osrm-backend/include/partition/edge_based_graph_reader.hpp

#ifndef OSRM_EDGE_BASED_GRAPH_READER_HPP
#define OSRM_EDGE_BASED_GRAPH_READER_HPP

#include "extractor/edge_based_edge.hpp"
#include "storage/io.hpp"
#include "util/coordinate.hpp"
#include "util/dynamic_graph.hpp"
#include "util/typedefs.hpp"

#include <cstdint>

#include <algorithm>
#include <iterator>
#include <memory>
#include <vector>

namespace osrm
{
namespace partition
{

struct EdgeBasedGraphEdgeData : extractor::EdgeBasedEdge
{
    // We need to write out the full edge based graph again.

    // TODO: in case we want to modify the graph we need to store a boundary_arc flag here
};

struct EdgeBasedGraph : util::DynamicGraph<EdgeBasedGraphEdgeData>
{
    using Base = util::DynamicGraph<EdgeBasedGraphEdgeData>;
    using Base::Base;
};

struct EdgeBasedGraphEdge : EdgeBasedGraph::InputEdge
{
    using Base = EdgeBasedGraph::InputEdge;
    using Base::Base;
};

struct EdgeBasedGraphReader
{
    EdgeBasedGraphReader(storage::io::FileReader &reader)
    {
        // Reads:  | Fingerprint | #e | max_eid | edges |
        // - uint64: number of edges
        // - EdgeID: max edge id
        // - extractor::EdgeBasedEdge edges
        //
        // Gets written in Extractor::WriteEdgeBasedGraph

        const auto num_edges = reader.ReadElementCount64();
        const auto max_edge_id = reader.ReadOne<EdgeID>();

        num_nodes = max_edge_id + 1;

        edges.resize(num_edges);
        reader.ReadInto(edges);
    }

    // FIXME: wrapped in unique_ptr since dynamic_graph is not move-able

    std::unique_ptr<EdgeBasedGraph> BuildEdgeBasedGraph()
    {
        // FIXME: The following is a rough adaption from:
        // - adaptToContractorInput
        // - GraphContractor::GraphContractor
        // and should really be abstracted over.

        auto directed = SplitBidirectionalEdges(edges);
        auto tidied = PrepareEdgesForUsageInGraph(directed);

        return std::make_unique<EdgeBasedGraph>(num_nodes, tidied);
    }

  private:
    // Bidirectional (s,t) to (s,t) and (t,s)
    static std::vector<extractor::EdgeBasedEdge>
    SplitBidirectionalEdges(std::vector<extractor::EdgeBasedEdge> edges)
    {
        std::vector<extractor::EdgeBasedEdge> directed;
        directed.reserve(edges.size() * 2);

        for (const auto &edge : edges)
        {
            directed.emplace_back(edge.source,
                                  edge.target,
                                  edge.edge_id,
                                  std::max(edge.weight, 1),
                                  edge.duration,
                                  edge.forward,
                                  edge.backward);

            directed.emplace_back(edge.target,
                                  edge.source,
                                  edge.edge_id,
                                  std::max(edge.weight, 1),
                                  edge.duration,
                                  edge.backward,
                                  edge.forward);
        }

        std::swap(directed, edges);

        return directed;
    }

    static std::vector<EdgeBasedGraphEdge>
    PrepareEdgesForUsageInGraph(std::vector<extractor::EdgeBasedEdge> edges)
    {
        std::sort(begin(edges), end(edges));

        std::vector<EdgeBasedGraphEdge> graph_edges;
        graph_edges.reserve(edges.size());

        for (NodeID i = 0; i < edges.size();)
        {
            const NodeID source = edges[i].source;
            const NodeID target = edges[i].target;

            // remove eigenloops
            if (source == target)
            {
                ++i;
                continue;
            }

            EdgeBasedGraphEdge forward_edge;
            EdgeBasedGraphEdge reverse_edge;
            forward_edge.source = reverse_edge.source = source;
            forward_edge.target = reverse_edge.target = target;
            forward_edge.data.edge_id = reverse_edge.data.edge_id = edges[i].edge_id;
            forward_edge.data.weight = reverse_edge.data.weight = INVALID_EDGE_WEIGHT;
            forward_edge.data.duration = reverse_edge.data.duration = MAXIMAL_EDGE_DURATION_INT_30;
            forward_edge.data.forward = reverse_edge.data.backward = true;
            forward_edge.data.backward = reverse_edge.data.forward = false;

            // remove parallel edges
            while (i < edges.size() && edges[i].source == source && edges[i].target == target)
            {
                if (edges[i].forward)
                {
                    forward_edge.data.weight = std::min(edges[i].weight, forward_edge.data.weight);
                    forward_edge.data.duration =
                        std::min(edges[i].duration, forward_edge.data.duration);
                }
                if (edges[i].backward)
                {
                    reverse_edge.data.weight = std::min(edges[i].weight, reverse_edge.data.weight);
                    reverse_edge.data.duration =
                        std::min(edges[i].duration, reverse_edge.data.duration);
                }
                ++i;
            }
            // merge edges (s,t) and (t,s) into bidirectional edge
            if (forward_edge.data.weight == reverse_edge.data.weight)
            {
                if ((int)forward_edge.data.weight != INVALID_EDGE_WEIGHT)
                {
                    forward_edge.data.backward = true;
                    graph_edges.push_back(forward_edge);
                }
            }
            else
            { // insert seperate edges
                if (((int)forward_edge.data.weight) != INVALID_EDGE_WEIGHT)
                {
                    graph_edges.push_back(forward_edge);
                }
                if ((int)reverse_edge.data.weight != INVALID_EDGE_WEIGHT)
                {
                    graph_edges.push_back(reverse_edge);
                }
            }
        }

        return graph_edges;
    }

    std::vector<extractor::EdgeBasedEdge> edges;
    std::size_t num_nodes;
};

inline std::unique_ptr<EdgeBasedGraph> LoadEdgeBasedGraph(const std::string &path)
{
    const auto fingerprint = storage::io::FileReader::VerifyFingerprint;
    storage::io::FileReader reader(path, fingerprint);

    EdgeBasedGraphReader builder{reader};

    return builder.BuildEdgeBasedGraph();
}

} // ns partition
} // ns osrm

#endif
Loads the edge based graph edges and constructs a dynamic graph from it 2017-02-03 10:03:11 -05:00			`#ifndef OSRM_EDGE_BASED_GRAPH_READER_HPP`
			`#define OSRM_EDGE_BASED_GRAPH_READER_HPP`

fix edge duration truncation in partition, pending global fix fix windows compilation no multi line warnings sanitze on mason with newer TBB 2017-02-15 04:19:33 -05:00			`#include "extractor/edge_based_edge.hpp"`
Loads the edge based graph edges and constructs a dynamic graph from it 2017-02-03 10:03:11 -05:00			`#include "storage/io.hpp"`
			`#include "util/coordinate.hpp"`
			`#include "util/dynamic_graph.hpp"`
			`#include "util/typedefs.hpp"`

			`#include <cstdint>`

			`#include <algorithm>`
			`#include <iterator>`
			`#include <memory>`
			`#include <vector>`

			`namespace osrm`
			`{`
			`namespace partition`
			`{`

Re-use the extractor edge based edge for loading the ebg in osrm-partition 2017-02-14 11:30:28 -05:00			`struct EdgeBasedGraphEdgeData : extractor::EdgeBasedEdge`
Loads the edge based graph edges and constructs a dynamic graph from it 2017-02-03 10:03:11 -05:00			`{`
Re-use the extractor edge based edge for loading the ebg in osrm-partition 2017-02-14 11:30:28 -05:00			`// We need to write out the full edge based graph again.`

			`// TODO: in case we want to modify the graph we need to store a boundary_arc flag here`
Loads the edge based graph edges and constructs a dynamic graph from it 2017-02-03 10:03:11 -05:00			`};`

			`struct EdgeBasedGraph : util::DynamicGraph<EdgeBasedGraphEdgeData>`
			`{`
			`using Base = util::DynamicGraph<EdgeBasedGraphEdgeData>;`
			`using Base::Base;`
			`};`

			`struct EdgeBasedGraphEdge : EdgeBasedGraph::InputEdge`
			`{`
			`using Base = EdgeBasedGraph::InputEdge;`
			`using Base::Base;`
			`};`

			`struct EdgeBasedGraphReader`
			`{`
			`EdgeBasedGraphReader(storage::io::FileReader &reader)`
			`{`
			`// Reads: \| Fingerprint \| #e \| max_eid \| edges \|`
			`// - uint64: number of edges`
			`// - EdgeID: max edge id`
			`// - extractor::EdgeBasedEdge edges`
			`//`
			`// Gets written in Extractor::WriteEdgeBasedGraph`

			`const auto num_edges = reader.ReadElementCount64();`
			`const auto max_edge_id = reader.ReadOne<EdgeID>();`

			`num_nodes = max_edge_id + 1;`

			`edges.resize(num_edges);`
			`reader.ReadInto(edges);`
			`}`

			`// FIXME: wrapped in unique_ptr since dynamic_graph is not move-able`

			`std::unique_ptr<EdgeBasedGraph> BuildEdgeBasedGraph()`
			`{`
			`// FIXME: The following is a rough adaption from:`
			`// - adaptToContractorInput`
			`// - GraphContractor::GraphContractor`
			`// and should really be abstracted over.`

			`auto directed = SplitBidirectionalEdges(edges);`
			`auto tidied = PrepareEdgesForUsageInGraph(directed);`

			`return std::make_unique<EdgeBasedGraph>(num_nodes, tidied);`
			`}`

			`private:`
			`// Bidirectional (s,t) to (s,t) and (t,s)`
			`static std::vector<extractor::EdgeBasedEdge>`
			`SplitBidirectionalEdges(std::vector<extractor::EdgeBasedEdge> edges)`
			`{`
			`std::vector<extractor::EdgeBasedEdge> directed;`
			`directed.reserve(edges.size() * 2);`

			`for (const auto &edge : edges)`
			`{`
			`directed.emplace_back(edge.source,`
			`edge.target,`
			`edge.edge_id,`
			`std::max(edge.weight, 1),`
			`edge.duration,`
			`edge.forward,`
			`edge.backward);`

			`directed.emplace_back(edge.target,`
			`edge.source,`
			`edge.edge_id,`
			`std::max(edge.weight, 1),`
			`edge.duration,`
			`edge.backward,`
			`edge.forward);`
			`}`

			`std::swap(directed, edges);`

			`return directed;`
			`}`

			`static std::vector<EdgeBasedGraphEdge>`
			`PrepareEdgesForUsageInGraph(std::vector<extractor::EdgeBasedEdge> edges)`
			`{`
			`std::sort(begin(edges), end(edges));`

			`std::vector<EdgeBasedGraphEdge> graph_edges;`
			`graph_edges.reserve(edges.size());`

			`for (NodeID i = 0; i < edges.size();)`
			`{`
			`const NodeID source = edges[i].source;`
			`const NodeID target = edges[i].target;`

			`// remove eigenloops`
			`if (source == target)`
			`{`
			`++i;`
			`continue;`
			`}`

			`EdgeBasedGraphEdge forward_edge;`
			`EdgeBasedGraphEdge reverse_edge;`
			`forward_edge.source = reverse_edge.source = source;`
			`forward_edge.target = reverse_edge.target = target;`
			`forward_edge.data.edge_id = reverse_edge.data.edge_id = edges[i].edge_id;`
			`forward_edge.data.weight = reverse_edge.data.weight = INVALID_EDGE_WEIGHT;`
fix edge duration truncation in partition, pending global fix fix windows compilation no multi line warnings sanitze on mason with newer TBB 2017-02-15 04:19:33 -05:00			`forward_edge.data.duration = reverse_edge.data.duration = MAXIMAL_EDGE_DURATION_INT_30;`
Loads the edge based graph edges and constructs a dynamic graph from it 2017-02-03 10:03:11 -05:00			`forward_edge.data.forward = reverse_edge.data.backward = true;`
			`forward_edge.data.backward = reverse_edge.data.forward = false;`

			`// remove parallel edges`
			`while (i < edges.size() && edges[i].source == source && edges[i].target == target)`
			`{`
			`if (edges[i].forward)`
			`{`
			`forward_edge.data.weight = std::min(edges[i].weight, forward_edge.data.weight);`
			`forward_edge.data.duration =`
			`std::min(edges[i].duration, forward_edge.data.duration);`
			`}`
			`if (edges[i].backward)`
			`{`
			`reverse_edge.data.weight = std::min(edges[i].weight, reverse_edge.data.weight);`
			`reverse_edge.data.duration =`
			`std::min(edges[i].duration, reverse_edge.data.duration);`
			`}`
			`++i;`
			`}`
			`// merge edges (s,t) and (t,s) into bidirectional edge`
			`if (forward_edge.data.weight == reverse_edge.data.weight)`
			`{`
			`if ((int)forward_edge.data.weight != INVALID_EDGE_WEIGHT)`
			`{`
			`forward_edge.data.backward = true;`
			`graph_edges.push_back(forward_edge);`
			`}`
			`}`
			`else`
			`{ // insert seperate edges`
			`if (((int)forward_edge.data.weight) != INVALID_EDGE_WEIGHT)`
			`{`
			`graph_edges.push_back(forward_edge);`
			`}`
			`if ((int)reverse_edge.data.weight != INVALID_EDGE_WEIGHT)`
			`{`
			`graph_edges.push_back(reverse_edge);`
			`}`
			`}`
			`}`

			`return graph_edges;`
			`}`

			`std::vector<extractor::EdgeBasedEdge> edges;`
			`std::size_t num_nodes;`
			`};`

			`inline std::unique_ptr<EdgeBasedGraph> LoadEdgeBasedGraph(const std::string &path)`
			`{`
			`const auto fingerprint = storage::io::FileReader::VerifyFingerprint;`
			`storage::io::FileReader reader(path, fingerprint);`

			`EdgeBasedGraphReader builder{reader};`

			`return builder.BuildEdgeBasedGraph();`
			`}`

			`} // ns partition`
			`} // ns osrm`

			`#endif`