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source: branches/1894_RoutePlanning/HeuristicLab.Problems.RoutePlanning/3.3/RoutingGraph/Graph.cs @ 17514

Last change on this file since 17514 was 8520, checked in by spimming, 12 years ago

#1894:

  • extended datasource interface to get routing graph for a specific vehicle type
  • use ICostCalculator to calculate edge weights
  • moved common enums in own file
  • removed method to estimate cost from graph; use ICostCalculator
File size: 6.3 KB
Line 
1
2using System;
3using System.Collections.Generic;
4using HeuristicLab.Problems.RoutePlanning.Interfaces;
5namespace HeuristicLab.Problems.RoutePlanning.RoutingGraph {
6  public class Graph : IGraph {
7    private IDictionary<long, Vertex> vertices;
8    private IDictionary<long, List<Edge<Vertex>>> adjacencyMap;
9    private IDictionary<long, List<Edge<Vertex>>> incidenceMap;
10
11    public Graph() {
12      vertices = new Dictionary<long, Vertex>();
13      adjacencyMap = new Dictionary<long, List<Edge<Vertex>>>();
14      incidenceMap = new Dictionary<long, List<Edge<Vertex>>>();
15    }
16
17    public void AddVertex(Vertex vertex) {
18      if (!vertices.ContainsKey(vertex.Id)) {
19        vertices.Add(vertex.Id, vertex);
20      }
21    }
22
23    public Vertex GetVertex(long id) {
24      Vertex vertex = null;
25      vertices.TryGetValue(id, out vertex);
26      return vertex;
27    }
28
29    public List<Vertex> GetVertices() {
30      return new List<Vertex>(vertices.Values);
31    }
32
33    public void AddEdge(long startId, long endId) {
34      Vertex start = GetVertex(startId);
35      if (start == null) throw new ArgumentException(string.Format("Invalid vertex id {0}", startId), "startId");
36      Vertex end = GetVertex(startId);
37      if (end == null) throw new ArgumentException(string.Format("Invalid vertex id {0}", endId), "endId");
38
39      Edge<Vertex> edge = new Edge<Vertex>(start, end);
40      //edge.Category = -1
41
42      AddEdge(edge);
43    }
44
45    public void AddEdge(Edge<Vertex> edge) {
46      if (!adjacencyMap.ContainsKey(edge.Source.Id)) {
47        adjacencyMap.Add(edge.Source.Id, new List<Edge<Vertex>>());
48      }
49      adjacencyMap[edge.Source.Id].Add(edge);
50
51      if (!incidenceMap.ContainsKey(edge.Target.Id)) {
52        incidenceMap.Add(edge.Target.Id, new List<Edge<Vertex>>());
53      }
54      incidenceMap[edge.Target.Id].Add(edge);
55    }
56
57    public void RemoveEdge(long startId, long endId) {
58      Edge<Vertex> edge = GetEdge(startId, endId);
59      if (edge != null) {
60        adjacencyMap[startId].Remove(edge);
61        incidenceMap[endId].Remove(edge);
62      }
63    }
64
65    public bool HasEdge(long startId, long endId) {
66      Edge<Vertex> edge = GetEdge(startId, endId);
67      return (edge != null);
68    }
69
70    public Edge<Vertex> GetEdge(long startId, long endId) {
71      List<Edge<Vertex>> edges = adjacencyMap[startId];
72      foreach (Edge<Vertex> edge in edges) {
73        if (edge.Target.Id == endId) {
74          return edge;
75        }
76      }
77      return null;
78    }
79
80    public List<Edge<Vertex>> GetInEdges(long vertexId) {
81      List<Edge<Vertex>> edges;
82      if (incidenceMap.TryGetValue(vertexId, out edges)) {
83        return edges;
84      } else {
85        return new List<Edge<Vertex>>();
86      }
87    }
88
89    public int GetInDegree(long vertexId) {
90      return incidenceMap[vertexId].Count;
91    }
92
93    public List<Edge<Vertex>> GetOutEdges(long vertexId) {
94      List<Edge<Vertex>> edges;
95      if (adjacencyMap.TryGetValue(vertexId, out edges)) {
96        return edges;
97      } else {
98        return new List<Edge<Vertex>>();
99      }
100
101    }
102
103    public int GetOutDegree(long vertexId) {
104      return adjacencyMap[vertexId].Count;
105    }
106
107    public List<Edge<Vertex>> GetEdges(long vertexId) {
108      List<Edge<Vertex>> result = new List<Edge<Vertex>>();
109      foreach (Edge<Vertex> edge in GetInEdges(vertexId)) {
110        if (!result.Contains(edge)) {
111          result.Add(edge);
112        }
113      }
114      foreach (Edge<Vertex> edge in GetOutEdges(vertexId)) {
115        if (!result.Contains(edge)) {
116          result.Add(edge);
117        }
118      }
119      return result;
120    }
121
122    public Dictionary<long, float> GetNeighborsWithWeight(long id) {
123      Dictionary<long, float> neighbors = new Dictionary<long, float>();
124      List<Edge<Vertex>> edges = GetOutEdges(id);
125      foreach (Edge<Vertex> edge in edges) {
126        // TODO: check if edge can be traversed (eg. highway tag for car roads, ...)
127        //float weight = GetWeight(edge); // TODO:  edge.Weight?
128        //neighbors[edge.Target.Id] = weight;
129        neighbors[edge.Target.Id] = edge.Weight;
130      }
131      return neighbors;
132    }
133    public Dictionary<long, float> GetNeighborsWithWeightReversed(long id) {
134      Dictionary<long, float> neighbors = new Dictionary<long, float>();
135      List<Edge<Vertex>> edges = GetInEdges(id);
136      foreach (Edge<Vertex> edge in edges) {
137        // TODO: check if edge can be traversed (eg. highway tag for car roads, ...)
138        //float weight = GetWeight(edge); // TODO:  edge.Weight?
139        //neighbors[edge.Source.Id] = weight;
140        neighbors[edge.Source.Id] = edge.Weight;
141      }
142      return neighbors;
143    }
144
145    //public float GetWeight(Edge<Vertex> edge) {
146    //  //double distance = Utils.Distance(edge.Source.Logitude, edge.Source.Latitude,
147    //  //                                 edge.Target.Logitude, edge.Target.Latitude);
148
149    //  PointD s = new PointD(edge.Source.Logitude, edge.Source.Latitude);
150    //  PointD t = new PointD(edge.Target.Logitude, edge.Target.Latitude);
151    //  double distance = Utils.LocationDistance(s, t);
152
153    //  //int speed = edge.GetMaxSpeed();
154    //  //double weight = (distance / speed) * 60;
155    //  //double weight = (distance / speed) * 3.6;
156    //  //double weight = (distance / speed);
157    //  //double weight = distance;
158    //  //return (float)weight;
159    //  return (float)1;
160    //}
161
162    //public float EstimatedCosts(long sourceId, long targetId) {
163    //  Vertex source = GetVertex(sourceId);
164    //  Vertex target = GetVertex(targetId);
165    //  return EstimatedCosts(source, target);
166    //}
167
168    //public float EstimatedCosts(Vertex source, Vertex target) {
169    //  //double distance = Utils.Distance(source.Logitude, source.Latitude,
170    //  //                                 target.Logitude, target.Latitude);
171
172    //  PointD s = new PointD(source.Logitude, source.Latitude);
173    //  PointD t = new PointD(target.Logitude, target.Latitude);
174    //  double distance = Utils.LocationDistance(s, t);
175
176    //  //int speed = 130;
177    //  //int speed = 10;
178    //  int speed = 130;
179    //  double costs = (distance / speed) * 60;
180    //  //double costs = (distance / speed) * 3.6;
181    //  //double costs = (distance / speed);
182    //  //double costs = distance;
183    //  return (float)costs;
184    //}
185  }
186}
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