/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * Stacking.java * Copyright (C) 1999 University of Waikato, Hamilton, New Zealand * */ package weka.classifiers.meta; import weka.classifiers.Classifier; import weka.classifiers.AbstractClassifier; import weka.classifiers.RandomizableMultipleClassifiersCombiner; import weka.classifiers.RandomizableParallelMultipleClassifiersCombiner; import weka.classifiers.rules.ZeroR; import weka.core.Attribute; import weka.core.Capabilities; import weka.core.FastVector; import weka.core.Instance; import weka.core.DenseInstance; import weka.core.Instances; import weka.core.Option; import weka.core.OptionHandler; import weka.core.RevisionUtils; import weka.core.TechnicalInformation; import weka.core.TechnicalInformationHandler; import weka.core.Utils; import weka.core.TechnicalInformation.Field; import weka.core.TechnicalInformation.Type; import java.util.Enumeration; import java.util.Random; import java.util.Vector; /** * Combines several classifiers using the stacking method. Can do classification or regression.
*
* For more information, see
*
* David H. Wolpert (1992). Stacked generalization. Neural Networks. 5:241-259. *

* * BibTeX: *

 * @article{Wolpert1992,
 *    author = {David H. Wolpert},
 *    journal = {Neural Networks},
 *    pages = {241-259},
 *    publisher = {Pergamon Press},
 *    title = {Stacked generalization},
 *    volume = {5},
 *    year = {1992}
 * }
 * 
*

* * Valid options are:

* *

 -M <scheme specification>
 *  Full name of meta classifier, followed by options.
 *  (default: "weka.classifiers.rules.Zero")
* *
 -X <number of folds>
 *  Sets the number of cross-validation folds.
* *
 -S <num>
 *  Random number seed.
 *  (default 1)
* *
 -B <classifier specification>
 *  Full class name of classifier to include, followed
 *  by scheme options. May be specified multiple times.
 *  (default: "weka.classifiers.rules.ZeroR")
* *
 -D
 *  If set, classifier is run in debug mode and
 *  may output additional info to the console
* * * @author Eibe Frank (eibe@cs.waikato.ac.nz) * @version $Revision: 5987 $ */ public class Stacking extends RandomizableParallelMultipleClassifiersCombiner implements TechnicalInformationHandler { /** for serialization */ static final long serialVersionUID = 5134738557155845452L; /** The meta classifier */ protected Classifier m_MetaClassifier = new ZeroR(); /** Format for meta data */ protected Instances m_MetaFormat = null; /** Format for base data */ protected Instances m_BaseFormat = null; /** Set the number of folds for the cross-validation */ protected int m_NumFolds = 10; /** * Returns a string describing classifier * @return a description suitable for * displaying in the explorer/experimenter gui */ public String globalInfo() { return "Combines several classifiers using the stacking method. " + "Can do classification or regression.\n\n" + "For more information, see\n\n" + getTechnicalInformation().toString(); } /** * Returns an instance of a TechnicalInformation object, containing * detailed information about the technical background of this class, * e.g., paper reference or book this class is based on. * * @return the technical information about this class */ public TechnicalInformation getTechnicalInformation() { TechnicalInformation result; result = new TechnicalInformation(Type.ARTICLE); result.setValue(Field.AUTHOR, "David H. Wolpert"); result.setValue(Field.YEAR, "1992"); result.setValue(Field.TITLE, "Stacked generalization"); result.setValue(Field.JOURNAL, "Neural Networks"); result.setValue(Field.VOLUME, "5"); result.setValue(Field.PAGES, "241-259"); result.setValue(Field.PUBLISHER, "Pergamon Press"); return result; } /** * Returns an enumeration describing the available options. * * @return an enumeration of all the available options. */ public Enumeration listOptions() { Vector newVector = new Vector(2); newVector.addElement(new Option( metaOption(), "M", 0, "-M ")); newVector.addElement(new Option( "\tSets the number of cross-validation folds.", "X", 1, "-X ")); Enumeration enu = super.listOptions(); while (enu.hasMoreElements()) { newVector.addElement(enu.nextElement()); } return newVector.elements(); } /** * String describing option for setting meta classifier * * @return the string describing the option */ protected String metaOption() { return "\tFull name of meta classifier, followed by options.\n" + "\t(default: \"weka.classifiers.rules.Zero\")"; } /** * Parses a given list of options.

* * Valid options are:

* *

 -M <scheme specification>
   *  Full name of meta classifier, followed by options.
   *  (default: "weka.classifiers.rules.Zero")
* *
 -X <number of folds>
   *  Sets the number of cross-validation folds.
* *
 -S <num>
   *  Random number seed.
   *  (default 1)
* *
 -B <classifier specification>
   *  Full class name of classifier to include, followed
   *  by scheme options. May be specified multiple times.
   *  (default: "weka.classifiers.rules.ZeroR")
* *
 -D
   *  If set, classifier is run in debug mode and
   *  may output additional info to the console
* * * @param options the list of options as an array of strings * @throws Exception if an option is not supported */ public void setOptions(String[] options) throws Exception { String numFoldsString = Utils.getOption('X', options); if (numFoldsString.length() != 0) { setNumFolds(Integer.parseInt(numFoldsString)); } else { setNumFolds(10); } processMetaOptions(options); super.setOptions(options); } /** * Process options setting meta classifier. * * @param options the options to parse * @throws Exception if the parsing fails */ protected void processMetaOptions(String[] options) throws Exception { String classifierString = Utils.getOption('M', options); String [] classifierSpec = Utils.splitOptions(classifierString); String classifierName; if (classifierSpec.length == 0) { classifierName = "weka.classifiers.rules.ZeroR"; } else { classifierName = classifierSpec[0]; classifierSpec[0] = ""; } setMetaClassifier(AbstractClassifier.forName(classifierName, classifierSpec)); } /** * Gets the current settings of the Classifier. * * @return an array of strings suitable for passing to setOptions */ public String [] getOptions() { String [] superOptions = super.getOptions(); String [] options = new String [superOptions.length + 4]; int current = 0; options[current++] = "-X"; options[current++] = "" + getNumFolds(); options[current++] = "-M"; options[current++] = getMetaClassifier().getClass().getName() + " " + Utils.joinOptions(((OptionHandler)getMetaClassifier()).getOptions()); System.arraycopy(superOptions, 0, options, current, superOptions.length); return options; } /** * Returns the tip text for this property * @return tip text for this property suitable for * displaying in the explorer/experimenter gui */ public String numFoldsTipText() { return "The number of folds used for cross-validation."; } /** * Gets the number of folds for the cross-validation. * * @return the number of folds for the cross-validation */ public int getNumFolds() { return m_NumFolds; } /** * Sets the number of folds for the cross-validation. * * @param numFolds the number of folds for the cross-validation * @throws Exception if parameter illegal */ public void setNumFolds(int numFolds) throws Exception { if (numFolds < 0) { throw new IllegalArgumentException("Stacking: Number of cross-validation " + "folds must be positive."); } m_NumFolds = numFolds; } /** * Returns the tip text for this property * @return tip text for this property suitable for * displaying in the explorer/experimenter gui */ public String metaClassifierTipText() { return "The meta classifiers to be used."; } /** * Adds meta classifier * * @param classifier the classifier with all options set. */ public void setMetaClassifier(Classifier classifier) { m_MetaClassifier = classifier; } /** * Gets the meta classifier. * * @return the meta classifier */ public Classifier getMetaClassifier() { return m_MetaClassifier; } /** * Returns combined capabilities of the base classifiers, i.e., the * capabilities all of them have in common. * * @return the capabilities of the base classifiers */ public Capabilities getCapabilities() { Capabilities result; result = super.getCapabilities(); result.setMinimumNumberInstances(getNumFolds()); return result; } /** * Buildclassifier selects a classifier from the set of classifiers * by minimising error on the training data. * * @param data the training data to be used for generating the * boosted classifier. * @throws Exception if the classifier could not be built successfully */ public void buildClassifier(Instances data) throws Exception { if (m_MetaClassifier == null) { throw new IllegalArgumentException("No meta classifier has been set"); } // can classifier handle the data? getCapabilities().testWithFail(data); // remove instances with missing class Instances newData = new Instances(data); m_BaseFormat = new Instances(data, 0); newData.deleteWithMissingClass(); Random random = new Random(m_Seed); newData.randomize(random); if (newData.classAttribute().isNominal()) { newData.stratify(m_NumFolds); } // Create meta level generateMetaLevel(newData, random); // restart the executor pool because at the end of processing // a set of classifiers it gets shutdown to prevent the program // executing as a server super.buildClassifier(newData); // Rebuild all the base classifiers on the full training data buildClassifiers(newData); } /** * Generates the meta data * * @param newData the data to work on * @param random the random number generator to use for cross-validation * @throws Exception if generation fails */ protected void generateMetaLevel(Instances newData, Random random) throws Exception { Instances metaData = metaFormat(newData); m_MetaFormat = new Instances(metaData, 0); for (int j = 0; j < m_NumFolds; j++) { Instances train = newData.trainCV(m_NumFolds, j, random); // start the executor pool (if necessary) // has to be done after each set of classifiers as the // executor pool gets shut down in order to prevent the // program executing as a server (and not returning to // the command prompt when run from the command line super.buildClassifier(train); // construct the actual classifiers buildClassifiers(train); // Classify test instances and add to meta data Instances test = newData.testCV(m_NumFolds, j); for (int i = 0; i < test.numInstances(); i++) { metaData.add(metaInstance(test.instance(i))); } } m_MetaClassifier.buildClassifier(metaData); } /** * Returns class probabilities. * * @param instance the instance to be classified * @return the distribution * @throws Exception if instance could not be classified * successfully */ public double[] distributionForInstance(Instance instance) throws Exception { return m_MetaClassifier.distributionForInstance(metaInstance(instance)); } /** * Output a representation of this classifier * * @return a string representation of the classifier */ public String toString() { if (m_Classifiers.length == 0) { return "Stacking: No base schemes entered."; } if (m_MetaClassifier == null) { return "Stacking: No meta scheme selected."; } if (m_MetaFormat == null) { return "Stacking: No model built yet."; } String result = "Stacking\n\nBase classifiers\n\n"; for (int i = 0; i < m_Classifiers.length; i++) { result += getClassifier(i).toString() +"\n\n"; } result += "\n\nMeta classifier\n\n"; result += m_MetaClassifier.toString(); return result; } /** * Makes the format for the level-1 data. * * @param instances the level-0 format * @return the format for the meta data * @throws Exception if the format generation fails */ protected Instances metaFormat(Instances instances) throws Exception { FastVector attributes = new FastVector(); Instances metaFormat; for (int k = 0; k < m_Classifiers.length; k++) { Classifier classifier = (Classifier) getClassifier(k); String name = classifier.getClass().getName(); if (m_BaseFormat.classAttribute().isNumeric()) { attributes.addElement(new Attribute(name)); } else { for (int j = 0; j < m_BaseFormat.classAttribute().numValues(); j++) { attributes.addElement(new Attribute(name + ":" + m_BaseFormat .classAttribute().value(j))); } } } attributes.addElement(m_BaseFormat.classAttribute().copy()); metaFormat = new Instances("Meta format", attributes, 0); metaFormat.setClassIndex(metaFormat.numAttributes() - 1); return metaFormat; } /** * Makes a level-1 instance from the given instance. * * @param instance the instance to be transformed * @return the level-1 instance * @throws Exception if the instance generation fails */ protected Instance metaInstance(Instance instance) throws Exception { double[] values = new double[m_MetaFormat.numAttributes()]; Instance metaInstance; int i = 0; for (int k = 0; k < m_Classifiers.length; k++) { Classifier classifier = getClassifier(k); if (m_BaseFormat.classAttribute().isNumeric()) { values[i++] = classifier.classifyInstance(instance); } else { double[] dist = classifier.distributionForInstance(instance); for (int j = 0; j < dist.length; j++) { values[i++] = dist[j]; } } } values[i] = instance.classValue(); metaInstance = new DenseInstance(1, values); metaInstance.setDataset(m_MetaFormat); return metaInstance; } /** * Returns the revision string. * * @return the revision */ public String getRevision() { return RevisionUtils.extract("$Revision: 5987 $"); } /** * Main method for testing this class. * * @param argv should contain the following arguments: * -t training file [-T test file] [-c class index] */ public static void main(String [] argv) { runClassifier(new Stacking(), argv); } }