You have a useless `para2`

parameter in your definition. The correct way is:

```
let myfunc2 para1 =
let x = ... in
let myfunc1 para2 = ... in
( x, myfunc1 );;
```

But it would help if we could speak about a concrete example. You are misunderstanding something obvious, but I do not know what.

Here is a concrete example. Suppose we want a function `f`

which accepts a number `n`

and returns a pair `(m, g)`

where `m`

is the square of `n`

and `g`

is a function which adds `n`

to its argument:

```
let f n =
let m = n * n in
let g k = n + k in
(m, g)
```

Or shorter:

```
let f n = (n * n, fun k => n + k)
```

Now to use this, we can do:

```
let x = f 10 ;;
fst x ;; (* gives 100 *)
snd x ;; (* gives <fun> *)
snd x 5 ;; (* gives 15, and is the same thing as (snd x) 5 *)
```

Now let us consider the following *bad* solution in which we make the kind of mistake you have made:

```
let f_bad n k =
let m = n * n in
let g k = n + k in
(m, g k)
```

Now `f_bad`

wants two arguments. If we give it just one, we will not get a pair but a function expecting the other argument. And when we give it that argument, it will return a pair of two integers because `(m, g k)`

means "make a pair whose first component is the integer `m`

and the second component is `g`

**applied to **`k`

, so that is an integer, too."

Another point worth making is that you are confusing yourself by calling two different things `para2`

. In our definition of `f_bad`

we also confuse ourselves by calling two different things `k`

. The `k`

appearing in the definition of `g`

is not the same as the other `k`

. It is better to call the two `k`

's different things:

```
let f_bad n k1 =
let m = n * n in
let g k2 = n + k2 in
(m, g k1)
```

Now, does that help clear up the confusion?