mirror of
https://github.com/morpheus65535/bazarr
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705 lines
22 KiB
Python
705 lines
22 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright (c) 2021, Brandon Nielsen
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# All rights reserved.
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#
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# This software may be modified and distributed under the terms
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# of the BSD license. See the LICENSE file for details.
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import datetime
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from collections import namedtuple
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from functools import partial
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from aniso8601.builders import (
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BaseTimeBuilder,
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DatetimeTuple,
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DateTuple,
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Limit,
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TimeTuple,
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TupleBuilder,
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cast,
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range_check,
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)
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from aniso8601.exceptions import (
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DayOutOfBoundsError,
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HoursOutOfBoundsError,
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ISOFormatError,
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LeapSecondError,
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MidnightBoundsError,
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MinutesOutOfBoundsError,
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MonthOutOfBoundsError,
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SecondsOutOfBoundsError,
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WeekOutOfBoundsError,
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YearOutOfBoundsError,
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)
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from aniso8601.utcoffset import UTCOffset
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DAYS_PER_YEAR = 365
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DAYS_PER_MONTH = 30
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DAYS_PER_WEEK = 7
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HOURS_PER_DAY = 24
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MINUTES_PER_HOUR = 60
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MINUTES_PER_DAY = MINUTES_PER_HOUR * HOURS_PER_DAY
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SECONDS_PER_MINUTE = 60
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SECONDS_PER_DAY = MINUTES_PER_DAY * SECONDS_PER_MINUTE
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MICROSECONDS_PER_SECOND = int(1e6)
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MICROSECONDS_PER_MINUTE = 60 * MICROSECONDS_PER_SECOND
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MICROSECONDS_PER_HOUR = 60 * MICROSECONDS_PER_MINUTE
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MICROSECONDS_PER_DAY = 24 * MICROSECONDS_PER_HOUR
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MICROSECONDS_PER_WEEK = 7 * MICROSECONDS_PER_DAY
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MICROSECONDS_PER_MONTH = DAYS_PER_MONTH * MICROSECONDS_PER_DAY
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MICROSECONDS_PER_YEAR = DAYS_PER_YEAR * MICROSECONDS_PER_DAY
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TIMEDELTA_MAX_DAYS = datetime.timedelta.max.days
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FractionalComponent = namedtuple(
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"FractionalComponent", ["principal", "microsecondremainder"]
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)
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def year_range_check(valuestr, limit):
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YYYYstr = valuestr
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# Truncated dates, like '19', refer to 1900-1999 inclusive,
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# we simply parse to 1900
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if len(valuestr) < 4:
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# Shift 0s in from the left to form complete year
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YYYYstr = valuestr.ljust(4, "0")
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return range_check(YYYYstr, limit)
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def fractional_range_check(conversion, valuestr, limit):
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if valuestr is None:
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return None
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if "." in valuestr:
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castfunc = partial(_cast_to_fractional_component, conversion)
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else:
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castfunc = int
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value = cast(valuestr, castfunc, thrownmessage=limit.casterrorstring)
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if type(value) is FractionalComponent:
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tocheck = float(valuestr)
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else:
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tocheck = int(valuestr)
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if limit.min is not None and tocheck < limit.min:
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raise limit.rangeexception(limit.rangeerrorstring)
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if limit.max is not None and tocheck > limit.max:
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raise limit.rangeexception(limit.rangeerrorstring)
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return value
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def _cast_to_fractional_component(conversion, floatstr):
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# Splits a string with a decimal point into an int, and
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# int representing the floating point remainder as a number
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# of microseconds, determined by multiplying by conversion
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intpart, floatpart = floatstr.split(".")
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intvalue = int(intpart)
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preconvertedvalue = int(floatpart)
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convertedvalue = (preconvertedvalue * conversion) // (10 ** len(floatpart))
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return FractionalComponent(intvalue, convertedvalue)
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class PythonTimeBuilder(BaseTimeBuilder):
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# 0000 (1 BC) is not representable as a Python date
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DATE_YYYY_LIMIT = Limit(
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"Invalid year string.",
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datetime.MINYEAR,
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datetime.MAXYEAR,
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YearOutOfBoundsError,
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"Year must be between {0}..{1}.".format(datetime.MINYEAR, datetime.MAXYEAR),
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year_range_check,
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)
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TIME_HH_LIMIT = Limit(
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"Invalid hour string.",
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0,
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24,
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HoursOutOfBoundsError,
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"Hour must be between 0..24 with " "24 representing midnight.",
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partial(fractional_range_check, MICROSECONDS_PER_HOUR),
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)
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TIME_MM_LIMIT = Limit(
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"Invalid minute string.",
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0,
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59,
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MinutesOutOfBoundsError,
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"Minute must be between 0..59.",
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partial(fractional_range_check, MICROSECONDS_PER_MINUTE),
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)
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TIME_SS_LIMIT = Limit(
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"Invalid second string.",
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0,
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60,
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SecondsOutOfBoundsError,
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"Second must be between 0..60 with " "60 representing a leap second.",
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partial(fractional_range_check, MICROSECONDS_PER_SECOND),
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)
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DURATION_PNY_LIMIT = Limit(
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"Invalid year duration string.",
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None,
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None,
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YearOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_YEAR),
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)
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DURATION_PNM_LIMIT = Limit(
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"Invalid month duration string.",
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None,
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None,
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MonthOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_MONTH),
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)
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DURATION_PNW_LIMIT = Limit(
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"Invalid week duration string.",
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None,
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None,
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WeekOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_WEEK),
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)
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DURATION_PND_LIMIT = Limit(
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"Invalid day duration string.",
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None,
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None,
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DayOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_DAY),
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)
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DURATION_TNH_LIMIT = Limit(
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"Invalid hour duration string.",
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None,
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None,
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HoursOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_HOUR),
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)
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DURATION_TNM_LIMIT = Limit(
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"Invalid minute duration string.",
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None,
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None,
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MinutesOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_MINUTE),
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)
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DURATION_TNS_LIMIT = Limit(
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"Invalid second duration string.",
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None,
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None,
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SecondsOutOfBoundsError,
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None,
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partial(fractional_range_check, MICROSECONDS_PER_SECOND),
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)
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DATE_RANGE_DICT = BaseTimeBuilder.DATE_RANGE_DICT
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DATE_RANGE_DICT["YYYY"] = DATE_YYYY_LIMIT
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TIME_RANGE_DICT = {"hh": TIME_HH_LIMIT, "mm": TIME_MM_LIMIT, "ss": TIME_SS_LIMIT}
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DURATION_RANGE_DICT = {
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"PnY": DURATION_PNY_LIMIT,
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"PnM": DURATION_PNM_LIMIT,
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"PnW": DURATION_PNW_LIMIT,
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"PnD": DURATION_PND_LIMIT,
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"TnH": DURATION_TNH_LIMIT,
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"TnM": DURATION_TNM_LIMIT,
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"TnS": DURATION_TNS_LIMIT,
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}
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@classmethod
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def build_date(cls, YYYY=None, MM=None, DD=None, Www=None, D=None, DDD=None):
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YYYY, MM, DD, Www, D, DDD = cls.range_check_date(YYYY, MM, DD, Www, D, DDD)
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if MM is None:
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MM = 1
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if DD is None:
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DD = 1
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if DDD is not None:
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return PythonTimeBuilder._build_ordinal_date(YYYY, DDD)
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if Www is not None:
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return PythonTimeBuilder._build_week_date(YYYY, Www, isoday=D)
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return datetime.date(YYYY, MM, DD)
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@classmethod
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def build_time(cls, hh=None, mm=None, ss=None, tz=None):
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# Builds a time from the given parts, handling fractional arguments
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# where necessary
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hours = 0
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minutes = 0
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seconds = 0
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microseconds = 0
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hh, mm, ss, tz = cls.range_check_time(hh, mm, ss, tz)
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if type(hh) is FractionalComponent:
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hours = hh.principal
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microseconds = hh.microsecondremainder
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elif hh is not None:
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hours = hh
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if type(mm) is FractionalComponent:
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minutes = mm.principal
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microseconds = mm.microsecondremainder
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elif mm is not None:
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minutes = mm
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if type(ss) is FractionalComponent:
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seconds = ss.principal
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microseconds = ss.microsecondremainder
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elif ss is not None:
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seconds = ss
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(
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hours,
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minutes,
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seconds,
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microseconds,
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) = PythonTimeBuilder._distribute_microseconds(
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microseconds,
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(hours, minutes, seconds),
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(MICROSECONDS_PER_HOUR, MICROSECONDS_PER_MINUTE, MICROSECONDS_PER_SECOND),
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)
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# Move midnight into range
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if hours == 24:
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hours = 0
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# Datetimes don't handle fractional components, so we use a timedelta
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if tz is not None:
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return (
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datetime.datetime(
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1, 1, 1, hour=hours, minute=minutes, tzinfo=cls._build_object(tz)
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)
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+ datetime.timedelta(seconds=seconds, microseconds=microseconds)
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).timetz()
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return (
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datetime.datetime(1, 1, 1, hour=hours, minute=minutes)
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+ datetime.timedelta(seconds=seconds, microseconds=microseconds)
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).time()
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@classmethod
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def build_datetime(cls, date, time):
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return datetime.datetime.combine(
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cls._build_object(date), cls._build_object(time)
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)
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@classmethod
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def build_duration(
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cls, PnY=None, PnM=None, PnW=None, PnD=None, TnH=None, TnM=None, TnS=None
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):
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# PnY and PnM will be distributed to PnD, microsecond remainder to TnS
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PnY, PnM, PnW, PnD, TnH, TnM, TnS = cls.range_check_duration(
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PnY, PnM, PnW, PnD, TnH, TnM, TnS
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)
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seconds = TnS.principal
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microseconds = TnS.microsecondremainder
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return datetime.timedelta(
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days=PnD,
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seconds=seconds,
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microseconds=microseconds,
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minutes=TnM,
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hours=TnH,
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weeks=PnW,
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)
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@classmethod
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def build_interval(cls, start=None, end=None, duration=None):
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start, end, duration = cls.range_check_interval(start, end, duration)
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if start is not None and end is not None:
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# <start>/<end>
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startobject = cls._build_object(start)
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endobject = cls._build_object(end)
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return (startobject, endobject)
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durationobject = cls._build_object(duration)
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# Determine if datetime promotion is required
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datetimerequired = (
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duration.TnH is not None
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or duration.TnM is not None
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or duration.TnS is not None
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or durationobject.seconds != 0
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or durationobject.microseconds != 0
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)
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if end is not None:
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# <duration>/<end>
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endobject = cls._build_object(end)
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# Range check
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if type(end) is DateTuple and datetimerequired is True:
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# <end> is a date, and <duration> requires datetime resolution
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return (
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endobject,
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cls.build_datetime(end, TupleBuilder.build_time()) - durationobject,
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)
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return (endobject, endobject - durationobject)
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# <start>/<duration>
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startobject = cls._build_object(start)
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# Range check
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if type(start) is DateTuple and datetimerequired is True:
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# <start> is a date, and <duration> requires datetime resolution
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return (
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startobject,
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cls.build_datetime(start, TupleBuilder.build_time()) + durationobject,
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)
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return (startobject, startobject + durationobject)
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@classmethod
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def build_repeating_interval(cls, R=None, Rnn=None, interval=None):
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startobject = None
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endobject = None
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R, Rnn, interval = cls.range_check_repeating_interval(R, Rnn, interval)
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if interval.start is not None:
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startobject = cls._build_object(interval.start)
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if interval.end is not None:
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endobject = cls._build_object(interval.end)
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if interval.duration is not None:
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durationobject = cls._build_object(interval.duration)
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else:
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durationobject = endobject - startobject
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if R is True:
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if startobject is not None:
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return cls._date_generator_unbounded(startobject, durationobject)
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return cls._date_generator_unbounded(endobject, -durationobject)
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iterations = int(Rnn)
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if startobject is not None:
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return cls._date_generator(startobject, durationobject, iterations)
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return cls._date_generator(endobject, -durationobject, iterations)
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@classmethod
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def build_timezone(cls, negative=None, Z=None, hh=None, mm=None, name=""):
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negative, Z, hh, mm, name = cls.range_check_timezone(negative, Z, hh, mm, name)
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if Z is True:
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# Z -> UTC
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return UTCOffset(name="UTC", minutes=0)
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tzhour = int(hh)
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if mm is not None:
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tzminute = int(mm)
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else:
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tzminute = 0
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if negative is True:
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return UTCOffset(name=name, minutes=-(tzhour * 60 + tzminute))
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return UTCOffset(name=name, minutes=tzhour * 60 + tzminute)
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@classmethod
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def range_check_duration(
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cls,
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PnY=None,
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PnM=None,
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PnW=None,
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PnD=None,
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TnH=None,
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TnM=None,
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TnS=None,
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rangedict=None,
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):
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years = 0
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months = 0
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days = 0
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weeks = 0
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hours = 0
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minutes = 0
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seconds = 0
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microseconds = 0
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PnY, PnM, PnW, PnD, TnH, TnM, TnS = BaseTimeBuilder.range_check_duration(
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PnY, PnM, PnW, PnD, TnH, TnM, TnS, rangedict=cls.DURATION_RANGE_DICT
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)
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if PnY is not None:
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if type(PnY) is FractionalComponent:
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years = PnY.principal
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microseconds = PnY.microsecondremainder
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else:
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years = PnY
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if years * DAYS_PER_YEAR > TIMEDELTA_MAX_DAYS:
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raise YearOutOfBoundsError("Duration exceeds maximum timedelta size.")
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if PnM is not None:
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if type(PnM) is FractionalComponent:
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months = PnM.principal
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microseconds = PnM.microsecondremainder
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else:
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months = PnM
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if months * DAYS_PER_MONTH > TIMEDELTA_MAX_DAYS:
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raise MonthOutOfBoundsError("Duration exceeds maximum timedelta size.")
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if PnW is not None:
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if type(PnW) is FractionalComponent:
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weeks = PnW.principal
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microseconds = PnW.microsecondremainder
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else:
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weeks = PnW
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if weeks * DAYS_PER_WEEK > TIMEDELTA_MAX_DAYS:
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raise WeekOutOfBoundsError("Duration exceeds maximum timedelta size.")
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if PnD is not None:
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if type(PnD) is FractionalComponent:
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days = PnD.principal
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microseconds = PnD.microsecondremainder
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else:
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days = PnD
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if days > TIMEDELTA_MAX_DAYS:
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raise DayOutOfBoundsError("Duration exceeds maximum timedelta size.")
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if TnH is not None:
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if type(TnH) is FractionalComponent:
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hours = TnH.principal
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microseconds = TnH.microsecondremainder
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else:
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hours = TnH
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if hours // HOURS_PER_DAY > TIMEDELTA_MAX_DAYS:
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raise HoursOutOfBoundsError("Duration exceeds maximum timedelta size.")
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if TnM is not None:
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if type(TnM) is FractionalComponent:
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minutes = TnM.principal
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microseconds = TnM.microsecondremainder
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else:
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minutes = TnM
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if minutes // MINUTES_PER_DAY > TIMEDELTA_MAX_DAYS:
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raise MinutesOutOfBoundsError(
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"Duration exceeds maximum timedelta size."
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)
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if TnS is not None:
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if type(TnS) is FractionalComponent:
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seconds = TnS.principal
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microseconds = TnS.microsecondremainder
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else:
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seconds = TnS
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if seconds // SECONDS_PER_DAY > TIMEDELTA_MAX_DAYS:
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raise SecondsOutOfBoundsError(
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"Duration exceeds maximum timedelta size."
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)
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(
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years,
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months,
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weeks,
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days,
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hours,
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minutes,
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seconds,
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microseconds,
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) = PythonTimeBuilder._distribute_microseconds(
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microseconds,
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(years, months, weeks, days, hours, minutes, seconds),
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(
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MICROSECONDS_PER_YEAR,
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MICROSECONDS_PER_MONTH,
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MICROSECONDS_PER_WEEK,
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|
MICROSECONDS_PER_DAY,
|
|
MICROSECONDS_PER_HOUR,
|
|
MICROSECONDS_PER_MINUTE,
|
|
MICROSECONDS_PER_SECOND,
|
|
),
|
|
)
|
|
|
|
# Note that weeks can be handled without conversion to days
|
|
totaldays = years * DAYS_PER_YEAR + months * DAYS_PER_MONTH + days
|
|
|
|
# Check against timedelta limits
|
|
if (
|
|
totaldays
|
|
+ weeks * DAYS_PER_WEEK
|
|
+ hours // HOURS_PER_DAY
|
|
+ minutes // MINUTES_PER_DAY
|
|
+ seconds // SECONDS_PER_DAY
|
|
> TIMEDELTA_MAX_DAYS
|
|
):
|
|
raise DayOutOfBoundsError("Duration exceeds maximum timedelta size.")
|
|
|
|
return (
|
|
None,
|
|
None,
|
|
weeks,
|
|
totaldays,
|
|
hours,
|
|
minutes,
|
|
FractionalComponent(seconds, microseconds),
|
|
)
|
|
|
|
@classmethod
|
|
def range_check_interval(cls, start=None, end=None, duration=None):
|
|
# Handles concise format, range checks any potential durations
|
|
if start is not None and end is not None:
|
|
# <start>/<end>
|
|
# Handle concise format
|
|
if cls._is_interval_end_concise(end) is True:
|
|
end = cls._combine_concise_interval_tuples(start, end)
|
|
|
|
return (start, end, duration)
|
|
|
|
durationobject = cls._build_object(duration)
|
|
|
|
if end is not None:
|
|
# <duration>/<end>
|
|
endobject = cls._build_object(end)
|
|
|
|
# Range check
|
|
if type(end) is DateTuple:
|
|
enddatetime = cls.build_datetime(end, TupleBuilder.build_time())
|
|
|
|
if enddatetime - datetime.datetime.min < durationobject:
|
|
raise YearOutOfBoundsError("Interval end less than minimium date.")
|
|
else:
|
|
mindatetime = datetime.datetime.min
|
|
|
|
if end.time.tz is not None:
|
|
mindatetime = mindatetime.replace(tzinfo=endobject.tzinfo)
|
|
|
|
if endobject - mindatetime < durationobject:
|
|
raise YearOutOfBoundsError("Interval end less than minimium date.")
|
|
else:
|
|
# <start>/<duration>
|
|
startobject = cls._build_object(start)
|
|
|
|
# Range check
|
|
if type(start) is DateTuple:
|
|
startdatetime = cls.build_datetime(start, TupleBuilder.build_time())
|
|
|
|
if datetime.datetime.max - startdatetime < durationobject:
|
|
raise YearOutOfBoundsError(
|
|
"Interval end greater than maximum date."
|
|
)
|
|
else:
|
|
maxdatetime = datetime.datetime.max
|
|
|
|
if start.time.tz is not None:
|
|
maxdatetime = maxdatetime.replace(tzinfo=startobject.tzinfo)
|
|
|
|
if maxdatetime - startobject < durationobject:
|
|
raise YearOutOfBoundsError(
|
|
"Interval end greater than maximum date."
|
|
)
|
|
|
|
return (start, end, duration)
|
|
|
|
@staticmethod
|
|
def _build_week_date(isoyear, isoweek, isoday=None):
|
|
if isoday is None:
|
|
return PythonTimeBuilder._iso_year_start(isoyear) + datetime.timedelta(
|
|
weeks=isoweek - 1
|
|
)
|
|
|
|
return PythonTimeBuilder._iso_year_start(isoyear) + datetime.timedelta(
|
|
weeks=isoweek - 1, days=isoday - 1
|
|
)
|
|
|
|
@staticmethod
|
|
def _build_ordinal_date(isoyear, isoday):
|
|
# Day of year to a date
|
|
# https://stackoverflow.com/questions/2427555/python-question-year-and-day-of-year-to-date
|
|
builtdate = datetime.date(isoyear, 1, 1) + datetime.timedelta(days=isoday - 1)
|
|
|
|
return builtdate
|
|
|
|
@staticmethod
|
|
def _iso_year_start(isoyear):
|
|
# Given an ISO year, returns the equivalent of the start of the year
|
|
# on the Gregorian calendar (which is used by Python)
|
|
# Stolen from:
|
|
# http://stackoverflow.com/questions/304256/whats-the-best-way-to-find-the-inverse-of-datetime-isocalendar
|
|
|
|
# Determine the location of the 4th of January, the first week of
|
|
# the ISO year is the week containing the 4th of January
|
|
# http://en.wikipedia.org/wiki/ISO_week_date
|
|
fourth_jan = datetime.date(isoyear, 1, 4)
|
|
|
|
# Note the conversion from ISO day (1 - 7) and Python day (0 - 6)
|
|
delta = datetime.timedelta(days=fourth_jan.isoweekday() - 1)
|
|
|
|
# Return the start of the year
|
|
return fourth_jan - delta
|
|
|
|
@staticmethod
|
|
def _date_generator(startdate, timedelta, iterations):
|
|
currentdate = startdate
|
|
currentiteration = 0
|
|
|
|
while currentiteration < iterations:
|
|
yield currentdate
|
|
|
|
# Update the values
|
|
currentdate += timedelta
|
|
currentiteration += 1
|
|
|
|
@staticmethod
|
|
def _date_generator_unbounded(startdate, timedelta):
|
|
currentdate = startdate
|
|
|
|
while True:
|
|
yield currentdate
|
|
|
|
# Update the value
|
|
currentdate += timedelta
|
|
|
|
@staticmethod
|
|
def _distribute_microseconds(todistribute, recipients, reductions):
|
|
# Given a number of microseconds as int, a tuple of ints length n
|
|
# to distribute to, and a tuple of ints length n to divide todistribute
|
|
# by (from largest to smallest), returns a tuple of length n + 1, with
|
|
# todistribute divided across recipients using the reductions, with
|
|
# the final remainder returned as the final tuple member
|
|
results = []
|
|
|
|
remainder = todistribute
|
|
|
|
for index, reduction in enumerate(reductions):
|
|
additional, remainder = divmod(remainder, reduction)
|
|
|
|
results.append(recipients[index] + additional)
|
|
|
|
# Always return the remaining microseconds
|
|
results.append(remainder)
|
|
|
|
return tuple(results)
|