Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm running this code snippet under Ruby 1.9.2:

require "eventmachine"
require "fiber" do
  fiber = do
    current_fiber = Fiber.current
    EM.add_timer(2) do
      print "B"
  print "A"
  val = fiber.resume
  print "C"
  print val

I'm expecting the output to be "ABCD", with the program pausing for two seconds after the "A". However, instead it just prints out "AC" right away, then waits around for two seconds before exiting. What am I doing wrong?

(For reference, I'm trying to reproduce the em-synchrony-style behaviour described in this article without using em-synchrony.)

Edit: Here are some more details about what I'm ultimately trying to accomplish. I'm developing a Grape API running on Thin, and each route handler has to make various calls in series to datastores, ZooKeeper, other HTTP services, etc. before returning a response.

em-synchrony is really cool, but I keep running into issues with yielding from the root fiber or with results showing the non-synchronous symptoms of the case above. rack-fiber_pool also seems potentially useful, but I'm reluctant to commit to using it because, out of the box, it breaks all my Rack::Test unit tests.

I reduced my problems into the simple example above because I seem to have a fundamental misunderstanding about how fibers and EventMachine should be used together that is preventing me from using the more complex frameworks effectively.

share|improve this question
About Rack::Test, you can try to use it only on your, and wrap your tests in Fibers using an rspec around block or something like that. – Renato Zannon Oct 4 '12 at 5:26
Due to Grape not playing nice with added middleware (always putting it last instead of first where it needs to be in this case) I ended up having to wrap the Grape app using Rack::Builder in my config and adding Rack::FiberPool to that. Which bypassed the unit testing issue entirely. :) – breaker Oct 5 '12 at 4:32
You are stopping EM right after AC has been printed. – phil pirozhkov Oct 6 '12 at 16:57
up vote 8 down vote accepted

You probably wanted something like this:

require "eventmachine"
require "fiber"

def value
  current_fiber = Fiber.current

  EM.add_timer(2) do
    puts "B"
    current_fiber.resume("D") # Wakes the fiber

  Fiber.yield # Suspends the Fiber, and returns "D" after #resume is called
end do {
    puts "A"
    val = value
    puts "C"
    puts val


  puts "(Async stuff happening)"

This should yield the following result:

(Async stuff happening)

A more conceptual explanation:

Fibers help untangle asynchronous code because they chunks of code to be suspended and reanimated, much like manual threads. This allows for clever tricks regarding the order on which things happen. A small example:

fiberA = {
  puts "A"
  puts "C"

fiberB = {
  puts "B"
  puts "D"

fiberA.resume # prints "A"
fiberB.resume # prints "B"
fiberA.resume # prints "C"
fiberB.resume # prints "D"

So, when #resume is called on a fiber, it resumes its execution, be it from the start of the block (for new fibers), or from a previous Fiber.yield call, and then it executes until another Fiber.yield is found or the block ends.

It is important to note that placing a sequence of actions inside a fiber is a way to state a temporal dependency between them (puts "C" can't run before puts "A"), while actions on "parallel" fibers can't count on (and shouldn't care about) whether or not the actions on the other fibers have executed: We would print "BACD" only by swapping the first two resume calls.

So, here's how rack-fiber_pool does its magic: It places every request your application receives inside a fiber (which implies order-independence), and then expects you to Fiber.yield on IO actions, so that the server can accept other requests. Then, inside the EventMachine callbacks, you pass in a block that contains a current_fiber.resume, so that your fiber is reanimated when the answer to the query/request/whatever is ready.

This is already a lengthy answer, but I can provide an EventMachine example if it's still not clear (I get this is a hairy concept to grok, I struggled a lot).

Update: I've created an example that might help anyone that is still struggling with the concepts: I recommend to run and play with it.

share|improve this answer
Thanks -- though this doesn't really help, for example, in the context of serving something from a web app, which is my ultimate goal. I'd like to do a bunch of asynchronous actions like this in series when servicing an HTTP request, then return some result to the client. – breaker Oct 4 '12 at 3:53
Well, you probably should've mentined it on your question then :) Can you edit the question to expand it a little on what exactly you want? But anyway, the basic principles are the same, though in a webapp environment you're probably better off using em-synchrony along with something like rack-fiber_pool instead of rolling your own infrastructure. – Renato Zannon Oct 4 '12 at 4:15
Sure; I added more details. I've been wrestling with em-synchrony and rack-fiber_pool for half a day without progress, so I figured I was just missing out on some fundamental concept. – breaker Oct 4 '12 at 4:49
Thanks! I think I've got a much better grasp on it now. The bit about having all the sequential actions wrapped in the same fiber to establish ordering definitely helps. – breaker Oct 4 '12 at 5:43
Nope, nothing more needed; I got it all working today. Thanks! – breaker Oct 5 '12 at 4:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.