/** {@inheritDoc} */ @Override @NotNull public String getTimeout() { if (!(DONE.equals(status) || RUNNING.equals(status))) { return TIMER_STUB; } RunnerMetric timeoutMetric = getRunnerMetricByName(RunnerMetric.TERMINATION_TIME); if (timeoutMetric != null) { return getTimeOut(timeoutMetric); } RunnerMetric lifeTimeMetric = getRunnerMetricByName(RunnerMetric.LIFETIME); if (lifeTimeMetric != null && NEW.equals(descriptor.getStatus())) { return getLifeTime(lifeTimeMetric); } return TIMER_STUB; }
/** @author Roman Smirnov */ public abstract class CmmnExecution extends CoreExecution implements CmmnCaseInstance { protected static final CmmnBehaviorLogger LOG = ProcessEngineLogger.CMNN_BEHAVIOR_LOGGER; private static final long serialVersionUID = 1L; protected transient CmmnCaseDefinition caseDefinition; // current position ////////////////////////////////////// /** current activity */ protected transient CmmnActivity activity; protected boolean required = false; protected int previousState; protected int currentState = NEW.getStateCode(); protected Queue<VariableEvent> variableEventsQueue; protected transient TaskEntity task; /** * This property will be used if <code>this</code> {@link CmmnExecution} is in state {@link * CaseExecutionState#NEW} to note that an entry criterion is satisfied. */ protected boolean entryCriterionSatisfied = false; public CmmnExecution() {} // plan items /////////////////////////////////////////////////////////////// public abstract List<? extends CmmnExecution> getCaseExecutions(); protected abstract List<? extends CmmnExecution> getCaseExecutionsInternal(); public CmmnExecution findCaseExecution(String activityId) { if ((getActivity() != null) && (getActivity().getId().equals(activityId))) { return this; } for (CmmnExecution nestedExecution : getCaseExecutions()) { CmmnExecution result = nestedExecution.findCaseExecution(activityId); if (result != null) { return result; } } return null; } // task ///////////////////////////////////////////////////////////////////// public TaskEntity getTask() { return this.task; } public void setTask(Task task) { this.task = (TaskEntity) task; } public TaskEntity createTask(TaskDecorator taskDecorator) { TaskEntity task = TaskEntity.createAndInsert(this); setTask(task); taskDecorator.decorate(task, this); Context.getCommandContext().getHistoricTaskInstanceManager().createHistoricTask(task); // All properties set, now firing 'create' event task.fireEvent(TaskListener.EVENTNAME_CREATE); return task; } // super execution //////////////////////////////////////////////////////// public abstract PvmExecutionImpl getSuperExecution(); public abstract void setSuperExecution(PvmExecutionImpl superExecution); // sub process instance //////////////////////////////////////////////////// public abstract PvmExecutionImpl getSubProcessInstance(); public abstract void setSubProcessInstance(PvmExecutionImpl subProcessInstance); public abstract PvmExecutionImpl createSubProcessInstance(PvmProcessDefinition processDefinition); public abstract PvmExecutionImpl createSubProcessInstance( PvmProcessDefinition processDefinition, String businessKey); public abstract PvmExecutionImpl createSubProcessInstance( PvmProcessDefinition processDefinition, String businessKey, String caseInstanceId); // sub-/super- case instance //////////////////////////////////////////////////// public abstract CmmnExecution getSubCaseInstance(); public abstract void setSubCaseInstance(CmmnExecution subCaseInstance); public abstract CmmnExecution createSubCaseInstance(CmmnCaseDefinition caseDefinition); public abstract CmmnExecution createSubCaseInstance( CmmnCaseDefinition caseDefinition, String businessKey); public abstract CmmnExecution getSuperCaseExecution(); public abstract void setSuperCaseExecution(CmmnExecution superCaseExecution); // sentry ////////////////////////////////////////////////////////////////// // sentry: (1) create and initialize sentry parts protected abstract CmmnSentryPart newSentryPart(); protected abstract void addSentryPart(CmmnSentryPart sentryPart); public void createSentryParts() { CmmnActivity activity = getActivity(); ensureNotNull("Case execution '" + id + "': has no current activity", "activity", activity); List<CmmnSentryDeclaration> sentries = activity.getSentries(); if (sentries != null && !sentries.isEmpty()) { for (CmmnSentryDeclaration sentryDeclaration : sentries) { CmmnIfPartDeclaration ifPartDeclaration = sentryDeclaration.getIfPart(); if (ifPartDeclaration != null) { CmmnSentryPart ifPart = createIfPart(sentryDeclaration, ifPartDeclaration); addSentryPart(ifPart); } List<CmmnOnPartDeclaration> onPartDeclarations = sentryDeclaration.getOnParts(); for (CmmnOnPartDeclaration onPartDeclaration : onPartDeclarations) { CmmnSentryPart onPart = createOnPart(sentryDeclaration, onPartDeclaration); addSentryPart(onPart); } List<CmmnVariableOnPartDeclaration> variableOnPartDeclarations = sentryDeclaration.getVariableOnParts(); for (CmmnVariableOnPartDeclaration variableOnPartDeclaration : variableOnPartDeclarations) { CmmnSentryPart variableOnPart = createVariableOnPart(sentryDeclaration, variableOnPartDeclaration); addSentryPart(variableOnPart); } } } } protected CmmnSentryPart createOnPart( CmmnSentryDeclaration sentryDeclaration, CmmnOnPartDeclaration onPartDeclaration) { CmmnSentryPart sentryPart = createSentryPart(sentryDeclaration, PLAN_ITEM_ON_PART); // set the standard event String standardEvent = onPartDeclaration.getStandardEvent(); sentryPart.setStandardEvent(standardEvent); // set source case execution CmmnActivity source = onPartDeclaration.getSource(); ensureNotNull( "The source of sentry '" + sentryDeclaration.getId() + "' is null.", "source", source); String sourceActivityId = source.getId(); sentryPart.setSource(sourceActivityId); // TODO: handle also sentryRef!!! (currently not implemented on purpose) return sentryPart; } protected CmmnSentryPart createIfPart( CmmnSentryDeclaration sentryDeclaration, CmmnIfPartDeclaration ifPartDeclaration) { return createSentryPart(sentryDeclaration, IF_PART); } protected CmmnSentryPart createVariableOnPart( CmmnSentryDeclaration sentryDeclaration, CmmnVariableOnPartDeclaration variableOnPartDeclaration) { CmmnSentryPart sentryPart = createSentryPart(sentryDeclaration, VARIABLE_ON_PART); // set the variable event String variableEvent = variableOnPartDeclaration.getVariableEvent(); sentryPart.setVariableEvent(variableEvent); // set the variable name String variableName = variableOnPartDeclaration.getVariableName(); sentryPart.setVariableName(variableName); return sentryPart; } protected CmmnSentryPart createSentryPart(CmmnSentryDeclaration sentryDeclaration, String type) { CmmnSentryPart newSentryPart = newSentryPart(); // set the type newSentryPart.setType(type); // set the case instance and case execution newSentryPart.setCaseInstance(getCaseInstance()); newSentryPart.setCaseExecution(this); // set sentry id String sentryId = sentryDeclaration.getId(); newSentryPart.setSentryId(sentryId); return newSentryPart; } // sentry: (2) handle transitions public void handleChildTransition(CmmnExecution child, String transition) { // Step 1: collect all affected sentries List<String> affectedSentries = collectAffectedSentries(child, transition); // Step 2: fire force update on all case sentry part // contained by a affected sentry to provoke an // OptimisticLockingException forceUpdateOnSentries(affectedSentries); // Step 3: check each affected sentry whether it is satisfied. // the returned list contains all satisfied sentries List<String> satisfiedSentries = getSatisfiedSentries(affectedSentries); // Step 4: reset sentries -> satisfied == false resetSentries(satisfiedSentries); // Step 5: fire satisfied sentries fireSentries(satisfiedSentries); } public void fireIfOnlySentryParts() { // the following steps are a workaround, because setVariable() // does not check nor fire a sentry!!! Set<String> affectedSentries = new HashSet<String>(); List<CmmnSentryPart> sentryParts = collectSentryParts(getSentries()); for (CmmnSentryPart sentryPart : sentryParts) { if (isNotSatisfiedIfPartOnly(sentryPart)) { affectedSentries.add(sentryPart.getSentryId()); } } // Step 7: check each not affected sentry whether it is satisfied List<String> satisfiedSentries = getSatisfiedSentries(new ArrayList<String>(affectedSentries)); // Step 8: reset sentries -> satisfied == false resetSentries(satisfiedSentries); // Step 9: fire satisfied sentries fireSentries(satisfiedSentries); } public void handleVariableTransition(String variableName, String transition) { Map<String, List<CmmnSentryPart>> sentries = collectAllSentries(); List<CmmnSentryPart> sentryParts = collectSentryParts(sentries); List<String> affectedSentries = collectAffectedSentriesWithVariableOnParts(variableName, transition, sentryParts); List<CmmnSentryPart> affectedSentryParts = getAffectedSentryParts(sentries, affectedSentries); forceUpdateOnCaseSentryParts(affectedSentryParts); List<String> allSentries = new ArrayList<String>(sentries.keySet()); List<String> satisfiedSentries = getSatisfiedSentriesInExecutionTree(allSentries, sentries); List<CmmnSentryPart> satisfiedSentryParts = getAffectedSentryParts(sentries, satisfiedSentries); resetSentryParts(satisfiedSentryParts); fireSentries(satisfiedSentries); } protected List<String> collectAffectedSentries(CmmnExecution child, String transition) { List<? extends CmmnSentryPart> sentryParts = getCaseSentryParts(); List<String> affectedSentries = new ArrayList<String>(); for (CmmnSentryPart sentryPart : sentryParts) { // necessary for backward compatibility String sourceCaseExecutionId = sentryPart.getSourceCaseExecutionId(); String sourceRef = sentryPart.getSource(); if (child.getActivityId().equals(sourceRef) || child.getId().equals(sourceCaseExecutionId)) { String standardEvent = sentryPart.getStandardEvent(); if (transition.equals(standardEvent)) { addIdIfNotSatisfied(affectedSentries, sentryPart); } } } return affectedSentries; } protected boolean isNotSatisfiedIfPartOnly(CmmnSentryPart sentryPart) { return IF_PART.equals(sentryPart.getType()) && getSentries().get(sentryPart.getSentryId()).size() == 1 && !sentryPart.isSatisfied(); } protected void addIdIfNotSatisfied(List<String> affectedSentries, CmmnSentryPart sentryPart) { if (!sentryPart.isSatisfied()) { // if it is not already satisfied, then set the // current case sentry part to satisfied (=true). String sentryId = sentryPart.getSentryId(); sentryPart.setSatisfied(true); // collect the id of affected sentry. if (!affectedSentries.contains(sentryId)) { affectedSentries.add(sentryId); } } } protected List<String> collectAffectedSentriesWithVariableOnParts( String variableName, String variableEvent, List<CmmnSentryPart> sentryParts) { List<String> affectedSentries = new ArrayList<String>(); for (CmmnSentryPart sentryPart : sentryParts) { String sentryVariableName = sentryPart.getVariableName(); String sentryVariableEvent = sentryPart.getVariableEvent(); CmmnExecution execution = sentryPart.getCaseExecution(); if (VARIABLE_ON_PART.equals(sentryPart.getType()) && sentryVariableName.equals(variableName) && sentryVariableEvent.equals(variableEvent) && !hasVariableWithSameNameInParent(execution, sentryVariableName)) { addIdIfNotSatisfied(affectedSentries, sentryPart); } } return affectedSentries; } protected boolean hasVariableWithSameNameInParent(CmmnExecution execution, String variableName) { while (execution != null) { if (execution.getId().equals(getId())) { return false; } TypedValue variableTypedValue = execution.getVariableLocalTyped(variableName); if (variableTypedValue != null) { return true; } execution = execution.getParent(); } return false; } protected Map<String, List<CmmnSentryPart>> collectAllSentries() { Map<String, List<CmmnSentryPart>> sentries = new HashMap<String, List<CmmnSentryPart>>(); List<? extends CmmnExecution> caseExecutions = getCaseExecutions(); for (CmmnExecution caseExecution : caseExecutions) { sentries.putAll(caseExecution.collectAllSentries()); } sentries.putAll(getSentries()); return sentries; } protected List<CmmnSentryPart> getAffectedSentryParts( Map<String, List<CmmnSentryPart>> allSentries, List<String> affectedSentries) { List<CmmnSentryPart> affectedSentryParts = new ArrayList<CmmnSentryPart>(); for (String affectedSentryId : affectedSentries) { affectedSentryParts.addAll(allSentries.get(affectedSentryId)); } return affectedSentryParts; } protected List<CmmnSentryPart> collectSentryParts(Map<String, List<CmmnSentryPart>> sentries) { List<CmmnSentryPart> sentryParts = new ArrayList<CmmnSentryPart>(); for (String sentryId : sentries.keySet()) { sentryParts.addAll(sentries.get(sentryId)); } return sentryParts; } protected void forceUpdateOnCaseSentryParts(List<CmmnSentryPart> sentryParts) { // set for each case sentry part forceUpdate flag to true to provoke // an OptimisticLockingException if different case sentry parts of the // same sentry has been satisfied concurrently. for (CmmnSentryPart sentryPart : sentryParts) { if (sentryPart instanceof CaseSentryPartEntity) { CaseSentryPartEntity sentryPartEntity = (CaseSentryPartEntity) sentryPart; sentryPartEntity.forceUpdate(); } } } /** Checks for each given sentry id whether the corresponding sentry is satisfied. */ protected List<String> getSatisfiedSentries(List<String> sentryIds) { List<String> result = new ArrayList<String>(); if (sentryIds != null) { for (String sentryId : sentryIds) { if (isSentrySatisfied(sentryId)) { result.add(sentryId); } } } return result; } /** * Checks for each given sentry id in the execution tree whether the corresponding sentry is * satisfied. */ protected List<String> getSatisfiedSentriesInExecutionTree( List<String> sentryIds, Map<String, List<CmmnSentryPart>> allSentries) { List<String> result = new ArrayList<String>(); if (sentryIds != null) { for (String sentryId : sentryIds) { List<CmmnSentryPart> sentryParts = allSentries.get(sentryId); if (isSentryPartsSatisfied(sentryId, sentryParts)) { result.add(sentryId); } } } return result; } protected void forceUpdateOnSentries(List<String> sentryIds) { for (String sentryId : sentryIds) { List<? extends CmmnSentryPart> sentryParts = findSentry(sentryId); // set for each case sentry part forceUpdate flag to true to provoke // an OptimisticLockingException if different case sentry parts of the // same sentry has been satisfied concurrently. for (CmmnSentryPart sentryPart : sentryParts) { if (sentryPart instanceof CaseSentryPartEntity) { CaseSentryPartEntity sentryPartEntity = (CaseSentryPartEntity) sentryPart; sentryPartEntity.forceUpdate(); } } } } protected void resetSentries(List<String> sentries) { for (String sentry : sentries) { List<CmmnSentryPart> parts = getSentries().get(sentry); for (CmmnSentryPart part : parts) { part.setSatisfied(false); } } } protected void resetSentryParts(List<CmmnSentryPart> parts) { for (CmmnSentryPart part : parts) { part.setSatisfied(false); } } protected void fireSentries(List<String> satisfiedSentries) { if (satisfiedSentries != null && !satisfiedSentries.isEmpty()) { // if there are satisfied sentries, trigger the associated // case executions // 1. propagate to all child case executions /////////////////////////////////////////// // collect the execution tree. ArrayList<CmmnExecution> children = new ArrayList<CmmnExecution>(); collectCaseExecutionsInExecutionTree(children); for (CmmnExecution currentChild : children) { // check and fire first exitCriteria currentChild.checkAndFireExitCriteria(satisfiedSentries); // then trigger entryCriteria currentChild.checkAndFireEntryCriteria(satisfiedSentries); } // 2. check exit criteria of the case instance ////////////////////////////////////////// if (isCaseInstanceExecution() && isActive()) { checkAndFireExitCriteria(satisfiedSentries); } } } protected void collectCaseExecutionsInExecutionTree(List<CmmnExecution> children) { for (CmmnExecution child : getCaseExecutions()) { child.collectCaseExecutionsInExecutionTree(children); } children.addAll(getCaseExecutions()); } protected void checkAndFireExitCriteria(List<String> satisfiedSentries) { if (isActive()) { CmmnActivity activity = getActivity(); ensureNotNull( PvmException.class, "Case execution '" + getId() + "': has no current activity.", "activity", activity); // trigger first exitCriteria List<CmmnSentryDeclaration> exitCriteria = activity.getExitCriteria(); for (CmmnSentryDeclaration sentryDeclaration : exitCriteria) { if (sentryDeclaration != null && satisfiedSentries.contains(sentryDeclaration.getId())) { fireExitCriteria(); break; } } } } protected void checkAndFireEntryCriteria(List<String> satisfiedSentries) { if (isAvailable() || isNew()) { // do that only, when this child case execution // is available CmmnActivity activity = getActivity(); ensureNotNull( PvmException.class, "Case execution '" + getId() + "': has no current activity.", "activity", activity); List<CmmnSentryDeclaration> criteria = activity.getEntryCriteria(); for (CmmnSentryDeclaration sentryDeclaration : criteria) { if (sentryDeclaration != null && satisfiedSentries.contains(sentryDeclaration.getId())) { if (isAvailable()) { fireEntryCriteria(); } else { entryCriterionSatisfied = true; } break; } } } } public void fireExitCriteria() { performOperation(CASE_EXECUTION_FIRE_EXIT_CRITERIA); } public void fireEntryCriteria() { performOperation(CASE_EXECUTION_FIRE_ENTRY_CRITERIA); } // sentry: (3) helper public abstract List<? extends CmmnSentryPart> getCaseSentryParts(); protected abstract List<? extends CmmnSentryPart> findSentry(String sentryId); protected abstract Map<String, List<CmmnSentryPart>> getSentries(); public boolean isSentrySatisfied(String sentryId) { List<? extends CmmnSentryPart> sentryParts = findSentry(sentryId); return isSentryPartsSatisfied(sentryId, sentryParts); } protected boolean isSentryPartsSatisfied( String sentryId, List<? extends CmmnSentryPart> sentryParts) { // if part will be evaluated in the end CmmnSentryPart ifPart = null; if (sentryParts != null && !sentryParts.isEmpty()) { for (CmmnSentryPart sentryPart : sentryParts) { if (PLAN_ITEM_ON_PART.equals(sentryPart.getType())) { if (!sentryPart.isSatisfied()) { return false; } } else if (VARIABLE_ON_PART.equals(sentryPart.getType())) { if (!sentryPart.isSatisfied()) { return false; } } else { /* IF_PART.equals(sentryPart.getType) == true */ ifPart = sentryPart; // once the ifPart has been satisfied the whole sentry is satisfied if (ifPart.isSatisfied()) { return true; } } } } if (ifPart != null) { CmmnExecution execution = ifPart.getCaseExecution(); ensureNotNull("Case execution of sentry '" + ifPart.getSentryId() + "': is null", execution); CmmnActivity activity = ifPart.getCaseExecution().getActivity(); ensureNotNull("Case execution '" + id + "': has no current activity", "activity", activity); CmmnSentryDeclaration sentryDeclaration = activity.getSentry(sentryId); ensureNotNull( "Case execution '" + id + "': has no declaration for sentry '" + sentryId + "'", "sentryDeclaration", sentryDeclaration); CmmnIfPartDeclaration ifPartDeclaration = sentryDeclaration.getIfPart(); ensureNotNull( "Sentry declaration '" + sentryId + "' has no definied ifPart, but there should be one defined for case execution '" + id + "'.", "ifPartDeclaration", ifPartDeclaration); Expression condition = ifPartDeclaration.getCondition(); ensureNotNull( "A condition was expected for ifPart of Sentry declaration '" + sentryId + "' for case execution '" + id + "'.", "condition", condition); Object result = condition.getValue(this); ensureInstanceOf("condition expression returns non-Boolean", "result", result, Boolean.class); Boolean booleanResult = (Boolean) result; ifPart.setSatisfied(booleanResult); return booleanResult; } // if all onParts are satisfied and there is no // ifPart then the whole sentry is satisfied. return true; } protected boolean containsIfPartAndExecutionActive( String sentryId, Map<String, List<CmmnSentryPart>> sentries) { List<? extends CmmnSentryPart> sentryParts = sentries.get(sentryId); for (CmmnSentryPart part : sentryParts) { CmmnExecution caseExecution = part.getCaseExecution(); if (IF_PART.equals(part.getType()) && caseExecution != null && caseExecution.isActive()) { return true; } } return false; } public boolean isEntryCriterionSatisfied() { return entryCriterionSatisfied; } // business key //////////////////////////////////////////////////////////// public String getCaseBusinessKey() { return getCaseInstance().getBusinessKey(); } // case definition /////////////////////////////////////////////////////// public CmmnCaseDefinition getCaseDefinition() { return caseDefinition; } public void setCaseDefinition(CmmnCaseDefinition caseDefinition) { this.caseDefinition = caseDefinition; } // case instance ///////////////////////////////////////////////////////// /** ensures initialization and returns the process instance. */ public abstract CmmnExecution getCaseInstance(); public abstract void setCaseInstance(CmmnExecution caseInstance); public boolean isCaseInstanceExecution() { return getParent() == null; } // case instance id ///////////////////////////////////////////////////////// /** ensures initialization and returns the process instance. */ public String getCaseInstanceId() { return getCaseInstance().getId(); } // parent /////////////////////////////////////////////////////////////////// /** ensures initialization and returns the parent */ public abstract CmmnExecution getParent(); public abstract void setParent(CmmnExecution parent); // activity ///////////////////////////////////////////////////////////////// /** ensures initialization and returns the activity */ public CmmnActivity getActivity() { return activity; } public void setActivity(CmmnActivity activity) { this.activity = activity; } // variables //////////////////////////////////////////// @Override public String getVariableScopeKey() { return "caseExecution"; } public AbstractVariableScope getParentVariableScope() { return getParent(); } // delete/remove ///////////////////////////////////////////////////// public void deleteCascade() { performOperation(CASE_EXECUTION_DELETE_CASCADE); } public void remove() { CmmnExecution parent = getParent(); if (parent != null) { parent.getCaseExecutionsInternal().remove(this); } } // required ////////////////////////////////////////////////// public boolean isRequired() { return required; } public void setRequired(boolean required) { this.required = required; } // state ///////////////////////////////////////////////////// public CaseExecutionState getCurrentState() { return CaseExecutionState.CASE_EXECUTION_STATES.get(getState()); } public void setCurrentState(CaseExecutionState currentState) { if (!isSuspending() && !isTerminating()) { // do not reset the previous state, if this case execution // is currently terminating or suspending. otherwise the // "real" previous state is lost. previousState = this.currentState; } this.currentState = currentState.getStateCode(); } public int getState() { return currentState; } public void setState(int state) { this.currentState = state; } public boolean isNew() { return currentState == NEW.getStateCode(); } public boolean isAvailable() { return currentState == AVAILABLE.getStateCode(); } public boolean isEnabled() { return currentState == ENABLED.getStateCode(); } public boolean isDisabled() { return currentState == DISABLED.getStateCode(); } public boolean isActive() { return currentState == ACTIVE.getStateCode(); } public boolean isCompleted() { return currentState == COMPLETED.getStateCode(); } public boolean isSuspended() { return currentState == SUSPENDED.getStateCode(); } public boolean isSuspending() { return currentState == SUSPENDING_ON_SUSPENSION.getStateCode() || currentState == SUSPENDING_ON_PARENT_SUSPENSION.getStateCode(); } public boolean isTerminated() { return currentState == TERMINATED.getStateCode(); } public boolean isTerminating() { return currentState == TERMINATING_ON_TERMINATION.getStateCode() || currentState == TERMINATING_ON_PARENT_TERMINATION.getStateCode() || currentState == TERMINATING_ON_EXIT.getStateCode(); } public boolean isFailed() { return currentState == FAILED.getStateCode(); } public boolean isClosed() { return currentState == CLOSED.getStateCode(); } // previous state ///////////////////////////////////////////// public CaseExecutionState getPreviousState() { return CaseExecutionState.CASE_EXECUTION_STATES.get(getPrevious()); } public int getPrevious() { return previousState; } public void setPrevious(int previous) { this.previousState = previous; } // state transition /////////////////////////////////////////// public void create() { create(null); } public void create(Map<String, Object> variables) { if (variables != null) { setVariables(variables); } performOperation(CASE_INSTANCE_CREATE); } public List<CmmnExecution> createChildExecutions(List<CmmnActivity> activities) { List<CmmnExecution> children = new ArrayList<CmmnExecution>(); // first create new child case executions for (CmmnActivity currentActivity : activities) { CmmnExecution child = createCaseExecution(currentActivity); children.add(child); } return children; } public void triggerChildExecutionsLifecycle(List<CmmnExecution> children) { // then notify create listener for each created // child case execution for (CmmnExecution child : children) { if (isActive()) { if (child.isNew()) { child.performOperation(CASE_EXECUTION_CREATE); } } else { // if this case execution is not active anymore, // then stop notifying create listener and executing // of each child case execution break; } } } protected abstract CmmnExecution createCaseExecution(CmmnActivity activity); protected abstract CmmnExecution newCaseExecution(); public void enable() { performOperation(CASE_EXECUTION_ENABLE); } public void disable() { performOperation(CASE_EXECUTION_DISABLE); } public void reenable() { performOperation(CASE_EXECUTION_RE_ENABLE); } public void manualStart() { performOperation(CASE_EXECUTION_MANUAL_START); } public void start() { performOperation(CASE_EXECUTION_START); } public void complete() { performOperation(CASE_EXECUTION_COMPLETE); } public void manualComplete() { performOperation(CASE_EXECUTION_MANUAL_COMPLETE); } public void occur() { performOperation(CASE_EXECUTION_OCCUR); } public void terminate() { performOperation(CASE_EXECUTION_TERMINATING_ON_TERMINATION); } public void performTerminate() { performOperation(CASE_EXECUTION_TERMINATE); } public void parentTerminate() { performOperation(CASE_EXECUTION_TERMINATING_ON_PARENT_TERMINATION); } public void performParentTerminate() { performOperation(CASE_EXECUTION_PARENT_TERMINATE); } public void exit() { performOperation(CASE_EXECUTION_TERMINATING_ON_EXIT); } public void performExit() { performOperation(CASE_EXECUTION_EXIT); } public void suspend() { performOperation(CASE_EXECUTION_SUSPENDING_ON_SUSPENSION); } public void performSuspension() { performOperation(CASE_EXECUTION_SUSPEND); } public void parentSuspend() { performOperation(CASE_EXECUTION_SUSPENDING_ON_PARENT_SUSPENSION); } public void performParentSuspension() { performOperation(CASE_EXECUTION_PARENT_SUSPEND); } public void resume() { performOperation(CASE_EXECUTION_RESUME); } public void parentResume() { performOperation(CASE_EXECUTION_PARENT_RESUME); } public void reactivate() { performOperation(CASE_EXECUTION_RE_ACTIVATE); } public void close() { performOperation(CASE_INSTANCE_CLOSE); } // variable listeners public void dispatchEvent(VariableEvent variableEvent) { boolean invokeCustomListeners = Context.getProcessEngineConfiguration().isInvokeCustomVariableListeners(); Map<String, List<VariableListener<?>>> listeners = getActivity().getVariableListeners(variableEvent.getEventName(), invokeCustomListeners); // only attempt to invoke listeners if there are any (as this involves resolving the upwards // execution hierarchy) if (!listeners.isEmpty()) { getCaseInstance().queueVariableEvent(variableEvent, invokeCustomListeners); } } protected void queueVariableEvent(VariableEvent variableEvent, boolean includeCustomerListeners) { Queue<VariableEvent> variableEventsQueue = getVariableEventQueue(); variableEventsQueue.add(variableEvent); // if this is the first event added, trigger listener invocation if (variableEventsQueue.size() == 1) { invokeVariableListeners(includeCustomerListeners); } } protected void invokeVariableListeners(boolean includeCustomerListeners) { Queue<VariableEvent> variableEventsQueue = getVariableEventQueue(); while (!variableEventsQueue.isEmpty()) { // do not remove the event yet, as otherwise new events will immediately be dispatched VariableEvent nextEvent = variableEventsQueue.peek(); CmmnExecution sourceExecution = (CmmnExecution) nextEvent.getSourceScope(); DelegateCaseVariableInstanceImpl delegateVariable = DelegateCaseVariableInstanceImpl.fromVariableInstance(nextEvent.getVariableInstance()); delegateVariable.setEventName(nextEvent.getEventName()); delegateVariable.setSourceExecution(sourceExecution); Map<String, List<VariableListener<?>>> listenersByActivity = sourceExecution .getActivity() .getVariableListeners(delegateVariable.getEventName(), includeCustomerListeners); CmmnExecution currentExecution = sourceExecution; while (currentExecution != null) { if (currentExecution.getActivityId() != null) { List<VariableListener<?>> listeners = listenersByActivity.get(currentExecution.getActivityId()); if (listeners != null) { delegateVariable.setScopeExecution(currentExecution); for (VariableListener<?> listener : listeners) { try { CaseVariableListener caseVariableListener = (CaseVariableListener) listener; CaseVariableListenerInvocation invocation = new CaseVariableListenerInvocation( caseVariableListener, delegateVariable, currentExecution); Context.getProcessEngineConfiguration() .getDelegateInterceptor() .handleInvocation(invocation); } catch (Exception e) { throw LOG.invokeVariableListenerException(e); } } } } currentExecution = currentExecution.getParent(); } // finally remove the event from the queue variableEventsQueue.remove(); } } protected Queue<VariableEvent> getVariableEventQueue() { if (variableEventsQueue == null) { variableEventsQueue = new LinkedList<VariableEvent>(); } return variableEventsQueue; } // toString() ////////////////////////////////////// /////////// public String toString() { if (isCaseInstanceExecution()) { return "CaseInstance[" + getToStringIdentity() + "]"; } else { return "CmmnExecution[" + getToStringIdentity() + "]"; } } protected String getToStringIdentity() { return id; } }
public boolean isNew() { return currentState == NEW.getStateCode(); }
public boolean isNew() { return (NEW.equalsIgnoreCase(state)); }
/** Symbolically executes the corresponding Java Virtual Machine instruction. */ public void visitNEW(NEW o) { stack().push(new UninitializedObjectType((ObjectType) (o.getType(cpg)))); }
/** @author Roman Smirnov */ public abstract class CmmnExecution extends CoreExecution implements CmmnCaseInstance { private static final long serialVersionUID = 1L; protected transient CmmnCaseDefinition caseDefinition; // current position ////////////////////////////////////// /** current activity */ protected transient CmmnActivity activity; /** the activity which is to be started next */ protected transient CmmnActivity nextActivity; protected boolean required; protected int previousState; protected int currentState = NEW.getStateCode(); public CmmnExecution() {} // plan items /////////////////////////////////////////////////////////////// public abstract List<? extends CmmnExecution> getCaseExecutions(); protected abstract List<? extends CmmnExecution> getCaseExecutionsInternal(); public CmmnExecution findCaseExecution(String activityId) { if ((getActivity() != null) && (getActivity().getId().equals(activityId))) { return this; } for (CmmnExecution nestedExecution : getCaseExecutions()) { CmmnExecution result = nestedExecution.findCaseExecution(activityId); if (result != null) { return result; } } return null; } // sub process instance //////////////////////////////////////////////////// public abstract PvmExecutionImpl getSubProcessInstance(); public abstract void setSubProcessInstance(PvmExecutionImpl subProcessInstance); public abstract PvmExecutionImpl createSubProcessInstance(PvmProcessDefinition processDefinition); public abstract PvmExecutionImpl createSubProcessInstance( PvmProcessDefinition processDefinition, String businessKey); public abstract PvmExecutionImpl createSubProcessInstance( PvmProcessDefinition processDefinition, String businessKey, String caseInstanceId); // sub-/super- case instance //////////////////////////////////////////////////// public abstract CmmnExecution getSubCaseInstance(); public abstract void setSubCaseInstance(CmmnExecution subCaseInstance); public abstract CmmnExecution createSubCaseInstance(CmmnCaseDefinition caseDefinition); public abstract CmmnExecution createSubCaseInstance( CmmnCaseDefinition caseDefinition, String businessKey); public abstract CmmnExecution getSuperCaseExecution(); public abstract void setSuperCaseExecution(CmmnExecution superCaseExecution); // business key //////////////////////////////////////////////////////////// public String getCaseBusinessKey() { return getCaseInstance().getBusinessKey(); } // case definition /////////////////////////////////////////////////////// public CmmnCaseDefinition getCaseDefinition() { return caseDefinition; } public void setCaseDefinition(CmmnCaseDefinition caseDefinition) { this.caseDefinition = caseDefinition; } // case instance ///////////////////////////////////////////////////////// /** ensures initialization and returns the process instance. */ public abstract CmmnExecution getCaseInstance(); public abstract void setCaseInstance(CmmnExecution caseInstance); public boolean isCaseInstanceExecution() { return getParent() == null; } // case instance id ///////////////////////////////////////////////////////// /** ensures initialization and returns the process instance. */ public String getCaseInstanceId() { return getCaseInstance().getId(); } // parent /////////////////////////////////////////////////////////////////// /** ensures initialization and returns the parent */ public abstract CmmnExecution getParent(); public abstract void setParent(CmmnExecution parent); // activity ///////////////////////////////////////////////////////////////// /** ensures initialization and returns the activity */ public CmmnActivity getActivity() { return activity; } public void setActivity(CmmnActivity activity) { this.activity = activity; } // next activity ///////////////////////////////////////////////////////////// public CmmnActivity getNextActivity() { return nextActivity; } public void setNextActivity(CmmnActivity nextActivity) { this.nextActivity = nextActivity; } // variables //////////////////////////////////////////// public CorePersistentVariableScope getParentVariableScope() { return getParent(); } // delete/remove ///////////////////////////////////////////////////// public void deleteCascade() { performOperation(CASE_EXECUTION_DELETE_CASCADE); } public void remove() { CmmnExecution parent = getParent(); if (parent != null) { parent.getCaseExecutionsInternal().remove(this); } } // required ////////////////////////////////////////////////// public boolean isRequired() { return required; } public void setRequired(boolean required) { this.required = required; } // state ///////////////////////////////////////////////////// public CaseExecutionState getCurrentState() { return CaseExecutionState.CASE_EXECUTION_STATES.get(getState()); } public void setCurrentState(CaseExecutionState currentState) { previousState = this.currentState; this.currentState = currentState.getStateCode(); } public int getState() { return currentState; } public void setState(int state) { this.currentState = state; } public boolean isNew() { return currentState == NEW.getStateCode(); } public boolean isAvailable() { return currentState == AVAILABLE.getStateCode(); } public boolean isEnabled() { return currentState == ENABLED.getStateCode(); } public boolean isDisabled() { return currentState == DISABLED.getStateCode(); } public boolean isActive() { return currentState == ACTIVE.getStateCode(); } public boolean isCompleted() { return currentState == COMPLETED.getStateCode(); } public boolean isSuspended() { return currentState == SUSPENDED.getStateCode(); } public boolean isTerminated() { return currentState == TERMINATED.getStateCode(); } public boolean isFailed() { return currentState == FAILED.getStateCode(); } public boolean isClosed() { return currentState == CLOSED.getStateCode(); } // previous state ///////////////////////////////////////////// public CaseExecutionState getPreviousState() { return CaseExecutionState.CASE_EXECUTION_STATES.get(getPrevious()); } public int getPrevious() { return previousState; } public void setPrevious(int previous) { this.previousState = previous; } // state transition /////////////////////////////////////////// public void create() { create(null); } public void create(Map<String, Object> variables) { if (variables != null) { setVariables(variables); } performOperation(CASE_INSTANCE_CREATE); } public void createChildExecutions(List<CmmnActivity> activities) { List<CmmnExecution> children = new ArrayList<CmmnExecution>(); // first create new child case executions for (CmmnActivity currentActivity : activities) { CmmnExecution child = createCaseExecution(currentActivity); children.add(child); } // then notify create listener for each created // child case execution for (CmmnExecution child : children) { if (isActive()) { child.performOperation(CASE_EXECUTION_CREATE); } else { // if this case execution is not active anymore, // then stop notifying create listener and executing // of each child case execution break; } } } protected abstract CmmnExecution createCaseExecution(CmmnActivity activity); protected abstract CmmnExecution newCaseExecution(); public void enable() { performOperation(CASE_EXECUTION_ENABLE); } public void disable() { performOperation(CASE_EXECUTION_DISABLE); } public void reenable() { performOperation(CASE_EXECUTION_RE_ENABLE); } public void manualStart() { performOperation(CASE_EXECUTION_MANUAL_START); } public void start() { performOperation(CASE_EXECUTION_START); } public void complete() { performOperation(CASE_EXECUTION_COMPLETE); } public void manualComplete() { performOperation(CASE_EXECUTION_MANUAL_COMPLETE); } public void occur() { performOperation(CASE_EXECUTION_OCCUR); } public void terminate() { performOperation(CASE_EXECUTION_TERMINATE); } public void parentTerminate() { performOperation(CASE_EXECUTION_PARENT_TERMINATE); } public void exit() { performOperation(CASE_EXECUTION_EXIT); } public void suspend() { performOperation(CASE_EXECUTION_SUSPEND); } public void parentSuspend() { performOperation(CASE_EXECUTION_PARENT_SUSPEND); } public void resume() { performOperation(CASE_EXECUTION_RESUME); } public void parentResume() { performOperation(CASE_EXECUTION_PARENT_RESUME); } public void reactivate() { performOperation(CASE_EXECUTION_RE_ACTIVATE); } public void close() { performOperation(CASE_INSTANCE_CLOSE); } // toString() ///////////////////////////////////////////////// public String toString() { if (isCaseInstanceExecution()) { return "CaseInstance[" + getToStringIdentity() + "]"; } else { return "CmmnExecution[" + getToStringIdentity() + "]"; } } protected String getToStringIdentity() { return id; } }