public HashSet getLeafOperations() { HashSet result = new HashSet(); Object[] ops = operations.values().toArray(); for (int i = 0; i < ops.length; i++) { PDMOperation op = (PDMOperation) ops[i]; if ((op.getInputElements().isEmpty())) { result.add(op); } } return result; }
/** * Returns a HashSet with the operations that have data element 'data' as output element. * * @param data PDMDataElement * @return HashSet */ public HashSet getOperationsWithOutputElement(PDMDataElement data) { HashSet opso = new HashSet(); Object[] ops = operations.values().toArray(); for (int i = 0; i < ops.length; i++) { PDMOperation op = (PDMOperation) ops[i]; HashMap outputs = op.getOutputElements(); if (outputs.containsValue(data)) { opso.add(op); } } return opso; }
public HashSet calculateNextStates( PDMState state, PDMStateSpace statespace, boolean root, boolean failure, int numStates, int breadth) { HashSet result = new HashSet(); HashSet data = state.dataElements; HashSet exec1 = state.executedOperations; HashSet failed = state.failedOperations; HashSet execOps = calculateExecutableOperations(data, exec1, failed, root); Iterator it = execOps.iterator(); int b = 0; int bLimit = 0; if (!failure) { bLimit = breadth; } else { bLimit = breadth / 2; } // for each executable operation a new state is created while (it.hasNext() && i < numStates && b < bLimit) { if (!failure) { PDMOperation op = (PDMOperation) it.next(); PDMDataElement d = op.getOutputElement(); // First, add the state with the operation 'op' succesfully // executed HashSet ins2 = (HashSet) data.clone(); // NB: is it necessary to // clear this clone // again? ins2.add(d); HashSet exec2 = (HashSet) exec1.clone(); exec2.add(op); PDMState s = checkIfStateExists(statespace, ins2, exec2, failed); // Check whether the new state already exists // If so, then another link to this state is made if (!(s == null)) { PDMState st = s; PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), 1.0); statespace.addEdge(edge); } // If not, a new state is created and linked to the current // state else { String name = "state" + i; // int num = checkStatusOfState(statespace, ) PDMState st = new PDMState(statespace, name, ins2, exec2, failed); statespace.addState(st); result.add(st); PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), 1.0); statespace.addEdge(edge); i++; b++; } } // Then, if failure of operations is considered, add the state with // the failed operations 'op'. if (failure) { PDMOperation op = (PDMOperation) it.next(); PDMDataElement d = op.getOutputElement(); // First, add the state with the operation 'op' succesfully // executed HashSet ins2 = (HashSet) data.clone(); // NB: is it necessary to // clear this clone // again? ins2.add(d); HashSet exec2 = (HashSet) exec1.clone(); exec2.add(op); PDMState s = checkIfStateExists(statespace, ins2, exec2, failed); // Check whether the new state already exists // If so, then another link to this state is made if (!(s == null)) { PDMState st = s; double prob = 1.0 - (op.getFailureProbability()); PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), prob); statespace.addEdge(edge); } // If not, a new state is created and linked to the current // state else { String name = "state" + i; // int num = checkStatusOfState(statespace, ) PDMState st = new PDMState(statespace, name, ins2, exec2, failed); statespace.addState(st); result.add(st); double prob = 1.0 - (op.getFailureProbability()); PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), prob); statespace.addEdge(edge); i++; b++; } HashSet failed2 = (HashSet) failed.clone(); failed2.add(op); PDMState s2 = checkIfStateExists(statespace, data, exec1, failed2); if (!(s2 == null)) { PDMState st = s2; PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), op.getFailureProbability()); statespace.addEdge(edge); } // If not, a new state is created and linked to the current // state else { String name = "state" + i; PDMState st = new PDMState(statespace, name, data, exec1, failed2); statespace.addState(st); result.add(st); PDMStateEdge edge = new PDMStateEdge(state, st, op.getID(), op.getFailureProbability()); statespace.addEdge(edge); i++; b++; } // failed2.clear(); } } return result; }
public PDMStateSpace calculateSimpleStateSpace( boolean root, boolean failure, boolean input, boolean colored, int numStates, int breadth) { PDMStateSpace result = new PDMStateSpace(this, colored); HashSet states = new HashSet(); int j = (operations.size() + 1); if (!input) { HashSet empty = new HashSet(); PDMState st = new PDMState(result, "state" + i, empty, empty, empty); result.addState(st); states.add(st); i++; } else { // Start with the complete set of input data elements available HashSet empty = new HashSet(); String name = new String("state" + i); HashSet ins = new HashSet(); // this hashSet contains the input // elements to the process (input // elements of PDM) HashSet execOps = new HashSet(); // Fill the hashSet with the leaf elements HashMap leafs = getLeafElements(); Object[] leafElts = leafs.values().toArray(); for (int i = 0; i < leafElts.length; i++) { PDMDataElement d = (PDMDataElement) leafElts[i]; ins.add(d); } HashSet leafOps = getLeafOperations(); Iterator it = leafOps.iterator(); while (it.hasNext()) { PDMOperation op = (PDMOperation) it.next(); execOps.add(op); } PDMState start = new PDMState(result, name, ins, execOps, empty); // start // state // of // the // statespace result.addState(start); i++; states.add(start); } while (!states.isEmpty()) { HashSet states2 = (HashSet) states.clone(); Iterator it = states2.iterator(); while (it.hasNext()) { PDMState state = (PDMState) it.next(); HashSet nextStates = calculateNextStates(state, result, root, failure, numStates, breadth); Iterator it2 = nextStates.iterator(); // Add the new states to iterator while (it2.hasNext()) { PDMState st = (PDMState) it2.next(); states.add(st); } states.remove(state); } } i = 0; j = 0; Message.add("<PDMMDPStateSpace>", Message.TEST); Message.add("<NumberOfStates = " + result.getNumberOfStates() + " >", Message.TEST); Message.add("</PDMMDPStateSpace>", Message.TEST); return result; }
public HashSet calculateExecutableOperations( HashSet dataElts, HashSet executed, HashSet failed, boolean root) { HashSet result = new HashSet(); HashSet enabledOperations = new HashSet(); if (root) { // Calculate the enabled operations (i.e. those operation of which // all input elements are in the set of available elements) Object[] ops = operations.values().toArray(); for (int i = 0; i < ops.length; i++) { PDMOperation op = (PDMOperation) ops[i]; HashMap inputs = op.getInputElements(); Object[] ins = inputs.values().toArray(); boolean enabled = true; int k = 0; while (enabled && k < ins.length) { PDMDataElement d = (PDMDataElement) ins[k]; if (!(dataElts.contains(d))) { enabled = false; } k++; } if (enabled) { enabledOperations.add(op); // System.out.println("Enabled operation: "+ op.getID()); } } } else if (!(dataElts.contains(this.getRootElement()))) { // Calculate the enabled operations (i.e. those operation of which // all input elements are in the set of available elements) Object[] ops = operations.values().toArray(); for (int i = 0; i < ops.length; i++) { PDMOperation op = (PDMOperation) ops[i]; HashMap inputs = op.getInputElements(); Object[] ins = inputs.values().toArray(); boolean enabled = true; int k = 0; while (enabled && k < ins.length) { PDMDataElement d = (PDMDataElement) ins[k]; if (!(dataElts.contains(d))) { enabled = false; } k++; } if (enabled) { enabledOperations.add(op); } } } // remove already executed operations Iterator exIt = executed.iterator(); while (exIt.hasNext()) { PDMOperation op = (PDMOperation) exIt.next(); enabledOperations.remove(op); } // remove already failed operations Iterator fIt = failed.iterator(); while (fIt.hasNext()) { PDMOperation op = (PDMOperation) fIt.next(); enabledOperations.remove(op); } result = enabledOperations; return result; }