explicit ViaRoutePlugin(DataFacadeT *facade) : descriptor_string("viaroute"), facade(facade)
{
search_engine_ptr = osrm::make_unique<SearchEngine<DataFacadeT>>(facade);
descriptor_table.emplace("json", 0);
descriptor_table.emplace("gpx", 1);
// descriptor_table.emplace("geojson", 2);
}
Status HandleRequest(const RouteParameters &route_parameters,
osrm::json::Object &json_result) override final
{
if (max_locations_viaroute > 0 &&
(static_cast<int>(route_parameters.coordinates.size()) > max_locations_viaroute))
{
json_result.values["status_message"] =
"Number of entries " + std::to_string(route_parameters.coordinates.size()) +
" is higher than current maximum (" + std::to_string(max_locations_viaroute) + ")";
return Status::Error;
}
if (!check_all_coordinates(route_parameters.coordinates))
{
json_result.values["status_message"] = "Invalid coordinates";
return Status::Error;
}
const auto &input_bearings = route_parameters.bearings;
if (input_bearings.size() > 0 &&
route_parameters.coordinates.size() != input_bearings.size())
{
json_result.values["status_message"] =
"Number of bearings does not match number of coordinate";
return Status::Error;
}
std::vector<PhantomNodePair> phantom_node_pair_list(route_parameters.coordinates.size());
const bool checksum_OK = (route_parameters.check_sum == facade->GetCheckSum());
for (const auto i : osrm::irange<std::size_t>(0, route_parameters.coordinates.size()))
{
if (checksum_OK && i < route_parameters.hints.size() &&
!route_parameters.hints[i].empty())
{
ObjectEncoder::DecodeFromBase64(route_parameters.hints[i],
phantom_node_pair_list[i].first);
if (phantom_node_pair_list[i].first.is_valid(facade->GetNumberOfNodes()))
{
continue;
}
}
const int bearing = input_bearings.size() > 0 ? input_bearings[i].first : 0;
const int range = input_bearings.size() > 0
? (input_bearings[i].second ? *input_bearings[i].second : 10)
: 180;
phantom_node_pair_list[i] = facade->NearestPhantomNodeWithAlternativeFromBigComponent(
route_parameters.coordinates[i], bearing, range);
// we didn't found a fitting node, return error
if (!phantom_node_pair_list[i].first.is_valid(facade->GetNumberOfNodes()))
{
json_result.values["status_message"] =
std::string("Could not find a matching segment for coordinate ") +
std::to_string(i);
return Status::NoSegment;
}
BOOST_ASSERT(phantom_node_pair_list[i].first.is_valid(facade->GetNumberOfNodes()));
BOOST_ASSERT(phantom_node_pair_list[i].second.is_valid(facade->GetNumberOfNodes()));
}
auto snapped_phantoms = snapPhantomNodes(phantom_node_pair_list);
InternalRouteResult raw_route;
auto build_phantom_pairs = [&raw_route](const PhantomNode &first_node,
const PhantomNode &second_node)
{
raw_route.segment_end_coordinates.push_back(PhantomNodes{first_node, second_node});
};
osrm::for_each_pair(snapped_phantoms, build_phantom_pairs);
if (1 == raw_route.segment_end_coordinates.size())
{
if (route_parameters.alternate_route)
{
search_engine_ptr->alternative_path(raw_route.segment_end_coordinates.front(),
raw_route);
}
else
{
search_engine_ptr->direct_shortest_path(raw_route.segment_end_coordinates,
route_parameters.uturns, raw_route);
}
}
else
{
search_engine_ptr->shortest_path(raw_route.segment_end_coordinates,
route_parameters.uturns, raw_route);
}
bool no_route = INVALID_EDGE_WEIGHT == raw_route.shortest_path_length;
std::unique_ptr<BaseDescriptor<DataFacadeT>> descriptor;
switch (descriptor_table.get_id(route_parameters.output_format))
{
case 1:
descriptor = osrm::make_unique<GPXDescriptor<DataFacadeT>>(facade);
break;
// case 2:
// descriptor = osrm::make_unique<GEOJSONDescriptor<DataFacadeT>>();
// break;
default:
descriptor = osrm::make_unique<JSONDescriptor<DataFacadeT>>(facade);
break;
}
descriptor->SetConfig(route_parameters);
descriptor->Run(raw_route, json_result);
// we can only know this after the fact, different SCC ids still
// allow for connection in one direction.
if (no_route)
{
auto first_component_id = snapped_phantoms.front().component.id;
auto not_in_same_component =
std::any_of(snapped_phantoms.begin(), snapped_phantoms.end(),
[first_component_id](const PhantomNode &node)
{
return node.component.id != first_component_id;
});
if (not_in_same_component)
{
json_result.values["status_message"] = "Impossible route between points";
return Status::EmptyResult;
}
}
else
{
json_result.values["status_message"] = "Found route between points";
}
return Status::Ok;
}
int HandleRequest(const RouteParameters &route_parameters,
osrm::json::Object &json_result) override final
{
if (!check_all_coordinates(route_parameters.coordinates))
{
return 400;
}
std::vector<phantom_node_pair> phantom_node_pair_list(route_parameters.coordinates.size());
const bool checksum_OK = (route_parameters.check_sum == facade->GetCheckSum());
for (const auto i : osrm::irange<std::size_t>(0, route_parameters.coordinates.size()))
{
if (checksum_OK && i < route_parameters.hints.size() &&
!route_parameters.hints[i].empty())
{
ObjectEncoder::DecodeFromBase64(route_parameters.hints[i],
phantom_node_pair_list[i]);
if (phantom_node_pair_list[i].first.is_valid(facade->GetNumberOfNodes()))
{
continue;
}
}
std::vector<PhantomNode> phantom_node_vector;
if (facade->IncrementalFindPhantomNodeForCoordinate(route_parameters.coordinates[i],
phantom_node_vector, 1))
{
BOOST_ASSERT(!phantom_node_vector.empty());
phantom_node_pair_list[i].first = phantom_node_vector.front();
if (phantom_node_vector.size() > 1)
{
phantom_node_pair_list[i].second = phantom_node_vector.back();
}
}
}
auto check_component_id_is_tiny = [](const phantom_node_pair &phantom_pair)
{
return phantom_pair.first.component_id != 0;
};
const bool every_phantom_is_in_tiny_cc =
std::all_of(std::begin(phantom_node_pair_list), std::end(phantom_node_pair_list),
check_component_id_is_tiny);
// are all phantoms from a tiny cc?
const auto component_id = phantom_node_pair_list.front().first.component_id;
auto check_component_id_is_equal = [component_id](const phantom_node_pair &phantom_pair)
{
return component_id == phantom_pair.first.component_id;
};
const bool every_phantom_has_equal_id =
std::all_of(std::begin(phantom_node_pair_list), std::end(phantom_node_pair_list),
check_component_id_is_equal);
auto swap_phantom_from_big_cc_into_front = [](phantom_node_pair &phantom_pair)
{
if (0 != phantom_pair.first.component_id)
{
using namespace std;
swap(phantom_pair.first, phantom_pair.second);
}
};
// this case is true if we take phantoms from the big CC
if (!every_phantom_is_in_tiny_cc || !every_phantom_has_equal_id)
{
std::for_each(std::begin(phantom_node_pair_list), std::end(phantom_node_pair_list),
swap_phantom_from_big_cc_into_front);
}
InternalRouteResult raw_route;
auto build_phantom_pairs =
[&raw_route](const phantom_node_pair &first_pair, const phantom_node_pair &second_pair)
{
raw_route.segment_end_coordinates.emplace_back(
PhantomNodes{first_pair.first, second_pair.first});
};
osrm::for_each_pair(phantom_node_pair_list, build_phantom_pairs);
if (route_parameters.alternate_route && 1 == raw_route.segment_end_coordinates.size())
{
search_engine_ptr->alternative_path(raw_route.segment_end_coordinates.front(),
raw_route);
}
else
{
search_engine_ptr->shortest_path(raw_route.segment_end_coordinates,
route_parameters.uturns, raw_route);
}
if (INVALID_EDGE_WEIGHT == raw_route.shortest_path_length)
{
SimpleLogger().Write(logDEBUG) << "Error occurred, single path not found";
}
std::unique_ptr<BaseDescriptor<DataFacadeT>> descriptor;
switch (descriptor_table.get_id(route_parameters.output_format))
{
case 1:
descriptor = osrm::make_unique<GPXDescriptor<DataFacadeT>>(facade);
break;
// case 2:
// descriptor = osrm::make_unique<GEOJSONDescriptor<DataFacadeT>>();
// break;
default:
descriptor = osrm::make_unique<JSONDescriptor<DataFacadeT>>(facade);
break;
}
DescriptorConfig config = route_parameters;
descriptor->SetConfig(config);
descriptor->Run(raw_route, json_result);
return 200;
}
