Scala parameterized methods and arithmetic operations

I am trying to get a simple piece of functionality to work where I have a List of Lists and I want to do some mathematical operations on the data (-, + , *, /). I want the method to take any of the following types (Int, Float, Double).

here is what I have tried:

def doSomething[T](data: List[T]){
data reduceLeft(_ / _)
}

the following is displayed: value / is not a member of type parameter T.

How do I get this to work for the AnyVal types (Double, Int, Float)?

Update I tried implementing the suggestion in the following code:

def dot[T](l: List[List[T]])(implicit num: Numeric[T]) =
{

for (row <- data)
yield for(col <- l)
yield row zip col map {a => num.times(a._1 , a._2)}   reduceLeft (_+_)

and get the error: type mismatch; found : a._1.type (with underlying type T) required: T

Is there any way to get around that?

-
Answered by: stackoverflow.com/questions/2235332/… –  Rex Kerr Jan 17 '11 at 2:41
what is data in your first for ? –  fehu Jan 18 '11 at 14:21
sorry data is a List[List[T]]. –  Dan_Chamberlain Jan 18 '11 at 22:53
i figured out one way to do this was to have it contained within a parameterized class. But, I am still wondering why the above doesn't work? Especially if I wanted to use this method as a Function Object. –  Dan_Chamberlain Jan 18 '11 at 23:25
It seems it doesn't work because times requires both arguments to be of the same type T, in this case there is no ensurance that data's underlying type T and dot's type T are the same type. If you want to avoid parameterized class, try passing to function data parameter as well –  fehu Jan 19 '11 at 0:38

For division:

def foo[T](l: List[T])(implicit num: Numeric[T]) = num match{
case i: Integral[_] => l reduceLeft (i.quot(_, _))
case fr: Fractional[_] => l reduceLeft (fr.div(_, _))}

For +, - and * it's easier (plus, minus, times respectively):

def foo[T](l: List[T])(implicit num: Numeric[T]) = l reduceLeft (num.plus(_, _))
-
It should be mentioned that what you see here is often called the "(Implicit) Type Class Pattern". See e.g. java.dzone.com/articles/scala-implicits-type-classes –  Landei Jan 17 '11 at 8:12
Awesome! Thanks for the help. –  Dan_Chamberlain Jan 18 '11 at 0:34
Now the trouble appears to be with using tuple values with Numeric. I have updated my example to show the issue. –  Dan_Chamberlain Jan 18 '11 at 1:23