7

I want to perform multiple tasks concurrently. In Javascript, I would do:

async function cook_an_egg() {}

async function take_shower() {}

async function call_mum() {}

await Promise.all([cook_an_egg(), take_shower(), call_mum()])

How do I achieve Promise.all in Elixir Task module? From documentation, seems you can only await 1 task; define 1 function inside each task; and apply only the same function to multiple items with async_stream .

13

You can map await function to a list of task refs. Something like

tasks = Enum.reduce(0..9, [], fn _, acc -> 
  [Task.async(&any_job/0) | acc]
end)

Enum.map(tasks, &Task.await/1)
  • 2
    Interesting, I would expect the first Task.await inside the map function will block the process from involking the next await until it's finished. Am I right that Task.await is not blocking any 'Enum' methods by design? – Ivan Wang Feb 19 '17 at 22:37
  • 3
    Does it matter? Say that the first process takes the longest - so you wait for that, then when the first await is done, all the others finish immediately as their processes are done. – cdegroot Feb 19 '17 at 23:24
  • Well, it matters when I don't understand how it behaves. Would you please have a look at this code: elixirplayground.com?gist=4682af479dbb1a4510b7deef373ca51e. I really don't get how the log "done async 2" comes before the second "starting new task". – Ivan Wang Feb 20 '17 at 15:56
  • Your both functions (async_1 and _2) are writing to the IO device in async manner, so you don't need to await on them to see that side effect, but it works perfectly fine when you need the results of those 2 functions ([1,2]) – sysashi Feb 21 '17 at 19:37
  • Each Task.await does block until finished, and this can certainly matter if we want to enforce a timeout. I've added an answer that demonstrates the problem with this approach and provides a more robust (though also more verbose) solution with Task.yield_many. – Ian Greenleaf Young Dec 5 '19 at 0:30
2

A more bulletproof solution than Task.await is Task.yield_many. Unfortunately, it's a little more verbose because it leaves us in charge of handling timed-out and dead tasks ourselves. If we want to mimic the behavior of async/await and exit when something goes wrong, it will look like this:

tasks = [
  Task.async(fn -> cook_an_egg(:medium) end),
  Task.async(fn -> take_shower(10) end),
  Task.async(fn -> call_mum() end),
]

Task.yield_many(tasks)
|> Enum.map(fn {task, result} ->
  case result do
    nil ->
      Task.shutdown(task, :brutal_kill)
      exit(:timeout)
    {:exit, reason} ->
      exit(reason)
    {:ok, result} ->
      result
  end
end)

Why not use await?

Using Task.await will work in simple situations, but if you care about the timeout you can get yourself into trouble. Mapping across the list happens sequentially, which means each Task.await will block for up to the specified timeout before giving a result, at which point we move to the next item in the list and block again for up to the full timeout.

We can demonstrate this behavior by creating a list of tasks that sleep for 2-10 seconds. With the default timeout of 5 seconds, some of these tasks would be killed when called directly with await, but when we enumerate across the list, that's not what happens:

1..5
|> Enum.map(fn i -> Task.async(fn -> Process.sleep(i * 2000); i end) end)
|> Enum.map(&Task.await/1)

# Blocks for 10 seconds
# => [1, 2, 3, 4, 5]

If we modify this to use Task.yield_many, we can get the desired behavior:

1..5
|> Enum.map(fn i -> Task.async(fn -> Process.sleep(i * 2000); i end) end)
|> Task.yield_many(5000)
|> Enum.map(fn {t, res} -> res || Task.shutdown(t, :brutal_kill) end)

# Blocks for 5 seconds
# => [{:ok, 1}, {:ok, 2}, nil, nil, nil]
  • This really looks more robust and exhaustive. Thanks! – Bruno Ripa Jan 4 at 17:39

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