third_party/llvm-project/libcxx/include/__chrono/convert_to_tm.h - cobalt - Git at Google

 // -*- C++ -*-
 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef _LIBCPP___CHRONO_CONVERT_TO_TM_H
 #define _LIBCPP___CHRONO_CONVERT_TO_TM_H

 #include <__chrono/concepts.h>
 #include <__chrono/day.h>
 #include <__chrono/duration.h>
 #include <__chrono/hh_mm_ss.h>
 #include <__chrono/month.h>
 #include <__chrono/month_weekday.h>
 #include <__chrono/monthday.h>
 #include <__chrono/statically_widen.h>
 #include <__chrono/system_clock.h>
 #include <__chrono/time_point.h>
 #include <__chrono/weekday.h>
 #include <__chrono/year.h>
 #include <__chrono/year_month.h>
 #include <__chrono/year_month_day.h>
 #include <__chrono/year_month_weekday.h>
 #include <__concepts/same_as.h>
 #include <__config>
 #include <__format/format_error.h>
 #include <__memory/addressof.h>
 #include <cstdint>
 #include <ctime>
 #include <limits>

 #if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
 #  pragma GCC system_header
 #endif

 _LIBCPP_PUSH_MACROS
 #include <__undef_macros>

 _LIBCPP_BEGIN_NAMESPACE_STD

 #if _LIBCPP_STD_VER >= 20

 // Conerts a chrono date and weekday to a given _Tm type.
 //
 // This is an implementation detail for the function
 //   template <class _Tm, class _ChronoT>
 //   _Tm __convert_to_tm(const _ChronoT& __value)
 //
 // This manually converts the two values to the proper type. It is possible to
 // convert from sys_days to time_t and then to _Tm. But this leads to the Y2K
 // bug when time_t is a 32-bit signed integer. Chrono considers years beyond
 // the year 2038 valid, so instead do the transformation manually.
 template <class _Tm, class _Date>
   requires(same_as<_Date, chrono::year_month_day> || same_as<_Date, chrono::year_month_day_last>)
 _LIBCPP_HIDE_FROM_ABI _Tm __convert_to_tm(const _Date& __date, chrono::weekday __weekday) {
   _Tm __result = {};
 #  ifdef __GLIBC__
   __result.tm_zone = "UTC";
 #  endif
   __result.tm_year = static_cast<int>(__date.year()) - 1900;
   __result.tm_mon  = static_cast<unsigned>(__date.month()) - 1;
   __result.tm_mday = static_cast<unsigned>(__date.day());
   __result.tm_wday = static_cast<unsigned>(__weekday.c_encoding());
   __result.tm_yday =
       (static_cast<chrono::sys_days>(__date) -
        static_cast<chrono::sys_days>(chrono::year_month_day{__date.year(), chrono::January, chrono::day{1}}))
           .count();

   return __result;
 }

 // Convert a chrono (calendar) time point, or dururation to the given _Tm type,
 // which must have the same properties as std::tm.
 template <class _Tm, class _ChronoT>
 _LIBCPP_HIDE_FROM_ABI _Tm __convert_to_tm(const _ChronoT& __value) {
   _Tm __result = {};
 #  ifdef __GLIBC__
   __result.tm_zone = "UTC";
 #  endif

   if constexpr (__is_time_point<_ChronoT>) {
     if constexpr (same_as<typename _ChronoT::clock, chrono::system_clock>) {
       chrono::sys_days __days = chrono::time_point_cast<chrono::days>(__value);
       chrono::year_month_day __ymd{__days};

       __result = std::__convert_to_tm<_Tm>(chrono::year_month_day{__ymd}, chrono::weekday{__days});

       // TODO FMT D138826 has improvements for this part.
       // TODO FMT Since this is identical for duration and system time it would be good to avoid code duplication.
       uint64_t __sec =
           chrono::duration_cast<chrono::seconds>(__value - chrono::time_point_cast<chrono::seconds>(__days)).count();
       __sec %= 24 * 3600;
       __result.tm_hour = __sec / 3600;
       __sec %= 3600;
       __result.tm_min = __sec / 60;
       __result.tm_sec = __sec % 60;
     } else
       static_assert(sizeof(_ChronoT) == 0, "TODO: Add the missing clock specialization");
   } else if constexpr (chrono::__is_duration<_ChronoT>::value) {
     // [time.format]/6
     //   ...  However, if a flag refers to a "time of day" (e.g. %H, %I, %p,
     //   etc.), then a specialization of duration is interpreted as the time of
     //   day elapsed since midnight.
     uint64_t __sec = chrono::duration_cast<chrono::seconds>(__value).count();
     __sec %= 24 * 3600;
     __result.tm_hour = __sec / 3600;
     __sec %= 3600;
     __result.tm_min = __sec / 60;
     __result.tm_sec = __sec % 60;
   } else if constexpr (same_as<_ChronoT, chrono::day>)
     __result.tm_mday = static_cast<unsigned>(__value);
   else if constexpr (same_as<_ChronoT, chrono::month>)
     __result.tm_mon = static_cast<unsigned>(__value) - 1;
   else if constexpr (same_as<_ChronoT, chrono::year>)
     __result.tm_year = static_cast<int>(__value) - 1900;
   else if constexpr (same_as<_ChronoT, chrono::weekday>)
     __result.tm_wday = __value.c_encoding();
   else if constexpr (same_as<_ChronoT, chrono::weekday_indexed> || same_as<_ChronoT, chrono::weekday_last>)
     __result.tm_wday = __value.weekday().c_encoding();
   else if constexpr (same_as<_ChronoT, chrono::month_day>) {
     __result.tm_mday = static_cast<unsigned>(__value.day());
     __result.tm_mon  = static_cast<unsigned>(__value.month()) - 1;
   } else if constexpr (same_as<_ChronoT, chrono::month_day_last>) {
     __result.tm_mon = static_cast<unsigned>(__value.month()) - 1;
   } else if constexpr (same_as<_ChronoT, chrono::month_weekday> || same_as<_ChronoT, chrono::month_weekday_last>) {
     __result.tm_wday = __value.weekday_indexed().weekday().c_encoding();
     __result.tm_mon  = static_cast<unsigned>(__value.month()) - 1;
   } else if constexpr (same_as<_ChronoT, chrono::year_month>) {
     __result.tm_year = static_cast<int>(__value.year()) - 1900;
     __result.tm_mon  = static_cast<unsigned>(__value.month()) - 1;
   } else if constexpr (same_as<_ChronoT, chrono::year_month_day> || same_as<_ChronoT, chrono::year_month_day_last>) {
     return std::__convert_to_tm<_Tm>(
         chrono::year_month_day{__value}, chrono::weekday{static_cast<chrono::sys_days>(__value)});
   } else if constexpr (same_as<_ChronoT, chrono::year_month_weekday> ||
                        same_as<_ChronoT, chrono::year_month_weekday_last>) {
     return std::__convert_to_tm<_Tm>(chrono::year_month_day{static_cast<chrono::sys_days>(__value)}, __value.weekday());
   } else if constexpr (__is_hh_mm_ss<_ChronoT>) {
     __result.tm_sec = __value.seconds().count();
     __result.tm_min = __value.minutes().count();
     // In libc++ hours is stored as a long. The type in std::tm is an int. So
     // the overflow can only occur when hour uses more bits than an int
     // provides.
     if constexpr (sizeof(std::chrono::hours::rep) > sizeof(__result.tm_hour))
       if (__value.hours().count() > std::numeric_limits<decltype(__result.tm_hour)>::max())
         std::__throw_format_error("Formatting hh_mm_ss, encountered an hour overflow");
     __result.tm_hour = __value.hours().count();
   } else
     static_assert(sizeof(_ChronoT) == 0, "Add the missing type specialization");

   return __result;
 }

 #endif // if _LIBCPP_STD_VER >= 20

 _LIBCPP_END_NAMESPACE_STD

 _LIBCPP_POP_MACROS

 #endif // _LIBCPP___CHRONO_CONVERT_TO_TM_H
	// -- C++ --
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef _LIBCPP___CHRONO_CONVERT_TO_TM_H
	#define _LIBCPP___CHRONO_CONVERT_TO_TM_H

	#include <__chrono/concepts.h>
	#include <__chrono/day.h>
	#include <__chrono/duration.h>
	#include <__chrono/hh_mm_ss.h>
	#include <__chrono/month.h>
	#include <__chrono/month_weekday.h>
	#include <__chrono/monthday.h>
	#include <__chrono/statically_widen.h>
	#include <__chrono/system_clock.h>
	#include <__chrono/time_point.h>
	#include <__chrono/weekday.h>
	#include <__chrono/year.h>
	#include <__chrono/year_month.h>
	#include <__chrono/year_month_day.h>
	#include <__chrono/year_month_weekday.h>
	#include <__concepts/same_as.h>
	#include <__config>
	#include <__format/format_error.h>
	#include <__memory/addressof.h>
	#include <cstdint>
	#include <ctime>
	#include <limits>

	#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
	# pragma GCC system_header
	#endif

	_LIBCPP_PUSH_MACROS
	#include <__undef_macros>

	_LIBCPP_BEGIN_NAMESPACE_STD

	#if _LIBCPP_STD_VER >= 20

	// Conerts a chrono date and weekday to a given _Tm type.
	//
	// This is an implementation detail for the function
	// template <class _Tm, class _ChronoT>
	// _Tm __convert_to_tm(const _ChronoT& __value)
	//
	// This manually converts the two values to the proper type. It is possible to
	// convert from sys_days to time_t and then to _Tm. But this leads to the Y2K
	// bug when time_t is a 32-bit signed integer. Chrono considers years beyond
	// the year 2038 valid, so instead do the transformation manually.
	template <class _Tm, class _Date>
	requires(same_as<_Date, chrono::year_month_day> \|\| same_as<_Date, chrono::year_month_day_last>)
	_LIBCPP_HIDE_FROM_ABI _Tm __convert_to_tm(const _Date& __date, chrono::weekday __weekday) {
	_Tm __result = {};
	# ifdef __GLIBC__
	__result.tm_zone = "UTC";
	# endif
	__result.tm_year = static_cast<int>(__date.year()) - 1900;
	__result.tm_mon = static_cast<unsigned>(__date.month()) - 1;
	__result.tm_mday = static_cast<unsigned>(__date.day());
	__result.tm_wday = static_cast<unsigned>(__weekday.c_encoding());
	__result.tm_yday =
	(static_cast<chrono::sys_days>(__date) -
	static_cast<chrono::sys_days>(chrono::year_month_day{__date.year(), chrono::January, chrono::day{1}}))
	.count();

	return __result;
	}

	// Convert a chrono (calendar) time point, or dururation to the given _Tm type,
	// which must have the same properties as std::tm.
	template <class _Tm, class _ChronoT>
	_LIBCPP_HIDE_FROM_ABI _Tm __convert_to_tm(const _ChronoT& __value) {
	_Tm __result = {};
	# ifdef __GLIBC__
	__result.tm_zone = "UTC";
	# endif

	if constexpr (__is_time_point<_ChronoT>) {
	if constexpr (same_as<typename _ChronoT::clock, chrono::system_clock>) {
	chrono::sys_days __days = chrono::time_point_cast<chrono::days>(__value);
	chrono::year_month_day __ymd{__days};

	__result = std::__convert_to_tm<_Tm>(chrono::year_month_day{__ymd}, chrono::weekday{__days});

	// TODO FMT D138826 has improvements for this part.
	// TODO FMT Since this is identical for duration and system time it would be good to avoid code duplication.
	uint64_t __sec =
	chrono::duration_cast<chrono::seconds>(__value - chrono::time_point_cast<chrono::seconds>(__days)).count();
	__sec %= 24 * 3600;
	__result.tm_hour = __sec / 3600;
	__sec %= 3600;
	__result.tm_min = __sec / 60;
	__result.tm_sec = __sec % 60;
	} else
	static_assert(sizeof(_ChronoT) == 0, "TODO: Add the missing clock specialization");
	} else if constexpr (chrono::__is_duration<_ChronoT>::value) {
	// [time.format]/6
	// ... However, if a flag refers to a "time of day" (e.g. %H, %I, %p,
	// etc.), then a specialization of duration is interpreted as the time of
	// day elapsed since midnight.
	uint64_t __sec = chrono::duration_cast<chrono::seconds>(__value).count();
	__sec %= 24 * 3600;
	__result.tm_hour = __sec / 3600;
	__sec %= 3600;
	__result.tm_min = __sec / 60;
	__result.tm_sec = __sec % 60;
	} else if constexpr (same_as<_ChronoT, chrono::day>)
	__result.tm_mday = static_cast<unsigned>(__value);
	else if constexpr (same_as<_ChronoT, chrono::month>)
	__result.tm_mon = static_cast<unsigned>(__value) - 1;
	else if constexpr (same_as<_ChronoT, chrono::year>)
	__result.tm_year = static_cast<int>(__value) - 1900;
	else if constexpr (same_as<_ChronoT, chrono::weekday>)
	__result.tm_wday = __value.c_encoding();
	else if constexpr (same_as<_ChronoT, chrono::weekday_indexed> \|\| same_as<_ChronoT, chrono::weekday_last>)
	__result.tm_wday = __value.weekday().c_encoding();
	else if constexpr (same_as<_ChronoT, chrono::month_day>) {
	__result.tm_mday = static_cast<unsigned>(__value.day());
	__result.tm_mon = static_cast<unsigned>(__value.month()) - 1;
	} else if constexpr (same_as<_ChronoT, chrono::month_day_last>) {
	__result.tm_mon = static_cast<unsigned>(__value.month()) - 1;
	} else if constexpr (same_as<_ChronoT, chrono::month_weekday> \|\| same_as<_ChronoT, chrono::month_weekday_last>) {
	__result.tm_wday = __value.weekday_indexed().weekday().c_encoding();
	__result.tm_mon = static_cast<unsigned>(__value.month()) - 1;
	} else if constexpr (same_as<_ChronoT, chrono::year_month>) {
	__result.tm_year = static_cast<int>(__value.year()) - 1900;
	__result.tm_mon = static_cast<unsigned>(__value.month()) - 1;
	} else if constexpr (same_as<_ChronoT, chrono::year_month_day> \|\| same_as<_ChronoT, chrono::year_month_day_last>) {
	return std::__convert_to_tm<_Tm>(
	chrono::year_month_day{__value}, chrono::weekday{static_cast<chrono::sys_days>(__value)});
	} else if constexpr (same_as<_ChronoT, chrono::year_month_weekday> \|\|
	same_as<_ChronoT, chrono::year_month_weekday_last>) {
	return std::__convert_to_tm<_Tm>(chrono::year_month_day{static_cast<chrono::sys_days>(__value)}, __value.weekday());
	} else if constexpr (__is_hh_mm_ss<_ChronoT>) {
	__result.tm_sec = __value.seconds().count();
	__result.tm_min = __value.minutes().count();
	// In libc++ hours is stored as a long. The type in std::tm is an int. So
	// the overflow can only occur when hour uses more bits than an int
	// provides.
	if constexpr (sizeof(std::chrono::hours::rep) > sizeof(__result.tm_hour))
	if (__value.hours().count() > std::numeric_limits<decltype(__result.tm_hour)>::max())
	std::__throw_format_error("Formatting hh_mm_ss, encountered an hour overflow");
	__result.tm_hour = __value.hours().count();
	} else
	static_assert(sizeof(_ChronoT) == 0, "Add the missing type specialization");

	return __result;
	}

	#endif // if _LIBCPP_STD_VER >= 20

	_LIBCPP_END_NAMESPACE_STD

	_LIBCPP_POP_MACROS

	#endif // _LIBCPP___CHRONO_CONVERT_TO_TM_H