Data classes seem to be the replacement to the old-fashioned POJOs in Java. It is quite expectable that these classes would allow for inheritance, but I can see no convenient way to extend a data class. What I need is something like this:

open data class Resource (var id: Long = 0, var location: String = "")
data class Book (var isbn: String) : Resource()

The code above fails because of clash of component1() methods. Leaving data annotation in only one of classes does not do the work, too.

Perhaps there is another idiom to extend data classes?

UPD: I might annotate only child child class, but data annotation only handles properties declared in the constructor. That is, I would have to declare all parent's properties open and override them, which is ugly:

open class Resource (open var id: Long = 0, open var location: String = "")
data class Book (
    override var id: Long = 0,
    override var location: String = "",
    var isbn: String
) : Resource()
  • 3
    Kotlin implicitly creates methods componentN() that return value of N-th property. See docs on Multi-Declarations
    – Dmitry
    Oct 20, 2014 at 9:27
  • For opening the properties, you can also make Resource abstract or use compiler plugin. Kotlin is strict about open/closed principle. Nov 6, 2017 at 8:12
  • There cannot be a open data class Jul 3, 2023 at 10:01

14 Answers 14


The truth is: data classes do not play too well with inheritance. We are considering prohibiting or severely restricting inheritance of data classes. For example, it's known that there's no way to implement equals() correctly in a hierarchy on non-abstract classes.

So, all I can offer: don't use inheritance with data classes.

  • 14
    I don't believe there's much of a solution to this problem. My opinion so far is that data classes must not have data-subclasses at all. Mar 30, 2015 at 10:01
  • 12
    what if we have a library code such as some ORM and we want to extend its model to have our persistent data model? Dec 12, 2015 at 14:36
  • 3
    @AndreyBreslav Docs on Data classes do not reflect the state after Kotlin 1.1. How do Data classes and inheritance play together since 1.1? May 7, 2017 at 6:45
  • 4
    @EugenPechanec See this example: kotlinlang.org/docs/reference/… Aug 8, 2017 at 9:09
  • 14
    if we can't use inheritance for data classes it means lots of duplicate code when logic is the same and data is different....i am duplicating lots of code for this lack of inheritance support, very very bad
    – S.Bozzoni
    Sep 7, 2020 at 10:12

Declare properties in super-class outside of constructor as abstract, and override them in sub-class.

abstract class Resource {
    abstract var id: Long
    abstract var location: String

data class Book (
    override var id: Long = 0,
    override var location: String = "",
    var isbn: String
) : Resource()
  • 42
    this does seem to be the most flexible. I do dearly wish we could just have data classes inherit from each other though...
    – Adam
    Sep 1, 2017 at 0:26
  • Hello Sir, thanks for the neat way of handling Data Class Inheritance. I am facing an issue when I use the abstract class as a Generic Type. I get a Type Mismatch error : "Required T, Found : Resource". Can you please tell me how can it be used in Generics? Feb 18, 2019 at 12:45
  • 7
    Duplicating the parameters seems to be a poor way of implementing inheritance. Technically, since Book inherits from Resource, it should know that id and location exist. There shouldn't really be a need to have to specify those.
    – Johann
    Apr 30, 2020 at 13:40
  • 1
    @AndroidDev they do not exist as they are abstract. Jun 13, 2020 at 13:37
  • 2
    This works for Kotlin but if I have to call the data class constructor from Java I get a "cannot inherit from final [class]" compilation error. Why is this and can it be solved?
    – Chisko
    Jan 5, 2022 at 4:46

Above solution using abstract class actually generates corresponding class and let the data class extends from it.

If you don't prefer abstract class, how about using an interface?

Interface in Kotlin can have properties as shown in this this article..

interface History {
    val date: LocalDateTime
    val name: String
    val value: Int

data class FixedHistory(override val date: LocalDateTime,
                        override val name: String,
                        override val value: Int,
                        val fixedEvent: String) : History

I was curious how Kotlin compile this. Here's equivalent Java code (generated using the Intellij [Kotlin bytecode] feature):

public interface History {
   LocalDateTime getDate();

   String getName();

   int getValue();

public final class FixedHistory implements History {
   private final LocalDateTime date;
   private final String name;
   private int value;
   private final String fixedEvent;

   // Boring getters/setters as usual..
   // copy(), toString(), equals(), hashCode(), ...

As you can see, it works exactly like a normal data class!

  • 7
    Unfortunately implementing the interface pattern for a data class does not work with Room's architecture. Sep 9, 2018 at 19:41
  • @AdamHurwitz That's too bad.. I didn't notice that!
    – Tura
    Sep 16, 2018 at 15:07
  • 3
    @Adam Hurwitz Just experienced this problem, can you explain why?
    – Sam Chen
    Nov 28, 2020 at 16:12

Kotlin Traits can help.

interface IBase {
    val prop:String

interface IDerived : IBase {
    val derived_prop:String

data classes

data class Base(override val prop:String) : IBase

data class Derived(override val derived_prop:String,
                   private val base:IBase) :  IDerived, IBase by base

sample usage

val b = Base("base")
val d = Derived("derived", b)

print(d.prop) //prints "base", accessing base class property
print(d.derived_prop) //prints "derived"

This approach can also be a workaround for inheritance issues with @Parcelize

data class Base(override val prop:Any) : IBase, Parcelable

@Parcelize // works fine
data class Derived(override val derived_prop:Any,
                   private val base:IBase) : IBase by base, IDerived, Parcelable
  • 1
    Does this work with Room?
    – Chisko
    Jan 6, 2022 at 4:34
  • This is the best answer in my eyes and here's what I think would be this solution for the original example in the question: interface IsResource { var id: Long var location: String } data class Resource (var id: Long = 0, var location: String = ""): IsResource data class Book (var isbn: String, val resource: Resource) : IsResource by resource Jul 9, 2022 at 15:49

You can inherit a data class from a non-data class.

Base class

open class BaseEntity (

@ColumnInfo(name = "name") var name: String? = null,
@ColumnInfo(name = "description") var description: String? = null,
// ...

child class

@Entity(tableName = "items", indices = [Index(value = ["item_id"])])
data class CustomEntity(

    @ColumnInfo(name = "id") var id: Long? = null,
    @ColumnInfo(name = "item_id") var itemId: Long = 0,
    @ColumnInfo(name = "item_color") var color: Int? = null

) : BaseEntity()

It worked.

  • 6
    Except that now you can't set the name and description properties, and if you add them to the constructor, the data class needs val/var which will override the base class properties. Jun 3, 2020 at 20:05
  • 7
    Unfortunately, equals(), hashCode() and toString(), which will be generated for that data class, will not include properties from the base class. Which eliminates the benefits of using data class here.
    – Roman_D
    Aug 26, 2020 at 12:16

@Željko Trogrlić answer is correct. But we have to repeat the same fields as in an abstract class.

Also if we have abstract subclasses inside the abstract class, then in a data class we cannot extend fields from these abstract subclasses. We should first create data subclass and then define fields.

abstract class AbstractClass {
    abstract val code: Int
    abstract val url: String?
    abstract val errors: Errors?

    abstract class Errors {
        abstract val messages: List<String>?

data class History(
    val data: String?,

    override val code: Int,
    override val url: String?,
    // Do not extend from AbstractClass.Errors here, but Kotlin allows it.
    override val errors: Errors?
) : AbstractClass() {

    // Extend a data class here, then you can use it for 'errors' field.
    data class Errors(
        override val messages: List<String>?
    ) : AbstractClass.Errors()
  • We could move History.Errors to AbstractClass.Errors.Companion.SimpleErrors or outside and use that in data classes rather than duplicating it at each inheriting data class?
    – TWiStErRob
    Jun 20, 2019 at 7:48
  • @TWiStErRob, glad to hear such a famous person! I meant that History.Errors can change in every class, so that we should override it (for instance, add fields).
    – CoolMind
    Jun 20, 2019 at 7:59

How I did it.

open class ParentClass {
  var var1 = false
  var var2: String? = null

data class ChildClass(
  var var3: Long
) : ParentClass()

It's working fine.

  • 10
    How would you construct ChildClass if you want to require that each ChildClass be constructed passing values for var1 and var2?
    – David
    Oct 10, 2021 at 8:05
  • ChildClass has equals and hashCode only for var3 Jul 17, 2023 at 19:22

You can inherit a data class from a non-data class. Inheriting a data class from another data class is not allowed because there is no way to make compiler-generated data class methods work consistently and intuitively in case of inheritance.


As usual, when inheritance becomes problematic, the solution is composition. See Prefer composition over inheritance?.

If you just want to "extend" your class with a few additional fields, you can use composition along with some additional getters for convenience:

data class Book(
  val id: Long,
  val isbn: String,
  val author: String,

data class StoredBook(
  val book: Book,
  val version: Long,
  val createdAt: ZonedDateTime,
  val updatedAt: ZonedDateTime,
) {
  // proxy fields for convenience
  val id get() = book.id
  val isbn get() = book.isbn
  val author get() = book.author

This delegates Book properties to the book instance, so that a StoredBook can be used just like a Book in most cases, but you can still have some type-safety around whether you are dealing with an intermediate Book state or a persisted StoredBook.

To take it a step further, you could create a StoredResource interface for any stored database entry:

interface StoredResource {
  val id: Long
  val version: Long
  val createdAt: ZonedDateTime
  val updatedAt: ZonedDateTime

data class Book(
  val id: Long,
  val isbn: String,
  val author: String,

data class StoredBook(
  val book: Book,
  override val version: Long,
  override val createdAt: ZonedDateTime,
  override val updatedAt: ZonedDateTime,
) : StoredResource {
  override val id get() = book.id
  val isbn get() = book.isbn
  val author get() = book.author

While implementing equals() correctly in a hierarchy is indeed quite a pickle, it would still be nice to support inheriting other methods, for example: toString().

To be a bit more concrete, let's assume we have the following construct (obviously, it doesn't work because toString() is not inherited, but wouldn't it be nice if it would?):

abstract class ResourceId(open val basePath: BasePath, open val id: Id) {

    // non of the subtypes inherit this... unfortunately...
    override fun toString(): String = "/${basePath.value}/${id.value}"
data class UserResourceId(override val id: UserId) : ResourceId(UserBasePath, id)
data class LocationResourceId(override val id: LocationId) : ResourceId(LocationBasePath, id)

Assuming our User and Location entities return their appropriate resource IDs (UserResourceId and LocationResourceId respectively), calling toString() on any ResourceId could result in quite a nice little representation that is generally valid for all subtypes: /users/4587, /locations/23, etc. Unfortunately, because non of the subtypes inherited to overridden toString() method from the abstract base ResourceId, calling toString() actually results in a less pretty representation: <UserResourceId(id=UserId(value=4587))>, <LocationResourceId(id=LocationId(value=23))>

There are other ways to model the above, but those ways either force us to use non-data-classes (missing out on a lot of the benefits of data classes), or we end up copying/repeating the toString() implementation in all our data classes (no inheritance).


The data class I wanted to inherit from turned out to have no behavior that shouldn't be encapsulated in an interface. With a private data class for "common" implementors of the interface, all objects can have the benefits of data while it feels like UnitVector extends V.

interface Vector {
    companion object {
        fun build(x : Float ...) : Vector = V(x ...)
        private data class V(override val x : Float ...) : Vector
    val x : Float
    //functions, y etc. 
data class UnitVector(override var x : Float ...) : Vector {
    init {
        //special behavior

Another way to implement inheritance is to use class with abstract values

sealed class Parent {
    abstract val someVal: String
    data class Child1(override val someVal: String) : Parent()
    data class Child2(override val someVal: String) : Parent()
data class User(val id: Long, var name: String)

fun main() {
    val user1 = User(id:1, name:"Kart")
    val name = user1.name
    user1.name = "Michel"
    val user2 = User(id:1, name:"Michel")
    println(user1 == user2)
    val updateUser = user1.copy(name = "DK DK")
    val (id, name) = updateUser

//here is the output below

Check the image why it shows error id:1 (compiler says that use = instead of double dot where I insert the value)


I found the best way for having an option to use inheritance in DTO is to make data classes in java with Lombok plugin.

Dont forget to place lombok.equalsAndHashCode.callSuper to true in annotation

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