On the following code:

std::atomic<int> myint; //Shared variable
if( --myint == 0) {
    //Code block B

Is it possible that more than one thread access the block I named "Code Block B"?

Please consider that overflow will not happen, that the 'if' is being executed concurrently by more than one thread, that the only modification to myint in the whole program is the --myint inside the if and that myint is initialized with a positive value.

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    @Patrick that would be undefined behaviour. – R. Martinho Fernandes Oct 26 '11 at 18:59
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    The real question is if std::atomic<int>::operator-- atomically returns the old value. – cdleonard Oct 26 '11 at 19:12
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    @cdleonard - The decrement is atomic and the result is returned. However, nothing prevents another thread from immediately increment or decrement the value again while you compare the result to zero. – Bo Persson Oct 26 '11 at 19:49
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    @BoPersson But the value that is returned will not be modified by any subsequent modifications to myint. So, theoretically, if the value of myint is monotonically decreasing (discounting overflow), then only a single thread could enter the block. – Michael Price Oct 26 '11 at 21:23
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    @curiousguy I dont know what you are talking about, I never said "underflow" on my question... =) – André Puel Oct 27 '11 at 3:44

C++0x paper N2427 (atomics) states roughly the following. I've changed the wording slightly so its easier to read for the specific decrement situation, the parts I changed are in bold:

Effects: Atomically replace the value in object with result of the decrement applied to the value in object and the given operand. Memory is affected as per order. These operations are read-modify-write operations in the sense of the "synchronizes with" definition in [the new section added by N2334 or successor], and hence both such an operation and the evaluation that produced the input value synchronize with any evaluation that reads the updated value.

Returns: Atomically, the value of object immediately before the decrement.

The atomic operation guarantees that the decrement operator will return the value that the variable held immediately before the operation, this is atomic so there can be no intermediate value from updates by another thread.

This means the following are the only possible executions of this code with 2 threads:

(Initial Value: 1)
Thread 1: Decrement 
Thread 1: Compare, value is 0, enter region of interest
Thread 2: Decrement
Thread 2: Compare, value is -1, don't enter region


(Initial Value: 1)
Thread 1: Decrement 
Thread 2: Decrement
Thread 1: Compare, value is 0, enter region of interest
Thread 2: Compare, value is -1, don't enter region

Case 1 is the uninteresting expected case.

Case 2 interleaves the decrement operations and executes the comparison operations later. Because the decrement-and-fetch operation is atomic, it is impossible for thread 1 to receive a value other than 0 for comparison. It cannot receive a -1 because the operation was atomic... the read takes place at the time of the decrement and not at the time of the comparison. More threads will not change this behavior.

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    Note that I checked N3291, and though it uses different wording, it agrees with this. – Nicol Bolas Oct 26 '11 at 23:32
  • Is this still correct for " --myint; if(myint == 0) { }" ? – paulm Feb 24 '16 at 14:27
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    @paulm It is absolutely not true if you decrement and check in two different statements. Has to be done in the same statement. – SoapBox Feb 25 '16 at 11:09

It is not obvious that the code block will always execute. If the operator "--" is implemented in such a way that it stores the old value in its returning value and decrements in a single atomic instruction (I'm pretty sure x86 has such instructions), then yes, it should act like a mutual exclusion block for multiple threads. I'm not sure how it works by default, but the answer lies probably in the new standard documentation:



No it is not possible that more than one thread enters the block, given your constraints. But neither is it guaranteed that any thread ever enters this block:

thread A: decrement myint to 0

thread B: decrement myint to -1

thread A: compare to 0 -> false -> don't enter (and neither anyone else)

If this is a problem (which I assume), then this code won't work (at least not always).

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    so what if I have: thread A: decrement to 1, thread B: decrement to 0, thread A: compare to 0 true, thread B: compare to 0 true. – André Puel Oct 26 '11 at 22:05
  • @AndréPuel Ah, I think you got me (and your answer). – Chris says Reinstate Monica Oct 26 '11 at 22:07
  • @AndréPuel That's not possible, the -- operator does a decrement and fetch in a single instruction, so even in the execution order you specified in your comment the value in thread A would be 1. – SoapBox Oct 26 '11 at 22:25
  • @SoapBox Thats exactly what I am asking! Does operator-- standard defines that the decrement and fetch must be done atomically? – André Puel Oct 26 '11 at 22:41

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