test/planarity_test.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Sat, 13 Mar 2010 22:01:38 +0100
changeset 864 d3ea191c3412
parent 797 30cb42e3e43a
permissions -rw-r--r--
Rename min mean cycle classes and their members (#179)
with respect to the possible introduction of min ratio
cycle algorithms in the future.

The renamed classes:
- Karp --> KarpMmc
- HartmannOrlin --> HartmannOrlinMmc
- Howard --> HowardMmc

The renamed members:
- cycleLength() --> cycleCost()
- cycleArcNum() --> cycleSize()
- findMinMean() --> findCycleMean()
- Value --> Cost
- LargeValue --> LargeCost
- SetLargeValue --> SetLargeCost
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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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#include <iostream>
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#include <lemon/planarity.h>
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#include <lemon/smart_graph.h>
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#include <lemon/lgf_reader.h>
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#include <lemon/connectivity.h>
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#include <lemon/dim2.h>
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#include "test_tools.h"
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using namespace lemon;
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using namespace lemon::dim2;
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const int lgfn = 4;
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const std::string lgf[lgfn] = {
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  "@nodes\n"
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  "label\n"
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  "0\n"
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  "1\n"
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  "2\n"
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  "3\n"
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  "4\n"
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  "@edges\n"
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  "     label\n"
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  "0 1  0\n"
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  "0 2  0\n"
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  "0 3  0\n"
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  "0 4  0\n"
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  "1 2  0\n"
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  "1 3  0\n"
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  "1 4  0\n"
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  "2 3  0\n"
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  "2 4  0\n"
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  "3 4  0\n",
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  "@nodes\n"
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  "label\n"
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  "0\n"
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  "1\n"
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  "2\n"
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  "3\n"
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  "4\n"
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  "@edges\n"
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  "     label\n"
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  "0 1  0\n"
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  "0 2  0\n"
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  "0 3  0\n"
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  "0 4  0\n"
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  "1 2  0\n"
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  "1 3  0\n"
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  "2 3  0\n"
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  "2 4  0\n"
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  "3 4  0\n",
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  "@nodes\n"
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  "label\n"
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  "0\n"
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  "1\n"
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  "2\n"
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  "3\n"
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  "4\n"
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  "5\n"
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  "@edges\n"
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  "     label\n"
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  "0 3  0\n"
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  "0 4  0\n"
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  "0 5  0\n"
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  "1 3  0\n"
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  "1 4  0\n"
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  "1 5  0\n"
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  "2 3  0\n"
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  "2 4  0\n"
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  "2 5  0\n",
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  "@nodes\n"
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  "label\n"
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  "0\n"
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  "1\n"
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  "2\n"
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  "3\n"
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  "4\n"
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  "5\n"
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  "@edges\n"
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  "     label\n"
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  "0 3  0\n"
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  "0 4  0\n"
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  "0 5  0\n"
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  "1 3  0\n"
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  "1 4  0\n"
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  "1 5  0\n"
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  "2 3  0\n"
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  "2 5  0\n"
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};
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typedef SmartGraph Graph;
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GRAPH_TYPEDEFS(Graph);
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typedef PlanarEmbedding<SmartGraph> PE;
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typedef PlanarDrawing<SmartGraph> PD;
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typedef PlanarColoring<SmartGraph> PC;
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void checkEmbedding(const Graph& graph, PE& pe) {
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  int face_num = 0;
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  Graph::ArcMap<int> face(graph, -1);
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  for (ArcIt a(graph); a != INVALID; ++a) {
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    if (face[a] == -1) {
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      Arc b = a;
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      while (face[b] == -1) {
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        face[b] = face_num;
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        b = pe.next(graph.oppositeArc(b));
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      }
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      check(face[b] == face_num, "Wrong face");
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      ++face_num;
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    }
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  }
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  check(face_num + countNodes(graph) - countConnectedComponents(graph) ==
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        countEdges(graph) + 1, "Euler test does not passed");
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}
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void checkKuratowski(const Graph& graph, PE& pe) {
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  std::map<int, int> degs;
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  for (NodeIt n(graph); n != INVALID; ++n) {
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    int deg = 0;
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    for (IncEdgeIt e(graph, n); e != INVALID; ++e) {
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      if (pe.kuratowski(e)) {
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        ++deg;
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      }
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    }
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    ++degs[deg];
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  }
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  for (std::map<int, int>::iterator it = degs.begin(); it != degs.end(); ++it) {
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    check(it->first == 0 || it->first == 2 ||
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          (it->first == 3 && it->second == 6) ||
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          (it->first == 4 && it->second == 5),
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          "Wrong degree in Kuratowski graph");
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  }
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  // Not full test
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  check((degs[3] == 0) != (degs[4] == 0), "Wrong Kuratowski graph");
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}
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bool intersect(Point<int> e1, Point<int> e2, Point<int> f1, Point<int> f2) {
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  int l, r;
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  if (std::min(e1.x, e2.x) > std::max(f1.x, f2.x)) return false;
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  if (std::max(e1.x, e2.x) < std::min(f1.x, f2.x)) return false;
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  if (std::min(e1.y, e2.y) > std::max(f1.y, f2.y)) return false;
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  if (std::max(e1.y, e2.y) < std::min(f1.y, f2.y)) return false;
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  l = (e2.x - e1.x) * (f1.y - e1.y) - (e2.y - e1.y) * (f1.x - e1.x);
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  r = (e2.x - e1.x) * (f2.y - e1.y) - (e2.y - e1.y) * (f2.x - e1.x);
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  if (!((l >= 0 && r <= 0) || (l <= 0 && r >= 0))) return false;
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  l = (f2.x - f1.x) * (e1.y - f1.y) - (f2.y - f1.y) * (e1.x - f1.x);
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  r = (f2.x - f1.x) * (e2.y - f1.y) - (f2.y - f1.y) * (e2.x - f1.x);
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  if (!((l >= 0 && r <= 0) || (l <= 0 && r >= 0))) return false;
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  return true;
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}
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bool collinear(Point<int> p, Point<int> q, Point<int> r) {
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  int v;
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  v = (q.x - p.x) * (r.y - p.y) - (q.y - p.y) * (r.x - p.x);
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  if (v != 0) return false;
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  v = (q.x - p.x) * (r.x - p.x) + (q.y - p.y) * (r.y - p.y);
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  if (v < 0) return false;
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  return true;
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}
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void checkDrawing(const Graph& graph, PD& pd) {
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  for (Graph::NodeIt n(graph); n != INVALID; ++n) {
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    Graph::NodeIt m(n);
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    for (++m; m != INVALID; ++m) {
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      check(pd[m] != pd[n], "Two nodes with identical coordinates");
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    }
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  }
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  for (Graph::EdgeIt e(graph); e != INVALID; ++e) {
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    for (Graph::EdgeIt f(e); f != e; ++f) {
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      Point<int> e1 = pd[graph.u(e)];
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      Point<int> e2 = pd[graph.v(e)];
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      Point<int> f1 = pd[graph.u(f)];
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      Point<int> f2 = pd[graph.v(f)];
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      if (graph.u(e) == graph.u(f)) {
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        check(!collinear(e1, e2, f2), "Wrong drawing");
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      } else if (graph.u(e) == graph.v(f)) {
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        check(!collinear(e1, e2, f1), "Wrong drawing");
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      } else if (graph.v(e) == graph.u(f)) {
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        check(!collinear(e2, e1, f2), "Wrong drawing");
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      } else if (graph.v(e) == graph.v(f)) {
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        check(!collinear(e2, e1, f1), "Wrong drawing");
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      } else {
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        check(!intersect(e1, e2, f1, f2), "Wrong drawing");
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      }
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    }
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  }
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}
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void checkColoring(const Graph& graph, PC& pc, int num) {
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  for (NodeIt n(graph); n != INVALID; ++n) {
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    check(pc.colorIndex(n) >= 0 && pc.colorIndex(n) < num,
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          "Wrong coloring");
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  }
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  for (EdgeIt e(graph); e != INVALID; ++e) {
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    check(pc.colorIndex(graph.u(e)) != pc.colorIndex(graph.v(e)),
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          "Wrong coloring");
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  }
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}
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int main() {
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  for (int i = 0; i < lgfn; ++i) {
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    std::istringstream lgfs(lgf[i]);
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    SmartGraph graph;
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    graphReader(graph, lgfs).run();
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    check(simpleGraph(graph), "Test graphs must be simple");
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    PE pe(graph);
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    bool planar = pe.run();
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    check(checkPlanarity(graph) == planar, "Planarity checking failed");
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    if (planar) {
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      checkEmbedding(graph, pe);
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      PlanarDrawing<Graph> pd(graph);
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      pd.run(pe.embeddingMap());
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      checkDrawing(graph, pd);
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      PlanarColoring<Graph> pc(graph);
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      pc.runFiveColoring(pe.embeddingMap());
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      checkColoring(graph, pc, 5);
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    } else {
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      checkKuratowski(graph, pe);
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    }
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  }
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  return 0;
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}