Scala Generics and Numeric Implicits

I need to pass two functions as parameters to a scala function. That function should then evaluate them and get a number from them where it will then operate on. This number can be either a Int, Double or any other numeric type. I would like the function to work, whatever the types it is working with.

The example bellow explains the issue.

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

class Arithmetic[T : Numeric](val A: Connector[T], val B: Connector[T]) {
val sum  = new Connector({ A.value + B.value })
}

class Constant[T](var x: T) {
val value = new Connector({ x })
}

class Connector[T](f: => T) {
def value: T = f
override def toString = value.toString()
}

object Main extends App{
val n1 = new Constant(1)

// works
val n5 = new Constant(5)
val a = new Arithmetic( n1.value, n5.value )
println(a.sum)

// no works
val n55 = new Constant(5.5)
val b = new Arithmetic( n1.value, n55.value )
println(b.sum)

}
``````

I've also tried

``````class Arithmetic[T,R : Numeric](val A: Connector[T], val B: Connector[R]) {
``````

and several other combinations, but I ended up with

``````error: could not find implicit value for parameter num: scala.math.Numeric[Any]
val sum  = new Connector({ A.value + B.value })
``````
-

The error message you are seeing is because `Numeric[T].plus` can only be used to add two values of the same type `T`. Your code is written under the assumption that numeric widening happens automatically - which will not in this case as the compiler does not know anything about the types except that there exists a `Numeric[T]` instance.

If you need `sum` to be a stable value, you will have to provide the necessary type information in the constructor like this:

``````class Arithmetic[A : Numeric, R <% A, S <% A](val a: Connector[R], b: Connector[S]) {
val sum = new Connector[A]((a.value:A) + (b.value:A))
}
``````

This requires types `R` and `S` to be convertible into some type `A` for which a `Numeric[A]` istance is known. When creating an instance you would always have to provide all type parameters as they cannot be inferred.

If you do not need `sum` to be stable you could change your class to this:

``````class Arithmetic[A,B](val a: Connector[A], val b: Connector[B]) {

// if A and B are the same types
def sum(implicit e: B =:= A, n: Numeric[A]): Connector[A] =
new Connector(n.plus(a.value, b.value))

// else widen to C
def wideSum[C](implicit f: A => C, g: B => C, n: Numeric[C]) =
new Connector(n.plus(a.value, b.value))
}

val a = new Connector(1)

val b = new Connector(2)

val c = new Connector(3.0)

val d = (new Arithmetic(a,b)).sum

// val e = (new Arithmetic(b,c)).sum // <-- does not compile

val e = (new Arithmetic(b,c)).wideSum[Double]
``````

When widening you will still have to provide the type information though.

-
does your first solution works? The compiler will complain that b.value should be a String. –  Hugo S Ferreira Oct 14 '11 at 14:13
@Moritz, while your second suggestion works, I'm still obligated to insert the type when they differ. That will not work as I won't know in the future what types are arriving at Arithmetic. It should be automatic, just like when you write 2 + 4.1 in REPL and get 6.1. –  tiagoboldt Oct 14 '11 at 14:13
@Moritz, as for your first suggestion, I was unable to make it work also. the error: ambiguous implicit values: both object BigIntIsIntegral in object Numeric of type object scala.math.Numeric.BigIntIsIntegral and object IntIsIntegral in object Numeric of type object scala.math.Numeric.IntIsIntegral match expected type Numeric[A] val a = new Arithmetic( n1.value, n5.value ), where n1 and n5 are constants. –  tiagoboldt Oct 14 '11 at 14:15
@HugoSFerreira, @tiagoboldt: if you use the first example you have to provide all type parameters to when constructing the instance, e.g.: `new Arithmetic[Double,Int,Double](intConn, dblConn)` as they cannot be inferred. –  Moritz Oct 14 '11 at 14:20
@HugoSFerreira did you forget the `import Numeric.Implicits._`? –  Moritz Oct 14 '11 at 14:21