// -*- C++ -*- // Copyright (C) 2008-2023 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 // . /** @file include/chrono * This is a Standard C++ Library header. * @ingroup chrono */ #ifndef _GLIBCXX_CHRONO #define _GLIBCXX_CHRONO 1 #pragma GCC system_header #include // for and clocks #if __cplusplus < 201103L # include #else #include #if __cplusplus >= 202002L # include # include # include # include # include // upper_bound # include # include #endif #if __cplusplus >= 202002L // TODO formatting and parsing // # undef __cpp_lib_chrono // # define __cpp_lib_chrono 201907L #endif namespace std _GLIBCXX_VISIBILITY(default) { _GLIBCXX_BEGIN_NAMESPACE_VERSION /** * @defgroup chrono Time * @ingroup utilities * * Classes and functions for time. * * @since C++11 */ /** @namespace std::chrono * @brief ISO C++ 2011 namespace for date and time utilities * @ingroup chrono */ namespace chrono { #if __cplusplus >= 202002L /// @addtogroup chrono /// @{ struct local_t { }; template using local_time = time_point; using local_seconds = local_time; using local_days = local_time; class utc_clock; class tai_clock; class gps_clock; template using utc_time = time_point; using utc_seconds = utc_time; template using tai_time = time_point; using tai_seconds = tai_time; template using gps_time = time_point; using gps_seconds = gps_time; template<> struct is_clock : true_type { }; template<> struct is_clock : true_type { }; template<> struct is_clock : true_type { }; template<> inline constexpr bool is_clock_v = true; template<> inline constexpr bool is_clock_v = true; template<> inline constexpr bool is_clock_v = true; struct leap_second_info { bool is_leap_second; seconds elapsed; }; template leap_second_info get_leap_second_info(const utc_time<_Duration>& __ut); /** A clock that measures Universal Coordinated Time (UTC). * * The epoch is 1970-01-01 00:00:00. * * @since C++20 */ class utc_clock { public: using rep = system_clock::rep; using period = system_clock::period; using duration = chrono::duration; using time_point = chrono::time_point; static constexpr bool is_steady = false; [[nodiscard]] static time_point now() { return from_sys(system_clock::now()); } template [[nodiscard]] static sys_time> to_sys(const utc_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; const auto __li = chrono::get_leap_second_info(__t); sys_time<_CDur> __s{__t.time_since_epoch() - __li.elapsed}; if (__li.is_leap_second) __s = chrono::floor(__s) + seconds{1} - _CDur{1}; return __s; } template [[nodiscard]] static utc_time> from_sys(const sys_time<_Duration>& __t); }; /** A clock that measures International Atomic Time. * * The epoch is 1958-01-01 00:00:00. * * @since C++20 */ class tai_clock { public: using rep = system_clock::rep; using period = system_clock::period; using duration = chrono::duration; using time_point = chrono::time_point; static constexpr bool is_steady = false; // XXX true for CLOCK_TAI? // TODO move into lib, use CLOCK_TAI on linux, add extension point. [[nodiscard]] static time_point now() { return from_utc(utc_clock::now()); } template [[nodiscard]] static utc_time> to_utc(const tai_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; return utc_time<_CDur>{__t.time_since_epoch()} - 378691210s; } template [[nodiscard]] static tai_time> from_utc(const utc_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; return tai_time<_CDur>{__t.time_since_epoch()} + 378691210s; } }; /** A clock that measures GPS time. * * The epoch is 1980-01-06 00:00:00. * * @since C++20 */ class gps_clock { public: using rep = system_clock::rep; using period = system_clock::period; using duration = chrono::duration; using time_point = chrono::time_point; static constexpr bool is_steady = false; // XXX // TODO move into lib, add extension point. [[nodiscard]] static time_point now() { return from_utc(utc_clock::now()); } template [[nodiscard]] static utc_time> to_utc(const gps_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; return utc_time<_CDur>{__t.time_since_epoch()} + 315964809s; } template [[nodiscard]] static gps_time> from_utc(const utc_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; return gps_time<_CDur>{__t.time_since_epoch()} - 315964809s; } }; template struct clock_time_conversion { }; // Identity conversions template struct clock_time_conversion<_Clock, _Clock> { template time_point<_Clock, _Duration> operator()(const time_point<_Clock, _Duration>& __t) const { return __t; } }; template<> struct clock_time_conversion { template sys_time<_Duration> operator()(const sys_time<_Duration>& __t) const { return __t; } }; template<> struct clock_time_conversion { template utc_time<_Duration> operator()(const utc_time<_Duration>& __t) const { return __t; } }; // Conversions between system_clock and utc_clock template<> struct clock_time_conversion { template utc_time> operator()(const sys_time<_Duration>& __t) const { return utc_clock::from_sys(__t); } }; template<> struct clock_time_conversion { template sys_time> operator()(const utc_time<_Duration>& __t) const { return utc_clock::to_sys(__t); } }; template inline constexpr bool __is_time_point_for_v = false; template inline constexpr bool __is_time_point_for_v, _Clock> = true; // Conversions between system_clock and other clocks template struct clock_time_conversion { template auto operator()(const time_point<_SourceClock, _Duration>& __t) const -> decltype(_Src::to_sys(__t)) { using _Ret = decltype(_SourceClock::to_sys(__t)); static_assert(__is_time_point_for_v<_Ret, system_clock>); return _SourceClock::to_sys(__t); } }; template struct clock_time_conversion<_DestClock, system_clock> { template auto operator()(const sys_time<_Duration>& __t) const -> decltype(_Dest::from_sys(__t)) { using _Ret = decltype(_DestClock::from_sys(__t)); static_assert(__is_time_point_for_v<_Ret, _DestClock>); return _DestClock::from_sys(__t); } }; // Conversions between utc_clock and other clocks template struct clock_time_conversion { template auto operator()(const time_point<_SourceClock, _Duration>& __t) const -> decltype(_Src::to_utc(__t)) { using _Ret = decltype(_SourceClock::to_utc(__t)); static_assert(__is_time_point_for_v<_Ret, utc_clock>); return _SourceClock::to_utc(__t); } }; template struct clock_time_conversion<_DestClock, utc_clock> { template auto operator()(const utc_time<_Duration>& __t) const -> decltype(_Dest::from_utc(__t)) { using _Ret = decltype(_DestClock::from_utc(__t)); static_assert(__is_time_point_for_v<_Ret, _DestClock>); return _DestClock::from_utc(__t); } }; /// @cond undocumented namespace __detail { template concept __clock_convs = requires (const time_point<_SourceClock, _Duration>& __t) { clock_time_conversion<_DestClock, _SourceClock>{}(__t); }; template concept __clock_convs_sys = requires (const time_point<_SourceClock, _Duration>& __t) { clock_time_conversion<_DestClock, system_clock>{}( clock_time_conversion{}(__t)); }; template concept __clock_convs_utc = requires (const time_point<_SourceClock, _Duration>& __t) { clock_time_conversion<_DestClock, utc_clock>{}( clock_time_conversion{}(__t)); }; template concept __clock_convs_sys_utc = requires (const time_point<_SourceClock, _Duration>& __t) { clock_time_conversion<_DestClock, utc_clock>{}( clock_time_conversion{}( clock_time_conversion{}(__t))); }; template concept __clock_convs_utc_sys = requires (const time_point<_SourceClock, _Duration>& __t) { clock_time_conversion<_DestClock, system_clock>{}( clock_time_conversion{}( clock_time_conversion{}(__t))); }; } // namespace __detail /// @endcond /// Convert a time point to a different clock. template [[nodiscard]] inline auto clock_cast(const time_point<_SourceClock, _Duration>& __t) requires __detail::__clock_convs<_DestClock, _SourceClock, _Duration> || __detail::__clock_convs_sys<_DestClock, _SourceClock, _Duration> || __detail::__clock_convs_utc<_DestClock, _SourceClock, _Duration> || __detail::__clock_convs_sys_utc<_DestClock, _SourceClock, _Duration> || __detail::__clock_convs_utc_sys<_DestClock, _SourceClock, _Duration> { constexpr bool __direct = __detail::__clock_convs<_DestClock, _SourceClock, _Duration>; if constexpr (__direct) { return clock_time_conversion<_DestClock, _SourceClock>{}(__t); } else { constexpr bool __convert_via_sys_clock = __detail::__clock_convs_sys<_DestClock, _SourceClock, _Duration>; constexpr bool __convert_via_utc_clock = __detail::__clock_convs_utc<_DestClock, _SourceClock, _Duration>; if constexpr (__convert_via_sys_clock) { static_assert(!__convert_via_utc_clock, "clock_cast requires a unique best conversion, but " "conversion is possible via system_clock and also via" "utc_clock"); return clock_time_conversion<_DestClock, system_clock>{}( clock_time_conversion{}(__t)); } else if constexpr (__convert_via_utc_clock) { return clock_time_conversion<_DestClock, utc_clock>{}( clock_time_conversion{}(__t)); } else { constexpr bool __convert_via_sys_and_utc_clocks = __detail::__clock_convs_sys_utc<_DestClock, _SourceClock, _Duration>; if constexpr (__convert_via_sys_and_utc_clocks) { constexpr bool __convert_via_utc_and_sys_clocks = __detail::__clock_convs_utc_sys<_DestClock, _SourceClock, _Duration>; static_assert(!__convert_via_utc_and_sys_clocks, "clock_cast requires a unique best conversion, but " "conversion is possible via system_clock followed by " "utc_clock, and also via utc_clock followed by " "system_clock"); return clock_time_conversion<_DestClock, utc_clock>{}( clock_time_conversion{}( clock_time_conversion{}(__t))); } else { return clock_time_conversion<_DestClock, system_clock>{}( clock_time_conversion{}( clock_time_conversion{}(__t))); } } } } // CALENDRICAL TYPES // CLASS DECLARATIONS class day; class month; class year; class weekday; class weekday_indexed; class weekday_last; class month_day; class month_day_last; class month_weekday; class month_weekday_last; class year_month; class year_month_day; class year_month_day_last; class year_month_weekday; class year_month_weekday_last; struct last_spec { explicit last_spec() = default; friend constexpr month_day_last operator/(int __m, last_spec) noexcept; friend constexpr month_day_last operator/(last_spec, int __m) noexcept; }; inline constexpr last_spec last{}; namespace __detail { // Helper to __add_modulo and __sub_modulo. template consteval auto __modulo_offset() { using _Up = make_unsigned_t<_Tp>; auto constexpr __a = _Up(-1) - _Up(255 + __d - 2); auto constexpr __b = _Up(__d * (__a / __d) - 1); // Notice: b <= a - 1 <= _Up(-1) - (255 + d - 1) and b % d = d - 1. return _Up(-1) - __b; // >= 255 + d - 1 } // Compute the remainder of the Euclidean division of __x + __y divided by // __d without overflowing. Typically, __x <= 255 + d - 1 is sum of // weekday/month with a shift in [0, d - 1] and __y is a duration count. template constexpr unsigned __add_modulo(unsigned __x, _Tp __y) { using _Up = make_unsigned_t<_Tp>; // For __y >= 0, _Up(__y) has the same mathematical value as __y and // this function simply returns (__x + _Up(__y)) % d. Typically, this // doesn't overflow since the range of _Up contains many more positive // values than _Tp's. For __y < 0, _Up(__y) has a mathematical value in // the upper-half range of _Up so that adding a positive value to it // might overflow. Moreover, most likely, _Up(__y) != __y mod d. To // fix both issues we subtract from _Up(__y) an __offset >= // 255 + d - 1 to make room for the addition to __x and shift the modulo // to the correct value. auto const __offset = __y >= 0 ? _Up(0) : __modulo_offset<__d, _Tp>(); return (__x + _Up(__y) - __offset) % __d; } // Similar to __add_modulo but for __x - __y. template constexpr unsigned __sub_modulo(unsigned __x, _Tp __y) { using _Up = make_unsigned_t<_Tp>; auto const __offset = __y <= 0 ? _Up(0) : __modulo_offset<__d, _Tp>(); return (__x - _Up(__y) - __offset) % __d; } inline constexpr unsigned __days_per_month[12] = { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; } // DAY class day { private: unsigned char _M_d; public: day() = default; explicit constexpr day(unsigned __d) noexcept : _M_d(__d) { } constexpr day& operator++() noexcept { ++_M_d; return *this; } constexpr day operator++(int) noexcept { auto __ret = *this; ++(*this); return __ret; } constexpr day& operator--() noexcept { --_M_d; return *this; } constexpr day operator--(int) noexcept { auto __ret = *this; --(*this); return __ret; } constexpr day& operator+=(const days& __d) noexcept { *this = *this + __d; return *this; } constexpr day& operator-=(const days& __d) noexcept { *this = *this - __d; return *this; } constexpr explicit operator unsigned() const noexcept { return _M_d; } constexpr bool ok() const noexcept { return 1 <= _M_d && _M_d <= 31; } friend constexpr bool operator==(const day& __x, const day& __y) noexcept { return unsigned{__x} == unsigned{__y}; } friend constexpr strong_ordering operator<=>(const day& __x, const day& __y) noexcept { return unsigned{__x} <=> unsigned{__y}; } friend constexpr day operator+(const day& __x, const days& __y) noexcept { return day(unsigned{__x} + __y.count()); } friend constexpr day operator+(const days& __x, const day& __y) noexcept { return __y + __x; } friend constexpr day operator-(const day& __x, const days& __y) noexcept { return __x + -__y; } friend constexpr days operator-(const day& __x, const day& __y) noexcept { return days{int(unsigned{__x}) - int(unsigned{__y})}; } friend constexpr month_day operator/(const month& __m, const day& __d) noexcept; friend constexpr month_day operator/(int __m, const day& __d) noexcept; friend constexpr month_day operator/(const day& __d, const month& __m) noexcept; friend constexpr month_day operator/(const day& __d, int __m) noexcept; friend constexpr year_month_day operator/(const year_month& __ym, const day& __d) noexcept; }; // MONTH class month { private: unsigned char _M_m; public: month() = default; explicit constexpr month(unsigned __m) noexcept : _M_m(__m) { } constexpr month& operator++() noexcept { *this += months{1}; return *this; } constexpr month operator++(int) noexcept { auto __ret = *this; ++(*this); return __ret; } constexpr month& operator--() noexcept { *this -= months{1}; return *this; } constexpr month operator--(int) noexcept { auto __ret = *this; --(*this); return __ret; } constexpr month& operator+=(const months& __m) noexcept { *this = *this + __m; return *this; } constexpr month& operator-=(const months& __m) noexcept { *this = *this - __m; return *this; } explicit constexpr operator unsigned() const noexcept { return _M_m; } constexpr bool ok() const noexcept { return 1 <= _M_m && _M_m <= 12; } friend constexpr bool operator==(const month& __x, const month& __y) noexcept { return unsigned{__x} == unsigned{__y}; } friend constexpr strong_ordering operator<=>(const month& __x, const month& __y) noexcept { return unsigned{__x} <=> unsigned{__y}; } friend constexpr month operator+(const month& __x, const months& __y) noexcept { // modulo(x + (y - 1), 12) = modulo(x + (y - 1) + 12, 12) // = modulo((x + 11) + y , 12) return month{1 + __detail::__add_modulo<12>( unsigned{__x} + 11, __y.count())}; } friend constexpr month operator+(const months& __x, const month& __y) noexcept { return __y + __x; } friend constexpr month operator-(const month& __x, const months& __y) noexcept { // modulo(x + (-y - 1), 12) = modulo(x + (-y - 1) + 12, 12) // = modulo((x + 11) - y , 12) return month{1 + __detail::__sub_modulo<12>( unsigned{__x} + 11, __y.count())}; } friend constexpr months operator-(const month& __x, const month& __y) noexcept { const auto __dm = int(unsigned(__x)) - int(unsigned(__y)); return months{__dm < 0 ? 12 + __dm : __dm}; } friend constexpr year_month operator/(const year& __y, const month& __m) noexcept; friend constexpr month_day operator/(const month& __m, int __d) noexcept; friend constexpr month_day_last operator/(const month& __m, last_spec) noexcept; friend constexpr month_day_last operator/(last_spec, const month& __m) noexcept; friend constexpr month_weekday operator/(const month& __m, const weekday_indexed& __wdi) noexcept; friend constexpr month_weekday operator/(const weekday_indexed& __wdi, const month& __m) noexcept; friend constexpr month_weekday_last operator/(const month& __m, const weekday_last& __wdl) noexcept; friend constexpr month_weekday_last operator/(const weekday_last& __wdl, const month& __m) noexcept; }; inline constexpr month January{1}; inline constexpr month February{2}; inline constexpr month March{3}; inline constexpr month April{4}; inline constexpr month May{5}; inline constexpr month June{6}; inline constexpr month July{7}; inline constexpr month August{8}; inline constexpr month September{9}; inline constexpr month October{10}; inline constexpr month November{11}; inline constexpr month December{12}; // YEAR class year { private: short _M_y; public: year() = default; explicit constexpr year(int __y) noexcept : _M_y{static_cast(__y)} { } static constexpr year min() noexcept { return year{-32767}; } static constexpr year max() noexcept { return year{32767}; } constexpr year& operator++() noexcept { ++_M_y; return *this; } constexpr year operator++(int) noexcept { auto __ret = *this; ++(*this); return __ret; } constexpr year& operator--() noexcept { --_M_y; return *this; } constexpr year operator--(int) noexcept { auto __ret = *this; --(*this); return __ret; } constexpr year& operator+=(const years& __y) noexcept { *this = *this + __y; return *this; } constexpr year& operator-=(const years& __y) noexcept { *this = *this - __y; return *this; } constexpr year operator+() const noexcept { return *this; } constexpr year operator-() const noexcept { return year{-_M_y}; } constexpr bool is_leap() const noexcept { // Testing divisibility by 100 first gives better performance [1], i.e., // return _M_y % 100 == 0 ? _M_y % 400 == 0 : _M_y % 16 == 0; // Furthermore, if _M_y % 100 == 0, then _M_y % 400 == 0 is equivalent // to _M_y % 16 == 0, so we can simplify it to // return _M_y % 100 == 0 ? _M_y % 16 == 0 : _M_y % 4 == 0. // #1 // Similarly, we can replace 100 with 25 (which is good since // _M_y % 25 == 0 requires one fewer instruction than _M_y % 100 == 0 // [2]): // return _M_y % 25 == 0 ? _M_y % 16 == 0 : _M_y % 4 == 0. // #2 // Indeed, first assume _M_y % 4 != 0. Then _M_y % 16 != 0 and hence, // _M_y % 4 == 0 and _M_y % 16 == 0 are both false. Therefore, #2 // returns false as it should (regardless of _M_y % 25.) Now assume // _M_y % 4 == 0. In this case, _M_y % 25 == 0 if, and only if, // _M_y % 100 == 0, that is, #1 and #2 are equivalent. Finally, #2 is // equivalent to // return (_M_y & (_M_y % 25 == 0 ? 15 : 3)) == 0. // References: // [1] https://github.com/cassioneri/calendar // [2] https://godbolt.org/z/55G8rn77e // [3] https://gcc.gnu.org/pipermail/libstdc++/2021-June/052815.html return (_M_y & (_M_y % 25 == 0 ? 15 : 3)) == 0; } explicit constexpr operator int() const noexcept { return _M_y; } constexpr bool ok() const noexcept { return min()._M_y <= _M_y && _M_y <= max()._M_y; } friend constexpr bool operator==(const year& __x, const year& __y) noexcept { return int{__x} == int{__y}; } friend constexpr strong_ordering operator<=>(const year& __x, const year& __y) noexcept { return int{__x} <=> int{__y}; } friend constexpr year operator+(const year& __x, const years& __y) noexcept { return year{int{__x} + static_cast(__y.count())}; } friend constexpr year operator+(const years& __x, const year& __y) noexcept { return __y + __x; } friend constexpr year operator-(const year& __x, const years& __y) noexcept { return __x + -__y; } friend constexpr years operator-(const year& __x, const year& __y) noexcept { return years{int{__x} - int{__y}}; } friend constexpr year_month operator/(const year& __y, int __m) noexcept; friend constexpr year_month_day operator/(const year& __y, const month_day& __md) noexcept; friend constexpr year_month_day operator/(const month_day& __md, const year& __y) noexcept; friend constexpr year_month_day_last operator/(const year& __y, const month_day_last& __mdl) noexcept; friend constexpr year_month_day_last operator/(const month_day_last& __mdl, const year& __y) noexcept; friend constexpr year_month_weekday operator/(const year& __y, const month_weekday& __mwd) noexcept; friend constexpr year_month_weekday operator/(const month_weekday& __mwd, const year& __y) noexcept; friend constexpr year_month_weekday_last operator/(const year& __y, const month_weekday_last& __mwdl) noexcept; friend constexpr year_month_weekday_last operator/(const month_weekday_last& __mwdl, const year& __y) noexcept; }; // WEEKDAY class weekday { private: unsigned char _M_wd; static constexpr weekday _S_from_days(const days& __d) { return weekday{__detail::__add_modulo<7>(4, __d.count())}; } public: weekday() = default; explicit constexpr weekday(unsigned __wd) noexcept : _M_wd(__wd == 7 ? 0 : __wd) // __wd % 7 ? { } constexpr weekday(const sys_days& __dp) noexcept : weekday{_S_from_days(__dp.time_since_epoch())} { } explicit constexpr weekday(const local_days& __dp) noexcept : weekday{sys_days{__dp.time_since_epoch()}} { } constexpr weekday& operator++() noexcept { *this += days{1}; return *this; } constexpr weekday operator++(int) noexcept { auto __ret = *this; ++(*this); return __ret; } constexpr weekday& operator--() noexcept { *this -= days{1}; return *this; } constexpr weekday operator--(int) noexcept { auto __ret = *this; --(*this); return __ret; } constexpr weekday& operator+=(const days& __d) noexcept { *this = *this + __d; return *this; } constexpr weekday& operator-=(const days& __d) noexcept { *this = *this - __d; return *this; } constexpr unsigned c_encoding() const noexcept { return _M_wd; } constexpr unsigned iso_encoding() const noexcept { return _M_wd == 0u ? 7u : _M_wd; } constexpr bool ok() const noexcept { return _M_wd <= 6; } constexpr weekday_indexed operator[](unsigned __index) const noexcept; constexpr weekday_last operator[](last_spec) const noexcept; friend constexpr bool operator==(const weekday& __x, const weekday& __y) noexcept { return __x._M_wd == __y._M_wd; } friend constexpr weekday operator+(const weekday& __x, const days& __y) noexcept { return weekday{__detail::__add_modulo<7>(__x._M_wd, __y.count())}; } friend constexpr weekday operator+(const days& __x, const weekday& __y) noexcept { return __y + __x; } friend constexpr weekday operator-(const weekday& __x, const days& __y) noexcept { return weekday{__detail::__sub_modulo<7>(__x._M_wd, __y.count())}; } friend constexpr days operator-(const weekday& __x, const weekday& __y) noexcept { const auto __n = __x.c_encoding() - __y.c_encoding(); return static_cast(__n) >= 0 ? days{__n} : days{__n + 7}; } }; inline constexpr weekday Sunday{0}; inline constexpr weekday Monday{1}; inline constexpr weekday Tuesday{2}; inline constexpr weekday Wednesday{3}; inline constexpr weekday Thursday{4}; inline constexpr weekday Friday{5}; inline constexpr weekday Saturday{6}; // WEEKDAY_INDEXED class weekday_indexed { private: chrono::weekday _M_wd; unsigned char _M_index; public: weekday_indexed() = default; constexpr weekday_indexed(const chrono::weekday& __wd, unsigned __index) noexcept : _M_wd(__wd), _M_index(__index) { } constexpr chrono::weekday weekday() const noexcept { return _M_wd; } constexpr unsigned index() const noexcept { return _M_index; }; constexpr bool ok() const noexcept { return _M_wd.ok() && 1 <= _M_index && _M_index <= 5; } friend constexpr bool operator==(const weekday_indexed& __x, const weekday_indexed& __y) noexcept { return __x.weekday() == __y.weekday() && __x.index() == __y.index(); } friend constexpr month_weekday operator/(const month& __m, const weekday_indexed& __wdi) noexcept; friend constexpr month_weekday operator/(int __m, const weekday_indexed& __wdi) noexcept; friend constexpr month_weekday operator/(const weekday_indexed& __wdi, const month& __m) noexcept; friend constexpr month_weekday operator/(const weekday_indexed& __wdi, int __m) noexcept; friend constexpr year_month_weekday operator/(const year_month& __ym, const weekday_indexed& __wdi) noexcept; }; constexpr weekday_indexed weekday::operator[](unsigned __index) const noexcept { return {*this, __index}; } // WEEKDAY_LAST class weekday_last { private: chrono::weekday _M_wd; public: explicit constexpr weekday_last(const chrono::weekday& __wd) noexcept : _M_wd{__wd} { } constexpr chrono::weekday weekday() const noexcept { return _M_wd; } constexpr bool ok() const noexcept { return _M_wd.ok(); } friend constexpr bool operator==(const weekday_last& __x, const weekday_last& __y) noexcept { return __x.weekday() == __y.weekday(); } friend constexpr month_weekday_last operator/(int __m, const weekday_last& __wdl) noexcept; friend constexpr month_weekday_last operator/(const weekday_last& __wdl, int __m) noexcept; friend constexpr year_month_weekday_last operator/(const year_month& __ym, const weekday_last& __wdl) noexcept; }; constexpr weekday_last weekday::operator[](last_spec) const noexcept { return weekday_last{*this}; } // MONTH_DAY class month_day { private: chrono::month _M_m; chrono::day _M_d; public: month_day() = default; constexpr month_day(const chrono::month& __m, const chrono::day& __d) noexcept : _M_m{__m}, _M_d{__d} { } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::day day() const noexcept { return _M_d; } constexpr bool ok() const noexcept { return _M_m.ok() && 1u <= unsigned(_M_d) && unsigned(_M_d) <= __detail::__days_per_month[unsigned(_M_m) - 1]; } friend constexpr bool operator==(const month_day& __x, const month_day& __y) noexcept { return __x.month() == __y.month() && __x.day() == __y.day(); } friend constexpr strong_ordering operator<=>(const month_day& __x, const month_day& __y) noexcept = default; friend constexpr month_day operator/(const chrono::month& __m, const chrono::day& __d) noexcept { return {__m, __d}; } friend constexpr month_day operator/(const chrono::month& __m, int __d) noexcept { return {__m, chrono::day(unsigned(__d))}; } friend constexpr month_day operator/(int __m, const chrono::day& __d) noexcept { return {chrono::month(unsigned(__m)), __d}; } friend constexpr month_day operator/(const chrono::day& __d, const chrono::month& __m) noexcept { return {__m, __d}; } friend constexpr month_day operator/(const chrono::day& __d, int __m) noexcept { return {chrono::month(unsigned(__m)), __d}; } friend constexpr year_month_day operator/(int __y, const month_day& __md) noexcept; friend constexpr year_month_day operator/(const month_day& __md, int __y) noexcept; }; // MONTH_DAY_LAST class month_day_last { private: chrono::month _M_m; public: explicit constexpr month_day_last(const chrono::month& __m) noexcept : _M_m{__m} { } constexpr chrono::month month() const noexcept { return _M_m; } constexpr bool ok() const noexcept { return _M_m.ok(); } friend constexpr bool operator==(const month_day_last& __x, const month_day_last& __y) noexcept { return __x.month() == __y.month(); } friend constexpr strong_ordering operator<=>(const month_day_last& __x, const month_day_last& __y) noexcept = default; friend constexpr month_day_last operator/(const chrono::month& __m, last_spec) noexcept { return month_day_last{__m}; } friend constexpr month_day_last operator/(int __m, last_spec) noexcept { return chrono::month(unsigned(__m)) / last; } friend constexpr month_day_last operator/(last_spec, const chrono::month& __m) noexcept { return __m / last; } friend constexpr month_day_last operator/(last_spec, int __m) noexcept { return __m / last; } friend constexpr year_month_day_last operator/(int __y, const month_day_last& __mdl) noexcept; friend constexpr year_month_day_last operator/(const month_day_last& __mdl, int __y) noexcept; }; // MONTH_WEEKDAY class month_weekday { private: chrono::month _M_m; chrono::weekday_indexed _M_wdi; public: constexpr month_weekday(const chrono::month& __m, const chrono::weekday_indexed& __wdi) noexcept : _M_m{__m}, _M_wdi{__wdi} { } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::weekday_indexed weekday_indexed() const noexcept { return _M_wdi; } constexpr bool ok() const noexcept { return _M_m.ok() && _M_wdi.ok(); } friend constexpr bool operator==(const month_weekday& __x, const month_weekday& __y) noexcept { return __x.month() == __y.month() && __x.weekday_indexed() == __y.weekday_indexed(); } friend constexpr month_weekday operator/(const chrono::month& __m, const chrono::weekday_indexed& __wdi) noexcept { return {__m, __wdi}; } friend constexpr month_weekday operator/(int __m, const chrono::weekday_indexed& __wdi) noexcept { return chrono::month(unsigned(__m)) / __wdi; } friend constexpr month_weekday operator/(const chrono::weekday_indexed& __wdi, const chrono::month& __m) noexcept { return __m / __wdi; } friend constexpr month_weekday operator/(const chrono::weekday_indexed& __wdi, int __m) noexcept { return __m / __wdi; } friend constexpr year_month_weekday operator/(int __y, const month_weekday& __mwd) noexcept; friend constexpr year_month_weekday operator/(const month_weekday& __mwd, int __y) noexcept; }; // MONTH_WEEKDAY_LAST class month_weekday_last { private: chrono::month _M_m; chrono::weekday_last _M_wdl; public: constexpr month_weekday_last(const chrono::month& __m, const chrono::weekday_last& __wdl) noexcept :_M_m{__m}, _M_wdl{__wdl} { } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::weekday_last weekday_last() const noexcept { return _M_wdl; } constexpr bool ok() const noexcept { return _M_m.ok() && _M_wdl.ok(); } friend constexpr bool operator==(const month_weekday_last& __x, const month_weekday_last& __y) noexcept { return __x.month() == __y.month() && __x.weekday_last() == __y.weekday_last(); } friend constexpr month_weekday_last operator/(const chrono::month& __m, const chrono::weekday_last& __wdl) noexcept { return {__m, __wdl}; } friend constexpr month_weekday_last operator/(int __m, const chrono::weekday_last& __wdl) noexcept { return chrono::month(unsigned(__m)) / __wdl; } friend constexpr month_weekday_last operator/(const chrono::weekday_last& __wdl, const chrono::month& __m) noexcept { return __m / __wdl; } friend constexpr month_weekday_last operator/(const chrono::weekday_last& __wdl, int __m) noexcept { return chrono::month(unsigned(__m)) / __wdl; } friend constexpr year_month_weekday_last operator/(int __y, const month_weekday_last& __mwdl) noexcept; friend constexpr year_month_weekday_last operator/(const month_weekday_last& __mwdl, int __y) noexcept; }; // YEAR_MONTH namespace __detail { // [time.cal.ym], [time.cal.ymd], etc constrain the 'months'-based // addition/subtraction operator overloads like so: // // Constraints: if the argument supplied by the caller for the months // parameter is convertible to years, its implicit conversion sequence // to years is worse than its implicit conversion sequence to months. // // We realize this constraint by templatizing the 'months'-based // overloads (using a dummy defaulted template parameter), so that // overload resolution doesn't select the 'months'-based overload unless // the implicit conversion sequence to 'months' is better than that to // 'years'. using __months_years_conversion_disambiguator = void; } class year_month { private: chrono::year _M_y; chrono::month _M_m; public: year_month() = default; constexpr year_month(const chrono::year& __y, const chrono::month& __m) noexcept : _M_y{__y}, _M_m{__m} { } constexpr chrono::year year() const noexcept { return _M_y; } constexpr chrono::month month() const noexcept { return _M_m; } template constexpr year_month& operator+=(const months& __dm) noexcept { *this = *this + __dm; return *this; } template constexpr year_month& operator-=(const months& __dm) noexcept { *this = *this - __dm; return *this; } constexpr year_month& operator+=(const years& __dy) noexcept { *this = *this + __dy; return *this; } constexpr year_month& operator-=(const years& __dy) noexcept { *this = *this - __dy; return *this; } constexpr bool ok() const noexcept { return _M_y.ok() && _M_m.ok(); } friend constexpr bool operator==(const year_month& __x, const year_month& __y) noexcept { return __x.year() == __y.year() && __x.month() == __y.month(); } friend constexpr strong_ordering operator<=>(const year_month& __x, const year_month& __y) noexcept = default; template friend constexpr year_month operator+(const year_month& __ym, const months& __dm) noexcept { // TODO: Optimize? auto __m = __ym.month() + __dm; auto __i = int(unsigned(__ym.month())) - 1 + __dm.count(); auto __y = (__i < 0 ? __ym.year() + years{(__i - 11) / 12} : __ym.year() + years{__i / 12}); return __y / __m; } template friend constexpr year_month operator+(const months& __dm, const year_month& __ym) noexcept { return __ym + __dm; } template friend constexpr year_month operator-(const year_month& __ym, const months& __dm) noexcept { return __ym + -__dm; } friend constexpr months operator-(const year_month& __x, const year_month& __y) noexcept { return (__x.year() - __y.year() + months{static_cast(unsigned{__x.month()}) - static_cast(unsigned{__y.month()})}); } friend constexpr year_month operator+(const year_month& __ym, const years& __dy) noexcept { return (__ym.year() + __dy) / __ym.month(); } friend constexpr year_month operator+(const years& __dy, const year_month& __ym) noexcept { return __ym + __dy; } friend constexpr year_month operator-(const year_month& __ym, const years& __dy) noexcept { return __ym + -__dy; } friend constexpr year_month operator/(const chrono::year& __y, const chrono::month& __m) noexcept { return {__y, __m}; } friend constexpr year_month operator/(const chrono::year& __y, int __m) noexcept { return {__y, chrono::month(unsigned(__m))}; } friend constexpr year_month_day operator/(const year_month& __ym, int __d) noexcept; friend constexpr year_month_day_last operator/(const year_month& __ym, last_spec) noexcept; }; // YEAR_MONTH_DAY class year_month_day { private: chrono::year _M_y; chrono::month _M_m; chrono::day _M_d; static constexpr year_month_day _S_from_days(const days& __dp) noexcept; constexpr days _M_days_since_epoch() const noexcept; public: year_month_day() = default; constexpr year_month_day(const chrono::year& __y, const chrono::month& __m, const chrono::day& __d) noexcept : _M_y{__y}, _M_m{__m}, _M_d{__d} { } constexpr year_month_day(const year_month_day_last& __ymdl) noexcept; constexpr year_month_day(const sys_days& __dp) noexcept : year_month_day(_S_from_days(__dp.time_since_epoch())) { } explicit constexpr year_month_day(const local_days& __dp) noexcept : year_month_day(sys_days{__dp.time_since_epoch()}) { } template constexpr year_month_day& operator+=(const months& __m) noexcept { *this = *this + __m; return *this; } template constexpr year_month_day& operator-=(const months& __m) noexcept { *this = *this - __m; return *this; } constexpr year_month_day& operator+=(const years& __y) noexcept { *this = *this + __y; return *this; } constexpr year_month_day& operator-=(const years& __y) noexcept { *this = *this - __y; return *this; } constexpr chrono::year year() const noexcept { return _M_y; } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::day day() const noexcept { return _M_d; } constexpr operator sys_days() const noexcept { return sys_days{_M_days_since_epoch()}; } explicit constexpr operator local_days() const noexcept { return local_days{sys_days{*this}.time_since_epoch()}; } constexpr bool ok() const noexcept; friend constexpr bool operator==(const year_month_day& __x, const year_month_day& __y) noexcept { return __x.year() == __y.year() && __x.month() == __y.month() && __x.day() == __y.day(); } friend constexpr strong_ordering operator<=>(const year_month_day& __x, const year_month_day& __y) noexcept = default; template friend constexpr year_month_day operator+(const year_month_day& __ymd, const months& __dm) noexcept { return (__ymd.year() / __ymd.month() + __dm) / __ymd.day(); } template friend constexpr year_month_day operator+(const months& __dm, const year_month_day& __ymd) noexcept { return __ymd + __dm; } friend constexpr year_month_day operator+(const year_month_day& __ymd, const years& __dy) noexcept { return (__ymd.year() + __dy) / __ymd.month() / __ymd.day(); } friend constexpr year_month_day operator+(const years& __dy, const year_month_day& __ymd) noexcept { return __ymd + __dy; } template friend constexpr year_month_day operator-(const year_month_day& __ymd, const months& __dm) noexcept { return __ymd + -__dm; } friend constexpr year_month_day operator-(const year_month_day& __ymd, const years& __dy) noexcept { return __ymd + -__dy; } friend constexpr year_month_day operator/(const year_month& __ym, const chrono::day& __d) noexcept { return {__ym.year(), __ym.month(), __d}; } friend constexpr year_month_day operator/(const year_month& __ym, int __d) noexcept { return __ym / chrono::day{unsigned(__d)}; } friend constexpr year_month_day operator/(const chrono::year& __y, const month_day& __md) noexcept { return __y / __md.month() / __md.day(); } friend constexpr year_month_day operator/(int __y, const month_day& __md) noexcept { return chrono::year{__y} / __md; } friend constexpr year_month_day operator/(const month_day& __md, const chrono::year& __y) noexcept { return __y / __md; } friend constexpr year_month_day operator/(const month_day& __md, int __y) noexcept { return chrono::year(__y) / __md; } }; // Construct from days since 1970/01/01. // Proposition 6.3 of Neri and Schneider, // "Euclidean Affine Functions and Applications to Calendar Algorithms". // https://arxiv.org/abs/2102.06959 constexpr year_month_day year_month_day::_S_from_days(const days& __dp) noexcept { constexpr auto __z2 = static_cast(-1468000); constexpr auto __r2_e3 = static_cast(536895458); const auto __r0 = static_cast(__dp.count()) + __r2_e3; const auto __n1 = 4 * __r0 + 3; const auto __q1 = __n1 / 146097; const auto __r1 = __n1 % 146097 / 4; constexpr auto __p32 = static_cast(1) << 32; const auto __n2 = 4 * __r1 + 3; const auto __u2 = static_cast(2939745) * __n2; const auto __q2 = static_cast(__u2 / __p32); const auto __r2 = static_cast(__u2 % __p32) / 2939745 / 4; constexpr auto __p16 = static_cast(1) << 16; const auto __n3 = 2141 * __r2 + 197913; const auto __q3 = __n3 / __p16; const auto __r3 = __n3 % __p16 / 2141; const auto __y0 = 100 * __q1 + __q2; const auto __m0 = __q3; const auto __d0 = __r3; const auto __j = __r2 >= 306; const auto __y1 = __y0 + __j; const auto __m1 = __j ? __m0 - 12 : __m0; const auto __d1 = __d0 + 1; return year_month_day{chrono::year{static_cast(__y1 + __z2)}, chrono::month{__m1}, chrono::day{__d1}}; } // Days since 1970/01/01. // Proposition 6.2 of Neri and Schneider, // "Euclidean Affine Functions and Applications to Calendar Algorithms". // https://arxiv.org/abs/2102.06959 constexpr days year_month_day::_M_days_since_epoch() const noexcept { auto constexpr __z2 = static_cast(-1468000); auto constexpr __r2_e3 = static_cast(536895458); const auto __y1 = static_cast(static_cast(_M_y)) - __z2; const auto __m1 = static_cast(static_cast(_M_m)); const auto __d1 = static_cast(static_cast(_M_d)); const auto __j = static_cast(__m1 < 3); const auto __y0 = __y1 - __j; const auto __m0 = __j ? __m1 + 12 : __m1; const auto __d0 = __d1 - 1; const auto __q1 = __y0 / 100; const auto __yc = 1461 * __y0 / 4 - __q1 + __q1 / 4; const auto __mc = (979 *__m0 - 2919) / 32; const auto __dc = __d0; return days{static_cast(__yc + __mc + __dc - __r2_e3)}; } // YEAR_MONTH_DAY_LAST class year_month_day_last { private: chrono::year _M_y; chrono::month_day_last _M_mdl; public: constexpr year_month_day_last(const chrono::year& __y, const chrono::month_day_last& __mdl) noexcept : _M_y{__y}, _M_mdl{__mdl} { } template constexpr year_month_day_last& operator+=(const months& __m) noexcept { *this = *this + __m; return *this; } template constexpr year_month_day_last& operator-=(const months& __m) noexcept { *this = *this - __m; return *this; } constexpr year_month_day_last& operator+=(const years& __y) noexcept { *this = *this + __y; return *this; } constexpr year_month_day_last& operator-=(const years& __y) noexcept { *this = *this - __y; return *this; } constexpr chrono::year year() const noexcept { return _M_y; } constexpr chrono::month month() const noexcept { return _M_mdl.month(); } constexpr chrono::month_day_last month_day_last() const noexcept { return _M_mdl; } // Return A day representing the last day of this year, month pair. constexpr chrono::day day() const noexcept { const auto __m = static_cast(month()); // The result is unspecified if __m < 1 or __m > 12. Hence, assume // 1 <= __m <= 12. For __m != 2, day() == 30 or day() == 31 or, in // other words, day () == 30 | b, where b is in {0, 1}. // If __m in {1, 3, 4, 5, 6, 7}, then b is 1 if, and only if, __m is // odd. Hence, b = __m & 1 = (__m ^ 0) & 1. // If __m in {8, 9, 10, 11, 12}, then b is 1 if, and only if, __m is // even. Hence, b = (__m ^ 1) & 1. // Therefore, b = (__m ^ c) & 1, where c = 0, if __m < 8, or c = 1 if // __m >= 8, that is, c = __m >> 3. // Since 30 = (11110)_2 and __m <= 31 = (11111)_2, the "& 1" in b's // calculation is unnecessary. // The performance of this implementation does not depend on look-up // tables being on the L1 cache. return chrono::day{__m != 2 ? (__m ^ (__m >> 3)) | 30 : _M_y.is_leap() ? 29 : 28}; } constexpr operator sys_days() const noexcept { return sys_days{year() / month() / day()}; } explicit constexpr operator local_days() const noexcept { return local_days{sys_days{*this}.time_since_epoch()}; } constexpr bool ok() const noexcept { return _M_y.ok() && _M_mdl.ok(); } friend constexpr bool operator==(const year_month_day_last& __x, const year_month_day_last& __y) noexcept { return __x.year() == __y.year() && __x.month_day_last() == __y.month_day_last(); } friend constexpr strong_ordering operator<=>(const year_month_day_last& __x, const year_month_day_last& __y) noexcept = default; template friend constexpr year_month_day_last operator+(const year_month_day_last& __ymdl, const months& __dm) noexcept { return (__ymdl.year() / __ymdl.month() + __dm) / last; } template friend constexpr year_month_day_last operator+(const months& __dm, const year_month_day_last& __ymdl) noexcept { return __ymdl + __dm; } template friend constexpr year_month_day_last operator-(const year_month_day_last& __ymdl, const months& __dm) noexcept { return __ymdl + -__dm; } friend constexpr year_month_day_last operator+(const year_month_day_last& __ymdl, const years& __dy) noexcept { return {__ymdl.year() + __dy, __ymdl.month_day_last()}; } friend constexpr year_month_day_last operator+(const years& __dy, const year_month_day_last& __ymdl) noexcept { return __ymdl + __dy; } friend constexpr year_month_day_last operator-(const year_month_day_last& __ymdl, const years& __dy) noexcept { return __ymdl + -__dy; } friend constexpr year_month_day_last operator/(const year_month& __ym, last_spec) noexcept { return {__ym.year(), chrono::month_day_last{__ym.month()}}; } friend constexpr year_month_day_last operator/(const chrono::year& __y, const chrono::month_day_last& __mdl) noexcept { return {__y, __mdl}; } friend constexpr year_month_day_last operator/(int __y, const chrono::month_day_last& __mdl) noexcept { return chrono::year(__y) / __mdl; } friend constexpr year_month_day_last operator/(const chrono::month_day_last& __mdl, const chrono::year& __y) noexcept { return __y / __mdl; } friend constexpr year_month_day_last operator/(const chrono::month_day_last& __mdl, int __y) noexcept { return chrono::year(__y) / __mdl; } }; // year_month_day ctor from year_month_day_last constexpr year_month_day::year_month_day(const year_month_day_last& __ymdl) noexcept : _M_y{__ymdl.year()}, _M_m{__ymdl.month()}, _M_d{__ymdl.day()} { } constexpr bool year_month_day::ok() const noexcept { if (!_M_y.ok() || !_M_m.ok()) return false; return chrono::day{1} <= _M_d && _M_d <= (_M_y / _M_m / last).day(); } // YEAR_MONTH_WEEKDAY class year_month_weekday { private: chrono::year _M_y; chrono::month _M_m; chrono::weekday_indexed _M_wdi; static constexpr year_month_weekday _S_from_sys_days(const sys_days& __dp) { year_month_day __ymd{__dp}; chrono::weekday __wd{__dp}; auto __index = __wd[(unsigned{__ymd.day()} - 1) / 7 + 1]; return {__ymd.year(), __ymd.month(), __index}; } public: year_month_weekday() = default; constexpr year_month_weekday(const chrono::year& __y, const chrono::month& __m, const chrono::weekday_indexed& __wdi) noexcept : _M_y{__y}, _M_m{__m}, _M_wdi{__wdi} { } constexpr year_month_weekday(const sys_days& __dp) noexcept : year_month_weekday{_S_from_sys_days(__dp)} { } explicit constexpr year_month_weekday(const local_days& __dp) noexcept : year_month_weekday{sys_days{__dp.time_since_epoch()}} { } template constexpr year_month_weekday& operator+=(const months& __m) noexcept { *this = *this + __m; return *this; } template constexpr year_month_weekday& operator-=(const months& __m) noexcept { *this = *this - __m; return *this; } constexpr year_month_weekday& operator+=(const years& __y) noexcept { *this = *this + __y; return *this; } constexpr year_month_weekday& operator-=(const years& __y) noexcept { *this = *this - __y; return *this; } constexpr chrono::year year() const noexcept { return _M_y; } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::weekday weekday() const noexcept { return _M_wdi.weekday(); } constexpr unsigned index() const noexcept { return _M_wdi.index(); } constexpr chrono::weekday_indexed weekday_indexed() const noexcept { return _M_wdi; } constexpr operator sys_days() const noexcept { auto __d = sys_days{year() / month() / 1}; return __d + (weekday() - chrono::weekday(__d) + days{(static_cast(index())-1)*7}); } explicit constexpr operator local_days() const noexcept { return local_days{sys_days{*this}.time_since_epoch()}; } constexpr bool ok() const noexcept { if (!_M_y.ok() || !_M_m.ok() || !_M_wdi.ok()) return false; if (_M_wdi.index() <= 4) return true; days __d = (_M_wdi.weekday() - chrono::weekday{sys_days{_M_y / _M_m / 1}} + days((_M_wdi.index()-1)*7 + 1)); __glibcxx_assert(__d.count() >= 1); return (unsigned)__d.count() <= (unsigned)(_M_y / _M_m / last).day(); } friend constexpr bool operator==(const year_month_weekday& __x, const year_month_weekday& __y) noexcept { return __x.year() == __y.year() && __x.month() == __y.month() && __x.weekday_indexed() == __y.weekday_indexed(); } template friend constexpr year_month_weekday operator+(const year_month_weekday& __ymwd, const months& __dm) noexcept { return ((__ymwd.year() / __ymwd.month() + __dm) / __ymwd.weekday_indexed()); } template friend constexpr year_month_weekday operator+(const months& __dm, const year_month_weekday& __ymwd) noexcept { return __ymwd + __dm; } friend constexpr year_month_weekday operator+(const year_month_weekday& __ymwd, const years& __dy) noexcept { return {__ymwd.year() + __dy, __ymwd.month(), __ymwd.weekday_indexed()}; } friend constexpr year_month_weekday operator+(const years& __dy, const year_month_weekday& __ymwd) noexcept { return __ymwd + __dy; } template friend constexpr year_month_weekday operator-(const year_month_weekday& __ymwd, const months& __dm) noexcept { return __ymwd + -__dm; } friend constexpr year_month_weekday operator-(const year_month_weekday& __ymwd, const years& __dy) noexcept { return __ymwd + -__dy; } friend constexpr year_month_weekday operator/(const year_month& __ym, const chrono::weekday_indexed& __wdi) noexcept { return {__ym.year(), __ym.month(), __wdi}; } friend constexpr year_month_weekday operator/(const chrono::year& __y, const month_weekday& __mwd) noexcept { return {__y, __mwd.month(), __mwd.weekday_indexed()}; } friend constexpr year_month_weekday operator/(int __y, const month_weekday& __mwd) noexcept { return chrono::year(__y) / __mwd; } friend constexpr year_month_weekday operator/(const month_weekday& __mwd, const chrono::year& __y) noexcept { return __y / __mwd; } friend constexpr year_month_weekday operator/(const month_weekday& __mwd, int __y) noexcept { return chrono::year(__y) / __mwd; } }; // YEAR_MONTH_WEEKDAY_LAST class year_month_weekday_last { private: chrono::year _M_y; chrono::month _M_m; chrono::weekday_last _M_wdl; public: constexpr year_month_weekday_last(const chrono::year& __y, const chrono::month& __m, const chrono::weekday_last& __wdl) noexcept : _M_y{__y}, _M_m{__m}, _M_wdl{__wdl} { } template constexpr year_month_weekday_last& operator+=(const months& __m) noexcept { *this = *this + __m; return *this; } template constexpr year_month_weekday_last& operator-=(const months& __m) noexcept { *this = *this - __m; return *this; } constexpr year_month_weekday_last& operator+=(const years& __y) noexcept { *this = *this + __y; return *this; } constexpr year_month_weekday_last& operator-=(const years& __y) noexcept { *this = *this - __y; return *this; } constexpr chrono::year year() const noexcept { return _M_y; } constexpr chrono::month month() const noexcept { return _M_m; } constexpr chrono::weekday weekday() const noexcept { return _M_wdl.weekday(); } constexpr chrono::weekday_last weekday_last() const noexcept { return _M_wdl; } constexpr operator sys_days() const noexcept { const auto __d = sys_days{_M_y / _M_m / last}; return sys_days{(__d - (chrono::weekday{__d} - _M_wdl.weekday())).time_since_epoch()}; } explicit constexpr operator local_days() const noexcept { return local_days{sys_days{*this}.time_since_epoch()}; } constexpr bool ok() const noexcept { return _M_y.ok() && _M_m.ok() && _M_wdl.ok(); } friend constexpr bool operator==(const year_month_weekday_last& __x, const year_month_weekday_last& __y) noexcept { return __x.year() == __y.year() && __x.month() == __y.month() && __x.weekday_last() == __y.weekday_last(); } template friend constexpr year_month_weekday_last operator+(const year_month_weekday_last& __ymwdl, const months& __dm) noexcept { return ((__ymwdl.year() / __ymwdl.month() + __dm) / __ymwdl.weekday_last()); } template friend constexpr year_month_weekday_last operator+(const months& __dm, const year_month_weekday_last& __ymwdl) noexcept { return __ymwdl + __dm; } friend constexpr year_month_weekday_last operator+(const year_month_weekday_last& __ymwdl, const years& __dy) noexcept { return {__ymwdl.year() + __dy, __ymwdl.month(), __ymwdl.weekday_last()}; } friend constexpr year_month_weekday_last operator+(const years& __dy, const year_month_weekday_last& __ymwdl) noexcept { return __ymwdl + __dy; } template friend constexpr year_month_weekday_last operator-(const year_month_weekday_last& __ymwdl, const months& __dm) noexcept { return __ymwdl + -__dm; } friend constexpr year_month_weekday_last operator-(const year_month_weekday_last& __ymwdl, const years& __dy) noexcept { return __ymwdl + -__dy; } friend constexpr year_month_weekday_last operator/(const year_month& __ym, const chrono::weekday_last& __wdl) noexcept { return {__ym.year(), __ym.month(), __wdl}; } friend constexpr year_month_weekday_last operator/(const chrono::year& __y, const chrono::month_weekday_last& __mwdl) noexcept { return {__y, __mwdl.month(), __mwdl.weekday_last()}; } friend constexpr year_month_weekday_last operator/(int __y, const chrono::month_weekday_last& __mwdl) noexcept { return chrono::year(__y) / __mwdl; } friend constexpr year_month_weekday_last operator/(const chrono::month_weekday_last& __mwdl, const chrono::year& __y) noexcept { return __y / __mwdl; } friend constexpr year_month_weekday_last operator/(const chrono::month_weekday_last& __mwdl, int __y) noexcept { return chrono::year(__y) / __mwdl; } }; // HH_MM_SS /// @cond undocumented namespace __detail { consteval long long __pow10(unsigned __n) { long long __r = 1; while (__n-- > 0) __r *= 10; return __r; } template struct __utc_leap_second; } /// @endcond /** Utility for splitting a duration into hours, minutes, and seconds * * This is a convenience type that provides accessors for the constituent * parts (hours, minutes, seconds and subseconds) of a duration. * * @since C++20 */ template class hh_mm_ss { static_assert( __is_duration<_Duration>::value ); private: static consteval int _S_fractional_width() { auto __den = _Duration::period::den; const int __multiplicity_2 = std::__countr_zero((uintmax_t)__den); __den >>= __multiplicity_2; int __multiplicity_5 = 0; while ((__den % 5) == 0) { ++__multiplicity_5; __den /= 5; } if (__den != 1) return 6; int __width = (__multiplicity_2 > __multiplicity_5 ? __multiplicity_2 : __multiplicity_5); if (__width > 18) __width = 18; return __width; } constexpr hh_mm_ss(_Duration __d, bool __is_neg) : _M_h (duration_cast(__d)), _M_m (duration_cast(__d - hours())), _M_s (duration_cast(__d - hours() - minutes())), _M_is_neg(__is_neg) { auto __ss = __d - hours() - minutes() - seconds(); if constexpr (treat_as_floating_point_v) _M_ss._M_r = __ss.count(); else if constexpr (precision::period::den != 1) _M_ss._M_r = duration_cast(__ss).count(); } static constexpr _Duration _S_abs(_Duration __d) { if constexpr (numeric_limits::is_signed) return chrono::abs(__d); else return __d; } public: static constexpr unsigned fractional_width = {_S_fractional_width()}; using precision = duration, ratio<1, __detail::__pow10(fractional_width)>>; constexpr hh_mm_ss() noexcept = default; constexpr explicit hh_mm_ss(_Duration __d) : hh_mm_ss(_S_abs(__d), __d < _Duration::zero()) { } constexpr bool is_negative() const noexcept { if constexpr (!_S_is_unsigned) return _M_is_neg; else return false; } constexpr chrono::hours hours() const noexcept { return _M_h; } constexpr chrono::minutes minutes() const noexcept { return _M_m; } constexpr chrono::seconds seconds() const noexcept { return _M_s; } constexpr precision subseconds() const noexcept { return static_cast(_M_ss); } constexpr explicit operator precision() const noexcept { return to_duration(); } constexpr precision to_duration() const noexcept { if constexpr (!_S_is_unsigned) if (_M_is_neg) return -(_M_h + _M_m + _M_s + subseconds()); return _M_h + _M_m + _M_s + subseconds(); } private: static constexpr bool _S_is_unsigned = __and_v, is_unsigned>; template using __byte_duration = duration; // The type of the _M_ss member that holds the subsecond precision. template struct __subseconds { typename _Dur::rep _M_r{}; constexpr explicit operator _Dur() const noexcept { return _Dur(_M_r); } }; // An empty class if this precision doesn't need subseconds. template requires (!treat_as_floating_point_v<_Rep>) struct __subseconds>> { constexpr explicit operator duration<_Rep, ratio<1>>() const noexcept { return {}; } }; // True if the maximum constructor argument can be represented in _Tp. template static constexpr bool __fits = duration_values::max() <= duration_values<_Tp>::max(); template requires (!treat_as_floating_point_v<_Rep>) && ratio_less_v<_Period, ratio<1, 1>> && (ratio_greater_equal_v<_Period, ratio<1, 250>> || __fits) struct __subseconds> { unsigned char _M_r{}; constexpr explicit operator duration<_Rep, _Period>() const noexcept { return duration<_Rep, _Period>(_M_r); } }; template requires (!treat_as_floating_point_v<_Rep>) && ratio_less_v<_Period, ratio<1, 250>> && (ratio_greater_equal_v<_Period, ratio<1, 4000000000>> || __fits) struct __subseconds> { uint_least32_t _M_r{}; constexpr explicit operator duration<_Rep, _Period>() const noexcept { return duration<_Rep, _Period>(_M_r); } }; chrono::hours _M_h{}; __byte_duration> _M_m{}; __byte_duration> _M_s{}; bool _M_is_neg{}; __subseconds _M_ss{}; template friend struct __detail::__utc_leap_second; }; /// @cond undocumented namespace __detail { // Represents a time that is within a leap second insertion. template struct __utc_leap_second { explicit __utc_leap_second(const sys_time<_Duration>& __s) : _M_date(chrono::floor(__s)), _M_time(__s - _M_date) { ++_M_time._M_s; } sys_days _M_date; hh_mm_ss> _M_time; }; } /// @endcond // 12/24 HOURS FUNCTIONS constexpr bool is_am(const hours& __h) noexcept { return 0h <= __h && __h <= 11h; } constexpr bool is_pm(const hours& __h) noexcept { return 12h <= __h && __h <= 23h; } constexpr hours make12(const hours& __h) noexcept { if (__h == 0h) return 12h; else if (__h > 12h) return __h - 12h; return __h; } constexpr hours make24(const hours& __h, bool __is_pm) noexcept { if (!__is_pm) { if (__h == 12h) return 0h; else return __h; } else { if (__h == 12h) return __h; else return __h + 12h; } } #if _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI // C++20 [time.zones] Time zones struct tzdb; struct sys_info { sys_seconds begin; sys_seconds end; seconds offset; minutes save; string abbrev; }; struct local_info { static constexpr int unique = 0; static constexpr int nonexistent = 1; static constexpr int ambiguous = 2; int result; sys_info first; sys_info second; }; class nonexistent_local_time : public runtime_error { public: template nonexistent_local_time(const local_time<_Duration>& __tp, const local_info& __i) : runtime_error(_S_make_what_str(__tp, __i)) { __glibcxx_assert(__i.result == local_info::nonexistent); } private: template static string _S_make_what_str(const local_time<_Duration>& __tp, const local_info& __i) { std::ostringstream __os; __os << __tp << " is in a gap between\n" << local_seconds(__i.first.end.time_since_epoch()) + __i.first.offset << ' ' << __i.first.abbrev << " and\n" << local_seconds(__i.second.begin.time_since_epoch()) + __i.second.offset << ' ' << __i.second.abbrev << " which are both equivalent to\n" << __i.first.end << " UTC"; return std::move(__os).str(); } }; class ambiguous_local_time : public runtime_error { public: template ambiguous_local_time(const local_time<_Duration>& __tp, const local_info& __i) : runtime_error(_S_make_what_str(__tp, __i)) { __glibcxx_assert(__i.result == local_info::ambiguous); } private: template static string _S_make_what_str(const local_time<_Duration>& __tp, const local_info& __i) { std::ostringstream __os; __os << __tp << " is ambiguous. It could be\n" << __tp << ' ' << __i.first.abbrev << " == " << __tp - __i.first.offset << " UTC or\n" << __tp << ' ' << __i.second.abbrev << " == " << __tp - __i.second.offset << " UTC"; return std::move(__os).str(); } }; template [[noreturn]] void __throw_bad_local_time(const local_time<_Duration>& __tp, const local_info& __i) { #if __cpp_exceptions if (__i.result == local_info::nonexistent) throw nonexistent_local_time(__tp, __i); throw ambiguous_local_time(__tp, __i); #else __builtin_abort(); #endif } enum class choose { earliest, latest }; class time_zone { public: time_zone(time_zone&&) = default; time_zone& operator=(time_zone&&) = default; ~time_zone(); [[nodiscard]] string_view name() const noexcept { return _M_name; } template sys_info get_info(const sys_time<_Duration>& __st) const { return _M_get_sys_info(chrono::floor(__st)); } template local_info get_info(const local_time<_Duration>& __tp) const { return _M_get_local_info(chrono::floor(__tp)); } template sys_time> to_sys(const local_time<_Duration>& __tp) const { local_info __info = get_info(__tp); if (__info.result != local_info::unique) __throw_bad_local_time(__tp, __info); return sys_time<_Duration>(__tp.time_since_epoch()) - __info.first.offset; } template sys_time> to_sys(const local_time<_Duration>& __tp, choose __z) const { local_info __info = get_info(__tp); if (__info.result == local_info::nonexistent) return __info.first.end; // Last second of the previous sys_info. sys_time<_Duration> __st(__tp.time_since_epoch()); if (__info.result == local_info::ambiguous && __z == choose::latest) return __st - __info.second.offset; // Time in the later sys_info. // else if __z == earliest, use __info.first.offset as below: return __st - __info.first.offset; } template local_time> to_local(const sys_time<_Duration>& __tp) const { auto __d = (__tp + get_info(__tp).offset).time_since_epoch(); return local_time>(__d); } [[nodiscard]] friend bool operator==(const time_zone& __x, const time_zone& __y) noexcept { return __x._M_name == __y._M_name; } [[nodiscard]] friend strong_ordering operator<=>(const time_zone& __x, const time_zone& __y) noexcept { return __x._M_name <=> __y._M_name; } private: sys_info _M_get_sys_info(sys_seconds) const; local_info _M_get_local_info(local_seconds) const; friend const tzdb& reload_tzdb(); friend struct tzdb; friend class tzdb_list; struct _Impl; explicit time_zone(unique_ptr<_Impl> __p); string _M_name; unique_ptr<_Impl> _M_impl; }; const time_zone* locate_zone(string_view __tz_name); const time_zone* current_zone(); /** The list of `chrono::tzdb` objects * * A single object of this type is constructed by the C++ runtime, * and can be accessed by calling `chrono::get_tzdb_list()`. * * The front of the list is the current `tzdb` object and can be accessed * via `chrono::get_tzdb_list().front()` or `chrono::get_tzdb()` or * `*chrono::get_tzdb_list().begin()`. * * The `chrono::reload_tzdb()` function will check for a newer version * and if found, insert it at the front of the list. * * @since C++20 */ class tzdb_list { struct _Node; public: tzdb_list(const tzdb_list&) = delete; tzdb_list& operator=(const tzdb_list&) = delete; /** An iterator into the `tzdb_list` * * As a extension, in libstdc++ each `tzdb` is reference-counted * and the `const_iterator` type shares ownership of the object it * refers to. This ensures that a `tzdb` erased from the list will * not be destroyed while there is an iterator that refers to it. */ class const_iterator { public: using value_type = tzdb; using reference = const tzdb&; using pointer = const tzdb*; using difference_type = ptrdiff_t; using iterator_category = forward_iterator_tag; constexpr const_iterator() = default; const_iterator(const const_iterator&) = default; const_iterator(const_iterator&&) = default; const_iterator& operator=(const const_iterator&) = default; const_iterator& operator=(const_iterator&&) = default; reference operator*() const noexcept; pointer operator->() const noexcept { return &**this; } const_iterator& operator++(); const_iterator operator++(int); bool operator==(const const_iterator&) const noexcept = default; private: explicit const_iterator(const shared_ptr<_Node>&) noexcept; friend class tzdb_list; shared_ptr<_Node> _M_node; void* _M_reserved = nullptr; }; /** Access the current `tzdb` at the front of the list. * * This returns a reference to the same object as `chrono::get_tzdb()`. * * @returns A reference to the current tzdb object. * @since C++20 */ const tzdb& front() const noexcept; /** Remove the tzdb object _after_ the one the iterator refers to. * * Calling this function concurrently with any of `front()`, `begin()`, * or `end()` does not cause a data race, but in general this function * is not thread-safe. The behaviour may be undefined if erasing an * element from the list while another thread is calling the same * function, or incrementing an iterator into the list, or accessing * the element being erased (unless it is accessed through an iterator). * * @param __p A dereferenceable iterator. * @returns An iterator the element after the one that was erased * (or `end()` if there is no such element). * @since C++20 */ const_iterator erase_after(const_iterator __p); const_iterator begin() const noexcept; const_iterator end() const noexcept { return {}; } const_iterator cbegin() const noexcept { return begin(); } const_iterator cend() const noexcept { return end(); } private: constexpr explicit tzdb_list(nullptr_t); friend tzdb_list& get_tzdb_list(); friend const tzdb& get_tzdb(); friend const tzdb& reload_tzdb(); friend struct tzdb; friend class leap_second; friend struct time_zone::_Impl; friend class time_zone_link; }; class time_zone_link { public: time_zone_link(time_zone_link&&) = default; time_zone_link& operator=(time_zone_link&&) = default; string_view name() const noexcept { return _M_name; } string_view target() const noexcept { return _M_target; } friend bool operator==(const time_zone_link& __x, const time_zone_link& __y) noexcept { return __x.name() == __y.name(); } friend strong_ordering operator<=>(const time_zone_link& __x, const time_zone_link& __y) noexcept { return __x.name() <=> __y.name(); } private: friend const tzdb& reload_tzdb(); friend struct tzdb_list::_Node; explicit time_zone_link(nullptr_t) { } string _M_name; string _M_target; }; class leap_second { public: leap_second(const leap_second&) = default; leap_second& operator=(const leap_second&) = default; [[nodiscard]] constexpr sys_seconds date() const noexcept { if (_M_s >= _M_s.zero()) [[likely]] return sys_seconds(_M_s); return sys_seconds(-_M_s); } [[nodiscard]] constexpr seconds value() const noexcept { if (_M_s >= _M_s.zero()) [[likely]] return seconds(1); return seconds(-1); } // This can be defaulted because the database will never contain two // leap_second objects with the same date but different signs. [[nodiscard]] friend constexpr bool operator==(const leap_second&, const leap_second&) noexcept = default; [[nodiscard]] friend constexpr strong_ordering operator<=>(const leap_second& __x, const leap_second& __y) noexcept { return __x.date() <=> __y.date(); } template [[nodiscard]] friend constexpr bool operator==(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return __x.date() == __y; } template [[nodiscard]] friend constexpr bool operator<(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return __x.date() < __y; } template [[nodiscard]] friend constexpr bool operator<(const sys_time<_Duration>& __x, const leap_second& __y) noexcept { return __x < __y.date(); } template [[nodiscard]] friend constexpr bool operator>(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return __y < __x.date(); } template [[nodiscard]] friend constexpr bool operator>(const sys_time<_Duration>& __x, const leap_second& __y) noexcept { return __y.date() < __x; } template [[nodiscard]] friend constexpr bool operator<=(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return !(__y < __x.date()); } template [[nodiscard]] friend constexpr bool operator<=(const sys_time<_Duration>& __x, const leap_second& __y) noexcept { return !(__y.date() < __x); } template [[nodiscard]] friend constexpr bool operator>=(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return !(__x.date() < __y); } template [[nodiscard]] friend constexpr bool operator>=(const sys_time<_Duration>& __x, const leap_second& __y) noexcept { return !(__x < __y.date()); } template _Duration> [[nodiscard]] friend constexpr auto operator<=>(const leap_second& __x, const sys_time<_Duration>& __y) noexcept { return __x.date() <=> __y; } private: explicit leap_second(seconds::rep __s) : _M_s(__s) { } friend struct tzdb_list::_Node; friend const tzdb& reload_tzdb(); template friend leap_second_info get_leap_second_info(const utc_time<_Duration>&); seconds _M_s; // == date().time_since_epoch() * value().count() }; template struct zoned_traits { }; template<> struct zoned_traits { static const time_zone* default_zone() { return std::chrono::locate_zone("UTC"); } static const time_zone* locate_zone(string_view __name) { return std::chrono::locate_zone(__name); } }; struct tzdb { string version; _GLIBCXX_STD_C::vector zones; _GLIBCXX_STD_C::vector links; _GLIBCXX_STD_C::vector leap_seconds; const time_zone* locate_zone(string_view __tz_name) const; const time_zone* current_zone() const; private: friend const tzdb& reload_tzdb(); friend class time_zone; friend struct tzdb_list::_Node; }; tzdb_list& get_tzdb_list(); const tzdb& get_tzdb(); const tzdb& reload_tzdb(); string remote_version(); template class zoned_time { static_assert(__is_duration_v<_Duration>); using _Traits = zoned_traits<_TimeZonePtr>; // Every constructor that accepts a string_view as its first parameter // does not participate in class template argument deduction. using string_view = type_identity_t; public: using duration = common_type_t<_Duration, seconds>; zoned_time() requires requires { _Traits::default_zone(); } { } zoned_time(const zoned_time&) = default; zoned_time& operator=(const zoned_time&) = default; zoned_time(const sys_time<_Duration>& __st) requires requires { _Traits::default_zone(); } : _M_tp(__st) { } explicit zoned_time(_TimeZonePtr __z) : _M_zone(std::move(__z)) { } explicit zoned_time(string_view __name) requires requires { _TimeZonePtr{_Traits::locate_zone(std::string_view{})}; } : _M_zone(_Traits::locate_zone(__name)) { } template zoned_time(const zoned_time<_Duration2, _TimeZonePtr>& __zt) requires is_convertible_v, sys_time<_Duration>> : _M_zone(__zt._M_zone), _M_tp(__zt._M_tp) { } zoned_time(_TimeZonePtr __z, const sys_time<_Duration>& __st) : _M_zone(std::move(__z)), _M_tp(__st) { } zoned_time(string_view __name, const sys_time<_Duration>& __st) : zoned_time(_Traits::locate_zone(__name), __st) { } zoned_time(_TimeZonePtr __z, const local_time<_Duration>& __tp) requires requires { { __z->to_sys(__tp) } -> convertible_to>; } : _M_zone(std::move(__z)), _M_tp(_M_zone->to_sys(__tp)) { } zoned_time(string_view __name, const local_time<_Duration>& __tp) requires requires (_TimeZonePtr __z) { { _Traits::locate_zone(__name) } -> convertible_to<_TimeZonePtr>; { __z->to_sys(__tp) } -> convertible_to>; } : zoned_time(_Traits::locate_zone(__name), __tp) { } zoned_time(_TimeZonePtr __z, const local_time<_Duration>& __tp, choose __c) requires requires { { __z->to_sys(__tp, __c) } -> convertible_to>; } : _M_zone(std::move(__z)), _M_tp(_M_zone->to_sys(__tp, __c)) { } zoned_time(string_view __name, const local_time<_Duration>& __tp, choose __c) requires requires (_TimeZonePtr __z) { { _Traits::locate_zone(__name) } -> convertible_to<_TimeZonePtr>; { __z->to_sys(__tp, __c) } -> convertible_to>; } : _M_zone(_Traits::locate_zone(__name)), _M_tp(_M_zone->to_sys(__tp, __c)) { } template zoned_time(_TimeZonePtr __z, const zoned_time<_Duration2, _TimeZonePtr2>& __zt) requires is_convertible_v, sys_time<_Duration>> : _M_zone(__z), _M_tp(__zt._M_tp) { } template zoned_time(_TimeZonePtr __z, const zoned_time<_Duration2, _TimeZonePtr2>& __zt, choose) requires is_convertible_v, sys_time<_Duration>> : _M_zone(__z), _M_tp(__zt._M_tp) { } template zoned_time(string_view __name, const zoned_time<_Duration2, _TimeZonePtr2>& __zt) requires is_convertible_v, sys_time<_Duration>> && requires { { _Traits::locate_zone(__name) } -> convertible_to<_TimeZonePtr>; } : _M_zone(_Traits::locate_zone(__name)), _M_tp(__zt._M_tp) { } template zoned_time(string_view __name, const zoned_time<_Duration2, _TimeZonePtr2>& __zt, choose) requires is_convertible_v, sys_time<_Duration>> && requires { { _Traits::locate_zone(__name) } -> convertible_to<_TimeZonePtr>; } : _M_zone(_Traits::locate_zone(__name)), _M_tp(__zt._M_tp) { } zoned_time& operator=(const sys_time<_Duration>& __st) { _M_tp = __st; return *this; } zoned_time& operator=(const local_time<_Duration>& __lt) { _M_tp = _M_zone->to_sys(__lt); return *this; } [[nodiscard]] operator sys_time() const { return _M_tp; } [[nodiscard]] explicit operator local_time() const { return get_local_time(); } [[nodiscard]] _TimeZonePtr get_time_zone() const { return _M_zone; } [[nodiscard]] local_time get_local_time() const { return _M_zone->to_local(_M_tp); } [[nodiscard]] sys_time get_sys_time() const { return _M_tp; } [[nodiscard]] sys_info get_info() const { return _M_zone->get_info(_M_tp); } [[nodiscard]] friend bool operator==(const zoned_time&, const zoned_time&) = default; private: _TimeZonePtr _M_zone{ _Traits::default_zone() }; sys_time _M_tp{}; template friend class zoned_time; }; zoned_time() -> zoned_time; template zoned_time(sys_time<_Duration>) -> zoned_time>; /// @cond undocumented template using __time_zone_representation = __conditional_t, const time_zone*, remove_cvref_t<_TimeZonePtrOrName>>; /// @endcond template zoned_time(_TimeZonePtrOrName&&) -> zoned_time>; template zoned_time(_TimeZonePtrOrName&&, sys_time<_Duration>) -> zoned_time, __time_zone_representation<_TimeZonePtrOrName>>; template zoned_time(_TimeZonePtrOrName&&, local_time<_Duration>, choose = choose::earliest) -> zoned_time, __time_zone_representation<_TimeZonePtrOrName>>; template zoned_time(_TimeZonePtrOrName&&, zoned_time<_Duration, _TimeZonePtr2>, choose = choose::earliest) -> zoned_time, __time_zone_representation<_TimeZonePtrOrName>>; template [[nodiscard]] inline bool operator==(const zoned_time<_Dur1, _TZPtr1>& __x, const zoned_time<_Dur2, _TZPtr2>& __y) { return __x.get_time_zone() == __y.get_time_zone() && __x.get_sys_time() == __y.get_sys_time(); } using zoned_seconds = zoned_time; #endif // _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI namespace __detail { inline leap_second_info __get_leap_second_info(sys_seconds __ss, bool __is_utc) { if (__ss < sys_seconds{}) [[unlikely]] return {}; const seconds::rep __leaps[] { 78796800, // 1 Jul 1972 94694400, // 1 Jan 1973 126230400, // 1 Jan 1974 157766400, // 1 Jan 1975 189302400, // 1 Jan 1976 220924800, // 1 Jan 1977 252460800, // 1 Jan 1978 283996800, // 1 Jan 1979 315532800, // 1 Jan 1980 362793600, // 1 Jul 1981 394329600, // 1 Jul 1982 425865600, // 1 Jul 1983 489024000, // 1 Jul 1985 567993600, // 1 Jan 1988 631152000, // 1 Jan 1990 662688000, // 1 Jan 1991 709948800, // 1 Jul 1992 741484800, // 1 Jul 1993 773020800, // 1 Jul 1994 820454400, // 1 Jan 1996 867715200, // 1 Jul 1997 915148800, // 1 Jan 1999 1136073600, // 1 Jan 2006 1230768000, // 1 Jan 2009 1341100800, // 1 Jul 2012 1435708800, // 1 Jul 2015 1483228800, // 1 Jan 2017 }; // The list above is known to be valid until (at least) this date // and only contains positive leap seconds. const sys_seconds __expires(1735344000s); // 2024-12-28 00:00:00 UTC #if _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI if (__ss > __expires) { // Use updated leap_seconds from tzdb. size_t __n = std::size(__leaps); auto __db = get_tzdb_list().begin(); auto __first = __db->leap_seconds.begin() + __n; auto __last = __db->leap_seconds.end(); auto __pos = std::upper_bound(__first, __last, __ss); seconds __elapsed(__n); for (auto __i = __first; __i != __pos; ++__i) __elapsed += __i->value(); if (__is_utc) { // Convert utc_time to sys_time: __ss -= __elapsed; // See if that sys_time is before (or during) previous leap sec: if (__pos != __first && __ss < __pos[-1]) { if ((__ss + 1s) >= __pos[-1]) return {true, __elapsed}; __elapsed -= __pos[-1].value(); } } return {false, __elapsed}; } else #endif { seconds::rep __s = __ss.time_since_epoch().count(); const seconds::rep* __first = std::begin(__leaps); const seconds::rep* __last = std::end(__leaps); // Don't bother searching the list if we're after the last one. if (__s > (__last[-1] + (__last - __first) + 1)) return { false, seconds(__last - __first) }; auto __pos = std::upper_bound(__first, __last, __s); seconds __elapsed{__pos - __first}; if (__is_utc) { // Convert utc_time to sys_time: __s -= __elapsed.count(); // See if that sys_time is before (or during) previous leap sec: if (__pos != __first && __s < __pos[-1]) { if ((__s + 1) >= __pos[-1]) return {true, __elapsed}; --__elapsed; } } return {false, __elapsed}; } } } // namespace __detail template [[nodiscard]] inline leap_second_info get_leap_second_info(const utc_time<_Duration>& __ut) { auto __s = chrono::duration_cast(__ut.time_since_epoch()); return __detail::__get_leap_second_info(sys_seconds(__s), true); } template [[nodiscard]] inline utc_time> utc_clock::from_sys(const sys_time<_Duration>& __t) { using _CDur = common_type_t<_Duration, seconds>; auto __s = chrono::time_point_cast(__t); const auto __li = __detail::__get_leap_second_info(__s, false); return utc_time<_CDur>{__t.time_since_epoch()} + __li.elapsed; } /// @} group chrono #endif // C++20 } // namespace chrono #if __cplusplus >= 202002L inline namespace literals { inline namespace chrono_literals { /// @addtogroup chrono /// @{ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wliteral-suffix" /// Literal suffix for creating chrono::day objects. /// @since C++20 constexpr chrono::day operator""d(unsigned long long __d) noexcept { return chrono::day{static_cast(__d)}; } /// Literal suffix for creating chrono::year objects. /// @since C++20 constexpr chrono::year operator""y(unsigned long long __y) noexcept { return chrono::year{static_cast(__y)}; } #pragma GCC diagnostic pop /// @} } // inline namespace chrono_literals } // inline namespace literals #endif // C++20 _GLIBCXX_END_NAMESPACE_VERSION } // namespace std #if __cplusplus >= 202002L # include #endif #endif // C++11 #endif //_GLIBCXX_CHRONO