src/work/athos/min_cost_flow.cc
author alpar
Mon, 30 Aug 2004 12:01:47 +0000
changeset 774 4297098d9677
parent 662 0155001b6f65
child 921 818510fa3d99
permissions -rw-r--r--
Merge back the whole branches/hugo++ to trunk.
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#include <iostream>
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//#include "test_tools.h"
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#include <hugo/list_graph.h>
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#include <mincostflow.h>
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//#include <path.h>
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//#include <maps.h>
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using namespace std;
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using namespace hugo;
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bool passed = true;
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void check(bool rc, char *msg="") {
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  passed = passed && rc;
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  if(!rc) {
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    std::cerr << "Test failed! ("<< msg << ")" << std::endl; \
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  }
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}
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int main()
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{
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  typedef ListGraph::Node Node;
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  typedef ListGraph::Edge Edge;
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  ListGraph graph;
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  //Ahuja könyv példája
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  Node s=graph.addNode();
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  Node v1=graph.addNode();  
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  Node v2=graph.addNode();
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  Node v3=graph.addNode();
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  Node v4=graph.addNode();
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  Node v5=graph.addNode();
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  Node t=graph.addNode();
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  ListGraph::NodeMap<int> supply_demand(graph);
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  supply_demand.set(s, 2);
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  supply_demand.set(v1, 3);
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  supply_demand.set(v3, -1);
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  supply_demand.set(t, -4);
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  Edge s_v1=graph.addEdge(s, v1);
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  Edge v1_v2=graph.addEdge(v1, v2);
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  Edge s_v3=graph.addEdge(s, v3);
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  Edge v2_v4=graph.addEdge(v2, v4);
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  Edge v2_v5=graph.addEdge(v2, v5);
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  Edge v3_v5=graph.addEdge(v3, v5);
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  Edge v4_t=graph.addEdge(v4, t);
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  Edge v5_t=graph.addEdge(v5, t);
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  ListGraph::EdgeMap<int> cost(graph);
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  cost.set(s_v1, 6);
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  cost.set(v1_v2, 4);
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  cost.set(s_v3, 10);
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  cost.set(v2_v4, 5);
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  cost.set(v2_v5, 1);
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  cost.set(v3_v5, 4);
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  cost.set(v4_t, 8);
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  cost.set(v5_t, 8);
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  /*
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  ListGraph::EdgeMap<int> capacity(graph);
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  capacity.set(s_v1, 2);
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  capacity.set(v1_v2, 2);
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  capacity.set(s_v3, 1);
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  capacity.set(v2_v4, 1);
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  capacity.set(v2_v5, 1);
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  capacity.set(v3_v5, 1);
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  capacity.set(v4_t, 1);
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  capacity.set(v5_t, 2);
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  */
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  //  ConstMap<Edge, int> const1map(1);
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  std::cout << "Enhanced capacity scaling algorithm test (for the mincostflow problem)..." << std::endl;
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  MinCostFlow< ListGraph, ListGraph::EdgeMap<int>, ListGraph::NodeMap<int> >
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    min_cost_flow_test(graph, cost, supply_demand);
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  min_cost_flow_test.run();
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  //int k=1;
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  check(min_cost_flow_test.checkOptimality(), "Is the primal-dual solution pair really optimal?");
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  /*
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  check(  min_cost_flow_test.run(s,t,k) == 1 && min_cost_flow_test.totalLength() == 19,"One path, total cost should be 19");
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  check(min_cost_flow_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
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  k=2;
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  check(  min_cost_flow_test.run(s,t,k) == 2 && min_cost_flow_test.totalLength() == 41,"Two paths, total cost should be 41");
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  check(min_cost_flow_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
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  k=4;
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  check(  min_cost_flow_test.run(s,t,k) == 3 && min_cost_flow_test.totalLength() == 64,"Three paths, total cost should be 64");
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  check(min_cost_flow_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
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  */
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  cout << (passed ? "All tests passed." : "Some of the tests failed!!!")
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       << endl;
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  return passed ? 0 : 1;
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}