The type system will ensure that the types of the values a function is given match the type signature of the function.

That is, if you have a function that takes an integer as input, such as

```
fun double n = 2 * n
(* this function has type: int -> int *)
```

Then `n`

will always be an integer. It will not be possible to call the function with anything but an integer; it will give a type error.

If you have a polymorphic function, such as

```
fun pair n = (n, n)
(* this function has type: 'a -> 'a * 'a *)
```

Then you cannot know what type the input is at runtime. All types of input will be treated the same.

You can, however, always restrict a polymorphic function to only work on a given type, by making the type explicit when defining the function:

```
fun pairInt (n : int) = (n, n)
(* this function has type: int -> int * int *)
```

You can see the difference between `pair`

and `pairInt`

by comparing what you get from calling `pair 5`

to `pairInt 5`

, and `pair "foo"`

to `pairInt "foo"`

.

If you have an `int option`

, as is the case if you try to convert an `string`

to a `int`

using `Int.fromString`

, you can extract the `int`

in several ways. For how to do this, I refer you to the question "In smlnj how do you convert “string option” to “string”?".