First off, `*`

is not a wildcard! It's also typically pronounced "star."

*Bleeding edge note*: There is as of Feb. 2015 a proposal to simplify GHC's subkind system (in 7.12 or later). That page contains a good discussion of the GHC 7.8/7.10 story. Looking forward, GHC may drop the distinction between types and kinds, with `* :: *`

. See Weirich, Hsu, and Eisenberg, System FC with Explicit Kind Equality.

## The Standard: A description of type expressions.

The Haskell 98 report defines `*`

in this context as:

The symbol `*`

represents the kind of all nullary type constructors.

In this context, "nullary" simply means that the constructor takes no parameters. `Either`

is binary; it can be applied to two parameters: `Either a b`

. `Maybe`

is unary; it can be applied to one parameter: `Maybe a`

. `Int`

is nullary; it can be applied to *no* parameters.

This definition is a little bit incomplete on its own. An expression containing a fully-applied unary, binary, etc. type constructor also has kind `*`

, e.g. `Maybe Int :: *`

.

## In GHC: Something that contains values?

If we poke around the GHC documentation, we get something closer to the "can contain a runtime value" definition. The GHC Commentary page "Kinds" states that "'`*`

' is the kind of boxed values. Things like `Int`

and `Maybe Float`

have kind `*`

." The GHC user's guide for version 7.4.1, on the other hand, stated that `*`

is the kind of "lifted types". (That passage wasn't retained when the section was revised for
`PolyKinds`

.)

Boxed values and lifted types are a bit different. According to the GHC Commentary page "TypeType",

A type is unboxed iff its representation is other than a pointer. Unboxed types are also unlifted.

A type is lifted iff it has bottom as an element. Closures always have lifted types: i.e. any let-bound identifier in Core must have a lifted type. Operationally, a lifted object is one that can be entered. Only lifted types may be unified with a type variable.

So `ByteArray#`

, the type of raw blocks of memory, is *boxed* because it is represented as a pointer, but *unlifted* because bottom is not an element.

```
> undefined :: ByteArray#
Error: Kind incompatibility when matching types:
a0 :: *
ByteArray# :: #
```

Therefore it appears that the old User's Guide definition is more accurate than the GHC Commentary one: `*`

is the kind of *lifted* types. (And, conversely, `#`

is the kind of *unlifted* types.)

Note that if types of kind `*`

are always lifted, for any type `t :: *`

you can construct a "value" of sorts with `undefined :: t`

or some other mechanism to create bottom. Therefore even "logically uninhabited" types like `Void`

can have a value, i.e. bottom.

So it seems that, yes, `*`

represents the kind of types that can contain runtime values, if `undefined`

is your idea of a runtime value. (Which isn't a totally crazy idea, I don't think.)

## GHC Extensions?

There are several extensions which liven up the kind system a bit. Some of these are mundane: `KindSignatures`

lets us write *kind annotations*, like type annotations.

`ConstraintKinds`

adds the kind `Constraint`

, which is, roughly, the kind of the left-hand side of `=>`

.

`DataKinds`

lets us introduce new kinds besides `*`

and `#`

, just as we can introduce new types with `data`

, `newtype`

, and `type`

.

With `DataKinds`

every `data`

declaration (terms and conditions may apply) generates a promoted kind declaration. So

```
data Bool = True | False
```

introduces the usual value constructor and type name; additionally, it produces a new *kind*, `Bool`

, and two types: `True :: Bool`

and `False :: Bool`

.

`PolyKinds`

introduces *kind variables*. This just a way to say "for any kind `k`

" just like we say "for any type `t`

" at the type level. As regards our friend `*`

and whether it still means "types with values", I suppose you could say a type `t :: k`

where `k`

is a kind variable *could* contain values, if `k ~ *`

or `k ~ #`

.

`?`

still exists, but is not displayed in GHCI. In other words,`> :k (->)`

is sort of lying when it says it's`* -> * -> *`

.