⚝
One Hat Cyber Team
⚝
Your IP:
216.73.216.212
Server IP:
97.74.87.16
Server:
Linux 16.87.74.97.host.secureserver.net 5.14.0-503.38.1.el9_5.x86_64 #1 SMP PREEMPT_DYNAMIC Fri Apr 18 08:52:10 EDT 2025 x86_64
Server Software:
Apache
PHP Version:
8.2.28
Buat File
|
Buat Folder
Eksekusi
Dir :
~
/
proc
/
self
/
root
/
usr
/
include
/
c++
/
11
/
bits
/
View File Name :
ranges_base.h
// Core concepts and definitions for <ranges> -*- C++ -*- // Copyright (C) 2019-2021 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. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // <http://www.gnu.org/licenses/>. /** @file bits/ranges_base.h * This is an internal header file, included by other library headers. * Do not attempt to use it directly. @headername{ranges} */ #ifndef _GLIBCXX_RANGES_BASE_H #define _GLIBCXX_RANGES_BASE_H 1 #pragma GCC system_header #if __cplusplus > 201703L #include <bits/iterator_concepts.h> #include <ext/numeric_traits.h> #include <bits/max_size_type.h> #ifdef __cpp_lib_concepts namespace std _GLIBCXX_VISIBILITY(default) { _GLIBCXX_BEGIN_NAMESPACE_VERSION namespace ranges { template<typename> inline constexpr bool disable_sized_range = false; template<typename _Tp> inline constexpr bool enable_borrowed_range = false; namespace __detail { constexpr __max_size_type __to_unsigned_like(__max_size_type __t) noexcept { return __t; } constexpr __max_size_type __to_unsigned_like(__max_diff_type __t) noexcept { return __max_size_type(__t); } template<integral _Tp> constexpr auto __to_unsigned_like(_Tp __t) noexcept { return static_cast<make_unsigned_t<_Tp>>(__t); } #if defined __STRICT_ANSI__ && defined __SIZEOF_INT128__ constexpr unsigned __int128 __to_unsigned_like(__int128 __t) noexcept { return __t; } constexpr unsigned __int128 __to_unsigned_like(unsigned __int128 __t) noexcept { return __t; } #endif template<typename _Tp> using __make_unsigned_like_t = decltype(__detail::__to_unsigned_like(std::declval<_Tp>())); // Part of the constraints of ranges::borrowed_range template<typename _Tp> concept __maybe_borrowed_range = is_lvalue_reference_v<_Tp> || enable_borrowed_range<remove_cvref_t<_Tp>>; } // namespace __detail namespace __cust_access { using std::ranges::__detail::__maybe_borrowed_range; using std::__detail::__range_iter_t; struct _Begin { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (is_array_v<remove_reference_t<_Tp>>) return true; else if constexpr (__member_begin<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().begin())); else return noexcept(__decay_copy(begin(std::declval<_Tp&>()))); } public: template<__maybe_borrowed_range _Tp> requires is_array_v<remove_reference_t<_Tp>> || __member_begin<_Tp> || __adl_begin<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (is_array_v<remove_reference_t<_Tp>>) { static_assert(is_lvalue_reference_v<_Tp>); return __t + 0; } else if constexpr (__member_begin<_Tp>) return __t.begin(); else return begin(__t); } }; template<typename _Tp> concept __member_end = requires(_Tp& __t) { { __decay_copy(__t.end()) } -> sentinel_for<__range_iter_t<_Tp>>; }; // Poison pills so that unqualified lookup doesn't find std::end. void end(auto&) = delete; void end(const auto&) = delete; template<typename _Tp> concept __adl_end = __class_or_enum<remove_reference_t<_Tp>> && requires(_Tp& __t) { { __decay_copy(end(__t)) } -> sentinel_for<__range_iter_t<_Tp>>; }; struct _End { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (is_bounded_array_v<remove_reference_t<_Tp>>) return true; else if constexpr (__member_end<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().end())); else return noexcept(__decay_copy(end(std::declval<_Tp&>()))); } public: template<__maybe_borrowed_range _Tp> requires is_bounded_array_v<remove_reference_t<_Tp>> || __member_end<_Tp> || __adl_end<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (is_bounded_array_v<remove_reference_t<_Tp>>) { static_assert(is_lvalue_reference_v<_Tp>); return __t + extent_v<remove_reference_t<_Tp>>; } else if constexpr (__member_end<_Tp>) return __t.end(); else return end(__t); } }; // If _To is an lvalue-reference, return const _Tp&, otherwise const _Tp&&. template<typename _To, typename _Tp> constexpr decltype(auto) __as_const(_Tp& __t) noexcept { static_assert(std::is_same_v<_To&, _Tp&>); if constexpr (is_lvalue_reference_v<_To>) return const_cast<const _Tp&>(__t); else return static_cast<const _Tp&&>(__t); } struct _CBegin { template<typename _Tp> constexpr auto operator()(_Tp&& __e) const noexcept(noexcept(_Begin{}(__cust_access::__as_const<_Tp>(__e)))) requires requires { _Begin{}(__cust_access::__as_const<_Tp>(__e)); } { return _Begin{}(__cust_access::__as_const<_Tp>(__e)); } }; struct _CEnd { template<typename _Tp> constexpr auto operator()(_Tp&& __e) const noexcept(noexcept(_End{}(__cust_access::__as_const<_Tp>(__e)))) requires requires { _End{}(__cust_access::__as_const<_Tp>(__e)); } { return _End{}(__cust_access::__as_const<_Tp>(__e)); } }; template<typename _Tp> concept __member_rbegin = requires(_Tp& __t) { { __decay_copy(__t.rbegin()) } -> input_or_output_iterator; }; void rbegin(auto&) = delete; void rbegin(const auto&) = delete; template<typename _Tp> concept __adl_rbegin = __class_or_enum<remove_reference_t<_Tp>> && requires(_Tp& __t) { { __decay_copy(rbegin(__t)) } -> input_or_output_iterator; }; template<typename _Tp> concept __reversable = requires(_Tp& __t) { { _Begin{}(__t) } -> bidirectional_iterator; { _End{}(__t) } -> same_as<decltype(_Begin{}(__t))>; }; struct _RBegin { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (__member_rbegin<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().rbegin())); else if constexpr (__adl_rbegin<_Tp>) return noexcept(__decay_copy(rbegin(std::declval<_Tp&>()))); else { if constexpr (noexcept(_End{}(std::declval<_Tp&>()))) { using _It = decltype(_End{}(std::declval<_Tp&>())); // std::reverse_iterator copy-initializes its member. return is_nothrow_copy_constructible_v<_It>; } else return false; } } public: template<__maybe_borrowed_range _Tp> requires __member_rbegin<_Tp> || __adl_rbegin<_Tp> || __reversable<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (__member_rbegin<_Tp>) return __t.rbegin(); else if constexpr (__adl_rbegin<_Tp>) return rbegin(__t); else return std::make_reverse_iterator(_End{}(__t)); } }; template<typename _Tp> concept __member_rend = requires(_Tp& __t) { { __decay_copy(__t.rend()) } -> sentinel_for<decltype(_RBegin{}(std::forward<_Tp>(__t)))>; }; void rend(auto&) = delete; void rend(const auto&) = delete; template<typename _Tp> concept __adl_rend = __class_or_enum<remove_reference_t<_Tp>> && requires(_Tp& __t) { { __decay_copy(rend(__t)) } -> sentinel_for<decltype(_RBegin{}(std::forward<_Tp>(__t)))>; }; struct _REnd { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (__member_rend<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().rend())); else if constexpr (__adl_rend<_Tp>) return noexcept(__decay_copy(rend(std::declval<_Tp&>()))); else { if constexpr (noexcept(_Begin{}(std::declval<_Tp&>()))) { using _It = decltype(_Begin{}(std::declval<_Tp&>())); // std::reverse_iterator copy-initializes its member. return is_nothrow_copy_constructible_v<_It>; } else return false; } } public: template<__maybe_borrowed_range _Tp> requires __member_rend<_Tp> || __adl_rend<_Tp> || __reversable<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (__member_rend<_Tp>) return __t.rend(); else if constexpr (__adl_rend<_Tp>) return rend(__t); else return std::make_reverse_iterator(_Begin{}(__t)); } }; struct _CRBegin { template<typename _Tp> constexpr auto operator()(_Tp&& __e) const noexcept(noexcept(_RBegin{}(__cust_access::__as_const<_Tp>(__e)))) requires requires { _RBegin{}(__cust_access::__as_const<_Tp>(__e)); } { return _RBegin{}(__cust_access::__as_const<_Tp>(__e)); } }; struct _CREnd { template<typename _Tp> constexpr auto operator()(_Tp&& __e) const noexcept(noexcept(_REnd{}(__cust_access::__as_const<_Tp>(__e)))) requires requires { _REnd{}(__cust_access::__as_const<_Tp>(__e)); } { return _REnd{}(__cust_access::__as_const<_Tp>(__e)); } }; template<typename _Tp> concept __member_size = !disable_sized_range<remove_cvref_t<_Tp>> && requires(_Tp& __t) { { __decay_copy(__t.size()) } -> __detail::__is_integer_like; }; void size(auto&) = delete; void size(const auto&) = delete; template<typename _Tp> concept __adl_size = __class_or_enum<remove_reference_t<_Tp>> && !disable_sized_range<remove_cvref_t<_Tp>> && requires(_Tp& __t) { { __decay_copy(size(__t)) } -> __detail::__is_integer_like; }; template<typename _Tp> concept __sentinel_size = requires(_Tp& __t) { requires (!is_unbounded_array_v<remove_reference_t<_Tp>>); { _Begin{}(__t) } -> forward_iterator; { _End{}(__t) } -> sized_sentinel_for<decltype(_Begin{}(__t))>; __detail::__to_unsigned_like(_End{}(__t) - _Begin{}(__t)); }; struct _Size { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (is_bounded_array_v<remove_reference_t<_Tp>>) return true; else if constexpr (__member_size<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().size())); else if constexpr (__adl_size<_Tp>) return noexcept(__decay_copy(size(std::declval<_Tp&>()))); else if constexpr (__sentinel_size<_Tp>) return noexcept(_End{}(std::declval<_Tp&>()) - _Begin{}(std::declval<_Tp&>())); } public: template<typename _Tp> requires is_bounded_array_v<remove_reference_t<_Tp>> || __member_size<_Tp> || __adl_size<_Tp> || __sentinel_size<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (is_bounded_array_v<remove_reference_t<_Tp>>) return extent_v<remove_reference_t<_Tp>>; else if constexpr (__member_size<_Tp>) return __t.size(); else if constexpr (__adl_size<_Tp>) return size(__t); else if constexpr (__sentinel_size<_Tp>) return __detail::__to_unsigned_like(_End{}(__t) - _Begin{}(__t)); } }; struct _SSize { // _GLIBCXX_RESOLVE_LIB_DEFECTS // 3403. Domain of ranges::ssize(E) doesn't match ranges::size(E) template<typename _Tp> requires requires (_Tp& __t) { _Size{}(__t); } constexpr auto operator()(_Tp&& __t) const noexcept(noexcept(_Size{}(__t))) { auto __size = _Size{}(__t); using __size_type = decltype(__size); // Return the wider of ptrdiff_t and make-signed-like-t<__size_type>. if constexpr (integral<__size_type>) { using __gnu_cxx::__int_traits; if constexpr (__int_traits<__size_type>::__digits < __int_traits<ptrdiff_t>::__digits) return static_cast<ptrdiff_t>(__size); else return static_cast<make_signed_t<__size_type>>(__size); } #if defined __STRICT_ANSI__ && defined __SIZEOF_INT128__ // For strict-ansi modes integral<__int128> is false else if constexpr (__detail::__is_int128<__size_type>) return static_cast<__int128>(__size); #endif else // Must be one of __max_diff_type or __max_size_type. return __detail::__max_diff_type(__size); } }; template<typename _Tp> concept __member_empty = requires(_Tp& __t) { bool(__t.empty()); }; template<typename _Tp> concept __size0_empty = requires(_Tp& __t) { _Size{}(__t) == 0; }; template<typename _Tp> concept __eq_iter_empty = requires(_Tp& __t) { requires (!is_unbounded_array_v<remove_reference_t<_Tp>>); { _Begin{}(__t) } -> forward_iterator; bool(_Begin{}(__t) == _End{}(__t)); }; struct _Empty { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (__member_empty<_Tp>) return noexcept(bool(std::declval<_Tp&>().empty())); else if constexpr (__size0_empty<_Tp>) return noexcept(_Size{}(std::declval<_Tp&>()) == 0); else return noexcept(bool(_Begin{}(std::declval<_Tp&>()) == _End{}(std::declval<_Tp&>()))); } public: template<typename _Tp> requires __member_empty<_Tp> || __size0_empty<_Tp> || __eq_iter_empty<_Tp> constexpr bool operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp&>()) { if constexpr (__member_empty<_Tp>) return bool(__t.empty()); else if constexpr (__size0_empty<_Tp>) return _Size{}(__t) == 0; else return bool(_Begin{}(__t) == _End{}(__t)); } }; template<typename _Tp> concept __pointer_to_object = is_pointer_v<_Tp> && is_object_v<remove_pointer_t<_Tp>>; template<typename _Tp> concept __member_data = requires(_Tp& __t) { { __decay_copy(__t.data()) } -> __pointer_to_object; }; template<typename _Tp> concept __begin_data = contiguous_iterator<__range_iter_t<_Tp>>; struct _Data { private: template<typename _Tp> static constexpr bool _S_noexcept() { if constexpr (__member_data<_Tp>) return noexcept(__decay_copy(std::declval<_Tp&>().data())); else return noexcept(_Begin{}(std::declval<_Tp&>())); } public: template<__maybe_borrowed_range _Tp> requires __member_data<_Tp> || __begin_data<_Tp> constexpr auto operator()(_Tp&& __t) const noexcept(_S_noexcept<_Tp>()) { if constexpr (__member_data<_Tp>) return __t.data(); else return std::to_address(_Begin{}(__t)); } }; struct _CData { template<typename _Tp> constexpr auto operator()(_Tp&& __e) const noexcept(noexcept(_Data{}(__cust_access::__as_const<_Tp>(__e)))) requires requires { _Data{}(__cust_access::__as_const<_Tp>(__e)); } { return _Data{}(__cust_access::__as_const<_Tp>(__e)); } }; } // namespace __cust_access inline namespace __cust { inline constexpr __cust_access::_Begin begin{}; inline constexpr __cust_access::_End end{}; inline constexpr __cust_access::_CBegin cbegin{}; inline constexpr __cust_access::_CEnd cend{}; inline constexpr __cust_access::_RBegin rbegin{}; inline constexpr __cust_access::_REnd rend{}; inline constexpr __cust_access::_CRBegin crbegin{}; inline constexpr __cust_access::_CREnd crend{}; inline constexpr __cust_access::_Size size{}; inline constexpr __cust_access::_SSize ssize{}; inline constexpr __cust_access::_Empty empty{}; inline constexpr __cust_access::_Data data{}; inline constexpr __cust_access::_CData cdata{}; } /// [range.range] The range concept. template<typename _Tp> concept range = requires(_Tp& __t) { ranges::begin(__t); ranges::end(__t); }; /// [range.range] The borrowed_range concept. template<typename _Tp> concept borrowed_range = range<_Tp> && __detail::__maybe_borrowed_range<_Tp>; template<typename _Tp> using iterator_t = std::__detail::__range_iter_t<_Tp>; template<range _Range> using sentinel_t = decltype(ranges::end(std::declval<_Range&>())); template<range _Range> using range_difference_t = iter_difference_t<iterator_t<_Range>>; template<range _Range> using range_value_t = iter_value_t<iterator_t<_Range>>; template<range _Range> using range_reference_t = iter_reference_t<iterator_t<_Range>>; template<range _Range> using range_rvalue_reference_t = iter_rvalue_reference_t<iterator_t<_Range>>; /// [range.sized] The sized_range concept. template<typename _Tp> concept sized_range = range<_Tp> && requires(_Tp& __t) { ranges::size(__t); }; template<sized_range _Range> using range_size_t = decltype(ranges::size(std::declval<_Range&>())); /// [range.view] The ranges::view_base type. struct view_base { }; /// [range.view] The ranges::enable_view boolean. template<typename _Tp> inline constexpr bool enable_view = derived_from<_Tp, view_base>; /// [range.view] The ranges::view concept. template<typename _Tp> concept view = range<_Tp> && movable<_Tp> && enable_view<_Tp>; // [range.refinements] /// A range for which ranges::begin returns an output iterator. template<typename _Range, typename _Tp> concept output_range = range<_Range> && output_iterator<iterator_t<_Range>, _Tp>; /// A range for which ranges::begin returns an input iterator. template<typename _Tp> concept input_range = range<_Tp> && input_iterator<iterator_t<_Tp>>; /// A range for which ranges::begin returns a forward iterator. template<typename _Tp> concept forward_range = input_range<_Tp> && forward_iterator<iterator_t<_Tp>>; /// A range for which ranges::begin returns a bidirectional iterator. template<typename _Tp> concept bidirectional_range = forward_range<_Tp> && bidirectional_iterator<iterator_t<_Tp>>; /// A range for which ranges::begin returns a random access iterator. template<typename _Tp> concept random_access_range = bidirectional_range<_Tp> && random_access_iterator<iterator_t<_Tp>>; /// A range for which ranges::begin returns a contiguous iterator. template<typename _Tp> concept contiguous_range = random_access_range<_Tp> && contiguous_iterator<iterator_t<_Tp>> && requires(_Tp& __t) { { ranges::data(__t) } -> same_as<add_pointer_t<range_reference_t<_Tp>>>; }; /// A range for which ranges::begin and ranges::end return the same type. template<typename _Tp> concept common_range = range<_Tp> && same_as<iterator_t<_Tp>, sentinel_t<_Tp>>; /// A range which can be safely converted to a view. template<typename _Tp> concept viewable_range = range<_Tp> && ((view<remove_cvref_t<_Tp>> && constructible_from<remove_cvref_t<_Tp>, _Tp>) || (!view<remove_cvref_t<_Tp>> && borrowed_range<_Tp>)); // [range.iter.ops] range iterator operations struct __advance_fn { template<input_or_output_iterator _It> constexpr void operator()(_It& __it, iter_difference_t<_It> __n) const { if constexpr (random_access_iterator<_It>) __it += __n; else if constexpr (bidirectional_iterator<_It>) { if (__n > 0) { do { ++__it; } while (--__n); } else if (__n < 0) { do { --__it; } while (++__n); } } else { // cannot decrement a non-bidirectional iterator __glibcxx_assert(__n >= 0); while (__n-- > 0) ++__it; } } template<input_or_output_iterator _It, sentinel_for<_It> _Sent> constexpr void operator()(_It& __it, _Sent __bound) const { if constexpr (assignable_from<_It&, _Sent>) __it = std::move(__bound); else if constexpr (sized_sentinel_for<_Sent, _It>) (*this)(__it, __bound - __it); else { while (__it != __bound) ++__it; } } template<input_or_output_iterator _It, sentinel_for<_It> _Sent> constexpr iter_difference_t<_It> operator()(_It& __it, iter_difference_t<_It> __n, _Sent __bound) const { if constexpr (sized_sentinel_for<_Sent, _It>) { const auto __diff = __bound - __it; if (__diff == 0) return __n; else if (__diff > 0 ? __n >= __diff : __n <= __diff) { (*this)(__it, __bound); return __n - __diff; } else if (__n != 0) [[likely]] { // n and bound must not lead in opposite directions: __glibcxx_assert(__n < 0 == __diff < 0); (*this)(__it, __n); return 0; } else return 0; } else if (__it == __bound || __n == 0) return __n; else if (__n > 0) { iter_difference_t<_It> __m = 0; do { ++__it; ++__m; } while (__m != __n && __it != __bound); return __n - __m; } else if constexpr (bidirectional_iterator<_It> && same_as<_It, _Sent>) { iter_difference_t<_It> __m = 0; do { --__it; --__m; } while (__m != __n && __it != __bound); return __n - __m; } else { // cannot decrement a non-bidirectional iterator __glibcxx_assert(__n >= 0); return __n; } } }; inline constexpr __advance_fn advance{}; struct __distance_fn { template<input_or_output_iterator _It, sentinel_for<_It> _Sent> constexpr iter_difference_t<_It> operator()(_It __first, _Sent __last) const { if constexpr (sized_sentinel_for<_Sent, _It>) return __last - __first; else { iter_difference_t<_It> __n = 0; while (__first != __last) { ++__first; ++__n; } return __n; } } template<range _Range> constexpr range_difference_t<_Range> operator()(_Range&& __r) const { if constexpr (sized_range<_Range>) return static_cast<range_difference_t<_Range>>(ranges::size(__r)); else return (*this)(ranges::begin(__r), ranges::end(__r)); } }; inline constexpr __distance_fn distance{}; struct __next_fn { template<input_or_output_iterator _It> constexpr _It operator()(_It __x) const { ++__x; return __x; } template<input_or_output_iterator _It> constexpr _It operator()(_It __x, iter_difference_t<_It> __n) const { ranges::advance(__x, __n); return __x; } template<input_or_output_iterator _It, sentinel_for<_It> _Sent> constexpr _It operator()(_It __x, _Sent __bound) const { ranges::advance(__x, __bound); return __x; } template<input_or_output_iterator _It, sentinel_for<_It> _Sent> constexpr _It operator()(_It __x, iter_difference_t<_It> __n, _Sent __bound) const { ranges::advance(__x, __n, __bound); return __x; } }; inline constexpr __next_fn next{}; struct __prev_fn { template<bidirectional_iterator _It> constexpr _It operator()(_It __x) const { --__x; return __x; } template<bidirectional_iterator _It> constexpr _It operator()(_It __x, iter_difference_t<_It> __n) const { ranges::advance(__x, -__n); return __x; } template<bidirectional_iterator _It> constexpr _It operator()(_It __x, iter_difference_t<_It> __n, _It __bound) const { ranges::advance(__x, -__n, __bound); return __x; } }; inline constexpr __prev_fn prev{}; /// Type returned by algorithms instead of a dangling iterator or subrange. struct dangling { constexpr dangling() noexcept = default; template<typename... _Args> constexpr dangling(_Args&&...) noexcept { } }; template<range _Range> using borrowed_iterator_t = conditional_t<borrowed_range<_Range>, iterator_t<_Range>, dangling>; } // namespace ranges _GLIBCXX_END_NAMESPACE_VERSION } // namespace std #endif // library concepts #endif // C++20 #endif // _GLIBCXX_RANGES_BASE_H