`TYPE`

provides support for representation polymorphism.

The types you are used to have kind `Type`

(formerly known as `*`

). But there are other kinds[*] of types. `Type`

is just an alias for `TYPE LiftedRep`

. We could more formally write the "usual" type for `($)`

as

```
($) :: forall (a :: Type) (b :: Type) . (a -> b) -> a -> b
-- ($) :: forall (a :: TYPE LiftedRep) (b :: TYPE LiftedRep) . (a -> b) -> a -> b
```

The introduction of `r`

just means that we aren't restricting `b`

to "ordinary" types. `b`

doesn't have to have kind `TYPE LiftedRep`

; it can have kind `TYPE r`

for any `r`

that is a valid argument to `TYPE`

.

[*] "kind" in the English sense, not the formal concept called "kind" in Haskell's type system.

`($)`

).`TYPE`

allows for representation polymorphism.`Type`

(formerly known as`*`

) is just a type alias for`TYPE LiftedRep`

. As you might guess from that example, there are other things (of kind`RuntimeRep`

) that you can pass to`TYPE`

to get other "kinds" of types. (Kind in quotes just to emphasize that I'm not talking about kinds in the formal sense.)