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	# -- coding: utf-8 --
	"""
	The rrule module offers a small, complete, and very fast, implementation of
	the recurrence rules documented in the
	`iCalendar RFC <https://tools.ietf.org/html/rfc5545>`_,
	including support for caching of results.
	"""
	import calendar
	import datetime
	import heapq
	import itertools
	import re
	import sys
	from functools import wraps
	# For warning about deprecation of until and count
	from warnings import warn

	from six import advance_iterator, integer_types

	from six.moves import _thread, range

	from ._common import weekday as weekdaybase

	try:
	from math import gcd
	except ImportError:
	from fractions import gcd

	__all__ = ["rrule", "rruleset", "rrulestr",
	"YEARLY", "MONTHLY", "WEEKLY", "DAILY",
	"HOURLY", "MINUTELY", "SECONDLY",
	"MO", "TU", "WE", "TH", "FR", "SA", "SU"]

	# Every mask is 7 days longer to handle cross-year weekly periods.
	M366MASK = tuple([1]31+[2]29+[3]31+[4]30+[5]31+[6]30 +
	[7]31+[8]31+[9]30+[10]31+[11]30+[12]31+[1]*7)
	M365MASK = list(M366MASK)
	M29, M30, M31 = list(range(1, 30)), list(range(1, 31)), list(range(1, 32))
	MDAY366MASK = tuple(M31+M29+M31+M30+M31+M30+M31+M31+M30+M31+M30+M31+M31[:7])
	MDAY365MASK = list(MDAY366MASK)
	M29, M30, M31 = list(range(-29, 0)), list(range(-30, 0)), list(range(-31, 0))
	NMDAY366MASK = tuple(M31+M29+M31+M30+M31+M30+M31+M31+M30+M31+M30+M31+M31[:7])
	NMDAY365MASK = list(NMDAY366MASK)
	M366RANGE = (0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366)
	M365RANGE = (0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365)
	WDAYMASK = [0, 1, 2, 3, 4, 5, 6]*55
	del M29, M30, M31, M365MASK[59], MDAY365MASK[59], NMDAY365MASK[31]
	MDAY365MASK = tuple(MDAY365MASK)
	M365MASK = tuple(M365MASK)

	FREQNAMES = ['YEARLY', 'MONTHLY', 'WEEKLY', 'DAILY', 'HOURLY', 'MINUTELY', 'SECONDLY']

	(YEARLY,
	MONTHLY,
	WEEKLY,
	DAILY,
	HOURLY,
	MINUTELY,
	SECONDLY) = list(range(7))

	# Imported on demand.
	easter = None
	parser = None


	class weekday(weekdaybase):
	"""
	This version of weekday does not allow n = 0.
	"""
	def __init__(self, wkday, n=None):
	if n == 0:
	raise ValueError("Can't create weekday with n==0")

	super(weekday, self).__init__(wkday, n)


	MO, TU, WE, TH, FR, SA, SU = weekdays = tuple(weekday(x) for x in range(7))


	def _invalidates_cache(f):
	"""
	Decorator for rruleset methods which may invalidate the
	cached length.
	"""
	@wraps(f)
	def inner_func(self, args, *kwargs):
	rv = f(self, args, *kwargs)
	self._invalidate_cache()
	return rv

	return inner_func


	class rrulebase(object):
	def __init__(self, cache=False):
	if cache:
	self._cache = []
	self._cache_lock = _thread.allocate_lock()
	self._invalidate_cache()
	else:
	self._cache = None
	self._cache_complete = False
	self._len = None

	def __iter__(self):
	if self._cache_complete:
	return iter(self._cache)
	elif self._cache is None:
	return self._iter()
	else:
	return self._iter_cached()

	def _invalidate_cache(self):
	if self._cache is not None:
	self._cache = []
	self._cache_complete = False
	self._cache_gen = self._iter()

	if self._cache_lock.locked():
	self._cache_lock.release()

	self._len = None

	def _iter_cached(self):
	i = 0
	gen = self._cache_gen
	cache = self._cache
	acquire = self._cache_lock.acquire
	release = self._cache_lock.release
	while gen:
	if i == len(cache):
	acquire()
	if self._cache_complete:
	break
	try:
	for j in range(10):
	cache.append(advance_iterator(gen))
	except StopIteration:
	self._cache_gen = gen = None
	self._cache_complete = True
	break
	release()
	yield cache[i]
	i += 1
	while i < self._len:
	yield cache[i]
	i += 1

	def __getitem__(self, item):
	if self._cache_complete:
	return self._cache[item]
	elif isinstance(item, slice):
	if item.step and item.step < 0:
	return list(iter(self))[item]
	else:
	return list(itertools.islice(self,
	item.start or 0,
	item.stop or sys.maxsize,
	item.step or 1))
	elif item >= 0:
	gen = iter(self)
	try:
	for i in range(item+1):
	res = advance_iterator(gen)
	except StopIteration:
	raise IndexError
	return res
	else:
	return list(iter(self))[item]

	def __contains__(self, item):
	if self._cache_complete:
	return item in self._cache
	else:
	for i in self:
	if i == item:
	return True
	elif i > item:
	return False
	return False

	# __len__() introduces a large performance penalty.
	def count(self):
	""" Returns the number of recurrences in this set. It will have go
	trough the whole recurrence, if this hasn't been done before. """
	if self._len is None:
	for x in self:
	pass
	return self._len

	def before(self, dt, inc=False):
	""" Returns the last recurrence before the given datetime instance. The
	inc keyword defines what happens if dt is an occurrence. With
	inc=True, if dt itself is an occurrence, it will be returned. """
	if self._cache_complete:
	gen = self._cache
	else:
	gen = self
	last = None
	if inc:
	for i in gen:
	if i > dt:
	break
	last = i
	else:
	for i in gen:
	if i >= dt:
	break
	last = i
	return last

	def after(self, dt, inc=False):
	""" Returns the first recurrence after the given datetime instance. The
	inc keyword defines what happens if dt is an occurrence. With
	inc=True, if dt itself is an occurrence, it will be returned. """
	if self._cache_complete:
	gen = self._cache
	else:
	gen = self
	if inc:
	for i in gen:
	if i >= dt:
	return i
	else:
	for i in gen:
	if i > dt:
	return i
	return None

	def xafter(self, dt, count=None, inc=False):
	"""
	Generator which yields up to `count` recurrences after the given
	datetime instance, equivalent to `after`.

	:param dt:
	The datetime at which to start generating recurrences.

	:param count:
	The maximum number of recurrences to generate. If `None` (default),
	dates are generated until the recurrence rule is exhausted.

	:param inc:
	If `dt` is an instance of the rule and `inc` is `True`, it is
	included in the output.

	:yields: Yields a sequence of `datetime` objects.
	"""

	if self._cache_complete:
	gen = self._cache
	else:
	gen = self

	# Select the comparison function
	if inc:
	comp = lambda dc, dtc: dc >= dtc
	else:
	comp = lambda dc, dtc: dc > dtc

	# Generate dates
	n = 0
	for d in gen:
	if comp(d, dt):
	if count is not None:
	n += 1
	if n > count:
	break

	yield d

	def between(self, after, before, inc=False, count=1):
	""" Returns all the occurrences of the rrule between after and before.
	The inc keyword defines what happens if after and/or before are
	themselves occurrences. With inc=True, they will be included in the
	list, if they are found in the recurrence set. """
	if self._cache_complete:
	gen = self._cache
	else:
	gen = self
	started = False
	l = []
	if inc:
	for i in gen:
	if i > before:
	break
	elif not started:
	if i >= after:
	started = True
	l.append(i)
	else:
	l.append(i)
	else:
	for i in gen:
	if i >= before:
	break
	elif not started:
	if i > after:
	started = True
	l.append(i)
	else:
	l.append(i)
	return l


	class rrule(rrulebase):
	"""
	That's the base of the rrule operation. It accepts all the keywords
	defined in the RFC as its constructor parameters (except byday,
	which was renamed to byweekday) and more. The constructor prototype is::

	rrule(freq)

	Where freq must be one of YEARLY, MONTHLY, WEEKLY, DAILY, HOURLY, MINUTELY,
	or SECONDLY.

	.. note::
	Per RFC section 3.3.10, recurrence instances falling on invalid dates
	and times are ignored rather than coerced:

	Recurrence rules may generate recurrence instances with an invalid
	date (e.g., February 30) or nonexistent local time (e.g., 1:30 AM
	on a day where the local time is moved forward by an hour at 1:00
	AM). Such recurrence instances MUST be ignored and MUST NOT be
	counted as part of the recurrence set.

	This can lead to possibly surprising behavior when, for example, the
	start date occurs at the end of the month:

	>>> from dateutil.rrule import rrule, MONTHLY
	>>> from datetime import datetime
	>>> start_date = datetime(2014, 12, 31)
	>>> list(rrule(freq=MONTHLY, count=4, dtstart=start_date))
	... # doctest: +NORMALIZE_WHITESPACE
	[datetime.datetime(2014, 12, 31, 0, 0),
	datetime.datetime(2015, 1, 31, 0, 0),
	datetime.datetime(2015, 3, 31, 0, 0),
	datetime.datetime(2015, 5, 31, 0, 0)]

	Additionally, it supports the following keyword arguments:

	:param dtstart:
	The recurrence start. Besides being the base for the recurrence,
	missing parameters in the final recurrence instances will also be
	extracted from this date. If not given, datetime.now() will be used
	instead.
	:param interval:
	The interval between each freq iteration. For example, when using
	YEARLY, an interval of 2 means once every two years, but with HOURLY,
	it means once every two hours. The default interval is 1.
	:param wkst:
	The week start day. Must be one of the MO, TU, WE constants, or an
	integer, specifying the first day of the week. This will affect
	recurrences based on weekly periods. The default week start is got
	from calendar.firstweekday(), and may be modified by
	calendar.setfirstweekday().
	:param count:
	If given, this determines how many occurrences will be generated.

	.. note::
	As of version 2.5.0, the use of the keyword ``until`` in conjunction
	with ``count`` is deprecated, to make sure ``dateutil`` is fully
	compliant with `RFC-5545 Sec. 3.3.10 <https://tools.ietf.org/
	html/rfc5545#section-3.3.10>`_. Therefore, ``until`` and ``count``
	must not occur in the same call to ``rrule``.
	:param until:
	If given, this must be a datetime instance specifying the upper-bound
	limit of the recurrence. The last recurrence in the rule is the greatest
	datetime that is less than or equal to the value specified in the
	``until`` parameter.

	.. note::
	As of version 2.5.0, the use of the keyword ``until`` in conjunction
	with ``count`` is deprecated, to make sure ``dateutil`` is fully
	compliant with `RFC-5545 Sec. 3.3.10 <https://tools.ietf.org/
	html/rfc5545#section-3.3.10>`_. Therefore, ``until`` and ``count``
	must not occur in the same call to ``rrule``.
	:param bysetpos:
	If given, it must be either an integer, or a sequence of integers,
	positive or negative. Each given integer will specify an occurrence
	number, corresponding to the nth occurrence of the rule inside the
	frequency period. For example, a bysetpos of -1 if combined with a
	MONTHLY frequency, and a byweekday of (MO, TU, WE, TH, FR), will
	result in the last work day of every month.
	:param bymonth:
	If given, it must be either an integer, or a sequence of integers,
	meaning the months to apply the recurrence to.
	:param bymonthday:
	If given, it must be either an integer, or a sequence of integers,
	meaning the month days to apply the recurrence to.
	:param byyearday:
	If given, it must be either an integer, or a sequence of integers,
	meaning the year days to apply the recurrence to.
	:param byeaster:
	If given, it must be either an integer, or a sequence of integers,
	positive or negative. Each integer will define an offset from the
	Easter Sunday. Passing the offset 0 to byeaster will yield the Easter
	Sunday itself. This is an extension to the RFC specification.
	:param byweekno:
	If given, it must be either an integer, or a sequence of integers,
	meaning the week numbers to apply the recurrence to. Week numbers
	have the meaning described in ISO8601, that is, the first week of
	the year is that containing at least four days of the new year.
	:param byweekday:
	If given, it must be either an integer (0 == MO), a sequence of
	integers, one of the weekday constants (MO, TU, etc), or a sequence
	of these constants. When given, these variables will define the
	weekdays where the recurrence will be applied. It's also possible to
	use an argument n for the weekday instances, which will mean the nth
	occurrence of this weekday in the period. For example, with MONTHLY,
	or with YEARLY and BYMONTH, using FR(+1) in byweekday will specify the
	first friday of the month where the recurrence happens. Notice that in
	the RFC documentation, this is specified as BYDAY, but was renamed to
	avoid the ambiguity of that keyword.
	:param byhour:
	If given, it must be either an integer, or a sequence of integers,
	meaning the hours to apply the recurrence to.
	:param byminute:
	If given, it must be either an integer, or a sequence of integers,
	meaning the minutes to apply the recurrence to.
	:param bysecond:
	If given, it must be either an integer, or a sequence of integers,
	meaning the seconds to apply the recurrence to.
	:param cache:
	If given, it must be a boolean value specifying to enable or disable
	caching of results. If you will use the same rrule instance multiple
	times, enabling caching will improve the performance considerably.
	"""
	def __init__(self, freq, dtstart=None,
	interval=1, wkst=None, count=None, until=None, bysetpos=None,
	bymonth=None, bymonthday=None, byyearday=None, byeaster=None,
	byweekno=None, byweekday=None,
	byhour=None, byminute=None, bysecond=None,
	cache=False):
	super(rrule, self).__init__(cache)
	global easter
	if not dtstart:
	if until and until.tzinfo:
	dtstart = datetime.datetime.now(tz=until.tzinfo).replace(microsecond=0)
	else:
	dtstart = datetime.datetime.now().replace(microsecond=0)
	elif not isinstance(dtstart, datetime.datetime):
	dtstart = datetime.datetime.fromordinal(dtstart.toordinal())
	else:
	dtstart = dtstart.replace(microsecond=0)
	self._dtstart = dtstart
	self._tzinfo = dtstart.tzinfo
	self._freq = freq
	self._interval = interval
	self._count = count

	# Cache the original byxxx rules, if they are provided, as the _byxxx
	# attributes do not necessarily map to the inputs, and this can be
	# a problem in generating the strings. Only store things if they've
	# been supplied (the string retrieval will just use .get())
	self._original_rule = {}

	if until and not isinstance(until, datetime.datetime):
	until = datetime.datetime.fromordinal(until.toordinal())
	self._until = until

	if self._dtstart and self._until:
	if (self._dtstart.tzinfo is not None) != (self._until.tzinfo is not None):
	# According to RFC5545 Section 3.3.10:
	# https://tools.ietf.org/html/rfc5545#section-3.3.10
	#
	# > If the "DTSTART" property is specified as a date with UTC
	# > time or a date with local time and time zone reference,
	# > then the UNTIL rule part MUST be specified as a date with
	# > UTC time.
	raise ValueError(
	'RRULE UNTIL values must be specified in UTC when DTSTART '
	'is timezone-aware'
	)

	if count is not None and until:
	warn("Using both 'count' and 'until' is inconsistent with RFC 5545"
	" and has been deprecated in dateutil. Future versions will "
	"raise an error.", DeprecationWarning)

	if wkst is None:
	self._wkst = calendar.firstweekday()
	elif isinstance(wkst, integer_types):
	self._wkst = wkst
	else:
	self._wkst = wkst.weekday

	if bysetpos is None:
	self._bysetpos = None
	elif isinstance(bysetpos, integer_types):
	if bysetpos == 0 or not (-366 <= bysetpos <= 366):
	raise ValueError("bysetpos must be between 1 and 366, "
	"or between -366 and -1")
	self._bysetpos = (bysetpos,)
	else:
	self._bysetpos = tuple(bysetpos)
	for pos in self._bysetpos:
	if pos == 0 or not (-366 <= pos <= 366):
	raise ValueError("bysetpos must be between 1 and 366, "
	"or between -366 and -1")

	if self._bysetpos:
	self._original_rule['bysetpos'] = self._bysetpos

	if (byweekno is None and byyearday is None and bymonthday is None and
	byweekday is None and byeaster is None):
	if freq == YEARLY:
	if bymonth is None:
	bymonth = dtstart.month
	self._original_rule['bymonth'] = None
	bymonthday = dtstart.day
	self._original_rule['bymonthday'] = None
	elif freq == MONTHLY:
	bymonthday = dtstart.day
	self._original_rule['bymonthday'] = None
	elif freq == WEEKLY:
	byweekday = dtstart.weekday()
	self._original_rule['byweekday'] = None

	# bymonth
	if bymonth is None:
	self._bymonth = None
	else:
	if isinstance(bymonth, integer_types):
	bymonth = (bymonth,)

	self._bymonth = tuple(sorted(set(bymonth)))

	if 'bymonth' not in self._original_rule:
	self._original_rule['bymonth'] = self._bymonth

	# byyearday
	if byyearday is None:
	self._byyearday = None
	else:
	if isinstance(byyearday, integer_types):
	byyearday = (byyearday,)

	self._byyearday = tuple(sorted(set(byyearday)))
	self._original_rule['byyearday'] = self._byyearday

	# byeaster
	if byeaster is not None:
	if not easter:
	from dateutil import easter
	if isinstance(byeaster, integer_types):
	self._byeaster = (byeaster,)
	else:
	self._byeaster = tuple(sorted(byeaster))

	self._original_rule['byeaster'] = self._byeaster
	else:
	self._byeaster = None

	# bymonthday
	if bymonthday is None:
	self._bymonthday = ()
	self._bynmonthday = ()
	else:
	if isinstance(bymonthday, integer_types):
	bymonthday = (bymonthday,)

	bymonthday = set(bymonthday) # Ensure it's unique

	self._bymonthday = tuple(sorted(x for x in bymonthday if x > 0))
	self._bynmonthday = tuple(sorted(x for x in bymonthday if x < 0))

	# Storing positive numbers first, then negative numbers
	if 'bymonthday' not in self._original_rule:
	self._original_rule['bymonthday'] = tuple(
	itertools.chain(self._bymonthday, self._bynmonthday))

	# byweekno
	if byweekno is None:
	self._byweekno = None
	else:
	if isinstance(byweekno, integer_types):
	byweekno = (byweekno,)

	self._byweekno = tuple(sorted(set(byweekno)))

	self._original_rule['byweekno'] = self._byweekno

	# byweekday / bynweekday
	if byweekday is None:
	self._byweekday = None
	self._bynweekday = None
	else:
	# If it's one of the valid non-sequence types, convert to a
	# single-element sequence before the iterator that builds the
	# byweekday set.
	if isinstance(byweekday, integer_types) or hasattr(byweekday, "n"):
	byweekday = (byweekday,)

	self._byweekday = set()
	self._bynweekday = set()
	for wday in byweekday:
	if isinstance(wday, integer_types):
	self._byweekday.add(wday)
	elif not wday.n or freq > MONTHLY:
	self._byweekday.add(wday.weekday)
	else:
	self._bynweekday.add((wday.weekday, wday.n))

	if not self._byweekday:
	self._byweekday = None
	elif not self._bynweekday:
	self._bynweekday = None

	if self._byweekday is not None:
	self._byweekday = tuple(sorted(self._byweekday))
	orig_byweekday = [weekday(x) for x in self._byweekday]
	else:
	orig_byweekday = ()

	if self._bynweekday is not None:
	self._bynweekday = tuple(sorted(self._bynweekday))
	orig_bynweekday = [weekday(*x) for x in self._bynweekday]
	else:
	orig_bynweekday = ()

	if 'byweekday' not in self._original_rule:
	self._original_rule['byweekday'] = tuple(itertools.chain(
	orig_byweekday, orig_bynweekday))

	# byhour
	if byhour is None:
	if freq < HOURLY:
	self._byhour = {dtstart.hour}
	else:
	self._byhour = None
	else:
	if isinstance(byhour, integer_types):
	byhour = (byhour,)

	if freq == HOURLY:
	self._byhour = self.__construct_byset(start=dtstart.hour,
	byxxx=byhour,
	base=24)
	else:
	self._byhour = set(byhour)

	self._byhour = tuple(sorted(self._byhour))
	self._original_rule['byhour'] = self._byhour

	# byminute
	if byminute is None:
	if freq < MINUTELY:
	self._byminute = {dtstart.minute}
	else:
	self._byminute = None
	else:
	if isinstance(byminute, integer_types):
	byminute = (byminute,)

	if freq == MINUTELY:
	self._byminute = self.__construct_byset(start=dtstart.minute,
	byxxx=byminute,
	base=60)
	else:
	self._byminute = set(byminute)

	self._byminute = tuple(sorted(self._byminute))
	self._original_rule['byminute'] = self._byminute

	# bysecond
	if bysecond is None:
	if freq < SECONDLY:
	self._bysecond = ((dtstart.second,))
	else:
	self._bysecond = None
	else:
	if isinstance(bysecond, integer_types):
	bysecond = (bysecond,)

	self._bysecond = set(bysecond)

	if freq == SECONDLY:
	self._bysecond = self.__construct_byset(start=dtstart.second,
	byxxx=bysecond,
	base=60)
	else:
	self._bysecond = set(bysecond)

	self._bysecond = tuple(sorted(self._bysecond))
	self._original_rule['bysecond'] = self._bysecond

	if self._freq >= HOURLY:
	self._timeset = None
	else:
	self._timeset = []
	for hour in self._byhour:
	for minute in self._byminute:
	for second in self._bysecond:
	self._timeset.append(
	datetime.time(hour, minute, second,
	tzinfo=self._tzinfo))
	self._timeset.sort()
	self._timeset = tuple(self._timeset)

	def __str__(self):
	"""
	Output a string that would generate this RRULE if passed to rrulestr.
	This is mostly compatible with RFC5545, except for the
	dateutil-specific extension BYEASTER.
	"""

	output = []
	h, m, s = [None] * 3
	if self._dtstart:
	output.append(self._dtstart.strftime('DTSTART:%Y%m%dT%H%M%S'))
	h, m, s = self._dtstart.timetuple()[3:6]

	parts = ['FREQ=' + FREQNAMES[self._freq]]
	if self._interval != 1:
	parts.append('INTERVAL=' + str(self._interval))

	if self._wkst:
	parts.append('WKST=' + repr(weekday(self._wkst))[0:2])

	if self._count is not None:
	parts.append('COUNT=' + str(self._count))

	if self._until:
	parts.append(self._until.strftime('UNTIL=%Y%m%dT%H%M%S'))

	if self._original_rule.get('byweekday') is not None:
	# The str() method on weekday objects doesn't generate
	# RFC5545-compliant strings, so we should modify that.
	original_rule = dict(self._original_rule)
	wday_strings = []
	for wday in original_rule['byweekday']:
	if wday.n:
	wday_strings.append('{n:+d}{wday}'.format(
	n=wday.n,
	wday=repr(wday)[0:2]))
	else:
	wday_strings.append(repr(wday))

	original_rule['byweekday'] = wday_strings
	else:
	original_rule = self._original_rule

	partfmt = '{name}={vals}'
	for name, key in [('BYSETPOS', 'bysetpos'),
	('BYMONTH', 'bymonth'),
	('BYMONTHDAY', 'bymonthday'),
	('BYYEARDAY', 'byyearday'),
	('BYWEEKNO', 'byweekno'),
	('BYDAY', 'byweekday'),
	('BYHOUR', 'byhour'),
	('BYMINUTE', 'byminute'),
	('BYSECOND', 'bysecond'),
	('BYEASTER', 'byeaster')]:
	value = original_rule.get(key)
	if value:
	parts.append(partfmt.format(name=name, vals=(','.join(str(v)
	for v in value))))

	output.append('RRULE:' + ';'.join(parts))
	return '\n'.join(output)

	def replace(self, **kwargs):
	"""Return new rrule with same attributes except for those attributes given new
	values by whichever keyword arguments are specified."""
	new_kwargs = {"interval": self._interval,
	"count": self._count,
	"dtstart": self._dtstart,
	"freq": self._freq,
	"until": self._until,
	"wkst": self._wkst,
	"cache": False if self._cache is None else True }
	new_kwargs.update(self._original_rule)
	new_kwargs.update(kwargs)
	return rrule(**new_kwargs)

	def _iter(self):
	year, month, day, hour, minute, second, weekday, yearday, _ = \
	self._dtstart.timetuple()

	# Some local variables to speed things up a bit
	freq = self._freq
	interval = self._interval
	wkst = self._wkst
	until = self._until
	bymonth = self._bymonth
	byweekno = self._byweekno
	byyearday = self._byyearday
	byweekday = self._byweekday
	byeaster = self._byeaster
	bymonthday = self._bymonthday
	bynmonthday = self._bynmonthday
	bysetpos = self._bysetpos
	byhour = self._byhour
	byminute = self._byminute
	bysecond = self._bysecond

	ii = _iterinfo(self)
	ii.rebuild(year, month)

	getdayset = {YEARLY: ii.ydayset,
	MONTHLY: ii.mdayset,
	WEEKLY: ii.wdayset,
	DAILY: ii.ddayset,
	HOURLY: ii.ddayset,
	MINUTELY: ii.ddayset,
	SECONDLY: ii.ddayset}[freq]

	if freq < HOURLY:
	timeset = self._timeset
	else:
	gettimeset = {HOURLY: ii.htimeset,
	MINUTELY: ii.mtimeset,
	SECONDLY: ii.stimeset}[freq]
	if ((freq >= HOURLY and
	self._byhour and hour not in self._byhour) or
	(freq >= MINUTELY and
	self._byminute and minute not in self._byminute) or
	(freq >= SECONDLY and
	self._bysecond and second not in self._bysecond)):
	timeset = ()
	else:
	timeset = gettimeset(hour, minute, second)

	total = 0
	count = self._count
	while True:
	# Get dayset with the right frequency
	dayset, start, end = getdayset(year, month, day)

	# Do the "hard" work ;-)
	filtered = False
	for i in dayset[start:end]:
	if ((bymonth and ii.mmask[i] not in bymonth) or
	(byweekno and not ii.wnomask[i]) or
	(byweekday and ii.wdaymask[i] not in byweekday) or
	(ii.nwdaymask and not ii.nwdaymask[i]) or
	(byeaster and not ii.eastermask[i]) or
	((bymonthday or bynmonthday) and
	ii.mdaymask[i] not in bymonthday and
	ii.nmdaymask[i] not in bynmonthday) or
	(byyearday and
	((i < ii.yearlen and i+1 not in byyearday and
	-ii.yearlen+i not in byyearday) or
	(i >= ii.yearlen and i+1-ii.yearlen not in byyearday and
	-ii.nextyearlen+i-ii.yearlen not in byyearday)))):
	dayset[i] = None
	filtered = True

	# Output results
	if bysetpos and timeset:
	poslist = []
	for pos in bysetpos:
	if pos < 0:
	daypos, timepos = divmod(pos, len(timeset))
	else:
	daypos, timepos = divmod(pos-1, len(timeset))
	try:
	i = [x for x in dayset[start:end]
	if x is not None][daypos]
	time = timeset[timepos]
	except IndexError:
	pass
	else:
	date = datetime.date.fromordinal(ii.yearordinal+i)
	res = datetime.datetime.combine(date, time)
	if res not in poslist:
	poslist.append(res)
	poslist.sort()
	for res in poslist:
	if until and res > until:
	self._len = total
	return
	elif res >= self._dtstart:
	if count is not None:
	count -= 1
	if count < 0:
	self._len = total
	return
	total += 1
	yield res
	else:
	for i in dayset[start:end]:
	if i is not None:
	date = datetime.date.fromordinal(ii.yearordinal + i)
	for time in timeset:
	res = datetime.datetime.combine(date, time)
	if until and res > until:
	self._len = total
	return
	elif res >= self._dtstart:
	if count is not None:
	count -= 1
	if count < 0:
	self._len = total
	return

	total += 1
	yield res

	# Handle frequency and interval
	fixday = False
	if freq == YEARLY:
	year += interval
	if year > datetime.MAXYEAR:
	self._len = total
	return
	ii.rebuild(year, month)
	elif freq == MONTHLY:
	month += interval
	if month > 12:
	div, mod = divmod(month, 12)
	month = mod
	year += div
	if month == 0:
	month = 12
	year -= 1
	if year > datetime.MAXYEAR:
	self._len = total
	return
	ii.rebuild(year, month)
	elif freq == WEEKLY:
	if wkst > weekday:
	day += -(weekday+1+(6-wkst))+self._interval*7
	else:
	day += -(weekday-wkst)+self._interval*7
	weekday = wkst
	fixday = True
	elif freq == DAILY:
	day += interval
	fixday = True
	elif freq == HOURLY:
	if filtered:
	# Jump to one iteration before next day
	hour += ((23-hour)//interval)*interval

	if byhour:
	ndays, hour = self.__mod_distance(value=hour,
	byxxx=self._byhour,
	base=24)
	else:
	ndays, hour = divmod(hour+interval, 24)

	if ndays:
	day += ndays
	fixday = True

	timeset = gettimeset(hour, minute, second)
	elif freq == MINUTELY:
	if filtered:
	# Jump to one iteration before next day
	minute += ((1439-(hour60+minute))//interval)interval

	valid = False
	rep_rate = (24*60)
	for j in range(rep_rate // gcd(interval, rep_rate)):
	if byminute:
	nhours, minute = \
	self.__mod_distance(value=minute,
	byxxx=self._byminute,
	base=60)
	else:
	nhours, minute = divmod(minute+interval, 60)

	div, hour = divmod(hour+nhours, 24)
	if div:
	day += div
	fixday = True
	filtered = False

	if not byhour or hour in byhour:
	valid = True
	break

	if not valid:
	raise ValueError('Invalid combination of interval and ' +
	'byhour resulting in empty rule.')

	timeset = gettimeset(hour, minute, second)
	elif freq == SECONDLY:
	if filtered:
	# Jump to one iteration before next day
	second += (((86399 - (hour * 3600 + minute * 60 + second))
	// interval) * interval)

	rep_rate = (24 * 3600)
	valid = False
	for j in range(0, rep_rate // gcd(interval, rep_rate)):
	if bysecond:
	nminutes, second = \
	self.__mod_distance(value=second,
	byxxx=self._bysecond,
	base=60)
	else:
	nminutes, second = divmod(second+interval, 60)

	div, minute = divmod(minute+nminutes, 60)
	if div:
	hour += div
	div, hour = divmod(hour, 24)
	if div:
	day += div
	fixday = True

	if ((not byhour or hour in byhour) and
	(not byminute or minute in byminute) and
	(not bysecond or second in bysecond)):
	valid = True
	break

	if not valid:
	raise ValueError('Invalid combination of interval, ' +
	'byhour and byminute resulting in empty' +
	' rule.')

	timeset = gettimeset(hour, minute, second)

	if fixday and day > 28:
	daysinmonth = calendar.monthrange(year, month)[1]
	if day > daysinmonth:
	while day > daysinmonth:
	day -= daysinmonth
	month += 1
	if month == 13:
	month = 1
	year += 1
	if year > datetime.MAXYEAR:
	self._len = total
	return
	daysinmonth = calendar.monthrange(year, month)[1]
	ii.rebuild(year, month)

	def __construct_byset(self, start, byxxx, base):
	"""
	If a `BYXXX` sequence is passed to the constructor at the same level as
	`FREQ` (e.g. `FREQ=HOURLY,BYHOUR={2,4,7},INTERVAL=3`), there are some
	specifications which cannot be reached given some starting conditions.

	This occurs whenever the interval is not coprime with the base of a
	given unit and the difference between the starting position and the
	ending position is not coprime with the greatest common denominator
	between the interval and the base. For example, with a FREQ of hourly
	starting at 17:00 and an interval of 4, the only valid values for
	BYHOUR would be {21, 1, 5, 9, 13, 17}, because 4 and 24 are not
	coprime.

	:param start:
	Specifies the starting position.
	:param byxxx:
	An iterable containing the list of allowed values.
	:param base:
	The largest allowable value for the specified frequency (e.g.
	24 hours, 60 minutes).

	This does not preserve the type of the iterable, returning a set, since
	the values should be unique and the order is irrelevant, this will
	speed up later lookups.

	In the event of an empty set, raises a :exception:`ValueError`, as this
	results in an empty rrule.
	"""

	cset = set()

	# Support a single byxxx value.
	if isinstance(byxxx, integer_types):
	byxxx = (byxxx, )

	for num in byxxx:
	i_gcd = gcd(self._interval, base)
	# Use divmod rather than % because we need to wrap negative nums.
	if i_gcd == 1 or divmod(num - start, i_gcd)[1] == 0:
	cset.add(num)

	if len(cset) == 0:
	raise ValueError("Invalid rrule byxxx generates an empty set.")

	return cset

	def __mod_distance(self, value, byxxx, base):
	"""
	Calculates the next value in a sequence where the `FREQ` parameter is
	specified along with a `BYXXX` parameter at the same "level"
	(e.g. `HOURLY` specified with `BYHOUR`).

	:param value:
	The old value of the component.
	:param byxxx:
	The `BYXXX` set, which should have been generated by
	`rrule._construct_byset`, or something else which checks that a
	valid rule is present.
	:param base:
	The largest allowable value for the specified frequency (e.g.
	24 hours, 60 minutes).

	If a valid value is not found after `base` iterations (the maximum
	number before the sequence would start to repeat), this raises a
	:exception:`ValueError`, as no valid values were found.

	This returns a tuple of `divmod(n*interval, base)`, where `n` is the
	smallest number of `interval` repetitions until the next specified
	value in `byxxx` is found.
	"""
	accumulator = 0
	for ii in range(1, base + 1):
	# Using divmod() over % to account for negative intervals
	div, value = divmod(value + self._interval, base)
	accumulator += div
	if value in byxxx:
	return (accumulator, value)


	class _iterinfo(object):
	__slots__ = ["rrule", "lastyear", "lastmonth",
	"yearlen", "nextyearlen", "yearordinal", "yearweekday",
	"mmask", "mrange", "mdaymask", "nmdaymask",
	"wdaymask", "wnomask", "nwdaymask", "eastermask"]

	def __init__(self, rrule):
	for attr in self.__slots__:
	setattr(self, attr, None)
	self.rrule = rrule

	def rebuild(self, year, month):
	# Every mask is 7 days longer to handle cross-year weekly periods.
	rr = self.rrule
	if year != self.lastyear:
	self.yearlen = 365 + calendar.isleap(year)
	self.nextyearlen = 365 + calendar.isleap(year + 1)
	firstyday = datetime.date(year, 1, 1)
	self.yearordinal = firstyday.toordinal()
	self.yearweekday = firstyday.weekday()

	wday = datetime.date(year, 1, 1).weekday()
	if self.yearlen == 365:
	self.mmask = M365MASK
	self.mdaymask = MDAY365MASK
	self.nmdaymask = NMDAY365MASK
	self.wdaymask = WDAYMASK[wday:]
	self.mrange = M365RANGE
	else:
	self.mmask = M366MASK
	self.mdaymask = MDAY366MASK
	self.nmdaymask = NMDAY366MASK
	self.wdaymask = WDAYMASK[wday:]
	self.mrange = M366RANGE

	if not rr._byweekno:
	self.wnomask = None
	else:
	self.wnomask = [0]*(self.yearlen+7)
	# no1wkst = firstwkst = self.wdaymask.index(rr._wkst)
	no1wkst = firstwkst = (7-self.yearweekday+rr._wkst) % 7
	if no1wkst >= 4:
	no1wkst = 0
	# Number of days in the year, plus the days we got
	# from last year.
	wyearlen = self.yearlen+(self.yearweekday-rr._wkst) % 7
	else:
	# Number of days in the year, minus the days we
	# left in last year.
	wyearlen = self.yearlen-no1wkst
	div, mod = divmod(wyearlen, 7)
	numweeks = div+mod//4
	for n in rr._byweekno:
	if n < 0:
	n += numweeks+1
	if not (0 < n <= numweeks):
	continue
	if n > 1:
	i = no1wkst+(n-1)*7
	if no1wkst != firstwkst:
	i -= 7-firstwkst
	else:
	i = no1wkst
	for j in range(7):
	self.wnomask[i] = 1
	i += 1
	if self.wdaymask[i] == rr._wkst:
	break
	if 1 in rr._byweekno:
	# Check week number 1 of next year as well
	# TODO: Check -numweeks for next year.
	i = no1wkst+numweeks*7
	if no1wkst != firstwkst:
	i -= 7-firstwkst
	if i < self.yearlen:
	# If week starts in next year, we
	# don't care about it.
	for j in range(7):
	self.wnomask[i] = 1
	i += 1
	if self.wdaymask[i] == rr._wkst:
	break
	if no1wkst:
	# Check last week number of last year as
	# well. If no1wkst is 0, either the year
	# started on week start, or week number 1
	# got days from last year, so there are no
	# days from last year's last week number in
	# this year.
	if -1 not in rr._byweekno:
	lyearweekday = datetime.date(year-1, 1, 1).weekday()
	lno1wkst = (7-lyearweekday+rr._wkst) % 7
	lyearlen = 365+calendar.isleap(year-1)
	if lno1wkst >= 4:
	lno1wkst = 0
	lnumweeks = 52+(lyearlen +
	(lyearweekday-rr._wkst) % 7) % 7//4
	else:
	lnumweeks = 52+(self.yearlen-no1wkst) % 7//4
	else:
	lnumweeks = -1
	if lnumweeks in rr._byweekno:
	for i in range(no1wkst):
	self.wnomask[i] = 1

	if (rr._bynweekday and (month != self.lastmonth or
	year != self.lastyear)):
	ranges = []
	if rr._freq == YEARLY:
	if rr._bymonth:
	for month in rr._bymonth:
	ranges.append(self.mrange[month-1:month+1])
	else:
	ranges = [(0, self.yearlen)]
	elif rr._freq == MONTHLY:
	ranges = [self.mrange[month-1:month+1]]
	if ranges:
	# Weekly frequency won't get here, so we may not
	# care about cross-year weekly periods.
	self.nwdaymask = [0]*self.yearlen
	for first, last in ranges:
	last -= 1
	for wday, n in rr._bynweekday:
	if n < 0:
	i = last+(n+1)*7
	i -= (self.wdaymask[i]-wday) % 7
	else:
	i = first+(n-1)*7
	i += (7-self.wdaymask[i]+wday) % 7
	if first <= i <= last:
	self.nwdaymask[i] = 1

	if rr._byeaster:
	self.eastermask = [0]*(self.yearlen+7)
	eyday = easter.easter(year).toordinal()-self.yearordinal
	for offset in rr._byeaster:
	self.eastermask[eyday+offset] = 1

	self.lastyear = year
	self.lastmonth = month

	def ydayset(self, year, month, day):
	return list(range(self.yearlen)), 0, self.yearlen

	def mdayset(self, year, month, day):
	dset = [None]*self.yearlen
	start, end = self.mrange[month-1:month+1]
	for i in range(start, end):
	dset[i] = i
	return dset, start, end

	def wdayset(self, year, month, day):
	# We need to handle cross-year weeks here.
	dset = [None]*(self.yearlen+7)
	i = datetime.date(year, month, day).toordinal()-self.yearordinal
	start = i
	for j in range(7):
	dset[i] = i
	i += 1
	# if (not (0 <= i < self.yearlen) or
	# self.wdaymask[i] == self.rrule._wkst):
	# This will cross the year boundary, if necessary.
	if self.wdaymask[i] == self.rrule._wkst:
	break
	return dset, start, i

	def ddayset(self, year, month, day):
	dset = [None] * self.yearlen
	i = datetime.date(year, month, day).toordinal() - self.yearordinal
	dset[i] = i
	return dset, i, i + 1

	def htimeset(self, hour, minute, second):
	tset = []
	rr = self.rrule
	for minute in rr._byminute:
	for second in rr._bysecond:
	tset.append(datetime.time(hour, minute, second,
	tzinfo=rr._tzinfo))
	tset.sort()
	return tset

	def mtimeset(self, hour, minute, second):
	tset = []
	rr = self.rrule
	for second in rr._bysecond:
	tset.append(datetime.time(hour, minute, second, tzinfo=rr._tzinfo))
	tset.sort()
	return tset

	def stimeset(self, hour, minute, second):
	return (datetime.time(hour, minute, second,
	tzinfo=self.rrule._tzinfo),)


	class rruleset(rrulebase):
	""" The rruleset type allows more complex recurrence setups, mixing
	multiple rules, dates, exclusion rules, and exclusion dates. The type
	constructor takes the following keyword arguments:

	:param cache: If True, caching of results will be enabled, improving
	performance of multiple queries considerably. """

	class _genitem(object):
	def __init__(self, genlist, gen):
	try:
	self.dt = advance_iterator(gen)
	genlist.append(self)
	except StopIteration:
	pass
	self.genlist = genlist
	self.gen = gen

	def __next__(self):
	try:
	self.dt = advance_iterator(self.gen)
	except StopIteration:
	if self.genlist[0] is self:
	heapq.heappop(self.genlist)
	else:
	self.genlist.remove(self)
	heapq.heapify(self.genlist)

	next = __next__

	def __lt__(self, other):
	return self.dt < other.dt

	def __gt__(self, other):
	return self.dt > other.dt

	def __eq__(self, other):
	return self.dt == other.dt

	def __ne__(self, other):
	return self.dt != other.dt

	def __init__(self, cache=False):
	super(rruleset, self).__init__(cache)
	self._rrule = []
	self._rdate = []
	self._exrule = []
	self._exdate = []

	@_invalidates_cache
	def rrule(self, rrule):
	""" Include the given :py:class:`rrule` instance in the recurrence set
	generation. """
	self._rrule.append(rrule)

	@_invalidates_cache
	def rdate(self, rdate):
	""" Include the given :py:class:`datetime` instance in the recurrence
	set generation. """
	self._rdate.append(rdate)

	@_invalidates_cache
	def exrule(self, exrule):
	""" Include the given rrule instance in the recurrence set exclusion
	list. Dates which are part of the given recurrence rules will not
	be generated, even if some inclusive rrule or rdate matches them.
	"""
	self._exrule.append(exrule)

	@_invalidates_cache
	def exdate(self, exdate):
	""" Include the given datetime instance in the recurrence set
	exclusion list. Dates included that way will not be generated,
	even if some inclusive rrule or rdate matches them. """
	self._exdate.append(exdate)

	def _iter(self):
	rlist = []
	self._rdate.sort()
	self._genitem(rlist, iter(self._rdate))
	for gen in [iter(x) for x in self._rrule]:
	self._genitem(rlist, gen)
	exlist = []
	self._exdate.sort()
	self._genitem(exlist, iter(self._exdate))
	for gen in [iter(x) for x in self._exrule]:
	self._genitem(exlist, gen)
	lastdt = None
	total = 0
	heapq.heapify(rlist)
	heapq.heapify(exlist)
	while rlist:
	ritem = rlist[0]
	if not lastdt or lastdt != ritem.dt:
	while exlist and exlist[0] < ritem:
	exitem = exlist[0]
	advance_iterator(exitem)
	if exlist and exlist[0] is exitem:
	heapq.heapreplace(exlist, exitem)
	if not exlist or ritem != exlist[0]:
	total += 1
	yield ritem.dt
	lastdt = ritem.dt
	advance_iterator(ritem)
	if rlist and rlist[0] is ritem:
	heapq.heapreplace(rlist, ritem)
	self._len = total




	class _rrulestr(object):
	""" Parses a string representation of a recurrence rule or set of
	recurrence rules.

	:param s:
	Required, a string defining one or more recurrence rules.

	:param dtstart:
	If given, used as the default recurrence start if not specified in the
	rule string.

	:param cache:
	If set ``True`` caching of results will be enabled, improving
	performance of multiple queries considerably.

	:param unfold:
	If set ``True`` indicates that a rule string is split over more
	than one line and should be joined before processing.

	:param forceset:
	If set ``True`` forces a :class:`dateutil.rrule.rruleset` to
	be returned.

	:param compatible:
	If set ``True`` forces ``unfold`` and ``forceset`` to be ``True``.

	:param ignoretz:
	If set ``True``, time zones in parsed strings are ignored and a naive
	:class:`datetime.datetime` object is returned.

	:param tzids:
	If given, a callable or mapping used to retrieve a
	:class:`datetime.tzinfo` from a string representation.
	Defaults to :func:`dateutil.tz.gettz`.

	:param tzinfos:
	Additional time zone names / aliases which may be present in a string
	representation. See :func:`dateutil.parser.parse` for more
	information.

	:return:
	Returns a :class:`dateutil.rrule.rruleset` or
	:class:`dateutil.rrule.rrule`
	"""

	_freq_map = {"YEARLY": YEARLY,
	"MONTHLY": MONTHLY,
	"WEEKLY": WEEKLY,
	"DAILY": DAILY,
	"HOURLY": HOURLY,
	"MINUTELY": MINUTELY,
	"SECONDLY": SECONDLY}

	_weekday_map = {"MO": 0, "TU": 1, "WE": 2, "TH": 3,
	"FR": 4, "SA": 5, "SU": 6}

	def _handle_int(self, rrkwargs, name, value, **kwargs):
	rrkwargs[name.lower()] = int(value)

	def _handle_int_list(self, rrkwargs, name, value, **kwargs):
	rrkwargs[name.lower()] = [int(x) for x in value.split(',')]

	_handle_INTERVAL = _handle_int
	_handle_COUNT = _handle_int
	_handle_BYSETPOS = _handle_int_list
	_handle_BYMONTH = _handle_int_list
	_handle_BYMONTHDAY = _handle_int_list
	_handle_BYYEARDAY = _handle_int_list
	_handle_BYEASTER = _handle_int_list
	_handle_BYWEEKNO = _handle_int_list
	_handle_BYHOUR = _handle_int_list
	_handle_BYMINUTE = _handle_int_list
	_handle_BYSECOND = _handle_int_list

	def _handle_FREQ(self, rrkwargs, name, value, **kwargs):
	rrkwargs["freq"] = self._freq_map[value]

	def _handle_UNTIL(self, rrkwargs, name, value, **kwargs):
	global parser
	if not parser:
	from dateutil import parser
	try:
	rrkwargs["until"] = parser.parse(value,
	ignoretz=kwargs.get("ignoretz"),
	tzinfos=kwargs.get("tzinfos"))
	except ValueError:
	raise ValueError("invalid until date")

	def _handle_WKST(self, rrkwargs, name, value, **kwargs):
	rrkwargs["wkst"] = self._weekday_map[value]

	def _handle_BYWEEKDAY(self, rrkwargs, name, value, **kwargs):
	"""
	Two ways to specify this: +1MO or MO(+1)
	"""
	l = []
	for wday in value.split(','):
	if '(' in wday:
	# If it's of the form TH(+1), etc.
	splt = wday.split('(')
	w = splt[0]
	n = int(splt[1][:-1])
	elif len(wday):
	# If it's of the form +1MO
	for i in range(len(wday)):
	if wday[i] not in '+-0123456789':
	break
	n = wday[:i] or None
	w = wday[i:]
	if n:
	n = int(n)
	else:
	raise ValueError("Invalid (empty) BYDAY specification.")

	l.append(weekdays[self._weekday_map[w]](n))
	rrkwargs["byweekday"] = l

	_handle_BYDAY = _handle_BYWEEKDAY

	def _parse_rfc_rrule(self, line,
	dtstart=None,
	cache=False,
	ignoretz=False,
	tzinfos=None):
	if line.find(':') != -1:
	name, value = line.split(':')
	if name != "RRULE":
	raise ValueError("unknown parameter name")
	else:
	value = line
	rrkwargs = {}
	for pair in value.split(';'):
	name, value = pair.split('=')
	name = name.upper()
	value = value.upper()
	try:
	getattr(self, "_handle_"+name)(rrkwargs, name, value,
	ignoretz=ignoretz,
	tzinfos=tzinfos)
	except AttributeError:
	raise ValueError("unknown parameter '%s'" % name)
	except (KeyError, ValueError):
	raise ValueError("invalid '%s': %s" % (name, value))
	return rrule(dtstart=dtstart, cache=cache, **rrkwargs)

	def _parse_date_value(self, date_value, parms, rule_tzids,
	ignoretz, tzids, tzinfos):
	global parser
	if not parser:
	from dateutil import parser

	datevals = []
	value_found = False
	TZID = None

	for parm in parms:
	if parm.startswith("TZID="):
	try:
	tzkey = rule_tzids[parm.split('TZID=')[-1]]
	except KeyError:
	continue
	if tzids is None:
	from . import tz
	tzlookup = tz.gettz
	elif callable(tzids):
	tzlookup = tzids
	else:
	tzlookup = getattr(tzids, 'get', None)
	if tzlookup is None:
	msg = ('tzids must be a callable, mapping, or None, '
	'not %s' % tzids)
	raise ValueError(msg)

	TZID = tzlookup(tzkey)
	continue

	# RFC 5445 3.8.2.4: The VALUE parameter is optional, but may be found
	# only once.
	if parm not in {"VALUE=DATE-TIME", "VALUE=DATE"}:
	raise ValueError("unsupported parm: " + parm)
	else:
	if value_found:
	msg = ("Duplicate value parameter found in: " + parm)
	raise ValueError(msg)
	value_found = True

	for datestr in date_value.split(','):
	date = parser.parse(datestr, ignoretz=ignoretz, tzinfos=tzinfos)
	if TZID is not None:
	if date.tzinfo is None:
	date = date.replace(tzinfo=TZID)
	else:
	raise ValueError('DTSTART/EXDATE specifies multiple timezone')
	datevals.append(date)

	return datevals

	def _parse_rfc(self, s,
	dtstart=None,
	cache=False,
	unfold=False,
	forceset=False,
	compatible=False,
	ignoretz=False,
	tzids=None,
	tzinfos=None):
	global parser
	if compatible:
	forceset = True
	unfold = True

	TZID_NAMES = dict(map(
	lambda x: (x.upper(), x),
	re.findall('TZID=(?P<name>[^:]+):', s)
	))
	s = s.upper()
	if not s.strip():
	raise ValueError("empty string")
	if unfold:
	lines = s.splitlines()
	i = 0
	while i < len(lines):
	line = lines[i].rstrip()
	if not line:
	del lines[i]
	elif i > 0 and line[0] == " ":
	lines[i-1] += line[1:]
	del lines[i]
	else:
	i += 1
	else:
	lines = s.split()
	if (not forceset and len(lines) == 1 and (s.find(':') == -1 or
	s.startswith('RRULE:'))):
	return self._parse_rfc_rrule(lines[0], cache=cache,
	dtstart=dtstart, ignoretz=ignoretz,
	tzinfos=tzinfos)
	else:
	rrulevals = []
	rdatevals = []
	exrulevals = []
	exdatevals = []
	for line in lines:
	if not line:
	continue
	if line.find(':') == -1:
	name = "RRULE"
	value = line
	else:
	name, value = line.split(':', 1)
	parms = name.split(';')
	if not parms:
	raise ValueError("empty property name")
	name = parms[0]
	parms = parms[1:]
	if name == "RRULE":
	for parm in parms:
	raise ValueError("unsupported RRULE parm: "+parm)
	rrulevals.append(value)
	elif name == "RDATE":
	for parm in parms:
	if parm != "VALUE=DATE-TIME":
	raise ValueError("unsupported RDATE parm: "+parm)
	rdatevals.append(value)
	elif name == "EXRULE":
	for parm in parms:
	raise ValueError("unsupported EXRULE parm: "+parm)
	exrulevals.append(value)
	elif name == "EXDATE":
	exdatevals.extend(
	self._parse_date_value(value, parms,
	TZID_NAMES, ignoretz,
	tzids, tzinfos)
	)
	elif name == "DTSTART":
	dtvals = self._parse_date_value(value, parms, TZID_NAMES,
	ignoretz, tzids, tzinfos)
	if len(dtvals) != 1:
	raise ValueError("Multiple DTSTART values specified:" +
	value)
	dtstart = dtvals[0]
	else:
	raise ValueError("unsupported property: "+name)
	if (forceset or len(rrulevals) > 1 or rdatevals
	or exrulevals or exdatevals):
	if not parser and (rdatevals or exdatevals):
	from dateutil import parser
	rset = rruleset(cache=cache)
	for value in rrulevals:
	rset.rrule(self._parse_rfc_rrule(value, dtstart=dtstart,
	ignoretz=ignoretz,
	tzinfos=tzinfos))
	for value in rdatevals:
	for datestr in value.split(','):
	rset.rdate(parser.parse(datestr,
	ignoretz=ignoretz,
	tzinfos=tzinfos))
	for value in exrulevals:
	rset.exrule(self._parse_rfc_rrule(value, dtstart=dtstart,
	ignoretz=ignoretz,
	tzinfos=tzinfos))
	for value in exdatevals:
	rset.exdate(value)
	if compatible and dtstart:
	rset.rdate(dtstart)
	return rset
	else:
	return self._parse_rfc_rrule(rrulevals[0],
	dtstart=dtstart,
	cache=cache,
	ignoretz=ignoretz,
	tzinfos=tzinfos)

	def __call__(self, s, **kwargs):
	return self._parse_rfc(s, **kwargs)


	rrulestr = _rrulestr()

	# vim:ts=4:sw=4:et