This excellent answer in this question demonstrates how `bind`

can be written in terms of `join`

and `fmap`

:

`(>>=) :: m v -> (v -> m w) -> m w`

says "if you have a strategy to produce a v, and for each v a follow-on strategy to produce a w, then you have a strategy to produce a w". How can we capture that in terms of join?

`mv >>= v2mw = join (fmap v2mw mv)`

But, I don't understand how `v2mw`

, which has a type of `a -> m b`

type checks to the first argument of `fmap`

.

`fmap :: Functor f => (a -> b) -> f a -> f b`

`b`

be`m b`

and`fmap v2mw :: f a -> f (m b)`

. Then`join`

forces`f`

to equal`m`

and collapses the layers. – J. Abrahamson Aug 29 '14 at 23:39`b`

in`fmap`

can be any type, including`m b`

? – Kevin Meredith Aug 29 '14 at 23:43`b`

s arise in different contexts and are not required to be the same. – J. Abrahamson Aug 30 '14 at 1:22`The two bs arise in different contexts`

you're talking about the`b`

's in`fmap`

's signature:`fmap :: Functor f => (a -> b) -> f a -> f b`

? Surely the`b`

's must be the same type, no? – Kevin Meredith Aug 30 '14 at 2:29`b`

in`fmap`

's signature versus the`b`

in the`m b`

in`v2mw`

's/`(>>=)`

's signature – J. Abrahamson Aug 30 '14 at 3:33