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Is there a way to make an atomic if with a conjunction? That is, can I somehow atomically test if(A && B) in C? If it short circuits in the first conjunct then that's no problem, but if it doesn't, by the time that it's checking B, A might have changed. Any ideas?

EDIT: Without using coarse locks or semaphores.

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Use an appropriate synchronization object. –  Jon Jan 25 '13 at 11:43
Since there is more than one assembly instruction involved, You can make them atomic only by providing explicit synchronization. i.e: bundle the two instructions together as a logical unit and apply a lock(mutex or semaphore or ...) before and after their usage. –  Alok Save Jan 25 '13 at 11:44
@Dervin don't try to moderate comments, focus on improving your question instead. Platform? Memory model? Why are you sure there's no reordering, do you use volatile? Something like "keep A and B as two bytes in the same aligned machine word, so the load is atomic" could be the answer, but not with that little information you give. –  Anton Kovalenko Jan 25 '13 at 11:54
@Dervin: That must be one of the most rude and short-sighted comment I've ever seen on StackOverflow. –  Niklas B. Jan 25 '13 at 11:55
@DervinThunk I really dislike the question. There is far too little background specified (machine, system, anything) for the real complexity of the question. Besides, as Anton pointed, the question seems to make little sense as the change in these values may occur just after the check. –  Dariusz Jan 25 '13 at 12:05

3 Answers 3

You have to manually synchronize access to both objects! How else would you like to happen?

It is the fundamental idea of parallel programming, two things can happen at a time, unless you yourself make it otherwise.

pseudocode sample:

  bool result = A && B;

  if (result) // ...

  A = val;
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This should probably be a comment, as it doesn't seem to provide an actual answer. –  Paul R Jan 25 '13 at 11:46
@Paul R: Soo, what then would you consider an "actual answer"? Someone doing all of OP's work for him/her? –  Niklas B. Jan 25 '13 at 11:47
@PaulR added code, sorry for the initial briefness –  Dariusz Jan 25 '13 at 11:48
@Dariusz: thanks ! Down-vote removed. –  Paul R Jan 25 '13 at 11:54

If A absolutely must not change until you check B, you can use a lock/mutex (or some other synchronization primitive, e.g. a critical section) on A, as it's been suggested.

You could also join A and B into a single aligned 32-bit or 64-bit integer that you'd always read and write as a whole atomically, again, using a synchronization primitive or CAS or special CPU instructions, as it's been suggested.

If your system is single-processor, you could also inhibit all interrupts or scheduling while reading and writing A and B to achieve the same effect. This won't work on multi-processor systems if A or B can be modified by different CPUs.

If you can tolerate changes in A and are only interested in seeing the same value of A after reading B as before reading B, you could read A twice and B in between. Care must be taken to ensure the order of the reads. volatiles and/or memory barriers can help with enforce the order.

All of this is specific to the target hardware, OS and the compiler, and the question cannot be answered in a detailed manner without knowing these details.

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Use a mutex or a semaphore to protect A from changing.

Or you could try this.

bool A_initial;
if( (A_initial = A) && B && (A==A_initial) ) {  /*A has not changed and 
                                                condition evaluated to true.  */
else if (A ! = A_initial){ /* You have to redo the if() or 
                              whatever if A is changed  */
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A little more detail and perhaps an example could make this a useful answer. –  Paul R Jan 25 '13 at 11:47
@PaulR You think this will be a reasonable solution, since the OP of question did an edit. –  Sibi Rajasekaran Jan 25 '13 at 12:30
I don't think the second suggestion will work, and the OP has moved the goalposts now, as you noted. –  Paul R Jan 25 '13 at 14:16

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