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Is there somewhere in Hackage a typeclass analogous to MonadIO but for Applicatives, that allows one to easily lift IO actions to "applicative composition stacks" based on IO?
If such a typeclass existed, would it be made obsolete by the implementation of the Applicative-Monad Proposal? Does the proposal involve a relaxation on the Monad constraint for MonadIO?
There was a related discussion on haskell-cafe a year ago. In the Reddit comments I gave an example of a natural transformation (g) from IO to another monad that is an applicative functor morphism (i.e., satisfies the laws that Gabriel Gonzalez mentioned) but is not a monad morphism (it does not satisfy the additional law relating to >>=). So, even in a world with AMP, ApplicativeIO m and MonadIO m are really different things, even when m is a Monad!
In an ideal world you'd have a setup like this:
class Functor f => FunctorIO f where
liftIO :: IO a -> f a
-- such that liftIO is a natural transformation (automatic, by parametricity)
class (Applicative f, FunctorIO f) => ApplicativeIO f where
-- ... and liftIO is an applicative functor morphism
class (Monad f, ApplicativeIO f) => MonadIO f where
-- ... and liftIO is a monad morphism
and magical fairies would define ApplicativeIO and MonadIO instances exactly when the corresponding laws were satisfied.
Monadconstraint is worth considering. – Tom Ellis Sep 26 '14 at 17:58liftAIO (pure r) = pure randliftAIO (f <*> x) = liftAIO f <*> liftAIO x– Gabriel Gonzalez Sep 26 '14 at 20:15Monadconstraint forMonadIOwould be problematic if for no other reason than that there is a lot of code out there with type signatures like(MonadIO m) => ... -> m ...that requiresmto be aMonad(for reasons unrelated toliftIO). ButMonadIO mis not equivalent to(Monad m, ApplicativeIO m)either, see my answer below. – Reid Barton Sep 27 '14 at 0:57