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	import datetime

	import dateutil.tz
	import dateutil.rrule
	import functools
	import numpy as np
	import pytest

	from matplotlib import rc_context, style
	import matplotlib.dates as mdates
	import matplotlib.pyplot as plt
	from matplotlib.testing.decorators import image_comparison
	import matplotlib.ticker as mticker


	def test_date_numpyx():
	# test that numpy dates work properly...
	base = datetime.datetime(2017, 1, 1)
	time = [base + datetime.timedelta(days=x) for x in range(0, 3)]
	timenp = np.array(time, dtype='datetime64[ns]')
	data = np.array([0., 2., 1.])
	fig = plt.figure(figsize=(10, 2))
	ax = fig.add_subplot(1, 1, 1)
	h, = ax.plot(time, data)
	hnp, = ax.plot(timenp, data)
	np.testing.assert_equal(h.get_xdata(orig=False), hnp.get_xdata(orig=False))
	fig = plt.figure(figsize=(10, 2))
	ax = fig.add_subplot(1, 1, 1)
	h, = ax.plot(data, time)
	hnp, = ax.plot(data, timenp)
	np.testing.assert_equal(h.get_ydata(orig=False), hnp.get_ydata(orig=False))


	@pytest.mark.parametrize('t0', [datetime.datetime(2017, 1, 1, 0, 1, 1),

	[datetime.datetime(2017, 1, 1, 0, 1, 1),
	datetime.datetime(2017, 1, 1, 1, 1, 1)],

	[[datetime.datetime(2017, 1, 1, 0, 1, 1),
	datetime.datetime(2017, 1, 1, 1, 1, 1)],
	[datetime.datetime(2017, 1, 1, 2, 1, 1),
	datetime.datetime(2017, 1, 1, 3, 1, 1)]]])
	@pytest.mark.parametrize('dtype', ['datetime64[s]',
	'datetime64[us]',
	'datetime64[ms]',
	'datetime64[ns]'])
	def test_date_date2num_numpy(t0, dtype):
	time = mdates.date2num(t0)
	tnp = np.array(t0, dtype=dtype)
	nptime = mdates.date2num(tnp)
	np.testing.assert_equal(time, nptime)


	@pytest.mark.parametrize('dtype', ['datetime64[s]',
	'datetime64[us]',
	'datetime64[ms]',
	'datetime64[ns]'])
	def test_date2num_NaT(dtype):
	t0 = datetime.datetime(2017, 1, 1, 0, 1, 1)
	tmpl = [mdates.date2num(t0), np.nan]
	tnp = np.array([t0, 'NaT'], dtype=dtype)
	nptime = mdates.date2num(tnp)
	np.testing.assert_array_equal(tmpl, nptime)


	@pytest.mark.parametrize('units', ['s', 'ms', 'us', 'ns'])
	def test_date2num_NaT_scalar(units):
	tmpl = mdates.date2num(np.datetime64('NaT', units))
	assert np.isnan(tmpl)


	def test_date2num_masked():
	# Without tzinfo
	base = datetime.datetime(2022, 12, 15)
	dates = np.ma.array([base + datetime.timedelta(days=(2 * i))
	for i in range(7)], mask=[0, 1, 1, 0, 0, 0, 1])
	npdates = mdates.date2num(dates)
	np.testing.assert_array_equal(np.ma.getmask(npdates),
	(False, True, True, False, False, False,
	True))

	# With tzinfo
	base = datetime.datetime(2022, 12, 15, tzinfo=mdates.UTC)
	dates = np.ma.array([base + datetime.timedelta(days=(2 * i))
	for i in range(7)], mask=[0, 1, 1, 0, 0, 0, 1])
	npdates = mdates.date2num(dates)
	np.testing.assert_array_equal(np.ma.getmask(npdates),
	(False, True, True, False, False, False,
	True))


	def test_date_empty():
	# make sure we do the right thing when told to plot dates even
	# if no date data has been presented, cf
	# http://sourceforge.net/tracker/?func=detail&aid=2850075&group_id=80706&atid=560720
	fig, ax = plt.subplots()
	ax.xaxis_date()
	fig.draw_without_rendering()
	np.testing.assert_allclose(ax.get_xlim(),
	[mdates.date2num(np.datetime64('1970-01-01')),
	mdates.date2num(np.datetime64('1970-01-02'))])

	mdates._reset_epoch_test_example()
	mdates.set_epoch('0000-12-31')
	fig, ax = plt.subplots()
	ax.xaxis_date()
	fig.draw_without_rendering()
	np.testing.assert_allclose(ax.get_xlim(),
	[mdates.date2num(np.datetime64('1970-01-01')),
	mdates.date2num(np.datetime64('1970-01-02'))])
	mdates._reset_epoch_test_example()


	def test_date_not_empty():
	fig = plt.figure()
	ax = fig.add_subplot()

	ax.plot([50, 70], [1, 2])
	ax.xaxis.axis_date()
	np.testing.assert_allclose(ax.get_xlim(), [50, 70])


	def test_axhline():
	# make sure that axhline doesn't set the xlimits...
	fig, ax = plt.subplots()
	ax.axhline(1.5)
	ax.plot([np.datetime64('2016-01-01'), np.datetime64('2016-01-02')], [1, 2])
	np.testing.assert_allclose(ax.get_xlim(),
	[mdates.date2num(np.datetime64('2016-01-01')),
	mdates.date2num(np.datetime64('2016-01-02'))])

	mdates._reset_epoch_test_example()
	mdates.set_epoch('0000-12-31')
	fig, ax = plt.subplots()
	ax.axhline(1.5)
	ax.plot([np.datetime64('2016-01-01'), np.datetime64('2016-01-02')], [1, 2])
	np.testing.assert_allclose(ax.get_xlim(),
	[mdates.date2num(np.datetime64('2016-01-01')),
	mdates.date2num(np.datetime64('2016-01-02'))])
	mdates._reset_epoch_test_example()


	@image_comparison(['date_axhspan.png'])
	def test_date_axhspan():
	# test axhspan with date inputs
	t0 = datetime.datetime(2009, 1, 20)
	tf = datetime.datetime(2009, 1, 21)
	fig, ax = plt.subplots()
	ax.axhspan(t0, tf, facecolor="blue", alpha=0.25)
	ax.set_ylim(t0 - datetime.timedelta(days=5),
	tf + datetime.timedelta(days=5))
	fig.subplots_adjust(left=0.25)


	@image_comparison(['date_axvspan.png'])
	def test_date_axvspan():
	# test axvspan with date inputs
	t0 = datetime.datetime(2000, 1, 20)
	tf = datetime.datetime(2010, 1, 21)
	fig, ax = plt.subplots()
	ax.axvspan(t0, tf, facecolor="blue", alpha=0.25)
	ax.set_xlim(t0 - datetime.timedelta(days=720),
	tf + datetime.timedelta(days=720))
	fig.autofmt_xdate()


	@image_comparison(['date_axhline.png'])
	def test_date_axhline():
	# test axhline with date inputs
	t0 = datetime.datetime(2009, 1, 20)
	tf = datetime.datetime(2009, 1, 31)
	fig, ax = plt.subplots()
	ax.axhline(t0, color="blue", lw=3)
	ax.set_ylim(t0 - datetime.timedelta(days=5),
	tf + datetime.timedelta(days=5))
	fig.subplots_adjust(left=0.25)


	@image_comparison(['date_axvline.png'])
	def test_date_axvline():
	# test axvline with date inputs
	t0 = datetime.datetime(2000, 1, 20)
	tf = datetime.datetime(2000, 1, 21)
	fig, ax = plt.subplots()
	ax.axvline(t0, color="red", lw=3)
	ax.set_xlim(t0 - datetime.timedelta(days=5),
	tf + datetime.timedelta(days=5))
	fig.autofmt_xdate()


	def test_too_many_date_ticks(caplog):
	# Attempt to test SF 2715172, see
	# https://sourceforge.net/tracker/?func=detail&aid=2715172&group_id=80706&atid=560720
	# setting equal datetimes triggers and expander call in
	# transforms.nonsingular which results in too many ticks in the
	# DayLocator. This should emit a log at WARNING level.
	caplog.set_level("WARNING")
	t0 = datetime.datetime(2000, 1, 20)
	tf = datetime.datetime(2000, 1, 20)
	fig, ax = plt.subplots()
	with pytest.warns(UserWarning) as rec:
	ax.set_xlim((t0, tf), auto=True)
	assert len(rec) == 1
	assert ('Attempting to set identical low and high xlims'
	in str(rec[0].message))
	ax.plot([], [])
	ax.xaxis.set_major_locator(mdates.DayLocator())
	v = ax.xaxis.get_major_locator()()
	assert len(v) > 1000
	# The warning is emitted multiple times because the major locator is also
	# called both when placing the minor ticks (for overstriking detection) and
	# during tick label positioning.
	assert caplog.records and all(
	record.name == "matplotlib.ticker" and record.levelname == "WARNING"
	for record in caplog.records)
	assert len(caplog.records) > 0


	def _new_epoch_decorator(thefunc):
	@functools.wraps(thefunc)
	def wrapper():
	mdates._reset_epoch_test_example()
	mdates.set_epoch('2000-01-01')
	thefunc()
	mdates._reset_epoch_test_example()
	return wrapper


	@image_comparison(['RRuleLocator_bounds.png'])
	def test_RRuleLocator():
	import matplotlib.testing.jpl_units as units
	units.register()
	# This will cause the RRuleLocator to go out of bounds when it tries
	# to add padding to the limits, so we make sure it caps at the correct
	# boundary values.
	t0 = datetime.datetime(1000, 1, 1)
	tf = datetime.datetime(6000, 1, 1)

	fig = plt.figure()
	ax = plt.subplot()
	ax.set_autoscale_on(True)
	ax.plot([t0, tf], [0.0, 1.0], marker='o')

	rrule = mdates.rrulewrapper(dateutil.rrule.YEARLY, interval=500)
	locator = mdates.RRuleLocator(rrule)
	ax.xaxis.set_major_locator(locator)
	ax.xaxis.set_major_formatter(mdates.AutoDateFormatter(locator))

	ax.autoscale_view()
	fig.autofmt_xdate()


	def test_RRuleLocator_dayrange():
	loc = mdates.DayLocator()
	x1 = datetime.datetime(year=1, month=1, day=1, tzinfo=mdates.UTC)
	y1 = datetime.datetime(year=1, month=1, day=16, tzinfo=mdates.UTC)
	loc.tick_values(x1, y1)
	# On success, no overflow error shall be thrown


	def test_RRuleLocator_close_minmax():
	# if d1 and d2 are very close together, rrule cannot create
	# reasonable tick intervals; ensure that this is handled properly
	rrule = mdates.rrulewrapper(dateutil.rrule.SECONDLY, interval=5)
	loc = mdates.RRuleLocator(rrule)
	d1 = datetime.datetime(year=2020, month=1, day=1)
	d2 = datetime.datetime(year=2020, month=1, day=1, microsecond=1)
	expected = ['2020-01-01 00:00:00+00:00',
	'2020-01-01 00:00:00.000001+00:00']
	assert list(map(str, mdates.num2date(loc.tick_values(d1, d2)))) == expected


	@image_comparison(['DateFormatter_fractionalSeconds.png'])
	def test_DateFormatter():
	import matplotlib.testing.jpl_units as units
	units.register()

	# Lets make sure that DateFormatter will allow us to have tick marks
	# at intervals of fractional seconds.

	t0 = datetime.datetime(2001, 1, 1, 0, 0, 0)
	tf = datetime.datetime(2001, 1, 1, 0, 0, 1)

	fig = plt.figure()
	ax = plt.subplot()
	ax.set_autoscale_on(True)
	ax.plot([t0, tf], [0.0, 1.0], marker='o')

	# rrule = mpldates.rrulewrapper( dateutil.rrule.YEARLY, interval=500 )
	# locator = mpldates.RRuleLocator( rrule )
	# ax.xaxis.set_major_locator( locator )
	# ax.xaxis.set_major_formatter( mpldates.AutoDateFormatter(locator) )

	ax.autoscale_view()
	fig.autofmt_xdate()


	def test_locator_set_formatter():
	"""
	Test if setting the locator only will update the AutoDateFormatter to use
	the new locator.
	"""
	plt.rcParams["date.autoformatter.minute"] = "%d %H:%M"
	t = [datetime.datetime(2018, 9, 30, 8, 0),
	datetime.datetime(2018, 9, 30, 8, 59),
	datetime.datetime(2018, 9, 30, 10, 30)]
	x = [2, 3, 1]

	fig, ax = plt.subplots()
	ax.plot(t, x)
	ax.xaxis.set_major_locator(mdates.MinuteLocator((0, 30)))
	fig.canvas.draw()
	ticklabels = [tl.get_text() for tl in ax.get_xticklabels()]
	expected = ['30 08:00', '30 08:30', '30 09:00',
	'30 09:30', '30 10:00', '30 10:30']
	assert ticklabels == expected

	ax.xaxis.set_major_locator(mticker.NullLocator())
	ax.xaxis.set_minor_locator(mdates.MinuteLocator((5, 55)))
	decoy_loc = mdates.MinuteLocator((12, 27))
	ax.xaxis.set_minor_formatter(mdates.AutoDateFormatter(decoy_loc))

	ax.xaxis.set_minor_locator(mdates.MinuteLocator((15, 45)))
	fig.canvas.draw()
	ticklabels = [tl.get_text() for tl in ax.get_xticklabels(which="minor")]
	expected = ['30 08:15', '30 08:45', '30 09:15', '30 09:45', '30 10:15']
	assert ticklabels == expected


	def test_date_formatter_callable():

	class _Locator:
	def _get_unit(self): return -11

	def callable_formatting_function(dates, _):
	return [dt.strftime('%d-%m//%Y') for dt in dates]

	formatter = mdates.AutoDateFormatter(_Locator())
	formatter.scaled[-10] = callable_formatting_function
	assert formatter([datetime.datetime(2014, 12, 25)]) == ['25-12//2014']


	@pytest.mark.parametrize('delta, expected', [
	(datetime.timedelta(weeks=52 * 200),
	[r'$\mathdefault{%d}$' % year for year in range(1990, 2171, 20)]),
	(datetime.timedelta(days=30),
	[r'$\mathdefault{1990{-}01{-}%02d}$' % day for day in range(1, 32, 3)]),
	(datetime.timedelta(hours=20),
	[r'$\mathdefault{01{-}01\;%02d}$' % hour for hour in range(0, 21, 2)]),
	(datetime.timedelta(minutes=10),
	[r'$\mathdefault{01\;00{:}%02d}$' % minu for minu in range(0, 11)]),
	])
	def test_date_formatter_usetex(delta, expected):
	style.use("default")

	d1 = datetime.datetime(1990, 1, 1)
	d2 = d1 + delta

	locator = mdates.AutoDateLocator(interval_multiples=False)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(mdates.date2num(d1), mdates.date2num(d2))

	formatter = mdates.AutoDateFormatter(locator, usetex=True)
	assert [formatter(loc) for loc in locator()] == expected


	def test_drange():
	"""
	This test should check if drange works as expected, and if all the
	rounding errors are fixed
	"""
	start = datetime.datetime(2011, 1, 1, tzinfo=mdates.UTC)
	end = datetime.datetime(2011, 1, 2, tzinfo=mdates.UTC)
	delta = datetime.timedelta(hours=1)
	# We expect 24 values in drange(start, end, delta), because drange returns
	# dates from an half open interval [start, end)
	assert len(mdates.drange(start, end, delta)) == 24

	# Same if interval ends slightly earlier
	end = end - datetime.timedelta(microseconds=1)
	assert len(mdates.drange(start, end, delta)) == 24

	# if end is a little bit later, we expect the range to contain one element
	# more
	end = end + datetime.timedelta(microseconds=2)
	assert len(mdates.drange(start, end, delta)) == 25

	# reset end
	end = datetime.datetime(2011, 1, 2, tzinfo=mdates.UTC)

	# and tst drange with "complicated" floats:
	# 4 hours = 1/6 day, this is an "dangerous" float
	delta = datetime.timedelta(hours=4)
	daterange = mdates.drange(start, end, delta)
	assert len(daterange) == 6
	assert mdates.num2date(daterange[-1]) == (end - delta)


	@_new_epoch_decorator
	def test_auto_date_locator():
	def _create_auto_date_locator(date1, date2):
	locator = mdates.AutoDateLocator(interval_multiples=False)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(*mdates.date2num([date1, date2]))
	return locator

	d1 = datetime.datetime(1990, 1, 1)
	results = ([datetime.timedelta(weeks=52 * 200),
	['1990-01-01 00:00:00+00:00', '2010-01-01 00:00:00+00:00',
	'2030-01-01 00:00:00+00:00', '2050-01-01 00:00:00+00:00',
	'2070-01-01 00:00:00+00:00', '2090-01-01 00:00:00+00:00',
	'2110-01-01 00:00:00+00:00', '2130-01-01 00:00:00+00:00',
	'2150-01-01 00:00:00+00:00', '2170-01-01 00:00:00+00:00']
	],
	[datetime.timedelta(weeks=52),
	['1990-01-01 00:00:00+00:00', '1990-02-01 00:00:00+00:00',
	'1990-03-01 00:00:00+00:00', '1990-04-01 00:00:00+00:00',
	'1990-05-01 00:00:00+00:00', '1990-06-01 00:00:00+00:00',
	'1990-07-01 00:00:00+00:00', '1990-08-01 00:00:00+00:00',
	'1990-09-01 00:00:00+00:00', '1990-10-01 00:00:00+00:00',
	'1990-11-01 00:00:00+00:00', '1990-12-01 00:00:00+00:00']
	],
	[datetime.timedelta(days=141),
	['1990-01-05 00:00:00+00:00', '1990-01-26 00:00:00+00:00',
	'1990-02-16 00:00:00+00:00', '1990-03-09 00:00:00+00:00',
	'1990-03-30 00:00:00+00:00', '1990-04-20 00:00:00+00:00',
	'1990-05-11 00:00:00+00:00']
	],
	[datetime.timedelta(days=40),
	['1990-01-03 00:00:00+00:00', '1990-01-10 00:00:00+00:00',
	'1990-01-17 00:00:00+00:00', '1990-01-24 00:00:00+00:00',
	'1990-01-31 00:00:00+00:00', '1990-02-07 00:00:00+00:00']
	],
	[datetime.timedelta(hours=40),
	['1990-01-01 00:00:00+00:00', '1990-01-01 04:00:00+00:00',
	'1990-01-01 08:00:00+00:00', '1990-01-01 12:00:00+00:00',
	'1990-01-01 16:00:00+00:00', '1990-01-01 20:00:00+00:00',
	'1990-01-02 00:00:00+00:00', '1990-01-02 04:00:00+00:00',
	'1990-01-02 08:00:00+00:00', '1990-01-02 12:00:00+00:00',
	'1990-01-02 16:00:00+00:00']
	],
	[datetime.timedelta(minutes=20),
	['1990-01-01 00:00:00+00:00', '1990-01-01 00:05:00+00:00',
	'1990-01-01 00:10:00+00:00', '1990-01-01 00:15:00+00:00',
	'1990-01-01 00:20:00+00:00']
	],
	[datetime.timedelta(seconds=40),
	['1990-01-01 00:00:00+00:00', '1990-01-01 00:00:05+00:00',
	'1990-01-01 00:00:10+00:00', '1990-01-01 00:00:15+00:00',
	'1990-01-01 00:00:20+00:00', '1990-01-01 00:00:25+00:00',
	'1990-01-01 00:00:30+00:00', '1990-01-01 00:00:35+00:00',
	'1990-01-01 00:00:40+00:00']
	],
	[datetime.timedelta(microseconds=1500),
	['1989-12-31 23:59:59.999500+00:00',
	'1990-01-01 00:00:00+00:00',
	'1990-01-01 00:00:00.000500+00:00',
	'1990-01-01 00:00:00.001000+00:00',
	'1990-01-01 00:00:00.001500+00:00',
	'1990-01-01 00:00:00.002000+00:00']
	],
	)

	for t_delta, expected in results:
	d2 = d1 + t_delta
	locator = _create_auto_date_locator(d1, d2)
	assert list(map(str, mdates.num2date(locator()))) == expected

	locator = mdates.AutoDateLocator(interval_multiples=False)
	assert locator.maxticks == {0: 11, 1: 12, 3: 11, 4: 12, 5: 11, 6: 11, 7: 8}

	locator = mdates.AutoDateLocator(maxticks={dateutil.rrule.MONTHLY: 5})
	assert locator.maxticks == {0: 11, 1: 5, 3: 11, 4: 12, 5: 11, 6: 11, 7: 8}

	locator = mdates.AutoDateLocator(maxticks=5)
	assert locator.maxticks == {0: 5, 1: 5, 3: 5, 4: 5, 5: 5, 6: 5, 7: 5}


	@_new_epoch_decorator
	def test_auto_date_locator_intmult():
	def _create_auto_date_locator(date1, date2):
	locator = mdates.AutoDateLocator(interval_multiples=True)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(*mdates.date2num([date1, date2]))
	return locator

	results = ([datetime.timedelta(weeks=52 * 200),
	['1980-01-01 00:00:00+00:00', '2000-01-01 00:00:00+00:00',
	'2020-01-01 00:00:00+00:00', '2040-01-01 00:00:00+00:00',
	'2060-01-01 00:00:00+00:00', '2080-01-01 00:00:00+00:00',
	'2100-01-01 00:00:00+00:00', '2120-01-01 00:00:00+00:00',
	'2140-01-01 00:00:00+00:00', '2160-01-01 00:00:00+00:00',
	'2180-01-01 00:00:00+00:00', '2200-01-01 00:00:00+00:00']
	],
	[datetime.timedelta(weeks=52),
	['1997-01-01 00:00:00+00:00', '1997-02-01 00:00:00+00:00',
	'1997-03-01 00:00:00+00:00', '1997-04-01 00:00:00+00:00',
	'1997-05-01 00:00:00+00:00', '1997-06-01 00:00:00+00:00',
	'1997-07-01 00:00:00+00:00', '1997-08-01 00:00:00+00:00',
	'1997-09-01 00:00:00+00:00', '1997-10-01 00:00:00+00:00',
	'1997-11-01 00:00:00+00:00', '1997-12-01 00:00:00+00:00']
	],
	[datetime.timedelta(days=141),
	['1997-01-01 00:00:00+00:00', '1997-01-15 00:00:00+00:00',
	'1997-02-01 00:00:00+00:00', '1997-02-15 00:00:00+00:00',
	'1997-03-01 00:00:00+00:00', '1997-03-15 00:00:00+00:00',
	'1997-04-01 00:00:00+00:00', '1997-04-15 00:00:00+00:00',
	'1997-05-01 00:00:00+00:00', '1997-05-15 00:00:00+00:00']
	],
	[datetime.timedelta(days=40),
	['1997-01-01 00:00:00+00:00', '1997-01-05 00:00:00+00:00',
	'1997-01-09 00:00:00+00:00', '1997-01-13 00:00:00+00:00',
	'1997-01-17 00:00:00+00:00', '1997-01-21 00:00:00+00:00',
	'1997-01-25 00:00:00+00:00', '1997-01-29 00:00:00+00:00',
	'1997-02-01 00:00:00+00:00', '1997-02-05 00:00:00+00:00',
	'1997-02-09 00:00:00+00:00']
	],
	[datetime.timedelta(hours=40),
	['1997-01-01 00:00:00+00:00', '1997-01-01 04:00:00+00:00',
	'1997-01-01 08:00:00+00:00', '1997-01-01 12:00:00+00:00',
	'1997-01-01 16:00:00+00:00', '1997-01-01 20:00:00+00:00',
	'1997-01-02 00:00:00+00:00', '1997-01-02 04:00:00+00:00',
	'1997-01-02 08:00:00+00:00', '1997-01-02 12:00:00+00:00',
	'1997-01-02 16:00:00+00:00']
	],
	[datetime.timedelta(minutes=20),
	['1997-01-01 00:00:00+00:00', '1997-01-01 00:05:00+00:00',
	'1997-01-01 00:10:00+00:00', '1997-01-01 00:15:00+00:00',
	'1997-01-01 00:20:00+00:00']
	],
	[datetime.timedelta(seconds=40),
	['1997-01-01 00:00:00+00:00', '1997-01-01 00:00:05+00:00',
	'1997-01-01 00:00:10+00:00', '1997-01-01 00:00:15+00:00',
	'1997-01-01 00:00:20+00:00', '1997-01-01 00:00:25+00:00',
	'1997-01-01 00:00:30+00:00', '1997-01-01 00:00:35+00:00',
	'1997-01-01 00:00:40+00:00']
	],
	[datetime.timedelta(microseconds=1500),
	['1996-12-31 23:59:59.999500+00:00',
	'1997-01-01 00:00:00+00:00',
	'1997-01-01 00:00:00.000500+00:00',
	'1997-01-01 00:00:00.001000+00:00',
	'1997-01-01 00:00:00.001500+00:00',
	'1997-01-01 00:00:00.002000+00:00']
	],
	)

	d1 = datetime.datetime(1997, 1, 1)
	for t_delta, expected in results:
	d2 = d1 + t_delta
	locator = _create_auto_date_locator(d1, d2)
	assert list(map(str, mdates.num2date(locator()))) == expected


	def test_concise_formatter_subsecond():
	locator = mdates.AutoDateLocator(interval_multiples=True)
	formatter = mdates.ConciseDateFormatter(locator)
	year_1996 = 9861.0
	strings = formatter.format_ticks([
	year_1996,
	year_1996 + 500 / mdates.MUSECONDS_PER_DAY,
	year_1996 + 900 / mdates.MUSECONDS_PER_DAY])
	assert strings == ['00:00', '00.0005', '00.0009']


	def test_concise_formatter():
	def _create_auto_date_locator(date1, date2):
	fig, ax = plt.subplots()

	locator = mdates.AutoDateLocator(interval_multiples=True)
	formatter = mdates.ConciseDateFormatter(locator)
	ax.yaxis.set_major_locator(locator)
	ax.yaxis.set_major_formatter(formatter)
	ax.set_ylim(date1, date2)
	fig.canvas.draw()
	sts = [st.get_text() for st in ax.get_yticklabels()]
	return sts

	d1 = datetime.datetime(1997, 1, 1)
	results = ([datetime.timedelta(weeks=52 * 200),
	[str(t) for t in range(1980, 2201, 20)]
	],
	[datetime.timedelta(weeks=52),
	['1997', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug',
	'Sep', 'Oct', 'Nov', 'Dec']
	],
	[datetime.timedelta(days=141),
	['Jan', '15', 'Feb', '15', 'Mar', '15', 'Apr', '15',
	'May', '15']
	],
	[datetime.timedelta(days=40),
	['Jan', '05', '09', '13', '17', '21', '25', '29', 'Feb',
	'05', '09']
	],
	[datetime.timedelta(hours=40),
	['Jan-01', '04:00', '08:00', '12:00', '16:00', '20:00',
	'Jan-02', '04:00', '08:00', '12:00', '16:00']
	],
	[datetime.timedelta(minutes=20),
	['00:00', '00:05', '00:10', '00:15', '00:20']
	],
	[datetime.timedelta(seconds=40),
	['00:00', '05', '10', '15', '20', '25', '30', '35', '40']
	],
	[datetime.timedelta(seconds=2),
	['59.5', '00:00', '00.5', '01.0', '01.5', '02.0', '02.5']
	],
	)
	for t_delta, expected in results:
	d2 = d1 + t_delta
	strings = _create_auto_date_locator(d1, d2)
	assert strings == expected


	@pytest.mark.parametrize('t_delta, expected', [
	(datetime.timedelta(seconds=0.01), '1997-Jan-01 00:00'),
	(datetime.timedelta(minutes=1), '1997-Jan-01 00:01'),
	(datetime.timedelta(hours=1), '1997-Jan-01'),
	(datetime.timedelta(days=1), '1997-Jan-02'),
	(datetime.timedelta(weeks=1), '1997-Jan'),
	(datetime.timedelta(weeks=26), ''),
	(datetime.timedelta(weeks=520), '')
	])
	def test_concise_formatter_show_offset(t_delta, expected):
	d1 = datetime.datetime(1997, 1, 1)
	d2 = d1 + t_delta

	fig, ax = plt.subplots()
	locator = mdates.AutoDateLocator()
	formatter = mdates.ConciseDateFormatter(locator)
	ax.xaxis.set_major_locator(locator)
	ax.xaxis.set_major_formatter(formatter)

	ax.plot([d1, d2], [0, 0])
	fig.canvas.draw()
	assert formatter.get_offset() == expected


	def test_concise_formatter_show_offset_inverted():
	# Test for github issue #28481
	d1 = datetime.datetime(1997, 1, 1)
	d2 = d1 + datetime.timedelta(days=60)

	fig, ax = plt.subplots()
	locator = mdates.AutoDateLocator()
	formatter = mdates.ConciseDateFormatter(locator)
	ax.xaxis.set_major_locator(locator)
	ax.xaxis.set_major_formatter(formatter)
	ax.invert_xaxis()

	ax.plot([d1, d2], [0, 0])
	fig.canvas.draw()
	assert formatter.get_offset() == '1997-Jan'


	def test_concise_converter_stays():
	# This test demonstrates problems introduced by gh-23417 (reverted in gh-25278)
	# In particular, downstream libraries like Pandas had their designated converters
	# overridden by actions like setting xlim (or plotting additional points using
	# stdlib/numpy dates and string date representation, which otherwise work fine with
	# their date converters)
	# While this is a bit of a toy example that would be unusual to see it demonstrates
	# the same ideas (namely having a valid converter already applied that is desired)
	# without introducing additional subclasses.
	# See also discussion at gh-25219 for how Pandas was affected
	x = [datetime.datetime(2000, 1, 1), datetime.datetime(2020, 2, 20)]
	y = [0, 1]
	fig, ax = plt.subplots()
	ax.plot(x, y)
	# Bypass Switchable date converter
	conv = mdates.ConciseDateConverter()
	with pytest.warns(UserWarning, match="already has a converter"):
	ax.xaxis.set_converter(conv)
	assert ax.xaxis.units is None
	ax.set_xlim(*x)
	assert ax.xaxis.get_converter() == conv


	def test_offset_changes():
	fig, ax = plt.subplots()

	d1 = datetime.datetime(1997, 1, 1)
	d2 = d1 + datetime.timedelta(weeks=520)

	locator = mdates.AutoDateLocator()
	formatter = mdates.ConciseDateFormatter(locator)
	ax.xaxis.set_major_locator(locator)
	ax.xaxis.set_major_formatter(formatter)

	ax.plot([d1, d2], [0, 0])
	fig.draw_without_rendering()
	assert formatter.get_offset() == ''
	ax.set_xlim(d1, d1 + datetime.timedelta(weeks=3))
	fig.draw_without_rendering()
	assert formatter.get_offset() == '1997-Jan'
	ax.set_xlim(d1 + datetime.timedelta(weeks=7),
	d1 + datetime.timedelta(weeks=30))
	fig.draw_without_rendering()
	assert formatter.get_offset() == '1997'
	ax.set_xlim(d1, d1 + datetime.timedelta(weeks=520))
	fig.draw_without_rendering()
	assert formatter.get_offset() == ''


	@pytest.mark.parametrize('t_delta, expected', [
	(datetime.timedelta(weeks=52 * 200),
	['$\\mathdefault{%d}$' % (t, ) for t in range(1980, 2201, 20)]),
	(datetime.timedelta(days=40),
	['Jan', '$\\mathdefault{05}$', '$\\mathdefault{09}$',
	'$\\mathdefault{13}$', '$\\mathdefault{17}$', '$\\mathdefault{21}$',
	'$\\mathdefault{25}$', '$\\mathdefault{29}$', 'Feb',
	'$\\mathdefault{05}$', '$\\mathdefault{09}$']),
	(datetime.timedelta(hours=40),
	['Jan$\\mathdefault{{-}01}$', '$\\mathdefault{04{:}00}$',
	'$\\mathdefault{08{:}00}$', '$\\mathdefault{12{:}00}$',
	'$\\mathdefault{16{:}00}$', '$\\mathdefault{20{:}00}$',
	'Jan$\\mathdefault{{-}02}$', '$\\mathdefault{04{:}00}$',
	'$\\mathdefault{08{:}00}$', '$\\mathdefault{12{:}00}$',
	'$\\mathdefault{16{:}00}$']),
	(datetime.timedelta(seconds=2),
	['$\\mathdefault{59.5}$', '$\\mathdefault{00{:}00}$',
	'$\\mathdefault{00.5}$', '$\\mathdefault{01.0}$',
	'$\\mathdefault{01.5}$', '$\\mathdefault{02.0}$',
	'$\\mathdefault{02.5}$']),
	])
	def test_concise_formatter_usetex(t_delta, expected):
	d1 = datetime.datetime(1997, 1, 1)
	d2 = d1 + t_delta

	locator = mdates.AutoDateLocator(interval_multiples=True)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(mdates.date2num(d1), mdates.date2num(d2))

	formatter = mdates.ConciseDateFormatter(locator, usetex=True)
	assert formatter.format_ticks(locator()) == expected


	def test_concise_formatter_formats():
	formats = ['%Y', '%m/%Y', 'day: %d',
	'%H hr %M min', '%H hr %M min', '%S.%f sec']

	def _create_auto_date_locator(date1, date2):
	fig, ax = plt.subplots()

	locator = mdates.AutoDateLocator(interval_multiples=True)
	formatter = mdates.ConciseDateFormatter(locator, formats=formats)
	ax.yaxis.set_major_locator(locator)
	ax.yaxis.set_major_formatter(formatter)
	ax.set_ylim(date1, date2)
	fig.canvas.draw()
	sts = [st.get_text() for st in ax.get_yticklabels()]
	return sts

	d1 = datetime.datetime(1997, 1, 1)
	results = (
	[datetime.timedelta(weeks=52 * 200), [str(t) for t in range(1980,
	2201, 20)]],
	[datetime.timedelta(weeks=52), [
	'1997', '02/1997', '03/1997', '04/1997', '05/1997', '06/1997',
	'07/1997', '08/1997', '09/1997', '10/1997', '11/1997', '12/1997',
	]],
	[datetime.timedelta(days=141), [
	'01/1997', 'day: 15', '02/1997', 'day: 15', '03/1997', 'day: 15',
	'04/1997', 'day: 15', '05/1997', 'day: 15',
	]],
	[datetime.timedelta(days=40), [
	'01/1997', 'day: 05', 'day: 09', 'day: 13', 'day: 17', 'day: 21',
	'day: 25', 'day: 29', '02/1997', 'day: 05', 'day: 09',
	]],
	[datetime.timedelta(hours=40), [
	'day: 01', '04 hr 00 min', '08 hr 00 min', '12 hr 00 min',
	'16 hr 00 min', '20 hr 00 min', 'day: 02', '04 hr 00 min',
	'08 hr 00 min', '12 hr 00 min', '16 hr 00 min',
	]],
	[datetime.timedelta(minutes=20), ['00 hr 00 min', '00 hr 05 min',
	'00 hr 10 min', '00 hr 15 min', '00 hr 20 min']],
	[datetime.timedelta(seconds=40), [
	'00 hr 00 min', '05.000000 sec', '10.000000 sec',
	'15.000000 sec', '20.000000 sec', '25.000000 sec',
	'30.000000 sec', '35.000000 sec', '40.000000 sec',
	]],
	[datetime.timedelta(seconds=2), [
	'59.500000 sec', '00 hr 00 min', '00.500000 sec', '01.000000 sec',
	'01.500000 sec', '02.000000 sec', '02.500000 sec',
	]],
	)
	for t_delta, expected in results:
	d2 = d1 + t_delta
	strings = _create_auto_date_locator(d1, d2)
	assert strings == expected


	def test_concise_formatter_zformats():
	zero_formats = ['', "'%y", '%B', '%m-%d', '%S', '%S.%f']

	def _create_auto_date_locator(date1, date2):
	fig, ax = plt.subplots()

	locator = mdates.AutoDateLocator(interval_multiples=True)
	formatter = mdates.ConciseDateFormatter(
	locator, zero_formats=zero_formats)
	ax.yaxis.set_major_locator(locator)
	ax.yaxis.set_major_formatter(formatter)
	ax.set_ylim(date1, date2)
	fig.canvas.draw()
	sts = [st.get_text() for st in ax.get_yticklabels()]
	return sts

	d1 = datetime.datetime(1997, 1, 1)
	results = ([datetime.timedelta(weeks=52 * 200),
	[str(t) for t in range(1980, 2201, 20)]
	],
	[datetime.timedelta(weeks=52),
	["'97", 'Feb', 'Mar', 'Apr', 'May', 'Jun',
	'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']
	],
	[datetime.timedelta(days=141),
	['January', '15', 'February', '15', 'March',
	'15', 'April', '15', 'May', '15']
	],
	[datetime.timedelta(days=40),
	['January', '05', '09', '13', '17', '21',
	'25', '29', 'February', '05', '09']
	],
	[datetime.timedelta(hours=40),
	['01-01', '04:00', '08:00', '12:00', '16:00', '20:00',
	'01-02', '04:00', '08:00', '12:00', '16:00']
	],
	[datetime.timedelta(minutes=20),
	['00', '00:05', '00:10', '00:15', '00:20']
	],
	[datetime.timedelta(seconds=40),
	['00', '05', '10', '15', '20', '25', '30', '35', '40']
	],
	[datetime.timedelta(seconds=2),
	['59.5', '00.0', '00.5', '01.0', '01.5', '02.0', '02.5']
	],
	)
	for t_delta, expected in results:
	d2 = d1 + t_delta
	strings = _create_auto_date_locator(d1, d2)
	assert strings == expected


	def test_concise_formatter_tz():
	def _create_auto_date_locator(date1, date2, tz):
	fig, ax = plt.subplots()

	locator = mdates.AutoDateLocator(interval_multiples=True)
	formatter = mdates.ConciseDateFormatter(locator, tz=tz)
	ax.yaxis.set_major_locator(locator)
	ax.yaxis.set_major_formatter(formatter)
	ax.set_ylim(date1, date2)
	fig.canvas.draw()
	sts = [st.get_text() for st in ax.get_yticklabels()]
	return sts, ax.yaxis.get_offset_text().get_text()

	d1 = datetime.datetime(1997, 1, 1).replace(tzinfo=datetime.timezone.utc)
	results = ([datetime.timedelta(hours=40),
	['03:00', '07:00', '11:00', '15:00', '19:00', '23:00',
	'03:00', '07:00', '11:00', '15:00', '19:00'],
	"1997-Jan-02"
	],
	[datetime.timedelta(minutes=20),
	['03:00', '03:05', '03:10', '03:15', '03:20'],
	"1997-Jan-01"
	],
	[datetime.timedelta(seconds=40),
	['03:00', '05', '10', '15', '20', '25', '30', '35', '40'],
	"1997-Jan-01 03:00"
	],
	[datetime.timedelta(seconds=2),
	['59.5', '03:00', '00.5', '01.0', '01.5', '02.0', '02.5'],
	"1997-Jan-01 03:00"
	],
	)

	new_tz = datetime.timezone(datetime.timedelta(hours=3))
	for t_delta, expected_strings, expected_offset in results:
	d2 = d1 + t_delta
	strings, offset = _create_auto_date_locator(d1, d2, new_tz)
	assert strings == expected_strings
	assert offset == expected_offset


	def test_auto_date_locator_intmult_tz():
	def _create_auto_date_locator(date1, date2, tz):
	locator = mdates.AutoDateLocator(interval_multiples=True, tz=tz)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(*mdates.date2num([date1, date2]))
	return locator

	results = ([datetime.timedelta(weeks=52*200),
	['1980-01-01 00:00:00-08:00', '2000-01-01 00:00:00-08:00',
	'2020-01-01 00:00:00-08:00', '2040-01-01 00:00:00-08:00',
	'2060-01-01 00:00:00-08:00', '2080-01-01 00:00:00-08:00',
	'2100-01-01 00:00:00-08:00', '2120-01-01 00:00:00-08:00',
	'2140-01-01 00:00:00-08:00', '2160-01-01 00:00:00-08:00',
	'2180-01-01 00:00:00-08:00', '2200-01-01 00:00:00-08:00']
	],
	[datetime.timedelta(weeks=52),
	['1997-01-01 00:00:00-08:00', '1997-02-01 00:00:00-08:00',
	'1997-03-01 00:00:00-08:00', '1997-04-01 00:00:00-08:00',
	'1997-05-01 00:00:00-07:00', '1997-06-01 00:00:00-07:00',
	'1997-07-01 00:00:00-07:00', '1997-08-01 00:00:00-07:00',
	'1997-09-01 00:00:00-07:00', '1997-10-01 00:00:00-07:00',
	'1997-11-01 00:00:00-08:00', '1997-12-01 00:00:00-08:00']
	],
	[datetime.timedelta(days=141),
	['1997-01-01 00:00:00-08:00', '1997-01-15 00:00:00-08:00',
	'1997-02-01 00:00:00-08:00', '1997-02-15 00:00:00-08:00',
	'1997-03-01 00:00:00-08:00', '1997-03-15 00:00:00-08:00',
	'1997-04-01 00:00:00-08:00', '1997-04-15 00:00:00-07:00',
	'1997-05-01 00:00:00-07:00', '1997-05-15 00:00:00-07:00']
	],
	[datetime.timedelta(days=40),
	['1997-01-01 00:00:00-08:00', '1997-01-05 00:00:00-08:00',
	'1997-01-09 00:00:00-08:00', '1997-01-13 00:00:00-08:00',
	'1997-01-17 00:00:00-08:00', '1997-01-21 00:00:00-08:00',
	'1997-01-25 00:00:00-08:00', '1997-01-29 00:00:00-08:00',
	'1997-02-01 00:00:00-08:00', '1997-02-05 00:00:00-08:00',
	'1997-02-09 00:00:00-08:00']
	],
	[datetime.timedelta(hours=40),
	['1997-01-01 00:00:00-08:00', '1997-01-01 04:00:00-08:00',
	'1997-01-01 08:00:00-08:00', '1997-01-01 12:00:00-08:00',
	'1997-01-01 16:00:00-08:00', '1997-01-01 20:00:00-08:00',
	'1997-01-02 00:00:00-08:00', '1997-01-02 04:00:00-08:00',
	'1997-01-02 08:00:00-08:00', '1997-01-02 12:00:00-08:00',
	'1997-01-02 16:00:00-08:00']
	],
	[datetime.timedelta(minutes=20),
	['1997-01-01 00:00:00-08:00', '1997-01-01 00:05:00-08:00',
	'1997-01-01 00:10:00-08:00', '1997-01-01 00:15:00-08:00',
	'1997-01-01 00:20:00-08:00']
	],
	[datetime.timedelta(seconds=40),
	['1997-01-01 00:00:00-08:00', '1997-01-01 00:00:05-08:00',
	'1997-01-01 00:00:10-08:00', '1997-01-01 00:00:15-08:00',
	'1997-01-01 00:00:20-08:00', '1997-01-01 00:00:25-08:00',
	'1997-01-01 00:00:30-08:00', '1997-01-01 00:00:35-08:00',
	'1997-01-01 00:00:40-08:00']
	]
	)

	tz = dateutil.tz.gettz('Canada/Pacific')
	d1 = datetime.datetime(1997, 1, 1, tzinfo=tz)
	for t_delta, expected in results:
	with rc_context({'_internal.classic_mode': False}):
	d2 = d1 + t_delta
	locator = _create_auto_date_locator(d1, d2, tz)
	st = list(map(str, mdates.num2date(locator(), tz=tz)))
	assert st == expected


	@image_comparison(['date_inverted_limit.png'])
	def test_date_inverted_limit():
	# test ax hline with date inputs
	t0 = datetime.datetime(2009, 1, 20)
	tf = datetime.datetime(2009, 1, 31)
	fig, ax = plt.subplots()
	ax.axhline(t0, color="blue", lw=3)
	ax.set_ylim(t0 - datetime.timedelta(days=5),
	tf + datetime.timedelta(days=5))
	ax.invert_yaxis()
	fig.subplots_adjust(left=0.25)


	def _test_date2num_dst(date_range, tz_convert):
	# Timezones

	BRUSSELS = dateutil.tz.gettz('Europe/Brussels')
	UTC = mdates.UTC

	# Create a list of timezone-aware datetime objects in UTC
	# Interval is 0b0.0000011 days, to prevent float rounding issues
	dtstart = datetime.datetime(2014, 3, 30, 0, 0, tzinfo=UTC)
	interval = datetime.timedelta(minutes=33, seconds=45)
	interval_days = interval.seconds / 86400
	N = 8

	dt_utc = date_range(start=dtstart, freq=interval, periods=N)
	dt_bxl = tz_convert(dt_utc, BRUSSELS)
	t0 = 735322.0 + mdates.date2num(np.datetime64('0000-12-31'))
	expected_ordinalf = [t0 + (i * interval_days) for i in range(N)]
	actual_ordinalf = list(mdates.date2num(dt_bxl))

	assert actual_ordinalf == expected_ordinalf


	def test_date2num_dst():
	# Test for github issue #3896, but in date2num around DST transitions
	# with a timezone-aware pandas date_range object.

	class dt_tzaware(datetime.datetime):
	"""
	This bug specifically occurs because of the normalization behavior of
	pandas Timestamp objects, so in order to replicate it, we need a
	datetime-like object that applies timezone normalization after
	subtraction.
	"""

	def __sub__(self, other):
	r = super().__sub__(other)
	tzinfo = getattr(r, 'tzinfo', None)

	if tzinfo is not None:
	localizer = getattr(tzinfo, 'normalize', None)
	if localizer is not None:
	r = tzinfo.normalize(r)

	if isinstance(r, datetime.datetime):
	r = self.mk_tzaware(r)

	return r

	def __add__(self, other):
	return self.mk_tzaware(super().__add__(other))

	def astimezone(self, tzinfo):
	dt = super().astimezone(tzinfo)
	return self.mk_tzaware(dt)

	@classmethod
	def mk_tzaware(cls, datetime_obj):
	kwargs = {}
	attrs = ('year',
	'month',
	'day',
	'hour',
	'minute',
	'second',
	'microsecond',
	'tzinfo')

	for attr in attrs:
	val = getattr(datetime_obj, attr, None)
	if val is not None:
	kwargs[attr] = val

	return cls(**kwargs)

	# Define a date_range function similar to pandas.date_range
	def date_range(start, freq, periods):
	dtstart = dt_tzaware.mk_tzaware(start)

	return [dtstart + (i * freq) for i in range(periods)]

	# Define a tz_convert function that converts a list to a new timezone.
	def tz_convert(dt_list, tzinfo):
	return [d.astimezone(tzinfo) for d in dt_list]

	_test_date2num_dst(date_range, tz_convert)


	def test_date2num_dst_pandas(pd):
	# Test for github issue #3896, but in date2num around DST transitions
	# with a timezone-aware pandas date_range object.

	def tz_convert(*args):
	return pd.DatetimeIndex.tz_convert(*args).astype(object)

	_test_date2num_dst(pd.date_range, tz_convert)


	def _test_rrulewrapper(attach_tz, get_tz):
	SYD = get_tz('Australia/Sydney')

	dtstart = attach_tz(datetime.datetime(2017, 4, 1, 0), SYD)
	dtend = attach_tz(datetime.datetime(2017, 4, 4, 0), SYD)

	rule = mdates.rrulewrapper(freq=dateutil.rrule.DAILY, dtstart=dtstart)

	act = rule.between(dtstart, dtend)
	exp = [datetime.datetime(2017, 4, 1, 13, tzinfo=dateutil.tz.tzutc()),
	datetime.datetime(2017, 4, 2, 14, tzinfo=dateutil.tz.tzutc())]

	assert act == exp


	def test_rrulewrapper():
	def attach_tz(dt, zi):
	return dt.replace(tzinfo=zi)

	_test_rrulewrapper(attach_tz, dateutil.tz.gettz)

	SYD = dateutil.tz.gettz('Australia/Sydney')
	dtstart = datetime.datetime(2017, 4, 1, 0)
	dtend = datetime.datetime(2017, 4, 4, 0)
	rule = mdates.rrulewrapper(freq=dateutil.rrule.DAILY, dtstart=dtstart,
	tzinfo=SYD, until=dtend)
	assert rule.after(dtstart) == datetime.datetime(2017, 4, 2, 0, 0,
	tzinfo=SYD)
	assert rule.before(dtend) == datetime.datetime(2017, 4, 3, 0, 0,
	tzinfo=SYD)

	# Test parts of __getattr__
	assert rule._base_tzinfo == SYD
	assert rule._interval == 1


	@pytest.mark.pytz
	def test_rrulewrapper_pytz():
	# Test to make sure pytz zones are supported in rrules
	pytz = pytest.importorskip("pytz")

	def attach_tz(dt, zi):
	return zi.localize(dt)

	_test_rrulewrapper(attach_tz, pytz.timezone)


	@pytest.mark.pytz
	def test_yearlocator_pytz():
	pytz = pytest.importorskip("pytz")

	tz = pytz.timezone('America/New_York')
	x = [tz.localize(datetime.datetime(2010, 1, 1))
	+ datetime.timedelta(i) for i in range(2000)]
	locator = mdates.AutoDateLocator(interval_multiples=True, tz=tz)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(mdates.date2num(x[0])-1.0,
	mdates.date2num(x[-1])+1.0)
	t = np.array([733408.208333, 733773.208333, 734138.208333,
	734503.208333, 734869.208333, 735234.208333, 735599.208333])
	# convert to new epoch from old...
	t = t + mdates.date2num(np.datetime64('0000-12-31'))
	np.testing.assert_allclose(t, locator())
	expected = ['2009-01-01 00:00:00-05:00',
	'2010-01-01 00:00:00-05:00', '2011-01-01 00:00:00-05:00',
	'2012-01-01 00:00:00-05:00', '2013-01-01 00:00:00-05:00',
	'2014-01-01 00:00:00-05:00', '2015-01-01 00:00:00-05:00']
	st = list(map(str, mdates.num2date(locator(), tz=tz)))
	assert st == expected
	assert np.allclose(locator.tick_values(x[0], x[1]), np.array(
	[14610.20833333, 14610.33333333, 14610.45833333, 14610.58333333,
	14610.70833333, 14610.83333333, 14610.95833333, 14611.08333333,
	14611.20833333]))
	assert np.allclose(locator.get_locator(x[1], x[0]).tick_values(x[0], x[1]),
	np.array(
	[14610.20833333, 14610.33333333, 14610.45833333, 14610.58333333,
	14610.70833333, 14610.83333333, 14610.95833333, 14611.08333333,
	14611.20833333]))


	def test_YearLocator():
	def _create_year_locator(date1, date2, **kwargs):
	locator = mdates.YearLocator(**kwargs)
	locator.create_dummy_axis()
	locator.axis.set_view_interval(mdates.date2num(date1),
	mdates.date2num(date2))
	return locator

	d1 = datetime.datetime(1990, 1, 1)
	results = ([datetime.timedelta(weeks=52 * 200),
	{'base': 20, 'month': 1, 'day': 1},
	['1980-01-01 00:00:00+00:00', '2000-01-01 00:00:00+00:00',
	'2020-01-01 00:00:00+00:00', '2040-01-01 00:00:00+00:00',
	'2060-01-01 00:00:00+00:00', '2080-01-01 00:00:00+00:00',
	'2100-01-01 00:00:00+00:00', '2120-01-01 00:00:00+00:00',
	'2140-01-01 00:00:00+00:00', '2160-01-01 00:00:00+00:00',
	'2180-01-01 00:00:00+00:00', '2200-01-01 00:00:00+00:00']
	],
	[datetime.timedelta(weeks=52 * 200),
	{'base': 20, 'month': 5, 'day': 16},
	['1980-05-16 00:00:00+00:00', '2000-05-16 00:00:00+00:00',
	'2020-05-16 00:00:00+00:00', '2040-05-16 00:00:00+00:00',
	'2060-05-16 00:00:00+00:00', '2080-05-16 00:00:00+00:00',
	'2100-05-16 00:00:00+00:00', '2120-05-16 00:00:00+00:00',
	'2140-05-16 00:00:00+00:00', '2160-05-16 00:00:00+00:00',
	'2180-05-16 00:00:00+00:00', '2200-05-16 00:00:00+00:00']
	],
	[datetime.timedelta(weeks=52 * 5),
	{'base': 20, 'month': 9, 'day': 25},
	['1980-09-25 00:00:00+00:00', '2000-09-25 00:00:00+00:00']
	],
	)

	for delta, arguments, expected in results:
	d2 = d1 + delta
	locator = _create_year_locator(d1, d2, **arguments)
	assert list(map(str, mdates.num2date(locator()))) == expected


	def test_DayLocator():
	with pytest.raises(ValueError):
	mdates.DayLocator(interval=-1)
	with pytest.raises(ValueError):
	mdates.DayLocator(interval=-1.5)
	with pytest.raises(ValueError):
	mdates.DayLocator(interval=0)
	with pytest.raises(ValueError):
	mdates.DayLocator(interval=1.3)
	mdates.DayLocator(interval=1.0)


	def test_tz_utc():
	dt = datetime.datetime(1970, 1, 1, tzinfo=mdates.UTC)
	assert dt.tzname() == 'UTC'


	@pytest.mark.parametrize("x, tdelta",
	[(1, datetime.timedelta(days=1)),
	([1, 1.5], [datetime.timedelta(days=1),
	datetime.timedelta(days=1.5)])])
	def test_num2timedelta(x, tdelta):
	dt = mdates.num2timedelta(x)
	assert dt == tdelta


	def test_datetime64_in_list():
	dt = [np.datetime64('2000-01-01'), np.datetime64('2001-01-01')]
	dn = mdates.date2num(dt)
	# convert fixed values from old to new epoch
	t = (np.array([730120., 730486.]) +
	mdates.date2num(np.datetime64('0000-12-31')))
	np.testing.assert_equal(dn, t)


	def test_change_epoch():
	date = np.datetime64('2000-01-01')

	# use private method to clear the epoch and allow it to be set...
	mdates._reset_epoch_test_example()
	mdates.get_epoch() # Set default.

	with pytest.raises(RuntimeError):
	# this should fail here because there is a sentinel on the epoch
	# if the epoch has been used then it cannot be set.
	mdates.set_epoch('0000-01-01')

	mdates._reset_epoch_test_example()
	mdates.set_epoch('1970-01-01')
	dt = (date - np.datetime64('1970-01-01')).astype('datetime64[D]')
	dt = dt.astype('int')
	np.testing.assert_equal(mdates.date2num(date), float(dt))

	mdates._reset_epoch_test_example()
	mdates.set_epoch('0000-12-31')
	np.testing.assert_equal(mdates.date2num(date), 730120.0)

	mdates._reset_epoch_test_example()
	mdates.set_epoch('1970-01-01T01:00:00')
	np.testing.assert_allclose(mdates.date2num(date), dt - 1./24.)
	mdates._reset_epoch_test_example()
	mdates.set_epoch('1970-01-01T00:00:00')
	np.testing.assert_allclose(
	mdates.date2num(np.datetime64('1970-01-01T12:00:00')),
	0.5)


	def test_warn_notintervals():
	dates = np.arange('2001-01-10', '2001-03-04', dtype='datetime64[D]')
	locator = mdates.AutoDateLocator(interval_multiples=False)
	locator.intervald[3] = [2]
	locator.create_dummy_axis()
	locator.axis.set_view_interval(mdates.date2num(dates[0]),
	mdates.date2num(dates[-1]))
	with pytest.warns(UserWarning, match="AutoDateLocator was unable"):
	locs = locator()


	def test_change_converter():
	plt.rcParams['date.converter'] = 'concise'
	dates = np.arange('2020-01-01', '2020-05-01', dtype='datetime64[D]')
	fig, ax = plt.subplots()

	ax.plot(dates, np.arange(len(dates)))
	fig.canvas.draw()
	assert ax.get_xticklabels()[0].get_text() == 'Jan'
	assert ax.get_xticklabels()[1].get_text() == '15'

	plt.rcParams['date.converter'] = 'auto'
	fig, ax = plt.subplots()

	ax.plot(dates, np.arange(len(dates)))
	fig.canvas.draw()
	assert ax.get_xticklabels()[0].get_text() == 'Jan 01 2020'
	assert ax.get_xticklabels()[1].get_text() == 'Jan 15 2020'
	with pytest.raises(ValueError):
	plt.rcParams['date.converter'] = 'boo'


	def test_change_interval_multiples():
	plt.rcParams['date.interval_multiples'] = False
	dates = np.arange('2020-01-10', '2020-05-01', dtype='datetime64[D]')
	fig, ax = plt.subplots()

	ax.plot(dates, np.arange(len(dates)))
	fig.canvas.draw()
	assert ax.get_xticklabels()[0].get_text() == 'Jan 10 2020'
	assert ax.get_xticklabels()[1].get_text() == 'Jan 24 2020'

	plt.rcParams['date.interval_multiples'] = 'True'
	fig, ax = plt.subplots()

	ax.plot(dates, np.arange(len(dates)))
	fig.canvas.draw()
	assert ax.get_xticklabels()[0].get_text() == 'Jan 15 2020'
	assert ax.get_xticklabels()[1].get_text() == 'Feb 01 2020'


	def test_DateLocator():
	locator = mdates.DateLocator()
	# Test nonsingular
	assert locator.nonsingular(0, np.inf) == (0, 1)
	assert locator.nonsingular(0, 1) == (0, 1)
	assert locator.nonsingular(1, 0) == (0, 1)
	assert locator.nonsingular(0, 0) == (-2, 2)
	locator.create_dummy_axis()
	# default values
	assert locator.datalim_to_dt() == (
	datetime.datetime(1970, 1, 1, 0, 0, tzinfo=datetime.timezone.utc),
	datetime.datetime(1970, 1, 2, 0, 0, tzinfo=datetime.timezone.utc))

	# Check default is UTC
	assert locator.tz == mdates.UTC
	tz_str = 'Iceland'
	iceland_tz = dateutil.tz.gettz(tz_str)
	# Check not Iceland
	assert locator.tz != iceland_tz
	# Set it to Iceland
	locator.set_tzinfo('Iceland')
	# Check now it is Iceland
	assert locator.tz == iceland_tz
	locator.create_dummy_axis()
	locator.axis.set_data_interval(*mdates.date2num(["2022-01-10",
	"2022-01-08"]))
	assert locator.datalim_to_dt() == (
	datetime.datetime(2022, 1, 8, 0, 0, tzinfo=iceland_tz),
	datetime.datetime(2022, 1, 10, 0, 0, tzinfo=iceland_tz))

	# Set rcParam
	plt.rcParams['timezone'] = tz_str

	# Create a new one in a similar way
	locator = mdates.DateLocator()
	# Check now it is Iceland
	assert locator.tz == iceland_tz

	# Test invalid tz values
	with pytest.raises(ValueError, match="Aiceland is not a valid timezone"):
	mdates.DateLocator(tz="Aiceland")
	with pytest.raises(TypeError,
	match="tz must be string or tzinfo subclass."):
	mdates.DateLocator(tz=1)


	def test_datestr2num():
	assert mdates.datestr2num('2022-01-10') == 19002.0
	dt = datetime.date(year=2022, month=1, day=10)
	assert mdates.datestr2num('2022-01', default=dt) == 19002.0
	assert np.all(mdates.datestr2num(
	['2022-01', '2022-02'], default=dt
	) == np.array([19002., 19033.]))
	assert mdates.datestr2num([]).size == 0
	assert mdates.datestr2num([], datetime.date(year=2022,
	month=1, day=10)).size == 0


	@pytest.mark.parametrize('kwarg',
	('formats', 'zero_formats', 'offset_formats'))
	def test_concise_formatter_exceptions(kwarg):
	locator = mdates.AutoDateLocator()
	kwargs = {kwarg: ['', '%Y']}
	match = f"{kwarg} argument must be a list"
	with pytest.raises(ValueError, match=match):
	mdates.ConciseDateFormatter(locator, **kwargs)


	def test_concise_formatter_call():
	locator = mdates.AutoDateLocator()
	formatter = mdates.ConciseDateFormatter(locator)
	assert formatter(19002.0) == '2022'
	assert formatter.format_data_short(19002.0) == '2022-01-10 00:00:00'


	def test_datetime_masked():
	# make sure that all-masked data falls back to the viewlim
	# set in convert.axisinfo....
	x = np.array([datetime.datetime(2017, 1, n) for n in range(1, 6)])
	y = np.array([1, 2, 3, 4, 5])
	m = np.ma.masked_greater(y, 0)

	fig, ax = plt.subplots()
	ax.plot(x, m)
	assert ax.get_xlim() == (0, 1)


	@pytest.mark.parametrize('val', (-1000000, 10000000))
	def test_num2date_error(val):
	with pytest.raises(ValueError, match=f"Date ordinal {val} converts"):
	mdates.num2date(val)


	def test_num2date_roundoff():
	assert mdates.num2date(100000.0000578702) == datetime.datetime(
	2243, 10, 17, 0, 0, 4, 999980, tzinfo=datetime.timezone.utc)
	# Slightly larger, steps of 20 microseconds
	assert mdates.num2date(100000.0000578703) == datetime.datetime(
	2243, 10, 17, 0, 0, 5, tzinfo=datetime.timezone.utc)


	def test_DateFormatter_settz():
	time = mdates.date2num(datetime.datetime(2011, 1, 1, 0, 0,
	tzinfo=mdates.UTC))
	formatter = mdates.DateFormatter('%Y-%b-%d %H:%M')
	# Default UTC
	assert formatter(time) == '2011-Jan-01 00:00'

	# Set tzinfo
	formatter.set_tzinfo('Pacific/Kiritimati')
	assert formatter(time) == '2011-Jan-01 14:00'