Rocket.Chat.ReactNative/ios/Pods/boost-for-react-native/boost/graph/astar_search.hpp

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//
//=======================================================================
// Copyright (c) 2004 Kristopher Beevers
//
// 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_ASTAR_SEARCH_HPP
#define BOOST_GRAPH_ASTAR_SEARCH_HPP
#include <functional>
#include <vector>
#include <boost/limits.hpp>
#include <boost/throw_exception.hpp>
#include <boost/graph/named_function_params.hpp>
#include <boost/graph/relax.hpp>
#include <boost/graph/exception.hpp>
#include <boost/graph/breadth_first_search.hpp>
#include <boost/graph/iteration_macros.hpp>
#include <boost/graph/detail/d_ary_heap.hpp>
#include <boost/graph/property_maps/constant_property_map.hpp>
#include <boost/property_map/property_map.hpp>
#include <boost/property_map/vector_property_map.hpp>
#include <boost/property_map/function_property_map.hpp>
#include <boost/concept/assert.hpp>
namespace boost {
template <class Heuristic, class Graph>
struct AStarHeuristicConcept {
void constraints()
{
BOOST_CONCEPT_ASSERT(( CopyConstructibleConcept<Heuristic> ));
h(u);
}
Heuristic h;
typename graph_traits<Graph>::vertex_descriptor u;
};
template <class Graph, class CostType>
class astar_heuristic : public std::unary_function<
typename graph_traits<Graph>::vertex_descriptor, CostType>
{
public:
typedef typename graph_traits<Graph>::vertex_descriptor Vertex;
astar_heuristic() {}
CostType operator()(Vertex u) { return static_cast<CostType>(0); }
};
template <class Visitor, class Graph>
struct AStarVisitorConcept {
void constraints()
{
BOOST_CONCEPT_ASSERT(( CopyConstructibleConcept<Visitor> ));
vis.initialize_vertex(u, g);
vis.discover_vertex(u, g);
vis.examine_vertex(u, g);
vis.examine_edge(e, g);
vis.edge_relaxed(e, g);
vis.edge_not_relaxed(e, g);
vis.black_target(e, g);
vis.finish_vertex(u, g);
}
Visitor vis;
Graph g;
typename graph_traits<Graph>::vertex_descriptor u;
typename graph_traits<Graph>::edge_descriptor e;
};
template <class Visitors = null_visitor>
class astar_visitor : public bfs_visitor<Visitors> {
public:
astar_visitor() {}
astar_visitor(Visitors vis)
: bfs_visitor<Visitors>(vis) {}
template <class Edge, class Graph>
void edge_relaxed(Edge e, const Graph& g) {
invoke_visitors(this->m_vis, e, g, on_edge_relaxed());
}
template <class Edge, class Graph>
void edge_not_relaxed(Edge e, const Graph& g) {
invoke_visitors(this->m_vis, e, g, on_edge_not_relaxed());
}
private:
template <class Edge, class Graph>
void tree_edge(Edge e, const Graph& g) {}
template <class Edge, class Graph>
void non_tree_edge(Edge e, const Graph& g) {}
};
template <class Visitors>
astar_visitor<Visitors>
make_astar_visitor(Visitors vis) {
return astar_visitor<Visitors>(vis);
}
typedef astar_visitor<> default_astar_visitor;
namespace detail {
template <class AStarHeuristic, class UniformCostVisitor,
class UpdatableQueue, class PredecessorMap,
class CostMap, class DistanceMap, class WeightMap,
class ColorMap, class BinaryFunction,
class BinaryPredicate>
struct astar_bfs_visitor
{
typedef typename property_traits<CostMap>::value_type C;
typedef typename property_traits<ColorMap>::value_type ColorValue;
typedef color_traits<ColorValue> Color;
typedef typename property_traits<DistanceMap>::value_type distance_type;
astar_bfs_visitor(AStarHeuristic h, UniformCostVisitor vis,
UpdatableQueue& Q, PredecessorMap p,
CostMap c, DistanceMap d, WeightMap w,
ColorMap col, BinaryFunction combine,
BinaryPredicate compare, C zero)
: m_h(h), m_vis(vis), m_Q(Q), m_predecessor(p), m_cost(c),
m_distance(d), m_weight(w), m_color(col),
m_combine(combine), m_compare(compare), m_zero(zero) {}
template <class Vertex, class Graph>
void initialize_vertex(Vertex u, const Graph& g) {
m_vis.initialize_vertex(u, g);
}
template <class Vertex, class Graph>
void discover_vertex(Vertex u, const Graph& g) {
m_vis.discover_vertex(u, g);
}
template <class Vertex, class Graph>
void examine_vertex(Vertex u, const Graph& g) {
m_vis.examine_vertex(u, g);
}
template <class Vertex, class Graph>
void finish_vertex(Vertex u, const Graph& g) {
m_vis.finish_vertex(u, g);
}
template <class Edge, class Graph>
void examine_edge(Edge e, const Graph& g) {
if (m_compare(get(m_weight, e), m_zero))
BOOST_THROW_EXCEPTION(negative_edge());
m_vis.examine_edge(e, g);
}
template <class Edge, class Graph>
void non_tree_edge(Edge, const Graph&) {}
template <class Edge, class Graph>
void tree_edge(Edge e, const Graph& g) {
using boost::get;
bool m_decreased =
relax(e, g, m_weight, m_predecessor, m_distance,
m_combine, m_compare);
if(m_decreased) {
m_vis.edge_relaxed(e, g);
put(m_cost, target(e, g),
m_combine(get(m_distance, target(e, g)),
m_h(target(e, g))));
} else
m_vis.edge_not_relaxed(e, g);
}
template <class Edge, class Graph>
void gray_target(Edge e, const Graph& g) {
using boost::get;
bool m_decreased =
relax(e, g, m_weight, m_predecessor, m_distance,
m_combine, m_compare);
if(m_decreased) {
put(m_cost, target(e, g),
m_combine(get(m_distance, target(e, g)),
m_h(target(e, g))));
m_Q.update(target(e, g));
m_vis.edge_relaxed(e, g);
} else
m_vis.edge_not_relaxed(e, g);
}
template <class Edge, class Graph>
void black_target(Edge e, const Graph& g) {
using boost::get;
bool m_decreased =
relax(e, g, m_weight, m_predecessor, m_distance,
m_combine, m_compare);
if(m_decreased) {
m_vis.edge_relaxed(e, g);
put(m_cost, target(e, g),
m_combine(get(m_distance, target(e, g)),
m_h(target(e, g))));
m_Q.push(target(e, g));
put(m_color, target(e, g), Color::gray());
m_vis.black_target(e, g);
} else
m_vis.edge_not_relaxed(e, g);
}
AStarHeuristic m_h;
UniformCostVisitor m_vis;
UpdatableQueue& m_Q;
PredecessorMap m_predecessor;
CostMap m_cost;
DistanceMap m_distance;
WeightMap m_weight;
ColorMap m_color;
BinaryFunction m_combine;
BinaryPredicate m_compare;
C m_zero;
};
} // namespace detail
template <typename VertexListGraph, typename AStarHeuristic,
typename AStarVisitor, typename PredecessorMap,
typename CostMap, typename DistanceMap,
typename WeightMap, typename ColorMap,
typename VertexIndexMap,
typename CompareFunction, typename CombineFunction,
typename CostInf, typename CostZero>
inline void
astar_search_no_init
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, AStarVisitor vis,
PredecessorMap predecessor, CostMap cost,
DistanceMap distance, WeightMap weight,
ColorMap color, VertexIndexMap index_map,
CompareFunction compare, CombineFunction combine,
CostInf /*inf*/, CostZero zero)
{
typedef typename graph_traits<VertexListGraph>::vertex_descriptor
Vertex;
typedef boost::vector_property_map<std::size_t, VertexIndexMap> IndexInHeapMap;
IndexInHeapMap index_in_heap(index_map);
typedef d_ary_heap_indirect<Vertex, 4, IndexInHeapMap, CostMap, CompareFunction>
MutableQueue;
MutableQueue Q(cost, index_in_heap, compare);
detail::astar_bfs_visitor<AStarHeuristic, AStarVisitor,
MutableQueue, PredecessorMap, CostMap, DistanceMap,
WeightMap, ColorMap, CombineFunction, CompareFunction>
bfs_vis(h, vis, Q, predecessor, cost, distance, weight,
color, combine, compare, zero);
breadth_first_visit(g, s, Q, bfs_vis, color);
}
namespace graph_detail {
template <typename A, typename B>
struct select1st {
typedef std::pair<A, B> argument_type;
typedef A result_type;
A operator()(const std::pair<A, B>& p) const {return p.first;}
};
}
template <typename VertexListGraph, typename AStarHeuristic,
typename AStarVisitor, typename PredecessorMap,
typename CostMap, typename DistanceMap,
typename WeightMap,
typename CompareFunction, typename CombineFunction,
typename CostInf, typename CostZero>
inline void
astar_search_no_init_tree
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, AStarVisitor vis,
PredecessorMap predecessor, CostMap cost,
DistanceMap distance, WeightMap weight,
CompareFunction compare, CombineFunction combine,
CostInf /*inf*/, CostZero zero)
{
typedef typename graph_traits<VertexListGraph>::vertex_descriptor
Vertex;
typedef typename property_traits<DistanceMap>::value_type Distance;
typedef d_ary_heap_indirect<
std::pair<Distance, Vertex>,
4,
null_property_map<std::pair<Distance, Vertex>, std::size_t>,
function_property_map<graph_detail::select1st<Distance, Vertex>, std::pair<Distance, Vertex> >,
CompareFunction>
MutableQueue;
MutableQueue Q(
make_function_property_map<std::pair<Distance, Vertex> >(graph_detail::select1st<Distance, Vertex>()),
null_property_map<std::pair<Distance, Vertex>, std::size_t>(),
compare);
vis.discover_vertex(s, g);
Q.push(std::make_pair(get(cost, s), s));
while (!Q.empty()) {
Vertex v;
Distance v_rank;
boost::tie(v_rank, v) = Q.top();
Q.pop();
vis.examine_vertex(v, g);
BGL_FORALL_OUTEDGES_T(v, e, g, VertexListGraph) {
Vertex w = target(e, g);
vis.examine_edge(e, g);
Distance e_weight = get(weight, e);
if (compare(e_weight, zero))
BOOST_THROW_EXCEPTION(negative_edge());
bool decreased =
relax(e, g, weight, predecessor, distance,
combine, compare);
Distance w_d = combine(get(distance, v), e_weight);
if (decreased) {
vis.edge_relaxed(e, g);
Distance w_rank = combine(get(distance, w), h(w));
put(cost, w, w_rank);
vis.discover_vertex(w, g);
Q.push(std::make_pair(w_rank, w));
} else {
vis.edge_not_relaxed(e, g);
}
}
vis.finish_vertex(v, g);
}
}
// Non-named parameter interface
template <typename VertexListGraph, typename AStarHeuristic,
typename AStarVisitor, typename PredecessorMap,
typename CostMap, typename DistanceMap,
typename WeightMap, typename VertexIndexMap,
typename ColorMap,
typename CompareFunction, typename CombineFunction,
typename CostInf, typename CostZero>
inline void
astar_search
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, AStarVisitor vis,
PredecessorMap predecessor, CostMap cost,
DistanceMap distance, WeightMap weight,
VertexIndexMap index_map, ColorMap color,
CompareFunction compare, CombineFunction combine,
CostInf inf, CostZero zero)
{
typedef typename property_traits<ColorMap>::value_type ColorValue;
typedef color_traits<ColorValue> Color;
typename graph_traits<VertexListGraph>::vertex_iterator ui, ui_end;
for (boost::tie(ui, ui_end) = vertices(g); ui != ui_end; ++ui) {
put(color, *ui, Color::white());
put(distance, *ui, inf);
put(cost, *ui, inf);
put(predecessor, *ui, *ui);
vis.initialize_vertex(*ui, g);
}
put(distance, s, zero);
put(cost, s, h(s));
astar_search_no_init
(g, s, h, vis, predecessor, cost, distance, weight,
color, index_map, compare, combine, inf, zero);
}
// Non-named parameter interface
template <typename VertexListGraph, typename AStarHeuristic,
typename AStarVisitor, typename PredecessorMap,
typename CostMap, typename DistanceMap,
typename WeightMap,
typename CompareFunction, typename CombineFunction,
typename CostInf, typename CostZero>
inline void
astar_search_tree
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, AStarVisitor vis,
PredecessorMap predecessor, CostMap cost,
DistanceMap distance, WeightMap weight,
CompareFunction compare, CombineFunction combine,
CostInf inf, CostZero zero)
{
typename graph_traits<VertexListGraph>::vertex_iterator ui, ui_end;
for (boost::tie(ui, ui_end) = vertices(g); ui != ui_end; ++ui) {
put(distance, *ui, inf);
put(cost, *ui, inf);
put(predecessor, *ui, *ui);
vis.initialize_vertex(*ui, g);
}
put(distance, s, zero);
put(cost, s, h(s));
astar_search_no_init_tree
(g, s, h, vis, predecessor, cost, distance, weight,
compare, combine, inf, zero);
}
// Named parameter interfaces
template <typename VertexListGraph,
typename AStarHeuristic,
typename P, typename T, typename R>
void
astar_search
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, const bgl_named_params<P, T, R>& params)
{
using namespace boost::graph::keywords;
typedef bgl_named_params<P, T, R> params_type;
BOOST_GRAPH_DECLARE_CONVERTED_PARAMETERS(params_type, params)
// Distance type is the value type of the distance map if there is one,
// otherwise the value type of the weight map.
typedef
typename detail::override_const_property_result<
arg_pack_type, tag::weight_map, edge_weight_t, VertexListGraph>::type
weight_map_type;
typedef typename boost::property_traits<weight_map_type>::value_type W;
typedef
typename detail::map_maker<VertexListGraph, arg_pack_type, tag::distance_map, W>::map_type
distance_map_type;
typedef typename boost::property_traits<distance_map_type>::value_type D;
const D inf = arg_pack[_distance_inf || detail::get_max<D>()];
astar_search
(g, s, h,
arg_pack[_visitor | make_astar_visitor(null_visitor())],
arg_pack[_predecessor_map | dummy_property_map()],
detail::make_property_map_from_arg_pack_gen<tag::rank_map, D>(D())(g, arg_pack),
detail::make_property_map_from_arg_pack_gen<tag::distance_map, W>(W())(g, arg_pack),
detail::override_const_property(arg_pack, _weight_map, g, edge_weight),
detail::override_const_property(arg_pack, _vertex_index_map, g, vertex_index),
detail::make_color_map_from_arg_pack(g, arg_pack),
arg_pack[_distance_compare | std::less<D>()],
arg_pack[_distance_combine | closed_plus<D>(inf)],
inf,
arg_pack[_distance_zero | D()]);
}
// Named parameter interfaces
template <typename VertexListGraph,
typename AStarHeuristic,
typename P, typename T, typename R>
void
astar_search_tree
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, const bgl_named_params<P, T, R>& params)
{
using namespace boost::graph::keywords;
typedef bgl_named_params<P, T, R> params_type;
BOOST_GRAPH_DECLARE_CONVERTED_PARAMETERS(params_type, params)
// Distance type is the value type of the distance map if there is one,
// otherwise the value type of the weight map.
typedef
typename detail::override_const_property_result<
arg_pack_type, tag::weight_map, edge_weight_t, VertexListGraph>::type
weight_map_type;
typedef typename boost::property_traits<weight_map_type>::value_type W;
typedef
typename detail::map_maker<VertexListGraph, arg_pack_type, tag::distance_map, W>::map_type
distance_map_type;
typedef typename boost::property_traits<distance_map_type>::value_type D;
const D inf = arg_pack[_distance_inf || detail::get_max<D>()];
astar_search_tree
(g, s, h,
arg_pack[_visitor | make_astar_visitor(null_visitor())],
arg_pack[_predecessor_map | dummy_property_map()],
detail::make_property_map_from_arg_pack_gen<tag::rank_map, D>(D())(g, arg_pack),
detail::make_property_map_from_arg_pack_gen<tag::distance_map, W>(W())(g, arg_pack),
detail::override_const_property(arg_pack, _weight_map, g, edge_weight),
arg_pack[_distance_compare | std::less<D>()],
arg_pack[_distance_combine | closed_plus<D>(inf)],
inf,
arg_pack[_distance_zero | D()]);
}
template <typename VertexListGraph,
typename AStarHeuristic,
typename P, typename T, typename R>
void
astar_search_no_init
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, const bgl_named_params<P, T, R>& params)
{
using namespace boost::graph::keywords;
typedef bgl_named_params<P, T, R> params_type;
BOOST_GRAPH_DECLARE_CONVERTED_PARAMETERS(params_type, params)
typedef
typename detail::override_const_property_result<
arg_pack_type, tag::weight_map, edge_weight_t, VertexListGraph>::type
weight_map_type;
typedef typename boost::property_traits<weight_map_type>::value_type D;
const D inf = arg_pack[_distance_inf || detail::get_max<D>()];
astar_search_no_init
(g, s, h,
arg_pack[_visitor | make_astar_visitor(null_visitor())],
arg_pack[_predecessor_map | dummy_property_map()],
detail::make_property_map_from_arg_pack_gen<tag::rank_map, D>(D())(g, arg_pack),
detail::make_property_map_from_arg_pack_gen<tag::distance_map, D>(D())(g, arg_pack),
detail::override_const_property(arg_pack, _weight_map, g, edge_weight),
detail::make_color_map_from_arg_pack(g, arg_pack),
detail::override_const_property(arg_pack, _vertex_index_map, g, vertex_index),
arg_pack[_distance_compare | std::less<D>()],
arg_pack[_distance_combine | closed_plus<D>(inf)],
inf,
arg_pack[_distance_zero | D()]);
}
template <typename VertexListGraph,
typename AStarHeuristic,
typename P, typename T, typename R>
void
astar_search_no_init_tree
(const VertexListGraph &g,
typename graph_traits<VertexListGraph>::vertex_descriptor s,
AStarHeuristic h, const bgl_named_params<P, T, R>& params)
{
using namespace boost::graph::keywords;
typedef bgl_named_params<P, T, R> params_type;
BOOST_GRAPH_DECLARE_CONVERTED_PARAMETERS(params_type, params)
typedef
typename detail::override_const_property_result<
arg_pack_type, tag::weight_map, edge_weight_t, VertexListGraph>::type
weight_map_type;
typedef typename boost::property_traits<weight_map_type>::value_type D;
const D inf = arg_pack[_distance_inf || detail::get_max<D>()];
astar_search_no_init_tree
(g, s, h,
arg_pack[_visitor | make_astar_visitor(null_visitor())],
arg_pack[_predecessor_map | dummy_property_map()],
detail::make_property_map_from_arg_pack_gen<tag::rank_map, D>(D())(g, arg_pack),
detail::make_property_map_from_arg_pack_gen<tag::distance_map, D>(D())(g, arg_pack),
detail::override_const_property(arg_pack, _weight_map, g, edge_weight),
arg_pack[_distance_compare | std::less<D>()],
arg_pack[_distance_combine | closed_plus<D>(inf)],
inf,
arg_pack[_distance_zero | D()]);
}
} // namespace boost
#endif // BOOST_GRAPH_ASTAR_SEARCH_HPP