1) Does this mean that all classes that have this behavior should not
be used in containers?
Yes indeed, because that is not correct copying behaviour, since the copy is not equal to the source afterwards but destroys the source. This is kind of a broken implementation of move-semantics before C++11, required for the strict unique ownership semantics of
2) what sort of containers can you use?
The real answer is actually, that classes having this behaviour (a copy constructor/assignment destroying its source) should just not exist. And fortunately this is not needed anymore nowadays, since C++11 has proper move-semantics, which realize exactly this destructive copy but in a safe way (simply said, only when the source is really not needed anymore).
std::auto_ptr is deprecated and should not be used anymore. It has been replaced by
std::unique_ptr which is movable but not copyable. But since C++11 containers rather move their elements than copy when appropriate, a
std::unique_ptr can be used perfectly inside of standard containers. You just cannot copy the container or fill it with a single object which would require copies of
std::unique_ptrs, but those operations should not work anyway, since they are conceptually wrong for unique ownership semantics.
And as a side note, if you actually chose
std:auto_ptr for a reason, that is you want unique ownership semantics, then a
std::shared_ptr (as suggested by other answers) is plain wrong since it exhibits shared ownership.
std::unique_ptr is today's
std::auto_ptr. Never spam
std::unique_ptrs (or even raw pointers, but from your question I rule that option out) are appropriate.