-> operator is right associative. So we can rewrite curry function like this.

```
func curry<A, B, C>(f: @escaping (A, B) -> C) -> ((A) -> ((B) -> C)) {
return { x in { y in f(x, y) } }
}
```

Every `(`

matches with `{`

inside return part.

EDIT: Further explanation

`curry`

function takes a non-curried two argument function and makes it curried. For example we have:

```
func sum(a: Int, b: Int) -> Int {
return a + b
}
```

Now we can use this function like this:

```
let result = sum(3, 6)
```

But if we make it curried

```
let curriedSum = curry(sum)
```

Now we can use it like this:

```
let result = curriedSum(3)(6)
```

At first this seems unnecessary and complex. But think about what next expression does.

```
let sumWith3 = curriedSum(3)
```

This produces a new function that takes an `Int`

sums it with 3. Now here we created a new function from another function. Now we can use it like any other function.

Currying is common paradigm in functional programming. In fact in Haskell (another functional programming language) every function is curried by default.