Examples with ProcessSimulationComponents de.hpi.bpt.scylla.simulation.ProcessSimulationComponents used on opensource projects

Example 1 with ProcessSimulationComponents

use of de.hpi.bpt.scylla.simulation.ProcessSimulationComponents in project scylla by bptlab.

the class BatchClusterStartEvent method eventRoutine.

@Override
public void eventRoutine(BatchCluster cluster) throws SuspendExecution {
    BatchActivity activity = cluster.getBatchActivity();
    int nodeId = activity.getNodeId();
    List<TaskBeginEvent> parentalStartEvents = cluster.getParentalStartEvents();
    // Schedule all task begin events of the process instance
    for (TaskBeginEvent pse : parentalStartEvents) {
        ProcessInstance pi = pse.getProcessInstance();
        pse.schedule(pi);
    }
    // schedule subprocess start events for all process instances in parent
    // processInstances and parentalStartEvents are ordered the same way
    // Set the responsible process instance in the batch cluster, first one by default
    cluster.setResponsibleProcessInstance(parentalStartEvents.get(0).getProcessInstance());
    // Go through all process instances. If it's the first one, schedule it. If not, save it to be scheduled later on
    for (int j = 0; j < parentalStartEvents.size(); j++) {
        TaskBeginEvent startEvent = parentalStartEvents.get(j);
        ProcessInstance responsibleProcessInstance = startEvent.getProcessInstance();
        int processInstanceId = responsibleProcessInstance.getId();
        boolean showInTrace = responsibleProcessInstance.traceIsOn();
        SimulationModel model = (SimulationModel) responsibleProcessInstance.getModel();
        String source = startEvent.getSource();
        TimeInstant currentSimulationTime = cluster.presentTime();
        ProcessSimulationComponents pSimComponentsOfSubprocess = cluster.getProcessSimulationComponents().getChildren().get(nodeId);
        ProcessModel subprocess = pSimComponentsOfSubprocess.getProcessModel();
        try {
            Integer startNodeId = subprocess.getStartNode();
            ProcessInstance subprocessInstance = new ProcessInstance(model, subprocess, processInstanceId, showInTrace);
            subprocessInstance.setParent(responsibleProcessInstance);
            ScyllaEvent subprocessEvent = new BPMNStartEvent(model, source, currentSimulationTime, pSimComponentsOfSubprocess, subprocessInstance, startNodeId);
            System.out.println("Created BPMNStartEvent for PI " + subprocessInstance.getId() + " / " + responsibleProcessInstance.getId() + " in Batch Cluster");
            if (j == 0) {
                // If it is the first process instance, schedule it...
                subprocessEvent.schedule(subprocessInstance);
                cluster.setStartNodeId(startNodeId);
            } else {
                // ...if not, save them for later
                cluster.addPIEvent(startNodeId, subprocessEvent, subprocessInstance);
            }
        } catch (NodeNotFoundException | MultipleStartNodesException | NoStartNodeException e) {
            DebugLogger.log("Start node of process model " + subprocess.getId() + " not found.");
            System.err.println(e.getMessage());
            e.printStackTrace();
            SimulationUtils.abort(model, responsibleProcessInstance, nodeId, traceIsOn());
            return;
        }
    }
    // move batch cluster from list of not started ones to running ones
    BatchPluginUtils pluginInstance = BatchPluginUtils.getInstance();
    pluginInstance.setClusterToRunning(cluster);
// next node and timespan to next event determined by responsible process instance
// tasks resources only assigned to responsible subprocess instance
// only responsible subprocess instance is simulated
// other subprocess instances of batch are covered in process logs
}

Example 2 with ProcessSimulationComponents

use of de.hpi.bpt.scylla.simulation.ProcessSimulationComponents in project scylla by bptlab.

the class BatchPluginUtils method getDataViewOfInstance.

private Map<String, Object> getDataViewOfInstance(TaskBeginEvent desmojEvent, ProcessInstance processInstance, BatchActivity batchActivity) {
    if (batchActivity.getGroupingCharacteristic().isEmpty()) {
        return null;
    } else {
        // ***********
        // get the value of the dataObject
        // ***********
        ProcessModel processModel = processInstance.getProcessModel();
        ProcessSimulationComponents desmojObjects = desmojEvent.getDesmojObjects();
        int nodeId = desmojEvent.getNodeId();
        boolean showInTrace = desmojEvent.traceIsOn();
        SimulationModel model = (SimulationModel) desmojEvent.getModel();
        try {
            // ***************************
            // GET INPUT
            // ***************************
            // fetch all available data objects
            Map<Integer, Object> dataObjects = (Map<Integer, Object>) desmojObjects.getExtensionDistributions().get(DataObjectPluginUtils.PLUGIN_NAME);
            Map<String, Object> simulationInput = new HashMap<String, Object>();
            // iterate over all available data objects
            for (int dataObjectId : dataObjects.keySet()) {
                // fetch all data fields
                Map<String, DataObjectField> dataObjectFields = (Map<String, DataObjectField>) dataObjects.get(dataObjectId);
                String dataObjectName = processModel.getDisplayNames().get(dataObjectId);
                for (String fieldName : dataObjectFields.keySet()) {
                    // create the key by concatenating dataObjectName + fieldName and assure that the first letter is lower case
                    String key = dataObjectName + "." + fieldName;
                    // handle the distribution of every data field
                    DataObjectField dataObjectField = dataObjectFields.get(fieldName);
                    DataDistributionWrapper distWrapper = dataObjectField.getDataDistributionWrapper();
                    try {
                        simulationInput.put(key, distWrapper.getSample());
                    } catch (ScyllaRuntimeException e) {
                        // TODO Auto-generated catch block
                        e.printStackTrace();
                    }
                }
            }
            Map<String, Object> dataView = new HashMap<String, Object>();
            for (String dataViewElement : batchActivity.getGroupingCharacteristic()) {
                dataView.put(dataViewElement, simulationInput.get(dataViewElement));
            }
            return dataView;
        } catch (ScyllaValidationException e) {
            System.err.println(e.getMessage());
            e.printStackTrace();
            SimulationUtils.abort(model, processInstance, nodeId, showInTrace);
            return null;
        }
    }
}

Example 3 with ProcessSimulationComponents

use of de.hpi.bpt.scylla.simulation.ProcessSimulationComponents in project scylla by bptlab.

the class BatchTBPlugin method eventRoutine.

@SuppressWarnings("unchecked")
@Override
public void eventRoutine(TaskBeginEvent event, ProcessInstance processInstance) throws ScyllaRuntimeException {
    // System.out.println(event + " with display name " + event.getDisplayName() + " || " + event.getNextEventMap() + " and source " + event.getSource());
    BatchPluginUtils pluginInstance = BatchPluginUtils.getInstance();
    pluginInstance.logTaskEventForNonResponsiblePI(event, processInstance);
    ProcessSimulationComponents desmojObjects = event.getDesmojObjects();
    // SimulationModel model = (SimulationModel) desmojEvent.getModel();
    int nodeId = event.getNodeId();
    ProcessModel processModel = processInstance.getProcessModel();
    ProcessInstance parentProcessInstance = processInstance.getParent();
    if (parentProcessInstance != null) {
        int parentNodeId = processModel.getNodeIdInParent();
        BatchCluster cluster = pluginInstance.getRunningCluster(parentProcessInstance, parentNodeId);
        // If we are the representative (first executed) process instance we add the setUp time for this task
        if (cluster != null && parentProcessInstance == cluster.getResponsibleProcessInstance()) {
            // therefore we fist take a sample of the setUp distribution
            double setUpTimeToAdd = desmojObjects.getSetUpDistributionSample(nodeId);
            TimeUnit unit = desmojObjects.getSetUpDistributionTimeUnit(nodeId);
            TimeSpan setUpTimeToAddAsTimeSpan = new TimeSpan(setUpTimeToAdd, unit);
            // get the old value (this will always be the entry 0 in our map, because it's always the next)
            double standardTime = event.getTimeSpanToNextEventMap().get(0).getTimeAsDouble(TimeUnit.SECONDS);
            // and overwrite the time to the next task in the timeSpanToNextEventMap (=set the calculated time as the new time)
            TimeSpan timeForTaskWithSetUp = new TimeSpan(standardTime + setUpTimeToAddAsTimeSpan.getTimeAsDouble(TimeUnit.SECONDS), TimeUnit.SECONDS);
            event.getTimeSpanToNextEventMap().put(0, timeForTaskWithSetUp);
        }
    }
    // SimulationConfiguration simulationConfiguration = desmojObjects.getSimulationConfiguration();
    /*Map<Integer, BatchActivity> batchActivities = (Map<Integer, BatchActivity>) simulationConfiguration
                .getExtensionValue(getName(), "batchActivities");*/
    Map<Integer, BatchActivity> batchActivities = processModel.getBatchActivities();
    if (batchActivities.containsKey(nodeId) && processModel.getSubProcesses().containsKey(nodeId)) {
        // subprocess plugin wants to schedule BPMNStartEvents for subprocess
        // we prevent it
        Map<Integer, ScyllaEvent> nextEventMap = event.getNextEventMap();
        Map<Integer, TimeSpan> timeSpanToNextEventMap = event.getTimeSpanToNextEventMap();
        for (Integer indexOfSubprocessBPMNStartEvent : nextEventMap.keySet()) {
            ScyllaEvent eventToSchedule = nextEventMap.get(indexOfSubprocessBPMNStartEvent);
            if (eventToSchedule instanceof BPMNStartEvent || eventToSchedule instanceof TaskTerminateEvent) {
                nextEventMap.remove(indexOfSubprocessBPMNStartEvent);
                timeSpanToNextEventMap.remove(indexOfSubprocessBPMNStartEvent);
                break;
            }
        }
    }
}

Example 4 with ProcessSimulationComponents

use of de.hpi.bpt.scylla.simulation.ProcessSimulationComponents in project scylla by bptlab.

the class BoundaryEventPluginUtils method createTimerBoundaryEvents.

// I did not touch this for now. Hopefully could be deleted in future.
private void createTimerBoundaryEvents(SimulationModel model, BoundaryObject bo, double startOfInterval, double endOfInterval) throws ScyllaRuntimeException {
    double beginTimeOfTask = bo.getBeginTimeOfTask();
    ProcessSimulationComponents desmojObjects = bo.getDesmojObjects();
    ProcessModel processModel = desmojObjects.getProcessModel();
    Map<Integer, EventType> eventTypes = processModel.getEventTypes();
    Map<Integer, Boolean> cancelActivities = processModel.getCancelActivities();
    List<Integer> referenceToBoundaryEvents = bo.getReferenceToBoundaryEvents();
    for (Integer nId : referenceToBoundaryEvents) {
        boolean timerEventIsInterrupting = false;
        EventType eventType = eventTypes.get(nId);
        if (eventType == EventType.BOUNDARY) {
            Map<EventDefinitionType, Map<String, String>> eventDefinitions = processModel.getEventDefinitions().get(nId);
            Map<String, String> definitionAttributes = eventDefinitions.get(EventDefinitionType.TIMER);
            if (definitionAttributes != null) {
                // if boundary event is timer event
                double timeUntilWhenTimerEventsAreCreated = bo.getTimeUntilWhenTimerEventsAreCreated();
                if (definitionAttributes.get("timeDuration") != null) {
                    // ISO 8601 duration
                    String timeDuration = definitionAttributes.get("timeDuration");
                    if (beginTimeOfTask != timeUntilWhenTimerEventsAreCreated) {
                        // timer event has already been created once, skip
                        continue;
                    }
                    Duration javaDuration = Duration.parse(timeDuration);
                    double duration = javaDuration.get(ChronoUnit.SECONDS);
                    if (duration == 0) {
                        continue;
                    }
                    double timeToSchedule = beginTimeOfTask + duration;
                    if (timeToSchedule < endOfInterval) {
                        String displayName = processModel.getDisplayNames().get(nId);
                        if (displayName == null) {
                            displayName = processModel.getIdentifiers().get(nId);
                        }
                        String source = bo.getSource();
                        ProcessInstance processInstance = bo.getProcessInstance();
                        TimeInstant timeInstant = new TimeInstant(startOfInterval, TimeUnit.SECONDS);
                        BPMNIntermediateEvent event = new BPMNIntermediateEvent(model, source, timeInstant, desmojObjects, processInstance, nId);
                        bo.getBoundaryEventsToSchedule().computeIfAbsent(timeToSchedule, k -> new ArrayList<BPMNIntermediateEvent>());
                        bo.getBoundaryEventsToSchedule().get(timeToSchedule).add(event);
                        String message = "Schedule boundary timer event: " + displayName;
                        bo.getMessagesOfBoundaryEventsToSchedule().computeIfAbsent(timeToSchedule, k -> new ArrayList<String>());
                        bo.getMessagesOfBoundaryEventsToSchedule().get(timeToSchedule).add(message);
                    // timeUntilWhenTimerEventsAreCreated = timeToSchedule;
                    }
                    // TODO fix boundary
                    timeUntilWhenTimerEventsAreCreated = timeToSchedule;
                } else if (definitionAttributes.get("timeCycle") != null) {
                    // ISO 8601 repeating time interval:
                    String timeCycle = definitionAttributes.get("timeCycle");
                    // Rn/[ISO 8601 duration] where n
                    // (optional) for number of
                    // recurrences
                    // ["Rn"], "[ISO 8601 duration]"]
                    String[] recurrencesAndDuration = timeCycle.split("/");
                    String recurrencesString = recurrencesAndDuration[0];
                    String timeDurationString = recurrencesAndDuration[1];
                    Integer recurrencesMax = null;
                    if (recurrencesString.length() > 1) {
                        recurrencesMax = Integer.parseInt(recurrencesString.substring(1, recurrencesString.length()));
                        timerEventIsInterrupting = cancelActivities.get(nId);
                        if (timerEventIsInterrupting) {
                            recurrencesMax = 1;
                        }
                    }
                    Duration javaDuration = Duration.parse(timeDurationString);
                    double duration = javaDuration.get(ChronoUnit.SECONDS);
                    if (duration == 0 || recurrencesMax != null && recurrencesMax == 0) {
                        continue;
                    }
                    double timeToSchedule = beginTimeOfTask;
                    int actualNumberOfOccurrences = 0;
                    boolean recurrencesMaxExceeded = false;
                    while (timeToSchedule <= timeUntilWhenTimerEventsAreCreated) {
                        timeToSchedule += duration;
                        actualNumberOfOccurrences++;
                        if (recurrencesMax != null && actualNumberOfOccurrences > recurrencesMax) {
                            recurrencesMaxExceeded = true;
                            break;
                        }
                    }
                    if (recurrencesMaxExceeded) {
                        continue;
                    }
                    while (timeToSchedule <= endOfInterval) {
                        // add as many timer events for scheduling as possible (lots of them if timer event is
                        // non-interrupting,
                        // only one if it is interrupting
                        String displayName = processModel.getDisplayNames().get(nId);
                        if (displayName == null) {
                            displayName = processModel.getIdentifiers().get(nId);
                        }
                        String source = bo.getSource();
                        ProcessInstance processInstance = bo.getProcessInstance();
                        TimeInstant timeInstant = new TimeInstant(startOfInterval, TimeUnit.SECONDS);
                        BPMNIntermediateEvent event = new BPMNIntermediateEvent(model, source, timeInstant, desmojObjects, processInstance, nId);
                        bo.getBoundaryEventsToSchedule().computeIfAbsent(timeToSchedule, k -> new ArrayList<BPMNIntermediateEvent>());
                        bo.getBoundaryEventsToSchedule().get(timeToSchedule).add(event);
                        String message = "Schedule boundary timer event: " + displayName;
                        bo.getMessagesOfBoundaryEventsToSchedule().computeIfAbsent(timeToSchedule, k -> new ArrayList<String>());
                        bo.getMessagesOfBoundaryEventsToSchedule().get(timeToSchedule).add(message);
                        actualNumberOfOccurrences++;
                        if (recurrencesMax != null && actualNumberOfOccurrences == recurrencesMax) {
                            // recurrencesMaxExceeded = true;
                            break;
                        }
                        timeToSchedule += duration;
                    }
                    timeUntilWhenTimerEventsAreCreated = timeToSchedule;
                } else {
                    // TODO support timeDate attributes?
                    String identifier = processModel.getIdentifiers().get(nId);
                    DebugLogger.log("Timer event " + identifier + " has no timer definition, skip.");
                    continue;
                }
                bo.setTimeUntilWhenTimerEventsAreCreated(timeUntilWhenTimerEventsAreCreated);
            }
        }
    }
}

Example 5 with ProcessSimulationComponents

use of de.hpi.bpt.scylla.simulation.ProcessSimulationComponents in project scylla by bptlab.

the class BoundaryEventPluginUtils method createNonTimerBoundaryEvents.

private void createNonTimerBoundaryEvents(SimulationModel model, BoundaryObject bo, double startOfInterval, double endOfInterval) throws ScyllaRuntimeException {
    double timeUntilWhenNonTimerEventsAreCreated = bo.getTimeUntilWhenNonTimerEventsAreCreated();
    if (!bo.isGenerateMoreNonTimerBoundaryEvents() || timeUntilWhenNonTimerEventsAreCreated >= endOfInterval) {
        return;
    }
    ProcessSimulationComponents desmojObjects = bo.getDesmojObjects();
    ProcessModel processModel = desmojObjects.getProcessModel();
    Map<Integer, EventType> eventTypes = processModel.getEventTypes();
    Map<Integer, Boolean> cancelActivities = processModel.getCancelActivities();
    int nodeId = bo.getNodeId();
    while (timeUntilWhenNonTimerEventsAreCreated < endOfInterval) {
        // If the parent task has not already ended...
        // simulation configuration defines probability of firing boundary events
        Map<Integer, Object> branchingDistributions = desmojObjects.getExtensionDistributions().get(PLUGIN_NAME);
        @SuppressWarnings("unchecked") DiscreteDistEmpirical<Integer> distribution = (DiscreteDistEmpirical<Integer>) branchingDistributions.get(nodeId);
        if (distribution == null) {
            // There are no non-timer boundary events at this task...
            bo.setGenerateMoreNonTimerBoundaryEvents(false);
            return;
        }
        // decide on next node
        model.skipTraceNote();
        Integer nodeIdOfElementToSchedule = distribution.sample();
        // System.out.println("Choosed: "+processModel.getIdentifiers().get(nodeIdOfElementToSchedule)+" "+processModel.getIdentifiers().get(nodeId));
        if (nodeIdOfElementToSchedule == nodeId) {
            // No next boundary non-timer event, finish
            bo.setGenerateMoreNonTimerBoundaryEvents(false);
            return;
        } else {
            // There are boundary events
            EventType eventType = eventTypes.get(nodeIdOfElementToSchedule);
            if (eventType == EventType.BOUNDARY) {
                // Determine whether the boundary event to schedule is an interrupting one.
                boolean eventIsInterrupting = cancelActivities.get(nodeIdOfElementToSchedule);
                // Get time relative to the start of the task when this boundary event will trigger.
                double relativeTimeToTrigger = desmojObjects.getDistributionSample(nodeIdOfElementToSchedule);
                if (relativeTimeToTrigger == 0) {
                    // If this happens something is wrong anyways...
                    continue;
                }
                // Add the relative time of this boundary event, to determine when no more events are scheduled.
                TimeUnit unit = desmojObjects.getDistributionTimeUnit(nodeIdOfElementToSchedule);
                TimeSpan durationAsTimeSpan = new TimeSpan(relativeTimeToTrigger, unit);
                timeUntilWhenNonTimerEventsAreCreated += durationAsTimeSpan.getTimeAsDouble(TimeUnit.SECONDS);
                // Took this message sending part out. It was just to complicated for boundary events, fixed to their parent task.
                // Furthermore it is not needed anymore.
                /*String message = null;
                    boolean showInTrace = model.traceIsOn();
                    Map<EventDefinitionType, Map<String, String>> definitions = processModel.getEventDefinitions().get(nodeIdOfElementToSchedule);

                    String displayName = processModel.getDisplayNames().get(nodeIdOfElementToSchedule);

                    if (displayName == null) {
                        displayName = processModel.getIdentifiers().get(nodeIdOfElementToSchedule);
                    }
                    for (EventDefinitionType definition : definitions.keySet()) {
                        if (definition == EventDefinitionType.MESSAGE) {
                            message = "Schedule boundary message event: " + displayName;
                        }
                        else if (definition == EventDefinitionType.CONDITIONAL) {
                            message = "Schedule boundary conditional event: " + displayName;
                        }
                        else if (definition == EventDefinitionType.SIGNAL) {
                            message = "Schedule boundary signal event: " + displayName;
                        }
                        else if (definition == EventDefinitionType.ESCALATION) {
                            message = "Schedule boundary escalation event: " + displayName;
                        }
                        else {
                            if (eventIsInterrupting) {
                                if (definition == EventDefinitionType.ERROR) {
                                    message = "Schedule boundary error event: " + displayName;
                                }
                                else if (definition == EventDefinitionType.COMPENSATION) {
                                    message = "Schedule boundary compensation event: " + displayName;
                                }
                                else if (definition == EventDefinitionType.CANCEL) {
                                    message = "Schedule boundary cancel event: " + displayName;
                                }
                            }
                            else {
                                SimulationUtils.sendElementNotSupportedTraceNote(model, processModel, displayName,
                                        nodeIdOfElementToSchedule);
                                SimulationUtils.abort(model, processInstance, nodeId, showInTrace);
                                String identifier = processModel.getIdentifiers().get(nodeIdOfElementToSchedule);
                                throw new ScyllaRuntimeException("BPMNEvent " + identifier + " not supported.");
                            }
                        }*

                        bo.getMessagesOfBoundaryEventsToSchedule().computeIfAbsent(timeUntilWhenNonTimerEventsAreCreated,
                                k -> new ArrayList<String>());
                        bo.getMessagesOfBoundaryEventsToSchedule().get(timeUntilWhenNonTimerEventsAreCreated)
                                .add(message);
                    }
                    */
                String source = bo.getSource();
                ProcessInstance processInstance = bo.getProcessInstance();
                TimeInstant timeInstant = new TimeInstant(startOfInterval, TimeUnit.SECONDS);
                // And create the event with the time it should trigger.
                BPMNIntermediateEvent event = new BPMNIntermediateEvent(model, source, timeInstant, desmojObjects, processInstance, nodeIdOfElementToSchedule);
                bo.getBoundaryEventsToSchedule().computeIfAbsent(timeUntilWhenNonTimerEventsAreCreated, k -> new ArrayList<BPMNIntermediateEvent>());
                bo.getBoundaryEventsToSchedule().get(timeUntilWhenNonTimerEventsAreCreated).add(event);
                if (eventIsInterrupting) {
                    // If the element is interrupting, finish and clean up
                    // boundaryObjects.values().remove(bo);
                    bo.setGenerateMoreNonTimerBoundaryEvents(false);
                    break;
                }
            }
        }
    }
    bo.setTimeUntilWhenNonTimerEventsAreCreated(timeUntilWhenNonTimerEventsAreCreated);
}