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(=<<) :: (a -> m b) -> m a -> m b
id :: a -> a
join :: m (m a) -> m a

So shouldn't,

(=<<) id

give an error because,

id :: a -> a

and not,

id :: a -> m a

Doesn't (=<<) expect,

(something -> m anything)

as its first argument?

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1 Answer 1

up vote 4 down vote accepted

m a' -> m a' is also a kind of a -> a, so we can have

      id ::  m a' -> m a'                        -- a = m a'
   (=<<) :: (m a' -> m a') -> m (m a') -> m a'   -- a = m a', b = a'

(=<<) id ::                   m (m a') -> m a'
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ooo! got it! (=<<) :: (m a' -> m a') -> m (m a') -> m a' -- a = m a', b = a' did it for me. a can be m a', all that is necessary is one get back anything wrapped in m. Thanks mate! –  louzer Aug 18 '12 at 10:02
@louzer Exactly. You can consider 1 layer of m to be a stable point of a monad. You can always join 2 or more layers of m into 1 layer using join, and you can always lift 0 layers of m into 1 layer using return. –  Gabriel Gonzalez Aug 18 '12 at 16:20
@GabrielGonzalez: it does get a bit more complicated when you have something like m (n (m a)) though. –  Ben Millwood Aug 18 '12 at 22:17
@BenMillwood and in those cases, sequenceA (a kind of generalized transpose) from Data.Traversable can swap the outer m and n or the inner n and m so that join can then apply. –  Conal Aug 19 '12 at 16:35
@Conal: sure, you can do that when the types involved are in the right classes, but it's not as simple as "if you have two monad type constructors, just join them". Sometimes, of course, IO (IO a) actually is the type you want. –  Ben Millwood Aug 19 '12 at 19:13

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