0

This is related to this question, however I can't see how using existential types would help in my case.

I'm trying to achieve the following:

type MonadicArithmeticFunc[S] = (Int, S) => (Int, S)

object addOne[S] extends MonadicArithmeticFunc[S] {
  def apply(n: Int, s: S): (Int, S) = (n + 1, s)
}

val state = Seq.empty[Int]
println(addOne(4, state))

However this doesn't work as one cannot add a type parameter to an object. I tried using an existential type also:

object addOne extends MonadicArithmeticFunc[_] {
  def apply[S](n: Int, s: S): (Int, S) = (n + 1, s)
}

But of course that doesn't work either, as the apply method isn't what takes the type parameter in Function2.

I could use a basic def:

def addOne[S](n: Int, s: S): (Int, S) = (n + 1, s)

except I'd have to declare that in a package object to get the same scoping. Any other ideas?

3
  • There is no point in what you'r trying to achieve, your ArithmeticFunc is not monadic in any sense and no reason to use it as superclass, cause you can simply write object addOne { def apply[S](n: Int, s: S): (Int, S) = (n + 1, s) }. Can you elaborate on what you'r trying to do, it looks like either type class pattern would make your life easier or scalaz State monad
    – 4lex1v
    Mar 13, 2014 at 0:57
  • Just curious: why would you avoid putting something in a package object? Mar 13, 2014 at 1:36
  • I guess the problem is that I want to be able to use addOne as a function object, and use it in various cases where the type of S varies. This would be ok, because addOne doesn't care what S is: it's just passing it through. But now I realise that's not going to be possible in the JVM. Mar 15, 2014 at 2:24

1 Answer 1

2

It simply doesn't make sense to have type parameters (or constructor parameters, for that matter) for an object, because addOne[Int] and addOne[String] would be (presumably) different objects, but the keyword object means there only should be one object. You could have

class addOne[S] extends MonadicArithmeticFunc[S] {
  def apply(n: Int, s: S): (Int, S) = (n + 1, s)
}

object addOne {
  def apply[S] = new addOne[S]
}

if you really need MonadicArithmeticFunc for some reason. But as Alexlv says,

object addOne {
  def apply[S](n: Int, s: S) = (n + 1, s)
}

would normally be preferable.

2
  • I like the class + object example. I'll try it. Mar 14, 2014 at 2:08
  • Yes, I can see that is the limitation of the JVM: there are discretely different objects for each type. Because addOne doesn't care what the actual type of S is, I was hoping to have just a single runtime object for that Function2 - basically have S be Object at runtime - but without any casting. I guess I'll just need to allocate separate instances of addOne for every type. Mar 15, 2014 at 2:28

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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