The referenced implementation of std::atomic_ref from the paper P0019r8 roughly keeps the template type as a member variable (https://github.com/ORNL/cpp-proposals-pub/blob/master/P0019/atomic_ref.hpp) and uses the GNU built-ins to implement atomic operations.

The question I have here is - why not reinterpret_cast to std::atomic and use the atomic operations instead? Is there a portability concern or detail I am missing?


Reinterpreting something to what it is not then using it is undefined behaviour.

  • They reinterpret_cast it to a type possibly different from the templated one in the implementation - github.com/ORNL/cpp-proposals-pub/blob/master/P0019/… – Curious Nov 17 '18 at 23:45
  • @Curious an implementation of C++ doesn't have to be portable. It can use UB in implementing the standard library, so long as it always chooses to generate correct programs. – Caleth Nov 19 '18 at 9:23
  • @curious also, there is some alias magic tokens there. I don't know what they do, but they probably permit aliasing to a different primitive type or something. They are outside the C++ standard. – Yakk - Adam Nevraumont Nov 19 '18 at 12:11

There's no guarantee whatsoever that a std::atomic<T> contains nothing but a T and has the same size and alignment requirements as a T. For example, if sizeof(T) == 3, an implementation of std::atomic<T> may pad it to 4 bytes to enable the use of intrinsics. For another example, if sizeof(T) is too big for an intrinsic, std::atomic<T> might store a synchronization primitive of some sort to serialize the operation.

It follows that reinterpret_cast to std::atomic is not a viable implementation in the general case even if you ignore the general undefined behavior from the object model violations.

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