/// <summary> /// Returns a list of flow scopes from the given scope until a scope is reached that is already present in the given /// <seealso cref="MigratingScopeInstanceBranch" /> (exclusive). The order of the returned list is top-down, i.e. the /// highest scope /// is the first element of the list. /// </summary> //JAVA TO C# CONVERTER WARNING: 'final' parameters are not available in .NET: //ORIGINAL LINE: protected java.Util.List<org.camunda.bpm.engine.impl.Pvm.Process.ScopeImpl> collectNonExistingFlowScopes(org.camunda.bpm.engine.impl.Pvm.Process.ScopeImpl scope, final MigratingScopeInstanceBranch migratingExecutionBranch) protected internal virtual IList <ScopeImpl> CollectNonExistingFlowScopes(ScopeImpl scope, MigratingScopeInstanceBranch migratingExecutionBranch) { var walker = new FlowScopeWalker(scope); //JAVA TO C# CONVERTER WARNING: The original Java variable was marked 'final': //ORIGINAL LINE: final java.Util.List<org.camunda.bpm.engine.impl.Pvm.Process.ScopeImpl> result = new java.Util.LinkedList<org.camunda.bpm.engine.impl.Pvm.Process.ScopeImpl>(); IList <ScopeImpl> result = new List <ScopeImpl>(); walker.AddPreVisitor(new TreeVisitorAnonymousInnerClass(this, result)); //walker.walkWhile(new WalkConditionAnonymousInnerClass(this, migratingExecutionBranch)); return(result); }
//JAVA TO C# CONVERTER WARNING: 'final' parameters are not available in .NET: //ORIGINAL LINE: @Override public void validate(ValidatingMigrationInstruction instruction, final ValidatingMigrationInstructions instructions, MigrationInstructionValidationReportImpl report) public virtual void Validate(IValidatingMigrationInstruction instruction, ValidatingMigrationInstructions instructions, MigrationInstructionValidationReportImpl report) { var targetActivity = instruction.TargetActivity; var flowScopeWalker = new FlowScopeWalker(targetActivity.FlowScope); var miBodyCollector = new MiBodyCollector(); flowScopeWalker.AddPreVisitor(miBodyCollector); // walk until a target scope is found that is mapped //flowScopeWalker.walkWhile(new WalkConditionAnonymousInnerClass(this, instructions)); if (miBodyCollector.FirstMiBody != null) { report.AddFailure("Target activity '" + targetActivity.Id + "' is a descendant of multi-instance body '" + miBodyCollector.FirstMiBody.Id + "' that is not mapped from the source process definition."); } }
public override object Execute(CommandContext commandContext) { ExecutionEntity processInstance = commandContext.ExecutionManager.FindExecutionById(processInstanceId); ProcessDefinitionImpl processDefinition = processInstance.GetProcessDefinition(); CoreModelElement elementToInstantiate = GetTargetElement(processDefinition); EnsureUtil.EnsureNotNull(typeof(NotValidException), DescribeFailure("Element '" + TargetElementId + "' does not exist in process '" + processDefinition.Id + "'"), "element", elementToInstantiate); // rebuild the mapping because the execution tree changes with every iteration var mapping = new ActivityExecutionTreeMapping(commandContext, processInstanceId); // before instantiating an activity, two things have to be determined: // // activityStack: // For the activity to instantiate, we build a stack of parent flow scopes // for which no executions exist yet and that have to be instantiated // // scopeExecution: // This is typically the execution under which a new sub tree has to be created. // if an explicit ancestor activity instance is set: // - this is the scope execution for that ancestor activity instance // - throws exception if that scope execution is not in the parent hierarchy // of the activity to be started // if no explicit ancestor activity instance is set: // - this is the execution of the first parent/ancestor flow scope that has an execution // - throws an exception if there is more than one such execution var targetFlowScope = GetTargetFlowScope(processDefinition); // prepare to walk up the flow scope hierarchy and collect the flow scope activities var stackCollector = new ActivityStackCollector(); var walker = new FlowScopeWalker(targetFlowScope); walker.AddPreVisitor(stackCollector); ExecutionEntity scopeExecution = null; // if no explicit ancestor activity instance is set if (ReferenceEquals(AncestorActivityInstanceId, null)) { // walk until a scope is reached for which executions exist walker.WalkWhile((element) => mapping.GetExecutions(element) .Count > 0 || element == processDefinition); var flowScopeExecutions = mapping.GetExecutions(walker.CurrentElement); if (flowScopeExecutions.Count > 1) { throw new ProcessEngineException("Ancestor activity execution is ambiguous for activity " + targetFlowScope); } //scopeExecution = flowScopeExecutions.GetEnumerator().Next(); scopeExecution = flowScopeExecutions.First(); } var activitiesToInstantiate = stackCollector.ActivityStack; activitiesToInstantiate.Reverse(); // We have to make a distinction between // - "regular" activities for which the activity stack can be instantiated and started // right away // - interrupting or cancelling activities for which we have to ensure that // the interruption and cancellation takes place before we instantiate the activity stack ActivityImpl topMostActivity = null; ScopeImpl flowScope = null; if (activitiesToInstantiate.Count > 0) { topMostActivity = (ActivityImpl)activitiesToInstantiate[0]; flowScope = topMostActivity.FlowScope; } else if (elementToInstantiate is ActivityImpl) { topMostActivity = (ActivityImpl)elementToInstantiate; flowScope = topMostActivity.FlowScope; } else if (elementToInstantiate is TransitionImpl) { var transitionToInstantiate = (TransitionImpl)elementToInstantiate; flowScope = transitionToInstantiate.Source.FlowScope; } if (!SupportsConcurrentChildInstantiation(flowScope)) { throw new ProcessEngineException("Concurrent instantiation not possible for " + "activities in scope " + flowScope.Id); } var startBehavior = ActivityStartBehavior.ConcurrentInFlowScope; if (topMostActivity != null) { startBehavior = topMostActivity.ActivityStartBehavior; if (activitiesToInstantiate.Count > 0) { // this is in BPMN relevant if there is an interrupting event sub process. // we have to distinguish between instantiation of the start event and any other activity. // instantiation of the start event means interrupting behavior; instantiation // of any other ITask means no interruption. IPvmActivity initialActivity = topMostActivity.Properties.Get(BpmnProperties.InitialActivity); IPvmActivity secondTopMostActivity = null; if (activitiesToInstantiate.Count > 1) { secondTopMostActivity = activitiesToInstantiate[1]; } else if (elementToInstantiate.GetType().IsSubclassOf(typeof(ActivityImpl))) { secondTopMostActivity = (IPvmActivity)elementToInstantiate; } if (initialActivity != secondTopMostActivity) { startBehavior = ActivityStartBehavior.ConcurrentInFlowScope; } } } //throw new Exception("startBehavior值:"+(int)startBehavior);//2 switch (startBehavior) { case ActivityStartBehavior.CancelEventScope: { ScopeImpl scopeToCancel = (ScopeImpl)topMostActivity.EventScope; var executionToCancel = GetSingleExecutionForScope(mapping, scopeToCancel); if (executionToCancel != null) { executionToCancel.DeleteCascade("Cancelling activity " + topMostActivity + " executed.", skipCustomListeners, skipIoMappings); Instantiate(executionToCancel.Parent, activitiesToInstantiate, elementToInstantiate); } else { var flowScopeExecution = GetSingleExecutionForScope(mapping, topMostActivity.FlowScope); InstantiateConcurrent(flowScopeExecution, activitiesToInstantiate, elementToInstantiate); } break; } case ActivityStartBehavior.InterruptEventScope: { ScopeImpl scopeToCancel = (ScopeImpl)topMostActivity.EventScope; var executionToCancel = GetSingleExecutionForScope(mapping, scopeToCancel); executionToCancel.Interrupt("Interrupting activity " + topMostActivity + " executed.", skipCustomListeners, skipIoMappings); executionToCancel.SetActivity(null); executionToCancel.LeaveActivityInstance(); Instantiate(executionToCancel, activitiesToInstantiate, elementToInstantiate); break; } case ActivityStartBehavior.InterruptFlowScope: { var scopeToCancel = topMostActivity.FlowScope; var executionToCancel = GetSingleExecutionForScope(mapping, scopeToCancel); executionToCancel.Interrupt("Interrupting activity " + topMostActivity + " executed.", skipCustomListeners, skipIoMappings); executionToCancel.SetActivity(null); executionToCancel.LeaveActivityInstance(); Instantiate(executionToCancel, activitiesToInstantiate, elementToInstantiate); break; } default: { // if all child executions have been cancelled // or this execution has ended executing its scope, it can be reused if (!scopeExecution.HasChildren() && (scopeExecution.GetActivity() == null || scopeExecution.IsEnded)) { // reuse the scope execution Instantiate(scopeExecution, activitiesToInstantiate, elementToInstantiate); } else { // if the activity is not cancelling/interrupting, it can simply be instantiated as // a concurrent child of the scopeExecution InstantiateConcurrent(scopeExecution, activitiesToInstantiate, elementToInstantiate); } break; } } return(null); }