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While browsing the code for the Java 8 version of ForkJoinPool(which has a few interesting changes from Java 7) I ran across this construct (here):

do {} while (!blocker.isReleasable() &&
             !blocker.block());

I'm struggling with why you would write it like this instead of just

while (!blocker.isReleasable() &&
       !blocker.block());

Is it just a semantics/readability choice, since you could read the first construct as do "nothing" while "conditions"? Or is there some additional benefit I'm missing?

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4 Answers 4

up vote 52 down vote accepted

If you read the comments at top of the file, just below the class declaration, there is a section which explains the use of this construct:

Style notes

===========

[...]

There are several occurrences of the unusual "do {} while
(!cas...)"  which is the simplest way to force an update of a
CAS'ed variable. There are also other coding oddities (including
several unnecessary-looking hoisted null checks) that help
some methods perform reasonably even when interpreted (not
compiled).
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24  
Since I needed a reminder myself: CAS is en.wikipedia.org/wiki/Compare-and-swap –  Erik Vesteraas Jul 7 at 12:02
13  
You may have explained how the construct helps "to force an update of a CAS'ed variable". –  Honza Zidek Jul 7 at 19:16
7  
But why is it causing an update of a CAS'ed variable unlike the while version? –  Benjamin Gruenbaum Jul 8 at 5:56
3  
It doesn't say whether do {} while (condition) vs. while (condition) do ; makes any difference. If it makes a difference, then this is (a) an awful bad comment, (b) I consider it a bug not having the comment at the statement itself, and (c) the fact that it makes a difference is a major WTF in the language. –  gnasher729 Jul 8 at 9:16
2  
This sounds like deep magic where the scope change do {} while() avoids a JIT optimization that the while() uses. The while statements are semantically equivalent so the difference must be in the implementation of the JVM. –  Michael Shopsin Jul 9 at 16:32

ForkJoinPool makes extensive use of compareAndSwap... from sun.misc.Unsafe and most of the occurrences of do {} while (...) in ForkJoinPool can — as mentioned by other answers — be explained by this comment under the heading Style notes:

* There are several occurrences of the unusual "do {} while
* (!cas...)"  which is the simplest way to force an update of a
* CAS'ed variable. 

The choice to use write a while-loop with an empty body as do {} while (condition) seems however to be a mostly stylistic choice. This is perhaps clearer in HashMap, which happened to be updated in Java 8.

In the Java 7 HashMap you can find this:

while (index < t.length && (next = t[index++]) == null)
    ;

While much of the code around it has also changed, it is clear that the replacement in Java 8 is this:

do {} while (index < t.length && (next = t[index++]) == null);

The first version has the weakness that if the lone semicolon happened to be deleted it would change the meaning of the program depending on the following line.

As seen below, bytecode generated by while (...) {} and do {} while (...); is slightly different, but not in any way that should affect anything when run.

Java code:

class WhileTest {
    boolean condition;

    void waitWhile() {
        while(!condition);
    }

    void waitDoWhile() {
        do {} while(!condition);
    }
}

Generated code:

class WhileTest {
  boolean condition;

  WhileTest();
    Code:
       0: aload_0       
       1: invokespecial #1                  // Method java/lang/Object."<init>":()V
       4: return        

  void waitWhile();
    Code:
       0: aload_0       
       1: getfield      #2                  // Field condition:Z
       4: ifne          10
       7: goto          0
      10: return        

  void waitDoWhile();
    Code:
       0: aload_0       
       1: getfield      #2                  // Field condition:Z
       4: ifeq          0
       7: return        
}
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Leaving aside any potential performance benefits, there is a clear readability benefit.

With while (X) ; the trailing semicolon is not always obvious at first glance, you may be confused into thinking that the following statement or statements are inside the loop. For example:

while (x==process(y));
if (z=x) {
    // do stuff.
}

It would be very easy to misread the above as having the if statement inside the loop, and even if you did read it correctly it would be easy to think that it was a programming mistake and the if should be inside the loop.

With do {} while(X); though it is immediately at a glance clear that there is no body to the loop.

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Why not simply write while (x==process(y)) {}? I think that would be almost as clear as the do ... while() solution. –  exilit Jul 11 at 10:36
    
@exilit that would help but because the do {} while construction has keywords inbetween the brackets it makes the separation cleaner. Even in that simple example we already have 4 brackets after each other )){} - you can easily see that that number could increase as the if grows more complicated...so it's easier to just not notice the {} in with all the others. –  Tim B Jul 11 at 10:45

If you will read comment above the code, It is mentioned that...

If the caller is not a ForkJoinTask, this method is behaviorally equivalent to

while (!blocker.isReleasable())
   if (blocker.block())
      return;
}

So it is just another form to implement above code in else part...!!

In Style notes it is mentioned that,

There are several occurrences of the unusual "do {} while (!cas...)" which is the simplest way to force an update of a CAS'ed variable.

And if you will see implementation of ManagedLocker#isReleasable, It is updating the lock and returns true if blocking is unnecessary.

Interpretation :

Blank while loops are used to provide an interrupt until some condition reset to true/false.

Here, do { } while(!...) is a blocker/interrupt until blocker.block() will be true when blocker.isReleasable() is false. Loop will continue execution while blocker is not releasable (!blocker.isReleasable()) and blocker is not blocked !! Execution will be out of loop as soon as blocker.block() will set to true.

Note that, do{ } while(...) does not update CAS variable, but it guarantee that program will wait until variable gets updated (force to wait until variable gets updated).

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Yes, but the do {} while (condition) construct is used in both cases. So the comment is indeed just a third way to write the same thing. –  Erik Vesteraas Jul 7 at 11:48
    
@ErikVesteraas updated the answer, It was in progress when you commented :D –  KisHan SarsecHa Gajjar Jul 7 at 11:59
    
So is the comment in the style notes implying that while(!cas...) would not force an update? That there is an actual technical difference as shown by the bytecode? I'm beginning to wonder if looking at isReleasable is a distraction, as there are many places where it is used for actual CAS-variables like this: do {} while (!U.compareAndSwapLong(...)); –  Erik Vesteraas Jul 7 at 12:51
    
@ErikVesteraas I dont think isReleasable() is a distraction, See the interpretation edit. –  KisHan SarsecHa Gajjar Jul 7 at 13:04
2  
Yes, I agree with what you have written, but it does not address whether while(!cas...); would be able to force an update on a CompareAndSwap-variable, or if do {} while (!cas...); is necessary, i.e. whether there is an actual technical difference or not. –  Erik Vesteraas Jul 7 at 13:22

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