- What is it?
- What does it do?
- When should it be used?
Good links are appreciated.
It's a new C++ way to avoid copies. For example, using a move constructor, a
Try googling for move semantics, rvalue, perfect forwarding.
You can use move when you need to "transfer" the content of an object somewhere else, without doing a copy (e.g the content is not duplicated, that's why it could be use on some non-copyable objects, like an unique_ptr). It's also possible for an object to take the content of a temporary object without doing a copy (and save a lot of time), with std::move.
This link really helped me out :
I'm sorry if my answer is coming to late, but I was also looking for a good link for the std::move, and I found the links above a little bit "austere".
This put the emphasis on r-value reference, in which context you should use them, and I think it's more detailed, that's why I wanted to share this link here.
std::move itself doesn't really do much. I thought that it called the moved constructor for an object, but it really just performs a type cast (casting an lvalue variable to an rvalue so that the said variable can be passed as an argument to a move constructor or assignment operator).
So std::move is just used as a precursor to using move semantics. Move semantics is essentially an efficient way for dealing with temporary objects.
This is nice looking code, but E + F produces a temporary object. Then D + temp produces another temporary object and so on. In each normal "+" operator of a class, deep copies occur.
The creation of the temporary object in this function is useless - these temporary objects will be deleted at the end of the line anyway as they go out of scope.
We can rather use move semantics to "plunder" the temporary objects and do something like
This avoid needless deep copies being made. With reference to the example, the only part where deep copying occurs is now E + F. The rest uses move semantics. The move constructor or assignment operator also needs to be implemented to assign the result to A.