I'd like to get top N items after groupByKey of RDD and convert the type of topNPerGroup(in the below) to RDD[(String, Int)] where List[Int] values are flatten

The data is

val data = sc.parallelize(Seq("foo"->3, "foo"->1, "foo"->2,
                              "bar"->6, "bar"->5, "bar"->4))

The top N items per group are computed as:

val topNPerGroup: RDD[(String, List[Int]) = data.groupByKey.map { 
   case (key, numbers) => 
       key -> numbers.toList.sortBy(-_).take(2)

The result is

(bar,List(6, 5))
(foo,List(3, 2))

which was printed by


If I achieve, topNPerGroup.collect.foreach(println) will generate (expected result!)

(bar, 6)
(bar, 5)
(foo, 3)
(foo, 2)

Your question is a little confusing, but I think this does what you're looking for:

val flattenedTopNPerGroup = 
    topNPerGroup.flatMap({case (key, numbers) => numbers.map(key -> _)})

and in the repl it prints out what you want:

  • Solved, thanks! – emeth Dec 4 '14 at 5:33

Spark 1.4.0 solves the question.

Take a look at https://github.com/apache/spark/commit/5e6ad24ff645a9b0f63d9c0f17193550963aa0a7

This uses BoundedPriorityQueue with aggregateByKey

def topByKey(num: Int)(implicit ord: Ordering[V]): RDD[(K, Array[V])] = {
  self.aggregateByKey(new BoundedPriorityQueue[V](num)(ord))(
    seqOp = (queue, item) => {
      queue += item
    combOp = (queue1, queue2) => {
      queue1 ++= queue2
  ).mapValues(_.toArray.sorted(ord.reverse))  // This is an min-heap, so we reverse the order.

I've been struggling with this same issue recently but my need was a little different in that I needed the top K values per key with a data set like (key: Int, (domain: String, count: Long)). While your dataset is simpler there is still a scaling/performance issue by using groupByKey as noted in the documentation.

When called on a dataset of (K, V) pairs, returns a dataset of (K, Iterable) pairs. Note: If you are grouping in order to perform an aggregation (such as a sum or average) over each key, using reduceByKey or combineByKey will yield much better performance.

In my case I ran into problems very quickly because my Iterable in (K, Iterable<V>) was very large, > 1 million, so the sorting and taking of the top N became very expensive and creates potential memory issues.

After some digging, see references below, here is a full example using combineByKey to accomplish the same task in a way that will perform and scale.

import org.apache.spark.SparkContext
import org.apache.spark.SparkContext._

object TopNForKey {

  var SampleDataset = List(
    (1, ("apple.com", 3L)),
    (1, ("google.com", 4L)),
    (1, ("stackoverflow.com", 10L)),
    (1, ("reddit.com", 15L)),
    (2, ("slashdot.org", 11L)),
    (2, ("samsung.com", 1L)),
    (2, ("apple.com", 9L)),
    (3, ("microsoft.com", 5L)),
    (3, ("yahoo.com", 3L)),
    (3, ("google.com", 4L)))

  //sort and trim a traversable (String, Long) tuple by _2 value of the tuple
  def topNs(xs: TraversableOnce[(String, Long)], n: Int) = {
    var ss = List[(String, Long)]()
    var min = Long.MaxValue
    var len = 0
    xs foreach { e =>
      if (len < n || e._2 > min) {
        ss = (e :: ss).sortBy((f) => f._2)
        min = ss.head._2
        len += 1
      if (len > n) {
        ss = ss.tail
        min = ss.head._2
        len -= 1

  def main(args: Array[String]): Unit = {

    val topN = 2
    val sc = new SparkContext("local", "TopN For Key")
    val rdd = sc.parallelize(SampleDataset).map((t) => (t._1, t._2))

    //use combineByKey to allow spark to partition the sorting and "trimming" across the cluster
    val topNForKey = rdd.combineByKey(
      //seed a list for each key to hold your top N's with your first record
      (v) => List[(String, Long)](v),
      //add the incoming value to the accumulating top N list for the key
      (acc: List[(String, Long)], v) => topNs(acc ++ List((v._1, v._2)), topN).toList,
      //merge top N lists returned from each partition into a new combined top N list
      (acc: List[(String, Long)], acc2: List[(String, Long)]) => topNs(acc ++ acc2, topN).toList)

    //print results sorting for pretty
    topNForKey.sortByKey(true).foreach((t) => {
      println(s"key: ${t._1}")
      t._2.foreach((v) => {
        println(s"----- $v")




And what I get in the returning rdd...

(1, List(("google.com", 4L),
         ("stackoverflow.com", 10L))
(2, List(("apple.com", 9L),
         ("slashdot.org", 15L))
(3, List(("google.com", 4L),
         ("microsoft.com", 5L))






Just use topByKey:

import org.apache.spark.mllib.rdd.MLPairRDDFunctions._
import org.apache.spark.rdd.RDD

val topTwo: RDD[(String, Int)] = data.topByKey(2).flatMapValues(x => x)


It is also possible provide alternative Ordering (not required here). For example if you wanted n smallest values:

data.topByKey(2)(scala.math.Ordering.by[Int, Int](- _))

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