from datetime import date, datetime import subprocess import sys import numpy as np import pytest import pandas._config.config as cf from pandas.compat.numpy import np_datetime64_compat import pandas.util._test_decorators as td from pandas import Index, Period, Series, Timestamp, date_range import pandas._testing as tm from pandas.plotting import ( deregister_matplotlib_converters, register_matplotlib_converters, ) from pandas.tseries.offsets import Day, Micro, Milli, Second try: from pandas.plotting._matplotlib import converter except ImportError: # try / except, rather than skip, to avoid internal refactoring # causing an improper skip pass pytest.importorskip("matplotlib.pyplot") def test_registry_mpl_resets(): # Check that Matplotlib converters are properly reset (see issue #27481) code = ( "import matplotlib.units as units; " "import matplotlib.dates as mdates; " "n_conv = len(units.registry); " "import pandas as pd; " "pd.plotting.register_matplotlib_converters(); " "pd.plotting.deregister_matplotlib_converters(); " "assert len(units.registry) == n_conv" ) call = [sys.executable, "-c", code] subprocess.check_output(call) def test_timtetonum_accepts_unicode(): assert converter.time2num("00:01") == converter.time2num("00:01") class TestRegistration: def test_register_by_default(self): # Run in subprocess to ensure a clean state code = ( "'import matplotlib.units; " "import pandas as pd; " "units = dict(matplotlib.units.registry); " "assert pd.Timestamp in units)'" ) call = [sys.executable, "-c", code] assert subprocess.check_call(call) == 0 @td.skip_if_no("matplotlib", min_version="3.1.3") def test_registering_no_warning(self): plt = pytest.importorskip("matplotlib.pyplot") s = Series(range(12), index=date_range("2017", periods=12)) _, ax = plt.subplots() # Set to the "warn" state, in case this isn't the first test run register_matplotlib_converters() ax.plot(s.index, s.values) def test_pandas_plots_register(self): pytest.importorskip("matplotlib.pyplot") s = Series(range(12), index=date_range("2017", periods=12)) # Set to the "warn" state, in case this isn't the first test run with tm.assert_produces_warning(None) as w: s.plot() assert len(w) == 0 def test_matplotlib_formatters(self): units = pytest.importorskip("matplotlib.units") # Can't make any assertion about the start state. # We we check that toggling converters off removes it, and toggling it # on restores it. with cf.option_context("plotting.matplotlib.register_converters", True): with cf.option_context("plotting.matplotlib.register_converters", False): assert Timestamp not in units.registry assert Timestamp in units.registry @td.skip_if_no("matplotlib", min_version="3.1.3") def test_option_no_warning(self): pytest.importorskip("matplotlib.pyplot") ctx = cf.option_context("plotting.matplotlib.register_converters", False) plt = pytest.importorskip("matplotlib.pyplot") s = Series(range(12), index=date_range("2017", periods=12)) _, ax = plt.subplots() # Test without registering first, no warning with ctx: ax.plot(s.index, s.values) # Now test with registering register_matplotlib_converters() with ctx: ax.plot(s.index, s.values) def test_registry_resets(self): units = pytest.importorskip("matplotlib.units") dates = pytest.importorskip("matplotlib.dates") # make a copy, to reset to original = dict(units.registry) try: # get to a known state units.registry.clear() date_converter = dates.DateConverter() units.registry[datetime] = date_converter units.registry[date] = date_converter register_matplotlib_converters() assert units.registry[date] is not date_converter deregister_matplotlib_converters() assert units.registry[date] is date_converter finally: # restore original stater units.registry.clear() for k, v in original.items(): units.registry[k] = v class TestDateTimeConverter: def setup_method(self, method): self.dtc = converter.DatetimeConverter() self.tc = converter.TimeFormatter(None) def test_convert_accepts_unicode(self): r1 = self.dtc.convert("12:22", None, None) r2 = self.dtc.convert("12:22", None, None) assert r1 == r2, "DatetimeConverter.convert should accept unicode" def test_conversion(self): rs = self.dtc.convert(["2012-1-1"], None, None)[0] xp = datetime(2012, 1, 1).toordinal() assert rs == xp rs = self.dtc.convert("2012-1-1", None, None) assert rs == xp rs = self.dtc.convert(date(2012, 1, 1), None, None) assert rs == xp rs = self.dtc.convert(datetime(2012, 1, 1).toordinal(), None, None) assert rs == xp rs = self.dtc.convert("2012-1-1", None, None) assert rs == xp rs = self.dtc.convert(Timestamp("2012-1-1"), None, None) assert rs == xp # also testing datetime64 dtype (GH8614) rs = self.dtc.convert(np_datetime64_compat("2012-01-01"), None, None) assert rs == xp rs = self.dtc.convert( np_datetime64_compat("2012-01-01 00:00:00+0000"), None, None ) assert rs == xp rs = self.dtc.convert( np.array( [ np_datetime64_compat("2012-01-01 00:00:00+0000"), np_datetime64_compat("2012-01-02 00:00:00+0000"), ] ), None, None, ) assert rs[0] == xp # we have a tz-aware date (constructed to that when we turn to utc it # is the same as our sample) ts = Timestamp("2012-01-01").tz_localize("UTC").tz_convert("US/Eastern") rs = self.dtc.convert(ts, None, None) assert rs == xp rs = self.dtc.convert(ts.to_pydatetime(), None, None) assert rs == xp rs = self.dtc.convert(Index([ts - Day(1), ts]), None, None) assert rs[1] == xp rs = self.dtc.convert(Index([ts - Day(1), ts]).to_pydatetime(), None, None) assert rs[1] == xp def test_conversion_float(self): decimals = 9 rs = self.dtc.convert(Timestamp("2012-1-1 01:02:03", tz="UTC"), None, None) xp = converter.dates.date2num(Timestamp("2012-1-1 01:02:03", tz="UTC")) tm.assert_almost_equal(rs, xp, decimals) rs = self.dtc.convert( Timestamp("2012-1-1 09:02:03", tz="Asia/Hong_Kong"), None, None ) tm.assert_almost_equal(rs, xp, decimals) rs = self.dtc.convert(datetime(2012, 1, 1, 1, 2, 3), None, None) tm.assert_almost_equal(rs, xp, decimals) def test_conversion_outofbounds_datetime(self): # 2579 values = [date(1677, 1, 1), date(1677, 1, 2)] rs = self.dtc.convert(values, None, None) xp = converter.dates.date2num(values) tm.assert_numpy_array_equal(rs, xp) rs = self.dtc.convert(values[0], None, None) xp = converter.dates.date2num(values[0]) assert rs == xp values = [datetime(1677, 1, 1, 12), datetime(1677, 1, 2, 12)] rs = self.dtc.convert(values, None, None) xp = converter.dates.date2num(values) tm.assert_numpy_array_equal(rs, xp) rs = self.dtc.convert(values[0], None, None) xp = converter.dates.date2num(values[0]) assert rs == xp @pytest.mark.parametrize( "time,format_expected", [ (0, "00:00"), # time2num(datetime.time.min) (86399.999999, "23:59:59.999999"), # time2num(datetime.time.max) (90000, "01:00"), (3723, "01:02:03"), (39723.2, "11:02:03.200"), ], ) def test_time_formatter(self, time, format_expected): # issue 18478 result = self.tc(time) assert result == format_expected def test_dateindex_conversion(self): decimals = 9 for freq in ("B", "L", "S"): dateindex = tm.makeDateIndex(k=10, freq=freq) rs = self.dtc.convert(dateindex, None, None) xp = converter.dates.date2num(dateindex._mpl_repr()) tm.assert_almost_equal(rs, xp, decimals) def test_resolution(self): def _assert_less(ts1, ts2): val1 = self.dtc.convert(ts1, None, None) val2 = self.dtc.convert(ts2, None, None) if not val1 < val2: raise AssertionError(f"{val1} is not less than {val2}.") # Matplotlib's time representation using floats cannot distinguish # intervals smaller than ~10 microsecond in the common range of years. ts = Timestamp("2012-1-1") _assert_less(ts, ts + Second()) _assert_less(ts, ts + Milli()) _assert_less(ts, ts + Micro(50)) def test_convert_nested(self): inner = [Timestamp("2017-01-01"), Timestamp("2017-01-02")] data = [inner, inner] result = self.dtc.convert(data, None, None) expected = [self.dtc.convert(x, None, None) for x in data] assert (np.array(result) == expected).all() class TestPeriodConverter: def setup_method(self, method): self.pc = converter.PeriodConverter() class Axis: pass self.axis = Axis() self.axis.freq = "D" def test_convert_accepts_unicode(self): r1 = self.pc.convert("2012-1-1", None, self.axis) r2 = self.pc.convert("2012-1-1", None, self.axis) assert r1 == r2 def test_conversion(self): rs = self.pc.convert(["2012-1-1"], None, self.axis)[0] xp = Period("2012-1-1").ordinal assert rs == xp rs = self.pc.convert("2012-1-1", None, self.axis) assert rs == xp rs = self.pc.convert([date(2012, 1, 1)], None, self.axis)[0] assert rs == xp rs = self.pc.convert(date(2012, 1, 1), None, self.axis) assert rs == xp rs = self.pc.convert([Timestamp("2012-1-1")], None, self.axis)[0] assert rs == xp rs = self.pc.convert(Timestamp("2012-1-1"), None, self.axis) assert rs == xp rs = self.pc.convert(np_datetime64_compat("2012-01-01"), None, self.axis) assert rs == xp rs = self.pc.convert( np_datetime64_compat("2012-01-01 00:00:00+0000"), None, self.axis ) assert rs == xp rs = self.pc.convert( np.array( [ np_datetime64_compat("2012-01-01 00:00:00+0000"), np_datetime64_compat("2012-01-02 00:00:00+0000"), ] ), None, self.axis, ) assert rs[0] == xp def test_integer_passthrough(self): # GH9012 rs = self.pc.convert([0, 1], None, self.axis) xp = [0, 1] assert rs == xp def test_convert_nested(self): data = ["2012-1-1", "2012-1-2"] r1 = self.pc.convert([data, data], None, self.axis) r2 = [self.pc.convert(data, None, self.axis) for _ in range(2)] assert r1 == r2 class TestTimeDeltaConverter: """Test timedelta converter""" @pytest.mark.parametrize( "x, decimal, format_expected", [ (0.0, 0, "00:00:00"), (3972320000000, 1, "01:06:12.3"), (713233432000000, 2, "8 days 06:07:13.43"), (32423432000000, 4, "09:00:23.4320"), ], ) def test_format_timedelta_ticks(self, x, decimal, format_expected): tdc = converter.TimeSeries_TimedeltaFormatter result = tdc.format_timedelta_ticks(x, pos=None, n_decimals=decimal) assert result == format_expected