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I am trying to write a metafunction named signature_of which, given the type of a function (pointer), functor, or lambda, returns its signature.

Here's what I have so far:

#include <boost/mpl/pop_front.hpp>
#include <boost/mpl/push_front.hpp>
#include <boost/function_types/is_member_function_pointer.hpp>
#include <boost/function_types/function_type.hpp>
#include <boost/function_types/result_type.hpp>
#include <boost/function_types/parameter_types.hpp>

#include <type_traits>

template <typename F>
struct signature_of_member
    typedef typename boost::function_types::result_type<F>::type result_type;
    typedef typename boost::function_types::parameter_types<F>::type parameter_types;
    typedef typename boost::mpl::pop_front<parameter_types>::type base;
    typedef typename boost::mpl::push_front<base, result_type>::type L;
    typedef typename boost::function_types::function_type<L>::type type;

template <typename F, bool is_class>
struct signature_of_impl
    typedef typename boost::function_types::function_type<F>::type type;

template <typename F>
struct signature_of_impl<F, true>
    typedef typename signature_of_member<decltype(&F::operator())>::type type;

template <typename F>
struct signature_of
    typedef typename signature_of_impl<F, std::is_class<F>::value>::type type;

It's pretty straightforward, with most of the real work being done by the boost::function_types library. The general idea is:

  • use std::is_class to discriminate between built-in functions (including lambdas) and functors
  • for built-in function types, use boost::function_types::function_type to get its signature
  • for functors, get the type of their operator(), get its signature, and doctor it to remove the "this" parameter

This works for built-in functions:

int f(int);
typedef signature_of<decltype(f)>::type Sig;  // Sig is int(int)

for lambdas:

auto f = [](int) { return 0; }
typedef signature_of<decltype(f)>::type Sig;  // Sig is int(int)

and for functors:

struct A
    int operator()(int);
typedef signature_of<A>::type Sig;  // Sig is int(int)

However, it doesn't work for bind() expressions (which are a special case of functors). If I try this:

#include <functional>
int g(int);
typedef signature_of<decltype(std::bind(g, 0))>::type Sig;

I get a compiler error:

In file included from test.cpp:3:0:
signature_of.hpp: In instantiation of 'signature_of_impl<
        _Bind<int (*(int))(int)>, true
signature_of.hpp:45:74:   instantiated from 'signature_of<
        _Bind<int (*(int))(int)>
test.cpp:21:52:   instantiated from here
signature_of.hpp:39:74: error: type of '& _Bind<
        int (*)(int)({int} ...)
    >::operator()' is unknown

The problem is that the operator() of the functor returned by bind() is a template, and so its type cannot be determined.

Is it possible to get the signature of a bind() expression another way?

share|improve this question
VC10 cannot compile this, errors are stupid as usually (error C2039: 'type' : is not a member of 'boost::function_types::result_type<T>'), it doesn't like this specialization: typedef typename signature_of_member<decltype(&F::operator())>::type type; –  Andy T Jan 23 '11 at 0:38
@Andy T: how do you convert to std::function without mentioning the template parameter of std::function, which is the signature? –  HighCommander4 Jan 23 '11 at 0:44
yeah, my fault, deleting... –  Andy T Jan 23 '11 at 0:48

2 Answers 2

up vote 10 down vote accepted

You've got more problems than the fact that a binder's operator() is templated, it also has an arbitrary count of parameters. Remember that you're supposed to be able to invoke the result of bind with any number of extra arguments. For example:

int f(int);

auto bound = boost::bind(f, _2);

bound may now be called with any number of arguments of 2 or more, only the second is actually forwarded on to the function.

So basically, as another answer said, this object has no signature. It's signature is defined only by how it is used.

share|improve this answer
Good point, I actually didn't know you could use bind() this way. –  HighCommander4 Jan 23 '11 at 1:25

If the operator is templated, then it doesn't have a signature.

share|improve this answer
Or looking at it slightly differently, it doesn't have a unique signature. operator() can be instantiated with different template arguments, and they participate in the signature of that instantiation of operator(). –  Steve Jessop Jan 23 '11 at 0:00
Yes, but if g has signature int(int), then conceptually, bind(g, 0) should have signature int(void). The fact that the std::bind implementation uses a templated operator() is just an implementation detail. –  HighCommander4 Jan 23 '11 at 0:07
@HighCommander4: Conceptually? Who cares? The fact is, it isn't going to happen. If bind produces a functor with a templated operator(), you're screwed, and you can concept whatever you like, and it ain't gonna change that. –  Puppy Jan 23 '11 at 0:13
Sure, there's no way to do it by examining the operator(), but maybe there is another way, e.g. by examining the template parameter of the object returned by bind(). –  HighCommander4 Jan 23 '11 at 0:16
@HighCommander4: MSDN says that the return type is unspecified and only guarantees that it provides a result_type typedef. Infact, the operator() must be templated so as to perfectly forward it's arguments. I just checked MSVC10 and it thinks that the return type has no useful anything, essentially. –  Puppy Jan 23 '11 at 0:22

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