test/max_flow_test.cc
author Balazs Dezso <deba@google.com>
Fri, 22 Jan 2021 10:55:32 +0100
changeset 1208 c6aa2cc1af04
parent 1169 8db773f19586
permissions -rw-r--r--
Factor out recursion from weighted matching algorithms (#638)
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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) 2003-2013
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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 "test_tools.h"
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#include <lemon/smart_graph.h>
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#include <lemon/preflow.h>
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#include <lemon/edmonds_karp.h>
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#include <lemon/concepts/digraph.h>
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#include <lemon/concepts/maps.h>
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#include <lemon/lgf_reader.h>
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#include <lemon/elevator.h>
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#include <lemon/tolerance.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\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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  "6\n"
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  "7\n"
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  "8\n"
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  "9\n"
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  "@arcs\n"
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  "    label capacity\n"
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  "0 1 0     20\n"
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  "0 2 1     0\n"
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  "1 1 2     3\n"
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  "1 2 3     8\n"
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  "1 3 4     8\n"
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  "2 5 5     5\n"
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  "3 2 6     5\n"
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  "3 5 7     5\n"
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  "3 6 8     5\n"
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  "4 3 9     3\n"
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  "5 7 10    3\n"
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  "5 6 11    10\n"
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  "5 8 12    10\n"
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  "6 8 13    8\n"
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  "8 9 14    20\n"
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  "8 1 15    5\n"
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  "9 5 16    5\n"
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  "@attributes\n"
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  "source 1\n"
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  "target 8\n";
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char test_lgf_float[] =
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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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  "6\n"
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  "7\n"
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  "8\n"
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  "9\n"
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  "@arcs\n"
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  "      capacity\n"
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  "0 1 0.1\n"
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  "0 2 0.1\n"
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  "0 3 0.1\n"
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  "1 4 0.1\n"
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  "2 4 0.1\n"
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  "3 4 0.1\n"
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  "4 5 0.3\n"
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  "5 6 0.1\n"
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  "5 7 0.1\n"
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  "5 8 0.1\n"
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  "6 9 0.1\n"
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  "7 9 0.1\n"
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  "8 9 0.1\n"
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  "@attributes\n"
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  "source 0\n"
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  "target 9\n";
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// Checks the general interface of a max flow algorithm
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template <typename GR, typename CAP>
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struct MaxFlowClassConcept
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{
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  template <typename MF>
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  struct Constraints {
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    typedef typename GR::Node Node;
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    typedef typename GR::Arc Arc;
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    typedef typename CAP::Value Value;
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    typedef concepts::ReadWriteMap<Arc, Value> FlowMap;
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    typedef concepts::WriteMap<Node, bool> CutMap;
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    GR g;
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    Node n;
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    Arc e;
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    CAP cap;
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    FlowMap flow;
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    CutMap cut;
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    Value v;
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    bool b;
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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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      typedef typename MF
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          ::template SetFlowMap<FlowMap>
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          ::Create MaxFlowType;
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      typedef typename MF::Create MaxFlowType2;
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      MaxFlowType max_flow(me.g, me.cap, me.n, me.n);
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      const MaxFlowType& const_max_flow = max_flow;
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      max_flow
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          .capacityMap(cap)
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          .flowMap(flow)
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          .source(n)
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          .target(n);
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      typename MaxFlowType::Tolerance tol = const_max_flow.tolerance();
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      max_flow.tolerance(tol);
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      max_flow.init();
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      max_flow.init(cap);
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      max_flow.run();
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      v = const_max_flow.flowValue();
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      v = const_max_flow.flow(e);
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      const FlowMap& fm = const_max_flow.flowMap();
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      b = const_max_flow.minCut(n);
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      const_max_flow.minCutMap(cut);
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      ::lemon::ignore_unused_variable_warning(fm);
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    }
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  };
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};
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// Checks the specific parts of Preflow's interface
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void checkPreflowCompile()
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{
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  typedef int Value;
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  typedef concepts::Digraph Digraph;
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  typedef concepts::ReadMap<Digraph::Arc, Value> CapMap;
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  typedef Elevator<Digraph, Digraph::Node> Elev;
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  typedef LinkedElevator<Digraph, Digraph::Node> LinkedElev;
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  Digraph g;
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  Digraph::Node n;
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  CapMap cap;
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  typedef Preflow<Digraph, CapMap>
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      ::SetElevator<Elev>
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      ::SetStandardElevator<LinkedElev>
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      ::Create PreflowType;
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  PreflowType preflow_test(g, cap, n, n);
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  const PreflowType& const_preflow_test = preflow_test;
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  const PreflowType::Elevator& elev = const_preflow_test.elevator();
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  preflow_test.elevator(const_cast<PreflowType::Elevator&>(elev));
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  bool b = preflow_test.init(cap);
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  preflow_test.startFirstPhase();
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  preflow_test.startSecondPhase();
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  preflow_test.runMinCut();
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  ::lemon::ignore_unused_variable_warning(b);
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}
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// Checks the specific parts of EdmondsKarp's interface
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void checkEdmondsKarpCompile()
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{
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  typedef int Value;
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  typedef concepts::Digraph Digraph;
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  typedef concepts::ReadMap<Digraph::Arc, Value> CapMap;
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  Digraph g;
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  Digraph::Node n;
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  CapMap cap;
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  EdmondsKarp<Digraph, CapMap> ek_test(g, cap, n, n);
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  ek_test.init(cap);
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  bool b = ek_test.checkedInit(cap);
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  b = ek_test.augment();
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  ek_test.start();
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  ::lemon::ignore_unused_variable_warning(b);
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}
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template <typename T>
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T cutValue(const SmartDigraph& g,
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           const SmartDigraph::NodeMap<bool>& cut,
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           const SmartDigraph::ArcMap<T>& cap) {
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  T c = 0;
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  for (SmartDigraph::ArcIt e(g); e != INVALID; ++e) {
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    if (cut[g.source(e)] && !cut[g.target(e)]) c += cap[e];
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  }
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  return c;
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}
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template <typename T>
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bool checkFlow(const SmartDigraph& g,
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               const SmartDigraph::ArcMap<T>& flow,
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               const SmartDigraph::ArcMap<T>& cap,
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               SmartDigraph::Node s, SmartDigraph::Node t,
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               const Tolerance<T>& tol) {
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  for (SmartDigraph::ArcIt e(g); e != INVALID; ++e) {
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    if (tol.negative(flow[e]) || tol.less(cap[e], flow[e])) return false;
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  }
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  for (SmartDigraph::NodeIt n(g); n != INVALID; ++n) {
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    if (n == s || n == t) continue;
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    T sum = 0;
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    for (SmartDigraph::OutArcIt e(g, n); e != INVALID; ++e) {
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      sum += flow[e];
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    }
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    for (SmartDigraph::InArcIt e(g, n); e != INVALID; ++e) {
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      sum -= flow[e];
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    }
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    if (tol.nonZero(sum)) return false;
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  }
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  return true;
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}
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void checkInitPreflow()
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{
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  DIGRAPH_TYPEDEFS(SmartDigraph);
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  SmartDigraph g;
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  SmartDigraph::ArcMap<int> cap(g), iflow(g);
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  Node s = g.addNode(); Node t = g.addNode();
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  Node n1 = g.addNode(); Node n2 = g.addNode();
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  Arc a;
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  a = g.addArc(s, n1); cap[a] = 20; iflow[a] = 20;
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  a = g.addArc(n1, n2); cap[a] = 10; iflow[a] = 0;
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  a = g.addArc(n2, t); cap[a] = 20; iflow[a] = 0;
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  Preflow<SmartDigraph> pre(g, cap, s, t);
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  pre.init(iflow);
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  pre.startFirstPhase();
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  check(pre.flowValue() == 10, "Incorrect max flow value.");
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  check(pre.minCut(s), "Wrong min cut (Node s).");
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  check(pre.minCut(n1), "Wrong min cut (Node n1).");
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  check(!pre.minCut(n2), "Wrong min cut (Node n2).");
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  check(!pre.minCut(t), "Wrong min cut (Node t).");
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}
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template <typename MF, typename SF>
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void checkMaxFlowAlg(const char *input_lgf,  typename MF::Value expected) {
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  typedef SmartDigraph Digraph;
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  DIGRAPH_TYPEDEFS(Digraph);
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  typedef typename MF::Value Value;
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  typedef Digraph::ArcMap<Value> CapMap;
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  typedef CapMap FlowMap;
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  typedef BoolNodeMap CutMap;
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  Tolerance<Value> tol;
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  Digraph g;
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  Node s, t;
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  CapMap cap(g);
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  std::istringstream input(input_lgf);
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  DigraphReader<Digraph>(g, input)
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      .arcMap("capacity", cap)
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      .node("source", s)
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      .node("target", t)
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      .run();
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  MF max_flow(g, cap, s, t);
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  max_flow.run();
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  check(!tol.different(expected, max_flow.flowValue()),
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        "Incorrect max flow value.");
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  check(checkFlow(g, max_flow.flowMap(), cap, s, t, tol),
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        "The flow is not feasible.");
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  CutMap min_cut(g);
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  max_flow.minCutMap(min_cut);
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  Value min_cut_value = cutValue(g, min_cut, cap);
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  check(!tol.different(expected, min_cut_value),
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        "Incorrect min cut value.");
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  FlowMap flow(g);
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  for (ArcIt e(g); e != INVALID; ++e) flow[e] = 13 * max_flow.flowMap()[e];
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  for (ArcIt e(g); e != INVALID; ++e) cap[e] = 17 * cap[e];
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  max_flow.init(flow);
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  SF::startFirstPhase(max_flow);       // start first phase of the algorithm
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  CutMap min_cut1(g);
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  max_flow.minCutMap(min_cut1);
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  min_cut_value = cutValue(g, min_cut1, cap);
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  check(!tol.different(17 * expected, max_flow.flowValue()),
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        "Incorrect max flow value.");
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  check(!tol.different(17 * expected, min_cut_value),
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        "Incorrect min cut value.");
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  SF::startSecondPhase(max_flow);       // start second phase of the algorithm
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  check(checkFlow(g, max_flow.flowMap(), cap, s, t, tol),
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        "The flow is not feasible.");
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  CutMap min_cut2(g);
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  max_flow.minCutMap(min_cut2);
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  min_cut_value = cutValue(g, min_cut2, cap);
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  check(!tol.different(17 * expected, max_flow.flowValue()),
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        "Incorrect max flow value.");
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  check(!tol.different(17 * expected, min_cut_value),
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        "Incorrect min cut value.");
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  max_flow.flowMap(flow);
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  NodeIt tmp1(g, s);
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  ++tmp1;
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  if (tmp1 != INVALID) s = tmp1;
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  NodeIt tmp2(g, t);
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  ++tmp2;
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  if (tmp2 != INVALID) t = tmp2;
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  max_flow.source(s);
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  max_flow.target(t);
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  max_flow.run();
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  CutMap min_cut3(g);
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  max_flow.minCutMap(min_cut3);
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  min_cut_value = cutValue(g, min_cut3, cap);
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  check(!tol.different(max_flow.flowValue(), min_cut_value),
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        "The max flow value or the min cut value is wrong.");
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}
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// Struct for calling start functions of a general max flow algorithm
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template <typename MF>
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struct GeneralStartFunctions {
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  static void startFirstPhase(MF& mf) {
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    mf.start();
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  }
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  static void startSecondPhase(MF& mf) {
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    ::lemon::ignore_unused_variable_warning(mf);
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  }
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};
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// Struct for calling start functions of Preflow
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template <typename MF>
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struct PreflowStartFunctions {
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  static void startFirstPhase(MF& mf) {
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    mf.startFirstPhase();
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  }
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  static void startSecondPhase(MF& mf) {
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    mf.startSecondPhase();
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  }
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};
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int main() {
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  typedef concepts::Digraph GR;
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  typedef concepts::ReadMap<GR::Arc, int> CM1;
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  typedef concepts::ReadMap<GR::Arc, double> CM2;
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  // Check the interface of Preflow
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  checkConcept< MaxFlowClassConcept<GR, CM1>,
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                Preflow<GR, CM1> >();
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  checkConcept< MaxFlowClassConcept<GR, CM2>,
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                Preflow<GR, CM2> >();
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  // Check the interface of EdmondsKarp
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  checkConcept< MaxFlowClassConcept<GR, CM1>,
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                EdmondsKarp<GR, CM1> >();
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  checkConcept< MaxFlowClassConcept<GR, CM2>,
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                EdmondsKarp<GR, CM2> >();
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  // Check Preflow
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  typedef Preflow<SmartDigraph, SmartDigraph::ArcMap<int> > PType1;
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  typedef Preflow<SmartDigraph, SmartDigraph::ArcMap<float> > PType2;
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  typedef Preflow<SmartDigraph, SmartDigraph::ArcMap<double> > PType3;
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  checkMaxFlowAlg<PType1, PreflowStartFunctions<PType1> >(test_lgf, 13);
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  checkMaxFlowAlg<PType2, PreflowStartFunctions<PType2> >(test_lgf, 13);
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  checkMaxFlowAlg<PType3, PreflowStartFunctions<PType3> >(test_lgf, 13);
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  checkMaxFlowAlg<PType2, PreflowStartFunctions<PType2> >(test_lgf_float, 0.3f);
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  checkMaxFlowAlg<PType3, PreflowStartFunctions<PType3> >(test_lgf_float, 0.3);
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  checkInitPreflow();
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  // Check EdmondsKarp
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  typedef EdmondsKarp<SmartDigraph, SmartDigraph::ArcMap<int> > EKType1;
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  typedef EdmondsKarp<SmartDigraph, SmartDigraph::ArcMap<float> > EKType2;
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  typedef EdmondsKarp<SmartDigraph, SmartDigraph::ArcMap<double> > EKType3;
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  checkMaxFlowAlg<EKType1, GeneralStartFunctions<EKType1> >(test_lgf, 13);
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  checkMaxFlowAlg<EKType2, GeneralStartFunctions<EKType2> >(test_lgf, 13);
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  checkMaxFlowAlg<EKType3, GeneralStartFunctions<EKType3> >(test_lgf, 13);
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  checkMaxFlowAlg<EKType2, GeneralStartFunctions<EKType2> >(test_lgf_float, 0.3f);
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  checkMaxFlowAlg<EKType3, GeneralStartFunctions<EKType3> >(test_lgf_float, 0.3);
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  return 0;
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}