Suppose I have following code

``````do {x <- (Just 3); y <- (Just 5); return (x:y:[])}
``````

Which outputs `Just [3,5]`

How does haskell know that output value should be in `Maybe` monad? I mean `return` could output `[[3, 5]]`.

``````do {x <- (Just 3); y <- (Just 5); return (x:y:[])}
``````

desugars to

``````Just 3 >>= \x -> Just 5 >>= \y -> return \$ x:y:[]
``````

Since the type of `>>=` is `Monad m => m a -> (a -> m b) -> m b` and per argument `Just 3` (alternatively `Just 5`) we have `m ~ Maybe`, the return type of the expression must be some `Maybe` type.

There is a possibility to make this return `[[3, 5]]` using something called natural transformations from category theory. Because there exists a natural transformation from `Maybe a` to `[a]`, namely

``````alpha :: Maybe a -> [a]
alpha Nothing  = []
alpha (Just a) = [a]
``````

we have that your desired function is simply the natural transformation applied to the result:

``````alpha (Just 3 >>= \x -> Just 5 >>= \y -> return \$ x:y:[])
-- returns [[3, 5]]
``````

Since this is a natural transformation, you can also apply `alpha` first and your function second:

``````alpha (Just 3) >>= \x -> alpha (Just 5) >>= \y -> return \$ x:y:[]
-- returns [[3, 5]]
``````

As @duplode pointed out, you can find `alpha` in the package `Data.Maybe` as `maybeToList`.

• It might be worth mentioning that this `alpha` is available as `maybeToList` from `Data.Maybe`. – duplode Feb 14 '17 at 15:53