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Please look at the following C++0x lambda related code:

typedef uint64_t (*WEIGHT_FUNC)(void* param);
typedef std::map<std::string, WEIGHT_FUNC> CallbackTable;

CallbackTable table;
table["rand_weight"] = [](void* param) -> uint64_t
  return (rand() % 100 + 1);

I got an error (in Visual Studio 2010) that the lambda couldn't be converted to the type of WEIGHT_FUNC. I also know the answer: using std::function object:

typedef std::function<uint64_t (void*)>  WEIGHT_FUNC;

However, I also want to know how I can receive the type of lambda WITHOUT using std::function. What type should it be?

share|improve this question
auto? _______ – kennytm Jul 23 '10 at 18:39
auto will just be useful to automatically determine the type, it's not a variant type, it can't be a parameter. – Klaim Jul 23 '10 at 18:41
Which compiler are you using? Seems your compiler is non-standard in regards to lambda's, they should be able to implicitly convert to a function pointer (in cases such as this.) – GManNickG Jul 23 '10 at 19:03
g++ 4.5 is fine with it, so i'm guessing VC10, for which i've already seen some lambda bugs. – Georg Fritzsche Jul 23 '10 at 19:24
up vote 20 down vote accepted

The conversion to function pointer is relatively new: It was introduced with N3043 on February 15, 2010.

While e.g. GCC 4.5 implements it, Visual Studio 10 was released on April 12, 2010 and thus just didn't implement it in time. As James pointed out, this will be fixed in future releases.

For the moment you have to use one of the alternative solutions provided here.

Technically something like the following workaround would work, but without variadic templates its no fun to generalize it (Boost.PP to the rescue...) and there is no safety net against passing capturing lambdas in:

typedef uint64_t (*WeightFunc)(void* param);

template<class Func> WeightFunc make_function_pointer(Func& f) {
    return lambda_wrapper<Func>::get_function_pointer(f);

template<class F> class lambda_wrapper {
    static F* func_;
    static uint64_t func(void* p) { return (*func_)(p); }    
    friend WeightFunc make_function_pointer<>(F& f);    
    static WeightFunc get_function_pointer(F& f) {
        if (!func_) func_ = new F(f);
        return func;

template<class F> F* lambda_wrapper<F>::func_ = 0;

// ...
WeightFunc fp = make_function_pointer([](void* param) -> uint64_t { return 0; });
share|improve this answer
It's worth mentioning that the conversion to function pointers is only for stateless lambda functions, they can not capture lexical scope. – snk_kid Jul 24 '10 at 10:08
The conversion to function pointer seems not to work with g++ 4.5 in template code ( – rafak Aug 6 '10 at 0:08
See for that. – Georg Fritzsche Aug 7 '10 at 14:44
Your link is broken. – Nathan Osman Feb 7 '13 at 7:58
@George: Which link? – Georg Fritzsche Feb 13 '13 at 14:17

If you really insist on not using function<> then you could probably use decltype:

typedef decltype([](void*)->uint_64{return 0;}) my_lambda_type;

I really don't recommend this though since you're drastically limiting yourself and I don't even know if two lambda's with the same signature are guaranteed to be the same type.

share|improve this answer
Is it guaranteed that the type generated will be the same than if you write the exact same typedef somewhere else? I don't think you should assume that the type is signature-dependent... but maybe i'm wrong. – Klaim Jul 23 '10 at 19:30
Doesn't work in GCC. – Joe D Aug 28 '10 at 19:53
Old answer, I know, but lambda expression's cannot appear in an unevaluated context. (I think the rationale being what you brought up: since each lambda expression is a unique, unspecified type, you aren't guaranteed any particular meaningful answer an an unevaluated context.) – GManNickG Feb 4 '11 at 6:22

Try with (not tested) :

#include <function>

typedef std::function< int64_t (void*) > weight_func;
typedef std::map<std::string, weight_func > CallbackTable;

I don't think there is any other way to do this than to use std::function or equivalent.

share|improve this answer
Thanks for the fix sbi – Klaim Jul 23 '10 at 18:56
Don't use std::function<R (*)(T)>, use std::function<R (T)>. – Georg Fritzsche Jul 23 '10 at 19:01
Right! Fixed, thanks! – Klaim Jul 23 '10 at 19:28
I already knew how to do it with std::function (please see my posting again). I was wondering whether there would be a way to convert lambda to function pointer w/o using std::function. – minjang Jul 23 '10 at 23:00
Strange, I had to include <functional>, not <function> for VS2010 – Casebash Apr 15 '11 at 2:14

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