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/*<-
Copyright (c) 2016 Barrett Adair
Distributed under the Boost Software License, Version 1.0.
(See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
->*/
#include <boost/callable_traits/detail/config.hpp>
#ifdef BOOST_CLBL_TRTS_DISABLE_ABOMINABLE_FUNCTIONS
int main(){ return 0; }
#else
//[ args
#include <type_traits>
#include <memory>
#include <boost/callable_traits.hpp>
namespace ct = boost::callable_traits;
template<typename T, typename Expect>
void test(){
using args_t = ct::args_t<T>;
static_assert(std::is_same<args_t, Expect>::value, "");
}
int main() {
{
auto lamda = [](int, float&, const char*){};
using lam = decltype(lamda);
using expect = std::tuple<int, float&, const char*>;
test<lam, expect>();
}
{
struct foo;
using pmf = void(foo::*)(int, float&, const char*);
using expect = std::tuple<foo&, int, float&, const char*>;
test<pmf, expect>();
}
{
using function_ptr = void(*)(int, float&, const char*);
using expect = std::tuple<int, float&, const char*>;
test<function_ptr, expect>();
}
{
using function_ref = void(&)(int, float&, const char*);
using expect = std::tuple<int, float&, const char*>;
test<function_ref, expect>();
}
{
using function = void(int, float&, const char*);
using expect = std::tuple<int, float&, const char*>;
test<function, expect>();
}
{
using abominable = void(int, float&, const char*) const;
using expect = std::tuple<int, float&, const char*>;
test<abominable, expect>();
}
}
//]
#endif //#ifdef BOOST_CLBL_TRTS_DISABLE_ABOMINABLE_FUNCTIONS
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