I am trying to implement a custom UDT and be able to reference it from Spark SQL (as explained in the Spark SQL whitepaper, section 4.4.2).

The real example is to have a custom UDT backed by an off-heap data structure using Cap'n Proto, or similar.

For this posting, I have made up a contrived example. I know that I could just use Scala case classes and not have to do any work at all, but that isn't my goal.

For example, I have a Person containing several attributes and I want to be able to SELECT person.first_name FROM person. I'm running into the error Can't extract value from person#1 and I'm not sure why.

Here is the full source (also available at https://github.com/andygrove/spark-sql-udt)

package com.theotherandygrove

import org.apache.spark.sql.types._
import org.apache.spark.sql.{Row, SQLContext}
import org.apache.spark.{SparkConf, SparkContext}

object Example {

  def main(arg: Array[String]): Unit = {

    val conf = new SparkConf()

    val sc = new SparkContext(conf)

    val sqlContext = new SQLContext(sc)

    val schema = StructType(List(
      StructField("person_id", DataTypes.IntegerType, true),
      StructField("person", new MockPersonUDT, true)))

    // load initial RDD
    val rdd = sc.parallelize(List(

    // convert to RDD[Row]
    val rowRdd = rdd.map(person => Row(person.getAge, person))

    // convert to DataFrame (RDD + Schema)
    val dataFrame = sqlContext.createDataFrame(rowRdd, schema)

    // register as a table

    // selecting the whole object works fine
    val results = sqlContext.sql("SELECT person.first_name FROM person WHERE person.age < 100")

    val people = results.collect

    people.map(row => {


trait MockPerson {
  def getFirstName: String
  def getLastName: String
  def getAge: Integer
  def getState: String

class MockPersonUDT extends UserDefinedType[MockPerson] {

  override def sqlType: DataType = StructType(List(
    StructField("firstName", StringType, nullable=false),
    StructField("lastName", StringType, nullable=false),
    StructField("age", IntegerType, nullable=false),
    StructField("state", StringType, nullable=false)

  override def userClass: Class[MockPerson] = classOf[MockPerson]

  override def serialize(obj: Any): Any = obj.asInstanceOf[MockPersonImpl].getAge

  override def deserialize(datum: Any): MockPerson = MockPersonImpl(datum.asInstanceOf[Integer])

@SQLUserDefinedType(udt = classOf[MockPersonUDT])
case class MockPersonImpl(n: Integer) extends MockPerson with Serializable {
  def getFirstName = "First" + n
  def getLastName = "Last" + n
  def getAge = n
  def getState = "AK"

If I simply SELECT person FROM person then the query works. I just can't reference the attributes in SQL, even though they are defined in the schema.

1 Answer 1


You get this errors because schema defined by sqlType is never exposed and is not intended to be accessed directly. It simply provides a way to express a complex data types using native Spark SQL types.

You can access individual attributes using UDFs but first lets show that the internal structure is indeed not exposed:

// root
//  |-- person_id: integer (nullable = true)
//  |-- person: mockperso (nullable = true)

To create UDF we need functions which take as an argument an object of a type represented by a given UDT:

import org.apache.spark.sql.functions.udf

val getFirstName = (person: MockPerson) => person.getFirstName
val getLastName = (person: MockPerson) => person.getLastName
val getAge = (person: MockPerson) => person.getAge

which can be wrapped using udf function:

val getFirstNameUDF = udf(getFirstName)
val getLastNameUDF = udf(getLastName)
val getAgeUDF = udf(getAge)


// +----------+---------+---+
// |first_name|last_name|age|
// +----------+---------+---+
// |    First1|    Last1|  1|
// |    First2|    Last2|  2|
// +----------+---------+---+

To use these with raw SQL you have register functions through SQLContext:

sqlContext.udf.register("first_name", getFirstName)
sqlContext.udf.register("last_name", getLastName)
sqlContext.udf.register("age", getAge)

  SELECT first_name(person) AS first_name, last_name(person) AS last_name
  FROM person
  WHERE age(person) < 100""").show

// +----------+---------+
// |first_name|last_name|
// +----------+---------+
// |    First1|    Last1|
// |    First2|    Last2|
// +----------+---------+

Unfortunately it comes with a price tag attached. First of all every operation requires deserialization. It also substantially limits the ways in which query can be optimized. In particular any join operation on one of these fields requires a Cartesian product.

In practice if you want to encode a complex structure, which contains attributes that can be expressed using built-in types, it is better to use StructType:

case class Person(first_name: String, last_name: String, age: Int)

val df = sc.parallelize(
  (1 to 2).map(i => (i, Person(s"First$i", s"Last$i", i)))).toDF("id", "person")


// root
//  |-- id: integer (nullable = false)
//  |-- person: struct (nullable = true)
//  |    |-- first_name: string (nullable = true)
//  |    |-- last_name: string (nullable = true)
//  |    |-- age: integer (nullable = false)

  .where($"person.age" < 100)
  .select($"person.first_name", $"person.last_name")

// +----------+---------+
// |first_name|last_name|
// +----------+---------+
// |    First1|    Last1|
// |    First2|    Last2|
// +----------+---------+

and reserve UDTs for actual types extensions like built-in VectorUDT or things that can benefit from a specific representation like enumerations.

  • Stack overflow won't let me put much of a comment here, so I am going to edit the original post. I am trying to create a UDT as explained in the Spark SQL whitepaper, section 4.4.2
    – andygrove
    Nov 17, 2015 at 16:41
  • 1
    My answer is still the same. If you want to operate on the attributes you have to use UDFs.
    – zero323
    Nov 17, 2015 at 16:55
  • 1
    @zero323 Nice and neat answer! I still don't use UDTs nor UDFs that much, but the solution sounds very reasonable to me. ;)
    – eliasah
    Nov 18, 2015 at 9:13
  • @andygrove As far as I can tell there is nothing in the Spark SQL paper that suggests you can access internal representation directly. On the contrary it describes UDFs as the method to access UDTs.
    – zero323
    Dec 24, 2015 at 11:41
  • We can define custom UDT, but can't use it freely and straightforward, that is really bad.
    – Tom
    Nov 14, 2018 at 0:49

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