# Beginner: How do I say “any superclass of generic A”

I'm playing with the QuickSort example at the start of Scala By Example and trying to adapt it for a generic type `A`, rather than just `Int`s.

What I've got working so far is

``````def sort[A <: Ordered[A]](xs: Array[A])
``````

Which allows `sort` to run on all types that are reflexively ordered, like `RichBoolean`.

But what I'd also like to allow types `A` where they extend `Ordered[B]` where B is a superclass of A (so, for instance, anything that extends `Ordered[Any]`).

How can I say this?

What I actually got to work, thanks to agilesteel's answer:

``````case class X( i : Int ) extends Ordered[X] {
def compare( x : X ) = x.i - i
}

class Y( i : Int, j : Int ) extends X(i)

case class Z( i : Int ) extends Ordered[Any] {
def compare( a : Any ) : Int = {
if (! a.isInstanceOf[Z] )
sys.error("whoops")

val z = a.asInstanceOf[Z]
z.i - i
}
}

object QuickSort {
def main( args : Array[String] ) {
val xs = Array( 3, 1, 2, 4 ) map X
sort( xs );
val ys = Array( 3, 1, 2, 4 ) map { i => new Y(i, -i) }
sort[X,Y]( ys );
val zs = Array( 3, 1, 2, 4 ) map Z
sort[Any,Z]( zs );
}
def sort[B >: A, A <: Ordered[B]](xs: Array[A]) {
def swap(i: Int, j: Int) {
val t = xs(i); xs(i) = xs(j); xs(j) = t;
}
def sort1(l: Int, r: Int) {
val pivot = xs((l + r) / 2)
var i = 1; var j = r
while (i <= j) {
while (xs(i) < pivot) i += 1
while (xs(j) > pivot) j -= 1
if (i <= j) {
swap(i, j)
i += 1
j += 1
}
}
if (l < j) sort1(l, j)
if (j < r) sort1(i, r)
}
sort1(0, xs.length - 1)
}
}
``````

I was misled by trying to use `RichLong` and `RichBoolean` as test types, since they aren't actuallly reflexively `Ordered` (they extend `Ordered[Long]` and `Ordered[Boolean]` instead).

-
Maybe you're referring to "any subclass" instead of "any superclass"? As far as the rest of the answer is concerned, please have a look below. –  fotNelton Jan 20 '12 at 18:39
@fotNelton: No, what I want is forall a : A, a < b is defined for b : B, where B is a (not necessarily proper) superset of A. Given that I'm actually operating on an `Array[A]`, I won't actually be comparing a < c for any c in B \ A, but I don't want to rule out types A where they implement `Ordered[Any]` rather than `Ordered[A]`. –  rampion Jan 20 '12 at 18:59
Now I see what you mean. Have to think about it though. Thanks for the clarification. –  fotNelton Jan 20 '12 at 19:43

Something like this?

``````def sort[B >: A, A <: Ordered[B]](xs: Array[B])
``````
-
What you're looking for is something that either derives from the `Ordered` trait or can be viewed as such. There's a whole lot of implicit conversion (called views) from many classes to `Ordered`, and you can have your own as well. However, you end up with:
``` def sort[A <% Ordered[A]](xs: Array[A]) = ... ```
The `<%` is nothing but syntactic sugar for `def sort(xs: Array[A])(implicit cv: A => Ordered[A]) = ...`. You might want to have a look at this nice compilation of questions and answers if you're interesting in what's going on behind the scenes of implicits.
This works for class `X`, but not for class `Y` or `Z`, above: `error: diverging implicit expansion for type Y => Ordered[Y]` –  rampion Jan 20 '12 at 19:26