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Given a lambda, is it possible to figure out it's parameter type and return type? If yes, how?

Basically, I want lambda_traits which can be used in following ways:

auto lambda = [](int i) { return long(i*10); };

lambda_traits<decltype(lambda)>::param_type  i; //i should be int
lambda_traits<decltype(lambda)>::return_type l; //l should be long

The motivation behind is that I want to use lambda_traits in a function template which accepts a lambda as argument, and I need to know it's parameter type and return type inside the function:

template<typename TLambda>
void f(TLambda lambda)
   typedef typename lambda_traits<TLambda>::param_type  P;
   typedef typename lambda_traits<TLambda>::return_type R;

   std::function<R(P)> fun = lambda; //I want to do this!

For the time being, we can assume that the lambda takes exactly one argument.

Initially, I tried to work with std::function as:

template<typename T>
A<T> f(std::function<bool(T)> fun)
   return A<T>(fun);

f([](int){return true;}); //error

But it obviously would give error (ideone). So I changed it to TLambda version of the function template and want to construct the std::function object inside the function (as shown above).

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If you know the parameter type then this can be used to figure out the return type. I don't know how to figure out the parameter type though. –  Mankarse Oct 30 '11 at 5:57
Is it assumed that function takes single argument ? –  iammilind Oct 30 '11 at 6:01
"parameter type" But an arbitrary lambda function doesn't have a parameter type. It could take any number of parameters. So any traits class would have to be designed to query parameters by position indices. –  Nicol Bolas Oct 30 '11 at 6:01
@iammilind: Yes. for the time being, we can assume that. –  Nawaz Oct 30 '11 at 6:03
@NicolBolas: For the time being, we can assume that the lambda takes exactly one argument. –  Nawaz Oct 30 '11 at 6:03
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3 Answers

up vote 32 down vote accepted

Funny, I've just written a function_traits implementation based on Specializing a template on a lambda in C++0x which can give the parameter types. The trick, as described in the answer in that question, is to use the decltype of the lambda's operator().

template <typename T>
struct function_traits
    : public function_traits<decltype(&T::operator())>
// For generic types, directly use the result of the signature of its 'operator()'

template <typename ClassType, typename ReturnType, typename... Args>
struct function_traits<ReturnType(ClassType::*)(Args...) const>
// we specialize for pointers to member function
    enum { arity = sizeof...(Args) };
    // arity is the number of arguments.

    typedef ReturnType result_type;

    template <size_t i>
    struct arg
        typedef typename std::tuple_element<i, std::tuple<Args...>>::type type;
        // the i-th argument is equivalent to the i-th tuple element of a tuple
        // composed of those arguments.

// test code below:
int main()
    auto lambda = [](int i) { return long(i*10); };

    typedef function_traits<decltype(lambda)> traits;

    static_assert(std::is_same<long, traits::result_type>::value, "err");
    static_assert(std::is_same<int, traits::arg<0>::type>::value, "err");

    return 0;
share|improve this answer
Heh, I was just writing this. Didn't think about tuple_element though, thanks. –  GManNickG Oct 30 '11 at 7:30
@GMan: If your approach is not exactly same as this, please post it then. I'm going to test this solution. –  Nawaz Oct 30 '11 at 7:33
@Nawaz: The utility Kenny linked to is nearly identical to my own utility I have for my projects. (I just have to Boost.PP iterate since I'm stuck in MSVC C++0x support.) The only thing is I wrote a get_nth_element meta-function, instead of (ab)using tuple_element. –  GManNickG Oct 30 '11 at 8:29
+1. Now tested this solution. It is working great. :-) –  Nawaz Oct 30 '11 at 9:21
A complete trait would also use a specialization for non-const, for those lambda declared mutable ([]() mutable -> T { ... }). –  Luc Danton Oct 30 '11 at 10:14
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auto l = [](int a, bool b) -> long { return 1; };

decltype(l(1, true)) r; // r will be a long

Not too sure about teasing the parameters out. Mankarse's answer looks promising there.

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How can you write l() without specifying the lambda arguments? In this case, l takes two arguments of type int and bool. –  Nawaz Oct 30 '11 at 6:23
Yeah, sorry about that... got ahead of myself. –  Michael Price Oct 30 '11 at 8:00
Now the edited version assumes the parameter types to be known, while in the question, it is what I want to figure out. –  Nawaz Oct 30 '11 at 8:05
I wasn't proposing a solution to determining the parameter types. The best I could do was answer one part of your question Given a lambda, is it possible to figure out it's parameter type and return type? If yes, how?, which said nothing about what you know about the lambda ahead of time. It may not be too useful for you, but someone out there might find this simple solution useful. –  Michael Price Oct 31 '11 at 17:05
It only adds noise in the disguise of answer, decreasing the quality of the SO, because it leaves the part which actually is the problem. Think what would be the quality of SO, if we start posting such answer in all topics of SO? Also, as for it being valuable for other readers, you can post anything, unrelated to the question, for example, some primer on how to use pointers, and still claim that it is valuable for readers. –  Nawaz Nov 1 '11 at 3:32
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Though I'm not sure this is strictly standard conforming, ideone compiled the following code:

template< class > struct mem_type;

template< class C, class T > struct mem_type< T C::* > {
  typedef T type;

template< class T > struct lambda_func_type {
  typedef typename mem_type< decltype( &T::operator() ) >::type type;

int main() {
  auto l = [](int i) { return long(i); };
  typedef lambda_func_type< decltype(l) >::type T;
  static_assert( std::is_same< T, long( int )const >::value, "" );

However, this provides only the function type, so the result and parameter types have to be extracted from it. If you can use boost::function_traits, result_type and arg1_type will meet the purpose. Since ideone seems not to provide boost in C++11 mode, I couldn't post the actual code, sorry.

share|improve this answer
I think, it is a good start. +1 for that. Now we need to work on function type to extract the required information. (I don't want to use Boost as of now, as I want to learn the stuffs). –  Nawaz Oct 30 '11 at 7:22
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