path: root/boost/graph/named_function_params.hpp

//=======================================================================
// 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)
//=======================================================================

#ifndef BOOST_GRAPH_NAMED_FUNCTION_PARAMS_HPP
#define BOOST_GRAPH_NAMED_FUNCTION_PARAMS_HPP

#include <functional>
#include <vector>
#include <boost/ref.hpp>
#include <boost/parameter/name.hpp>
#include <boost/parameter/binding.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/mpl/not.hpp>
#include <boost/type_traits/add_reference.hpp>
#include <boost/graph/properties.hpp>
#include <boost/graph/detail/d_ary_heap.hpp>
#include <boost/property_map/property_map.hpp>
#include <boost/property_map/shared_array_property_map.hpp>

namespace boost {

  struct parity_map_t { };
  struct vertex_assignment_map_t { };
  struct distance_compare_t { };
  struct distance_combine_t { };
  struct distance_inf_t { };
  struct distance_zero_t { };
  struct buffer_param_t { };
  struct edge_copy_t { };
  struct vertex_copy_t { };
  struct vertex_isomorphism_t { };
  struct vertex_invariant_t { };
  struct vertex_invariant1_t { };
  struct vertex_invariant2_t { };
  struct edge_compare_t { };
  struct vertex_max_invariant_t { };
  struct orig_to_copy_t { };
  struct root_vertex_t { };
  struct polling_t { };
  struct lookahead_t { };
  struct in_parallel_t { };
  struct attractive_force_t { };
  struct repulsive_force_t { };
  struct force_pairs_t { };
  struct cooling_t { };
  struct vertex_displacement_t { };
  struct iterations_t { };
  struct diameter_range_t { };
  struct learning_constant_range_t { };
  struct vertices_equivalent_t { };
  struct edges_equivalent_t { };
  struct index_in_heap_map_t { };
  struct max_priority_queue_t { };

#define BOOST_BGL_DECLARE_NAMED_PARAMS \
    BOOST_BGL_ONE_PARAM_CREF(weight_map, edge_weight) \
    BOOST_BGL_ONE_PARAM_CREF(weight_map2, edge_weight2) \
    BOOST_BGL_ONE_PARAM_CREF(distance_map, vertex_distance) \
    BOOST_BGL_ONE_PARAM_CREF(predecessor_map, vertex_predecessor) \
    BOOST_BGL_ONE_PARAM_CREF(rank_map, vertex_rank) \
    BOOST_BGL_ONE_PARAM_CREF(root_map, vertex_root) \
    BOOST_BGL_ONE_PARAM_CREF(root_vertex, root_vertex) \
    BOOST_BGL_ONE_PARAM_CREF(edge_centrality_map, edge_centrality) \
    BOOST_BGL_ONE_PARAM_CREF(centrality_map, vertex_centrality) \
    BOOST_BGL_ONE_PARAM_CREF(parity_map, parity_map) \
    BOOST_BGL_ONE_PARAM_CREF(color_map, vertex_color) \
    BOOST_BGL_ONE_PARAM_CREF(edge_color_map, edge_color) \
    BOOST_BGL_ONE_PARAM_CREF(capacity_map, edge_capacity) \
    BOOST_BGL_ONE_PARAM_CREF(residual_capacity_map, edge_residual_capacity) \
    BOOST_BGL_ONE_PARAM_CREF(reverse_edge_map, edge_reverse) \
    BOOST_BGL_ONE_PARAM_CREF(discover_time_map, vertex_discover_time) \
    BOOST_BGL_ONE_PARAM_CREF(lowpoint_map, vertex_lowpoint) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_index_map, vertex_index) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_index1_map, vertex_index1) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_index2_map, vertex_index2) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_assignment_map, vertex_assignment_map) \
    BOOST_BGL_ONE_PARAM_CREF(visitor, graph_visitor) \
    BOOST_BGL_ONE_PARAM_CREF(distance_compare, distance_compare) \
    BOOST_BGL_ONE_PARAM_CREF(distance_combine, distance_combine) \
    BOOST_BGL_ONE_PARAM_CREF(distance_inf, distance_inf) \
    BOOST_BGL_ONE_PARAM_CREF(distance_zero, distance_zero) \
    BOOST_BGL_ONE_PARAM_CREF(edge_copy, edge_copy) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_copy, vertex_copy) \
    BOOST_BGL_ONE_PARAM_REF(buffer, buffer_param) \
    BOOST_BGL_ONE_PARAM_CREF(orig_to_copy, orig_to_copy) \
    BOOST_BGL_ONE_PARAM_CREF(isomorphism_map, vertex_isomorphism) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_invariant, vertex_invariant) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_invariant1, vertex_invariant1) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_invariant2, vertex_invariant2) \
    BOOST_BGL_ONE_PARAM_CREF(vertex_max_invariant, vertex_max_invariant) \
    BOOST_BGL_ONE_PARAM_CREF(polling, polling) \
    BOOST_BGL_ONE_PARAM_CREF(lookahead, lookahead) \
    BOOST_BGL_ONE_PARAM_CREF(in_parallel, in_parallel) \
    BOOST_BGL_ONE_PARAM_CREF(displacement_map, vertex_displacement) \
    BOOST_BGL_ONE_PARAM_CREF(attractive_force, attractive_force) \
    BOOST_BGL_ONE_PARAM_CREF(repulsive_force, repulsive_force) \
    BOOST_BGL_ONE_PARAM_CREF(force_pairs, force_pairs) \
    BOOST_BGL_ONE_PARAM_CREF(cooling, cooling) \
    BOOST_BGL_ONE_PARAM_CREF(iterations, iterations) \
    BOOST_BGL_ONE_PARAM_CREF(diameter_range, diameter_range) \
    BOOST_BGL_ONE_PARAM_CREF(learning_constant_range, learning_constant_range) \
    BOOST_BGL_ONE_PARAM_CREF(vertices_equivalent, vertices_equivalent) \
    BOOST_BGL_ONE_PARAM_CREF(edges_equivalent, edges_equivalent) \
    BOOST_BGL_ONE_PARAM_CREF(index_in_heap_map, index_in_heap_map) \
    BOOST_BGL_ONE_PARAM_REF(max_priority_queue, max_priority_queue)

  template <typename T, typename Tag, typename Base = no_property>
  struct bgl_named_params : public Base
  {
    typedef bgl_named_params self;
    typedef Base next_type;
    typedef Tag tag_type;
    typedef T value_type;
    bgl_named_params(T v = T()) : m_value(v) { }
    bgl_named_params(T v, const Base& b) : Base(b), m_value(v) { }
    T m_value;

#define BOOST_BGL_ONE_PARAM_REF(name, key) \
    template <typename PType> \
    bgl_named_params<boost::reference_wrapper<PType>, BOOST_PP_CAT(key, _t), self> \
    name(PType& p) const { \
      typedef bgl_named_params<boost::reference_wrapper<PType>, BOOST_PP_CAT(key, _t), self> Params; \
      return Params(boost::ref(p), *this); \
    } \

#define BOOST_BGL_ONE_PARAM_CREF(name, key) \
    template <typename PType> \
    bgl_named_params<PType, BOOST_PP_CAT(key, _t), self> \
    name(const PType& p) const { \
      typedef bgl_named_params<PType, BOOST_PP_CAT(key, _t), self> Params; \
      return Params(p, *this); \
    } \

BOOST_BGL_DECLARE_NAMED_PARAMS

#undef BOOST_BGL_ONE_PARAM_REF
#undef BOOST_BGL_ONE_PARAM_CREF

    // Duplicate
    template <typename PType>
    bgl_named_params<PType, vertex_color_t, self>
    vertex_color_map(const PType& p) const {return this->color_map(p);}
  };

#define BOOST_BGL_ONE_PARAM_REF(name, key) \
    template <typename PType> \
    bgl_named_params<boost::reference_wrapper<PType>, BOOST_PP_CAT(key, _t)> \
    name(PType& p) { \
      typedef bgl_named_params<boost::reference_wrapper<PType>, BOOST_PP_CAT(key, _t)> Params; \
      return Params(boost::ref(p)); \
    } \

#define BOOST_BGL_ONE_PARAM_CREF(name, key) \
    template <typename PType> \
    bgl_named_params<PType, BOOST_PP_CAT(key, _t)> \
    name(const PType& p) { \
      typedef bgl_named_params<PType, BOOST_PP_CAT(key, _t)> Params; \
      return Params(p); \
    } \

BOOST_BGL_DECLARE_NAMED_PARAMS

#undef BOOST_BGL_ONE_PARAM_REF
#undef BOOST_BGL_ONE_PARAM_CREF

  // Duplicate
  template <typename PType>
  bgl_named_params<PType, vertex_color_t>
  vertex_color_map(const PType& p) {return color_map(p);}

  namespace detail {
    struct unused_tag_type {};
  }
  typedef bgl_named_params<char, detail::unused_tag_type> no_named_parameters;

  //===========================================================================
  // Functions for extracting parameters from bgl_named_params

  template <class Tag1, class Tag2, class T1, class Base>
  inline
  typename property_value< bgl_named_params<T1,Tag1,Base>, Tag2>::type
  get_param(const bgl_named_params<T1,Tag1,Base>& p, Tag2 tag2)
  {
    enum { match = detail::same_property<Tag1,Tag2>::value };
    typedef typename
      property_value< bgl_named_params<T1,Tag1,Base>, Tag2>::type T2;
    T2* t2 = 0;
    typedef detail::property_value_dispatch<match> Dispatcher;
    return Dispatcher::const_get_value(p, t2, tag2);
  }


  namespace detail {
    // MSVC++ workaround
    template <class Param>
    struct choose_param_helper {
      template <class Default> struct result { typedef Param type; };
      template <typename Default>
      static const Param& apply(const Param& p, const Default&) { return p; }
    };
    template <>
    struct choose_param_helper<error_property_not_found> {
      template <class Default> struct result { typedef Default type; };
      template <typename Default>
      static const Default& apply(const error_property_not_found&, const Default& d)
        { return d; }
    };
  } // namespace detail

  template <class P, class Default> 
  const typename detail::choose_param_helper<P>::template result<Default>::type&
  choose_param(const P& param, const Default& d) { 
    return detail::choose_param_helper<P>::apply(param, d);
  }

  template <typename T>
  inline bool is_default_param(const T&) { return false; }

  inline bool is_default_param(const detail::error_property_not_found&)
    { return true; }

  namespace detail {

    struct choose_parameter {
      template <class P, class Graph, class Tag>
      struct bind_ {
        typedef const P& const_result_type;
        typedef const P& result_type;
        typedef P type;
      };

      template <class P, class Graph, class Tag>
      static typename bind_<P, Graph, Tag>::const_result_type
      const_apply(const P& p, const Graph&, Tag&) 
      { return p; }

      template <class P, class Graph, class Tag>
      static typename bind_<P, Graph, Tag>::result_type
      apply(const P& p, Graph&, Tag&) 
      { return p; }
    };

    struct choose_default_param {
      template <class P, class Graph, class Tag>
      struct bind_ {
        typedef typename property_map<Graph, Tag>::type 
          result_type;
        typedef typename property_map<Graph, Tag>::const_type 
          const_result_type;
        typedef typename property_map<Graph, Tag>::const_type 
          type;
      };

      template <class P, class Graph, class Tag>
      static typename bind_<P, Graph, Tag>::const_result_type
      const_apply(const P&, const Graph& g, Tag tag) { 
        return get(tag, g); 
      }
      template <class P, class Graph, class Tag>
      static typename bind_<P, Graph, Tag>::result_type
      apply(const P&, Graph& g, Tag tag) { 
        return get(tag, g); 
      }
    };

    template <class Param>
    struct choose_property_map {
      typedef choose_parameter type;
    };
    template <>
    struct choose_property_map<detail::error_property_not_found> {
      typedef choose_default_param type;
    };

    template <class Param, class Graph, class Tag>
    struct choose_pmap_helper {
      typedef typename choose_property_map<Param>::type Selector;
      typedef typename Selector:: template bind_<Param, Graph, Tag> Bind;
      typedef Bind type;
      typedef typename Bind::result_type result_type;
      typedef typename Bind::const_result_type const_result_type;
      typedef typename Bind::type result;
    };

    // used in the max-flow algorithms
    template <class Graph, class P, class T, class R>
    struct edge_capacity_value
    {
      typedef bgl_named_params<P, T, R> Params;
      typedef typename property_value< Params, edge_capacity_t>::type Param;
      typedef typename detail::choose_pmap_helper<Param, Graph,
        edge_capacity_t>::result CapacityEdgeMap;
      typedef typename property_traits<CapacityEdgeMap>::value_type type;
    };

  } // namespace detail
  

  // Use this function instead of choose_param() when you want
  // to avoid requiring get(tag, g) when it is not used. 
  template <typename Param, typename Graph, typename PropertyTag>
  typename
    detail::choose_pmap_helper<Param,Graph,PropertyTag>::const_result_type
  choose_const_pmap(const Param& p, const Graph& g, PropertyTag tag)
  { 
    typedef typename 
      detail::choose_pmap_helper<Param,Graph,PropertyTag>::Selector Choice;
    return Choice::const_apply(p, g, tag);
  }

  template <typename Param, typename Graph, typename PropertyTag>
  typename detail::choose_pmap_helper<Param,Graph,PropertyTag>::result_type
  choose_pmap(const Param& p, Graph& g, PropertyTag tag)
  { 
    typedef typename 
      detail::choose_pmap_helper<Param,Graph,PropertyTag>::Selector Choice;
    return Choice::apply(p, g, tag);
  }

  // Declare all new tags
  namespace graph {
    namespace keywords {
#define BOOST_BGL_ONE_PARAM_REF(name, key) BOOST_PARAMETER_NAME(name)
#define BOOST_BGL_ONE_PARAM_CREF(name, key) BOOST_PARAMETER_NAME(name)
      BOOST_BGL_DECLARE_NAMED_PARAMS
#undef BOOST_BGL_ONE_PARAM_REF
#undef BOOST_BGL_ONE_PARAM_CREF
    }
  }

  namespace detail {
    template <typename Tag> struct convert_one_keyword {};
#define BOOST_BGL_ONE_PARAM_REF(name, key) \
    template <> \
    struct convert_one_keyword<BOOST_PP_CAT(key, _t)> { \
      typedef boost::graph::keywords::tag::name type; \
    };
#define BOOST_BGL_ONE_PARAM_CREF(name, key) BOOST_BGL_ONE_PARAM_REF(name, key)
    BOOST_BGL_DECLARE_NAMED_PARAMS
#undef BOOST_BGL_ONE_PARAM_REF
#undef BOOST_BGL_ONE_PARAM_CREF

    template <typename T>
    struct convert_bgl_params_to_boost_parameter {
      typedef typename convert_one_keyword<typename T::tag_type>::type new_kw;
      typedef boost::parameter::aux::tagged_argument<new_kw, const typename T::value_type> tagged_arg_type;
      typedef convert_bgl_params_to_boost_parameter<typename T::next_type> rest_conv;
      typedef boost::parameter::aux::arg_list<tagged_arg_type, typename rest_conv::type> type;
      static type conv(const T& x) {
        return type(tagged_arg_type(x.m_value), rest_conv::conv(x));
      }
    };

    template <typename P, typename R>
    struct convert_bgl_params_to_boost_parameter<bgl_named_params<P, int, R> > {
      typedef convert_bgl_params_to_boost_parameter<R> rest_conv;
      typedef typename rest_conv::type type;
      static type conv(const bgl_named_params<P, int, R>& x) {
        return rest_conv::conv(x);
      }
    };

    template <>
    struct convert_bgl_params_to_boost_parameter<boost::no_property> {
      typedef boost::parameter::aux::empty_arg_list type;
      static type conv(const boost::no_property&) {return type();}
    };

    template <>
    struct convert_bgl_params_to_boost_parameter<boost::no_named_parameters> {
      typedef boost::parameter::aux::empty_arg_list type;
      static type conv(const boost::no_property&) {return type();}
    };

    struct bgl_parameter_not_found_type {};

    template <typename ArgPack, typename KeywordType>
    struct parameter_exists : boost::mpl::not_<boost::is_same<typename boost::parameter::binding<ArgPack, KeywordType, bgl_parameter_not_found_type>::type, bgl_parameter_not_found_type> > {};
  }

#define BOOST_GRAPH_DECLARE_CONVERTED_PARAMETERS(old_type, old_var) \
  typedef typename boost::detail::convert_bgl_params_to_boost_parameter<old_type>::type arg_pack_type; \
  arg_pack_type arg_pack = boost::detail::convert_bgl_params_to_boost_parameter<old_type>::conv(old_var);

  namespace detail {

    template <typename ArgType, typename Prop, typename Graph, bool Exists>
    struct override_const_property_t {
      typedef typename boost::remove_const<ArgType>::type result_type;
      result_type operator()(const Graph&, const ArgType& a) const {return a;}
    };

    template <typename ArgType, typename Prop, typename Graph>
    struct override_const_property_t<ArgType, Prop, Graph, false> {
      typedef typename boost::property_map<Graph, Prop>::const_type result_type;
      result_type operator()(const Graph& g, const ArgType&) const {return get(Prop(), g);}
    };

    template <typename ArgPack, typename Tag, typename Prop, typename Graph>
    struct override_const_property_result {
      typedef 
        typename override_const_property_t<
                   typename boost::parameter::value_type<ArgPack, Tag, int>::type,
                   Prop,
                   Graph,
                   boost::detail::parameter_exists<ArgPack, Tag>::value
                 >::result_type
        type;
    };

    template <typename ArgPack, typename Tag, typename Prop, typename Graph>
    typename override_const_property_result<ArgPack, Tag, Prop, Graph>::type
    override_const_property(const ArgPack& ap, const boost::parameter::keyword<Tag>& t, const Graph& g, Prop) {
    return override_const_property_t<
             typename boost::parameter::value_type<ArgPack, Tag, int>::type,
             Prop,
             Graph,
             boost::detail::parameter_exists<ArgPack, Tag>::value
           >()(g, ap[t | 0]);
    }

    template <typename ArgType, typename Prop, typename Graph, bool Exists>
    struct override_property_t {
      typedef ArgType result_type;
      result_type operator()(const Graph& g, const typename boost::add_reference<ArgType>::type a) const {return a;}
    };

    template <typename ArgType, typename Prop, typename Graph>
    struct override_property_t<ArgType, Prop, Graph, false> {
      typedef typename boost::property_map<Graph, Prop>::type result_type;
      result_type operator()(const Graph& g, const ArgType& a) const {return get(Prop(), g);}
    };

    template <typename ArgPack, typename Tag, typename Prop, typename Graph>
    struct override_property_result {
      typedef 
        typename override_property_t<
                   typename boost::parameter::value_type<ArgPack, Tag, int>::type,
                   Prop,
                   Graph,
                   boost::detail::parameter_exists<ArgPack, Tag>::value
                 >::result_type
        type;
    };

    template <typename ArgPack, typename Tag, typename Prop, typename Graph>
    typename override_property_result<ArgPack, Tag, Prop, Graph>::type
    override_property(const ArgPack& ap, const boost::parameter::keyword<Tag>& t, const Graph& g, Prop prop) {
    return override_property_t<
             typename boost::parameter::value_type<ArgPack, Tag, int>::type,
             Prop,
             Graph,
             boost::detail::parameter_exists<ArgPack, Tag>::value
           >()(g, ap[t | 0]);
    }

  }

  namespace detail {

    template <bool Exists, typename Graph, typename ArgPack, typename Value, typename PM>
    struct map_maker_helper {
      typedef PM map_type;
      static PM make_map(const Graph&, Value, const PM& pm, const ArgPack&) {
        return pm;
      }
    };

    template <typename Graph, typename ArgPack, typename Value, typename PM>
    struct map_maker_helper<false, Graph, ArgPack, Value, PM> {
      typedef typename boost::remove_const<
        typename override_const_property_t<
          typename boost::parameter::value_type<
            ArgPack, boost::graph::keywords::tag::vertex_index_map, int>::type,
          boost::vertex_index_t,
          Graph,
          boost::detail::parameter_exists<
            ArgPack, boost::graph::keywords::tag::vertex_index_map>::value
        >::result_type>::type vi_map_type;
      typedef
        boost::shared_array_property_map<Value, vi_map_type>
        map_type;
      static map_type make_map(const Graph& g,
                               Value v,
                               const PM&,
                               const ArgPack& ap) {
        return make_shared_array_property_map(
                 num_vertices(g), 
                 v,
                 override_const_property(
                   ap,
                   boost::graph::keywords::_vertex_index_map,
                   g, vertex_index));
      }
    };

    template <typename Graph, typename ArgPack, typename MapTag, typename ValueType>
    struct map_maker {
      BOOST_STATIC_CONSTANT(
        bool,
        has_map =
          (parameter_exists<ArgPack, MapTag>
           ::value));
      typedef map_maker_helper<has_map, Graph, ArgPack, ValueType,
                               typename boost::remove_const<
                                 typename boost::parameter::value_type<
                                            ArgPack,
                                            MapTag,
                                            int
                                          >::type
                                        >::type> helper;
      typedef typename helper::map_type map_type;
      static map_type make_map(const Graph& g, const ArgPack& ap, ValueType default_value) {
        return helper::make_map(g, default_value, ap[::boost::parameter::keyword<MapTag>::instance | 0], ap);
      }
    };

    template <typename MapTag, typename ValueType = void>
    class make_property_map_from_arg_pack_gen {
      ValueType default_value;

      public:
      make_property_map_from_arg_pack_gen(ValueType default_value)
        : default_value(default_value) {}

      template <typename Graph, typename ArgPack>
      typename map_maker<Graph, ArgPack, MapTag, ValueType>::map_type
      operator()(const Graph& g, const ArgPack& ap) const {
        return map_maker<Graph, ArgPack, MapTag, ValueType>::make_map(g, ap, default_value);
      }
    };

    template <typename MapTag>
    class make_property_map_from_arg_pack_gen<MapTag, void> {
      public:
      template <typename ValueType, typename Graph, typename ArgPack>
      typename map_maker<Graph, ArgPack, MapTag, ValueType>::map_type
      operator()(const Graph& g, const ArgPack& ap, ValueType default_value) const {
        return map_maker<Graph, ArgPack, MapTag, ValueType>::make_map(g, ap, default_value);
      }
    };

    static const
      make_property_map_from_arg_pack_gen<
        boost::graph::keywords::tag::color_map,
        default_color_type>
      make_color_map_from_arg_pack(white_color);

    template <bool Exists, class Graph, class ArgPack, class KeyT, class ValueT, class KeyMapTag, class IndexInHeapMapTag, class Compare, class Q>
    struct priority_queue_maker_helper {
      typedef Q priority_queue_type;

      static priority_queue_type
      make_queue(const Graph& g, const ArgPack& ap, KeyT defaultKey, const Q& q) {
        return q;
      }
    };

    template <class Graph, class ArgPack, class KeyT, class ValueT, class KeyMapTag, class IndexInHeapMapTag, class Compare, class Q>
    struct priority_queue_maker_helper<false, Graph, ArgPack, KeyT, ValueT, KeyMapTag, IndexInHeapMapTag, Compare, Q> {
      typedef typename std::vector<ValueT>::size_type default_index_in_heap_type;
      typedef typename map_maker<Graph, ArgPack, IndexInHeapMapTag, default_index_in_heap_type>::helper::map_type index_in_heap_map;
      typedef boost::d_ary_heap_indirect<ValueT, 4, index_in_heap_map, typename map_maker<Graph, ArgPack, KeyMapTag, KeyT>::helper::map_type, Compare> priority_queue_type;

      static priority_queue_type
      make_queue(const Graph& g, const ArgPack& ap, KeyT defaultKey, const Q& q) {
        return priority_queue_type(
            map_maker<Graph, ArgPack, KeyMapTag, KeyT>::make_map(g, ap, defaultKey),
            map_maker<Graph, ArgPack, IndexInHeapMapTag, default_index_in_heap_type>::make_map(g, ap, typename boost::property_traits<index_in_heap_map>::value_type(-1))
          );
      }
    };

    template <class Graph, class ArgPack, class KeyT, class ValueT, class PriorityQueueTag, class KeyMapTag, class IndexInHeapMapTag, class Compare>
    struct priority_queue_maker {
      BOOST_STATIC_CONSTANT(
        bool,
        g_hasQ =
          (parameter_exists<ArgPack, PriorityQueueTag>
           ::value));
      typedef boost::reference_wrapper<int> int_refw;
      typedef typename boost::parameter::value_type<
                         ArgPack,
                         PriorityQueueTag,
                         int_refw
                       >::type
        param_value_type_wrapper;
      typedef typename param_value_type_wrapper::type
        param_value_type;
      typedef typename boost::remove_const<param_value_type>::type param_value_type_no_const;
      typedef priority_queue_maker_helper<g_hasQ, Graph, ArgPack, KeyT, ValueT, KeyMapTag, IndexInHeapMapTag, Compare,
                                          param_value_type_no_const> helper;
      typedef typename helper::priority_queue_type priority_queue_type;

      static priority_queue_type make_queue(const Graph& g, const ArgPack& ap, KeyT defaultKey) {
        return helper::make_queue(g, ap, defaultKey, ap[::boost::parameter::keyword<PriorityQueueTag>::instance | 0]);
      }
    };

    template <class PriorityQueueTag, class KeyT, class ValueT, class Compare = std::less<KeyT>, class KeyMapTag = boost::graph::keywords::tag::distance_map, class IndexInHeapMapTag = boost::graph::keywords::tag::index_in_heap_map>
    struct make_priority_queue_from_arg_pack_gen {
      KeyT defaultKey;

      make_priority_queue_from_arg_pack_gen(KeyT defaultKey_) : defaultKey(defaultKey_) { }

      template <class Graph, class ArgPack>
      typename priority_queue_maker<Graph, ArgPack, KeyT, ValueT, PriorityQueueTag, KeyMapTag, IndexInHeapMapTag, Compare>::priority_queue_type
      operator()(const Graph& g, const ArgPack& ap) const {
        return priority_queue_maker<Graph, ArgPack, KeyT, ValueT, PriorityQueueTag, KeyMapTag, IndexInHeapMapTag, Compare>::make_queue(g, ap, defaultKey);
      }
    };

  } // namespace detail

} // namespace boost

#undef BOOST_BGL_DECLARE_NAMED_PARAMS

#endif // BOOST_GRAPH_NAMED_FUNCTION_PARAMS_HPP