boost/graph/adjacency_list.hpp
//=======================================================================
// Copyright 1997, 1998, 1999, 2000 University of Notre Dame.
// Copyright 2010 Thomas Claveirole
// Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek, Thomas Claveirole
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//=======================================================================
#ifndef BOOST_GRAPH_ADJACENCY_LIST_HPP
#define BOOST_GRAPH_ADJACENCY_LIST_HPP
#include <boost/config.hpp>
#include <vector>
#include <list>
#include <set>
#include <boost/unordered_set.hpp>
#if !defined BOOST_NO_SLIST
# ifdef BOOST_SLIST_HEADER
# include BOOST_SLIST_HEADER
# else
# include <slist>
# endif
#endif
#include <boost/scoped_ptr.hpp>
#include <boost/graph/graph_traits.hpp>
#include <boost/graph/graph_mutability_traits.hpp>
#include <boost/graph/graph_selectors.hpp>
#include <boost/property_map/property_map.hpp>
#include <boost/mpl/if.hpp>
#include <boost/mpl/and.hpp>
#include <boost/mpl/not.hpp>
#include <boost/mpl/bool.hpp>
#include <boost/graph/detail/edge.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/detail/workaround.hpp>
#include <boost/graph/properties.hpp>
#include <boost/graph/named_graph.hpp>
namespace boost {
//===========================================================================
// Selectors for the VertexList and EdgeList template parameters of
// adjacency_list, and the container_gen traits class which is used
// to map the selectors to the container type used to implement the
// graph.
//
// The main container_gen traits class uses partial specialization,
// so we also include a workaround.
#if !defined BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
#if !defined BOOST_NO_SLIST
struct slistS {};
#endif
struct vecS { };
struct listS { };
struct setS { };
struct mapS { };
struct multisetS { };
struct multimapS { };
struct hash_setS { };
struct hash_mapS { };
struct hash_multisetS { };
struct hash_multimapS { };
template <class Selector, class ValueType>
struct container_gen { };
template <class ValueType>
struct container_gen<listS, ValueType> {
typedef std::list<ValueType> type;
};
#if !defined BOOST_NO_SLIST
template <class ValueType>
struct container_gen<slistS, ValueType> {
typedef BOOST_STD_EXTENSION_NAMESPACE::slist<ValueType> type;
};
#endif
template <class ValueType>
struct container_gen<vecS, ValueType> {
typedef std::vector<ValueType> type;
};
template <class ValueType>
struct container_gen<mapS, ValueType> {
typedef std::set<ValueType> type;
};
template <class ValueType>
struct container_gen<setS, ValueType> {
typedef std::set<ValueType> type;
};
template <class ValueType>
struct container_gen<multisetS, ValueType> {
typedef std::multiset<ValueType> type;
};
template <class ValueType>
struct container_gen<multimapS, ValueType> {
typedef std::multiset<ValueType> type;
};
template <class ValueType>
struct container_gen<hash_setS, ValueType> {
typedef boost::unordered_set<ValueType> type;
};
template <class ValueType>
struct container_gen<hash_mapS, ValueType> {
typedef boost::unordered_set<ValueType> type;
};
template <class ValueType>
struct container_gen<hash_multisetS, ValueType> {
typedef boost::unordered_multiset<ValueType> type;
};
template <class ValueType>
struct container_gen<hash_multimapS, ValueType> {
typedef boost::unordered_multiset<ValueType> type;
};
#else // !defined BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
#if !defined BOOST_NO_SLIST
struct slistS {
template <class T>
struct bind_ { typedef BOOST_STD_EXTENSION_NAMESPACE::slist<T> type; };
};
#endif
struct vecS {
template <class T>
struct bind_ { typedef std::vector<T> type; };
};
struct listS {
template <class T>
struct bind_ { typedef std::list<T> type; };
};
struct setS {
template <class T>
struct bind_ { typedef std::set<T, std::less<T> > type; };
};
struct mapS {
template <class T>
struct bind_ { typedef std::set<T, std::less<T> > type; };
};
struct multisetS {
template <class T>
struct bind_ { typedef std::multiset<T, std::less<T> > type; };
};
struct multimapS {
template <class T>
struct bind_ { typedef std::multiset<T, std::less<T> > type; };
};
struct hash_setS {
template <class T>
struct bind_ { typedef boost::unordered_set<T> type; };
};
struct hash_mapS {
template <class T>
struct bind_ { typedef boost::unordered_set<T> type; };
};
struct hash_multisetS {
template <class T>
struct bind_ { typedef boost::unordered_multiset<T> type; };
};
struct hash_multimapS {
template <class T>
struct bind_ { typedef boost::unordered_multiset<T> type; };
};
template <class Selector> struct container_selector {
typedef vecS type;
};
#define BOOST_CONTAINER_SELECTOR(NAME) \
template <> struct container_selector<NAME> { \
typedef NAME type; \
}
BOOST_CONTAINER_SELECTOR(vecS);
BOOST_CONTAINER_SELECTOR(listS);
BOOST_CONTAINER_SELECTOR(mapS);
BOOST_CONTAINER_SELECTOR(setS);
BOOST_CONTAINER_SELECTOR(multisetS);
BOOST_CONTAINER_SELECTOR(hash_mapS);
#if !defined BOOST_NO_SLIST
BOOST_CONTAINER_SELECTOR(slistS);
#endif
template <class Selector, class ValueType>
struct container_gen {
typedef typename container_selector<Selector>::type Select;
typedef typename Select:: template bind_<ValueType>::type type;
};
#endif // !defined BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
template <class StorageSelector>
struct parallel_edge_traits { };
template <>
struct parallel_edge_traits<vecS> {
typedef allow_parallel_edge_tag type; };
template <>
struct parallel_edge_traits<listS> {
typedef allow_parallel_edge_tag type; };
#if !defined BOOST_NO_SLIST
template <>
struct parallel_edge_traits<slistS> {
typedef allow_parallel_edge_tag type; };
#endif
template <>
struct parallel_edge_traits<setS> {
typedef disallow_parallel_edge_tag type; };
template <>
struct parallel_edge_traits<multisetS> {
typedef allow_parallel_edge_tag type; };
template <>
struct parallel_edge_traits<hash_setS> {
typedef disallow_parallel_edge_tag type;
};
// mapS is obsolete, replaced with setS
template <>
struct parallel_edge_traits<mapS> {
typedef disallow_parallel_edge_tag type; };
template <>
struct parallel_edge_traits<hash_mapS> {
typedef disallow_parallel_edge_tag type;
};
template <>
struct parallel_edge_traits<hash_multisetS> {
typedef allow_parallel_edge_tag type;
};
template <>
struct parallel_edge_traits<hash_multimapS> {
typedef allow_parallel_edge_tag type;
};
namespace detail {
template <class Directed> struct is_random_access {
enum { value = false};
typedef mpl::false_ type;
};
template <>
struct is_random_access<vecS> {
enum { value = true };
typedef mpl::true_ type;
};
} // namespace detail
//===========================================================================
// The adjacency_list_traits class, which provides a way to access
// some of the associated types of an adjacency_list type without
// having to first create the adjacency_list type. This is useful
// when trying to create interior vertex or edge properties who's
// value type is a vertex or edge descriptor.
template <class OutEdgeListS = vecS,
class VertexListS = vecS,
class DirectedS = directedS,
class EdgeListS = listS>
struct adjacency_list_traits
{
typedef typename detail::is_random_access<VertexListS>::type
is_rand_access;
typedef typename DirectedS::is_bidir_t is_bidir;
typedef typename DirectedS::is_directed_t is_directed;
typedef typename mpl::if_<is_bidir,
bidirectional_tag,
typename mpl::if_<is_directed,
directed_tag, undirected_tag
>::type
>::type directed_category;
typedef typename parallel_edge_traits<OutEdgeListS>::type
edge_parallel_category;
typedef std::size_t vertices_size_type;
typedef void* vertex_ptr;
typedef typename mpl::if_<is_rand_access,
vertices_size_type, vertex_ptr>::type vertex_descriptor;
typedef detail::edge_desc_impl<directed_category, vertex_descriptor>
edge_descriptor;
private:
// Logic to figure out the edges_size_type
struct dummy {};
typedef typename container_gen<EdgeListS, dummy>::type EdgeContainer;
typedef typename DirectedS::is_bidir_t BidirectionalT;
typedef typename DirectedS::is_directed_t DirectedT;
typedef typename mpl::and_<DirectedT,
typename mpl::not_<BidirectionalT>::type >::type on_edge_storage;
public:
typedef typename mpl::if_<on_edge_storage,
std::size_t, typename EdgeContainer::size_type
>::type edges_size_type;
};
} // namespace boost
#include <boost/graph/detail/adjacency_list.hpp>
namespace boost {
//===========================================================================
// The adjacency_list class.
//
template <class OutEdgeListS = vecS, // a Sequence or an AssociativeContainer
class VertexListS = vecS, // a Sequence or a RandomAccessContainer
class DirectedS = directedS,
class VertexProperty = no_property,
class EdgeProperty = no_property,
class GraphProperty = no_property,
class EdgeListS = listS>
class adjacency_list
: public detail::adj_list_gen<
adjacency_list<OutEdgeListS,VertexListS,DirectedS,
VertexProperty,EdgeProperty,GraphProperty,EdgeListS>,
VertexListS, OutEdgeListS, DirectedS,
#if !defined(BOOST_GRAPH_NO_BUNDLED_PROPERTIES)
typename detail::retag_property_list<vertex_bundle_t,
VertexProperty>::type,
typename detail::retag_property_list<edge_bundle_t, EdgeProperty>::type,
#else
VertexProperty, EdgeProperty,
#endif
GraphProperty, EdgeListS>::type,
// Support for named vertices
public graph::maybe_named_graph<
adjacency_list<OutEdgeListS,VertexListS,DirectedS,
VertexProperty,EdgeProperty,GraphProperty,EdgeListS>,
typename adjacency_list_traits<OutEdgeListS, VertexListS, DirectedS,
EdgeListS>::vertex_descriptor,
VertexProperty>
{
public:
#if !defined(BOOST_GRAPH_NO_BUNDLED_PROPERTIES)
typedef typename graph_detail::graph_prop<GraphProperty>::property graph_property_type;
typedef typename graph_detail::graph_prop<GraphProperty>::bundle graph_bundled;
typedef typename graph_detail::vertex_prop<VertexProperty>::property vertex_property_type;
typedef typename graph_detail::vertex_prop<VertexProperty>::bundle vertex_bundled;
typedef typename graph_detail::edge_prop<EdgeProperty>::property edge_property_type;
typedef typename graph_detail::edge_prop<EdgeProperty>::bundle edge_bundled;
#else
typedef GraphProperty graph_property_type;
typedef no_graph_bundle graph_bundled;
typedef VertexProperty vertex_property_type;
typedef no_vertex_bundle vertex_bundled;
typedef EdgeProperty edge_property_type;
typedef no_edge_bundle edge_bundled;
#endif
private:
typedef adjacency_list self;
typedef typename detail::adj_list_gen<
self, VertexListS, OutEdgeListS, DirectedS,
vertex_property_type, edge_property_type, GraphProperty, EdgeListS
>::type Base;
public:
typedef typename Base::stored_vertex stored_vertex;
typedef typename Base::vertices_size_type vertices_size_type;
typedef typename Base::edges_size_type edges_size_type;
typedef typename Base::degree_size_type degree_size_type;
typedef typename Base::vertex_descriptor vertex_descriptor;
typedef typename Base::edge_descriptor edge_descriptor;
typedef OutEdgeListS out_edge_list_selector;
typedef VertexListS vertex_list_selector;
typedef DirectedS directed_selector;
typedef EdgeListS edge_list_selector;
adjacency_list(const GraphProperty& p = GraphProperty())
: m_property(new graph_property_type(p))
{ }
adjacency_list(const adjacency_list& x)
: Base(x), m_property(new graph_property_type(*x.m_property))
{ }
adjacency_list& operator=(const adjacency_list& x) {
// TBD: probably should give the strong guarantee
if (&x != this) {
Base::operator=(x);
// Copy/swap the ptr since we can't just assign it...
property_ptr p(new graph_property_type(*x.m_property));
m_property.swap(p);
}
return *this;
}
// Required by Mutable Graph
adjacency_list(vertices_size_type num_vertices,
const GraphProperty& p = GraphProperty())
: Base(num_vertices), m_property(new graph_property_type(p))
{ }
#if !defined(BOOST_MSVC) || BOOST_MSVC >= 1300
// Required by Iterator Constructible Graph
template <class EdgeIterator>
adjacency_list(EdgeIterator first, EdgeIterator last,
vertices_size_type n,
edges_size_type = 0,
const GraphProperty& p = GraphProperty())
: Base(n, first, last), m_property(new graph_property_type(p))
{ }
template <class EdgeIterator, class EdgePropertyIterator>
adjacency_list(EdgeIterator first, EdgeIterator last,
EdgePropertyIterator ep_iter,
vertices_size_type n,
edges_size_type = 0,
const GraphProperty& p = GraphProperty())
: Base(n, first, last, ep_iter), m_property(new graph_property_type(p))
{ }
#endif
void swap(adjacency_list& x) {
// Is there a more efficient way to do this?
adjacency_list tmp(x);
x = *this;
*this = tmp;
}
void clear()
{
this->clearing_graph();
Base::clear();
}
#ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES
// Directly access a vertex or edge bundle
vertex_bundled& operator[](vertex_descriptor v)
{ return get(vertex_bundle, *this)[v]; }
const vertex_bundled& operator[](vertex_descriptor v) const
{ return get(vertex_bundle, *this)[v]; }
edge_bundled& operator[](edge_descriptor e)
{ return get(edge_bundle, *this)[e]; }
const edge_bundled& operator[](edge_descriptor e) const
{ return get(edge_bundle, *this)[e]; }
graph_bundled& operator[](graph_bundle_t)
{ return get_property(*this); }
graph_bundled const& operator[](graph_bundle_t) const
{ return get_property(*this); }
#endif
// protected: (would be protected if friends were more portable)
typedef scoped_ptr<graph_property_type> property_ptr;
property_ptr m_property;
};
#define ADJLIST_PARAMS \
typename OEL, typename VL, typename D, typename VP, typename EP, \
typename GP, typename EL
#define ADJLIST adjacency_list<OEL,VL,D,VP,EP,GP,EL>
template<ADJLIST_PARAMS, typename Tag, typename Value>
inline void set_property(ADJLIST& g, Tag tag, Value const& value) {
get_property_value(*g.m_property, tag) = value;
}
template<ADJLIST_PARAMS, typename Tag>
inline typename graph_property<ADJLIST, Tag>::type&
get_property(ADJLIST& g, Tag tag) {
return get_property_value(*g.m_property, tag);
}
template<ADJLIST_PARAMS, typename Tag>
inline typename graph_property<ADJLIST, Tag>::type const&
get_property(ADJLIST const& g, Tag tag) {
return get_property_value(*g.m_property, tag);
}
// dwa 09/25/00 - needed to be more explicit so reverse_graph would work.
template <class Directed, class Vertex,
class OutEdgeListS,
class VertexListS,
class DirectedS,
class VertexProperty,
class EdgeProperty,
class GraphProperty, class EdgeListS>
inline Vertex
source(const detail::edge_base<Directed,Vertex>& e,
const adjacency_list<OutEdgeListS, VertexListS, DirectedS,
VertexProperty, EdgeProperty, GraphProperty, EdgeListS>&)
{
return e.m_source;
}
template <class Directed, class Vertex, class OutEdgeListS,
class VertexListS, class DirectedS, class VertexProperty,
class EdgeProperty, class GraphProperty, class EdgeListS>
inline Vertex
target(const detail::edge_base<Directed,Vertex>& e,
const adjacency_list<OutEdgeListS, VertexListS, DirectedS,
VertexProperty, EdgeProperty, GraphProperty, EdgeListS>&)
{
return e.m_target;
}
// Support for bundled properties
#ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES
template<typename OutEdgeListS, typename VertexListS, typename DirectedS, typename VertexProperty,
typename EdgeProperty, typename GraphProperty, typename EdgeListS, typename T, typename Bundle>
inline
typename property_map<adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS>, T Bundle::*>::type
get(T Bundle::* p, adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS>& g)
{
typedef typename property_map<adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty,
EdgeProperty, GraphProperty, EdgeListS>, T Bundle::*>::type
result_type;
return result_type(&g, p);
}
template<typename OutEdgeListS, typename VertexListS, typename DirectedS, typename VertexProperty,
typename EdgeProperty, typename GraphProperty, typename EdgeListS, typename T, typename Bundle>
inline
typename property_map<adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS>, T Bundle::*>::const_type
get(T Bundle::* p, adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS> const & g)
{
typedef typename property_map<adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty,
EdgeProperty, GraphProperty, EdgeListS>, T Bundle::*>::const_type
result_type;
return result_type(&g, p);
}
template<typename OutEdgeListS, typename VertexListS, typename DirectedS, typename VertexProperty,
typename EdgeProperty, typename GraphProperty, typename EdgeListS, typename T, typename Bundle,
typename Key>
inline T
get(T Bundle::* p, adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS> const & g, const Key& key)
{
return get(get(p, g), key);
}
template<typename OutEdgeListS, typename VertexListS, typename DirectedS, typename VertexProperty,
typename EdgeProperty, typename GraphProperty, typename EdgeListS, typename T, typename Bundle,
typename Key>
inline void
put(T Bundle::* p, adjacency_list<OutEdgeListS, VertexListS, DirectedS, VertexProperty, EdgeProperty,
GraphProperty, EdgeListS>& g, const Key& key, const T& value)
{
put(get(p, g), key, value);
}
#endif
// Mutability Traits
template <ADJLIST_PARAMS>
struct graph_mutability_traits<ADJLIST> {
typedef mutable_property_graph_tag category;
};
// Can't remove vertices from adjacency lists with VL==vecS
template <typename OEL, typename D, typename VP, typename EP, typename GP, typename EL>
struct graph_mutability_traits< adjacency_list<OEL,vecS,D,VP,EP,GP,EL> > {
typedef add_only_property_graph_tag category;
};
#undef ADJLIST_PARAMS
#undef ADJLIST
} // namespace boost
#endif // BOOST_GRAPH_ADJACENCY_LIST_HPP