lemon/grid_graph.h
author Peter Kovacs <kpeter@inf.elte.hu>
Mon, 19 Aug 2013 22:35:54 +0200
changeset 1129 b40c2bbb8da5
parent 735 853fcddcf282
permissions -rw-r--r--
Fix division by zero error in case of empty graph (#474)
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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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#ifndef GRID_GRAPH_H
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#define GRID_GRAPH_H
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#include <lemon/core.h>
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#include <lemon/bits/graph_extender.h>
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#include <lemon/dim2.h>
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#include <lemon/assert.h>
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///\ingroup graphs
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///\file
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///\brief GridGraph class.
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namespace lemon {
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  class GridGraphBase {
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  public:
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    typedef GridGraphBase Graph;
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    class Node;
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    class Edge;
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    class Arc;
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  public:
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    GridGraphBase() {}
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  protected:
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    void construct(int width, int height) {
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       _width = width; _height = height;
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      _node_num = width * height;
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      _edge_num = 2 * _node_num - width - height;
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      _edge_limit = _node_num - _width;
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    }
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  public:
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    Node operator()(int i, int j) const {
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      LEMON_DEBUG(0 <= i && i < _width &&
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                  0 <= j  && j < _height, "Index out of range");
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      return Node(i + j * _width);
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    }
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    int col(Node n) const {
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      return n._id % _width;
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    }
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    int row(Node n) const {
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      return n._id / _width;
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    }
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    dim2::Point<int> pos(Node n) const {
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      return dim2::Point<int>(col(n), row(n));
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    }
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    int width() const {
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      return _width;
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    }
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    int height() const {
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      return _height;
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    }
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    typedef True NodeNumTag;
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    typedef True EdgeNumTag;
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    typedef True ArcNumTag;
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    int nodeNum() const { return _node_num; }
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    int edgeNum() const { return _edge_num; }
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    int arcNum() const { return 2 * _edge_num; }
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    Node u(Edge edge) const {
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      if (edge._id < _edge_limit) {
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        return edge._id;
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      } else {
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        return (edge._id - _edge_limit) % (_width - 1) +
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          (edge._id - _edge_limit) / (_width - 1) * _width;
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      }
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    }
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    Node v(Edge edge) const {
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      if (edge._id < _edge_limit) {
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        return edge._id + _width;
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      } else {
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        return (edge._id - _edge_limit) % (_width - 1) +
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          (edge._id - _edge_limit) / (_width - 1) * _width + 1;
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      }
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    }
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    Node source(Arc arc) const {
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      return (arc._id & 1) == 1 ? u(arc) : v(arc);
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    }
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    Node target(Arc arc) const {
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      return (arc._id & 1) == 1 ? v(arc) : u(arc);
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    }
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    static int id(Node node) { return node._id; }
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    static int id(Edge edge) { return edge._id; }
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    static int id(Arc arc) { return arc._id; }
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    int maxNodeId() const { return _node_num - 1; }
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    int maxEdgeId() const { return _edge_num - 1; }
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    int maxArcId() const { return 2 * _edge_num - 1; }
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    static Node nodeFromId(int id) { return Node(id);}
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    static Edge edgeFromId(int id) { return Edge(id);}
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    static Arc arcFromId(int id) { return Arc(id);}
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    typedef True FindEdgeTag;
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    typedef True FindArcTag;
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    Edge findEdge(Node u, Node v, Edge prev = INVALID) const {
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      if (prev != INVALID) return INVALID;
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      if (v._id > u._id) {
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        if (v._id - u._id == _width)
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          return Edge(u._id);
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        if (v._id - u._id == 1 && u._id % _width < _width - 1) {
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          return Edge(u._id / _width * (_width - 1) +
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                      u._id % _width + _edge_limit);
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        }
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      } else {
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        if (u._id - v._id == _width)
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          return Edge(v._id);
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        if (u._id - v._id == 1 && v._id % _width < _width - 1) {
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          return Edge(v._id / _width * (_width - 1) +
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                      v._id % _width + _edge_limit);
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        }
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      }
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      return INVALID;
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    }
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    Arc findArc(Node u, Node v, Arc prev = INVALID) const {
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      if (prev != INVALID) return INVALID;
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      if (v._id > u._id) {
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        if (v._id - u._id == _width)
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          return Arc((u._id << 1) | 1);
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        if (v._id - u._id == 1 && u._id % _width < _width - 1) {
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          return Arc(((u._id / _width * (_width - 1) +
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                       u._id % _width + _edge_limit) << 1) | 1);
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        }
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      } else {
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        if (u._id - v._id == _width)
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          return Arc(v._id << 1);
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        if (u._id - v._id == 1 && v._id % _width < _width - 1) {
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          return Arc((v._id / _width * (_width - 1) +
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                       v._id % _width + _edge_limit) << 1);
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        }
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      }
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      return INVALID;
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    }
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    class Node {
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      friend class GridGraphBase;
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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 Edge {
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      friend class GridGraphBase;
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      friend class Arc;
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    protected:
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      int _id;
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      Edge(int id) : _id(id) {}
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    public:
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      Edge() {}
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      Edge (Invalid) : _id(-1) {}
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      bool operator==(const Edge edge) const {return _id == edge._id;}
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      bool operator!=(const Edge edge) const {return _id != edge._id;}
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      bool operator<(const Edge edge) const {return _id < edge._id;}
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    };
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    class Arc {
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      friend class GridGraphBase;
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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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      operator Edge() const { return _id != -1 ? Edge(_id >> 1) : INVALID; }
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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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    static bool direction(Arc arc) {
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      return (arc._id & 1) == 1;
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    }
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    static Arc direct(Edge edge, bool dir) {
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      return Arc((edge._id << 1) | (dir ? 1 : 0));
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    }
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    void first(Node& node) const {
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      node._id = _node_num - 1;
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    }
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    static void next(Node& node) {
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      --node._id;
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    }
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    void first(Edge& edge) const {
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      edge._id = _edge_num - 1;
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    }
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    static void next(Edge& edge) {
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      --edge._id;
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    }
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    void first(Arc& arc) const {
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      arc._id = 2 * _edge_num - 1;
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    }
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    static void next(Arc& arc) {
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      --arc._id;
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    }
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    void firstOut(Arc& arc, const Node& node) const {
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      if (node._id % _width < _width - 1) {
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        arc._id = (_edge_limit + node._id % _width +
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                   (node._id / _width) * (_width - 1)) << 1 | 1;
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        return;
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      }
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      if (node._id < _node_num - _width) {
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        arc._id = node._id << 1 | 1;
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        return;
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      }
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      if (node._id % _width > 0) {
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        arc._id = (_edge_limit + node._id % _width +
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                   (node._id / _width) * (_width - 1) - 1) << 1;
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        return;
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      }
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      if (node._id >= _width) {
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        arc._id = (node._id - _width) << 1;
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        return;
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      }
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      arc._id = -1;
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    }
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    void nextOut(Arc& arc) const {
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      int nid = arc._id >> 1;
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      if ((arc._id & 1) == 1) {
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        if (nid >= _edge_limit) {
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          nid = (nid - _edge_limit) % (_width - 1) +
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            (nid - _edge_limit) / (_width - 1) * _width;
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          if (nid < _node_num - _width) {
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            arc._id = nid << 1 | 1;
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            return;
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          }
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        }
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        if (nid % _width > 0) {
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          arc._id = (_edge_limit + nid % _width +
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                     (nid / _width) * (_width - 1) - 1) << 1;
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          return;
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        }
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        if (nid >= _width) {
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          arc._id = (nid - _width) << 1;
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          return;
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        }
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      } else {
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        if (nid >= _edge_limit) {
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          nid = (nid - _edge_limit) % (_width - 1) +
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            (nid - _edge_limit) / (_width - 1) * _width + 1;
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          if (nid >= _width) {
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            arc._id = (nid - _width) << 1;
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            return;
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          }
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        }
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      }
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      arc._id = -1;
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    }
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    void firstIn(Arc& arc, const Node& node) const {
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      if (node._id % _width < _width - 1) {
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        arc._id = (_edge_limit + node._id % _width +
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                   (node._id / _width) * (_width - 1)) << 1;
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        return;
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      }
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      if (node._id < _node_num - _width) {
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        arc._id = node._id << 1;
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        return;
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      }
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      if (node._id % _width > 0) {
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        arc._id = (_edge_limit + node._id % _width +
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                   (node._id / _width) * (_width - 1) - 1) << 1 | 1;
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        return;
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      }
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      if (node._id >= _width) {
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        arc._id = (node._id - _width) << 1 | 1;
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        return;
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      }
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      arc._id = -1;
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    }
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    void nextIn(Arc& arc) const {
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      int nid = arc._id >> 1;
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      if ((arc._id & 1) == 0) {
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        if (nid >= _edge_limit) {
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          nid = (nid - _edge_limit) % (_width - 1) +
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            (nid - _edge_limit) / (_width - 1) * _width;
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          if (nid < _node_num - _width) {
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            arc._id = nid << 1;
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            return;
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          }
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        }
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        if (nid % _width > 0) {
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          arc._id = (_edge_limit + nid % _width +
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                     (nid / _width) * (_width - 1) - 1) << 1 | 1;
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          return;
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        }
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        if (nid >= _width) {
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          arc._id = (nid - _width) << 1 | 1;
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          return;
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        }
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      } else {
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        if (nid >= _edge_limit) {
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          nid = (nid - _edge_limit) % (_width - 1) +
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            (nid - _edge_limit) / (_width - 1) * _width + 1;
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          if (nid >= _width) {
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            arc._id = (nid - _width) << 1 | 1;
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            return;
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          }
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        }
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      }
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      arc._id = -1;
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    }
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    void firstInc(Edge& edge, bool& dir, const Node& node) const {
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      if (node._id % _width < _width - 1) {
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        edge._id = _edge_limit + node._id % _width +
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          (node._id / _width) * (_width - 1);
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        dir = true;
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        return;
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      }
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      if (node._id < _node_num - _width) {
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        edge._id = node._id;
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        dir = true;
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        return;
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      }
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      if (node._id % _width > 0) {
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        edge._id = _edge_limit + node._id % _width +
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          (node._id / _width) * (_width - 1) - 1;
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        dir = false;
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        return;
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      }
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      if (node._id >= _width) {
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        edge._id = node._id - _width;
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        dir = false;
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        return;
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      }
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      edge._id = -1;
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      dir = true;
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    }
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    void nextInc(Edge& edge, bool& dir) const {
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      int nid = edge._id;
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      if (dir) {
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        if (nid >= _edge_limit) {
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          nid = (nid - _edge_limit) % (_width - 1) +
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            (nid - _edge_limit) / (_width - 1) * _width;
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          if (nid < _node_num - _width) {
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            edge._id = nid;
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            return;
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          }
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        }
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        if (nid % _width > 0) {
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          edge._id = _edge_limit + nid % _width +
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            (nid / _width) * (_width - 1) - 1;
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          dir = false;
deba@335
   405
          return;
deba@335
   406
        }
deba@335
   407
        if (nid >= _width) {
deba@335
   408
          edge._id = nid - _width;
deba@335
   409
          dir = false;
deba@335
   410
          return;
deba@335
   411
        }
deba@335
   412
      } else {
deba@335
   413
        if (nid >= _edge_limit) {
deba@335
   414
          nid = (nid - _edge_limit) % (_width - 1) +
deba@335
   415
            (nid - _edge_limit) / (_width - 1) * _width + 1;
deba@335
   416
          if (nid >= _width) {
deba@335
   417
            edge._id = nid - _width;
deba@335
   418
            return;
deba@335
   419
          }
deba@335
   420
        }
deba@335
   421
      }
deba@335
   422
      edge._id = -1;
deba@335
   423
      dir = true;
deba@335
   424
    }
deba@335
   425
deba@335
   426
    Arc right(Node n) const {
deba@335
   427
      if (n._id % _width < _width - 1) {
deba@335
   428
        return Arc(((_edge_limit + n._id % _width +
deba@335
   429
                    (n._id / _width) * (_width - 1)) << 1) | 1);
deba@335
   430
      } else {
deba@335
   431
        return INVALID;
kpeter@334
   432
      }
kpeter@334
   433
    }
kpeter@334
   434
deba@335
   435
    Arc left(Node n) const {
deba@335
   436
      if (n._id % _width > 0) {
deba@335
   437
        return Arc((_edge_limit + n._id % _width +
deba@335
   438
                     (n._id / _width) * (_width - 1) - 1) << 1);
kpeter@334
   439
      } else {
deba@335
   440
        return INVALID;
kpeter@334
   441
      }
kpeter@334
   442
    }
kpeter@334
   443
deba@335
   444
    Arc up(Node n) const {
deba@335
   445
      if (n._id < _edge_limit) {
deba@335
   446
        return Arc((n._id << 1) | 1);
kpeter@334
   447
      } else {
deba@335
   448
        return INVALID;
kpeter@334
   449
      }
kpeter@334
   450
    }
kpeter@334
   451
deba@335
   452
    Arc down(Node n) const {
deba@335
   453
      if (n._id >= _width) {
deba@335
   454
        return Arc((n._id - _width) << 1);
kpeter@334
   455
      } else {
deba@335
   456
        return INVALID;
kpeter@334
   457
      }
kpeter@334
   458
    }
kpeter@334
   459
kpeter@334
   460
  private:
kpeter@334
   461
    int _width, _height;
deba@335
   462
    int _node_num, _edge_num;
deba@335
   463
    int _edge_limit;
kpeter@334
   464
  };
kpeter@334
   465
deba@335
   466
deba@335
   467
  typedef GraphExtender<GridGraphBase> ExtendedGridGraphBase;
kpeter@334
   468
kpeter@334
   469
  /// \ingroup graphs
kpeter@334
   470
  ///
kpeter@334
   471
  /// \brief Grid graph class
kpeter@334
   472
  ///
kpeter@735
   473
  /// GridGraph implements a special graph type. The nodes of the
kpeter@735
   474
  /// graph can be indexed by two integer values \c (i,j) where \c i is
kpeter@735
   475
  /// in the range <tt>[0..width()-1]</tt> and j is in the range
kpeter@735
   476
  /// <tt>[0..height()-1]</tt>. Two nodes are connected in the graph if
kpeter@735
   477
  /// the indices differ exactly on one position and the difference is
kpeter@735
   478
  /// also exactly one. The nodes of the graph can be obtained by position
kpeter@735
   479
  /// using the \c operator()() function and the indices of the nodes can
kpeter@735
   480
  /// be obtained using \c pos(), \c col() and \c row() members. The outgoing
deba@335
   481
  /// arcs can be retrieved with the \c right(), \c up(), \c left()
deba@335
   482
  /// and \c down() functions, where the bottom-left corner is the
deba@335
   483
  /// origin.
kpeter@334
   484
  ///
kpeter@735
   485
  /// This class is completely static and it needs constant memory space.
kpeter@735
   486
  /// Thus you can neither add nor delete nodes or edges, however
kpeter@735
   487
  /// the structure can be resized using resize().
kpeter@735
   488
  ///
kpeter@334
   489
  /// \image html grid_graph.png
deba@338
   490
  /// \image latex grid_graph.eps "Grid graph" width=\textwidth
kpeter@334
   491
  ///
deba@335
   492
  /// A short example about the basic usage:
kpeter@334
   493
  ///\code
deba@335
   494
  /// GridGraph graph(rows, cols);
deba@335
   495
  /// GridGraph::NodeMap<int> val(graph);
deba@335
   496
  /// for (int i = 0; i < graph.width(); ++i) {
deba@335
   497
  ///   for (int j = 0; j < graph.height(); ++j) {
deba@335
   498
  ///     val[graph(i, j)] = i + j;
kpeter@334
   499
  ///   }
kpeter@334
   500
  /// }
kpeter@334
   501
  ///\endcode
kpeter@334
   502
  ///
kpeter@735
   503
  /// This type fully conforms to the \ref concepts::Graph "Graph concept".
kpeter@735
   504
  /// Most of its member functions and nested classes are documented
kpeter@735
   505
  /// only in the concept class.
kpeter@787
   506
  ///
kpeter@787
   507
  /// This class provides constant time counting for nodes, edges and arcs.
kpeter@334
   508
  class GridGraph : public ExtendedGridGraphBase {
kpeter@617
   509
    typedef ExtendedGridGraphBase Parent;
kpeter@617
   510
kpeter@334
   511
  public:
kpeter@334
   512
kpeter@735
   513
    /// \brief Map to get the indices of the nodes as \ref dim2::Point
kpeter@735
   514
    /// "dim2::Point<int>".
kpeter@334
   515
    ///
kpeter@735
   516
    /// Map to get the indices of the nodes as \ref dim2::Point
kpeter@735
   517
    /// "dim2::Point<int>".
kpeter@334
   518
    class IndexMap {
kpeter@334
   519
    public:
deba@335
   520
      /// \brief The key type of the map
kpeter@334
   521
      typedef GridGraph::Node Key;
deba@335
   522
      /// \brief The value type of the map
kpeter@334
   523
      typedef dim2::Point<int> Value;
kpeter@334
   524
deba@335
   525
      /// \brief Constructor
kpeter@334
   526
      IndexMap(const GridGraph& graph) : _graph(graph) {}
kpeter@334
   527
deba@335
   528
      /// \brief The subscript operator
deba@335
   529
      Value operator[](Key key) const {
deba@335
   530
        return _graph.pos(key);
deba@335
   531
      }
deba@335
   532
deba@335
   533
    private:
deba@335
   534
      const GridGraph& _graph;
deba@335
   535
    };
deba@335
   536
deba@335
   537
    /// \brief Map to get the column of the nodes.
deba@335
   538
    ///
deba@335
   539
    /// Map to get the column of the nodes.
deba@335
   540
    class ColMap {
deba@335
   541
    public:
deba@335
   542
      /// \brief The key type of the map
deba@335
   543
      typedef GridGraph::Node Key;
deba@335
   544
      /// \brief The value type of the map
deba@335
   545
      typedef int Value;
deba@335
   546
deba@335
   547
      /// \brief Constructor
deba@335
   548
      ColMap(const GridGraph& graph) : _graph(graph) {}
deba@335
   549
deba@335
   550
      /// \brief The subscript operator
deba@335
   551
      Value operator[](Key key) const {
deba@335
   552
        return _graph.col(key);
kpeter@334
   553
      }
kpeter@334
   554
kpeter@334
   555
    private:
kpeter@334
   556
      const GridGraph& _graph;
kpeter@334
   557
    };
kpeter@334
   558
kpeter@334
   559
    /// \brief Map to get the row of the nodes.
kpeter@334
   560
    ///
kpeter@334
   561
    /// Map to get the row of the nodes.
kpeter@334
   562
    class RowMap {
kpeter@334
   563
    public:
deba@335
   564
      /// \brief The key type of the map
kpeter@334
   565
      typedef GridGraph::Node Key;
deba@335
   566
      /// \brief The value type of the map
kpeter@334
   567
      typedef int Value;
kpeter@334
   568
deba@335
   569
      /// \brief Constructor
kpeter@334
   570
      RowMap(const GridGraph& graph) : _graph(graph) {}
kpeter@334
   571
deba@335
   572
      /// \brief The subscript operator
deba@335
   573
      Value operator[](Key key) const {
kpeter@334
   574
        return _graph.row(key);
kpeter@334
   575
      }
kpeter@334
   576
kpeter@334
   577
    private:
kpeter@334
   578
      const GridGraph& _graph;
kpeter@334
   579
    };
kpeter@334
   580
kpeter@334
   581
    /// \brief Constructor
kpeter@334
   582
    ///
kpeter@735
   583
    /// Construct a grid graph with the given size.
kpeter@334
   584
    GridGraph(int width, int height) { construct(width, height); }
kpeter@334
   585
kpeter@735
   586
    /// \brief Resizes the graph
kpeter@334
   587
    ///
kpeter@735
   588
    /// This function resizes the graph. It fully destroys and
kpeter@735
   589
    /// rebuilds the structure, therefore the maps of the graph will be
kpeter@735
   590
    /// reallocated automatically and the previous values will be lost.
kpeter@334
   591
    void resize(int width, int height) {
kpeter@334
   592
      Parent::notifier(Arc()).clear();
kpeter@334
   593
      Parent::notifier(Edge()).clear();
kpeter@334
   594
      Parent::notifier(Node()).clear();
kpeter@334
   595
      construct(width, height);
kpeter@334
   596
      Parent::notifier(Node()).build();
kpeter@334
   597
      Parent::notifier(Edge()).build();
kpeter@334
   598
      Parent::notifier(Arc()).build();
kpeter@334
   599
    }
kpeter@334
   600
kpeter@334
   601
    /// \brief The node on the given position.
kpeter@334
   602
    ///
kpeter@334
   603
    /// Gives back the node on the given position.
kpeter@334
   604
    Node operator()(int i, int j) const {
kpeter@334
   605
      return Parent::operator()(i, j);
kpeter@334
   606
    }
kpeter@334
   607
kpeter@735
   608
    /// \brief The column index of the node.
deba@335
   609
    ///
deba@335
   610
    /// Gives back the column index of the node.
deba@335
   611
    int col(Node n) const {
deba@335
   612
      return Parent::col(n);
deba@335
   613
    }
deba@335
   614
kpeter@735
   615
    /// \brief The row index of the node.
kpeter@334
   616
    ///
kpeter@334
   617
    /// Gives back the row index of the node.
kpeter@334
   618
    int row(Node n) const {
kpeter@334
   619
      return Parent::row(n);
kpeter@334
   620
    }
kpeter@334
   621
kpeter@735
   622
    /// \brief The position of the node.
kpeter@334
   623
    ///
deba@335
   624
    /// Gives back the position of the node, ie. the <tt>(col,row)</tt> pair.
deba@335
   625
    dim2::Point<int> pos(Node n) const {
deba@335
   626
      return Parent::pos(n);
kpeter@334
   627
    }
kpeter@334
   628
kpeter@735
   629
    /// \brief The number of the columns.
kpeter@334
   630
    ///
deba@335
   631
    /// Gives back the number of the columns.
kpeter@334
   632
    int width() const {
kpeter@334
   633
      return Parent::width();
kpeter@334
   634
    }
kpeter@334
   635
kpeter@735
   636
    /// \brief The number of the rows.
kpeter@334
   637
    ///
deba@335
   638
    /// Gives back the number of the rows.
kpeter@334
   639
    int height() const {
kpeter@334
   640
      return Parent::height();
kpeter@334
   641
    }
kpeter@334
   642
kpeter@735
   643
    /// \brief The arc goes right from the node.
deba@335
   644
    ///
deba@335
   645
    /// Gives back the arc goes right from the node. If there is not
deba@335
   646
    /// outgoing arc then it gives back INVALID.
deba@335
   647
    Arc right(Node n) const {
deba@335
   648
      return Parent::right(n);
deba@335
   649
    }
deba@335
   650
kpeter@735
   651
    /// \brief The arc goes left from the node.
deba@335
   652
    ///
deba@335
   653
    /// Gives back the arc goes left from the node. If there is not
deba@335
   654
    /// outgoing arc then it gives back INVALID.
deba@335
   655
    Arc left(Node n) const {
deba@335
   656
      return Parent::left(n);
deba@335
   657
    }
deba@335
   658
kpeter@735
   659
    /// \brief The arc goes up from the node.
deba@335
   660
    ///
deba@335
   661
    /// Gives back the arc goes up from the node. If there is not
deba@335
   662
    /// outgoing arc then it gives back INVALID.
deba@335
   663
    Arc up(Node n) const {
deba@335
   664
      return Parent::up(n);
deba@335
   665
    }
deba@335
   666
kpeter@735
   667
    /// \brief The arc goes down from the node.
kpeter@334
   668
    ///
kpeter@334
   669
    /// Gives back the arc goes down from the node. If there is not
deba@335
   670
    /// outgoing arc then it gives back INVALID.
kpeter@334
   671
    Arc down(Node n) const {
deba@335
   672
      return Parent::down(n);
kpeter@334
   673
    }
kpeter@334
   674
deba@335
   675
    /// \brief Index map of the grid graph
kpeter@334
   676
    ///
deba@335
   677
    /// Just returns an IndexMap for the grid graph.
deba@335
   678
    IndexMap indexMap() const {
deba@335
   679
      return IndexMap(*this);
kpeter@334
   680
    }
kpeter@334
   681
deba@335
   682
    /// \brief Row map of the grid graph
kpeter@334
   683
    ///
deba@335
   684
    /// Just returns a RowMap for the grid graph.
deba@335
   685
    RowMap rowMap() const {
deba@335
   686
      return RowMap(*this);
kpeter@334
   687
    }
kpeter@334
   688
deba@335
   689
    /// \brief Column map of the grid graph
kpeter@334
   690
    ///
deba@335
   691
    /// Just returns a ColMap for the grid graph.
deba@335
   692
    ColMap colMap() const {
deba@335
   693
      return ColMap(*this);
kpeter@334
   694
    }
kpeter@334
   695
deba@335
   696
  };
kpeter@334
   697
kpeter@334
   698
}
deba@335
   699
#endif