from datetime import datetime import numpy as np import pytest import pandas.util._test_decorators as td import pandas as pd from pandas import ( DataFrame, DatetimeIndex, Index, Int64Index, Series, bdate_range, date_range, ) import pandas._testing as tm from pandas.tseries.offsets import BMonthEnd, Minute, MonthEnd START, END = datetime(2009, 1, 1), datetime(2010, 1, 1) class TestDatetimeIndexSetOps: tz = [ None, "UTC", "Asia/Tokyo", "US/Eastern", "dateutil/Asia/Singapore", "dateutil/US/Pacific", ] # TODO: moved from test_datetimelike; dedup with version below def test_union2(self, sort): everything = tm.makeDateIndex(10) first = everything[:5] second = everything[5:] union = first.union(second, sort=sort) tm.assert_index_equal(union, everything) @pytest.mark.parametrize("box", [np.array, Series, list]) def test_union3(self, sort, box): everything = tm.makeDateIndex(10) first = everything[:5] second = everything[5:] # GH 10149 expected = ( first.astype("O").union(pd.Index(second.values, dtype="O")).astype("O") ) case = box(second.values) result = first.union(case, sort=sort) tm.assert_index_equal(result, expected) @pytest.mark.parametrize("tz", tz) def test_union(self, tz, sort): rng1 = pd.date_range("1/1/2000", freq="D", periods=5, tz=tz) other1 = pd.date_range("1/6/2000", freq="D", periods=5, tz=tz) expected1 = pd.date_range("1/1/2000", freq="D", periods=10, tz=tz) expected1_notsorted = pd.DatetimeIndex(list(other1) + list(rng1)) rng2 = pd.date_range("1/1/2000", freq="D", periods=5, tz=tz) other2 = pd.date_range("1/4/2000", freq="D", periods=5, tz=tz) expected2 = pd.date_range("1/1/2000", freq="D", periods=8, tz=tz) expected2_notsorted = pd.DatetimeIndex(list(other2) + list(rng2[:3])) rng3 = pd.date_range("1/1/2000", freq="D", periods=5, tz=tz) other3 = pd.DatetimeIndex([], tz=tz) expected3 = pd.date_range("1/1/2000", freq="D", periods=5, tz=tz) expected3_notsorted = rng3 for rng, other, exp, exp_notsorted in [ (rng1, other1, expected1, expected1_notsorted), (rng2, other2, expected2, expected2_notsorted), (rng3, other3, expected3, expected3_notsorted), ]: result_union = rng.union(other, sort=sort) tm.assert_index_equal(result_union, exp) result_union = other.union(rng, sort=sort) if sort is None: tm.assert_index_equal(result_union, exp) else: tm.assert_index_equal(result_union, exp_notsorted) def test_union_coverage(self, sort): idx = DatetimeIndex(["2000-01-03", "2000-01-01", "2000-01-02"]) ordered = DatetimeIndex(idx.sort_values(), freq="infer") result = ordered.union(idx, sort=sort) tm.assert_index_equal(result, ordered) result = ordered[:0].union(ordered, sort=sort) tm.assert_index_equal(result, ordered) assert result.freq == ordered.freq def test_union_bug_1730(self, sort): rng_a = date_range("1/1/2012", periods=4, freq="3H") rng_b = date_range("1/1/2012", periods=4, freq="4H") result = rng_a.union(rng_b, sort=sort) exp = list(rng_a) + list(rng_b[1:]) if sort is None: exp = DatetimeIndex(sorted(exp)) else: exp = DatetimeIndex(exp) tm.assert_index_equal(result, exp) def test_union_bug_1745(self, sort): left = DatetimeIndex(["2012-05-11 15:19:49.695000"]) right = DatetimeIndex( [ "2012-05-29 13:04:21.322000", "2012-05-11 15:27:24.873000", "2012-05-11 15:31:05.350000", ] ) result = left.union(right, sort=sort) exp = DatetimeIndex( [ "2012-05-11 15:19:49.695000", "2012-05-29 13:04:21.322000", "2012-05-11 15:27:24.873000", "2012-05-11 15:31:05.350000", ] ) if sort is None: exp = exp.sort_values() tm.assert_index_equal(result, exp) def test_union_bug_4564(self, sort): from pandas import DateOffset left = date_range("2013-01-01", "2013-02-01") right = left + DateOffset(minutes=15) result = left.union(right, sort=sort) exp = list(left) + list(right) if sort is None: exp = DatetimeIndex(sorted(exp)) else: exp = DatetimeIndex(exp) tm.assert_index_equal(result, exp) def test_union_freq_both_none(self, sort): # GH11086 expected = bdate_range("20150101", periods=10) expected._data.freq = None result = expected.union(expected, sort=sort) tm.assert_index_equal(result, expected) assert result.freq is None def test_union_freq_infer(self): # When taking the union of two DatetimeIndexes, we infer # a freq even if the arguments don't have freq. This matches # TimedeltaIndex behavior. dti = pd.date_range("2016-01-01", periods=5) left = dti[[0, 1, 3, 4]] right = dti[[2, 3, 1]] assert left.freq is None assert right.freq is None result = left.union(right) tm.assert_index_equal(result, dti) assert result.freq == "D" def test_union_dataframe_index(self): rng1 = date_range("1/1/1999", "1/1/2012", freq="MS") s1 = Series(np.random.randn(len(rng1)), rng1) rng2 = date_range("1/1/1980", "12/1/2001", freq="MS") s2 = Series(np.random.randn(len(rng2)), rng2) df = DataFrame({"s1": s1, "s2": s2}) exp = pd.date_range("1/1/1980", "1/1/2012", freq="MS") tm.assert_index_equal(df.index, exp) def test_union_with_DatetimeIndex(self, sort): i1 = Int64Index(np.arange(0, 20, 2)) i2 = date_range(start="2012-01-03 00:00:00", periods=10, freq="D") # Works i1.union(i2, sort=sort) # Fails with "AttributeError: can't set attribute" i2.union(i1, sort=sort) # TODO: moved from test_datetimelike; de-duplicate with version below def test_intersection2(self): first = tm.makeDateIndex(10) second = first[5:] intersect = first.intersection(second) assert tm.equalContents(intersect, second) # GH 10149 cases = [klass(second.values) for klass in [np.array, Series, list]] for case in cases: result = first.intersection(case) assert tm.equalContents(result, second) third = Index(["a", "b", "c"]) result = first.intersection(third) expected = pd.Index([], dtype=object) tm.assert_index_equal(result, expected) @pytest.mark.parametrize( "tz", [None, "Asia/Tokyo", "US/Eastern", "dateutil/US/Pacific"] ) def test_intersection(self, tz, sort): # GH 4690 (with tz) base = date_range("6/1/2000", "6/30/2000", freq="D", name="idx") # if target has the same name, it is preserved rng2 = date_range("5/15/2000", "6/20/2000", freq="D", name="idx") expected2 = date_range("6/1/2000", "6/20/2000", freq="D", name="idx") # if target name is different, it will be reset rng3 = date_range("5/15/2000", "6/20/2000", freq="D", name="other") expected3 = date_range("6/1/2000", "6/20/2000", freq="D", name=None) rng4 = date_range("7/1/2000", "7/31/2000", freq="D", name="idx") expected4 = DatetimeIndex([], freq="D", name="idx") for (rng, expected) in [ (rng2, expected2), (rng3, expected3), (rng4, expected4), ]: result = base.intersection(rng) tm.assert_index_equal(result, expected) assert result.freq == expected.freq # non-monotonic base = DatetimeIndex( ["2011-01-05", "2011-01-04", "2011-01-02", "2011-01-03"], tz=tz, name="idx" ) rng2 = DatetimeIndex( ["2011-01-04", "2011-01-02", "2011-02-02", "2011-02-03"], tz=tz, name="idx" ) expected2 = DatetimeIndex(["2011-01-04", "2011-01-02"], tz=tz, name="idx") rng3 = DatetimeIndex( ["2011-01-04", "2011-01-02", "2011-02-02", "2011-02-03"], tz=tz, name="other", ) expected3 = DatetimeIndex(["2011-01-04", "2011-01-02"], tz=tz, name=None) # GH 7880 rng4 = date_range("7/1/2000", "7/31/2000", freq="D", tz=tz, name="idx") expected4 = DatetimeIndex([], tz=tz, name="idx") assert expected4.freq is None for (rng, expected) in [ (rng2, expected2), (rng3, expected3), (rng4, expected4), ]: result = base.intersection(rng, sort=sort) if sort is None: expected = expected.sort_values() tm.assert_index_equal(result, expected) assert result.freq == expected.freq # parametrize over both anchored and non-anchored freqs, as they # have different code paths @pytest.mark.parametrize("freq", ["T", "B"]) def test_intersection_empty(self, tz_aware_fixture, freq): # empty same freq GH2129 tz = tz_aware_fixture rng = date_range("6/1/2000", "6/15/2000", freq=freq, tz=tz) result = rng[0:0].intersection(rng) assert len(result) == 0 assert result.freq == rng.freq result = rng.intersection(rng[0:0]) assert len(result) == 0 assert result.freq == rng.freq # no overlap GH#33604 check_freq = freq != "T" # We don't preserve freq on non-anchored offsets result = rng[:3].intersection(rng[-3:]) tm.assert_index_equal(result, rng[:0]) if check_freq: # We don't preserve freq on non-anchored offsets assert result.freq == rng.freq # swapped left and right result = rng[-3:].intersection(rng[:3]) tm.assert_index_equal(result, rng[:0]) if check_freq: # We don't preserve freq on non-anchored offsets assert result.freq == rng.freq def test_intersection_bug_1708(self): from pandas import DateOffset index_1 = date_range("1/1/2012", periods=4, freq="12H") index_2 = index_1 + DateOffset(hours=1) result = index_1 & index_2 assert len(result) == 0 @pytest.mark.parametrize("tz", tz) def test_difference(self, tz, sort): rng_dates = ["1/2/2000", "1/3/2000", "1/1/2000", "1/4/2000", "1/5/2000"] rng1 = pd.DatetimeIndex(rng_dates, tz=tz) other1 = pd.date_range("1/6/2000", freq="D", periods=5, tz=tz) expected1 = pd.DatetimeIndex(rng_dates, tz=tz) rng2 = pd.DatetimeIndex(rng_dates, tz=tz) other2 = pd.date_range("1/4/2000", freq="D", periods=5, tz=tz) expected2 = pd.DatetimeIndex(rng_dates[:3], tz=tz) rng3 = pd.DatetimeIndex(rng_dates, tz=tz) other3 = pd.DatetimeIndex([], tz=tz) expected3 = pd.DatetimeIndex(rng_dates, tz=tz) for rng, other, expected in [ (rng1, other1, expected1), (rng2, other2, expected2), (rng3, other3, expected3), ]: result_diff = rng.difference(other, sort) if sort is None: expected = expected.sort_values() tm.assert_index_equal(result_diff, expected) def test_difference_freq(self, sort): # GH14323: difference of DatetimeIndex should not preserve frequency index = date_range("20160920", "20160925", freq="D") other = date_range("20160921", "20160924", freq="D") expected = DatetimeIndex(["20160920", "20160925"], freq=None) idx_diff = index.difference(other, sort) tm.assert_index_equal(idx_diff, expected) tm.assert_attr_equal("freq", idx_diff, expected) other = date_range("20160922", "20160925", freq="D") idx_diff = index.difference(other, sort) expected = DatetimeIndex(["20160920", "20160921"], freq=None) tm.assert_index_equal(idx_diff, expected) tm.assert_attr_equal("freq", idx_diff, expected) def test_datetimeindex_diff(self, sort): dti1 = date_range(freq="Q-JAN", start=datetime(1997, 12, 31), periods=100) dti2 = date_range(freq="Q-JAN", start=datetime(1997, 12, 31), periods=98) assert len(dti1.difference(dti2, sort)) == 2 @pytest.mark.parametrize("tz", [None, "Asia/Tokyo", "US/Eastern"]) def test_setops_preserve_freq(self, tz): rng = date_range("1/1/2000", "1/1/2002", name="idx", tz=tz) result = rng[:50].union(rng[50:100]) assert result.name == rng.name assert result.freq == rng.freq assert result.tz == rng.tz result = rng[:50].union(rng[30:100]) assert result.name == rng.name assert result.freq == rng.freq assert result.tz == rng.tz result = rng[:50].union(rng[60:100]) assert result.name == rng.name assert result.freq is None assert result.tz == rng.tz result = rng[:50].intersection(rng[25:75]) assert result.name == rng.name assert result.freqstr == "D" assert result.tz == rng.tz nofreq = DatetimeIndex(list(rng[25:75]), name="other") result = rng[:50].union(nofreq) assert result.name is None assert result.freq == rng.freq assert result.tz == rng.tz result = rng[:50].intersection(nofreq) assert result.name is None assert result.freq == rng.freq assert result.tz == rng.tz class TestBusinessDatetimeIndex: def setup_method(self, method): self.rng = bdate_range(START, END) def test_union(self, sort): # overlapping left = self.rng[:10] right = self.rng[5:10] the_union = left.union(right, sort=sort) assert isinstance(the_union, DatetimeIndex) # non-overlapping, gap in middle left = self.rng[:5] right = self.rng[10:] the_union = left.union(right, sort=sort) assert isinstance(the_union, Index) # non-overlapping, no gap left = self.rng[:5] right = self.rng[5:10] the_union = left.union(right, sort=sort) assert isinstance(the_union, DatetimeIndex) # order does not matter if sort is None: tm.assert_index_equal(right.union(left, sort=sort), the_union) else: expected = pd.DatetimeIndex(list(right) + list(left)) tm.assert_index_equal(right.union(left, sort=sort), expected) # overlapping, but different offset rng = date_range(START, END, freq=BMonthEnd()) the_union = self.rng.union(rng, sort=sort) assert isinstance(the_union, DatetimeIndex) def test_union_not_cacheable(self, sort): rng = date_range("1/1/2000", periods=50, freq=Minute()) rng1 = rng[10:] rng2 = rng[:25] the_union = rng1.union(rng2, sort=sort) if sort is None: tm.assert_index_equal(the_union, rng) else: expected = pd.DatetimeIndex(list(rng[10:]) + list(rng[:10])) tm.assert_index_equal(the_union, expected) rng1 = rng[10:] rng2 = rng[15:35] the_union = rng1.union(rng2, sort=sort) expected = rng[10:] tm.assert_index_equal(the_union, expected) def test_intersection(self): rng = date_range("1/1/2000", periods=50, freq=Minute()) rng1 = rng[10:] rng2 = rng[:25] the_int = rng1.intersection(rng2) expected = rng[10:25] tm.assert_index_equal(the_int, expected) assert isinstance(the_int, DatetimeIndex) assert the_int.freq == rng.freq the_int = rng1.intersection(rng2.view(DatetimeIndex)) tm.assert_index_equal(the_int, expected) # non-overlapping the_int = rng[:10].intersection(rng[10:]) expected = DatetimeIndex([]) tm.assert_index_equal(the_int, expected) def test_intersection_bug(self): # GH #771 a = bdate_range("11/30/2011", "12/31/2011") b = bdate_range("12/10/2011", "12/20/2011") result = a.intersection(b) tm.assert_index_equal(result, b) assert result.freq == b.freq def test_intersection_list(self): # GH#35876 values = [pd.Timestamp("2020-01-01"), pd.Timestamp("2020-02-01")] idx = pd.DatetimeIndex(values, name="a") res = idx.intersection(values) tm.assert_index_equal(res, idx) def test_month_range_union_tz_pytz(self, sort): from pytz import timezone tz = timezone("US/Eastern") early_start = datetime(2011, 1, 1) early_end = datetime(2011, 3, 1) late_start = datetime(2011, 3, 1) late_end = datetime(2011, 5, 1) early_dr = date_range(start=early_start, end=early_end, tz=tz, freq=MonthEnd()) late_dr = date_range(start=late_start, end=late_end, tz=tz, freq=MonthEnd()) early_dr.union(late_dr, sort=sort) @td.skip_if_windows_python_3 def test_month_range_union_tz_dateutil(self, sort): from pandas._libs.tslibs.timezones import dateutil_gettz tz = dateutil_gettz("US/Eastern") early_start = datetime(2011, 1, 1) early_end = datetime(2011, 3, 1) late_start = datetime(2011, 3, 1) late_end = datetime(2011, 5, 1) early_dr = date_range(start=early_start, end=early_end, tz=tz, freq=MonthEnd()) late_dr = date_range(start=late_start, end=late_end, tz=tz, freq=MonthEnd()) early_dr.union(late_dr, sort=sort) class TestCustomDatetimeIndex: def setup_method(self, method): self.rng = bdate_range(START, END, freq="C") def test_union(self, sort): # overlapping left = self.rng[:10] right = self.rng[5:10] the_union = left.union(right, sort=sort) assert isinstance(the_union, DatetimeIndex) # non-overlapping, gap in middle left = self.rng[:5] right = self.rng[10:] the_union = left.union(right, sort) assert isinstance(the_union, Index) # non-overlapping, no gap left = self.rng[:5] right = self.rng[5:10] the_union = left.union(right, sort=sort) assert isinstance(the_union, DatetimeIndex) # order does not matter if sort is None: tm.assert_index_equal(right.union(left, sort=sort), the_union) # overlapping, but different offset rng = date_range(START, END, freq=BMonthEnd()) the_union = self.rng.union(rng, sort=sort) assert isinstance(the_union, DatetimeIndex) def test_intersection_bug(self): # GH #771 a = bdate_range("11/30/2011", "12/31/2011", freq="C") b = bdate_range("12/10/2011", "12/20/2011", freq="C") result = a.intersection(b) tm.assert_index_equal(result, b) assert result.freq == b.freq