示例#1
0
    void FixupArrivingTurnRestriction(const NodeID node_u,
                                      const NodeID node_v,
                                      const NodeID node_w,
                                      const GraphT &graph)
    {
        BOOST_ASSERT(node_u != SPECIAL_NODEID);
        BOOST_ASSERT(node_v != SPECIAL_NODEID);
        BOOST_ASSERT(node_w != SPECIAL_NODEID);

        if (!IsViaNode(node_u))
        {
            return;
        }

        // find all potential start edges. It is more efficient to get a (small) list
        // of potential start edges than iterating over all buckets
        std::vector<NodeID> predecessors;
        for (const EdgeID current_edge_id : graph.GetAdjacentEdgeRange(node_u))
        {
            const NodeID target = graph.GetTarget(current_edge_id);
            if (node_v != target)
            {
                predecessors.push_back(target);
            }
        }

        for (const NodeID node_x : predecessors)
        {
            const auto restriction_iterator = m_restriction_map.find({node_x, node_u});
            if (restriction_iterator == m_restriction_map.end())
            {
                continue;
            }

            const unsigned index = restriction_iterator->second;
            auto &bucket = m_restriction_bucket_list.at(index);

            for (RestrictionTarget &restriction_target : bucket)
            {
                if (node_v == restriction_target.target_node)
                {
                    restriction_target.target_node = node_w;
                }
            }
        }
    }
template <class Edge, typename GraphT> inline std::vector<Edge> toEdges(GraphT graph)
{
    std::vector<Edge> edges;
    edges.reserve(graph.GetNumberOfEdges());

    util::UnbufferedLog log;
    log << "Getting edges of minimized graph ";
    util::Percent p(log, graph.GetNumberOfNodes());
    const NodeID number_of_nodes = graph.GetNumberOfNodes();
    if (graph.GetNumberOfNodes())
    {
        Edge new_edge;
        for (const auto node : util::irange(0u, number_of_nodes))
        {
            p.PrintStatus(node);
            for (auto edge : graph.GetAdjacentEdgeRange(node))
            {
                const NodeID target = graph.GetTarget(edge);
                const ContractorGraph::EdgeData &data = graph.GetEdgeData(edge);
                new_edge.source = node;
                new_edge.target = target;
                BOOST_ASSERT_MSG(SPECIAL_NODEID != new_edge.target, "Target id invalid");
                new_edge.data.weight = data.weight;
                new_edge.data.duration = data.duration;
                new_edge.data.shortcut = data.shortcut;
                new_edge.data.turn_id = data.id;
                BOOST_ASSERT_MSG(new_edge.data.turn_id != INT_MAX, // 2^31
                                 "edge id invalid");
                new_edge.data.forward = data.forward;
                new_edge.data.backward = data.backward;
                edges.push_back(new_edge);
            }
        }
    }

    // sort and remove duplicates
    tbb::parallel_sort(edges.begin(), edges.end());
    auto new_end = std::unique(edges.begin(), edges.end());
    edges.resize(new_end - edges.begin());
    edges.shrink_to_fit();

    return edges;
}