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	"""Time humanizing functions.

	These are largely borrowed from Django's `contrib.humanize`.
	"""

	from __future__ import annotations

	from enum import Enum
	from functools import total_ordering

	from .i18n import _gettext as _
	from .i18n import _ngettext
	from .number import intcomma

	TYPE_CHECKING = False
	if TYPE_CHECKING:
	import datetime as dt
	from collections.abc import Iterable
	from typing import Any

	__all__ = [
	"naturaldate",
	"naturalday",
	"naturaldelta",
	"naturaltime",
	"precisedelta",
	]


	@total_ordering
	class Unit(Enum):
	MICROSECONDS = 0
	MILLISECONDS = 1
	SECONDS = 2
	MINUTES = 3
	HOURS = 4
	DAYS = 5
	MONTHS = 6
	YEARS = 7

	def __lt__(self, other: Any) -> Any:
	if self.__class__ is other.__class__:
	return self.value < other.value
	return NotImplemented


	def _now() -> dt.datetime:
	import datetime as dt

	return dt.datetime.now()


	def _abs_timedelta(delta: dt.timedelta) -> dt.timedelta:
	"""Return an "absolute" value for a timedelta, always representing a time distance.

	Args:
	delta (datetime.timedelta): Input timedelta.

	Returns:
	datetime.timedelta: Absolute timedelta.
	"""
	if delta.days < 0:
	now = _now()
	return now - (now + delta)
	return delta


	def _date_and_delta(
	value: Any, *, now: dt.datetime \| None = None, precise: bool = False
	) -> tuple[Any, Any]:
	"""Turn a value into a date and a timedelta which represents how long ago it was.

	If that's not possible, return `(None, value)`.
	"""
	import datetime as dt

	if not now:
	now = _now()
	if isinstance(value, dt.datetime):
	date = value
	delta = now - value
	elif isinstance(value, dt.timedelta):
	date = now - value
	delta = value
	else:
	try:
	value = value if precise else round(value)
	delta = dt.timedelta(seconds=value)
	date = now - delta
	except (ValueError, TypeError):
	return None, value
	return date, _abs_timedelta(delta)


	def naturaldelta(
	value: dt.timedelta \| float,
	months: bool = True,
	minimum_unit: str = "seconds",
	) -> str:
	"""Return a natural representation of a timedelta or number of seconds.

	This is similar to `naturaltime`, but does not add tense to the result.

	The timedelta will be rounded to the nearest unit that makes sense.

	Args:
	value (datetime.timedelta, int or float): A timedelta or a number of seconds.
	months (bool): If `True`, then a number of months (based on 30.5 days) will be
	used for fuzziness between years.
	minimum_unit (str): The lowest unit that can be used.

	Returns:
	str (str or `value`): A natural representation of the amount of time
	elapsed unless `value` is not datetime.timedelta or cannot be
	converted to int (cannot be float due to 'inf' or 'nan').
	In that case, a `value` is returned unchanged.

	Raises:
	OverflowError: If `value` is too large to convert to datetime.timedelta.

	Examples:
	Compare two timestamps in a custom local timezone::

	```pycon
	>>> import datetime as dt
	>>> from dateutil.tz import gettz

	>>> berlin = gettz("Europe/Berlin")
	>>> now = dt.datetime.now(tz=berlin)
	>>> later = now + dt.timedelta(minutes=30)

	>>> assert naturaldelta(later - now) == "30 minutes"
	True
	```

	"""
	import datetime as dt

	tmp = Unit[minimum_unit.upper()]
	if tmp not in (Unit.SECONDS, Unit.MILLISECONDS, Unit.MICROSECONDS):
	msg = f"Minimum unit '{minimum_unit}' not supported"
	raise ValueError(msg)
	min_unit = tmp

	if isinstance(value, dt.timedelta):
	delta = value
	else:
	try:
	int(value) # Explicitly don't support string such as "NaN" or "inf"
	value = float(value)
	delta = dt.timedelta(seconds=value)
	except (ValueError, TypeError):
	return str(value)

	use_months = months

	delta = abs(delta)
	years = delta.days // 365
	days = delta.days % 365
	num_months = round(days / 30.5)

	if years == 0 and days < 1:
	if delta.seconds == 0:
	if min_unit == Unit.MICROSECONDS and delta.microseconds < 1000:
	return (
	_ngettext("%d microsecond", "%d microseconds", delta.microseconds)
	% delta.microseconds
	)

	if min_unit == Unit.MILLISECONDS or (
	min_unit == Unit.MICROSECONDS and 1000 <= delta.microseconds < 1_000_000
	):
	milliseconds = delta.microseconds / 1000
	return (
	_ngettext("%d millisecond", "%d milliseconds", int(milliseconds))
	% milliseconds
	)
	return _("a moment")

	if delta.seconds == 1:
	return _("a second")

	if delta.seconds < 60:
	return _ngettext("%d second", "%d seconds", delta.seconds) % delta.seconds

	if 60 <= delta.seconds < 3600:
	minutes = round(delta.seconds / 60)
	if minutes == 1:
	return _("a minute")

	if minutes == 60:
	return _("an hour")

	return _ngettext("%d minute", "%d minutes", minutes) % minutes

	if 3600 <= delta.seconds:
	hours = round(delta.seconds / 3600)
	if hours == 1:
	return _("an hour")

	if hours == 24:
	return _("a day")

	return _ngettext("%d hour", "%d hours", hours) % hours

	elif years == 0:
	if days == 1:
	return _("a day")

	if not use_months:
	return _ngettext("%d day", "%d days", days) % days

	if num_months == 0:
	return _ngettext("%d day", "%d days", days) % days

	if num_months == 1:
	return _("a month")

	if num_months == 12:
	return _("a year")

	return _ngettext("%d month", "%d months", num_months) % num_months

	elif years == 1:
	if num_months == 0 and days == 0:
	return _("a year")

	if num_months == 0:
	return _ngettext("1 year, %d day", "1 year, %d days", days) % days

	if use_months:
	if num_months == 1:
	return _("1 year, 1 month")

	if num_months == 12:
	years += 1
	return _ngettext("%d year", "%d years", years) % years

	return (
	_ngettext("1 year, %d month", "1 year, %d months", num_months)
	% num_months
	)

	return _ngettext("1 year, %d day", "1 year, %d days", days) % days

	return _ngettext("%d year", "%d years", years).replace("%d", "%s") % intcomma(years)


	def naturaltime(
	value: dt.datetime \| dt.timedelta \| float,
	future: bool = False,
	months: bool = True,
	minimum_unit: str = "seconds",
	when: dt.datetime \| None = None,
	) -> str:
	"""Return a natural representation of a time in a resolution that makes sense.

	This is more or less compatible with Django's `naturaltime` filter.

	The time will be rounded to the nearest unit that makes sense.

	Args:
	value (datetime.datetime, datetime.timedelta, int or float): A `datetime`, a
	`timedelta`, or a number of seconds.
	future (bool): Ignored for `datetime`s and `timedelta`s, where the tense is
	always figured out based on the current time. For integers and floats, the
	return value will be past tense by default, unless future is `True`.
	months (bool): If `True`, then a number of months (based on 30.5 days) will be
	used for fuzziness between years.
	minimum_unit (str): The lowest unit that can be used.
	when (datetime.datetime): Point in time relative to which _value_ is
	interpreted. Defaults to the current time in the local timezone.

	Returns:
	str: A natural representation of the input in a resolution that makes sense.
	"""
	import datetime as dt

	value = _convert_aware_datetime(value)
	when = _convert_aware_datetime(when)

	now = when or _now()

	date, delta = _date_and_delta(value, now=now)
	if date is None:
	return str(value)
	# determine tense by value only if datetime/timedelta were passed
	if isinstance(value, (dt.datetime, dt.timedelta)):
	future = date > now

	ago = _("%s from now") if future else _("%s ago")
	delta = naturaldelta(delta, months, minimum_unit)

	if delta == _("a moment"):
	return _("now")

	return str(ago % delta)


	def _convert_aware_datetime(
	value: dt.datetime \| dt.timedelta \| float \| None,
	) -> Any:
	"""Convert aware datetime to naive datetime and pass through any other type."""
	import datetime as dt

	if isinstance(value, dt.datetime) and value.tzinfo is not None:
	value = dt.datetime.fromtimestamp(value.timestamp())
	return value


	def naturalday(value: dt.date \| dt.datetime, format: str = "%b %d") -> str:
	"""Return a natural day.

	For date values that are tomorrow, today or yesterday compared to
	present day return representing string. Otherwise, return a string
	formatted according to `format`.

	"""
	import datetime as dt

	try:
	value = dt.date(value.year, value.month, value.day)
	except AttributeError:
	# Passed value wasn't date-ish
	return str(value)
	except (OverflowError, ValueError):
	# Date arguments out of range
	return str(value)
	delta = value - dt.date.today()

	if delta.days == 0:
	return _("today")

	if delta.days == 1:
	return _("tomorrow")

	if delta.days == -1:
	return _("yesterday")

	return value.strftime(format)


	def naturaldate(value: dt.date \| dt.datetime) -> str:
	"""Like `naturalday`, but append a year for dates more than ~five months away."""
	import datetime as dt

	try:
	value = dt.date(value.year, value.month, value.day)
	except AttributeError:
	# Passed value wasn't date-ish
	return str(value)
	except (OverflowError, ValueError):
	# Date arguments out of range
	return str(value)
	delta = _abs_timedelta(value - dt.date.today())
	if delta.days >= 5 * 365 / 12:
	return naturalday(value, "%b %d %Y")
	return naturalday(value)


	def _quotient_and_remainder(
	value: float,
	divisor: float,
	unit: Unit,
	minimum_unit: Unit,
	suppress: Iterable[Unit],
	format: str,
	) -> tuple[float, float]:
	"""Divide `value` by `divisor`, returning the quotient and remainder.

	If `unit` is `minimum_unit`, the quotient will be the rounding of `value / divisor`
	according to the `format` string and the remainder will be zero. The rationale is
	that if `unit` is the unit of the quotient, we cannot represent the remainder
	because it would require a unit smaller than the `minimum_unit`.

	>>> from humanize.time import _quotient_and_remainder, Unit
	>>> _quotient_and_remainder(36, 24, Unit.DAYS, Unit.DAYS, [], "%0.2f")
	(1.5, 0)

	If `unit` is in `suppress`, the quotient will be zero and the remainder will be the
	initial value. The idea is that if we cannot use `unit`, we are forced to use a
	lower unit, so we cannot do the division.

	>>> _quotient_and_remainder(36, 24, Unit.DAYS, Unit.HOURS, [Unit.DAYS], "%0.2f")
	(0, 36)

	In other cases, return the quotient and remainder as `divmod` would do it.

	>>> _quotient_and_remainder(36, 24, Unit.DAYS, Unit.HOURS, [], "%0.2f")
	(1, 12)

	"""
	if unit == minimum_unit:
	return _rounding_by_fmt(format, value / divisor), 0

	if unit in suppress:
	return 0, value

	# Convert the remainder back to integer is necessary for months. 1 month is 30.5
	# days on average, but if we have 31 days, we want to count is as a whole month,
	# and not as 1 month plus a remainder of 0.5 days.
	q, r = divmod(value, divisor)
	return q, int(r)


	def _suitable_minimum_unit(min_unit: Unit, suppress: Iterable[Unit]) -> Unit:
	"""Return a minimum unit suitable that is not suppressed.

	If not suppressed, return the same unit:

	>>> from humanize.time import _suitable_minimum_unit, Unit
	>>> _suitable_minimum_unit(Unit.HOURS, []).name
	'HOURS'

	But if suppressed, find a unit greater than the original one that is not
	suppressed:

	>>> _suitable_minimum_unit(Unit.HOURS, [Unit.HOURS]).name
	'DAYS'

	>>> _suitable_minimum_unit(Unit.HOURS, [Unit.HOURS, Unit.DAYS]).name
	'MONTHS'
	"""
	if min_unit in suppress:
	for unit in Unit:
	if unit > min_unit and unit not in suppress:
	return unit

	msg = "Minimum unit is suppressed and no suitable replacement was found"
	raise ValueError(msg)

	return min_unit


	def _suppress_lower_units(min_unit: Unit, suppress: Iterable[Unit]) -> set[Unit]:
	"""Extend suppressed units (if any) with all units lower than the minimum unit.

	>>> from humanize.time import _suppress_lower_units, Unit
	>>> [x.name for x in sorted(_suppress_lower_units(Unit.SECONDS, [Unit.DAYS]))]
	['MICROSECONDS', 'MILLISECONDS', 'DAYS']
	"""
	suppress = set(suppress)
	for unit in Unit:
	if unit == min_unit:
	break
	suppress.add(unit)

	return suppress


	def precisedelta(
	value: dt.timedelta \| float \| None,
	minimum_unit: str = "seconds",
	suppress: Iterable[str] = (),
	format: str = "%0.2f",
	) -> str:
	"""Return a precise representation of a timedelta or number of seconds.

	```pycon
	>>> import datetime as dt
	>>> from humanize.time import precisedelta

	>>> delta = dt.timedelta(seconds=3633, days=2, microseconds=123000)
	>>> precisedelta(delta)
	'2 days, 1 hour and 33.12 seconds'

	```

	A custom `format` can be specified to control how the fractional part
	is represented:

	```pycon
	>>> precisedelta(delta, format="%0.4f")
	'2 days, 1 hour and 33.1230 seconds'

	```

	Instead, the `minimum_unit` can be changed to have a better resolution;
	the function will still readjust the unit to use the greatest of the
	units that does not lose precision.

	For example setting microseconds but still representing the date with milliseconds:

	```pycon
	>>> precisedelta(delta, minimum_unit="microseconds")
	'2 days, 1 hour, 33 seconds and 123 milliseconds'

	```

	If desired, some units can be suppressed: you will not see them represented and the
	time of the other units will be adjusted to keep representing the same timedelta:

	```pycon
	>>> precisedelta(delta, suppress=['days'])
	'49 hours and 33.12 seconds'

	```

	Note that microseconds precision is lost if the seconds and all
	the units below are suppressed:

	```pycon
	>>> delta = dt.timedelta(seconds=90, microseconds=100)
	>>> precisedelta(delta, suppress=['seconds', 'milliseconds', 'microseconds'])
	'1.50 minutes'

	```

	If the delta is too small to be represented with the minimum unit,
	a value of zero will be returned:

	```pycon
	>>> delta = dt.timedelta(seconds=1)
	>>> precisedelta(delta, minimum_unit="minutes")
	'0.02 minutes'

	>>> delta = dt.timedelta(seconds=0.1)
	>>> precisedelta(delta, minimum_unit="minutes")
	'0 minutes'

	```
	"""
	date, delta = _date_and_delta(value, precise=True)
	if date is None:
	return str(value)

	suppress_set = {Unit[s.upper()] for s in suppress}

	# Find a suitable minimum unit (it can be greater than the one that the
	# user gave us, if that one is suppressed).
	min_unit = Unit[minimum_unit.upper()]
	min_unit = _suitable_minimum_unit(min_unit, suppress_set)
	del minimum_unit

	# Expand the suppressed units list/set to include all the units
	# that are below the minimum unit
	suppress_set = _suppress_lower_units(min_unit, suppress_set)

	# handy aliases
	days = delta.days
	secs = delta.seconds
	usecs = delta.microseconds

	MICROSECONDS, MILLISECONDS, SECONDS, MINUTES, HOURS, DAYS, MONTHS, YEARS = list(
	Unit
	)

	# Given DAYS compute YEARS and the remainder of DAYS as follows:
	# if YEARS is the minimum unit, we cannot use DAYS so
	# we will use a float for YEARS and 0 for DAYS:
	# years, days = years/days, 0
	#
	# if YEARS is suppressed, use DAYS:
	# years, days = 0, days
	#
	# otherwise:
	# years, days = divmod(years, days)
	#
	# The same applies for months, hours, minutes and milliseconds below
	years, days = _quotient_and_remainder(
	days, 365, YEARS, min_unit, suppress_set, format
	)
	months, days = _quotient_and_remainder(
	days, 30.5, MONTHS, min_unit, suppress_set, format
	)

	secs = days * 24 * 3600 + secs
	days, secs = _quotient_and_remainder(
	secs, 24 * 3600, DAYS, min_unit, suppress_set, format
	)

	hours, secs = _quotient_and_remainder(
	secs, 3600, HOURS, min_unit, suppress_set, format
	)
	minutes, secs = _quotient_and_remainder(
	secs, 60, MINUTES, min_unit, suppress_set, format
	)

	usecs = secs * 1e6 + usecs
	secs, usecs = _quotient_and_remainder(
	usecs, 1e6, SECONDS, min_unit, suppress_set, format
	)

	msecs, usecs = _quotient_and_remainder(
	usecs, 1000, MILLISECONDS, min_unit, suppress_set, format
	)

	# Due to rounding, it could be that a unit is high enough to be promoted to a higher
	# unit. Example: 59.9 minutes was rounded to 60 minutes, and thus it should become 0
	# minutes and one hour more.
	if msecs >= 1_000 and SECONDS not in suppress_set:
	msecs -= 1_000
	secs += 1
	if secs >= 60 and MINUTES not in suppress_set:
	secs -= 60
	minutes += 1
	if minutes >= 60 and HOURS not in suppress_set:
	minutes -= 60
	hours += 1
	if hours >= 24 and DAYS not in suppress_set:
	hours -= 24
	days += 1
	# When adjusting we should not deal anymore with fractional days as all rounding has
	# been already made. We promote 31 days to an extra month.
	if days >= 31 and MONTHS not in suppress_set:
	days -= 31
	months += 1
	if months >= 12 and YEARS not in suppress_set:
	months -= 12
	years += 1

	fmts = [
	("%d year", "%d years", years),
	("%d month", "%d months", months),
	("%d day", "%d days", days),
	("%d hour", "%d hours", hours),
	("%d minute", "%d minutes", minutes),
	("%d second", "%d seconds", secs),
	("%d millisecond", "%d milliseconds", msecs),
	("%d microsecond", "%d microseconds", usecs),
	]

	texts: list[str] = []
	for unit, fmt in zip(reversed(Unit), fmts):
	singular_txt, plural_txt, fmt_value = fmt
	if fmt_value > 0 or (not texts and unit == min_unit):
	_fmt_value = 2 if 1 < fmt_value < 2 else int(fmt_value)
	fmt_txt = _ngettext(singular_txt, plural_txt, _fmt_value)
	import math

	if unit == min_unit and math.modf(fmt_value)[0] > 0:
	fmt_txt = fmt_txt.replace("%d", format)
	elif unit == YEARS:
	if math.modf(fmt_value)[0] == 0:
	fmt_value = int(fmt_value)
	fmt_txt = fmt_txt.replace("%d", "%s")
	texts.append(fmt_txt % intcomma(fmt_value))
	continue

	texts.append(fmt_txt % fmt_value)

	if unit == min_unit:
	break

	if len(texts) == 1:
	return texts[0]

	head = ", ".join(texts[:-1])
	tail = texts[-1]

	return _("%s and %s") % (head, tail)


	def _rounding_by_fmt(format: str, value: float) -> float \| int:
	"""Round a number according to the string format provided.

	The string format is the old printf-style string formatting.

	If we are using a format which truncates the value, such as "%d" or "%i", the
	returned value will be of type `int`.

	If we are using a format which rounds the value, such as "%.2f" or even "%.0f",
	we will return a float.
	"""
	result = format % value

	try:
	value = int(result)
	except ValueError:
	value = float(result)

	return value