I've implemented a custom workitemhandler which I want to complete only by an external REST call. Therefore the items executeWorkItem() method does NOT call manager.completeWorkItem(workItem.getId(), results); at the end, which is perfectly ok. I've also assigned a signal event to this workitem in my process, which is also called by an external REST call. Both things work as expected, but what I do not understand is that every time I signal the work item, it also automatically completes the work item, which leads to the problem that the process continuous with its regular path AND the signaled one. But the reason for the signal is to interrupt the process to follow ONLY the signaled path path.
The process image to this can be found here http://cl.ly/image/0F3L3E2w2l0j. In this example I signaled the "Fail Transfer" but the rest gets also executed even nothing completed the workitem.
I'm using jBPM 6.1 Final.
Thanks in advance for any help.
Nevermind, I found the reason for this behavior. The custom work item handler implemented
public void abortWorkItem(WorkItem workItem, WorkItemManager manager) {
manager.abortWorkItem(workItem.getId());
}
After removing manager.abortWorkItem(workItem.getId());, the process behaves as expected.
Related
I'm having a difficult time trying to understand how the control flow in protractor work in relation to how JS event loop works. Here is what I know so far:
Protractor control flow stores commands that return promises in a queue. The first command will be at the front of the queue and the last command will be at the back. No command will be executed until the command in front of it has its promise resolved.
JS event loop stores asynchronous task (callbacks to be specific). Callbacks are not executed until all functions in the stack have completed and the stack is empty. Before running each callback, there is a check on whether the stack is empty or not.
so lets take this code for example. The code is basically clicking a search button and a api request is made. Then after data is returned, it checks whether the field that stores the returned data exists.
elem('#searchButton').click(); //will execute a api call to retrieve data
browser.wait(ExpectedConditions.presenceOf(elem('#resultDataField'),3000));
expect(elem('#resultDataField').isPresent()).toBeTruthy();
So with this code, I'm able to get it to work. But I don't know how it does it. How is the event loop applied in this scenario?
The core of the ControlFlow implementation is in runEventLoop_ (in Selenium's promise.js implementation).
As I understand it, the ControlFlow registers a call to runEventLoop_ with the JS event loop (e.g., with a 0-second timeout or somesuch). The call to runEventLoop_ can be thought of as a single iteration of a normal event loop. It registers code to actually run a scheduled task (i.e., actually do the work you queued up during your it). Once that task completes or fails (e.g., by hooking its async promise callbacks) the next iteration of runEventLoop_ is scheduled (see the calls to scheduleEventLoop in runEventLoop_).
There is some complexity when a callback ends up registering new promises (those need to be "inserted" before the old next event, this is accomplished by creating a "nested" control flow. Mostly you should never have to know this.)
I need to add an Action to a Schedule object that is being created through the API. There are documented interfaces to set almost all the options except the Action. How are Actions attached to these Objects?
When I attempt to programmatically add a new event, read from a separate configuration file, to a Schedule object I get errors stating that the Schedule has already been initialized and that I must construct a new object and add its configuration manually. I can do most of that using the available Schedule API. I can set up everything about the Schedule except the Action code.
The Schedule is used in a Process Model. Looking at the model in the Java editor, I see the code I'm trying to replicate via the API in a function that looks like this:
#Override
#AnyLogicInternalCodegenAPI
public void executeActionOf( EventTimeout _e ) {
if ( _e == _fuelDeliverySchedule_Action_xjal ) {
Schedule<Integer> self = this.fuelDeliverySchedule;
Integer value = fuelDeliverySchedule.getValue();
logger.info("{} received {} pounds of fuel", this.getName(), this.fuelDeliverySchedule.getValue());
this.fuelAvailablePounds += fuelDeliverySchedule.getValue();
;
_fuelDeliverySchedule_Action_xjal.restartTo( fuelDeliverySchedule.getTimeOfNextValue() );
return;
}
super.executeActionOf( _e );
}
Maybe I can use something like this to create my own action function, but I'm not sure how to make the Scheduled event use it.
Thanks,
Thom
[Edited (expanded/rewrote) 03.11.2014 after more user detail on the context.]
You clarified the context with
When I attempt to programatically add "a thing that happens", read
from a separate configuration file, to a Schedule object I get errors
stating that the Schedule has already been initialized and that I must
construct a new object and add its configuration manually. I can do
most of that using the available Schedule API. I can set up everything
about the Schedule except the Action code.
(You might want to edit that into the question... In general, it's always good to explain the context for why you're trying to do the thing.)
I think I understand now. I presume that your config file contains scheduling details and, when you say you were trying to "add a thing that happens" (which errored), you meant that you were trying to change the scheduling 'pattern' in the Schedule. So your problem is that, since you couldn't adjust a pre-existing schedule, you had to instantiate (create) your own programmatically, but the Schedule API doesn't allow you to set the action code (as seen on the GUI schedule element).
This is a fairly involved solution so bear with me. I give a brief 'tl;dr'
summary before diving into the detail.
Summary
You can't programmatically code an AnyLogic action (for any element) because that would amount to
dynamically creating a Java class. Solving your problem requires recognising
that the schedule GUI element creates both a Schedule instance and a
timeout event (EventTimeout) instance to trigger the action. You can therefore create these two elements explicitly yourself (the former dynamically). The trick is to reset the timeout event when you replace the Schedule instance (to trigger at the next 'flip' point of the new Schedule).
[Actually, from your wording, I suspect that the action is always the same but, for generality, I show how you could handle it if your config file details might want to change the nature of the action as well as those of the scheduling pattern.]
Detail
The issue is that the GUI element (confusingly) isn't just a Schedule instance
in terms of the code it generates. There is one (with the same name as that of
the GUI element), which just contains the schedule 'pattern' and, as in the API,
has methods to determine when the next on/off period (for an on/off schedule) occurs. (So
it is kind of fancy calendar functionality.) But AnyLogic also generates a
timeout event to actually perform the action; if you look further in the code
generated, you'll see stuff similar to the below (assuming your GUI schedule is called
fuelSchedule, with Java comments added by
me):
// Definition of the timeout event
#AnyLogicInternalCodegenAPI
public EventTimeout _fuelSchedule_Action_xjal = new EventTimeout(this);
// First occurrence time of the event as the next schedule on/off change
// time
#Override
#AnyLogicInternalCodegenAPI
public double getFirstOccurrenceTime( EventTimeout _e ) {
if ( _e == _fuelSchedule_Action_xjal ) return fuelSchedule.getTimeOfValue() == time() ? time() : fuelSchedule.getTimeOfNextValue();
return super.getFirstOccurrenceTime( _e );
}
// After your user action code, the event is rescheduled for the next
// schedule on/off change time
_fuelSchedule_Action_xjal.restartTo( fuelSchedule.getTimeOfNextValue() );
i.e., this creates an event which triggers each time the schedule 'flips', and performs the action specified in the GUI schedule element.
So there is no action to change on the Schedule instance; it's actually related to the EventTimeout instance. However, you can't programmatically change it there (or create a new one dynamically) for the same reason that you can't change the action of any AnyLogic element:
this would effectively be programmatically
creating a Java class definition, which isn't possible without very specialised
Java code. (You can create Java source code in a string and
dynamically run a Java compiler on it to generate a class. However, this is very
'advanced' Java, has lots of potential pitfalls, and I would definitely not
recommend going that route. You would also have to be creating source for a user subclass
of EventTimeout, since you don't know the correct source code for AnyLogic's proprietary EventTimeout class, and this might change per release in any case.)
But you shouldn't need to: there should be a strict set of possible actions that your config file can contain. (They can't be arbitrary Java code snippets, since they have to 'fit in' with the simulation.) So you can do what you want by programmatically creating the Schedule but with a GUI-created timeout event that you adjust accordingly(assuming an off/on schedule here and that there is
only one schedule active at once; obviously tweak this skeleton to your needs
and I haven't completely tested this in AnyLogic):
1. Have an AnyLogic variable activeAction which specifies the current active
action. (I take this as an int here for simplicity, but it's better to use a
Java enum which is the same as an AnyLogic 7 Option List, and can just be
created in raw Java in AnyLogic 6.)
2. Create a variable in the GUI, say called fuelSchedule, of type Schedule but with initial value null. Create a separate timeout event, say called fuelScheduleTrigger, in User Control mode, with action as:
// Perform the appropriate action (dependent on activeAction)
doAppropriateScheduleAction();
// Set the event to retrigger at the next schedule on/off switch time
fuelScheduleTrigger.restartTo(fuelSchedule.getTimeOfNextValue());
(Being in User Control mode, this event isn't yet triggered to initially fire, which is what we want.)
3. Code a set of functions for each of the different action alternatives; let's say
there are only 2 (fuelAction1 and fuelAction2) here as an example. Code
doAppropriateScheduleAction as:
if (activeAction == 1) {
fuelAction1();
}
else if (activeAction == 2) {
fuelAction2();
}
4. In your code which reads the config file and gets updated schedule info.
(presumably run from a cyclic timeout event or similar), have this replace
fuelSchedule with a new instance with the revised schedule pattern (as you've
been doing), set activeAction appropriately, and then reset the timeout event to
the new fuelSchedule.getTimeOfValue() time:
[set up fuelSchedule and activeAction]
// Reset schedule action to match revised schedule
fuelScheduleTrigger.restartTo(fuelSchedule.getTimeOfNextValue());
I think this works OK in the edge case when the new Schedule had its next 'flip' at the time
you set it up. (If you restart an event to the current time, I think it schedules an event OK at the current time which will occur next if there are no other events also scheduled for the current time; actually, it will definitely occur next if you are using a LIFO simultaneous-time-scheduling regime---see my blog post.)
Alternative & AnyLogic Enhancement
An alternative is to create a 'full' schedule in the GUI with action as earlier. Your config file reading code can replace the underlying Schedule instance and then reset the internal AnyLogic-generated timeout event. However, this is less preferable because you are relying on an internally-named AnyLogic event (which might also change in future AnyLogic releases, breaking your code).
AnyLogic could help this situation by adding a method to the Schedule API that gets the related timeout event; e.g., getActionTriggeringEventTimeout(). Then you would be able to 'properly' restart it and the Schedule API would make much clearer that the Schedule was always associated with an EventTimeout that did the triggering for the action.
Of course, AnyLogic could also go further by changing Schedule to allow scheduling details to be changed dynamically (and internally handling the required updates to the timeout event if it continued to be designed like that), but that's a lot more work and there may be deeper technical reasons why they wanted the schedule pattern to be fixed once the Schedule is initialised.
Any AnyLogic support staff reading?
I'm a newbie to WF and rather lost. Here's what I have so far:
I've created a workflow service app (xamlx), added needed variables
I've created a custom NativeActivity where I'm calling CreateBookmark from within Execute, which is between the Receive & Send activity for the service. (Ultimately this will actually do something besides creating the bookmark).
The bookmark gets created just fine, but after stepping out of the Execute method, nothing happens for one minute until the service times out, giving me that message "The request channel timed out while waiting for a reply after 00:00:59.9699970. Increase the timeout value passed to the call to Request or increase the SendTimeout value on the Binding. The time allotted to this operation may have been a portion of a longer timeout." (I tried posting an image of the xamlx, but as a newbie it won't let me; suffice it to say I'm getting from my Receive, into my custom native activity, but never getting as far as the SendReply).
I assume I'm missing something rather fundatmental, but I can't see what. I've originally tried using NativeActivity<T> to return what I want, but that behaves the same.
Found out what I was doing wrong: needed to use overload of CreateBookmark that has BookmarkOptions parameter and set it to BookmarkOptions.NonBlocking.
Strangely, I did not find one example anywhere that mentioned this.
In my last question, OpenCl cleanup causes segfault. , somebody hinted that missing event handling, i.e. not waiting for code to finish, could cause the seg faults. Since then I looked again into the tutorials I used, but they don't pay attention to events (Matrix Multiplication 1 (OpenCL) and NVIDIA_OpenCL_GettingStartedLinux.pdf) or talk about it in detail and (for me) understandable.
Do you know a tutorial on where and how to wait in OpenCL?
Merci!
I don't have a tutorial on events in OpenCL, and I'm by no means an expert, but since no one else is responding...
As a rule of thumb, you'll need to wait for any function named clEnqueue*. Those functions return immediately before the job is done. The easiest way to make sure your queue is finished is to call clFinish(). It won't return until the entire queue has completed.
If you want to get a little fancier, most of the clEnqueue* functions have an optional cl_event parameter that you can pass in. You can check on a particular event with clGetEventInfo(), and you can wait for a particular set of events to finish with clWaitForEvents().
I want to implement a solution in my workflows that will do the following :
In the workflow level I want to implement a Fault Handler that will suspend the workflow for any exception.
Then at sometime the instance will get a Resume() command .
What I want to implement that when the Resume() command received , the instance will execute again the activity that failed earlier ( and caused the exception ) and then continue to execute whatever he has to do .
What is my problem :
When suspended and then resumed inside the Fault Handler , the instance is just completes. The resume of course doesn't make the instance to return back to the execution,
since that in the Fault Handler , after the Suspend activity - I have nothing. So
obviously the execution of the workflow ends there.
I DO want to implement the Fault Handler in the workflow level and not to use a While+Sequence activity to wrap each activity in the workflow ( like described here:
Error Handling In Workflows ) since with my pretty heavy workflows - this will look like a hell.
It should be kinda generic handling..
Do you have any ideas ??
Thanks .
If you're working on State Machine Workflows, my technique for dealing with errors that require human intervention to fix is creating an additional 'stateactivity' node that indicates an 'error' state, something like STATE_FAULTED. Then every state has a faulthandler that catches any exception, logs the exception and changes state to STATE_FAULTED, passing information like current activity, type of exception raised and any other context info you might need.
In the STATE_FAULTED initialization you can listen for an external command (your Resume() command, or whatever suits your needs), and when everything is OK you can just switch to the previous state and resume execution.
I am afraid that isn't going to work. Error handling in a workflow is similar to a Try/Catch block and the only way to retry is to wrap everything is a loop and just execute the loop again if something was wrong.
Depending on the sort of error you are trying to deal with you might be able to achieve your goal by creating custom activities that wrap their own execution logic in a Try/Catch and contain the required retry logic.