%PDF- %PDF-
Direktori : /lib/python3/dist-packages/pytz/ |
Current File : //lib/python3/dist-packages/pytz/tzinfo.py |
'''Base classes and helpers for building zone specific tzinfo classes''' from datetime import datetime, timedelta, tzinfo from bisect import bisect_right try: set except NameError: from sets import Set as set import pytz from pytz.exceptions import AmbiguousTimeError, NonExistentTimeError __all__ = [] _timedelta_cache = {} def memorized_timedelta(seconds): '''Create only one instance of each distinct timedelta''' try: return _timedelta_cache[seconds] except KeyError: delta = timedelta(seconds=seconds) _timedelta_cache[seconds] = delta return delta _epoch = datetime(1970, 1, 1, 0, 0) # datetime.utcfromtimestamp(0) _datetime_cache = {0: _epoch} def memorized_datetime(seconds): '''Create only one instance of each distinct datetime''' try: return _datetime_cache[seconds] except KeyError: # NB. We can't just do datetime.fromtimestamp(seconds, tz=timezone.utc).replace(tzinfo=None) # as this fails with negative values under Windows (Bug #90096) dt = _epoch + timedelta(seconds=seconds) _datetime_cache[seconds] = dt return dt _ttinfo_cache = {} def memorized_ttinfo(*args): '''Create only one instance of each distinct tuple''' try: return _ttinfo_cache[args] except KeyError: ttinfo = ( memorized_timedelta(args[0]), memorized_timedelta(args[1]), args[2] ) _ttinfo_cache[args] = ttinfo return ttinfo _notime = memorized_timedelta(0) def _to_seconds(td): '''Convert a timedelta to seconds''' return td.seconds + td.days * 24 * 60 * 60 class BaseTzInfo(tzinfo): # Overridden in subclass _utcoffset = None _tzname = None zone = None def __str__(self): return self.zone class StaticTzInfo(BaseTzInfo): '''A timezone that has a constant offset from UTC These timezones are rare, as most locations have changed their offset at some point in their history ''' def fromutc(self, dt): '''See datetime.tzinfo.fromutc''' if dt.tzinfo is not None and dt.tzinfo is not self: raise ValueError('fromutc: dt.tzinfo is not self') return (dt + self._utcoffset).replace(tzinfo=self) def utcoffset(self, dt, is_dst=None): '''See datetime.tzinfo.utcoffset is_dst is ignored for StaticTzInfo, and exists only to retain compatibility with DstTzInfo. ''' return self._utcoffset def dst(self, dt, is_dst=None): '''See datetime.tzinfo.dst is_dst is ignored for StaticTzInfo, and exists only to retain compatibility with DstTzInfo. ''' return _notime def tzname(self, dt, is_dst=None): '''See datetime.tzinfo.tzname is_dst is ignored for StaticTzInfo, and exists only to retain compatibility with DstTzInfo. ''' return self._tzname def localize(self, dt, is_dst=False): '''Convert naive time to local time''' if dt.tzinfo is not None: raise ValueError('Not naive datetime (tzinfo is already set)') return dt.replace(tzinfo=self) def normalize(self, dt, is_dst=False): '''Correct the timezone information on the given datetime. This is normally a no-op, as StaticTzInfo timezones never have ambiguous cases to correct: >>> from pytz import timezone >>> gmt = timezone('GMT') >>> isinstance(gmt, StaticTzInfo) True >>> dt = datetime(2011, 5, 8, 1, 2, 3, tzinfo=gmt) >>> gmt.normalize(dt) is dt True The supported method of converting between timezones is to use datetime.astimezone(). Currently normalize() also works: >>> la = timezone('America/Los_Angeles') >>> dt = la.localize(datetime(2011, 5, 7, 1, 2, 3)) >>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)' >>> gmt.normalize(dt).strftime(fmt) '2011-05-07 08:02:03 GMT (+0000)' ''' if dt.tzinfo is self: return dt if dt.tzinfo is None: raise ValueError('Naive time - no tzinfo set') return dt.astimezone(self) def __repr__(self): return '<StaticTzInfo %r>' % (self.zone,) def __reduce__(self): # Special pickle to zone remains a singleton and to cope with # database changes. return pytz._p, (self.zone,) class DstTzInfo(BaseTzInfo): '''A timezone that has a variable offset from UTC The offset might change if daylight saving time comes into effect, or at a point in history when the region decides to change their timezone definition. ''' # Overridden in subclass # Sorted list of DST transition times, UTC _utc_transition_times = None # [(utcoffset, dstoffset, tzname)] corresponding to # _utc_transition_times entries _transition_info = None zone = None # Set in __init__ _tzinfos = None _dst = None # DST offset def __init__(self, _inf=None, _tzinfos=None): if _inf: self._tzinfos = _tzinfos self._utcoffset, self._dst, self._tzname = _inf else: _tzinfos = {} self._tzinfos = _tzinfos self._utcoffset, self._dst, self._tzname = ( self._transition_info[0]) _tzinfos[self._transition_info[0]] = self for inf in self._transition_info[1:]: if inf not in _tzinfos: _tzinfos[inf] = self.__class__(inf, _tzinfos) def fromutc(self, dt): '''See datetime.tzinfo.fromutc''' if (dt.tzinfo is not None and getattr(dt.tzinfo, '_tzinfos', None) is not self._tzinfos): raise ValueError('fromutc: dt.tzinfo is not self') dt = dt.replace(tzinfo=None) idx = max(0, bisect_right(self._utc_transition_times, dt) - 1) inf = self._transition_info[idx] return (dt + inf[0]).replace(tzinfo=self._tzinfos[inf]) def normalize(self, dt): '''Correct the timezone information on the given datetime If date arithmetic crosses DST boundaries, the tzinfo is not magically adjusted. This method normalizes the tzinfo to the correct one. To test, first we need to do some setup >>> from pytz import timezone >>> utc = timezone('UTC') >>> eastern = timezone('US/Eastern') >>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)' We next create a datetime right on an end-of-DST transition point, the instant when the wallclocks are wound back one hour. >>> utc_dt = datetime(2002, 10, 27, 6, 0, 0, tzinfo=utc) >>> loc_dt = utc_dt.astimezone(eastern) >>> loc_dt.strftime(fmt) '2002-10-27 01:00:00 EST (-0500)' Now, if we subtract a few minutes from it, note that the timezone information has not changed. >>> before = loc_dt - timedelta(minutes=10) >>> before.strftime(fmt) '2002-10-27 00:50:00 EST (-0500)' But we can fix that by calling the normalize method >>> before = eastern.normalize(before) >>> before.strftime(fmt) '2002-10-27 01:50:00 EDT (-0400)' The supported method of converting between timezones is to use datetime.astimezone(). Currently, normalize() also works: >>> th = timezone('Asia/Bangkok') >>> am = timezone('Europe/Amsterdam') >>> dt = th.localize(datetime(2011, 5, 7, 1, 2, 3)) >>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)' >>> am.normalize(dt).strftime(fmt) '2011-05-06 20:02:03 CEST (+0200)' ''' if dt.tzinfo is None: raise ValueError('Naive time - no tzinfo set') # Convert dt in localtime to UTC offset = dt.tzinfo._utcoffset dt = dt.replace(tzinfo=None) dt = dt - offset # convert it back, and return it return self.fromutc(dt) def localize(self, dt, is_dst=False): '''Convert naive time to local time. This method should be used to construct localtimes, rather than passing a tzinfo argument to a datetime constructor. is_dst is used to determine the correct timezone in the ambigous period at the end of daylight saving time. >>> from pytz import timezone >>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)' >>> amdam = timezone('Europe/Amsterdam') >>> dt = datetime(2004, 10, 31, 2, 0, 0) >>> loc_dt1 = amdam.localize(dt, is_dst=True) >>> loc_dt2 = amdam.localize(dt, is_dst=False) >>> loc_dt1.strftime(fmt) '2004-10-31 02:00:00 CEST (+0200)' >>> loc_dt2.strftime(fmt) '2004-10-31 02:00:00 CET (+0100)' >>> str(loc_dt2 - loc_dt1) '1:00:00' Use is_dst=None to raise an AmbiguousTimeError for ambiguous times at the end of daylight saving time >>> try: ... loc_dt1 = amdam.localize(dt, is_dst=None) ... except AmbiguousTimeError: ... print('Ambiguous') Ambiguous is_dst defaults to False >>> amdam.localize(dt) == amdam.localize(dt, False) True is_dst is also used to determine the correct timezone in the wallclock times jumped over at the start of daylight saving time. >>> pacific = timezone('US/Pacific') >>> dt = datetime(2008, 3, 9, 2, 0, 0) >>> ploc_dt1 = pacific.localize(dt, is_dst=True) >>> ploc_dt2 = pacific.localize(dt, is_dst=False) >>> ploc_dt1.strftime(fmt) '2008-03-09 02:00:00 PDT (-0700)' >>> ploc_dt2.strftime(fmt) '2008-03-09 02:00:00 PST (-0800)' >>> str(ploc_dt2 - ploc_dt1) '1:00:00' Use is_dst=None to raise a NonExistentTimeError for these skipped times. >>> try: ... loc_dt1 = pacific.localize(dt, is_dst=None) ... except NonExistentTimeError: ... print('Non-existent') Non-existent ''' if dt.tzinfo is not None: raise ValueError('Not naive datetime (tzinfo is already set)') # Find the two best possibilities. possible_loc_dt = set() for delta in [timedelta(days=-1), timedelta(days=1)]: loc_dt = dt + delta idx = max(0, bisect_right( self._utc_transition_times, loc_dt) - 1) inf = self._transition_info[idx] tzinfo = self._tzinfos[inf] loc_dt = tzinfo.normalize(dt.replace(tzinfo=tzinfo)) if loc_dt.replace(tzinfo=None) == dt: possible_loc_dt.add(loc_dt) if len(possible_loc_dt) == 1: return possible_loc_dt.pop() # If there are no possibly correct timezones, we are attempting # to convert a time that never happened - the time period jumped # during the start-of-DST transition period. if len(possible_loc_dt) == 0: # If we refuse to guess, raise an exception. if is_dst is None: raise NonExistentTimeError(dt) # If we are forcing the pre-DST side of the DST transition, we # obtain the correct timezone by winding the clock forward a few # hours. elif is_dst: return self.localize( dt + timedelta(hours=6), is_dst=True) - timedelta(hours=6) # If we are forcing the post-DST side of the DST transition, we # obtain the correct timezone by winding the clock back. else: return self.localize( dt - timedelta(hours=6), is_dst=False) + timedelta(hours=6) # If we get this far, we have multiple possible timezones - this # is an ambiguous case occurring during the end-of-DST transition. # If told to be strict, raise an exception since we have an # ambiguous case if is_dst is None: raise AmbiguousTimeError(dt) # Filter out the possiblilities that don't match the requested # is_dst filtered_possible_loc_dt = [ p for p in possible_loc_dt if bool(p.tzinfo._dst) == is_dst ] # Hopefully we only have one possibility left. Return it. if len(filtered_possible_loc_dt) == 1: return filtered_possible_loc_dt[0] if len(filtered_possible_loc_dt) == 0: filtered_possible_loc_dt = list(possible_loc_dt) # If we get this far, we have in a wierd timezone transition # where the clocks have been wound back but is_dst is the same # in both (eg. Europe/Warsaw 1915 when they switched to CET). # At this point, we just have to guess unless we allow more # hints to be passed in (such as the UTC offset or abbreviation), # but that is just getting silly. # # Choose the earliest (by UTC) applicable timezone if is_dst=True # Choose the latest (by UTC) applicable timezone if is_dst=False # i.e., behave like end-of-DST transition dates = {} # utc -> local for local_dt in filtered_possible_loc_dt: utc_time = ( local_dt.replace(tzinfo=None) - local_dt.tzinfo._utcoffset) assert utc_time not in dates dates[utc_time] = local_dt return dates[[min, max][not is_dst](dates)] def utcoffset(self, dt, is_dst=None): '''See datetime.tzinfo.utcoffset The is_dst parameter may be used to remove ambiguity during DST transitions. >>> from pytz import timezone >>> tz = timezone('America/St_Johns') >>> ambiguous = datetime(2009, 10, 31, 23, 30) >>> str(tz.utcoffset(ambiguous, is_dst=False)) '-1 day, 20:30:00' >>> str(tz.utcoffset(ambiguous, is_dst=True)) '-1 day, 21:30:00' >>> try: ... tz.utcoffset(ambiguous) ... except AmbiguousTimeError: ... print('Ambiguous') Ambiguous ''' if dt is None: return None elif dt.tzinfo is not self: dt = self.localize(dt, is_dst) return dt.tzinfo._utcoffset else: return self._utcoffset def dst(self, dt, is_dst=None): '''See datetime.tzinfo.dst The is_dst parameter may be used to remove ambiguity during DST transitions. >>> from pytz import timezone >>> tz = timezone('America/St_Johns') >>> normal = datetime(2009, 9, 1) >>> str(tz.dst(normal)) '1:00:00' >>> str(tz.dst(normal, is_dst=False)) '1:00:00' >>> str(tz.dst(normal, is_dst=True)) '1:00:00' >>> ambiguous = datetime(2009, 10, 31, 23, 30) >>> str(tz.dst(ambiguous, is_dst=False)) '0:00:00' >>> str(tz.dst(ambiguous, is_dst=True)) '1:00:00' >>> try: ... tz.dst(ambiguous) ... except AmbiguousTimeError: ... print('Ambiguous') Ambiguous ''' if dt is None: return None elif dt.tzinfo is not self: dt = self.localize(dt, is_dst) return dt.tzinfo._dst else: return self._dst def tzname(self, dt, is_dst=None): '''See datetime.tzinfo.tzname The is_dst parameter may be used to remove ambiguity during DST transitions. >>> from pytz import timezone >>> tz = timezone('America/St_Johns') >>> normal = datetime(2009, 9, 1) >>> tz.tzname(normal) 'NDT' >>> tz.tzname(normal, is_dst=False) 'NDT' >>> tz.tzname(normal, is_dst=True) 'NDT' >>> ambiguous = datetime(2009, 10, 31, 23, 30) >>> tz.tzname(ambiguous, is_dst=False) 'NST' >>> tz.tzname(ambiguous, is_dst=True) 'NDT' >>> try: ... tz.tzname(ambiguous) ... except AmbiguousTimeError: ... print('Ambiguous') Ambiguous ''' if dt is None: return self.zone elif dt.tzinfo is not self: dt = self.localize(dt, is_dst) return dt.tzinfo._tzname else: return self._tzname def __repr__(self): if self._dst: dst = 'DST' else: dst = 'STD' if self._utcoffset > _notime: return '<DstTzInfo %r %s+%s %s>' % ( self.zone, self._tzname, self._utcoffset, dst ) else: return '<DstTzInfo %r %s%s %s>' % ( self.zone, self._tzname, self._utcoffset, dst ) def __reduce__(self): # Special pickle to zone remains a singleton and to cope with # database changes. return pytz._p, ( 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]