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So here's my dilemma:

I have a container which is going to store some objects. I'll interact with the objects in the container as if they were all of the base class. The base class is pure virtual. Some objects can be copied, and some can't. They're all movable though, so that's what I'm sticking with.

To give you an idea, I'm writing a container that is agnostic to accepting a custom shared_ptr and unique_ptr.

All objects will be the same size, and this will be verified at compile time with static_asserts.

I want to move objects around, and change the derived class type as I'm doing this. I'm guessing this is for the most part unsupported in any way, but I'm looking to see if there's enough definition to what I want to do that I can create a properly formed solution.

I want to avoid undefined at all costs, but implementation-defined, and unspecified behaviour is fine.

Can I simply run a memcpy from one object to another in this case? If not, is there something else I can do to get this to work?

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If the common size of all your types is N, how about a container of std::aligned_storage<N, N>? –  Kerrek SB Jul 23 at 18:42
"Some of them can't be copied"... "Use memcpy to copy them"... –  Kerrek SB Jul 23 at 18:43
@KerrekSB - does the memcpy work on all platforms? –  Michael Gazonda Jul 23 at 18:45
Using memcpy with anything that's not trivially copyable is UB. Any class with virtual functions is by definition not trivially copyable. –  T.C. Jul 23 at 18:58
@T.C. then I can treat the v-table pointer as an atomic pointer, and copy it that way. not worried about memcpy being UB here. looking for how v-tables are defined, and if they are in fact implementation defined meaning I could do this. –  Michael Gazonda Jul 23 at 19:02

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