540 lines
18 KiB
C++
540 lines
18 KiB
C++
// Copyright (C) 2007 Douglas Gregor
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// Use, modification and distribution is subject to the Boost Software
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// License, Version 1.0. (See 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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// Provides support for named vertices in graphs, allowing one to more
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// easily associate unique external names (URLs, city names, employee
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// ID numbers, etc.) with the vertices of a graph.
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#ifndef BOOST_GRAPH_NAMED_GRAPH_HPP
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#define BOOST_GRAPH_NAMED_GRAPH_HPP
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#include <boost/config.hpp>
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#include <boost/type_traits/remove_cv.hpp>
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#include <boost/type_traits/remove_reference.hpp>
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#include <boost/multi_index_container.hpp>
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#include <boost/multi_index/hashed_index.hpp>
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#include <boost/multi_index/member.hpp>
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#include <boost/optional.hpp>
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#include <boost/throw_exception.hpp>
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#include <stdexcept> // for std::runtime_error
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namespace boost { namespace graph {
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/*******************************************************************
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* User-customized traits *
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*******************************************************************/
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/**
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* @brief Trait used to extract the internal vertex name from a vertex
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* property.
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*
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* To enable the use of internal vertex names in a graph type,
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* specialize the @c internal_vertex_name trait for your graph
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* property (e.g., @c a City class, which stores information about the
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* vertices in a road map).
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*/
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template<typename VertexProperty>
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struct internal_vertex_name
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{
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/**
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* The @c type field provides a function object that extracts a key
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* from the @c VertexProperty. The function object type must have a
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* nested @c result_type that provides the type of the key. For
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* more information, see the @c KeyExtractor concept in the
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* Boost.MultiIndex documentation: @c type must either be @c void
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* (if @c VertexProperty does not have an internal vertex name) or
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* a model of @c KeyExtractor.
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*/
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typedef void type;
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};
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#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
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/**
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* Extract the internal vertex name from a @c property structure by
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* looking at its base.
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*/
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template<typename Tag, typename T, typename Base>
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struct internal_vertex_name<property<Tag, T, Base> >
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: internal_vertex_name<Base> { };
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#endif
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/**
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* Construct an instance of @c VertexProperty directly from its
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* name. This function object should be used within the @c
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* internal_vertex_constructor trait.
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*/
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template<typename VertexProperty>
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struct vertex_from_name
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{
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private:
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typedef typename internal_vertex_name<VertexProperty>::type extract_name_type;
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typedef typename remove_cv<
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typename remove_reference<
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typename extract_name_type::result_type>::type>::type
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vertex_name_type;
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public:
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typedef vertex_name_type argument_type;
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typedef VertexProperty result_type;
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VertexProperty operator()(const vertex_name_type& name)
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{
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return VertexProperty(name);
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}
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};
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/**
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* Throw an exception whenever one tries to construct a @c
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* VertexProperty instance from its name.
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*/
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template<typename VertexProperty>
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struct cannot_add_vertex
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{
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private:
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typedef typename internal_vertex_name<VertexProperty>::type extract_name_type;
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typedef typename remove_cv<
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typename remove_reference<
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typename extract_name_type::result_type>::type>::type
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vertex_name_type;
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public:
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typedef vertex_name_type argument_type;
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typedef VertexProperty result_type;
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VertexProperty operator()(const vertex_name_type& name)
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{
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boost::throw_exception(std::runtime_error("add_vertex: "
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"unable to create a vertex from its name"));
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}
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};
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/**
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* @brief Trait used to construct an instance of a @c VertexProperty,
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* which is a class type that stores the properties associated with a
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* vertex in a graph, from just the name of that vertex property. This
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* operation is used when an operation is required to map from a
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* vertex name to a vertex descriptor (e.g., to add an edge outgoing
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* from that vertex), but no vertex by the name exists. The function
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* object provided by this trait will be used to add new vertices
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* based only on their names. Since this cannot be done for arbitrary
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* types, the default behavior is to throw an exception when this
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* routine is called, which requires that all named vertices be added
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* before adding any edges by name.
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*/
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template<typename VertexProperty>
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struct internal_vertex_constructor
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{
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/**
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* The @c type field provides a function object that constructs a
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* new instance of @c VertexProperty from the name of the vertex (as
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* determined by @c internal_vertex_name). The function object shall
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* accept a vertex name and return a @c VertexProperty. Predefined
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* options include:
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*
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* @c vertex_from_name<VertexProperty>: construct an instance of
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* @c VertexProperty directly from the name.
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*
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* @c cannot_add_vertex<VertexProperty>: the default value, which
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* throws an @c std::runtime_error if one attempts to add a vertex
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* given just the name.
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*/
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typedef cannot_add_vertex<VertexProperty> type;
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};
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#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
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/**
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* Extract the internal vertex constructor from a @c property structure by
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* looking at its base.
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*/
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template<typename Tag, typename T, typename Base>
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struct internal_vertex_constructor<property<Tag, T, Base> >
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: internal_vertex_constructor<Base> { };
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#endif
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/*******************************************************************
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* Named graph-specific metafunctions *
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*******************************************************************/
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namespace detail {
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/** @internal
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* Extracts the type of a bundled vertex property from a vertex
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* property. The primary template matches when we have hit the end
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* of the @c property<> list.
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*/
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template<typename VertexProperty>
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struct extract_bundled_vertex
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{
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typedef VertexProperty type;
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};
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/** @internal
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* Recursively extract the bundled vertex property from a vertex
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* property.
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*/
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template<typename Tag, typename T, typename Base>
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struct extract_bundled_vertex<property<Tag, T, Base> >
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: extract_bundled_vertex<Base>
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{ };
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/**
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* We have found the bundled vertex property type, marked with
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* vertex_bundle_t.
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*/
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template<typename T, typename Base>
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struct extract_bundled_vertex<property<vertex_bundle_t, T, Base> >
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{
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typedef T type;
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};
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/**
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* Translate @c no_property into @c error_property_not_found when we
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* have failed to extract a bundled vertex property type.
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*/
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template<>
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struct extract_bundled_vertex<no_property>
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{
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typedef boost::detail::error_property_not_found type;
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};
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}
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/*******************************************************************
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* Named graph mixin *
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*******************************************************************/
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/**
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* named_graph is a mixin that provides names for the vertices of a
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* graph, including a mapping from names to vertices. Graph types that
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* may or may not be have vertex names (depending on the properties
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* supplied by the user) should use maybe_named_graph.
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*
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* Template parameters:
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*
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* Graph: the graph type that derives from named_graph
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*
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* Vertex: the type of a vertex descriptor in Graph. Note: we cannot
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* use graph_traits here, because the Graph is not yet defined.
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*
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* VertexProperty: the type stored with each vertex in the Graph.
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*/
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template<typename Graph, typename Vertex, typename VertexProperty>
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class named_graph
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{
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public:
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/// The type of the function object that extracts names from vertex
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/// properties.
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typedef typename internal_vertex_name<VertexProperty>::type extract_name_type;
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/// The type of the "bundled" property, from which the name can be
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/// extracted.
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typedef typename detail::extract_bundled_vertex<VertexProperty>::type
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bundled_vertex_property_type;
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/// The type of the function object that generates vertex properties
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/// from names, for the implicit addition of vertices.
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typedef typename internal_vertex_constructor<VertexProperty>::type
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vertex_constructor_type;
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/// The type used to name vertices in the graph
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typedef typename remove_cv<
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typename remove_reference<
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typename extract_name_type::result_type>::type>::type
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vertex_name_type;
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/// The type of vertex descriptors in the graph
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typedef Vertex vertex_descriptor;
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private:
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/// Key extractor for use with the multi_index_container
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struct extract_name_from_vertex
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{
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typedef vertex_name_type result_type;
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extract_name_from_vertex(Graph& graph, const extract_name_type& extract)
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: graph(graph), extract(extract) { }
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const result_type& operator()(Vertex vertex) const
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{
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return extract(graph[vertex]);
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}
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Graph& graph;
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extract_name_type extract;
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};
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public:
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/// The type that maps names to vertices
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typedef multi_index::multi_index_container<
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Vertex,
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multi_index::indexed_by<
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multi_index::hashed_unique<multi_index::tag<vertex_name_t>,
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extract_name_from_vertex> >
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> named_vertices_type;
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/// The set of vertices, indexed by name
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typedef typename named_vertices_type::template index<vertex_name_t>::type
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vertices_by_name_type;
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/// Construct an instance of the named graph mixin, using the given
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/// function object to extract a name from the bundled property
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/// associated with a vertex.
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named_graph(const extract_name_type& extract = extract_name_type(),
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const vertex_constructor_type& vertex_constructor
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= vertex_constructor_type());
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/// Notify the named_graph that we have added the given vertex. The
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/// name of the vertex will be added to the mapping.
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void added_vertex(Vertex vertex);
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/// Notify the named_graph that we are removing the given
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/// vertex. The name of the vertex will be removed from the mapping.
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void removing_vertex(Vertex vertex);
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/// Notify the named_graph that we are clearing the graph.
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/// This will clear out all of the name->vertex mappings
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void clearing_graph();
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/// Retrieve the derived instance
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Graph& derived() { return static_cast<Graph&>(*this); }
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const Graph& derived() const { return static_cast<const Graph&>(*this); }
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/// Extract the name from a vertex property instance
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typename extract_name_type::result_type
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extract_name(const bundled_vertex_property_type& property);
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/// Search for a vertex that has the given property (based on its
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/// name)
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optional<vertex_descriptor>
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vertex_by_property(const bundled_vertex_property_type& property);
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/// Mapping from names to vertices
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named_vertices_type named_vertices;
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/// Constructs a vertex from the name of that vertex
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vertex_constructor_type vertex_constructor;
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};
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/// Helper macro containing the template parameters of named_graph
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#define BGL_NAMED_GRAPH_PARAMS \
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typename Graph, typename Vertex, typename VertexProperty
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/// Helper macro containing the named_graph<...> instantiation
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#define BGL_NAMED_GRAPH \
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named_graph<Graph, Vertex, VertexProperty>
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template<BGL_NAMED_GRAPH_PARAMS>
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BGL_NAMED_GRAPH::named_graph(const extract_name_type& extract,
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const vertex_constructor_type& vertex_constructor)
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: named_vertices(
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typename named_vertices_type::ctor_args_list(
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boost::make_tuple(
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boost::make_tuple(
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0, // initial number of buckets
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extract_name_from_vertex(derived(), extract),
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boost::hash<vertex_name_type>(),
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std::equal_to<vertex_name_type>())))),
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vertex_constructor(vertex_constructor)
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{
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}
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template<BGL_NAMED_GRAPH_PARAMS>
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inline void BGL_NAMED_GRAPH::added_vertex(Vertex vertex)
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{
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named_vertices.insert(vertex);
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}
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template<BGL_NAMED_GRAPH_PARAMS>
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inline void BGL_NAMED_GRAPH::removing_vertex(Vertex vertex)
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{
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typedef typename BGL_NAMED_GRAPH::vertex_name_type vertex_name_type;
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const vertex_name_type& vertex_name = extract_name(derived()[vertex]);
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named_vertices.erase(vertex_name);
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}
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template<BGL_NAMED_GRAPH_PARAMS>
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inline void BGL_NAMED_GRAPH::clearing_graph()
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{
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named_vertices.clear();
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}
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template<BGL_NAMED_GRAPH_PARAMS>
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typename BGL_NAMED_GRAPH::extract_name_type::result_type
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BGL_NAMED_GRAPH::extract_name(const bundled_vertex_property_type& property)
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{
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return named_vertices.key_extractor().extract(property);
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}
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template<BGL_NAMED_GRAPH_PARAMS>
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optional<typename BGL_NAMED_GRAPH::vertex_descriptor>
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BGL_NAMED_GRAPH::
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vertex_by_property(const bundled_vertex_property_type& property)
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{
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return find_vertex(extract_name(property), *this);
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}
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/// Retrieve the vertex associated with the given name
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template<BGL_NAMED_GRAPH_PARAMS>
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optional<Vertex>
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find_vertex(typename BGL_NAMED_GRAPH::vertex_name_type const& name,
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const BGL_NAMED_GRAPH& g)
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{
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typedef typename BGL_NAMED_GRAPH::vertices_by_name_type
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vertices_by_name_type;
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// Retrieve the set of vertices indexed by name
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vertices_by_name_type const& vertices_by_name
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= g.named_vertices.template get<vertex_name_t>();
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/// Look for a vertex with the given name
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typename vertices_by_name_type::const_iterator iter
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= vertices_by_name.find(name);
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if (iter == vertices_by_name.end())
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return optional<Vertex>(); // vertex not found
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else
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return *iter;
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}
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/// Retrieve the vertex associated with the given name, or add a new
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/// vertex with that name if no such vertex is available.
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template<BGL_NAMED_GRAPH_PARAMS>
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Vertex
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add_vertex(typename BGL_NAMED_GRAPH::vertex_name_type const& name,
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BGL_NAMED_GRAPH& g)
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{
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if (optional<Vertex> vertex = find_vertex(name, g))
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/// We found the vertex, so return it
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return *vertex;
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else
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/// There is no vertex with the given name, so create one
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return add_vertex(g.vertex_constructor(name), g.derived());
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}
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/// Add an edge using vertex names to refer to the vertices
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template<BGL_NAMED_GRAPH_PARAMS>
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std::pair<typename graph_traits<Graph>::edge_descriptor, bool>
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add_edge(typename BGL_NAMED_GRAPH::vertex_name_type const& u_name,
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typename BGL_NAMED_GRAPH::vertex_name_type const& v_name,
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BGL_NAMED_GRAPH& g)
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{
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return add_edge(add_vertex(u_name, g.derived()),
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add_vertex(v_name, g.derived()),
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g.derived());
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}
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/// Add an edge using vertex descriptors or names to refer to the vertices
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template<BGL_NAMED_GRAPH_PARAMS>
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std::pair<typename graph_traits<Graph>::edge_descriptor, bool>
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add_edge(typename BGL_NAMED_GRAPH::vertex_descriptor const& u,
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typename BGL_NAMED_GRAPH::vertex_name_type const& v_name,
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BGL_NAMED_GRAPH& g)
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{
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return add_edge(u,
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add_vertex(v_name, g.derived()),
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g.derived());
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}
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/// Add an edge using vertex descriptors or names to refer to the vertices
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template<BGL_NAMED_GRAPH_PARAMS>
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std::pair<typename graph_traits<Graph>::edge_descriptor, bool>
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add_edge(typename BGL_NAMED_GRAPH::vertex_name_type const& u_name,
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typename BGL_NAMED_GRAPH::vertex_descriptor const& v,
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BGL_NAMED_GRAPH& g)
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{
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return add_edge(add_vertex(u_name, g.derived()),
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v,
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g.derived());
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}
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#undef BGL_NAMED_GRAPH
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#undef BGL_NAMED_GRAPH_PARAMS
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/*******************************************************************
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* Maybe named graph mixin *
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*******************************************************************/
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#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
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/**
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* A graph mixin that can provide a mapping from names to vertices,
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* and use that mapping to simplify creation and manipulation of
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* graphs.
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*/
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template<typename Graph, typename Vertex, typename VertexProperty,
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typename ExtractName
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= typename internal_vertex_name<VertexProperty>::type>
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struct maybe_named_graph : public named_graph<Graph, Vertex, VertexProperty>
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{
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};
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/**
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* A graph mixin that can provide a mapping from names to vertices,
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* and use that mapping to simplify creation and manipulation of
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* graphs. This partial specialization turns off this functionality
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* when the @c VertexProperty does not have an internal vertex name.
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*/
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template<typename Graph, typename Vertex, typename VertexProperty>
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struct maybe_named_graph<Graph, Vertex, VertexProperty, void>
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{
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/// The type of the "bundled" property, from which the name can be
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/// extracted.
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typedef typename detail::extract_bundled_vertex<VertexProperty>::type
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bundled_vertex_property_type;
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/// Notify the named_graph that we have added the given vertex. This
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/// is a no-op.
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void added_vertex(Vertex) { }
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/// Notify the named_graph that we are removing the given
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/// vertex. This is a no-op.
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void removing_vertex(Vertex) { }
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/// Notify the named_graph that we are clearing the graph. This is a
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/// no-op.
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void clearing_graph() { }
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/// Search for a vertex that has the given property (based on its
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/// name). This always returns an empty optional<>
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optional<Vertex>
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vertex_by_property(const bundled_vertex_property_type&)
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{
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return optional<Vertex>();
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}
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};
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#else
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template<typename Graph, typename Vertex, typename VertexProperty,
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typename ExtractName
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= typename internal_vertex_name<VertexProperty>::type>
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struct maybe_named_graph
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{
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/// The type of the "bundled" property, from which the name can be
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/// extracted.
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typedef typename detail::extract_bundled_vertex<VertexProperty>::type
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bundled_vertex_property_type;
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/// Notify the named_graph that we have added the given vertex. This
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/// is a no-op.
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void added_vertex(Vertex) { }
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/// Notify the named_graph that we are removing the given
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/// vertex. This is a no-op.
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void removing_vertex(Vertex) { }
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/// Notify the named_graph that we are clearing the graph. This is a
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/// no-op.
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void clearing_graph() { }
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|
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/// Search for a vertex that has the given property (based on its
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|
/// name). This always returns an empty optional<>
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|
template<typename Property>
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|
optional<Vertex>
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|
vertex_by_property(const bundled_vertex_property_type&)
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|
{
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|
return optional<Vertex>();
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|
}
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|
};
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#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
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|
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} } // end namespace boost::graph
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#endif // BOOST_GRAPH_NAMED_GRAPH_HPP
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