To simplify my real use case, let's suppose that I want to find the maximum number in a list:

var max : Int? = null
listOf(1, 2, 3).forEach {
    if (max == null || it > max) {
        max = it

However, compilation fails with the following error:

Smart cast to 'Int' is impossible, because 'max' is a local variable that is captured by a changing closure

Why does a changing closure prevent smart cast from working in this example?


In general, when a mutable variable is captured in a lambda function closure, smart casts are not applicable to that variable, both inside the lambda and in the declaring scope after the lambda was created.

It's because the function may escape from its enclosing scope and may be executed later in a different context, possibly multiple times and possibly in parallel. As an example, consider a hypothetical function List.forEachInParallel { ... }, which executes the given lambda function for each element of the list, but in parallel.

The compiler must generate code that will remain correct even in that severe case, so it doesn't make an assumption that the value of variable remains unchanged after the null check and thus cannot smart cast it.

However, List.forEach is quite different, because it is an inline function. The body of an inline function and the bodies of its functional parameters (unless the parameter has noinline or crossinline modifiers) are inlined at the call site, so the compiler could reason about the code in a lambda passed as an argument to inline function as if it was written directly in the calling method body making the smart cast possible.

It could, but currently, it doesn't. Simply because that feature is not implemented yet. There is an open issue for it: KT-7186.


Thanks to Ilya for the detailed explanation of the problem! You can use the standard for(item in list){...} expression like this:

var max : Int? = null
val list = listOf(1, 2, 3)
for(item in list){
    if (max == null || item > max) {
        max = item
  • 3
    This saved my day, bummer I cannot upvote twice! And it should really not be called a workaround IMHO, as it implies that "for(item in list) {...}" is some sort of anti-pattern which it is not in my eyes. (Yes, I'm somewhat old school when it comes to coding.)
    – IllvilJa
    Aug 4 '20 at 17:21
  • Thank you for your comment @IllvilJa! I fixed the description. Feb 4 at 9:56

This looks like a compiler bug to me.

If the inline lambda parameter in forEach were marked as crossinline then I would expect a compilation error because of the possibility of concurrent invocations of the lambda expression.

Consider the following forEach implementation:

inline fun <T> Iterable<T>.forEach(crossinline action: (T) -> Unit): Unit {
    val executorService: ExecutorService = ForkJoinPool.commonPool()
    val futures = map { element -> executorService.submit { action(element) } }
    futures.forEach { future -> future.get() }

The above implementation would fail to compile without crossinline modifier. Without it, the lambda may contain non-local returns which means it cannot be used in a concurrent fashion.

I suggest creating an issue: Kotlin (KT) | YouTrack.

  • 1
    Exactly, that's what confused me in the first place. If a lambda body is completely inlined, then I would expect to be able to do everything I would do if I were to write the inlined code manually. Aug 15 '16 at 15:23

The problem is that foreach creates multiple closures, each of which access the same max which is a var.

What should happen if max were set to null in another of the closures after the max == null check but before it > max?

Since each closure can theoretically work independently (potentially on multiple threads) but all access the same max, you can't guarantee it won't change during execution.

  • Shouldn't the body of forEach be inlined? In that case, max should be just a local variable, thus mutli-threading is not an issue. Aug 14 '16 at 9:28
  • Multi-threading will still be an issue if the body of forEach makes threads. Inlining the creation of a thread doesn't inline the thread. Aug 14 '16 at 15:15

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