""" Tests for helper functions in the cython tslibs.offsets """ from datetime import datetime import pytest import pandas._libs.tslibs.offsets as liboffsets from pandas._libs.tslibs.offsets import roll_qtrday from pandas import Timestamp @pytest.fixture(params=["start", "end", "business_start", "business_end"]) def day_opt(request): return request.param @pytest.mark.parametrize( "dt,exp_week_day,exp_last_day", [ (datetime(2017, 11, 30), 3, 30), # Business day. (datetime(1993, 10, 31), 6, 29), # Non-business day. ], ) def test_get_last_bday(dt, exp_week_day, exp_last_day): assert dt.weekday() == exp_week_day assert liboffsets.get_lastbday(dt.year, dt.month) == exp_last_day @pytest.mark.parametrize( "dt,exp_week_day,exp_first_day", [ (datetime(2017, 4, 1), 5, 3), # Non-weekday. (datetime(1993, 10, 1), 4, 1), # Business day. ], ) def test_get_first_bday(dt, exp_week_day, exp_first_day): assert dt.weekday() == exp_week_day assert liboffsets.get_firstbday(dt.year, dt.month) == exp_first_day @pytest.mark.parametrize( "months,day_opt,expected", [ (0, 15, datetime(2017, 11, 15)), (0, None, datetime(2017, 11, 30)), (1, "start", datetime(2017, 12, 1)), (-145, "end", datetime(2005, 10, 31)), (0, "business_end", datetime(2017, 11, 30)), (0, "business_start", datetime(2017, 11, 1)), ], ) def test_shift_month_dt(months, day_opt, expected): dt = datetime(2017, 11, 30) assert liboffsets.shift_month(dt, months, day_opt=day_opt) == expected @pytest.mark.parametrize( "months,day_opt,expected", [ (1, "start", Timestamp("1929-06-01")), (-3, "end", Timestamp("1929-02-28")), (25, None, Timestamp("1931-06-5")), (-1, 31, Timestamp("1929-04-30")), ], ) def test_shift_month_ts(months, day_opt, expected): ts = Timestamp("1929-05-05") assert liboffsets.shift_month(ts, months, day_opt=day_opt) == expected def test_shift_month_error(): dt = datetime(2017, 11, 15) day_opt = "this should raise" with pytest.raises(ValueError, match=day_opt): liboffsets.shift_month(dt, 3, day_opt=day_opt) @pytest.mark.parametrize( "other,expected", [ # Before March 1. (datetime(2017, 2, 10), {2: 1, -7: -7, 0: 0}), # After March 1. (Timestamp("2014-03-15", tz="US/Eastern"), {2: 2, -7: -6, 0: 1}), ], ) @pytest.mark.parametrize("n", [2, -7, 0]) def test_roll_yearday(other, expected, n): month = 3 day_opt = "start" # `other` will be compared to March 1. assert liboffsets.roll_yearday(other, n, month, day_opt) == expected[n] @pytest.mark.parametrize( "other,expected", [ # Before June 30. (datetime(1999, 6, 29), {5: 4, -7: -7, 0: 0}), # After June 30. (Timestamp(2072, 8, 24, 6, 17, 18), {5: 5, -7: -6, 0: 1}), ], ) @pytest.mark.parametrize("n", [5, -7, 0]) def test_roll_yearday2(other, expected, n): month = 6 day_opt = "end" # `other` will be compared to June 30. assert liboffsets.roll_yearday(other, n, month, day_opt) == expected[n] def test_get_day_of_month_error(): # get_day_of_month is not directly exposed. # We test it via roll_yearday. dt = datetime(2017, 11, 15) day_opt = "foo" with pytest.raises(ValueError, match=day_opt): # To hit the raising case we need month == dt.month and n > 0. liboffsets.roll_yearday(dt, n=3, month=11, day_opt=day_opt) @pytest.mark.parametrize( "month", [3, 5], # (other.month % 3) < (month % 3) # (other.month % 3) > (month % 3) ) @pytest.mark.parametrize("n", [4, -3]) def test_roll_qtr_day_not_mod_unequal(day_opt, month, n): expected = {3: {-3: -2, 4: 4}, 5: {-3: -3, 4: 3}} other = Timestamp(2072, 10, 1, 6, 17, 18) # Saturday. assert roll_qtrday(other, n, month, day_opt, modby=3) == expected[month][n] @pytest.mark.parametrize( "other,month,exp_dict", [ # Monday. (datetime(1999, 5, 31), 2, {-1: {"start": 0, "business_start": 0}}), # Saturday. ( Timestamp(2072, 10, 1, 6, 17, 18), 4, {2: {"end": 1, "business_end": 1, "business_start": 1}}, ), # First business day. ( Timestamp(2072, 10, 3, 6, 17, 18), 4, {2: {"end": 1, "business_end": 1}, -1: {"start": 0}}, ), ], ) @pytest.mark.parametrize("n", [2, -1]) def test_roll_qtr_day_mod_equal(other, month, exp_dict, n, day_opt): # All cases have (other.month % 3) == (month % 3). expected = exp_dict.get(n, {}).get(day_opt, n) assert roll_qtrday(other, n, month, day_opt, modby=3) == expected @pytest.mark.parametrize( "n,expected", [(42, {29: 42, 1: 42, 31: 41}), (-4, {29: -4, 1: -3, 31: -4})] ) @pytest.mark.parametrize("compare", [29, 1, 31]) def test_roll_convention(n, expected, compare): assert liboffsets.roll_convention(29, n, compare) == expected[compare]