Why does this typecheck:

runST $ return $ True

While the following does not:

runST . return $ True

GHCI complains:

Couldn't match expected type `forall s. ST s c0'
            with actual type `m0 a0'
Expected type: a0 -> forall s. ST s c0
  Actual type: a0 -> m0 a0
In the second argument of `(.)', namely `return'
In the expression: runST . return
  • 7
    If ($) could be given a depedently typed signature as ($) : forall (a : *) (b : a -> *) . ((x : a) -> b x) -> (x : a) -> b x it would work without GHC tricks, and similarly for (.).
    – danr
    Feb 27, 2012 at 20:16

3 Answers 3


The short answer is that type inference doesn't always work with higher-rank types. In this case, it is unable to infer the type of (.), but it type checks if we add an explicit type annotation:

> :m + Control.Monad.ST
> :set -XRankNTypes
> :t (((.) :: ((forall s0. ST s0 a) -> a) -> (a -> forall s1. ST s1 a) -> a -> a) runST return) $ True
(((.) :: ((forall s0. ST s0 a) -> a) -> (a -> forall s1. ST s1 a) -> a -> a) runST return) $ True :: Bool

The same problem also happens with your first example, if we replace ($) with our own version:

> let app f x = f x
> :t runST `app` (return `app` True)
    Couldn't match expected type `forall s. ST s t0'
                with actual type `m0 t10'
    Expected type: t10 -> forall s. ST s t0
      Actual type: t10 -> m0 t10
    In the first argument of `app', namely `return'
    In the second argument of `app', namely `(return `app` True)'

Again, this can be solved by adding type annotations:

> :t (app :: ((forall s0. ST s0 a) -> a) -> (forall s1. ST s1 a) -> a) runST (return `app` True)
(app :: ((forall s0. ST s0 a) -> a) -> (forall s1. ST s1 a) -> a) runST (return `app` True) :: Bool

What is happening here is that there is a special typing rule in GHC 7 which only applies to the standard ($) operator. Simon Peyton-Jones explains this behavior in a reply on the GHC users mailing list:

This is a motivating example for type inference that can deal with impredicative types. Consider the type of ($):

($) :: forall p q. (p -> q) -> p -> q

In the example we need to instantiate p with (forall s. ST s a), and that's what impredicative polymorphism means: instantiating a type variable with a polymorphic type.

Sadly, I know of no system of reasonable complexity that can typecheck [this] unaided. There are plenty of complicated systems, and I have been a co-author on papers on at least two, but they are all Too Jolly Complicated to live in GHC. We did have an implementation of boxy types, but I took it out when implementing the new typechecker. Nobody understood it.

However, people so often write

runST $ do ... 

that in GHC 7 I implemented a special typing rule, just for infix uses of ($). Just think of (f $ x) as a new syntactic form, with the obvious typing rule, and away you go.

Your second example fails because there is no such rule for (.).


The runST $ do { ... } pattern is so common, and the fact that it normally wouldn't type-check is so annoying, that GHC included some ST-specific type-checking hacks to make it work. Those hacks are probably firing here for the ($) version, but not the (.) version.

  • Interesting point. It is probably enough to simply drop the ($) as soon as it is seen that it is applied to 2 arguments. Should be easily verifiable by replacing it with a custom function that does the same as ($), and look if the type checker would complain then.
    – Ingo
    Feb 27, 2012 at 18:37
  • 1
    @Ingo: Yep, let app f x = f x in runST `app` (return `app` True) fails to type check. Interesting.
    – hammar
    Feb 27, 2012 at 18:53
  • 1
    @Hammar: This means, GHC apparently drops the $ despite this is not quite correct with higher rank types.
    – Ingo
    Feb 27, 2012 at 19:08
  • 1
    This is the correct answer. The first snippet wouldn't normally typecheck, however, GHC has a special rule for runST $ whatever, but not for runST . foo. Feb 27, 2012 at 21:23
  • 3
    And not for ($) runST (return True) which doesn't typecheck either
    – Ed'ka
    Feb 27, 2012 at 23:00

The messages are a bit confusing the point (or so I feel). Let me rewrite your code:

runST (return True)   -- return True is ST s Bool
(runST . return) True  -- cannot work

Another way to put this is that the monomorphic m0 a0 (the result of return, if it would get an a0) cannot be unified with (forall s.ST s a).

  • This does typecheck: unsafePerformIO . return $ True Feb 27, 2012 at 18:07
  • 4
    @Ingo: You're parsing the two examples wrong. runST $ return $ True is ($) runST (($) return True), and runST . return $ True is ($) ((.) runST return) True. They would do the same thing in the absence of rank-2 types.
    – ehird
    Feb 27, 2012 at 18:08
  • 1
    @ehird - You're right, I forgot the dot. (Hey, that rhymes ...)
    – Ingo
    Feb 27, 2012 at 18:27

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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