# scala way to define functions accepting a List of different numeric types

I have the following problem: I have a function which takes a List[Double] as parameter, performs some arithmetic operations on the elements of the list and than return the result. I would like the function also to accept List[Int]. Here is an example:

``````def f(l: List[Double]) = {
var s = 0.0
for (i <- l)
s += i
s
}

val l1 = List(1.0, 2.0, 3.0)
val l2 = List(1, 2, 3)

println(f(l1))
println(f(l2))
``````

Of course the second println fails since f requires List[Double] and not List[Int].

Also note the non scala style formulation of the sum within the f function in order to evidence the need to use 0 (or other constants) within the function itself (if i sum Int values I have to init s to 0 not 0.0.

Which is the best way (less code) to get the function work on both Double and Int?

(I have seen something about 2.8 Numeric trait by I'm not so sure how to use it...)

Thanks everybody for the help.

With scala 2.8 and using Numeric combine to implicit conversion your example could be written as :

``````import Numeric._
def f[T](l: List[T])(implicit n: Numeric[T]):T = {
var s = n.zero
for (i <- l)
s = n.plus(s, i)
s
}

val l1 = List(1.0, 2.0, 3.0)
val l2 = List(1, 2, 3)

println(f(l1))
println(f(l2))

//or
def f2[T](l: List[T])(implicit n: Numeric[T]):T = {
import n._
var s = zero
for (i <- l)
s += i
s
}
println(f2(l1))
println(f2(l2))
``````

Now another example doing the sum in a more scala way:

``````def sum[T](l:List[T])(implicit n: Numeric[T]):T = {
import n._
l.foldLeft(zero)(_ + _)
}

println(sum(l1))
println(sum(l2))

//or since 2.8 Seq include already a sum function
def sum[T](l:List[T])(implicit n: Numeric[T]):T = l.sum

println(sum(l1))
println(sum(l2))
``````
• `def sum[T : Numeric](l:List[T]) = l.sum` will do. – Thomas Jung Feb 10 '10 at 9:55
• @Thomas, Yes of course ;) – Patrick Feb 10 '10 at 10:02

This answer uses the Numeric trait.

``````import Numeric._
def f[A](l: List[A])(implicit numeric: Numeric[A]) =
l reduceLeft ((l,r) => numeric.plus(l, r))
``````

Or using context bounds:

``````def f[A : Numeric](l: List[A]) =
l.reduceLeft((l,r) => implicitly[Numeric[A]].plus(l, r))
``````