#ifndef GRAPH_LOADER_HPP
#define GRAPH_LOADER_HPP
#include "extractor/external_memory_node.hpp"
#include "extractor/node_based_edge.hpp"
#include "extractor/query_node.hpp"
#include "extractor/restriction.hpp"
#include "storage/io.hpp"
#include "util/exception.hpp"
#include "util/fingerprint.hpp"
#include "util/log.hpp"
#include "util/typedefs.hpp"
#include <boost/assert.hpp>
#include <boost/filesystem.hpp>
#include <boost/filesystem/fstream.hpp>
#include <tbb/parallel_sort.h>
#include <cmath>
#include <fstream>
#include <ios>
#include <unordered_set>
#include <vector>
namespace osrm
{
namespace util
{
/**
* Reads the .restrictions file and loads it to a vector.
* The since the restrictions reference nodes using their external node id,
* we need to renumber it to the new internal id.
*/
inline unsigned loadRestrictionsFromFile(storage::io::FileReader &file_reader,
std::vector<extractor::TurnRestriction> &restriction_list)
{
unsigned number_of_usable_restrictions = file_reader.ReadElementCount32();
restriction_list.resize(number_of_usable_restrictions);
if (number_of_usable_restrictions > 0)
{
file_reader.ReadInto(restriction_list.data(), number_of_usable_restrictions);
}
return number_of_usable_restrictions;
}
/**
* Reads the beginning of an .osrm file and produces:
* - barrier nodes
* - traffic lights
* - nodes indexed by their internal (non-osm) id
*/
template <typename BarrierOutIter, typename TrafficSignalsOutIter>
NodeID loadNodesFromFile(storage::io::FileReader &file_reader,
BarrierOutIter barriers,
TrafficSignalsOutIter traffic_signals,
std::vector<extractor::QueryNode> &node_array)
{
NodeID number_of_nodes = file_reader.ReadElementCount32();
Log() << "Importing number_of_nodes new = " << number_of_nodes << " nodes ";
node_array.resize(number_of_nodes);
extractor::ExternalMemoryNode current_node;
for (NodeID i = 0; i < number_of_nodes; ++i)
{
file_reader.ReadInto(¤t_node, 1);
node_array[i].lon = current_node.lon;
node_array[i].lat = current_node.lat;
node_array[i].node_id = current_node.node_id;
if (current_node.barrier)
{
*barriers = i;
++barriers;
}
if (current_node.traffic_lights)
{
*traffic_signals = i;
++traffic_signals;
}
}
return number_of_nodes;
}
/**
* Reads a .osrm file and produces the edges.
*/
inline NodeID loadEdgesFromFile(storage::io::FileReader &file_reader,
std::vector<extractor::NodeBasedEdge> &edge_list)
{
EdgeID number_of_edges = file_reader.ReadElementCount32();
BOOST_ASSERT(sizeof(EdgeID) == sizeof(number_of_edges));
edge_list.resize(number_of_edges);
Log() << " and " << number_of_edges << " edges ";
file_reader.ReadInto(edge_list.data(), number_of_edges);
BOOST_ASSERT(edge_list.size() > 0);
#ifndef NDEBUG
Log() << "Validating loaded edges...";
tbb::parallel_sort(
edge_list.begin(),
edge_list.end(),
[](const extractor::NodeBasedEdge &lhs, const extractor::NodeBasedEdge &rhs) {
return (lhs.source < rhs.source) ||
(lhs.source == rhs.source && lhs.target < rhs.target);
});
for (auto i = 1u; i < edge_list.size(); ++i)
{
const auto &edge = edge_list[i];
const auto &prev_edge = edge_list[i - 1];
BOOST_ASSERT_MSG(edge.weight > 0, "loaded null weight");
BOOST_ASSERT_MSG(edge.forward, "edge must be oriented in forward direction");
BOOST_ASSERT_MSG(edge.travel_mode != TRAVEL_MODE_INACCESSIBLE, "loaded non-accessible");
BOOST_ASSERT_MSG(edge.source != edge.target, "loaded edges contain a loop");
BOOST_ASSERT_MSG(edge.source != prev_edge.source || edge.target != prev_edge.target,
"loaded edges contain a multi edge");
}
#endif
Log() << "Graph loaded ok and has " << edge_list.size() << " edges";
return number_of_edges;
}
}
}
#endif // GRAPH_LOADER_HPP