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A question from a job-interview

int count = 0;

void func1()
  for ( int i =0 ; i < 10; ++i )
    count = count + 1;

void func2()
  for ( int i =0 ; i < 10; ++i )

void func3()
  for ( int i =0 ; i < 10; ++i )

int main()

  //joining all the threads

  return 0;

The question is: what's the range of values count might theoreticaly take? The upper bound apparently is 30, but what's the lower one? They told me it's 10, but i'm not sure about it. Otherwise, why do we need memory barriers?

So, what's the lower bound of the range?

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Data races are UB, as such any range is "valid". –  PlasmaHH May 7 '13 at 10:35
If int count was replaced with std::atomic<int> count, then (I believe) that we no longer have undefined behavior. Pre-increment and post-increment are atomic; but the count = count + 1 would not be guaranteed to be atomic -- would that bring us back to UB, or just mean that we have unspecified behavior? –  Edward Loper May 7 '13 at 14:24
It's only unspecified, and in this case you actually may derive a possible range of values. –  Sebastian Redl May 8 '13 at 11:53

4 Answers 4

up vote 13 down vote accepted

James Kanze's answer is the right one for all practical purposes, but in this particular case, if the code is exactly as written and the thread used here is std::thread from C++11, the behavior is actually defined.

In particular, thread(func1); will start a thread running func1. Then, at the end of the expression, the temporary thread object will be destroyed, without join or detach having been called on it. So the thread is still joinable, and the standard defines that in such a case, the destructor calls std::terminate. (See [thread.thread.destr]: "If joinable() then terminate(), otherwise no effects.") So your program aborts.

Because this happens before the second thread is even started, there is no actual race condition - the first thread is the only one that ever touches count, if it even gets that far.

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That's greate notice, thank you! –  fogbit May 7 '13 at 10:50
References to the standard are welcome. (very good point, otherwise) –  qdii May 7 '13 at 10:52
@qdii Added standard quote. –  Sebastian Redl May 7 '13 at 10:55
Ah :) I found it too: Section 15.5.1, note 1, last bullet point. when the destructor or the copy assignment operator is invoked on an object of type std::thread that refers to a joinable thread ... In such cases, std::terminate() is called –  qdii May 7 '13 at 10:56
@Koushik yes, exactly. Once you fix the problem of these things just being temporary, the code reverts to what was intended, which has the behavior James Kanze described. –  Sebastian Redl May 7 '13 at 11:10

It's undefined behavior, so count could take on any value imaginable. Or the program could crash.

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What if int is a single word? –  Kiril Kirov May 7 '13 at 10:48
I mean, wouldn't that mean, that the operation is atomic? (excluding func1 actually) –  Kiril Kirov May 7 '13 at 10:51
It is not atomic as far as the standard is concerned. –  avakar May 7 '13 at 10:51
It is not only about hardware architecture, the optimizer can do pretty strange things too. In particular, all functions can end up as "count += 10;". But anyway, it can do whatever it wants in the presence of a race. –  avakar May 7 '13 at 11:10
@KirilKirov My point is that the behavior is undefined. That anything can happen. And that there are, or have been, real hardware where the given code could cause the system to hang. –  James Kanze May 7 '13 at 11:26

Starting with the easy part, the obvious upper bound is 30 since, if everything goes right, you have 3 calls to functions; each capable of incrementing count 10 times. Overall: 3*10=30.

Ad to the lower bound, they are correct and this is why - the worst-case scenario is that each time that one thread tries to increment count, the other threads will be doing so at exactly the same time. Keeping in mind that ++count actually is the following pseudo code:

count_temp = count;
count_temp = count_temp+1;
count = count_temp;

It should be obvious that if they all perform the same code at the same time, you have only 10 real increments, since they all read the same initial value of count and all write back the same added value.

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-1. Undefined behavior is undefined. –  Sebastian Redl May 7 '13 at 10:39
What part of "undefined" is so hard to understand? –  Sebastian Redl May 7 '13 at 10:45
@levengli I have no idea what you're talking about. C++ has exactly one threading mechanism, and that one is defined by the official C++ standard to work in such a way that concurrent modification of shared, non-atomic variables is completely undefined behavior. If you want "possible range of values", you need to use Java. –  Sebastian Redl May 7 '13 at 10:56
The standard is there to help design, not debug. If you had code on a modern x86 system with this bug, then the answer is 10 to 30, period. –  ActiveTrayPrntrTagDataStrDrvr May 7 '13 at 11:23
@levengli That's simply incorrect. I've encountered machines where the code could hang, for example, and it's not hard to imagine machines where values considerably larger or smaller can occur. –  James Kanze May 7 '13 at 11:25

First of all, I'd like to thank you guys for giving me reason me to read the standard in depth. I would not be able to continue this debate otherwise.

The standard states quite clearly in section 1.10 clause 21: The execution of a program contains a data race if it contains two conflicting actions in different threads, at least one of which is not atomic, and neither happens before the other. Any such data race results in undefined behavior.

However, the term undefined behavior is also defined in the standard, section 1.3.24: behavior for which this International Standard imposes no requirements... Permissible undefined behavior ranges from ignoring the situation completely with unpredictable results, to behaving during translation or program execution in a documented manner characteristic of the environment...

Taking Sebasian's answer regarding std::terminate into account, and working under the assumption that these threads will not throw an exception thereby causing premature termination; while the standard doesn't define the result - it is fairly evident what it may be because of the simplicity of the algorithm. In other words, while the 100% accurate answer would be that the result is undefined - I still maintain that the range of possible outcomes is well defined and is 10-30 due to the characteristic of the environment.

BTW - I really wanted to make this a comment instead of another answer, however it was too long

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For your defence i say that the answer you gave is the exactly one those guys want to get :-) –  fogbit May 8 '13 at 11:34

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