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?
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 monadaddOne
as a function object, and use it in various cases where the type ofS
varies. This would be ok, becauseaddOne
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.