In documentation it is said you could equally use if-else multiple times or switch-case:

int condition;

setCondition(int condition) {
    this.condition = condition;

Either switch-case

switch (condition) {
  case 1: print("one"); break;
  case 2: print("two"); break;


if (condition == 1) { print("one"); }
else if (condition == 2) { print("two"); }

Next, conditionis declared volatile and method setCondition() is called from multiple threads. If-else is not atomic and volatile variable write is a synchronizing action. So both "one" and "two" string could be printed in the last code.

It could be avoided if some method local variable with initial value was used:

int localCondition = condition;
if (local condition == ..) ..

Does switch-case operator hold some initial copy of variable? How are cross threads operations implemented with it?

  • 5
    Your assumption is wrong: If/else guarantees that only one branch is taken even in the face of race conditions. This would only be possible in languages like c where a race condition causes undefined behaviour.
    – Voo
    Jan 29, 2017 at 18:58
  • 3
    @Boris The whole point of if/else if comapred to if/if is that that's not the case.
    – Voo
    Jan 29, 2017 at 19:48
  • 1
    @Voo I see your point - I'm being thick. Blame it on the Sunday hangover. I suppose it could print nothing if the value changes during evaluation however - which is the race condition that switch would prevent. Jan 29, 2017 at 19:50
  • 2
    In which documentation does it illustrate multiple if-else versus switch-case? Maybe it is an informal piece of documentation that covers the language basics but not the subtleties of multithreading
    – Nayuki
    Jan 29, 2017 at 22:23
  • in defense of @Voo's hangover, he asserted that "if/else guarantees that [exactly] one branch is taken even in the face of race conditions," which is in no way untrue. The follow-up addressing if/else if versus if/if, while perhaps tangentially related, doesn't alter the claim as stated. Jan 30, 2017 at 20:43

2 Answers 2


From the Java specification on switch statements:

When the switch statement is executed, first the Expression is evaluated. [...]

This suggests that the expression is evaluated once and that the result is temporarily kept somewhere else, and so no race-conditions are possible.

I can't find a definite answer anywhere though.

A quick test shows this is indeed the case:

public class Main {
  private static int i = 0;

  public static void main(String[] args) {
    switch(sideEffect()) {
      case 0:
      case 1:
        System.out.println("something else");

    System.out.println(i); //this prints 1

  private static int sideEffect() {
    return i++;

And indeed, sideEffect() is only called once.

  • 6
    Think of it another way: If we wrote switch(someFunctionWithSideEffect()), then the switch statement had better evaluate that function exactly once
    – Nayuki
    Jan 29, 2017 at 22:25
  • @Todd Sewell "...the Expression is evaluated..." does not suggest anything. It means that the Expression is evaluated [according to the specifications of the JVM], meaning that the implementer of the Expression evaluator for a given JVM must not break volatile access rules. As such, it should be subject to the same conditions of the currently executing Thread.
    – AMDG
    Jan 30, 2017 at 0:39
  • +1. Oddly, although the spec does define the nouns "read" and "write" and so on, it doesn't really go into detail: docs.oracle.com/javase/specs/jls/se8/html/…. But aside from the special cases of long and double, it seems that they're supposed to mean exactly what you'd naively expect; for example, it seems clear that something like int foo = this.mFoo; return foo + foo; is only allowed to perform one "read" of this.mFoo.
    – ruakh
    Jan 30, 2017 at 4:59
  • I'm not a Java person, but the topic here is called the language's formal memory model (if it has one). These are the guarantees the language makes about memory access which, as noted here, become important--nay essential--for correctness given concurrency. Jan 30, 2017 at 20:26
  • @Glenn Slayden, java has memory model (see JMM), and I thought the questing was about it. But as far as switch() uses local variable (evaluated expression value) this question seems not to be in JMM scope. See Shipilev's lecture on JMM: shipilev.net/blog/2014/jmm-pragmatics "the memory models appear to answer a simple question: "What values can a particular read observe?""
    – awfun
    Jan 31, 2017 at 13:18

The expression is evaluated once when entering the switch.

The switch may use the result internally as many times as it needs to determine what code to jump to. It's akin to:

int switchValue = <some expression>;
if (switchValue == <some case>)
    <do something>
else if (switchValue == <some other case>
    <do something else>
// etc

Actually, a switch compiles to a variety of byte code styles depending on the number of cases and the type of the value.

The switch only needs to evaluate the expression once.

  • is this true if the expression (and case labels) is a String?
    – user85421
    Jan 29, 2017 at 18:37
  • @carlos yes. Strings are immutable. Once you have a reference to a switch's String expression, it's effectively a constant
    – Bohemian
    Jan 29, 2017 at 18:39
  • 1
    @Bohemian If your claim is "from x follows y" but x is untrue, the whole explanation is suspect. Yes the switch can only have one true branch but that's because the JLS requires it, not because jump tables are involved (because in practice there are no jump tables in the vast majority of switches). But yes I deleted my comment because I wanted to make this clearer. In general explaining contractual behaviour with implementation details is incredibly dangerous (particularly lots of broken concurrent code can be traced back to that)
    – Voo
    Jan 29, 2017 at 19:05
  • just the "The switch only needs to use the expression once" that has confused me: the value of the expression is used twice for Strings, but only calculated once...
    – user85421
    Jan 29, 2017 at 19:15
  • @voo Fine... I've swapped out by answer's implementation with a different one (similar to what switch can do.
    – Bohemian
    Jan 30, 2017 at 12:02

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