Free cookie consent management tool by TermsFeed Policy Generator

source: branches/2205_OptimizationNetworks/HeuristicLab.Networks.IntegratedOptimization.TravelingThief/3.3/TtpUtils.cs @ 17187

Last change on this file since 17187 was 14653, checked in by jkarder, 8 years ago

#2205: worked on optimization networks

  • improved ttp evaluation
File size: 6.1 KB
Line 
1using System;
2using System.Collections.Generic;
3using System.IO;
4using System.Linq;
5using HeuristicLab.Data;
6using HeuristicLab.Problems.TravelingSalesman;
7
8namespace HeuristicLab.Networks.IntegratedOptimization.TravelingThief {
9  public static class TtpUtils {
10    public enum DistanceType {
11      Unknown = int.MinValue,
12      CEIL_2D = 0,
13      EUC_2D = 1,
14    }
15
16    public static void Import(string filePath, out double[,] tspCoordinates,
17                                               out DistanceType distanceType,
18                                               out int kspCapacity,
19                                               out int[] kspItemValues,
20                                               out int[] kspItemWeights,
21                                               out int[] ttpAvailability,
22                                               out double ttpMinSpeed,
23                                               out double ttpMaxSpeed,
24                                               out double ttpRentingRatio) {
25      int nrOfCities = 0, nrOfItems = 0; kspCapacity = 0;
26      ttpMinSpeed = 0.0; ttpMaxSpeed = 0.0; ttpRentingRatio = 0.0;
27      distanceType = DistanceType.Unknown;
28
29      using (var fs = new FileStream(filePath, FileMode.Open))
30      using (var sr = new StreamReader(fs)) {
31        string input;
32        while ((input = sr.ReadLine()) != null && !input.Contains("NODE_COORD_SECTION")) {
33          if (input.Contains("DIMENSION:")) int.TryParse(input.Replace("DIMENSION:", string.Empty), out nrOfCities);
34          if (input.Contains("NUMBER OF ITEMS:")) int.TryParse(input.Replace("NUMBER OF ITEMS:", string.Empty), out nrOfItems);
35          if (input.Contains("CAPACITY OF KNAPSACK:")) int.TryParse(input.Replace("CAPACITY OF KNAPSACK:", string.Empty), out kspCapacity);
36          if (input.Contains("MIN SPEED:")) double.TryParse(input.Replace("MIN SPEED:", string.Empty), out ttpMinSpeed);
37          if (input.Contains("MAX SPEED:")) double.TryParse(input.Replace("MAX SPEED:", string.Empty), out ttpMaxSpeed);
38          if (input.Contains("RENTING RATIO:")) double.TryParse(input.Replace("RENTING RATIO:", string.Empty), out ttpRentingRatio);
39          if (input.Contains("EDGE_WEIGHT_TYPE:")) Enum.TryParse(input.Replace("EDGE_WEIGHT_TYPE:", string.Empty), out distanceType);
40        }
41
42        tspCoordinates = new double[nrOfCities, 2];
43        kspItemValues = new int[nrOfItems];
44        kspItemWeights = new int[nrOfItems];
45        ttpAvailability = new int[nrOfItems];
46
47        // read cities
48        while ((input = sr.ReadLine()) != null && !input.Contains("ITEMS SECTION")) {
49          string[] data = input.Split('\t');
50          int index; double x, y;
51          int.TryParse(data[0], out index);
52          double.TryParse(data[1], out x);
53          double.TryParse(data[2], out y);
54          tspCoordinates[index - 1, 0] = x;
55          tspCoordinates[index - 1, 1] = y;
56        }
57        // read items
58        while ((input = sr.ReadLine()) != null) {
59          string[] data = input.Split('\t');
60          int index, value, weight, city;
61          int.TryParse(data[0], out index);
62          int.TryParse(data[1], out value);
63          int.TryParse(data[2], out weight);
64          int.TryParse(data[3], out city);
65          kspItemValues[index - 1] = value;
66          kspItemWeights[index - 1] = weight;
67          ttpAvailability[index - 1] = city - 1;
68        }
69      }
70    }
71
72    public static double Evaluate(TravelingSalesmanProblem tsp, int[] tour, BinaryKnapsackProblem ksp, bool[] loot, Dictionary<int, int[]> availability, double rentingRatio, double minSpeed, double maxSpeed) {
73      double collectedWeight = 0.0;
74      double objectiveValue = 0.0;
75      double infeasibleBaseLine = -1000000.0;
76      double speedCoefficient = (maxSpeed - minSpeed) / ksp.KnapsackCapacity.Value;
77
78      int hideoutIdx = 0;
79      while (tour[hideoutIdx] != 0) hideoutIdx++;
80      int cityIdx = (hideoutIdx + 1) % tour.Length;
81      int lastCityIdx = hideoutIdx;
82
83      while (cityIdx != hideoutIdx) {
84        double oldCollectedWeight = collectedWeight;
85
86        foreach (var itemIdx in availability[tour[cityIdx]]) {
87          if (!loot[itemIdx]) continue;
88          collectedWeight += ksp.Weights[itemIdx];
89          objectiveValue += ksp.Values[itemIdx];
90        }
91
92        objectiveValue -= tsp.DistanceMatrix[tour[lastCityIdx], tour[cityIdx]] * rentingRatio / (maxSpeed - speedCoefficient * oldCollectedWeight);
93        lastCityIdx = cityIdx;
94        cityIdx = (cityIdx + 1) % tour.Length;
95      }
96
97      objectiveValue -= tsp.DistanceMatrix[tour[lastCityIdx], tour[hideoutIdx]] * rentingRatio / (maxSpeed - speedCoefficient * collectedWeight);
98
99      bool feasible = collectedWeight <= ksp.KnapsackCapacity.Value;
100      if (!feasible) objectiveValue = infeasibleBaseLine - collectedWeight;
101
102      return objectiveValue;
103    }
104
105    public static Dictionary<int, int[]> GetAvailability(int[] availability) {
106      return availability.Select((c, i) => Tuple.Create(c, i)).GroupBy(x => x.Item1).ToDictionary(k => k.Key, v => v.Select(x => x.Item2).ToArray());
107    }
108
109    public static double[,] GetDistances(DoubleMatrix coordinates, DistanceType distanceType) {
110      int nrOfNodes = coordinates.Rows;
111      var distances = new double[nrOfNodes, nrOfNodes];
112
113      for (int i = 1; i < nrOfNodes; i++)
114        for (int j = 0; j < i; j++)
115          distances[i, j] = distances[j, i] = Distance(coordinates, i, j, distanceType);
116
117      return distances;
118    }
119
120    private static double Distance(DoubleMatrix coordinates, int fromIdx, int toIdx, DistanceType distanceType) {
121      double fromX = coordinates[fromIdx, 0];
122      double fromY = coordinates[fromIdx, 1];
123      double toX = coordinates[toIdx, 0];
124      double toY = coordinates[toIdx, 1];
125
126      double distance = Math.Sqrt((toX - fromX) * (toX - fromX) + (toY - fromY) * (toY - fromY));
127
128      switch (distanceType) {
129        case DistanceType.CEIL_2D: return (int)Math.Ceiling(distance);
130        case DistanceType.EUC_2D: return distance;
131        default: return double.NaN;
132      }
133    }
134  }
135}
Note: See TracBrowser for help on using the repository browser.