Once I have got in Spark some Row class, either Dataframe or Catalyst, I want to convert it to a case class in my code. This can be done by matching

someRow match {case Row(a:Long,b:String,c:Double) => myCaseClass(a,b,c)}

But it becomes ugly when the row has a huge number of columns, say a dozen of Doubles, some Booleans and even the occasional null.

I would like just to be able to -sorry- cast Row to myCaseClass. Is it possible, or have I already got the most economical syntax?

  • 1
    Probably shapeless (github.com/milessabin/shapeless/wiki/…) can help reducing the boilerplate, but probably it does not like very much nulls. Maybe macros (in case you have many case classes)? Commented Jan 27, 2015 at 9:05
  • Never tried macros. A problem here is that I am a believers on standards for languages. I can imagine that I can always do my own methods, or use someone else... but I prefer to try to understand how it is done without any externals.
    – arivero
    Commented Jan 27, 2015 at 10:16
  • wondering... perhaps could I to subclass "myCaseClass" from Row?
    – arivero
    Commented Jul 19, 2015 at 6:25
  • 1
    This is such a disappointment. I've got a large, complex case class and now need to manually map each column back to it when I want to load and work with it. It makes me sad :-(
    – jbrown
    Commented Nov 30, 2015 at 16:04

4 Answers 4


DataFrame is simply a type alias of Dataset[Row] . These operations are also referred as “untyped transformations” in contrast to “typed transformations” that come with strongly typed Scala/Java Datasets.

The conversion from Dataset[Row] to Dataset[Person] is very simple in spark

val DFtoProcess = SQLContext.sql("SELECT * FROM peoples WHERE name='test'")

At this point, Spark converts your data into DataFrame = Dataset[Row], a collection of generic Row object, since it does not know the exact type.

// Create an Encoders for Java class (In my eg. Person is a JAVA class)
// For scala case class you can pass Person without .class reference
val personEncoder = Encoders.bean(Person.class) 

val DStoProcess = DFtoProcess.as[Person](personEncoder)

Now, Spark converts the Dataset[Row] -> Dataset[Person] type-specific Scala / Java JVM object, as dictated by the class Person.

Please refer to below link provided by databricks for further details


  • 9
    You only have one answer out there - but it's a good one in any case! I could not find any information on how to create a custom Spark encoder until stumbling upon this answer. btw the scala way is Encoders.bean[Person] Commented Sep 21, 2017 at 5:50
  • 2
    it should be noted that as is unsafe as it doesn't check that the cast is valid. I don't understand how they added such an ugly function to their API (it should be called unsafeAs - and where is the safe as that simultaneously does filtering or returns DataSet[Option[T]]?)
    – user239558
    Commented Apr 16, 2018 at 11:59
  • 1
    @javadba - I guess this doesn't work with case classes? I get an error Cannot infer type for class Person because it is not bean-compliant here.
    – Sasgorilla
    Commented May 7, 2018 at 18:40
  • 2
    This is clearly the cleanest solution when I want to transform a Dataset[Row] into a Dataset[Person], but what if I just want to convert a single Row object? I'm falling back on just manually constructing the Person from each field in the Row. Is there a better way?
    – Sasgorilla
    Commented May 7, 2018 at 18:55
  • 6
    @sasgorilla the correct answer for case classes is below - you need to import spark.implicits._ then you can just use df.as[Person] Commented Aug 15, 2018 at 0:22

As far as I know you cannot cast a Row to a case class, but I sometimes chose to access the row fields directly, like

map(row => myCaseClass(row.getLong(0), row.getString(1), row.getDouble(2))

I find this to be easier, especially if the case class constructor only needs some of the fields from the row.

  • 2
    And you avoid the problem of matching java nulls :-)
    – arivero
    Commented Sep 3, 2015 at 17:07
  • I like this representation too for smaller column set, but if the column set is bigger which adds ambiguity then I think @Gianmarios suggestion might be more extensible. I need to verify on a couple of things myself. Will get back to you on this.
    – Pramit
    Commented Oct 12, 2016 at 20:47
  • if some of the fields in case class are generic, would that work?
    – cozyss
    Commented Feb 27, 2018 at 17:11
  • Thank you! This was a big help.
    – bit_flip
    Commented Apr 11, 2019 at 14:14
scala> import spark.implicits._    
scala> val df = Seq((1, "james"), (2, "tony")).toDF("id", "name")
df: org.apache.spark.sql.DataFrame = [id: int, name: string]

scala> case class Student(id: Int, name: String)
defined class Student

scala> df.as[Student].collectAsList
res6: java.util.List[Student] = [Student(1,james), Student(2,tony)]

Here the spark in spark.implicits._ is your SparkSession. If you are inside the REPL the session is already defined as spark otherwise you need to adjust the name accordingly to correspond to your SparkSession.

  • 4
    For Spark 2.1.0 I had to import spark.implicits._ to get this work - nice, elegant solution for Scala
    – Darth Jon
    Commented Feb 27, 2018 at 16:50
  • 1
    See stackoverflow.com/questions/39968707/… for more details of spark.implicits._ Commented Aug 15, 2018 at 0:19
  • I do this outside of the REPL and in a test, and it says Error:(44, 30) not enough arguments for method as: (implicit evidence$2: org.apache.spark.sql.Encoder[Student])org.apache.spark.sql.Dataset[Student]. Unspecified value parameter evidence$2. val rows = df.as[Student].collectAsList()
    – NateH06
    Commented Jun 25, 2019 at 21:04

Of course you can match a Row object into a case class. Let's suppose your SchemaType has many fields and you want to match a few of them into your case class. If you don't have null fields you can simply do:

case class MyClass(a: Long, b: String, c: Int, d: String, e: String)

dataframe.map {
  case Row(a: java.math.BigDecimal, 
    b: String, 
    c: Int, 
    _: String,
    _: java.sql.Date, 
    e: java.sql.Date,
    _: java.sql.Timestamp, 
    _: java.sql.Timestamp, 
    _: java.math.BigDecimal, 
    _: String) => MyClass(a = a.longValue(), b = b, c = c, d = d.toString, e = e.toString)

This approach will fail in case of null values and also require you do explicitly define the type of each single field. If you have to handle null values you need to either discard all the rows containing null values by doing


That will drop records even if the null fields are not the ones used in your pattern matching for your case class. Or if you want to handle it you could turn the Row object into a List and then use the option pattern:

case class MyClass(a: Long, b: String, c: Option[Int], d: String, e: String)

dataframe.map(_.toSeq.toList match {
  case List(a: java.math.BigDecimal, 
    b: String, 
    c: Int, 
    _: String,
    _: java.sql.Date, 
    e: java.sql.Date,
    _: java.sql.Timestamp, 
    _: java.sql.Timestamp, 
    _: java.math.BigDecimal, 
    _: String) => MyClass(
      a = a.longValue(), b = b, c = Option(c), d = d.toString, e = e.toString)

Check this github project Sparkz () which will soon introduce a lot of libraries for simplifying the Spark and DataFrame APIs and make them more functional programming oriented.


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