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This question follows on from How to pass by lambda in C++0x?, but perhaps this is a clearer way to ask the question.

Consider the following code:

#include <iostream>

#define LAMBDA(x) [&] { return x; }

class A
  A() : i(42) {};
  A(const A& a) : i(a.i) { std::cout << "Copy " << std::endl; }
  A(A&& a) : i(a.i) { std::cout << "Move " << std::endl; }
  int i;

template <class T>
class B
  B(const T& x_) : x(x_) {}
  B(T&& x_) : x(std::move(x_)) {}
  template <class LAMBDA_T>
  B(LAMBDA_T&& f, decltype(f())* dummy = 0) : x(f()) {}
  T x;

template <class T>
auto make_b_normal(T&& x) -> B<typename std::remove_const<typename std::remove_reference<T>::type>::type>
  return B<typename std::remove_const<typename std::remove_reference<T>::type>::type>(std::forward<T>(x));

template <class LAMBDA_T>
auto make_b_macro_f(LAMBDA_T&& f) -> B<decltype(f())>
  return B<decltype(f())>( std::forward<LAMBDA_T>(f) );

#define MAKE_B_MACRO(x) make_b_macro_f(LAMBDA(x))

int main()
  std::cout << "Using standard function call" << std::endl;
  auto y1 = make_b_normal(make_b_normal(make_b_normal(make_b_normal(A()))));
  std::cout << "Using macro" << std::endl;
  std::cout << "End" << std::endl;

Which outputs the following:

Using standard function call
Using macro

It is clear that the macro version somehow elides all move/copy constructor calls, but the function version does not.

I assume that there is a syntactically nice way of eliding all the moves and copies without lots of macros in C++0x, but I can't figure it out.


I plan to use such code without moves or copies for building parameter packs, i.e.

auto y = (_blah = "hello", _blah2 = 4);
f(y, (_blah3 = "world", _blah4 = 67));

And have these not have no extra moves/copies compared to non parameter code.

share|improve this question
Or you might just pass by reference... – David Rodríguez - dribeas Jul 14 '11 at 11:55
@Clinton: The problem is that there is too much of your solution and too little of the actual problem. What is it that you want to achieve? – David Rodríguez - dribeas Jul 14 '11 at 12:31
@Clinton: Moves should be almost free, why do you feel the need to remove those few moves? Why do you want/need the extra indirections? What is the reason for the existence of B as a type? You are still focusing on a detail rather than the problem. And note that the test is not telling you all the truth: the lambda is being moved, you just don't see that in the output. Moving the lambda is a low cost operation, but so is moving in general (moving a vector is three pointer swaps, I don't think creation and moving of the lambda is going to be much cheaper) – David Rodríguez - dribeas Jul 14 '11 at 12:47
@Clinton: Yes they are, but you are adding a whole lot of complexity here for which I don't see any point. Note that my first comment was pass by reference, which is still true: If you cannot efficiently move, pass a reference and make a unique copy internally. That is what your pass-by-lambda is doing (which by the way could be pass-by-std::ref or any other version of it. Until you actually provide some insight into what you are trying to solve the question is pointless – David Rodríguez - dribeas Jul 14 '11 at 13:46
@Clinton: What is your definition of dangling reference issues? Just take a look at the STL (pre C++0x) and you will see a whole lot of code that passes by reference and works. Or download any C++ project from anywhere. What is the problem with pass-by-reference? – David Rodríguez - dribeas Jul 14 '11 at 14:00

You failed to provide a move constructor for B. When that is provided, then on Visual Studio 2010 I get a bunch of moves. The reason that it doesn't ellide any of the moves is because you created a B<B<B<B<A>>>>.

Compilers are still very immature w.r.t. move ellision. I would expect them to get better at it later.

share|improve this answer

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