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feat: add biconnected_components instead of isolated
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include/boost/geometry/algorithms/detail/overlay/detect_biconnected_components.hpp
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// Boost.Geometry | ||
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// Copyright (c) 2024 Barend Gehrels, Amsterdam, the Netherlands. | ||
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// Use, modification and distribution is subject to 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) | ||
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#ifndef BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_DETECT_ARTICULATION_POINTS_HPP | ||
#define BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_DETECT_ARTICULATION_POINTS_HPP | ||
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#include <map> | ||
#include <set> | ||
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#include <boost/geometry/algorithms/detail/overlay/segment_identifier.hpp> | ||
#include <boost/geometry/algorithms/detail/overlay/node_util.hpp> | ||
#include <boost/geometry/algorithms/detail/overlay/graph_util.hpp> | ||
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#include <boost/graph/biconnected_components.hpp> | ||
#include <boost/graph/adjacency_list.hpp> | ||
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namespace boost { namespace geometry | ||
{ | ||
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#ifndef DOXYGEN_NO_DETAIL | ||
namespace detail { namespace overlay | ||
{ | ||
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struct vertex_info | ||
{ | ||
signed_size_type node_id{0}; | ||
std::set<std::size_t> target_vertex_indices; | ||
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bool is_extra{false}; | ||
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// For extra nodes, also store the original node | ||
signed_size_type original_node_id{0}; | ||
}; | ||
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struct state_type | ||
{ | ||
// Maps from vertex to vertex info | ||
std::map<std::size_t, vertex_info> vertex_map; | ||
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// Reverse mapping. Every node (turn or cluster) has only ONE vertex, | ||
// but there might be additional vertices, not associated with a node. | ||
std::map<signed_size_type, std::size_t> node_to_vertex_index; | ||
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// Keeps track of vertex index, which must, for Boost.Graph, | ||
// be consecutive. The turn index is not (because of discarded and clusters). | ||
std::size_t vertex_index{0}; | ||
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// For some cases (returning to itself) extra nodes are inserted. | ||
// They are numbered from turn.size() and up. | ||
std::size_t extra_node_id{0}; | ||
}; | ||
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void add_target_node(signed_size_type source_node_id, signed_size_type target_node_id, | ||
state_type& state, bool allow_returning) | ||
{ | ||
// Insert the source and target node (turn or cluster) | ||
auto it_source = state.node_to_vertex_index.find(source_node_id); | ||
if (it_source == state.node_to_vertex_index.end()) | ||
{ | ||
it_source = state.node_to_vertex_index.insert({source_node_id, state.vertex_index++}).first; | ||
} | ||
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auto it_target = state.node_to_vertex_index.find(target_node_id); | ||
if (it_target == state.node_to_vertex_index.end()) | ||
{ | ||
it_target = state.node_to_vertex_index.insert({target_node_id, state.vertex_index++}).first; | ||
} | ||
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// Get the accompanying vertex into (might be a new record) | ||
auto& vertex_info = state.vertex_map[it_source->second]; | ||
vertex_info.node_id = source_node_id; | ||
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if (target_node_id == source_node_id && allow_returning) | ||
{ | ||
std::size_t const extra_node_id = state.extra_node_id++; | ||
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// Add a brand new vertex, and add the target to it | ||
// To keep the index right, first this brand new vertex as the target | ||
vertex_info.target_vertex_indices.insert(state.vertex_index); | ||
state.node_to_vertex_index.insert({extra_node_id, state.vertex_index}); | ||
auto& extra_vertex_info = state.vertex_map[state.vertex_index++]; | ||
extra_vertex_info.node_id = extra_node_id; | ||
extra_vertex_info.is_extra = true; | ||
extra_vertex_info.original_node_id = source_node_id; | ||
extra_vertex_info.target_vertex_indices.insert(it_target->second); | ||
} | ||
else | ||
{ | ||
vertex_info.target_vertex_indices.insert(it_target->second); | ||
} | ||
} | ||
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template <operation_type TargetOperation, typename Turns, typename Clusters> | ||
void fill_vertex_map(Turns const& turns, Clusters const& clusters, state_type& state) | ||
{ | ||
std::set<std::size_t> visited_turns; | ||
for (std::size_t i = 0; i < turns.size(); i++) | ||
{ | ||
auto const & turn = turns[i]; | ||
if (turn.discarded) | ||
{ | ||
continue; | ||
} | ||
if (visited_turns.count(i) > 0) | ||
{ | ||
continue; | ||
} | ||
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auto const source_node_id = get_node_id(turns, i); | ||
auto const turn_indices = get_turn_indices_by_node_id(turns, clusters, source_node_id); | ||
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visited_turns.insert(turn_indices.begin(), turn_indices.end()); | ||
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auto const target_nodes = get_target_nodes<TargetOperation>(turns, clusters, turn_indices); | ||
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for (auto const& target_node_id : target_nodes) | ||
{ | ||
add_target_node(source_node_id, target_node_id, state, true); | ||
} | ||
} | ||
} | ||
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// Assigns biconnected components to turns | ||
template <typename Turns, typename Clusters, typename Graph, typename Components> | ||
void assign_biconnected_component_ids(Turns& turns, Clusters const& clusters, | ||
Graph const& graph, Components const& component, state_type const& state) | ||
{ | ||
auto node_id_from_it = [&state](auto const& it) | ||
{ | ||
return it->second.is_extra | ||
? it->second.original_node_id | ||
: it->second.node_id; | ||
}; | ||
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typename graph_traits<Graph>::edge_iterator ei, ei_end; | ||
for (boost::tie(ei, ei_end) = edges(graph); ei != ei_end; ++ei) | ||
{ | ||
auto it_source = state.vertex_map.find(source(*ei, graph)); | ||
auto it_target = state.vertex_map.find(target(*ei, graph)); | ||
if (it_source == state.vertex_map.end() || it_target == state.vertex_map.end()) | ||
{ | ||
continue; | ||
} | ||
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auto const source_node_id = node_id_from_it(it_source); | ||
auto const target_node_id = node_id_from_it(it_target); | ||
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auto const source_turn_indices = get_turn_indices_by_node_id(turns, clusters, source_node_id); | ||
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// Assign the component to all the operations | ||
// going from the source node to the target node. | ||
for (auto const& turn_index : source_turn_indices) | ||
{ | ||
auto& source_turn = turns[turn_index]; | ||
for (std::size_t j = 0; j < 2; j++) | ||
{ | ||
auto& op = source_turn.operations[j]; | ||
if (op.enriched.travels_to_ip_index < 0) | ||
{ | ||
continue; | ||
} | ||
auto const travels_to_node_id = get_node_id(turns, op.enriched.travels_to_ip_index); | ||
if (travels_to_node_id == target_node_id) | ||
{ | ||
op.enriched.component_id = static_cast<int>(component[*ei]); | ||
} | ||
} | ||
} | ||
} | ||
} | ||
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template <operation_type TargetOperation, typename Turns, typename Clusters> | ||
void detect_biconnected_components(Turns& turns, Clusters const& clusters) | ||
{ | ||
using graph_t = boost::adjacency_list | ||
< | ||
boost::vecS, | ||
boost::vecS, | ||
boost::undirectedS, | ||
boost::no_property, | ||
boost::property<edge_component, std::size_t> | ||
>; | ||
using vertex_t = boost::graph_traits <graph_t>::vertex_descriptor; | ||
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// Mapping to add turns to vertices, count them, and then build the graph. | ||
// (It is convenient if the vertex index is the same as the turn index. | ||
// Therefore the default mapping is made like that, extra vertices | ||
// are added later) | ||
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state_type state; | ||
state.extra_node_id = static_cast<std::size_t>(turns.size()); | ||
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fill_vertex_map<TargetOperation>(turns, clusters, state); | ||
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// Build the graph from the vertices | ||
graph_t graph(state.vertex_map.size()); | ||
for (auto const& key_value : state.vertex_map) | ||
{ | ||
auto const vertex_index = key_value.first; | ||
for (auto const& target_vertex_index : key_value.second.target_vertex_indices) | ||
{ | ||
add_edge(vertex_index, target_vertex_index, graph); | ||
} | ||
} | ||
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edge_component ec; | ||
auto component = get(ec, graph); | ||
biconnected_components(graph, component); | ||
fix_components(component, graph); | ||
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assign_biconnected_component_ids(turns, clusters, graph, component, state); | ||
} | ||
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}} // namespace detail::overlay | ||
#endif // DOXYGEN_NO_DETAIL | ||
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}} // namespace boost::geometry | ||
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#endif // BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_DETECT_ARTICULATION_POINTS_HPP |
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include/boost/geometry/algorithms/detail/overlay/graph_util.hpp
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// Boost.Geometry | ||
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// Copyright (c) 2024 Barend Gehrels, Amsterdam, the Netherlands. | ||
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// Use, modification and distribution is subject to 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) | ||
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#ifndef BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_GRAPH_UTIL_HPP | ||
#define BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_GRAPH_UTIL_HPP | ||
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#include <boost/graph/biconnected_components.hpp> | ||
#include <boost/graph/adjacency_list.hpp> | ||
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namespace boost { namespace geometry | ||
{ | ||
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#ifndef DOXYGEN_NO_DETAIL | ||
namespace detail { namespace overlay | ||
{ | ||
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struct edge_component | ||
{ | ||
using kind = edge_property_tag; | ||
}; | ||
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// It appears that in an undirected graph, the components for two edges are sometimes different. | ||
// Fix that. To be found out why this is. | ||
template <typename Graph, typename Components> | ||
void fix_components(Components& components, Graph const& g) | ||
{ | ||
typename graph_traits<Graph>::edge_iterator ei, ei_end; | ||
for (boost::tie(ei, ei_end) = edges(g); ei != ei_end; ++ei) | ||
{ | ||
auto& component = components[*ei]; | ||
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auto const source_vertex = source(*ei, g); | ||
auto const target_vertex = target(*ei, g); | ||
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// Get the reverse edge and its component | ||
auto const reverse_edge_pair = edge(target_vertex, source_vertex, g); | ||
if (! reverse_edge_pair.second) | ||
{ | ||
continue; | ||
} | ||
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auto& reverse_component = components[reverse_edge_pair.first]; | ||
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if (component != reverse_component) | ||
{ | ||
component = reverse_component; | ||
} | ||
} | ||
} | ||
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}} // namespace detail::overlay | ||
#endif // DOXYGEN_NO_DETAIL | ||
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}} // namespace boost::geometry | ||
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#endif // BOOST_GEOMETRY_ALGORITHMS_DETAIL_OVERLAY_GRAPH_UTIL_HPP |
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