src/lemon/concept/undir_graph.h
author athos
Wed, 23 Mar 2005 11:51:40 +0000
changeset 1247 60708e1475ae
parent 1158 29961fa390a3
child 1359 1581f961cfaa
permissions -rw-r--r--
Completions.
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/* -*- C++ -*-
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 *
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 * src/lemon/concept/undir_graph_component.h - Part of LEMON, a generic
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 * C++ optimization library
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 *
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 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi
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 * Kutatocsoport (Egervary Combinatorial Optimization Research Group,
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 * 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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///\ingroup graph_concepts
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///\file
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///\brief Undirected graphs and components of.
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#ifndef LEMON_CONCEPT_UNDIR_GRAPH_H
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#define LEMON_CONCEPT_UNDIR_GRAPH_H
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#include <lemon/concept/graph_component.h>
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namespace lemon {
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  namespace concept {
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    /// \addtogroup graph_concepts
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    /// @{
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    /// Skeleton class which describes an edge with direction in \ref
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    /// UndirGraph "undirected graph".
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    template <typename UndirGraph>
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    class UndirGraphEdge : public UndirGraph::UndirEdge {
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      typedef typename UndirGraph::UndirEdge UndirEdge;
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      typedef typename UndirGraph::Node Node;
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    public:
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      /// \e
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      UndirGraphEdge() {}
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      /// \e
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      UndirGraphEdge(const UndirGraphEdge&) {}
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      /// \e
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      UndirGraphEdge(Invalid) {}
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      /// \brief Directed edge from undirected edge and a source node.
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      ///
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      /// Constructs a directed edge from undirected edge and a source node.
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      ///
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      /// \note You have to specify the graph for this constructor.
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      UndirGraphEdge(const UndirGraph &g,
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		     UndirEdge undir_edge, Node n) {
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	ignore_unused_variable_warning(undir_edge);
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	ignore_unused_variable_warning(g);
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	ignore_unused_variable_warning(n);
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      }
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      /// \e
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      UndirGraphEdge& operator=(UndirGraphEdge) { return *this; }
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      /// \e
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      bool operator==(UndirGraphEdge) const { return true; }
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      /// \e
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      bool operator!=(UndirGraphEdge) const { return false; }
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      /// \e
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      bool operator<(UndirGraphEdge) const { return false; }
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      template <typename Edge>
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      struct Constraints {
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	void constraints() {
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	  const_constraints();
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	}
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	void const_constraints() const {
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	  /// \bug This should be is_base_and_derived ...
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	  UndirEdge ue = e;
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	  ue = e;
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	  Edge e_with_source(graph,ue,n);
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	  ignore_unused_variable_warning(e_with_source);
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	}
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	Edge e;
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	UndirEdge ue;
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	UndirGraph graph;
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	Node n;
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      };
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    };
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    struct BaseIterableUndirGraphConcept {
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      template <typename Graph>
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      struct Constraints {
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	typedef typename Graph::UndirEdge UndirEdge;
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	typedef typename Graph::Edge Edge;
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	typedef typename Graph::Node Node;
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	void constraints() {
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	  checkConcept<BaseIterableGraphComponent, Graph>();
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	  checkConcept<GraphItem<>, UndirEdge>();
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	  checkConcept<UndirGraphEdge<Graph>, Edge>();
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	  graph.first(ue);
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	  graph.next(ue);
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	  const_constraints();
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	}
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	void const_constraints() {
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	  Node n;
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	  n = graph.target(ue);
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	  n = graph.source(ue);
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	  n = graph.oppositeNode(n0, ue);
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	  bool b;
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	  b = graph.forward(e);
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	  ignore_unused_variable_warning(b);
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	}
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	Graph graph;
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	Edge e;
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	Node n0;
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	UndirEdge ue;
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      };
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    };
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    struct IterableUndirGraphConcept {
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      template <typename Graph>
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      struct Constraints {
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	void constraints() {
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	  /// \todo we don't need the iterable component to be base iterable
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	  /// Don't we really???
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	  //checkConcept< BaseIterableUndirGraphConcept, Graph > ();
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	  checkConcept<IterableGraphComponent, Graph> ();
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	  typedef typename Graph::UndirEdge UndirEdge;
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	  typedef typename Graph::UndirEdgeIt UndirEdgeIt;
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	  typedef typename Graph::IncEdgeIt IncEdgeIt;
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	  checkConcept<GraphIterator<Graph, UndirEdge>, UndirEdgeIt>();
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	  checkConcept<GraphIncIterator<Graph, UndirEdge>, IncEdgeIt>();
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	}
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      };
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    };
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    struct MappableUndirGraphConcept {
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      template <typename Graph>
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      struct Constraints {
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	struct Dummy {
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	  int value;
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	  Dummy() : value(0) {}
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	  Dummy(int _v) : value(_v) {}
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	};
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	void constraints() {
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	  checkConcept<MappableGraphComponent, Graph>();
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	  typedef typename Graph::template UndirEdgeMap<int> IntMap;
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	  checkConcept<GraphMap<Graph, typename Graph::UndirEdge, int>,
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	    IntMap >();
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	  typedef typename Graph::template UndirEdgeMap<bool> BoolMap;
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	  checkConcept<GraphMap<Graph, typename Graph::UndirEdge, bool>,
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	    BoolMap >();
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	  typedef typename Graph::template UndirEdgeMap<Dummy> DummyMap;
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	  checkConcept<GraphMap<Graph, typename Graph::UndirEdge, Dummy>,
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	    DummyMap >();
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	}
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      };
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    };
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    struct ExtendableUndirGraphConcept {
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      template <typename Graph>
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      struct Constraints {
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	void constraints() {
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	  node_a = graph.addNode();
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	  uedge = graph.addEdge(node_a, node_b);
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	}
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	typename Graph::Node node_a, node_b;
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	typename Graph::UndirEdge uedge;
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	Graph graph;
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      };
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    };
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    struct ErasableUndirGraphConcept {
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      template <typename Graph>
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      struct Constraints {
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	void constraints() {
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	  graph.erase(n);
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	  graph.erase(e);
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	}
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	Graph graph;
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	typename Graph::Node n;
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	typename Graph::UndirEdge e;
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      };
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    };
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    /// Class describing the concept of Undirected Graphs.
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    /// This class describes the common interface of all Undirected
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    /// Graphs.
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    ///
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    /// As all concept describing classes it provides only interface
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    /// without any sensible implementation. So any algorithm for
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    /// undirected graph should compile with this class, but it will not
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    /// run properly, of couse.
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    ///
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    /// In LEMON undirected graphs also fulfill the concept of directed
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    /// graphs (\ref lemon::concept::Graph "Graph Concept"). For
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    /// explanation of this and more see also the page \ref undir_graphs,
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    /// a tutorial about undirected graphs.
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    class UndirGraph {
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    public:
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      /// Type describing a node in the graph
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      typedef GraphNode Node;
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      /// Type describing an undirected edge
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      typedef GraphItem<'u'> UndirEdge;
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      /// Type describing an UndirEdge with direction
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#ifndef DOXYGEN
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      typedef UndirGraphEdge<UndirGraph> Edge;
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#else
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      typedef UndirGraphEdge Edge;
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#endif
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      /// Iterator type which iterates over all nodes
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#ifndef DOXYGEN
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      typedef GraphIterator<UndirGraph, Node> NodeIt;
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#else
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      typedef GraphIterator NodeIt;
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#endif
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      /// Iterator type which iterates over all undirected edges
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#ifndef DOXYGEN
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      typedef GraphIterator<UndirGraph, UndirEdge> UndirEdgeIt;
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#else
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      typedef GraphIterator UndirEdgeIt;
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#endif
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      /// Iterator type which iterates over all directed edges.
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      /// Iterator type which iterates over all edges (each undirected
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      /// edge occurs twice with both directions.
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#ifndef DOXYGEN
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      typedef GraphIterator<UndirGraph, Edge> EdgeIt;
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#else
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      typedef GraphIterator EdgeIt;
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#endif
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      /// Iterator of undirected edges incident to a node
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#ifndef DOXYGEN
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      typedef GraphIncIterator<UndirGraph, UndirEdge, 'u'> IncEdgeIt;
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#else
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      typedef GraphIncIterator IncEdgeIt;
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#endif
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      /// Iterator of edges incoming to a node
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#ifndef DOXYGEN
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      typedef GraphIncIterator<UndirGraph, Edge, 'i'> InEdgeIt;
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#else
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      typedef GraphIncIterator InEdgeIt;
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#endif
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      /// Iterator of edges outgoing from a node
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#ifndef DOXYGEN
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      typedef GraphIncIterator<UndirGraph, Edge, 'o'> OutEdgeIt;
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#else
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      typedef GraphIncIterator OutEdgeIt;
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#endif
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      /// NodeMap template
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#ifdef DOXYGEN
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      typedef GraphMap NodeMap<T>;
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#endif
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      /// UndirEdgeMap template
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#ifdef DOXYGEN
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      typedef GraphMap UndirEdgeMap<T>;
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#endif
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      /// EdgeMap template
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#ifdef DOXYGEN
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      typedef GraphMap EdgeMap<T>;
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#endif
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      template <typename T>
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      class NodeMap : public GraphMap<UndirGraph, Node, T> {
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	typedef GraphMap<UndirGraph, Node, T> Parent;
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      public:
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	explicit NodeMap(const UndirGraph &g) : Parent(g) {}
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	NodeMap(const UndirGraph &g, T t) : Parent(g, t) {}
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      };
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      template <typename T>
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      class UndirEdgeMap : public GraphMap<UndirGraph, UndirEdge, T> {
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	typedef GraphMap<UndirGraph, UndirEdge, T> Parent;
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      public:
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	explicit UndirEdgeMap(const UndirGraph &g) : Parent(g) {}
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	UndirEdgeMap(const UndirGraph &g, T t) : Parent(g, t) {}
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      };
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      template <typename T>
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      class EdgeMap : public GraphMap<UndirGraph, Edge, T> {
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	typedef GraphMap<UndirGraph, Edge, T> Parent;
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      public:
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	explicit EdgeMap(const UndirGraph &g) : Parent(g) {}
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	EdgeMap(const UndirGraph &g, T t) : Parent(g, t) {}
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      };
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      /// Is the Edge oriented "forward"?
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      /// Returns whether the given directed edge is same orientation as
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      /// the corresponding undirected edge.
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      ///
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      /// \todo "What does the direction of an undirected edge mean?"
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      bool forward(Edge) const { return true; }
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      /// Opposite node on an edge
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      /// \return the opposite of the given Node on the given Edge
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      ///
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      /// \todo What should we do if given Node and Edge are not incident?
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      Node oppositeNode(Node, UndirEdge) const { return INVALID; }
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      /// First node of the undirected edge.
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      /// \return the first node of the given UndirEdge.
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      ///
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      /// Naturally undirectected edges don't have direction and thus
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      /// don't have source and target node. But we use these two methods
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      /// to query the two endnodes of the edge. The direction of the edge
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      /// which arises this way is called the inherent direction of the
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      /// undirected edge, and is used to define the "forward" direction
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      /// of the directed versions of the edges.
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      /// \sa forward
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      Node source(UndirEdge) const { return INVALID; }
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      /// Second node of the undirected edge.
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      Node target(UndirEdge) const { return INVALID; }
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      /// Source node of the directed edge.
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      Node source(Edge) const { return INVALID; }
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      /// Target node of the directed edge.
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      Node target(Edge) const { return INVALID; }
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      /// First node of the graph
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      /// \note This method is part of so called \ref
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      /// developpers_interface "Developpers' interface", so it shouldn't
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      /// be used in an end-user program.
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      void first(Node&) const {}
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      /// Next node of the graph
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      /// \note This method is part of so called \ref
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      /// developpers_interface "Developpers' interface", so it shouldn't
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      /// be used in an end-user program.
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      void next(Node&) const {}
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      /// First undirected edge of the graph
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      /// \note This method is part of so called \ref
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      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   392
      /// be used in an end-user program.
klao@1030
   393
      void first(UndirEdge&) const {}
klao@1030
   394
      /// Next undirected edge of the graph
klao@1030
   395
klao@1030
   396
      /// \note This method is part of so called \ref
klao@1030
   397
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   398
      /// be used in an end-user program.
klao@1030
   399
      void next(UndirEdge&) const {}
klao@1030
   400
klao@1030
   401
      /// First directed edge of the graph
klao@1030
   402
klao@1030
   403
      /// \note This method is part of so called \ref
klao@1030
   404
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   405
      /// be used in an end-user program.
klao@1030
   406
      void first(Edge&) const {}
klao@1030
   407
      /// Next directed edge of the graph
klao@1030
   408
klao@1030
   409
      /// \note This method is part of so called \ref
klao@1030
   410
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   411
      /// be used in an end-user program.
klao@1030
   412
      void next(Edge&) const {}
klao@1030
   413
klao@1030
   414
      /// First outgoing edge from a given node
klao@1030
   415
klao@1030
   416
      /// \note This method is part of so called \ref
klao@1030
   417
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   418
      /// be used in an end-user program.
klao@1030
   419
      void firstOut(Edge&, Node) const {}
klao@1030
   420
      /// Next outgoing edge to a node
klao@1030
   421
klao@1030
   422
      /// \note This method is part of so called \ref
klao@1030
   423
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   424
      /// be used in an end-user program.
klao@1030
   425
      void nextOut(Edge&) const {}
klao@1030
   426
klao@1030
   427
      /// First incoming edge to a given node
klao@1030
   428
klao@1030
   429
      /// \note This method is part of so called \ref
klao@1030
   430
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   431
      /// be used in an end-user program.
klao@1030
   432
      void firstIn(Edge&, Node) const {}
klao@1030
   433
      /// Next incoming edge to a node
klao@1030
   434
klao@1030
   435
      /// \note This method is part of so called \ref
klao@1030
   436
      /// developpers_interface "Developpers' interface", so it shouldn't
klao@1030
   437
      /// be used in an end-user program.
klao@1030
   438
      void nextIn(Edge&) const {}
klao@1030
   439
klao@1030
   440
klao@1158
   441
      /// Base node of the iterator
klao@1158
   442
      ///
klao@1158
   443
      /// Returns the base node (the source in this case) of the iterator
klao@1158
   444
      Node baseNode(OutEdgeIt e) const {
klao@1158
   445
	return source(e);
klao@1158
   446
      }
klao@1158
   447
      /// Running node of the iterator
klao@1158
   448
      ///
klao@1158
   449
      /// Returns the running node (the target in this case) of the
klao@1158
   450
      /// iterator
klao@1158
   451
      Node runningNode(OutEdgeIt e) const {
klao@1158
   452
	return target(e);
klao@1158
   453
      }
klao@1158
   454
klao@1158
   455
      /// Base node of the iterator
klao@1158
   456
      ///
klao@1158
   457
      /// Returns the base node (the target in this case) of the iterator
klao@1158
   458
      Node baseNode(InEdgeIt e) const {
klao@1158
   459
	return target(e);
klao@1158
   460
      }
klao@1158
   461
      /// Running node of the iterator
klao@1158
   462
      ///
klao@1158
   463
      /// Returns the running node (the source in this case) of the
klao@1158
   464
      /// iterator
klao@1158
   465
      Node runningNode(InEdgeIt e) const {
klao@1158
   466
	return source(e);
klao@1158
   467
      }
klao@1158
   468
klao@1158
   469
      /// Base node of the iterator
klao@1158
   470
      ///
klao@1158
   471
      /// Returns the base node of the iterator
klao@1158
   472
      Node baseNode(IncEdgeIt e) const {
klao@1158
   473
	return INVALID;
klao@1158
   474
      }
klao@1158
   475
      /// Running node of the iterator
klao@1158
   476
      ///
klao@1158
   477
      /// Returns the running node of the iterator
klao@1158
   478
      Node runningNode(IncEdgeIt e) const {
klao@1158
   479
	return INVALID;
klao@1158
   480
      }
klao@1158
   481
klao@1158
   482
klao@1022
   483
      template <typename Graph>
klao@1022
   484
      struct Constraints {
klao@1022
   485
	void constraints() {
klao@1022
   486
	  checkConcept<BaseIterableUndirGraphConcept, Graph>();
klao@1022
   487
	  checkConcept<IterableUndirGraphConcept, Graph>();
klao@1022
   488
	  checkConcept<MappableUndirGraphConcept, Graph>();
klao@1022
   489
	}
klao@1022
   490
      };
klao@1022
   491
klao@1022
   492
    };
klao@1022
   493
klao@1022
   494
    class ExtendableUndirGraph : public UndirGraph {
klao@1022
   495
    public:
klao@1022
   496
klao@1022
   497
      template <typename Graph>
klao@1022
   498
      struct Constraints {
klao@1022
   499
	void constraints() {
klao@1022
   500
	  checkConcept<BaseIterableUndirGraphConcept, Graph>();
klao@1022
   501
	  checkConcept<IterableUndirGraphConcept, Graph>();
klao@1022
   502
	  checkConcept<MappableUndirGraphConcept, Graph>();
klao@1022
   503
klao@1022
   504
	  checkConcept<UndirGraph, Graph>();
klao@1022
   505
	  checkConcept<ExtendableUndirGraphConcept, Graph>();
klao@1022
   506
	  checkConcept<ClearableGraphComponent, Graph>();
klao@1022
   507
	}
klao@1022
   508
      };
klao@1022
   509
klao@1022
   510
    };
klao@1022
   511
klao@1022
   512
    class ErasableUndirGraph : public ExtendableUndirGraph {
klao@1022
   513
    public:
klao@1022
   514
klao@1022
   515
      template <typename Graph>
klao@1022
   516
      struct Constraints {
klao@1022
   517
	void constraints() {
klao@1022
   518
	  checkConcept<ExtendableUndirGraph, Graph>();
klao@1022
   519
	  checkConcept<ErasableUndirGraphConcept, Graph>();
klao@1022
   520
	}
klao@1022
   521
      };
klao@1022
   522
klao@962
   523
    };
klao@962
   524
klao@1030
   525
    /// @}
klao@1030
   526
klao@962
   527
  }
klao@962
   528
klao@962
   529
}
klao@962
   530
klao@962
   531
#endif