Support snapping to multiple ways at an input location (#5953)
This PR improves routing results by adding support for snapping to multiple ways at input locations. This means all edges at the snapped location can act as source/target candidates for routing search, ensuring we always find the best route, and not the one dependent on the edge selected.
This commit is contained in:
Michael Bell
GitHub
@@ -323,127 +323,41 @@ class ContiguousInternalMemoryDataFacadeBase : public BaseDataFacade
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodesInRange(const util::Coordinate input_coordinate,
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const float max_distance,
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const double max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodesInRange(
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input_coordinate, max_distance, approach, use_all_edges);
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}
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodesInRange(const util::Coordinate input_coordinate,
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const float max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodesInRange(
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input_coordinate, max_distance, bearing, bearing_range, approach, use_all_edges);
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return m_geospatial_query->NearestPhantomNodes(
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input_coordinate, approach, boost::none, max_distance, bearing, use_all_edges);
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}
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const Approach approach) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodes(input_coordinate, max_results, approach);
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}
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const double max_distance,
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const size_t max_results,
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const boost::optional<double> max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodes(
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input_coordinate, max_results, max_distance, approach);
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input_coordinate, approach, max_results, max_distance, bearing, boost::none);
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}
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const int bearing,
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const int bearing_range,
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const Approach approach) const override final
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PhantomCandidateAlternatives
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NearestCandidatesWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const boost::optional<double> max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodes(
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input_coordinate, max_results, bearing, bearing_range, approach);
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}
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std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const double max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodes(
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input_coordinate, max_results, max_distance, bearing, bearing_range, approach);
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}
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std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
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input_coordinate, approach, use_all_edges);
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}
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std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const double max_distance,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
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input_coordinate, max_distance, approach, use_all_edges);
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}
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std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const double max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
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input_coordinate, max_distance, bearing, bearing_range, approach, use_all_edges);
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}
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std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges) const override final
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{
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BOOST_ASSERT(m_geospatial_query.get());
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return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
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input_coordinate, bearing, bearing_range, approach, use_all_edges);
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return m_geospatial_query->NearestCandidatesWithAlternativeFromBigComponent(
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input_coordinate, approach, max_distance, bearing, use_all_edges);
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}
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std::uint32_t GetCheckSum() const override final { return m_check_sum; }
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@@ -35,6 +35,7 @@
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#include <boost/range/any_range.hpp>
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#include <cstddef>
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#include <engine/bearing.hpp>
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#include <string>
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#include <utility>
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#include <vector>
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@@ -130,62 +131,24 @@ class BaseDataFacade
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodesInRange(const util::Coordinate input_coordinate,
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const float max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodesInRange(const util::Coordinate input_coordinate,
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const float max_distance,
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const double max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const double max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach) const = 0;
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const int bearing,
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const int bearing_range,
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const Approach approach) const = 0;
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const Approach approach) const = 0;
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virtual std::vector<PhantomNodeWithDistance>
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NearestPhantomNodes(const util::Coordinate input_coordinate,
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const unsigned max_results,
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const double max_distance,
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const size_t max_results,
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const boost::optional<double> max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach) const = 0;
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virtual std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const double max_distance,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const double max_distance,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual std::pair<PhantomNode, PhantomNode>
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NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const int bearing,
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const int bearing_range,
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const Approach approach,
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const bool use_all_edges = false) const = 0;
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virtual PhantomCandidateAlternatives
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NearestCandidatesWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
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const boost::optional<double> max_distance,
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const boost::optional<Bearing> bearing,
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const Approach approach,
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const bool use_all_edges) const = 0;
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virtual bool HasLaneData(const EdgeID edge_based_edge_id) const = 0;
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virtual util::guidance::LaneTupleIdPair GetLaneData(const EdgeID edge_based_edge_id) const = 0;
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