# -*- coding: utf-8 -*- from __future__ import absolute_import from __future__ import division import calendar import datetime from typing import Optional from typing import TypeVar from typing import Union import pendulum from .constants import ATOM from .constants import COOKIE from .constants import MINUTES_PER_HOUR from .constants import MONTHS_PER_YEAR from .constants import RFC822 from .constants import RFC850 from .constants import RFC1036 from .constants import RFC1123 from .constants import RFC2822 from .constants import RSS from .constants import SATURDAY from .constants import SECONDS_PER_DAY from .constants import SECONDS_PER_MINUTE from .constants import SUNDAY from .constants import W3C from .constants import YEARS_PER_CENTURY from .constants import YEARS_PER_DECADE from .date import Date from .exceptions import PendulumException from .helpers import add_duration from .helpers import timestamp from .period import Period from .time import Time from .tz import UTC from .tz.timezone import Timezone from .utils._compat import _HAS_FOLD _D = TypeVar("_D", bound="DateTime") class DateTime(datetime.datetime, Date): EPOCH = None # type: DateTime # Formats _FORMATS = { "atom": ATOM, "cookie": COOKIE, "iso8601": lambda dt: dt.isoformat(), "rfc822": RFC822, "rfc850": RFC850, "rfc1036": RFC1036, "rfc1123": RFC1123, "rfc2822": RFC2822, "rfc3339": lambda dt: dt.isoformat(), "rss": RSS, "w3c": W3C, } _EPOCH = datetime.datetime(1970, 1, 1, tzinfo=UTC) _MODIFIERS_VALID_UNITS = [ "second", "minute", "hour", "day", "week", "month", "year", "decade", "century", ] if not _HAS_FOLD: def __new__( cls, year, month, day, hour=0, minute=0, second=0, microsecond=0, tzinfo=None, fold=0, ): self = datetime.datetime.__new__( cls, year, month, day, hour, minute, second, microsecond, tzinfo=tzinfo ) self._fold = fold return self @classmethod def now(cls, tz=None): # type: (Optional[Union[str, Timezone]]) -> DateTime """ Get a DateTime instance for the current date and time. """ return pendulum.now(tz) @classmethod def utcnow(cls): # type: () -> DateTime """ Get a DateTime instance for the current date and time in UTC. """ return pendulum.now(UTC) @classmethod def today(cls): # type: () -> DateTime return pendulum.now() @classmethod def strptime(cls, time, fmt): # type: (str, str) -> DateTime return pendulum.instance(datetime.datetime.strptime(time, fmt)) # Getters/Setters def set( self, year=None, month=None, day=None, hour=None, minute=None, second=None, microsecond=None, tz=None, ): if year is None: year = self.year if month is None: month = self.month if day is None: day = self.day if hour is None: hour = self.hour if minute is None: minute = self.minute if second is None: second = self.second if microsecond is None: microsecond = self.microsecond if tz is None: tz = self.tz return pendulum.datetime( year, month, day, hour, minute, second, microsecond, tz=tz ) if not _HAS_FOLD: @property def fold(self): return self._fold def timestamp(self): if self.tzinfo is None: s = timestamp(self) return s + self.microsecond / 1e6 else: kwargs = {"tzinfo": self.tzinfo} if _HAS_FOLD: kwargs["fold"] = self.fold dt = datetime.datetime( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, **kwargs ) return (dt - self._EPOCH).total_seconds() @property def float_timestamp(self): return self.timestamp() @property def int_timestamp(self): # Workaround needed to avoid inaccuracy # for far into the future datetimes kwargs = {"tzinfo": self.tzinfo} if _HAS_FOLD: kwargs["fold"] = self.fold dt = datetime.datetime( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, **kwargs ) delta = dt - self._EPOCH return delta.days * SECONDS_PER_DAY + delta.seconds @property def offset(self): return self.get_offset() @property def offset_hours(self): return self.get_offset() / SECONDS_PER_MINUTE / MINUTES_PER_HOUR @property def timezone(self): # type: () -> Optional[Timezone] if not isinstance(self.tzinfo, Timezone): return return self.tzinfo @property def tz(self): # type: () -> Optional[Timezone] return self.timezone @property def timezone_name(self): # type: () -> Optional[str] tz = self.timezone if tz is None: return None return tz.name @property def age(self): return self.date().diff(self.now(self.tz).date(), abs=False).in_years() def is_local(self): return self.offset == self.in_timezone(pendulum.local_timezone()).offset def is_utc(self): return self.offset == UTC.offset def is_dst(self): return self.dst() != datetime.timedelta() def get_offset(self): return int(self.utcoffset().total_seconds()) def date(self): return Date(self.year, self.month, self.day) def time(self): return Time(self.hour, self.minute, self.second, self.microsecond) def naive(self): # type: (_D) -> _D """ Return the DateTime without timezone information. """ return self.__class__( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, ) def on(self, year, month, day): """ Returns a new instance with the current date set to a different date. :param year: The year :type year: int :param month: The month :type month: int :param day: The day :type day: int :rtype: DateTime """ return self.set(year=int(year), month=int(month), day=int(day)) def at(self, hour, minute=0, second=0, microsecond=0): """ Returns a new instance with the current time to a different time. :param hour: The hour :type hour: int :param minute: The minute :type minute: int :param second: The second :type second: int :param microsecond: The microsecond :type microsecond: int :rtype: DateTime """ return self.set( hour=hour, minute=minute, second=second, microsecond=microsecond ) def in_timezone(self, tz): # type: (Union[str, Timezone]) -> DateTime """ Set the instance's timezone from a string or object. """ tz = pendulum._safe_timezone(tz) return tz.convert(self, dst_rule=pendulum.POST_TRANSITION) def in_tz(self, tz): # type: (Union[str, Timezone]) -> DateTime """ Set the instance's timezone from a string or object. """ return self.in_timezone(tz) # STRING FORMATTING def to_time_string(self): """ Format the instance as time. :rtype: str """ return self.format("HH:mm:ss") def to_datetime_string(self): """ Format the instance as date and time. :rtype: str """ return self.format("YYYY-MM-DD HH:mm:ss") def to_day_datetime_string(self): """ Format the instance as day, date and time (in english). :rtype: str """ return self.format("ddd, MMM D, YYYY h:mm A", locale="en") def to_atom_string(self): """ Format the instance as ATOM. :rtype: str """ return self._to_string("atom") def to_cookie_string(self): """ Format the instance as COOKIE. :rtype: str """ return self._to_string("cookie", locale="en") def to_iso8601_string(self): """ Format the instance as ISO 8601. :rtype: str """ string = self._to_string("iso8601") if self.tz and self.tz.name == "UTC": string = string.replace("+00:00", "Z") return string def to_rfc822_string(self): """ Format the instance as RFC 822. :rtype: str """ return self._to_string("rfc822") def to_rfc850_string(self): """ Format the instance as RFC 850. :rtype: str """ return self._to_string("rfc850") def to_rfc1036_string(self): """ Format the instance as RFC 1036. :rtype: str """ return self._to_string("rfc1036") def to_rfc1123_string(self): """ Format the instance as RFC 1123. :rtype: str """ return self._to_string("rfc1123") def to_rfc2822_string(self): """ Format the instance as RFC 2822. :rtype: str """ return self._to_string("rfc2822") def to_rfc3339_string(self): """ Format the instance as RFC 3339. :rtype: str """ return self._to_string("rfc3339") def to_rss_string(self): """ Format the instance as RSS. :rtype: str """ return self._to_string("rss") def to_w3c_string(self): """ Format the instance as W3C. :rtype: str """ return self._to_string("w3c") def _to_string(self, fmt, locale=None): """ Format the instance to a common string format. :param fmt: The name of the string format :type fmt: string :param locale: The locale to use :type locale: str or None :rtype: str """ if fmt not in self._FORMATS: raise ValueError("Format [{}] is not supported".format(fmt)) fmt = self._FORMATS[fmt] if callable(fmt): return fmt(self) return self.format(fmt, locale=locale) def __str__(self): return self.isoformat("T") def __repr__(self): us = "" if self.microsecond: us = ", {}".format(self.microsecond) repr_ = "{klass}(" "{year}, {month}, {day}, " "{hour}, {minute}, {second}{us}" if self.tzinfo is not None: repr_ += ", tzinfo={tzinfo}" repr_ += ")" return repr_.format( klass=self.__class__.__name__, year=self.year, month=self.month, day=self.day, hour=self.hour, minute=self.minute, second=self.second, us=us, tzinfo=self.tzinfo, ) # Comparisons def closest(self, dt1, dt2, *dts): """ Get the farthest date from the instance. :type dt1: datetime.datetime :type dt2: datetime.datetime :type dts: list[datetime.datetime,] :rtype: DateTime """ dt1 = pendulum.instance(dt1) dt2 = pendulum.instance(dt2) dts = [dt1, dt2] + [pendulum.instance(x) for x in dts] dts = [(abs(self - dt), dt) for dt in dts] return min(dts)[1] def farthest(self, dt1, dt2, *dts): """ Get the farthest date from the instance. :type dt1: datetime.datetime :type dt2: datetime.datetime :type dts: list[datetime.datetime,] :rtype: DateTime """ dt1 = pendulum.instance(dt1) dt2 = pendulum.instance(dt2) dts = [dt1, dt2] + [pendulum.instance(x) for x in dts] dts = [(abs(self - dt), dt) for dt in dts] return max(dts)[1] def is_future(self): """ Determines if the instance is in the future, ie. greater than now. :rtype: bool """ return self > self.now(self.timezone) def is_past(self): """ Determines if the instance is in the past, ie. less than now. :rtype: bool """ return self < self.now(self.timezone) def is_long_year(self): """ Determines if the instance is a long year See link `https://en.wikipedia.org/wiki/ISO_8601#Week_dates`_ :rtype: bool """ return ( pendulum.datetime(self.year, 12, 28, 0, 0, 0, tz=self.tz).isocalendar()[1] == 53 ) def is_same_day(self, dt): """ Checks if the passed in date is the same day as the instance current day. :type dt: DateTime or datetime or str or int :rtype: bool """ dt = pendulum.instance(dt) return self.to_date_string() == dt.to_date_string() def is_anniversary(self, dt=None): """ Check if its the anniversary. Compares the date/month values of the two dates. :rtype: bool """ if dt is None: dt = self.now(self.tz) instance = pendulum.instance(dt) return (self.month, self.day) == (instance.month, instance.day) # the additional method for checking if today is the anniversary day # the alias is provided to start using a new name and keep the backward compatibility # the old name can be completely replaced with the new in one of the future versions is_birthday = is_anniversary # ADDITIONS AND SUBSTRACTIONS def add( self, years=0, months=0, weeks=0, days=0, hours=0, minutes=0, seconds=0, microseconds=0, ): # type: (_D, int, int, int, int, int, int, int, int) -> _D """ Add a duration to the instance. If we're adding units of variable length (i.e., years, months), move forward from curren time, otherwise move forward from utc, for accuracy when moving across DST boundaries. """ units_of_variable_length = any([years, months, weeks, days]) current_dt = datetime.datetime( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, ) if not units_of_variable_length: offset = self.utcoffset() if offset: current_dt = current_dt - offset dt = add_duration( current_dt, years=years, months=months, weeks=weeks, days=days, hours=hours, minutes=minutes, seconds=seconds, microseconds=microseconds, ) if units_of_variable_length or self.tzinfo is None: return pendulum.datetime( dt.year, dt.month, dt.day, dt.hour, dt.minute, dt.second, dt.microsecond, tz=self.tz, ) dt = self.__class__( dt.year, dt.month, dt.day, dt.hour, dt.minute, dt.second, dt.microsecond, tzinfo=UTC, ) dt = self.tz.convert(dt) return self.__class__( dt.year, dt.month, dt.day, dt.hour, dt.minute, dt.second, dt.microsecond, tzinfo=self.tz, fold=dt.fold, ) def subtract( self, years=0, months=0, weeks=0, days=0, hours=0, minutes=0, seconds=0, microseconds=0, ): """ Remove duration from the instance. :param years: The number of years :type years: int :param months: The number of months :type months: int :param weeks: The number of weeks :type weeks: int :param days: The number of days :type days: int :param hours: The number of hours :type hours: int :param minutes: The number of minutes :type minutes: int :param seconds: The number of seconds :type seconds: int :param microseconds: The number of microseconds :type microseconds: int :rtype: DateTime """ return self.add( years=-years, months=-months, weeks=-weeks, days=-days, hours=-hours, minutes=-minutes, seconds=-seconds, microseconds=-microseconds, ) # Adding a final underscore to the method name # to avoid errors for PyPy which already defines # a _add_timedelta method def _add_timedelta_(self, delta): """ Add timedelta duration to the instance. :param delta: The timedelta instance :type delta: pendulum.Duration or datetime.timedelta :rtype: DateTime """ if isinstance(delta, pendulum.Period): return self.add( years=delta.years, months=delta.months, weeks=delta.weeks, days=delta.remaining_days, hours=delta.hours, minutes=delta.minutes, seconds=delta.remaining_seconds, microseconds=delta.microseconds, ) elif isinstance(delta, pendulum.Duration): return self.add( years=delta.years, months=delta.months, seconds=delta._total ) return self.add(seconds=delta.total_seconds()) def _subtract_timedelta(self, delta): """ Remove timedelta duration from the instance. :param delta: The timedelta instance :type delta: pendulum.Duration or datetime.timedelta :rtype: DateTime """ if isinstance(delta, pendulum.Duration): return self.subtract( years=delta.years, months=delta.months, seconds=delta._total ) return self.subtract(seconds=delta.total_seconds()) # DIFFERENCES def diff(self, dt=None, abs=True): """ Returns the difference between two DateTime objects represented as a Duration. :type dt: DateTime or None :param abs: Whether to return an absolute interval or not :type abs: bool :rtype: Period """ if dt is None: dt = self.now(self.tz) return Period(self, dt, absolute=abs) def diff_for_humans( self, other=None, # type: Optional[DateTime] absolute=False, # type: bool locale=None, # type: Optional[str] ): # type: (...) -> str """ Get the difference in a human readable format in the current locale. When comparing a value in the past to default now: 1 day ago 5 months ago When comparing a value in the future to default now: 1 day from now 5 months from now When comparing a value in the past to another value: 1 day before 5 months before When comparing a value in the future to another value: 1 day after 5 months after """ is_now = other is None if is_now: other = self.now() diff = self.diff(other) return pendulum.format_diff(diff, is_now, absolute, locale) # Modifiers def start_of(self, unit): """ Returns a copy of the instance with the time reset with the following rules: * second: microsecond set to 0 * minute: second and microsecond set to 0 * hour: minute, second and microsecond set to 0 * day: time to 00:00:00 * week: date to first day of the week and time to 00:00:00 * month: date to first day of the month and time to 00:00:00 * year: date to first day of the year and time to 00:00:00 * decade: date to first day of the decade and time to 00:00:00 * century: date to first day of century and time to 00:00:00 :param unit: The unit to reset to :type unit: str :rtype: DateTime """ if unit not in self._MODIFIERS_VALID_UNITS: raise ValueError('Invalid unit "{}" for start_of()'.format(unit)) return getattr(self, "_start_of_{}".format(unit))() def end_of(self, unit): """ Returns a copy of the instance with the time reset with the following rules: * second: microsecond set to 999999 * minute: second set to 59 and microsecond set to 999999 * hour: minute and second set to 59 and microsecond set to 999999 * day: time to 23:59:59.999999 * week: date to last day of the week and time to 23:59:59.999999 * month: date to last day of the month and time to 23:59:59.999999 * year: date to last day of the year and time to 23:59:59.999999 * decade: date to last day of the decade and time to 23:59:59.999999 * century: date to last day of century and time to 23:59:59.999999 :param unit: The unit to reset to :type unit: str :rtype: DateTime """ if unit not in self._MODIFIERS_VALID_UNITS: raise ValueError('Invalid unit "%s" for end_of()' % unit) return getattr(self, "_end_of_%s" % unit)() def _start_of_second(self): """ Reset microseconds to 0. :rtype: DateTime """ return self.set(microsecond=0) def _end_of_second(self): """ Set microseconds to 999999. :rtype: DateTime """ return self.set(microsecond=999999) def _start_of_minute(self): """ Reset seconds and microseconds to 0. :rtype: DateTime """ return self.set(second=0, microsecond=0) def _end_of_minute(self): """ Set seconds to 59 and microseconds to 999999. :rtype: DateTime """ return self.set(second=59, microsecond=999999) def _start_of_hour(self): """ Reset minutes, seconds and microseconds to 0. :rtype: DateTime """ return self.set(minute=0, second=0, microsecond=0) def _end_of_hour(self): """ Set minutes and seconds to 59 and microseconds to 999999. :rtype: DateTime """ return self.set(minute=59, second=59, microsecond=999999) def _start_of_day(self): """ Reset the time to 00:00:00 :rtype: DateTime """ return self.at(0, 0, 0, 0) def _end_of_day(self): """ Reset the time to 23:59:59.999999 :rtype: DateTime """ return self.at(23, 59, 59, 999999) def _start_of_month(self): """ Reset the date to the first day of the month and the time to 00:00:00. :rtype: DateTime """ return self.set(self.year, self.month, 1, 0, 0, 0, 0) def _end_of_month(self): """ Reset the date to the last day of the month and the time to 23:59:59.999999. :rtype: DateTime """ return self.set(self.year, self.month, self.days_in_month, 23, 59, 59, 999999) def _start_of_year(self): """ Reset the date to the first day of the year and the time to 00:00:00. :rtype: DateTime """ return self.set(self.year, 1, 1, 0, 0, 0, 0) def _end_of_year(self): """ Reset the date to the last day of the year and the time to 23:59:59.999999 :rtype: DateTime """ return self.set(self.year, 12, 31, 23, 59, 59, 999999) def _start_of_decade(self): """ Reset the date to the first day of the decade and the time to 00:00:00. :rtype: DateTime """ year = self.year - self.year % YEARS_PER_DECADE return self.set(year, 1, 1, 0, 0, 0, 0) def _end_of_decade(self): """ Reset the date to the last day of the decade and the time to 23:59:59.999999. :rtype: DateTime """ year = self.year - self.year % YEARS_PER_DECADE + YEARS_PER_DECADE - 1 return self.set(year, 12, 31, 23, 59, 59, 999999) def _start_of_century(self): """ Reset the date to the first day of the century and the time to 00:00:00. :rtype: DateTime """ year = self.year - 1 - (self.year - 1) % YEARS_PER_CENTURY + 1 return self.set(year, 1, 1, 0, 0, 0, 0) def _end_of_century(self): """ Reset the date to the last day of the century and the time to 23:59:59.999999. :rtype: DateTime """ year = self.year - 1 - (self.year - 1) % YEARS_PER_CENTURY + YEARS_PER_CENTURY return self.set(year, 12, 31, 23, 59, 59, 999999) def _start_of_week(self): """ Reset the date to the first day of the week and the time to 00:00:00. :rtype: DateTime """ dt = self if self.day_of_week != pendulum._WEEK_STARTS_AT: dt = self.previous(pendulum._WEEK_STARTS_AT) return dt.start_of("day") def _end_of_week(self): """ Reset the date to the last day of the week and the time to 23:59:59. :rtype: DateTime """ dt = self if self.day_of_week != pendulum._WEEK_ENDS_AT: dt = self.next(pendulum._WEEK_ENDS_AT) return dt.end_of("day") def next(self, day_of_week=None, keep_time=False): """ Modify to the next occurrence of a given day of the week. If no day_of_week is provided, modify to the next occurrence of the current day of the week. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :param day_of_week: The next day of week to reset to. :type day_of_week: int or None :param keep_time: Whether to keep the time information or not. :type keep_time: bool :rtype: DateTime """ if day_of_week is None: day_of_week = self.day_of_week if day_of_week < SUNDAY or day_of_week > SATURDAY: raise ValueError("Invalid day of week") if keep_time: dt = self else: dt = self.start_of("day") dt = dt.add(days=1) while dt.day_of_week != day_of_week: dt = dt.add(days=1) return dt def previous(self, day_of_week=None, keep_time=False): """ Modify to the previous occurrence of a given day of the week. If no day_of_week is provided, modify to the previous occurrence of the current day of the week. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :param day_of_week: The previous day of week to reset to. :type day_of_week: int or None :param keep_time: Whether to keep the time information or not. :type keep_time: bool :rtype: DateTime """ if day_of_week is None: day_of_week = self.day_of_week if day_of_week < SUNDAY or day_of_week > SATURDAY: raise ValueError("Invalid day of week") if keep_time: dt = self else: dt = self.start_of("day") dt = dt.subtract(days=1) while dt.day_of_week != day_of_week: dt = dt.subtract(days=1) return dt def first_of(self, unit, day_of_week=None): """ Returns an instance set to the first occurrence of a given day of the week in the current unit. If no day_of_week is provided, modify to the first day of the unit. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. Supported units are month, quarter and year. :param unit: The unit to use :type unit: str :type day_of_week: int or None :rtype: DateTime """ if unit not in ["month", "quarter", "year"]: raise ValueError('Invalid unit "{}" for first_of()'.format(unit)) return getattr(self, "_first_of_{}".format(unit))(day_of_week) def last_of(self, unit, day_of_week=None): """ Returns an instance set to the last occurrence of a given day of the week in the current unit. If no day_of_week is provided, modify to the last day of the unit. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. Supported units are month, quarter and year. :param unit: The unit to use :type unit: str :type day_of_week: int or None :rtype: DateTime """ if unit not in ["month", "quarter", "year"]: raise ValueError('Invalid unit "{}" for first_of()'.format(unit)) return getattr(self, "_last_of_{}".format(unit))(day_of_week) def nth_of(self, unit, nth, day_of_week): """ Returns a new instance set to the given occurrence of a given day of the week in the current unit. If the calculated occurrence is outside the scope of the current unit, then raise an error. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. Supported units are month, quarter and year. :param unit: The unit to use :type unit: str :type nth: int :type day_of_week: int or None :rtype: DateTime """ if unit not in ["month", "quarter", "year"]: raise ValueError('Invalid unit "{}" for first_of()'.format(unit)) dt = getattr(self, "_nth_of_{}".format(unit))(nth, day_of_week) if dt is False: raise PendulumException( "Unable to find occurence {} of {} in {}".format( nth, self._days[day_of_week], unit ) ) return dt def _first_of_month(self, day_of_week): """ Modify to the first occurrence of a given day of the week in the current month. If no day_of_week is provided, modify to the first day of the month. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int :rtype: DateTime """ dt = self.start_of("day") if day_of_week is None: return dt.set(day=1) month = calendar.monthcalendar(dt.year, dt.month) calendar_day = (day_of_week - 1) % 7 if month[0][calendar_day] > 0: day_of_month = month[0][calendar_day] else: day_of_month = month[1][calendar_day] return dt.set(day=day_of_month) def _last_of_month(self, day_of_week=None): """ Modify to the last occurrence of a given day of the week in the current month. If no day_of_week is provided, modify to the last day of the month. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int or None :rtype: DateTime """ dt = self.start_of("day") if day_of_week is None: return dt.set(day=self.days_in_month) month = calendar.monthcalendar(dt.year, dt.month) calendar_day = (day_of_week - 1) % 7 if month[-1][calendar_day] > 0: day_of_month = month[-1][calendar_day] else: day_of_month = month[-2][calendar_day] return dt.set(day=day_of_month) def _nth_of_month(self, nth, day_of_week): """ Modify to the given occurrence of a given day of the week in the current month. If the calculated occurrence is outside, the scope of the current month, then return False and no modifications are made. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type nth: int :type day_of_week: int or None :rtype: DateTime """ if nth == 1: return self.first_of("month", day_of_week) dt = self.first_of("month") check = dt.format("%Y-%M") for i in range(nth - (1 if dt.day_of_week == day_of_week else 0)): dt = dt.next(day_of_week) if dt.format("%Y-%M") == check: return self.set(day=dt.day).start_of("day") return False def _first_of_quarter(self, day_of_week=None): """ Modify to the first occurrence of a given day of the week in the current quarter. If no day_of_week is provided, modify to the first day of the quarter. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int or None :rtype: DateTime """ return self.on(self.year, self.quarter * 3 - 2, 1).first_of( "month", day_of_week ) def _last_of_quarter(self, day_of_week=None): """ Modify to the last occurrence of a given day of the week in the current quarter. If no day_of_week is provided, modify to the last day of the quarter. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int or None :rtype: DateTime """ return self.on(self.year, self.quarter * 3, 1).last_of("month", day_of_week) def _nth_of_quarter(self, nth, day_of_week): """ Modify to the given occurrence of a given day of the week in the current quarter. If the calculated occurrence is outside, the scope of the current quarter, then return False and no modifications are made. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type nth: int :type day_of_week: int or None :rtype: DateTime """ if nth == 1: return self.first_of("quarter", day_of_week) dt = self.set(day=1, month=self.quarter * 3) last_month = dt.month year = dt.year dt = dt.first_of("quarter") for i in range(nth - (1 if dt.day_of_week == day_of_week else 0)): dt = dt.next(day_of_week) if last_month < dt.month or year != dt.year: return False return self.on(self.year, dt.month, dt.day).start_of("day") def _first_of_year(self, day_of_week=None): """ Modify to the first occurrence of a given day of the week in the current year. If no day_of_week is provided, modify to the first day of the year. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int or None :rtype: DateTime """ return self.set(month=1).first_of("month", day_of_week) def _last_of_year(self, day_of_week=None): """ Modify to the last occurrence of a given day of the week in the current year. If no day_of_week is provided, modify to the last day of the year. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type day_of_week: int or None :rtype: DateTime """ return self.set(month=MONTHS_PER_YEAR).last_of("month", day_of_week) def _nth_of_year(self, nth, day_of_week): """ Modify to the given occurrence of a given day of the week in the current year. If the calculated occurrence is outside, the scope of the current year, then return False and no modifications are made. Use the supplied consts to indicate the desired day_of_week, ex. DateTime.MONDAY. :type nth: int :type day_of_week: int or None :rtype: DateTime """ if nth == 1: return self.first_of("year", day_of_week) dt = self.first_of("year") year = dt.year for i in range(nth - (1 if dt.day_of_week == day_of_week else 0)): dt = dt.next(day_of_week) if year != dt.year: return False return self.on(self.year, dt.month, dt.day).start_of("day") def average(self, dt=None): """ Modify the current instance to the average of a given instance (default now) and the current instance. :type dt: DateTime or datetime :rtype: DateTime """ if dt is None: dt = self.now(self.tz) diff = self.diff(dt, False) return self.add( microseconds=(diff.in_seconds() * 1000000 + diff.microseconds) // 2 ) def __sub__(self, other): if isinstance(other, datetime.timedelta): return self._subtract_timedelta(other) if not isinstance(other, datetime.datetime): return NotImplemented if not isinstance(other, self.__class__): if other.tzinfo is None: other = pendulum.naive( other.year, other.month, other.day, other.hour, other.minute, other.second, other.microsecond, ) else: other = pendulum.instance(other) return other.diff(self, False) def __rsub__(self, other): if not isinstance(other, datetime.datetime): return NotImplemented if not isinstance(other, self.__class__): if other.tzinfo is None: other = pendulum.naive( other.year, other.month, other.day, other.hour, other.minute, other.second, other.microsecond, ) else: other = pendulum.instance(other) return self.diff(other, False) def __add__(self, other): if not isinstance(other, datetime.timedelta): return NotImplemented return self._add_timedelta_(other) def __radd__(self, other): return self.__add__(other) # Native methods override @classmethod def fromtimestamp(cls, t, tz=None): return pendulum.instance(datetime.datetime.fromtimestamp(t, tz=tz), tz=tz) @classmethod def utcfromtimestamp(cls, t): return pendulum.instance(datetime.datetime.utcfromtimestamp(t), tz=None) @classmethod def fromordinal(cls, n): return pendulum.instance(datetime.datetime.fromordinal(n), tz=None) @classmethod def combine(cls, date, time): return pendulum.instance(datetime.datetime.combine(date, time), tz=None) def astimezone(self, tz=None): return pendulum.instance(super(DateTime, self).astimezone(tz)) def replace( self, year=None, month=None, day=None, hour=None, minute=None, second=None, microsecond=None, tzinfo=True, fold=None, ): if year is None: year = self.year if month is None: month = self.month if day is None: day = self.day if hour is None: hour = self.hour if minute is None: minute = self.minute if second is None: second = self.second if microsecond is None: microsecond = self.microsecond if tzinfo is True: tzinfo = self.tzinfo if fold is None: fold = self.fold transition_rule = pendulum.POST_TRANSITION if fold is not None: transition_rule = pendulum.PRE_TRANSITION if fold: transition_rule = pendulum.POST_TRANSITION return pendulum.datetime( year, month, day, hour, minute, second, microsecond, tz=tzinfo, dst_rule=transition_rule, ) def __getnewargs__(self): return (self,) def _getstate(self, protocol=3): return ( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, self.tzinfo, ) def __reduce__(self): return self.__reduce_ex__(2) def __reduce_ex__(self, protocol): return self.__class__, self._getstate(protocol) def _cmp(self, other, **kwargs): # Fix for pypy which compares using this method # which would lead to infinite recursion if we didn't override kwargs = {"tzinfo": self.tz} if _HAS_FOLD: kwargs["fold"] = self.fold dt = datetime.datetime( self.year, self.month, self.day, self.hour, self.minute, self.second, self.microsecond, **kwargs ) return 0 if dt == other else 1 if dt > other else -1 DateTime.min = DateTime(1, 1, 1, 0, 0, tzinfo=UTC) DateTime.max = DateTime(9999, 12, 31, 23, 59, 59, 999999, tzinfo=UTC) DateTime.EPOCH = DateTime(1970, 1, 1)