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view libstdc++-v3/testsuite/util/testsuite_common_types.h @ 158:494b0b89df80 default tip
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 18:13:55 +0900 |
| parents | 1830386684a0 |
| children |
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// -*- C++ -*- // typelist for the C++ library testsuite. // // Copyright (C) 2005-2020 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/>. // #ifndef _TESTSUITE_COMMON_TYPES_H #define _TESTSUITE_COMMON_TYPES_H 1 #include <ext/typelist.h> #include <ext/new_allocator.h> #include <ext/malloc_allocator.h> #include <ext/mt_allocator.h> #include <ext/bitmap_allocator.h> #include <ext/pool_allocator.h> #include <algorithm> #include <vector> #include <list> #include <deque> #include <string> #include <limits> #include <map> #include <set> #include <tr1/functional> #include <tr1/unordered_map> #include <tr1/unordered_set> #if __cplusplus >= 201103L #include <atomic> #include <type_traits> #endif namespace __gnu_test { using __gnu_cxx::typelist::null_type; using __gnu_cxx::typelist::node; using __gnu_cxx::typelist::transform; using __gnu_cxx::typelist::append; // All the allocators to test. template<typename Tp, bool Thread> struct allocator_policies { typedef Tp value_type; typedef __gnu_cxx::new_allocator<Tp> a1; typedef __gnu_cxx::malloc_allocator<Tp> a2; typedef __gnu_cxx::__common_pool_policy<__gnu_cxx::__pool, Thread> pool_policy; typedef __gnu_cxx::__mt_alloc<Tp, pool_policy> a3; typedef __gnu_cxx::bitmap_allocator<Tp> a4; typedef __gnu_cxx::__pool_alloc<Tp> a5; typedef node<_GLIBCXX_TYPELIST_CHAIN5(a1, a2, a3, a4, a5)> type; }; // Typelists for vector, string, list, deque. // XXX should just use template templates template<typename Tp, bool Thread> struct vectors { typedef Tp value_type; template<typename Tl> struct vector_shell { typedef Tl allocator_type; typedef std::vector<value_type, allocator_type> type; }; typedef allocator_policies<value_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, vector_shell>::type type; }; template<typename Tp, bool Thread> struct lists { typedef Tp value_type; template<typename Tl> struct list_shell { typedef Tl allocator_type; typedef std::list<value_type, allocator_type> type; }; typedef allocator_policies<value_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, list_shell>::type type; }; template<typename Tp, bool Thread> struct deques { typedef Tp value_type; template<typename Tl> struct deque_shell { typedef Tl allocator_type; typedef std::deque<value_type, allocator_type> type; }; typedef allocator_policies<value_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, deque_shell>::type type; }; template<typename Tp, bool Thread> struct strings { typedef Tp value_type; template<typename Tl> struct string_shell { typedef Tl allocator_type; typedef std::char_traits<value_type> traits_type; typedef std::basic_string<value_type, traits_type, allocator_type> type; }; typedef allocator_policies<value_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, string_shell>::type type; }; // A typelist of vector, list, deque, and string all instantiated // with each of the allocator policies. template<typename Tp, bool Thread> struct sequence_containers { typedef Tp value_type; typedef typename vectors<value_type, Thread>::type vector_typelist; typedef typename lists<value_type, Thread>::type list_typelist; typedef typename deques<value_type, Thread>::type deque_typelist; typedef typename strings<value_type, Thread>::type string_typelist; typedef typename append<vector_typelist, list_typelist>::type a1; typedef typename append<deque_typelist, string_typelist>::type a2; typedef typename append<a1, a2>::type type; }; // Typelists for map, set, unordered_set, unordered_map. template<typename Tp, bool Thread> struct maps { typedef Tp value_type; typedef Tp key_type; typedef std::pair<const key_type, value_type> pair_type; typedef std::less<key_type> compare_function; template<typename Tl> struct container { typedef Tl allocator_type; typedef std::map<key_type, value_type, compare_function, allocator_type> type; }; typedef allocator_policies<pair_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, container>::type type; }; template<typename Tp, bool Thread> struct unordered_maps { typedef Tp value_type; typedef Tp key_type; typedef std::pair<const key_type, value_type> pair_type; typedef std::tr1::hash<key_type> hash_function; typedef std::equal_to<key_type> equality_function; template<typename Tl> struct container { typedef Tl allocator_type; typedef std::tr1::unordered_map<key_type, value_type, hash_function, equality_function, allocator_type> type; }; typedef allocator_policies<pair_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, container>::type type; }; template<typename Tp, bool Thread> struct sets { typedef Tp value_type; typedef Tp key_type; typedef std::less<key_type> compare_function; template<typename Tl> struct container { typedef Tl allocator_type; typedef std::set<key_type, compare_function, allocator_type> type; }; typedef allocator_policies<key_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, container>::type type; }; template<typename Tp, bool Thread> struct unordered_sets { typedef Tp value_type; typedef Tp key_type; typedef std::tr1::hash<key_type> hash_function; typedef std::equal_to<key_type> equality_function; template<typename Tl> struct container { typedef Tl allocator_type; typedef std::tr1::unordered_set<key_type, hash_function, equality_function, allocator_type> type; }; typedef allocator_policies<key_type, Thread> allocator_types; typedef typename allocator_types::type allocator_typelist; typedef typename transform<allocator_typelist, container>::type type; }; // A typelist of all associated container types, with each of the // allocator policies. template<typename Tp, bool Thread> struct associative_containers { typedef Tp value_type; typedef typename maps<value_type, Thread>::type map_typelist; typedef typename sets<value_type, Thread>::type set_typelist; typedef typename unordered_maps<value_type, Thread>::type unordered_map_typelist; typedef typename unordered_sets<value_type, Thread>::type unordered_set_typelist; typedef typename append<map_typelist, unordered_map_typelist>::type a1; typedef typename append<set_typelist, unordered_set_typelist>::type a2; typedef typename append<a1, a2>::type type; }; // A typelist of all standard integral types. struct integral_types { typedef bool a1; typedef char a2; typedef signed char a3; typedef unsigned char a4; typedef short a5; typedef unsigned short a6; typedef int a7; typedef unsigned int a8; typedef long a9; typedef unsigned long a10; typedef long long a11; typedef unsigned long long a12; typedef wchar_t a13; typedef node<_GLIBCXX_TYPELIST_CHAIN13(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13)> basic_typelist; #if __cplusplus >= 201103L typedef char16_t a14; typedef char32_t a15; typedef node<_GLIBCXX_TYPELIST_CHAIN2(a14, a15)> cxx11_typelist; #else typedef node<null_type> cxx11_typelist; #endif #ifdef _GLIBCXX_USE_CHAR8_T typedef char8_t a16; typedef node<_GLIBCXX_TYPELIST_CHAIN1(a16)> char8_typelist; #else typedef node<null_type> char8_typelist; #endif typedef typename append<basic_typelist, cxx11_typelist>::type tl1; typedef typename append<tl1, char8_typelist>::type type; }; // A typelist of all standard integral types + the GNU 128-bit types. struct integral_types_gnu { typedef bool a1; typedef char a2; typedef signed char a3; typedef unsigned char a4; typedef short a5; typedef unsigned short a6; typedef int a7; typedef unsigned int a8; typedef long a9; typedef unsigned long a10; typedef long long a11; typedef unsigned long long a12; typedef wchar_t a13; typedef node<_GLIBCXX_TYPELIST_CHAIN13(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13)> basic_typelist; #if __cplusplus >= 201103L typedef char16_t a14; typedef char32_t a15; typedef node<_GLIBCXX_TYPELIST_CHAIN2(a14, a15)> cxx11_typelist; #else typedef node<null_type> cxx11_typelist; #endif #ifdef _GLIBCXX_USE_CHAR8_T typedef char8_t a16; typedef node<_GLIBCXX_TYPELIST_CHAIN1(a16)> char8_typelist; #else typedef node<null_type> char8_typelist; #endif # if !defined(__STRICT_ANSI__) && defined(_GLIBCXX_USE_INT128) __extension__ typedef __int128 a17; __extension__ typedef unsigned __int128 a18; typedef node<_GLIBCXX_TYPELIST_CHAIN2(a17, a18)> int128_typelist; #else typedef node<null_type> int128_typelist; #endif typedef typename append<basic_typelist, cxx11_typelist>::type tl1; typedef typename append<tl1, char8_typelist>::type tl2; typedef typename append<tl2, int128_typelist>::type type; }; #if __cplusplus >= 201103L struct atomic_integrals_no_bool { typedef std::atomic_char a2; typedef std::atomic_schar a3; typedef std::atomic_uchar a4; typedef std::atomic_short a5; typedef std::atomic_ushort a6; typedef std::atomic_int a7; typedef std::atomic_uint a8; typedef std::atomic_long a9; typedef std::atomic_ulong a10; typedef std::atomic_llong a11; typedef std::atomic_ullong a12; typedef std::atomic_wchar_t a13; typedef std::atomic_char16_t a14; typedef std::atomic_char32_t a15; typedef node<_GLIBCXX_TYPELIST_CHAIN14(a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, a15)> basic_typelist; #ifdef _GLIBCXX_USE_CHAR8_T typedef std::atomic_char8_t a16; typedef node<_GLIBCXX_TYPELIST_CHAIN1(a16)> char8_typelist; #else typedef node<null_type> char8_typelist; #endif typedef typename append<basic_typelist, char8_typelist>::type type; }; struct atomic_integrals { typedef std::atomic_bool a1; typedef std::atomic_char a2; typedef std::atomic_schar a3; typedef std::atomic_uchar a4; typedef std::atomic_short a5; typedef std::atomic_ushort a6; typedef std::atomic_int a7; typedef std::atomic_uint a8; typedef std::atomic_long a9; typedef std::atomic_ulong a10; typedef std::atomic_llong a11; typedef std::atomic_ullong a12; typedef std::atomic_wchar_t a13; typedef std::atomic_char16_t a14; typedef std::atomic_char32_t a15; typedef node<_GLIBCXX_TYPELIST_CHAIN15(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, a15)> basic_typelist; #ifdef _GLIBCXX_USE_CHAR8_T typedef std::atomic_char8_t a16; typedef node<_GLIBCXX_TYPELIST_CHAIN1(a16)> char8_typelist; #else typedef node<null_type> char8_typelist; #endif typedef typename append<basic_typelist, char8_typelist>::type type; }; template<typename Tp> struct atomics { typedef Tp value_type; typedef std::atomic<value_type> type; }; typedef transform<integral_types::type, atomics>::type atomics_tl; #endif template<typename Tp> struct numeric_limits { typedef Tp value_type; typedef std::numeric_limits<value_type> type; }; typedef transform<integral_types_gnu::type, numeric_limits>::type limits_tl; struct has_increment_operators { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { _Tp a; ++a; // prefix a++; // postfix a += a; } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; struct has_decrement_operators { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { _Tp a; --a; // prefix a--; // postfix a -= a; } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #if __cplusplus >= 201103L template<typename _Tp> void constexpr_bitwise_operators() { constexpr _Tp a = _Tp(); constexpr _Tp b = _Tp(); constexpr _Tp c1 __attribute__((unused)) = a | b; constexpr _Tp c2 __attribute__((unused)) = a & b; constexpr _Tp c3 __attribute__((unused)) = a ^ b; constexpr _Tp c4 __attribute__((unused)) = ~b; } #endif template<typename _Tp> void bitwise_operators() { _Tp a = _Tp(); _Tp b = _Tp(); a | b; a & b; a ^ b; ~b; } template<typename _Tp> void bitwise_assignment_operators() { #if __cplusplus >= 201103L _Tp a{}; _Tp b{}; #else _Tp a = _Tp(); _Tp b = _Tp(); #endif a |= b; // set a &= ~b; // clear a ^= b; } // 17.3.2.1.2 - Bitmask types [lib.bitmask.types] // bitmask_operators template<typename _BitmTp> void bitmask_operators() { bitwise_operators<_BitmTp>(); bitwise_assignment_operators<_BitmTp>(); } struct has_bitwise_operators { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { a |= b; // set a &= ~b; // clear a ^= b; } _Tp a; _Tp b; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #if __cplusplus >= 201103L struct constexpr_comparison_eq_ne { template<typename _Tp1, typename _Tp2 = _Tp1> void operator()() { static_assert(_Tp1() == _Tp2(), "eq"); static_assert(!(_Tp1() != _Tp2()), "ne"); } }; struct constexpr_comparison_operators { template<typename _Tp> void operator()() { static_assert(!(_Tp() < _Tp()), "less"); static_assert(_Tp() <= _Tp(), "leq"); static_assert(!(_Tp() > _Tp()), "more"); static_assert(_Tp() >= _Tp(), "meq"); static_assert(_Tp() == _Tp(), "eq"); static_assert(!(_Tp() != _Tp()), "ne"); } }; struct has_trivial_cons_dtor { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { typedef std::is_trivially_default_constructible<_Tp> ctor_p; static_assert(ctor_p::value, "default constructor not trivial"); typedef std::is_trivially_destructible<_Tp> dtor_p; static_assert(dtor_p::value, "destructor not trivial"); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; struct has_trivial_dtor { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { typedef std::is_trivially_destructible<_Tp> dtor_p; static_assert(dtor_p::value, "destructor not trivial"); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test standard layout struct standard_layout { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { typedef std::is_standard_layout<_Tp> standard_layout_p; static_assert(standard_layout_p::value, "not standard_layout"); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #endif // Generator to test base class struct has_required_base_class { template<typename _TBase, typename _TDerived> void operator()() { struct _Concept { void __constraint() { const _TDerived& obj = __a; const _TBase* base __attribute__((unused)) = &obj; } _TDerived __a; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test assignment operator. struct assignable { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { __v1 = __v2; } _Tp __v1; _Tp __v2; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test default constructor. struct default_constructible { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { _Tp __v __attribute__((unused)); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test copy constructor. struct copy_constructible { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { _Tp __v2(__v1); } _Tp __v1; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test direct initialization, single value constructor. struct single_value_constructible { template<typename _Ttype, typename _Tvalue> void operator()() { struct _Concept { void __constraint() { _Ttype __v(__a); } _Tvalue __a; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #if __cplusplus >= 201103L // Generator to test non-explicit default constructor. struct implicitly_default_constructible { template<typename _Tp> void operator()() { struct _Concept { struct Aggregate { _Tp v; }; void __constraint() { Aggregate __v __attribute__((unused)) = { }; } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test default constructor. struct constexpr_default_constructible { template<typename _Tp, bool _IsLitp = std::is_literal_type<_Tp>::value> struct _Concept; // NB: _Tp must be a literal type. // Have to have user-defined default ctor for this to work, // or implicit default ctor must initialize all members. template<typename _Tp> struct _Concept<_Tp, true> { void __constraint() { constexpr _Tp __obj; } }; // Non-literal type, declare local static and verify no // constructors generated for _Tp within the translation unit. template<typename _Tp> struct _Concept<_Tp, false> { void __constraint() { static _Tp __obj; } }; template<typename _Tp> void operator()() { _Concept<_Tp> c; c.__constraint(); } }; // Generator to test defaulted default constructor. struct constexpr_defaulted_default_constructible { template<typename _Tp> void operator()() { struct _Concept { void __constraint() { constexpr _Tp __v __attribute__((unused)) { }; } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; struct constexpr_single_value_constructible { template<typename _Ttesttype, typename _Tvaluetype, bool _IsLitp = std::is_literal_type<_Ttesttype>::value> struct _Concept; // NB: _Tvaluetype and _Ttesttype must be literal types. // Additional constraint on _Tvaluetype needed. Either assume // user-defined default ctor as per // constexpr_default_constructible and provide no initializer, // provide an initializer, or assume empty-list init-able. Choose // the latter. template<typename _Ttesttype, typename _Tvaluetype> struct _Concept<_Ttesttype, _Tvaluetype, true> { void __constraint() { constexpr _Tvaluetype __v { }; constexpr _Ttesttype __obj(__v); } }; template<typename _Ttesttype, typename _Tvaluetype> struct _Concept<_Ttesttype, _Tvaluetype, false> { void __constraint() { const _Tvaluetype __v { }; static _Ttesttype __obj(__v); } }; template<typename _Ttesttype, typename _Tvaluetype> void operator()() { _Concept<_Ttesttype, _Tvaluetype> c; c.__constraint(); } }; #endif // Generator to test direct list initialization #if __cplusplus >= 201103L struct direct_list_initializable { template<typename _Ttype, typename _Tvalue> void operator()() { struct _Concept { void __constraint() { _Ttype __v1 { }; // default ctor _Ttype __v2 { __a }; // single-argument ctor } _Tvalue __a; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #endif // Generator to test copy list initialization, aggregate initialization struct copy_list_initializable { template<typename _Ttype, typename _Tvalue> void operator()() { struct _Concept { void __constraint() { _Ttype __v __attribute__((unused)) = {__a}; } _Tvalue __a; }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test integral conversion operator struct integral_convertable { template<typename _Ttype, typename _Tvalue> void operator()() { struct _Concept { void __constraint() { _Tvalue __v0(0); _Tvalue __v1(1); _Ttype __a(__v1); __v0 = __a; VERIFY( __v1 == __v0 ); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; // Generator to test integral assignment operator struct integral_assignable { template<typename _Ttype, typename _Tvalue> void operator()() { struct _Concept { void __constraint() { _Tvalue __v0(0); _Tvalue __v1(1); _Ttype __a(__v0); __a = __v1; _Tvalue __vr = __a; VERIFY( __v1 == __vr ); } }; void (_Concept::*__x)() __attribute__((unused)) = &_Concept::__constraint; } }; #if __cplusplus >= 201103L // Generator to test lowering requirements for compare-and-exchange. template<std::memory_order _Torder> struct compare_exchange_order_lowering { template<typename _Tp> void operator()() { std::atomic<_Tp> __x; _Tp __expected = 0; __x.compare_exchange_strong(__expected, 1, _Torder); __x.compare_exchange_weak(__expected, 1, _Torder); } }; #endif } // namespace __gnu_test #endif