I was thinking of that but I felt that should be a last resort. I wonder if there are events send by the Erlang scheduler to notify if the children are idle( and no more messages in the message queue)
The call to make_ref() returns a unique identifier, which is guaranteed to be unique across the cluster. The next thing the b_manager does is wait for a message carrying that reference (which is why we go to the trouble of passing it around within the B signal cluster).
I was going to implement the reference block that you had earlier suggested(and its a great answer, a blog post of its own) but the problem I thought it would not solve is this: a) b_manager will 'unblock' and accept the next message from its client only when it get's a message carrying that reference. But what if there are multiple messages from its children? Then b_manager/1 should ideally wait for all messages from it's children.
In the current b_manager/1, it accepts the next message as soon it gets the first messages from its children
also what if the children don't send any message at all?
So, in the box 'Process merged stream', there are two output ports. Imagine that talks not to the two boxes but to a parent process(the .png file is the composite :))
That's what I was getting at with "validity criteria". If you don't know how many responses a manager might get from its workers, then you will not be able to set a timeout or any condition that represents completion of processing.
You must be able to tell some manager somewhere that "processing is complete" or "processing completely failed".
The details of collating/splitting are trivial. Its figuring out what success and failure mean that is important here.
Since we don't know the details of the problem, we can abstract that simply by saying "receive {success, Ref, Result} -> yay(); {failed, Ref} -> oh_no() after Timeout -> oh_no()"
or something along those lines.
Below that, in a subordinate process, is where you split or merge the message.
That's why you see so many Erlang stdlib functions return things like {ok, Foo} or {error, Reason} so that you can write an assertion that will crash your process if the result isn't "{ok, _}"
If all the processes in a signal processing cluster are linked -- a crash in one kills them all. Any process monitoring them can interpret that as complete failure.
If you are worried about blocking being sort of a funky fit for this, then the common reaction in Erlang is to spawn a process (or cluster of processes) per job and let them die natural deaths when they complete their task.
Its pretty easy to move between synch/asynch and pool/independent/singleton type workers without changing much code. So you can experiment with different approaches.
The standard conversation about that goes like this:
"What did you try?"
"Nothing yet, I wasn't sure about performance/behavior/etc."
"You'll never know until you write something."
And... that's about it.
Genuinely concurrent systems are not easy places to predict emergent behaviors. And performance, resource usage, even simple message ordering in a 3-way system are all emergent behaviors in Erlang.
Luckily, Erlang is pretty easy to hack around on, so its not hard to try 5 or 6 different implementations of something in a few hours.
The Fractalide thing is sort of funny... its based on a very similar premise to what I'm doing with business data (we're ultimately trying to avoid ever having processing occur at the data center, or holding any transparent customer bits).
Btw, here is an example of a linked, spawned process used to represent a "hand" moving something from the game environment to inventory, or vice versa: github.com/zxq9/erlmud/blob/master/erlmud-0.1/…
The details of the tuples aren't important, The "H" and "R" in HPid/HName stand for "Holder" and "Recipient". The hand function is called by the functions take, drop and give.
Its one example of using a "third process" that acts as a processing passthrough (not unlike your signal clusters) to avoid the case where the Holder and the Recipient are the same type of process, and would hit deadlock if they both sent the same synchronous message to each other at the same time.
Btw, the v0.1 version of that codebase is all raw Erlang, so don't use it as an example of OTP best practices -- that is what the rest of the project is for later on.
Cool, I think I'll read it slowly (as I am still new to Erlang syntax) and get back to you if I have any questions. I don't understand the application context.. game environment and inventory seems to me be two diferrent domains.. Is this the code for your business data?
Alright Craig, it was great talking to you. I have to head to bed
if you ever come to Toronto, do let me know. I would love to meet up.