# Simplest way to get the top n elements of a Scala Iterable

Is there a simple and efficient solution to determine the top n elements of a Scala Iterable? I mean something like

``````iter.toList.sortBy(_.myAttr).take(2)
``````

but without having to sort all elements when only the top 2 are of interest. Ideally I'm looking for something like

``````iter.top(2, _.myAttr)
``````

see also: Solution for the top element using an Ordering: In Scala, how to use Ordering[T] with List.min or List.max and keep code readable

## Update:

Thank you all for your solutions. Finally, I took the original solution of user unknown and adopted it to use `Iterable` and the pimp-my-library pattern:

``````implicit def iterExt[A](iter: Iterable[A]) = new {
def top[B](n: Int, f: A => B)(implicit ord: Ordering[B]): List[A] = {
def updateSofar (sofar: List [A], el: A): List [A] = {
//println (el + " - " + sofar)

(el :: sofar.tail).sortBy (f)
else sofar
}

val (sofar, rest) = iter.splitAt(n)
(sofar.toList.sortBy (f) /: rest) (updateSofar (_, _)).reverse
}
}

case class A(s: String, i: Int)
val li = List (4, 3, 6, 7, 1, 2, 9, 5).map(i => A(i.toString(), i))
println(li.top(3, _.i))
``````
-
I think `iter.toList.sortBy(_.myAttr).take(n)` is simple and efficient enough when the size of the iterator is close to `n`. Are you thinking that `n` will always be small and dealing with possibly large iterators? –  huynhjl Apr 15 '11 at 12:40
I also use this syntax for small lists, but now I have a case where an collection of arbitrary length (could get quite large) has to be efficiently processed and I usually need the top 5 or top 10 elements of this collection. –  Stefan Endrullis Apr 15 '11 at 13:54

My solution (bound to Int, but should be easily changed to Ordered (a few minutes please):

``````def top (n: Int, li: List [Int]) : List[Int] = {

def updateSofar (sofar: List [Int], el: Int) : List [Int] = {
// println (el + " - " + sofar)
(el :: sofar.tail).sortWith (_ > _)
else sofar
}

val sofar = li.take (n).sortWith (_ > _)
val rest = li.drop (n)
(sofar /: rest) (updateSofar (_, _)) */
(li.take (n). sortWith (_ > _) /: li.drop (n)) (updateSofar (_, _))
}
``````

usage:

``````val li = List (4, 3, 6, 7, 1, 2, 9, 5)
top (2, li)
``````
• For above list, take the first 2 (4, 3) as starting TopTen (TopTwo).
• Sort them, such that the first element is the bigger one (if any).
• repeatedly iterate through the rest of the list (li.drop(n)), and compare the current element with the maximum of the list of minimums; replace, if neccessary, and resort again.
• Improvements:
• Throw away Int, and use ordered.
• Throw away (_ > _) and use a user-Ordering to allow BottomTen. (Harder: pick the middle 10 :) )
• Throw away List, and use Iterable instead

### update (abstraction):

``````def extremeN [T](n: Int, li: List [T])
(comp1: ((T, T) => Boolean), comp2: ((T, T) => Boolean)):
List[T] = {

def updateSofar (sofar: List [T], el: T) : List [T] =
(el :: sofar.tail).sortWith (comp2 (_, _))
else sofar

(li.take (n) .sortWith (comp2 (_, _)) /: li.drop (n)) (updateSofar (_, _))
}

/*  still bound to Int:
def top (n: Int, li: List [Int]) : List[Int] = {
extremeN (n, li) ((_ < _), (_ > _))
}
def bottom (n: Int, li: List [Int]) : List[Int] = {
extremeN (n, li) ((_ > _), (_ < _))
}
*/

def top [T] (n: Int, li: List [T])
(implicit ord: Ordering[T]): Iterable[T] = {
extremeN (n, li) (ord.lt (_, _), ord.gt (_, _))
}
def bottom [T] (n: Int, li: List [T])
(implicit ord: Ordering[T]): Iterable[T] = {
extremeN (n, li) (ord.gt (_, _), ord.lt (_, _))
}

top (3, li)
bottom (3, li)
val sl = List ("Haus", "Garten", "Boot", "Sumpf", "X", "y", "xkcd", "x11")
bottom (2, sl)
``````

To replace List with Iterable seems to be a bit harder.

As Daniel C. Sobral pointed out in the comments, a high `n` in topN can lead to much sorting work, so that it could be useful, to do a manual insertion sort instead of repeatedly sorting the whole list of top-n elements:

``````def extremeN [T](n: Int, li: List [T])
(comp1: ((T, T) => Boolean), comp2: ((T, T) => Boolean)):
List[T] = {

def sortedIns (el: T, list: List[T]): List[T] =
if (list.isEmpty) List (el) else
if (comp2 (el, list.head)) el :: list else

def updateSofar (sofar: List [T], el: T) : List [T] =
sortedIns (el, sofar.tail)
else sofar

(li.take (n) .sortWith (comp2 (_, _)) /: li.drop (n)) (updateSofar (_, _))
}
``````

top/bottom method and usage as above. For small groups of top/bottom Elements, the sorting is rarely called, a few times in the beginning, and then less and less often over time. For example, 70 times with top (10) of 10 000, and 90 times with top (10) of 100 000.

-
Thanks for your solution. It's short and easy to understand. I adopted it to work with Iterables of arbitrary types. Unfortunately, stackoverflow does not allow me to put my code in this comment. –  Stefan Endrullis Apr 15 '11 at 15:31
Adopted the original, or the second solution with extremN? You may append to your question (but mark it '# update:', to make the discussion understandable) or open an answer yourself. –  user unknown Apr 15 '11 at 15:46
I used your original version. I will append the code to the question. –  Stefan Endrullis Apr 15 '11 at 16:09
Meanwhile I updated my lower solution a bit farther; top and bottom use Ordering too. –  user unknown Apr 15 '11 at 16:15
Instead of sorting, you should do sorted insertion in the tail. It will be much faster. –  Daniel C. Sobral Sep 29 '11 at 0:52

Yet another version:

``````val big = (1 to 100000)

def maxes[A](n:Int)(l:Traversable[A])(implicit o:Ordering[A]) =
l.foldLeft(collection.immutable.SortedSet.empty[A]) { (xs,y) =>
if (xs.size < n) xs + y
else {
import o._
val first = xs.firstKey
if (first < y) xs - first + y
else xs
}
}

println(maxes(4)(big))
println(maxes(2)(List("a","ab","c","z")))
``````

Using the `Set` force the list to have unique values:

``````def maxes2[A](n:Int)(l:Traversable[A])(implicit o:Ordering[A]) =
l.foldLeft(List.empty[A]) { (xs,y) =>
import o._
if (xs.size < n) (y::xs).sort(lt _)
else {
if (first < y) (y::(xs - first)).sort(lt _)
else xs
}
}
``````
-

You don't need to sort the entire collection in order to determine the top N elements. However, I don't believe that this functionality is supplied by the raw library, so you would have to roll you own, possibly using the pimp-my-library pattern.

For example, you can get the nth element of a collection as follows:

``````  class Pimp[A, Repr <% TraversableLike[A, Repr]](self : Repr) {

def nth(n : Int)(implicit ord : Ordering[A]) : A = {
val trav : TraversableLike[A, Repr] = self
var ltp : List[A] = Nil
var etp : List[A] = Nil
var mtp : List[A] = Nil
case None      => error("Cannot get " + n + " element of empty collection")
case Some(piv) =>
trav.foreach { a =>
val cf = ord.compare(piv, a)
if (cf == 0) etp ::= a
else if (cf > 0) ltp ::= a
else mtp ::= a
}
if (n < ltp.length)
new Pimp[A, List[A]](ltp.reverse).nth(n)(ord)
else if (n < (ltp.length + etp.length))
piv
else
new Pimp[A, List[A]](mtp.reverse).nth(n - ltp.length - etp.length)(ord)
}
}
}
``````

(This is not very functional; sorry)

It's then trivial to get the top `n` elements:

``````def topN(n : Int)(implicit ord : Ordering[A], bf : CanBuildFrom[Repr, A, Repr]) ={
val b = bf()
val elem = new Pimp[A, Repr](self).nth(n)(ord)
import util.control.Breaks._
breakable {
var soFar = 0
self.foreach { tt =>
if (ord.compare(tt, elem) < 0) {
b += tt
soFar += 1
}
}
assert (soFar <= n)
if (soFar < n) {
self.foreach { tt =>
if (ord.compare(tt, elem) == 0) {
b += tt
soFar += 1
}
if (soFar == n) break
}
}

}
b.result()
}
``````

Unfortunately I'm having trouble getting this pimp to be discovered via this implicit:

``````implicit def t2n[A, Repr <% TraversableLike[A, Repr]](t : Repr) : Pimp[A, Repr]
= new Pimp[A, Repr](t)
``````

I get this:

``````scala> List(4, 3, 6, 7, 1, 2, 8, 5).topN(4)
<console>:9: error: could not find implicit value for evidence parameter of type (List[Int]) => scala.collection.TraversableLike[A,List[Int]]
List(4, 3, 6, 7, 1, 2, 8, 5).topN(4)
^
``````

However, the code actually works OK:

``````scala> new Pimp(List(4, 3, 6, 7, 1, 2, 8, 5)).topN(4)
res3: List[Int] = List(3, 1, 2, 4)
``````

And

``````scala> new Pimp("ioanusdhpisjdmpsdsvfgewqw").topN(6)
``````
-

If the goal is to not sort the whole list then you could do something like this (of course it could be optimized a tad so that we don't change the list when the number clearly shouldn't be there):

``````List(1,6,3,7,3,2).foldLeft(List[Int]()){(l, n) => (n :: l).sorted.take(2)}
``````
-
`sorted.reverse.take(2)` to get the top 2. It's simple but I'm not sure of the efficiency as sorted is built on top of `java.util.Arrays.sort`, so this may create a lot of temp arrays. –  huynhjl Apr 15 '11 at 12:08
And also it fails if the goal was to avoid sorting the complete list. –  thoredge Apr 15 '11 at 12:30
Just to be sure we are on the same page, your solution returns the bottom 2 and this is why I mentioned `reverse` to make your solution work. –  huynhjl Apr 15 '11 at 12:50
You're correct. I misunderstood your first comment. –  thoredge Apr 15 '11 at 13:01

I implemented such an ranking algorithm recently in the Rank class of Apache Jackrabbit (in Java though). See the `take` method for the gist of it. The basic idea is to quicksort but terminate prematurely as soon as the top `n` elements have been found.

-
Oh, that's good to know. It's probably the most efficient solution. The only drawback I see is that it generates an array with all elements of the Iterable. Thus, in extreme cases it may not be applicable because of restricted memory. –  Stefan Endrullis Apr 15 '11 at 15:46

For small values of `n` and large lists, getting the top `n` elements can be implemented by picking out the max element `n` times:

``````def top[T](n:Int, iter:Iterable[T])(implicit ord: Ordering[T]): Iterable[T] = {
def partitionMax(acc: Iterable[T], it: Iterable[T]): Iterable[T]  = {
val max = it.max(ord)
val (nextElems, rest) = it.partition(ord.gteq(_, max))
val maxElems = acc ++ nextElems
if (maxElems.size >= n || rest.isEmpty) maxElems.take(n)
else partitionMax(maxElems, rest)
}
if (iter.isEmpty) iter.take(0)
else partitionMax(iter.take(0), iter)
}
``````

This does not sort the entire list and takes an `Ordering`. I believe every method I call in `partitionMax` is O(list size) and I only expect to call it `n` times at most, so the overall efficiency for small `n` will be proportional to the size of the iterator.

``````scala> top(5, List.range(1,1000000))
res13: Iterable[Int] = List(999999, 999998, 999997, 999996, 999995)

scala> top(5, List.range(1,1000000))(Ordering[Int].on(- _))
res14: Iterable[Int] = List(1, 2, 3, 4, 5)
``````

You could also add a branch for when `n` gets close to size of the iterable, and switch to `iter.toList.sortBy(_.myAttr).take(n)`.

It does not return the type of collection provided, but you can look at How do I apply the pimp-my-library pattern to Scala collections? if this is a requirement.

-