1 | using System;
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2 | using System.Collections.Generic;
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3 | using System.Linq;
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4 | using System.Linq.Expressions;
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5 |
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6 | using HeuristicLab.Algorithms.DataAnalysis;
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7 | using HeuristicLab.Common;
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8 | using HeuristicLab.Core;
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9 | using HeuristicLab.Data;
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10 | using HeuristicLab.Parameters;
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11 | using HeuristicLab.Problems.DataAnalysis;
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12 | using HeuristicLab.Scripting;
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13 |
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14 | using LibSVM;
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15 |
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16 | public class SVMClassificationCrossValidationScript : HeuristicLab.Scripting.CSharpScriptBase {
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17 | /* Maximum degree of parallelism (specifies whether or not the grid search should be parallelized) */
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18 | const int maximumDegreeOfParallelism = 4;
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19 |
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20 | /* Number of crossvalidation folds: */
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21 | const int numberOfFolds = 5;
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22 |
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23 | /* Specify whether the folds should be shuffled */
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24 | const bool shuffleFolds = false;
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25 |
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26 | /* The tunable SVM parameters:
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27 | - "C" (penalty factor) effects the trade-off between complexity and proportion of nonseparable samples and must be selected by the user. Can have any positive value.
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28 | - "nu" is an upper bound on the fraction of margin errors and a lower bound of the fraction of support vectors relative to the total number of training examples.
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29 | - "degree" represents the polynomial kernel degree
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30 | - "eps" (epsilon) determines the level of accuracy of the approximated function. It controls the width of the epsilon-insensitive zone used to fit the training data.
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31 | With optimal values of epsilon, the parameter C has negligible effect.
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32 | - "degree" represents the degree of the polynomial kernel
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33 | - "kernel_type" specifies the kernel to be used: linear, polynomial, radial basis or sigmoidal.
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34 | Valid values: svm_parameter.LINEAR, svm_parameter.POLY, svm_parameter.RBF, svm_parameter.SIGMOID
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35 | Comment or uncomment the parameter ranges below as needed. */
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36 |
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37 | static Dictionary<string, IEnumerable<double>> svmParameterRanges = new Dictionary<string, IEnumerable<double>> {
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38 | { "svm_type", new List<double> {svm_parameter.NU_SVC } },
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39 | { "kernel_type", new List<double> { svm_parameter.RBF }},
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40 | { "C", SequenceGenerator.GenerateSteps(-1m, 10, 1).Select(x => Math.Pow(2,(double)x)) },
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41 | { "gamma", SequenceGenerator.GenerateSteps(-4m, -1, 1).Select(x => Math.Pow(2,(double)x)) },
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42 | // { "eps", SequenceGenerator.GenerateSteps(-8m, -1, 1).Select(x => Math.Pow(2, (double)x)) },
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43 | { "nu" , SequenceGenerator.GenerateSteps(-10m, 0, 1m).Select(x => Math.Pow(2, (double)x)) },
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44 | // { "degree", SequenceGenerator.GenerateSteps(1m, 4, 1).Select(x => (double)x) }
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45 | };
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46 |
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47 | static Dictionary<int, string> svmTypes = new Dictionary<int, string> {
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48 | { svm_parameter.NU_SVC, "NU_SVC" },
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49 | { svm_parameter.C_SVC, "C_SVC" }
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50 | };
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51 |
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52 | static Dictionary<int, string> kernelTypes = new Dictionary<int, string> {
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53 | { svm_parameter.LINEAR, "LINEAR" },
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54 | { svm_parameter.POLY, "POLY" },
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55 | { svm_parameter.RBF, "RBF" },
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56 | { svm_parameter.SIGMOID, "SIGMOID" }
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57 | };
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58 |
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59 | private static SupportVectorClassificationSolution SvmGridSearch(IClassificationProblemData problemData, out svm_parameter bestParameters, out int nSv, out double cvMse) {
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60 | bestParameters = SupportVectorMachineUtil.GridSearch(out cvMse, problemData, svmParameterRanges, numberOfFolds, shuffleFolds, maximumDegreeOfParallelism);
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61 | double trainingError, testError;
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62 | string svmType = svmTypes[bestParameters.svm_type];
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63 | string kernelType = kernelTypes[bestParameters.kernel_type];
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64 | var svm_solution = SupportVectorClassification.CreateSupportVectorClassificationSolution(problemData, problemData.AllowedInputVariables, svmType, kernelType,
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65 | bestParameters.C, bestParameters.nu, bestParameters.gamma, bestParameters.degree, out trainingError, out testError, out nSv);
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66 | return svm_solution;
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67 | }
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68 |
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69 | public override void Main() {
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70 | var variables = (Variables)vars;
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71 | var item = variables.SingleOrDefault(x => x.Value is IClassificationProblem || x.Value is IClassificationProblemData);
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72 | if (item.Equals(default(KeyValuePair<string, object>)))
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73 | throw new ArgumentException("Could not find a suitable problem or problem data.");
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74 |
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75 | string name = item.Key;
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76 | IClassificationProblemData problemData;
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77 | if (item.Value is IClassificationProblem)
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78 | problemData = ((IClassificationProblem)item.Value).ProblemData;
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79 | else
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80 | problemData = (IClassificationProblemData)item.Value;
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81 |
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82 | int nSv; // number of support vectors
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83 | double cvMse;
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84 | svm_parameter bestParameters;
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85 | var bestSolution = SvmGridSearch(problemData, out bestParameters, out nSv, out cvMse);
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86 |
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87 | vars["bestSolution"] = bestSolution;
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88 | Console.WriteLine(name + " parameters: C = {0}, g = {1:0.000}, eps = {2:0.000}, nu = {3:0.000}, degree = {4}", bestParameters.C, bestParameters.gamma, bestParameters.eps, bestParameters.nu, bestParameters.degree);
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89 | Console.WriteLine(name + " best solution accuracy (training): " + bestSolution.TrainingAccuracy + ", accuracy (test): " + bestSolution.TestAccuracy);
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90 |
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91 | var bestParametersCollection = new ParameterCollection();
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92 | foreach (var p in svmParameterRanges.Keys) {
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93 | var getter = GenerateGetter(p);
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94 | bestParametersCollection.Add(new FixedValueParameter<DoubleValue>(p, new DoubleValue(getter(bestParameters))));
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95 | }
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96 | vars["bestParameters"] = bestParametersCollection;
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97 | }
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98 |
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99 | private static Func<svm_parameter, double> GenerateGetter(string field) {
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100 | var paramExpr = Expression.Parameter(typeof(svm_parameter));
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101 | var getterExpr = Expression.Convert(Expression.Field(paramExpr, field), typeof(double)); // cast to double
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102 | Func<svm_parameter, double> f = Expression.Lambda<Func<svm_parameter, double>>(getterExpr, paramExpr).Compile();
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103 | return f;
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104 | }
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105 | }
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106 |
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