Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Could anyone explain or guess the motivation behind the limit on data type promotion discussed in section 7.9.2 of the GHC user guide?

The following restrictions apply to promotion:

  • We only promote datatypes whose kinds are of the form * -> ... -> * -> *. In particular, we do not promote higher-kinded datatypes such as data Fix f = In (f (Fix f)), or datatypes whose kinds involve promoted types such as Vec :: * -> Nat -> *.

In particular, I am interested in the last bit about promoted types such as Vec :: * -> Nat -> *. Promoting some types like that seems natural. I ran into it pretty quickly while trying to convert one of my libraries to use specific promoted kinds for the various phantom types instead of using kind * for everything, to provide better documentation and such.

Oftentimes the reasons for compiler limitations like these jump out at you with a little thinking, but I'm not seeing this one. So I'm wondering if it comes in the category of "not needed yet, so we didn't build it" or "that's impossible/undecidable/destroys inference."

share|improve this question

2 Answers 2

up vote 19 down vote accepted

An interesting thing happens if you promote types indexed by promoted types. Imagine we build

data Nat = Ze | Su Nat

and then

data Vec :: Nat -> * -> * where
  VNil   :: Vec Ze x
  VCons  :: x -> Vec n x -> Vec (Su n) x

Behind the scenes, the internal types of the constructors represent the instantiated return indices by constraints, as if we had written

data Vec (n :: Nat) (a :: *)
  =            n ~ Ze    => VNil
  | forall k.  n ~ Su k  => VCons a (Vec k a)

Now if we were allowed something like

data Elem :: forall n a. a -> Vec n a -> * where
  Top :: Elem x (VCons x xs)
  Pop :: Elem x xs -> Elem x (VCons y xs)

the translation to internal form would have to be something like

data Elem (x :: a) (zs :: Vec n a)
  = forall (k :: Nat), (xs :: Vec k a).            (n ~ Su k, zs ~ VCons x xs) =>
  | forall (k :: Nat), (xs :: Vec k s), (y :: a).  (n ~ Su k, zs ~ VCons y xs) =>
      Pop (Elem x xs)

but look at the second constraint in each case! We have

zs :: Vec n a


VCons x xs, VCons y xs :: Vec (Su k) a

But in System FC as then defined, equality constraints must have types of the same kind on both sides, so this example is not inconsiderably problematic.

One fix is use the evidence for the first constraint to fix up the second, but then we'd need dependent constraints

(q1 :: n ~ Su k, zs |> q1 ~ VCons x xs)

Another fix is just to allow heterogeneous equations, as I did in dependent type theory fifteen years ago. There will inevitably be equations between things whose kinds are equal in ways which are not syntactically obvious.

It's the latter plan that is currently favoured. As far as I understand, the policy you mention was adopted as a holding position, until the design for a core language with heterogeneous equality (as proposed by Weirich and colleagues) has matured to implementation. We live in interesting times.

share|improve this answer
Great explanation, thank you very much. –  Doug McClean Jan 18 '14 at 18:42
+1 for a much better answer than mine, Does heterogeneous equality effect only GADTs? –  jozefg Jan 18 '14 at 18:48
Cheers! GADTs are the main place where equality constraints are introduced, but they sometimes also show up in instance declarations. There's that trick where you do stuff like instance (x ~ p, C t) => C (x -> t) to force more aggressive commitment than instance C t => C (p -> t). I bet heterogeneous equality will show up in that sort of thing, too. –  pigworker Jan 18 '14 at 19:01

This probably stems from the fact that GHC doesn't have any particularly rich notion of "sorts", sorts are the type of kinds, so

  values : type : kind : sort : ...

Notice that while we have a pretty intricate system of kinds with data kinds, all the kinds still promote to very simple sorts. Promoting kinds like Nat would require there to be more than one sort type/constructor, and promoting Fix would require higher sorted kinds, which is also not covered in the primitive sort system.

This isn't a technical barrier, languages like Coq or Agda (dependently typed languages) have a whole infinite stack of these, but GHC has only recently grown a kind system. It's just not implemented any sophisticated sort system yet, perhaps in the future we'll get one.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.