alpar@906
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/* -*- C++ -*-
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alpar@906
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*
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alpar@1956
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* This file is a part of LEMON, a generic C++ optimization library
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alpar@1956
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*
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alpar@1956
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* Copyright (C) 2003-2006
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alpar@1956
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* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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alpar@1359
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* (Egervary Research Group on Combinatorial Optimization, EGRES).
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alpar@906
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*
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alpar@906
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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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alpar@906
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* precise terms see the accompanying LICENSE file.
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alpar@906
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*
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alpar@906
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* This software is provided "AS IS" with no warranty of any kind,
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alpar@906
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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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alpar@906
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alpar@810
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#include <iostream>
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alpar@810
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#include <vector>
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#include "test_tools.h"
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alpar@921
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#include <lemon/maps.h>
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alpar@921
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#include <lemon/kruskal.h>
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alpar@921
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#include <lemon/list_graph.h>
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klao@959
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#include <lemon/concept/maps.h>
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klao@959
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#include <lemon/concept/graph.h>
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using namespace std;
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alpar@921
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using namespace lemon;
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alpar@810
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alpar@810
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void checkCompileKruskal()
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alpar@810
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{
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deba@2111
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concept::WriteMap<concept::Graph::Edge,bool> w;
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alpar@810
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deba@2111
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kruskal(concept::Graph(),
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deba@2111
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concept::ReadMap<concept::Graph::Edge,int>(),
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alpar@1557
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w);
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alpar@810
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}
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alpar@810
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alpar@810
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int main() {
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alpar@810
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typedef ListGraph::Node Node;
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typedef ListGraph::Edge Edge;
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typedef ListGraph::NodeIt NodeIt;
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typedef ListGraph::EdgeIt EdgeIt;
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alpar@810
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alpar@810
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ListGraph G;
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alpar@810
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alpar@810
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Node s=G.addNode();
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alpar@810
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Node v1=G.addNode();
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Node v2=G.addNode();
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Node v3=G.addNode();
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Node v4=G.addNode();
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Node t=G.addNode();
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Edge e1 = G.addEdge(s, v1);
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Edge e2 = G.addEdge(s, v2);
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Edge e3 = G.addEdge(v1, v2);
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Edge e4 = G.addEdge(v2, v1);
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Edge e5 = G.addEdge(v1, v3);
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Edge e6 = G.addEdge(v3, v2);
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Edge e7 = G.addEdge(v2, v4);
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Edge e8 = G.addEdge(v4, v3);
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Edge e9 = G.addEdge(v3, t);
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Edge e10 = G.addEdge(v4, t);
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typedef ListGraph::EdgeMap<int> ECostMap;
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typedef ListGraph::EdgeMap<bool> EBoolMap;
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ECostMap edge_cost_map(G, 2);
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EBoolMap tree_map(G);
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//Test with const map.
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check(kruskal(G, ConstMap<ListGraph::Edge,int>(2), tree_map)==10,
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"Total cost should be 10");
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//Test with a edge map (filled with uniform costs).
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check(kruskal(G, edge_cost_map, tree_map)==10,
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"Total cost should be 10");
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edge_cost_map.set(e1, -10);
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edge_cost_map.set(e2, -9);
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edge_cost_map.set(e3, -8);
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edge_cost_map.set(e4, -7);
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edge_cost_map.set(e5, -6);
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edge_cost_map.set(e6, -5);
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edge_cost_map.set(e7, -4);
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edge_cost_map.set(e8, -3);
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edge_cost_map.set(e9, -2);
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edge_cost_map.set(e10, -1);
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vector<Edge> tree_edge_vec(5);
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//Test with a edge map and inserter.
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check(kruskal(G, edge_cost_map,
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tree_edge_vec.begin())
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==-31,
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"Total cost should be -31.");
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tree_edge_vec.clear();
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alpar@1557
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check(kruskal(G, edge_cost_map,
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back_inserter(tree_edge_vec))
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==-31,
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"Total cost should be -31.");
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tree_edge_vec.clear();
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//The above test could also be coded like this:
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check(kruskal(G,
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makeKruskalMapInput(G, edge_cost_map),
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makeKruskalSequenceOutput(back_inserter(tree_edge_vec)))
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==-31,
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"Total cost should be -31.");
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check(tree_edge_vec.size()==5,"The tree should have 5 edges.");
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check(tree_edge_vec[0]==e1 &&
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tree_edge_vec[1]==e2 &&
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tree_edge_vec[2]==e5 &&
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tree_edge_vec[3]==e7 &&
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tree_edge_vec[4]==e9,
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"Wrong tree.");
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return 0;
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alpar@810
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}
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