import {dijkstra, haversine_distance, obvious_dijkstra} from "../tools/ShortestPath"; import {sill, sill_unwrap, noexcept} from "../tools/Debug"; import {get_row} from "../tools/Misc"; import benchmark from "../tools/PathBench"; const __spa = benchmark; function find_nearest_node_id(nodes, point) { const [lat, lon] = point; let min_distance = 1e100; let res = ''; for (let node_id in nodes) { const curr_distance = haversine_distance(nodes[node_id], point); if (curr_distance < min_distance) { min_distance = curr_distance; res = node_id; } } return res; } const shortest_path = noexcept((nodes, ways, start_point, end_point) => { // const clean_nodes = nodes; const count = {}; const aff = {}; const clean_nodes = {}; for (const way_id in ways) { // sill_unwrap(way_id); const st = new Set(); const [l, n] = get_row(ways, way_id); for (let i = 0; i < n; ++i) { const curr = l[i]; if (st.has(curr)) continue; st.add(curr); clean_nodes[curr] = nodes[curr]; if (count[curr]) { ++count[curr]; } else { count[curr] = 1; } if (aff[curr]) { aff[curr][way_id] = true; } else { aff[curr] = {[way_id]: true}; } } } sill_unwrap(aff); const actual_start_node_id = find_nearest_node_id(clean_nodes, start_point); const actual_end_node_id = find_nearest_node_id(clean_nodes, end_point); sill_unwrap(typeof (actual_start_node_id)); // sill(count); const ch_dict = {}; let f = 1; for (const t in ways) { if (t === ways[aff[actual_start_node_id]]) sill('yes'); const [l, n] = get_row(ways, t); let prev = ''; for (let i = 0; i < n; ++i) { const curr = l[i].toString(); // if(true) { if (count[curr] > 1 || curr === actual_end_node_id || curr === actual_start_node_id) { if (curr === actual_start_node_id) sill(curr === actual_start_node_id); if (prev !== '') { if (ch_dict[curr]) { ch_dict[curr].push(prev); } else { ch_dict[curr] = [prev]; } if (ch_dict[prev]) { ch_dict[prev].push(curr); } else { ch_dict[prev] = [curr]; } } prev = curr; } } } // const clean_nodes = {}; // Object.keys(nodes).forEach((node_id) => { // if (ch_dict[node_id]) clean_nodes[node_id] = nodes[node_id]; // }); sill(`start distance: ${haversine_distance(nodes[actual_start_node_id], start_point)}`); sill(`dest distance: ${haversine_distance(nodes[actual_end_node_id], end_point)}`); sill("calling __spa..."); const seq = __spa(nodes, clean_nodes, ways, ch_dict, count, aff, actual_start_node_id, actual_end_node_id); const res = [end_point]; seq.forEach((node_id) => { if (clean_nodes[node_id]) res.push(clean_nodes[node_id]); }); res.push(start_point); return res; }); export default function handler(req, res) { const pts = JSON.parse(req.body); const latRange = pts.map((row) => row[0]), lonRange = pts.map((row) => row[1]); const minlon = Math.min(...lonRange) - 0.01, minlat = Math.min(...latRange) - 0.01, maxlon = Math.max(...lonRange) + 0.01, maxlat = Math.max(...latRange) + 0.01; if (haversine_distance([minlat, minlon], [maxlat, maxlon]) > 100) { res.status(500); return; } const request_uri = `https://www.overpass-api.de/api/interpreter?data=[out:json];way[highway](${minlat},${minlon},${maxlat},${maxlon});(._;>;);out body;`; sill(`Requesting ${request_uri}`); const fetch_debug_response = fetch(request_uri).then((response) => { return response.json(); }); fetch_debug_response.then((debug_response) => { // sill(debug_response); let ps = {}; let ws = {}; debug_response.elements.forEach((it) => { if (it.type === "node") { ps[it.id] = [it.lat, it.lon]; } else if (it.type === "way") { ws[it.id] = it.nodes; } }); const path_found = shortest_path(ps, ws, pts[0], pts[pts.length - 1]); res.status(200).json({ log: `Method: click\nArgs: ${pts}\nStatus: requested "${request_uri}", got response ${JSON.stringify(debug_response.elements)}`, multipolyline: JSON.stringify(path_found), // __debug_pts: ps }); }).catch(e => { console.debug(e); res.status(500); }); }