# What is the Maybe type and how does it work?

I am just starting to program in Haskell, and I came across the following definition:

``````calculate :: Float -> Float -> Maybe Float
``````
• What is the thing you are not able to understand ? What error are you facing ? I would suggest you to try initially before posting question.
– Sibi
Commented Apr 5, 2015 at 11:35
• Is it actually a valid definition? (a note: I referred to a revision that began with `function calculate` on the same line) Commented Apr 5, 2015 at 11:38
• en.wikibooks.org/wiki/Haskell/Libraries/Maybe Commented Apr 5, 2015 at 11:40
• I agree man after I had read the wiki, it didn't make much sense, but your answer with the examples helped a lot, cheers CommuSoft.
– K...
Commented Apr 5, 2015 at 12:30
• Looks to me like you're getting a bit ahead of yourself. I suggest you take a step back from what you're dealing with and Learn You a Haskell. Commented Apr 5, 2015 at 18:21

`Maybe a` is an ordinary data type defined as:

``````data Maybe a = Just a | Nothing
``````

There are thus two possibilities: or you define a value of type `a` as `Just a` (like `Just 3`), or `Nothing` in case the query has no answer.

It is meant to be defined as a way to define output for non-total functions.

For instance: say you want to define `sqrt`. The square root is only defined for positive integers, you can thus define `sqrt` as:

``````sqrt x | x >= 0 = Just \$ ...
| otherwise = Nothing
``````

with `...` a way to calculate the square root for `x`.

Some people compare `Nothing` with the "null pointer" you find in most programming languages. By default, you don't implement a null pointer for data types you define (and if you do, all these "nulls" look different), by adding `Nothing` you have a generic null pointer.

It can thus be useful to use `Maybe` to denote that it is possible no output can be calculated. You could of course also error on values less than `0`:

``````sqrt x | x >= 0 = Just \$ ...
| otherwise = error "The value must be larger or equal to 0"
``````

But errors usually are not mentioned in the type signature, nor does a compiler have any problem if you don't take them into account. Haskell is also shifting to total functions: it's better to always try at least to return a value (e.g. `Nothing`) for all possible inputs.

If you later want to use the result of a `Maybe a`, you for instance need to write:

``````succMaybe :: Maybe Int -> Maybe Int
succMaybe (Just x) = Just (x+1)
succMaybe _ = Nothing
``````

But by writing `Just` for the first case, you somehow warn yourself that it is possible that `Nothing` can occur. You can also get rid of the `Maybe` by introducing a "default" value:

``````justOrDefault :: a -> Maybe a -> a
justOrDefault _ (Just x) = x
justOrDefault d _ = d
``````

The builtin `maybe` function (note the lowercase), combines the two previous functions:

``````maybe :: b -> (a -> b) -> Maybe a -> b
maybe _ f (Just x) = f x
maybe z _ Nothing  = z
``````

So you specify a `b` (default value) together with a function (`a -> b`). In case `Maybe a` is `Just x`, the function is applied to it and returned, in case the input value is `Nothing`, the default value will be used.

Working with `Maybe a`'s can be hard, because you always need to take the `Nothing` case into account, to simplify this you can use the Maybe monad.

Tom Schrijvers also shows that `Maybe` is the successor function in type algebra: you add one extra value to your type (`Either` is addition and `(,)` is the type-algebraic equivalent of multiplication).