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///////////////////////////////////////////////////////////////////////////////
/// \file decltype.hpp
/// Contains definition the BOOST_PROTO_DECLTYPE_() macro and assorted helpers
//
// Copyright 2008 Eric Niebler. 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 BOOST_PROTO_DETAIL_DECLTYPE_HPP_EAN_04_04_2008
#define BOOST_PROTO_DETAIL_DECLTYPE_HPP_EAN_04_04_2008
#include <boost/config.hpp>
#include <boost/detail/workaround.hpp>
#include <boost/get_pointer.hpp>
#include <boost/preprocessor/cat.hpp>
#include <boost/preprocessor/repetition/enum_params.hpp>
#include <boost/preprocessor/repetition/enum_trailing_params.hpp>
#include <boost/preprocessor/repetition/enum_binary_params.hpp>
#include <boost/preprocessor/repetition/repeat_from_to.hpp>
#include <boost/preprocessor/iteration/local.hpp>
#include <boost/mpl/if.hpp>
#include <boost/mpl/eval_if.hpp>
#include <boost/mpl/identity.hpp>
#include <boost/type_traits/is_class.hpp>
#include <boost/type_traits/remove_reference.hpp>
#include <boost/type_traits/is_pointer.hpp>
#include <boost/type_traits/is_function.hpp>
#include <boost/type_traits/is_member_object_pointer.hpp>
#include <boost/type_traits/add_const.hpp>
#include <boost/type_traits/add_reference.hpp>
#include <boost/typeof/typeof.hpp>
#include <boost/utility/addressof.hpp>
#include <boost/utility/result_of.hpp>
#include <boost/utility/enable_if.hpp>
#include <boost/proto/repeat.hpp>
#ifndef BOOST_NO_DECLTYPE
# define BOOST_PROTO_DECLTYPE_(EXPR, TYPE) typedef decltype(EXPR) TYPE;
#else
# define BOOST_PROTO_DECLTYPE_NESTED_TYPEDEF_TPL_(NESTED, EXPR) \
BOOST_TYPEOF_NESTED_TYPEDEF_TPL(BOOST_PP_CAT(nested_and_hidden_, NESTED), EXPR) \
static int const sz = sizeof(boost::proto::detail::check_reference(EXPR)); \
struct NESTED \
: boost::mpl::if_c< \
1==sz \
, typename BOOST_PP_CAT(nested_and_hidden_, NESTED)::type & \
, typename BOOST_PP_CAT(nested_and_hidden_, NESTED)::type \
> \
{};
# define BOOST_PROTO_DECLTYPE_(EXPR, TYPE) \
BOOST_PROTO_DECLTYPE_NESTED_TYPEDEF_TPL_(BOOST_PP_CAT(nested_, TYPE), (EXPR)) \
typedef typename BOOST_PP_CAT(nested_, TYPE)::type TYPE;
#endif
namespace boost { namespace proto
{
namespace detail
{
namespace anyns
{
////////////////////////////////////////////////////////////////////////////////////////////
struct any
{
any(...);
any operator=(any);
any operator[](any);
#define M0(Z, N, DATA) any operator()(BOOST_PP_ENUM_PARAMS_Z(Z, N, any BOOST_PP_INTERCEPT));
BOOST_PP_REPEAT(BOOST_PROTO_MAX_ARITY, M0, ~)
#undef M0
template<typename T>
operator T &() const volatile;
any operator+();
any operator-();
any operator*();
any operator&();
any operator~();
any operator!();
any operator++();
any operator--();
any operator++(int);
any operator--(int);
friend any operator<<(any, any);
friend any operator>>(any, any);
friend any operator*(any, any);
friend any operator/(any, any);
friend any operator%(any, any);
friend any operator+(any, any);
friend any operator-(any, any);
friend any operator<(any, any);
friend any operator>(any, any);
friend any operator<=(any, any);
friend any operator>=(any, any);
friend any operator==(any, any);
friend any operator!=(any, any);
friend any operator||(any, any);
friend any operator&&(any, any);
friend any operator&(any, any);
friend any operator|(any, any);
friend any operator^(any, any);
friend any operator,(any, any);
friend any operator->*(any, any);
friend any operator<<=(any, any);
friend any operator>>=(any, any);
friend any operator*=(any, any);
friend any operator/=(any, any);
friend any operator%=(any, any);
friend any operator+=(any, any);
friend any operator-=(any, any);
friend any operator&=(any, any);
friend any operator|=(any, any);
friend any operator^=(any, any);
};
}
using anyns::any;
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
struct as_mutable
{
typedef T &type;
};
template<typename T>
struct as_mutable<T &>
{
typedef T &type;
};
template<typename T>
struct as_mutable<T const &>
{
typedef T &type;
};
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
T make();
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
typename as_mutable<T>::type make_mutable();
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
struct subscript_wrapper
: T
{
using T::operator[];
#if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1500))
any operator[](any const volatile &) const volatile;
#else
any operator[](any const &) const volatile;
#endif
};
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
struct as_subscriptable
{
typedef
typename mpl::if_c<
is_class<T>::value
, subscript_wrapper<T>
, T
>::type
type;
};
template<typename T>
struct as_subscriptable<T const>
{
typedef
typename mpl::if_c<
is_class<T>::value
, subscript_wrapper<T> const
, T const
>::type
type;
};
template<typename T>
struct as_subscriptable<T &>
{
typedef
typename mpl::if_c<
is_class<T>::value
, subscript_wrapper<T> &
, T &
>::type
type;
};
template<typename T>
struct as_subscriptable<T const &>
{
typedef
typename mpl::if_c<
is_class<T>::value
, subscript_wrapper<T> const &
, T const &
>::type
type;
};
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
typename as_subscriptable<T>::type make_subscriptable();
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
char check_reference(T &);
template<typename T>
char (&check_reference(T const &))[2];
namespace has_get_pointerns
{
using boost::get_pointer;
void *(&get_pointer(...))[2];
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
struct has_get_pointer
{
BOOST_STATIC_CONSTANT(bool, value = sizeof(void *) == sizeof(get_pointer(make<T &>())));
typedef mpl::bool_<value> type;
};
}
using has_get_pointerns::has_get_pointer;
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
struct classtypeof;
template<typename T, typename U>
struct classtypeof<T U::*>
{
typedef U type;
};
#define BOOST_PP_LOCAL_MACRO(N) \
template<typename T, typename U BOOST_PP_ENUM_TRAILING_PARAMS(N, typename A)> \
struct classtypeof<T (U::*)(BOOST_PP_ENUM_PARAMS(N, A))> \
{ \
typedef U type; \
}; \
template<typename T, typename U BOOST_PP_ENUM_TRAILING_PARAMS(N, typename A)> \
struct classtypeof<T (U::*)(BOOST_PP_ENUM_PARAMS(N, A)) const> \
{ \
typedef U type; \
}; \
/**/
#define BOOST_PP_LOCAL_LIMITS (0, BOOST_PROTO_MAX_ARITY)
#include BOOST_PP_LOCAL_ITERATE()
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T>
T &lvalue(T &t)
{
return t;
}
template<typename T>
T const &lvalue(T const &t)
{
return t;
}
////////////////////////////////////////////////////////////////////////////////////////////
template<typename U, typename V, typename T>
U *proto_get_pointer(T &t, V *, U *)
{
return boost::addressof(t);
}
template<typename U, typename V, typename T>
U const *proto_get_pointer(T &t, V *, U const *)
{
return boost::addressof(t);
}
template<typename U, typename V, typename T>
V *proto_get_pointer(T &t, V *, ...)
{
return get_pointer(t);
}
////////////////////////////////////////////////////////////////////////////////////////////
#define BOOST_PROTO_USE_GET_POINTER() \
using namespace boost::proto::detail::get_pointerns \
/**/
#define BOOST_PROTO_GET_POINTER(Type, Obj) \
boost::proto::detail::proto_get_pointer<Type>( \
boost::proto::detail::lvalue(Obj) \
, (true ? 0 : get_pointer(Obj)) \
, (true ? 0 : boost::addressof(boost::proto::detail::lvalue(Obj))) \
) \
/**/
////////////////////////////////////////////////////////////////////////////////////////////
namespace get_pointerns
{
using boost::get_pointer;
template<typename T>
typename disable_if_c<has_get_pointer<T>::value, T *>::type
get_pointer(T &t)
{
return boost::addressof(t);
}
template<typename T>
typename disable_if_c<has_get_pointer<T>::value, T const *>::type
get_pointer(T const &t)
{
return boost::addressof(t);
}
char test_ptr_to_const(void *);
char (&test_ptr_to_const(void const *))[2];
template<typename U> char test_V_is_a_U(U *);
template<typename U> char test_V_is_a_U(U const *);
template<typename U> char (&test_V_is_a_U(...))[2];
////////////////////////////////////////////////////////////////////////////////////////////
// result_of_ is a wrapper around boost::result_of that also handles "invocations" of
// member object pointers.
template<typename T, typename Void = void>
struct result_of_
: BOOST_PROTO_RESULT_OF<T>
{};
template<typename T, typename U, typename V>
struct result_of_<T U::*(V), typename enable_if_c<is_member_object_pointer<T U::*>::value>::type>
{
BOOST_STATIC_CONSTANT(bool, is_V_a_smart_ptr = 2 == sizeof(test_V_is_a_U<U>(&lvalue(make<V>()))));
BOOST_STATIC_CONSTANT(bool, is_ptr_to_const = 2 == sizeof(test_ptr_to_const(BOOST_PROTO_GET_POINTER(U, make<V>()))));
// If V is not a U, then it is a (smart) pointer and we can always return an lvalue.
// Otherwise, we can only return an lvalue if we are given one.
typedef
typename mpl::eval_if_c<
(is_V_a_smart_ptr || is_reference<V>::value)
, mpl::eval_if_c<
is_ptr_to_const
, add_reference<typename add_const<T>::type>
, add_reference<T>
>
, mpl::identity<T>
>::type
type;
};
////////////////////////////////////////////////////////////////////////////////////////////
template<
typename T
, typename U
, bool IsMemPtr = is_member_object_pointer<
typename remove_reference<U>::type
>::value
>
struct mem_ptr_fun
{
BOOST_PROTO_DECLTYPE_(
proto::detail::make_mutable<T>() ->* proto::detail::make<U>()
, result_type
)
result_type operator()(
typename add_reference<typename add_const<T>::type>::type t
, typename add_reference<typename add_const<U>::type>::type u
) const
{
return t ->* u;
}
};
////////////////////////////////////////////////////////////////////////////////////////////
template<typename T, typename U>
struct mem_ptr_fun<T, U, true>
{
typedef
typename classtypeof<
typename uncvref<U>::type
>::type
V;
BOOST_PROTO_DECLTYPE_(
BOOST_PROTO_GET_POINTER(V, proto::detail::make_mutable<T>()) ->* proto::detail::make<U>()
, result_type
)
result_type operator()(
typename add_reference<typename add_const<T>::type>::type t
, U u
) const
{
return BOOST_PROTO_GET_POINTER(V, t) ->* u;
}
};
}
using get_pointerns::result_of_;
using get_pointerns::mem_ptr_fun;
////////////////////////////////////////////////////////////////////////////////////////////
template<typename A0, typename A1>
struct comma_result
{
BOOST_PROTO_DECLTYPE_((proto::detail::make<A0>(), proto::detail::make<A1>()), type)
};
template<typename A0>
struct comma_result<A0, void>
{
typedef void type;
};
template<typename A1>
struct comma_result<void, A1>
{
typedef A1 type;
};
template<>
struct comma_result<void, void>
{
typedef void type;
};
////////////////////////////////////////////////////////////////////////////////////////////
// normalize a function type for use with boost::result_of
template<typename T, typename U = T>
struct result_of_fixup
: mpl::if_c<is_function<T>::value, T *, U>
{};
template<typename T, typename U>
struct result_of_fixup<T &, U>
: result_of_fixup<T, T>
{};
template<typename T, typename U>
struct result_of_fixup<T const &, U>
: result_of_fixup<T, T>
{};
template<typename T, typename U>
struct result_of_fixup<T *, U>
: result_of_fixup<T, U>
{};
template<typename R, typename T, typename U>
struct result_of_fixup<R T::*, U>
{
typedef R T::*type;
};
template<typename T, typename U>
struct result_of_fixup<T const, U>
: result_of_fixup<T, U>
{};
//// Tests for result_of_fixup
//struct bar {};
//BOOST_MPL_ASSERT((is_same<bar, result_of_fixup<bar>::type>));
//BOOST_MPL_ASSERT((is_same<bar const, result_of_fixup<bar const>::type>));
//BOOST_MPL_ASSERT((is_same<bar, result_of_fixup<bar &>::type>));
//BOOST_MPL_ASSERT((is_same<bar const, result_of_fixup<bar const &>::type>));
//BOOST_MPL_ASSERT((is_same<void(*)(), result_of_fixup<void(*)()>::type>));
//BOOST_MPL_ASSERT((is_same<void(*)(), result_of_fixup<void(* const)()>::type>));
//BOOST_MPL_ASSERT((is_same<void(*)(), result_of_fixup<void(* const &)()>::type>));
//BOOST_MPL_ASSERT((is_same<void(*)(), result_of_fixup<void(&)()>::type>));
template<typename T, typename PMF>
struct memfun
{
typedef typename uncvref<PMF>::type pmf_type;
typedef typename classtypeof<pmf_type>::type V;
typedef typename BOOST_PROTO_RESULT_OF<pmf_type(T)>::type result_type;
memfun(T t, PMF p)
: obj(t)
, pmf(p)
{}
result_type operator()() const
{
BOOST_PROTO_USE_GET_POINTER();
return (BOOST_PROTO_GET_POINTER(V, obj) ->* pmf)();
}
#define BOOST_PROTO_LOCAL_MACRO(N, typename_A, A_const_ref, A_const_ref_a, a) \
template<typename_A(N)> \
result_type operator()(A_const_ref_a(N)) const \
{ \
BOOST_PROTO_USE_GET_POINTER(); \
return (BOOST_PROTO_GET_POINTER(V, obj) ->* pmf)(a(N)); \
} \
/**/
#define BOOST_PROTO_LOCAL_a BOOST_PROTO_a
#define BOOST_PROTO_LOCAL_LIMITS (1, BOOST_PROTO_MAX_ARITY)
#include BOOST_PROTO_LOCAL_ITERATE()
private:
T obj;
PMF pmf;
};
} // namespace detail
}}
#endif
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