The fact that ADT are closed makes it a lot easier to write total functions. That are functions that always produce a result, for all possible values of its type, eg.

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

If `Maybe`

were open, someone could add a extra constructor and the `maybeToList`

function would suddenly break.

In OO this isn't an issue, when you're using inheritance to extend a type, because when you call a function for which there is no specific overload, it can just use the implementation for a superclass. I.e., you can call `printPerson(Person p)`

just fine with a `Student`

object if `Student`

is a subclass of `Person`

.

In Haskell, you would usually use encapsulation and type classes when you need to extent your types. For example:

```
class Eq a where
(==) :: a -> a -> Bool
instance Eq Bool where
False == False = True
False == True = False
True == False = False
True == True = True
instance Eq a => Eq [a] where
[] == [] = True
(x:xs) == (y:ys) = x == y && xs == ys
_ == _ = False
```

Now, the `==`

function is completely open, you can add your own types by making it an instance of the `Eq`

class.

Note that there has been work on the idea of extensible datatypes, but that is definitely not part of Haskell yet.