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I have some function that composes two monads:

comp :: Monad m => m a -> m b -> m b

And two instances of such monads, where on is "inside" an Mfunctor,

ms :: Monad m => m String
ms = undefined

tma :: (Monad m, MFunctor t) => t m a
tma = undefined

Now if I try to compose ms with tma:

tmas = hoist (\ma -> comp ma ms) tma

I am getting this error:

 Could not deduce (a ~ [Char])
    from the context (Monad m, MFunctor t)
      bound by the inferred type of
               comp :: (Monad m, MFunctor t) => t m b
      at Coroutine.hs:607:1-40
      `a' is a rigid type variable bound by
          a type expected by the context: m a -> m a at Coroutine.hs:607:8
    Expected type: m a
      Actual type: m String

which states that a in ms has to be of arbitrary type: ms :: Monad m => m a.

Why is this and is there a way to compose tma with monads of specific parameters.

I can see that signature of hoist is:

hoist :: (Monad m, MFunctor t) => (forall a. m a -> n a) -> t m b -> t n b

but cannot picture how forall is affecting what I am trying to do, if it has any effect.

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2 Answers

up vote 3 down vote accepted

Switch the order of arguments to comp like this:

tmas = hoist (\ma -> comp ms ma) tma

-- or more simply:
tmas = hoist (comp ms) tma

The reason is that the type of comp is:

comp :: (Monad m) => m a -> m b -> m b

If you set, ms as the second argument, the b type-checks as a String and you get:

(`comp` ms) :: (Monad m) => m a -> m String

... but if you set ms as the first argument, the a type-checks as a String you get:

(ms `comp`) :: (Monad m) => m b -> m b

That latter type is the correct type for hoist since the b is universally quantified (i.e. "forall"ed).

To answer your question about correctness, the answer is that the universal quantification guarantees that the argument to hoist only modifies the monad layer and not the monad return value. However, if it's your intention to modify the return value, too, then hoist is not what you want.

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The type of hoist says that it expects a function (forall a. m a -> n a) i.e. a function that changes the "container" type but keeps the type parameter the same. The forall here means that the function you provide cannot be specialized for any specific a but has to work for any type parameter.

The function you are trying to use (\ma -> comp ma ms) has the type m a -> m String so it is pretty much the opposite of what hoist expects since it keeps the container (m) the same but changes the type parameter (from a to String).

I think what you are actually looking for instead of hoist in this case is a function that lifts a monadic function to work on transformed monads, so instead of MFunctor you'll want something like:

import Control.Monad.Trans.Class

tmas :: (Monad m, Monad (t m), MonadTrans t) => t m String
tmas = transLift (\ma -> comp ma ms) tma

transLift :: (Monad m, Monad (t m), MonadTrans t) => (m a -> m b) -> t m a -> t m b
transLift f tma = tma >>= lift . f . return
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Thanks for the explanation. Does the presence of forall guarantee some level of correctness somehow? –  chibro2 Aug 28 '13 at 12:48
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