src/hugo/smart_graph.h
author alpar
Mon, 13 Sep 2004 11:24:35 +0000
changeset 835 eb9587f09b42
parent 813 65144c52969c
child 880 9d0bfd35b97c
permissions -rw-r--r--
Remove one remaining range checking.
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// -*- mode:C++ -*-
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#ifndef HUGO_SMART_GRAPH_H
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#define HUGO_SMART_GRAPH_H
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///\ingroup graphs
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///\file
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///\brief SmartGraph and SymSmartGraph classes.
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#include <vector>
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#include <climits>
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#include <hugo/invalid.h>
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#include <hugo/default_map.h>
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#include <hugo/sym_map.h>
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#include <hugo/map_registry.h>
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#include <hugo/map_defines.h>
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namespace hugo {
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/// \addtogroup graphs
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/// @{
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//  class SymSmartGraph;
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  ///A smart graph class.
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  ///This is a simple and fast graph implementation.
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  ///It is also quite memory efficient, but at the price
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  ///that <b> it does not support node and edge deletion</b>.
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  ///It conforms to the graph interface documented under
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  ///the description of \ref GraphSkeleton.
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  ///\sa \ref GraphSkeleton.
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  ///
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  ///\todo Some member functions could be \c static.
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  ///
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  ///\todo A possibly useful functionality: a function saveState() would
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  ///give back a data sturcture X and then the function restoreState(X)
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  ///would remove the nodes and edges added after the call of saveState().
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  ///Of course it should be used as a stack. (Maybe X is not necessary.)
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  ///
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  ///\author Alpar Juttner
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  class SmartGraph {
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    struct NodeT 
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    {
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      int first_in,first_out;      
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      NodeT() : first_in(-1), first_out(-1) {}
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    };
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    struct EdgeT 
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    {
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      int head, tail, next_in, next_out;      
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      //FIXME: is this necessary?
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      EdgeT() : next_in(-1), next_out(-1) {}  
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    };
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    std::vector<NodeT> nodes;
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    std::vector<EdgeT> edges;
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  public:
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    typedef SmartGraph Graph;
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    class Node;
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    class Edge;
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    class NodeIt;
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    class EdgeIt;
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    class OutEdgeIt;
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    class InEdgeIt;
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    /// Creating map registries.
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    CREATE_MAP_REGISTRIES;
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    /// Creating node and edge maps.
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    CREATE_MAPS(DefaultMap);
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  public:
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    SmartGraph() : nodes(), edges() { }
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    SmartGraph(const SmartGraph &_g) : nodes(_g.nodes), edges(_g.edges) { }
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    ///Number of nodes.
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    int nodeNum() const { return nodes.size(); }
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    ///Number of edges.
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    int edgeNum() const { return edges.size(); }
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    /// Maximum node ID.
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    /// Maximum node ID.
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    ///\sa id(Node)
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    int maxNodeId() const { return nodes.size()-1; }
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    /// Maximum edge ID.
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    /// Maximum edge ID.
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    ///\sa id(Edge)
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    int maxEdgeId() const { return edges.size()-1; }
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    Node tail(Edge e) const { return edges[e.n].tail; }
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    Node head(Edge e) const { return edges[e.n].head; }
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    NodeIt& first(NodeIt& v) const { 
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      v=NodeIt(*this); return v; }
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    EdgeIt& first(EdgeIt& e) const { 
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      e=EdgeIt(*this); return e; }
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    OutEdgeIt& first(OutEdgeIt& e, const Node v) const { 
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      e=OutEdgeIt(*this,v); return e; }
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    InEdgeIt& first(InEdgeIt& e, const Node v) const { 
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      e=InEdgeIt(*this,v); return e; }
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    /// Node ID.
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    /// The ID of a valid Node is a nonnegative integer not greater than
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    /// \ref maxNodeId(). The range of the ID's is not surely continuous
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    /// and the greatest node ID can be actually less then \ref maxNodeId().
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    ///
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    /// The ID of the \ref INVALID node is -1.
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    ///\return The ID of the node \c v. 
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    static int id(Node v) { return v.n; }
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    /// Edge ID.
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    /// The ID of a valid Edge is a nonnegative integer not greater than
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    /// \ref maxEdgeId(). The range of the ID's is not surely continuous
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    /// and the greatest edge ID can be actually less then \ref maxEdgeId().
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    ///
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    /// The ID of the \ref INVALID edge is -1.
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    ///\return The ID of the edge \c e. 
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    static int id(Edge e) { return e.n; }
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    Node addNode() {
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      Node n; n.n=nodes.size();
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      nodes.push_back(NodeT()); //FIXME: Hmmm...
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      node_maps.add(n);
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      return n;
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    }
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    Edge addEdge(Node u, Node v) {
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      Edge e; e.n=edges.size(); edges.push_back(EdgeT()); //FIXME: Hmmm...
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      edges[e.n].tail=u.n; edges[e.n].head=v.n;
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      edges[e.n].next_out=nodes[u.n].first_out;
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      edges[e.n].next_in=nodes[v.n].first_in;
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      nodes[u.n].first_out=nodes[v.n].first_in=e.n;
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      edge_maps.add(e);
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      return e;
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    }
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    /// Finds an edge between two nodes.
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    /// Finds an edge from node \c u to node \c v.
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    ///
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    /// If \c prev is \ref INVALID (this is the default value), then
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    /// It finds the first edge from \c u to \c v. Otherwise it looks for
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    /// the next edge from \c u to \c v after \c prev.
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    /// \return The found edge or INVALID if there is no such an edge.
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    Edge findEdge(Node u,Node v, Edge prev = INVALID) 
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    {
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      int e = (prev.n==-1)? nodes[u.n].first_out : edges[prev.n].next_out;
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      while(e!=-1 && edges[e].tail!=v.n) e = edges[e].next_out;
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      prev.n=e;
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      return prev;
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    }
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    void clear() {
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      edge_maps.clear();
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      edges.clear();
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      node_maps.clear();
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      nodes.clear();
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    }
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    class Node {
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      friend class SmartGraph;
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      template <typename T> friend class NodeMap;
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      friend class Edge;
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      friend class OutEdgeIt;
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      friend class InEdgeIt;
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      friend class SymEdge;
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    protected:
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      int n;
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      friend int SmartGraph::id(Node v); 
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      Node(int nn) {n=nn;}
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    public:
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      Node() {}
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      Node (Invalid) { n=-1; }
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      bool operator==(const Node i) const {return n==i.n;}
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      bool operator!=(const Node i) const {return n!=i.n;}
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      bool operator<(const Node i) const {return n<i.n;}
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      //      ///Validity check
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      //      operator bool() { return n!=-1; }
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    };
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    class NodeIt : public Node {
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      const SmartGraph *G;
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      friend class SmartGraph;
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    public:
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      NodeIt() : Node() { }
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      NodeIt(const SmartGraph& _G,Node n) : Node(n), G(&_G) { }
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      NodeIt(Invalid i) : Node(i) { }
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      NodeIt(const SmartGraph& _G) : Node(_G.nodes.size()?0:-1), G(&_G) { }
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      NodeIt &operator++() {
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	n=(n+2)%(G->nodes.size()+1)-1; 
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	return *this; 
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      }
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//       ///Validity check
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//       operator bool() { return Node::operator bool(); }      
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    };
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    class Edge {
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      friend class SmartGraph;
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      template <typename T> friend class EdgeMap;
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      //template <typename T> friend class SymSmartGraph::SymEdgeMap;      
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      //friend Edge SymSmartGraph::opposite(Edge) const;
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      friend class Node;
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      friend class NodeIt;
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    protected:
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      int n;
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      friend int SmartGraph::id(Edge e);
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    public:
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      /// An Edge with id \c n.
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      /// \bug It should be
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      /// obtained by a member function of the Graph.
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      Edge(int nn) {n=nn;}
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      Edge() { }
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      Edge (Invalid) { n=-1; }
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      bool operator==(const Edge i) const {return n==i.n;}
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      bool operator!=(const Edge i) const {return n!=i.n;}
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      bool operator<(const Edge i) const {return n<i.n;}
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      ///\bug This is a workaround until somebody tells me how to
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      ///make class \c SymSmartGraph::SymEdgeMap friend of Edge
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      int &idref() {return n;}
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      const int &idref() const {return n;} 
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//       ///Validity check
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//       operator bool() { return n!=-1; }
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   };
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    class EdgeIt : public Edge {
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      const SmartGraph *G;
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      friend class SmartGraph;
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    public:
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      EdgeIt(const SmartGraph& _G) : Edge(_G.edges.size()-1), G(&_G) { }
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      EdgeIt(const SmartGraph& _G, Edge e) : Edge(e), G(&_G) { }
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      EdgeIt (Invalid i) : Edge(i) { }
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      EdgeIt() : Edge() { }
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      ///\bug This is a workaround until somebody tells me how to
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      ///make class \c SymSmartGraph::SymEdgeMap friend of Edge
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      int &idref() {return n;}
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      EdgeIt &operator++() { --n; return *this; }
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//       ///Validity check
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//       operator bool() { return Edge::operator bool(); }      
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    };
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    class OutEdgeIt : public Edge {
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      const SmartGraph *G;
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      friend class SmartGraph;
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    public: 
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      OutEdgeIt() : Edge() { }
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      OutEdgeIt(const SmartGraph& _G, Edge e) : Edge(e), G(&_G) { }
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      OutEdgeIt (Invalid i) : Edge(i) { }
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      OutEdgeIt(const SmartGraph& _G,const Node v)
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	: Edge(_G.nodes[v.n].first_out), G(&_G) {}
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      OutEdgeIt &operator++() { n=G->edges[n].next_out; return *this; }
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//       ///Validity check
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//       operator bool() { return Edge::operator bool(); }      
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    };
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    class InEdgeIt : public Edge {
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      const SmartGraph *G;
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      friend class SmartGraph;
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    public: 
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      InEdgeIt() : Edge() { }
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      InEdgeIt(const SmartGraph& _G, Edge e) : Edge(e), G(&_G) { }
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      InEdgeIt (Invalid i) : Edge(i) { }
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      InEdgeIt(const SmartGraph& _G,Node v)
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	: Edge(_G.nodes[v.n].first_in), G(&_G) { }
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      InEdgeIt &operator++() { n=G->edges[n].next_in; return *this; }
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//       ///Validity check
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//       operator bool() { return Edge::operator bool(); }      
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    };
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  };
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  ///Graph for bidirectional edges.
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  ///The purpose of this graph structure is to handle graphs
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  ///having bidirectional edges. Here the function \c addEdge(u,v) adds a pair
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  ///of oppositely directed edges.
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  ///There is a new edge map type called
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  ///\ref SymSmartGraph::SymEdgeMap "SymEdgeMap"
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  ///that complements this
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  ///feature by
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  ///storing shared values for the edge pairs. The usual
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  ///\ref GraphSkeleton::EdgeMap "EdgeMap"
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  ///can be used
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  ///as well.
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  ///
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  ///The oppositely directed edge can also be obtained easily
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  ///using \ref opposite.
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  ///\warning It shares the similarity with \ref SmartGraph that
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  ///it is not possible to delete edges or nodes from the graph.
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  //\sa \ref SmartGraph.
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  class SymSmartGraph : public SmartGraph
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  {
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  public:
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    typedef SymSmartGraph Graph;
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    /// Importing maps from the base class ListGraph.
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    KEEP_MAPS(SmartGraph, SymSmartGraph);
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    /// Creating symmetric map registry.
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    CREATE_SYM_EDGE_MAP_REGISTRY;
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    /// Creating symmetric edge map.
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    CREATE_SYM_EDGE_MAP(DefaultMap);
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    SymSmartGraph() : SmartGraph() { }
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    SymSmartGraph(const SmartGraph &_g) : SmartGraph(_g) { }
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    ///Adds a pair of oppositely directed edges to the graph.
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    Edge addEdge(Node u, Node v)
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    {
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      Edge e = SmartGraph::addEdge(u,v);
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      Edge f = SmartGraph::addEdge(v,u);
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      sym_edge_maps.add(e);
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      sym_edge_maps.add(f);
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      return e;
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    }
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    ///The oppositely directed edge.
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    ///Returns the oppositely directed
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    ///pair of the edge \c e.
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    static Edge opposite(Edge e)
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    {
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      Edge f;
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      f.idref() = e.idref() - 2*(e.idref()%2) + 1;
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      return f;
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    }
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  };
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  /// @}  
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} //namespace hugo
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#endif //HUGO_SMART_GRAPH_H