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As many developers know, increment operator isn't atomic.

For instance:

public void incrementId(){ // id being an int field

Actually, this corresponds to three distinct operations:

int temp = id;
id = id + 1;  
id = temp;

Besides, this method behaves similarly:

    public void incrementId(){ // id being an int field
       id = id + 1;  // three steps also here

My question is:

What is the real difference behind the scene between following both operations:

id = id + 1; //three steps => non atomic

id = anotherIntVariable + 1; // one step => atomic

What concept forces the compiler to translate the first one into 3 steps and not the other?

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Your three-line example results in no change to id. –  Marko Topolnik Nov 15 '12 at 12:25
The 2nd is also not atomic, unless of course both id and anotherIntVariable are on registers - but you cannot assume it. It will also be translated to a several machine instructions –  amit Nov 15 '12 at 12:29
Sorry, I've not well written it. Updated –  Mik378 Nov 15 '12 at 12:29
I still think your 3-liner is wrong –  Brian Agnew Nov 15 '12 at 12:31
What would be the three lines? In fact, my question is focus on that under the hood... I don't figure out why 3 lines...I find the temp variable redundant. –  Mik378 Nov 15 '12 at 12:33

2 Answers 2

up vote 2 down vote accepted

What concept forces the compiler to translate the first one into 3 steps and not the other?

it is not, id = xyz + 1 will be compiled to the following byte code:

 7  iload_2 [xyz]
 8  iconst_1
 9  iadd
10  istore_1 [id]

It is easy to see from the byte code that the above is not "one step"

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So, actually there are not 3 steps but 4 steps even for id++, right? –  Mik378 Nov 15 '12 at 12:42
@Mik378: Not exactly, at machine level there could be even more (or less), depending on many things - including the specific architecture of the machine and the JVM implementation. –  amit Nov 15 '12 at 12:48
At the machine level this is very likely to be a one-op inc. –  Marko Topolnik Nov 15 '12 at 12:49
@amit So, if I figure out the whole, it would be wrong to think that a simple assignment like id = anotherId is not atomic. Indeed, we might think that byte code potentially convert it to: 7 iload_2 [anotherId] 8 istore_1 [id] meaning two steps... That seems stupid, I agree, but I imagine that it simply does a variable storage since processor does not need to eval anotherIdto process some kind of basic operations on it (like additions) –  Mik378 Nov 15 '12 at 12:58
@MarkoTopolnik: Depends on the architecture and the number of available registers, it might be needed to be first loaded from memory and later stored.. –  amit Nov 15 '12 at 13:01

There is nothing saying that this:

id = anotherVariable + 1

Will not be performed in 3 steps. But no matter how many times you run the code above, the end result will always be the same (the value of the variable id will always be whatever was on anotherIntVariable plus 1), as in the example id = id + 1, the previously set value on the id variable drives the new id value, and the end value of id might not be what you are expecting if you experience race conditions.

A few notes:

  • If you are setting the id variable from multiple threads, no matter how you are setting it, you need to synchronize it. Always, or else the value might not be set at all (see chapter 3 of Java Concurrency in Practice). Alternatively, you can make the id variable volatile;
  • This only matters if id can actually be accessed from multiple threads. If that is not the case (for example, if id is a local variable in a method), then you don't need to worry about locking/ etc... This holds true even if you have anonymous threads in a method, as they can only access local variables that are declared final.
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Nice answer, thanks :) –  Mik378 Nov 15 '12 at 14:38

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