import re import pytest from pandas._libs.tslibs import Timedelta, offsets, to_offset @pytest.mark.parametrize( "freq_input,expected", [ (to_offset("10us"), offsets.Micro(10)), (offsets.Hour(), offsets.Hour()), ("2h30min", offsets.Minute(150)), ("2h 30min", offsets.Minute(150)), ("2h30min15s", offsets.Second(150 * 60 + 15)), ("2h 60min", offsets.Hour(3)), ("2h 20.5min", offsets.Second(8430)), ("1.5min", offsets.Second(90)), ("0.5S", offsets.Milli(500)), ("15l500u", offsets.Micro(15500)), ("10s75L", offsets.Milli(10075)), ("1s0.25ms", offsets.Micro(1000250)), ("1s0.25L", offsets.Micro(1000250)), ("2800N", offsets.Nano(2800)), ("2SM", offsets.SemiMonthEnd(2)), ("2SM-16", offsets.SemiMonthEnd(2, day_of_month=16)), ("2SMS-14", offsets.SemiMonthBegin(2, day_of_month=14)), ("2SMS-15", offsets.SemiMonthBegin(2)), ], ) def test_to_offset(freq_input, expected): result = to_offset(freq_input) assert result == expected @pytest.mark.parametrize( "freqstr,expected", [("-1S", -1), ("-2SM", -2), ("-1SMS", -1), ("-5min10s", -310)] ) def test_to_offset_negative(freqstr, expected): result = to_offset(freqstr) assert result.n == expected @pytest.mark.parametrize( "freqstr", [ "2h20m", "U1", "-U", "3U1", "-2-3U", "-2D:3H", "1.5.0S", "2SMS-15-15", "2SMS-15D", "100foo", # Invalid leading +/- signs. "+-1d", "-+1h", "+1", "-7", "+d", "-m", # Invalid shortcut anchors. "SM-0", "SM-28", "SM-29", "SM-FOO", "BSM", "SM--1", "SMS-1", "SMS-28", "SMS-30", "SMS-BAR", "SMS-BYR", "BSMS", "SMS--2", ], ) def test_to_offset_invalid(freqstr): # see gh-13930 # We escape string because some of our # inputs contain regex special characters. msg = re.escape(f"Invalid frequency: {freqstr}") with pytest.raises(ValueError, match=msg): to_offset(freqstr) def test_to_offset_no_evaluate(): msg = str(("", "")) with pytest.raises(TypeError, match=msg): to_offset(("", "")) def test_to_offset_tuple_unsupported(): with pytest.raises(TypeError, match="pass as a string instead"): to_offset((5, "T")) @pytest.mark.parametrize( "freqstr,expected", [ ("2D 3H", offsets.Hour(51)), ("2 D3 H", offsets.Hour(51)), ("2 D 3 H", offsets.Hour(51)), (" 2 D 3 H ", offsets.Hour(51)), (" H ", offsets.Hour()), (" 3 H ", offsets.Hour(3)), ], ) def test_to_offset_whitespace(freqstr, expected): result = to_offset(freqstr) assert result == expected @pytest.mark.parametrize( "freqstr,expected", [("00H 00T 01S", 1), ("-00H 03T 14S", -194)] ) def test_to_offset_leading_zero(freqstr, expected): result = to_offset(freqstr) assert result.n == expected @pytest.mark.parametrize("freqstr,expected", [("+1d", 1), ("+2h30min", 150)]) def test_to_offset_leading_plus(freqstr, expected): result = to_offset(freqstr) assert result.n == expected @pytest.mark.parametrize( "kwargs,expected", [ ({"days": 1, "seconds": 1}, offsets.Second(86401)), ({"days": -1, "seconds": 1}, offsets.Second(-86399)), ({"hours": 1, "minutes": 10}, offsets.Minute(70)), ({"hours": 1, "minutes": -10}, offsets.Minute(50)), ({"weeks": 1}, offsets.Day(7)), ({"hours": 1}, offsets.Hour(1)), ({"hours": 1}, to_offset("60min")), ({"microseconds": 1}, offsets.Micro(1)), ({"microseconds": 0}, offsets.Nano(0)), ], ) def test_to_offset_pd_timedelta(kwargs, expected): # see gh-9064 td = Timedelta(**kwargs) result = to_offset(td) assert result == expected @pytest.mark.parametrize( "shortcut,expected", [ ("W", offsets.Week(weekday=6)), ("W-SUN", offsets.Week(weekday=6)), ("Q", offsets.QuarterEnd(startingMonth=12)), ("Q-DEC", offsets.QuarterEnd(startingMonth=12)), ("Q-MAY", offsets.QuarterEnd(startingMonth=5)), ("SM", offsets.SemiMonthEnd(day_of_month=15)), ("SM-15", offsets.SemiMonthEnd(day_of_month=15)), ("SM-1", offsets.SemiMonthEnd(day_of_month=1)), ("SM-27", offsets.SemiMonthEnd(day_of_month=27)), ("SMS-2", offsets.SemiMonthBegin(day_of_month=2)), ("SMS-27", offsets.SemiMonthBegin(day_of_month=27)), ], ) def test_anchored_shortcuts(shortcut, expected): result = to_offset(shortcut) assert result == expected