I expected the following code to first prompt start:, then wait for a user response, before echoing the previous user response back, and awaiting a new one:

import System.IO (hFlush, stdout)
import Control.Monad.Fix (mfix)

f :: [String] -> IO [String]
f = mapM $ \x -> putStr x >> putStr ": " >> hFlush stdout >> getLine

g x = f ("start":x)

main = mfix g

But it gives the error thread blocked indefinitely in an MVar operation after the first line is entered.

Why is this and how can I fix it (excuse the pun)?

  • this might shed some light on it: hackage.haskell.org/package/base-… (I think it's because your f and g are both strict and that's no good idea here - but I do not claim to be able to really think about what's happening here ;)) - why do you want the mfix anyway? – Carsten Oct 29 '14 at 16:34
  • I basically have two functions, f :: [a] -> [b] and g :: [b] -> IO [a] and I need to join the outputs of each other to their inputs (so they basically talk to one another). Obviously I can make h = g . f which makes h :: [a] -> IO [a] but I can't figure out how to tie the knot. I thought mfix would work but it doesn't seem too. – Clinton Oct 29 '14 at 16:43
  • so you do not have the first input and really want to find a fix-point? Because if you have any starting point than you could just do a simple recursion (or most likely I just don't see it) - can you have a look at this: gist.github.com/CarstenKoenig/606771cd7b6a9123bea3 - based on what you wrote first dialog there should do what you want - if you are ok with it I will make it an answer, but I'm not sure because of the strang mfix/mapM there – Carsten Oct 29 '14 at 17:06
  • 1
    It looks like you're trying to use [a] as Event a or Behavior a in an FRP framework. Why not use one of the existing frameworks that supports this sort of operation? – Christian Conkle Oct 29 '14 at 18:48
  • @CarstenKönig: I just want to tie together f and g like I've said. I don't care how it's done. However, I want this to work with all f and g of the same type. As in, write a function h f g :: ([a] -> [a]) -> ([a] -> IO [a]) -> IO () that does what I'm looking for, using mfix or otherwise. Note I can tie two functions together trivially if they both don't involve monads, so I'm not sure why the monads (in this case IO)) should stop it. – Clinton Oct 29 '14 at 20:35

The reason why this can't work is that in mfix f runs any effect in f exactly once. This follows from the tightening rule

mfix (\x -> a >>= \y -> f x y)  =  a >>= \y -> mfix (\x -> f x y)

in particular

mfix (\x -> a >> f x)  =  a >> mfix f

for any correct instance of MonadFix. So the fixed point is only computed for the pure (lazily computed) value inside the monadic action, not for the effects. In your case using mfix asks for printing/reading characters just once in such a way that the input is equal to the output, which is impossible. This isn't a proper use case for mfix. You'd use mfix with IO for example to construct a cyclic data structure in IO like in these examples.

In your case you should use iterateM_ or something similar rather than mfix. see also iterate + forever = iterateM? Repeating an action with feedback.


Unfortunately, mfix in the IO monad doesn't really work to produce lists piecemeal like that. This is because most actions in the IO monad are very strict: they don't produce any part of their result until the whole action has been performed. In particular, mapM in IO will not return any part of its result list until it has gone through all of its input list, which leaves mfix with no hope of tying the knot in the right way here.

In general, mfix in IO really only works if the tied-back value isn't looked at strictly until after the whole mfix action is completed. This still has some possible uses, like initializing a data structure with cycles of mutable cells using only newIORef.

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