6

I have defined a type X as

newtype X i o = X { runX :: Int -> i -> IO o }

I have made an instance of Functor, Applicative and Monad with

instance Functor (X i) where
  fmap f a = X $ \ i o -> liftA f $ runX a i o

instance Applicative (X i) where
  pure x  = X $ \ _ _ -> return x
  a <*> b = X $ \ i o -> liftA2 (<*>) (runX a i o) (runX b i o)

instance Monad (X i) where
  return = pure
  a >> b = X $ \ i o -> runX a i o >> runX b i o

As you could probably tell, I have been, thusfar, unable to come up with a definition for >>=, and so have excluded it. I expected this to error on compile, but in fact, all it did was raise a warning. Fine, so it doesn't check that all the methods of a class are defined, but then surely I can't actually use >>=. Nope, wrong once again. To my great astonishment, GHCi happily evaluates let x = pure 5 >>= pure. Control.Monad does not export a default definition of >>=, and I certainly haven't defined one, so how is this possible?

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    I can't get your Functor instance to typecheck. It complains that it can't match type IO (f0 a) with i0 -> IO o0. – Tikhon Jelvis Aug 29 '15 at 0:19
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    The code as posted doesn't compile (e.g. it should be runX a i o in the fmap definition). Perhaps you pasted a wrong version here? – duplode Aug 29 '15 at 0:20
  • That still doesn't work for me, but taking out the liftA does. – Tikhon Jelvis Aug 29 '15 at 0:23
  • Still doesn't typecheck. I think you don't need the fmap in the fmap definition, nor the liftA2 in the (<*>) one. If I remove them, it typechecks and I get the warning you describe. – duplode Aug 29 '15 at 0:23
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    I believe GHC does raise a warning. But it may require compiling with -Wall option. Moreover, if you define a class you may use the MINIMAL to tell the compiler exactly which methods the instance should provide. In this way you can provide mutual recursive default implementations and still let the compiler know that at least one of the two methods must be implemented to make things work. – Bakuriu Aug 29 '15 at 6:13
9

Given your corrected definition, if I try to define and then use x, I get the expected runtime exception:

λ> let x = pure 5 >>= pure :: X Int Int
λ> runX x 5 5
*** Exception: foo.hs:12:10-20: No instance nor default method for class operation GHC.Base.>>=

There are two possible reasons why you would not see that.

The first is that you just ran the let but never tried evaluating the result. Since Haskell is lazy, let x = ... doesn't actually do anything. x will only get evaluated when you actually try to use it (with, ie, runX), so that's when you would hit the error.

The other possibility is that you used a let without specifying the type:

λ> let x = pure 5 >>= pure
λ> x
5

Here, x is polymorphic in the monad m it uses. To print something useful for polymorphic terms like this one, ghci defaults m to IO, which works correctly and gives you 5, but doesn't tell you anything useful about your custom monad.

  • This is what I would have expected as well, but neither are true. I used a highly type restricted function rather than the pures here, and I tried simply plugging x into GHCi. It succeeded without error. However, the IO that I was using actually represented the creation of a WX widget, and when I attempted to evaluate that I got a SegFault. Any thoughts on what in wxHaskell might cause this? – Kwarrtz Aug 29 '15 at 0:41
  • @Kwarrtz: That turns it into a different question, and I'm not sure how much I can help. I think you'd be best off asking that separately with more details specific to your case. – Tikhon Jelvis Aug 29 '15 at 0:45

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