# Maybe monad bind function precedence

In this tutorial I've found the following snippet:

``````deposit :: (Num a) => a -> a -> Maybe a
deposit value account = Just (account + value)

withdraw :: (Num a,Ord a) => a -> a -> Maybe a
withdraw value account = if (account < value)
then Nothing
else Just (account - value)

eligible :: (Num a, Ord a) => a -> Maybe Bool
eligible account =
deposit 100 account >>=
withdraw 200 >>=
deposit 100  >>=
withdraw 300 >>=
deposit 1000 >>
return True

main = do
print \$ eligible 300 -- Just True
print \$ eligible 299 -- Nothing
``````

I can't figure out how the `>>=` function is supposed to work. At first it takes a `Maybe a` value as its first parameter: `deposit 100 account >>=`

Afterwards, however it seems to take `a -> Maybe a` as its first parameter: `withdraw 200 >>=` How could this be approved by the compiler? Shouldn't `>>=` always take `Maybe a` as its first parameter?

A possible solution would be if the `>>=` function's precedence would work in the following way: `((a >>= b) >>= c) >>= d`

But as far as I know, it is the opposite: `a >>= (b >>= (c >>= d))`

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You might have confused it with `do` notation: `do a <- b; c <- d; e` is `b >>= (\a -> d >>= (\c -> e))`. – sdcvvc Jul 3 '12 at 18:25
@sdcvvc: Thank you, this was indeed the source of my confusion. – kahoon Jul 3 '12 at 19:57
Note also that it it's not the "Maybe monad bind function precedence"; you can't have different precedences for different typeclass instances, so it would have to be the precedence for all monads' binds. – Yuki Izumi Jul 3 '12 at 23:32

as far as I know, it is the opposite: `a >>= (b >>= (c >>= d))`

nope.

``````GHCi> :i >>=
(>>=) :: m a -> (a -> m b) -> m b
...
-- Defined in `GHC.Base'
infixl 1 >>=
``````

`infixl` means that it's left-associative, so `a >>= b >>= c >>= d ≡ ((a >>= b) >>= c) >>= d`.

It wouldn't actually make much sense if it were `infixr`, would it? `>>=` always returns a monad, and its RHS takes a function. So in any chain of monadic expressions linked with `>>=` would be in the `(->) r` monad, which is hardly the most useful one.

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