is there any better way to write generic swap function in kotlin other than java way described in How to write a basic swap function in Java.

Is there any kotlin language feature which can make generic swap function more concise and intuitive?

12 Answers 12


No need a swap function in Kotlin at all. you can use the existing also function, for example:

var a = 1
var b = 2

a = b.also { b = a }

println(a) // print 2
println(b) // print 1
  • 70
    This makes my head hurt if I try to think too hard about how that's actually working (despite not actually being complex). It does make sense when you read it though!
    – Michael
    Commented Jul 28, 2017 at 16:10
  • 30
    Yet another explanation in simple terms. This syntax is a shorthand for a = b.also({ b = a }). We see also() method being called on b with an argument of lambda { b = a }. also just calls its parameter, then returns this. So first lambda { b = a } is executed, then a is assigned the result of also(), which is its "this", which is the initial b.
    – Anton3
    Commented Aug 3, 2018 at 17:53
  • 8
    Awesome! It works even for array elements: a[i] = a[j].also { a[j] = a[i] }
    – Peter
    Commented Feb 1, 2021 at 6:21
  • 3
    @Anton3 your explanation is the best I've seen yet, but something is still not clear to me. You say that the lambda is executed first. So that means b is assigned the value of a and b is therefore overwritten. There is some implicit buffering going on here. I decompiled the byte code for a = b.also { b = a } and got the following in Java, which is the traditional swap algorithm: int a = 1; int b = 2; byte var4 = b; b = a; a = var4; So when and where is the buffering of b conceptually occurring? Stack? Closure?
    – Phil
    Commented Mar 22, 2021 at 5:34
  • 3
    @Phil In Kotlin or Java, whenever an argument is passed to a function, or returned, or captured in a closure, a copy is created (In case of object types, we copy a reference to the GC-managed object). However, Kotlin has punched a small hole in that system with var captures, which are conceptually implemented by putting the value in a wrapper object that lets us mutate the inner value (which the variable names) as long as we have a reference to the wrapper object.
    – Anton3
    Commented Mar 23, 2021 at 8:26

If you want to write some really scary code, you could have a function like this:

inline operator fun <T> T.invoke(dummy: () -> Unit): T {
    return this

That would allow you to write code like this

a = b { b = a }

Note that I do NOT recommend this. Just showing it's possible.

  • 5
    More concise: yes. More intuitive: ... maybe if I forget everything I ever learned about programming. :)
    – Michael
    Commented Jul 28, 2017 at 16:22
  • 22
    Definitely not more intuitive. It is bad code. I was just having some fun. Commented Jul 28, 2017 at 16:44
  • 1
    Looks amazingly scary! :) Function should be inline.
    – Miha_x64
    Commented Jul 28, 2017 at 18:27
  • 1
    Are you looking for also?
    – cubuspl42
    Commented Dec 7, 2021 at 14:04

Kotlin encourages the use of immutable data when possible (such as using val instead of var). This greatly reduces the change for subtle bugs, since it's possible to reason more soundly about code if values don't change.

Swapping two values is very much the opposite of immutable data: Did I mean the value of a before or after the swap?

Consider rewriting your code in the following immutable way:

val a = 1
val b = 2

val (a2, b2) = b to a

This works by making use of destructuring declarations, along with the built-in to extension function that creates a Pair.


Edit: Thanks to @hotkey for his comment

I believe the code for swapping two variables is simple enough - not to try simplifying it any further.

The most elegant form of implementation IMHO is:

var a = 1
var b = 2

run { val temp = a; a = b; b = temp }

println(a) // print 2
println(b) // print 1


  • The intent is loud and clear. nobody would misunderstand this.
  • temp will not remain in the scope.
  • 3
    This is really just the generic Java way he was talking about. So you're answer is effectively "no, there is no better way". I think I'm inclined to agree.
    – Michael
    Commented Jul 28, 2017 at 16:18

That is a good usage for with:

var a = 1
var b = 2

with(a) {
    a = b
    b = this

println(a) // 2
println(b) // 1

Very simple, fast and elegant solution:

var a = 1
var b = 2
val (b0, a0) = a swap b
a = a0
b = b0

infix fun <A> A.swap(second: A): Pair<A, A> = second to this
  • What's the point of introduction of another infix function? The to would do exactly the same val (b0, b0) = a to b
    – ruX
    Commented Jan 3, 2023 at 23:29

prefer a=b.apply {b=a} for swapping the elements. If we want to perform some operation on the variable inside the lambda, then go for a = b.also {someFun(it)}


If you're swapping array values in place, from a code readability perspective, it was helpful for me to add an extension function swapInPlace

fun <T> Array<T>.swapInPlace(i1: Int, i2: Int){
  this[i1] = this[i2].also{ this[i2] = this[i1] }

fun main(){
 val numbers = arrayOf(2, 1)

 //This is easier for me to read...
 numbers.swapInPlace(0, 1)

 //Compared to this
 numbers[0] = numbers[1].also{ numbers[1] = numbers[0] }

I have something interesting for all:

Why just numbers. We can swap anything with a generic class and a generic function

class Mutable<T>(var value: T) {
    override fun toString() = value.toString()

    infix fun swapWith(other: Mutable<T>) {
        value = other.value.also { other.value = value }

fun <T> swap(num1: Mutable<T>, num2: Mutable<T>) {
    num1.value = num2.value.also { num2.value = num1.value }

fun main() {
    val num1 = Mutable(4)
    val num2 = Mutable(6)

    println("Before Swapping:-\n\tNumber#1 is: $num1\n\tNumber#2 is: $num2\n")

    //calling way of class method is not like usual swap function
    //num1 swapWith num2

    //calling the actual swap function.
    swap(num1, num2)

    println("After Swapping:-\n\tNumber#1 is: $num1\n\tNumber#2 is: $num2\n")
  • class Mutable is a generic class here which can contain any type of data into it.

I overridden toString() method to directly accessing the value attribute by just calling the object.

  • fun swap is a true swap function for kotlin that gives you the call by reference's demo too.

  • operator swapWith also works as swap function, which is a part of Mutable class. I have commented that part because the calling way for the operator is not like the way we are used to with.


Before Swapping:-
    Number#1 is: 4
    Number#2 is: 6

After Swapping:-
    Number#1 is: 6
    Number#2 is: 4


I have different approach.

You can keep your two values in a Pair. Then you can do this:

fun <T> swap(pair: Pair<T, T>): Pair<T, T> {
    return Pair(pair.second, pair.first)

and you use it like this:

var pairOfInts = Pair(1, 2)
println("first: ${pairOfInts.first}") // prints 1
println("second: ${pairOfInts.second}") // prints 2

pairOfInts = swap(pairOfInts)

println("first: ${pairOfInts.first}") //prints 2
println("second: ${pairOfInts.second}") //prints 1

In order to use Kotlin List you could create this kind of extension. It returns a copy of this list with elements at indices a and b swapped.

fun <T> List<T>.swap(a: Int, b: Int): List<T> = this
    .also {
        it[a] = this[b]
        it[b] = this[a]

If you use an array, you can use this:

fun <T> Array<T>.swap(i: Int, j: Int) {
    with(this[i]) {
        this@swap[i] = this@swap[j]
        this@swap[j] = this
  • @Micha People don't like arrays anymore? Commented Nov 12, 2020 at 19:46

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