I was wondering in what kind of cases it makes sense to use move semantics when overloading operator+ and/or operator+=. Even though it is explained in this question how one could do this, I can't wrap my head around as to why I'd do it. Let's consider operator+=. If I just pass right hand side by reference and make the appropriate changes on the left hand side object, there are no unnecessary copies anyway. So we come back to the same point: Would move semantics be beneficial in such a case?
Yes and no.
Move semantics are not necessarily helpful for
Still, as an optimization, it might be worth it. Imagine a
So, it may be worth it, but you have to study it. Therefore:
Here it is always useful (providing we are talking about classes for which move semantics are useful).
The thing is,
However, you need not provide all overloads:
No, you can reuse the same trick that
Not much of a gain (3 instead of 4) but well, I'll take what I can!
Of course, for string,
EDIT: following Move semantics and operator overloading it seems that I was a bit over-enthusiastic. Stealing from Ben Voigt's answer, we get:
On the other hand, this seems to only work for commutative operations;
If you're appending two strings, vectors etc. that you cannot "move", it doesn't make sense. But if you're appending, say linked lists, where appending the list is possibly an O(1) operator, if you're willing to sacrifice the right hand side, then it makes sense.