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The definitions for std::atomic<> seem to show its obvious usefulness for primitive or perhaps POD-types.

When would you actually use it for classes?

When should you avoid using it for classes?

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3 Answers 3

up vote 4 down vote accepted

The operations std::atomic makes available on any trivially copyable type are pretty basic. You can construct and destroy atomic<T>, you can ask if the type is_lock_free(), you can load and store copies of T, and you can exchange values of T in various ways. If that's sufficient for your purpose then you might be better off doing that than holding an explicit lock.

If those operations aren't sufficient, if for example you need to atomically perform a sequence operations directly on the value, or if the object is large enough that copying is expensive, then instead you would probably want to hold an explicit lock which you manage to achieve your more complex goals or avoid doing all the copies that using atomic<T> would involve.

// non-POD type that maintains an invariant a==b without any care for
// thread safety.
struct T { int b; }
struct S : private T {
    S(int n) : a{n}, b{n} {}
    void increment() { a++; b++; }
private:
    int a;
};

std::atomic<S> a{{5}}; // global variable

// how a thread might update the global variable without losing any
// other thread's updates.
S s = a.load();
do {
    S new_s = s;
    new_s.increment();
} while( a.compare_exchange_strong(s, new_s));

As you can see, this basically gets a copy of the value, modifies the copy, then tries to copy the modified value back, repeating as necessary. The modifications you make to the copy can be as complex as you like, not simply limited to single member functions.

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+1 for a specific use case - so making S atomic is effectively like putting mutex locks on all methods of S? const and non-const methods? –  kfmfe04 Dec 16 '12 at 18:22

It works for primitive and POD types. The type must be memcpy-able, so more general classes are out.

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+1 ty - I didn't know this (obviously, or I wouldn't have posted the OP)... –  kfmfe04 Dec 14 '12 at 20:18
5  
All that's required seems to be that the type is trivially copyable. POD types are stricter than that, so many non-POD types can be used with atomic<T>. –  bames53 Dec 14 '12 at 20:41

The standard say that

Specializations and instantiations of the atomic template shall have a deleted copy constructor, a deleted copy assignment operator, and a constexpr value constructor.

If that is strictly the same as the answer by Pete Becker, I'm not sure. I interpret this such that you are free to specialize on your own class (not only memcpy-able classes).

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I think you meant to quote paragraph 1 instead: "There is a generic class template atomic<T>. The type of the template argument T shall be trivially copyable (3.9)," because paragraph 3, the paragraph you quote, doesn't say the same thing or even specify any requirements on the types you may use with the generic class template atomic<T>. –  bames53 Dec 14 '12 at 20:38
    
@bames53 actually, the question is unclear if it's about the generic atomic<T> class or the interface it provides. You could still re-use the interface by providing your own specialization. –  KillianDS Dec 14 '12 at 20:44
    
Hm. No, I did not copy the wrong paragraph. I didn't interpret that first paragraph as clearly being demanded also for specializations. –  Johan Lundberg Dec 14 '12 at 20:44
    
@JohanLundberg - no, it's not the same. That's a constraint on implementations, not on the types that the template is instantiated with. –  Pete Becker Dec 14 '12 at 20:48
    
@PeteBecker, as you claiming that I can not specialize on a non-memcpyable class? –  Johan Lundberg Dec 14 '12 at 20:51

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