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I'm trying to create a C++11 implementation of Don Clugston's Member Function Pointers and the Fastest Possible C++ Delegates, and make it work as a drop-in std::function replacement.

This is what I got so far.

I construct lambda FastDelegates like this:

// FastFunc is my name for FastDelegate
template<typename LambdaType> FastFunc(LambdaType lambdaExpression)
{
    this->m_Closure.bindmemfunc(&lambdaExpression, &LambdaType::operator());
}

Now, some tests:

FastFunc<void()> test = []{ std::cout << "hello" << std::endl; };
test();
// Correctly prints "hello"

bool b{false};
FastFunc<void()> test2 = [&b]{ std::cout << b << std::endl; };
test2();
// Crash!

As you can see, when the lambda is "trivial" (no captures), copying it by value and taking its address works. But when the lambda stores some kind of state (captures), I cannot just copy it by value into the FastFunc.

I tried getting the lambda by reference, but I cannot do that when it's a temporary like in the example.

I have to somehow store the lambda inside the FastFunc, but I don't want to use std::shared_ptr because it's slow (I tried a different fastdelegate implementation that used it, and its performance was comparable to std::function).

How can I make my implementation of Don Clugston's fastest possible C++ delegates work with lambdas that capture state, preserving the amazing performance of fastdelegates?

share|improve this question
1  
It's because you cannot convert a capturing lambda into a function pointer: you need type erasure and std::shared_ptr<void> provides it. –  user1095108 Sep 5 '13 at 10:22
    
@user1095108: if you copy a std::function encapsulating a mutable lambda (aka, lambda with mutable state) do the two std::function instances share the same state, or does each one have its own copy ? –  Matthieu M. Sep 5 '13 at 14:58
    
@MatthieuM. each one has it's own copy AFAIK. –  user1095108 Sep 5 '13 at 15:23
    
@user1095108: okay, then it probably does not use std::shared_ptr<void> because the type erasure would prevent copying the inner lambda (no clone method there). –  Matthieu M. Sep 5 '13 at 15:48
    
@MatthieuM. No, it uses either placement new or copies into a newly allocated block. Good point about mutables hehehe. –  user1095108 Sep 5 '13 at 17:16

4 Answers 4

up vote 8 down vote accepted

You have diagnosed the situation well: you need to store the state.

Since the lambda is a temporary object, you are actually allowed to move from it (normally) which should be preferred to a copy if possible (because move is more general than copy).

Now, all you need to do is to reserve some storage for it, and if this requires a dynamic allocation you might indeed get a performance degradation. On the other hand, an object need have a fixed foot-print, so ?

One possible solution is to offer a configurable (but limited) storage capacity:

static size_t const Size = 32;
static size_t const Alignment = alignof(std::max_align_t);

typedef std::aligned_storage<Size, Alignment>::type Storage;
Storage storage;

Now you can (using reinterpret_cast as necessary) store your lambda within storage provided its size fit (which can be detected using static_assert).

Finally managed to get a working example (had to restart from scratch because god is that fast delegate code verbose !!), you can see it in action here (and the code is below).

I have only scratch the surface, notably because it lacks copy and move operators. To do so properly those operations need be added to the handler following the same pattern than the two other operations.

Code:

#include <cstddef>

#include <iostream>
#include <memory>
#include <type_traits>

template <typename, size_t> class FastFunc;

template <typename R, typename... Args, size_t Size>
class FastFunc<R(Args...), Size> {
public:
    template <typename F>
    FastFunc(F f): handler(&Get<F>()) {
        new (&storage) F(std::move(f));
    }

    ~FastFunc() {
        handler->destroy(&storage);
    }

    R operator()(Args&&... args) {
      return handler->apply(&storage, std::forward<Args>(args)...);
    }

private:
    using Storage = typename std::aligned_storage<Size, alignof(max_align_t)>::type;

    struct Handler {
        R (*apply)(void*, Args&&...);
        void (*destroy)(void*);
    }; // struct Handler

    template <typename F>
    static R Apply(void* f, Args&&... args) {
        (*reinterpret_cast<F*>(f))(std::forward<Args>(args)...);
    }

    template <typename F>
    static void Destroy(void* f) {
        reinterpret_cast<F*>(f)->~F();
    }

    template <typename F>
    Handler const& Get() {
        static Handler const H = { &Apply<F>, &Destroy<F> };
        return H;
    } // Get

    Handler const* handler;
    Storage storage;
}; // class FastFunc

int main() {
    FastFunc<void(), 32> stateless = []() { std::cout << "stateless\n"; };
    stateless();

    bool b = true;
    FastFunc<void(), 32> stateful = [&b]() { std::cout << "stateful: " << b << "\n"; };
    stateful();

    b = false;
    stateful();

    return 0;
}
share|improve this answer
    
std::aligned_storage sounds great! However, I'm having trouble moving the lambda inside the storage. Can you show a simple example? The ones on cppreference didn't help. –  Vittorio Romeo Sep 5 '13 at 11:32
1  
@VittorioRomeo Just copy or move it in there, e.g. new (&storage) LambdaType(lambdaExpression);. But it ain't gonna be faster, as storage location now depends on the this pointer, which means inlining the invocation is now impossible –  user1095108 Sep 5 '13 at 11:36
    
@VittorioRomeo: I was working on it, but that fast delegate god was so awful that I went from scratch to something a tad simpler. It might not be fast any longer mind (no performance guarantee is implied!), however it does showcase how to copy/move state. –  Matthieu M. Sep 5 '13 at 11:54
4  
Doesn't this amount to reimplementing std::function (and virtual functions too!)? –  R. Martinho Fernandes Sep 5 '13 at 12:07
    
@R.MartinhoFernandes: Well... that's what fast delegate is all about (though it was invented at a time where std::function did not exist). There are small differences though: 1/ std::function uses heap allocation (in general) so this is potentially faster, 2/ it uses less spaces than using virtual functions would (potentially) as for virtual functions it seems you would need to store both the virtual pointer (in storage) and a pointer to the base class (outside storage). –  Matthieu M. Sep 5 '13 at 12:44

You can't.

Here's the thing. Fastdelegates only works for a very few, very specific circumstances. That's what makes it faster. You won't beat your Standard library implementer for implementing std::function.

share|improve this answer

The difference between "trivial" and general lambda functions is that if it doesn't belong to the first class (no captures) it is a function object.

If you copy the object (lambda) and it contains references to temporary objects, or references to stack allocated objects that will be freed before your FastDelegate gets destroyed, you have a dangling reference, hence the crash.

Try capturing by copy, not by reference

share|improve this answer
    
Your explanation is correct, but the point is having a faster drop-in for std::function, not changing existing lambda code. std::function works in the example where the lambda captures the bool by reference, but it's slow. My goal is to use the concepts behind Don Clugston's work to create a faster version of std::function –  Vittorio Romeo Sep 5 '13 at 10:56
1  
@Vittorio: You won't. Fast delegates only really works for a small subset of the scenarios where std::function can work. That's why it's faster. You are very unlikely to beat your Standard library implementer. –  Puppy Sep 5 '13 at 12:34
    
@DeadMG Yeah, but sometimes you may not like the interface and then you make your own thing. For example, I don't like to use std::bind or lambda objects with std::function in order to call member functions. –  user1095108 Sep 5 '13 at 12:42
1  
@user1095108: Unless he is going to massively restrict his interface, he is still making a class with the same constraints as std::function, which would almost certainly lead to essentially the same implementation tradeoffs and therefore basically the same performance. –  Puppy Sep 5 '13 at 12:43
    
@VittorioRomeo ever asked yourself why the people implementing std::function didn't use the concepts behind Don Clugston's work to create a faster version of std::function? –  R. Martinho Fernandes Sep 5 '13 at 12:54

I've made a solution to fit a lambda function as pointer only into a FastDelegate (it does not store anything else) using hard labor and a couple of other thread such as: Get lambda parameter type

here it is:

namespace details{

    template<class FPtr> struct function_traits;
    template<class RT, class CT                                                                                        >struct function_traits<RT (CT::*)(                                      )     >{ typedef RT Result;                                                                                                                                                                  typedef RT (CT::*Signature)(                                      );};
    template<class RT, class CT                                                                                        >struct function_traits<RT (CT::*)(                                      )const>{ typedef RT Result;                                                                                                                                                                  typedef RT (CT::*Signature)(                                      );};
    template<class RT                                                                                                  >struct function_traits<RT        (                                      )     >{ typedef RT Result;                                                                                                                                                                  typedef RT       Signature (                                      );};
    template<class RT, class CT, class P1T                                                                             >struct function_traits<RT (CT::*)(P1T                                   )     >{ typedef RT Result;  typedef P1T Param1;                                                                                                                                             typedef RT (CT::*Signature)(P1T                                   );};
    template<class RT, class CT, class P1T                                                                             >struct function_traits<RT (CT::*)(P1T                                   )const>{ typedef RT Result;  typedef P1T Param1;                                                                                                                                             typedef RT (CT::*Signature)(P1T                                   );};
    template<class RT          , class P1T                                                                             >struct function_traits<RT        (P1T                                   )     >{ typedef RT Result;  typedef P1T Param1;                                                                                                                                             typedef RT       Signature (P1T                                   );};
    template<class RT, class CT, class P1T, class P2T                                                                  >struct function_traits<RT (CT::*)(P1T, P2T                              )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2;                                                                                                                         typedef RT (CT::*Signature)(P1T, P2T                              );};
    template<class RT, class CT, class P1T, class P2T                                                                  >struct function_traits<RT (CT::*)(P1T, P2T                              )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2;                                                                                                                         typedef RT (CT::*Signature)(P1T, P2T                              );};
    template<class RT          , class P1T, class P2T                                                                  >struct function_traits<RT        (P1T, P2T                              )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2;                                                                                                                         typedef RT       Signature (P1T, P2T                              );};
    template<class RT, class CT, class P1T, class P2T, class P3T                                                       >struct function_traits<RT (CT::*)(P1T, P2T, P3T                         )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3;                                                                                                     typedef RT (CT::*Signature)(P1T, P2T, P3T                         );};
    template<class RT, class CT, class P1T, class P2T, class P3T                                                       >struct function_traits<RT (CT::*)(P1T, P2T, P3T                         )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3;                                                                                                     typedef RT (CT::*Signature)(P1T, P2T, P3T                         );};
    template<class RT          , class P1T, class P2T, class P3T                                                       >struct function_traits<RT        (P1T, P2T, P3T                         )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3;                                                                                                     typedef RT       Signature (P1T, P2T, P3T                         );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T                                            >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T                    )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4;                                                                                 typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T                    );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T                                            >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T                    )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4;                                                                                 typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T                    );};
    template<class RT          , class P1T, class P2T, class P3T, class P4T                                            >struct function_traits<RT        (P1T, P2T, P3T, P4T                    )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4;                                                                                 typedef RT       Signature (P1T, P2T, P3T, P4T                    );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T                                 >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T               )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5;                                                             typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T               );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T                                 >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T               )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5;                                                             typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T               );};
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T                                 >struct function_traits<RT        (P1T, P2T, P3T, P4T, P5T               )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5;                                                             typedef RT       Signature (P1T, P2T, P3T, P4T, P5T               );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T          )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6;                                         typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T          );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T          )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6;                                         typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T          );};
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      >struct function_traits<RT        (P1T, P2T, P3T, P4T, P5T, P6T          )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6;                                         typedef RT       Signature (P1T, P2T, P3T, P4T, P5T, P6T          );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7;                     typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           >struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     )const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7;                     typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     );};
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           >struct function_traits<RT        (P1T, P2T, P3T, P4T, P5T, P6T, P7T     )     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7;                     typedef RT       Signature (P1T, P2T, P3T, P4T, P5T, P6T, P7T     );};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T>struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7; typedef P8T Param8; typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T);};
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T>struct function_traits<RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)const>{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7; typedef P8T Param8; typedef RT (CT::*Signature)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T);};
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T>struct function_traits<RT        (P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)     >{ typedef RT Result;  typedef P1T Param1; typedef P2T Param2; typedef P3T Param3; typedef P4T Param4; typedef P5T Param5; typedef P6T Param6; typedef P7T Param7; typedef P8T Param8; typedef RT       Signature (P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T);};

    template<class T>
    typename function_traits<T>::Signature* bar_helper(T);

    template<class F>
    class FuncTraitsOf{
    public:
        typedef decltype(bar_helper(&F::operator())) fptr;
        typedef typename std::remove_pointer<fptr>::type Signature;     //Signature =   bool __cdecl(int,float)
        typedef typename function_traits< Signature > R;                //R         =   struct function_traits<bool __cdecl(int,float)>
    };

    template< class FuncTraits>class FDSel;
    template<class RT, class CT                                                                                        > struct FDSel< function_traits< RT (CT::*)(                                      )      > >{ typedef fastdelegate::FastDelegate0<                                       RT> R; };
    template<class RT, class CT                                                                                        > struct FDSel< function_traits< RT (CT::*)(                                      )const > >{ typedef fastdelegate::FastDelegate0<                                       RT> R; };
    template<class RT                                                                                                  > struct FDSel< function_traits< RT        (                                      )      > >{ typedef fastdelegate::FastDelegate0<                                       RT> R; };
    template<class RT, class CT, class P1T                                                                             > struct FDSel< function_traits< RT (CT::*)(P1T                                   )      > >{ typedef fastdelegate::FastDelegate1<P1T                                   ,RT> R; };
    template<class RT, class CT, class P1T                                                                             > struct FDSel< function_traits< RT (CT::*)(P1T                                   )const > >{ typedef fastdelegate::FastDelegate1<P1T                                   ,RT> R; };
    template<class RT          , class P1T                                                                             > struct FDSel< function_traits< RT        (P1T                                   )      > >{ typedef fastdelegate::FastDelegate1<P1T                                   ,RT> R; };
    template<class RT, class CT, class P1T, class P2T                                                                  > struct FDSel< function_traits< RT (CT::*)(P1T, P2T                              )      > >{ typedef fastdelegate::FastDelegate2<P1T, P2T                              ,RT> R; };
    template<class RT, class CT, class P1T, class P2T                                                                  > struct FDSel< function_traits< RT (CT::*)(P1T, P2T                              )const > >{ typedef fastdelegate::FastDelegate2<P1T, P2T                              ,RT> R; };
    template<class RT          , class P1T, class P2T                                                                  > struct FDSel< function_traits< RT        (P1T, P2T                              )      > >{ typedef fastdelegate::FastDelegate2<P1T, P2T                              ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T                                                       > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T                         )      > >{ typedef fastdelegate::FastDelegate3<P1T, P2T, P3T                         ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T                                                       > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T                         )const > >{ typedef fastdelegate::FastDelegate3<P1T, P2T, P3T                         ,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T                                                       > struct FDSel< function_traits< RT        (P1T, P2T, P3T                         )      > >{ typedef fastdelegate::FastDelegate3<P1T, P2T, P3T                         ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T                                            > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T                    )      > >{ typedef fastdelegate::FastDelegate4<P1T, P2T, P3T, P4T                    ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T                                            > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T                    )const > >{ typedef fastdelegate::FastDelegate4<P1T, P2T, P3T, P4T                    ,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T, class P4T                                            > struct FDSel< function_traits< RT        (P1T, P2T, P3T, P4T                    )      > >{ typedef fastdelegate::FastDelegate4<P1T, P2T, P3T, P4T                    ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T                                 > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T               )      > >{ typedef fastdelegate::FastDelegate5<P1T, P2T, P3T, P4T, P5T               ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T                                 > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T               )const > >{ typedef fastdelegate::FastDelegate5<P1T, P2T, P3T, P4T, P5T               ,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T                                 > struct FDSel< function_traits< RT        (P1T, P2T, P3T, P4T, P5T               )      > >{ typedef fastdelegate::FastDelegate5<P1T, P2T, P3T, P4T, P5T               ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T          )      > >{ typedef fastdelegate::FastDelegate6<P1T, P2T, P3T, P4T, P5T, P6T          ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T          )const > >{ typedef fastdelegate::FastDelegate6<P1T, P2T, P3T, P4T, P5T, P6T          ,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T                      > struct FDSel< function_traits< RT        (P1T, P2T, P3T, P4T, P5T, P6T          )      > >{ typedef fastdelegate::FastDelegate6<P1T, P2T, P3T, P4T, P5T, P6T          ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     )      > >{ typedef fastdelegate::FastDelegate7<P1T, P2T, P3T, P4T, P5T, P6T, P7T     ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           > struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T     )const > >{ typedef fastdelegate::FastDelegate7<P1T, P2T, P3T, P4T, P5T, P6T, P7T     ,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T           > struct FDSel< function_traits< RT        (P1T, P2T, P3T, P4T, P5T, P6T, P7T     )      > >{ typedef fastdelegate::FastDelegate7<P1T, P2T, P3T, P4T, P5T, P6T, P7T     ,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T> struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)      > >{ typedef fastdelegate::FastDelegate8<P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T,RT> R; };
    template<class RT, class CT, class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T> struct FDSel< function_traits< RT (CT::*)(P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)const > >{ typedef fastdelegate::FastDelegate8<P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T,RT> R; };
    template<class RT          , class P1T, class P2T, class P3T, class P4T, class P5T, class P6T, class P7T, class P8T> struct FDSel< function_traits< RT        (P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T)      > >{ typedef fastdelegate::FastDelegate8<P1T, P2T, P3T, P4T, P5T, P6T, P7T, P8T,RT> R; };


}


template<class F>
typename details::FDSel< typename details::FuncTraitsOf<F>::R >::R MakeDelegate(F& f){
    return fastdelegate::MakeDelegate(&f, &F::operator());
}

Copy/paste that into your FastDelegate.h file.

Do NOT use it like this:

home.visit(fastdelegate::MakeDelegate([&](const Room& a){ /* ... */ }));

Instead do this:

auto d = [&](const Room& a){ /* ... */ };
home.visit(fastdelegate::MakeDelegate(d));

Let me know if I missed anything.

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