I am trying to get a class, which combines list, set and map in Kotlin. I wished to write isScalar function, which should return true if object contains only one element and wrote

import it.unimi.dsi.fastutil.objects.Reference2ReferenceOpenHashMap
import it.unimi.dsi.fastutil.objects.ReferenceArrayList
import it.unimi.dsi.fastutil.objects.ReferenceOpenHashSet

class Args {

    var list : ReferenceArrayList<M>? = null

    var set : ReferenceOpenHashSet<M>? = null

    var map : Reference2ReferenceOpenHashMap<M, M>? = null

    fun isEmpty() : Boolean {
        return list === null && set === null && map === null

    fun isScalar() : Boolean {
        if(list !== null && list.size == 1) {
            return true


Unfortunately it gave me error in comparison

list !== null && list.size == 1


Smart cast to 'ReferenceArrayList<M>' is impossible, because 'list' is a mutable property that could have been changed by this time

As far as I understood, this is related with multithreaded assumption. In Java I would make function synchronized if would expect multithreding. Also, I would be able to disregard this at all, if I am not writing thread-safe.

How should I write in Kotlin?

I saw this solution https://stackoverflow.com/a/44596284/258483 but it expects MT, which I don't want to. How to avoid smart casting if it can't do it?


The question is how to do this in the same "procedural" form. How not to use smart casting?


Summarizing, as far as I understood, it is not possible/reasonable to explicitly compare variable with null in Kotlin at all. Because once you compare it, next time yous hould compare it with null again implicitly with such operations like .? and you can't avoid this.

  • The solution you saw doesn't "expect MT", it explains why Kotlin's static analysis works as it does. How to avoid smart casting if it can't do it?---by not requesting it. Your list.size == 1 requests a smart cast which Kotlin refuses. – Marko Topolnik Jan 28 '18 at 19:08
  • Making a method synchronized wouldn't be nearly enough to make it impossible to update an instance variable from another thread. In fact, there is nothing you can do to stop it. – Marko Topolnik Jan 28 '18 at 19:20
  • @MarkoTopolnik so how not to request smart casting? – Dims Jan 28 '18 at 19:27
  • 1
    It's hard to find where exactly you need help. Your list is a nullable type, you can't just dereference it. – Marko Topolnik Jan 28 '18 at 19:34
  • 1
    All you have to do is load an instance variable into a local variable. – Marko Topolnik Jan 28 '18 at 21:20

If you take advantage of the fact that null cannot equal 1 (or anything else, really), you can make this check very concise:

fun isScalar() : Boolean =
    list?.size == 1

When a null-safe call to list.size returns null, we get false because 1 != null. Otherwise, a comparison of whatever value size returns is made, and that works as you would expect.

By using the null safe operator (?.) you are avoiding a smart cast entirely. Kotlin gives us smart casts to make code cleaner, and this is one of the ways it protects us from misuses of that feature. Kotlin isn't going to protect us from everything (division by zero, the example you use in comments, for example). Your code is getting caught up in a legitimate case of where smart casting can go wrong, so Kotlin jumps in to help.

However, if you are absolutely sure there are no other threads working, then yes, this check is "wrong". You wouldn't need the warning in that case. Judging by this thread on kotlinlang.org, you aren't the only one!

| improve this answer | |
  • Yes, I understand that there is .? operator, but I want to understand, how to decompose – Dims Jan 28 '18 at 19:29
  • What do you mean by "how to decompose"? I'm not following you. There's no way to turn off the check that another thread could come in and change the meaning of list, so you have to work around it by not requesting a safe cast. – Todd Jan 28 '18 at 19:30
  • No. There is no way to turn that off. However the code from both answers (me and @zsmb13) are both idomatic Kotlin. – Todd Jan 28 '18 at 19:33
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    You should address these questions at the Kotlin creators. They made certain design choices that they saw as useful. For me, null-safety is great. For you, it isn't. This is no place for either arguing over it or asking Kotlin users to answer in the name of its creators. – Marko Topolnik Jan 28 '18 at 20:40
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    Null safety is no different from any other static analysis you care to name. They all follow strict formal rules and can never be complete, i.e., have no false positives and no false negatives. That is a theoretical impossibility. Furthermore, there is no statically typed language out there that allows you to disable any formal rule at any time There are always some rules that are "a must" and the designers have a very hard time finding the right balance between safe strictness and dangerous laxness. – Marko Topolnik Jan 29 '18 at 7:40

You can perform the null check, and if it succeeds, access a read-only copy of your variable with let:

fun isScalar() : Boolean {
    return list?.let { it.size == 1 } ?: false
  • If list is null, the entire let expression will evaluate to null, and the right side of the Elvis operator (false) will be returned.
  • If list is not null, then the let function is called, and result of the it.size == 1 expression is returned - it refers to the object that let was called on (list in this case). Since it's used with a safe call, this it will have a non-nullable type and size can be called on it.
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