d74e7b66bd
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.
172 lines
6.1 KiB
C++
172 lines
6.1 KiB
C++
#ifndef ENGINE_API_NEAREST_API_HPP
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#define ENGINE_API_NEAREST_API_HPP
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#include "engine/api/base_api.hpp"
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#include "engine/api/base_result.hpp"
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#include "engine/api/nearest_parameters.hpp"
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#include "engine/api/json_factory.hpp"
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#include "engine/phantom_node.hpp"
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#include <boost/assert.hpp>
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#include <vector>
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namespace osrm
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{
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namespace engine
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{
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namespace api
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{
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class NearestAPI final : public BaseAPI
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{
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public:
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NearestAPI(const datafacade::BaseDataFacade &facade_, const NearestParameters ¶meters_)
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: BaseAPI(facade_, parameters_), parameters(parameters_)
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{
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}
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void MakeResponse(const std::vector<std::vector<PhantomNodeWithDistance>> &phantom_nodes,
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osrm::engine::api::ResultT &response) const
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{
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BOOST_ASSERT(phantom_nodes.size() == 1);
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BOOST_ASSERT(parameters.coordinates.size() == 1);
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if (response.is<flatbuffers::FlatBufferBuilder>())
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{
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auto &fb_result = response.get<flatbuffers::FlatBufferBuilder>();
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MakeResponse(phantom_nodes, fb_result);
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}
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else
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{
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auto &json_result = response.get<util::json::Object>();
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MakeResponse(phantom_nodes, json_result);
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}
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}
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void MakeResponse(const std::vector<std::vector<PhantomNodeWithDistance>> &phantom_nodes,
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flatbuffers::FlatBufferBuilder &fb_result) const
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{
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auto data_timestamp = facade.GetTimestamp();
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boost::optional<flatbuffers::Offset<flatbuffers::String>> data_version_string = boost::none;
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if (!data_timestamp.empty())
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{
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data_version_string = fb_result.CreateString(data_timestamp);
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}
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flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<fbresult::Waypoint>>>
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waypoints_vector;
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if (!parameters.skip_waypoints)
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{
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std::vector<flatbuffers::Offset<fbresult::Waypoint>> waypoints;
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waypoints.resize(phantom_nodes.front().size());
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std::transform(
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phantom_nodes.front().begin(),
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phantom_nodes.front().end(),
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waypoints.begin(),
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[this, &fb_result](const PhantomNodeWithDistance &phantom_with_distance) {
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auto &phantom_node = phantom_with_distance.phantom_node;
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auto node_values = MakeNodes(phantom_node);
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fbresult::Uint64Pair nodes{node_values.first, node_values.second};
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auto waypoint = MakeWaypoint(&fb_result, {phantom_node});
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waypoint->add_nodes(&nodes);
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return waypoint->Finish();
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});
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waypoints_vector = fb_result.CreateVector(waypoints);
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}
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fbresult::FBResultBuilder response(fb_result);
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response.add_waypoints(waypoints_vector);
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if (data_version_string)
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{
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response.add_data_version(*data_version_string);
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}
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fb_result.Finish(response.Finish());
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}
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void MakeResponse(const std::vector<std::vector<PhantomNodeWithDistance>> &phantom_nodes,
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util::json::Object &response) const
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{
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if (!parameters.skip_waypoints)
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{
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util::json::Array waypoints;
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waypoints.values.resize(phantom_nodes.front().size());
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std::transform(phantom_nodes.front().begin(),
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phantom_nodes.front().end(),
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waypoints.values.begin(),
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[this](const PhantomNodeWithDistance &phantom_with_distance) {
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auto &phantom_node = phantom_with_distance.phantom_node;
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auto waypoint = MakeWaypoint({phantom_node});
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util::json::Array nodes;
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auto node_values = MakeNodes(phantom_node);
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nodes.values.push_back(node_values.first);
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nodes.values.push_back(node_values.second);
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waypoint.values["nodes"] = std::move(nodes);
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return waypoint;
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});
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response.values["waypoints"] = std::move(waypoints);
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}
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response.values["code"] = "Ok";
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auto data_timestamp = facade.GetTimestamp();
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if (!data_timestamp.empty())
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{
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response.values["data_version"] = data_timestamp;
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}
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}
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const NearestParameters ¶meters;
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protected:
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std::pair<uint64_t, uint64_t> MakeNodes(const PhantomNode &phantom_node) const
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{
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std::uint64_t from_node = 0;
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std::uint64_t to_node = 0;
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datafacade::BaseDataFacade::NodeForwardRange forward_geometry;
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if (phantom_node.forward_segment_id.enabled)
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{
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auto segment_id = phantom_node.forward_segment_id.id;
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const auto geometry_id = facade.GetGeometryIndex(segment_id).id;
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forward_geometry = facade.GetUncompressedForwardGeometry(geometry_id);
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auto osm_node_id =
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facade.GetOSMNodeIDOfNode(forward_geometry(phantom_node.fwd_segment_position));
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to_node = static_cast<std::uint64_t>(osm_node_id);
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}
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if (phantom_node.reverse_segment_id.enabled)
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{
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auto segment_id = phantom_node.reverse_segment_id.id;
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const auto geometry_id = facade.GetGeometryIndex(segment_id).id;
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const auto geometry = facade.GetUncompressedForwardGeometry(geometry_id);
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auto osm_node_id =
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facade.GetOSMNodeIDOfNode(geometry(phantom_node.fwd_segment_position + 1));
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from_node = static_cast<std::uint64_t>(osm_node_id);
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}
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else if (phantom_node.forward_segment_id.enabled && phantom_node.fwd_segment_position > 0)
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{
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// In the case of one way, rely on forward segment only
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auto osm_node_id =
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facade.GetOSMNodeIDOfNode(forward_geometry(phantom_node.fwd_segment_position - 1));
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from_node = static_cast<std::uint64_t>(osm_node_id);
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}
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return std::make_pair(from_node, to_node);
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}
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};
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} // namespace api
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} // namespace engine
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} // namespace osrm
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#endif
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