I use the following command to fill an RDD with a bunch of arrays containing 2 strings ["filename", "content"].

Now I want to iterate over every of those occurrences to do something with every filename and content.

val someRDD = sc.wholeTextFiles("hdfs://localhost:8020/user/cloudera/*")

I can't seem to find any documentation on how to do this however.

So what I want is this:

foreach occurrence-in-the-rdd{
   //do stuff with the array found on loccation n of the RDD

5 Answers 5


You call various methods on the RDD that accept functions as parameters.

// set up an example -- an RDD of arrays
val sparkConf = new SparkConf().setMaster("local").setAppName("Example")
val sc = new SparkContext(sparkConf)
val testData = Array(Array(1,2,3), Array(4,5,6,7,8))
val testRDD = sc.parallelize(testData, 2)

// Print the RDD of arrays.
testRDD.collect().foreach(a => println(a.size))

// Use map() to create an RDD with the array sizes.
val countRDD = testRDD.map(a => a.size)

// Print the elements of this new RDD.
countRDD.collect().foreach(a => println(a))

// Use filter() to create an RDD with just the longer arrays.
val bigRDD = testRDD.filter(a => a.size > 3)

// Print each remaining array.
bigRDD.collect().foreach(a => {
    a.foreach(e => print(e + " "))

Notice that the functions you write accept a single RDD element as input, and return data of some uniform type, so you create an RDD of the latter type. For example, countRDD is an RDD[Int], while bigRDD is still an RDD[Array[Int]].

It will probably be tempting at some point to write a foreach that modifies some other data, but you should resist for reasons described in this question and answer.

Edit: Don't try to print large RDDs

Several readers have asked about using collect() and println() to see their results, as in the example above. Of course, this only works if you're running in an interactive mode like the Spark REPL (read-eval-print-loop.) It's best to call collect() on the RDD to get a sequential array for orderly printing. But collect() may bring back too much data and in any case too much may be printed. Here are some alternative ways to get insight into your RDDs if they're large:

  1. RDD.take(): This gives you fine control on the number of elements you get but not where they came from -- defined as the "first" ones which is a concept dealt with by various other questions and answers here.

    // take() returns an Array so no need to collect()
    myHugeRDD.take(20).foreach(a => println(a))
  2. RDD.sample(): This lets you (roughly) control the fraction of results you get, whether sampling uses replacement, and even optionally the random number seed.

    // sample() does return an RDD so you may still want to collect()
    myHugeRDD.sample(true, 0.01).collect().foreach(a => println(a))
  3. RDD.takeSample(): This is a hybrid: using random sampling that you can control, but both letting you specify the exact number of results and returning an Array.

    // takeSample() returns an Array so no need to collect() 
    myHugeRDD.takeSample(true, 20).foreach(a => println(a))
  4. RDD.count(): Sometimes the best insight comes from how many elements you ended up with -- I often do this first.

  • Isn't there the risk that the different workers will print in some uncoordinated fashion, mixing up their lines? If it works anyway, is this documented? Commented Apr 25, 2015 at 2:06
  • 1
    @EOL Yes, I was being sloppy -- I just edited my answer to add collect() calls when printing RDDs. Commented Apr 28, 2015 at 15:00
  • Nice, provided complete example even showing setup of sc!
    – JimLohse
    Commented Feb 25, 2016 at 0:26
  • How would you do it if you had a reasonably big RDD that if you call collect() on it, you would run out of memory? Commented Apr 22, 2016 at 16:27
  • @billy_b29 I think if the RDD is big enough for this to be a problem you're not going to want to print it all to the console anyway. I only added the collect() so the results could be printed cleanly. Since this keeps coming up I've added some solutions to the end of my answer. I hope it helps. Commented Apr 23, 2016 at 15:21

The fundamental operations in Spark are map and filter.

val txtRDD = someRDD filter { case(id, content) => id.endsWith(".txt") }

the txtRDD will now only contain files that have the extension ".txt"

And if you want to word count those files you can say

//split the documents into words in one long list
val words = txtRDD flatMap { case (id,text) => text.split("\\s+") }
// give each word a count of 1
val wordT = words map (x => (x,1))  
//sum up the counts for each word
val wordCount = wordsT reduceByKey((a, b) => a + b)

You want to use mapPartitions when you have some expensive initialization you need to perform -- for example, if you want to do Named Entity Recognition with a library like the Stanford coreNLP tools.

Master map, filter, flatMap, and reduce, and you are well on your way to mastering Spark.


I would try making use of a partition mapping function. The code below shows how an entire RDD dataset can be processed in a loop so that each input goes through the very same function. I am afraid I have no knowledge about Scala, so everything I have to offer is java code. However, it should not be very difficult to translate it into scala.

JavaRDD<String> res = file.mapPartitions(new FlatMapFunction <Iterator<String> ,String>(){ 
      public Iterable<String> call(Iterator <String> t) throws Exception {  

          ArrayList<String[]> tmpRes = new ArrayList <>();
          String[] fillData = new String[2];

          fillData[0] = "filename";
          fillData[1] = "content";


          return Arrays.asList(tmpRes);

  • Does this actually get run in parallel? I thought anytime a for or while loop is called in an anonymous function in Spark, it gets run sequentially in a single executor
    – JimLohse
    Commented Feb 25, 2016 at 0:29
  • @JimLohse Yes it does. Commented Mar 15, 2019 at 5:13
  • @thebluephantom Sorry for confusion you mean yes it does run in parallel? Or yes it runs sequentially? Thanks, this was three years ago probably on Spark 1.6 and I haven't used it since late 2016
    – JimLohse
    Commented Mar 16, 2019 at 20:48
  • It runs in parallel, also then. Commented Mar 16, 2019 at 20:50

what the wholeTextFiles return is a Pair RDD:

def wholeTextFiles(path: String, minPartitions: Int): RDD[(String, String)]

Read a directory of text files from HDFS, a local file system (available on all nodes), or any Hadoop-supported file system URI. Each file is read as a single record and returned in a key-value pair, where the key is the path of each file, the value is the content of each file.

Here is an example of reading the files at a local path then printing every filename and content.

val conf = new SparkConf().setAppName("scala-test").setMaster("local")
val sc = new SparkContext(conf)
  .foreach(t => println(t._1 + ":" + t._2));

the result:




or converting the Pair RDD to a RDD first

  .map(t => t._2)
  .foreach { x => println(x)}

the result:




And I think wholeTextFiles is more compliant for small files.

for (element <- YourRDD)
     // do what you want with element in each iteration, and if you want the index of element, simply use a counter variable in this loop beginning from 0 
     println (element._1) // this will print all filenames
  • 2
    please add some detail to this answer, maybe a fuller example, in its current state this isn't a great answer
    – Preston
    Commented Jun 14, 2018 at 13:05
  • Each item will use by element._1 for file name and element. _2 for content in the for loop, Commented Jun 15, 2018 at 8:30

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