What's the difference between an RDD's map and mapPartitions method? And does flatMap behave like map or like mapPartitions? Thanks.

(edit) i.e. what is the difference (either semantically or in terms of execution) between

  def map[A, B](rdd: RDD[A], fn: (A => B))
               (implicit a: Manifest[A], b: Manifest[B]): RDD[B] = {
    rdd.mapPartitions({ iter: Iterator[A] => for (i <- iter) yield fn(i) },
      preservesPartitioning = true)


  def map[A, B](rdd: RDD[A], fn: (A => B))
               (implicit a: Manifest[A], b: Manifest[B]): RDD[B] = {

4 Answers 4


Imp. TIP :

Whenever you have heavyweight initialization that should be done once for many RDD elements rather than once per RDD element, and if this initialization, such as creation of objects from a third-party library, cannot be serialized (so that Spark can transmit it across the cluster to the worker nodes), use mapPartitions() instead of map(). mapPartitions() provides for the initialization to be done once per worker task/thread/partition instead of once per RDD data element for example : see below.

val newRd = myRdd.mapPartitions(partition => {
  val connection = new DbConnection /*creates a db connection per partition*/

  val newPartition = partition.map(record => {
    readMatchingFromDB(record, connection)
  }).toList // consumes the iterator, thus calls readMatchingFromDB 

  connection.close() // close dbconnection here
  newPartition.iterator // create a new iterator

Q2. does flatMap behave like map or like mapPartitions?

Yes. please see example 2 of flatmap.. its self explanatory.

Q1. What's the difference between an RDD's map and mapPartitions

map works the function being utilized at a per element level while mapPartitions exercises the function at the partition level.

Example Scenario : if we have 100K elements in a particular RDD partition then we will fire off the function being used by the mapping transformation 100K times when we use map.

Conversely, if we use mapPartitions then we will only call the particular function one time, but we will pass in all 100K records and get back all responses in one function call.

There will be performance gain since map works on a particular function so many times, especially if the function is doing something expensive each time that it wouldn't need to do if we passed in all the elements at once(in case of mappartitions).


Applies a transformation function on each item of the RDD and returns the result as a new RDD.

Listing Variants

def map[U: ClassTag](f: T => U): RDD[U]

Example :

val a = sc.parallelize(List("dog", "salmon", "salmon", "rat", "elephant"), 3)
 val b = a.map(_.length)
 val c = a.zip(b)
 res0: Array[(String, Int)] = Array((dog,3), (salmon,6), (salmon,6), (rat,3), (elephant,8)) 


This is a specialized map that is called only once for each partition. The entire content of the respective partitions is available as a sequential stream of values via the input argument (Iterarator[T]). The custom function must return yet another Iterator[U]. The combined result iterators are automatically converted into a new RDD. Please note, that the tuples (3,4) and (6,7) are missing from the following result due to the partitioning we chose.

preservesPartitioning indicates whether the input function preserves the partitioner, which should be false unless this is a pair RDD and the input function doesn't modify the keys.

Listing Variants

def mapPartitions[U: ClassTag](f: Iterator[T] => Iterator[U], preservesPartitioning: Boolean = false): RDD[U]

Example 1

val a = sc.parallelize(1 to 9, 3)
 def myfunc[T](iter: Iterator[T]) : Iterator[(T, T)] = {
   var res = List[(T, T)]()
   var pre = iter.next
   while (iter.hasNext)
     val cur = iter.next;
     res .::= (pre, cur)
     pre = cur;
 res0: Array[(Int, Int)] = Array((2,3), (1,2), (5,6), (4,5), (8,9), (7,8)) 

Example 2

val x = sc.parallelize(List(1, 2, 3, 4, 5, 6, 7, 8, 9,10), 3)
 def myfunc(iter: Iterator[Int]) : Iterator[Int] = {
   var res = List[Int]()
   while (iter.hasNext) {
     val cur = iter.next;
     res = res ::: List.fill(scala.util.Random.nextInt(10))(cur)
 // some of the number are not outputted at all. This is because the random number generated for it is zero.
 res8: Array[Int] = Array(1, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 5, 7, 7, 7, 9, 9, 10) 

The above program can also be written using flatMap as follows.

Example 2 using flatmap

val x  = sc.parallelize(1 to 10, 3)

 res1: Array[Int] = Array(1, 2, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4, 5, 5, 6, 6, 6, 6, 6, 6, 6, 6, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 9, 9, 9, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10) 

Conclusion :

mapPartitions transformation is faster than map since it calls your function once/partition, not once/element..

Further reading : foreach Vs foreachPartitions When to use What?

  • 4
    I know that you can use map or mapPartitions to achieve the same result (see the two examples in the question); this question is about why you'd choose one way over the other. The comments in the other answer are really useful! Also, you didn't mention that map and flatMap pass false to preservesPartitioning, and what the implications of that are. Aug 30, 2016 at 10:35
  • 2
    the function executed everytime versus function execute once for the parition was the link I was missing. Having access to more than one data record at a time with mapPartition is an invaluable thing. appreciate the answer Jan 20, 2017 at 0:36
  • 2
    Is there a scenario where map is better than mapPartitions? If mapPartitions is so good, why isn't it the default map implementation?
    – ruhong
    Mar 17, 2017 at 0:30
  • 1
    @oneleggedmule: both are for different requirements we have to use wisely if you are instantiating resources like db connections (like shown in the above example) which are costly then mappartitions is right approach since one connection per partition. also saveAsTextFile internally used mappartitions see Mar 18, 2017 at 18:37
  • @oneleggedmule From my point of view, map() is easier to understand and learn, and it is also a common method of many different languages. It may be easier to use as well than mapPartitions() if someone is not familiar with this Spark specific method at the beginning. If there is no performance difference then I prefer to use map(). Mar 30, 2017 at 22:16

What's the difference between an RDD's map and mapPartitions method?

The method map converts each element of the source RDD into a single element of the result RDD by applying a function. mapPartitions converts each partition of the source RDD into multiple elements of the result (possibly none).

And does flatMap behave like map or like mapPartitions?

Neither, flatMap works on a single element (as map) and produces multiple elements of the result (as mapPartitions).

  • 3
    Thanks - so does map cause shuffles (or otherwise change the number of partitions)? Does it move data between nodes? I've been using mapPartitions to avoid moving data between nodes, but wasn't sure if flapMap would do so. Jan 18, 2014 at 10:52
  • If you look at the source -- github.com/apache/incubator-spark/blob/… and github.com/apache/incubator-spark/blob/… -- both map and flatMap have exactly the same partitions as the parent. Jan 18, 2014 at 20:54
  • 14
    As a note, a presentation provided by a speaker at the 2013 San Francisco Spark Summit (goo.gl/JZXDCR) highlights that tasks with high per-record overhead perform better with a mapPartition than with a map transformation. This is, according to the presentation, due to the high cost of setting up a new task. Sep 4, 2014 at 7:29
  • 1
    I'm seeing the opposite -- even with very small operations, its faster to call mapPartitions and iterate than call map. I am assuming that this is just the overhead of starting the language engine that will process the map task. (I'm in R, which may have more startup overhead.) If you would be performing multiple operations, then mapPartitions seems to be quite a bit faster -- I'm assuming this is because it reads the RDD only once. Even if the RDD is cached in RAM, that saves a lot of overhead from type conversion.
    – Bob
    Mar 27, 2015 at 4:58
  • 4
    map basically takes your function f, and passes it into iter.map(f). So basically its a convenience method that wraps mapPartitions. I'd be surprised if there was a performance advantage either way for a pure map style transformation job (i.e. where the function is identical), if you need to create some objects for processing, if these objects can be shared then mapPartitions would be advantageous.
    – NightWolf
    Aug 21, 2015 at 7:08

Map :

  1. It processes one row at a time , very similar to map() method of MapReduce.
  2. You return from the transformation after every row.


  1. It processes the complete partition in one go.
  2. You can return from the function only once after processing the whole partition.
  3. All intermediate results needs to be held in memory till you process the whole partition.
  4. Provides you like setup() map() and cleanup() function of MapReduce

Map Vs mapPartitions http://bytepadding.com/big-data/spark/spark-map-vs-mappartitions/

Spark Map http://bytepadding.com/big-data/spark/spark-map/

Spark mapPartitions http://bytepadding.com/big-data/spark/spark-mappartitions/

  • 1
    regarding 2 - if you're performing iterator-to-iterator transformations, and not materializing the iterator to a collection of some sort, you won't have to hold the entire partition in memory, in fact, that way spark will be able to spill parts of the partition to disk.
    – ilcord
    Jun 20, 2017 at 12:38
  • 4
    You dont have to hold the entire partition in memory, but the result. You cannot return the result until you have processed the whole partition Jun 21, 2017 at 13:55


Map transformation.

The map works on a single Row at a time.

Map returns after each input Row.

The map doesn’t hold the output result in Memory.

Map no way to figure out then to end the service.

// map example

val dfList = (1 to 100) toList

val df = dfList.toDF()

val dfInt = df.map(x => x.getInt(0)+2)



MapPartition transformation.

MapPartition works on a partition at a time.

MapPartition returns after processing all the rows in the partition.

MapPartition output is retained in memory, as it can return after processing all the rows in a particular partition.

MapPartition service can be shut down before returning.

// MapPartition example

Val dfList = (1 to 100) toList

Val df = dfList.toDF()

Val df1 = df.repartition(4).rdd.mapPartition((int) => Iterator(itr.length))



For more details, please refer to the Spark map vs mapPartitions transformation article.

Hope this is helpful!

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.