1797 lines
66 KiB
Python
1797 lines
66 KiB
Python
# -*- coding: utf-8 -*-
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"""
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babel.dates
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~~~~~~~~~~~
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Locale dependent formatting and parsing of dates and times.
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The default locale for the functions in this module is determined by the
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following environment variables, in that order:
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* ``LC_TIME``,
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* ``LC_ALL``, and
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* ``LANG``
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:copyright: (c) 2013-2021 by the Babel Team.
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:license: BSD, see LICENSE for more details.
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"""
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from __future__ import division
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import re
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import warnings
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import pytz as _pytz
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from datetime import date, datetime, time, timedelta
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from bisect import bisect_right
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from babel.core import default_locale, get_global, Locale
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from babel.util import UTC, LOCALTZ
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from babel._compat import string_types, integer_types, number_types, PY2
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# "If a given short metazone form is known NOT to be understood in a given
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# locale and the parent locale has this value such that it would normally
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# be inherited, the inheritance of this value can be explicitly disabled by
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# use of the 'no inheritance marker' as the value, which is 3 simultaneous [sic]
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# empty set characters ( U+2205 )."
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# - https://www.unicode.org/reports/tr35/tr35-dates.html#Metazone_Names
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NO_INHERITANCE_MARKER = u'\u2205\u2205\u2205'
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LC_TIME = default_locale('LC_TIME')
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# Aliases for use in scopes where the modules are shadowed by local variables
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date_ = date
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datetime_ = datetime
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time_ = time
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def _get_dt_and_tzinfo(dt_or_tzinfo):
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"""
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Parse a `dt_or_tzinfo` value into a datetime and a tzinfo.
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See the docs for this function's callers for semantics.
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:rtype: tuple[datetime, tzinfo]
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"""
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if dt_or_tzinfo is None:
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dt = datetime.now()
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tzinfo = LOCALTZ
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elif isinstance(dt_or_tzinfo, string_types):
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dt = None
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tzinfo = get_timezone(dt_or_tzinfo)
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elif isinstance(dt_or_tzinfo, integer_types):
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dt = None
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tzinfo = UTC
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elif isinstance(dt_or_tzinfo, (datetime, time)):
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dt = _get_datetime(dt_or_tzinfo)
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if dt.tzinfo is not None:
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tzinfo = dt.tzinfo
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else:
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tzinfo = UTC
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else:
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dt = None
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tzinfo = dt_or_tzinfo
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return dt, tzinfo
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def _get_tz_name(dt_or_tzinfo):
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"""
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Get the timezone name out of a time, datetime, or tzinfo object.
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:rtype: str
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"""
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dt, tzinfo = _get_dt_and_tzinfo(dt_or_tzinfo)
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if hasattr(tzinfo, 'zone'): # pytz object
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return tzinfo.zone
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elif hasattr(tzinfo, 'key') and tzinfo.key is not None: # ZoneInfo object
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return tzinfo.key
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else:
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return tzinfo.tzname(dt or datetime.utcnow())
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def _get_datetime(instant):
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"""
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Get a datetime out of an "instant" (date, time, datetime, number).
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.. warning:: The return values of this function may depend on the system clock.
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If the instant is None, the current moment is used.
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If the instant is a time, it's augmented with today's date.
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Dates are converted to naive datetimes with midnight as the time component.
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>>> _get_datetime(date(2015, 1, 1))
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datetime.datetime(2015, 1, 1, 0, 0)
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UNIX timestamps are converted to datetimes.
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>>> _get_datetime(1400000000)
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datetime.datetime(2014, 5, 13, 16, 53, 20)
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Other values are passed through as-is.
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>>> x = datetime(2015, 1, 1)
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>>> _get_datetime(x) is x
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True
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:param instant: date, time, datetime, integer, float or None
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:type instant: date|time|datetime|int|float|None
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:return: a datetime
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:rtype: datetime
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"""
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if instant is None:
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return datetime_.utcnow()
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elif isinstance(instant, integer_types) or isinstance(instant, float):
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return datetime_.utcfromtimestamp(instant)
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elif isinstance(instant, time):
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return datetime_.combine(date.today(), instant)
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elif isinstance(instant, date) and not isinstance(instant, datetime):
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return datetime_.combine(instant, time())
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# TODO (3.x): Add an assertion/type check for this fallthrough branch:
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return instant
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def _ensure_datetime_tzinfo(datetime, tzinfo=None):
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"""
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Ensure the datetime passed has an attached tzinfo.
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If the datetime is tz-naive to begin with, UTC is attached.
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If a tzinfo is passed in, the datetime is normalized to that timezone.
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>>> _ensure_datetime_tzinfo(datetime(2015, 1, 1)).tzinfo.zone
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'UTC'
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>>> tz = get_timezone("Europe/Stockholm")
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>>> _ensure_datetime_tzinfo(datetime(2015, 1, 1, 13, 15, tzinfo=UTC), tzinfo=tz).hour
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14
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:param datetime: Datetime to augment.
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:param tzinfo: Optional tznfo.
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:return: datetime with tzinfo
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:rtype: datetime
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"""
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if datetime.tzinfo is None:
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datetime = datetime.replace(tzinfo=UTC)
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if tzinfo is not None:
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datetime = datetime.astimezone(get_timezone(tzinfo))
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if hasattr(tzinfo, 'normalize'): # pytz
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datetime = tzinfo.normalize(datetime)
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return datetime
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def _get_time(time, tzinfo=None):
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"""
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Get a timezoned time from a given instant.
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.. warning:: The return values of this function may depend on the system clock.
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:param time: time, datetime or None
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:rtype: time
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"""
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if time is None:
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time = datetime.utcnow()
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elif isinstance(time, number_types):
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time = datetime.utcfromtimestamp(time)
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if time.tzinfo is None:
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time = time.replace(tzinfo=UTC)
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if isinstance(time, datetime):
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if tzinfo is not None:
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time = time.astimezone(tzinfo)
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if hasattr(tzinfo, 'normalize'): # pytz
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time = tzinfo.normalize(time)
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time = time.timetz()
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elif tzinfo is not None:
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time = time.replace(tzinfo=tzinfo)
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return time
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def get_timezone(zone=None):
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"""Looks up a timezone by name and returns it. The timezone object
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returned comes from ``pytz`` and corresponds to the `tzinfo` interface and
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can be used with all of the functions of Babel that operate with dates.
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If a timezone is not known a :exc:`LookupError` is raised. If `zone`
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is ``None`` a local zone object is returned.
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:param zone: the name of the timezone to look up. If a timezone object
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itself is passed in, mit's returned unchanged.
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"""
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if zone is None:
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return LOCALTZ
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if not isinstance(zone, string_types):
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return zone
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try:
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return _pytz.timezone(zone)
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except _pytz.UnknownTimeZoneError:
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raise LookupError('Unknown timezone %s' % zone)
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def get_next_timezone_transition(zone=None, dt=None):
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"""Given a timezone it will return a :class:`TimezoneTransition` object
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that holds the information about the next timezone transition that's going
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to happen. For instance this can be used to detect when the next DST
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change is going to happen and how it looks like.
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The transition is calculated relative to the given datetime object. The
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next transition that follows the date is used. If a transition cannot
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be found the return value will be `None`.
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Transition information can only be provided for timezones returned by
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the :func:`get_timezone` function.
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:param zone: the timezone for which the transition should be looked up.
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If not provided the local timezone is used.
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:param dt: the date after which the next transition should be found.
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If not given the current time is assumed.
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"""
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zone = get_timezone(zone)
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dt = _get_datetime(dt).replace(tzinfo=None)
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if not hasattr(zone, '_utc_transition_times'):
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raise TypeError('Given timezone does not have UTC transition '
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'times. This can happen because the operating '
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'system fallback local timezone is used or a '
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'custom timezone object')
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try:
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idx = max(0, bisect_right(zone._utc_transition_times, dt))
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old_trans = zone._transition_info[idx - 1]
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new_trans = zone._transition_info[idx]
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old_tz = zone._tzinfos[old_trans]
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new_tz = zone._tzinfos[new_trans]
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except (LookupError, ValueError):
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return None
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return TimezoneTransition(
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activates=zone._utc_transition_times[idx],
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from_tzinfo=old_tz,
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to_tzinfo=new_tz,
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reference_date=dt
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)
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class TimezoneTransition(object):
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"""A helper object that represents the return value from
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:func:`get_next_timezone_transition`.
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"""
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def __init__(self, activates, from_tzinfo, to_tzinfo, reference_date=None):
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#: the time of the activation of the timezone transition in UTC.
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self.activates = activates
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#: the timezone from where the transition starts.
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self.from_tzinfo = from_tzinfo
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#: the timezone for after the transition.
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self.to_tzinfo = to_tzinfo
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#: the reference date that was provided. This is the `dt` parameter
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#: to the :func:`get_next_timezone_transition`.
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self.reference_date = reference_date
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@property
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def from_tz(self):
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"""The name of the timezone before the transition."""
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return self.from_tzinfo._tzname
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@property
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def to_tz(self):
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"""The name of the timezone after the transition."""
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return self.to_tzinfo._tzname
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@property
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def from_offset(self):
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"""The UTC offset in seconds before the transition."""
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return int(self.from_tzinfo._utcoffset.total_seconds())
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@property
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def to_offset(self):
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"""The UTC offset in seconds after the transition."""
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return int(self.to_tzinfo._utcoffset.total_seconds())
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def __repr__(self):
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return '<TimezoneTransition %s -> %s (%s)>' % (
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self.from_tz,
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self.to_tz,
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self.activates,
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)
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def get_period_names(width='wide', context='stand-alone', locale=LC_TIME):
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"""Return the names for day periods (AM/PM) used by the locale.
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>>> get_period_names(locale='en_US')['am']
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u'AM'
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:param width: the width to use, one of "abbreviated", "narrow", or "wide"
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:param context: the context, either "format" or "stand-alone"
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:param locale: the `Locale` object, or a locale string
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"""
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return Locale.parse(locale).day_periods[context][width]
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def get_day_names(width='wide', context='format', locale=LC_TIME):
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"""Return the day names used by the locale for the specified format.
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>>> get_day_names('wide', locale='en_US')[1]
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u'Tuesday'
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>>> get_day_names('short', locale='en_US')[1]
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u'Tu'
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>>> get_day_names('abbreviated', locale='es')[1]
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u'mar.'
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>>> get_day_names('narrow', context='stand-alone', locale='de_DE')[1]
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u'D'
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:param width: the width to use, one of "wide", "abbreviated", "short" or "narrow"
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||
:param context: the context, either "format" or "stand-alone"
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:param locale: the `Locale` object, or a locale string
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||
"""
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return Locale.parse(locale).days[context][width]
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||
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||
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def get_month_names(width='wide', context='format', locale=LC_TIME):
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"""Return the month names used by the locale for the specified format.
|
||
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>>> get_month_names('wide', locale='en_US')[1]
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u'January'
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>>> get_month_names('abbreviated', locale='es')[1]
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u'ene.'
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>>> get_month_names('narrow', context='stand-alone', locale='de_DE')[1]
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u'J'
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:param width: the width to use, one of "wide", "abbreviated", or "narrow"
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:param context: the context, either "format" or "stand-alone"
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:param locale: the `Locale` object, or a locale string
|
||
"""
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||
return Locale.parse(locale).months[context][width]
|
||
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||
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def get_quarter_names(width='wide', context='format', locale=LC_TIME):
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"""Return the quarter names used by the locale for the specified format.
|
||
|
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>>> get_quarter_names('wide', locale='en_US')[1]
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u'1st quarter'
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>>> get_quarter_names('abbreviated', locale='de_DE')[1]
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u'Q1'
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>>> get_quarter_names('narrow', locale='de_DE')[1]
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u'1'
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||
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:param width: the width to use, one of "wide", "abbreviated", or "narrow"
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||
:param context: the context, either "format" or "stand-alone"
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:param locale: the `Locale` object, or a locale string
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||
"""
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return Locale.parse(locale).quarters[context][width]
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def get_era_names(width='wide', locale=LC_TIME):
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"""Return the era names used by the locale for the specified format.
|
||
|
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>>> get_era_names('wide', locale='en_US')[1]
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u'Anno Domini'
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>>> get_era_names('abbreviated', locale='de_DE')[1]
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u'n. Chr.'
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||
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||
:param width: the width to use, either "wide", "abbreviated", or "narrow"
|
||
:param locale: the `Locale` object, or a locale string
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||
"""
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||
return Locale.parse(locale).eras[width]
|
||
|
||
|
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def get_date_format(format='medium', locale=LC_TIME):
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"""Return the date formatting patterns used by the locale for the specified
|
||
format.
|
||
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>>> get_date_format(locale='en_US')
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<DateTimePattern u'MMM d, y'>
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>>> get_date_format('full', locale='de_DE')
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<DateTimePattern u'EEEE, d. MMMM y'>
|
||
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||
:param format: the format to use, one of "full", "long", "medium", or
|
||
"short"
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||
:param locale: the `Locale` object, or a locale string
|
||
"""
|
||
return Locale.parse(locale).date_formats[format]
|
||
|
||
|
||
def get_datetime_format(format='medium', locale=LC_TIME):
|
||
"""Return the datetime formatting patterns used by the locale for the
|
||
specified format.
|
||
|
||
>>> get_datetime_format(locale='en_US')
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||
u'{1}, {0}'
|
||
|
||
:param format: the format to use, one of "full", "long", "medium", or
|
||
"short"
|
||
:param locale: the `Locale` object, or a locale string
|
||
"""
|
||
patterns = Locale.parse(locale).datetime_formats
|
||
if format not in patterns:
|
||
format = None
|
||
return patterns[format]
|
||
|
||
|
||
def get_time_format(format='medium', locale=LC_TIME):
|
||
"""Return the time formatting patterns used by the locale for the specified
|
||
format.
|
||
|
||
>>> get_time_format(locale='en_US')
|
||
<DateTimePattern u'h:mm:ss a'>
|
||
>>> get_time_format('full', locale='de_DE')
|
||
<DateTimePattern u'HH:mm:ss zzzz'>
|
||
|
||
:param format: the format to use, one of "full", "long", "medium", or
|
||
"short"
|
||
:param locale: the `Locale` object, or a locale string
|
||
"""
|
||
return Locale.parse(locale).time_formats[format]
|
||
|
||
|
||
def get_timezone_gmt(datetime=None, width='long', locale=LC_TIME, return_z=False):
|
||
"""Return the timezone associated with the given `datetime` object formatted
|
||
as string indicating the offset from GMT.
|
||
|
||
>>> dt = datetime(2007, 4, 1, 15, 30)
|
||
>>> get_timezone_gmt(dt, locale='en')
|
||
u'GMT+00:00'
|
||
>>> get_timezone_gmt(dt, locale='en', return_z=True)
|
||
'Z'
|
||
>>> get_timezone_gmt(dt, locale='en', width='iso8601_short')
|
||
u'+00'
|
||
>>> tz = get_timezone('America/Los_Angeles')
|
||
>>> dt = tz.localize(datetime(2007, 4, 1, 15, 30))
|
||
>>> get_timezone_gmt(dt, locale='en')
|
||
u'GMT-07:00'
|
||
>>> get_timezone_gmt(dt, 'short', locale='en')
|
||
u'-0700'
|
||
>>> get_timezone_gmt(dt, locale='en', width='iso8601_short')
|
||
u'-07'
|
||
|
||
The long format depends on the locale, for example in France the acronym
|
||
UTC string is used instead of GMT:
|
||
|
||
>>> get_timezone_gmt(dt, 'long', locale='fr_FR')
|
||
u'UTC-07:00'
|
||
|
||
.. versionadded:: 0.9
|
||
|
||
:param datetime: the ``datetime`` object; if `None`, the current date and
|
||
time in UTC is used
|
||
:param width: either "long" or "short" or "iso8601" or "iso8601_short"
|
||
:param locale: the `Locale` object, or a locale string
|
||
:param return_z: True or False; Function returns indicator "Z"
|
||
when local time offset is 0
|
||
"""
|
||
datetime = _ensure_datetime_tzinfo(_get_datetime(datetime))
|
||
locale = Locale.parse(locale)
|
||
|
||
offset = datetime.tzinfo.utcoffset(datetime)
|
||
seconds = offset.days * 24 * 60 * 60 + offset.seconds
|
||
hours, seconds = divmod(seconds, 3600)
|
||
if return_z and hours == 0 and seconds == 0:
|
||
return 'Z'
|
||
elif seconds == 0 and width == 'iso8601_short':
|
||
return u'%+03d' % hours
|
||
elif width == 'short' or width == 'iso8601_short':
|
||
pattern = u'%+03d%02d'
|
||
elif width == 'iso8601':
|
||
pattern = u'%+03d:%02d'
|
||
else:
|
||
pattern = locale.zone_formats['gmt'] % '%+03d:%02d'
|
||
return pattern % (hours, seconds // 60)
|
||
|
||
|
||
def get_timezone_location(dt_or_tzinfo=None, locale=LC_TIME, return_city=False):
|
||
u"""Return a representation of the given timezone using "location format".
|
||
|
||
The result depends on both the local display name of the country and the
|
||
city associated with the time zone:
|
||
|
||
>>> tz = get_timezone('America/St_Johns')
|
||
>>> print(get_timezone_location(tz, locale='de_DE'))
|
||
Kanada (St. John’s) Zeit
|
||
>>> print(get_timezone_location(tz, locale='en'))
|
||
Canada (St. John’s) Time
|
||
>>> print(get_timezone_location(tz, locale='en', return_city=True))
|
||
St. John’s
|
||
>>> tz = get_timezone('America/Mexico_City')
|
||
>>> get_timezone_location(tz, locale='de_DE')
|
||
u'Mexiko (Mexiko-Stadt) Zeit'
|
||
|
||
If the timezone is associated with a country that uses only a single
|
||
timezone, just the localized country name is returned:
|
||
|
||
>>> tz = get_timezone('Europe/Berlin')
|
||
>>> get_timezone_name(tz, locale='de_DE')
|
||
u'Mitteleurop\\xe4ische Zeit'
|
||
|
||
.. versionadded:: 0.9
|
||
|
||
:param dt_or_tzinfo: the ``datetime`` or ``tzinfo`` object that determines
|
||
the timezone; if `None`, the current date and time in
|
||
UTC is assumed
|
||
:param locale: the `Locale` object, or a locale string
|
||
:param return_city: True or False, if True then return exemplar city (location)
|
||
for the time zone
|
||
:return: the localized timezone name using location format
|
||
|
||
"""
|
||
locale = Locale.parse(locale)
|
||
|
||
zone = _get_tz_name(dt_or_tzinfo)
|
||
|
||
# Get the canonical time-zone code
|
||
zone = get_global('zone_aliases').get(zone, zone)
|
||
|
||
info = locale.time_zones.get(zone, {})
|
||
|
||
# Otherwise, if there is only one timezone for the country, return the
|
||
# localized country name
|
||
region_format = locale.zone_formats['region']
|
||
territory = get_global('zone_territories').get(zone)
|
||
if territory not in locale.territories:
|
||
territory = 'ZZ' # invalid/unknown
|
||
territory_name = locale.territories[territory]
|
||
if not return_city and territory and len(get_global('territory_zones').get(territory, [])) == 1:
|
||
return region_format % territory_name
|
||
|
||
# Otherwise, include the city in the output
|
||
fallback_format = locale.zone_formats['fallback']
|
||
if 'city' in info:
|
||
city_name = info['city']
|
||
else:
|
||
metazone = get_global('meta_zones').get(zone)
|
||
metazone_info = locale.meta_zones.get(metazone, {})
|
||
if 'city' in metazone_info:
|
||
city_name = metazone_info['city']
|
||
elif '/' in zone:
|
||
city_name = zone.split('/', 1)[1].replace('_', ' ')
|
||
else:
|
||
city_name = zone.replace('_', ' ')
|
||
|
||
if return_city:
|
||
return city_name
|
||
return region_format % (fallback_format % {
|
||
'0': city_name,
|
||
'1': territory_name
|
||
})
|
||
|
||
|
||
def get_timezone_name(dt_or_tzinfo=None, width='long', uncommon=False,
|
||
locale=LC_TIME, zone_variant=None, return_zone=False):
|
||
r"""Return the localized display name for the given timezone. The timezone
|
||
may be specified using a ``datetime`` or `tzinfo` object.
|
||
|
||
>>> dt = time(15, 30, tzinfo=get_timezone('America/Los_Angeles'))
|
||
>>> get_timezone_name(dt, locale='en_US')
|
||
u'Pacific Standard Time'
|
||
>>> get_timezone_name(dt, locale='en_US', return_zone=True)
|
||
'America/Los_Angeles'
|
||
>>> get_timezone_name(dt, width='short', locale='en_US')
|
||
u'PST'
|
||
|
||
If this function gets passed only a `tzinfo` object and no concrete
|
||
`datetime`, the returned display name is indenpendent of daylight savings
|
||
time. This can be used for example for selecting timezones, or to set the
|
||
time of events that recur across DST changes:
|
||
|
||
>>> tz = get_timezone('America/Los_Angeles')
|
||
>>> get_timezone_name(tz, locale='en_US')
|
||
u'Pacific Time'
|
||
>>> get_timezone_name(tz, 'short', locale='en_US')
|
||
u'PT'
|
||
|
||
If no localized display name for the timezone is available, and the timezone
|
||
is associated with a country that uses only a single timezone, the name of
|
||
that country is returned, formatted according to the locale:
|
||
|
||
>>> tz = get_timezone('Europe/Berlin')
|
||
>>> get_timezone_name(tz, locale='de_DE')
|
||
u'Mitteleurop\xe4ische Zeit'
|
||
>>> get_timezone_name(tz, locale='pt_BR')
|
||
u'Hor\xe1rio da Europa Central'
|
||
|
||
On the other hand, if the country uses multiple timezones, the city is also
|
||
included in the representation:
|
||
|
||
>>> tz = get_timezone('America/St_Johns')
|
||
>>> get_timezone_name(tz, locale='de_DE')
|
||
u'Neufundland-Zeit'
|
||
|
||
Note that short format is currently not supported for all timezones and
|
||
all locales. This is partially because not every timezone has a short
|
||
code in every locale. In that case it currently falls back to the long
|
||
format.
|
||
|
||
For more information see `LDML Appendix J: Time Zone Display Names
|
||
<https://www.unicode.org/reports/tr35/#Time_Zone_Fallback>`_
|
||
|
||
.. versionadded:: 0.9
|
||
|
||
.. versionchanged:: 1.0
|
||
Added `zone_variant` support.
|
||
|
||
:param dt_or_tzinfo: the ``datetime`` or ``tzinfo`` object that determines
|
||
the timezone; if a ``tzinfo`` object is used, the
|
||
resulting display name will be generic, i.e.
|
||
independent of daylight savings time; if `None`, the
|
||
current date in UTC is assumed
|
||
:param width: either "long" or "short"
|
||
:param uncommon: deprecated and ignored
|
||
:param zone_variant: defines the zone variation to return. By default the
|
||
variation is defined from the datetime object
|
||
passed in. If no datetime object is passed in, the
|
||
``'generic'`` variation is assumed. The following
|
||
values are valid: ``'generic'``, ``'daylight'`` and
|
||
``'standard'``.
|
||
:param locale: the `Locale` object, or a locale string
|
||
:param return_zone: True or False. If true then function
|
||
returns long time zone ID
|
||
"""
|
||
dt, tzinfo = _get_dt_and_tzinfo(dt_or_tzinfo)
|
||
locale = Locale.parse(locale)
|
||
|
||
zone = _get_tz_name(dt_or_tzinfo)
|
||
|
||
if zone_variant is None:
|
||
if dt is None:
|
||
zone_variant = 'generic'
|
||
else:
|
||
dst = tzinfo.dst(dt)
|
||
if dst:
|
||
zone_variant = 'daylight'
|
||
else:
|
||
zone_variant = 'standard'
|
||
else:
|
||
if zone_variant not in ('generic', 'standard', 'daylight'):
|
||
raise ValueError('Invalid zone variation')
|
||
|
||
# Get the canonical time-zone code
|
||
zone = get_global('zone_aliases').get(zone, zone)
|
||
if return_zone:
|
||
return zone
|
||
info = locale.time_zones.get(zone, {})
|
||
# Try explicitly translated zone names first
|
||
if width in info:
|
||
if zone_variant in info[width]:
|
||
return info[width][zone_variant]
|
||
|
||
metazone = get_global('meta_zones').get(zone)
|
||
if metazone:
|
||
metazone_info = locale.meta_zones.get(metazone, {})
|
||
if width in metazone_info:
|
||
name = metazone_info[width].get(zone_variant)
|
||
if width == 'short' and name == NO_INHERITANCE_MARKER:
|
||
# If the short form is marked no-inheritance,
|
||
# try to fall back to the long name instead.
|
||
name = metazone_info.get('long', {}).get(zone_variant)
|
||
if name:
|
||
return name
|
||
|
||
# If we have a concrete datetime, we assume that the result can't be
|
||
# independent of daylight savings time, so we return the GMT offset
|
||
if dt is not None:
|
||
return get_timezone_gmt(dt, width=width, locale=locale)
|
||
|
||
return get_timezone_location(dt_or_tzinfo, locale=locale)
|
||
|
||
|
||
def format_date(date=None, format='medium', locale=LC_TIME):
|
||
"""Return a date formatted according to the given pattern.
|
||
|
||
>>> d = date(2007, 4, 1)
|
||
>>> format_date(d, locale='en_US')
|
||
u'Apr 1, 2007'
|
||
>>> format_date(d, format='full', locale='de_DE')
|
||
u'Sonntag, 1. April 2007'
|
||
|
||
If you don't want to use the locale default formats, you can specify a
|
||
custom date pattern:
|
||
|
||
>>> format_date(d, "EEE, MMM d, ''yy", locale='en')
|
||
u"Sun, Apr 1, '07"
|
||
|
||
:param date: the ``date`` or ``datetime`` object; if `None`, the current
|
||
date is used
|
||
:param format: one of "full", "long", "medium", or "short", or a custom
|
||
date/time pattern
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
if date is None:
|
||
date = date_.today()
|
||
elif isinstance(date, datetime):
|
||
date = date.date()
|
||
|
||
locale = Locale.parse(locale)
|
||
if format in ('full', 'long', 'medium', 'short'):
|
||
format = get_date_format(format, locale=locale)
|
||
pattern = parse_pattern(format)
|
||
return pattern.apply(date, locale)
|
||
|
||
|
||
def format_datetime(datetime=None, format='medium', tzinfo=None,
|
||
locale=LC_TIME):
|
||
r"""Return a date formatted according to the given pattern.
|
||
|
||
>>> dt = datetime(2007, 4, 1, 15, 30)
|
||
>>> format_datetime(dt, locale='en_US')
|
||
u'Apr 1, 2007, 3:30:00 PM'
|
||
|
||
For any pattern requiring the display of the time-zone, the third-party
|
||
``pytz`` package is needed to explicitly specify the time-zone:
|
||
|
||
>>> format_datetime(dt, 'full', tzinfo=get_timezone('Europe/Paris'),
|
||
... locale='fr_FR')
|
||
u'dimanche 1 avril 2007 \xe0 17:30:00 heure d\u2019\xe9t\xe9 d\u2019Europe centrale'
|
||
>>> format_datetime(dt, "yyyy.MM.dd G 'at' HH:mm:ss zzz",
|
||
... tzinfo=get_timezone('US/Eastern'), locale='en')
|
||
u'2007.04.01 AD at 11:30:00 EDT'
|
||
|
||
:param datetime: the `datetime` object; if `None`, the current date and
|
||
time is used
|
||
:param format: one of "full", "long", "medium", or "short", or a custom
|
||
date/time pattern
|
||
:param tzinfo: the timezone to apply to the time for display
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
datetime = _ensure_datetime_tzinfo(_get_datetime(datetime), tzinfo)
|
||
|
||
locale = Locale.parse(locale)
|
||
if format in ('full', 'long', 'medium', 'short'):
|
||
return get_datetime_format(format, locale=locale) \
|
||
.replace("'", "") \
|
||
.replace('{0}', format_time(datetime, format, tzinfo=None,
|
||
locale=locale)) \
|
||
.replace('{1}', format_date(datetime, format, locale=locale))
|
||
else:
|
||
return parse_pattern(format).apply(datetime, locale)
|
||
|
||
|
||
def format_time(time=None, format='medium', tzinfo=None, locale=LC_TIME):
|
||
r"""Return a time formatted according to the given pattern.
|
||
|
||
>>> t = time(15, 30)
|
||
>>> format_time(t, locale='en_US')
|
||
u'3:30:00 PM'
|
||
>>> format_time(t, format='short', locale='de_DE')
|
||
u'15:30'
|
||
|
||
If you don't want to use the locale default formats, you can specify a
|
||
custom time pattern:
|
||
|
||
>>> format_time(t, "hh 'o''clock' a", locale='en')
|
||
u"03 o'clock PM"
|
||
|
||
For any pattern requiring the display of the time-zone a
|
||
timezone has to be specified explicitly:
|
||
|
||
>>> t = datetime(2007, 4, 1, 15, 30)
|
||
>>> tzinfo = get_timezone('Europe/Paris')
|
||
>>> t = tzinfo.localize(t)
|
||
>>> format_time(t, format='full', tzinfo=tzinfo, locale='fr_FR')
|
||
u'15:30:00 heure d\u2019\xe9t\xe9 d\u2019Europe centrale'
|
||
>>> format_time(t, "hh 'o''clock' a, zzzz", tzinfo=get_timezone('US/Eastern'),
|
||
... locale='en')
|
||
u"09 o'clock AM, Eastern Daylight Time"
|
||
|
||
As that example shows, when this function gets passed a
|
||
``datetime.datetime`` value, the actual time in the formatted string is
|
||
adjusted to the timezone specified by the `tzinfo` parameter. If the
|
||
``datetime`` is "naive" (i.e. it has no associated timezone information),
|
||
it is assumed to be in UTC.
|
||
|
||
These timezone calculations are **not** performed if the value is of type
|
||
``datetime.time``, as without date information there's no way to determine
|
||
what a given time would translate to in a different timezone without
|
||
information about whether daylight savings time is in effect or not. This
|
||
means that time values are left as-is, and the value of the `tzinfo`
|
||
parameter is only used to display the timezone name if needed:
|
||
|
||
>>> t = time(15, 30)
|
||
>>> format_time(t, format='full', tzinfo=get_timezone('Europe/Paris'),
|
||
... locale='fr_FR')
|
||
u'15:30:00 heure normale d\u2019Europe centrale'
|
||
>>> format_time(t, format='full', tzinfo=get_timezone('US/Eastern'),
|
||
... locale='en_US')
|
||
u'3:30:00 PM Eastern Standard Time'
|
||
|
||
:param time: the ``time`` or ``datetime`` object; if `None`, the current
|
||
time in UTC is used
|
||
:param format: one of "full", "long", "medium", or "short", or a custom
|
||
date/time pattern
|
||
:param tzinfo: the time-zone to apply to the time for display
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
time = _get_time(time, tzinfo)
|
||
|
||
locale = Locale.parse(locale)
|
||
if format in ('full', 'long', 'medium', 'short'):
|
||
format = get_time_format(format, locale=locale)
|
||
return parse_pattern(format).apply(time, locale)
|
||
|
||
|
||
def format_skeleton(skeleton, datetime=None, tzinfo=None, fuzzy=True, locale=LC_TIME):
|
||
r"""Return a time and/or date formatted according to the given pattern.
|
||
|
||
The skeletons are defined in the CLDR data and provide more flexibility
|
||
than the simple short/long/medium formats, but are a bit harder to use.
|
||
The are defined using the date/time symbols without order or punctuation
|
||
and map to a suitable format for the given locale.
|
||
|
||
>>> t = datetime(2007, 4, 1, 15, 30)
|
||
>>> format_skeleton('MMMEd', t, locale='fr')
|
||
u'dim. 1 avr.'
|
||
>>> format_skeleton('MMMEd', t, locale='en')
|
||
u'Sun, Apr 1'
|
||
>>> format_skeleton('yMMd', t, locale='fi') # yMMd is not in the Finnish locale; yMd gets used
|
||
u'1.4.2007'
|
||
>>> format_skeleton('yMMd', t, fuzzy=False, locale='fi') # yMMd is not in the Finnish locale, an error is thrown
|
||
Traceback (most recent call last):
|
||
...
|
||
KeyError: yMMd
|
||
|
||
After the skeleton is resolved to a pattern `format_datetime` is called so
|
||
all timezone processing etc is the same as for that.
|
||
|
||
:param skeleton: A date time skeleton as defined in the cldr data.
|
||
:param datetime: the ``time`` or ``datetime`` object; if `None`, the current
|
||
time in UTC is used
|
||
:param tzinfo: the time-zone to apply to the time for display
|
||
:param fuzzy: If the skeleton is not found, allow choosing a skeleton that's
|
||
close enough to it.
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
locale = Locale.parse(locale)
|
||
if fuzzy and skeleton not in locale.datetime_skeletons:
|
||
skeleton = match_skeleton(skeleton, locale.datetime_skeletons)
|
||
format = locale.datetime_skeletons[skeleton]
|
||
return format_datetime(datetime, format, tzinfo, locale)
|
||
|
||
|
||
TIMEDELTA_UNITS = (
|
||
('year', 3600 * 24 * 365),
|
||
('month', 3600 * 24 * 30),
|
||
('week', 3600 * 24 * 7),
|
||
('day', 3600 * 24),
|
||
('hour', 3600),
|
||
('minute', 60),
|
||
('second', 1)
|
||
)
|
||
|
||
|
||
def format_timedelta(delta, granularity='second', threshold=.85,
|
||
add_direction=False, format='long',
|
||
locale=LC_TIME):
|
||
"""Return a time delta according to the rules of the given locale.
|
||
|
||
>>> format_timedelta(timedelta(weeks=12), locale='en_US')
|
||
u'3 months'
|
||
>>> format_timedelta(timedelta(seconds=1), locale='es')
|
||
u'1 segundo'
|
||
|
||
The granularity parameter can be provided to alter the lowest unit
|
||
presented, which defaults to a second.
|
||
|
||
>>> format_timedelta(timedelta(hours=3), granularity='day',
|
||
... locale='en_US')
|
||
u'1 day'
|
||
|
||
The threshold parameter can be used to determine at which value the
|
||
presentation switches to the next higher unit. A higher threshold factor
|
||
means the presentation will switch later. For example:
|
||
|
||
>>> format_timedelta(timedelta(hours=23), threshold=0.9, locale='en_US')
|
||
u'1 day'
|
||
>>> format_timedelta(timedelta(hours=23), threshold=1.1, locale='en_US')
|
||
u'23 hours'
|
||
|
||
In addition directional information can be provided that informs
|
||
the user if the date is in the past or in the future:
|
||
|
||
>>> format_timedelta(timedelta(hours=1), add_direction=True, locale='en')
|
||
u'in 1 hour'
|
||
>>> format_timedelta(timedelta(hours=-1), add_direction=True, locale='en')
|
||
u'1 hour ago'
|
||
|
||
The format parameter controls how compact or wide the presentation is:
|
||
|
||
>>> format_timedelta(timedelta(hours=3), format='short', locale='en')
|
||
u'3 hr'
|
||
>>> format_timedelta(timedelta(hours=3), format='narrow', locale='en')
|
||
u'3h'
|
||
|
||
:param delta: a ``timedelta`` object representing the time difference to
|
||
format, or the delta in seconds as an `int` value
|
||
:param granularity: determines the smallest unit that should be displayed,
|
||
the value can be one of "year", "month", "week", "day",
|
||
"hour", "minute" or "second"
|
||
:param threshold: factor that determines at which point the presentation
|
||
switches to the next higher unit
|
||
:param add_direction: if this flag is set to `True` the return value will
|
||
include directional information. For instance a
|
||
positive timedelta will include the information about
|
||
it being in the future, a negative will be information
|
||
about the value being in the past.
|
||
:param format: the format, can be "narrow", "short" or "long". (
|
||
"medium" is deprecated, currently converted to "long" to
|
||
maintain compatibility)
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
if format not in ('narrow', 'short', 'medium', 'long'):
|
||
raise TypeError('Format must be one of "narrow", "short" or "long"')
|
||
if format == 'medium':
|
||
warnings.warn('"medium" value for format param of format_timedelta'
|
||
' is deprecated. Use "long" instead',
|
||
category=DeprecationWarning)
|
||
format = 'long'
|
||
if isinstance(delta, timedelta):
|
||
seconds = int((delta.days * 86400) + delta.seconds)
|
||
else:
|
||
seconds = delta
|
||
locale = Locale.parse(locale)
|
||
|
||
def _iter_patterns(a_unit):
|
||
if add_direction:
|
||
unit_rel_patterns = locale._data['date_fields'][a_unit]
|
||
if seconds >= 0:
|
||
yield unit_rel_patterns['future']
|
||
else:
|
||
yield unit_rel_patterns['past']
|
||
a_unit = 'duration-' + a_unit
|
||
yield locale._data['unit_patterns'].get(a_unit, {}).get(format)
|
||
|
||
for unit, secs_per_unit in TIMEDELTA_UNITS:
|
||
value = abs(seconds) / secs_per_unit
|
||
if value >= threshold or unit == granularity:
|
||
if unit == granularity and value > 0:
|
||
value = max(1, value)
|
||
value = int(round(value))
|
||
plural_form = locale.plural_form(value)
|
||
pattern = None
|
||
for patterns in _iter_patterns(unit):
|
||
if patterns is not None:
|
||
pattern = patterns[plural_form]
|
||
break
|
||
# This really should not happen
|
||
if pattern is None:
|
||
return u''
|
||
return pattern.replace('{0}', str(value))
|
||
|
||
return u''
|
||
|
||
|
||
def _format_fallback_interval(start, end, skeleton, tzinfo, locale):
|
||
if skeleton in locale.datetime_skeletons: # Use the given skeleton
|
||
format = lambda dt: format_skeleton(skeleton, dt, tzinfo, locale=locale)
|
||
elif all((isinstance(d, date) and not isinstance(d, datetime)) for d in (start, end)): # Both are just dates
|
||
format = lambda dt: format_date(dt, locale=locale)
|
||
elif all((isinstance(d, time) and not isinstance(d, date)) for d in (start, end)): # Both are times
|
||
format = lambda dt: format_time(dt, tzinfo=tzinfo, locale=locale)
|
||
else:
|
||
format = lambda dt: format_datetime(dt, tzinfo=tzinfo, locale=locale)
|
||
|
||
formatted_start = format(start)
|
||
formatted_end = format(end)
|
||
|
||
if formatted_start == formatted_end:
|
||
return format(start)
|
||
|
||
return (
|
||
locale.interval_formats.get(None, "{0}-{1}").
|
||
replace("{0}", formatted_start).
|
||
replace("{1}", formatted_end)
|
||
)
|
||
|
||
|
||
def format_interval(start, end, skeleton=None, tzinfo=None, fuzzy=True, locale=LC_TIME):
|
||
"""
|
||
Format an interval between two instants according to the locale's rules.
|
||
|
||
>>> format_interval(date(2016, 1, 15), date(2016, 1, 17), "yMd", locale="fi")
|
||
u'15.\u201317.1.2016'
|
||
|
||
>>> format_interval(time(12, 12), time(16, 16), "Hm", locale="en_GB")
|
||
'12:12\u201316:16'
|
||
|
||
>>> format_interval(time(5, 12), time(16, 16), "hm", locale="en_US")
|
||
'5:12 AM \u2013 4:16 PM'
|
||
|
||
>>> format_interval(time(16, 18), time(16, 24), "Hm", locale="it")
|
||
'16:18\u201316:24'
|
||
|
||
If the start instant equals the end instant, the interval is formatted like the instant.
|
||
|
||
>>> format_interval(time(16, 18), time(16, 18), "Hm", locale="it")
|
||
'16:18'
|
||
|
||
Unknown skeletons fall back to "default" formatting.
|
||
|
||
>>> format_interval(date(2015, 1, 1), date(2017, 1, 1), "wzq", locale="ja")
|
||
'2015/01/01\uff5e2017/01/01'
|
||
|
||
>>> format_interval(time(16, 18), time(16, 24), "xxx", locale="ja")
|
||
'16:18:00\uff5e16:24:00'
|
||
|
||
>>> format_interval(date(2016, 1, 15), date(2016, 1, 17), "xxx", locale="de")
|
||
'15.01.2016 \u2013 17.01.2016'
|
||
|
||
:param start: First instant (datetime/date/time)
|
||
:param end: Second instant (datetime/date/time)
|
||
:param skeleton: The "skeleton format" to use for formatting.
|
||
:param tzinfo: tzinfo to use (if none is already attached)
|
||
:param fuzzy: If the skeleton is not found, allow choosing a skeleton that's
|
||
close enough to it.
|
||
:param locale: A locale object or identifier.
|
||
:return: Formatted interval
|
||
"""
|
||
locale = Locale.parse(locale)
|
||
|
||
# NB: The quote comments below are from the algorithm description in
|
||
# https://www.unicode.org/reports/tr35/tr35-dates.html#intervalFormats
|
||
|
||
# > Look for the intervalFormatItem element that matches the "skeleton",
|
||
# > starting in the current locale and then following the locale fallback
|
||
# > chain up to, but not including root.
|
||
|
||
interval_formats = locale.interval_formats
|
||
|
||
if skeleton not in interval_formats or not skeleton:
|
||
# > If no match was found from the previous step, check what the closest
|
||
# > match is in the fallback locale chain, as in availableFormats. That
|
||
# > is, this allows for adjusting the string value field's width,
|
||
# > including adjusting between "MMM" and "MMMM", and using different
|
||
# > variants of the same field, such as 'v' and 'z'.
|
||
if skeleton and fuzzy:
|
||
skeleton = match_skeleton(skeleton, interval_formats)
|
||
else:
|
||
skeleton = None
|
||
if not skeleton: # Still no match whatsoever?
|
||
# > Otherwise, format the start and end datetime using the fallback pattern.
|
||
return _format_fallback_interval(start, end, skeleton, tzinfo, locale)
|
||
|
||
skel_formats = interval_formats[skeleton]
|
||
|
||
if start == end:
|
||
return format_skeleton(skeleton, start, tzinfo, fuzzy=fuzzy, locale=locale)
|
||
|
||
start = _ensure_datetime_tzinfo(_get_datetime(start), tzinfo=tzinfo)
|
||
end = _ensure_datetime_tzinfo(_get_datetime(end), tzinfo=tzinfo)
|
||
|
||
start_fmt = DateTimeFormat(start, locale=locale)
|
||
end_fmt = DateTimeFormat(end, locale=locale)
|
||
|
||
# > If a match is found from previous steps, compute the calendar field
|
||
# > with the greatest difference between start and end datetime. If there
|
||
# > is no difference among any of the fields in the pattern, format as a
|
||
# > single date using availableFormats, and return.
|
||
|
||
for field in PATTERN_CHAR_ORDER: # These are in largest-to-smallest order
|
||
if field in skel_formats:
|
||
if start_fmt.extract(field) != end_fmt.extract(field):
|
||
# > If there is a match, use the pieces of the corresponding pattern to
|
||
# > format the start and end datetime, as above.
|
||
return "".join(
|
||
parse_pattern(pattern).apply(instant, locale)
|
||
for pattern, instant
|
||
in zip(skel_formats[field], (start, end))
|
||
)
|
||
|
||
# > Otherwise, format the start and end datetime using the fallback pattern.
|
||
|
||
return _format_fallback_interval(start, end, skeleton, tzinfo, locale)
|
||
|
||
|
||
def get_period_id(time, tzinfo=None, type=None, locale=LC_TIME):
|
||
"""
|
||
Get the day period ID for a given time.
|
||
|
||
This ID can be used as a key for the period name dictionary.
|
||
|
||
>>> get_period_names(locale="de")[get_period_id(time(7, 42), locale="de")]
|
||
u'Morgen'
|
||
|
||
:param time: The time to inspect.
|
||
:param tzinfo: The timezone for the time. See ``format_time``.
|
||
:param type: The period type to use. Either "selection" or None.
|
||
The selection type is used for selecting among phrases such as
|
||
“Your email arrived yesterday evening” or “Your email arrived last night”.
|
||
:param locale: the `Locale` object, or a locale string
|
||
:return: period ID. Something is always returned -- even if it's just "am" or "pm".
|
||
"""
|
||
time = _get_time(time, tzinfo)
|
||
seconds_past_midnight = int(time.hour * 60 * 60 + time.minute * 60 + time.second)
|
||
locale = Locale.parse(locale)
|
||
|
||
# The LDML rules state that the rules may not overlap, so iterating in arbitrary
|
||
# order should be alright, though `at` periods should be preferred.
|
||
rulesets = locale.day_period_rules.get(type, {}).items()
|
||
|
||
for rule_id, rules in rulesets:
|
||
for rule in rules:
|
||
if "at" in rule and rule["at"] == seconds_past_midnight:
|
||
return rule_id
|
||
|
||
for rule_id, rules in rulesets:
|
||
for rule in rules:
|
||
start_ok = end_ok = False
|
||
|
||
if "from" in rule and seconds_past_midnight >= rule["from"]:
|
||
start_ok = True
|
||
if "to" in rule and seconds_past_midnight <= rule["to"]:
|
||
# This rule type does not exist in the present CLDR data;
|
||
# excuse the lack of test coverage.
|
||
end_ok = True
|
||
if "before" in rule and seconds_past_midnight < rule["before"]:
|
||
end_ok = True
|
||
if "after" in rule:
|
||
raise NotImplementedError("'after' is deprecated as of CLDR 29.")
|
||
|
||
if start_ok and end_ok:
|
||
return rule_id
|
||
|
||
if seconds_past_midnight < 43200:
|
||
return "am"
|
||
else:
|
||
return "pm"
|
||
|
||
|
||
def parse_date(string, locale=LC_TIME):
|
||
"""Parse a date from a string.
|
||
|
||
This function uses the date format for the locale as a hint to determine
|
||
the order in which the date fields appear in the string.
|
||
|
||
>>> parse_date('4/1/04', locale='en_US')
|
||
datetime.date(2004, 4, 1)
|
||
>>> parse_date('01.04.2004', locale='de_DE')
|
||
datetime.date(2004, 4, 1)
|
||
|
||
:param string: the string containing the date
|
||
:param locale: a `Locale` object or a locale identifier
|
||
"""
|
||
# TODO: try ISO format first?
|
||
format = get_date_format(locale=locale).pattern.lower()
|
||
year_idx = format.index('y')
|
||
month_idx = format.index('m')
|
||
if month_idx < 0:
|
||
month_idx = format.index('l')
|
||
day_idx = format.index('d')
|
||
|
||
indexes = [(year_idx, 'Y'), (month_idx, 'M'), (day_idx, 'D')]
|
||
indexes.sort()
|
||
indexes = dict([(item[1], idx) for idx, item in enumerate(indexes)])
|
||
|
||
# FIXME: this currently only supports numbers, but should also support month
|
||
# names, both in the requested locale, and english
|
||
|
||
numbers = re.findall(r'(\d+)', string)
|
||
year = numbers[indexes['Y']]
|
||
if len(year) == 2:
|
||
year = 2000 + int(year)
|
||
else:
|
||
year = int(year)
|
||
month = int(numbers[indexes['M']])
|
||
day = int(numbers[indexes['D']])
|
||
if month > 12:
|
||
month, day = day, month
|
||
return date(year, month, day)
|
||
|
||
|
||
def parse_time(string, locale=LC_TIME):
|
||
"""Parse a time from a string.
|
||
|
||
This function uses the time format for the locale as a hint to determine
|
||
the order in which the time fields appear in the string.
|
||
|
||
>>> parse_time('15:30:00', locale='en_US')
|
||
datetime.time(15, 30)
|
||
|
||
:param string: the string containing the time
|
||
:param locale: a `Locale` object or a locale identifier
|
||
:return: the parsed time
|
||
:rtype: `time`
|
||
"""
|
||
# TODO: try ISO format first?
|
||
format = get_time_format(locale=locale).pattern.lower()
|
||
hour_idx = format.index('h')
|
||
if hour_idx < 0:
|
||
hour_idx = format.index('k')
|
||
min_idx = format.index('m')
|
||
sec_idx = format.index('s')
|
||
|
||
indexes = [(hour_idx, 'H'), (min_idx, 'M'), (sec_idx, 'S')]
|
||
indexes.sort()
|
||
indexes = dict([(item[1], idx) for idx, item in enumerate(indexes)])
|
||
|
||
# FIXME: support 12 hour clock, and 0-based hour specification
|
||
# and seconds should be optional, maybe minutes too
|
||
# oh, and time-zones, of course
|
||
|
||
numbers = re.findall(r'(\d+)', string)
|
||
hour = int(numbers[indexes['H']])
|
||
minute = int(numbers[indexes['M']])
|
||
second = int(numbers[indexes['S']])
|
||
return time(hour, minute, second)
|
||
|
||
|
||
class DateTimePattern(object):
|
||
|
||
def __init__(self, pattern, format):
|
||
self.pattern = pattern
|
||
self.format = format
|
||
|
||
def __repr__(self):
|
||
return '<%s %r>' % (type(self).__name__, self.pattern)
|
||
|
||
def __unicode__(self):
|
||
return self.pattern
|
||
|
||
def __str__(self):
|
||
pat = self.pattern
|
||
if PY2:
|
||
pat = pat.encode('utf-8')
|
||
return pat
|
||
|
||
def __mod__(self, other):
|
||
if type(other) is not DateTimeFormat:
|
||
return NotImplemented
|
||
return self.format % other
|
||
|
||
def apply(self, datetime, locale):
|
||
return self % DateTimeFormat(datetime, locale)
|
||
|
||
|
||
class DateTimeFormat(object):
|
||
|
||
def __init__(self, value, locale):
|
||
assert isinstance(value, (date, datetime, time))
|
||
if isinstance(value, (datetime, time)) and value.tzinfo is None:
|
||
value = value.replace(tzinfo=UTC)
|
||
self.value = value
|
||
self.locale = Locale.parse(locale)
|
||
|
||
def __getitem__(self, name):
|
||
char = name[0]
|
||
num = len(name)
|
||
if char == 'G':
|
||
return self.format_era(char, num)
|
||
elif char in ('y', 'Y', 'u'):
|
||
return self.format_year(char, num)
|
||
elif char in ('Q', 'q'):
|
||
return self.format_quarter(char, num)
|
||
elif char in ('M', 'L'):
|
||
return self.format_month(char, num)
|
||
elif char in ('w', 'W'):
|
||
return self.format_week(char, num)
|
||
elif char == 'd':
|
||
return self.format(self.value.day, num)
|
||
elif char == 'D':
|
||
return self.format_day_of_year(num)
|
||
elif char == 'F':
|
||
return self.format_day_of_week_in_month()
|
||
elif char in ('E', 'e', 'c'):
|
||
return self.format_weekday(char, num)
|
||
elif char == 'a':
|
||
# TODO: Add support for the rest of the period formats (a*, b*, B*)
|
||
return self.format_period(char)
|
||
elif char == 'h':
|
||
if self.value.hour % 12 == 0:
|
||
return self.format(12, num)
|
||
else:
|
||
return self.format(self.value.hour % 12, num)
|
||
elif char == 'H':
|
||
return self.format(self.value.hour, num)
|
||
elif char == 'K':
|
||
return self.format(self.value.hour % 12, num)
|
||
elif char == 'k':
|
||
if self.value.hour == 0:
|
||
return self.format(24, num)
|
||
else:
|
||
return self.format(self.value.hour, num)
|
||
elif char == 'm':
|
||
return self.format(self.value.minute, num)
|
||
elif char == 's':
|
||
return self.format(self.value.second, num)
|
||
elif char == 'S':
|
||
return self.format_frac_seconds(num)
|
||
elif char == 'A':
|
||
return self.format_milliseconds_in_day(num)
|
||
elif char in ('z', 'Z', 'v', 'V', 'x', 'X', 'O'):
|
||
return self.format_timezone(char, num)
|
||
else:
|
||
raise KeyError('Unsupported date/time field %r' % char)
|
||
|
||
def extract(self, char):
|
||
char = str(char)[0]
|
||
if char == 'y':
|
||
return self.value.year
|
||
elif char == 'M':
|
||
return self.value.month
|
||
elif char == 'd':
|
||
return self.value.day
|
||
elif char == 'H':
|
||
return self.value.hour
|
||
elif char == 'h':
|
||
return self.value.hour % 12 or 12
|
||
elif char == 'm':
|
||
return self.value.minute
|
||
elif char == 'a':
|
||
return int(self.value.hour >= 12) # 0 for am, 1 for pm
|
||
else:
|
||
raise NotImplementedError("Not implemented: extracting %r from %r" % (char, self.value))
|
||
|
||
def format_era(self, char, num):
|
||
width = {3: 'abbreviated', 4: 'wide', 5: 'narrow'}[max(3, num)]
|
||
era = int(self.value.year >= 0)
|
||
return get_era_names(width, self.locale)[era]
|
||
|
||
def format_year(self, char, num):
|
||
value = self.value.year
|
||
if char.isupper():
|
||
value = self.value.isocalendar()[0]
|
||
year = self.format(value, num)
|
||
if num == 2:
|
||
year = year[-2:]
|
||
return year
|
||
|
||
def format_quarter(self, char, num):
|
||
quarter = (self.value.month - 1) // 3 + 1
|
||
if num <= 2:
|
||
return '%0*d' % (num, quarter)
|
||
width = {3: 'abbreviated', 4: 'wide', 5: 'narrow'}[num]
|
||
context = {'Q': 'format', 'q': 'stand-alone'}[char]
|
||
return get_quarter_names(width, context, self.locale)[quarter]
|
||
|
||
def format_month(self, char, num):
|
||
if num <= 2:
|
||
return '%0*d' % (num, self.value.month)
|
||
width = {3: 'abbreviated', 4: 'wide', 5: 'narrow'}[num]
|
||
context = {'M': 'format', 'L': 'stand-alone'}[char]
|
||
return get_month_names(width, context, self.locale)[self.value.month]
|
||
|
||
def format_week(self, char, num):
|
||
if char.islower(): # week of year
|
||
day_of_year = self.get_day_of_year()
|
||
week = self.get_week_number(day_of_year)
|
||
if week == 0:
|
||
date = self.value - timedelta(days=day_of_year)
|
||
week = self.get_week_number(self.get_day_of_year(date),
|
||
date.weekday())
|
||
return self.format(week, num)
|
||
else: # week of month
|
||
week = self.get_week_number(self.value.day)
|
||
if week == 0:
|
||
date = self.value - timedelta(days=self.value.day)
|
||
week = self.get_week_number(date.day, date.weekday())
|
||
return '%d' % week
|
||
|
||
def format_weekday(self, char='E', num=4):
|
||
"""
|
||
Return weekday from parsed datetime according to format pattern.
|
||
|
||
>>> format = DateTimeFormat(date(2016, 2, 28), Locale.parse('en_US'))
|
||
>>> format.format_weekday()
|
||
u'Sunday'
|
||
|
||
'E': Day of week - Use one through three letters for the abbreviated day name, four for the full (wide) name,
|
||
five for the narrow name, or six for the short name.
|
||
>>> format.format_weekday('E',2)
|
||
u'Sun'
|
||
|
||
'e': Local day of week. Same as E except adds a numeric value that will depend on the local starting day of the
|
||
week, using one or two letters. For this example, Monday is the first day of the week.
|
||
>>> format.format_weekday('e',2)
|
||
'01'
|
||
|
||
'c': Stand-Alone local day of week - Use one letter for the local numeric value (same as 'e'), three for the
|
||
abbreviated day name, four for the full (wide) name, five for the narrow name, or six for the short name.
|
||
>>> format.format_weekday('c',1)
|
||
'1'
|
||
|
||
:param char: pattern format character ('e','E','c')
|
||
:param num: count of format character
|
||
|
||
"""
|
||
if num < 3:
|
||
if char.islower():
|
||
value = 7 - self.locale.first_week_day + self.value.weekday()
|
||
return self.format(value % 7 + 1, num)
|
||
num = 3
|
||
weekday = self.value.weekday()
|
||
width = {3: 'abbreviated', 4: 'wide', 5: 'narrow', 6: 'short'}[num]
|
||
if char == 'c':
|
||
context = 'stand-alone'
|
||
else:
|
||
context = 'format'
|
||
return get_day_names(width, context, self.locale)[weekday]
|
||
|
||
def format_day_of_year(self, num):
|
||
return self.format(self.get_day_of_year(), num)
|
||
|
||
def format_day_of_week_in_month(self):
|
||
return '%d' % ((self.value.day - 1) // 7 + 1)
|
||
|
||
def format_period(self, char):
|
||
period = {0: 'am', 1: 'pm'}[int(self.value.hour >= 12)]
|
||
for width in ('wide', 'narrow', 'abbreviated'):
|
||
period_names = get_period_names(context='format', width=width, locale=self.locale)
|
||
if period in period_names:
|
||
return period_names[period]
|
||
raise ValueError('Could not format period %s in %s' % (period, self.locale))
|
||
|
||
def format_frac_seconds(self, num):
|
||
""" Return fractional seconds.
|
||
|
||
Rounds the time's microseconds to the precision given by the number \
|
||
of digits passed in.
|
||
"""
|
||
value = self.value.microsecond / 1000000
|
||
return self.format(round(value, num) * 10**num, num)
|
||
|
||
def format_milliseconds_in_day(self, num):
|
||
msecs = self.value.microsecond // 1000 + self.value.second * 1000 + \
|
||
self.value.minute * 60000 + self.value.hour * 3600000
|
||
return self.format(msecs, num)
|
||
|
||
def format_timezone(self, char, num):
|
||
width = {3: 'short', 4: 'long', 5: 'iso8601'}[max(3, num)]
|
||
if char == 'z':
|
||
return get_timezone_name(self.value, width, locale=self.locale)
|
||
elif char == 'Z':
|
||
if num == 5:
|
||
return get_timezone_gmt(self.value, width, locale=self.locale, return_z=True)
|
||
return get_timezone_gmt(self.value, width, locale=self.locale)
|
||
elif char == 'O':
|
||
if num == 4:
|
||
return get_timezone_gmt(self.value, width, locale=self.locale)
|
||
# TODO: To add support for O:1
|
||
elif char == 'v':
|
||
return get_timezone_name(self.value.tzinfo, width,
|
||
locale=self.locale)
|
||
elif char == 'V':
|
||
if num == 1:
|
||
return get_timezone_name(self.value.tzinfo, width,
|
||
uncommon=True, locale=self.locale)
|
||
elif num == 2:
|
||
return get_timezone_name(self.value.tzinfo, locale=self.locale, return_zone=True)
|
||
elif num == 3:
|
||
return get_timezone_location(self.value.tzinfo, locale=self.locale, return_city=True)
|
||
return get_timezone_location(self.value.tzinfo, locale=self.locale)
|
||
# Included additional elif condition to add support for 'Xx' in timezone format
|
||
elif char == 'X':
|
||
if num == 1:
|
||
return get_timezone_gmt(self.value, width='iso8601_short', locale=self.locale,
|
||
return_z=True)
|
||
elif num in (2, 4):
|
||
return get_timezone_gmt(self.value, width='short', locale=self.locale,
|
||
return_z=True)
|
||
elif num in (3, 5):
|
||
return get_timezone_gmt(self.value, width='iso8601', locale=self.locale,
|
||
return_z=True)
|
||
elif char == 'x':
|
||
if num == 1:
|
||
return get_timezone_gmt(self.value, width='iso8601_short', locale=self.locale)
|
||
elif num in (2, 4):
|
||
return get_timezone_gmt(self.value, width='short', locale=self.locale)
|
||
elif num in (3, 5):
|
||
return get_timezone_gmt(self.value, width='iso8601', locale=self.locale)
|
||
|
||
def format(self, value, length):
|
||
return '%0*d' % (length, value)
|
||
|
||
def get_day_of_year(self, date=None):
|
||
if date is None:
|
||
date = self.value
|
||
return (date - date.replace(month=1, day=1)).days + 1
|
||
|
||
def get_week_number(self, day_of_period, day_of_week=None):
|
||
"""Return the number of the week of a day within a period. This may be
|
||
the week number in a year or the week number in a month.
|
||
|
||
Usually this will return a value equal to or greater than 1, but if the
|
||
first week of the period is so short that it actually counts as the last
|
||
week of the previous period, this function will return 0.
|
||
|
||
>>> format = DateTimeFormat(date(2006, 1, 8), Locale.parse('de_DE'))
|
||
>>> format.get_week_number(6)
|
||
1
|
||
|
||
>>> format = DateTimeFormat(date(2006, 1, 8), Locale.parse('en_US'))
|
||
>>> format.get_week_number(6)
|
||
2
|
||
|
||
:param day_of_period: the number of the day in the period (usually
|
||
either the day of month or the day of year)
|
||
:param day_of_week: the week day; if ommitted, the week day of the
|
||
current date is assumed
|
||
"""
|
||
if day_of_week is None:
|
||
day_of_week = self.value.weekday()
|
||
first_day = (day_of_week - self.locale.first_week_day -
|
||
day_of_period + 1) % 7
|
||
if first_day < 0:
|
||
first_day += 7
|
||
week_number = (day_of_period + first_day - 1) // 7
|
||
|
||
if 7 - first_day >= self.locale.min_week_days:
|
||
week_number += 1
|
||
|
||
if self.locale.first_week_day == 0:
|
||
# Correct the weeknumber in case of iso-calendar usage (first_week_day=0).
|
||
# If the weeknumber exceeds the maximum number of weeks for the given year
|
||
# we must count from zero.For example the above calculation gives week 53
|
||
# for 2018-12-31. By iso-calender definition 2018 has a max of 52
|
||
# weeks, thus the weeknumber must be 53-52=1.
|
||
max_weeks = date(year=self.value.year, day=28, month=12).isocalendar()[1]
|
||
if week_number > max_weeks:
|
||
week_number -= max_weeks
|
||
|
||
return week_number
|
||
|
||
|
||
PATTERN_CHARS = {
|
||
'G': [1, 2, 3, 4, 5], # era
|
||
'y': None, 'Y': None, 'u': None, # year
|
||
'Q': [1, 2, 3, 4, 5], 'q': [1, 2, 3, 4, 5], # quarter
|
||
'M': [1, 2, 3, 4, 5], 'L': [1, 2, 3, 4, 5], # month
|
||
'w': [1, 2], 'W': [1], # week
|
||
'd': [1, 2], 'D': [1, 2, 3], 'F': [1], 'g': None, # day
|
||
'E': [1, 2, 3, 4, 5, 6], 'e': [1, 2, 3, 4, 5, 6], 'c': [1, 3, 4, 5, 6], # week day
|
||
'a': [1], # period
|
||
'h': [1, 2], 'H': [1, 2], 'K': [1, 2], 'k': [1, 2], # hour
|
||
'm': [1, 2], # minute
|
||
's': [1, 2], 'S': None, 'A': None, # second
|
||
'z': [1, 2, 3, 4], 'Z': [1, 2, 3, 4, 5], 'O': [1, 4], 'v': [1, 4], # zone
|
||
'V': [1, 2, 3, 4], 'x': [1, 2, 3, 4, 5], 'X': [1, 2, 3, 4, 5] # zone
|
||
}
|
||
|
||
#: The pattern characters declared in the Date Field Symbol Table
|
||
#: (https://www.unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table)
|
||
#: in order of decreasing magnitude.
|
||
PATTERN_CHAR_ORDER = "GyYuUQqMLlwWdDFgEecabBChHKkjJmsSAzZOvVXx"
|
||
|
||
_pattern_cache = {}
|
||
|
||
|
||
def parse_pattern(pattern):
|
||
"""Parse date, time, and datetime format patterns.
|
||
|
||
>>> parse_pattern("MMMMd").format
|
||
u'%(MMMM)s%(d)s'
|
||
>>> parse_pattern("MMM d, yyyy").format
|
||
u'%(MMM)s %(d)s, %(yyyy)s'
|
||
|
||
Pattern can contain literal strings in single quotes:
|
||
|
||
>>> parse_pattern("H:mm' Uhr 'z").format
|
||
u'%(H)s:%(mm)s Uhr %(z)s'
|
||
|
||
An actual single quote can be used by using two adjacent single quote
|
||
characters:
|
||
|
||
>>> parse_pattern("hh' o''clock'").format
|
||
u"%(hh)s o'clock"
|
||
|
||
:param pattern: the formatting pattern to parse
|
||
"""
|
||
if type(pattern) is DateTimePattern:
|
||
return pattern
|
||
|
||
if pattern in _pattern_cache:
|
||
return _pattern_cache[pattern]
|
||
|
||
result = []
|
||
|
||
for tok_type, tok_value in tokenize_pattern(pattern):
|
||
if tok_type == "chars":
|
||
result.append(tok_value.replace('%', '%%'))
|
||
elif tok_type == "field":
|
||
fieldchar, fieldnum = tok_value
|
||
limit = PATTERN_CHARS[fieldchar]
|
||
if limit and fieldnum not in limit:
|
||
raise ValueError('Invalid length for field: %r'
|
||
% (fieldchar * fieldnum))
|
||
result.append('%%(%s)s' % (fieldchar * fieldnum))
|
||
else:
|
||
raise NotImplementedError("Unknown token type: %s" % tok_type)
|
||
|
||
_pattern_cache[pattern] = pat = DateTimePattern(pattern, u''.join(result))
|
||
return pat
|
||
|
||
|
||
def tokenize_pattern(pattern):
|
||
"""
|
||
Tokenize date format patterns.
|
||
|
||
Returns a list of (token_type, token_value) tuples.
|
||
|
||
``token_type`` may be either "chars" or "field".
|
||
|
||
For "chars" tokens, the value is the literal value.
|
||
|
||
For "field" tokens, the value is a tuple of (field character, repetition count).
|
||
|
||
:param pattern: Pattern string
|
||
:type pattern: str
|
||
:rtype: list[tuple]
|
||
"""
|
||
result = []
|
||
quotebuf = None
|
||
charbuf = []
|
||
fieldchar = ['']
|
||
fieldnum = [0]
|
||
|
||
def append_chars():
|
||
result.append(('chars', ''.join(charbuf).replace('\0', "'")))
|
||
del charbuf[:]
|
||
|
||
def append_field():
|
||
result.append(('field', (fieldchar[0], fieldnum[0])))
|
||
fieldchar[0] = ''
|
||
fieldnum[0] = 0
|
||
|
||
for idx, char in enumerate(pattern.replace("''", '\0')):
|
||
if quotebuf is None:
|
||
if char == "'": # quote started
|
||
if fieldchar[0]:
|
||
append_field()
|
||
elif charbuf:
|
||
append_chars()
|
||
quotebuf = []
|
||
elif char in PATTERN_CHARS:
|
||
if charbuf:
|
||
append_chars()
|
||
if char == fieldchar[0]:
|
||
fieldnum[0] += 1
|
||
else:
|
||
if fieldchar[0]:
|
||
append_field()
|
||
fieldchar[0] = char
|
||
fieldnum[0] = 1
|
||
else:
|
||
if fieldchar[0]:
|
||
append_field()
|
||
charbuf.append(char)
|
||
|
||
elif quotebuf is not None:
|
||
if char == "'": # end of quote
|
||
charbuf.extend(quotebuf)
|
||
quotebuf = None
|
||
else: # inside quote
|
||
quotebuf.append(char)
|
||
|
||
if fieldchar[0]:
|
||
append_field()
|
||
elif charbuf:
|
||
append_chars()
|
||
|
||
return result
|
||
|
||
|
||
def untokenize_pattern(tokens):
|
||
"""
|
||
Turn a date format pattern token stream back into a string.
|
||
|
||
This is the reverse operation of ``tokenize_pattern``.
|
||
|
||
:type tokens: Iterable[tuple]
|
||
:rtype: str
|
||
"""
|
||
output = []
|
||
for tok_type, tok_value in tokens:
|
||
if tok_type == "field":
|
||
output.append(tok_value[0] * tok_value[1])
|
||
elif tok_type == "chars":
|
||
if not any(ch in PATTERN_CHARS for ch in tok_value): # No need to quote
|
||
output.append(tok_value)
|
||
else:
|
||
output.append("'%s'" % tok_value.replace("'", "''"))
|
||
return "".join(output)
|
||
|
||
|
||
def split_interval_pattern(pattern):
|
||
"""
|
||
Split an interval-describing datetime pattern into multiple pieces.
|
||
|
||
> The pattern is then designed to be broken up into two pieces by determining the first repeating field.
|
||
- https://www.unicode.org/reports/tr35/tr35-dates.html#intervalFormats
|
||
|
||
>>> split_interval_pattern(u'E d.M. \u2013 E d.M.')
|
||
[u'E d.M. \u2013 ', 'E d.M.']
|
||
>>> split_interval_pattern("Y 'text' Y 'more text'")
|
||
["Y 'text '", "Y 'more text'"]
|
||
>>> split_interval_pattern(u"E, MMM d \u2013 E")
|
||
[u'E, MMM d \u2013 ', u'E']
|
||
>>> split_interval_pattern("MMM d")
|
||
['MMM d']
|
||
>>> split_interval_pattern("y G")
|
||
['y G']
|
||
>>> split_interval_pattern(u"MMM d \u2013 d")
|
||
[u'MMM d \u2013 ', u'd']
|
||
|
||
:param pattern: Interval pattern string
|
||
:return: list of "subpatterns"
|
||
"""
|
||
|
||
seen_fields = set()
|
||
parts = [[]]
|
||
|
||
for tok_type, tok_value in tokenize_pattern(pattern):
|
||
if tok_type == "field":
|
||
if tok_value[0] in seen_fields: # Repeated field
|
||
parts.append([])
|
||
seen_fields.clear()
|
||
seen_fields.add(tok_value[0])
|
||
parts[-1].append((tok_type, tok_value))
|
||
|
||
return [untokenize_pattern(tokens) for tokens in parts]
|
||
|
||
|
||
def match_skeleton(skeleton, options, allow_different_fields=False):
|
||
"""
|
||
Find the closest match for the given datetime skeleton among the options given.
|
||
|
||
This uses the rules outlined in the TR35 document.
|
||
|
||
>>> match_skeleton('yMMd', ('yMd', 'yMMMd'))
|
||
'yMd'
|
||
|
||
>>> match_skeleton('yMMd', ('jyMMd',), allow_different_fields=True)
|
||
'jyMMd'
|
||
|
||
>>> match_skeleton('yMMd', ('qyMMd',), allow_different_fields=False)
|
||
|
||
>>> match_skeleton('hmz', ('hmv',))
|
||
'hmv'
|
||
|
||
:param skeleton: The skeleton to match
|
||
:type skeleton: str
|
||
:param options: An iterable of other skeletons to match against
|
||
:type options: Iterable[str]
|
||
:return: The closest skeleton match, or if no match was found, None.
|
||
:rtype: str|None
|
||
"""
|
||
|
||
# TODO: maybe implement pattern expansion?
|
||
|
||
# Based on the implementation in
|
||
# http://source.icu-project.org/repos/icu/icu4j/trunk/main/classes/core/src/com/ibm/icu/text/DateIntervalInfo.java
|
||
|
||
# Filter out falsy values and sort for stability; when `interval_formats` is passed in, there may be a None key.
|
||
options = sorted(option for option in options if option)
|
||
|
||
if 'z' in skeleton and not any('z' in option for option in options):
|
||
skeleton = skeleton.replace('z', 'v')
|
||
|
||
get_input_field_width = dict(t[1] for t in tokenize_pattern(skeleton) if t[0] == "field").get
|
||
best_skeleton = None
|
||
best_distance = None
|
||
for option in options:
|
||
get_opt_field_width = dict(t[1] for t in tokenize_pattern(option) if t[0] == "field").get
|
||
distance = 0
|
||
for field in PATTERN_CHARS:
|
||
input_width = get_input_field_width(field, 0)
|
||
opt_width = get_opt_field_width(field, 0)
|
||
if input_width == opt_width:
|
||
continue
|
||
if opt_width == 0 or input_width == 0:
|
||
if not allow_different_fields: # This one is not okay
|
||
option = None
|
||
break
|
||
distance += 0x1000 # Magic weight constant for "entirely different fields"
|
||
elif field == 'M' and ((input_width > 2 and opt_width <= 2) or (input_width <= 2 and opt_width > 2)):
|
||
distance += 0x100 # Magic weight for "text turns into a number"
|
||
else:
|
||
distance += abs(input_width - opt_width)
|
||
|
||
if not option: # We lost the option along the way (probably due to "allow_different_fields")
|
||
continue
|
||
|
||
if not best_skeleton or distance < best_distance:
|
||
best_skeleton = option
|
||
best_distance = distance
|
||
|
||
if distance == 0: # Found a perfect match!
|
||
break
|
||
|
||
return best_skeleton
|