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// <chrono> Formatting -*- C++ -*- // Copyright The GNU Toolchain Authors. // // 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 include/bits/chrono_io.h * This is an internal header file, included by other library headers. * Do not attempt to use it directly. @headername{chrono} */ #ifndef _GLIBCXX_CHRONO_IO_H #define _GLIBCXX_CHRONO_IO_H 1 #pragma GCC system_header #if __cplusplus >= 202002L #include <sstream> // ostringstream #include <iomanip> // setw, setfill #include <format> #include <bits/streambuf_iterator.h> namespace std _GLIBCXX_VISIBILITY(default) { _GLIBCXX_BEGIN_NAMESPACE_VERSION namespace chrono { /// @addtogroup chrono /// @{ /// @cond undocumented namespace __detail { // STATICALLY-WIDEN, see C++20 [time.general] // It doesn't matter for format strings (which can only be char or wchar_t) // but this returns the narrow string for anything that isn't wchar_t. This // is done because const char* can be inserted into any ostream type, and // will be widened at runtime if necessary. template<typename _CharT> consteval auto _Widen(const char* __narrow, const wchar_t* __wide) { if constexpr (is_same_v<_CharT, wchar_t>) return __wide; else return __narrow; } #define _GLIBCXX_WIDEN_(C, S) ::std::chrono::__detail::_Widen<C>(S, L##S) #define _GLIBCXX_WIDEN(S) _GLIBCXX_WIDEN_(_CharT, S) template<typename _Period, typename _CharT> constexpr basic_string_view<_CharT> __units_suffix() noexcept { // The standard say these are all narrow strings, which would need to // be widened at run-time when inserted into a wide stream. We use // STATICALLY-WIDEN to widen at compile-time. #define _GLIBCXX_UNITS_SUFFIX(period, suffix) \ if constexpr (is_same_v<_Period, period>) \ return _GLIBCXX_WIDEN(suffix); \ else _GLIBCXX_UNITS_SUFFIX(atto, "as") _GLIBCXX_UNITS_SUFFIX(femto, "fs") _GLIBCXX_UNITS_SUFFIX(pico, "ps") _GLIBCXX_UNITS_SUFFIX(nano, "ns") _GLIBCXX_UNITS_SUFFIX(milli, "ms") #if _GLIBCXX_USE_ALT_MICROSECONDS_SUFFIX // Deciding this at compile-time is wrong, maybe use nl_langinfo(CODESET) // to check runtime environment and return u8"\u00b5s", "\xb5s", or "us". _GLIBCXX_UNITS_SUFFIX(micro, "\u00b5s") #else _GLIBCXX_UNITS_SUFFIX(micro, "us") #endif _GLIBCXX_UNITS_SUFFIX(centi, "cs") _GLIBCXX_UNITS_SUFFIX(deci, "ds") _GLIBCXX_UNITS_SUFFIX(ratio<1>, "s") _GLIBCXX_UNITS_SUFFIX(deca, "das") _GLIBCXX_UNITS_SUFFIX(hecto, "hs") _GLIBCXX_UNITS_SUFFIX(kilo, "ks") _GLIBCXX_UNITS_SUFFIX(mega, "Ms") _GLIBCXX_UNITS_SUFFIX(giga, "Gs") _GLIBCXX_UNITS_SUFFIX(tera, "Ts") _GLIBCXX_UNITS_SUFFIX(tera, "Ts") _GLIBCXX_UNITS_SUFFIX(peta, "Ps") _GLIBCXX_UNITS_SUFFIX(exa, "Es") _GLIBCXX_UNITS_SUFFIX(ratio<60>, "min") _GLIBCXX_UNITS_SUFFIX(ratio<3600>, "h") _GLIBCXX_UNITS_SUFFIX(ratio<86400>, "d") #undef _GLIBCXX_UNITS_SUFFIX return {}; } template<typename _Period, typename _CharT, typename _Out> inline _Out __fmt_units_suffix(_Out __out) noexcept { if (auto __s = __detail::__units_suffix<_Period, _CharT>(); __s.size()) return __format::__write(std::move(__out), __s); else if constexpr (_Period::den == 1) return std::format_to(std::move(__out), _GLIBCXX_WIDEN("[{}]s"), (uintmax_t)_Period::num); else return std::format_to(std::move(__out), _GLIBCXX_WIDEN("[{}/{}]s"), (uintmax_t)_Period::num, (uintmax_t)_Period::den); } } // namespace __detail /// @endcond /** Write a `chrono::duration` to an ostream. * * @since C++20 */ template<typename _CharT, typename _Traits, typename _Rep, typename _Period> inline basic_ostream<_CharT, _Traits>& operator<<(std::basic_ostream<_CharT, _Traits>& __os, const duration<_Rep, _Period>& __d) { using _Out = ostreambuf_iterator<_CharT, _Traits>; using period = typename _Period::type; std::basic_ostringstream<_CharT, _Traits> __s; __s.flags(__os.flags()); __s.imbue(__os.getloc()); __s.precision(__os.precision()); __s << __d.count(); __detail::__fmt_units_suffix<period, _CharT>(_Out(__s)); __os << std::move(__s).str(); return __os; } /// @cond undocumented namespace __detail { // An unspecified type returned by `chrono::local_time_format`. template<typename _Duration> struct __local_time_fmt { local_time<_Duration> _M_time; const string* _M_abbrev; const seconds* _M_offset_sec; }; struct __local_fmt_t; } /// @endcond /** Return an object that asssociates timezone info with a local time. * * A `chrono::local_time` object has no timezone associated with it. This * function creates an object that allows formatting a `local_time` as * though it refers to a timezone with the given abbreviated name and * offset from UTC. * * @since C++20 */ template<typename _Duration> inline __detail::__local_time_fmt<_Duration> local_time_format(local_time<_Duration> __time, const string* __abbrev = nullptr, const seconds* __offset_sec = nullptr) { return {__time, __abbrev, __offset_sec}; } /// @} } // namespace chrono /// @cond undocumented namespace __format { [[noreturn,__gnu__::__always_inline__]] inline void __no_timezone_available() { __throw_format_error("format error: no timezone available for %Z or %z"); } [[noreturn,__gnu__::__always_inline__]] inline void __not_valid_for_duration() { __throw_format_error("format error: chrono-format-spec not valid for " "chrono::duration"); } [[noreturn,__gnu__::__always_inline__]] inline void __invalid_chrono_spec() { __throw_format_error("format error: chrono-format-spec not valid for " "argument type"); } template<typename _CharT> struct _ChronoSpec : _Spec<_CharT> { basic_string_view<_CharT> _M_chrono_specs; }; // Represents the information provided by a chrono type. // e.g. month_weekday has month and weekday but no year or time of day, // hh_mm_ss has time of day but no date, sys_time is time_point+timezone. enum _ChronoParts { _Year = 1, _Month = 2, _Day = 4, _Weekday = 8, _TimeOfDay = 16, _TimeZone = 32, _Date = _Year | _Month | _Day | _Weekday, _DateTime = _Date | _TimeOfDay, _ZonedDateTime = _DateTime | _TimeZone, _Duration = 128 // special case }; constexpr _ChronoParts operator|(_ChronoParts __x, _ChronoParts __y) { return static_cast<_ChronoParts>((int)__x | (int)__y); } // TODO rename this to chrono::__formatter? or chrono::__detail::__formatter? template<typename _CharT> struct __formatter_chrono { using __string_view = basic_string_view<_CharT>; using __string = basic_string<_CharT>; template<typename _ParseContext> constexpr typename _ParseContext::iterator _M_parse(_ParseContext& __pc, _ChronoParts __parts) { auto __first = __pc.begin(); auto __last = __pc.end(); _ChronoSpec<_CharT> __spec{}; auto __finalize = [this, &__spec] { _M_spec = __spec; }; auto __finished = [&] { if (__first == __last || *__first == '}') { __finalize(); return true; } return false; }; if (__finished()) return __first; __first = __spec._M_parse_fill_and_align(__first, __last); if (__finished()) return __first; __first = __spec._M_parse_width(__first, __last, __pc); if (__finished()) return __first; if (__parts & _ChronoParts::_Duration) { __first = __spec._M_parse_precision(__first, __last, __pc); if (__finished()) return __first; } __first = __spec._M_parse_locale(__first, __last); if (__finished()) return __first; // Everything up to the end of the string or the first '}' is a // chrono-specs string. Check it is valid. { __string_view __str(__first, __last - __first); auto __end = __str.find('}'); if (__end != __str.npos) { __str.remove_suffix(__str.length() - __end); __last = __first + __end; } if (__str.find('{') != __str.npos) __throw_format_error("chrono format error: '{' in chrono-specs"); } // Parse chrono-specs in [first,last), checking each conversion-spec // against __parts (so fail for %Y if no year in parts). // Save range in __spec._M_chrono_specs. const auto __chrono_specs = __first++; // Skip leading '%' if (*__chrono_specs != '%') __throw_format_error("chrono format error: no '%' at start of " "chrono-specs"); _CharT __mod{}; bool __conv = true; int __needed = 0; while (__first != __last) { enum _Mods { _Mod_none, _Mod_E, _Mod_O, _Mod_E_O }; _Mods __allowed_mods = _Mod_none; _CharT __c = *__first++; switch (__c) { case 'a': case 'A': __needed = _Weekday; break; case 'b': case 'h': case 'B': __needed = _Month; break; case 'c': __needed = _DateTime; __allowed_mods = _Mod_E; break; case 'C': __needed = _Year; __allowed_mods = _Mod_E; break; case 'd': case 'e': __needed = _Day; __allowed_mods = _Mod_O; break; case 'D': case 'F': __needed = _Date; break; case 'g': case 'G': __needed = _Date; break; case 'H': case 'I': __needed = _TimeOfDay; __allowed_mods = _Mod_O; break; case 'j': if (!(__parts & _Duration)) __needed = _Date; break; case 'm': __needed = _Month; __allowed_mods = _Mod_O; break; case 'M': __needed = _TimeOfDay; __allowed_mods = _Mod_O; break; case 'p': case 'r': case 'R': case 'T': __needed = _TimeOfDay; break; case 'q': case 'Q': __needed = _Duration; break; case 'S': __needed = _TimeOfDay; __allowed_mods = _Mod_O; break; case 'u': case 'w': __needed = _Weekday; __allowed_mods = _Mod_O; break; case 'U': case 'V': case 'W': __needed = _Date; __allowed_mods = _Mod_O; break; case 'x': __needed = _Date; __allowed_mods = _Mod_E; break; case 'X': __needed = _TimeOfDay; __allowed_mods = _Mod_E; break; case 'y': __needed = _Year; __allowed_mods = _Mod_E_O; break; case 'Y': __needed = _Year; __allowed_mods = _Mod_E; break; case 'z': __needed = _TimeZone; __allowed_mods = _Mod_E_O; break; case 'Z': __needed = _TimeZone; break; case 'n': case 't': case '%': break; case 'O': case 'E': if (__mod) [[unlikely]] { __allowed_mods = _Mod_none; break; } __mod = __c; continue; default: __throw_format_error("chrono format error: invalid " " specifier in chrono-specs"); } if ((__mod == 'E' && !(__allowed_mods & _Mod_E)) || (__mod == 'O' && !(__allowed_mods & _Mod_O))) __throw_format_error("chrono format error: invalid " " modifier in chrono-specs"); __mod = _CharT(); if ((__parts & __needed) != __needed) __throw_format_error("chrono format error: format argument " "does not contain the information " "required by the chrono-specs"); // Scan for next '%', ignoring literal-chars before it. size_t __pos = __string_view(__first, __last - __first).find('%'); if (__pos == 0) ++__first; else { if (__pos == __string_view::npos) { __first = __last; __conv = false; } else __first += __pos + 1; } } // Check for a '%' conversion-spec without a type. if (__conv || __mod != _CharT()) __throw_format_error("chrono format error: unescaped '%' in " "chrono-specs"); _M_spec = __spec; _M_spec._M_chrono_specs = __string_view(__chrono_specs, __first - __chrono_specs); return __first; } // TODO this function template is instantiated for every different _Tp. // Consider creating a polymorphic interface for calendar types so // that we instantiate fewer different specializations. Similar to // _Sink_iter for std::format. Replace each _S_year, _S_day etc. with // member functions of that type. template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_format(const _Tp& __t, _FormatContext& __fc, bool __is_neg = false) const { auto __first = _M_spec._M_chrono_specs.begin(); const auto __last = _M_spec._M_chrono_specs.end(); if (__first == __last) return _M_format_to_ostream(__t, __fc, __is_neg); _Sink_iter<_CharT> __out; __format::_Str_sink<_CharT> __sink; bool __write_direct = false; if constexpr (is_same_v<typename _FormatContext::iterator, _Sink_iter<_CharT>>) { if (_M_spec._M_width_kind == __format::_WP_none) { __out = __fc.out(); __write_direct = true; } else __out = __sink.out(); } else __out = __sink.out(); // formatter<duration> passes the correct value of __is_neg // for durations but for hh_mm_ss we decide it here. if constexpr (__is_specialization_of<_Tp, chrono::hh_mm_ss>) __is_neg = __t.is_negative(); auto __print_sign = [&__is_neg, &__out] { if constexpr (chrono::__is_duration_v<_Tp> || __is_specialization_of<_Tp, chrono::hh_mm_ss>) if (__is_neg) { *__out++ = _S_plus_minus[1]; __is_neg = false; } return std::move(__out); }; // Characters to output for "%n", "%t" and "%%" specifiers. constexpr const _CharT* __literals = _GLIBCXX_WIDEN("\n\t%"); ++__first; // Skip leading '%' at start of chrono-specs. _CharT __mod{}; do { _CharT __c = *__first++; switch (__c) { case 'a': case 'A': __out = _M_a_A(__t, std::move(__out), __fc, __c == 'A'); break; case 'b': case 'h': case 'B': __out = _M_b_B(__t, std::move(__out), __fc, __c == 'B'); break; case 'c': __out = _M_c(__t, std::move(__out), __fc, __mod == 'E'); break; case 'C': case 'y': case 'Y': __out = _M_C_y_Y(__t, std::move(__out), __fc, __c, __mod); break; case 'd': case 'e': __out = _M_d_e(__t, std::move(__out), __fc, __c, __mod == 'O'); break; case 'D': __out = _M_D(__t, std::move(__out), __fc); break; case 'F': __out = _M_F(__t, std::move(__out), __fc); break; case 'g': case 'G': __out = _M_g_G(__t, std::move(__out), __fc, __c == 'G'); break; case 'H': case 'I': __out = _M_H_I(__t, __print_sign(), __fc, __c, __mod == 'O'); break; case 'j': __out = _M_j(__t, __print_sign(), __fc); break; case 'm': __out = _M_m(__t, std::move(__out), __fc, __mod == 'O'); break; case 'M': __out = _M_M(__t, __print_sign(), __fc, __mod == 'O'); break; case 'p': __out = _M_p(__t, std::move(__out), __fc); break; case 'q': __out = _M_q(__t, std::move(__out), __fc); break; case 'Q': // %Q The duration's numeric value. if constexpr (chrono::__is_duration_v<_Tp>) __out = std::format_to(__print_sign(), _S_empty_spec, __t.count()); else __throw_format_error("chrono format error: argument is " "not a duration"); break; case 'r': __out = _M_r(__t, __print_sign(), __fc); break; case 'R': case 'T': __out = _M_R_T(__t, __print_sign(), __fc, __c == 'T'); break; case 'S': __out = _M_S(__t, __print_sign(), __fc, __mod == 'O'); break; case 'u': case 'w': __out = _M_u_w(__t, std::move(__out), __fc, __c, __mod == 'O'); break; case 'U': case 'V': case 'W': __out = _M_U_V_W(__t, std::move(__out), __fc, __c, __mod == 'O'); break; case 'x': __out = _M_x(__t, std::move(__out), __fc, __mod == 'E'); break; case 'X': __out = _M_X(__t, __print_sign(), __fc, __mod == 'E'); break; case 'z': __out = _M_z(__t, std::move(__out), __fc, (bool)__mod); break; case 'Z': __out = _M_Z(__t, std::move(__out), __fc); break; case 'n': *__out++ = __literals[0]; break; case 't': *__out++ = __literals[1]; break; case '%': *__out++ = __literals[2]; break; case 'O': case 'E': __mod = __c; continue; case '}': __first = __last; break; } __mod = _CharT(); // Scan for next '%' and write out everything before it. __string_view __str(__first, __last - __first); size_t __pos = __str.find('%'); if (__pos == 0) ++__first; else { if (__pos == __str.npos) __first = __last; else { __str.remove_suffix(__str.length() - __pos); __first += __pos + 1; } __out = __format::__write(std::move(__out), __str); } } while (__first != __last); if constexpr (is_same_v<typename _FormatContext::iterator, _Sink_iter<_CharT>>) if (__write_direct) return __out; auto __str = std::move(__sink).get(); return __format::__write_padded_as_spec(__str, __str.size(), __fc, _M_spec); } _ChronoSpec<_CharT> _M_spec; private: // Return the formatting locale. template<typename _FormatContext> std::locale _M_locale(_FormatContext& __fc) const { if (!_M_spec._M_localized) return std::locale::classic(); else return __fc.locale(); } // Format for empty chrono-specs, e.g. "{}" (C++20 [time.format] p6). // TODO: consider moving body of every operator<< into this function // and use std::format("{}", t) to implement those operators. That // would avoid std::format("{}", t) calling operator<< which calls // std::format again. template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_format_to_ostream(const _Tp& __t, _FormatContext& __fc, bool __is_neg) const { using ::std::chrono::__detail::__utc_leap_second; using ::std::chrono::__detail::__local_time_fmt; if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) return _M_format_to_ostream(__t._M_time, __fc, false); else { basic_ostringstream<_CharT> __os; __os.imbue(_M_locale(__fc)); if constexpr (__is_specialization_of<_Tp, __utc_leap_second>) __os << __t._M_date << ' ' << __t._M_time; else if constexpr (chrono::__is_time_point_v<_Tp>) { // Need to be careful here because not all specializations // of chrono::sys_time can be written to an ostream. // For the specializations of time_point that can be // formatted with an empty chrono-specs, either it's a // sys_time with period greater or equal to days: if constexpr (is_convertible_v<_Tp, chrono::sys_days>) __os << _S_date(__t); else // Or it's formatted as "{:L%F %T}": { auto __days = chrono::floor<chrono::days>(__t); __os << chrono::year_month_day(__days) << ' ' << chrono::hh_mm_ss(__t - __days); } } else { if constexpr (chrono::__is_duration_v<_Tp>) if (__is_neg) [[unlikely]] __os << _S_plus_minus[1]; __os << __t; } auto __str = std::move(__os).str(); return __format::__write_padded_as_spec(__str, __str.size(), __fc, _M_spec); } } static constexpr const _CharT* _S_chars = _GLIBCXX_WIDEN("0123456789+-:/ {}"); static constexpr const _CharT* _S_plus_minus = _S_chars + 10; static constexpr _CharT _S_colon = _S_chars[12]; static constexpr _CharT _S_slash = _S_chars[13]; static constexpr _CharT _S_space = _S_chars[14]; static constexpr const _CharT* _S_empty_spec = _S_chars + 15; template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_a_A(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __full) const { // %a Locale's abbreviated weekday name. // %A Locale's full weekday name. chrono::weekday __wd = _S_weekday(__t); if (!__wd.ok()) __throw_format_error("format error: invalid weekday"); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __days[7]; if (__full) __tp._M_days(__days); else __tp._M_days_abbreviated(__days); __string_view __str(__days[__wd.c_encoding()]); return __format::__write(std::move(__out), __str); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_b_B(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __full) const { // %b Locale's abbreviated month name. // %B Locale's full month name. chrono::month __m = _S_month(__t); if (!__m.ok()) __throw_format_error("format error: invalid month"); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __months[12]; if (__full) __tp._M_months(__months); else __tp._M_months_abbreviated(__months); __string_view __str(__months[(unsigned)__m - 1]); return __format::__write(std::move(__out), __str); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_c(const _Tp& __tt, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod = false) const { // %c Locale's date and time representation. // %Ec Locale's alternate date and time representation. auto __t = _S_floor_seconds(__tt); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __formats[2]; __tp._M_date_time_formats(__formats); const _CharT* __rep = __formats[__mod]; if (!*__rep) __rep = _GLIBCXX_WIDEN("%a %b %e %H:%M:%S %Y"); basic_string<_CharT> __fmt(_S_empty_spec); __fmt.insert(1u, 1u, _S_colon); __fmt.insert(2u, __rep); return std::vformat_to(std::move(__out), __loc, __fmt, std::make_format_args<_FormatContext>(__t)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_C_y_Y(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, _CharT __conv, _CharT __mod = 0) const { // %C Year divided by 100 using floored division. // %EC Locale's alternative preresentation of the century (era name). // %y Last two decimal digits of the year. // %Oy Locale's alternative representation. // %Ey Locale's alternative representation of offset from %EC. // %Y Year as a decimal number. // %EY Locale's alternative full year representation. chrono::year __y = _S_year(__t); if (__mod) [[unlikely]] { struct tm __tm{}; __tm.tm_year = (int)__y - 1900; return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, __conv, __mod); } basic_string<_CharT> __s; int __yi = (int)__y; const bool __is_neg = __yi < 0; __yi = __builtin_abs(__yi); if (__conv == 'Y' || __conv == 'C') { int __ci = __yi / 100; if (__is_neg) [[unlikely]] { __s.assign(1, _S_plus_minus[1]); // For floored division -123//100 is -2 and -100//100 is -1 if (__conv == 'C' && (__ci * 100) != __yi) ++__ci; } if (__ci >= 100) [[unlikely]] { __s += std::format(_S_empty_spec, __ci / 100); __ci %= 100; } __s += _S_two_digits(__ci); } if (__conv == 'Y' || __conv == 'y') __s += _S_two_digits(__yi % 100); return __format::__write(std::move(__out), __string_view(__s)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_D(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext&) const { auto __ymd = _S_date(__t); basic_string<_CharT> __s; #if ! _GLIBCXX_USE_CXX11_ABI __s.reserve(8); #endif __s = _S_two_digits((unsigned)__ymd.month()); __s += _S_slash; __s += _S_two_digits((unsigned)__ymd.day()); __s += _S_slash; __s += _S_two_digits(__builtin_abs((int)__ymd.year()) % 100); return __format::__write(std::move(__out), __string_view(__s)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_d_e(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, _CharT __conv, bool __mod = false) const { // %d The day of month as a decimal number. // %Od Locale's alternative representation. // %e Day of month as decimal number, padded with space. // %Oe Locale's alternative digits. chrono::day __d = _S_day(__t); unsigned __i = (unsigned)__d; if (__mod) [[unlikely]] { struct tm __tm{}; __tm.tm_mday = __i; return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, (char)__conv, 'O'); } auto __sv = _S_two_digits(__i); _CharT __buf[2]; if (__conv == _CharT('e') && __i < 10) { __buf[0] = _S_space; __buf[1] = __sv[1]; __sv = {__buf, 2}; } return __format::__write(std::move(__out), __sv); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_F(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext&) const { auto __ymd = _S_date(__t); basic_string<_CharT> __s; #if ! _GLIBCXX_USE_CXX11_ABI __s.reserve(11); #endif __s += std::format(_GLIBCXX_WIDEN("{:04d}- - "), (int)__ymd.year()); auto __sv = _S_two_digits((unsigned)__ymd.month()); __s[__s.size() - 5] = __sv[0]; __s[__s.size() - 4] = __sv[1]; __sv = _S_two_digits((unsigned)__ymd.day()); __s[__s.size() - 2] = __sv[0]; __s[__s.size() - 1] = __sv[1]; __sv = __s; return __format::__write(std::move(__out), __sv); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_g_G(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __full) const { // %g last two decimal digits of the ISO week-based year. // %G ISO week-based year. using namespace chrono; auto __d = _S_days(__t); // Move to nearest Thursday: __d -= (weekday(__d) - Monday) - days(3); // ISO week-based year is the year that contains that Thursday: year __y = year_month_day(__d).year(); return _M_C_y_Y(__y, std::move(__out), __ctx, "yY"[__full]); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_H_I(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, _CharT __conv, bool __mod = false) const { // %H The hour (24-hour clock) as a decimal number. // %OH Locale's alternative representation. // %I The hour (12-hour clock) as a decimal number. // %OI Locale's alternative representation. const auto __hms = _S_hms(__t); int __i = __hms.hours().count(); if (__mod) [[unlikely]] { struct tm __tm{}; __tm.tm_hour = __i; return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, (char)__conv, 'O'); } if (__conv == _CharT('I')) { if (__i == 0) __i = 12; else if (__i > 12) __i -= 12; } return __format::__write(std::move(__out), _S_two_digits(__i)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_j(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext&) const { if constexpr (chrono::__is_duration_v<_Tp>) { // Decimal number of days, without padding. unsigned __d = chrono::duration_cast<chrono::days>(__t).count(); return std::format_to(std::move(__out), _S_empty_spec, __d); } else { // Day of the year as a decimal number, padding with zero. using namespace chrono; auto __day = _S_days(__t); auto __ymd = _S_date(__t); days __d; // See "Calculating Ordinal Dates" at // https://github.com/HowardHinnant/date/wiki/Examples-and-Recipes if constexpr (is_same_v<typename decltype(__day)::clock, local_t>) __d = __day - local_days(__ymd.year()/January/0); else __d = __day - sys_days(__ymd.year()/January/0); return std::format_to(std::move(__out), _GLIBCXX_WIDEN("{:03d}"), __d.count()); } } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_m(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod) const { // %m month as a decimal number. // %Om Locale's alternative representation. auto __m = _S_month(__t); auto __i = (unsigned)__m; if (__mod) [[unlikely]] // %Om { struct tm __tm{}; __tm.tm_mon = __i - 1; return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, 'm', 'O'); } return __format::__write(std::move(__out), _S_two_digits(__i)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_M(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod) const { // %M The minute as a decimal number. // %OM Locale's alternative representation. auto __m = _S_hms(__t).minutes(); auto __i = __m.count(); if (__mod) [[unlikely]] // %OM { struct tm __tm{}; __tm.tm_min = __i; return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, 'M', 'O'); } return __format::__write(std::move(__out), _S_two_digits(__i)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_p(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx) const { // %p The locale's equivalent of the AM/PM designations. auto __hms = _S_hms(__t); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __ampm[2]; __tp._M_am_pm(__ampm); return std::format_to(std::move(__out), _S_empty_spec, __ampm[__hms.hours().count() >= 12]); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_q(const _Tp&, typename _FormatContext::iterator __out, _FormatContext&) const { // %q The duration's unit suffix if constexpr (!chrono::__is_duration_v<_Tp>) __throw_format_error("format error: argument is not a duration"); else { namespace __d = chrono::__detail; using period = typename _Tp::period; return __d::__fmt_units_suffix<period, _CharT>(std::move(__out)); } } // %Q handled in _M_format template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_r(const _Tp& __tt, typename _FormatContext::iterator __out, _FormatContext& __ctx) const { // %r locale's 12-hour clock time. auto __t = _S_floor_seconds(__tt); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __ampm_fmt; __tp._M_am_pm_format(&__ampm_fmt); basic_string<_CharT> __fmt(_S_empty_spec); __fmt.insert(1u, 1u, _S_colon); __fmt.insert(2u, __ampm_fmt); return std::vformat_to(std::move(__out), __fmt, std::make_format_args<_FormatContext>(__t)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_R_T(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __secs) const { // %R Equivalent to %H:%M // %T Equivalent to %H:%M:%S auto __hms = _S_hms(__t); basic_string<_CharT> __s; #if ! _GLIBCXX_USE_CXX11_ABI __s.reserve(11); #endif __s = std::format(_GLIBCXX_WIDEN("{:02d}:00"), __hms.hours().count()); auto __sv = _S_two_digits(__hms.minutes().count()); __s[__s.size() - 2] = __sv[0]; __s[__s.size() - 1] = __sv[1]; __sv = __s; __out = __format::__write(std::move(__out), __sv); if (__secs) { *__out++ = _S_colon; __out = _M_S(__hms, std::move(__out), __ctx); } return __out; } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_S(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod = false) const { // %S Seconds as a decimal number. // %OS The locale's alternative representation. auto __hms = _S_hms(__t); if (__mod) [[unlikely]] // %OS { struct tm __tm{}; __tm.tm_sec = (int)__hms.seconds().count(); return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, 'S', 'O'); } if constexpr (__hms.fractional_width == 0) __out = __format::__write(std::move(__out), _S_two_digits(__hms.seconds().count())); else { locale __loc = _M_locale(__ctx); auto __s = __hms.seconds(); auto __ss = __hms.subseconds(); using rep = typename decltype(__ss)::rep; if constexpr (is_floating_point_v<rep>) { chrono::duration<rep> __fs = __s + __ss; __out = std::format_to(std::move(__out), __loc, _GLIBCXX_WIDEN("{:#0{}.{}Lf}"), __fs.count(), 3 + __hms.fractional_width, __hms.fractional_width); } else { const auto& __np = use_facet<numpunct<_CharT>>(__loc); __out = __format::__write(std::move(__out), _S_two_digits(__s.count())); *__out++ = __np.decimal_point(); if constexpr (is_integral_v<rep>) __out = std::format_to(std::move(__out), _GLIBCXX_WIDEN("{:0{}}"), __ss.count(), __hms.fractional_width); else { auto __str = std::format(_S_empty_spec, __ss.count()); __out = std::format_to(_GLIBCXX_WIDEN("{:0>{}s}"), __str, __hms.fractional_width); } } } return __out; } // %t handled in _M_format template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_u_w(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, _CharT __conv, bool __mod = false) const { // %u ISO weekday as a decimal number (1-7), where Monday is 1. // %Ou Locale's alternative numeric rep. // %w Weekday as a decimal number (0-6), where Sunday is 0. // %Ow Locale's alternative numeric rep. chrono::weekday __wd = _S_weekday(__t); if (__mod) [[unlikely]] { struct tm __tm{}; __tm.tm_wday = __wd.c_encoding(); return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, (char)__conv, 'O'); } unsigned __wdi = __conv == 'u' ? __wd.iso_encoding() : __wd.c_encoding(); const _CharT __d = _S_digit(__wdi); return __format::__write(std::move(__out), __string_view(&__d, 1)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_U_V_W(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, _CharT __conv, bool __mod = false) const { // %U Week number of the year as a decimal number, from first Sunday. // %OU Locale's alternative numeric rep. // %V ISO week-based week number as a decimal number. // %OV Locale's alternative numeric rep. // %W Week number of the year as a decimal number, from first Monday. // %OW Locale's alternative numeric rep. using namespace chrono; auto __d = _S_days(__t); using _TDays = decltype(__d); // Either sys_days or local_days. if (__mod) [[unlikely]] { const year_month_day __ymd(__d); const year __y = __ymd.year(); struct tm __tm{}; __tm.tm_year = (int)__y - 1900; __tm.tm_yday = (__d - _TDays(__y/January/1)).count(); __tm.tm_wday = weekday(__d).c_encoding(); return _M_locale_fmt(std::move(__out), _M_locale(__ctx), __tm, (char)__conv, 'O'); } _TDays __first; // First day of week 1. if (__conv == 'V') // W01 begins on Monday before first Thursday. { // Move to nearest Thursday: __d -= (weekday(__d) - Monday) - days(3); // ISO week of __t is number of weeks since January 1 of the // same year as that nearest Thursday. __first = _TDays(year_month_day(__d).year()/January/1); } else { year __y; if constexpr (requires { __t.year(); }) __y = __t.year(); else __y = year_month_day(__d).year(); const weekday __weekstart = __conv == 'U' ? Sunday : Monday; __first = _TDays(__y/January/__weekstart[1]); } auto __weeks = chrono::floor<weeks>(__d - __first); __string_view __sv = _S_two_digits(__weeks.count() + 1); return __format::__write(std::move(__out), __sv); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_x(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod = false) const { // %x Locale's date rep // %Ex Locale's alternative date representation. locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __date_reps[2]; __tp._M_date_formats(__date_reps); const _CharT* __rep = __date_reps[__mod]; if (!*__rep) return _M_D(__t, std::move(__out), __ctx); basic_string<_CharT> __fmt(_S_empty_spec); __fmt.insert(1u, 1u, _S_colon); __fmt.insert(2u, __rep); return std::vformat_to(std::move(__out), __fmt, std::make_format_args<_FormatContext>(__t)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_X(const _Tp& __tt, typename _FormatContext::iterator __out, _FormatContext& __ctx, bool __mod = false) const { // %X Locale's time rep // %EX Locale's alternative time representation. auto __t = _S_floor_seconds(__tt); locale __loc = _M_locale(__ctx); const auto& __tp = use_facet<__timepunct<_CharT>>(__loc); const _CharT* __time_reps[2]; __tp._M_time_formats(__time_reps); const _CharT* __rep = __time_reps[__mod]; if (!*__rep) return _M_R_T(__t, std::move(__out), __ctx, true); basic_string<_CharT> __fmt(_S_empty_spec); __fmt.insert(1u, 1u, _S_colon); __fmt.insert(2u, __rep); return std::vformat_to(std::move(__out), __fmt, std::make_format_args<_FormatContext>(__t)); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_z(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext&, bool __mod = false) const { using ::std::chrono::__detail::__utc_leap_second; using ::std::chrono::__detail::__local_time_fmt; auto __utc = __mod ? __string_view(_GLIBCXX_WIDEN("+00:00"), 6) : __string_view(_GLIBCXX_WIDEN("+0000"), 5); if constexpr (chrono::__is_time_point_v<_Tp>) { if constexpr (is_same_v<typename _Tp::clock, chrono::system_clock>) return __format::__write(std::move(__out), __utc); } else if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) { if (__t._M_offset_sec) { auto __sv = __utc; basic_string<_CharT> __s; if (*__t._M_offset_sec != 0s) { chrono:: hh_mm_ss __hms(*__t._M_offset_sec); __s = _S_plus_minus[__hms.is_negative()]; __s += _S_two_digits(__hms.hours().count()); if (__mod) __s += _S_colon; __s += _S_two_digits(__hms.minutes().count()); __sv = __s; } return __format::__write(std::move(__out), __sv); } } else if constexpr (__is_specialization_of<_Tp, __utc_leap_second>) return __format::__write(std::move(__out), __utc); __no_timezone_available(); } template<typename _Tp, typename _FormatContext> typename _FormatContext::iterator _M_Z(const _Tp& __t, typename _FormatContext::iterator __out, _FormatContext& __ctx) const { using ::std::chrono::__detail::__utc_leap_second; using ::std::chrono::__detail::__local_time_fmt; __string_view __utc(_GLIBCXX_WIDEN("UTC"), 3); if constexpr (chrono::__is_time_point_v<_Tp>) { if constexpr (is_same_v<typename _Tp::clock, chrono::system_clock>) return __format::__write(std::move(__out), __utc); } else if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) { if (__t._M_abbrev) { string_view __sv = *__t._M_abbrev; if constexpr (is_same_v<_CharT, char>) return __format::__write(std::move(__out), __sv); else { // TODO use resize_and_overwrite basic_string<_CharT> __ws(__sv.size(), _CharT()); auto& __ct = use_facet<ctype<_CharT>>(_M_locale(__ctx)); __ct.widen(__sv.begin(), __sv.end(), __ws.data()); __string_view __wsv = __ws; return __format::__write(std::move(__out), __wsv); } } } else if constexpr (__is_specialization_of<_Tp, __utc_leap_second>) return __format::__write(std::move(__out), __utc); __no_timezone_available(); } // %% handled in _M_format // A single digit character in the range '0'..'9'. static _CharT _S_digit(int __n) noexcept { // Extra 9s avoid past-the-end read on bad input. return _GLIBCXX_WIDEN("0123456789999999")[__n & 0xf]; } // A string view of two digit characters, "00".."99". static basic_string_view<_CharT> _S_two_digits(int __n) noexcept { return { _GLIBCXX_WIDEN("0001020304050607080910111213141516171819" "2021222324252627282930313233343536373839" "4041424344454647484950515253545556575859" "6061626364656667686970717273747576777879" "8081828384858687888990919293949596979899" "9999999999999999999999999999999999999999" "9999999999999999") + 2 * (__n & 0x7f), 2 }; } // Accessors for the components of chrono types: // Returns a hh_mm_ss. template<typename _Tp> static decltype(auto) _S_hms(const _Tp& __t) { using ::std::chrono::__detail::__utc_leap_second; using ::std::chrono::__detail::__local_time_fmt; if constexpr (__is_specialization_of<_Tp, chrono::hh_mm_ss>) return __t; else if constexpr (__is_specialization_of<_Tp, __utc_leap_second>) return __t._M_time; else if constexpr (chrono::__is_duration_v<_Tp>) return chrono::hh_mm_ss<_Tp>(__t); else if constexpr (chrono::__is_time_point_v<_Tp>) return chrono::hh_mm_ss(__t - chrono::floor<chrono::days>(__t)); else if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) return _S_hms(__t._M_time); else { __invalid_chrono_spec(); return chrono::hh_mm_ss<chrono::seconds>(); } } // Returns a sys_days or local_days. template<typename _Tp> static auto _S_days(const _Tp& __t) { using namespace chrono; using ::std::chrono::__detail::__utc_leap_second; using ::std::chrono::__detail::__local_time_fmt; if constexpr (__is_time_point_v<_Tp>) return chrono::floor<days>(__t); else if constexpr (__is_specialization_of<_Tp, __utc_leap_second>) return __t._M_date; else if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) return chrono::floor<days>(__t._M_time); else if constexpr (is_same_v<_Tp, year_month_day> || is_same_v<_Tp, year_month_day_last> || is_same_v<_Tp, year_month_weekday> || is_same_v<_Tp, year_month_weekday_last>) return sys_days(__t); else { if constexpr (__is_duration_v<_Tp>) __not_valid_for_duration(); else __invalid_chrono_spec(); return chrono::sys_days(); } } // Returns a year_month_day. template<typename _Tp> static chrono::year_month_day _S_date(const _Tp& __t) { if constexpr (is_same_v<_Tp, chrono::year_month_day>) return __t; else return chrono::year_month_day(_S_days(__t)); } template<typename _Tp> static chrono::day _S_day(const _Tp& __t) { using namespace chrono; if constexpr (is_same_v<_Tp, day>) return __t; else if constexpr (requires { __t.day(); }) return __t.day(); else return _S_date(__t).day(); } template<typename _Tp> static chrono::month _S_month(const _Tp& __t) { using namespace chrono; if constexpr (is_same_v<_Tp, month>) return __t; else if constexpr (requires { __t.month(); }) return __t.month(); else return _S_date(__t).month(); } template<typename _Tp> static chrono::year _S_year(const _Tp& __t) { using namespace chrono; if constexpr (is_same_v<_Tp, year>) return __t; else if constexpr (requires { __t.year(); }) return __t.year(); else return _S_date(__t).year(); } template<typename _Tp> static chrono::weekday _S_weekday(const _Tp& __t) { using namespace ::std::chrono; using ::std::chrono::__detail::__local_time_fmt; if constexpr (is_same_v<_Tp, weekday>) return __t; else if constexpr (requires { __t.weekday(); }) return __t.weekday(); else if constexpr (is_same_v<_Tp, month_weekday>) return __t.weekday_indexed().weekday(); else if constexpr (is_same_v<_Tp, month_weekday_last>) return __t.weekday_last().weekday(); else return weekday(_S_days(__t)); } // Remove subsecond precision from a time_point. template<typename _Tp> static auto _S_floor_seconds(const _Tp& __t) { using chrono::__detail::__local_time_fmt; if constexpr (chrono::__is_time_point_v<_Tp> || chrono::__is_duration_v<_Tp>) { if constexpr (_Tp::period::den != 1) return chrono::floor<chrono::seconds>(__t); else return __t; } else if constexpr (__is_specialization_of<_Tp, chrono::hh_mm_ss>) { if constexpr (_Tp::fractional_width != 0) return chrono::floor<chrono::seconds>(__t.to_duration()); else return __t; } else if constexpr (__is_specialization_of<_Tp, __local_time_fmt>) return _S_floor_seconds(__t._M_time); else return __t; } // Use the formatting locale's std::time_put facet to produce // a locale-specific representation. template<typename _Iter> _Iter _M_locale_fmt(_Iter __out, const locale& __loc, const struct tm& __tm, char __fmt, char __mod) const { basic_ostringstream<_CharT> __os; const auto& __tp = use_facet<time_put<_CharT>>(__loc); __tp.put(__os, __os, _S_space, &__tm, __fmt, __mod); if (__os) __out = __format::__write(std::move(__out), __os.view()); return __out; } }; } // namespace __format /// @endcond template<typename _Rep, typename _Period, typename _CharT> struct formatter<chrono::duration<_Rep, _Period>, _CharT> { constexpr typename basic_format_parse_context<_CharT>::iterator parse(basic_format_parse_context<_CharT>& __pc) { using namespace __format; auto __it = _M_f._M_parse(__pc, _Duration|_TimeOfDay); if constexpr (!is_floating_point_v<_Rep>) if (_M_f._M_spec._M_prec_kind != __format::_WP_none) __throw_format_error("format error: invalid precision for duration"); return __it; } template<typename _Out> typename basic_format_context<_Out, _CharT>::iterator format(const chrono::duration<_Rep, _Period>& __d, basic_format_context<_Out, _CharT>& __fc) const { if constexpr (numeric_limits<_Rep>::is_signed) if (__d < __d.zero()) return _M_f._M_format(-__d, __fc, true); return _M_f._M_format(__d, __fc, false); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::day, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Day); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::day& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::month, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Month); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::month& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Year); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::weekday, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Weekday); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::weekday& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::weekday_indexed, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Weekday); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::weekday_indexed& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::weekday_last, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Weekday); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::weekday_last& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::month_day, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Month|__format::_Day); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::month_day& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::month_day_last, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Month|__format::_Day); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::month_day_last& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::month_weekday, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Month|__format::_Weekday); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::month_weekday& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::month_weekday_last, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Month|__format::_Weekday); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::month_weekday_last& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year_month, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Year|__format::_Month); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year_month& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year_month_day, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Date); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year_month_day& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year_month_day_last, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Date); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year_month_day_last& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year_month_weekday, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Date); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year_month_weekday& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::year_month_weekday_last, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_Date); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::year_month_weekday_last& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Rep, typename _Period, typename _CharT> struct formatter<chrono::hh_mm_ss<chrono::duration<_Rep, _Period>>, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_TimeOfDay); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::hh_mm_ss<chrono::duration<_Rep, _Period>>& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; #if _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI template<typename _CharT> struct formatter<chrono::sys_info, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ChronoParts{}); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::sys_info& __i, _FormatContext& __fc) const { return _M_f._M_format(__i, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _CharT> struct formatter<chrono::local_info, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ChronoParts{}); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::local_info& __i, _FormatContext& __fc) const { return _M_f._M_format(__i, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; #endif template<typename _Duration, typename _CharT> struct formatter<chrono::sys_time<_Duration>, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { auto __next = _M_f._M_parse(__pc, __format::_ZonedDateTime); if constexpr (!__stream_insertable) if (_M_f._M_spec._M_chrono_specs.empty()) __format::__invalid_chrono_spec(); // chrono-specs can't be empty return __next; } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::sys_time<_Duration>& __t, _FormatContext& __fc) const { return _M_f._M_format(__t, __fc); } private: static constexpr bool __stream_insertable = requires (basic_ostream<_CharT>& __os, chrono::sys_time<_Duration> __t) { __os << __t; }; __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::utc_time<_Duration>, _CharT> : __format::__formatter_chrono<_CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ZonedDateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::utc_time<_Duration>& __t, _FormatContext& __fc) const { // Adjust by removing leap seconds to get equivalent sys_time. // We can't just use clock_cast because we want to know if the time // falls within a leap second insertion, and format seconds as "60". using chrono::__detail::__utc_leap_second; using chrono::seconds; using chrono::sys_time; 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) [[likely]] return _M_f._M_format(__s, __fc); else return _M_f._M_format(__utc_leap_second(__s), __fc); } private: friend formatter<chrono::__detail::__utc_leap_second<_Duration>, _CharT>; __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::tai_time<_Duration>, _CharT> : __format::__formatter_chrono<_CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ZonedDateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::tai_time<_Duration>& __t, _FormatContext& __fc) const { // Convert to __local_time_fmt with abbrev "TAI" and offset 0s. // Offset is 1970y/January/1 - 1958y/January/1 constexpr chrono::days __tai_offset = chrono::days(4383); using _CDur = common_type_t<_Duration, chrono::days>; chrono::local_time<_CDur> __lt(__t.time_since_epoch() - __tai_offset); const string __abbrev("TAI", 3); const chrono::seconds __off = 0s; const auto __lf = chrono::local_time_format(__lt, &__abbrev, &__off); return _M_f._M_format(__lf, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::gps_time<_Duration>, _CharT> : __format::__formatter_chrono<_CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ZonedDateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::gps_time<_Duration>& __t, _FormatContext& __fc) const { // Convert to __local_time_fmt with abbrev "GPS" and offset 0s. // Offset is 1980y/January/Sunday[1] - 1970y/January/1 constexpr chrono::days __gps_offset = chrono::days(3657); using _CDur = common_type_t<_Duration, chrono::days>; chrono::local_time<_CDur> __lt(__t.time_since_epoch() + __gps_offset); const string __abbrev("GPS", 3); const chrono::seconds __off = 0s; const auto __lf = chrono::local_time_format(__lt, &__abbrev, &__off); return _M_f._M_format(__lf, __fc); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::file_time<_Duration>, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ZonedDateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::file_time<_Duration>& __t, _FormatContext& __ctx) const { using namespace chrono; return _M_f._M_format(chrono::clock_cast<system_clock>(__t), __ctx); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::local_time<_Duration>, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_DateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::local_time<_Duration>& __t, _FormatContext& __ctx) const { return _M_f._M_format(__t, __ctx); } private: __format::__formatter_chrono<_CharT> _M_f; }; template<typename _Duration, typename _CharT> struct formatter<chrono::__detail::__local_time_fmt<_Duration>, _CharT> { template<typename _ParseContext> constexpr typename _ParseContext::iterator parse(_ParseContext& __pc) { return _M_f._M_parse(__pc, __format::_ZonedDateTime); } template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::__detail::__local_time_fmt<_Duration>& __t, _FormatContext& __ctx) const { return _M_f._M_format(__t, __ctx); } private: __format::__formatter_chrono<_CharT> _M_f; }; #if _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI template<typename _Duration, typename _TimeZonePtr, typename _CharT> struct formatter<chrono::zoned_time<_Duration, _TimeZonePtr>, _CharT> : formatter<chrono::__detail::__local_time_fmt<_Duration>, _CharT> { template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::zoned_time<_Duration, _TimeZonePtr>& __tp, _FormatContext& __ctx) const { using chrono::__detail::__local_time_fmt; using _Base = formatter<__local_time_fmt<_Duration>, _CharT>; const chrono::sys_info __info = __tp.get_info(); const auto __lf = chrono::local_time_format(__tp.get_local_time(), &__info.abbrev, &__info.offset); return _Base::format(__lf, __ctx); } }; #endif // Partial specialization needed for %c formatting of __utc_leap_second. template<typename _Duration, typename _CharT> struct formatter<chrono::__detail::__utc_leap_second<_Duration>, _CharT> : formatter<chrono::utc_time<_Duration>, _CharT> { template<typename _FormatContext> typename _FormatContext::iterator format(const chrono::__detail::__utc_leap_second<_Duration>& __t, _FormatContext& __fc) const { return this->_M_f._M_format(__t, __fc); } }; namespace chrono { /// @addtogroup chrono /// @{ // TODO: from_stream for duration #if 0 template<typename _CharT, typename _Traits, typename _Rep, typename _Period, typename _Alloc = allocator<_CharT>> basic_istream<_CharT, _Traits>& from_stream(basic_istream<_CharT, _Traits>& __is, const _CharT* __fmt, duration<_Rep, _Period>& __d, basic_string<_CharT, _Traits, _Alloc>* __abbrev = nullptr, minutes* __offset = nullptr) { } #endif template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const day& __d) { using _Ctx = __conditional_t<is_same_v<_CharT, char>, format_context, wformat_context>; using _Str = basic_string_view<_CharT>; _Str __s = _GLIBCXX_WIDEN("{:02d} is not a valid day"); if (__d.ok()) __s = __s.substr(0, 6); auto __u = (unsigned)__d; __os << std::vformat(__s, make_format_args<_Ctx>(__u)); return __os; } // TODO from_stream for day template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const month& __m) { using _Ctx = __conditional_t<is_same_v<_CharT, char>, format_context, wformat_context>; using _Str = basic_string_view<_CharT>; _Str __s = _GLIBCXX_WIDEN("{:L%b}{} is not a valid month"); if (__m.ok()) __os << std::vformat(__os.getloc(), __s.substr(0, 6), make_format_args<_Ctx>(__m)); else { auto __u = (unsigned)__m; __os << std::vformat(__s.substr(6), make_format_args<_Ctx>(__u)); } return __os; } // TODO from_stream for month template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year& __y) { using _Ctx = __conditional_t<is_same_v<_CharT, char>, format_context, wformat_context>; using _Str = basic_string_view<_CharT>; _Str __s = _GLIBCXX_WIDEN("-{:04d} is not a valid year"); if (__y.ok()) __s = __s.substr(0, 7); int __i = (int)__y; if (__i >= 0) [[likely]] __s.remove_prefix(1); else __i = -__i; __os << std::vformat(__s, make_format_args<_Ctx>(__i)); return __os; } // TODO from_stream for year template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const weekday& __wd) { using _Ctx = __conditional_t<is_same_v<_CharT, char>, format_context, wformat_context>; using _Str = basic_string_view<_CharT>; _Str __s = _GLIBCXX_WIDEN("{:L%a}{} is not a valid weekday"); if (__wd.ok()) __os << std::vformat(__os.getloc(), __s.substr(0, 6), make_format_args<_Ctx>(__wd)); else { auto __c = __wd.c_encoding(); __os << std::vformat(__s.substr(6), make_format_args<_Ctx>(__c)); } return __os; } // TODO from_stream for weekday template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const weekday_indexed& __wdi) { // The standard says to format wdi.weekday() and wdi.index() using // either "{:L}[{}]" or "{:L}[{} is not a valid index]". The {:L} spec // means to format the weekday using ostringstream, so just do that. basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __wdi.weekday(); const auto __i = __wdi.index(); if constexpr (is_same_v<_CharT, char>) __os2 << std::format("[{}", __i); else __os2 << std::format(L"[{}", __i); basic_string_view<_CharT> __s = _GLIBCXX_WIDEN(" is not a valid index]"); if (__i >= 1 && __i <= 5) __os2 << __s.back(); else __os2 << __s; __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const weekday_last& __wdl) { // As above, just write straight to a stringstream, as if by "{:L}[last]" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __wdl.weekday() << _GLIBCXX_WIDEN("[last]"); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const month_day& __md) { // As above, just write straight to a stringstream, as if by "{:L}/{}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __md.month(); if constexpr (is_same_v<_CharT, char>) __os2 << '/'; else __os2 << L'/'; __os2 << __md.day(); __os << __os2.view(); return __os; } // TODO from_stream for month_day template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const month_day_last& __mdl) { // As above, just write straight to a stringstream, as if by "{:L}/last" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __mdl.month(); if constexpr (is_same_v<_CharT, char>) __os2 << "/last"; else __os2 << L"/last"; __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const month_weekday& __mwd) { // As above, just write straight to a stringstream, as if by "{:L}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __mwd.month(); if constexpr (is_same_v<_CharT, char>) __os2 << '/'; else __os2 << L'/'; __os2 << __mwd.weekday_indexed(); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const month_weekday_last& __mwdl) { // As above, just write straight to a stringstream, as if by "{:L}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __mwdl.month(); if constexpr (is_same_v<_CharT, char>) __os2 << '/'; else __os2 << L'/'; __os2 << __mwdl.weekday_last(); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year_month& __ym) { // As above, just write straight to a stringstream, as if by "{}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __ym.year(); if constexpr (is_same_v<_CharT, char>) __os2 << '/'; else __os2 << L'/'; __os2 << __ym.month(); __os << __os2.view(); return __os; } // TODO from_stream for year_month template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year_month_day& __ymd) { using _Ctx = __conditional_t<is_same_v<_CharT, char>, format_context, wformat_context>; using _Str = basic_string_view<_CharT>; _Str __s = _GLIBCXX_WIDEN("{:%F} is not a valid date"); __os << std::vformat(__ymd.ok() ? __s.substr(0, 5) : __s, make_format_args<_Ctx>(__ymd)); return __os; } // TODO from_stream for year_month_day template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year_month_day_last& __ymdl) { // As above, just write straight to a stringstream, as if by "{}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); __os2 << __ymdl.year(); if constexpr (is_same_v<_CharT, char>) __os2 << '/'; else __os2 << L'/'; __os2 << __ymdl.month_day_last(); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year_month_weekday& __ymwd) { // As above, just write straight to a stringstream, as if by // "{}/{:L}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); _CharT __slash; if constexpr (is_same_v<_CharT, char>) __slash = '/'; else __slash = L'/'; __os2 << __ymwd.year() << __slash << __ymwd.month() << __slash << __ymwd.weekday_indexed(); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const year_month_weekday_last& __ymwdl) { // As above, just write straight to a stringstream, as if by // "{}/{:L}/{:L}" basic_stringstream<_CharT> __os2; __os2.imbue(__os.getloc()); _CharT __slash; if constexpr (is_same_v<_CharT, char>) __slash = '/'; else __slash = L'/'; __os2 << __ymwdl.year() << __slash << __ymwdl.month() << __slash << __ymwdl.weekday_last(); __os << __os2.view(); return __os; } template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const hh_mm_ss<_Duration>& __hms) { return __os << format(__os.getloc(), _GLIBCXX_WIDEN("{:L%T}"), __hms); } #if _GLIBCXX_USE_CXX11_ABI || ! _GLIBCXX_USE_DUAL_ABI /// Writes a sys_info object to an ostream in an unspecified format. template<typename _CharT, typename _Traits> basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const sys_info& __i) { __os << '[' << __i.begin << ',' << __i.end << ',' << hh_mm_ss(__i.offset) << ',' << __i.save << ',' << __i.abbrev << ']'; return __os; } /// Writes a local_info object to an ostream in an unspecified format. template<typename _CharT, typename _Traits> basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const local_info& __li) { __os << '['; if (__li.result == local_info::unique) __os << __li.first; else { if (__li.result == local_info::nonexistent) __os << "nonexistent"; else __os << "ambiguous"; __os << " local time between " << __li.first; __os << " and " << __li.second; } __os << ']'; return __os; } template<typename _CharT, typename _Traits, typename _Duration, typename _TimeZonePtr> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const zoned_time<_Duration, _TimeZonePtr>& __t) { __os << format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T %Z}"), __t); return __os; } #endif template<typename _CharT, typename _Traits, typename _Duration> requires (!treat_as_floating_point_v<typename _Duration::rep>) && ratio_less_v<typename _Duration::period, days::period> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const sys_time<_Duration>& __tp) { __os << std::format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T}"), __tp); return __os; } template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const sys_days& __dp) { __os << year_month_day{__dp}; return __os; } // TODO: from_stream for sys_time template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const utc_time<_Duration>& __t) { __os << std::format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T}"), __t); return __os; } // TODO: from_stream for utc_time template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const tai_time<_Duration>& __t) { __os << std::format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T}"), __t); return __os; } // TODO: from_stream for tai_time template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const gps_time<_Duration>& __t) { __os << std::format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T}"), __t); return __os; } // TODO: from_stream for gps_time template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const file_time<_Duration>& __t) { __os << std::format(__os.getloc(), _GLIBCXX_WIDEN("{:L%F %T}"), __t); return __os; } // TODO: from_stream for file_time template<typename _CharT, typename _Traits, typename _Duration> inline basic_ostream<_CharT, _Traits>& operator<<(basic_ostream<_CharT, _Traits>& __os, const local_time<_Duration>& __lt) { __os << sys_time<_Duration>{__lt.time_since_epoch()}; return __os; } // TODO: from_stream for local_time #undef _GLIBCXX_WIDEN /// @} group chrono } // namespace chrono _GLIBCXX_END_NAMESPACE_VERSION } // namespace std #endif // C++20 #endif //_GLIBCXX_CHRONO_IO_H