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 CombinationTasksToFire findBestCombination(
CombinationTasksToFire bCombination,
HNSet inputSet,
int rootTask,
CombinationTasksToFire combination,
HNSubSet treatedTasks) {
int task = -1;
HNSet alreadyMarkedPlaces = null;
HNSet temp_inputSet = null;
HNSubSet noTokensFromTasks = null;
HNSubSet subset = null;
if ((bCombination.getTasks().size() == 0)
|| (bCombination.getNumberMissingTokens() > combination.getNumberMissingTokens())) {
if (rootTask != ROOT_TASK_ID) {
alreadyMarkedPlaces = getAlreadyMarkedPlaces(inputSet, rootTask);
noTokensFromTasks = HNSet.getUnionSet(alreadyMarkedPlaces);
inputSet.removeAll(alreadyMarkedPlaces);
combination.getTasks().add(rootTask);
}
if (inputSet.size() == 0) {
bCombination = combination.copy();
} else {
// akam: I stoppe here - 10/07/2005
if (rootTask != ROOT_TASK_ID) {
temp_inputSet = new HNSet();
for (int iInputSet = 0; iInputSet < inputSet.size(); iInputSet++) {
subset = inputSet.get(iInputSet);
subset.removeAll(noTokensFromTasks);
subset.removeAll(treatedTasks);
if (subset.size() == 0) {
combination.setTokens(combination.getNumberMissingTokens() + 1);
} else {
temp_inputSet.add(subset);
}
}
inputSet = temp_inputSet;
}
for (int iInputSet = 0; iInputSet < inputSet.size(); iInputSet++) {
subset = inputSet.get(iInputSet);
while (subset.size() > 0) {
task = subset.get(generator.nextInt(subset.size()));
bCombination =
findBestCombination(
bCombination,
inputSet.deepCopy(),
task,
combination.copy(),
treatedTasks.deepCopy());
treatedTasks.add(task);
subset.remove(task);
}
}
}
}
return bCombination;
}
/**
* Fires a element even if it is not enabled. When the element has duplicates, it looks ahead to
* set which duplicate to fire.
*
* <p><b>Note:</b> The element MUST be in the net.
*
* @param element element to be fired.
* @param pi process instance where the element to be fired is.
* @param elementPositionInPi element position.
* @return int number of tokens that needed to be added to fire this element.
*/
public int fire(int element, ProcessInstance pi, int elementPositionInPi) {
int addedTokens = 0;
int elementDuplicates;
if ((hNet.getReverseDuplicatesMapping()[element]).size() == 1) {
elementDuplicates = hNet.getReverseDuplicatesMapping()[element].get(0);
} else {
// identify which duplicate to fire
HNSubSet duplicates = hNet.getReverseDuplicatesMapping()[element].deepCopy();
// getting the duplicates that are enabled
for (int i = 0; i < duplicates.size(); i++) {
if (!isEnabled(duplicates.get(i))) {
duplicates.remove(duplicates.get(i));
}
}
if (duplicates.size() > 0) {
if (duplicates.size() == 1) {
elementDuplicates = duplicates.get(0);
} else {
// getting the output tasks of the duplicates. These output
// are used to
// look ahead at the process instance
HNSubSet unionMappedToATEsCode = getAllOutputElementsOfDuplicates(duplicates);
AuditTrailEntryList ATEntriesList = pi.getAuditTrailEntryList();
// advancing the pointer in the ATEntries till the current
// element + 1
AuditTrailEntry ATEntry;
int elementInATE = -1;
for (int i = elementPositionInPi + 1; i < ATEntriesList.size(); i++) {
try {
ATEntry = ATEntriesList.get(i);
elementInATE =
this.hNet
.getLogEvents()
.findLogEventNumber(ATEntry.getElement(), ATEntry.getType());
if (unionMappedToATEsCode.contains(elementInATE)) {
break;
}
} catch (IOException ex) {
break;
} catch (IndexOutOfBoundsException ex) {
break;
}
}
elementDuplicates = identifyDuplicateToFire(duplicates, elementInATE);
}
} else {
// because no duplicate is enabled, a random one is chosen to
// fire...
elementDuplicates =
(hNet.getReverseDuplicatesMapping()[element])
.get(generator.nextInt(hNet.getReverseDuplicatesMapping()[element].size()));
}
}
bestCombination = findBestSetTasks(elementDuplicates);
addedTokens += bestCombination.getNumberMissingTokens();
removeTokensOutputPlaces(elementDuplicates, bestCombination.getTasks());
addTokensOutputPlaces(elementDuplicates);
addToPossiblyEnabledElements(elementDuplicates);
// registering the firing of element...
hNet.increaseElementActualFiring(
elementDuplicates,
MethodsForWorkflowLogDataStructures.getNumberSimilarProcessInstances(pi));
// updating the arc usage for the individual...
hNet.increaseArcUsage(
bestCombination.getElementToFire(),
bestCombination.getTasks(),
MethodsForWorkflowLogDataStructures.getNumberSimilarProcessInstances(pi));
return addedTokens;
}