private HNSubSet getAllOutputElementsOfDuplicates(HNSubSet duplicates) { // Returns the union set of the output tasks of the tasks in // "duplicates". // The returned union set has already the codes mapped to the ATEs in // the log! HNSubSet union = new HNSubSet(); HNSubSet allElements; for (int i = 0; i < duplicates.size(); i++) { allElements = hNet.getAllElementsOutputSet(duplicates.get(i)); for (int j = 0; j < allElements.size(); j++) { union.add(hNet.getDuplicatesMapping()[allElements.get(j)]); } } return union; }
private int identifyDuplicateToFire(HNSubSet duplicates, int elementInATE) { HNSubSet candidateDuplicates = new HNSubSet(); HNSubSet allElements; for (int i = 0; i < duplicates.size(); i++) { allElements = hNet.getAllElementsOutputSet(duplicates.get(i)); for (int j = 0; j < allElements.size(); j++) { if (elementInATE == hNet.getDuplicatesMapping()[allElements.get(j)]) { candidateDuplicates.add(duplicates.get(i)); break; } } } if (candidateDuplicates.size() <= 0) { candidateDuplicates = duplicates; // we can choose any of the tasks // because none has // followers in the process instance... } return candidateDuplicates.get(generator.nextInt(candidateDuplicates.size())); }
private void addToPossiblyEnabledElements(int element) { HNSubSet subset = hNet.getAllElementsOutputSet(element); for (int i = 0; i < subset.size(); i++) { possiblyEnabledElements.add(subset.get(i)); } }