boost/phoenix/bind/bind_member_function.hpp
/*=============================================================================
Copyright (c) 2016 Kohei Takahashi
Distributed under the Boost Software License, Version 1.0. (See accompanying
file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
==============================================================================*/
#ifndef PHOENIX_BIND_BIND_MEMBER_FUNCTION_HPP
#define PHOENIX_BIND_BIND_MEMBER_FUNCTION_HPP
#include <boost/phoenix/core/limits.hpp>
#if defined(BOOST_PHOENIX_NO_VARIADIC_BIND)
# include <boost/phoenix/bind/detail/cpp03/bind_member_function.hpp>
#else
#include <boost/phoenix/core/expression.hpp>
#include <boost/phoenix/core/reference.hpp>
#include <boost/phoenix/core/detail/function_eval.hpp>
namespace boost { namespace phoenix
{
namespace detail
{
template <typename RT, typename FP>
struct member_function_ptr
{
typedef RT result_type;
member_function_ptr(FP fp_)
: fp(fp_) {}
template <typename Class, typename... A>
result_type operator()(Class& obj, A&... a) const
{
BOOST_PROTO_USE_GET_POINTER();
typedef typename proto::detail::class_member_traits<FP>::class_type class_type;
return (BOOST_PROTO_GET_POINTER(class_type, obj)->*fp)(a...);
}
template <typename Class, typename... A>
result_type operator()(Class* obj, A&... a) const
{
return (obj->*fp)(a...);
}
bool operator==(member_function_ptr const& rhs) const
{
return fp == rhs.fp;
}
template <int M, typename RhsRT, typename RhsFP>
bool operator==(member_function_ptr<RhsRT, RhsFP> const& /*rhs*/) const
{
return false;
}
FP fp;
};
} // namespace boost::phoenix::detail
template <typename RT, typename ClassT, typename... T, typename ClassA, typename... A>
inline
typename detail::expression::function_eval<
detail::member_function_ptr<RT, RT(ClassT::*)(T...)>
, ClassA
, A...
>::type const
bind(RT (ClassT::*f)(T...), ClassA const & obj, A const&... a)
{
typedef detail::member_function_ptr<RT, RT (ClassT::*)(T...)> fp_type;
return detail::expression::function_eval<fp_type, ClassA, A...>::make(fp_type(f), obj, a...);
}
template <typename RT, typename ClassT, typename... T, typename ClassA, typename... A>
inline
typename detail::expression::function_eval<
detail::member_function_ptr<RT, RT (ClassT::*)(T...) const>
, ClassA
, A...
>::type const
bind(RT (ClassT::*f)(T...) const, ClassA const & obj, A const&... a)
{
typedef detail::member_function_ptr<RT, RT(ClassT::*)(T...) const> fp_type;
return detail::expression::function_eval<fp_type, ClassA, A...>::make(fp_type(f), obj, a...);
}
template <typename RT, typename ClassT, typename... T, typename... A>
inline
typename detail::expression::function_eval<
detail::member_function_ptr<RT, RT(ClassT::*)(T...)>
, ClassT
, A...
>::type const
bind(RT (ClassT::*f)(T...), ClassT & obj, A const&... a)
{
typedef detail::member_function_ptr<RT, RT(ClassT::*)(T...)> fp_type;
return detail::expression::function_eval<fp_type, ClassT, A...>::make(fp_type(f), obj, a...);
}
template <typename RT, typename ClassT, typename... T, typename... A>
inline
typename detail::expression::function_eval<
detail::member_function_ptr<RT, RT(ClassT::*)(T...) const>
, ClassT
, A...
>::type const
bind(RT (ClassT::*f)(T...) const, ClassT const& obj, A const&... a)
{
typedef detail::member_function_ptr<RT, RT(ClassT::*)(T...) const> fp_type;
return detail::expression::function_eval<fp_type, ClassT, A...>::make(fp_type(f), obj, a...);
}
}} // namespace boost::phoenix
#endif
#endif