`last :: [a] -> a`

is the Haskell98 syntax for the System F type

```
last :: ∀ a. [a] -> a
```

The `∀ a`

can be understood as a kind of type-level lambda binding, i.e. before the actual value level list parameter the function accepts a type-level argument telling what the type of elements contained in the list. This *universal quantification* makes the function *parametrically polymorphic*.

Normally, the type variables are automatically inserted by the type checker. In newer GHC Haskell, you can also explicitly apply them:

```
Prelude> :set -XTypeApplications
Prelude> :t last @Int
last @Int :: [Int] -> Int
Prelude> last @Double [5,6,7]
7.0
```

`negate`

is also parametrically polymorphic, but unlike `last`

it does not work truely “for all” types, but only for those that have a `Num`

instance (which both `Int`

and `Double`

do, but not e.g. `Char`

). In other words, it accepts not only an extra argument *specifying* the type, but also a *proof* that it does indeed have a `Num`

instance. That too will be inserted automatically by the compiler.

```
negate :: ∀ a. Num a => a -> a
```

```
Prelude> :t negate @Int
negate @Int :: Int -> Int
Prelude> :t negate @Char
<interactive>:1:1: error:
No instance for (Num Char) arising from a use of ‘negate’
```

`Num a`

is a "constraint",`Num`

is a "type class" / "typeclass",`a -> a`

is a "parametrically-polymorphic type",`a`

is a "type variable" ( the "parameter" in the "parametrically-polymorphic" ).`[b] -> b`

is a parametrically-polymorphic type,`[b]`

is a parametrically-polymorphic type,`b`

is a type variable.