/** * Adds tokens to the output places of a given element * * @param element element to fire */ private void addTokensOutputPlaces(int element) { /* * Pseudo-code: 1. Retrieve all elements in the OUT set of 'element' 2. * Increase the number of tokens for every output element */ HNSet set = null; // update global counter for number of tokens // note that OR-situations count as a single token. set = hNet.getOutputSet(element); if (set.size() == 0) { // element is connected to the end place numberTokens++; endPlace++; } else { numberTokens += set.size(); } // update marking... for (int iSet = 0; iSet < set.size(); iSet++) { increaseNumberTokens(element, set.get(iSet)); } }
/** Creates an initial marking. */ private void createMarking() { HNSet set = null; marking = null; marking = new HashMap[size]; // Building the marking data structure. This structure is an array of // hashmaps. // For a given hashmap, we have: // - Key: Integer = element // - Value: HashMap = subsets + the number of tokens associated to them // The idea is to keep track of which tasks fired and the number of // tokens at their output subsets. // Initially, the number of tokens is 0. for (int i = 0; i < size; i++) { set = hNet.getOutputSet(i); HashMap map = new HashMap(); for (int j = 0; j < set.size(); j++) { map.put(set.get(j), new Integer(0)); } marking[i] = map; } auxMapping = new MappingToSubsets(hNet); this.reset(); }
/** * Removes one token from the marked output places (subsets) of the tasks in <i>tasks</i> that * contain <i>element</i>. * * @param element element to fire * @param tasks whose output places point to element */ private void removeTokensOutputPlaces(int element, HNSubSet tasks) { HNSubSet subset = null; HNSet subsets = null; Integer tokens = null; int taskToFire; int task; // Checking if element is a start element if (hNet.getInputSet(element).size() == 0) { if (startPlace > 0) { startPlace--; numberTokens--; } } else { taskToFire = element; for (int iTasks = 0; iTasks < tasks.size(); iTasks++) { task = tasks.get(iTasks); subsets = auxMapping.getRelatedSubsets(taskToFire, task); if (subsets != null) { for (int iSubsets = 0; iSubsets < subsets.size(); iSubsets++) { subset = subsets.get(iSubsets); tokens = getNumberTokens(task, subset); if (tokens.intValue() > 0) { decreaseNumberTokens(task, subset); numberTokens--; } } } } } }
private boolean allSubsetsAreMarked(int inputTask, HNSet outputSet) { HNSubSet subset = null; for (int iOutputSet = 0; iOutputSet < outputSet.size(); iOutputSet++) { subset = outputSet.get(iOutputSet); if (((Integer) marking[inputTask].get(subset)).intValue() <= 0) { return false; } } return true; }
private HNSet getAlreadyMarkedPlaces(HNSet set, int task) { HNSet markedPlaces = null; HNSubSet subset = null; markedPlaces = new HNSet(); for (int iSet = 0; iSet < set.size(); iSet++) { subset = set.get(iSet); if (subset.contains(task)) { markedPlaces.add(subset); } } return markedPlaces; }
private void buildMapping(HeuristicsNet hn) { HNSet outputSubsets; HNSubSet outputSubset; int taskInSubset; mapping = new HNSet[hn.size()][hn.size()]; for (int task = 0; task < hn.size(); task++) { outputSubsets = hn.getOutputSet(task); for (int iOutputSubsets = 0; iOutputSubsets < outputSubsets.size(); iOutputSubsets++) { // inserting for every element outputSubset = outputSubsets.get(iOutputSubsets); for (int iSubset = 0; iSubset < outputSubset.size(); iSubset++) { taskInSubset = outputSubset.get(iSubset); insertInMapping(taskInSubset, task, outputSubset); } } } }
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; }
private CombinationTasksToFire findBestSetTasks(int element) { CombinationTasksToFire bCombination = null; CombinationTasksToFire combination = null; HNSubSet noTokensFromTasks = null; HNSubSet treatedTasks = null; HNSet inputSet = null; HNSet temp_inputSet = null; HNSubSet subset = null; int numberMissingTokens = 0; int rootTask = ROOT_TASK_ID; bCombination = new CombinationTasksToFire(); inputSet = hNet.getInputSet(element); if (inputSet.size() == 0) { if (startPlace <= 0) { numberMissingTokens++; // one token is missing } } else { // inputSubset is not empty. Search for tasks that "have tokens" to // element noTokensFromTasks = getTasksWithEmptyOutputPlaces(element); // >>>>>>>>>>>>>>>>>> Hint!!! I think that's why I don't run into // problems... // /// Idea -> shrink the subsets without using a temp variable, get // / the size before shrinking, shrink them, reorder the set and // /remove the empty set (do this via a method in the class // /HNSet, get the new size. This is the number of missing tokens. // make a copy to avoid destroying the original net inputSet = inputSet.deepCopy(); temp_inputSet = new HNSet(); // removing the tasks whose output subsets that contain element are // empty for (int iInputSubsets = 0; iInputSubsets < inputSet.size(); iInputSubsets++) { subset = inputSet.get(iInputSubsets); subset.removeAll(noTokensFromTasks); if (subset.size() == 0) { numberMissingTokens += 1; } else { temp_inputSet.add(subset); } } inputSet = temp_inputSet; // retrieving the best combination of tasks that can fire to enable // element if (inputSet.size() > 0) { combination = new CombinationTasksToFire(); treatedTasks = new HNSubSet(); bCombination = findBestCombination(bCombination, inputSet, rootTask, combination, treatedTasks); } } bCombination.setElementToFire(element); bCombination.setTokens(bCombination.getNumberMissingTokens() + numberMissingTokens); return bCombination; }