This is a definition of the generalized algebraic data type (GADT). This language feature was introduced in the 4.0 release of OCaml and the syntax of the regular algebraic data types (ADT) was extended with this column variant to enable constructor-specific constraints.

The regular ADT syntax `<Constr> [of <args>]`

is used to introduce a constructor `<Constr>`

that has the specified arguments, e.g.,

```
type student = Student of string * int
```

The generalized syntax, `<Constr> : [<args>] -> <constr>`

uses `:`

instead of `of`

but adds an extra place for specifying the type constraint, e.g.,

```
type student = Student : string * int -> student
```

The constraint has to be an instance of the defined type. And it is useful when either the defined type or the constructor arguments (or both) are polymorphic, i.e., reference type variables. A better example is a type-safe abstract syntax tree of an expression language, e.g.,

```
type _ exp =
| Int : int -> int exp
| Str : string -> string exp
| Cat : string exp * string exp -> string exp
| Add : int exp * int exp -> int exp
```

Using this representation we can write a statically typed interpreter where we will not have to deal with cases `Add (Str "foo", Int 42)`

as it is impossible to construct such values because of the constraints on the `Cat`

constructor, which requires that both arguments have the `string`

type.

Another use case of GADT is to enable existential types that could be used to implement dynamic typing and ad-hoc polymorphism ala Haskell type classes. In an existential constructor, some type variables that occur in the constructor argument types are not present in the constraint type, e.g.,

```
type show = Show : {data : 'a; show : 'a -> string} -> show
let show (Show {show; data}) = show data
```

So that now we can have a heterogeneous containers,

```
let entries = [
Show {data=42; show=string_of_int};
Show {data="foo"; show=fun x -> x};
]
```

Which we can show,

```
# List.map show entries;;
- : string list = ["42"; "foo"]
```

`t`

is a GADT. The documentation is here: ocaml.org/releases/4.13/htmlman/gadts.html. In essence`t`

represents a Peano model of the integers (it seems to me). So maybe`z`

isn't such a useless type after all.`Z`

in the type`z`

shadowed by the type`s`

similarly named tag?