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479 lines
16 KiB
C++
479 lines
16 KiB
C++
//
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//=======================================================================
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// Copyright 1997, 1998, 1999, 2000 University of Notre Dame.
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// Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
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//
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//=======================================================================
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//
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#ifndef BOOST_GRAPH_UTILITY_HPP
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#define BOOST_GRAPH_UTILITY_HPP
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#include <stdlib.h>
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#include <iostream>
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#include <algorithm>
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#include <assert.h>
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#include <boost/config.hpp>
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#include <boost/tuple/tuple.hpp>
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#include <boost/graph/graph_traits.hpp>
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#include <boost/graph/properties.hpp>
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#include <boost/pending/container_traits.hpp>
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#include <boost/graph/depth_first_search.hpp>
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// iota moved to detail/algorithm.hpp
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#include <boost/detail/algorithm.hpp>
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namespace boost {
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// Provide an undirected graph interface alternative to the
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// the source() and target() edge functions.
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template <class UndirectedGraph>
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inline
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std::pair<typename graph_traits<UndirectedGraph>::vertex_descriptor,
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typename graph_traits<UndirectedGraph>::vertex_descriptor>
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incident(typename graph_traits<UndirectedGraph>::edge_descriptor e,
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UndirectedGraph& g)
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{
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return std::make_pair(source(e,g), target(e,g));
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}
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// Provide an undirected graph interface alternative
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// to the out_edges() function.
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template <class Graph>
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inline
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std::pair<typename graph_traits<Graph>::out_edge_iterator,
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typename graph_traits<Graph>::out_edge_iterator>
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incident_edges(typename graph_traits<Graph>::vertex_descriptor u,
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Graph& g)
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{
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return out_edges(u, g);
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}
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template <class Graph>
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inline typename graph_traits<Graph>::vertex_descriptor
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opposite(typename graph_traits<Graph>::edge_descriptor e,
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typename graph_traits<Graph>::vertex_descriptor v,
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const Graph& g)
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{
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typedef typename graph_traits<Graph>::vertex_descriptor vertex_descriptor;
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if (v == source(e, g))
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return target(e, g);
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else if (v == target(e, g))
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return source(e, g);
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else
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return vertex_descriptor();
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}
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//===========================================================================
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// Some handy predicates
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template <typename Vertex, typename Graph>
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struct incident_from_predicate {
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incident_from_predicate(Vertex u, const Graph& g)
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: m_u(u), m_g(g) { }
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template <class Edge>
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bool operator()(const Edge& e) const {
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return source(e, m_g) == m_u;
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}
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Vertex m_u;
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const Graph& m_g;
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};
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template <typename Vertex, typename Graph>
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inline incident_from_predicate<Vertex, Graph>
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incident_from(Vertex u, const Graph& g) {
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return incident_from_predicate<Vertex, Graph>(u, g);
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}
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template <typename Vertex, typename Graph>
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struct incident_to_predicate {
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incident_to_predicate(Vertex u, const Graph& g)
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: m_u(u), m_g(g) { }
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template <class Edge>
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bool operator()(const Edge& e) const {
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return target(e, m_g) == m_u;
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}
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Vertex m_u;
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const Graph& m_g;
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};
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template <typename Vertex, typename Graph>
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inline incident_to_predicate<Vertex, Graph>
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incident_to(Vertex u, const Graph& g) {
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return incident_to_predicate<Vertex, Graph>(u, g);
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}
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template <typename Vertex, typename Graph>
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struct incident_on_predicate {
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incident_on_predicate(Vertex u, const Graph& g)
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: m_u(u), m_g(g) { }
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template <class Edge>
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bool operator()(const Edge& e) const {
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return source(e, m_g) == m_u || target(e, m_g) == m_u;
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}
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Vertex m_u;
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const Graph& m_g;
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};
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template <typename Vertex, typename Graph>
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inline incident_on_predicate<Vertex, Graph>
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incident_on(Vertex u, const Graph& g) {
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return incident_on_predicate<Vertex, Graph>(u, g);
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}
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template <typename Vertex, typename Graph>
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struct connects_predicate {
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connects_predicate(Vertex u, Vertex v, const Graph& g)
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: m_u(u), m_v(v), m_g(g) { }
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template <class Edge>
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bool operator()(const Edge& e) const {
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if (is_directed(m_g))
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return source(e, m_g) == m_u && target(e, m_g) == m_v;
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else
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return (source(e, m_g) == m_u && target(e, m_g) == m_v)
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|| (source(e, m_g) == m_v && target(e, m_g) == m_u);
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}
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Vertex m_u, m_v;
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const Graph& m_g;
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};
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template <typename Vertex, typename Graph>
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inline connects_predicate<Vertex, Graph>
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connects(Vertex u, Vertex v, const Graph& g) {
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return connects_predicate<Vertex, Graph>(u, v, g);
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}
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// Need to convert all of these printing functions to take an ostream object
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// -JGS
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template <class IncidenceGraph, class Name>
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void print_in_edges(const IncidenceGraph& G, Name name, std::ostream& os = std::cout)
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{
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typename graph_traits<IncidenceGraph>::vertex_iterator ui,ui_end;
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for (boost::tie(ui,ui_end) = vertices(G); ui != ui_end; ++ui) {
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os << get(name,*ui) << " <-- ";
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typename graph_traits<IncidenceGraph>
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::in_edge_iterator ei, ei_end;
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for(boost::tie(ei,ei_end) = in_edges(*ui,G); ei != ei_end; ++ei)
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os << get(name,source(*ei,G)) << " ";
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os << '\n';
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}
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}
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template <class IncidenceGraph, class Name>
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void print_graph_dispatch(const IncidenceGraph& G, Name name, directed_tag, std::ostream& os = std::cout)
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{
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typename graph_traits<IncidenceGraph>::vertex_iterator ui,ui_end;
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for (boost::tie(ui,ui_end) = vertices(G); ui != ui_end; ++ui) {
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os << get(name,*ui) << " --> ";
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typename graph_traits<IncidenceGraph>
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::out_edge_iterator ei, ei_end;
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for(boost::tie(ei,ei_end) = out_edges(*ui,G); ei != ei_end; ++ei)
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os << get(name,target(*ei,G)) << " ";
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os << '\n';
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}
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}
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template <class IncidenceGraph, class Name>
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void print_graph_dispatch(const IncidenceGraph& G, Name name, undirected_tag, std::ostream& os = std::cout)
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{
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typename graph_traits<IncidenceGraph>::vertex_iterator ui,ui_end;
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for (boost::tie(ui,ui_end) = vertices(G); ui != ui_end; ++ui) {
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os << get(name,*ui) << " <--> ";
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typename graph_traits<IncidenceGraph>
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::out_edge_iterator ei, ei_end;
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for(boost::tie(ei,ei_end) = out_edges(*ui,G); ei != ei_end; ++ei)
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os << get(name,target(*ei,G)) << " ";
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os << '\n';
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}
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}
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template <class IncidenceGraph, class Name>
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void print_graph(const IncidenceGraph& G, Name name, std::ostream& os = std::cout)
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{
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typedef typename graph_traits<IncidenceGraph>
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::directed_category Cat;
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print_graph_dispatch(G, name, Cat(), os);
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}
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template <class IncidenceGraph>
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void print_graph(const IncidenceGraph& G, std::ostream& os = std::cout) {
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print_graph(G, get(vertex_index, G), os);
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}
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template <class EdgeListGraph, class Name>
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void print_edges(const EdgeListGraph& G, Name name, std::ostream& os = std::cout)
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{
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typename graph_traits<EdgeListGraph>::edge_iterator ei, ei_end;
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for (boost::tie(ei, ei_end) = edges(G); ei != ei_end; ++ei)
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os << "(" << get(name, source(*ei, G))
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<< "," << get(name, target(*ei, G)) << ") ";
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os << '\n';
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}
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template <class EdgeListGraph, class VertexName, class EdgeName>
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void print_edges2(const EdgeListGraph& G, VertexName vname, EdgeName ename, std::ostream& os = std::cout)
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{
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typename graph_traits<EdgeListGraph>::edge_iterator ei, ei_end;
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for (boost::tie(ei, ei_end) = edges(G); ei != ei_end; ++ei)
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os << get(ename, *ei) << "(" << get(vname, source(*ei, G))
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<< "," << get(vname, target(*ei, G)) << ") ";
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os << '\n';
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}
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template <class VertexListGraph, class Name>
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void print_vertices(const VertexListGraph& G, Name name, std::ostream& os = std::cout)
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{
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typename graph_traits<VertexListGraph>::vertex_iterator vi,vi_end;
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for (boost::tie(vi,vi_end) = vertices(G); vi != vi_end; ++vi)
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os << get(name,*vi) << " ";
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os << '\n';
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}
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template <class Graph, class Vertex>
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bool is_adj_dispatch(Graph& g, Vertex a, Vertex b, bidirectional_tag)
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{
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typename graph_traits<Graph>::adjacency_iterator vi, viend,
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adj_found;
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boost::tie(vi, viend) = adjacent_vertices(a, g);
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adj_found = std::find(vi, viend, b);
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if (adj_found == viend)
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return false;
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typename graph_traits<Graph>::out_edge_iterator oi, oiend,
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out_found;
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boost::tie(oi, oiend) = out_edges(a, g);
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out_found = std::find_if(oi, oiend, incident_to(b, g));
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if (out_found == oiend)
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return false;
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typename graph_traits<Graph>::in_edge_iterator ii, iiend,
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in_found;
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boost::tie(ii, iiend) = in_edges(b, g);
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in_found = std::find_if(ii, iiend, incident_from(a, g));
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if (in_found == iiend)
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return false;
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return true;
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}
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template <class Graph, class Vertex>
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bool is_adj_dispatch(Graph& g, Vertex a, Vertex b, directed_tag)
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{
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typename graph_traits<Graph>::adjacency_iterator vi, viend, found;
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boost::tie(vi, viend) = adjacent_vertices(a, g);
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found = std::find(vi, viend, b);
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if ( found == viend )
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return false;
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typename graph_traits<Graph>::out_edge_iterator oi, oiend,
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out_found;
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boost::tie(oi, oiend) = out_edges(a, g);
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out_found = std::find_if(oi, oiend, incident_to(b, g));
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if (out_found == oiend)
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return false;
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return true;
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}
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template <class Graph, class Vertex>
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bool is_adj_dispatch(Graph& g, Vertex a, Vertex b, undirected_tag)
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{
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return is_adj_dispatch(g, a, b, directed_tag());
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}
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template <class Graph, class Vertex>
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bool is_adjacent(Graph& g, Vertex a, Vertex b) {
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typedef typename graph_traits<Graph>::directed_category Cat;
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return is_adj_dispatch(g, a, b, Cat());
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}
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template <class Graph, class Edge>
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bool in_edge_set(Graph& g, Edge e)
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{
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typename Graph::edge_iterator ei, ei_end, found;
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boost::tie(ei, ei_end) = edges(g);
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found = std::find(ei, ei_end, e);
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return found != ei_end;
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}
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template <class Graph, class Vertex>
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bool in_vertex_set(Graph& g, Vertex v)
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{
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typename Graph::vertex_iterator vi, vi_end, found;
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boost::tie(vi, vi_end) = vertices(g);
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found = std::find(vi, vi_end, v);
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return found != vi_end;
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}
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template <class Graph, class Vertex>
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bool in_edge_set(Graph& g, Vertex u, Vertex v)
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{
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typename Graph::edge_iterator ei, ei_end;
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for (boost::tie(ei,ei_end) = edges(g); ei != ei_end; ++ei)
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if (source(*ei,g) == u && target(*ei,g) == v)
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return true;
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return false;
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}
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// is x a descendant of y?
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template <typename ParentMap>
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inline bool is_descendant
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(typename property_traits<ParentMap>::value_type x,
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typename property_traits<ParentMap>::value_type y,
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ParentMap parent)
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{
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if (get(parent, x) == x) // x is the root of the tree
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return false;
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else if (get(parent, x) == y)
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return true;
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else
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return is_descendant(get(parent, x), y, parent);
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}
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// is y reachable from x?
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template <typename IncidenceGraph, typename VertexColorMap>
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inline bool is_reachable
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(typename graph_traits<IncidenceGraph>::vertex_descriptor x,
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typename graph_traits<IncidenceGraph>::vertex_descriptor y,
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const IncidenceGraph& g,
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VertexColorMap color) // should start out white for every vertex
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{
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typedef typename property_traits<VertexColorMap>::value_type ColorValue;
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dfs_visitor<> vis;
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depth_first_visit(g, x, vis, color);
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return get(color, y) != color_traits<ColorValue>::white();
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}
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// Is the undirected graph connected?
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// Is the directed graph strongly connected?
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template <typename VertexListGraph, typename VertexColorMap>
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inline bool is_connected(const VertexListGraph& g, VertexColorMap color)
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{
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typedef typename property_traits<VertexColorMap>::value_type ColorValue;
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typedef color_traits<ColorValue> Color;
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typename graph_traits<VertexListGraph>::vertex_iterator
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ui, ui_end, vi, vi_end, ci, ci_end;
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for (boost::tie(ui, ui_end) = vertices(g); ui != ui_end; ++ui)
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for (boost::tie(vi, vi_end) = vertices(g); vi != vi_end; ++vi)
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if (*ui != *vi) {
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for (boost::tie(ci, ci_end) = vertices(g); ci != ci_end; ++ci)
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put(color, *ci, Color::white());
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if (! is_reachable(*ui, *vi, g, color))
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return false;
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}
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return true;
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}
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template <typename Graph>
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bool is_self_loop
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(typename graph_traits<Graph>::edge_descriptor e,
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const Graph& g)
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{
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return source(e, g) == target(e, g);
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}
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template <class T1, class T2>
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std::pair<T1,T2>
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make_list(const T1& t1, const T2& t2)
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{ return std::make_pair(t1, t2); }
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template <class T1, class T2, class T3>
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std::pair<T1,std::pair<T2,T3> >
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make_list(const T1& t1, const T2& t2, const T3& t3)
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{ return std::make_pair(t1, std::make_pair(t2, t3)); }
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template <class T1, class T2, class T3, class T4>
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std::pair<T1,std::pair<T2,std::pair<T3,T4> > >
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make_list(const T1& t1, const T2& t2, const T3& t3, const T4& t4)
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{ return std::make_pair(t1, std::make_pair(t2, std::make_pair(t3, t4))); }
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template <class T1, class T2, class T3, class T4, class T5>
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std::pair<T1,std::pair<T2,std::pair<T3,std::pair<T4,T5> > > >
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make_list(const T1& t1, const T2& t2, const T3& t3, const T4& t4, const T5& t5)
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{ return std::make_pair(t1, std::make_pair(t2, std::make_pair(t3, std::make_pair(t4, t5)))); }
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namespace graph {
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// Functor for remove_parallel_edges: edge property of the removed edge is added to the remaining
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template <typename EdgeProperty>
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struct add_removed_edge_property
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{
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add_removed_edge_property(EdgeProperty ep) : ep(ep) {}
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template <typename Edge>
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void operator() (Edge stay, Edge away)
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{
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put(ep, stay, get(ep, stay) + get(ep, away));
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}
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EdgeProperty ep;
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};
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// Same as above: edge property is capacity here
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template <typename Graph>
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struct add_removed_edge_capacity
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: add_removed_edge_property<typename property_map<Graph, edge_capacity_t>::type>
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{
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typedef add_removed_edge_property<typename property_map<Graph, edge_capacity_t>::type> base;
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add_removed_edge_capacity(Graph& g) : base(get(edge_capacity, g)) {}
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};
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template <typename Graph>
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bool has_no_vertices(const Graph& g) {
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typedef typename boost::graph_traits<Graph>::vertex_iterator vi;
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std::pair<vi, vi> p = vertices(g);
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return (p.first == p.second);
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}
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template <typename Graph>
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bool has_no_edges(const Graph& g) {
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typedef typename boost::graph_traits<Graph>::edge_iterator ei;
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std::pair<ei, ei> p = edges(g);
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return (p.first == p.second);
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}
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template <typename Graph>
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bool has_no_out_edges(const typename boost::graph_traits<Graph>::vertex_descriptor& v, const Graph& g) {
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typedef typename boost::graph_traits<Graph>::out_edge_iterator ei;
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std::pair<ei, ei> p = out_edges(v, g);
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return (p.first == p.second);
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}
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} // namespace graph
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#include <boost/graph/iteration_macros.hpp>
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template <class PropertyIn, class PropertyOut, class Graph>
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void copy_vertex_property(PropertyIn p_in, PropertyOut p_out, Graph& g)
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{
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BGL_FORALL_VERTICES_T(u, g, Graph)
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put(p_out, u, get(p_in, g));
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}
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template <class PropertyIn, class PropertyOut, class Graph>
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void copy_edge_property(PropertyIn p_in, PropertyOut p_out, Graph& g)
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{
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BGL_FORALL_EDGES_T(e, g, Graph)
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put(p_out, e, get(p_in, g));
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}
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// Return true if property_map1 and property_map2 differ
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// for any of the vertices in graph.
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template <typename PropertyMapFirst,
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typename PropertyMapSecond,
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typename Graph>
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bool are_property_maps_different
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(const PropertyMapFirst property_map1,
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const PropertyMapSecond property_map2,
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const Graph& graph) {
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BGL_FORALL_VERTICES_T(vertex, graph, Graph) {
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if (get(property_map1, vertex) !=
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get(property_map2, vertex)) {
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return (true);
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}
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}
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return (false);
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}
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} /* namespace boost */
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#endif /* BOOST_GRAPH_UTILITY_HPP*/
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