How about the following?

By using open polymorphic variants we can write a function that can only be applied on 1,3 and 4. It would obviously be quite unwieldy to write constraints for very large numbers.

First, let's define our `nat`

type and the numbers one to five:

```
# type _ nat =
Zero : [> `Zero] nat
| Succ : 'a nat -> [> `Succ of 'a] nat;;
type _ nat = Zero : [> `Zero ] nat | Succ : 'a nat -> [> `Succ of 'a ] nat
# let one = Succ Zero;;
val one : [> `Succ of [> `Zero ] ] nat = Succ Zero
# let two = Succ one;;
val two : [> `Succ of [> `Succ of [> `Zero ] ] ] nat = Succ (Succ Zero)
# let three = Succ two;;
val three : [> `Succ of [> `Succ of [> `Succ of [> `Zero ] ] ] ] nat =
Succ (Succ (Succ Zero))
# let four = Succ three;;
val four :
[> `Succ of [> `Succ of [> `Succ of [> `Succ of [> `Zero ] ] ] ] ] nat =
Succ (Succ (Succ (Succ Zero)))
# let five = Succ four;;
val five :
[> `Succ of
[> `Succ of [> `Succ of [> `Succ of [> `Succ of [> `Zero ] ] ] ] ] ]
nat = Succ (Succ (Succ (Succ (Succ Zero))))
```

Now let's define some types for representing our restrictions:

```
# type 'a no = [`Succ of 'a];;
type 'a no = [ `Succ of 'a ]
# type 'a yes = [ `Succ of 'a | `Zero ];;
type 'a yes = [ `Succ of 'a | `Zero ]
# type last = [ `Zero ];;
type last = [ `Zero ]
```

Using these types we can express a number that is 1,3 or 4 as `(last yes no yes no) nat`

. Here `no`

means don't allow this number, whilst `yes`

and `last`

mean do allow this number. Note that we are counting from the right-hand side.

Now we can define our function. Note that we only need to include cases for the numbers in our function's domain:

```
# let f (x : (last yes no yes no) nat) =
match x with
Succ Zero -> "1"
| Succ (Succ (Succ Zero)) -> "3"
| Succ (Succ (Succ (Succ Zero))) -> "4";;
val f : last yes no yes no nat -> string = <fun>
```

Finally, we can try out our function on the numbers one to five, getting some nice large error messages for incorrect usage:

```
# f Zero;;
Characters 2-6:
f Zero;;
^^^^
Error: This expression has type ([> `Zero ] as 'a) nat
but an expression was expected of type last yes no yes no nat
Type 'a is not compatible with type
last yes no yes no = [ `Succ of last yes no yes ]
The second variant type does not allow tag(s) `Zero
# f one;;
- : string = "1"
# f two;;
Characters 2-5:
f two;;
^^^
Error: This expression has type
([> `Succ of [> `Succ of [> `Zero ] as 'c ] as 'b ] as 'a) nat
but an expression was expected of type last yes no yes no nat
Type 'a is not compatible with type
last yes no yes no = [ `Succ of last yes no yes ]
Type 'b is not compatible with type
last yes no yes = [ `Succ of last yes no | `Zero ]
Type 'c is not compatible with type
last yes no = [ `Succ of last yes ]
The second variant type does not allow tag(s) `Zero
# f three;;
- : string = "3"
# f four;;
- : string = "4"
# f five;;
Characters 2-6:
f five;;
^^^^
Error: This expression has type
([> `Succ of
[> `Succ of
[> `Succ of
[> `Succ of [> `Succ of [> `Zero ] ] as 'e ] as 'd ]
as 'c ]
as 'b ]
as 'a)
nat
but an expression was expected of type last yes no yes no nat
Type 'a is not compatible with type
last yes no yes no = [ `Succ of last yes no yes ]
Type 'b is not compatible with type
last yes no yes = [ `Succ of last yes no | `Zero ]
Type 'c is not compatible with type
last yes no = [ `Succ of last yes ]
Type 'd is not compatible with type
last yes = [ `Succ of last | `Zero ]
Type 'e is not compatible with type last = [ `Zero ]
The second variant type does not allow tag(s) `Succ
```