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#pragma once
#include <util/datetime/base.h>
#include <contrib/libs/cctz/include/cctz/civil_time.h>
#include <contrib/libs/cctz/include/cctz/time_zone.h>
#include <util/generic/strbuf.h>
#include <util/generic/string.h>
#include <util/generic/yexception.h>
#if __clang__ && __cpp_constexpr >= 201304
#define CONSTEXPR_M constexpr
#else
#define CONSTEXPR_M inline
#endif
namespace NDatetime {
/** Exception class which throws when time zone is not valid
*/
class TInvalidTimezone: public yexception {
};
using TSystemClock = std::chrono::system_clock;
using TTimePoint = std::chrono::time_point<TSystemClock>;
/*
* An opaque class representing past, present, and future rules of
* mapping between absolute and civil times in a given region.
* It is very lightweight and may be passed by value.
*/
using TTimeZone = cctz::time_zone;
using TCivilYear = cctz::civil_year;
using TCivilMonth = cctz::civil_month;
using TCivilDay = cctz::civil_day;
using TCivilHour = cctz::civil_hour;
using TCivilMinute = cctz::civil_minute;
using TCivilSecond = cctz::civil_second;
using TWeekday = cctz::weekday;
using TDiff = cctz::diff_t;
using TYear = cctz::year_t;
using TMonth = cctz::detail::month_t;
enum class ECivilUnit : int {
Second = 0,
Minute = 1,
Hour = 2,
Day = 3,
Month = 4,
Year = 5
};
namespace NDetail {
template <typename T>
struct TGetCivilUnit;
template <ECivilUnit Unit>
struct TGetCivilTime;
}
template <typename T>
CONSTEXPR_M ECivilUnit GetCivilUnit(const T& = {}) {
return NDetail::TGetCivilUnit<T>::Value;
}
template <ECivilUnit Unit>
using TCivilTime = typename NDetail::TGetCivilTime<Unit>::TResult;
/**
* Class with variable unit diff.
*/
struct TCivilDiff {
TDiff Value = 0;
ECivilUnit Unit = ECivilUnit::Second;
TCivilDiff() = default;
TCivilDiff(TDiff value, ECivilUnit unit)
: Value(value)
, Unit(unit)
{
}
/**
* Straightfoward implementation of operators <, == and unit conversions
* can be potentially misleading (e.g. 1 month == 30 days?);
* we leave it to user to implement it properly for each application.
*/
};
/**
* Gets the time zone by an IANA name.
* @param name A name in IANA format (e.g., "Europe/Moscow").
* @note After you request a time zone for the first time, it is cached
* in a (thread-safe) cache, so subsequent requests to the
* same time zone should be extremely fast.
* @throw TInvalidTimezone if the name is invalid.
* @see http://www.iana.org/time-zones
*/
TTimeZone GetTimeZone(TStringBuf name);
/**
*Helper for get timezone offset from timezone string
* Examples:
* "+01:30" -> 5400
* "-10" -> -36000
* "-0200" -> -7200
*/
bool TryParseOffset(TStringBuf name, int& offset);
/**
* Returns a time zone that is a fixed offset (seconds east) from UTC.
* Note: If the absolute value of the offset is greater than 24 hours
* you'll get UTC (i.e., zero offset) instead.
*/
TTimeZone GetFixedTimeZone(const long offset);
/** Convert civil time from one timezone to another
* @param[in] src is source time with 'from' timezone
* @param[in] from is a initial timezone
* @param[in] from is a destination timezone
* @return a civil time
*/
template <typename T>
T Convert(const T& src, const TTimeZone& from, const TTimeZone& to) {
return cctz::convert(cctz::convert(src, from), to);
}
/** Convert absolute time to civil time by rules from timezone.
* @param[in] absTime is an absolute time which is used to convert
* @param[in] tz is a loaded timezone
* @return a civil time
*
* Note: This function doesn't work properly for dates before 1 Jan 1970!
*/
TCivilSecond Convert(const TInstant& absTime, const TTimeZone& tz);
/** Convert absolute time to civil time by rules from timezone which will be loaded.
* @throw InvalidTimezone if the name is invalid.
* @param[in] absTime is an absolute time which is used to convert
* @param[in] tzName is a timezone name which will be loaded
* @return a civil time
*
* Note: This function doesn't work properly for dates before 1 Jan 1970!
*/
TCivilSecond Convert(const TInstant& absTime, TStringBuf tzName);
/** Convert a civil time to absolute by using rules from timezone
*
* Note: This function doesn't work properly for dates before 1 Jan 1970!
*/
TInstant Convert(const TCivilSecond& s, const TTimeZone& tz);
/** Just to simply calculations between dates/times.
* NDatetime::Calc<TCivilDay>(TCivilSecond(2001, 1, 1, 10, 10, 10), 5); // returns TCivilDay(2001, 1, 6);
* @param[in] tp is a timepoint with which calc will be
* @param[in] diff is quantity of which will be added (of type T) to the tp
* @return the calculated T type
*/
template <typename T, typename S>
inline T Calc(const S& tp, TDiff diff) {
return T(tp) + diff;
}
/** Non-template methods for adding dates/times.
* @param[in] tp is a timepoint with which calc will be
* @param[in] diff is quantity of which will be added to the tp
* @return the calculated TCivilSecond object
*/
TCivilSecond AddYears(const TCivilSecond& tp, TDiff diff);
TCivilSecond AddMonths(const TCivilSecond& tp, TDiff diff);
TCivilSecond AddDays(const TCivilSecond& tp, TDiff diff);
TCivilSecond AddHours(const TCivilSecond& tp, TDiff diff);
TCivilSecond AddMinutes(const TCivilSecond& tp, TDiff diff);
TCivilSecond AddSeconds(const TCivilSecond& tp, TDiff diff);
/** Method to add TCivilDiff
* @param[in] tp is a timepoint with which calc will be
* @param[in] diff is quantity of which will be added to the tp
* @return the calculated TCivilSecond object
*/
TCivilSecond AddCivil(const TCivilSecond& tp, TCivilDiff diff);
/** Method to subtract to civil dates/times and get TCivilDiff.
* First casts to unit, then subtracts;
* e.g. GetCivilDiff(2017-10-01, 2017-09-30, Month) = 1.
*
* @param[in] tpX is a timepoint
* @param[in] tpY is a timepoint to subtract from tpX
* @param[in] unit is a civil time unit to use in subtraction
* @return the calculated diff as TCivilDiff object
*/
TCivilDiff GetCivilDiff(const TCivilSecond& tpX, const TCivilSecond& tpY, ECivilUnit unit);
/** Formats the given TimePoint in the given TTimeZone according to
* the provided format string. Uses strftime()-like formatting options,
* with the following extensions:
*
* - %Ez - RFC3339-compatible numeric time zone (+hh:mm or -hh:mm)
* - %E#S - Seconds with # digits of fractional precision
* - %E*S - Seconds with full fractional precision (a literal '*')
* - %E#f - Fractional seconds with # digits of precision
* - %E*f - Fractional seconds with full precision (a literal '*')
* - %E4Y - Four-character years (-999 ... -001, 0000, 0001 ... 9999)
*
* Note that %E0S behaves like %S, and %E0f produces no characters. In
* contrast %E*f always produces at least one digit, which may be '0'.
*
* Note that %Y produces as many characters as it takes to fully render the
* year. A year outside of [-999:9999] when formatted with %E4Y will produce
* more than four characters, just like %Y.
*
* Tip: Format strings should include the UTC offset (e.g., %z or %Ez) so that
* the resultng string uniquely identifies an absolute time.
*
* Example:
* NDatetime::TTimeZone lax = NDatetime::GetTimeZone("America/Los_Angeles");
* NDatetime::TCivilSecond tp(2013, 1, 2, 3, 4, 5);
* TString f = NDatetime::Format("%H:%M:%S", tp, lax); // "03:04:05"
* TString f = NDatetime::Format("%H:%M:%E3S", tp, lax); //"03:04:05.000"
*/
template <typename TP>
TString Format(TStringBuf fmt, const TP& tp, const TTimeZone& tz) {
return TString(cctz::format(static_cast<std::string>(fmt), TTimePoint(cctz::convert(tp, tz)), tz));
}
/** Returns the weekday by day.
* @param[in] day is a given day
* @return a weekday (enum)
*/
CONSTEXPR_M TWeekday GetWeekday(const TCivilDay& day) noexcept {
return cctz::get_weekday(day);
}
/** Returns the weekday by day.
* @param[in] second is a given seconds
* @return a weekday (enum)
*/
CONSTEXPR_M TWeekday GetWeekday(const TCivilSecond& second) noexcept {
return cctz::get_weekday(second);
}
/** Returns the TCivilDay that strictly follows or precedes the given
* civil_day, and that falls on the given weekday.
* @code
For example, given:
August 2015
Su Mo Tu We Th Fr Sa
1
2 3 4 5 6 7 8
9 10 11 12 13 14 15
16 17 18 19 20 21 22
23 24 25 26 27 28 29
30 31
TCivilDay a(2015, 8, 13); // GetWeekday(a) == TWeekday::thursday
TCivilDay b = NextWeekday(a, TWeekday::thursday); // b = 2015-08-20
TCivilDay c = PrevWeekday(a, TWeekday::thursday); // c = 2015-08-06
TCivilDay d = NearestWeekday(a, TWeekday::thursday); // d = 2015-08-13
TCivilDay e = ...
// Gets the following Thursday if e is not already Thursday
TCivilDay thurs1 = PrevWeekday(e, TWeekday::thursday) + 7;
// Gets the previous Thursday if e is not already Thursday
TCivilDay thurs2 = NextWeekday(e, TWeekday::thursday) - 7;
* @endcode
* @see PrevWeekday()
* @see NearestWeekday()
* @param[in] cd is a current day
* @param[in] wd is a weekday which wanetd for find on next week
* @return a civil day on weekday next week
*/
CONSTEXPR_M TCivilDay NextWeekday(const TCivilDay& cd, TWeekday wd) noexcept {
return cctz::next_weekday(cd, wd);
}
/** Returns prev weekday. See the description of NextWeekday().
* @see NextWeekday()
* @see NearestWeekday()
* @param[in] cd is a current day
* @param[in] wd is a weekday which is looking for (backward)
* @return a first occurence of the given weekday (backward)
*/
CONSTEXPR_M TCivilDay PrevWeekday(const TCivilDay& cd, TWeekday wd) noexcept {
return cctz::prev_weekday(cd, wd);
}
/** Find a nearest occurence of the given weekday forward (could be current day).
* @see NextWeekday()
* @param[in] cd is a current day
* @param[in] wd is a weekday which is looking for (current day or later)
* @return first occurence (including current day) of the given weekday
*/
CONSTEXPR_M TCivilDay NearestWeekday(const TCivilDay& cd, TWeekday wd) noexcept {
return get_weekday(cd) != wd ? next_weekday(cd, wd) : cd;
}
/** Find the date of the given weekday within the given week.
* @param[in] cd is a current day
* @param[in] wd is a requested week day
* @return day within a week of a given day
*/
CONSTEXPR_M TCivilDay WeekdayOnTheWeek(const TCivilDay& cd, TWeekday wd) noexcept {
const auto d = get_weekday(cd);
if (d == wd)
return cd;
return d < wd ? NextWeekday(cd, wd) : PrevWeekday(cd, wd);
}
/** Returns an absolute day of year by given day.
*/
CONSTEXPR_M int GetYearDay(const TCivilDay& cd) noexcept {
return cctz::get_yearday(cd);
}
CONSTEXPR_M int DaysPerMonth(TYear year, TMonth month) noexcept {
return cctz::detail::impl::days_per_month(year, month);
}
CONSTEXPR_M int DaysPerYear(TYear year, TMonth month) noexcept {
return cctz::detail::impl::days_per_year(year, month);
}
/** Calculate week number for the given date
* @param[in] cd is a current day
* @param[in] usePreviousYear (optional) true if calculate week number from previous year
*
* The week number starts from 1 for the first week, where Thursday exist (see ISO8601), i.e.
* Jan 2021
* week# mo tu we th fr sa su
* 53 1 2 3
* 01 4 5 6 7 8 9 10
* 02 11 ...
* Jan 2020
* week# mo tu we th fr sa su
* 01 1 2 3 4 5
* 02 6 7 8 9 10 11...
*
* In case if you received zero value, you may call function again with usePreviousYear=true
* Also you may use usePreviousYear to calculate week difference between two dates in different year
*/
CONSTEXPR_M int GetYearWeek(const TCivilDay& cd, bool usePreviousYear = false) noexcept {
const auto jan1 = NDatetime::GetWeekday(NDatetime::TCivilDay{cd.year() - (usePreviousYear ? 1 : 0), 1, 1});
const auto daysCount = GetYearDay(cd) + (usePreviousYear ? DaysPerYear(cd.year()-1, 1) : 0);
return (daysCount + static_cast<int>(jan1) - 1) / 7 + (jan1 == cctz::weekday::monday || jan1 == cctz::weekday::tuesday || jan1 == cctz::weekday::wednesday);
}
}
#include "civil-inl.h"
#undef CONSTEXPR_M
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