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Say I have this constructor in C++:

 A::A( std::string const& name,
       std::string const& type,
       std::vector<B> const& b_vec,
       bool unique )
     : _name(name), _type(type), _b_vec(b_vec), _unique(unique)
     { };

I would like to overload this constructor for the case where the arguments are rvalues (I want to use move semantics there).

 A::A( std::string && name,
       std::string && type,
       std::vector<B> && b_vec,
       bool unique )
     : _name(name), _type(type), _b_vec(b_vec), _unique(unique)
     { };

The above one works fine when all of the arguments are rvalues, but suppose if only some of them are is in the next example:

 // create some lvalues somehow
 std::string name   = "stack overflow";
 std::vector<B> vec = { ... }; // implementation of B's constructot is not important

 // call a mixed constructor
 A new_A_instance(name, "cool-website", vec, true);

it is to my understanding that since 'const&' cannot bind to '&&' but '&&' can bind to 'const&' the first (non-move) constructor would be used.

This seems sub-optimal, since two of the four arguments could be moved (because they are rvalue) instead of being copied (as is the case in the first constructor).

So I could overload the operator for this specific case, but one could easily image a case where other arguments are rvalue and others are agin lvalue. Should I overload the constructor for each of these cases? This would combinatorily lead to very much overloads as the number of arguments increases...

I kind-of feel there is a better solution (perhaps using templates, but my template knowledge is shamefully low).

Note: this problem isn't tied to overloading pass-by-ref functions to move functions per-se, but I found this a good example (especially since the overloads don't feel very different). Also note that I just used constructors as an example, but the overloaded function can be anything.

share|improve this question
An rvalue bool, as well as a const bool, are utterly pointless. – Kerrek SB Sep 23 '12 at 20:04
@Kerrek: I agree. Don't know why I put them there. – romeovs Sep 23 '12 at 20:06
up vote 2 down vote accepted

Pass by value, this is what move semantics are for:

 A::A(std::string name, std::string type, std::vector<B> b_vec, bool unique )
   : _name(std::move(name)), _type(std::move(type)), _b_vec(std::move(b_vec)),
 { };

This has the expected behaviour in every case. Passing a temporary by value allows the compiler to perform copy elision, which it pretty much always does.

Note that in your second code, copies are made, since you don't use std::move. Please realize that when you write

void foo(bar&& x)

then in the body of foo, x is a lvalue. Objects with names are always lvalues. Inside this body, you must use std::move(x) if you intend to pass x as a rvalue.

share|improve this answer
+1 for a very C++11 solution. – Kerrek SB Sep 23 '12 at 20:04
Actually, the edit isn't quite correct. x is indeed always a bar&&. But it's not an rvalue! Note that bar&& means "rvalue reference", and not "rvalue". – Kerrek SB Sep 23 '12 at 20:08
@romeovs: yes. Pass by value whenever you can. – Alexandre C. Sep 23 '12 at 20:09
@AlexandreC.: I know what you intended, but it's simply not correct. It's no better than claiming that an int-reference is the same as an int. It's not... :-( In other words, an rvalue reference can bind to an rvalue, but it is not itself an rvalue. It's just a reference. – Kerrek SB Sep 23 '12 at 20:12
@romeovs: It's something which always existed in fact. See for instance. – Alexandre C. Sep 23 '12 at 20:17

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