What's the best way to inverse sort in scala?

What is the best way to do an inverse sort in scala? I imagine the following is somewhat slow.

``````list.sortBy(_.size).reverse
``````

Is there a conveinient way of using sortBy but getting a reverse sort? I would rather not need to use `sortWith`.

• the solutions below are all very nice but I still find your original way of doing this simpler to read. I have verified that there is a computational drawback to this way of writing as you suspected. The test I did is like this: val clock = new Timer (1 to 1e6.toInt).sorted(Ordering[Int].reverse) clock.addLap("correct way") (1 to 1e6.toInt).sorted.reverse clock.addLap("incorrect way") println(clock.toString) [correct way, lap = 76, dur. = 76] | [incorrect way, lap = 326, dur. = 250] – BlueSky Jan 24 '17 at 2:49

There may be the obvious way of changing the sign, if you sort by some numeric value

``````list.sortBy(- _.size)
``````

More generally, sorting may be done by method sorted with an implicit Ordering, which you may make explicit, and Ordering has a reverse (not the list reverse below) You can do

``````list.sorted(theOrdering.reverse)
``````

If the ordering you want to reverse is the implicit ordering, you can get it by implicitly[Ordering[A]] (A the type you're ordering on) or better Ordering[A]. That would be

``````list.sorted(Ordering[TheType].reverse)
``````

sortBy is like using Ordering.by, so you can do

``````list.sorted(Ordering.by(_.size).reverse)
``````

Maybe not the shortest to write (compared to minus) but intent is clear

Update

The last line does not work. To accept the `_` in `Ordering.by(_.size)`, the compiler needs to know on which type we are ordering, so that it may type the `_`. It may seems that would be the type of the element of the list, but this is not so, as the signature of sorted is `def sorted[B >: A](ordering: Ordering[B])`. The ordering may be on `A`, but also on any ancestor of `A` (you might use `byHashCode : Ordering[Any] = Ordering.by(_.hashCode)`). And indeed, the fact that list is covariant forces this signature. One can do

``````list.sorted(Ordering.by((_: TheType).size).reverse)
``````

but this is much less pleasant.

• Super helpful--I wasn't sure if I were asking a dumb question, but I learned a lot from your answer! – schmmd Oct 19 '11 at 4:38
• Except that it does not work. I should never answer when I have no REPL handy. See update. – Didier Dupont Oct 19 '11 at 8:53
• And to sort on a secondary field, return a tuple: `list.sortBy(x => (-x.size, x.forTiesUseThisField))` – Brent Faust Jun 2 '15 at 1:57
• Instead of `list.sorted(Ordering.by((_: TheType).size).reverse)` consider `list.sorted(Ordering.by[TheType, Int](_.size).reverse)` it clearer (but longer) for my point of veiw. – Cherry Aug 25 '15 at 6:17
• I personally like `list.sortBy(_.size)(Ordering[Int].reverse)` also. – dtech May 18 '16 at 13:15
``````list.sortBy(_.size)(Ordering[Int].reverse)
``````

maybe to shorten it a little more:

``````def Desc[T : Ordering] = implicitly[Ordering[T]].reverse

List("1","22","4444","333").sortBy( _.size )(Desc)
``````

Easy peasy (at least in case of `size`):

``````scala> val list = List("abc","a","abcde")
list: List[java.lang.String] = List(abc, a, abcde)

scala> list.sortBy(-_.size)
res0: List[java.lang.String] = List(abcde, abc, a)

scala> list.sortBy(_.size)
res1: List[java.lang.String] = List(a, abc, abcde)
``````

`sortBy` has implicit parameter `ord` which provides ordering

``````def sortBy [B] (f: (A) ⇒ B)(implicit ord: Ordering[B]): List[A]
``````

so, we can define own `Ordering` object

``````scala> implicit object Comp extends Ordering[Int] {
| override def compare (x: Int, y: Int): Int = y - x
| }
defined module Comp

List(3,2,5,1,6).sortBy(x => x)
res5: List[Int] = List(6, 5, 3, 2, 1)
``````
``````val list = List(2, 5, 3, 1)
list.sortWith(_>_) -> res14: List[Int] = List(5, 3, 2, 1)
list.sortWith(_<_) -> res14: List[Int] = List(1, 2, 3, 5)
``````

Both `sortWith` and `sortBy` have a compact syntax:

``````case class Foo(time:Long, str:String)

val l = List(Foo(1, "hi"), Foo(2, "a"), Foo(3, "X"))

l.sortWith(_.time > _.time)  // List(Foo(3,X), Foo(2,a), Foo(1,hi))

l.sortBy(- _.time)           // List(Foo(3,X), Foo(2,a), Foo(1,hi))

l.sortBy(_.time)             // List(Foo(1,hi), Foo(2,a), Foo(3,X))
``````

I find the one with `sortWith` easier to understand.

Another possibility in cases where you pass a function that you may not be able to modify directly to an Arraybuffer via sortWith for example:

``````val buf = collection.mutable.ArrayBuffer[Int]()
buf += 3
buf += 9
buf += 1

// the sort function (may be passed through from elsewhere)
def sortFn = (A:Int, B:Int) => { A < B }

// the two ways to sort below
buf.sortWith(sortFn)                        // 1, 3, 9
buf.sortWith((A,B) => { ! sortFn(A,B) })    // 9, 3, 1
``````

this is my code ;)

``````val wordCounts = logData.flatMap(line => line.split(" "))
.map(word => (word, 1))
.reduceByKey((a, b) => a + b)

wordCounts.sortBy(- _._2).collect()
``````
• This is not incorrect, but the interesting part (the second line) is drowned out by the unneeded line before it. Basically, the point here is that one way to do a reverse sort is to to negate the sort value. – Carl-Eric Menzel May 18 '16 at 14:10