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C++: When Has The volatile Keyword Ever Helped You?

I have never used it but I wonder why people use it? What does it exactly do? I searched the forum, I found it only C# or Java topics.

  • Same as [C++: When Has The volatile Keyword Ever Helped You? ](stackoverflow.com/questions/72552/…). – Matthew Flaschen Dec 14 '10 at 9:20
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    While this is a duplicate, I think Nawaz's answer is much more comprehensive and understandable than the duplicate question. – ross Jun 30 '15 at 18:43

Consider this code,

int some_int = 100;

while(some_int == 100)
   //your code

When this program gets compiled, the compiler may optimize this code, if it finds that the program never ever makes any attempt to change the value of some_int, so it may be tempted to optimize the while loop by changing it from while(some_int == 100) to something which is equivalent to while(true) so that the execution could be fast (since the condition in while loop appears to be true always). (if the compiler doesn't optimize it, then it has to fetch the value of some_int and compare it with 100, in each iteration which obviously is a little bit slow.)

However, sometimes, optimization (of some parts of your program) may be undesirable, because it may be that someone else is changing the value of some_int from outside the program which compiler is not aware of, since it can't see it; but it's how you've designed it. In that case, compiler's optimization would not produce the desired result!

So, to ensure the desired result, you need to somehow stop the compiler from optimizing the while loop. That is where the volatile keyword plays its role. All you need to do is this,

volatile int some_int = 100; //note the 'volatile' qualifier now!

In others words I would explain this as follows:

volatile tells the compiler that,

"Hey compiler, I'm volatile and, you know, I can be changed by some XYZ that you're not even aware of. That XYZ could be anything. Maybe some alien outside this planet called program. Maybe some lighting, some form of interrupt, volcanoes, etc can mutate me. Maybe. You never know who is going to change me! So O you ignorant, stop playing an all-knowing god, and don't dare touch the code where I'm present. Okay?"

Well, that is how volatile prevents compiler from optimizing code. Now search the web to see some sample examples.

Quoting from the C++ Standard ($

[..] volatile is a hint to the implementation to avoid aggressive optimization involving the object because the value of the object might be changed by means undetectable by an implementation.[...]

Related topic:

Does making a struct volatile make all its members volatile?

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    It's important to add that volatile is a qualifier, similar to const (but of course with a different meaning) so you can also declare volatile methods that can only be called on volatile instances. – ereOn Dec 14 '10 at 9:23
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    I thought this is what the extern keyword is for? – Maxpm Dec 21 '10 at 4:29
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    @Maxpm : No. extern keyword is used for something else. – Nawaz Dec 21 '10 at 6:38
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    As per your example it seems that the compiler optimizes the code well here, as I guess inside of the while function it is not changing the value of some_int. Can you also explain any scenario where some_int value is getting change? If not then what will be use of volatile in this example? – Vivek Kumar Jul 15 '15 at 23:35
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    @user180574: I dont think anybody has time to come up with a sample code to verify this concept, because that is a difficult task. Note that absence of volatile doesn't guarantee that the loading of a variable will be optimised away. It is just that presence of volatile ensures that it is NOT optimised away, even though it is quite possible without the keyword as well; the difference is that absence doesn't ensure that. – Nawaz Jun 16 '16 at 4:44

In computer programming, particularly in the C, C++, and C# programming languages, a variable or object declared with the volatile keyword usually has special properties related to optimization and/or threading. Generally speaking, the volatile keyword is intended to prevent the (pseudo)compiler from applying any optimizations on the code that assume values of variables cannot change "on their own." (c) Wikipedia


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    volatile has nothing to do with threads – BЈовић Dec 14 '10 at 10:13
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    The volatile keyword is a type qualifier used to declare that an object can be modified in the program by something such as the operating system, the hardware, or a concurrently executing thread. (c) MSDN C++ Reference. (msdn.microsoft.com/en-us/library/12a04hfd(v=vs.80).aspx) But certainly msdn and wikipedia are wrong, and you are correct. – Ivan Dec 14 '10 at 10:54
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    volatile doesn't help with threading though. Volatile reads/writes can still be reordered with respect to non-volatile ones, which makes it useless for threading purposes. Also, you may have noticed the big fat "Microsoft Specific" on the MSDN page. Microsoft's implementation of volatile provides additional guarantees beyond those specified by the standard. So yes, technically speaking, MSDN is wrong. And it should be little surprise that Wikipedia can be wrong. – jalf Dec 21 '10 at 9:41
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    It is true though that the properties of volatile are related to threading. Using volatile on a variable shared between threads can change the semantics of your program. volatile just isn't strong enough to change the semantics to anything useful or well-defined. – jalf Dec 21 '10 at 11:28
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    I'm afraid you dont know what you are talking about @jalf . the volatile keyword grantees that changes to a variable in one thread, remains coherent across all threads. By inserting fences, barriers, cache flushes, reloads, etc as needed for that platform. if you did anything but pc development you might know this. Just because intel hides a lot of cache management from you does not mean it isn't happening. – Dan Mar 21 at 21:30

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