/*
July 2006. Annie Che <chea@stat.ucla.edu>. UCLA Statistics.
Source of example data:
An Introduction to Computational Statitics by Robert I. Jennrich.
Page 199, example of regression on time for coins to reach bottom of fountains.
*/
package edu.ucla.stat.SOCR.analyses.example;
import java.util.HashMap;
import edu.ucla.stat.SOCR.analyses.data.Data;
import edu.ucla.stat.SOCR.analyses.data.DataType;
import edu.ucla.stat.SOCR.analyses.result.AnovaOneWayResult;
public class AnovaOneWayExample {
public static void main(String args[]) {
String[] group =
{"1","1","1","1","1","1", "2","2","2","2","2","2","2","2", "3","3","3","3","3"};
double[] time =
{93,67,77,92,97,62, 136,120,115,104,115,121,102,130, 198,217,209,221,190};
// you'll need to instantiate a data instance first.
Data data = new Data();
/*********************************************************************
then put the data into the Data Object.
append the predictor data using method "addPredictor".
append the response data using method "addResponse".
**********************************************************************/
data.addPredictor(group, DataType.FACTOR);
data.addResponse(time, DataType.QUANTITATIVE);
try {
AnovaOneWayResult result = data.modelAnovaOneWay();
if (result != null) {
// Getting the model's parameter estiamtes and statistics.
int dfCTotal = result.getDFTotal();
int dfModel = result.getDFModel();
int dfError = result.getDFError();
double rssTotal = result.getRSSTotal();
double rssModel = result.getRSSModel();
double rssError = result.getRSSError();
double mssModel = result.getMSSModel();
double mssError = result.getMSSError();
double fValue = result.getFValue();
String pValue = result.getPValue();
double[] residuals = result.getResiduals();
double[] predicted = result.getPredicted();
// residuals after being sorted ascendantly.
double[] sortedResiduals = result.getSortedResiduals();
// sortedResiduals after being standardized.
double[] sortedStandardizedResiduals =
result.getSortedStandardizedResiduals();
// the original index of sortedResiduals, stored as integer array.
int[] sortedResidualsIndex = result.getSortedResidualsIndex();
// the normal quantiles of sortedResiduals.
double[] sortedNormalQuantiles = result.getSortedNormalQuantiles();
// sortedNormalQuantiles after being standardized.
double[] sortedStandardizedNormalQuantiles =
result.getSortedStandardizedNormalQuantiles();
System.out.println("dfCTotal = " + dfCTotal);
System.out.println("dfModel = " + dfModel);
System.out.println("dfError = " + dfError);
System.out.println("rssTotal = " + rssTotal);
System.out.println("rssModel = " + rssModel);
System.out.println("rssError = " + rssError);
System.out.println("mssModel = " + mssModel);
System.out.println("mssError = " + mssError);
System.out.println("fValue = " + fValue);
System.out.println("pValue = " + pValue);
for (int i = 0; i < residuals.length; i++) {
System.out.println("residuals["+i+"] = " + residuals[i]);
}
}
} catch (Exception e) {
System.out.println(e);
}
}
}