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Seems like Visual C++'s std::function<> doesn't handle functions with rvalue refs as arguments. Can anyone suggest a workaround?

#include <functional>
using namespace std;

class Object { };

void f(Object&&) { }
auto g = [](Object&&){ };
function<void(Object&&)> h;

int main()
{
   Object o;
   f(move(o));
   g(move(o));

   // Uncomment any one of the following lines, and we get an error from the instantiation
   // of std::function: "error C2664: You cannot bind an lvalue to an rvalue reference"

   //h(move(o));
   //h = g;
   //h = f;

   return 0;
}

This is Visual Studio 2010. I am not using /Za (so it is not this problem).

Update after some research: The code compiles in Clang, so I am pretty sure it is a Microsoft bug. It might be this one, fixed in VC11: 649274

Correction to the update: The MS bug is not fixed in VC11. From the link:

our first opportunity will be the "out of band" release between VC11 and VC12 that Herb Sutter announced at the GoingNative 2012 conference.

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1 Answer 1

up vote 1 down vote accepted

I'm not sure what workaround you'd like here. Assuming you cannot change the call expression of the function object and the target signature, you can wrap the rvalue reference and pass the wrapped object (a temporary) via const ref. Essentially, the call expands to: f( wrap(move(o)) );

I suspect there's a problem with perfect forwarding, because binding i = bind(&f); does not work; therefore I've introduced an intermediate step performing perfect forwarding, such that the call is resolved to: f( move( (Object&)wrap( move(o) ) ) );

#include <iostream>
#include <functional>
using namespace std;

struct Object { int m; };

// target function with fixed signature (assuming we cannot change that)
void f(Object&& p) { p.m = 42; std::cout << p.m; };

// was surprised I didn't find any method to chain functions in the StdLib
// so here's my own:
template < typename F1, typename F2, typename P1 >
auto chain2(F1 f1, F2 f2, P1&& p1)
    -> decltype( f1(f2( std::forward<P1>(p1) )) )
{
    return f1( f2( std::forward<P1>(p1) ) );
}
// a special bind version; mostly syntactic sugar
// note you can also deduce the first template parameter; would be more work
// and not necessary here
template < typename P1, typename F1, typename F2 >
auto bind_chain(F1 f1, F2 f2)
  -> decltype( std::bind( &chain2<F1,F2,P1>, f1, f2, std::placeholders::_1 ) )
{
    return std::bind( &chain2<F1,F2,P1>, f1, f2, std::placeholders::_1 );
}

// as `std::move` is overloaded, we make things a little bit simpler;
// we later will need to get a function pointer on this, that's why
// I'd like to avoid too much overloading
template < typename T >
// for a certain reason, cannot use && here --------v, clang++3.2 accepts it
typename std::remove_reference<T>::type && my_move(T& p)
{
    return std::move(p);
}

struct wrapper
{
    Object&& m;
    wrapper(Object&& p) : m(std::move(p)) {}
    operator Object&() const { return m; }
    // alternatively:
    // operator Object&&() const { return std::move(m); }
};

int main()
{
   Object o;

   // we'll need to call the functor with an const ref
   function<void(wrapper const&)> i;

   // chaining the conversion to rvalue ref with the target function
   i = bind_chain<wrapper const&>( &f, &my_move<Object> );

   i( move(o) );

   return 0;
}
share|improve this answer
    
That's interesting. I did not think it would be possible to preserve the call syntax! However in my case, it is feasible to change the signature to function<void (Object)> since there are a small number of call sites, so I will do that instead. (You're right, I didn't specify what kind of workaround I was looking for.) –  Tim Culver Apr 23 '13 at 14:00
    
Update: My workaround doesn't work either. The copy constructor is called when I invoke the function, even when I move the argument. I assume this is another aspect of the MS bug 649274 linked above. Next best choice is function<void (Object&)>, which does work. –  Tim Culver Apr 23 '13 at 16:11
    
Yet another update: I've changed my mind and implemented @DyP 's wrapper class, which allows me to use Object&& instead of Object& in a lot of places where the former makes a lot more sense. It works great. I did have to disable warning 4512 ("assignment operator could not be generated") for the definition of wrapper. Thanks so much! –  Tim Culver Apr 23 '13 at 21:38

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