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/* -*- C++ -*-
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* lemon/edge_set.h - Part of LEMON, a generic C++ optimization library
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*
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* Copyright (C) 2006 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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* (Egervary Research Group on Combinatorial Optimization, EGRES).
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*
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* Permission to use, modify and distribute this software is granted
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* provided that this copyright notice appears in all copies. For
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* precise terms see the accompanying LICENSE file.
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*
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* This software is provided "AS IS" with no warranty of any kind,
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* express or implied, and with no claim as to its suitability for any
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* purpose.
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*
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*/
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#ifndef LEMON_EDGE_SET_H
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#define LEMON_EDGE_SET_H
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/// \ingroup graphs
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/// \file
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/// \brief EdgeSet classes.
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///
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/// Graphs which use another graph's node-set as own.
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namespace lemon {
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template <typename _Graph>
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class ListEdgeSetBase {
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public:
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typedef _Graph Graph;
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typedef typename Graph::Node Node;
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typedef typename Graph::NodeIt NodeIt;
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protected:
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struct NodeT {
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int first_out, first_in;
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NodeT() : first_out(-1), first_in(-1) {}
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};
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typedef typename Graph::template NodeMap<NodeT> NodesImplBase;
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NodesImplBase* nodes;
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struct EdgeT {
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Node source, target;
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int next_out, next_in;
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int prev_out, prev_in;
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EdgeT() : prev_out(-1), prev_in(-1) {}
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};
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std::vector<EdgeT> edges;
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int first_edge;
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int first_free_edge;
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const Graph* graph;
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void initalize(const Graph& _graph, NodesImplBase& _nodes) {
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graph = &_graph;
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nodes = &_nodes;
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}
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public:
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class Edge {
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friend class ListEdgeSetBase<Graph>;
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protected:
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Edge(int _id) : id(_id) {}
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int id;
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public:
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Edge() {}
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Edge(Invalid) : id(-1) {}
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bool operator==(const Edge& edge) const { return id == edge.id; }
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bool operator!=(const Edge& edge) const { return id != edge.id; }
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bool operator<(const Edge& edge) const { return id < edge.id; }
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};
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ListEdgeSetBase() : first_edge(-1), first_free_edge(-1) {}
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Edge addEdge(const Node& source, const Node& target) {
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int n;
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if (first_free_edge == -1) {
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n = edges.size();
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edges.push_back(EdgeT());
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} else {
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n = first_free_edge;
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first_free_edge = edges[first_free_edge].next_in;
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}
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edges[n].next_in = (*nodes)[target].first_in;
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(*nodes)[target].first_in = n;
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edges[n].next_out = (*nodes)[source].first_out;
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(*nodes)[source].first_out = n;
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edges[n].source = source;
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edges[n].target = target;
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return Edge(n);
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}
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void erase(const Edge& edge) {
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int n = edge.id;
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if (edges[n].prev_in != -1) {
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edges[edges[n].prev_in].next_in = edges[n].next_in;
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} else {
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(*nodes)[edges[n].target].first_in = edges[n].next_in;
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}
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if (edges[n].next_in != -1) {
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edges[edges[n].next_in].prev_in = edges[n].prev_in;
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}
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if (edges[n].prev_out != -1) {
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edges[edges[n].prev_out].next_out = edges[n].next_out;
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} else {
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(*nodes)[edges[n].source].first_out = edges[n].next_out;
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}
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if (edges[n].next_out != -1) {
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edges[edges[n].next_out].prev_out = edges[n].prev_out;
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}
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}
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void clear() {
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edges.clear();
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first_edge = -1;
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first_free_edge = -1;
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}
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void first(Node& node) const {
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graph->first(node);
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}
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void next(Node& node) const {
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graph->next(node);
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}
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void first(Edge& edge) const {
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Node node;
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for (first(node); node != INVALID && (*nodes)[node].first_in == -1;
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next(node));
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edge.id = (node == INVALID) ? -1 : (*nodes)[node].first_in;
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}
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void next(Edge& edge) const {
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if (edges[edge.id].next_in != -1) {
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edge.id = edges[edge.id].next_in;
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} else {
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Node node = edges[edge.id].target;
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for (next(node); node != INVALID && (*nodes)[node].first_in == -1;
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next(node));
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edge.id = (node == INVALID) ? -1 : (*nodes)[node].first_in;
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}
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}
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void firstOut(Edge& edge, const Node& node) const {
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edge.id = (*nodes)[node].first_out;
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}
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void nextOut(Edge& edge) const {
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edge.id = edges[edge.id].next_out;
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}
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void firstIn(Edge& edge, const Node& node) const {
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edge.id = (*nodes)[node].first_in;
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}
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void nextIn(Edge& edge) const {
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edge.id = edges[edge.id].next_in;
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}
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int id(const Node& node) const { return graph->id(node); }
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int id(const Edge& edge) const { return edge.id; }
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Node nodeFromId(int id) const { return graph->fromId(id, Node()); }
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Edge edgeFromId(int id) const { return Edge(id); }
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int maxNodeId() const { return graph->maxId(Node()); };
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int maxEdgeId() const { return edges.size() - 1; }
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Node source(const Edge& edge) const { return edges[edge.id].source;}
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Node target(const Edge& edge) const { return edges[edge.id].target;}
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template <typename _Value>
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class NodeMap : public Graph::template NodeMap<_Value> {
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public:
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typedef typename _Graph::template NodeMap<_Value> Parent;
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explicit NodeMap(const ListEdgeSetBase<Graph>& edgeset)
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: Parent(*edgeset.graph) { }
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NodeMap(const ListEdgeSetBase<Graph>& edgeset, const _Value& value)
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: Parent(*edgeset.graph, value) { }
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};
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};
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/// \ingroup semi_adaptors
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///
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/// \brief Graph using a node set of another graph and an
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/// own edge set.
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///
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/// This structure can be used to establish another graph over a node set
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/// of an existing one. The node iterator will go through the nodes of the
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/// original graph.
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///
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/// \param _Graph The type of the graph which shares its node set with
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/// this class. Its interface must conform to the \ref concept::StaticGraph
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/// "StaticGraph" concept.
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///
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/// In the edge extension and removing it conforms to the
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/// \ref concept::ExtendableGraph "ExtendableGraph" concept.
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template <typename _Graph>
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class ListEdgeSet :
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public ErasableEdgeSetExtender<
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ClearableEdgeSetExtender<
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ExtendableEdgeSetExtender<
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MappableEdgeSetExtender<
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IterableGraphExtender<
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AlterableEdgeSetExtender<
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GraphExtender<
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ListEdgeSetBase<_Graph> > > > > > > > {
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public:
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typedef ErasableEdgeSetExtender<
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ClearableEdgeSetExtender<
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ExtendableEdgeSetExtender<
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MappableEdgeSetExtender<
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IterableGraphExtender<
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AlterableEdgeSetExtender<
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GraphExtender<
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ListEdgeSetBase<_Graph> > > > > > > > Parent;
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typedef typename Parent::Node Node;
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typedef typename Parent::Edge Edge;
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typedef _Graph Graph;
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typedef typename Parent::NodesImplBase NodesImplBase;
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void eraseNode(const Node& node) {
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Edge edge;
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Parent::firstOut(edge, node);
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while (edge != INVALID ) {
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erase(edge);
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Parent::firstOut(edge, node);
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}
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Parent::firstIn(edge, node);
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while (edge != INVALID ) {
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erase(edge);
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Parent::firstIn(edge, node);
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}
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}
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void clearNodes() {
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Parent::clear();
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}
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class NodesImpl : public NodesImplBase {
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public:
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typedef NodesImplBase Parent;
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NodesImpl(const Graph& graph, ListEdgeSet& edgeset)
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: Parent(graph), _edgeset(edgeset) {}
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protected:
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virtual void erase(const Node& node) {
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_edgeset.eraseNode(node);
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Parent::erase(node);
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}
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virtual void clear() {
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_edgeset.clearNodes();
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Parent::clear();
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}
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private:
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ListEdgeSet& _edgeset;
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};
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NodesImpl nodes;
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public:
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/// \brief Constructor of the adaptor.
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///
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/// Constructor of the adaptor.
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ListEdgeSet(const Graph& graph) : nodes(graph, *this) {
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Parent::initalize(graph, nodes);
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}
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};
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/// \ingroup semi_adaptors
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///
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/// \brief Graph using a node set of another graph and an
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/// own undir edge set.
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///
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/// This structure can be used to establish another graph over a node set
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/// of an existing one. The node iterator will go through the nodes of the
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/// original graph.
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///
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/// \param _Graph The type of the graph which shares its node set with
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/// this class. Its interface must conform to the \ref concept::StaticGraph
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deba@1842
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/// "StaticGraph" concept.
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///
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deba@1842
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/// In the edge extension and removing it conforms to the
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deba@1842
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/// \ref concept::ExtendableGraph "ExtendableGraph" concept.
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deba@1842
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template <typename _Graph>
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class ListUndirEdgeSet :
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public ErasableUndirEdgeSetExtender<
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ClearableUndirEdgeSetExtender<
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deba@1842
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ExtendableUndirEdgeSetExtender<
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deba@1842
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MappableUndirEdgeSetExtender<
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deba@1842
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IterableUndirGraphExtender<
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deba@1842
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AlterableUndirEdgeSetExtender<
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deba@1842
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UndirGraphExtender<
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ListEdgeSetBase<_Graph> > > > > > > > {
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public:
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typedef ErasableUndirEdgeSetExtender<
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ClearableUndirEdgeSetExtender<
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ExtendableUndirEdgeSetExtender<
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MappableUndirEdgeSetExtender<
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IterableUndirGraphExtender<
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AlterableUndirEdgeSetExtender<
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UndirGraphExtender<
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ListEdgeSetBase<_Graph> > > > > > > > Parent;
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typedef typename Parent::Node Node;
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typedef typename Parent::Edge Edge;
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typedef _Graph Graph;
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typedef typename Parent::NodesImplBase NodesImplBase;
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void eraseNode(const Node& node) {
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Edge edge;
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Parent::firstOut(edge, node);
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while (edge != INVALID ) {
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erase(edge);
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Parent::firstOut(edge, node);
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}
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|
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}
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|
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void clearNodes() {
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|
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Parent::clear();
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|
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}
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deba@1842
|
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|
deba@1842
|
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class NodesImpl : public NodesImplBase {
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|
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public:
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deba@1842
|
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typedef NodesImplBase Parent;
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|
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NodesImpl(const Graph& graph, ListUndirEdgeSet& edgeset)
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: Parent(graph), _edgeset(edgeset) {}
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|
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protected:
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|
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|
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|
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virtual void erase(const Node& node) {
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deba@1842
|
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_edgeset.eraseNode(node);
|
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|
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Parent::erase(node);
|
deba@1842
|
365 |
}
|
deba@1866
|
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virtual void erase(const std::vector<Node>& nodes) {
|
deba@1866
|
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for (int i = 0; i < nodes.size(); ++i) {
|
deba@1866
|
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_edgeset.eraseNode(nodes[i]);
|
deba@1866
|
369 |
}
|
deba@1866
|
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Parent::erase(nodes);
|
deba@1866
|
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}
|
deba@1842
|
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virtual void clear() {
|
deba@1842
|
373 |
_edgeset.clearNodes();
|
deba@1842
|
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Parent::clear();
|
deba@1842
|
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}
|
deba@1842
|
376 |
|
deba@1842
|
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private:
|
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|
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ListUndirEdgeSet& _edgeset;
|
deba@1842
|
379 |
};
|
deba@1842
|
380 |
|
deba@1842
|
381 |
NodesImpl nodes;
|
deba@1842
|
382 |
|
deba@1842
|
383 |
public:
|
deba@1842
|
384 |
|
deba@1842
|
385 |
/// \brief Constructor of the adaptor.
|
deba@1842
|
386 |
///
|
deba@1842
|
387 |
/// Constructor of the adaptor.
|
deba@1842
|
388 |
ListUndirEdgeSet(const Graph& graph) : nodes(graph, *this) {
|
deba@1842
|
389 |
Parent::initalize(graph, nodes);
|
deba@1842
|
390 |
}
|
deba@1842
|
391 |
|
deba@1842
|
392 |
};
|
deba@1842
|
393 |
|
deba@1842
|
394 |
}
|
deba@1842
|
395 |
|
deba@1842
|
396 |
#endif
|