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It seems that std::atomic types are not copy constructible or copy assignable. Why?

Is there a technical reason why copying atomic types is not possible? Or is the interface limited on purpose to avoid some sort of bad code?

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up vote 10 down vote accepted
  1. Technical reason: Most atomic types are not guaranteed to be lock-free. The representation of the atomic type might need to contain an embedded mutex and mutexes are not copyable.

  2. Logical reason: What would it mean to copy an atomic type? Would the entire copy operation be expected to be atomic? Would the copy and the original represent the same atomic object?

There is no well-defined meaning for an operation spanning two separately atomic objects that would make this worthwhile. The one thing you can do is transfer the value loaded from one atomic object into another. But the load directly synchronizes only with other operations on the former object, while the store synchronizes with operations on the destination object. And each part can come with completely independent memory ordering constraints.

Spelling out such an operation as a load followed by a store makes that explicit, whereas an assignment would leave one wondering how it relates to the memory access properties of the participating objects. If you insist, you can achieve a similar effect by combining the existing conversions of std::atomic<..> (requires an explicit cast or other intermediate of the value type).


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On platforms without atomic instructions (or without atomic instructions for all integer sizes) the types might need to contain a mutex to provide atomicity. Mutexes are not generally copyable or movable.

In order to keep a consistent interface for all specializations of std::atomic<T> across all platforms, the types are never copyable.

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+1, I felt that was the reason, although I wasn't sure enough to post an answer. Maybe it is worth mentioning the is_lock_free() member function, which should tell if an implementation does actually rely on atomic instructions – Andy Prowl Mar 6 '13 at 14:38
I think you just mentioned it :) thanks. JoergB also gives a good (second) reason, which I couldn't put into words so didn't try to explain – Jonathan Wakely Mar 6 '13 at 16:12

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