+2011-04-19 Jonathan Wakely <jwakely.gcc@gmail.com>
+
+ PR libstdc++/48521
+ * include/std/type_traits (result_of): Handle pointer to member.
+ * include/std/functional (__invoke): Likewise.
+ (_Function_to_function_pointer): Remove.
+ (_Reference_wrapper_base): Provide nested types independent of
+ unary_function and binary_function.
+ (reference_wrapper::operator()): DR 2017.
+ (ref(const A&&), cref(const A&&): Define as deleted.
+ * include/std/future (async): Simplify SFINAE and use result_of to
+ support pointer to member.
+ * testsuite/20_util/reference_wrapper/invoke.cc: Test pointer to
+ member.
+ * testsuite/20_util/reference_wrapper/24803.cc: Likewise.
+ * testsuite/20_util/reference_wrapper/typedefs.cc: Test for types
+ instead of derivation from unary_function and binary_function.
+ * testsuite/20_util/declval/requirements/1_neg.cc: Adjust.
+ * testsuite/20_util/reference_wrapper/invoke-2.cc: New.
+ * testsuite/20_util/reference_wrapper/ref_neg.c: New.
+ * testsuite/20_util/reference_wrapper/typedefs-3.c: New.
+
2011-04-19 Hans-Peter Nilsson <hp@axis.com>
PR testsuite/48675
static const bool value = sizeof(__test((_Tp*)0)) == 1;
};
- /// Turns a function type into a function pointer type
- template<typename _Tp, bool _IsFunctionType = is_function<_Tp>::value>
- struct _Function_to_function_pointer
- {
- typedef _Tp type;
- };
-
- template<typename _Tp>
- struct _Function_to_function_pointer<_Tp, true>
- {
- typedef _Tp* type;
- };
-
/**
* Invoke a function object, which may be either a member pointer or a
* function object. The first parameter will tell which.
(!is_member_pointer<_Functor>::value
&& !is_function<_Functor>::value
&& !is_function<typename remove_pointer<_Functor>::type>::value),
- typename result_of<_Functor(_Args...)>::type
+ typename result_of<_Functor(_Args&&...)>::type
>::type
__invoke(_Functor& __f, _Args&&... __args)
{
return __f(std::forward<_Args>(__args)...);
}
+ template<typename _Functor, typename... _Args>
+ inline
+ typename enable_if<
+ (is_member_pointer<_Functor>::value
+ && !is_function<_Functor>::value
+ && !is_function<typename remove_pointer<_Functor>::type>::value),
+ typename result_of<_Functor(_Args&&...)>::type
+ >::type
+ __invoke(_Functor& __f, _Args&&... __args)
+ {
+ return mem_fn(__f)(std::forward<_Args>(__args)...);
+ }
+
// To pick up function references (that will become function pointers)
template<typename _Functor, typename... _Args>
inline
typename enable_if<
(is_pointer<_Functor>::value
&& is_function<typename remove_pointer<_Functor>::type>::value),
- typename result_of<_Functor(_Args...)>::type
+ typename result_of<_Functor(_Args&&...)>::type
>::type
__invoke(_Functor __f, _Args&&... __args)
{
template<bool _Unary, bool _Binary, typename _Tp>
struct _Reference_wrapper_base_impl;
- // Not a unary_function or binary_function, so try a weak result type.
+ // None of the nested argument types.
template<typename _Tp>
struct _Reference_wrapper_base_impl<false, false, _Tp>
: _Weak_result_type<_Tp>
{ };
- // unary_function but not binary_function
+ // Nested argument_type only.
template<typename _Tp>
struct _Reference_wrapper_base_impl<true, false, _Tp>
- : unary_function<typename _Tp::argument_type,
- typename _Tp::result_type>
- { };
+ : _Weak_result_type<_Tp>
+ {
+ typedef typename _Tp::argument_type argument_type;
+ };
- // binary_function but not unary_function
+ // Nested first_argument_type and second_argument_type only.
template<typename _Tp>
struct _Reference_wrapper_base_impl<false, true, _Tp>
- : binary_function<typename _Tp::first_argument_type,
- typename _Tp::second_argument_type,
- typename _Tp::result_type>
- { };
+ : _Weak_result_type<_Tp>
+ {
+ typedef typename _Tp::first_argument_type first_argument_type;
+ typedef typename _Tp::second_argument_type second_argument_type;
+ };
- // Both unary_function and binary_function. Import result_type to
- // avoid conflicts.
+ // All the nested argument types.
template<typename _Tp>
struct _Reference_wrapper_base_impl<true, true, _Tp>
- : unary_function<typename _Tp::argument_type,
- typename _Tp::result_type>,
- binary_function<typename _Tp::first_argument_type,
- typename _Tp::second_argument_type,
- typename _Tp::result_type>
+ : _Weak_result_type<_Tp>
{
- typedef typename _Tp::result_type result_type;
+ typedef typename _Tp::argument_type argument_type;
+ typedef typename _Tp::first_argument_type first_argument_type;
+ typedef typename _Tp::second_argument_type second_argument_type;
};
+ _GLIBCXX_HAS_NESTED_TYPE(argument_type)
+ _GLIBCXX_HAS_NESTED_TYPE(first_argument_type)
+ _GLIBCXX_HAS_NESTED_TYPE(second_argument_type)
+
/**
* Derives from unary_function or binary_function when it
* can. Specializations handle all of the easy cases. The primary
template<typename _Tp>
struct _Reference_wrapper_base
: _Reference_wrapper_base_impl<
- _Derives_from_unary_function<_Tp>::value,
- _Derives_from_binary_function<_Tp>::value,
+ __has_argument_type<_Tp>::value,
+ __has_first_argument_type<_Tp>::value
+ && __has_second_argument_type<_Tp>::value,
_Tp>
{ };
class reference_wrapper
: public _Reference_wrapper_base<typename remove_cv<_Tp>::type>
{
- // If _Tp is a function type, we can't form result_of<_Tp(...)>,
- // so turn it into a function pointer type.
- typedef typename _Function_to_function_pointer<_Tp>::type
- _M_func_type;
-
_Tp* _M_data;
+
public:
typedef _Tp type;
{ return *_M_data; }
template<typename... _Args>
- typename result_of<_M_func_type(_Args...)>::type
+ typename result_of<_Tp&(_Args&&...)>::type
operator()(_Args&&... __args) const
{
return __invoke(get(), std::forward<_Args>(__args)...);
cref(const _Tp& __t)
{ return reference_wrapper<const _Tp>(__t); }
+ template<typename _Tp>
+ void ref(const _Tp&&) = delete;
+
+ template<typename _Tp>
+ void cref(const _Tp&&) = delete;
+
/// Partial specialization.
template<typename _Tp>
inline reference_wrapper<_Tp>
future<typename result_of<_Fn(_Args...)>::type>
async(launch __policy, _Fn&& __fn, _Args&&... __args);
+ template<typename _FnCheck, typename _Fn, typename... _Args>
+ struct __async_sfinae_helper
+ {
+ typedef future<typename result_of<_Fn(_Args...)>::type> type;
+ };
+
+ template<typename _Fn, typename... _Args>
+ struct __async_sfinae_helper<launch, _Fn, _Args...>
+ { };
+
template<typename _Fn, typename... _Args>
typename
- enable_if<!is_same<typename decay<_Fn>::type, launch>::value,
- future<decltype(std::declval<_Fn>()(std::declval<_Args>()...))>
- >::type
+ __async_sfinae_helper<typename decay<_Fn>::type, _Fn, _Args...>::type
async(_Fn&& __fn, _Args&&... __args);
#if defined(_GLIBCXX_HAS_GTHREADS) && defined(_GLIBCXX_USE_C99_STDINT_TR1) \
/// async, potential overload
template<typename _Fn, typename... _Args>
inline typename
- enable_if<!is_same<typename decay<_Fn>::type, launch>::value,
- future<decltype(std::declval<_Fn>()(std::declval<_Args>()...))>
- >::type
+ __async_sfinae_helper<typename decay<_Fn>::type, _Fn, _Args...>::type
async(_Fn&& __fn, _Args&&... __args)
{
return async(launch::any, std::forward<_Fn>(__fn),
/// underlying_type (still unimplemented)
- /// result_of
- template<typename _Signature>
- class result_of;
-
- template<typename _Functor, typename... _ArgTypes>
- struct result_of<_Functor(_ArgTypes...)>
- {
- typedef
- decltype( std::declval<_Functor>()(std::declval<_ArgTypes>()...) )
- type;
- };
-
/// declval
template<typename _Tp>
struct __declval_protector
return __declval_protector<_Tp>::__delegate();
}
+ /// result_of
+ template<typename _Signature>
+ class result_of;
+
+ template<typename _MemPtr, typename _Arg>
+ struct _Result_of_memobj;
+
+ template<typename _Res, typename _Class, typename _Arg>
+ struct _Result_of_memobj<_Res _Class::*, _Arg>
+ {
+ private:
+ typedef _Res _Class::* _Func;
+
+ template<typename _Tp>
+ static _Tp _S_get(const _Class&);
+ template<typename _Tp>
+ static decltype(*std::declval<_Tp>()) _S_get(...);
+
+ public:
+ typedef
+ decltype(_S_get<_Arg>(std::declval<_Arg>()).*std::declval<_Func>())
+ __type;
+ };
+
+ template<typename _MemPtr, typename _Arg, typename... _ArgTypes>
+ struct _Result_of_memfun;
+
+ template<typename _Res, typename _Class, typename _Arg, typename... _Args>
+ struct _Result_of_memfun<_Res _Class::*, _Arg, _Args...>
+ {
+ private:
+ typedef _Res _Class::* _Func;
+
+ template<typename _Tp>
+ static _Tp _S_get(const _Class&);
+ template<typename _Tp>
+ static decltype(*std::declval<_Tp>()) _S_get(...);
+
+ public:
+ typedef
+ decltype((_S_get<_Arg>(std::declval<_Arg>()).*std::declval<_Func>())
+ (std::declval<_Args>()...) )
+ __type;
+ };
+
+ template<bool, bool, typename _Functor, typename... _ArgTypes>
+ struct _Result_of_impl;
+
+ template<typename _Functor, typename... _ArgTypes>
+ struct _Result_of_impl<false, false, _Functor, _ArgTypes...>
+ {
+ typedef
+ decltype( std::declval<_Functor>()(std::declval<_ArgTypes>()...) )
+ __type;
+ };
+
+ template<typename _MemPtr, typename _Arg>
+ struct _Result_of_impl<true, false, _MemPtr, _Arg>
+ : _Result_of_memobj<typename remove_reference<_MemPtr>::type, _Arg>
+ {
+ typedef typename _Result_of_memobj<
+ typename remove_reference<_MemPtr>::type, _Arg>::__type
+ __type;
+ };
+
+ template<typename _MemPtr, typename _Arg, typename... _ArgTypes>
+ struct _Result_of_impl<false, true, _MemPtr, _Arg, _ArgTypes...>
+ : _Result_of_memfun<typename remove_reference<_MemPtr>::type, _Arg,
+ _ArgTypes...>
+ {
+ typedef typename _Result_of_memfun<
+ typename remove_reference<_MemPtr>::type, _Arg, _ArgTypes...>::__type
+ __type;
+ };
+
+ template<typename _Functor, typename... _ArgTypes>
+ struct result_of<_Functor(_ArgTypes...)>
+ : _Result_of_impl<is_member_object_pointer<
+ typename remove_reference<_Functor>::type >::value,
+ is_member_function_pointer<
+ typename remove_reference<_Functor>::type >::value,
+ _Functor, _ArgTypes...>
+ {
+ typedef typename _Result_of_impl<
+ is_member_object_pointer<
+ typename remove_reference<_Functor>::type >::value,
+ is_member_function_pointer<
+ typename remove_reference<_Functor>::type >::value,
+ _Functor, _ArgTypes...>::__type
+ type;
+ };
+
/**
* Use SFINAE to determine if the type _Tp has a publicly-accessible
* member type _NTYPE.
// with this library; see the file COPYING3. If not see
// <http://www.gnu.org/licenses/>.
-// { dg-error "static assertion failed" "" { target *-*-* } 1610 }
+// { dg-error "static assertion failed" "" { target *-*-* } 1598 }
#include <utility>
// { dg-options "-std=gnu++0x" }
// { dg-do compile }
-// Copyright (C) 2008, 2009, 2010 Free Software Foundation, Inc.
+// Copyright (C) 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
void test01()
{
+ test_type* null_tt = 0;
+ const test_type* null_ttc = 0;
int zero;
std::reference_wrapper<double (int)>* pr1(0);
verify_return_type((*pr1)(0), double());
std::reference_wrapper<double (*)(int)>* pr2(0);
verify_return_type((*pr2)(0), double());
+ std::reference_wrapper<int (test_type::*)()>* pr3(0);
+ verify_return_type((*pr3)(null_tt), int());
+ std::reference_wrapper<int (test_type::*)()const>* pr4(0);
+ verify_return_type((*pr4)(null_ttc), int());
std::reference_wrapper<functor1>* pr5(0);
// libstdc++/24803
verify_return_type((*pr1b)(0, 0), double());
std::reference_wrapper<double (*)(int, char)>* pr2b(0);
verify_return_type((*pr2b)(0, 0), double());
+ std::reference_wrapper<int (test_type::*)(char)>* pr3b(0);
+ verify_return_type((*pr3b)(null_tt,zero), int());
+ std::reference_wrapper<int (test_type::*)()const>* pr4b(0);
+ verify_return_type((*pr4b)(null_ttc), int());
std::reference_wrapper<functor2>* pr5b(0);
// libstdc++/24803
--- /dev/null
+// { dg-options "-std=gnu++0x" }
+// { dg-do compile}
+// Copyright (C) 2011 Free Software Foundation, Inc.
+//
+// This file is part of the GNU ISO C++ Library. This library is free
+// software; you can redistribute it and/or modify it under the
+// terms of the GNU General Public License as published by the
+// Free Software Foundation; either version 2, or (at your option)
+// any later version.
+//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+// GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along
+// with this library; see the file COPYING. If not, write to the Free
+// Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
+// USA.
+
+// 20.6.4 function object return types [func.ret]
+#include <functional>
+
+struct X
+{
+ int f(int) { return 0; }
+ int i;
+};
+
+void test01()
+{
+ typedef int (X::*mfp)(int);
+ typedef int X::*mp;
+ mfp m = &X::f;
+ mp m2 = &X::i;
+ X x = { };
+ std::ref(m)(x, 1);
+ std::ref(m)(&x, 1);
+ int& i1 = std::ref(m2)(x);
+ int& i2 = std::ref(m2)(&x);
+}
+
+int main()
+{
+ test01();
+ return 0;
+}
// { dg-options "-std=gnu++0x" }
-// Copyright (C) 2008, 2009, 2010 Free Software Foundation, Inc.
+// Copyright (C) 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
int foo_c(float x) const { return truncate_float(x); }
int foo_v(float x) volatile { return truncate_float(x); }
int foo_cv(float x) const volatile { return truncate_float(x); }
+ int foo_varargs(float x, ...) { return truncate_float(x); }
int operator()(float x)
{
::get_seventeen get_sev;
::X x;
+ ::X* xp = &x;
+ int (::X::* p_foo)(float) = &::X::foo;
+ int (::X::* p_foo_c)(float) const = &::X::foo_c;
+ int (::X::* p_foo_v)(float) volatile = &::X::foo_v;
+ int (::X::* p_foo_cv)(float) const volatile = &::X::foo_cv;
+ int (::X::* p_foo_varargs)(float, ...) = &::X::foo_varargs;
+ int ::X::* p_bar = &::X::bar;
const float pi = 3.14;
VERIFY(ref(seventeen)() == 17);
// Function pointers
- VERIFY(cref(&truncate_float)(pi) == 3);
- VERIFY(cref(&seventeen)() == 17);
+ VERIFY(cref(truncate_float)(pi) == 3);
+ VERIFY(cref(seventeen)() == 17);
+
+ // Member function pointers
+ VERIFY(ref(p_foo)(x, pi) == 3);
+ VERIFY(ref(p_foo)(xp, pi) == 3);
+ VERIFY(ref(p_foo_c)(x, pi) == 3);
+ VERIFY(ref(p_foo_c)(xp, pi) == 3);
+ VERIFY(ref(p_foo_v)(x, pi) == 3);
+ VERIFY(ref(p_foo_v)(xp, pi) == 3);
+ VERIFY(ref(p_foo_cv)(x, pi) == 3);
+ VERIFY(ref(p_foo_cv)(xp, pi) == 3);
+ // VERIFY(ref(p_foo_varargs)(x, pi) == 3);
+ // VERIFY(ref(p_foo_varargs)(xp, pi, 1, 1) == 3);
+ // VERIFY(ref(p_foo_varargs)(x, pi, 1, 1) == 3);
+ // VERIFY(ref(p_foo_varargs)(xp, pi) == 3);
+
+ // Member data pointers
+ VERIFY(ref(p_bar)(x) == 17);
+ VERIFY(ref(p_bar)(xp) == 17);
// Function objects
VERIFY(ref(get_sev)() == 17);
--- /dev/null
+// Copyright (C) 2011 Free Software Foundation, Inc.
+//
+// This file is part of the GNU ISO C++ Library. This library is free
+// software; you can redistribute it and/or modify it under the
+// terms of the GNU General Public License as published by the
+// Free Software Foundation; either version 3, or (at your option)
+// any later version.
+
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+// GNU General Public License for more details.
+
+// You should have received a copy of the GNU General Public License along
+// with this library; see the file COPYING3. If not see
+// <http://www.gnu.org/licenses/>.
+
+// 20.8.3 Class template reference_wrapper
+
+// { dg-do compile }
+// { dg-options "-std=gnu++0x" }
+
+#include <functional>
+
+struct X { };
+X rval();
+X&& rvalref();
+
+void test01()
+{
+ std::ref(1); // { dg-error "deleted" }
+ std::cref(1); // { dg-error "deleted" }
+ std::ref( int() ); // { dg-error "deleted" }
+ std::cref( int() ); // { dg-error "deleted" }
+ std::ref(rval()); // { dg-error "deleted" }
+ std::cref(rvalref()); // { dg-error "deleted" }
+}
+
+int main()
+{
+ test02();
+}
+
+// { dg-excess-errors "" }
--- /dev/null
+// { dg-options "-std=gnu++0x" }
+// { dg-do compile }
+
+// Copyright (C) 2011 Free Software Foundation, Inc.
+//
+// This file is part of the GNU ISO C++ Library. This library is free
+// software; you can redistribute it and/or modify it under the
+// terms of the GNU General Public License as published by the
+// Free Software Foundation; either version 3, or (at your option)
+// any later version.
+//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+// GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along
+// with this library; see the file COPYING3. If not see
+// <http://www.gnu.org/licenses/>.
+
+#include <functional>
+#include <type_traits>
+
+struct S { };
+
+struct S0
+{
+ typedef int argument_type;
+};
+
+struct S1
+{
+ typedef float first_argument_type;
+};
+
+struct S2
+{
+ typedef char second_argument_type;
+};
+
+struct S01 : S0, S1 { };
+struct S02 : S0, S2 { };
+struct S12 : S1, S2 { };
+
+struct S012 : S0, S1, S2 { };
+
+using std::__sfinae_types;
+using std::integral_constant;
+using std::remove_cv;
+
+_GLIBCXX_HAS_NESTED_TYPE(argument_type)
+_GLIBCXX_HAS_NESTED_TYPE(first_argument_type)
+_GLIBCXX_HAS_NESTED_TYPE(second_argument_type)
+
+template<typename T>
+ struct has_arg_type : __has_argument_type<T>
+ { };
+
+template<typename T>
+ struct has_1st_arg_type : __has_first_argument_type<T>
+ { };
+
+template<typename T>
+ struct has_2nd_arg_type : __has_second_argument_type<T>
+ { };
+
+template<typename T, bool = has_arg_type<T>::value>
+struct test_arg_type
+{
+ static_assert( !has_arg_type<std::reference_wrapper<T>>::value,
+ "reference_wrapper has no nested argument_type");
+};
+
+template<typename T>
+struct test_arg_type<T, true>
+{
+ typedef std::reference_wrapper<T> ref;
+
+ static_assert( has_arg_type<ref>::value,
+ "reference_wrapper has nested argument_type");
+
+ static_assert(
+ std::is_same< typename T::argument_type,
+ typename ref::argument_type >::value,
+ "reference_wrapper has the correct argument_type");
+};
+
+template<typename T,
+ bool = has_1st_arg_type<T>::value && has_2nd_arg_type<T>::value>
+struct test_1st_2nd_arg_types
+{
+ typedef std::reference_wrapper<T> ref;
+
+ static_assert( !has_1st_arg_type<ref>::value,
+ "reference_wrapper has no nested first_argument_type");
+
+ static_assert( !has_2nd_arg_type<ref>::value,
+ "reference_wrapper has no nested second_argument_type");
+};
+
+template<typename T>
+struct test_1st_2nd_arg_types<T, true>
+{
+ typedef std::reference_wrapper<T> ref;
+
+ static_assert( has_1st_arg_type<ref>::value,
+ "reference_wrapper has nested first_argument_type");
+
+ static_assert( has_2nd_arg_type<ref>::value,
+ "reference_wrapper has nested second_argument_type");
+
+ static_assert(
+ std::is_same< typename T::first_argument_type,
+ typename ref::first_argument_type>::value,
+ "reference_wrapper has correct first_argument_type");
+
+ static_assert(
+ std::is_same< typename T::second_argument_type,
+ typename ref::second_argument_type>::value,
+ "reference_wrapper has correct second_argument_type");
+};
+
+
+template<typename T>
+ void test()
+ {
+ test_arg_type<T> t;
+ test_arg_type<const T> tc;
+ test_arg_type<volatile T> tv;
+ test_arg_type<const volatile T> tcv;
+ test_1st_2nd_arg_types<T> t12;
+ test_1st_2nd_arg_types<const T> t12c;
+ test_1st_2nd_arg_types<volatile T> t12v;
+ test_1st_2nd_arg_types<const volatile T> t12cv;
+ }
+
+int main()
+{
+ test<S>();
+ test<S0>();
+ test<S1>();
+ test<S2>();
+ test<S01>();
+ test<S02>();
+ test<S12>();
+ test<S012>();
+}
+
+// { dg-do compile }
// { dg-options "-std=gnu++0x" }
-// Copyright (C) 2008, 2009 Free Software Foundation, Inc.
+// Copyright (C) 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
#include <functional>
#include <type_traits>
-#include <testsuite_hooks.h>
-#include <testsuite_tr1.h>
-
-using namespace __gnu_test;
struct X {};
void test01()
{
- bool test __attribute__((unused)) = true;
-
using std::reference_wrapper;
using std::is_same;
- using std::is_convertible;
- using std::unary_function;
- using std::binary_function;
// Check result_type typedef
- VERIFY((is_same<reference_wrapper<int_result_type>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<derives_unary>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<derives_binary>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<derives_unary_binary>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<int(void)>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<int(*)(void)>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<int (::X::*)()>::result_type, int>::value));
- VERIFY((is_same<reference_wrapper<int (::X::*)(float)>::result_type, int>::value));
-
- // Check derivation from unary_function
- VERIFY((is_convertible<reference_wrapper<derives_unary>*, unary_function<int, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<derives_unary_binary>*, unary_function<int, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int(int)>*, unary_function<int, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int(*)(int)>*, unary_function<int, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)()>*, unary_function< ::X*, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)() const>*, unary_function<const ::X*, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)() volatile>*, unary_function<volatile ::X*, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)() const volatile>*, unary_function<const volatile ::X*, int>*>::value));
-
- // Check derivation from binary_function
- VERIFY((is_convertible<reference_wrapper<derives_binary>*, binary_function<int, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<derives_unary_binary>*, binary_function<int, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int(int, float)>*, binary_function<int, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int(*)(int, float)>*, binary_function<int, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)(float)>*, binary_function< ::X*, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)(float) const>*, binary_function<const ::X*, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)(float) volatile>*, binary_function<volatile ::X*, float, int>*>::value));
- VERIFY((is_convertible<reference_wrapper<int (::X::*)(float) const volatile>*, binary_function<const volatile ::X*, float, int>*>::value));
+ static_assert( is_same<reference_wrapper<int_result_type>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<derives_unary>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<derives_binary>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<derives_unary_binary>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<int(void)>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<int(*)(void)>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<int (::X::*)()>::result_type, int>::value, "has result_type" );
+ static_assert( is_same<reference_wrapper<int (::X::*)(float)>::result_type, int>::value, "has result_type" );
}
int main()
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