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Is it necessary to provide the implementation from scratch? I could not find any matching implicit, not even in last-resort Implicits trait. seqDerivedOrdering obviously doesn't work, since Array is not a Seq.

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3 Answers 3

If you want it to be efficient, you'll have to write your own (this one handles nulls; if you can assume no nulls, just use the long else block):

val o = new math.Ordering[Array[Byte]] {
  def compare(a: Array[Byte], b: Array[Byte]): Int = {
    if (a eq null) {
      if (b eq null) 0
      else -1
    }
    else if (b eq null) 1
    else {
      val L = math.min(a.length, b.length)
      var i = 0
      while (i < L) {
        if (a(i) < b(i)) return -1
        else if (b(i) < a(i)) return 1
        i += 1
      }
      if (L < b.length) -1
      else if (L < a.length) 1
      else 0
    }
  }
}

Otherwise, you can .toSeq to package into a WrappedArray and defer to a Seq compare instead of doing your own scan. (This will end up boxing and unboxing your bytes, which is why it's not efficient. Since byte boxing is generally done by lookup in a table of all bytes, it's not horribly inefficent, so you may be able to get away with it unless you're doing e.g. heavy duty binary file processing.)

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Yes, I wanted to add something like this, but wanted to ask before. Maybe it makes sense to add something to stdlib to make it more obvious? –  venechka Aug 18 '11 at 16:06
    
@venechka - It would be nice if the Array object implemented these for each type. Maybe someone should submit an enhancement request? In the meantime, though, there are lots of handy things that the standard library doesn't have. You should get used to having your own personal standard library to fill in those pieces that you need! –  Rex Kerr Aug 18 '11 at 16:09
    
it is enough to have a single @specialized version I think. –  venechka Aug 18 '11 at 16:56
    
@venechka - In principle, yes. In practice, I've hit enough bugs with specialized that I now no longer say it will solve a problem until I see it working. If it works, it won't work trivially because you need < defined on the base type, and Ordering isn't specialized, so you can't just defer to that. So you have to create your own specialized version of Numeric and work from there. –  Rex Kerr Aug 18 '11 at 17:26
    
Exactly what I was looking for, thanks! :) –  GClaramunt May 23 '12 at 17:43

If you're into brevity rather than raw performance:

scala> Ordering.by((_: Array[Byte]).toIterable)
res0: scala.math.Ordering[Array[Byte]] = scala.math.Ordering$$anon$7@8c9f531
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You can implement a very simple Ordering which calls toSeq on comapred array and calls then the seqDerivedOrdering. The conversion to a Seq should be nearly free in term of performances.

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