620 lines
20 KiB
C++
620 lines
20 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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// Copyright 2009, Andrew Sutton
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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_CONCEPTS_HPP
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#define BOOST_GRAPH_CONCEPTS_HPP
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#include <boost/config.hpp>
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#include <boost/property_map/property_map.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/graph/numeric_values.hpp>
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#include <boost/graph/buffer_concepts.hpp>
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#include <boost/concept_check.hpp>
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#include <boost/type_traits/is_same.hpp>
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#include <boost/mpl/not.hpp>
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#include <boost/static_assert.hpp>
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#include <boost/detail/workaround.hpp>
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#include <boost/concept/assert.hpp>
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#include <boost/concept/detail/concept_def.hpp>
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namespace boost
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{
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// dwa 2003/7/11 -- This clearly shouldn't be necessary, but if
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// you want to use vector_as_graph, it is! I'm sure the graph
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// library leaves these out all over the place. Probably a
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// redesign involving specializing a template with a static
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// member function is in order :(
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//
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// It is needed in order to allow us to write using boost::vertices as
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// needed for ADL when using vector_as_graph below.
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#if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP) \
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&& !BOOST_WORKAROUND(__GNUC__, <= 2) \
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&& !BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
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# define BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK
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#endif
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#ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK
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template <class T>
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typename T::ThereReallyIsNoMemberByThisNameInT vertices(T const&);
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#endif
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namespace concepts {
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BOOST_concept(MultiPassInputIterator,(T)) {
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BOOST_CONCEPT_USAGE(MultiPassInputIterator) {
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BOOST_CONCEPT_ASSERT((InputIterator<T>));
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}
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};
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BOOST_concept(Graph,(G))
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{
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typedef typename graph_traits<G>::vertex_descriptor vertex_descriptor;
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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typedef typename graph_traits<G>::directed_category directed_category;
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typedef typename graph_traits<G>::edge_parallel_category edge_parallel_category;
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typedef typename graph_traits<G>::traversal_category traversal_category;
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BOOST_CONCEPT_USAGE(Graph)
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{
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BOOST_CONCEPT_ASSERT((DefaultConstructible<vertex_descriptor>));
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BOOST_CONCEPT_ASSERT((EqualityComparable<vertex_descriptor>));
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BOOST_CONCEPT_ASSERT((Assignable<vertex_descriptor>));
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}
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G g;
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};
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BOOST_concept(IncidenceGraph,(G))
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: Graph<G>
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{
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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typedef typename graph_traits<G>::out_edge_iterator out_edge_iterator;
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typedef typename graph_traits<G>::degree_size_type degree_size_type;
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typedef typename graph_traits<G>::traversal_category traversal_category;
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<out_edge_iterator, void> >::value));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<degree_size_type, void> >::value));
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BOOST_CONCEPT_USAGE(IncidenceGraph) {
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BOOST_CONCEPT_ASSERT((MultiPassInputIterator<out_edge_iterator>));
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BOOST_CONCEPT_ASSERT((DefaultConstructible<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((EqualityComparable<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((Assignable<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((Convertible<traversal_category,
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incidence_graph_tag>));
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p = out_edges(u, g);
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n = out_degree(u, g);
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e = *p.first;
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u = source(e, g);
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v = target(e, g);
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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p = out_edges(u, cg);
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n = out_degree(u, cg);
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e = *p.first;
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u = source(e, cg);
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v = target(e, cg);
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}
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std::pair<out_edge_iterator, out_edge_iterator> p;
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typename graph_traits<G>::vertex_descriptor u, v;
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typename graph_traits<G>::edge_descriptor e;
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typename graph_traits<G>::degree_size_type n;
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G g;
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};
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BOOST_concept(BidirectionalGraph,(G))
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: IncidenceGraph<G>
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{
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typedef typename graph_traits<G>::in_edge_iterator
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in_edge_iterator;
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typedef typename graph_traits<G>::traversal_category
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traversal_category;
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BOOST_CONCEPT_USAGE(BidirectionalGraph) {
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BOOST_CONCEPT_ASSERT((MultiPassInputIterator<in_edge_iterator>));
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BOOST_CONCEPT_ASSERT((Convertible<traversal_category,
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bidirectional_graph_tag>));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<in_edge_iterator, void> >::value));
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p = in_edges(v, g);
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n = in_degree(v, g);
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e = *p.first;
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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p = in_edges(v, cg);
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n = in_degree(v, cg);
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e = *p.first;
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}
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std::pair<in_edge_iterator, in_edge_iterator> p;
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typename graph_traits<G>::vertex_descriptor v;
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typename graph_traits<G>::edge_descriptor e;
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typename graph_traits<G>::degree_size_type n;
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G g;
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};
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BOOST_concept(AdjacencyGraph,(G))
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: Graph<G>
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{
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typedef typename graph_traits<G>::adjacency_iterator
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adjacency_iterator;
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typedef typename graph_traits<G>::traversal_category
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traversal_category;
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BOOST_CONCEPT_USAGE(AdjacencyGraph) {
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BOOST_CONCEPT_ASSERT((MultiPassInputIterator<adjacency_iterator>));
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BOOST_CONCEPT_ASSERT((Convertible<traversal_category,
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adjacency_graph_tag>));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<adjacency_iterator, void> >::value));
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p = adjacent_vertices(v, g);
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v = *p.first;
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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p = adjacent_vertices(v, cg);
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}
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std::pair<adjacency_iterator,adjacency_iterator> p;
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typename graph_traits<G>::vertex_descriptor v;
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G g;
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};
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BOOST_concept(VertexListGraph,(G))
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: Graph<G>
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{
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typedef typename graph_traits<G>::vertex_iterator vertex_iterator;
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typedef typename graph_traits<G>::vertices_size_type vertices_size_type;
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typedef typename graph_traits<G>::traversal_category
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traversal_category;
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BOOST_CONCEPT_USAGE(VertexListGraph) {
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BOOST_CONCEPT_ASSERT((MultiPassInputIterator<vertex_iterator>));
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BOOST_CONCEPT_ASSERT((Convertible<traversal_category,
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vertex_list_graph_tag>));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<vertex_iterator, void> >::value));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<vertices_size_type, void> >::value));
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#ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK
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// dwa 2003/7/11 -- This clearly shouldn't be necessary, but if
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// you want to use vector_as_graph, it is! I'm sure the graph
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// library leaves these out all over the place. Probably a
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// redesign involving specializing a template with a static
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// member function is in order :(
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using boost::vertices;
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#endif
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p = vertices(g);
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v = *p.first;
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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#ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK
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// dwa 2003/7/11 -- This clearly shouldn't be necessary, but if
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// you want to use vector_as_graph, it is! I'm sure the graph
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// library leaves these out all over the place. Probably a
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// redesign involving specializing a template with a static
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// member function is in order :(
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using boost::vertices;
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#endif
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p = vertices(cg);
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v = *p.first;
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V = num_vertices(cg);
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}
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std::pair<vertex_iterator,vertex_iterator> p;
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typename graph_traits<G>::vertex_descriptor v;
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G g;
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vertices_size_type V;
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};
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BOOST_concept(EdgeListGraph,(G))
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: Graph<G>
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{
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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typedef typename graph_traits<G>::edge_iterator edge_iterator;
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typedef typename graph_traits<G>::edges_size_type edges_size_type;
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typedef typename graph_traits<G>::traversal_category
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traversal_category;
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BOOST_CONCEPT_USAGE(EdgeListGraph) {
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BOOST_CONCEPT_ASSERT((MultiPassInputIterator<edge_iterator>));
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BOOST_CONCEPT_ASSERT((DefaultConstructible<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((EqualityComparable<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((Assignable<edge_descriptor>));
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BOOST_CONCEPT_ASSERT((Convertible<traversal_category,
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edge_list_graph_tag>));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<edge_iterator, void> >::value));
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BOOST_STATIC_ASSERT((boost::mpl::not_<boost::is_same<edges_size_type, void> >::value));
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p = edges(g);
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e = *p.first;
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u = source(e, g);
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v = target(e, g);
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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p = edges(cg);
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E = num_edges(cg);
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e = *p.first;
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u = source(e, cg);
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v = target(e, cg);
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}
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std::pair<edge_iterator,edge_iterator> p;
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typename graph_traits<G>::vertex_descriptor u, v;
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typename graph_traits<G>::edge_descriptor e;
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edges_size_type E;
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G g;
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};
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BOOST_concept(VertexAndEdgeListGraph,(G))
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: VertexListGraph<G>
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, EdgeListGraph<G>
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{
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};
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// Where to put the requirement for this constructor?
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// G g(n_vertices);
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// Not in mutable graph, then LEDA graph's can't be models of
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// MutableGraph.
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BOOST_concept(EdgeMutableGraph,(G))
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{
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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BOOST_CONCEPT_USAGE(EdgeMutableGraph) {
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p = add_edge(u, v, g);
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remove_edge(u, v, g);
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remove_edge(e, g);
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clear_vertex(v, g);
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}
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G g;
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edge_descriptor e;
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std::pair<edge_descriptor, bool> p;
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typename graph_traits<G>::vertex_descriptor u, v;
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};
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BOOST_concept(VertexMutableGraph,(G))
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{
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BOOST_CONCEPT_USAGE(VertexMutableGraph) {
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v = add_vertex(g);
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remove_vertex(v, g);
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}
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G g;
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typename graph_traits<G>::vertex_descriptor u, v;
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};
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BOOST_concept(MutableGraph,(G))
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: EdgeMutableGraph<G>
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, VertexMutableGraph<G>
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{
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};
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template <class edge_descriptor>
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struct dummy_edge_predicate {
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bool operator()(const edge_descriptor&) const {
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return false;
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}
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};
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BOOST_concept(MutableIncidenceGraph,(G))
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: MutableGraph<G>
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{
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BOOST_CONCEPT_USAGE(MutableIncidenceGraph) {
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remove_edge(iter, g);
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remove_out_edge_if(u, p, g);
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}
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G g;
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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dummy_edge_predicate<edge_descriptor> p;
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typename boost::graph_traits<G>::vertex_descriptor u;
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typename boost::graph_traits<G>::out_edge_iterator iter;
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};
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BOOST_concept(MutableBidirectionalGraph,(G))
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: MutableIncidenceGraph<G>
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{
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BOOST_CONCEPT_USAGE(MutableBidirectionalGraph)
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{
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remove_in_edge_if(u, p, g);
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}
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G g;
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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dummy_edge_predicate<edge_descriptor> p;
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typename boost::graph_traits<G>::vertex_descriptor u;
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};
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BOOST_concept(MutableEdgeListGraph,(G))
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: EdgeMutableGraph<G>
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{
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BOOST_CONCEPT_USAGE(MutableEdgeListGraph) {
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remove_edge_if(p, g);
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}
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G g;
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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dummy_edge_predicate<edge_descriptor> p;
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};
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BOOST_concept(VertexMutablePropertyGraph,(G))
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: VertexMutableGraph<G>
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{
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BOOST_CONCEPT_USAGE(VertexMutablePropertyGraph) {
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v = add_vertex(vp, g);
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}
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G g;
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typename graph_traits<G>::vertex_descriptor v;
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typename vertex_property_type<G>::type vp;
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};
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BOOST_concept(EdgeMutablePropertyGraph,(G))
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: EdgeMutableGraph<G>
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{
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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BOOST_CONCEPT_USAGE(EdgeMutablePropertyGraph) {
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p = add_edge(u, v, ep, g);
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}
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G g;
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std::pair<edge_descriptor, bool> p;
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typename graph_traits<G>::vertex_descriptor u, v;
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typename edge_property_type<G>::type ep;
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};
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BOOST_concept(AdjacencyMatrix,(G))
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: Graph<G>
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{
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typedef typename graph_traits<G>::edge_descriptor edge_descriptor;
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BOOST_CONCEPT_USAGE(AdjacencyMatrix) {
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p = edge(u, v, g);
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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p = edge(u, v, cg);
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}
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typename graph_traits<G>::vertex_descriptor u, v;
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std::pair<edge_descriptor, bool> p;
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G g;
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};
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BOOST_concept(ReadablePropertyGraph,(G)(X)(Property))
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: Graph<G>
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{
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typedef typename property_map<G, Property>::const_type const_Map;
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BOOST_CONCEPT_USAGE(ReadablePropertyGraph)
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{
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BOOST_CONCEPT_ASSERT((ReadablePropertyMapConcept<const_Map, X>));
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const_constraints(g);
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}
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void const_constraints(const G& cg) {
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const_Map pmap = get(Property(), cg);
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pval = get(Property(), cg, x);
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ignore_unused_variable_warning(pmap);
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}
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G g;
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X x;
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typename property_traits<const_Map>::value_type pval;
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};
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BOOST_concept(PropertyGraph,(G)(X)(Property))
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: ReadablePropertyGraph<G, X, Property>
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{
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typedef typename property_map<G, Property>::type Map;
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BOOST_CONCEPT_USAGE(PropertyGraph) {
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BOOST_CONCEPT_ASSERT((ReadWritePropertyMapConcept<Map, X>));
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Map pmap = get(Property(), g);
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pval = get(Property(), g, x);
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put(Property(), g, x, pval);
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ignore_unused_variable_warning(pmap);
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}
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G g;
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X x;
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typename property_traits<Map>::value_type pval;
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};
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BOOST_concept(LvaluePropertyGraph,(G)(X)(Property))
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: ReadablePropertyGraph<G, X, Property>
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{
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typedef typename property_map<G, Property>::type Map;
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typedef typename property_map<G, Property>::const_type const_Map;
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BOOST_CONCEPT_USAGE(LvaluePropertyGraph) {
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BOOST_CONCEPT_ASSERT((LvaluePropertyMapConcept<const_Map, X>));
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pval = get(Property(), g, x);
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put(Property(), g, x, pval);
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}
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G g;
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X x;
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typename property_traits<Map>::value_type pval;
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};
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// The *IndexGraph concepts are "semantic" graph concpepts. These can be
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// applied to describe any graph that has an index map that can be accessed
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// using the get(*_index, g) method. For example, adjacency lists with
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// VertexSet == vecS are implicitly models of this concept.
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//
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// NOTE: We could require an associated type vertex_index_type, but that
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// would mean propagating that type name into graph_traits and all of the
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// other graph implementations. Much easier to simply call it unsigned.
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BOOST_concept(VertexIndexGraph,(Graph))
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{
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BOOST_CONCEPT_USAGE(VertexIndexGraph)
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{
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typedef typename graph_traits<Graph>::vertex_descriptor Vertex;
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typedef typename property_map<Graph, vertex_index_t>::type Map;
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typedef unsigned Index; // This could be Graph::vertex_index_type
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Map m = get(vertex_index, g);
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Index x = get(vertex_index, g, Vertex());
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ignore_unused_variable_warning(m);
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ignore_unused_variable_warning(x);
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// This is relaxed
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renumber_vertex_indices(g);
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const_constraints(g);
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}
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void const_constraints(const Graph& g)
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{
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typedef typename property_map<Graph, vertex_index_t>::const_type Map;
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Map m = get(vertex_index, g);
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ignore_unused_variable_warning(m);
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}
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private:
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Graph g;
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};
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BOOST_concept(EdgeIndexGraph,(Graph))
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{
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BOOST_CONCEPT_USAGE(EdgeIndexGraph)
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{
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typedef typename graph_traits<Graph>::edge_descriptor Edge;
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typedef typename property_map<Graph, edge_index_t>::type Map;
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typedef unsigned Index; // This could be Graph::vertex_index_type
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Map m = get(edge_index, g);
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Index x = get(edge_index, g, Edge());
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ignore_unused_variable_warning(m);
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ignore_unused_variable_warning(x);
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// This is relaxed
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renumber_edge_indices(g);
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const_constraints(g);
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}
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void const_constraints(const Graph& g)
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{
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typedef typename property_map<Graph, edge_index_t>::const_type Map;
|
|
Map m = get(edge_index, g);
|
|
ignore_unused_variable_warning(m);
|
|
}
|
|
private:
|
|
Graph g;
|
|
};
|
|
|
|
BOOST_concept(ColorValue,(C))
|
|
: EqualityComparable<C>
|
|
, DefaultConstructible<C>
|
|
{
|
|
BOOST_CONCEPT_USAGE(ColorValue) {
|
|
c = color_traits<C>::white();
|
|
c = color_traits<C>::gray();
|
|
c = color_traits<C>::black();
|
|
}
|
|
C c;
|
|
};
|
|
|
|
BOOST_concept(BasicMatrix,(M)(I)(V))
|
|
{
|
|
BOOST_CONCEPT_USAGE(BasicMatrix) {
|
|
V& elt = A[i][j];
|
|
const_constraints(A);
|
|
ignore_unused_variable_warning(elt);
|
|
}
|
|
void const_constraints(const M& cA) {
|
|
const V& elt = cA[i][j];
|
|
ignore_unused_variable_warning(elt);
|
|
}
|
|
M A;
|
|
I i, j;
|
|
};
|
|
|
|
// The following concepts describe aspects of numberic values and measure
|
|
// functions. We're extending the notion of numeric values to include
|
|
// emulation for zero and infinity.
|
|
|
|
BOOST_concept(NumericValue,(Numeric))
|
|
{
|
|
BOOST_CONCEPT_USAGE(NumericValue)
|
|
{
|
|
BOOST_CONCEPT_ASSERT(( DefaultConstructible<Numeric> ));
|
|
BOOST_CONCEPT_ASSERT(( CopyConstructible<Numeric> ));
|
|
numeric_values<Numeric>::zero();
|
|
numeric_values<Numeric>::infinity();
|
|
}
|
|
};
|
|
|
|
BOOST_concept(DegreeMeasure,(Measure)(Graph))
|
|
{
|
|
BOOST_CONCEPT_USAGE(DegreeMeasure)
|
|
{
|
|
typedef typename Measure::degree_type Degree;
|
|
typedef typename Measure::vertex_type Vertex;
|
|
|
|
Degree d = m(Vertex(), g);
|
|
ignore_unused_variable_warning(d);
|
|
}
|
|
private:
|
|
Measure m;
|
|
Graph g;
|
|
};
|
|
|
|
BOOST_concept(DistanceMeasure,(Measure)(Graph))
|
|
{
|
|
BOOST_CONCEPT_USAGE(DistanceMeasure)
|
|
{
|
|
typedef typename Measure::distance_type Distance;
|
|
typedef typename Measure::result_type Result;
|
|
Result r = m(Distance(), g);
|
|
ignore_unused_variable_warning(r);
|
|
}
|
|
private:
|
|
Measure m;
|
|
Graph g;
|
|
};
|
|
|
|
} /* namespace concepts */
|
|
|
|
using boost::concepts::MultiPassInputIteratorConcept;
|
|
|
|
// Graph concepts
|
|
using boost::concepts::GraphConcept;
|
|
using boost::concepts::IncidenceGraphConcept;
|
|
using boost::concepts::BidirectionalGraphConcept;
|
|
using boost::concepts::AdjacencyGraphConcept;
|
|
using boost::concepts::VertexListGraphConcept;
|
|
using boost::concepts::EdgeListGraphConcept;
|
|
using boost::concepts::VertexAndEdgeListGraphConcept;
|
|
using boost::concepts::EdgeMutableGraphConcept;
|
|
using boost::concepts::VertexMutableGraphConcept;
|
|
using boost::concepts::MutableGraphConcept;
|
|
using boost::concepts::MutableIncidenceGraphConcept;
|
|
using boost::concepts::MutableBidirectionalGraphConcept;
|
|
using boost::concepts::MutableEdgeListGraphConcept;
|
|
using boost::concepts::VertexMutablePropertyGraphConcept;
|
|
using boost::concepts::EdgeMutablePropertyGraphConcept;
|
|
using boost::concepts::AdjacencyMatrixConcept;
|
|
using boost::concepts::ReadablePropertyGraphConcept;
|
|
using boost::concepts::PropertyGraphConcept;
|
|
using boost::concepts::LvaluePropertyGraphConcept;
|
|
using boost::concepts::VertexIndexGraphConcept;
|
|
using boost::concepts::EdgeIndexGraphConcept;
|
|
|
|
// Utility concepts
|
|
using boost::concepts::ColorValueConcept;
|
|
using boost::concepts::BasicMatrixConcept;
|
|
using boost::concepts::NumericValueConcept;
|
|
using boost::concepts::DistanceMeasureConcept;
|
|
using boost::concepts::DegreeMeasureConcept;
|
|
|
|
|
|
} /* namespace boost */
|
|
#include <boost/concept/detail/concept_undef.hpp>
|
|
|
|
#endif /* BOOST_GRAPH_CONCEPTS_H */
|