(I use kotlin 1.1.2-2)

I found there are 2 ways to define property that is variable but cannot be assigned through =.

  1. var with private setter
  2. val with private variable backing property

I also found they have different behaviour.

When T is declared out, var of type T with private setter cannot be defined while val with backing property is legitimate.

open class A<out T>(v: T) {
    // error because T occurs in invariant position
    var prop1: T = v
    private set

    private var _prop: T = v
    val prop2: T get() = _prop

Why prop1 is invariant position and prop2 is not? Where does the difference come from?

  • The longer I look, the more it looks like a bug to me :/
    – voddan
    Commented Jul 1, 2017 at 9:39
  • Try to add "private get" for the prop1 variable and check again. The "private set" maybe could add an incosistent object which will be returned outside of the class.
    – LiTTle
    Commented Jul 1, 2017 at 10:34

1 Answer 1


In your case you declare the private var can works is that you can't change it out of the class A since it is private, and you can't declare a function with a out variance parameter for the modification purpose.

The different between private var and private set is a private variable don't has getter/setter just generated a field in java. but private set properties have getter/setter and the setter is private.

The out variance is only for the read-mode, which means you can't add anything in it. and its actually type is a subtype of T, or ? extends T in java.

For the write-mode of the out variance is equivalent to Nothing, so you can't declare the setter/mutable variable at all. but you can reference it with an immutable property, for example:

open class A<out T>(v: T) {
 //v--- immutable
  val prop1: T = v


If you can do it, the kotin generic is a bad thing. why? by definition,out T is a subtype of T, but you attempt to assign a supertype instance T to a subtype of ? extends T, for example:

val subInt:A<Int> = A(1);
//             v--- Int
subInt.prop1 = 1;  // you try to assign an Int to its subtype
//     ^--- prop1 is a subtype of Int

Maybe the following example will makes you more clearly why can't adding anything into a out variance parameter.

val int: A<Int> = A(1) // ok

val number: A<Number> = int; //ok

number._prop = 1.0; 
//     ^
//if you can define setter/mutable variable, you try to assign a Double into a Int 
  • Not having a getter/setter seems a minor implementation detail, not enough to explain the differens in type system semantics
    – voddan
    Commented Jul 1, 2017 at 9:37
  • @voddan yes, sir. Indeed, this behavior private var prop:T = v should be prohibited in kotlin.
    – holi-java
    Commented Jul 1, 2017 at 12:34
  • 1
    There is no need to prohibit it. Kotlin is aware that allowing private var prop: T where T is a covariant (out) type parameter may lead to type system violation, so these properties are treated as "private to this", e.g. a class is allowed to change them only on its own instance. Commented Jul 4, 2017 at 13:45
  • @RomanElizarov hi, as you said it can changed in its own instance, so the behavior should be prohibited. let's say you have a function that you can change it internally, for example: _prop = 1 as T, the code is unreliable if the T is not a Int.
    – holi-java
    Commented Jul 4, 2017 at 14:00
  • Can you, please, provide a self-contained example that demonstrates type system violation because of mutable properties with covariant type? Commented Jul 11, 2017 at 8:16

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