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I would like to add to all collections where it makes sense, an argMax method. How to do it? Use implicits?

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A collection is not an expression. How can it have an argmax method? Are you trying to find the largest element in the collection? – Abhinav Sarkar Jun 16 '10 at 5:05
up vote 4 down vote accepted

On Scala 2.8, this works:

val list = List(1, 2, 3)
def f(x: Int) = -x
val argMax = list max (Ordering by f)

As pointed by mkneissl, this does not return the set of maximum points. Here's an alternate implementation that does, and tries to reduce the number of calls to f. If calls to f don't matter that much, see mkneissl's answer. Also, note that his answer is curried, which provides superior type inference.

def argMax[A, B: Ordering](input: Iterable[A], f: A => B) = {
  val fList = input map f
  val maxFList = fList.max
  input.view zip fList filter (_._2 == maxFList) map (_._1) toSet

scala> argMax(-2 to 2, (x: Int) => x * x)
res15: scala.collection.immutable.Set[Int] = Set(-2, 2)
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Amazing! Big Thanks. – Łukasz Lew Jun 16 '10 at 13:26
Fails if f reaches its max for multiple elements of its domain. Consider x=>x*x and x from -2 to 2 – mkneissl Jun 16 '10 at 14:43
@mkneissl Ah, I see. Indeed. – Daniel C. Sobral Jun 16 '10 at 16:39
Sets are Iterable, but this does not work for Sets, most obviously not when f produces the same result for multiple elements. The reason is that input map f produces another Set, which is now smaller than the input. Thus the zip is desynchronized, and the wrong result is produced. Even when the results of f are unique, the iteration order is not consistent, so the zip ends up scrambled. Requiring the input to be a Seq fixes it. If the need to do mySet.toSeq is undesirable, another solution is needed (e.g., one that does input map {a=>(a,f(a)} and so forth). – David Soergel Sep 4 '12 at 2:29

Based on other answers, you can pretty easily combine the strengths of each (minimal calls to f(), etc.). Here we have an implicit conversion for all Iterables (so they can just call .argmax() transparently), and a stand-alone method if for some reason that is preferred. ScalaTest tests to boot.

class Argmax[A](col: Iterable[A]) {
  def argmax[B](f: A => B)(implicit ord: Ordering[B]): Iterable[A] = {
    val mapped = col map f
    val max = mapped max ord
    (mapped zip col) filter (_._1 == max) map (_._2)

object MathOps {
  implicit def addArgmax[A](col: Iterable[A]) = new Argmax(col)

  def argmax[A, B](col: Iterable[A])(f: A => B)(implicit ord: Ordering[B]) = {
    new Argmax(col) argmax f

class MathUtilsTests extends FunSuite {
  import MathOps._

  test("Can argmax with unique") {
    assert((-10 to 0).argmax(_ * -1).toSet === Set(-10))
    // or alternate calling syntax
    assert(argmax(-10 to 0)(_ * -1).toSet === Set(-10))

  test("Can argmax with multiple") {
    assert((-10 to 10).argmax(math.pow(_, 2)).toSet === Set(-10, 10))
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Here's a variant loosely based on @Daniel's accepted answer that also works for Sets.

def argMax[A, B: Ordering](input: GenIterable[A], f: A => B) : GenSet[A] = argMaxZip(input, f) map (_._1) toSet

def argMaxZip[A, B: Ordering](input: GenIterable[A], f: A => B): GenIterable[(A, B)] = {
  if (input.isEmpty) Nil
  else {
    val fPairs = input map (x => (x, f(x)))
    val maxF =
    fPairs filter (_._2 == maxF)

One could also do a variant that produces (B, Iterable[A]), of course.

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Here's a way of doing so with the implicit builder pattern. It has the advantage over the previous solutions that it works with any Traversable, and returns a similar Traversable. Sadly, it's pretty imperative. If anyone wants to, it could probably be turned into a fairly ugly fold instead.

object RichTraversable {
  implicit def traversable2RichTraversable[A](t: Traversable[A]) = new RichTraversable[A](t)

class RichTraversable[A](t: Traversable[A]) { 
  def argMax[That, C](g: A => C)(implicit bf : scala.collection.generic.CanBuildFrom[Traversable[A], A, That], ord:Ordering[C]): That = {
    var minimum:C = null.asInstanceOf[C]
    val repr = t.repr
    val builder = bf(repr)
      val test: C = g(a)
      if(test == minimum || minimum == null){
        builder += a
        minimum = test
      }else if (, minimum)){
        builder += a
        minimum = test

Set(-2, -1, 0, 1, 2).argmax(x=>x*x) == Set(-2, 2)
List(-2, -1, 0, 1, 2).argmax(x=>x*x) == List(-2, 2)
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The argmax function (as I understand it from Wikipedia)

def argMax[A,B](c: Traversable[A])(f: A=>B)(implicit o: Ordering[B]): Traversable[A] = {
  val max = (c map f).max(o)
  c filter { f(_) == max }

If you really want, you can pimp it onto the collections

implicit def enhanceWithArgMax[A](c: Traversable[A]) = new {
  def argMax[B](f: A=>B)(implicit o: Ordering[B]): Traversable[A] = ArgMax.argMax(c)(f)(o)

and use it like this

val l = -2 to 2
assert (argMax(l)(x => x*x) == List(-2,2))
assert (l.argMax(x => x*x) == List(-2,2))

(Scala 2.8)

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Yes, the usual way would be to use the 'pimp my library' pattern to decorate your collection. For example (N.B. just as illustration, not meant to be a correct or working example):

trait PimpedList[A] {
   val l: List[A]

  //example argMax, not meant to be correct
  def argMax[T <% Ordered[T]](f:T => T) = {error("your definition here")}

implicit def toPimpedList[A](xs: List[A]) = new PimpedList[A] { 
  val l = xs

scala> def f(i:Int):Int = 10
f: (i: Int) Int

scala> val l = List(1,2,3)
l: List[Int] = List(1, 2, 3)

scala> l.argMax(f)
java.lang.RuntimeException: your definition here
    at scala.Predef$.error(Predef.scala:60)
    at PimpedList$class.argMax(:12)
        //etc etc...
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You can add functions to an existing API in Scala by using the Pimp my Library pattern. You do this by defining an implicit conversion function. For example, I have a class Vector3 to represent 3D vectors:

class Vector3 (val x: Float, val y: Float, val z: Float)

Suppose I want to be able to scale a vector by writing something like: 2.5f * v. I can't directly add a * method to class Float ofcourse, but I can supply an implicit conversion function like this:

implicit def scaleVector3WithFloat(f: Float) = new {
    def *(v: Vector3) = new Vector3(f * v.x, f * v.y, f * v.z)

Note that this returns an object of a structural type (the new { ... } construct) that contains the * method.

I haven't tested it, but I guess you could do something like this:

implicit def argMaxImplicit[A](t: Traversable[A]) = new {
    def argMax() = ...
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