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Is std::move necessary in the following snippet?

std::function<void(int)> my_std_function;

void call(std::function<void(int)>&& other_function)
{
  my_std_function.swap(std::move(other_function));
}

As far as I know call() accepts a rvalue reference.. but since the rvalue reference is itself an lvalue, in order to call swap(std::function<void(int)>&&) I have to re-cast this to an rvalue reference with std::move

Is my reasoning correct or std::move can be omitted in this case (and if it can, why?)

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1  
Seems like you want to issue operator= instead of swap here. And then, yes, use move. – Yam Marcovic Jan 4 at 15:06

std::function::swap does not take its parameter by rvalue reference. It's just a regular non-const lvalue reference. So std::move is unhelpful (and probably shouldn't compile, since rvalue references aren't allowed to bind to non-const lvalue references).

other_function also doesn't need to be an rvalue reference.

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The signature is

void std::function<Sig>::swap( function& other )

so code should not compile with std::move (msvc has extension to allow this binding :/)

As you take r-value reference, I think that a simple assignment is what you want in your case:

std::function<void(int)> my_std_function;

void call(std::function<void(int)>&& other_function)
{
  my_std_function = std::move(other_function); // Move here to avoid copy
}
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1  
You're missing the point of the fantastic magic of MSVC2015 – Dean Jan 4 at 15:02
2  
@Dean would this magic include turning a very fast computer into a hot block of plastic merely by installing it? – Richard Hodges Jan 4 at 15:09
1  
@Dean Er, what? Why is it "fantastic magic" to allow rvalue refs to bind to non-const lvalue refs? Was that sarcasm? – Kyle Strand Jan 4 at 23:03

In this case, it doesn't make a difference as std::function::swap takes a non-const lvalue reference. It shouldn't even compile with std::move.

If you used a function which did allow rvalues, then you would need to call std::move as other_function is an lvalue, even though the type of it is an rvalue reference. For example:

struct Foo {
    Foo()=default;
    Foo(const Foo&) { std::cout << "copy" << std::endl; }
    Foo(Foo&&) { std::cout << "move" << std::endl; }
};

void bar (Foo&& a) {
    Foo b {a};            //copy
    Foo c {std::move(a)}; //move
}
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This adds valuable information instead of just mentioning that swap() takes a reference, which I think wasn't really the point of the question. – isanae Jan 4 at 18:24

You are right in a sense — to get an rvalue again you'd need std::move.

However, the swap call doesn't need an rvalue or an rvalue reference — just a plain ol' lvalue ref.

So you're good to go without the std::move cast.

In terms of move semantics, a swap operation is pretty low-level. You'll find that most useful moves are ultimately implemented by a series of swaps, so it makes sense that the swaps themselves don't use move semantics. Really, how would they?

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