mirror of
https://github.com/SickGear/SickGear.git
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e56303798c
Initial SickGear for Python 3.
564 lines
19 KiB
Python
564 lines
19 KiB
Python
'''Base classes and helpers for building zone specific tzinfo classes'''
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from datetime import datetime, timedelta, tzinfo
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from bisect import bisect_right
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try:
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set
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except NameError:
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from sets import Set as set
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import pytz
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from pytz.exceptions import AmbiguousTimeError, NonExistentTimeError
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__all__ = []
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_timedelta_cache = {}
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def memorized_timedelta(seconds):
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'''Create only one instance of each distinct timedelta'''
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try:
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return _timedelta_cache[seconds]
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except KeyError:
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delta = timedelta(seconds=seconds)
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_timedelta_cache[seconds] = delta
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return delta
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_epoch = datetime.utcfromtimestamp(0)
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_datetime_cache = {0: _epoch}
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def memorized_datetime(seconds):
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'''Create only one instance of each distinct datetime'''
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try:
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return _datetime_cache[seconds]
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except KeyError:
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# NB. We can't just do datetime.utcfromtimestamp(seconds) as this
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# fails with negative values under Windows (Bug #90096)
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dt = _epoch + timedelta(seconds=seconds)
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_datetime_cache[seconds] = dt
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return dt
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_ttinfo_cache = {}
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def memorized_ttinfo(*args):
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'''Create only one instance of each distinct tuple'''
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try:
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return _ttinfo_cache[args]
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except KeyError:
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ttinfo = (
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memorized_timedelta(args[0]),
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memorized_timedelta(args[1]),
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args[2]
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)
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_ttinfo_cache[args] = ttinfo
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return ttinfo
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_notime = memorized_timedelta(0)
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def _to_seconds(td):
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'''Convert a timedelta to seconds'''
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return td.seconds + td.days * 24 * 60 * 60
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class BaseTzInfo(tzinfo):
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# Overridden in subclass
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_utcoffset = None
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_tzname = None
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zone = None
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def __str__(self):
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return self.zone
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class StaticTzInfo(BaseTzInfo):
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'''A timezone that has a constant offset from UTC
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These timezones are rare, as most locations have changed their
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offset at some point in their history
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'''
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def fromutc(self, dt):
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'''See datetime.tzinfo.fromutc'''
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if dt.tzinfo is not None and dt.tzinfo is not self:
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raise ValueError('fromutc: dt.tzinfo is not self')
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return (dt + self._utcoffset).replace(tzinfo=self)
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def utcoffset(self, dt, is_dst=None):
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'''See datetime.tzinfo.utcoffset
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is_dst is ignored for StaticTzInfo, and exists only to
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retain compatibility with DstTzInfo.
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'''
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return self._utcoffset
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def dst(self, dt, is_dst=None):
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'''See datetime.tzinfo.dst
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is_dst is ignored for StaticTzInfo, and exists only to
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retain compatibility with DstTzInfo.
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'''
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return _notime
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def tzname(self, dt, is_dst=None):
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'''See datetime.tzinfo.tzname
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is_dst is ignored for StaticTzInfo, and exists only to
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retain compatibility with DstTzInfo.
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'''
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return self._tzname
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def localize(self, dt, is_dst=False):
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'''Convert naive time to local time'''
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if dt.tzinfo is not None:
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raise ValueError('Not naive datetime (tzinfo is already set)')
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return dt.replace(tzinfo=self)
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def normalize(self, dt, is_dst=False):
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'''Correct the timezone information on the given datetime.
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This is normally a no-op, as StaticTzInfo timezones never have
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ambiguous cases to correct:
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>>> from pytz import timezone
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>>> gmt = timezone('GMT')
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>>> isinstance(gmt, StaticTzInfo)
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True
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>>> dt = datetime(2011, 5, 8, 1, 2, 3, tzinfo=gmt)
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>>> gmt.normalize(dt) is dt
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True
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The supported method of converting between timezones is to use
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datetime.astimezone(). Currently normalize() also works:
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>>> la = timezone('America/Los_Angeles')
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>>> dt = la.localize(datetime(2011, 5, 7, 1, 2, 3))
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>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
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>>> gmt.normalize(dt).strftime(fmt)
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'2011-05-07 08:02:03 GMT (+0000)'
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'''
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if dt.tzinfo is self:
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return dt
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if dt.tzinfo is None:
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raise ValueError('Naive time - no tzinfo set')
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return dt.astimezone(self)
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def __repr__(self):
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return '<StaticTzInfo %r>' % (self.zone,)
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def __reduce__(self):
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# Special pickle to zone remains a singleton and to cope with
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# database changes.
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return pytz._p, (self.zone,)
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class DstTzInfo(BaseTzInfo):
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'''A timezone that has a variable offset from UTC
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The offset might change if daylight saving time comes into effect,
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or at a point in history when the region decides to change their
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timezone definition.
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'''
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# Overridden in subclass
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_utc_transition_times = None # Sorted list of DST transition times in UTC
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_transition_info = None # [(utcoffset, dstoffset, tzname)] corresponding
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# to _utc_transition_times entries
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zone = None
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# Set in __init__
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_tzinfos = None
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_dst = None # DST offset
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def __init__(self, _inf=None, _tzinfos=None):
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if _inf:
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self._tzinfos = _tzinfos
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self._utcoffset, self._dst, self._tzname = _inf
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else:
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_tzinfos = {}
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self._tzinfos = _tzinfos
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self._utcoffset, self._dst, self._tzname = self._transition_info[0]
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_tzinfos[self._transition_info[0]] = self
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for inf in self._transition_info[1:]:
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if inf not in _tzinfos:
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_tzinfos[inf] = self.__class__(inf, _tzinfos)
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def fromutc(self, dt):
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'''See datetime.tzinfo.fromutc'''
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if (dt.tzinfo is not None
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and getattr(dt.tzinfo, '_tzinfos', None) is not self._tzinfos):
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raise ValueError('fromutc: dt.tzinfo is not self')
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dt = dt.replace(tzinfo=None)
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idx = max(0, bisect_right(self._utc_transition_times, dt) - 1)
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inf = self._transition_info[idx]
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return (dt + inf[0]).replace(tzinfo=self._tzinfos[inf])
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def normalize(self, dt):
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'''Correct the timezone information on the given datetime
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If date arithmetic crosses DST boundaries, the tzinfo
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is not magically adjusted. This method normalizes the
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tzinfo to the correct one.
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To test, first we need to do some setup
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>>> from pytz import timezone
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>>> utc = timezone('UTC')
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>>> eastern = timezone('US/Eastern')
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>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
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We next create a datetime right on an end-of-DST transition point,
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the instant when the wallclocks are wound back one hour.
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>>> utc_dt = datetime(2002, 10, 27, 6, 0, 0, tzinfo=utc)
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>>> loc_dt = utc_dt.astimezone(eastern)
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>>> loc_dt.strftime(fmt)
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'2002-10-27 01:00:00 EST (-0500)'
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Now, if we subtract a few minutes from it, note that the timezone
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information has not changed.
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>>> before = loc_dt - timedelta(minutes=10)
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>>> before.strftime(fmt)
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'2002-10-27 00:50:00 EST (-0500)'
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But we can fix that by calling the normalize method
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>>> before = eastern.normalize(before)
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>>> before.strftime(fmt)
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'2002-10-27 01:50:00 EDT (-0400)'
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The supported method of converting between timezones is to use
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datetime.astimezone(). Currently, normalize() also works:
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>>> th = timezone('Asia/Bangkok')
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>>> am = timezone('Europe/Amsterdam')
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>>> dt = th.localize(datetime(2011, 5, 7, 1, 2, 3))
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>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
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>>> am.normalize(dt).strftime(fmt)
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'2011-05-06 20:02:03 CEST (+0200)'
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'''
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if dt.tzinfo is None:
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raise ValueError('Naive time - no tzinfo set')
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# Convert dt in localtime to UTC
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offset = dt.tzinfo._utcoffset
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dt = dt.replace(tzinfo=None)
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dt = dt - offset
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# convert it back, and return it
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return self.fromutc(dt)
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def localize(self, dt, is_dst=False):
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'''Convert naive time to local time.
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This method should be used to construct localtimes, rather
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than passing a tzinfo argument to a datetime constructor.
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is_dst is used to determine the correct timezone in the ambigous
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period at the end of daylight saving time.
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>>> from pytz import timezone
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>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
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>>> amdam = timezone('Europe/Amsterdam')
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>>> dt = datetime(2004, 10, 31, 2, 0, 0)
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>>> loc_dt1 = amdam.localize(dt, is_dst=True)
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>>> loc_dt2 = amdam.localize(dt, is_dst=False)
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>>> loc_dt1.strftime(fmt)
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'2004-10-31 02:00:00 CEST (+0200)'
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>>> loc_dt2.strftime(fmt)
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'2004-10-31 02:00:00 CET (+0100)'
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>>> str(loc_dt2 - loc_dt1)
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'1:00:00'
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Use is_dst=None to raise an AmbiguousTimeError for ambiguous
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times at the end of daylight saving time
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>>> try:
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... loc_dt1 = amdam.localize(dt, is_dst=None)
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... except AmbiguousTimeError:
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... print('Ambiguous')
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Ambiguous
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is_dst defaults to False
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>>> amdam.localize(dt) == amdam.localize(dt, False)
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True
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is_dst is also used to determine the correct timezone in the
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wallclock times jumped over at the start of daylight saving time.
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>>> pacific = timezone('US/Pacific')
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>>> dt = datetime(2008, 3, 9, 2, 0, 0)
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>>> ploc_dt1 = pacific.localize(dt, is_dst=True)
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>>> ploc_dt2 = pacific.localize(dt, is_dst=False)
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>>> ploc_dt1.strftime(fmt)
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'2008-03-09 02:00:00 PDT (-0700)'
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>>> ploc_dt2.strftime(fmt)
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'2008-03-09 02:00:00 PST (-0800)'
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>>> str(ploc_dt2 - ploc_dt1)
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'1:00:00'
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Use is_dst=None to raise a NonExistentTimeError for these skipped
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times.
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>>> try:
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... loc_dt1 = pacific.localize(dt, is_dst=None)
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... except NonExistentTimeError:
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... print('Non-existent')
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Non-existent
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'''
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if dt.tzinfo is not None:
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raise ValueError('Not naive datetime (tzinfo is already set)')
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# Find the two best possibilities.
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possible_loc_dt = set()
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for delta in [timedelta(days=-1), timedelta(days=1)]:
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loc_dt = dt + delta
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idx = max(0, bisect_right(
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self._utc_transition_times, loc_dt) - 1)
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inf = self._transition_info[idx]
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tzinfo = self._tzinfos[inf]
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loc_dt = tzinfo.normalize(dt.replace(tzinfo=tzinfo))
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if loc_dt.replace(tzinfo=None) == dt:
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possible_loc_dt.add(loc_dt)
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if len(possible_loc_dt) == 1:
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return possible_loc_dt.pop()
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# If there are no possibly correct timezones, we are attempting
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# to convert a time that never happened - the time period jumped
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# during the start-of-DST transition period.
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if len(possible_loc_dt) == 0:
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# If we refuse to guess, raise an exception.
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if is_dst is None:
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raise NonExistentTimeError(dt)
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# If we are forcing the pre-DST side of the DST transition, we
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# obtain the correct timezone by winding the clock forward a few
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# hours.
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elif is_dst:
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return self.localize(
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dt + timedelta(hours=6), is_dst=True) - timedelta(hours=6)
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# If we are forcing the post-DST side of the DST transition, we
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# obtain the correct timezone by winding the clock back.
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else:
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return self.localize(
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dt - timedelta(hours=6), is_dst=False) + timedelta(hours=6)
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# If we get this far, we have multiple possible timezones - this
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# is an ambiguous case occuring during the end-of-DST transition.
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# If told to be strict, raise an exception since we have an
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# ambiguous case
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if is_dst is None:
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raise AmbiguousTimeError(dt)
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# Filter out the possiblilities that don't match the requested
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# is_dst
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filtered_possible_loc_dt = [
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p for p in possible_loc_dt
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if bool(p.tzinfo._dst) == is_dst
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]
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# Hopefully we only have one possibility left. Return it.
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if len(filtered_possible_loc_dt) == 1:
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return filtered_possible_loc_dt[0]
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if len(filtered_possible_loc_dt) == 0:
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filtered_possible_loc_dt = list(possible_loc_dt)
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# If we get this far, we have in a wierd timezone transition
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# where the clocks have been wound back but is_dst is the same
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# in both (eg. Europe/Warsaw 1915 when they switched to CET).
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# At this point, we just have to guess unless we allow more
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# hints to be passed in (such as the UTC offset or abbreviation),
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# but that is just getting silly.
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#
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# Choose the earliest (by UTC) applicable timezone if is_dst=True
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# Choose the latest (by UTC) applicable timezone if is_dst=False
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# i.e., behave like end-of-DST transition
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dates = {} # utc -> local
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for local_dt in filtered_possible_loc_dt:
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utc_time = local_dt.replace(tzinfo=None) - local_dt.tzinfo._utcoffset
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assert utc_time not in dates
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dates[utc_time] = local_dt
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return dates[[min, max][not is_dst](dates)]
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def utcoffset(self, dt, is_dst=None):
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'''See datetime.tzinfo.utcoffset
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The is_dst parameter may be used to remove ambiguity during DST
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transitions.
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>>> from pytz import timezone
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>>> tz = timezone('America/St_Johns')
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>>> ambiguous = datetime(2009, 10, 31, 23, 30)
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>>> tz.utcoffset(ambiguous, is_dst=False)
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datetime.timedelta(-1, 73800)
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>>> tz.utcoffset(ambiguous, is_dst=True)
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datetime.timedelta(-1, 77400)
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>>> try:
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... tz.utcoffset(ambiguous)
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... except AmbiguousTimeError:
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... print('Ambiguous')
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Ambiguous
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'''
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if dt is None:
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return None
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elif dt.tzinfo is not self:
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dt = self.localize(dt, is_dst)
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return dt.tzinfo._utcoffset
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else:
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return self._utcoffset
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def dst(self, dt, is_dst=None):
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'''See datetime.tzinfo.dst
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The is_dst parameter may be used to remove ambiguity during DST
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transitions.
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>>> from pytz import timezone
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>>> tz = timezone('America/St_Johns')
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>>> normal = datetime(2009, 9, 1)
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>>> tz.dst(normal)
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datetime.timedelta(0, 3600)
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>>> tz.dst(normal, is_dst=False)
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datetime.timedelta(0, 3600)
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>>> tz.dst(normal, is_dst=True)
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datetime.timedelta(0, 3600)
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>>> ambiguous = datetime(2009, 10, 31, 23, 30)
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>>> tz.dst(ambiguous, is_dst=False)
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datetime.timedelta(0)
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>>> tz.dst(ambiguous, is_dst=True)
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datetime.timedelta(0, 3600)
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>>> try:
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... tz.dst(ambiguous)
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... except AmbiguousTimeError:
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... print('Ambiguous')
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Ambiguous
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'''
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if dt is None:
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return None
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elif dt.tzinfo is not self:
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dt = self.localize(dt, is_dst)
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return dt.tzinfo._dst
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else:
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return self._dst
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def tzname(self, dt, is_dst=None):
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'''See datetime.tzinfo.tzname
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The is_dst parameter may be used to remove ambiguity during DST
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transitions.
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>>> from pytz import timezone
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>>> tz = timezone('America/St_Johns')
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>>> normal = datetime(2009, 9, 1)
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>>> tz.tzname(normal)
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'NDT'
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>>> tz.tzname(normal, is_dst=False)
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'NDT'
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>>> tz.tzname(normal, is_dst=True)
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'NDT'
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>>> ambiguous = datetime(2009, 10, 31, 23, 30)
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>>> tz.tzname(ambiguous, is_dst=False)
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'NST'
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>>> tz.tzname(ambiguous, is_dst=True)
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'NDT'
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>>> try:
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... tz.tzname(ambiguous)
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... except AmbiguousTimeError:
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... print('Ambiguous')
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Ambiguous
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'''
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if dt is None:
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return self.zone
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elif dt.tzinfo is not self:
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dt = self.localize(dt, is_dst)
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return dt.tzinfo._tzname
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else:
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return self._tzname
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def __repr__(self):
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if self._dst:
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dst = 'DST'
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else:
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dst = 'STD'
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if self._utcoffset > _notime:
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return '<DstTzInfo %r %s+%s %s>' % (
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self.zone, self._tzname, self._utcoffset, dst
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)
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else:
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return '<DstTzInfo %r %s%s %s>' % (
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self.zone, self._tzname, self._utcoffset, dst
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)
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def __reduce__(self):
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# Special pickle to zone remains a singleton and to cope with
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# database changes.
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return pytz._p, (
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self.zone,
|
|
_to_seconds(self._utcoffset),
|
|
_to_seconds(self._dst),
|
|
self._tzname
|
|
)
|
|
|
|
|
|
|
|
def unpickler(zone, utcoffset=None, dstoffset=None, tzname=None):
|
|
"""Factory function for unpickling pytz tzinfo instances.
|
|
|
|
This is shared for both StaticTzInfo and DstTzInfo instances, because
|
|
database changes could cause a zones implementation to switch between
|
|
these two base classes and we can't break pickles on a pytz version
|
|
upgrade.
|
|
"""
|
|
# Raises a KeyError if zone no longer exists, which should never happen
|
|
# and would be a bug.
|
|
tz = pytz.timezone(zone)
|
|
|
|
# A StaticTzInfo - just return it
|
|
if utcoffset is None:
|
|
return tz
|
|
|
|
# This pickle was created from a DstTzInfo. We need to
|
|
# determine which of the list of tzinfo instances for this zone
|
|
# to use in order to restore the state of any datetime instances using
|
|
# it correctly.
|
|
utcoffset = memorized_timedelta(utcoffset)
|
|
dstoffset = memorized_timedelta(dstoffset)
|
|
try:
|
|
return tz._tzinfos[(utcoffset, dstoffset, tzname)]
|
|
except KeyError:
|
|
# The particular state requested in this timezone no longer exists.
|
|
# This indicates a corrupt pickle, or the timezone database has been
|
|
# corrected violently enough to make this particular
|
|
# (utcoffset,dstoffset) no longer exist in the zone, or the
|
|
# abbreviation has been changed.
|
|
pass
|
|
|
|
# See if we can find an entry differing only by tzname. Abbreviations
|
|
# get changed from the initial guess by the database maintainers to
|
|
# match reality when this information is discovered.
|
|
for localized_tz in tz._tzinfos.values():
|
|
if (localized_tz._utcoffset == utcoffset
|
|
and localized_tz._dst == dstoffset):
|
|
return localized_tz
|
|
|
|
# This (utcoffset, dstoffset) information has been removed from the
|
|
# zone. Add it back. This might occur when the database maintainers have
|
|
# corrected incorrect information. datetime instances using this
|
|
# incorrect information will continue to do so, exactly as they were
|
|
# before being pickled. This is purely an overly paranoid safety net - I
|
|
# doubt this will ever been needed in real life.
|
|
inf = (utcoffset, dstoffset, tzname)
|
|
tz._tzinfos[inf] = tz.__class__(inf, tz._tzinfos)
|
|
return tz._tzinfos[inf]
|