# More on generic Scala functions

Trying to implement, in Scala, the following Haskell function (from Learn You a Haskell...) so that it works with Int, Double, etc.

``````doubleUs x y = x * 2 + y * 2
``````

Note that this is similar to Scala: How to define "generic" function parameters?

Here's my attempt and error. Can someone explain what's happening and offer a solution. Thanks.

``````scala> def doubleUs[A](x:A,y:A)(implicit numeric: Numeric[A]): A = numeric.plus(numeric.times(x,2),numeric.times(y,2))
<console>:34: error: type mismatch;
found   : Int(2)
required: A
def doubleUs[A](x:A,y:A)(implicit numeric: Numeric[A]): A = numeric.plus(numeric.times(x,2),numeric.times(y,2))
``````
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Oah... generic math looks so complicated in scala... –  FUZxxl Sep 7 '11 at 16:59
@FUZxxl Consequence of Java legacy and interoperability. –  Daniel C. Sobral Sep 8 '11 at 1:27
Coming from a C#/F#/Haskell/Mathematica background, I have to say my heart beats with bliss upon such sights of ugliness that plague languages I deliberately chose to keep away from after brief initial exposure, such as Java/Scala ^_^! There is no god in heavens that would not pity the ones that suffer such mess on a daily basis. –  Cetin Sert Sep 9 '11 at 0:00
@Cetin: In Scala, generic math is ugly. But it can do generic math. C#, F# cannot even do generic math in a typesafe manner. Mathematica being a dynamically typed language, the comparison doesn't make sense. –  missingfaktor Sep 14 '11 at 19:26

You are using the `Int` literal `2` but scala is expecting the `Numeric` type `A`. The Scala Numeric API has a utility function- `def fromInt(x:Int): T`. This is what you want to use, so replace your usage of `2` with `numeric.fromInt(2)`

``````def doubleUs[A](x:A,y:A)(implicit numeric: Numeric[A]): A =
numeric.plus (numeric.times (x, numeric.fromInt (2)), numeric.times (y, numeric.fromInt (2)))
``````

Also, since a Numeric instance defines an implicit conversion to an Ops, you can `import numeric._` and then say `x * fromInt(2) + y * fromInt(2)`.

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In addition to what @Dylan said, you can make it look a little less tedious by importing into scope the contents of `Numeric` implicit as shown below:

``````scala> def doubleUs[N](x: N, y: N)(implicit ev: Numeric[N]) = {
|   import ev._
|   x * fromInt(2) + y * fromInt(2)
| }
doubleUs: [N](x: N, y: N)(implicit ev: Numeric[N])N

scala> doubleUs(3, 4)
res9: Int = 14

scala> doubleUs(8.9, 1.2)
res10: Double = 20.2
``````
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You need some implicits in scope:

``````def doubleUs[A](x: A, y: A)(implicit num: Numeric[A]) = {
import num._
implicit def fromInt(i: Int) = num.fromInt(i)
x * 2 + y * 2
}
``````
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``````def doubleUs[A : Numeric](x : A, y : A) : A = {