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
U are called instead of their copy constructors.
T(std::move(other)) is run,
T's move constructor will be called (assuming it has one) and the
other will be moved to the
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
other, as those bits of
other will have already have been moved.
As a side note, it could be improved by being changed to:
because this version doesn't rely on the implicit upcast from
U&&. Relying on the implicit upcast can be a problem because
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.