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I've actually heard claims both ways. I suspect they are not, but I wanted to get the topic settled.

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See also stackoverflow.com/questions/54188/… –  sth Jan 19 '12 at 1:09
C++ wouldn't have needed atomic<T*> if that was the case :) –  Hans Passant Jan 19 '12 at 1:31

2 Answers 2

up vote 11 down vote accepted

C++03 does not know about the existance of threads, therefore the concept of atomicity doesn't make much sense for C++03, meaning that it doesn't say anything about that.

C++11 does know about threads, but once again doesn't say anything about the atomicity of assigning pointers. However C++11 does contain std::atomic<T*>, which is guaranteed to be atomic.

Note that even if writing to a raw pointer is atomic on your platform the compiler is still free to move that assingment around, so that doesn't really buy you anything.

If you need to write to a pointer which is shared between threads use either std::atomic<T*> (or the not yet official boost::atomic<T*>, gccs atomic intrinsics or windows Interlocked*) or wrap all accesses to that pointer in mutexes.

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You can get boost.atomic here: chaoticmind.net/~hcb/projects/boost.atomic/doc/index.html –  Adi Shavit Feb 7 '12 at 14:49

The C++ norm does not define specific threading behavior. Depending on the compiler and the platform, the pointer assignment may or may not be atomic.

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C++11 does define a threading behavior and the associated memory model. –  J.N. Jan 19 '12 at 1:29
@Frizlab and J.N. you are both correct. As saying Porsche is a sport car is a correct but imprecise, as not every model is a sport car :) –  mloskot Nov 22 '12 at 11:31

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