I'm currently working through the video lectures from Martin Odersky's Coursera class, Functional Programming Principles in Scala. In lecture 2.1, he demonstrates composition of higher order functions using a base function, `sum()`

. He implemented factorial without tail recursion, but I tried it with tail recursion because it's still just a line of code. As a consequence, I got a type mismatch where I assume Odersky didn't. In defining `sum()`

, parameter `f`

takes an `Int`

and returns an `Int`

. I know I can just get around this by adjusting my function*, but this has me wondering about how to design higher-order functions in general. **Is there a way I can adjust or circumvent this type definition in order to allow functions that take a flexible number of arguments?** Someone showed me a little Haskell once, and I'm wondering if Scala's function parameters can be typed in a similarly loose fashion... or perhaps there's a different solution more native to Scala. Please assume I just started playing with Scala yesterday and have limited computer science knowledge in your explanation, because that is exactly the case.

```
def sum(f: Int => Int, a: Int, b: Int): Int =
if (a > b) 0 else f(a) + sum(f, a+1, b)
//Factorial with tail recursion. The one in the lesson DOES NOT use tail recursion.
//prev is an accumulator.
def fact(a: Int, prev:Int = 1): Int =
if (a == 0) prev else fact(a-1, a * prev)
def sumFactorials(a: Int, b: Int): Int = sum(fact, a, b)
```

*I know that I could just fix this by nesting my current `fact()`

within another function, like so:

```
def factorial(a: Int): Int ={
def fact(n: Int, prev:Int = 1): Int =
if (n == 0) prev else fact(n-1, n * prev)
fact(a)
}
```

My impression from my aforementioned Haskell experience was that functional programming promotes functions taking only one argument to allow for currying. Anyway, it's a bit tangential to the actual question, but feel free to address this in the comments if I'm just butchering FP horribly with the spirit of my question.