[29] | 1 | /* |
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| 2 | * This program is free software; you can redistribute it and/or modify |
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| 3 | * it under the terms of the GNU General Public License as published by |
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| 4 | * the Free Software Foundation; either version 2 of the License, or |
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| 5 | * (at your option) any later version. |
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| 6 | * |
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| 7 | * This program is distributed in the hope that it will be useful, |
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| 8 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 9 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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| 10 | * GNU General Public License for more details. |
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| 11 | * |
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| 12 | * You should have received a copy of the GNU General Public License |
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| 13 | * along with this program; if not, write to the Free Software |
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| 14 | * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. |
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| 15 | */ |
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| 16 | |
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| 17 | /* |
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| 18 | * LeastMedSq.java |
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| 19 | * |
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| 20 | * Copyright (C) 2001 University of Waikato |
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| 21 | */ |
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| 22 | |
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| 23 | package weka.classifiers.functions; |
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| 24 | |
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| 25 | import weka.classifiers.Classifier; |
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| 26 | import weka.classifiers.AbstractClassifier; |
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| 27 | import weka.core.Capabilities; |
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| 28 | import weka.core.Instance; |
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| 29 | import weka.core.Instances; |
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| 30 | import weka.core.Option; |
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| 31 | import weka.core.OptionHandler; |
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| 32 | import weka.core.RevisionUtils; |
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| 33 | import weka.core.TechnicalInformation; |
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| 34 | import weka.core.TechnicalInformationHandler; |
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| 35 | import weka.core.Utils; |
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| 36 | import weka.core.Capabilities.Capability; |
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| 37 | import weka.core.TechnicalInformation.Field; |
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| 38 | import weka.core.TechnicalInformation.Type; |
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| 39 | import weka.filters.Filter; |
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| 40 | import weka.filters.supervised.attribute.NominalToBinary; |
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| 41 | import weka.filters.unsupervised.attribute.ReplaceMissingValues; |
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| 42 | import weka.filters.unsupervised.instance.RemoveRange; |
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| 43 | |
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| 44 | import java.util.Enumeration; |
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| 45 | import java.util.Random; |
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| 46 | import java.util.Vector; |
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| 47 | |
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| 48 | /** |
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| 49 | <!-- globalinfo-start --> |
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| 50 | * Implements a least median sqaured linear regression utilising the existing weka LinearRegression class to form predictions. <br/> |
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| 51 | * Least squared regression functions are generated from random subsamples of the data. The least squared regression with the lowest meadian squared error is chosen as the final model.<br/> |
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| 52 | * <br/> |
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| 53 | * The basis of the algorithm is <br/> |
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| 54 | * <br/> |
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| 55 | * Peter J. Rousseeuw, Annick M. Leroy (1987). Robust regression and outlier detection. . |
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| 56 | * <p/> |
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| 57 | <!-- globalinfo-end --> |
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| 58 | * |
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| 59 | <!-- technical-bibtex-start --> |
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| 60 | * BibTeX: |
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| 61 | * <pre> |
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| 62 | * @book{Rousseeuw1987, |
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| 63 | * author = {Peter J. Rousseeuw and Annick M. Leroy}, |
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| 64 | * title = {Robust regression and outlier detection}, |
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| 65 | * year = {1987} |
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| 66 | * } |
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| 67 | * </pre> |
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| 68 | * <p/> |
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| 69 | <!-- technical-bibtex-end --> |
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| 70 | * |
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| 71 | <!-- options-start --> |
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| 72 | * Valid options are: <p/> |
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| 73 | * |
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| 74 | * <pre> -S <sample size> |
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| 75 | * Set sample size |
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| 76 | * (default: 4) |
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| 77 | * </pre> |
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| 78 | * |
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| 79 | * <pre> -G <seed> |
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| 80 | * Set the seed used to generate samples |
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| 81 | * (default: 0) |
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| 82 | * </pre> |
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| 83 | * |
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| 84 | * <pre> -D |
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| 85 | * Produce debugging output |
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| 86 | * (default no debugging output) |
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| 87 | * </pre> |
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| 88 | * |
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| 89 | <!-- options-end --> |
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| 90 | * |
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| 91 | * @author Tony Voyle (tv6@waikato.ac.nz) |
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| 92 | * @version $Revision: 5928 $ |
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| 93 | */ |
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| 94 | public class LeastMedSq |
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| 95 | extends AbstractClassifier |
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| 96 | implements OptionHandler, TechnicalInformationHandler { |
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| 97 | |
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| 98 | /** for serialization */ |
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| 99 | static final long serialVersionUID = 4288954049987652970L; |
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| 100 | |
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| 101 | private double[] m_Residuals; |
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| 102 | |
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| 103 | private double[] m_weight; |
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| 104 | |
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| 105 | private double m_SSR; |
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| 106 | |
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| 107 | private double m_scalefactor; |
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| 108 | |
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| 109 | private double m_bestMedian = Double.POSITIVE_INFINITY; |
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| 110 | |
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| 111 | private LinearRegression m_currentRegression; |
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| 112 | |
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| 113 | private LinearRegression m_bestRegression; |
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| 114 | |
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| 115 | private LinearRegression m_ls; |
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| 116 | |
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| 117 | private Instances m_Data; |
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| 118 | |
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| 119 | private Instances m_RLSData; |
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| 120 | |
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| 121 | private Instances m_SubSample; |
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| 122 | |
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| 123 | private ReplaceMissingValues m_MissingFilter; |
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| 124 | |
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| 125 | private NominalToBinary m_TransformFilter; |
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| 126 | |
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| 127 | private RemoveRange m_SplitFilter; |
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| 128 | |
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| 129 | private int m_samplesize = 4; |
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| 130 | |
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| 131 | private int m_samples; |
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| 132 | |
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| 133 | private boolean m_israndom = false; |
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| 134 | |
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| 135 | private boolean m_debug = false; |
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| 136 | |
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| 137 | private Random m_random; |
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| 138 | |
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| 139 | private long m_randomseed = 0; |
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| 140 | |
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| 141 | /** |
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| 142 | * Returns a string describing this classifier |
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| 143 | * @return a description of the classifier suitable for |
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| 144 | * displaying in the explorer/experimenter gui |
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| 145 | */ |
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| 146 | public String globalInfo() { |
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| 147 | return "Implements a least median sqaured linear regression utilising the " |
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| 148 | +"existing weka LinearRegression class to form predictions. \n" |
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| 149 | +"Least squared regression functions are generated from random subsamples of " |
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| 150 | +"the data. The least squared regression with the lowest meadian squared error " |
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| 151 | +"is chosen as the final model.\n\n" |
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| 152 | +"The basis of the algorithm is \n\n" |
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| 153 | + getTechnicalInformation().toString(); |
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| 154 | } |
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| 155 | |
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| 156 | /** |
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| 157 | * Returns an instance of a TechnicalInformation object, containing |
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| 158 | * detailed information about the technical background of this class, |
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| 159 | * e.g., paper reference or book this class is based on. |
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| 160 | * |
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| 161 | * @return the technical information about this class |
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| 162 | */ |
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| 163 | public TechnicalInformation getTechnicalInformation() { |
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| 164 | TechnicalInformation result; |
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| 165 | |
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| 166 | result = new TechnicalInformation(Type.BOOK); |
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| 167 | result.setValue(Field.AUTHOR, "Peter J. Rousseeuw and Annick M. Leroy"); |
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| 168 | result.setValue(Field.YEAR, "1987"); |
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| 169 | result.setValue(Field.TITLE, "Robust regression and outlier detection"); |
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| 170 | |
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| 171 | return result; |
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| 172 | } |
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| 173 | |
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| 174 | /** |
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| 175 | * Returns default capabilities of the classifier. |
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| 176 | * |
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| 177 | * @return the capabilities of this classifier |
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| 178 | */ |
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| 179 | public Capabilities getCapabilities() { |
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| 180 | Capabilities result = super.getCapabilities(); |
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| 181 | result.disableAll(); |
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| 182 | |
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| 183 | // attributes |
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| 184 | result.enable(Capability.NOMINAL_ATTRIBUTES); |
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| 185 | result.enable(Capability.NUMERIC_ATTRIBUTES); |
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| 186 | result.enable(Capability.DATE_ATTRIBUTES); |
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| 187 | result.enable(Capability.MISSING_VALUES); |
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| 188 | |
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| 189 | // class |
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| 190 | result.enable(Capability.NUMERIC_CLASS); |
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| 191 | result.enable(Capability.DATE_CLASS); |
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| 192 | result.enable(Capability.MISSING_CLASS_VALUES); |
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| 193 | |
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| 194 | return result; |
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| 195 | } |
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| 196 | |
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| 197 | /** |
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| 198 | * Build lms regression |
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| 199 | * |
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| 200 | * @param data training data |
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| 201 | * @throws Exception if an error occurs |
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| 202 | */ |
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| 203 | public void buildClassifier(Instances data)throws Exception{ |
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| 204 | |
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| 205 | // can classifier handle the data? |
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| 206 | getCapabilities().testWithFail(data); |
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| 207 | |
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| 208 | // remove instances with missing class |
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| 209 | data = new Instances(data); |
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| 210 | data.deleteWithMissingClass(); |
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| 211 | |
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| 212 | cleanUpData(data); |
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| 213 | |
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| 214 | getSamples(); |
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| 215 | |
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| 216 | findBestRegression(); |
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| 217 | |
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| 218 | buildRLSRegression(); |
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| 219 | |
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| 220 | } // buildClassifier |
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| 221 | |
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| 222 | /** |
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| 223 | * Classify a given instance using the best generated |
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| 224 | * LinearRegression Classifier. |
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| 225 | * |
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| 226 | * @param instance instance to be classified |
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| 227 | * @return class value |
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| 228 | * @throws Exception if an error occurs |
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| 229 | */ |
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| 230 | public double classifyInstance(Instance instance)throws Exception{ |
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| 231 | |
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| 232 | Instance transformedInstance = instance; |
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| 233 | m_TransformFilter.input(transformedInstance); |
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| 234 | transformedInstance = m_TransformFilter.output(); |
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| 235 | m_MissingFilter.input(transformedInstance); |
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| 236 | transformedInstance = m_MissingFilter.output(); |
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| 237 | |
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| 238 | return m_ls.classifyInstance(transformedInstance); |
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| 239 | } // classifyInstance |
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| 240 | |
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| 241 | /** |
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| 242 | * Cleans up data |
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| 243 | * |
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| 244 | * @param data data to be cleaned up |
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| 245 | * @throws Exception if an error occurs |
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| 246 | */ |
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| 247 | private void cleanUpData(Instances data)throws Exception{ |
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| 248 | |
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| 249 | m_Data = data; |
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| 250 | m_TransformFilter = new NominalToBinary(); |
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| 251 | m_TransformFilter.setInputFormat(m_Data); |
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| 252 | m_Data = Filter.useFilter(m_Data, m_TransformFilter); |
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| 253 | m_MissingFilter = new ReplaceMissingValues(); |
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| 254 | m_MissingFilter.setInputFormat(m_Data); |
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| 255 | m_Data = Filter.useFilter(m_Data, m_MissingFilter); |
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| 256 | m_Data.deleteWithMissingClass(); |
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| 257 | } |
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| 258 | |
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| 259 | /** |
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| 260 | * Gets the number of samples to use. |
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| 261 | * |
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| 262 | * @throws Exception if an error occurs |
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| 263 | */ |
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| 264 | private void getSamples()throws Exception{ |
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| 265 | |
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| 266 | int stuf[] = new int[] {500,50,22,17,15,14}; |
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| 267 | if ( m_samplesize < 7){ |
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| 268 | if ( m_Data.numInstances() < stuf[m_samplesize - 1]) |
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| 269 | m_samples = combinations(m_Data.numInstances(), m_samplesize); |
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| 270 | else |
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| 271 | m_samples = m_samplesize * 500; |
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| 272 | |
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| 273 | } else m_samples = 3000; |
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| 274 | if (m_debug){ |
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| 275 | System.out.println("m_samplesize: " + m_samplesize); |
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| 276 | System.out.println("m_samples: " + m_samples); |
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| 277 | System.out.println("m_randomseed: " + m_randomseed); |
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| 278 | } |
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| 279 | |
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| 280 | } |
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| 281 | |
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| 282 | /** |
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| 283 | * Set up the random number generator |
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| 284 | * |
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| 285 | */ |
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| 286 | private void setRandom(){ |
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| 287 | |
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| 288 | m_random = new Random(getRandomSeed()); |
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| 289 | } |
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| 290 | |
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| 291 | /** |
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| 292 | * Finds the best regression generated from m_samples |
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| 293 | * random samples from the training data |
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| 294 | * |
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| 295 | * @throws Exception if an error occurs |
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| 296 | */ |
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| 297 | private void findBestRegression()throws Exception{ |
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| 298 | |
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| 299 | setRandom(); |
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| 300 | m_bestMedian = Double.POSITIVE_INFINITY; |
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| 301 | if (m_debug) { |
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| 302 | System.out.println("Starting:"); |
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| 303 | } |
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| 304 | for(int s = 0, r = 0; s < m_samples; s++, r++){ |
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| 305 | if (m_debug) { |
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| 306 | if(s%(m_samples/100)==0) |
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| 307 | System.out.print("*"); |
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| 308 | } |
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| 309 | genRegression(); |
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| 310 | getMedian(); |
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| 311 | } |
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| 312 | if (m_debug) { |
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| 313 | System.out.println(""); |
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| 314 | } |
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| 315 | m_currentRegression = m_bestRegression; |
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| 316 | } |
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| 317 | |
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| 318 | /** |
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| 319 | * Generates a LinearRegression classifier from |
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| 320 | * the current m_SubSample |
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| 321 | * |
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| 322 | * @throws Exception if an error occurs |
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| 323 | */ |
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| 324 | private void genRegression()throws Exception{ |
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| 325 | |
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| 326 | m_currentRegression = new LinearRegression(); |
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| 327 | m_currentRegression.setOptions(new String[]{"-S", "1"}); |
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| 328 | selectSubSample(m_Data); |
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| 329 | m_currentRegression.buildClassifier(m_SubSample); |
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| 330 | } |
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| 331 | |
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| 332 | /** |
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| 333 | * Finds residuals (squared) for the current |
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| 334 | * regression. |
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| 335 | * |
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| 336 | * @throws Exception if an error occurs |
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| 337 | */ |
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| 338 | private void findResiduals()throws Exception{ |
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| 339 | |
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| 340 | m_SSR = 0; |
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| 341 | m_Residuals = new double [m_Data.numInstances()]; |
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| 342 | for(int i = 0; i < m_Data.numInstances(); i++){ |
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| 343 | m_Residuals[i] = m_currentRegression.classifyInstance(m_Data.instance(i)); |
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| 344 | m_Residuals[i] -= m_Data.instance(i).value(m_Data.classAttribute()); |
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| 345 | m_Residuals[i] *= m_Residuals[i]; |
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| 346 | m_SSR += m_Residuals[i]; |
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| 347 | } |
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| 348 | } |
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| 349 | |
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| 350 | /** |
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| 351 | * finds the median residual squared for the |
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| 352 | * current regression |
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| 353 | * |
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| 354 | * @throws Exception if an error occurs |
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| 355 | */ |
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| 356 | private void getMedian()throws Exception{ |
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| 357 | |
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| 358 | findResiduals(); |
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| 359 | int p = m_Residuals.length; |
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| 360 | select(m_Residuals, 0, p - 1, p / 2); |
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| 361 | if(m_Residuals[p / 2] < m_bestMedian){ |
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| 362 | m_bestMedian = m_Residuals[p / 2]; |
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| 363 | m_bestRegression = m_currentRegression; |
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| 364 | } |
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| 365 | } |
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| 366 | |
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| 367 | /** |
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| 368 | * Returns a string representing the best |
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| 369 | * LinearRegression classifier found. |
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| 370 | * |
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| 371 | * @return String representing the regression |
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| 372 | */ |
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| 373 | public String toString(){ |
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| 374 | |
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| 375 | if( m_ls == null){ |
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| 376 | return "model has not been built"; |
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| 377 | } |
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| 378 | return m_ls.toString(); |
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| 379 | } |
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| 380 | |
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| 381 | /** |
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| 382 | * Builds a weight function removing instances with an |
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| 383 | * abnormally high scaled residual |
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| 384 | * |
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| 385 | * @throws Exception if weight building fails |
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| 386 | */ |
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| 387 | private void buildWeight()throws Exception{ |
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| 388 | |
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| 389 | findResiduals(); |
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| 390 | m_scalefactor = 1.4826 * ( 1 + 5 / (m_Data.numInstances() |
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| 391 | - m_Data.numAttributes())) |
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| 392 | * Math.sqrt(m_bestMedian); |
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| 393 | m_weight = new double[m_Residuals.length]; |
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| 394 | for (int i = 0; i < m_Residuals.length; i++) |
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| 395 | m_weight[i] = ((Math.sqrt(m_Residuals[i])/m_scalefactor < 2.5)?1.0:0.0); |
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| 396 | } |
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| 397 | |
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| 398 | /** |
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| 399 | * Builds a new LinearRegression without the 'bad' data |
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| 400 | * found by buildWeight |
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| 401 | * |
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| 402 | * @throws Exception if building fails |
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| 403 | */ |
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| 404 | private void buildRLSRegression()throws Exception{ |
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| 405 | |
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| 406 | buildWeight(); |
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| 407 | m_RLSData = new Instances(m_Data); |
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| 408 | int x = 0; |
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| 409 | int y = 0; |
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| 410 | int n = m_RLSData.numInstances(); |
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| 411 | while(y < n){ |
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| 412 | if (m_weight[x] == 0){ |
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| 413 | m_RLSData.delete(y); |
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| 414 | n = m_RLSData.numInstances(); |
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| 415 | y--; |
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| 416 | } |
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| 417 | x++; |
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| 418 | y++; |
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| 419 | } |
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| 420 | if ( m_RLSData.numInstances() == 0){ |
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| 421 | System.err.println("rls regression unbuilt"); |
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| 422 | m_ls = m_currentRegression; |
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| 423 | }else{ |
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| 424 | m_ls = new LinearRegression(); |
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| 425 | m_ls.setOptions(new String[]{"-S", "1"}); |
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| 426 | m_ls.buildClassifier(m_RLSData); |
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| 427 | m_currentRegression = m_ls; |
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| 428 | } |
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| 429 | |
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| 430 | } |
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| 431 | |
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| 432 | /** |
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| 433 | * Finds the kth number in an array |
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| 434 | * |
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| 435 | * @param a an array of numbers |
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| 436 | * @param l left pointer |
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| 437 | * @param r right pointer |
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| 438 | * @param k position of number to be found |
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| 439 | */ |
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| 440 | private static void select( double [] a, int l, int r, int k){ |
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| 441 | |
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| 442 | if (r <=l) return; |
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| 443 | int i = partition( a, l, r); |
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| 444 | if (i > k) select(a, l, i-1, k); |
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| 445 | if (i < k) select(a, i+1, r, k); |
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| 446 | } |
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| 447 | |
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| 448 | /** |
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| 449 | * Partitions an array of numbers such that all numbers |
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| 450 | * less than that at index r, between indexes l and r |
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| 451 | * will have a smaller index and all numbers greater than |
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| 452 | * will have a larger index |
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| 453 | * |
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| 454 | * @param a an array of numbers |
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| 455 | * @param l left pointer |
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| 456 | * @param r right pointer |
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| 457 | * @return final index of number originally at r |
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| 458 | */ |
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| 459 | private static int partition( double [] a, int l, int r ){ |
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| 460 | |
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| 461 | int i = l-1, j = r; |
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| 462 | double v = a[r], temp; |
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| 463 | while(true){ |
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| 464 | while(a[++i] < v); |
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| 465 | while(v < a[--j]) if(j == l) break; |
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| 466 | if(i >= j) break; |
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| 467 | temp = a[i]; |
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| 468 | a[i] = a[j]; |
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| 469 | a[j] = temp; |
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| 470 | } |
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| 471 | temp = a[i]; |
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| 472 | a[i] = a[r]; |
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| 473 | a[r] = temp; |
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| 474 | return i; |
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| 475 | } |
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| 476 | |
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| 477 | /** |
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| 478 | * Produces a random sample from m_Data |
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| 479 | * in m_SubSample |
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| 480 | * |
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| 481 | * @param data data from which to take sample |
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| 482 | * @throws Exception if an error occurs |
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| 483 | */ |
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| 484 | private void selectSubSample(Instances data)throws Exception{ |
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| 485 | |
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| 486 | m_SplitFilter = new RemoveRange(); |
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| 487 | m_SplitFilter.setInvertSelection(true); |
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| 488 | m_SubSample = data; |
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| 489 | m_SplitFilter.setInputFormat(m_SubSample); |
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| 490 | m_SplitFilter.setInstancesIndices(selectIndices(m_SubSample)); |
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| 491 | m_SubSample = Filter.useFilter(m_SubSample, m_SplitFilter); |
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| 492 | } |
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| 493 | |
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| 494 | /** |
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| 495 | * Returns a string suitable for passing to RemoveRange consisting |
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| 496 | * of m_samplesize indices. |
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| 497 | * |
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| 498 | * @param data dataset from which to take indicese |
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| 499 | * @return string of indices suitable for passing to RemoveRange |
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| 500 | */ |
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| 501 | private String selectIndices(Instances data){ |
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| 502 | |
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| 503 | StringBuffer text = new StringBuffer(); |
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| 504 | for(int i = 0, x = 0; i < m_samplesize; i++){ |
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| 505 | do{x = (int) (m_random.nextDouble() * data.numInstances());} |
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| 506 | while(x==0); |
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| 507 | text.append(Integer.toString(x)); |
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| 508 | if(i < m_samplesize - 1) |
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| 509 | text.append(","); |
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| 510 | else |
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| 511 | text.append("\n"); |
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| 512 | } |
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| 513 | return text.toString(); |
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| 514 | } |
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| 515 | |
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| 516 | /** |
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| 517 | * Returns the tip text for this property |
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| 518 | * @return tip text for this property suitable for |
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| 519 | * displaying in the explorer/experimenter gui |
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| 520 | */ |
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| 521 | public String sampleSizeTipText() { |
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| 522 | return "Set the size of the random samples used to generate the least sqaured " |
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| 523 | +"regression functions."; |
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| 524 | } |
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| 525 | |
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| 526 | /** |
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| 527 | * sets number of samples |
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| 528 | * |
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| 529 | * @param samplesize value |
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| 530 | */ |
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| 531 | public void setSampleSize(int samplesize){ |
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| 532 | |
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| 533 | m_samplesize = samplesize; |
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| 534 | } |
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| 535 | |
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| 536 | /** |
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| 537 | * gets number of samples |
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| 538 | * |
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| 539 | * @return value |
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| 540 | */ |
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| 541 | public int getSampleSize(){ |
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| 542 | |
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| 543 | return m_samplesize; |
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| 544 | } |
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| 545 | |
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| 546 | /** |
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| 547 | * Returns the tip text for this property |
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| 548 | * @return tip text for this property suitable for |
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| 549 | * displaying in the explorer/experimenter gui |
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| 550 | */ |
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| 551 | public String randomSeedTipText() { |
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| 552 | return "Set the seed for selecting random subsamples of the training data."; |
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| 553 | } |
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| 554 | |
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| 555 | /** |
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| 556 | * Set the seed for the random number generator |
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| 557 | * |
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| 558 | * @param randomseed the seed |
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| 559 | */ |
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| 560 | public void setRandomSeed(long randomseed){ |
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| 561 | |
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| 562 | m_randomseed = randomseed; |
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| 563 | } |
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| 564 | |
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| 565 | /** |
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| 566 | * get the seed for the random number generator |
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| 567 | * |
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| 568 | * @return the seed value |
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| 569 | */ |
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| 570 | public long getRandomSeed(){ |
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| 571 | |
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| 572 | return m_randomseed; |
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| 573 | } |
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| 574 | |
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| 575 | /** |
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| 576 | * sets whether or not debugging output shouild be printed |
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| 577 | * |
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| 578 | * @param debug true if debugging output selected |
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| 579 | */ |
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| 580 | public void setDebug(boolean debug){ |
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| 581 | |
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| 582 | m_debug = debug; |
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| 583 | } |
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| 584 | |
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| 585 | /** |
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| 586 | * Returns whether or not debugging output shouild be printed |
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| 587 | * |
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| 588 | * @return true if debuging output selected |
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| 589 | */ |
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| 590 | public boolean getDebug(){ |
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| 591 | |
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| 592 | return m_debug; |
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| 593 | } |
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| 594 | |
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| 595 | /** |
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| 596 | * Returns an enumeration of all the available options.. |
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| 597 | * |
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| 598 | * @return an enumeration of all available options. |
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| 599 | */ |
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| 600 | public Enumeration listOptions(){ |
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| 601 | |
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| 602 | Vector newVector = new Vector(1); |
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| 603 | newVector.addElement(new Option("\tSet sample size\n" |
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| 604 | + "\t(default: 4)\n", |
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| 605 | "S", 4, "-S <sample size>")); |
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| 606 | newVector.addElement(new Option("\tSet the seed used to generate samples\n" |
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| 607 | + "\t(default: 0)\n", |
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| 608 | "G", 0, "-G <seed>")); |
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| 609 | newVector.addElement(new Option("\tProduce debugging output\n" |
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| 610 | + "\t(default no debugging output)\n", |
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| 611 | "D", 0, "-D")); |
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| 612 | |
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| 613 | return newVector.elements(); |
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| 614 | } |
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| 615 | |
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| 616 | /** |
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| 617 | * Sets the OptionHandler's options using the given list. All options |
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| 618 | * will be set (or reset) during this call (i.e. incremental setting |
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| 619 | * of options is not possible). |
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| 620 | * |
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| 621 | <!-- options-start --> |
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| 622 | * Valid options are: <p/> |
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| 623 | * |
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| 624 | * <pre> -S <sample size> |
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| 625 | * Set sample size |
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| 626 | * (default: 4) |
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| 627 | * </pre> |
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| 628 | * |
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| 629 | * <pre> -G <seed> |
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| 630 | * Set the seed used to generate samples |
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| 631 | * (default: 0) |
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| 632 | * </pre> |
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| 633 | * |
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| 634 | * <pre> -D |
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| 635 | * Produce debugging output |
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| 636 | * (default no debugging output) |
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| 637 | * </pre> |
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| 638 | * |
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| 639 | <!-- options-end --> |
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| 640 | * |
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| 641 | * @param options the list of options as an array of strings |
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| 642 | * @throws Exception if an option is not supported |
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| 643 | */ |
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| 644 | public void setOptions(String[] options) throws Exception { |
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| 645 | |
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| 646 | String curropt = Utils.getOption('S', options); |
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| 647 | if ( curropt.length() != 0){ |
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| 648 | setSampleSize(Integer.parseInt(curropt)); |
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| 649 | } else |
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| 650 | setSampleSize(4); |
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| 651 | |
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| 652 | curropt = Utils.getOption('G', options); |
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| 653 | if ( curropt.length() != 0){ |
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| 654 | setRandomSeed(Long.parseLong(curropt)); |
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| 655 | } else { |
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| 656 | setRandomSeed(0); |
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| 657 | } |
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| 658 | |
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| 659 | setDebug(Utils.getFlag('D', options)); |
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| 660 | } |
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| 661 | |
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| 662 | /** |
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| 663 | * Gets the current option settings for the OptionHandler. |
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| 664 | * |
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| 665 | * @return the list of current option settings as an array of strings |
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| 666 | */ |
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| 667 | public String[] getOptions(){ |
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| 668 | |
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| 669 | String options[] = new String[9]; |
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| 670 | int current = 0; |
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| 671 | |
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| 672 | options[current++] = "-S"; |
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| 673 | options[current++] = "" + getSampleSize(); |
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| 674 | |
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| 675 | options[current++] = "-G"; |
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| 676 | options[current++] = "" + getRandomSeed(); |
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| 677 | |
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| 678 | if (getDebug()) { |
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| 679 | options[current++] = "-D"; |
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| 680 | } |
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| 681 | |
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| 682 | while (current < options.length) { |
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| 683 | options[current++] = ""; |
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| 684 | } |
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| 685 | |
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| 686 | return options; |
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| 687 | } |
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| 688 | |
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| 689 | /** |
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| 690 | * Produces the combination nCr |
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| 691 | * |
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| 692 | * @param n |
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| 693 | * @param r |
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| 694 | * @return the combination |
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| 695 | * @throws Exception if r is greater than n |
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| 696 | */ |
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| 697 | public static int combinations (int n, int r)throws Exception { |
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| 698 | |
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| 699 | int c = 1, denom = 1, num = 1, i,orig=r; |
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| 700 | if (r > n) throw new Exception("r must be less that or equal to n."); |
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| 701 | r = Math.min( r , n - r); |
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| 702 | |
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| 703 | for (i = 1 ; i <= r; i++){ |
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| 704 | |
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| 705 | num *= n-i+1; |
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| 706 | denom *= i; |
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| 707 | } |
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| 708 | |
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| 709 | c = num / denom; |
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| 710 | if(false) |
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| 711 | System.out.println( "n: "+n+" r: "+orig+" num: "+num+ |
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| 712 | " denom: "+denom+" c: "+c); |
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| 713 | return c; |
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| 714 | } |
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| 715 | |
---|
| 716 | /** |
---|
| 717 | * Returns the revision string. |
---|
| 718 | * |
---|
| 719 | * @return the revision |
---|
| 720 | */ |
---|
| 721 | public String getRevision() { |
---|
| 722 | return RevisionUtils.extract("$Revision: 5928 $"); |
---|
| 723 | } |
---|
| 724 | |
---|
| 725 | /** |
---|
| 726 | * generate a Linear regression predictor for testing |
---|
| 727 | * |
---|
| 728 | * @param argv options |
---|
| 729 | */ |
---|
| 730 | public static void main(String [] argv){ |
---|
| 731 | runClassifier(new LeastMedSq(), argv); |
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| 732 | } // main |
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| 733 | } // lmr |
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