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Consider the following code:

int main()                                                                      
    int i;                                                                      
    volatile int* p = &i;                                                       
    int *v = p;                                                                 
    return 0;                                                                   

This gives an error in g++:

$ g++ -o volatile volatile.cpp 
volatile.cpp: In function ‘int main()’:
volatile.cpp:6: error: invalid conversion from ‘volatile int*’ to ‘int*’

My intention was that I want to make p volatile. However, once I've read the value of p, I don't care if accessing v is volatile. Why is it required that v be declared volatile?

This is hypothetical code of course. In a real situation you could imagine that p points to a memory location, but is modified externally and I want v to point to the location that p pointed to at the time of v = p, even if later p is externally modified. Therefore p is volatile, but v is not.

By the way I am interested in the behaviour both when this is considered C and C++, but in C this only generates a warning, not an error.

share|improve this question
The Standards don't know the difference between a warning and an error. It's the compiler's choice how to handle a violation, as long as it reports at least one message for the program. – Johannes Schaub - litb Mar 19 '10 at 14:55
perhaps you want a copy of p in v? – slf Mar 19 '10 at 15:02
up vote 36 down vote accepted

If you mean that the pointer should be volatile, rather than the object it points to, then declare it as

int* volatile p;
share|improve this answer
This is your answer, Steve. I'd like to add this recommendation: Always write the const / volatile qualifier after what you wanted to qualify. It is the only way to write qualifiers consistently, because you can write both volatile int and int volatile when you want a volatile integer, but only int * volatile will give you a volatile pointer. – DevSolar Mar 19 '10 at 15:14
Thanks!!! I didn't even think of this. Completely logical, thank you. – Steve Mar 19 '10 at 15:17
The easiest way to read declarations (for both const and volatile placement) is simply to read them backwards. Hence "int * volatile" is a "volatile pointer to an int". – Adisak Mar 19 '10 at 15:43
Type qualifiers simply qualify what they prefix. Hence int volatile *p as well as volatile int *p qualify *p, while int *volatile pqualifies p. – Peter A. Schneider May 27 '14 at 14:28

In C++ the volatile keyword applies the same kinds of restriction on what you can do as const does. The Standard refers to this as 'cv-qualification' as in 'const/volatile qualification. Consts can only be used by consts, and in much the same way volatiles can only be used by volatiles.

Just as an aside, this can help you in writing multithreaded code. Not by virtue of employing some compiler magic that makes your variable suddenly atomic or anything like that, but by forcing you to only act on volatile data in a volatile way. See this Alexandrescu article for more info.

share|improve this answer
Also worth a read: mikeash.com/pyblog/… (aka. don't forget about OSMemoryBarrier) – slf Mar 19 '10 at 14:56

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