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How can I safely design a move constructor when a class uses multiple inheritance?


Consider the following scenario:

struct T { };
struct U { };

struct X : public T, public U
    X(X&& other)
      : T(std::move(other))
      , U(std::move(other)) // already moved?!

Is there a way to move-construct both T and U safely?

share|improve this question
up vote 7 down vote accepted

tl;dr: the code in the question is ok.

The code above is fine, because std::move itself doesn't actually change other in any way, it just does a cast to make other into an rvalue reference so that the move constructors of T and U are called instead of their copy constructors.

When T(std::move(other)) is run, T's move constructor will be called (assuming it has one) and the T in other will be moved to the T in this. The U in other will be left alone until the U(std::move(other)) is run.

Note that this means that when your move constructor code for X runs, you cannot rely on the members/member functions of T and U in other, as those bits of other will have already have been moved.

As a side note, it could be improved by being changed to:

X(X&& other)
  : T(std::move(static_cast<T&>(other)))
  , U(std::move(static_cast<U&>(other)))

because this version doesn't rely on the implicit upcast from X&& to T&&/U&&. Relying on the implicit upcast can be a problem because T and/or U may have a T(X&&) constructor or an accept-anything template constructor, either of which would get picked instead of the T(T&&) move constructor that you really want to call.

share|improve this answer
until someone in calls a virtual function or something in a move constructor/assignment operator which is addressed by another class in inheritance tree... rihgt? – user405725 Apr 11 '12 at 22:52
Why not T(static_cast<T&&>(other)) rather than T(std::move(static_cast<T&>(other))) (and the same for U)? – ildjarn Apr 11 '12 at 22:53
@ildjarn that would also work if T is a concrete class, but could be a problem if T was a template parameter because of reference collapsing. I was trying to avoid "inlining" std::move to make it clearer what I was changing – je4d Apr 11 '12 at 22:55
There are no templates in this example, and if there were you would probably want std::forward rather than std::move. I think using move here confuses things, personally, but I see what you're getting at. :-] – ildjarn Apr 11 '12 at 22:59
@ildjarn i'm not sure what you're getting at with std::forward, but then i'm not even sure whether you're thinking of a template constructor or a template class. My point about reference collapsing was a dud, because even if T and U were template args, they'd have to be real classes as they're inherited from. Still, since we are doing a move, I think it's clearer to do the explicit upcast and the move separately. It also encourages the use of std::move for doing lvalue-to-rvalue conversions over writing casts manually, which I think is a good thing. – je4d Apr 11 '12 at 23:12

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