In Haskell I have learnt that there are type variables (ex. id :: a -> a), applied to type signatures, and kinds (ex. Maybe :: * -> *), applied to type constructors and type classes. A type must have kind * (be a concrete type) in order to hold values.

We use type variables to enable polymorphism: Nothing :: Maybe a means that the constant Nothing can belong to a family of possible types. This leads me to believe that kinding and type variables serve the same purpose; wouldn't the last code sample work as simply Nothing :: Maybe, where type class Maybe remains with the kind * -> * to signify that the type belongs to generic family?

What it seems we are doing is taking an empty parameter (* -> *) and filling it in with a type variable (a) that represents the same level of variance.

We see this behavior in another example:

>>> :k Either
Either :: * -> * -> *
>>> :t Left ()
Left () :: Either () b
>>> :t Right ()
Right () :: Either a ()

Why is it theoretically necessary to make the distinction between kinds and type variables?

  • 4
    It's not
    – bheklilr
    Aug 24, 2016 at 18:41
  • 2
    @bheklilr I think OP has something different in mind, although I don't quite get it. Aug 24, 2016 at 18:44
  • If you enable PartialTypeSignatures, you can put _ instead of type variables. For example, Nothing :: Maybe _ or Left () :: Either _ _. What you propose would be a simple syntactic extension, but I'm not sure it wouldn't introduce more confusion (especially in the context of other extensions like PolyKinds)
    – Alec
    Aug 24, 2016 at 18:47

1 Answer 1


They are distinct just like typing and usual (value-level) variables are distinct. Variables have types, but they aren't types. So also, type variables have kinds. Type variables are the primary notion: without them you don't have parametric polymorphism, and they exist also in many other languages like Java, C#, etc. But Haskell goes further in allowing types-which-take-parameters ([], Maybe, ->, etc.) to exist on their own and to have type variables which represent such non-concrete types. And this means it needs a kind system to disallow things like Maybe Int Int.

From the example, it seems that you suggest that you can write a signature without type variables and restore it to the signature with them. But then how could you distinguish a -> b -> a and a -> b -> b?

  • It's fine to mash types and kinds together. In fact, the latest ghc has a language extension for that. Though, viewed as a logic type-in-type has to be handled very carefully to avoid inconsistencies. But that doesn't matter for Haskell.
    – augustss
    Aug 24, 2016 at 22:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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