedges;
alpar@570
   496
  for(NodeIt n(g);n!=INVALID;++n)
alpar@570
   497
    for(NodeIt m=++(NodeIt(n));m!=INVALID;++m)
alpar@570
   498
      {
alpar@570
   499
        Parc p;
alpar@570
   500
        p.a=n;
alpar@570
   501
        p.b=m;
alpar@570
   502
        p.len=(coords[m]-coords[n]).normSquare();
alpar@570
   503
        pedges.push_back(p);
alpar@570
   504
      }
alpar@570
   505
  std::sort(pedges.begin(),pedges.end(),pedgeLess);
alpar@570
   506
  for(std::vector<Parc>::iterator pi=pedges.begin();pi!=pedges.end();++pi)
alpar@570
   507
    {
alpar@570
   508
      Line li(pi->a,pi->b);
alpar@570
   509
      EdgeIt e(g);
alpar@570
   510
      for(;e!=INVALID && !cross(e,li);++e) ;
alpar@570
   511
      Edge ne;
alpar@570
   512
      if(e==INVALID) {
alpar@570
   513
        ConstMap<Arc,int> cegy(1);
kpeter@670
   514
        Suurballe<ListGraph,ConstMap<Arc,int> > sur(g,cegy);
kpeter@670
   515
        int k=sur.run(pi->a,pi->b,2);
alpar@570
   516
        if(k<2 || sur.totalLength()>d)
alpar@570
   517
          {
alpar@570
   518
            ne=g.addEdge(pi->a,pi->b);
alpar@570
   519
            arcs.push_back(ne);
alpar@570
   520
            cnt++;
alpar@570
   521
          }
alpar@570
   522
      }
alpar@570
   523
    }
alpar@570
   524
}
alpar@570
   525
alpar@570
   526
template <typename Graph, typename CoordMap>
alpar@570
   527
class LengthSquareMap {
alpar@570
   528
public:
alpar@570
   529
  typedef typename Graph::Edge Key;
alpar@570
   530
  typedef typename CoordMap::Value::Value Value;
alpar@570
   531
alpar@570
   532
  LengthSquareMap(const Graph& graph, const CoordMap& coords)
alpar@570
   533
    : _graph(graph), _coords(coords) {}
alpar@570
   534
alpar@570
   535
  Value operator[](const Key& key) const {
alpar@570
   536
    return (_coords[_graph.v(key)] -
alpar@570
   537
            _coords[_graph.u(key)]).normSquare();
alpar@570
   538
  }
alpar@570
   539
alpar@570
   540
private:
alpar@570
   541
alpar@570
   542
  const Graph& _graph;
alpar@570
   543
  const CoordMap& _coords;
alpar@570
   544
};
alpar@570
   545
alpar@570
   546
void minTree() {
alpar@570
   547
  std::vector<Parc> pedges;
alpar@570
   548
  Timer T;
alpar@570
   549
  std::cout << T.realTime() << "s: Creating delaunay triangulation...\n";
alpar@570
   550
  delaunay();
alpar@570
   551
  std::cout << T.realTime() << "s: Calculating spanning tree...\n";
alpar@570
   552
  LengthSquareMap<ListGraph, ListGraph::NodeMap<Point> > ls(g, coords);
alpar@570
   553
  ListGraph::EdgeMap<bool> tree(g);
alpar@570
   554
  kruskal(g, ls, tree);
alpar@570
   555
  std::cout << T.realTime() << "s: Removing non tree arcs...\n";
alpar@570
   556
  std::vector<Edge> remove;
alpar@570
   557
  for (EdgeIt e(g); e != INVALID; ++e) {
alpar@570
   558
    if (!tree[e]) remove.push_back(e);
alpar@570
   559
  }
alpar@570
   560
  for(int i = 0; i < int(remove.size()); ++i) {
alpar@570
   561
    g.erase(remove[i]);
alpar@570
   562
  }
alpar@570
   563
  std::cout << T.realTime() << "s: Done\n";
alpar@570
   564
}
alpar@570
   565
alpar@570
   566
void tsp2()
alpar@570
   567
{
alpar@570
   568
  std::cout << "Find a tree..." << std::endl;
alpar@570
   569
alpar@570
   570
  minTree();
alpar@570
   571
alpar@570
   572
  std::cout << "Total arc length (tree) : " << totalLen() << std::endl;
alpar@570
   573
alpar@570
   574
  std::cout << "Make it Euler..." << std::endl;
alpar@570
   575
alpar@570
   576
  {
alpar@570
   577
    std::vector<Node> leafs;
alpar@570
   578
    for(NodeIt n(g);n!=INVALID;++n)
alpar@570
   579
      if(countIncEdges(g,n)%2==1) leafs.push_back(n);
alpar@570
   580
alpar@570
   581
//    for(unsigned int i=0;i<leafs.size();i+=2)
alpar@570
   582
//       g.addArc(leafs[i],leafs[i+1]);
alpar@570
   583
alpar@570
   584
    std::vector<Parc> pedges;
alpar@570
   585
    for(unsigned int i=0;i<leafs.size()-1;i++)
alpar@570
   586
      for(unsigned int j=i+1;j<leafs.size();j++)
alpar@570
   587
        {
alpar@570
   588
          Node n=leafs[i];
alpar@570
   589
          Node m=leafs[j];
alpar@570
   590
          Parc p;
alpar@570
   591
          p.a=n;
alpar@570
   592
          p.b=m;
alpar@570
   593
          p.len=(coords[m]-coords[n]).normSquare();
alpar@570
   594
          pedges.push_back(p);
alpar@570
   595
        }
alpar@570
   596
    std::sort(pedges.begin(),pedges.end(),pedgeLess);
alpar@570
   597
    for(unsigned int i=0;i<pedges.size();i++)
alpar@570
   598
      if(countIncEdges(g,pedges[i].a)%2 &&
alpar@570
   599
         countIncEdges(g,pedges[i].b)%2)
alpar@570
   600
        g.addEdge(pedges[i].a,pedges[i].b);
alpar@570
   601
  }
alpar@570
   602
alpar@570
   603
  for(NodeIt n(g);n!=INVALID;++n)
alpar@570
   604
    if(countIncEdges(g,n)%2 || countIncEdges(g,n)==0 )
alpar@570
   605
      std::cout << "GEBASZ!!!" << std::endl;
alpar@570
   606
alpar@570
   607
  for(EdgeIt e(g);e!=INVALID;++e)
alpar@570
   608
    if(g.u(e)==g.v(e))
alpar@570
   609
      std::cout << "LOOP GEBASZ!!!" << std::endl;
alpar@570
   610
alpar@570
   611
  std::cout << "Number of arcs : " << countEdges(g) << std::endl;
alpar@570
   612
alpar@570
   613
  std::cout << "Total arc length (euler) : " << totalLen() << std::endl;
alpar@570
   614
alpar@570
   615
  ListGraph::EdgeMap<Arc> enext(g);
alpar@570
   616
  {
alpar@570
   617
    EulerIt<ListGraph> e(g);
alpar@570
   618
    Arc eo=e;
alpar@570
   619
    Arc ef=e;
alpar@570
   620
//     std::cout << "Tour arc: " << g.id(Edge(e)) << std::endl;
alpar@570
   621
    for(++e;e!=INVALID;++e)
alpar@570
   622
      {
alpar@570
   623
//         std::cout << "Tour arc: " << g.id(Edge(e)) << std::endl;
alpar@570
   624
        enext[eo]=e;
alpar@570
   625
        eo=e;
alpar@570
   626
      }
alpar@570
   627
    enext[eo]=ef;
alpar@570
   628
  }
alpar@570
   629
alpar@570
   630
  std::cout << "Creating a tour from that..." << std::endl;
alpar@570
   631
alpar@570
   632
  int nnum = countNodes(g);
alpar@570
   633
  int ednum = countEdges(g);
alpar@570
   634
alpar@570
   635
  for(Arc p=enext[EdgeIt(g)];ednum>nnum;p=enext[p])
alpar@570
   636
    {
alpar@570
   637
//       std::cout << "Checking arc " << g.id(p) << std::endl;
alpar@570
   638
      Arc e=enext[p];
alpar@570
   639
      Arc f=enext[e];
alpar@570
   640
      Node n2=g.source(f);
alpar@570
   641
      Node n1=g.oppositeNode(n2,e);
alpar@570
   642
      Node n3=g.oppositeNode(n2,f);
alpar@570
   643
      if(countIncEdges(g,n2)>2)
alpar@570
   644
        {
alpar@570
   645
//           std::cout << "Remove an Arc" << std::endl;
alpar@570
   646
          Arc ff=enext[f];
alpar@570
   647
          g.erase(e);
alpar@570
   648
          g.erase(f);
alpar@570
   649
          if(n1!=n3)
alpar@570
   650
            {
alpar@570
   651
              Arc ne=g.direct(g.addEdge(n1,n3),n1);
alpar@570
   652
              enext[p]=ne;
alpar@570
   653
              enext[ne]=ff;
alpar@570
   654
              ednum--;
alpar@570
   655
            }
alpar@570
   656
          else {
alpar@570
   657
            enext[p]=ff;
alpar@570
   658
            ednum-=2;
alpar@570
   659
          }
alpar@570
   660
        }
alpar@570
   661
    }
alpar@570
   662
alpar@570
   663
  std::cout << "Total arc length (tour) : " << totalLen() << std::endl;
alpar@570
   664
alpar@570
   665
  std::cout << "2-opt the tour..." << std::endl;
alpar@570
   666
alpar@570
   667
  tsp_improve();
alpar@570
   668
alpar@570
   669
  std::cout << "Total arc length (2-opt tour) : " << totalLen() << std::endl;
alpar@570
   670
}
alpar@570
   671
alpar@570
   672
alpar@570
   673
int main(int argc,const char **argv)
alpar@570
   674
{
alpar@570
   675
  ArgParser ap(argc,argv);
alpar@570
   676
alpar@570
   677
//   bool eps;
alpar@570
   678
  bool disc_d, square_d, gauss_d;
alpar@570
   679
//   bool tsp_a,two_a,tree_a;
alpar@570
   680
  int num_of_cities=1;
alpar@570
   681
  double area=1;
alpar@570
   682
  N=100;
alpar@570
   683
//   girth=10;
alpar@570
   684
  std::string ndist("disc");
alpar@570
   685
  ap.refOption("n", "Number of nodes (default is 100)", N)
alpar@570
   686
    .intOption("g", "Girth parameter (default is 10)", 10)
alpar@570
   687
    .refOption("cities", "Number of cities (default is 1)", num_of_cities)
alpar@570
   688
    .refOption("area", "Full relative area of the cities (default is 1)", area)
kpeter@701
   689
    .refOption("disc", "Nodes are evenly distributed on a unit disc (default)",
kpeter@701
   690
               disc_d)
alpar@570
   691
    .optionGroup("dist", "disc")
kpeter@701
   692
    .refOption("square", "Nodes are evenly distributed on a unit square",
kpeter@701
   693
               square_d)
alpar@570
   694
    .optionGroup("dist", "square")
kpeter@701
   695
    .refOption("gauss", "Nodes are located according to a two-dim Gauss "
kpeter@701
   696
               "distribution", gauss_d)
alpar@570
   697
    .optionGroup("dist", "gauss")
alpar@570
   698
    .onlyOneGroup("dist")
kpeter@701
   699
    .boolOption("eps", "Also generate .eps output (<prefix>.eps)")
kpeter@701
   700
    .boolOption("nonodes", "Draw only the edges in the generated .eps output")
kpeter@701
   701
    .boolOption("dir", "Directed graph is generated (each edge is replaced by "
kpeter@701
   702
                "two directed arcs)")
kpeter@701
   703
    .boolOption("2con", "Create a two connected planar graph")
alpar@570
   704
    .optionGroup("alg","2con")
alpar@570
   705
    .boolOption("tree", "Create a min. cost spanning tree")
alpar@570
   706
    .optionGroup("alg","tree")
alpar@570
   707
    .boolOption("tsp", "Create a TSP tour")
alpar@570
   708
    .optionGroup("alg","tsp")
alpar@570
   709
    .boolOption("tsp2", "Create a TSP tour (tree based)")
alpar@570
   710
    .optionGroup("alg","tsp2")
kpeter@701
   711
    .boolOption("dela", "Delaunay triangulation graph")
alpar@570
   712
    .optionGroup("alg","dela")
alpar@570
   713
    .onlyOneGroup("alg")
alpar@570
   714
    .boolOption("rand", "Use time seed for random number generator")
alpar@570
   715
    .optionGroup("rand", "rand")
alpar@570
   716
    .intOption("seed", "Random seed", -1)
alpar@570
   717
    .optionGroup("rand", "seed")
alpar@570
   718
    .onlyOneGroup("rand")
alpar@570
   719
    .other("[prefix]","Prefix of the output files. Default is 'lgf-gen-out'")
alpar@570
   720
    .run();
alpar@570
   721
alpar@570
   722
  if (ap["rand"]) {
kpeter@663
   723
    int seed = int(time(0));
alpar@570
   724
    std::cout << "Random number seed: " << seed << std::endl;
alpar@570
   725
    rnd = Random(seed);
alpar@570
   726
  }
alpar@570
   727
  if (ap.given("seed")) {
alpar@570
   728
    int seed = ap["seed"];
alpar@570
   729
    std::cout << "Random number seed: " << seed << std::endl;
alpar@570
   730
    rnd = Random(seed);
alpar@570
   731
  }
alpar@570
   732
alpar@570
   733
  std::string prefix;
alpar@570
   734
  switch(ap.files().size())
alpar@570
   735
    {
alpar@570
   736
    case 0:
alpar@570
   737
      prefix="lgf-gen-out";
alpar@570
   738
      break;
alpar@570
   739
    case 1:
alpar@570
   740
      prefix=ap.files()[0];
alpar@570
   741
      break;
alpar@570
   742
    default:
alpar@570
   743
      std::cerr << "\nAt most one prefix can be given\n\n";
alpar@570
   744
      exit(1);
alpar@570
   745
    }
alpar@570
   746
alpar@570
   747
  double sum_sizes=0;
alpar@570
   748
  std::vector<double> sizes;
alpar@570
   749
  std::vector<double> cum_sizes;
alpar@570
   750
  for(int s=0;s<num_of_cities;s++)
alpar@570
   751
    {
alpar@570
   752
      //         sum_sizes+=rnd.exponential();
alpar@570
   753
      double d=rnd();
alpar@570
   754
      sum_sizes+=d;
alpar@570
   755
      sizes.push_back(d);
alpar@570
   756
      cum_sizes.push_back(sum_sizes);
alpar@570
   757
    }
alpar@570
   758
  int i=0;
alpar@570
   759
  for(int s=0;s<num_of_cities;s++)
alpar@570
   760
    {
alpar@570
   761
      Point center=(num_of_cities==1?Point(0,0):rnd.disc());
alpar@570
   762
      if(gauss_d)
alpar@570
   763
        for(;i<N*(cum_sizes[s]/sum_sizes);i++) {
alpar@570
   764
          Node n=g.addNode();
alpar@570
   765
          nodes.push_back(n);
alpar@570
   766
          coords[n]=center+rnd.gauss2()*area*
alpar@570
   767
            std::sqrt(sizes[s]/sum_sizes);
alpar@570
   768
        }
alpar@570
   769
      else if(square_d)
alpar@570
   770
        for(;i<N*(cum_sizes[s]/sum_sizes);i++) {
alpar@570
   771
          Node n=g.addNode();
alpar@570
   772
          nodes.push_back(n);
alpar@570
   773
          coords[n]=center+Point(rnd()*2-1,rnd()*2-1)*area*
alpar@570
   774
            std::sqrt(sizes[s]/sum_sizes);
alpar@570
   775
        }
alpar@570
   776
      else if(disc_d || true)
alpar@570
   777
        for(;i<N*(cum_sizes[s]/sum_sizes);i++) {
alpar@570
   778
          Node n=g.addNode();
alpar@570
   779
          nodes.push_back(n);
alpar@570
   780
          coords[n]=center+rnd.disc()*area*
alpar@570
   781
            std::sqrt(sizes[s]/sum_sizes);
alpar@570
   782
        }
alpar@570
   783
    }
alpar@570
   784
alpar@570
   785
//   for (ListGraph::NodeIt n(g); n != INVALID; ++n) {
alpar@570
   786
//     std::cerr << coords[n] << std::endl;
alpar@570
   787
//   }
alpar@570
   788
alpar@570
   789
  if(ap["tsp"]) {
alpar@570
   790
    tsp();
alpar@570
   791
    std::cout << "#2-opt improvements: " << tsp_impr_num << std::endl;
alpar@570
   792
  }
alpar@570
   793
  if(ap["tsp2"]) {
alpar@570
   794
    tsp2();
alpar@570
   795
    std::cout << "#2-opt improvements: " << tsp_impr_num << std::endl;
alpar@570
   796
  }
alpar@570
   797
  else if(ap["2con"]) {
alpar@570
   798
    std::cout << "Make triangles\n";
alpar@570
   799
    //   triangle();
alpar@570
   800
    sparseTriangle(ap["g"]);
alpar@570
   801
    std::cout << "Make it sparser\n";
alpar@570
   802
    sparse2(ap["g"]);
alpar@570
   803
  }
alpar@570
   804
  else if(ap["tree"]) {
alpar@570
   805
    minTree();
alpar@570
   806
  }
alpar@570
   807
  else if(ap["dela"]) {
alpar@570
   808
    delaunay();
alpar@570
   809
  }
alpar@570
   810
alpar@570
   811
alpar@570
   812
  std::cout << "Number of nodes    : " << countNodes(g) << std::endl;
alpar@570
   813
  std::cout << "Number of arcs    : " << countEdges(g) << std::endl;
alpar@570
   814
  double tlen=0;
alpar@570
   815
  for(EdgeIt e(g);e!=INVALID;++e)
alpar@659
   816
    tlen+=std::sqrt((coords[g.v(e)]-coords[g.u(e)]).normSquare());
alpar@570
   817
  std::cout << "Total arc length  : " << tlen << std::endl;
alpar@570
   818
alpar@570
   819
  if(ap["eps"])
alpar@570
   820
    graphToEps(g,prefix+".eps").scaleToA4().
alpar@570
   821
      scale(600).nodeScale(.005).arcWidthScale(.001).preScale(false).
alpar@571
   822
      coords(coords).hideNodes(ap.given("nonodes")).run();
alpar@570
   823
alpar@570
   824
  if(ap["dir"])
alpar@570
   825
    DigraphWriter<ListGraph>(g,prefix+".lgf").
alpar@570
   826
      nodeMap("coordinates_x",scaleMap(xMap(coords),600)).
alpar@570
   827
      nodeMap("coordinates_y",scaleMap(yMap(coords),600)).
alpar@570
   828
      run();
alpar@570
   829
  else GraphWriter<ListGraph>(g,prefix+".lgf").
alpar@570
   830
         nodeMap("coordinates_x",scaleMap(xMap(coords),600)).
alpar@570
   831
         nodeMap("coordinates_y",scaleMap(yMap(coords),600)).
alpar@570
   832
         run();
alpar@570
   833
}
alpar@570
   834