Esempio n. 1
0
  public static void main(String[] args) throws Exception {

    BufferedReader reader = new BufferedReader(new FileReader("spambase.arff"));
    Instances data = new Instances(reader);
    reader.close();
    // setting class attribute
    data.setClassIndex(data.numAttributes() - 1);

    int i = data.numInstances();
    int j = data.numAttributes() - 1;

    File file = new File("tablelog.csv");
    Writer output = null;
    output = new BufferedWriter(new FileWriter(file));
    output.write(
        "%missing,auc1,correct1,fmeasure1,auc2,correct2,fmeasure2,auc3,correct3,fmeasure3\n");

    Random randomGenerator = new Random();
    data.randomize(randomGenerator);
    int numBlock = data.numInstances() / 2;
    double num0 = 0, num1 = 0, num2 = 0;
    /*mdata.instance(0).setMissing(0);
    mdata.deleteWithMissing(0);
    System.out.println(mdata.numInstances()+","+data.numInstances());*/
    // Instances traindata=null;
    // Instances testdata=null;
    // System.out.println(data.instance(3).stringValue(1));
    for (int perc = 10; perc < 101; perc = perc + 10) {
      Instances mdata = new Instances(data);
      int numMissing = perc * numBlock / 100;
      double y11[] = new double[2];
      double y21[] = new double[2];
      double y31[] = new double[2];
      double y12[] = new double[2];
      double y22[] = new double[2];
      double y32[] = new double[2];
      double y13[] = new double[2];
      double y23[] = new double[2];
      double y33[] = new double[2];
      for (int p = 0; p < 2; p++) {
        Instances traindata = mdata.trainCV(2, p);
        Instances testdata = mdata.testCV(2, p);
        num0 = 0;
        num1 = 0;
        num2 = 0;
        for (int t = 0; t < numBlock; t++) {
          if (traindata.instance(t).classValue() == 0) num0++;
          if (traindata.instance(t).classValue() == 1) num1++;
          // if (traindata.instance(t).classValue()==2) num2++;
        }
        // System.out.println(mdata.instance(0).classValue());
        Instances trainwithmissing = new Instances(traindata);
        Instances testwithmissing = new Instances(testdata);
        for (int q = 0; q < j; q++) {
          int r = randomGenerator.nextInt((int) i / 2);

          for (int k = 0; k < numMissing; k++) {
            // int r = randomGenerator.nextInt((int) i/2);
            // int c = randomGenerator.nextInt(j);
            trainwithmissing.instance((r + k) % numBlock).setMissing(q);
            testwithmissing.instance((r + k) % numBlock).setMissing(q);
          }
        }
        // trainwithmissing.deleteWithMissing(0);System.out.println(traindata.numInstances()+","+trainwithmissing.numInstances());
        Classifier cModel =
            (Classifier) new Logistic(); // try for different classifiers and datasets
        cModel.buildClassifier(trainwithmissing);
        Evaluation eTest1 = new Evaluation(trainwithmissing);
        eTest1.evaluateModel(cModel, testdata);
        // eTest.crossValidateModel(cModel,mdata,10,mdata.getRandomNumberGenerator(1));
        y11[p] =
            num0 / numBlock * eTest1.areaUnderROC(0)
                + num1
                    / numBlock
                    * eTest1.areaUnderROC(1) /*+num2/numBlock*eTest1.areaUnderROC(2)*/;
        y21[p] = eTest1.correct();
        y31[p] =
            num0 / numBlock * eTest1.fMeasure(0)
                + num1 / numBlock * eTest1.fMeasure(1) /*+num2/numBlock*eTest1.fMeasure(2)*/;

        Classifier cModel2 = (Classifier) new Logistic();
        cModel2.buildClassifier(traindata);
        Evaluation eTest2 = new Evaluation(traindata);
        eTest2.evaluateModel(cModel2, testwithmissing);
        y12[p] =
            num0 / numBlock * eTest2.areaUnderROC(0)
                + num1
                    / numBlock
                    * eTest2.areaUnderROC(1) /*+num2/numBlock*eTest2.areaUnderROC(2)*/;
        y22[p] = eTest2.correct();
        y32[p] =
            num0 / numBlock * eTest2.fMeasure(0)
                + num1 / numBlock * eTest2.fMeasure(1) /*+num2/numBlock*eTest2.fMeasure(2)*/;

        Classifier cModel3 = (Classifier) new Logistic();
        cModel3.buildClassifier(trainwithmissing);
        Evaluation eTest3 = new Evaluation(trainwithmissing);
        eTest3.evaluateModel(cModel3, testwithmissing);
        y13[p] =
            num0 / numBlock * eTest3.areaUnderROC(0)
                + num1
                    / numBlock
                    * eTest3.areaUnderROC(1) /*+num2/numBlock*eTest3.areaUnderROC(2)*/;
        y23[p] = eTest3.correct();
        y33[p] =
            num0 / numBlock * eTest3.fMeasure(0)
                + num1 / numBlock * eTest3.fMeasure(1) /*+num2/numBlock*eTest3.fMeasure(2)*/;
        // System.out.println(num0+","+num1+","+num2+"\n");
      }
      double auc1 = (y11[0] + y11[1]) / 2;
      double auc2 = (y12[0] + y12[1]) / 2;
      double auc3 = (y13[0] + y13[1]) / 2;
      double corr1 = (y21[0] + y21[1]) / i;
      double corr2 = (y22[0] + y22[1]) / i;
      double corr3 = (y23[0] + y23[1]) / i;
      double fm1 = (y31[0] + y31[1]) / 2;
      double fm2 = (y32[0] + y32[1]) / 2;
      double fm3 = (y33[0] + y33[1]) / 2;
      output.write(
          perc + "," + auc1 + "," + corr1 + "," + fm1 + "," + auc2 + "," + corr2 + "," + fm2 + ","
              + auc3 + "," + corr3 + "," + fm3 + "\n"); // System.out.println(num0);
      // mdata=data;

    }
    output.close();
  }
Esempio n. 2
0
  /**
   * Evaluates a feature subset by cross validation
   *
   * @param feature_set the subset to be evaluated
   * @param num_atts the number of attributes in the subset
   * @return the estimated accuracy
   * @throws Exception if subset can't be evaluated
   */
  protected double estimatePerformance(BitSet feature_set, int num_atts) throws Exception {

    m_evaluation = new Evaluation(m_theInstances);
    int i;
    int[] fs = new int[num_atts];

    double[] instA = new double[num_atts];
    int classI = m_theInstances.classIndex();

    int index = 0;
    for (i = 0; i < m_numAttributes; i++) {
      if (feature_set.get(i)) {
        fs[index++] = i;
      }
    }

    // create new hash table
    m_entries = new Hashtable((int) (m_theInstances.numInstances() * 1.5));

    // insert instances into the hash table
    for (i = 0; i < m_numInstances; i++) {

      Instance inst = m_theInstances.instance(i);
      for (int j = 0; j < fs.length; j++) {
        if (fs[j] == classI) {
          instA[j] = Double.MAX_VALUE; // missing for the class
        } else if (inst.isMissing(fs[j])) {
          instA[j] = Double.MAX_VALUE;
        } else {
          instA[j] = inst.value(fs[j]);
        }
      }
      insertIntoTable(inst, instA);
    }

    if (m_CVFolds == 1) {

      // calculate leave one out error
      for (i = 0; i < m_numInstances; i++) {
        Instance inst = m_theInstances.instance(i);
        for (int j = 0; j < fs.length; j++) {
          if (fs[j] == classI) {
            instA[j] = Double.MAX_VALUE; // missing for the class
          } else if (inst.isMissing(fs[j])) {
            instA[j] = Double.MAX_VALUE;
          } else {
            instA[j] = inst.value(fs[j]);
          }
        }
        evaluateInstanceLeaveOneOut(inst, instA);
      }
    } else {
      m_theInstances.randomize(m_rr);
      m_theInstances.stratify(m_CVFolds);

      // calculate 10 fold cross validation error
      for (i = 0; i < m_CVFolds; i++) {
        Instances insts = m_theInstances.testCV(m_CVFolds, i);
        evaluateFoldCV(insts, fs);
      }
    }

    switch (m_evaluationMeasure) {
      case EVAL_DEFAULT:
        if (m_classIsNominal) {
          return m_evaluation.pctCorrect();
        }
        return -m_evaluation.rootMeanSquaredError();
      case EVAL_ACCURACY:
        return m_evaluation.pctCorrect();
      case EVAL_RMSE:
        return -m_evaluation.rootMeanSquaredError();
      case EVAL_MAE:
        return -m_evaluation.meanAbsoluteError();
      case EVAL_AUC:
        double[] classPriors = m_evaluation.getClassPriors();
        Utils.normalize(classPriors);
        double weightedAUC = 0;
        for (i = 0; i < m_theInstances.classAttribute().numValues(); i++) {
          double tempAUC = m_evaluation.areaUnderROC(i);
          if (!Utils.isMissingValue(tempAUC)) {
            weightedAUC += (classPriors[i] * tempAUC);
          } else {
            System.err.println("Undefined AUC!!");
          }
        }
        return weightedAUC;
    }
    // shouldn't get here
    return 0.0;
  }