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I am trying to find an explanation of the DataKinds extension that will make sense to me having come from only having read Learn You a Haskell. Is there a standard source that will make sense to me with what little I've learned?

Edit: For example the documentation says

With -XDataKinds, GHC automatically promotes every suitable datatype to be a kind, and its (value) constructors to be type constructors. The following types

and gives the example

data Nat = Ze | Su Nat

give rise to the following kinds and type constructors:

Nat :: BOX
Ze :: Nat
Su :: Nat -> Nat

I am not getting the point. Although I don't understand what BOX means, the statements Ze :: Nat and Su :: Nat -> Nat seem to state what is already normally the case that Ze and Su are normal data constructors exactly as you would expect to see with ghci

Prelude> :t Su
Su :: Nat -> Nat
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Have you read the docs? What is still unclear to you? (not that you should be expected to understand DataKinds just from the manual, but it's impossible to know from your question what you've tried to do to learn & how to help you) –  jberryman Dec 13 '13 at 3:43

2 Answers 2

up vote 13 down vote accepted

Well let's start with the basics


Kinds are the types of types*, for example

Int :: *
Bool :: *
Maybe :: * -> *

Notice that -> is overloaded to mean "function" at the kind level too. So * is the kind of a normal Haskell type.

We can ask GHCi to print the kind of something with :k.

Data Kinds

Now this not very useful, since we have no way to make our own kinds! With DataKinds, when we write

 data Nat = S Nat | Z

GHC will promote this to create the corresponding kind Nat and

 S :: Nat -> Nat
 Z :: Nat

So DataKinds makes the kind system extensible.


Let's do the prototypical kinds example using GADTs

 data Vec :: Nat -> * where
    Nil  :: Vec Z
    Cons :: Int -> Vec n -> Vec (S n)

Now we see that our Vec type is indexed by length.

That's the basic, 10k foot overview.

** This actually continues, Values : Types : Kinds : Sorts ... Some languages (Coq, Agda ..) support this infinite stack of universes, but Haskell lumps everything into one sort.

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Does this mean that the expression S :: Nat -> Nat is overloaded in that it can refer to S as a data constructor taking an argument of type Nat or S as a type constructor taking an argument of kind Nat? Should your example of data Vec :: Nat -> * be instead data Vec a :: Nat -> * to reflect that Vec takes a type argument? –  user782220 Dec 21 '13 at 6:36
@user782220 1. Yes 2. No, I deliberately made Vec monomorphic, you could if you wanted to –  jozefg Dec 21 '13 at 15:16
What do you mean by Vec monomorphic? How does it make sense to speak of data Vec :: Nat -> * without any reference to the argument? –  user782220 Dec 22 '13 at 3:28
@user782220 Vec only works over Ints. Read the constructors.. It's exactly the same as [Int] + lengths in the types –  jozefg Dec 22 '13 at 3:37
Not understanding why it makes sense to omit the a I would be equally confused if for example I saw data Maybe = Nothing | Just a instead of data Maybe a = Nothing | Just a. –  user782220 Dec 22 '13 at 3:45

Here is my take:

Consider a length indexed Vector of type:

data Vec n a where
  Vnil  :: Vec Zero a
  Vcons :: a -> Vec n a -> Vec (Succ n) a

data Zero
data Succ a

Here we have a Kind Vec :: * -> * -> *. Since you can represent a zero length Vector of Int by:

Vect Zero Int

You can also declare meaningless types say:

Vect Bool Int

This means we can have untyped functional programming at the type level. Hence we get rid of such ambiguity by introducing data kinds and can have such a kind:

Vec :: Nat -> * -> *

So now our Vec gets a DataKind named Nat which we can declare as:

datakind Nat = Zero | Succ Nat

By introducing a new data kind, no one can declare a meaningless type since Vec now has a more constrained kind signature.

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