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// Copyright 1997, 1998, 1999, 2000 University of Notre Dame.
// Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
//
// 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)
//=======================================================================
//
// Revision History:
// 01 April 2001: Modified to use new <boost/limits.hpp> header. (JMaddock)
//
#ifndef BOOST_GRAPH_GRAPH_SEARCH_VISITORS_HPP
#define BOOST_GRAPH_GRAPH_SEARCH_VISITORS_HPP
#include <iosfwd>
#include <boost/config.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/mpl/bool.hpp>
#include <boost/property_map/property_map.hpp>
#include <boost/graph/graph_traits.hpp>
#include <boost/limits.hpp>
#if BOOST_WORKAROUND(BOOST_MSVC, < 1300)
// Stay out of the way of the concept checking class
# define Graph Graph_
#endif
namespace boost {
// This is a bit more convenient than std::numeric_limits because
// you don't have to explicitly provide type T.
template <class T>
inline T numeric_limits_max(T) { return (std::numeric_limits<T>::max)(); }
//========================================================================
// Event Tags
namespace detail {
// For partial specialization workaround
enum event_visitor_enum
{ on_no_event_num,
on_initialize_vertex_num, on_start_vertex_num,
on_discover_vertex_num, on_finish_vertex_num, on_examine_vertex_num,
on_examine_edge_num, on_tree_edge_num, on_non_tree_edge_num,
on_gray_target_num, on_black_target_num,
on_forward_or_cross_edge_num, on_back_edge_num,
on_edge_relaxed_num, on_edge_not_relaxed_num,
on_edge_minimized_num, on_edge_not_minimized_num
};
template<typename Event, typename Visitor>
struct functor_to_visitor : Visitor
{
typedef Event event_filter;
functor_to_visitor(const Visitor& visitor) : Visitor(visitor) {}
};
} // namespace detail
struct on_no_event { enum { num = detail::on_no_event_num }; };
struct on_initialize_vertex {
enum { num = detail::on_initialize_vertex_num }; };
struct on_start_vertex { enum { num = detail::on_start_vertex_num }; };
struct on_discover_vertex { enum { num = detail::on_discover_vertex_num }; };
struct on_examine_vertex { enum { num = detail::on_examine_vertex_num }; };
struct on_finish_vertex { enum { num = detail::on_finish_vertex_num }; };
struct on_examine_edge { enum { num = detail::on_examine_edge_num }; };
struct on_tree_edge { enum { num = detail::on_tree_edge_num }; };
struct on_non_tree_edge { enum { num = detail::on_non_tree_edge_num }; };
struct on_gray_target { enum { num = detail::on_gray_target_num }; };
struct on_black_target { enum { num = detail::on_black_target_num }; };
struct on_forward_or_cross_edge {
enum { num = detail::on_forward_or_cross_edge_num }; };
struct on_back_edge { enum { num = detail::on_back_edge_num }; };
struct on_edge_relaxed { enum { num = detail::on_edge_relaxed_num }; };
struct on_edge_not_relaxed {
enum { num = detail::on_edge_not_relaxed_num }; };
struct on_edge_minimized { enum { num = detail::on_edge_minimized_num }; };
struct on_edge_not_minimized {
enum { num = detail::on_edge_not_minimized_num }; };
//========================================================================
// base_visitor and null_visitor
// needed for MSVC workaround
template <class Visitor>
struct base_visitor {
typedef on_no_event event_filter;
template <class T, class Graph>
void operator()(T, Graph&) { }
};
struct null_visitor : public base_visitor<null_visitor> {
typedef on_no_event event_filter;
template <class T, class Graph>
void operator()(T, Graph&) { }
};
//========================================================================
// The invoke_visitors() function
namespace detail {
template <class Visitor, class T, class Graph>
inline void invoke_dispatch(Visitor& v, T x, Graph& g, mpl::true_) {
v(x, g);
}
template <class Visitor, class T, class Graph>
inline void invoke_dispatch(Visitor&, T, Graph&, mpl::false_)
{ }
} // namespace detail
template <class Visitor, class Rest, class T, class Graph, class Tag>
inline void
invoke_visitors(std::pair<Visitor, Rest>& vlist, T x, Graph& g, Tag tag) {
typedef typename Visitor::event_filter Category;
typedef typename is_same<Category, Tag>::type IsSameTag;
detail::invoke_dispatch(vlist.first, x, g, IsSameTag());
invoke_visitors(vlist.second, x, g, tag);
}
#if defined(BOOST_MSVC) && BOOST_MSVC <= 1300
template <class Visitor, class T, class Graph, class Tag>
inline void
invoke_visitors(base_visitor<Visitor>& vis, T x, Graph& g, Tag) {
typedef typename Visitor::event_filter Category;
typedef typename is_same<Category, Tag>::type IsSameTag;
Visitor& v = static_cast<Visitor&>(vis);
detail::invoke_dispatch(v, x, g, IsSameTag());
}
#else
template <class Visitor, class T, class Graph, class Tag>
inline void
invoke_visitors(Visitor& v, T x, Graph& g, Tag) {
typedef typename Visitor::event_filter Category;
typedef typename is_same<Category, Tag>::type IsSameTag;
detail::invoke_dispatch(v, x, g, IsSameTag());
}
#endif
//========================================================================
// predecessor_recorder
template <class PredecessorMap, class Tag>
struct predecessor_recorder
: public base_visitor<predecessor_recorder<PredecessorMap, Tag> >
{
typedef Tag event_filter;
predecessor_recorder(PredecessorMap pa) : m_predecessor(pa) { }
template <class Edge, class Graph>
void operator()(Edge e, const Graph& g) {
put(m_predecessor, target(e, g), source(e, g));
}
PredecessorMap m_predecessor;
};
template <class PredecessorMap, class Tag>
predecessor_recorder<PredecessorMap, Tag>
record_predecessors(PredecessorMap pa, Tag) {
return predecessor_recorder<PredecessorMap, Tag> (pa);
}
//========================================================================
// edge_predecessor_recorder
template <class PredEdgeMap, class Tag>
struct edge_predecessor_recorder
: public base_visitor<edge_predecessor_recorder<PredEdgeMap, Tag> >
{
typedef Tag event_filter;
edge_predecessor_recorder(PredEdgeMap pa) : m_predecessor(pa) { }
template <class Edge, class Graph>
void operator()(Edge e, const Graph& g) {
put(m_predecessor, target(e, g), e);
}
PredEdgeMap m_predecessor;
};
template <class PredEdgeMap, class Tag>
edge_predecessor_recorder<PredEdgeMap, Tag>
record_edge_predecessors(PredEdgeMap pa, Tag) {
return edge_predecessor_recorder<PredEdgeMap, Tag> (pa);
}
//========================================================================
// distance_recorder
template <class DistanceMap, class Tag>
struct distance_recorder
: public base_visitor<distance_recorder<DistanceMap, Tag> >
{
typedef Tag event_filter;
distance_recorder(DistanceMap pa) : m_distance(pa) { }
template <class Edge, class Graph>
void operator()(Edge e, const Graph& g) {
typename graph_traits<Graph>::vertex_descriptor
u = source(e, g), v = target(e, g);
put(m_distance, v, get(m_distance, u) + 1);
}
DistanceMap m_distance;
};
template <class DistanceMap, class Tag>
distance_recorder<DistanceMap, Tag>
record_distances(DistanceMap pa, Tag) {
return distance_recorder<DistanceMap, Tag> (pa);
}
//========================================================================
// time_stamper
template <class TimeMap, class TimeT, class Tag>
struct time_stamper
: public base_visitor<time_stamper<TimeMap, TimeT, Tag> >
{
typedef Tag event_filter;
time_stamper(TimeMap pa, TimeT& t) : m_time_pa(pa), m_time(t) { }
template <class Vertex, class Graph>
void operator()(Vertex u, const Graph&) {
put(m_time_pa, u, ++m_time);
}
TimeMap m_time_pa;
TimeT& m_time;
};
template <class TimeMap, class TimeT, class Tag>
time_stamper<TimeMap, TimeT, Tag>
stamp_times(TimeMap pa, TimeT& time_counter, Tag) {
return time_stamper<TimeMap, TimeT, Tag>(pa, time_counter);
}
//========================================================================
// property_writer
template <class PA, class OutputIterator, class Tag>
struct property_writer
: public base_visitor<property_writer<PA, OutputIterator, Tag> >
{
typedef Tag event_filter;
property_writer(PA pa, OutputIterator out) : m_pa(pa), m_out(out) { }
template <class T, class Graph>
void operator()(T x, Graph&) { *m_out++ = get(m_pa, x); }
PA m_pa;
OutputIterator m_out;
};
template <class PA, class OutputIterator, class Tag>
property_writer<PA, OutputIterator, Tag>
write_property(PA pa, OutputIterator out, Tag) {
return property_writer<PA, OutputIterator, Tag>(pa, out);
}
//========================================================================
// property_put
/**
* Functor which just sets a given value to a vertex or edge in a property map.
*/
template <typename PropertyMap, typename EventTag>
struct property_put
{
typedef EventTag event_filter;
property_put (PropertyMap property_map,
typename property_traits <PropertyMap>::value_type value) :
property_map_ (property_map), value_ (value)
{}
template <typename VertexOrEdge, typename Graph>
void operator() (VertexOrEdge v, const Graph& g)
{
put (property_map_, v, value_);
}
private:
PropertyMap property_map_;
typename property_traits <PropertyMap>::value_type value_;
};
/**
* Creates a property_put functor which just sets a given value to a vertex or edge.
*
* @param property_map Given writeable property map
* @param value Fixed value of the map
* @param tag Event Filter
* @return The functor.
*/
template <typename PropertyMap, typename EventTag>
inline property_put <PropertyMap, EventTag>
put_property (PropertyMap property_map,
typename property_traits <PropertyMap>::value_type value,
EventTag tag)
{
return property_put <PropertyMap, EventTag> (property_map, value);
}
#define BOOST_GRAPH_EVENT_STUB(Event,Kind) \
typedef ::boost::Event Event##_type; \
template<typename Visitor> \
Kind##_visitor<std::pair<detail::functor_to_visitor<Event##_type, \
Visitor>, Visitors> > \
do_##Event(Visitor visitor) \
{ \
typedef std::pair<detail::functor_to_visitor<Event##_type, Visitor>, \
Visitors> visitor_list; \
typedef Kind##_visitor<visitor_list> result_type; \
return result_type(visitor_list(visitor, m_vis)); \
}
} /* namespace boost */
#if BOOST_WORKAROUND(BOOST_MSVC, < 1300)
// Stay out of the way of the concept checking class
# undef Graph
#endif
#endif
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