""" PHP date() style date formatting See http://www.php.net/date for format strings Usage: >>> import datetime >>> d = datetime.datetime.now() >>> df = DateFormat(d) >>> print(df.format('jS F Y H:i')) 7th October 2003 11:39 >>> """ import calendar import datetime import time from email.utils import format_datetime as format_datetime_rfc5322 from django.utils.dates import ( MONTHS, MONTHS_3, MONTHS_ALT, MONTHS_AP, WEEKDAYS, WEEKDAYS_ABBR, ) from django.utils.regex_helper import _lazy_re_compile from django.utils.timezone import ( get_default_timezone, is_aware, is_naive, make_aware, ) from django.utils.translation import gettext as _ re_formatchars = _lazy_re_compile(r'(? 11: return _('p.m.') return _('a.m.') def A(self): "'AM' or 'PM'" if self.data.hour > 11: return _('PM') return _('AM') def e(self): """ Timezone name. If timezone information is not available, return an empty string. """ if not self.timezone: return "" try: if hasattr(self.data, 'tzinfo') and self.data.tzinfo: return self.data.tzname() or '' except NotImplementedError: pass return "" def f(self): """ Time, in 12-hour hours and minutes, with minutes left off if they're zero. Examples: '1', '1:30', '2:05', '2' Proprietary extension. """ if self.data.minute == 0: return self.g() return '%s:%s' % (self.g(), self.i()) def g(self): "Hour, 12-hour format without leading zeros; i.e. '1' to '12'" return self.data.hour % 12 or 12 def G(self): "Hour, 24-hour format without leading zeros; i.e. '0' to '23'" return self.data.hour def h(self): "Hour, 12-hour format; i.e. '01' to '12'" return '%02d' % self.g() def H(self): "Hour, 24-hour format; i.e. '00' to '23'" return '%02d' % self.G() def i(self): "Minutes; i.e. '00' to '59'" return '%02d' % self.data.minute def O(self): # NOQA: E743, E741 """ Difference to Greenwich time in hours; e.g. '+0200', '-0430'. If timezone information is not available, return an empty string. """ if not self.timezone: return "" seconds = self.Z() if seconds == "": return "" sign = '-' if seconds < 0 else '+' seconds = abs(seconds) return "%s%02d%02d" % (sign, seconds // 3600, (seconds // 60) % 60) def P(self): """ Time, in 12-hour hours, minutes and 'a.m.'/'p.m.', with minutes left off if they're zero and the strings 'midnight' and 'noon' if appropriate. Examples: '1 a.m.', '1:30 p.m.', 'midnight', 'noon', '12:30 p.m.' Proprietary extension. """ if self.data.minute == 0 and self.data.hour == 0: return _('midnight') if self.data.minute == 0 and self.data.hour == 12: return _('noon') return '%s %s' % (self.f(), self.a()) def s(self): "Seconds; i.e. '00' to '59'" return '%02d' % self.data.second def T(self): """ Time zone of this machine; e.g. 'EST' or 'MDT'. If timezone information is not available, return an empty string. """ if not self.timezone: return "" name = None try: name = self.timezone.tzname(self.data) except Exception: # pytz raises AmbiguousTimeError during the autumn DST change. # This happens mainly when __init__ receives a naive datetime # and sets self.timezone = get_default_timezone(). pass if name is None: name = self.format('O') return str(name) def u(self): "Microseconds; i.e. '000000' to '999999'" return '%06d' % self.data.microsecond def Z(self): """ Time zone offset in seconds (i.e. '-43200' to '43200'). The offset for timezones west of UTC is always negative, and for those east of UTC is always positive. If timezone information is not available, return an empty string. """ if not self.timezone: return "" try: offset = self.timezone.utcoffset(self.data) except Exception: # pytz raises AmbiguousTimeError during the autumn DST change. # This happens mainly when __init__ receives a naive datetime # and sets self.timezone = get_default_timezone(). return "" # `offset` is a datetime.timedelta. For negative values (to the west of # UTC) only days can be negative (days=-1) and seconds are always # positive. e.g. UTC-1 -> timedelta(days=-1, seconds=82800, microseconds=0) # Positive offsets have days=0 return offset.days * 86400 + offset.seconds class DateFormat(TimeFormat): def b(self): "Month, textual, 3 letters, lowercase; e.g. 'jan'" return MONTHS_3[self.data.month] def c(self): """ ISO 8601 Format Example : '2008-01-02T10:30:00.000123' """ return self.data.isoformat() def d(self): "Day of the month, 2 digits with leading zeros; i.e. '01' to '31'" return '%02d' % self.data.day def D(self): "Day of the week, textual, 3 letters; e.g. 'Fri'" return WEEKDAYS_ABBR[self.data.weekday()] def E(self): "Alternative month names as required by some locales. Proprietary extension." return MONTHS_ALT[self.data.month] def F(self): "Month, textual, long; e.g. 'January'" return MONTHS[self.data.month] def I(self): # NOQA: E743, E741 "'1' if Daylight Savings Time, '0' otherwise." try: if self.timezone and self.timezone.dst(self.data): return '1' else: return '0' except Exception: # pytz raises AmbiguousTimeError during the autumn DST change. # This happens mainly when __init__ receives a naive datetime # and sets self.timezone = get_default_timezone(). return '' def j(self): "Day of the month without leading zeros; i.e. '1' to '31'" return self.data.day def l(self): # NOQA: E743, E741 "Day of the week, textual, long; e.g. 'Friday'" return WEEKDAYS[self.data.weekday()] def L(self): "Boolean for whether it is a leap year; i.e. True or False" return calendar.isleap(self.data.year) def m(self): "Month; i.e. '01' to '12'" return '%02d' % self.data.month def M(self): "Month, textual, 3 letters; e.g. 'Jan'" return MONTHS_3[self.data.month].title() def n(self): "Month without leading zeros; i.e. '1' to '12'" return self.data.month def N(self): "Month abbreviation in Associated Press style. Proprietary extension." return MONTHS_AP[self.data.month] def o(self): "ISO 8601 year number matching the ISO week number (W)" return self.data.isocalendar()[0] def r(self): "RFC 5322 formatted date; e.g. 'Thu, 21 Dec 2000 16:01:07 +0200'" if type(self.data) is datetime.date: raise TypeError( "The format for date objects may not contain time-related " "format specifiers (found 'r')." ) if is_naive(self.data): dt = make_aware(self.data, timezone=self.timezone) else: dt = self.data return format_datetime_rfc5322(dt) def S(self): "English ordinal suffix for the day of the month, 2 characters; i.e. 'st', 'nd', 'rd' or 'th'" if self.data.day in (11, 12, 13): # Special case return 'th' last = self.data.day % 10 if last == 1: return 'st' if last == 2: return 'nd' if last == 3: return 'rd' return 'th' def t(self): "Number of days in the given month; i.e. '28' to '31'" return '%02d' % calendar.monthrange(self.data.year, self.data.month)[1] def U(self): "Seconds since the Unix epoch (January 1 1970 00:00:00 GMT)" if isinstance(self.data, datetime.datetime) and is_aware(self.data): return int(calendar.timegm(self.data.utctimetuple())) else: return int(time.mktime(self.data.timetuple())) def w(self): "Day of the week, numeric, i.e. '0' (Sunday) to '6' (Saturday)" return (self.data.weekday() + 1) % 7 def W(self): "ISO-8601 week number of year, weeks starting on Monday" return self.data.isocalendar()[1] def y(self): """Year, 2 digits with leading zeros; e.g. '99'.""" return '%02d' % (self.data.year % 100) def Y(self): "Year, 4 digits; e.g. '1999'" return self.data.year def z(self): """Day of the year, i.e. 1 to 366.""" return self.data.timetuple().tm_yday def format(value, format_string): "Convenience function" df = DateFormat(value) return df.format(format_string) def time_format(value, format_string): "Convenience function" tf = TimeFormat(value) return tf.format(format_string)