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I'm trying to get the following Scala code to compile:

// Something that Scala is very bad at: don't try and figure out if every type I *could* possibly use supports it,
// just let me use it until I try a type that doesn't.  Or at least have AnyValue provide an abstraction for all
// Numeric Types (Interface)
trait NumericValue[T] {
  def +(rhs : T, lhs : T) : T
}
implicit object ByteNumericValue extends NumericValue[Byte] {
  def +(rhs : Byte, lhs : Byte) : Byte = (rhs + lhs).toByte
}
implicit object ShortNumericValue extends NumericValue[Short] {
  def +(rhs : Short, lhs : Short) : Short = (rhs + lhs).toShort
}
implicit object IntNumericValue extends NumericValue[Int] {
  def +(rhs : Int, lhs : Int) : Int = rhs + lhs
}
implicit object LongNumericValue extends NumericValue[Long] {
  def +(rhs : Long, lhs : Long) : Long = rhs + lhs
}
implicit object BigIntNumericValue extends NumericValue[BigInt] {
  def +(rhs : BigInt, lhs : BigInt) : BigInt = rhs + lhs
}

def doMath[T <: AnyVal](initializer : Long)(implicit Num : NumericValue[T]) : T = {
  Num.+(initializer.asInstanceOf[T], initializer.asInstanceOf[T])
}

lazy val math = doMath[Short](0)

The idea here is that I need a way to make doMath operate on any Integer and thus a type with an addition operator. I want it to be agnostic of large number like BigInt or a very small number like Byte.

When I try to compile this I get an error:

error: could not find implicit value for parameter Num: NumericValue[Short]
lazy val math = doMath[Short](0)

Any ideas?

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What version of Scala are you using? It compiles fine for me (but gives a cast error since you can't cast a Long to a Short--if you change initializer to type T it all works fine). –  Rex Kerr Oct 18 '12 at 20:00
2  
you are doing exactly what scala Numeric is all about –  Arjan Oct 18 '12 at 20:24
    
Seems like you need to somehow implement widening of the numeric types when doing something else than combining two values of the same type. –  ziggystar Oct 19 '12 at 8:46

2 Answers 2

Rex is right. Since x : Long means x.asInstanceOf[Short] is invalid the routine fails when trying to cast initializer to T when T is short. Yes, that seems legitimate. Thanks Rex! Wish you had answered instead of commented so I could give you a +1.

I do have some control over the type of initializer and given all that Byte is its logical type but I need to think about this a bit to make sure that's the only issue because the actual implementation of doMath uses a parameter to get a lazy value type with a bunch of options controlling the output. But above is in its simplest form and I think you hit the nail on the head. Thank you Rex Kerr!

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Sorry, this didn't work in my circumstance. I've given up for now but anyone's welcome to give Rex Kerr's suggestion a try as it may work for you. –  TimeHorse Oct 23 '12 at 18:42

Implicit object is no good.

Try using case class instead

E.G:

case class LongNumericValue(l: Long) extends NumericValue[Long] {
  def +(l2 : Long) : Long = l + l2
}

def doMath[T <: AnyVal](implicit Num : NumericValue[T]) : T = {
  Num + Num
}

I'll explain: In the above example doMath takes a single value of type NumericValue[T] (i.e. NumericValue[Long]) but if the received value is of type Long the compiler will look for implicit value for it, the case class.

Note I don't have my computer on me so I can't test this but it did with in the past when I tried to initialize a variable in that way.

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