Consider the following example:

JavaPairRDD<String, Row> R = input.textFile("test").mapToPair(new PairFunction<String, String, Row>() {
        public Tuple2<String, Row> call(String arg0) throws Exception {
            String[] parts = arg0.split(" ");
            Row r = RowFactory.create(parts[0],parts[1]);
            return new Tuple2<String, Row>(r.get(0).toString(), r);
        }}).partitionBy(new HashPartitioner(20));

The code above creates an RDD named R which is partitioned in 20 pieces by hashing on the first column of a txt file named "test".

Consider that the test.txt file is of the following form:

valueA1 valueB1
valueA1 valueB2
valueA1 valueB3
valueA1 valueB4

In my context, I have a known value e.g., valueA1 and I want to retrieve all the other values. It is trivial to do it by using the existing filter operation with the specified value. However, I would like to avoid this since essentially the filter operation will be performed on the whole RDD.

Assume that the hash(valueA1)=3, I would like to perform a given operation only on partition 3. More generally, I am interested in dropping/selecting specific partitions from an RDD and perform operations on them.

From the SPARK API it seems that it is not possible directly is there a workaround to achieve the same thing?

1 Answer 1


For single keys you can use lookup method:


// Seq[Int] = ArrayBuffer(1, 4)

For an efficient lookup you'll need a RDD which is partitioned, for example using HashPartitioner as below.

If you want to simply filter partitions containing specific keys it can be done with mapPartitionsWithIndex:

import org.apache.spark.HashPartitioner

val rdd = sc.parallelize(
  Seq(("a", 1), ("b", 2), ("c", 3), ("a", 4), ("b", 5)
// A particular number is used only to get a reproducible output
)).partitionBy(new HashPartitioner(8))  

val keys = Set("a", "c")
val parts = keys.map(_.## % rdd.partitions.size)

rdd.mapPartitionsWithIndex((i, iter) =>
  if (parts.contains(i)) iter.filter{ case (k, _) => keys.contains(k) }
  else Iterator()

// Array[(String, Int)] = Array((a,1), (a,4), (c,3))
  • Good, answer. I think, I prefer the mapPartitionsWithIndex option since it retains the RDD type and does not necessarily require to bring data to the driver program.
    – zabetak
    Dec 2, 2015 at 17:08
  • 1
    Why did you use .partitionBy(new HashPartitioner(8))? The second param to parallelize could've done it for you (since HashPartitioner is the default partitioner). Dec 9, 2015 at 19:08
  • @JacekLaskowski Only to get a reproducible output.
    – zero323
    Dec 9, 2015 at 19:14
  • 1
    Just use 8 as the second param and you'll also get...reproducible output. Dec 9, 2015 at 19:17
  • @JacekLaskowski On a second thought it won't work without explicit HashPartitioner. As far as I can tell ParallelCollectionRDD doesn't use HashPartioner and computes sliced only based on indices.
    – zero323
    Dec 9, 2015 at 19:36

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