Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

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?

share|improve this question
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
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

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!

share|improve this answer
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


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.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.