I have two RDD's that I want to join and they look like this:

val rdd1:RDD[(T,U)]
val rdd2:RDD[((T,W), V)]

It happens to be the case that the key values of rdd1 are unique and also that the tuple-key values of rdd2 are unique. I'd like to join the two data sets so that I get the following rdd:

val rdd_joined:RDD[((T,W), (U,V))]

What's the most efficient way to achieve this? Here are a few ideas I've thought of.

Option 1:

val m = rdd1.collectAsMap
val rdd_joined = rdd2.map({case ((t,w), u) => ((t,w), u, m.get(t))})

Option 2:

val distinct_w = rdd2.map({case ((t,w), u) => w}).distinct
val rdd_joined = rdd1.cartesian(distinct_w).join(rdd2)

Option 1 will collect all of the data to master, right? So that doesn't seem like a good option if rdd1 is large (it's relatively large in my case, although an order of magnitude smaller than rdd2). Option 2 does an ugly distinct and cartesian product, which also seems very inefficient. Another possibility that crossed my mind (but haven't tried yet) is to do option 1 and broadcast the map, although it would be better to broadcast in a "smart" way so that the keys of the map are co-located with the keys of rdd2.

Has anyone come across this sort of situation before? I'd be happy to have your thoughts.


up vote 58 down vote accepted

One option is to perform a broadcast join by collecting rdd1 to the driver and broadcasting it to all mappers; done correctly, this will let us avoid an expensive shuffle of the large rdd2 RDD:

val rdd1 = sc.parallelize(Seq((1, "A"), (2, "B"), (3, "C")))
val rdd2 = sc.parallelize(Seq(((1, "Z"), 111), ((1, "ZZ"), 111), ((2, "Y"), 222), ((3, "X"), 333)))

val rdd1Broadcast = sc.broadcast(rdd1.collectAsMap())
val joined = rdd2.mapPartitions({ iter =>
  val m = rdd1Broadcast.value
  for {
    ((t, w), u) <- iter
    if m.contains(t)
  } yield ((t, w), (u, m.get(t).get))
}, preservesPartitioning = true)

The preservesPartitioning = true tells Spark that this map function doesn't modify the keys of rdd2; this will allow Spark to avoid re-partitioning rdd2 for any subsequent operations that join based on the (t, w) key.

This broadcast could be inefficient since it involves a communications bottleneck at the driver. In principle, it's possible to broadcast one RDD to another without involving the driver; I have a prototype of this that I'd like to generalize and add to Spark.

Another option is to re-map the keys of rdd2 and use the Spark join method; this will involve a full shuffle of rdd2 (and possibly rdd1):

rdd1.join(rdd2.map {
  case ((t, w), u) => (t, (w, u))
}).map {
  case (t, (v, (w, u))) => ((t, w), (u, v))

On my sample input, both of these methods produce the same result:

res1: Array[((Int, java.lang.String), (Int, java.lang.String))] = Array(((1,Z),(111,A)), ((1,ZZ),(111,A)), ((2,Y),(222,B)), ((3,X),(333,C)))

A third option would be to restructure rdd2 so that t is its key, then perform the above join.

  • 1
    I think you're second option is probably the easiest way to go, though restructuring rdd2 would be convenient. – Noah Jul 17 '13 at 14:30
  • I'll have to learn more about the way the mapPartitions function works, but that seems like what I was looking for. I also agree that I could re-structure rdd2 and through a series of maps get back to the original thing I wanted. I'll look into both options and see how well they perform for my use case. Thanks for the suggestions! – RyanH Jul 17 '13 at 15:06
  • For the first option, when i try val rdd1Broadcast = sc.broadcast(rdd1.collectAsMap()) it returns data incomplete. Is there a way of adjusting first option using collect() instead of collecAsMap()? – mlee_jordan Sep 22 '15 at 8:35

Another way to do it is to create a custom partitioner and then use zipPartitions to join your RDDs.

import org.apache.spark.HashPartitioner

class RDD2Partitioner(partitions: Int) extends HashPartitioner(partitions) {

  override def getPartition(key: Any): Int = key match {
    case k: Tuple2[Int, String] => super.getPartition(k._1)
    case _ => super.getPartition(key)


val numSplits = 8
val rdd1 = sc.parallelize(Seq((1, "A"), (2, "B"), (3, "C"))).partitionBy(new HashPartitioner(numSplits))
val rdd2 = sc.parallelize(Seq(((1, "Z"), 111), ((1, "ZZ"), 111), ((1, "AA"), 123), ((2, "Y"), 222), ((3, "X"), 333))).partitionBy(new RDD2Partitioner(numSplits))

val result = rdd2.zipPartitions(rdd1)(
  (iter2, iter1) => {
    val m = iter1.toMap
    for {
        ((t: Int, w), u) <- iter2
        if m.contains(t)
      } yield ((t, w), (u, m.get(t).get))
).partitionBy(new HashPartitioner(numSplits))


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