test/min_cost_flow_test.cc
author Balazs Dezso <deba@inf.elte.hu>
Thu, 24 Jun 2010 09:27:53 +0200
changeset 982 bb70ad62c95f
parent 711 cc61d09f053b
child 884 bc75ee2ad082
child 1081 f1398882a928
permissions -rw-r--r--
Fix critical bug in preflow (#372)

The wrong transition between the bound decrease and highest active
heuristics caused the bug. The last node chosen in bound decrease mode
is used in the first iteration in highest active mode.
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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 <fstream>
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#include <limits>
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#include <lemon/list_graph.h>
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#include <lemon/lgf_reader.h>
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#include <lemon/network_simplex.h>
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#include <lemon/concepts/digraph.h>
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#include <lemon/concept_check.h>
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#include "test_tools.h"
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using namespace lemon;
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char test_lgf[] =
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  "@nodes\n"
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  "label  sup1 sup2 sup3 sup4 sup5 sup6\n"
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  "    1    20   27    0   30   20   30\n"
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  "    2    -4    0    0    0   -8   -3\n"
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  "    3     0    0    0    0    0    0\n"
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  "    4     0    0    0    0    0    0\n"
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  "    5     9    0    0    0    6   11\n"
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  "    6    -6    0    0    0   -5   -6\n"
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  "    7     0    0    0    0    0    0\n"
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  "    8     0    0    0    0    0    3\n"
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  "    9     3    0    0    0    0    0\n"
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  "   10    -2    0    0    0   -7   -2\n"
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  "   11     0    0    0    0  -10    0\n"
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  "   12   -20  -27    0  -30  -30  -20\n"
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  "\n"                
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  "@arcs\n"
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  "       cost  cap low1 low2 low3\n"
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  " 1  2    70   11    0    8    8\n"
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  " 1  3   150    3    0    1    0\n"
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  " 1  4    80   15    0    2    2\n"
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  " 2  8    80   12    0    0    0\n"
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  " 3  5   140    5    0    3    1\n"
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  " 4  6    60   10    0    1    0\n"
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  " 4  7    80    2    0    0    0\n"
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  " 4  8   110    3    0    0    0\n"
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  " 5  7    60   14    0    0    0\n"
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  " 5 11   120   12    0    0    0\n"
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  " 6  3     0    3    0    0    0\n"
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  " 6  9   140    4    0    0    0\n"
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  " 6 10    90    8    0    0    0\n"
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  " 7  1    30    5    0    0   -5\n"
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  " 8 12    60   16    0    4    3\n"
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  " 9 12    50    6    0    0    0\n"
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  "10 12    70   13    0    5    2\n"
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  "10  2   100    7    0    0    0\n"
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  "10  7    60   10    0    0   -3\n"
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  "11 10    20   14    0    6  -20\n"
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  "12 11    30   10    0    0  -10\n"
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  "\n"
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  "@attributes\n"
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  "source 1\n"
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  "target 12\n";
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enum SupplyType {
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  EQ,
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  GEQ,
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  LEQ
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};
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// Check the interface of an MCF algorithm
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template <typename GR, typename Value, typename Cost>
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class McfClassConcept
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{
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public:
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  template <typename MCF>
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  struct Constraints {
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    void constraints() {
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      checkConcept<concepts::Digraph, GR>();
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      const Constraints& me = *this;
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      MCF mcf(me.g);
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      const MCF& const_mcf = mcf;
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      b = mcf.reset()
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             .lowerMap(me.lower)
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             .upperMap(me.upper)
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             .costMap(me.cost)
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             .supplyMap(me.sup)
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             .stSupply(me.n, me.n, me.k)
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             .run();
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      c = const_mcf.totalCost();
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      x = const_mcf.template totalCost<double>();
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      v = const_mcf.flow(me.a);
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      c = const_mcf.potential(me.n);
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      const_mcf.flowMap(fm);
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      const_mcf.potentialMap(pm);
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    }
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    typedef typename GR::Node Node;
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    typedef typename GR::Arc Arc;
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    typedef concepts::ReadMap<Node, Value> NM;
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    typedef concepts::ReadMap<Arc, Value> VAM;
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    typedef concepts::ReadMap<Arc, Cost> CAM;
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    typedef concepts::WriteMap<Arc, Value> FlowMap;
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    typedef concepts::WriteMap<Node, Cost> PotMap;
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    GR g;
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    VAM lower;
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    VAM upper;
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    CAM cost;
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    NM sup;
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    Node n;
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    Arc a;
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    Value k;
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    FlowMap fm;
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    PotMap pm;
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    bool b;
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    double x;
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    typename MCF::Value v;
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    typename MCF::Cost c;
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  };
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};
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// Check the feasibility of the given flow (primal soluiton)
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template < typename GR, typename LM, typename UM,
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           typename SM, typename FM >
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bool checkFlow( const GR& gr, const LM& lower, const UM& upper,
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                const SM& supply, const FM& flow,
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                SupplyType type = EQ )
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{
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  TEMPLATE_DIGRAPH_TYPEDEFS(GR);
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  for (ArcIt e(gr); e != INVALID; ++e) {
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    if (flow[e] < lower[e] || flow[e] > upper[e]) return false;
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  }
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  for (NodeIt n(gr); n != INVALID; ++n) {
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    typename SM::Value sum = 0;
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    for (OutArcIt e(gr, n); e != INVALID; ++e)
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      sum += flow[e];
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    for (InArcIt e(gr, n); e != INVALID; ++e)
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      sum -= flow[e];
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    bool b = (type ==  EQ && sum == supply[n]) ||
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             (type == GEQ && sum >= supply[n]) ||
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             (type == LEQ && sum <= supply[n]);
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    if (!b) return false;
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  }
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  return true;
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}
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// Check the feasibility of the given potentials (dual soluiton)
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// using the "Complementary Slackness" optimality condition
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template < typename GR, typename LM, typename UM,
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           typename CM, typename SM, typename FM, typename PM >
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bool checkPotential( const GR& gr, const LM& lower, const UM& upper,
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                     const CM& cost, const SM& supply, const FM& flow, 
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                     const PM& pi, SupplyType type )
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{
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  TEMPLATE_DIGRAPH_TYPEDEFS(GR);
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  bool opt = true;
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  for (ArcIt e(gr); opt && e != INVALID; ++e) {
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    typename CM::Value red_cost =
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      cost[e] + pi[gr.source(e)] - pi[gr.target(e)];
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    opt = red_cost == 0 ||
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          (red_cost > 0 && flow[e] == lower[e]) ||
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          (red_cost < 0 && flow[e] == upper[e]);
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  }
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  for (NodeIt n(gr); opt && n != INVALID; ++n) {
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    typename SM::Value sum = 0;
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    for (OutArcIt e(gr, n); e != INVALID; ++e)
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      sum += flow[e];
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    for (InArcIt e(gr, n); e != INVALID; ++e)
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      sum -= flow[e];
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    if (type != LEQ) {
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      opt = (pi[n] <= 0) && (sum == supply[n] || pi[n] == 0);
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    } else {
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      opt = (pi[n] >= 0) && (sum == supply[n] || pi[n] == 0);
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    }
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  }
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  return opt;
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}
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// Check whether the dual cost is equal to the primal cost
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template < typename GR, typename LM, typename UM,
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           typename CM, typename SM, typename PM >
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bool checkDualCost( const GR& gr, const LM& lower, const UM& upper,
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                    const CM& cost, const SM& supply, const PM& pi,
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                    typename CM::Value total )
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{
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  TEMPLATE_DIGRAPH_TYPEDEFS(GR);
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  typename CM::Value dual_cost = 0;
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  SM red_supply(gr);
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  for (NodeIt n(gr); n != INVALID; ++n) {
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    red_supply[n] = supply[n];
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  }
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  for (ArcIt a(gr); a != INVALID; ++a) {
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    if (lower[a] != 0) {
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      dual_cost += lower[a] * cost[a];
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      red_supply[gr.source(a)] -= lower[a];
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      red_supply[gr.target(a)] += lower[a];
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    }
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  }
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  for (NodeIt n(gr); n != INVALID; ++n) {
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    dual_cost -= red_supply[n] * pi[n];
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  }
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  for (ArcIt a(gr); a != INVALID; ++a) {
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    typename CM::Value red_cost =
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      cost[a] + pi[gr.source(a)] - pi[gr.target(a)];
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    dual_cost -= (upper[a] - lower[a]) * std::max(-red_cost, 0);
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  }
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  return dual_cost == total;
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}
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// Run a minimum cost flow algorithm and check the results
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template < typename MCF, typename GR,
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           typename LM, typename UM,
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           typename CM, typename SM,
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           typename PT >
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void checkMcf( const MCF& mcf, PT mcf_result,
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               const GR& gr, const LM& lower, const UM& upper,
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               const CM& cost, const SM& supply,
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               PT result, bool optimal, typename CM::Value total,
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               const std::string &test_id = "",
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               SupplyType type = EQ )
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{
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  check(mcf_result == result, "Wrong result " + test_id);
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  if (optimal) {
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    typename GR::template ArcMap<typename SM::Value> flow(gr);
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    typename GR::template NodeMap<typename CM::Value> pi(gr);
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    mcf.flowMap(flow);
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    mcf.potentialMap(pi);
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    check(checkFlow(gr, lower, upper, supply, flow, type),
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          "The flow is not feasible " + test_id);
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    check(mcf.totalCost() == total, "The flow is not optimal " + test_id);
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    check(checkPotential(gr, lower, upper, cost, supply, flow, pi, type),
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          "Wrong potentials " + test_id);
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    check(checkDualCost(gr, lower, upper, cost, supply, pi, total),
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          "Wrong dual cost " + test_id);
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  }
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}
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int main()
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{
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  // Check the interfaces
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  {
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    typedef concepts::Digraph GR;
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    checkConcept< McfClassConcept<GR, int, int>,
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                  NetworkSimplex<GR> >();
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    checkConcept< McfClassConcept<GR, double, double>,
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                  NetworkSimplex<GR, double> >();
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    checkConcept< McfClassConcept<GR, int, double>,
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                  NetworkSimplex<GR, int, double> >();
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  }
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  // Run various MCF tests
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  typedef ListDigraph Digraph;
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  DIGRAPH_TYPEDEFS(ListDigraph);
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  // Read the test digraph
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  Digraph gr;
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  Digraph::ArcMap<int> c(gr), l1(gr), l2(gr), l3(gr), u(gr);
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  Digraph::NodeMap<int> s1(gr), s2(gr), s3(gr), s4(gr), s5(gr), s6(gr);
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  ConstMap<Arc, int> cc(1), cu(std::numeric_limits<int>::max());
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  Node v, w;
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  std::istringstream input(test_lgf);
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  DigraphReader<Digraph>(gr, input)
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    .arcMap("cost", c)
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    .arcMap("cap", u)
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    .arcMap("low1", l1)
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    .arcMap("low2", l2)
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    .arcMap("low3", l3)
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    .nodeMap("sup1", s1)
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    .nodeMap("sup2", s2)
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    .nodeMap("sup3", s3)
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    .nodeMap("sup4", s4)
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    .nodeMap("sup5", s5)
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    .nodeMap("sup6", s6)
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    .node("source", v)
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    .node("target", w)
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    .run();
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  // Build test digraphs with negative costs
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  Digraph neg_gr;
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  Node n1 = neg_gr.addNode();
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  Node n2 = neg_gr.addNode();
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  Node n3 = neg_gr.addNode();
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  Node n4 = neg_gr.addNode();
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  Node n5 = neg_gr.addNode();
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  Node n6 = neg_gr.addNode();
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  Node n7 = neg_gr.addNode();
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  Arc a1 = neg_gr.addArc(n1, n2);
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  Arc a2 = neg_gr.addArc(n1, n3);
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  Arc a3 = neg_gr.addArc(n2, n4);
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  Arc a4 = neg_gr.addArc(n3, n4);
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  Arc a5 = neg_gr.addArc(n3, n2);
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  Arc a6 = neg_gr.addArc(n5, n3);
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  Arc a7 = neg_gr.addArc(n5, n6);
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  Arc a8 = neg_gr.addArc(n6, n7);
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  Arc a9 = neg_gr.addArc(n7, n5);
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  Digraph::ArcMap<int> neg_c(neg_gr), neg_l1(neg_gr, 0), neg_l2(neg_gr, 0);
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  ConstMap<Arc, int> neg_u1(std::numeric_limits<int>::max()), neg_u2(5000);
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  Digraph::NodeMap<int> neg_s(neg_gr, 0);
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  neg_l2[a7] =  1000;
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  neg_l2[a8] = -1000;
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  neg_s[n1] =  100;
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  neg_s[n4] = -100;
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  neg_c[a1] =  100;
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  neg_c[a2] =   30;
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  neg_c[a3] =   20;
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  neg_c[a4] =   80;
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  neg_c[a5] =   50;
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  neg_c[a6] =   10;
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  neg_c[a7] =   80;
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  neg_c[a8] =   30;
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  neg_c[a9] = -120;
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  Digraph negs_gr;
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  Digraph::NodeMap<int> negs_s(negs_gr);
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  Digraph::ArcMap<int> negs_c(negs_gr);
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  ConstMap<Arc, int> negs_l(0), negs_u(1000);
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  n1 = negs_gr.addNode();
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  n2 = negs_gr.addNode();
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  negs_s[n1] = 100;
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  negs_s[n2] = -300;
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  negs_c[negs_gr.addArc(n1, n2)] = -1;
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  // A. Test NetworkSimplex with the default pivot rule
kpeter@648
   364
  {
kpeter@653
   365
    NetworkSimplex<Digraph> mcf(gr);
kpeter@648
   366
kpeter@656
   367
    // Check the equality form
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   368
    mcf.upperMap(u).costMap(c);
kpeter@653
   369
    checkMcf(mcf, mcf.supplyMap(s1).run(),
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   370
             gr, l1, u, c, s1, mcf.OPTIMAL, true,   5240, "#A1");
kpeter@653
   371
    checkMcf(mcf, mcf.stSupply(v, w, 27).run(),
kpeter@687
   372
             gr, l1, u, c, s2, mcf.OPTIMAL, true,   7620, "#A2");
kpeter@653
   373
    mcf.lowerMap(l2);
kpeter@653
   374
    checkMcf(mcf, mcf.supplyMap(s1).run(),
kpeter@687
   375
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#A3");
kpeter@653
   376
    checkMcf(mcf, mcf.stSupply(v, w, 27).run(),
kpeter@687
   377
             gr, l2, u, c, s2, mcf.OPTIMAL, true,   8010, "#A4");
kpeter@653
   378
    mcf.reset();
kpeter@653
   379
    checkMcf(mcf, mcf.supplyMap(s1).run(),
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   380
             gr, l1, cu, cc, s1, mcf.OPTIMAL, true,   74, "#A5");
kpeter@653
   381
    checkMcf(mcf, mcf.lowerMap(l2).stSupply(v, w, 27).run(),
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   382
             gr, l2, cu, cc, s2, mcf.OPTIMAL, true,   94, "#A6");
kpeter@653
   383
    mcf.reset();
kpeter@653
   384
    checkMcf(mcf, mcf.run(),
kpeter@687
   385
             gr, l1, cu, cc, s3, mcf.OPTIMAL, true,    0, "#A7");
kpeter@687
   386
    checkMcf(mcf, mcf.lowerMap(l2).upperMap(u).run(),
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   387
             gr, l2, u, cc, s3, mcf.INFEASIBLE, false, 0, "#A8");
kpeter@687
   388
    mcf.reset().lowerMap(l3).upperMap(u).costMap(c).supplyMap(s4);
kpeter@687
   389
    checkMcf(mcf, mcf.run(),
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   390
             gr, l3, u, c, s4, mcf.OPTIMAL, true,   6360, "#A9");
kpeter@656
   391
kpeter@656
   392
    // Check the GEQ form
kpeter@687
   393
    mcf.reset().upperMap(u).costMap(c).supplyMap(s5);
kpeter@656
   394
    checkMcf(mcf, mcf.run(),
kpeter@687
   395
             gr, l1, u, c, s5, mcf.OPTIMAL, true,   3530, "#A10", GEQ);
kpeter@687
   396
    mcf.supplyType(mcf.GEQ);
kpeter@656
   397
    checkMcf(mcf, mcf.lowerMap(l2).run(),
kpeter@687
   398
             gr, l2, u, c, s5, mcf.OPTIMAL, true,   4540, "#A11", GEQ);
kpeter@711
   399
    mcf.supplyMap(s6);
kpeter@656
   400
    checkMcf(mcf, mcf.run(),
kpeter@687
   401
             gr, l2, u, c, s6, mcf.INFEASIBLE, false,  0, "#A12", GEQ);
kpeter@656
   402
kpeter@656
   403
    // Check the LEQ form
kpeter@687
   404
    mcf.reset().supplyType(mcf.LEQ);
kpeter@687
   405
    mcf.upperMap(u).costMap(c).supplyMap(s6);
kpeter@656
   406
    checkMcf(mcf, mcf.run(),
kpeter@687
   407
             gr, l1, u, c, s6, mcf.OPTIMAL, true,   5080, "#A13", LEQ);
kpeter@656
   408
    checkMcf(mcf, mcf.lowerMap(l2).run(),
kpeter@687
   409
             gr, l2, u, c, s6, mcf.OPTIMAL, true,   5930, "#A14", LEQ);
kpeter@711
   410
    mcf.supplyMap(s5);
kpeter@656
   411
    checkMcf(mcf, mcf.run(),
kpeter@687
   412
             gr, l2, u, c, s5, mcf.INFEASIBLE, false,  0, "#A15", LEQ);
kpeter@687
   413
kpeter@687
   414
    // Check negative costs
kpeter@711
   415
    NetworkSimplex<Digraph> neg_mcf(neg_gr);
kpeter@711
   416
    neg_mcf.lowerMap(neg_l1).costMap(neg_c).supplyMap(neg_s);
kpeter@711
   417
    checkMcf(neg_mcf, neg_mcf.run(), neg_gr, neg_l1, neg_u1,
kpeter@711
   418
      neg_c, neg_s, neg_mcf.UNBOUNDED, false,    0, "#A16");
kpeter@711
   419
    neg_mcf.upperMap(neg_u2);
kpeter@711
   420
    checkMcf(neg_mcf, neg_mcf.run(), neg_gr, neg_l1, neg_u2,
kpeter@711
   421
      neg_c, neg_s, neg_mcf.OPTIMAL, true,  -40000, "#A17");
kpeter@711
   422
    neg_mcf.reset().lowerMap(neg_l2).costMap(neg_c).supplyMap(neg_s);
kpeter@711
   423
    checkMcf(neg_mcf, neg_mcf.run(), neg_gr, neg_l2, neg_u1,
kpeter@711
   424
      neg_c, neg_s, neg_mcf.UNBOUNDED, false,    0, "#A18");
kpeter@711
   425
      
kpeter@711
   426
    NetworkSimplex<Digraph> negs_mcf(negs_gr);
kpeter@711
   427
    negs_mcf.costMap(negs_c).supplyMap(negs_s);
kpeter@711
   428
    checkMcf(negs_mcf, negs_mcf.run(), negs_gr, negs_l, negs_u,
kpeter@711
   429
      negs_c, negs_s, negs_mcf.OPTIMAL, true, -300, "#A19", GEQ);
kpeter@648
   430
  }
kpeter@648
   431
kpeter@652
   432
  // B. Test NetworkSimplex with each pivot rule
kpeter@648
   433
  {
kpeter@653
   434
    NetworkSimplex<Digraph> mcf(gr);
kpeter@687
   435
    mcf.supplyMap(s1).costMap(c).upperMap(u).lowerMap(l2);
kpeter@648
   436
kpeter@653
   437
    checkMcf(mcf, mcf.run(NetworkSimplex<Digraph>::FIRST_ELIGIBLE),
kpeter@687
   438
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#B1");
kpeter@653
   439
    checkMcf(mcf, mcf.run(NetworkSimplex<Digraph>::BEST_ELIGIBLE),
kpeter@687
   440
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#B2");
kpeter@653
   441
    checkMcf(mcf, mcf.run(NetworkSimplex<Digraph>::BLOCK_SEARCH),
kpeter@687
   442
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#B3");
kpeter@653
   443
    checkMcf(mcf, mcf.run(NetworkSimplex<Digraph>::CANDIDATE_LIST),
kpeter@687
   444
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#B4");
kpeter@653
   445
    checkMcf(mcf, mcf.run(NetworkSimplex<Digraph>::ALTERING_LIST),
kpeter@687
   446
             gr, l2, u, c, s1, mcf.OPTIMAL, true,   5970, "#B5");
kpeter@648
   447
  }
kpeter@648
   448
kpeter@648
   449
  return 0;
kpeter@648
   450
}