# How does cons work in Haskell :

Cons doesn't seem to work as I would expect in the second example. What am I missing?

Here cons adds an element to a list, which is great.

``````1:[2,3]
``````

But with this one it seems to put the first element into list x and the tail into list xs:

``````let { myInt :: [Int] -> [Int] ; myInt (x:xs) = xs }
``````

I don't really see why this would happen, is it something to do with recursion?

• It's nice to remember that haskell98 allows infix type constructors, which must start with "`:`", so the list cons constructor (which takes two arguments) is a slightly special case of this general rule. – jberryman Aug 19 '13 at 23:10

The `:` operator can be used to both construct a list and deconstruct a list, depending on where you use it. If you use it in an expression, it is used for constructing a list, just like you said. When you use it in a pattern, it does the reverse – it deconstructs (takes apart) a list.

Constructing a list:

``````λ> 1:2:[3, 4]
[1,2,3,4]
``````

Deconstructing a list:

``````λ> let first:second:rest = [1, 2, 3, 4]
λ> first
1
λ> second
2
λ> rest
[3, 4]
``````

The same applies for many data constructors in Haskell. You can use `Just` to construct a `Maybe` value.

``````λ> let name = Just "John"
λ> :type name
name :: Maybe [Char]
``````

However, you could also use it to take apart a `Maybe` value.

``````λ> let Just x = name
λ> x
"John"
``````
• Note that there's nothing "special" about `:` here; all value constructors have this property. – MathematicalOrchid Aug 21 '13 at 18:39

There are two different things happening here. Your first example uses the `(:)` operator to create a new list from the element `1` and the list `[2,3]`.

``````1:[2,3]
``````

Your second example uses pattern matching. The expression...

``````myInt (x:xs) = ...
``````

...essentially says "if the argument of `myInt` consists of an element prepended to a (possibly empty) list, then let's call the first element `x` and the list `xs`." This example may make it clearer:

``````λ> let { myInt :: [Int] -> String ; myInt (x:xs) = "The first element is " ++ show x ++ " and the rest of the list is " ++ show xs}
λ> myInt [1,2,3]
"The first element is 1 and the rest of the list is [2,3]"
``````

Note that this will only work if the input list contains at least one element.

``````λ> myInt []
"*** Exception: <interactive>:9:34-127: Non-exhaustive patterns in function myInt
``````

However, we can handle the case where the input list is empty like this:

``````λ> let { myInt :: [Int] -> String ; myInt (x:xs) = "The first element is " ++ show x ++ " and the rest of the list is " ++ show xs; myInt _ = "empty list"}
λ> myInt []
"empty list"
``````