We have a very standard Spark job which reads log files from s3 and then does some processing over them. Very basic Spark stuff...

val logs = sc.textFile(somePathTos3)
val mappedRows = logs.map(log => OurRowObject.parseLog(log.split("\t")))
val validRows = mappedRows.filter(log => log._1._1 != "ERROR")
...and continue processing

Where OurRowObject.parseLine takes the raw log line and maps it to some (key, value) pair (e.g. ( (1,2,3,4), (5,6,7) ) that we can then do processing on. Now, if parseLine encounters a "problem" log (malformed, empty, etc...) it will return some sentinel value (e.g. ( ("ERROR", ...), (...) ) which the filter step then filters out.

Now, what I have been trying to find a way to do is to simply not include the problem row(s) during the map...some way to tell spark "Hey this is an empty/malformed row, skip it and don't include a pair for it", instead of that additional filter step.

I have not yet been able to find a way to do this, and find it very interesting that this functionality does not (AFAICanFind) exist.

Thank you

  • Instead of during the map, you could add .option("mode", "DROPMALFORMED") or .option("mode","FAILFAST") to interrupt the job with a useful exception during the textFile read. See the docs for more detail – ecoe May 15 '18 at 14:23

You could make the parser return an Option[Value] instead of a Value. That way you could use flatMap to map the lines to rows and remove those that were invalid.

In rough lines something like this:

def parseLog(line:String):Option[Array[String]] = {
    val splitted = log.split("\t")
    if (validate(splitted)) Some(splitted) else None

val validRows = logs.flatMap(OurRowObject.parseLog(_))
  • interesting idea, I'll give it a shot. Thanks! – K Raphael Nov 6 '14 at 18:01
  • While I really like this solution, it seems like you should be able to achieve a similar effect using the one parameter overload of collect (instead of map or flatMap) and a PartialFunction. I haven't been able to get anything more than a trivial example working but you may find it's also a fun possibility to explore. This Option[Value] approach seems a lot easier to use. (I'm happy to share my code but won't post it since it doesn't quite work.) – Spiro Michaylov Nov 7 '14 at 7:27
  • @SpiroMichaylov That's correct, collect(PF[A,B]) should also work to do this kind of filtering. The one thing about collect is Spark that I don't like is that collect without params is to get all data to the driver while collect(PF) is a transformation, which gets confusing for people. Could you add it as an answer? It's a very valid option. – maasg Nov 7 '14 at 9:36
  • @maasg I'm totally with you about the two overloads of collect being confusing. It's one of the weaker corners of the Spark APIs, in terms of design. I also find the mechanism for defining PartialFunctions in Scala to be a bit restrictive and hard to use. I'll see if I can fix my solution and post it: I'm having a problem with serializability of composed partial functions. – Spiro Michaylov Nov 7 '14 at 16:13
  • 1
    @maasg Posted here, but it makes me a bit sad. – Spiro Michaylov Nov 8 '14 at 21:04

One approach is to use the one-parameter overload of collect (instead of map or flatMap) and a PartialFunction. This is a little tricky if the partial function you need isn't completely trivial. In fact yours probably won't be because you need to parse and validate, which I'll model below with two partial functions (although the first one happens to be defined for all inputs).

// this doesn't really need to be a partial function but we'll 
// want to compose it with one and end up with a partial function
val split: PartialFunction[String, Array[String]] = {
  case log => log.split("\t")

// this really needs to be a partial function
val validate: PartialFunction[Array[String], Array[String]] = {
  case lines if lines.length > 2 => lines

val splitAndValidate = split andThen validate

val logs = sc.parallelize(Seq("a\tb", "u\tv\tw", "a", "x\ty\tz"), 4)

// only accept the logs with more than two entries
val validRows = logs.collect(splitAndValidate)

This is perfectly good Scala but it doesn't work because splitAndValidate isn't serializable and we're using Spark. (Note that split and validate are serializable: the problem lies with composition!) So, we need to make a PartialFunction that is serializable:

class LogValidator extends PartialFunction[String, Array[String]] with Serializable {

  private val validate: PartialFunction[Array[String], Array[String]] = {
    case lines if lines.length > 2 => lines

  override def apply(log: String) : Array[String] = {

  override def isDefinedAt(log: String) : Boolean = {


Then we can call

val validRows = logs.collect(new LogValidator())

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