/** * Constructor. Creates a new instance of Spea2Fitness for a given <code>SolutionSet</code>. * * @param solutionSet The <code>SolutionSet</code> */ public Spea2Fitness(SolutionSet solutionSet) { distance = distance_.distanceMatrix(solutionSet); solutionSet_ = solutionSet; for (int i = 0; i < solutionSet_.size(); i++) { solutionSet_.get(i).setLocation(i); } // for } // Spea2Fitness
/** Assigns fitness for all the solutions. */ public void fitnessAssign() { double[] strength = new double[solutionSet_.size()]; double[] rawFitness = new double[solutionSet_.size()]; double kDistance; // Calculate the strength value // strength(i) = |{j | j <- SolutionSet and i dominate j}| for (int i = 0; i < solutionSet_.size(); i++) { for (int j = 0; j < solutionSet_.size(); j++) { if (dominance_.compare(solutionSet_.get(i), solutionSet_.get(j)) == -1) { strength[i] += 1.0; } // if } // for } // for // Calculate the raw fitness // rawFitness(i) = |{sum strenght(j) | j <- SolutionSet and j dominate i}| for (int i = 0; i < solutionSet_.size(); i++) { for (int j = 0; j < solutionSet_.size(); j++) { if (dominance_.compare(solutionSet_.get(i), solutionSet_.get(j)) == 1) { rawFitness[i] += strength[j]; } // if } // for } // for // Add the distance to the k-th individual. In the reference paper of SPEA2, // k = sqrt(population.size()), but a value of k = 1 recommended. See // http://www.tik.ee.ethz.ch/pisa/selectors/spea2/spea2_documentation.txt int k = 1; for (int i = 0; i < distance.length; i++) { Arrays.sort(distance[i]); kDistance = 1.0 / (distance[i][k] + 2.0); // Calcule de D(i) distance // population.get(i).setFitness(rawFitness[i]); solutionSet_.get(i).setFitness(rawFitness[i] + kDistance); } // for } // fitnessAsign
/** @param args the command line arguments -- modelname, alg_name, evaluation_times, [runid] */ public static void main(String[] args) throws Exception { try { String name = args[0]; URL location = Main.class.getProtectionDomain().getCodeSource().getLocation(); String loc = location.toString(); String project_path = loc.substring(5, loc.lastIndexOf("SPL/")) + "SPL/"; // with '/' at the end String fm = project_path + "dimacs_data/" + name + ".dimacs"; String augment = fm + ".augment"; String dead = fm + ".dead"; String mandatory = fm + ".mandatory"; String seed = fm + ".richseed"; String opfile = fm + ".sipop"; Problem p = new ProductLineProblem(fm, augment, mandatory, dead, seed); // Problem p = new ProductLineProblemNovelPrep(fm, augment, mandatory, dead, seed, // opfile); // GroupedProblem.grouping((ProductLineProblem) p, 100); System.exit(0); Algorithm a; int evaluation_times = Integer.parseInt(args[2]); String alg_name = args[1]; String runid = ""; if (args.length >= 4) { runid = args[3]; } switch (alg_name) { case "IBEA": a = new SPL_SettingsIBEA(p).configureICSE2013(evaluation_times); break; case "SIPIBEA": a = new SPL_SettingsIBEA(p).configureSIPIBEA(evaluation_times); break; case "SPEA2": a = new SPL_SettingsEMOs(p).configureSPEA2(evaluation_times); break; case "NSGA2": a = new SPL_SettingsEMOs(p).configureNSGA2(evaluation_times); break; case "IBEASEED": a = new SPL_SettingsIBEA(p).configureIBEASEED(evaluation_times); break; case "SATIBEA": // a = new SPL_SettingsIBEA(p).configureICSE15(1000, fm, ((ProductLineProblem) // p).getNumFeatures(), // ((ProductLineProblem) p).getConstraints()); a = new SPL_SettingsIBEA(p) .configureSATIBEA( evaluation_times, fm, ((ProductLineProblem) p).getNumFeatures(), ((ProductLineProblem) p).getConstraints()); break; default: a = new SPL_SettingsIBEA(p).configureICSE2013(evaluation_times); } long start = System.currentTimeMillis(); SolutionSet pop = a.execute(); float total_time = (System.currentTimeMillis() - start) / 1000.0f; String file_tag = name + "_" + alg_name + '_' + evaluation_times / 1000 + "k_" + runid + ".txt"; String file_path = project_path + "j_res/" + file_tag; File file = new File(file_path); if (!file.exists()) { file.createNewFile(); } FileWriter fw = new FileWriter(file.getAbsoluteFile()); BufferedWriter bw = new BufferedWriter(fw); for (int i = 0; i < pop.size(); i++) { Variable v = pop.get(i).getDecisionVariables()[0]; bw.write((Binary) v + "\n"); System.out.println("Conf" + (i + 1) + ": " + (Binary) v + " "); } bw.write("~~~\n"); for (int i = 0; i < pop.size(); i++) { Variable v = pop.get(i).getDecisionVariables()[0]; for (int j = 0; j < pop.get(i).getNumberOfObjectives(); j++) { bw.write(pop.get(i).getObjective(j) + " "); System.out.print(pop.get(i).getObjective(j) + " "); } bw.write("\n"); System.out.println(""); } System.out.println(total_time); bw.write("~~~\n" + total_time + "\n"); bw.close(); fw.close(); } catch (Exception e) { e.printStackTrace(); } }
/** * Gets 'size' elements from a population of more than 'size' elements using for this de * enviromentalSelection truncation * * @param size The number of elements to get. */ public SolutionSet environmentalSelection(int size) { if (solutionSet_.size() < size) { size = solutionSet_.size(); } // Create a new auxiliar population for no alter the original population SolutionSet aux = new SolutionSet(solutionSet_.size()); int i = 0; while (i < solutionSet_.size()) { if (solutionSet_.get(i).getFitness() < 1.0) { aux.add(solutionSet_.get(i)); solutionSet_.remove(i); } else { i++; } // if } // while if (aux.size() < size) { Comparator comparator = new FitnessComparator(); solutionSet_.sort(comparator); int remain = size - aux.size(); for (i = 0; i < remain; i++) { aux.add(solutionSet_.get(i)); } return aux; } else if (aux.size() == size) { return aux; } double[][] distance = distance_.distanceMatrix(aux); List<List<DistanceNode>> distanceList = new LinkedList<List<DistanceNode>>(); for (int pos = 0; pos < aux.size(); pos++) { aux.get(pos).setLocation(pos); List<DistanceNode> distanceNodeList = new ArrayList<DistanceNode>(); for (int ref = 0; ref < aux.size(); ref++) { if (pos != ref) { distanceNodeList.add(new DistanceNode(distance[pos][ref], ref)); } // if } // for distanceList.add(distanceNodeList); } // for for (int q = 0; q < distanceList.size(); q++) { Collections.sort(distanceList.get(q), distanceNodeComparator); } // for while (aux.size() > size) { double minDistance = Double.MAX_VALUE; int toRemove = 0; i = 0; Iterator<List<DistanceNode>> iterator = distanceList.iterator(); while (iterator.hasNext()) { List<DistanceNode> dn = iterator.next(); if (dn.get(0).getDistance() < minDistance) { toRemove = i; minDistance = dn.get(0).getDistance(); // i y toRemove have the same distance to the first solution } else if (dn.get(0).getDistance() == minDistance) { int k = 0; while ((dn.get(k).getDistance() == distanceList.get(toRemove).get(k).getDistance()) && k < (distanceList.get(i).size() - 1)) { k++; } if (dn.get(k).getDistance() < distanceList.get(toRemove).get(k).getDistance()) { toRemove = i; } // if } // if i++; } // while int tmp = aux.get(toRemove).getLocation(); aux.remove(toRemove); distanceList.remove(toRemove); Iterator<List<DistanceNode>> externIterator = distanceList.iterator(); while (externIterator.hasNext()) { Iterator<DistanceNode> interIterator = externIterator.next().iterator(); while (interIterator.hasNext()) { if (interIterator.next().getReference() == tmp) { interIterator.remove(); continue; } // if } // while } // while } // while return aux; } // environmentalSelection