lemon/static_graph.h
author Peter Kovacs <kpeter@inf.elte.hu>
Thu, 12 Nov 2009 23:26:13 +0100
changeset 806 fa6f37d7a25b
parent 779 c160bf9f18ef
child 877 141f9c0db4a3
permissions -rw-r--r--
Entirely rework CapacityScaling (#180)

- Use the new interface similarly to NetworkSimplex.
- Rework the implementation using an efficient internal structure
for handling the residual network. This improvement made the
code much faster (up to 2-5 times faster on large graphs).
- Handle GEQ supply type (LEQ is not supported).
- Handle negative costs for arcs of finite capacity.
(Note that this algorithm cannot handle arcs of negative cost
and infinite upper bound, thus it returns UNBOUNDED if such
an arc exists.)
- Extend the documentation.
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/* -*- C++ -*-
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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) 2003-2008
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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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#ifndef LEMON_STATIC_GRAPH_H
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#define LEMON_STATIC_GRAPH_H
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///\ingroup graphs
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///\file
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///\brief StaticDigraph class.
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#include <lemon/core.h>
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#include <lemon/bits/graph_extender.h>
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namespace lemon {
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  class StaticDigraphBase {
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  public:
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    StaticDigraphBase() 
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      : built(false), node_num(0), arc_num(0), 
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        node_first_out(NULL), node_first_in(NULL),
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        arc_source(NULL), arc_target(NULL), 
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        arc_next_in(NULL), arc_next_out(NULL) {}
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    ~StaticDigraphBase() {
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      if (built) {
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        delete[] node_first_out;
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        delete[] node_first_in;
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        delete[] arc_source;
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        delete[] arc_target;
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        delete[] arc_next_out;
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        delete[] arc_next_in;
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      }
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    }
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    class Node {
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      friend class StaticDigraphBase;
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    protected:
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      int id;
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      Node(int _id) : id(_id) {}
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    public:
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      Node() {}
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      Node (Invalid) : id(-1) {}
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      bool operator==(const Node& node) const { return id == node.id; }
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      bool operator!=(const Node& node) const { return id != node.id; }
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      bool operator<(const Node& node) const { return id < node.id; }
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    };
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    class Arc {
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      friend class StaticDigraphBase;      
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    protected:
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      int id;
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      Arc(int _id) : id(_id) {}
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    public:
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      Arc() { }
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      Arc (Invalid) : id(-1) {}
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      bool operator==(const Arc& arc) const { return id == arc.id; }
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      bool operator!=(const Arc& arc) const { return id != arc.id; }
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      bool operator<(const Arc& arc) const { return id < arc.id; }
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    };
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    Node source(const Arc& e) const { return Node(arc_source[e.id]); }
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    Node target(const Arc& e) const { return Node(arc_target[e.id]); }
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    void first(Node& n) const { n.id = node_num - 1; }
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    static void next(Node& n) { --n.id; }
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    void first(Arc& e) const { e.id = arc_num - 1; }
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    static void next(Arc& e) { --e.id; }
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    void firstOut(Arc& e, const Node& n) const { 
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      e.id = node_first_out[n.id] != node_first_out[n.id + 1] ? 
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        node_first_out[n.id] : -1;
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    }
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    void nextOut(Arc& e) const { e.id = arc_next_out[e.id]; }
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    void firstIn(Arc& e, const Node& n) const { e.id = node_first_in[n.id]; }
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    void nextIn(Arc& e) const { e.id = arc_next_in[e.id]; }
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    static int id(const Node& n) { return n.id; }
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    static Node nodeFromId(int id) { return Node(id); }
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    int maxNodeId() const { return node_num - 1; }
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    static int id(const Arc& e) { return e.id; }
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    static Arc arcFromId(int id) { return Arc(id); }
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    int maxArcId() const { return arc_num - 1; }
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    typedef True NodeNumTag;
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    typedef True ArcNumTag;
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    int nodeNum() const { return node_num; }
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    int arcNum() const { return arc_num; }
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  private:
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    template <typename Digraph, typename NodeRefMap>
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    class ArcLess {
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    public:
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      typedef typename Digraph::Arc Arc;
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      ArcLess(const Digraph &_graph, const NodeRefMap& _nodeRef) 
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        : digraph(_graph), nodeRef(_nodeRef) {}
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      bool operator()(const Arc& left, const Arc& right) const {
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	return nodeRef[digraph.target(left)] < nodeRef[digraph.target(right)];
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      }
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    private:
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      const Digraph& digraph;
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      const NodeRefMap& nodeRef;
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    };
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  public:
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    typedef True BuildTag;
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    void clear() {
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      if (built) {
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        delete[] node_first_out;
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        delete[] node_first_in;
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        delete[] arc_source;
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        delete[] arc_target;
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        delete[] arc_next_out;
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        delete[] arc_next_in;
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      }
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      built = false;
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      node_num = 0;
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      arc_num = 0;
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    }
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    template <typename Digraph, typename NodeRefMap, typename ArcRefMap>
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    void build(const Digraph& digraph, NodeRefMap& nodeRef, ArcRefMap& arcRef) {
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      typedef typename Digraph::Node GNode;
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      typedef typename Digraph::Arc GArc;
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      built = true;
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      node_num = countNodes(digraph);
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      arc_num = countArcs(digraph);
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      node_first_out = new int[node_num + 1];
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      node_first_in = new int[node_num];
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      arc_source = new int[arc_num];
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      arc_target = new int[arc_num];
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      arc_next_out = new int[arc_num];
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      arc_next_in = new int[arc_num];
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      int node_index = 0;
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      for (typename Digraph::NodeIt n(digraph); n != INVALID; ++n) {
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        nodeRef[n] = Node(node_index);
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        node_first_in[node_index] = -1;
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        ++node_index;
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      }
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      ArcLess<Digraph, NodeRefMap> arcLess(digraph, nodeRef);
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      int arc_index = 0;
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      for (typename Digraph::NodeIt n(digraph); n != INVALID; ++n) {
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        int source = nodeRef[n].id;
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        std::vector<GArc> arcs;
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        for (typename Digraph::OutArcIt e(digraph, n); e != INVALID; ++e) {
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          arcs.push_back(e);
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        }
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        if (!arcs.empty()) {
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          node_first_out[source] = arc_index;
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          std::sort(arcs.begin(), arcs.end(), arcLess);
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          for (typename std::vector<GArc>::iterator it = arcs.begin();
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               it != arcs.end(); ++it) {
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            int target = nodeRef[digraph.target(*it)].id;
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            arcRef[*it] = Arc(arc_index);
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            arc_source[arc_index] = source; 
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            arc_target[arc_index] = target;
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            arc_next_in[arc_index] = node_first_in[target];
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            node_first_in[target] = arc_index;
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            arc_next_out[arc_index] = arc_index + 1;
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            ++arc_index;
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          }
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          arc_next_out[arc_index - 1] = -1;
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        } else {
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          node_first_out[source] = arc_index;
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        }
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      }
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      node_first_out[node_num] = arc_num;
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    }
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    template <typename ArcListIterator>
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    void build(int n, ArcListIterator first, ArcListIterator last) {
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      built = true;
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      node_num = n;
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      arc_num = std::distance(first, last);
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      node_first_out = new int[node_num + 1];
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      node_first_in = new int[node_num];
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      arc_source = new int[arc_num];
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      arc_target = new int[arc_num];
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      arc_next_out = new int[arc_num];
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      arc_next_in = new int[arc_num];
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      for (int i = 0; i != node_num; ++i) {
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        node_first_in[i] = -1;
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      }      
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      int arc_index = 0;
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      for (int i = 0; i != node_num; ++i) {
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        node_first_out[i] = arc_index;
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        for ( ; first != last && (*first).first == i; ++first) {
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          int j = (*first).second;
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          LEMON_ASSERT(j >= 0 && j < node_num,
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            "Wrong arc list for StaticDigraph::build()");
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          arc_source[arc_index] = i;
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          arc_target[arc_index] = j;
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          arc_next_in[arc_index] = node_first_in[j];
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          node_first_in[j] = arc_index;
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          arc_next_out[arc_index] = arc_index + 1;
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          ++arc_index;
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        }
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        if (arc_index > node_first_out[i])
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          arc_next_out[arc_index - 1] = -1;
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      }
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      LEMON_ASSERT(first == last,
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        "Wrong arc list for StaticDigraph::build()");
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      node_first_out[node_num] = arc_num;
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    }
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  protected:
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    void fastFirstOut(Arc& e, const Node& n) const {
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      e.id = node_first_out[n.id];
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    }
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    static void fastNextOut(Arc& e) {
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      ++e.id;
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    }
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    void fastLastOut(Arc& e, const Node& n) const {
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      e.id = node_first_out[n.id + 1];
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    }
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  protected:
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    bool built;
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    int node_num;
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    int arc_num;
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    int *node_first_out;
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    int *node_first_in;
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    int *arc_source;
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    int *arc_target;
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    int *arc_next_in;
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    int *arc_next_out;
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  };
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  typedef DigraphExtender<StaticDigraphBase> ExtendedStaticDigraphBase;
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  /// \ingroup graphs
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  ///
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  /// \brief A static directed graph class.
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  ///
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  /// \ref StaticDigraph is a highly efficient digraph implementation,
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  /// but it is fully static.
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  /// It stores only two \c int values for each node and only four \c int
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  /// values for each arc. Moreover it provides faster item iteration than
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  /// \ref ListDigraph and \ref SmartDigraph, especially using \c OutArcIt
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  /// iterators, since its arcs are stored in an appropriate order.
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  /// However it only provides build() and clear() functions and does not
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  /// support any other modification of the digraph.
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  ///
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  /// Since this digraph structure is completely static, its nodes and arcs
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  /// can be indexed with integers from the ranges <tt>[0..nodeNum()-1]</tt>
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  /// and <tt>[0..arcNum()-1]</tt>, respectively. 
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  /// The index of an item is the same as its ID, it can be obtained
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  /// using the corresponding \ref index() or \ref concepts::Digraph::id()
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  /// "id()" function. A node or arc with a certain index can be obtained
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  /// using node() or arc().
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  ///
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  /// This type fully conforms to the \ref concepts::Digraph "Digraph concept".
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  /// Most of its member functions and nested classes are documented
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  /// only in the concept class.
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  ///
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  /// This class provides constant time counting for nodes and arcs.
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  ///
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  /// \sa concepts::Digraph
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  class StaticDigraph : public ExtendedStaticDigraphBase {
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  public:
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    typedef ExtendedStaticDigraphBase Parent;
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  public:
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    /// \brief Constructor
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    ///
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    /// Default constructor.
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    StaticDigraph() : Parent() {}
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    /// \brief The node with the given index.
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    ///
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    /// This function returns the node with the given index.
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    /// \sa index()
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    static Node node(int ix) { return Parent::nodeFromId(ix); }
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    /// \brief The arc with the given index.
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    ///
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    /// This function returns the arc with the given index.
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    /// \sa index()
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    static Arc arc(int ix) { return Parent::arcFromId(ix); }
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    /// \brief The index of the given node.
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    ///
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    /// This function returns the index of the the given node.
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    /// \sa node()
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    static int index(Node node) { return Parent::id(node); }
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    /// \brief The index of the given arc.
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    ///
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    /// This function returns the index of the the given arc.
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    /// \sa arc()
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    static int index(Arc arc) { return Parent::id(arc); }
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    /// \brief Number of nodes.
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    ///
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    /// This function returns the number of nodes.
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    int nodeNum() const { return node_num; }
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    /// \brief Number of arcs.
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    ///
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    /// This function returns the number of arcs.
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    int arcNum() const { return arc_num; }
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    /// \brief Build the digraph copying another digraph.
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    ///
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    /// This function builds the digraph copying another digraph of any
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    /// kind. It can be called more than once, but in such case, the whole
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    /// structure and all maps will be cleared and rebuilt.
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    ///
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    /// This method also makes possible to copy a digraph to a StaticDigraph
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    /// structure using \ref DigraphCopy.
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    /// 
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    /// \param digraph An existing digraph to be copied.
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    /// \param nodeRef The node references will be copied into this map.
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    /// Its key type must be \c Digraph::Node and its value type must be
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    /// \c StaticDigraph::Node.
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    /// It must conform to the \ref concepts::ReadWriteMap "ReadWriteMap"
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    /// concept.
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    /// \param arcRef The arc references will be copied into this map.
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    /// Its key type must be \c Digraph::Arc and its value type must be
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    /// \c StaticDigraph::Arc.
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    /// It must conform to the \ref concepts::WriteMap "WriteMap" concept.
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    ///
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    /// \note If you do not need the arc references, then you could use
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    /// \ref NullMap for the last parameter. However the node references
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    /// are required by the function itself, thus they must be readable
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    /// from the map.
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    template <typename Digraph, typename NodeRefMap, typename ArcRefMap>
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    void build(const Digraph& digraph, NodeRefMap& nodeRef, ArcRefMap& arcRef) {
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      if (built) Parent::clear();
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      Parent::build(digraph, nodeRef, arcRef);
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    }
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    /// \brief Build the digraph from an arc list.
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    ///
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    /// This function builds the digraph from the given arc list.
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    /// It can be called more than once, but in such case, the whole
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    /// structure and all maps will be cleared and rebuilt.
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    ///
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    /// The list of the arcs must be given in the range <tt>[begin, end)</tt>
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    /// specified by STL compatible itartors whose \c value_type must be
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    /// <tt>std::pair<int,int></tt>.
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    /// Each arc must be specified by a pair of integer indices
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    /// from the range <tt>[0..n-1]</tt>. <i>The pairs must be in a
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    /// non-decreasing order with respect to their first values.</i>
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    /// If the k-th pair in the list is <tt>(i,j)</tt>, then
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    /// <tt>arc(k-1)</tt> will connect <tt>node(i)</tt> to <tt>node(j)</tt>.
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    ///
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    /// \param n The number of nodes.
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    /// \param begin An iterator pointing to the beginning of the arc list.
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    /// \param end An iterator pointing to the end of the arc list.
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    ///
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    /// For example, a simple digraph can be constructed like this.
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    /// \code
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    ///   std::vector<std::pair<int,int> > arcs;
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    ///   arcs.push_back(std::make_pair(0,1));
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    ///   arcs.push_back(std::make_pair(0,2));
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    ///   arcs.push_back(std::make_pair(1,3));
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    ///   arcs.push_back(std::make_pair(1,2));
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    ///   arcs.push_back(std::make_pair(3,0));
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    ///   StaticDigraph gr;
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    ///   gr.build(4, arcs.begin(), arcs.end());
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    /// \endcode
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    template <typename ArcListIterator>
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    void build(int n, ArcListIterator begin, ArcListIterator end) {
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      if (built) Parent::clear();
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      StaticDigraphBase::build(n, begin, end);
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      notifier(Node()).build();
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      notifier(Arc()).build();
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    }
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    /// \brief Clear the digraph.
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    ///
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    /// This function erases all nodes and arcs from the digraph.
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    void clear() {
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      Parent::clear();
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    }
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  protected:
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    using Parent::fastFirstOut;
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    using Parent::fastNextOut;
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    using Parent::fastLastOut;
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  public:
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    class OutArcIt : public Arc {
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    public:
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      OutArcIt() { }
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      OutArcIt(Invalid i) : Arc(i) { }
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      OutArcIt(const StaticDigraph& digraph, const Node& node) {
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	digraph.fastFirstOut(*this, node);
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	digraph.fastLastOut(last, node);
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        if (last == *this) *this = INVALID;
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      }
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      OutArcIt(const StaticDigraph& digraph, const Arc& arc) : Arc(arc) {
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        if (arc != INVALID) {
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          digraph.fastLastOut(last, digraph.source(arc));
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        }
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      }
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      OutArcIt& operator++() { 
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        StaticDigraph::fastNextOut(*this);
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        if (last == *this) *this = INVALID;
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        return *this; 
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      }
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    private:
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   453
      Arc last;
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    };
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    Node baseNode(const OutArcIt &arc) const {
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   457
      return Parent::source(static_cast<const Arc&>(arc));
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    }
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   459
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   460
    Node runningNode(const OutArcIt &arc) const {
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   461
      return Parent::target(static_cast<const Arc&>(arc));
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   462
    }
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   463
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   464
    Node baseNode(const InArcIt &arc) const {
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   465
      return Parent::target(static_cast<const Arc&>(arc));
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   466
    }
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   467
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   468
    Node runningNode(const InArcIt &arc) const {
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   469
      return Parent::source(static_cast<const Arc&>(arc));
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   470
    }
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   471
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   472
  };
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   473
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   474
}
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#endif