Here is an example:

```
int two(int n) = 2 * n;
int(int) g() = two;
```

Function `two`

multiplies by 2 and `g`

returns the function `two`

.
Observe that the return type of `g`

is `int(int)`

, a type describing a function which returns an `int`

and has one `int`

argument.

A similar effect can be achieved by an inline definition:

```
int(int) g() = int(int n) { return 2 * n; };
```

You can also use this same notation inside other functions. For instance, you could create a function which multiplies two numbers:

```
int mult(int n, int m) = n * m;
```

If you use it, you would get what you would expect:

```
rascal>mult(3,4);
int: 12
```

You can instead return a function that essentially partially applies this function as follows:

```
int(int) multBy(int n) {
return int(int m) {
return mult(n,m);
};
}
int (int) (int)
```

So, this returns a function that takes an `int`

and returns an `int (int)`

, i.e., a function that takes an `int`

and returns an `int`

. You can then use it as so:

```
rascal>multBy3 = multBy(3);
int (int)
rascal>multBy3(4);
int: 12
```

You can find more examples in some of our (many) files with tests:

`lang::rascal::tests::basic::Functions`

`lang::rascal::tests::functionality::FunctionComposition`

Thanks for your question, we have more documentation to do!