src/hugo/skeletons/graph.h
author marci
Tue, 17 Aug 2004 10:24:19 +0000
changeset 761 58243a389464
parent 542 69bde1d90c04
child 774 4297098d9677
permissions -rw-r--r--
flowValue() is reset to deal with excess[t].
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// -*- c++ -*-
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#ifndef HUGO_SKELETON_GRAPH_H
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#define HUGO_SKELETON_GRAPH_H
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///\file
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///\brief Declaration of GraphSkeleton.
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#include <hugo/invalid.h>
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#include <hugo/skeletons/maps.h>
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/// The namespace of HugoLib
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namespace hugo {
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  namespace skeleton {
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    // @defgroup empty_graph The GraphSkeleton class
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    // @{
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    /// An empty static graph class.
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    /// This class provides all the common features of a graph structure,
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    /// however completely without implementations and real data structures
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    /// behind the interface.
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    /// All graph algorithms should compile with this class, but it will not
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    /// run properly, of course.
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    ///
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    /// It can be used for checking the interface compatibility,
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    /// or it can serve as a skeleton of a new graph structure.
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    /// 
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    /// Also, you will find here the full documentation of a certain graph
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    /// feature, the documentation of a real graph imlementation
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    /// like @ref ListGraph or
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    /// @ref SmartGraph will just refer to this structure.
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    class StaticGraphSkeleton
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    {
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    public:
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      /// Defalult constructor.
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      StaticGraphSkeleton() {}
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      ///Copy consructor.
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      ///\todo It is not clear, what we expect from a copy constructor.
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      ///E.g. How to assign the nodes/edges to each other? What about maps?
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      StaticGraphSkeleton(const StaticGraphSkeleton &G) {}
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      /// The base type of the node iterators.
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      /// This is the base type of each node iterators,
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      /// thus each kind of node iterator will convert to this.
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      class Node {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	Node() {}   //FIXME
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	/// Invalid constructor \& conversion.
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	/// This constructor initializes the iterator to be invalid.
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	/// \sa Invalid for more details.
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	Node(Invalid) {}
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	//Node(const Node &) {}
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	/// Two iterators are equal if and only if they point to the
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	/// same object or both are invalid.
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	bool operator==(Node) const { return true; }
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	/// \sa \ref operator==(Node n)
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	///
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	bool operator!=(Node) const { return true; }
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	bool operator<(Node) const { return true; }
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      };
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      /// This iterator goes through each node.
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      /// This iterator goes through each node.
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      /// Its usage is quite simple, for example you can count the number
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      /// of nodes in graph \c G of type \c Graph like this:
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      /// \code
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      ///int count=0;
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      ///for(Graph::NodeIt n(G);G.valid(n);G.next(n)) count++;
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      /// \endcode
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      class NodeIt : public Node {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	NodeIt() {} //FIXME
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	/// Invalid constructor \& conversion.
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	/// Initialize the iterator to be invalid
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	/// \sa Invalid for more details.
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	NodeIt(Invalid) {}
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	/// Sets the iterator to the first node of \c G.
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	NodeIt(const StaticGraphSkeleton &) {}
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	NodeIt(const NodeIt &n) : Node(n) {}
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      };
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      /// The base type of the edge iterators.
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      class Edge {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	Edge() {}   //FIXME
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	/// Initialize the iterator to be invalid
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	Edge(Invalid) {}
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	/// Two iterators are equal if and only if they point to the
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	/// same object or both are invalid.
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	bool operator==(Edge) const { return true; }
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	bool operator!=(Edge) const { return true; }
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	bool operator<(Edge) const { return true; }
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      };
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      /// This iterator goes trough the outgoing edges of a node.
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      /// This iterator goes trough the \e outgoing edges of a certain node
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      /// of a graph.
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      /// Its usage is quite simple, for example you can count the number
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      /// of outgoing edges of a node \c n
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      /// in graph \c G of type \c Graph as follows.
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      /// \code
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      ///int count=0;
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      ///for(Graph::OutEdgeIt e(G,n);G.valid(e);G.next(e)) count++;
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      /// \endcode
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      class OutEdgeIt : public Edge {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	OutEdgeIt() {}
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	/// Initialize the iterator to be invalid
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	OutEdgeIt(Invalid) {}
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	/// This constructor sets the iterator to first outgoing edge.
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	/// This constructor set the iterator to the first outgoing edge of
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	/// node
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	///@param n the node
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	///@param G the graph
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	OutEdgeIt(const StaticGraphSkeleton &, Node) {}
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      };
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      /// This iterator goes trough the incoming edges of a node.
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      /// This iterator goes trough the \e incoming edges of a certain node
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      /// of a graph.
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      /// Its usage is quite simple, for example you can count the number
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      /// of outgoing edges of a node \c n
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      /// in graph \c G of type \c Graph as follows.
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      /// \code
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      ///int count=0;
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      ///for(Graph::InEdgeIt e(G,n);G.valid(e);G.next(e)) count++;
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      /// \endcode
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      class InEdgeIt : public Edge {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	InEdgeIt() {}
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	/// Initialize the iterator to be invalid
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	InEdgeIt(Invalid) {}
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	InEdgeIt(const StaticGraphSkeleton &, Node) {}    
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      };
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      //  class SymEdgeIt : public Edge {};
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      /// This iterator goes through each edge.
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      /// This iterator goes through each edge of a graph.
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      /// Its usage is quite simple, for example you can count the number
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      /// of edges in a graph \c G of type \c Graph as follows:
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      /// \code
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      ///int count=0;
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      ///for(Graph::EdgeIt e(G);G.valid(e);G.next(e)) count++;
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      /// \endcode
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      class EdgeIt : public Edge {
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      public:
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	/// @warning The default constructor sets the iterator
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	/// to an undefined value.
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	EdgeIt() {}
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	/// Initialize the iterator to be invalid
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	EdgeIt(Invalid) {}
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	EdgeIt(const StaticGraphSkeleton &) {}
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      };
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      /// First node of the graph.
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      /// \retval i the first node.
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      /// \return the first node.
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      ///
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      NodeIt &first(NodeIt &i) const { return i;}
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      /// The first incoming edge.
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      InEdgeIt &first(InEdgeIt &i, Node) const { return i;}
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      /// The first outgoing edge.
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      OutEdgeIt &first(OutEdgeIt &i, Node) const { return i;}
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      //  SymEdgeIt &first(SymEdgeIt &, Node) const { return i;}
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      /// The first edge of the Graph.
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      EdgeIt &first(EdgeIt &i) const { return i;}
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      //     Node getNext(Node) const {}
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      //     InEdgeIt getNext(InEdgeIt) const {}
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      //     OutEdgeIt getNext(OutEdgeIt) const {}
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      //     //SymEdgeIt getNext(SymEdgeIt) const {}
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      //     EdgeIt getNext(EdgeIt) const {}
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      /// Go to the next node.
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      NodeIt &next(NodeIt &i) const { return i;}
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      /// Go to the next incoming edge.
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      InEdgeIt &next(InEdgeIt &i) const { return i;}
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      /// Go to the next outgoing edge.
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      OutEdgeIt &next(OutEdgeIt &i) const { return i;}
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      //SymEdgeIt &next(SymEdgeIt &) const {}
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      /// Go to the next edge.
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      EdgeIt &next(EdgeIt &i) const { return i;}
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      ///Gives back the head node of an edge.
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      Node head(Edge) const { return INVALID; }
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      ///Gives back the tail node of an edge.
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      Node tail(Edge) const { return INVALID; }
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      //   Node aNode(InEdgeIt) const {}
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      //   Node aNode(OutEdgeIt) const {}
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      //   Node aNode(SymEdgeIt) const {}
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      //   Node bNode(InEdgeIt) const {}
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      //   Node bNode(OutEdgeIt) const {}
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      //   Node bNode(SymEdgeIt) const {}
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      /// Checks if a node iterator is valid
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      ///\todo Maybe, it would be better if iterator converted to
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      ///bool directly, as Jacint prefers.
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      bool valid(const Node&) const { return true;}
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      /// Checks if an edge iterator is valid
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      ///\todo Maybe, it would be better if iterator converted to
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      ///bool directly, as Jacint prefers.
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      bool valid(const Edge&) const { return true;}
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      ///Gives back the \e id of a node.
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      ///\warning Not all graph structures provide this feature.
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      ///
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      int id(const Node&) const { return 0;}
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      ///Gives back the \e id of an edge.
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      ///\warning Not all graph structures provide this feature.
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      ///
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      int id(const Edge&) const { return 0;}
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      /// Resets the graph.
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      /// This function deletes all edges and nodes of the graph.
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      /// It also frees the memory allocated to store them.
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      void clear() {}
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      int nodeNum() const { return 0;}
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      int edgeNum() const { return 0;}
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      ///Reference map of the nodes to type \c T.
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      ///Reference map of the nodes to type \c T.
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      /// \sa ReferenceSkeleton
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      /// \warning Making maps that can handle bool type (NodeMap<bool>)
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      /// needs extra attention!
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      template<class T> class NodeMap
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	: public ReferenceMap< Node, T >
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      {
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      public:
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	class ReferenceMap<Node,T>;
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	NodeMap(const StaticGraphSkeleton &) {}
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	NodeMap(const StaticGraphSkeleton &, T) {}
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	///Copy constructor
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	template<typename TT> NodeMap(const NodeMap<TT> &) {}
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	///Assignment operator
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	template<typename TT> NodeMap &operator=(const NodeMap<TT> &)
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	{return *this;}
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      };
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      ///Reference map of the edges to type \c T.
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      ///Reference map of the edges to type \c T.
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      /// \sa ReferenceSkeleton
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      /// \warning Making maps that can handle bool type (EdgeMap<bool>)
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      /// needs extra attention!
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      template<class T> class EdgeMap
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	: public ReferenceMap<Edge,T>
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      {
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      public:
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	typedef T ValueType;
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	typedef Edge KeyType;
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	EdgeMap(const StaticGraphSkeleton &) {}
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	EdgeMap(const StaticGraphSkeleton &, T ) {}
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	///Copy constructor
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	template<typename TT> EdgeMap(const EdgeMap<TT> &) {}
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	///Assignment operator
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	template<typename TT> EdgeMap &operator=(const EdgeMap<TT> &)
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	{return *this;}
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      };
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    };
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    /// An empty graph class.
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    /// This class provides everything that \c StaticGraphSkeleton
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    /// with additional functionality which enables to build a
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    /// graph from scratch.
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    class GraphSkeleton : public StaticGraphSkeleton
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    {
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    public:
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      /// Defalult constructor.
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      GraphSkeleton() {}
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      ///Copy consructor.
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      ///\todo It is not clear, what we expect from a copy constructor.
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      ///E.g. How to assign the nodes/edges to each other? What about maps?
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      GraphSkeleton(const GraphSkeleton &G) {}
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      ///Add a new node to the graph.
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      /// \return the new node.
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      ///
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      Node addNode() { return INVALID;}
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      ///Add a new edge to the graph.
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      ///Add a new edge to the graph with tail node \c tail
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      ///and head node \c head.
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      ///\return the new edge.
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      Edge addEdge(Node, Node) { return INVALID;}
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      /// Resets the graph.
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      /// This function deletes all edges and nodes of the graph.
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      /// It also frees the memory allocated to store them.
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      /// \todo It might belong to \c EraseableGraphSkeleton.
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      void clear() {}
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    };
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    /// An empty eraseable graph class.
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    /// This class is an extension of \c GraphSkeleton. It also makes it
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    /// possible to erase edges or nodes.
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    class EraseableGraphSkeleton : public GraphSkeleton
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    {
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    public:
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      /// Deletes a node.
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      void erase(Node n) {}
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      /// Deletes an edge.
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      void erase(Edge e) {}
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      /// Defalult constructor.
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      EraseableGraphSkeleton() {}
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      ///Copy consructor.
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      EraseableGraphSkeleton(const GraphSkeleton &G) {}
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    };
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    // @}
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  } //namespace skeleton
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} //namespace hugo
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// class EmptyBipGraph : public Graph Skeleton
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// {
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//   class ANode {};
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//   class BNode {};
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//   ANode &next(ANode &) {}
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//   BNode &next(BNode &) {}
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//   ANode &getFirst(ANode &) const {}
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//   BNode &getFirst(BNode &) const {}
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//   enum NodeClass { A = 0, B = 1 };
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//   NodeClass getClass(Node n) {}
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// }
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#endif // HUGO_SKELETON_GRAPH_H