In unextended Haskell, the declaration

```
data A = B
```

defines two new entities, one each at the computation and type level:

- At the type level, a new base type named
`A`

(of kind `*`

), and
- At the computation level, a new base computation named
`B`

(of type `A`

).

When you turn on `DataKinds`

, the declaration

```
data A = B
```

now defines four new entities, one at the computation level, two at the type level, and one at the kind level:

- At the kind level, a new base kind
`A`

,
- At the type level, a new base type
`'B`

(of kind `A`

),
- At the type level, a new base type
`A`

(of kind `*`

), and
- At the computation level, a new base computation
`B`

(of type `A`

).

This is a strict superset of what we had before: the old (1) is now (3), and the old (2) is now (4).

These new entities explain the following interactions you described:

```
:type Zero
Zero :: Nat
:kind 'Zero
'Zero :: Nat
:type 'Zero
Syntax error on 'Zero
```

I think it's clear how it explains the first two. The last one it explains because `'Zero`

is a type-level thing -- you can't ask for the type of a type, only the type of a computation!

Now, in Haskell, every place where a name occurs, it is clear from the surrounding syntax whether that name is intended to be a computation-level name, a type-level name, or a kind-level name. For this reason, it is somewhat annoying to have to include the tick mark in `'B`

at the type level -- after all, the compiler *knows* we're at the type level and therefore can't be referring to the unlifted computation-level `B`

. So for convenience, you are permitted to leave off the tick mark when that is unambiguous.

From now on, I will distinguish between the "back end" -- where there are only the four entities described above and which are always unambiguous -- and the "surface syntax", which is the stuff you type into a file and pass off to GHC that includes ambiguity but is more convenient. Using this terminology, in the surface syntax, one may write the following things, with the following meanings:

```
Surface syntax Level Back end
Name computation Name
Name type Name if that exists; 'Name otherwise
'Name type 'Name
Name kind Name
---- all other combinations ---- error
```

This explains the first interaction you had (and the only one left unexplained above):

```
:kind Zero
Zero :: Nat
```

Because `:kind`

must be applied to a type-level thing, the compiler knows the surface syntax name `Zero`

must be a type-level thing. Since there is no type-level back end name `Zero`

, it tries `'Zero`

instead, and gets a hit.

How can it be ambiguous? Well, notice above that we defined *two* new entities at the type level with one declaration. For simplicity of introduction, I named the new entities on the left- and right-hand side of the equation different things. But let's see what happens if we just tweak the declaration slightly:

```
data A = A
```

We still introduce four new back end entities:

- Kind
`A`

,
- Type
`'A`

(of kind `A`

),
- Type
`A`

(of kind `*`

), and
- Computation
`A`

(of type `A`

).

Whoops! There is now both an `'A`

and an `A`

at the type level. If you leave off the tick mark in the surface syntax, it will use (3), and not (2) -- and you can explicitly choose (2) with the surface syntax `'A`

.

What's more, this doesn't have to happen all from a single declaration. One declaration may produce the ticked version and another the non-ticked version; for example

```
data A = B
data C = A
```

will introduce a type-level back end name `A`

from the first declaration and a type-level back end name `'A`

from the second declaration.