And the Kotlin newbie asks, "why won't the following code compile?":

    var left: Node? = null

    fun show() {
         if (left != null) {
             queue.add(left) // ERROR HERE

Smart cast to 'Node' is impossible, because 'left' is a mutable property that could have been changed by this time

I get that left is mutable variable, but I'm explicitly checking left != null and left is of type Node so why can't it be smart-casted to that type?

How can I fix this elegantly? :)

  • 3
    Somewhere in between a different thread could have changed the value to null again. I'm pretty sure answers on the other questions mention that as well. – nhaarman Jun 16 '17 at 18:14
  • 3
    You could use a safe call to add – Whymarrh Jun 16 '17 at 18:16
  • thanks @nhaarman that makes sense, Whymarrh how can do that? I thought safe calls were only for objects not methods – FRR Jun 16 '17 at 18:19
  • 5
    Something like: n.left?.let { queue.add(it) } I think? – Jorn Vernee Jun 16 '17 at 18:21

Between execution of left != null and queue.add(left) another thread could have changed the value of left to null.

To workaround this you have several options. Here are some:

  1. Use a local variable with smart cast:

    val node = left
    if (node != null) {
  2. Use a safe call such as one of the following:

    left?.let { node -> queue.add(node) }
    left?.let { queue.add(it) }
  3. Use the Elvis operator with return to return early from the enclosing function:

    queue.add(left ?: return)

    Note that break and continue can be used similarly for checks within loops.

  • 5
    4. Think of a more functional solution to your problem that doesn't require mutable variables. – Good Night Nerd Pride Nov 11 '17 at 10:48
  • 1
    @sak It was an instance of a Node class defined in the original version of the question which had a more complicated code snippet with n.left instead of simply left. I've updated the answer accordingly. Thanks. – mfulton26 Jul 20 '18 at 20:15
  • 1
    @sak The same concepts apply. You can create a new val for each var, nest several ?.let statements, or use several ?: return statements depending on your function. e.g. MyAsyncTask().execute(a1 ?: return, a2 ?: return, a3 ?: return). You can also try one of the solutions for a "multiple variable let". – mfulton26 Jul 21 '18 at 13:47
  • 1
    @FARID who are referring to? – mfulton26 Jul 22 at 16:24
  • 1
    @GoodNightNerdPride, apparently, I went far by calling you a name, sorry for that. But at some point, we have to use mutable consequently end up in a mess and looking for a proper solution. Every time I take a look at comments to see others' ideas on the solution while checking the answer. I just carried away for a moment by your answer and unnecessarily vent spleen on you )) – Farid Jul 23 at 7:31

There is a fourth option in addition to the ones in mfulton26's answer.

By using the ?. operator it is possible to call methods as well as fields without dealing with let or using local variables.

Some code for context:

var factory: ServerSocketFactory = SSLServerSocketFactory.getDefault();
socket = factory.createServerSocket(port)
socket.close()//smartcast impossible
socket?.close()//Smartcast possible. And works when called

It works with methods, fields and all the other things I tried to get it to work.

So in order to solve the issue, instead of having to use manual casts or using local variables, you can use ?. to call the methods.

For reference, this was tested in Kotlin 1.1.4-3, but also tested in 1.1.51 and 1.1.60. There's no guarantee it works on other versions, it could be a new feature.

Using the ?. operator can't be used in your case since it's a passed variable that's the problem. The Elvis operator can be used as an alternative, and it's probably the one that requires the least amount of code. Instead of using continue though, return could also be used.

Using manual casting could also be an option, but this isn't null safe:

queue.add(left as Node);

Meaning if left has changed on a different thread, the program will crash.

  • As far as I understand, the '?.' operator is checking if the variable on its left side is null.. In the example above it would be 'queue'. The error 'smart cast impossible' is referring to the parameter "left" being passed into the method "add"... I still get the error if I use this approach – FRR Nov 17 '17 at 16:06
  • Right, the error is on left and not queue. Need to check this, will edit the answer in a minute – Zoe the transgirl Nov 17 '17 at 16:11

Also you can use lateinit If you do your initialization later on onCreate() or elsewhere.

Use this

lateinit var left: Node

Instead of this

var left: Node? = null

And there is other way that use !! end of variable when you use it like this

queue.add(left!!) // add !!
  • what does it do? – c-an May 7 at 1:34
  • @c-an it make your variable initialize as null but expect sure to initialize later in code. – Radesh May 7 at 6:52
  • Then, isn't it the same? @Radesh – c-an May 7 at 7:00
  • @c-an same with what? – Radesh May 7 at 7:11
  • 1
    i answered above question that is Smart cast to 'Node' is impossible, because 'left' is a mutable property that could have been changed by this time this code prevent that error by specify variable kind. so compiler no need for smart cast – Radesh May 7 at 11:47

The practical reason why this doesn't work is not related to threads. The point is that node.left is effectively translated into node.getLeft().

This property getter might be defined as:

val left get() = if (Math.random() < 0.5) null else leftPtr

Therefore two calls might not return the same result.


Try using the not-null assertion operator...

  • 2
    Dangerous. For the same reason the auto-casting doesn't work. – Jacob Zimmerman Jan 24 at 20:48
  • 2
    It may cause app crash if left is null. – Pritam Karmakar Apr 22 at 4:01

Do this:

var left: Node? = null

fun show() {
     val left = left
     if (left != null) {
         queue.add(left) // safe cast succeeds

Which seems to be the first option provided by the accepted answer, but that's what you're looking for.

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