# Comparisons with Scala's Numeric types?

How can one create a class which does math and comparisons on any numeric type in Scala?

One obvious approach:

``````import math.Numeric.Implicits._

class Ops[T : Numeric] {
def add(a: T, b: T) = a + b
def gt(a: T, b: T) = a > b
}
``````

Earns me this...

``````Ops.scala:7: value > is not a member of type parameter T
``````

Hmmm... we can do math with numeric types, but we can't compare them?

So let's also say that `T` is `Ordered[T]`...

``````class Ops[T <: Ordered[T] : Numeric] {
def add(a: T, b: T) = a + b
def gt(a: T, b: T) = a > b
}
``````

That compiles. But try to use it?

``````new Ops[Int].gt(1, 2)
``````

And I get...

``````Ops.scala:13: type arguments [Int] do not conform to class Ops's type parameter bounds [T <: Ordered[T]]
``````

So how can I operate on some type which is both ordered and numeric?

-

``````scala> import Ordering.Implicits._
import Ordering.Implicits._

scala> import Numeric.Implicits._
import Numeric.Implicits._

scala> class Ops[T : Numeric] {
|   def add(a: T, b: T) = a + b
|   def gt(a: T, b: T) = a > b
| }
defined class Ops

scala> new Ops[Int].gt(12, 34)
res302: Boolean = false
``````
-
Nice, wasn't aware of that kind of global import in contrast to the local import `numeric.mkXXXOps`. Will use that. –  Peter Schmitz Nov 17 '11 at 16:36
`Numeric` extends `Ordering`, so asking for an `Ordering` context bounds is redundant! `T : Numeric` suffices. –  0__ Nov 17 '11 at 17:33
@Sciss: You are right. Edited, thanks. –  missingfaktor Nov 17 '11 at 17:44
@Sciss Good point! Was it me who said that one should have a close look at the API?! Haven't looked close enough to see `Numeric <: Ordering`... –  Peter Schmitz Nov 17 '11 at 17:45
I was guessing that numeric had to be ordered in some way (which is why I was so puzzled in my remark below). I also wasn't aware of the ordering implicits. (Just getting started.) –  Tim Nov 18 '11 at 12:44

You have to import `mkNumericOps` and/or `mkOrderingOps`:

``````val num = implicitly[Numeric[T]]
``````

or

``````class Ops[T](implicit num: Numeric[T])
``````

then:

``````import num.{mkNumericOps,mkOrderingOps}
``````

Now you can compare and calc with them. Perhaps that hels you for the first part of your question.

By the way: Ordered and Numeric works like that:

``````class Ops[T: Ordered: Numeric]
``````
-
Yes, that works! Thank you! Where was this documented? –  Tim Nov 17 '11 at 15:19
That would be `T : Ordering : Numeric` (or `T <: Ordered : Numeric` or `T <% Ordered : Numeric`) –  Didier Dupont Nov 17 '11 at 15:34
@Tim I had your problem myself and thought there has to be a way not that clumsy calling `gt`. So I had a look at the API and there was this mysterious `mkOrderingOps`... Always have a close look at the API! –  Peter Schmitz Nov 17 '11 at 16:33
It should be said that you do not need `T` to be `Ordered` for this to work. So it suffices to have `T : Numeric`. As didierd points out, `Ordered` would be used as a view bound here (`T <% Ordered`) and doesn't make sense as a context bound. Performance-wise, using an `Ordering` with `Ordering.Implicits._` should be the better choice, as with `Ordered` you will have your values being boxed unnecessarily. –  0__ Nov 17 '11 at 17:38
Yeah, I also took a stab at using `gt`, but could even get that working. As I remark below, I'm just getting up to speed, and am still a little confused as to why the `import num.{mkNumericOps,mkOrderingOps}` works. That how does that import infix operators on other variables? –  Tim Nov 18 '11 at 12:46