When I have the two functions:


three :: Int -> Maybe Int
three a
 | a == 3 = Just 3
 | otherwise = Nothing


takeOne :: Int -> Int
takeOne a = (a - 1)

how do I call function a as a parameter to function b? i.e How do I let function b accept a 'Maybe Int' in place of an 'Int'?

At the minute when I try

takeOne (three 3)

I get the error:

ERROR - Type error in application
*** Expression     : takeThree (three 3)
*** Term           : three 3
*** Type           : Maybe Int
*** Does not match : Int


  • 2
    What is your expected result if three returns Nothing? – Fresheyeball Oct 15 '14 at 16:17
  • Use fromJust from Data.Maybe – Shanthakumar Oct 15 '14 at 16:18
  • 5
    @Shanth that should only be used when you know you will have a Just value. Otherwise, you should really propagate any Nothing values by using fmap. – sixbitproxywax Oct 15 '14 at 16:23
  • @PWright that's right. But here op is sure about its nothingness. – Shanthakumar Oct 15 '14 at 16:27
  • 4
    @Shanth In that specific example, yes. In general, probably not. If we are assuming that the user only cares about this specific instance, then why not just replace takeOne (three 3) with 2? I.e., we should probably assume that the example is constructed to ask about a more general concept and answers, accordingly, should be more general than this specific instance. – sixbitproxywax Oct 15 '14 at 16:29

You've got a few options, but I'd say the easiest is fmap:

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


> fmap takeOne $ three 3
Just 2
> fmap takeOne $ three 2

Another option would be to use the function maybe, which takes a default value, a function to apply to any value inside the Just, and then the Maybe a to apply this to. An example should make it clear

> maybe 0 takeOne $ three 3
> maybe 0 takeOne $ three 2

Another alternative if you just want to give a default value is to use the function fromMaybe from Data.Maybe:

> import Data.Maybe
> fromMaybe 0 $ three 3
> fromMaybe 0 $ three 2

In Haskell, there is a typeclass called Functor defined as

class Functor f where
    fmap :: (a -> b) -> f a -> f b

There are many, many types that are instances of Functor. In fact, all parametrized data structures are Functors, as are all Applicatives and Monads. The easiest mental model of a Functor is that it's just a fancy name for a container. For lists, fmap = map, for example. All it does is map a function over the elements inside a container.

Some more examples are:

> fmap (+1) (Left "error")
Left "error"
> fmap (+1) (Right 1)
Right 2

> x <- fmap (++", world") getLine
> x
Hello, world

> fmap (+1) [1..5]

> fmap (+1) ("fst", 2)
("fst", 3)

Even functions are Functors! Here fmap = (.), it's just normal function composition:

> let lengthPlusOne = fmap (+1) length
> lengthPlusOne "Hello"
  • 3
    And, if this is confusing, you might want to check out: learnyouahaskell.com/functors-applicative-functors-and-monoids – sixbitproxywax Oct 15 '14 at 16:19
  • 4
    Note that you'll frequently see fmap f $ g written as f <$> g using the function (<$>) from Data.Functor. – Christian Conkle Oct 15 '14 at 18:01
  • Thanks for your help so far, it's really appreciated. I'm struggling to implement fmap into my code. The functions I'm using have multiple parameters and as I'm not sure what role the $ symbol plays I don't know where to put it. – Charles Del Lar Oct 15 '14 at 21:19
  • The $ function has the following definition: f $ x = f x. What makes it useful is that it has very low precedence in terms of order of operations. The hand-wavy quick explanation is that $ computes what's on the right and passes it to what's on the left, so you can write code like f $ g $ h x instead of f (g (h x)), or even more usefully something like map (+1) $ filter even $ zip [1..10] $ f x instead of map (+1) (filter even (zip [1..10] (f x))). Luckily for you, you don't need to implement fmap at all, it's already defined for you for many data types. Just use it as is. – bheklilr Oct 15 '14 at 21:25
  • @CharlesDelLar One thing to look out for with $ is that it works best when what's on the right only takes 1 parameter. So something like map $ (+1) $ [1..10] won't work, while map (+1) $ [1..10] will. There are other explanations of this operator though, such as this one, which might help make things more clear. – bheklilr Oct 15 '14 at 21:26

One other option of course is to write your own.

data IAcceptedAMaybeInt = GotAnswer Int | NothingAtTheMoment deriving Show

pleaseAcceptAMaybeInt f g a = case g a of
                                Just b    -> GotAnswer (f b)
                                otherwise -> NothingAtTheMoment


*Main> pleaseAcceptAMaybeInt takeOne three 3
GotAnswer 2

*Main> pleaseAcceptAMaybeInt takeOne three 2

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