using Logging; using System.Xml; using Graph; namespace OpenStreetMap_Importer { public class Importer { public static Dictionary Import(ref Logger logger) { List ways = new List(); Dictionary nodes = new Dictionary(); bool wayTag = false; Way currentWay = new Way(); /* * First iteration * Import "ways" with a tag "highway" and add the node-ids to the list of nodes */ XmlReaderSettings readerSettings = new XmlReaderSettings() { IgnoreWhitespace = true, IgnoreComments = true }; XmlReader reader = XmlReader.Create(new MemoryStream(OSM_Data.map), readerSettings); reader.MoveToContent(); while (reader.Read()) { if (reader.Name == "way" && reader.IsStartElement()) { logger.Log(loglevel.VERBOSE, "WAY {0} nodes {1}", currentWay.highway.ToString(), currentWay.nodeIds.Count); if (currentWay.highway != Way.highwayType.NONE) { ways.Add(currentWay); foreach (ulong id in currentWay.nodeIds) nodes.TryAdd(id, Node.nullnode); } wayTag = true; currentWay = new Way(); } else if (reader.Name == "tag" && wayTag) { #pragma warning disable CS8600 //tags will always have a value and key #pragma warning disable CS8604 string value = reader.GetAttribute("v"); string key = reader.GetAttribute("k"); logger.Log(loglevel.VERBOSE, "TAG {0} {1}", key, value); #pragma warning restore CS8600 #pragma warning restore CS8604 switch (key) { case "highway": currentWay.SetHighwayType(value); break; case "oneway": switch (value) { case "yes": currentWay.oneway = true; break; /*case "no": currentWay.oneway = false; break;*/ case "-1": currentWay.oneway = true; currentWay.direction = Way.wayDirection.backward; break; } break; /*case "name": break;*/ } } else if(reader.Name == "nd" && wayTag) { ulong id = Convert.ToUInt64(reader.GetAttribute("ref")); currentWay.nodeIds.Add(id); } else if(reader.Name == "node") { wayTag = false; } } logger.Log(loglevel.DEBUG, "Ways: {0} Nodes: {1}", ways.Count, nodes.Count); reader.Close(); reader = XmlReader.Create(new MemoryStream(OSM_Data.map), readerSettings); reader.MoveToContent(); /* * Second iteration * Import nodes that are needed by the "ways" */ while (reader.Read()) { if (reader.Name == "node") { ulong id = Convert.ToUInt64(reader.GetAttribute("id")); if (nodes.ContainsKey(id)) { #pragma warning disable CS8602 //node will always have a lat and lon float lat = Convert.ToSingle(reader.GetAttribute("lat").Replace('.', ',')); float lon = Convert.ToSingle(reader.GetAttribute("lon").Replace('.', ',')); #pragma warning restore CS8602 nodes[id] = new Node(lat, lon); logger.Log(loglevel.VERBOSE, "NODE {0} {1} {2}", id, lat, lon); } } } logger.Log(loglevel.INFO, "Import finished. Calculating distances."); /* * Add connections between nodes based on ways and calculate distance */ ulong edges = 0; foreach(Way way in ways) { if (way.direction == Way.wayDirection.forward) { for (int index = 0; index < way.nodeIds.Count - 1; index++) { Node currentNode = nodes[way.nodeIds[index]]; Node neighborNode = nodes[way.nodeIds[index + 1]]; double weight = Utils.DistanceBetweenNodes(currentNode, neighborNode); currentNode.edges.Add(new Edge(neighborNode, weight)); logger.Log(loglevel.VERBOSE, "EDGE {0} -- {1} --> {2}", way.nodeIds[index], weight, way.nodeIds[index + 1]); edges++; if (!way.oneway) { neighborNode.edges.Add(new Edge(currentNode, weight)); edges++; } } } else { for (int index = way.nodeIds.Count - 1; index > 1; index--) { Node currentNode = nodes[way.nodeIds[index]]; Node neighborNode = nodes[way.nodeIds[index - 1]]; double weight = Utils.DistanceBetweenNodes(currentNode, neighborNode); currentNode.edges.Add(new Edge(neighborNode, weight)); logger.Log(loglevel.VERBOSE, "EDGE {0} -- {1} --> {2}", way.nodeIds[index], weight, way.nodeIds[index - 1]); edges++; if (!way.oneway) { neighborNode.edges.Add(new Edge(currentNode, weight)); edges++; } } } } reader.Close(); logger.Log(loglevel.DEBUG, "Edges: {0}", edges); return nodes; } internal struct Way { public List nodeIds; public bool oneway; public wayDirection direction; public highwayType highway; public enum wayDirection { forward, backward } public enum highwayType { NONE, motorway, trunk, primary, secondary, tertiary, unclassified, residential, motorway_link, trunk_link, primary_link, secondary_link, tertiary_link, living_street, service, pedestrian, track, bus_guideway, escape, raceway, road, busway, footway, bridleway, steps, corridor, path, cycleway, construction} public Way() { this.nodeIds = new List(); this.oneway = false; this.direction = wayDirection.forward; this.highway = highwayType.NONE; } public void SetHighwayType(string waytype) { try { this.highway = (highwayType)Enum.Parse(typeof(highwayType), waytype, true); }catch(Exception) { this.highway = highwayType.NONE; } } } } }