Example usage for weka.classifiers.meta RacedIncrementalLogitBoost setClassifier

List of usage examples for weka.classifiers.meta RacedIncrementalLogitBoost setClassifier

Introduction

In this page you can find the example usage for weka.classifiers.meta RacedIncrementalLogitBoost setClassifier.

Prototype

@Override
public void setClassifier(Classifier newClassifier) 

Source Link

Document

Set the base learner.

Usage

From source file:fr.unice.i3s.rockflows.experiments.main.IntermediateExecutor.java

private List<InfoClassifier> inputClassifier(Dataset original) throws Exception {
    List<InfoClassifier> cls = new ArrayList<>();
    int id = 0;//from  www  .jav a2s .  co m
    //LogisticRegression:
    InfoClassifier ic1 = new InfoClassifier(id++);
    ic1.classifier = new Logistic();
    ic1.name = "Logistic Regression";
    ic1.properties.requireNumericDataset = true;
    cls.add(ic1);
    //SVM:
    InfoClassifier ic2 = new InfoClassifier(id++);
    LibSVM ccc = new LibSVM();
    //disable 
    ccc.setOptions(new String[] { "-J", //Turn off nominal to binary conversion.
            "-V" //Turn off missing value replacement
    });
    //ccc.setSVMType(new SelectedTag(LibSVM.SVMTYPE_C_SVC, LibSVM.TAGS_SVMTYPE));
    //ccc.setKernelType(new SelectedTag(LibSVM.KERNELTYPE_RBF, LibSVM.TAGS_KERNELTYPE));
    //ccc.setEps(0.001); //tolerance
    ic2.classifier = ccc;
    ic2.name = "Svm";
    ic2.properties.requireNumericDataset = true;
    cls.add(ic2);
    //J48:
    InfoClassifier ic3 = new InfoClassifier(id++);
    ic3.classifier = new J48();
    ic3.name = "J48";
    ic3.properties.manageMissingValues = true;
    cls.add(ic3);
    //NBTree:
    InfoClassifier ic4 = new InfoClassifier(id++);
    ic4.classifier = new NBTree();
    ic4.name = "NBTree";
    ic4.properties.manageMissingValues = true;
    cls.add(ic4);
    //RandomForest: 
    InfoClassifier ic5 = new InfoClassifier(id++);
    RandomForest ccc2 = new RandomForest();
    ccc2.setNumTrees(500);
    ccc2.setMaxDepth(0);
    ic5.classifier = ccc2;
    ic5.name = "Random Forest";
    ic5.properties.manageMissingValues = true;
    cls.add(ic5);
    //Logistic Model Trees (LMT):
    InfoClassifier ic6 = new InfoClassifier(id++);
    ic6.classifier = new LMT();
    ic6.name = "Logistic Model Tree";
    ic6.properties.manageMissingValues = true;
    cls.add(ic6);
    //Alternating Decision Trees (ADTree):
    InfoClassifier ic7 = new InfoClassifier(id++);
    if (original.trainingSet.numClasses() > 2) {
        MultiClassClassifier mc = new MultiClassClassifier();
        mc.setOptions(new String[] { "-M", "3" }); //1 vs 1
        mc.setClassifier(new ADTree());
        ic7.classifier = mc;
        ic7.name = "1-vs-1 Alternating Decision Tree";
    } else {
        ic7.classifier = new ADTree();
        ic7.name = "Alternating Decision Tree";
    }
    ic7.properties.manageMultiClass = false;
    ic7.properties.manageMissingValues = true;
    cls.add(ic7);
    //Naive Bayes:
    InfoClassifier ic8 = new InfoClassifier(id++);
    ic8.classifier = new NaiveBayes();
    ic8.name = "Naive Bayes";
    ic8.properties.manageMissingValues = true;
    cls.add(ic8);
    //Bayesian Networks:
    /*
    All Bayes network algorithms implemented in Weka assume the following for the data set: 
    all variables are discrete finite variables. If you have a data set with continuous variables, 
    you can use the following filter to discretize them: 
    weka.filters.unsupervised.attribute.Discretize 
    no instances have missing values. If there are missing values in the data set, 
    values are filled in using the following filter: 
    weka.filters.unsupervised.attribute.ReplaceMissingValues 
            
    The first step performed by buildClassifier is checking if the data set fulfills those assumptions. 
    If those assumptions are not met, 
    the data set is automatically filtered and a warning is written to STDERR.2         
     */
    InfoClassifier ic9 = new InfoClassifier(id++);
    ic9.classifier = new BayesNet();
    ic9.name = "Bayesian Network";
    ic9.properties.requireNominalDataset = true;
    cls.add(ic9);
    //IBK
    InfoClassifier ic10 = new InfoClassifier(id++);
    ic10.classifier = new IBk();
    ic10.name = "IBk";
    ic10.properties.manageMissingValues = true;
    cls.add(ic10);
    //JRip:
    InfoClassifier ic11 = new InfoClassifier(id++);
    ic11.classifier = new JRip();
    ic11.name = "JRip";
    ic11.properties.manageMissingValues = true;
    cls.add(ic11);
    //MultilayerPerceptron(MLP):
    InfoClassifier ic12 = new InfoClassifier(id++);
    ic12.classifier = new MultilayerPerceptron();
    ic12.name = "Multillayer Perceptron";
    ic12.properties.requireNumericDataset = true;
    cls.add(ic12);
    //Bagging RepTree:
    InfoClassifier ic14 = new InfoClassifier(id++);
    REPTree base3 = new REPTree();
    Bagging ccc4 = new Bagging();
    ccc4.setClassifier(base3);
    ic14.classifier = ccc4;
    ic14.name = "Bagging RepTree";
    ic14.properties.manageMissingValues = true;
    cls.add(ic14);
    //Bagging J48
    InfoClassifier ic15 = new InfoClassifier(id++);
    Bagging ccc5 = new Bagging();
    ccc5.setClassifier(new J48());
    ic15.classifier = ccc5;
    ic15.name = "Bagging J48";
    ic15.properties.manageMissingValues = true;
    cls.add(ic15);
    //Bagging NBTree
    InfoClassifier ic16 = new InfoClassifier(id++);
    Bagging ccc6 = new Bagging();
    ccc6.setClassifier(new NBTree());
    ic16.classifier = ccc6;
    ic16.name = "Bagging NBTree";
    ic16.properties.manageMissingValues = true;
    cls.add(ic16);

    //Bagging OneR:
    InfoClassifier ic17 = new InfoClassifier(id++);
    Bagging ccc7 = new Bagging();
    ccc7.setClassifier(new OneR());
    ic17.classifier = ccc7;
    ic17.name = "Bagging OneR";
    ic17.properties.requireNominalDataset = true;
    ic17.properties.manageMissingValues = true;
    cls.add(ic17);
    //Bagging Jrip
    InfoClassifier ic18 = new InfoClassifier(id++);
    Bagging ccc8 = new Bagging();
    ccc8.setClassifier(new JRip());
    ic18.classifier = ccc8;
    ic18.name = "Bagging JRip";
    ic18.properties.manageMissingValues = true;
    cls.add(ic18);
    //MultiboostAB DecisionStump
    InfoClassifier ic24 = new InfoClassifier(id++);
    MultiBoostAB ccc14 = new MultiBoostAB();
    ccc14.setClassifier(new DecisionStump());
    ic24.classifier = ccc14;
    ic24.name = "MultiboostAB DecisionStump";
    ic24.properties.manageMissingValues = true;
    cls.add(ic24);
    //MultiboostAB OneR
    InfoClassifier ic25 = new InfoClassifier(id++);
    MultiBoostAB ccc15 = new MultiBoostAB();
    ccc15.setClassifier(new OneR());
    ic25.classifier = ccc15;
    ic25.name = "MultiboostAB OneR";
    ic25.properties.requireNominalDataset = true;
    cls.add(ic25);
    //MultiboostAB J48
    InfoClassifier ic27 = new InfoClassifier(id++);
    MultiBoostAB ccc17 = new MultiBoostAB();
    ccc17.setClassifier(new J48());
    ic27.classifier = ccc17;
    ic27.name = "MultiboostAB J48";
    ic27.properties.manageMissingValues = true;
    cls.add(ic27);
    //MultiboostAB Jrip
    InfoClassifier ic28 = new InfoClassifier(id++);
    MultiBoostAB ccc18 = new MultiBoostAB();
    ccc18.setClassifier(new JRip());
    ic28.classifier = ccc18;
    ic28.name = "MultiboostAB JRip";
    cls.add(ic28);
    //MultiboostAB NBTree
    InfoClassifier ic29 = new InfoClassifier(id++);
    MultiBoostAB ccc19 = new MultiBoostAB();
    ccc19.setClassifier(new NBTree());
    ic29.classifier = ccc19;
    ic29.name = "MultiboostAB NBTree";
    ic29.properties.manageMissingValues = true;
    cls.add(ic29);
    //RotationForest RandomTree
    InfoClassifier ic32 = new InfoClassifier(id++);
    RotationForest ccc21 = new RotationForest();
    RandomTree rtr5 = new RandomTree();
    rtr5.setMinNum(2);
    rtr5.setAllowUnclassifiedInstances(true);
    ccc21.setClassifier(rtr5);
    ic32.classifier = ccc21;
    ic32.name = "RotationForest RandomTree";
    ic32.properties.manageMissingValues = true;
    cls.add(ic32);
    //RotationForest J48:
    InfoClassifier ic33 = new InfoClassifier(id++);
    J48 base6 = new J48();
    RotationForest ccc22 = new RotationForest();
    ccc22.setClassifier(base6);
    ic33.classifier = ccc22;
    ic33.name = "RotationForest J48";
    ic33.properties.manageMissingValues = true;
    cls.add(ic33);
    //RandomCommittee RandomTree:
    InfoClassifier ic34 = new InfoClassifier(id++);
    RandomTree rtr4 = new RandomTree();
    rtr4.setMinNum(2);
    rtr4.setAllowUnclassifiedInstances(true);
    RandomCommittee ccc23 = new RandomCommittee();
    ccc23.setClassifier(rtr4);
    ic34.classifier = ccc23;
    ic34.name = "RandomComittee RandomTree";
    ic34.properties.manageMissingValues = true;
    cls.add(ic34);
    //Class via Clustering: SimpleKMeans
    //N.B: it can't handle date attributes
    InfoClassifier ic35 = new InfoClassifier(id++);
    ClassificationViaClustering ccc24 = new ClassificationViaClustering();
    SimpleKMeans km = new SimpleKMeans();
    km.setNumClusters(original.trainingSet.numClasses());
    ccc24.setClusterer(km);
    ic35.classifier = ccc24;
    ic35.name = "Classification via Clustering: KMeans";
    ic35.properties.requireNumericDataset = true;
    cls.add(ic35);
    //Class via Clustering: FarthestFirst
    InfoClassifier ic36 = new InfoClassifier(id++);
    ClassificationViaClustering ccc25 = new ClassificationViaClustering();
    FarthestFirst ff = new FarthestFirst();
    ff.setNumClusters(original.trainingSet.numClasses());
    ccc25.setClusterer(ff);
    ic36.classifier = ccc25;
    ic36.name = "Classification via Clustering: FarthestFirst";
    ic36.properties.requireNumericDataset = true;
    cls.add(ic36);
    //SMO
    InfoClassifier ic37 = new InfoClassifier(id++);
    ic37.classifier = new SMO();
    ic37.properties.requireNumericDataset = true;
    ic37.properties.manageMultiClass = false;
    ic37.name = "Smo";
    cls.add(ic37);
    //Random Subspace
    InfoClassifier ic38 = new InfoClassifier(id++);
    RandomSubSpace sub = new RandomSubSpace();
    sub.setClassifier(new REPTree());
    ic38.classifier = sub;
    ic38.name = "Random Subspaces of RepTree";
    ic38.properties.manageMissingValues = true;
    cls.add(ic38);
    //PART rule based
    InfoClassifier ic39 = new InfoClassifier(id++);
    PART p39 = new PART();
    p39.setOptions(new String[] { "-C", "0.5" });
    ic39.classifier = new PART();
    ic39.name = "PART";
    ic39.properties.manageMissingValues = true;
    cls.add(ic39);
    //Decision-Table / Naive Bayes
    InfoClassifier ic40 = new InfoClassifier(id++);
    ic40.classifier = new DTNB();
    ic40.name = "DTNB";
    ic40.properties.manageMissingValues = true;
    cls.add(ic40);
    //Ridor Rule based
    InfoClassifier ic41 = new InfoClassifier(id++);
    ic41.classifier = new Ridor();
    ic41.name = "Ridor";
    ic41.properties.manageMissingValues = true;
    cls.add(ic41);
    //Decision Table
    InfoClassifier ic42 = new InfoClassifier(id++);
    ic42.classifier = new DecisionTable();
    ic42.name = "Decision Table";
    ic42.properties.manageMissingValues = true;
    cls.add(ic42);
    //Conjunctive Rule
    InfoClassifier ic43 = new InfoClassifier(id++);
    ic43.classifier = new ConjunctiveRule();
    ic43.name = "Conjunctive Rule";
    ic43.properties.manageMissingValues = true;
    cls.add(ic43);
    //LogitBoost Decision Stump
    InfoClassifier ic44 = new InfoClassifier(id++);
    LogitBoost lb = new LogitBoost();
    lb.setOptions(new String[] { "-L", "1.79" });
    lb.setClassifier(new DecisionStump());
    ic44.classifier = lb;
    ic44.name = "LogitBoost Decision Stump";
    ic44.properties.manageMissingValues = true;
    cls.add(ic44);
    //Raced Incremental Logit Boost, Decision Stump
    InfoClassifier ic45 = new InfoClassifier(id++);
    RacedIncrementalLogitBoost rlb = new RacedIncrementalLogitBoost();
    rlb.setClassifier(new DecisionStump());
    ic45.classifier = rlb;
    ic45.name = "Raced Incremental Logit Boost, Decision Stumps";
    ic45.properties.manageMissingValues = true;
    cls.add(ic45);
    //AdaboostM1 decision stump
    InfoClassifier ic46 = new InfoClassifier(id++);
    AdaBoostM1 adm = new AdaBoostM1();
    adm.setClassifier(new DecisionStump());
    ic46.classifier = adm;
    ic46.name = "AdaboostM1, Decision Stumps";
    ic46.properties.manageMissingValues = true;
    cls.add(ic46);
    //AdaboostM1 J48
    InfoClassifier ic47 = new InfoClassifier(id++);
    AdaBoostM1 adm2 = new AdaBoostM1();
    adm2.setClassifier(new J48());
    ic47.classifier = adm2;
    ic47.name = "AdaboostM1, J48";
    ic47.properties.manageMissingValues = true;
    cls.add(ic47);
    //MultiboostAb Decision Table
    InfoClassifier ic48 = new InfoClassifier(id++);
    MultiBoostAB mba = new MultiBoostAB();
    mba.setClassifier(new DecisionTable());
    ic48.classifier = mba;
    ic48.name = "MultiboostAB, Decision Table";
    ic48.properties.manageMissingValues = true;
    cls.add(ic48);
    //Multiboost NaiveBayes
    InfoClassifier ic49 = new InfoClassifier(id++);
    MultiBoostAB mba2 = new MultiBoostAB();
    mba2.setClassifier(new NaiveBayes());
    ic49.classifier = mba2;
    ic49.name = "MultiboostAB, Naive Bayes";
    ic49.properties.manageMissingValues = true;
    cls.add(ic49);
    //Multiboost PART
    InfoClassifier ic50 = new InfoClassifier(id++);
    MultiBoostAB mba3 = new MultiBoostAB();
    mba3.setClassifier(new PART());
    ic50.classifier = mba3;
    ic50.name = "MultiboostAB, PART";
    ic50.properties.manageMissingValues = true;
    cls.add(ic50);
    //Multiboost Random Tree
    InfoClassifier ic51 = new InfoClassifier(id++);
    MultiBoostAB mba4 = new MultiBoostAB();
    RandomTree rtr3 = new RandomTree();
    rtr3.setMinNum(2);
    rtr3.setAllowUnclassifiedInstances(true);
    mba4.setClassifier(rtr3);
    ic51.classifier = mba4;
    ic51.name = "MultiboostAB, RandomTree";
    ic51.properties.manageMissingValues = true;
    cls.add(ic51);
    //Multiboost Rep Tree
    InfoClassifier ic52 = new InfoClassifier(id++);
    MultiBoostAB mba5 = new MultiBoostAB();
    mba5.setClassifier(new REPTree());
    ic52.classifier = mba5;
    ic52.name = "MultiboostAB, RepTree";
    ic52.properties.manageMissingValues = true;
    cls.add(ic52);
    //Bagging Decision Stump
    InfoClassifier ic53 = new InfoClassifier(id++);
    Bagging bag = new Bagging();
    bag.setClassifier(new DecisionStump());
    ic53.classifier = bag;
    ic53.name = "Bagging Decision Stump";
    ic53.properties.manageMissingValues = true;
    cls.add(ic53);
    //Bagging Decision Table
    InfoClassifier ic54 = new InfoClassifier(id++);
    Bagging bag1 = new Bagging();
    bag1.setClassifier(new DecisionTable());
    ic54.classifier = bag1;
    ic54.name = "Bagging Decision Table";
    ic54.properties.manageMissingValues = true;
    cls.add(ic54);
    //Bagging HyperPipes
    InfoClassifier ic55 = new InfoClassifier(id++);
    Bagging bag2 = new Bagging();
    bag2.setClassifier(new HyperPipes());
    ic55.classifier = bag2;
    ic55.name = "Bagging Hyper Pipes";
    cls.add(ic55);
    //Bagging Naive Bayes
    InfoClassifier ic56 = new InfoClassifier(id++);
    Bagging bag3 = new Bagging();
    bag3.setClassifier(new NaiveBayes());
    ic56.classifier = bag3;
    ic56.name = "Bagging Naive Bayes";
    ic56.properties.manageMissingValues = true;
    cls.add(ic56);
    //Bagging PART
    InfoClassifier ic57 = new InfoClassifier(id++);
    Bagging bag4 = new Bagging();
    bag4.setClassifier(new PART());
    ic57.classifier = bag4;
    ic57.name = "Bagging PART";
    ic57.properties.manageMissingValues = true;
    cls.add(ic57);
    //Bagging RandomTree
    InfoClassifier ic58 = new InfoClassifier(id++);
    Bagging bag5 = new Bagging();
    RandomTree rtr2 = new RandomTree();
    rtr2.setMinNum(2);
    rtr2.setAllowUnclassifiedInstances(true);
    bag5.setClassifier(rtr2);
    ic58.classifier = bag5;
    ic58.name = "Bagging RandomTree";
    ic58.properties.manageMissingValues = true;
    cls.add(ic58);
    //NNge
    InfoClassifier ic59 = new InfoClassifier(id++);
    NNge nng = new NNge();
    nng.setNumFoldersMIOption(1);
    nng.setNumAttemptsOfGeneOption(5);
    ic59.classifier = nng;
    ic59.name = "NNge";
    cls.add(ic59);
    //OrdinalClassClassifier J48
    InfoClassifier ic60 = new InfoClassifier(id++);
    OrdinalClassClassifier occ = new OrdinalClassClassifier();
    occ.setClassifier(new J48());
    ic60.classifier = occ;
    ic60.name = "OrdinalClassClassifier J48";
    ic60.properties.manageMissingValues = true;
    cls.add(ic60);
    //Hyper Pipes
    InfoClassifier ic61 = new InfoClassifier(id++);
    ic61.classifier = new HyperPipes();
    ic61.name = "Hyper Pipes";
    cls.add(ic61);
    //Classification via Regression, M5P used by default
    InfoClassifier ic62 = new InfoClassifier(id++);
    ic62.classifier = new ClassificationViaRegression();
    ic62.name = "Classification ViaRegression, M5P";
    ic62.properties.requireNumericDataset = true;
    cls.add(ic62);
    //RBF Network
    InfoClassifier ic64 = new InfoClassifier(id++);
    RBFNetwork rbf = new RBFNetwork();
    rbf.setRidge(0.00000001); //10^-8
    rbf.setNumClusters(original.trainingSet.numAttributes() / 2);
    ic64.classifier = rbf;
    ic64.name = "RBF Network";
    ic64.properties.requireNumericDataset = true;
    if (!original.properties.isStandardized) {
        ic64.properties.compatibleWithDataset = false;
    }
    cls.add(ic64);
    //RandomTree
    InfoClassifier ic66 = new InfoClassifier(id++);
    RandomTree rtr = new RandomTree();
    rtr.setMinNum(2);
    rtr.setAllowUnclassifiedInstances(true);
    ic66.classifier = rtr;
    ic66.name = "Random Tree";
    ic66.properties.manageMissingValues = true;
    cls.add(ic66);
    //RepTree
    InfoClassifier ic67 = new InfoClassifier(id++);
    REPTree rept = new REPTree();
    ic67.classifier = rept;
    ic67.name = "Rep Tree";
    ic67.properties.manageMissingValues = true;
    cls.add(ic67);
    //Decision Stump
    InfoClassifier ic68 = new InfoClassifier(id++);
    ic68.classifier = new DecisionStump();
    ic68.name = "Decision Stump";
    ic68.properties.manageMissingValues = true;
    cls.add(ic68);
    //OneR
    InfoClassifier ic69 = new InfoClassifier(id++);
    ic69.classifier = new OneR();
    ic69.name = "OneR";
    ic69.properties.requireNominalDataset = true;
    ic69.properties.manageMissingValues = true;
    cls.add(ic69);
    //LWL
    InfoClassifier ic71 = new InfoClassifier(id++);
    ic71.classifier = new LWL();
    ic71.name = "LWL";
    ic71.properties.manageMissingValues = true;
    cls.add(ic71);
    //Bagging LWL
    InfoClassifier ic72 = new InfoClassifier(id++);
    Bagging bg72 = new Bagging();
    bg72.setClassifier(new LWL());
    ic72.classifier = bg72;
    ic72.name = "Bagging LWL";
    ic72.properties.manageMissingValues = true;
    cls.add(ic72);
    //Decorate
    InfoClassifier ic73 = new InfoClassifier(id++);
    ic73.classifier = new Decorate();
    ic73.name = "Decorate";
    ic73.properties.manageMissingValues = true;
    ic73.properties.minNumTrainingInstances = 15;
    this.indexDecorate = id - 1;
    cls.add(ic73);
    //Dagging
    InfoClassifier ic74 = new InfoClassifier(id++);
    Dagging dng = new Dagging();
    dng.setClassifier(new SMO());
    dng.setNumFolds(4);
    ic74.classifier = dng;
    ic74.properties.requireNumericDataset = true;
    ic74.properties.manageMultiClass = false;
    ic74.name = "Dagging SMO";
    cls.add(ic74);
    //IB1
    InfoClassifier ic75 = new InfoClassifier(id++);
    ic75.classifier = new IB1();
    ic75.properties.manageMissingValues = true;
    ic75.name = "IB1";
    cls.add(ic75);
    //Simple Logistic
    InfoClassifier ic76 = new InfoClassifier(id++);
    ic76.classifier = new SimpleLogistic();
    ic76.properties.requireNumericDataset = true;
    ic76.name = "Simple Logistic";
    cls.add(ic76);
    //VFI
    InfoClassifier ic77 = new InfoClassifier(id++);
    ic77.classifier = new VFI();
    ic77.properties.manageMissingValues = true;
    ic77.name = "VFI";
    cls.add(ic77);

    //check if classifier satisfies the constraints of min #instances
    checkMinNumInstanes(cls, original.trainingSet);

    return cls;
}