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// -*- c++ -*-
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#ifndef HUGO_LEDA_GRAPH_WRAPPER_H
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#define HUGO_LEDA_GRAPH_WRAPPER_H
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#include <LEDA/graph.h>
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#include <LEDA/node_array.h>
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#include <LEDA/edge_array.h>
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#include <LEDA/node_map.h>
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#include <LEDA/edge_map.h>
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//#include <LEDA/graph_alg.h>
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//#include <LEDA/dimacs.h>
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//#if defined(LEDA_NAMESPACE)
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//using namespace leda;
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//#endif
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#include <invalid.h>
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/// The namespace of HugoLib
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namespace hugo {
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// @defgroup empty_graph The LedaGraphWrapper class
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// @{
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/// A graph wrapperstructure for wrapping LEDA graphs in HUGO.
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/// This graph wrapper class wraps LEDA graph and LEDA parametrized graph
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/// and then the generic algorithms and wrappers of HUGO can be used
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/// with LEDA graphs.
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/// This class provides all the common features of a grapf structure,
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/// however completely without implementations or 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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template<typename Graph>
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class LedaGraphWrapper
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{
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protected:
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Graph* _graph;
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LedaGraphWrapper() : _graph(0) { }
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void setGraph(Graph& __graph) { _graph=&__graph; }
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public:
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//LedaGraphWrapper() { }
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LedaGraphWrapper(Graph& __graph) : _graph(&__graph) { }
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LedaGraphWrapper(const LedaGraphWrapper &G) : _graph(G._graph) { }
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template <typename T> class NodeMap;
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template <typename T> class EdgeMap;
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class Node;
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class NodeIt;
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class Edge;
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class EdgeIt;
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class OutEdgeIt;
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class InEdgeIt;
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/// The base type of the node iterators.
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class Node {
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friend class LedaGraphWrapper<Graph>;
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//friend class Edge;
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friend class EdgeIt;
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friend class InEdgeIt;
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friend class OutEdgeIt;
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protected:
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template <typename T> friend class NodeMap;
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leda_node _n;
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public: //FIXME
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Node(leda_node __n) : _n(__n) { }
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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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/// Initialize the iterator to be invalid
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Node(Invalid) : _n(0) { }
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//Node(const Node &) {}
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bool operator==(Node n) const { return _n==n._n; } //FIXME
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bool operator!=(Node n) const { return _n!=n._n; } //FIXME
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operator leda_node () { return _n; }
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};
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/// This iterator goes through each node.
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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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/// Initialize the iterator to be invalid
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NodeIt(Invalid i) : Node(i) {}
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/// Sets the iterator to the first node of \c G.
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NodeIt(const LedaGraphWrapper &G) : Node(G._graph->first_node()) { }
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//NodeIt(const NodeIt &) {} //FIXME
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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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friend class LedaGraphWrapper;
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protected:
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template <typename T> friend class EdgeMap;
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leda_edge _e;
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public: //FIXME
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Edge(leda_edge __e) : _e(__e) { }
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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) : _e(0) {}
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//Edge(const Edge &) {}
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bool operator==(Edge e) const { return _e==e._e; } //FIXME
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bool operator!=(Edge e) const { return _e!=e._e; } //FIXME
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operator leda_edge () { return _e; }
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};
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/// This iterator goes trought the outgoing edges of a certain graph.
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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 i) : Edge(i) {}
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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 LedaGraphWrapper & G, Node n) : Edge(G._graph->first_adj_edge(n._n)) { }
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};
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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 i) : Edge(i) {}
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InEdgeIt(const LedaGraphWrapper & G, Node n) : Edge(G._graph->first_in_edge(n._n)) { }
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};
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// class SymEdgeIt : public Edge {};
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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 i) : Edge(i) {}
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EdgeIt(const LedaGraphWrapper & G) : Edge(G._graph->first_edge()) { }
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};
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/// First node of the graph.
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/// \post \c i and the return value will be the first node.
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///
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NodeIt &first(NodeIt &i) const { i=NodeIt(*this); return i; }
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/// The first outgoing edge.
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InEdgeIt &first(InEdgeIt &i, Node n) const {
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i=InEdgeIt(*this, n);
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return i;
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}
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/// The first incoming edge.
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OutEdgeIt &first(OutEdgeIt &i, Node n) const {
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i=OutEdgeIt(*this, n);
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return i;
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}
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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 {
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i=EdgeIt(*this);
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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 {
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i._n=_graph->succ_node(i._n);
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return i;
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}
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/// Go to the next incoming edge.
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InEdgeIt &next(InEdgeIt &i) const {
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i._e=_graph->in_succ(i._e);
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return i;
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}
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/// Go to the next outgoing edge.
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OutEdgeIt &next(OutEdgeIt &i) const {
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i._e=_graph->adj_succ(i._e);
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return i;
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}
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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 {
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i._e=_graph->succ_edge(i._e);
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return i;
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}
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// template< typename It >
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// It first() const {
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// It e;
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// first(e);
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// return e;
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// }
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// template< typename It >
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// It first(Node v) const {
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// It e;
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// first(e, v);
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// return e;
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// }
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///Gives back the head node of an edge.
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Node head(Edge e) const {
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return Node(_graph->target(e._e));
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}
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///Gives back the tail node of an edge.
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Node tail(Edge e) const {
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return Node(_graph->source(e._e));
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}
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Node aNode(InEdgeIt e) const { return head(e); }
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Node aNode(OutEdgeIt e) const { return tail(e); }
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// Node aNode(SymEdgeIt) const {}
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Node bNode(InEdgeIt e) const { return tail(e); }
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Node bNode(OutEdgeIt e) const { return head(e); }
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// Node bNode(SymEdgeIt) const {}
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/// Checks if a node iterator is valid
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bool valid(Node n) const { return n._n; }
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/// Checks if an edge iterator is valid
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bool valid(Edge e) const { return e._e; }
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///Gives back the \e id of a node.
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int id(Node n) const { return n._n->id(); }
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///Gives back the \e id of an edge.
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int id(Edge e) const { return e._e->id(); }
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//void setInvalid(Node &) const {};
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//void setInvalid(Edge &) const {};
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Node addNode() const { return Node(_graph->new_node()); }
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Edge addEdge(Node tail, Node head) const {
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return Edge(_graph->new_edge(tail._n, head._n));
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}
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void erase(Node n) const { _graph->del_node(n._n); }
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void erase(Edge e) const { _graph->del_edge(e._e); }
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void clear() const { _graph->clear(); }
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int nodeNum() const { return _graph->number_of_nodes(); }
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int edgeNum() const { return _graph->number_of_edges(); }
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///Read/write map from the nodes to type \c T.
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template<typename T> class NodeMap
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{
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leda_node_map<T> leda_stuff;
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public:
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typedef T ValueType;
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typedef Node KeyType;
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NodeMap(const LedaGraphWrapper &G) : leda_stuff(*(G._graph)) {}
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NodeMap(const LedaGraphWrapper &G, T t) : leda_stuff(*(G._graph), t) {}
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void set(Node i, T t) { leda_stuff[i._n]=t; }
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T get(Node i) const { return leda_stuff[i._n]; } //FIXME: Is it necessary
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T &operator[](Node i) { return leda_stuff[i._n]; }
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const T &operator[](Node i) const { return leda_stuff[i._n]; }
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void update() { /*leda_stuff.init(leda_stuff.get_graph());*/ }
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//void update(T a) { leda_stuff.init(leda_stuff.get_graph()/**(G._graph)*/, a); } //FIXME: Is it necessary
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};
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///Read/write map from the edges to type \c T.
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template<typename T> class EdgeMap
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{
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leda_edge_map<T> leda_stuff;
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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 LedaGraphWrapper &G) : leda_stuff(*(G._graph)) {}
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EdgeMap(const LedaGraphWrapper &G, T t) : leda_stuff(*(G._graph), t) {}
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void set(Edge i, T t) { leda_stuff[i._e]=t; }
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T get(Edge i) const { return leda_stuff[i._e]; } //FIXME: Is it necessary
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T &operator[](Edge i) { return leda_stuff[i._e]; }
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marci@189
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303 |
const T &operator[](Edge i) const { return leda_stuff[i._e]; }
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marci@189
|
304 |
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marci@189
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305 |
void update() { /*leda_stuff.init(leda_stuff.get_graph());*/ }
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marci@189
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306 |
//void update(T a) { leda_stuff.init(leda_stuff.get_graph()/**(G._graph)*/, a); } //FIXME: Is it necessary
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marci@189
|
307 |
};
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marci@189
|
308 |
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marci@189
|
309 |
};
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marci@189
|
310 |
|
marci@473
|
311 |
template<typename Graph>
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marci@473
|
312 |
class LedaGraph : public LedaGraphWrapper<Graph> {
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marci@473
|
313 |
typedef LedaGraphWrapper<Graph> Parent;
|
marci@473
|
314 |
protected:
|
marci@473
|
315 |
Graph gr;
|
marci@473
|
316 |
public:
|
marci@473
|
317 |
LedaGraph() {
|
marci@473
|
318 |
Parent::setGraph(gr);
|
marci@473
|
319 |
}
|
marci@473
|
320 |
};
|
marci@473
|
321 |
|
marci@189
|
322 |
// @}
|
marci@189
|
323 |
|
marci@189
|
324 |
} //namespace hugo
|
marci@189
|
325 |
|
marci@189
|
326 |
|
marci@189
|
327 |
|
marci@189
|
328 |
// class EmptyBipGraph : public EmptyGraph
|
marci@189
|
329 |
// {
|
marci@189
|
330 |
// class ANode {};
|
marci@189
|
331 |
// class BNode {};
|
marci@189
|
332 |
|
marci@189
|
333 |
// ANode &next(ANode &) {}
|
marci@189
|
334 |
// BNode &next(BNode &) {}
|
marci@189
|
335 |
|
marci@189
|
336 |
// ANode &getFirst(ANode &) const {}
|
marci@189
|
337 |
// BNode &getFirst(BNode &) const {}
|
marci@189
|
338 |
|
marci@189
|
339 |
// enum NodeClass { A = 0, B = 1 };
|
marci@189
|
340 |
// NodeClass getClass(Node n) {}
|
marci@189
|
341 |
|
marci@189
|
342 |
// }
|
marci@189
|
343 |
|
marci@189
|
344 |
#endif // HUGO_LEDA_GRAPH_WRAPPER_H
|