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# Kind polymorphism and datatype promotion

This page gives additional implementation details for the `-XPolyKinds` flag. The grand design is described in the paper Giving Haskell a Promotion. Most of the work has been done and merged into GHC 7.4.1. The relevant user documentation is in [the user's guide (add link when it's up)] and on the Haskell wiki page. What still doesn't work, or doesn't work correctly, is described here.

Sub-pages

- GhcKinds/KindPolymorphism
- GhcKinds/PolyTypeable A kind-polymorphic version of the
`Typeable`class. - GhcKinds/KindsWithoutData
- ExplicitTypeApplication proposes a syntax for explicit kind application

# Future work

## Promoting data families

Consider this:

data family T a data instance T Int = MkT data Proxy (a :: k) data S = MkS (Proxy 'MkT)

Is it ok to use the promoted data family instance constructor `MkT` in
the data declaration for `S`? No, we don't allow this. It *might* make
sense, but at least it would mean that we'd have to interleave
typechecking instances and data types, whereas at present we do data
types *then* instances.

A couple of people have asked about this

- http://hackage.haskell.org/trac/ghc/wiki/Commentary/Compiler/GenericDeriving#Digression
- http://www.reddit.com/r/haskell/comments/u7oxb/is_it_possible_to_datakindlift_a_data_family/

## #5682 (proper handling of infix promoted constructors)

Bug report #5682 shows a problem in parsing promoted infix datatypes.

**Future work:** handle kind operators properly in the parser.

## Kind synonyms (from type synonym promotion)

At the moment we are not promoting type synonyms, i.e. the following is invalid:

data Nat = Ze | Su Nat type Nat2 = Nat type family Add (m :: Nat2) (n :: Nat2) :: Nat2

**Future work:** promote type synonyms to kind synonyms.

## Generalized Algebraic Data Kinds (GADKs)

**Future work:** this section deals with a proposal to collapse kinds and sorts into a single system
so as to allow Generalised Algebraic DataKinds (GADKs). The sort `BOX` should
become a kind, whose *kind* is again `BOX`. Kinds would no longer be classified by sorts;
they would be classified by kinds.

(As an aside, sets containing themselves result in an inconsistent system; see, for instance, this example. This is not of practical concern for Haskell.)

Collapsing kinds and sorts would allow some form of indexing on kinds. Consider the following two types, currently not promotable in FC-pro:

data Proxy a = Proxy data Ind (n :: Nat) :: * where ...

In `Proxy`, `a` has kind `forall k. k`. This type is not promotable because
`a` does not have kind `*`. This is unfortunate, since a new feature (kind
polymorphism) is getting on the way of another new feature (promoting
datatypes). As for `Ind`, it takes an argument of kind (promoted) `Nat`,
which renders it non-promotable. Why is this? Well, promoted `Proxy` and `Ind`
would have sorts:

Proxy :: forall s. s -> BOX Ind :: 'Nat -> BOX

But `s` is a sort variable, and `'Nat` is the sort arising from promoting
the kind `Nat` (which itself arose from promoting a datatype). FC-pro has
neither sort variables nor promoted sorts. However, if there are no sorts, and
`BOX` is the **kind** of all kinds, the "sorts" ("kinds", now) of promoted `Proxy`
and `Ind` become:

Proxy :: forall k. k -> BOX Ind :: Nat -> BOX

Now instead of sort variables we have kind variables, and we do not need to promote
`Nat` again.

Kind indexing alone should not require kind equality constraints; we always require type/kind signatures for kind polymorphic stuff, so then wobbly types can be used to type check generalised algebraic kinds, avoiding the need for coercions. While this would still require some implementation effort, it should be "doable".