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/* -*- C++ -*-
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*
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* This file is a part of LEMON, a generic C++ optimization library
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*
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* Copyright (C) 2003-2008
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* 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_SMART_GRAPH_H
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#define LEMON_SMART_GRAPH_H
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///\ingroup graphs
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///\file
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///\brief SmartDigraph and SmartGraph classes.
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#include <vector>
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#include <lemon/bits/invalid.h>
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#include <lemon/bits/base_extender.h>
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#include <lemon/bits/graph_extender.h>
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#include <lemon/bits/utility.h>
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#include <lemon/error.h>
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#include <lemon/bits/graph_extender.h>
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namespace lemon {
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class SmartDigraph;
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///Base of SmartDigraph
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///Base of SmartDigraph
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///
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class SmartDigraphBase {
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protected:
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struct NodeT
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{
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int first_in, first_out;
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NodeT() {}
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};
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struct ArcT
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{
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int target, source, next_in, next_out;
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ArcT() {}
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};
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std::vector<NodeT> nodes;
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std::vector<ArcT> arcs;
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public:
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typedef SmartDigraphBase Graph;
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class Node;
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class Arc;
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public:
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SmartDigraphBase() : nodes(), arcs() { }
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SmartDigraphBase(const SmartDigraphBase &_g)
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: nodes(_g.nodes), arcs(_g.arcs) { }
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typedef True NodeNumTag;
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typedef True ArcNumTag;
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int nodeNum() const { return nodes.size(); }
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int arcNum() const { return arcs.size(); }
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int maxNodeId() const { return nodes.size()-1; }
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int maxArcId() const { return arcs.size()-1; }
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Node addNode() {
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int n = nodes.size();
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nodes.push_back(NodeT());
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nodes[n].first_in = -1;
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nodes[n].first_out = -1;
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return Node(n);
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}
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Arc addArc(Node u, Node v) {
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int n = arcs.size();
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arcs.push_back(ArcT());
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arcs[n].source = u._id;
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arcs[n].target = v._id;
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arcs[n].next_out = nodes[u._id].first_out;
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arcs[n].next_in = nodes[v._id].first_in;
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nodes[u._id].first_out = nodes[v._id].first_in = n;
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return Arc(n);
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}
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void clear() {
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arcs.clear();
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nodes.clear();
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}
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Node source(Arc a) const { return Node(arcs[a._id].source); }
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Node target(Arc a) const { return Node(arcs[a._id].target); }
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static int id(Node v) { return v._id; }
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static int id(Arc a) { return a._id; }
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static Node nodeFromId(int id) { return Node(id);}
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static Arc arcFromId(int id) { return Arc(id);}
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class Node {
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friend class SmartDigraphBase;
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friend class SmartDigraph;
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protected:
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int _id;
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explicit Node(int id) : _id(id) {}
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public:
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Node() {}
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Node (Invalid) : _id(-1) {}
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bool operator==(const Node i) const {return _id == i._id;}
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bool operator!=(const Node i) const {return _id != i._id;}
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bool operator<(const Node i) const {return _id < i._id;}
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};
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class Arc {
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friend class SmartDigraphBase;
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friend class SmartDigraph;
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protected:
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int _id;
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explicit Arc(int id) : _id(id) {}
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public:
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Arc() { }
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Arc (Invalid) : _id(-1) {}
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bool operator==(const Arc i) const {return _id == i._id;}
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bool operator!=(const Arc i) const {return _id != i._id;}
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bool operator<(const Arc i) const {return _id < i._id;}
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};
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void first(Node& node) const {
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node._id = nodes.size() - 1;
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}
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static void next(Node& node) {
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--node._id;
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}
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void first(Arc& arc) const {
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arc._id = arcs.size() - 1;
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}
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static void next(Arc& arc) {
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--arc._id;
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}
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void firstOut(Arc& arc, const Node& node) const {
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arc._id = nodes[node._id].first_out;
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}
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void nextOut(Arc& arc) const {
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arc._id = arcs[arc._id].next_out;
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}
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void firstIn(Arc& arc, const Node& node) const {
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arc._id = nodes[node._id].first_in;
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}
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void nextIn(Arc& arc) const {
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arc._id = arcs[arc._id].next_in;
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}
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};
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typedef DigraphExtender<SmartDigraphBase> ExtendedSmartDigraphBase;
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///\ingroup graphs
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///
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///\brief A smart directed graph class.
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///
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///This is a simple and fast digraph implementation.
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///It is also quite memory efficient, but at the price
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///that <b> it does support only limited (only stack-like)
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///node and arc deletions</b>.
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///It conforms to the \ref concepts::Digraph "Digraph concept" with
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///an important extra feature that its maps are real \ref
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///concepts::ReferenceMap "reference map"s.
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///
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///\sa concepts::Digraph.
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///
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///\author Alpar Juttner
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class SmartDigraph : public ExtendedSmartDigraphBase {
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public:
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typedef ExtendedSmartDigraphBase Parent;
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private:
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///SmartDigraph is \e not copy constructible. Use DigraphCopy() instead.
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///SmartDigraph is \e not copy constructible. Use DigraphCopy() instead.
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///
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SmartDigraph(const SmartDigraph &) : ExtendedSmartDigraphBase() {};
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///\brief Assignment of SmartDigraph to another one is \e not allowed.
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///Use DigraphCopy() instead.
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///Assignment of SmartDigraph to another one is \e not allowed.
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///Use DigraphCopy() instead.
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void operator=(const SmartDigraph &) {}
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public:
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/// Constructor
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/// Constructor.
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///
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SmartDigraph() {};
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///Add a new node to the digraph.
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/// \return the new node.
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///
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Node addNode() { return Parent::addNode(); }
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///Add a new arc to the digraph.
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///Add a new arc to the digraph with source node \c s
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///and target node \c t.
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///\return the new arc.
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Arc addArc(const Node& s, const Node& t) {
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return Parent::addArc(s, t);
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}
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/// \brief Using this it is possible to avoid the superfluous memory
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/// allocation.
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/// Using this it is possible to avoid the superfluous memory
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/// allocation: if you know that the digraph you want to build will
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/// be very large (e.g. it will contain millions of nodes and/or arcs)
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/// then it is worth reserving space for this amount before starting
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/// to build the digraph.
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/// \sa reserveArc
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void reserveNode(int n) { nodes.reserve(n); };
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/// \brief Using this it is possible to avoid the superfluous memory
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/// allocation.
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/// Using this it is possible to avoid the superfluous memory
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/// allocation: if you know that the digraph you want to build will
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/// be very large (e.g. it will contain millions of nodes and/or arcs)
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/// then it is worth reserving space for this amount before starting
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/// to build the digraph.
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/// \sa reserveNode
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void reserveArc(int m) { arcs.reserve(m); };
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///Clear the digraph.
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///Erase all the nodes and arcs from the digraph.
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///
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void clear() {
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Parent::clear();
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}
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///Split a node.
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///This function splits a node. First a new node is added to the digraph,
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///then the source of each outgoing arc of \c n is moved to this new node.
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///If \c connect is \c true (this is the default value), then a new arc
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///from \c n to the newly created node is also added.
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///\return The newly created node.
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///
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///\note The <tt>Arc</tt>s
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///referencing a moved arc remain
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///valid. However <tt>InArc</tt>'s and <tt>OutArc</tt>'s
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///may be invalidated.
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///\warning This functionality cannot be used together with the Snapshot
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///feature.
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///\todo It could be implemented in a bit faster way.
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Node split(Node n, bool connect = true)
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{
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Node b = addNode();
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nodes[b._id].first_out=nodes[n._id].first_out;
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nodes[n._id].first_out=-1;
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for(int i=nodes[b._id].first_out;i!=-1;i++) arcs[i].source=b._id;
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if(connect) addArc(n,b);
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return b;
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}
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public:
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class Snapshot;
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protected:
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void restoreSnapshot(const Snapshot &s)
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{
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while(s.arc_num<arcs.size()) {
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Arc arc = arcFromId(arcs.size()-1);
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Parent::notifier(Arc()).erase(arc);
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nodes[arcs.back().source].first_out=arcs.back().next_out;
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nodes[arcs.back().target].first_in=arcs.back().next_in;
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arcs.pop_back();
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}
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while(s.node_num<nodes.size()) {
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Node node = nodeFromId(nodes.size()-1);
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Parent::notifier(Node()).erase(node);
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nodes.pop_back();
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}
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}
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public:
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///Class to make a snapshot of the digraph and to restrore to it later.
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///Class to make a snapshot of the digraph and to restrore to it later.
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///
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///The newly added nodes and arcs can be removed using the
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///restore() function.
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///\note After you restore a state, you cannot restore
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///a later state, in other word you cannot add again the arcs deleted
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///by restore() using another one Snapshot instance.
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///
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///\warning If you do not use correctly the snapshot that can cause
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///either broken program, invalid state of the digraph, valid but
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///not the restored digraph or no change. Because the runtime performance
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///the validity of the snapshot is not stored.
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class Snapshot
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{
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SmartDigraph *_graph;
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protected:
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friend class SmartDigraph;
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unsigned int node_num;
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unsigned int arc_num;
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public:
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///Default constructor.
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///Default constructor.
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///To actually make a snapshot you must call save().
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///
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Snapshot() : _graph(0) {}
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///Constructor that immediately makes a snapshot
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///This constructor immediately makes a snapshot of the digraph.
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///\param _g The digraph we make a snapshot of.
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Snapshot(SmartDigraph &graph) : _graph(&graph) {
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node_num=_graph->nodes.size();
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arc_num=_graph->arcs.size();
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}
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///Make a snapshot.
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///Make a snapshot of the digraph.
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///
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///This function can be called more than once. In case of a repeated
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///call, the previous snapshot gets lost.
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///\param _g The digraph we make the snapshot of.
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void save(SmartDigraph &graph)
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{
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_graph=&graph;
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node_num=_graph->nodes.size();
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arc_num=_graph->arcs.size();
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}
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///Undo the changes until a snapshot.
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///Undo the changes until a snapshot created by save().
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///
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///\note After you restored a state, you cannot restore
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///a later state, in other word you cannot add again the arcs deleted
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///by restore().
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void restore()
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{
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_graph->restoreSnapshot(*this);
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}
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};
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};
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class SmartGraphBase {
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protected:
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struct NodeT {
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int first_out;
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};
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struct ArcT {
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int target;
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int next_out;
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};
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std::vector<NodeT> nodes;
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std::vector<ArcT> arcs;
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int first_free_arc;
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public:
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typedef SmartGraphBase Digraph;
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class Node;
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class Arc;
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class Edge;
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class Node {
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friend class SmartGraphBase;
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protected:
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int _id;
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explicit Node(int id) { _id = id;}
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public:
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Node() {}
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Node (Invalid) { _id = -1; }
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bool operator==(const Node& node) const {return _id == node._id;}
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bool operator!=(const Node& node) const {return _id != node._id;}
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bool operator<(const Node& node) const {return _id < node._id;}
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};
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class Edge {
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friend class SmartGraphBase;
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protected:
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int _id;
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explicit Edge(int id) { _id = id;}
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public:
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436 |
Edge() {}
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Edge (Invalid) { _id = -1; }
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bool operator==(const Edge& arc) const {return _id == arc._id;}
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bool operator!=(const Edge& arc) const {return _id != arc._id;}
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bool operator<(const Edge& arc) const {return _id < arc._id;}
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};
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class Arc {
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friend class SmartGraphBase;
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445 |
protected:
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446 |
|
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447 |
int _id;
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448 |
explicit Arc(int id) { _id = id;}
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449 |
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450 |
public:
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|
451 |
operator Edge() const { return edgeFromId(_id / 2); }
|
|
452 |
|
|
453 |
Arc() {}
|
|
454 |
Arc (Invalid) { _id = -1; }
|
|
455 |
bool operator==(const Arc& arc) const {return _id == arc._id;}
|
|
456 |
bool operator!=(const Arc& arc) const {return _id != arc._id;}
|
|
457 |
bool operator<(const Arc& arc) const {return _id < arc._id;}
|
|
458 |
};
|
|
459 |
|
|
460 |
|
|
461 |
|
|
462 |
SmartGraphBase()
|
|
463 |
: nodes(), arcs() {}
|
|
464 |
|
|
465 |
|
|
466 |
int maxNodeId() const { return nodes.size()-1; }
|
|
467 |
int maxEdgeId() const { return arcs.size() / 2 - 1; }
|
|
468 |
int maxArcId() const { return arcs.size()-1; }
|
|
469 |
|
|
470 |
Node source(Arc e) const { return Node(arcs[e._id ^ 1].target); }
|
|
471 |
Node target(Arc e) const { return Node(arcs[e._id].target); }
|
|
472 |
|
|
473 |
Node source(Edge e) const { return Node(arcs[2 * e._id].target); }
|
|
474 |
Node target(Edge e) const { return Node(arcs[2 * e._id + 1].target); }
|
|
475 |
|
|
476 |
static bool direction(Arc e) {
|
|
477 |
return (e._id & 1) == 1;
|
|
478 |
}
|
|
479 |
|
|
480 |
static Arc direct(Edge e, bool d) {
|
|
481 |
return Arc(e._id * 2 + (d ? 1 : 0));
|
|
482 |
}
|
|
483 |
|
|
484 |
void first(Node& node) const {
|
|
485 |
node._id = nodes.size() - 1;
|
|
486 |
}
|
|
487 |
|
|
488 |
void next(Node& node) const {
|
|
489 |
--node._id;
|
|
490 |
}
|
|
491 |
|
|
492 |
void first(Arc& arc) const {
|
|
493 |
arc._id = arcs.size() - 1;
|
|
494 |
}
|
|
495 |
|
|
496 |
void next(Arc& arc) const {
|
|
497 |
--arc._id;
|
|
498 |
}
|
|
499 |
|
|
500 |
void first(Edge& arc) const {
|
|
501 |
arc._id = arcs.size() / 2 - 1;
|
|
502 |
}
|
|
503 |
|
|
504 |
void next(Edge& arc) const {
|
|
505 |
--arc._id;
|
|
506 |
}
|
|
507 |
|
|
508 |
void firstOut(Arc &arc, const Node& v) const {
|
|
509 |
arc._id = nodes[v._id].first_out;
|
|
510 |
}
|
|
511 |
void nextOut(Arc &arc) const {
|
|
512 |
arc._id = arcs[arc._id].next_out;
|
|
513 |
}
|
|
514 |
|
|
515 |
void firstIn(Arc &arc, const Node& v) const {
|
|
516 |
arc._id = ((nodes[v._id].first_out) ^ 1);
|
|
517 |
if (arc._id == -2) arc._id = -1;
|
|
518 |
}
|
|
519 |
void nextIn(Arc &arc) const {
|
|
520 |
arc._id = ((arcs[arc._id ^ 1].next_out) ^ 1);
|
|
521 |
if (arc._id == -2) arc._id = -1;
|
|
522 |
}
|
|
523 |
|
|
524 |
void firstInc(Edge &arc, bool& d, const Node& v) const {
|
|
525 |
int de = nodes[v._id].first_out;
|
|
526 |
if (de != -1) {
|
|
527 |
arc._id = de / 2;
|
|
528 |
d = ((de & 1) == 1);
|
|
529 |
} else {
|
|
530 |
arc._id = -1;
|
|
531 |
d = true;
|
|
532 |
}
|
|
533 |
}
|
|
534 |
void nextInc(Edge &arc, bool& d) const {
|
|
535 |
int de = (arcs[(arc._id * 2) | (d ? 1 : 0)].next_out);
|
|
536 |
if (de != -1) {
|
|
537 |
arc._id = de / 2;
|
|
538 |
d = ((de & 1) == 1);
|
|
539 |
} else {
|
|
540 |
arc._id = -1;
|
|
541 |
d = true;
|
|
542 |
}
|
|
543 |
}
|
|
544 |
|
|
545 |
static int id(Node v) { return v._id; }
|
|
546 |
static int id(Arc e) { return e._id; }
|
|
547 |
static int id(Edge e) { return e._id; }
|
|
548 |
|
|
549 |
static Node nodeFromId(int id) { return Node(id);}
|
|
550 |
static Arc arcFromId(int id) { return Arc(id);}
|
|
551 |
static Edge edgeFromId(int id) { return Edge(id);}
|
|
552 |
|
|
553 |
Node addNode() {
|
|
554 |
int n = nodes.size();
|
|
555 |
nodes.push_back(NodeT());
|
|
556 |
nodes[n].first_out = -1;
|
|
557 |
|
|
558 |
return Node(n);
|
|
559 |
}
|
|
560 |
|
|
561 |
Edge addArc(Node u, Node v) {
|
|
562 |
int n = arcs.size();
|
|
563 |
arcs.push_back(ArcT());
|
|
564 |
arcs.push_back(ArcT());
|
|
565 |
|
|
566 |
arcs[n].target = u._id;
|
|
567 |
arcs[n | 1].target = v._id;
|
|
568 |
|
|
569 |
arcs[n].next_out = nodes[v._id].first_out;
|
|
570 |
nodes[v._id].first_out = n;
|
|
571 |
|
|
572 |
arcs[n | 1].next_out = nodes[u._id].first_out;
|
|
573 |
nodes[u._id].first_out = (n | 1);
|
|
574 |
|
|
575 |
return Edge(n / 2);
|
|
576 |
}
|
|
577 |
|
|
578 |
void clear() {
|
|
579 |
arcs.clear();
|
|
580 |
nodes.clear();
|
|
581 |
}
|
|
582 |
|
|
583 |
};
|
|
584 |
|
|
585 |
typedef GraphExtender<SmartGraphBase> ExtendedSmartGraphBase;
|
|
586 |
|
|
587 |
/// \ingroup graphs
|
|
588 |
///
|
|
589 |
/// \brief A smart undirected graph class.
|
|
590 |
///
|
|
591 |
/// This is a simple and fast graph implementation.
|
|
592 |
/// It is also quite memory efficient, but at the price
|
|
593 |
/// that <b> it does support only limited (only stack-like)
|
|
594 |
/// node and arc deletions</b>.
|
|
595 |
/// Except from this it conforms to
|
|
596 |
/// the \ref concepts::Graph "Graph concept".
|
|
597 |
///
|
|
598 |
/// It also has an
|
|
599 |
/// important extra feature that
|
|
600 |
/// its maps are real \ref concepts::ReferenceMap "reference map"s.
|
|
601 |
///
|
|
602 |
/// \sa concepts::Graph.
|
|
603 |
///
|
|
604 |
class SmartGraph : public ExtendedSmartGraphBase {
|
|
605 |
private:
|
|
606 |
|
|
607 |
///SmartGraph is \e not copy constructible. Use GraphCopy() instead.
|
|
608 |
|
|
609 |
///SmartGraph is \e not copy constructible. Use GraphCopy() instead.
|
|
610 |
///
|
|
611 |
SmartGraph(const SmartGraph &) : ExtendedSmartGraphBase() {};
|
|
612 |
|
|
613 |
///\brief Assignment of SmartGraph to another one is \e not allowed.
|
|
614 |
///Use GraphCopy() instead.
|
|
615 |
|
|
616 |
///Assignment of SmartGraph to another one is \e not allowed.
|
|
617 |
///Use GraphCopy() instead.
|
|
618 |
void operator=(const SmartGraph &) {}
|
|
619 |
|
|
620 |
public:
|
|
621 |
|
|
622 |
typedef ExtendedSmartGraphBase Parent;
|
|
623 |
|
|
624 |
/// Constructor
|
|
625 |
|
|
626 |
/// Constructor.
|
|
627 |
///
|
|
628 |
SmartGraph() {}
|
|
629 |
|
|
630 |
///Add a new node to the graph.
|
|
631 |
|
|
632 |
/// \return the new node.
|
|
633 |
///
|
|
634 |
Node addNode() { return Parent::addNode(); }
|
|
635 |
|
|
636 |
///Add a new edge to the graph.
|
|
637 |
|
|
638 |
///Add a new edge to the graph with node \c s
|
|
639 |
///and \c t.
|
|
640 |
///\return the new edge.
|
|
641 |
Edge addEdge(const Node& s, const Node& t) {
|
|
642 |
return Parent::addArc(s, t);
|
|
643 |
}
|
|
644 |
|
|
645 |
///Clear the graph.
|
|
646 |
|
|
647 |
///Erase all the nodes and edges from the graph.
|
|
648 |
///
|
|
649 |
void clear() {
|
|
650 |
Parent::clear();
|
|
651 |
}
|
|
652 |
|
|
653 |
public:
|
|
654 |
|
|
655 |
class Snapshot;
|
|
656 |
|
|
657 |
protected:
|
|
658 |
|
|
659 |
void saveSnapshot(Snapshot &s)
|
|
660 |
{
|
|
661 |
s._graph = this;
|
|
662 |
s.node_num = nodes.size();
|
|
663 |
s.arc_num = arcs.size();
|
|
664 |
}
|
|
665 |
|
|
666 |
void restoreSnapshot(const Snapshot &s)
|
|
667 |
{
|
|
668 |
while(s.arc_num<arcs.size()) {
|
|
669 |
int n=arcs.size()-1;
|
|
670 |
Edge arc=edgeFromId(n/2);
|
|
671 |
Parent::notifier(Edge()).erase(arc);
|
|
672 |
std::vector<Arc> dir;
|
|
673 |
dir.push_back(arcFromId(n));
|
|
674 |
dir.push_back(arcFromId(n-1));
|
|
675 |
Parent::notifier(Arc()).erase(dir);
|
|
676 |
nodes[arcs[n].target].first_out=arcs[n].next_out;
|
|
677 |
nodes[arcs[n-1].target].first_out=arcs[n-1].next_out;
|
|
678 |
arcs.pop_back();
|
|
679 |
arcs.pop_back();
|
|
680 |
}
|
|
681 |
while(s.node_num<nodes.size()) {
|
|
682 |
int n=nodes.size()-1;
|
|
683 |
Node node = nodeFromId(n);
|
|
684 |
Parent::notifier(Node()).erase(node);
|
|
685 |
nodes.pop_back();
|
|
686 |
}
|
|
687 |
}
|
|
688 |
|
|
689 |
public:
|
|
690 |
|
|
691 |
///Class to make a snapshot of the digraph and to restrore to it later.
|
|
692 |
|
|
693 |
///Class to make a snapshot of the digraph and to restrore to it later.
|
|
694 |
///
|
|
695 |
///The newly added nodes and arcs can be removed using the
|
|
696 |
///restore() function.
|
|
697 |
///
|
|
698 |
///\note After you restore a state, you cannot restore
|
|
699 |
///a later state, in other word you cannot add again the arcs deleted
|
|
700 |
///by restore() using another one Snapshot instance.
|
|
701 |
///
|
|
702 |
///\warning If you do not use correctly the snapshot that can cause
|
|
703 |
///either broken program, invalid state of the digraph, valid but
|
|
704 |
///not the restored digraph or no change. Because the runtime performance
|
|
705 |
///the validity of the snapshot is not stored.
|
|
706 |
class Snapshot
|
|
707 |
{
|
|
708 |
SmartGraph *_graph;
|
|
709 |
protected:
|
|
710 |
friend class SmartGraph;
|
|
711 |
unsigned int node_num;
|
|
712 |
unsigned int arc_num;
|
|
713 |
public:
|
|
714 |
///Default constructor.
|
|
715 |
|
|
716 |
///Default constructor.
|
|
717 |
///To actually make a snapshot you must call save().
|
|
718 |
///
|
|
719 |
Snapshot() : _graph(0) {}
|
|
720 |
///Constructor that immediately makes a snapshot
|
|
721 |
|
|
722 |
///This constructor immediately makes a snapshot of the digraph.
|
|
723 |
///\param g The digraph we make a snapshot of.
|
|
724 |
Snapshot(SmartGraph &graph) {
|
|
725 |
graph.saveSnapshot(*this);
|
|
726 |
}
|
|
727 |
|
|
728 |
///Make a snapshot.
|
|
729 |
|
|
730 |
///Make a snapshot of the graph.
|
|
731 |
///
|
|
732 |
///This function can be called more than once. In case of a repeated
|
|
733 |
///call, the previous snapshot gets lost.
|
|
734 |
///\param g The digraph we make the snapshot of.
|
|
735 |
void save(SmartGraph &graph)
|
|
736 |
{
|
|
737 |
graph.saveSnapshot(*this);
|
|
738 |
}
|
|
739 |
|
|
740 |
///Undo the changes until a snapshot.
|
|
741 |
|
|
742 |
///Undo the changes until a snapshot created by save().
|
|
743 |
///
|
|
744 |
///\note After you restored a state, you cannot restore
|
|
745 |
///a later state, in other word you cannot add again the arcs deleted
|
|
746 |
///by restore().
|
|
747 |
void restore()
|
|
748 |
{
|
|
749 |
_graph->restoreSnapshot(*this);
|
|
750 |
}
|
|
751 |
};
|
|
752 |
};
|
|
753 |
|
|
754 |
} //namespace lemon
|
|
755 |
|
|
756 |
|
|
757 |
#endif //LEMON_SMART_GRAPH_H
|