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

:

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

Example:

```
> fmap takeOne $ three 3
Just 2
> fmap takeOne $ three 2
Nothing
```

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
2
> maybe 0 takeOne $ three 2
0
```

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
3
> fromMaybe 0 $ three 2
0
```

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 `Functor`

s, as are all `Applicative`

s and `Monad`

s. 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
Hello
> x
Hello, world
> fmap (+1) [1..5]
[2,3,4,5,6]
> fmap (+1) ("fst", 2)
("fst", 3)
```

Even functions are `Functor`

s! Here `fmap = (.)`

, it's just normal function composition:

```
> let lengthPlusOne = fmap (+1) length
> lengthPlusOne "Hello"
6
```

`three`

returns`Nothing`

? – Fresheyeball Oct 15 '14 at 16:17`fromJust`

from Data.Maybe – Shanthakumar Oct 15 '14 at 16:18knowyou will have a Just value. Otherwise, you should really propagate any Nothing values by using fmap. – sixbitproxywax Oct 15 '14 at 16:23