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Having defined a class A which extends Ordering[A], and a subclass B of A, how do I automatically sort an Array of Bs? The Scala compiler complains that it "could not find implicit value for parameter ord: Ordering[B]". Here's a concrete REPL example (Scala 2.8), with A = Score and B = CommentedScore:

class Score(val value: Double) extends Ordered[Score] {
  def compare(that: Score) = value.compare(that.value)
defined class Score

trait Comment { def comment: String }
defined trait Comment

class CommentedScore(value: Double, val comment: String) extends Score(value) with Comment
defined class CommentedScore

val s = new CommentedScore(10,"great")
s: CommentedScore = CommentedScore@842f23

val t = new CommentedScore(0,"mediocre")
t: CommentedScore = CommentedScore@dc2bbe

val commentedScores = Array(s,t)
commentedScores: Array[CommentedScore] = Array(CommentedScore@b3f01d, CommentedScore@4f3c89)

error: could not find implicit value for parameter ord: Ordering[CommentedScore]

How do I fix this (that is, sort an Array[B] = Array[CommentedScore] "for free", given that I know how to sort Array[A] = Array[Score]), in an elegant manner which avoids boilerplate?


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3 Answers 3

Add the required implicit yourself:

implicit val csOrd: Ordering[CommentedScore] = Ordering.by(_.value)

You can put this in a CommentedScore companion object so that there is no boilerplate at use-site.

Edit: if you want the ordering method to be defined only at the top of the inheritance tree, you still have to provide an Ordering for each subclass, but you can define the compare method of the Ordering in terms of the one in the Score object. i.e.

object Score {
  implicit val ord: Ordering[Score] = Ordering.by(_.value)

object CommentedScore {
  implicit val csOrd = new Ordering[CommentedScore] { 
    def compare(x: CommentedScore, y: CommentedScore) = Score.ord.compare(x, y)

if you don't want to re-define this for each sub-class, you can use a generic method to produce the Ordering:

object Score {
  implicit def ord[T <: Score]: Ordering[T] = Ordering.by(_.value)

This is a bit less efficient since being a def rather than a val, it creates a new Ordering each time one is required. However the overhead is probably tiny. Also note, the Ordered trait and compare method is not necessary now we have Orderings.

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Thanks. But I'd like it to depend on the Score ordering: suppose I later refactor the Score ordering to sort by descending value instead of increasing value. I'd like CommentedScore to inherit that change. Any ideas? –  Perfect Tiling Aug 29 '12 at 5:34
@PerfectTiling see edit –  Luigi Plinge Aug 29 '12 at 6:06
Thank you very much, Luigi. Unfortunately I'm such a newbie to Scala that I don't know what "use delegation" means. If it's not too much trouble, would you mind demonstrating what you mean in this Score case? –  Perfect Tiling Aug 29 '12 at 6:10
@PerfectTiling delegation just means passing the arguments along to another method that does the real work. Have edited above. –  Luigi Plinge Aug 29 '12 at 7:00
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You might use Order from scalaz, which is contravariant, so you need not to define it for every subclass. Here is an example:

import scalaz._
import Scalaz._

class Score(val value: Double)
object Score {
  implicit val scoreOrd: Order[Score] = orderBy(_.value)
trait Comment { def comment: String }
class CommentedScore(value: Double, val comment: String) extends Score(value) with Comment {
  override def toString = s"cs($value, $comment)"
def quickSort[E: Order](list: List[E]): List[E] = list match {
  case Nil => Nil
  case head :: tail =>
    val (less, more) = tail partition { e => implicitly[Order[E]].order(e, head) == LT }
    quickSort(less) ::: head :: quickSort(more) 
  new CommentedScore(10,"great"),
  new CommentedScore(5,"ok"),
  new CommentedScore(8,"nice"),
  new CommentedScore(0,"mediocre")
))) // List(cs(0.0, mediocre), cs(5.0, ok), cs(8.0, nice), cs(10.0, great))
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I'd always thought that Ordering ought to be covariant. I haven't had a chance to think it through though. –  Perfect Tiling Aug 31 '12 at 20:43
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This works:

val scoreArray: Array[Score] = Array(s, t)

Or if you are starting from the Array[CommentedScore]:

val scoreArray: Array[Score] = commentedScores.map(identity)

Note you can sort more simply with:

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Thanks. In reality I'm using my own custom partial-sort algorithm on the Array. I put util.Sorting.quickSort here in place of that. In the end, I have to make sure I have an Array[CommentedScore], so I don't want to have to convert to Arra[Score] and then cast to Array[CommentedScore]. –  Perfect Tiling Aug 29 '12 at 5:36
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