/** Method interface for Automatic Branch and Bound */ public void ejecutar() { String resultado; int i, numFeatures; Date d; d = new Date(); resultado = "RESULTS generated at " + String.valueOf((Date) d) + " \n--------------------------------------------------\n"; resultado += "Algorithm Name: " + params.nameAlgorithm + "\n"; /* call of ABB algorithm */ runABB(); resultado += "\nPARTITION Filename: " + params.trainFileNameInput + "\n---------------\n\n"; resultado += "Features selected: \n"; for (i = numFeatures = 0; i < features.length; i++) if (features[i] == true) { resultado += Attributes.getInputAttribute(i).getName() + " - "; numFeatures++; } resultado += "\n\n" + String.valueOf(numFeatures) + " features of " + Attributes.getInputNumAttributes() + "\n\n"; resultado += "Error in test (using train for prediction): " + String.valueOf(data.validacionCruzada(features)) + "\n"; resultado += "Error in test (using test for prediction): " + String.valueOf(data.LVOTest(features)) + "\n"; resultado += "---------------\n"; System.out.println("Experiment completed successfully"); /* creates the new training and test datasets only with the selected features */ Files.writeFile(params.extraFileNameOutput, resultado); data.generarFicherosSalida(params.trainFileNameOutput, params.testFileNameOutput, features); }
/** * Creates a boolean array with all values to true * * @return returns a boolean vector with all values to true */ private boolean[] startSolution() { boolean fv[]; fv = new boolean[Attributes.getInputNumAttributes()]; for (int i = 0; i < fv.length; i++) fv[i] = true; return fv; }