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When playing around with Pointfree I was presented with a piece of code that I can't seem to understand.

:pl map (\x -> x * x) [1..10]
-- map (join (*)) [1..10]

My main problem is that I don't get how join works here. I understand that it 'removes' one layer of a monadic wrapping (m (m a) to m a). I figure it boils down to something like [1..10] >>= (\x -> [x * x]), but I don't really get how the "extra layer" gets introduced. I get that join x = x >>= id, but then I'm still stuck on how that "duplicates" each value so that (*) gets two arguments. This has been bugging me for about half an hour now and I'm mostly annoyed at myself, because I feel like I have all the puzzle pieces but can't seem to fit them together...

P.S. Don't worry, I would't really use this pointfree version, this is pure curiosity and an attempt to understand Haskell better.

join :: m (m a) -> m a doesn't exactly "remove" a layer of monadic wrapping, it's much more accurate to say it squishes two layers into one. Hence the name, indeed... –  Ben Millwood Oct 26 '13 at 12:34

1 Answer 1

up vote 22 down vote accepted

join is using the instance of Monad for (->) a, as defined in Control.Monad.Instances. The instance is similar to Reader, but without an explicit wrapper. It is defined like this:

instance Monad ((->) a) where
  -- return :: b -> (a -> b)
  return = const
  -- (>>=) :: (a -> b) -> (b -> a -> c) -> (a -> c)
  f >>= g = \x -> g (f x) x

If you now reduce join using this instance:

(>>= id)
flip (\f g x -> g (f x) x) (\a -> a)
(\f x -> (\a -> a) (f x) x)
(\f x -> f x x)

As you can see, the instance for (->) a makes join to a function that applies an argument twice. Because of this, join (*) is simply \x -> x * x.

You can also work this out from parametricity. In the monad (->) a, join has the type ((->) a) ((->) a b) -> ((->) a b), which simplifies to (a -> a -> b) -> a -> b. It's clear that the only thing join can do to get a b is feed the a to the function twice. (Apart from using bottom values, of course). –  hammar Jul 23 '11 at 0:07
@hammar Wasn't there a program that could figure out a function's only sensible definition by looking at the type signature? (If possible) –  FUZxxl Jul 23 '11 at 0:11
@FUZxxl: Yes, Djinn. The package seems to be slightly out of date, though. –  hammar Jul 23 '11 at 0:17
I've uploaded a new version of Djinn. –  augustss Jul 23 '11 at 8:00
Thanks, exactly what I was missing! :-) I actually played around with the monad instance of ((->) a) a bit but didn't get anywhere, probably because it was approaching 2am here and I was pretty tired. Thanks again! –  Michael Kohl Jul 23 '11 at 8:46

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