Why do we use volatile keyword? [duplicate]
Solution 1:
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 other 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 lightning, 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 the compiler from optimizing code. Now search the web to see some sample examples.
Quoting from the C++ Standard ($7.1.5.1/8)
[..] 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?
Solution 2:
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
http://en.wikipedia.org/wiki/Volatile_variable