from datetime import datetime, timedelta
import numpy as np
import pytest
from pandas._libs.tslibs import frequencies as libfrequencies, resolution
from pandas._libs.tslibs.ccalendar import MONTHS
from pandas._libs.tslibs.frequencies import (
INVALID_FREQ_ERR_MSG, FreqGroup, _period_code_map, get_freq, get_freq_code)
import pandas.compat as compat
from pandas.compat import is_platform_windows, range
from pandas import (
DatetimeIndex, Index, Series, Timedelta, Timestamp, date_range,
period_range)
from pandas.core.tools.datetimes import to_datetime
import pandas.util.testing as tm
import pandas.tseries.frequencies as frequencies
import pandas.tseries.offsets as offsets
class TestToOffset(object):
def test_to_offset_multiple(self):
freqstr = '2h30min'
freqstr2 = '2h 30min'
result = frequencies.to_offset(freqstr)
assert (result == frequencies.to_offset(freqstr2))
expected = offsets.Minute(150)
assert (result == expected)
freqstr = '2h30min15s'
result = frequencies.to_offset(freqstr)
expected = offsets.Second(150 * 60 + 15)
assert (result == expected)
freqstr = '2h 60min'
result = frequencies.to_offset(freqstr)
expected = offsets.Hour(3)
assert (result == expected)
freqstr = '2h 20.5min'
result = frequencies.to_offset(freqstr)
expected = offsets.Second(8430)
assert (result == expected)
freqstr = '1.5min'
result = frequencies.to_offset(freqstr)
expected = offsets.Second(90)
assert (result == expected)
freqstr = '0.5S'
result = frequencies.to_offset(freqstr)
expected = offsets.Milli(500)
assert (result == expected)
freqstr = '15l500u'
result = frequencies.to_offset(freqstr)
expected = offsets.Micro(15500)
assert (result == expected)
freqstr = '10s75L'
result = frequencies.to_offset(freqstr)
expected = offsets.Milli(10075)
assert (result == expected)
freqstr = '1s0.25ms'
result = frequencies.to_offset(freqstr)
expected = offsets.Micro(1000250)
assert (result == expected)
freqstr = '1s0.25L'
result = frequencies.to_offset(freqstr)
expected = offsets.Micro(1000250)
assert (result == expected)
freqstr = '2800N'
result = frequencies.to_offset(freqstr)
expected = offsets.Nano(2800)
assert (result == expected)
freqstr = '2SM'
result = frequencies.to_offset(freqstr)
expected = offsets.SemiMonthEnd(2)
assert (result == expected)
freqstr = '2SM-16'
result = frequencies.to_offset(freqstr)
expected = offsets.SemiMonthEnd(2, day_of_month=16)
assert (result == expected)
freqstr = '2SMS-14'
result = frequencies.to_offset(freqstr)
expected = offsets.SemiMonthBegin(2, day_of_month=14)
assert (result == expected)
freqstr = '2SMS-15'
result = frequencies.to_offset(freqstr)
expected = offsets.SemiMonthBegin(2)
assert (result == expected)
# malformed
with pytest.raises(ValueError, match='Invalid frequency: 2h20m'):
frequencies.to_offset('2h20m')
def test_to_offset_negative(self):
freqstr = '-1S'
result = frequencies.to_offset(freqstr)
assert (result.n == -1)
freqstr = '-5min10s'
result = frequencies.to_offset(freqstr)
assert (result.n == -310)
freqstr = '-2SM'
result = frequencies.to_offset(freqstr)
assert (result.n == -2)
freqstr = '-1SMS'
result = frequencies.to_offset(freqstr)
assert (result.n == -1)
def test_to_offset_invalid(self):
# GH 13930
with pytest.raises(ValueError, match='Invalid frequency: U1'):
frequencies.to_offset('U1')
with pytest.raises(ValueError, match='Invalid frequency: -U'):
frequencies.to_offset('-U')
with pytest.raises(ValueError, match='Invalid frequency: 3U1'):
frequencies.to_offset('3U1')
with pytest.raises(ValueError, match='Invalid frequency: -2-3U'):
frequencies.to_offset('-2-3U')
with pytest.raises(ValueError, match='Invalid frequency: -2D:3H'):
frequencies.to_offset('-2D:3H')
with pytest.raises(ValueError, match='Invalid frequency: 1.5.0S'):
frequencies.to_offset('1.5.0S')
# split offsets with spaces are valid
assert frequencies.to_offset('2D 3H') == offsets.Hour(51)
assert frequencies.to_offset('2 D3 H') == offsets.Hour(51)
assert frequencies.to_offset('2 D 3 H') == offsets.Hour(51)
assert frequencies.to_offset(' 2 D 3 H ') == offsets.Hour(51)
assert frequencies.to_offset(' H ') == offsets.Hour()
assert frequencies.to_offset(' 3 H ') == offsets.Hour(3)
# special cases
assert frequencies.to_offset('2SMS-15') == offsets.SemiMonthBegin(2)
with pytest.raises(ValueError, match='Invalid frequency: 2SMS-15-15'):
frequencies.to_offset('2SMS-15-15')
with pytest.raises(ValueError, match='Invalid frequency: 2SMS-15D'):
frequencies.to_offset('2SMS-15D')
def test_to_offset_leading_zero(self):
freqstr = '00H 00T 01S'
result = frequencies.to_offset(freqstr)
assert (result.n == 1)
freqstr = '-00H 03T 14S'
result = frequencies.to_offset(freqstr)
assert (result.n == -194)
def test_to_offset_leading_plus(self):
freqstr = '+1d'
result = frequencies.to_offset(freqstr)
assert (result.n == 1)
freqstr = '+2h30min'
result = frequencies.to_offset(freqstr)
assert (result.n == 150)
for bad_freq in ['+-1d', '-+1h', '+1', '-7', '+d', '-m']:
with pytest.raises(ValueError, match='Invalid frequency:'):
frequencies.to_offset(bad_freq)
def test_to_offset_pd_timedelta(self):
# Tests for #9064
td = Timedelta(days=1, seconds=1)
result = frequencies.to_offset(td)
expected = offsets.Second(86401)
assert (expected == result)
td = Timedelta(days=-1, seconds=1)
result = frequencies.to_offset(td)
expected = offsets.Second(-86399)
assert (expected == result)
td = Timedelta(hours=1, minutes=10)
result = frequencies.to_offset(td)
expected = offsets.Minute(70)
assert (expected == result)
td = Timedelta(hours=1, minutes=-10)
result = frequencies.to_offset(td)
expected = offsets.Minute(50)
assert (expected == result)
td = Timedelta(weeks=1)
result = frequencies.to_offset(td)
expected = offsets.Day(7)
assert (expected == result)
td1 = Timedelta(hours=1)
result1 = frequencies.to_offset(td1)
result2 = frequencies.to_offset('60min')
assert (result1 == result2)
td = Timedelta(microseconds=1)
result = frequencies.to_offset(td)
expected = offsets.Micro(1)
assert (expected == result)
td = Timedelta(microseconds=0)
pytest.raises(ValueError, lambda: frequencies.to_offset(td))
def test_anchored_shortcuts(self):
result = frequencies.to_offset('W')
expected = frequencies.to_offset('W-SUN')
assert (result == expected)
result1 = frequencies.to_offset('Q')
result2 = frequencies.to_offset('Q-DEC')
expected = offsets.QuarterEnd(startingMonth=12)
assert (result1 == expected)
assert (result2 == expected)
result1 = frequencies.to_offset('Q-MAY')
expected = offsets.QuarterEnd(startingMonth=5)
assert (result1 == expected)
result1 = frequencies.to_offset('SM')
result2 = frequencies.to_offset('SM-15')
expected = offsets.SemiMonthEnd(day_of_month=15)
assert (result1 == expected)
assert (result2 == expected)
result = frequencies.to_offset('SM-1')
expected = offsets.SemiMonthEnd(day_of_month=1)
assert (result == expected)
result = frequencies.to_offset('SM-27')
expected = offsets.SemiMonthEnd(day_of_month=27)
assert (result == expected)
result = frequencies.to_offset('SMS-2')
expected = offsets.SemiMonthBegin(day_of_month=2)
assert (result == expected)
result = frequencies.to_offset('SMS-27')
expected = offsets.SemiMonthBegin(day_of_month=27)
assert (result == expected)
# ensure invalid cases fail as expected
invalid_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']
for invalid_anchor in invalid_anchors:
with pytest.raises(ValueError, match='Invalid frequency: '):
frequencies.to_offset(invalid_anchor)
def test_ms_vs_MS():
left = frequencies.get_offset('ms')
right = frequencies.get_offset('MS')
assert left == offsets.Milli()
assert right == offsets.MonthBegin()
def test_rule_aliases():
rule = frequencies.to_offset('10us')
assert rule == offsets.Micro(10)
class TestFrequencyCode(object):
def test_freq_code(self):
assert get_freq('A') == 1000
assert get_freq('3A') == 1000
assert get_freq('-1A') == 1000
assert get_freq('Y') == 1000
assert get_freq('3Y') == 1000
assert get_freq('-1Y') == 1000
assert get_freq('W') == 4000
assert get_freq('W-MON') == 4001
assert get_freq('W-FRI') == 4005
for freqstr, code in compat.iteritems(_period_code_map):
result = get_freq(freqstr)
assert result == code
result = resolution.get_freq_group(freqstr)
assert result == code // 1000 * 1000
result = resolution.get_freq_group(code)
assert result == code // 1000 * 1000
def test_freq_group(self):
assert resolution.get_freq_group('A') == 1000
assert resolution.get_freq_group('3A') == 1000
assert resolution.get_freq_group('-1A') == 1000
assert resolution.get_freq_group('A-JAN') == 1000
assert resolution.get_freq_group('A-MAY') == 1000
assert resolution.get_freq_group('Y') == 1000
assert resolution.get_freq_group('3Y') == 1000
assert resolution.get_freq_group('-1Y') == 1000
assert resolution.get_freq_group('Y-JAN') == 1000
assert resolution.get_freq_group('Y-MAY') == 1000
assert resolution.get_freq_group(offsets.YearEnd()) == 1000
assert resolution.get_freq_group(offsets.YearEnd(month=1)) == 1000
assert resolution.get_freq_group(offsets.YearEnd(month=5)) == 1000
assert resolution.get_freq_group('W') == 4000
assert resolution.get_freq_group('W-MON') == 4000
assert resolution.get_freq_group('W-FRI') == 4000
assert resolution.get_freq_group(offsets.Week()) == 4000
assert resolution.get_freq_group(offsets.Week(weekday=1)) == 4000
assert resolution.get_freq_group(offsets.Week(weekday=5)) == 4000
def test_get_to_timestamp_base(self):
tsb = libfrequencies.get_to_timestamp_base
assert (tsb(get_freq_code('D')[0]) ==
get_freq_code('D')[0])
assert (tsb(get_freq_code('W')[0]) ==
get_freq_code('D')[0])
assert (tsb(get_freq_code('M')[0]) ==
get_freq_code('D')[0])
assert (tsb(get_freq_code('S')[0]) ==
get_freq_code('S')[0])
assert (tsb(get_freq_code('T')[0]) ==
get_freq_code('S')[0])
assert (tsb(get_freq_code('H')[0]) ==
get_freq_code('S')[0])
def test_freq_to_reso(self):
Reso = resolution.Resolution
assert Reso.get_str_from_freq('A') == 'year'
assert Reso.get_str_from_freq('Q') == 'quarter'
assert Reso.get_str_from_freq('M') == 'month'
assert Reso.get_str_from_freq('D') == 'day'
assert Reso.get_str_from_freq('H') == 'hour'
assert Reso.get_str_from_freq('T') == 'minute'
assert Reso.get_str_from_freq('S') == 'second'
assert Reso.get_str_from_freq('L') == 'millisecond'
assert Reso.get_str_from_freq('U') == 'microsecond'
assert Reso.get_str_from_freq('N') == 'nanosecond'
for freq in ['A', 'Q', 'M', 'D', 'H', 'T', 'S', 'L', 'U', 'N']:
# check roundtrip
result = Reso.get_freq(Reso.get_str_from_freq(freq))
assert freq == result
for freq in ['D', 'H', 'T', 'S', 'L', 'U']:
result = Reso.get_freq(Reso.get_str(Reso.get_reso_from_freq(freq)))
assert freq == result
def test_resolution_bumping(self):
# see gh-14378
Reso = resolution.Resolution
assert Reso.get_stride_from_decimal(1.5, 'T') == (90, 'S')
assert Reso.get_stride_from_decimal(62.4, 'T') == (3744, 'S')
assert Reso.get_stride_from_decimal(1.04, 'H') == (3744, 'S')
assert Reso.get_stride_from_decimal(1, 'D') == (1, 'D')
assert (Reso.get_stride_from_decimal(0.342931, 'H') ==
(1234551600, 'U'))
assert Reso.get_stride_from_decimal(1.2345, 'D') == (106660800, 'L')
with pytest.raises(ValueError):
Reso.get_stride_from_decimal(0.5, 'N')
# too much precision in the input can prevent
with pytest.raises(ValueError):
Reso.get_stride_from_decimal(0.3429324798798269273987982, 'H')
def test_get_freq_code(self):
# frequency str
assert (get_freq_code('A') ==
(get_freq('A'), 1))
assert (get_freq_code('3D') ==
(get_freq('D'), 3))
assert (get_freq_code('-2M') ==
(get_freq('M'), -2))
# tuple
assert (get_freq_code(('D', 1)) ==
(get_freq('D'), 1))
assert (get_freq_code(('A', 3)) ==
(get_freq('A'), 3))
assert (get_freq_code(('M', -2)) ==
(get_freq('M'), -2))
# numeric tuple
assert get_freq_code((1000, 1)) == (1000, 1)
# offsets
assert (get_freq_code(offsets.Day()) ==
(get_freq('D'), 1))
assert (get_freq_code(offsets.Day(3)) ==
(get_freq('D'), 3))
assert (get_freq_code(offsets.Day(-2)) ==
(get_freq('D'), -2))
assert (get_freq_code(offsets.MonthEnd()) ==
(get_freq('M'), 1))
assert (get_freq_code(offsets.MonthEnd(3)) ==
(get_freq('M'), 3))
assert (get_freq_code(offsets.MonthEnd(-2)) ==
(get_freq('M'), -2))
assert (get_freq_code(offsets.Week()) ==
(get_freq('W'), 1))
assert (get_freq_code(offsets.Week(3)) ==
(get_freq('W'), 3))
assert (get_freq_code(offsets.Week(-2)) ==
(get_freq('W'), -2))
# Monday is weekday=0
assert (get_freq_code(offsets.Week(weekday=1)) ==
(get_freq('W-TUE'), 1))
assert (get_freq_code(offsets.Week(3, weekday=0)) ==
(get_freq('W-MON'), 3))
assert (get_freq_code(offsets.Week(-2, weekday=4)) ==
(get_freq('W-FRI'), -2))
def test_frequency_misc(self):
assert (resolution.get_freq_group('T') ==
FreqGroup.FR_MIN)
code, stride = get_freq_code(offsets.Hour())
assert code == FreqGroup.FR_HR
code, stride = get_freq_code((5, 'T'))
assert code == FreqGroup.FR_MIN
assert stride == 5
offset = offsets.Hour()
result = frequencies.to_offset(offset)
assert result == offset
result = frequencies.to_offset((5, 'T'))
expected = offsets.Minute(5)
assert result == expected
with pytest.raises(ValueError, match='Invalid frequency'):
get_freq_code((5, 'baz'))
with pytest.raises(ValueError, match='Invalid frequency'):
frequencies.to_offset('100foo')
with pytest.raises(ValueError, match='Could not evaluate'):
frequencies.to_offset(('', ''))
_dti = DatetimeIndex
class TestFrequencyInference(object):
def test_raise_if_period_index(self):
index = period_range(start="1/1/1990", periods=20, freq="M")
pytest.raises(TypeError, frequencies.infer_freq, index)
def test_raise_if_too_few(self):
index = _dti(['12/31/1998', '1/3/1999'])
pytest.raises(ValueError, frequencies.infer_freq, index)
def test_business_daily(self):
index = _dti(['01/01/1999', '1/4/1999', '1/5/1999'])
assert frequencies.infer_freq(index) == 'B'
def test_business_daily_look_alike(self):
# GH 16624, do not infer 'B' when 'weekend' (2-day gap) in wrong place
index = _dti(['12/31/1998', '1/3/1999', '1/4/1999'])
assert frequencies.infer_freq(index) is None
def test_day(self):
self._check_tick(timedelta(1), 'D')
def test_day_corner(self):
index = _dti(['1/1/2000', '1/2/2000', '1/3/2000'])
assert frequencies.infer_freq(index) == 'D'
def test_non_datetimeindex(self):
dates = to_datetime(['1/1/2000', '1/2/2000', '1/3/2000'])
assert frequencies.infer_freq(dates) == 'D'
def test_hour(self):
self._check_tick(timedelta(hours=1), 'H')
def test_minute(self):
self._check_tick(timedelta(minutes=1), 'T')
def test_second(self):
self._check_tick(timedelta(seconds=1), 'S')
def test_millisecond(self):
self._check_tick(timedelta(microseconds=1000), 'L')
def test_microsecond(self):
self._check_tick(timedelta(microseconds=1), 'U')
def test_nanosecond(self):
self._check_tick(np.timedelta64(1, 'ns'), 'N')
def _check_tick(self, base_delta, code):
b = Timestamp(datetime.now())
for i in range(1, 5):
inc = base_delta * i
index = _dti([b + inc * j for j in range(3)])
if i > 1:
exp_freq = '%d%s' % (i, code)
else:
exp_freq = code
assert frequencies.infer_freq(index) == exp_freq
index = _dti([b + base_delta * 7] + [b + base_delta * j for j in range(
3)])
assert frequencies.infer_freq(index) is None
index = _dti([b + base_delta * j for j in range(3)] + [b + base_delta *
7])
assert frequencies.infer_freq(index) is None
def test_weekly(self):
days = ['MON', 'TUE', 'WED', 'THU', 'FRI', 'SAT', 'SUN']
for day in days:
self._check_generated_range('1/1/2000', 'W-%s' % day)
def test_week_of_month(self):
days = ['MON', 'TUE', 'WED', 'THU', 'FRI', 'SAT', 'SUN']
for day in days:
for i in range(1, 5):
self._check_generated_range('1/1/2000', 'WOM-%d%s' % (i, day))
def test_fifth_week_of_month(self):
# Only supports freq up to WOM-4. See #9425
func = lambda: date_range('2014-01-01', freq='WOM-5MON')
pytest.raises(ValueError, func)
def test_fifth_week_of_month_infer(self):
# Only attempts to infer up to WOM-4. See #9425
index = DatetimeIndex(["2014-03-31", "2014-06-30", "2015-03-30"])
assert frequencies.infer_freq(index) is None
def test_week_of_month_fake(self):
# All of these dates are on same day of week and are 4 or 5 weeks apart
index = DatetimeIndex(["2013-08-27", "2013-10-01", "2013-10-29",
"2013-11-26"])
assert frequencies.infer_freq(index) != 'WOM-4TUE'
def test_monthly(self):
self._check_generated_range('1/1/2000', 'M')
def test_monthly_ambiguous(self):
rng = _dti(['1/31/2000', '2/29/2000', '3/31/2000'])
assert rng.inferred_freq == 'M'
def test_business_monthly(self):
self._check_generated_range('1/1/2000', 'BM')
def test_business_start_monthly(self):
self._check_generated_range('1/1/2000', 'BMS')
def test_quarterly(self):
for month in ['JAN', 'FEB', 'MAR']:
self._check_generated_range('1/1/2000', 'Q-%s' % month)
def test_annual(self):
for month in MONTHS:
self._check_generated_range('1/1/2000', 'A-%s' % month)
def test_business_annual(self):
for month in MONTHS:
self._check_generated_range('1/1/2000', 'BA-%s' % month)
def test_annual_ambiguous(self):
rng = _dti(['1/31/2000', '1/31/2001', '1/31/2002'])
assert rng.inferred_freq == 'A-JAN'
def _check_generated_range(self, start, freq):
freq = freq.upper()
gen = date_range(start, periods=7, freq=freq)
index = _dti(gen.values)
if not freq.startswith('Q-'):
assert frequencies.infer_freq(index) == gen.freqstr
else:
inf_freq = frequencies.infer_freq(index)
is_dec_range = inf_freq == 'Q-DEC' and gen.freqstr in (
'Q', 'Q-DEC', 'Q-SEP', 'Q-JUN', 'Q-MAR')
is_nov_range = inf_freq == 'Q-NOV' and gen.freqstr in (
'Q-NOV', 'Q-AUG', 'Q-MAY', 'Q-FEB')
is_oct_range = inf_freq == 'Q-OCT' and gen.freqstr in (
'Q-OCT', 'Q-JUL', 'Q-APR', 'Q-JAN')
assert is_dec_range or is_nov_range or is_oct_range
gen = date_range(start, periods=5, freq=freq)
index = _dti(gen.values)
if not freq.startswith('Q-'):
assert frequencies.infer_freq(index) == gen.freqstr
else:
inf_freq = frequencies.infer_freq(index)
is_dec_range = inf_freq == 'Q-DEC' and gen.freqstr in (
'Q', 'Q-DEC', 'Q-SEP', 'Q-JUN', 'Q-MAR')
is_nov_range = inf_freq == 'Q-NOV' and gen.freqstr in (
'Q-NOV', 'Q-AUG', 'Q-MAY', 'Q-FEB')
is_oct_range = inf_freq == 'Q-OCT' and gen.freqstr in (
'Q-OCT', 'Q-JUL', 'Q-APR', 'Q-JAN')
assert is_dec_range or is_nov_range or is_oct_range
def test_infer_freq(self):
rng = period_range('1959Q2', '2009Q3', freq='Q')
rng = Index(rng.to_timestamp('D', how='e').astype(object))
assert rng.inferred_freq == 'Q-DEC'
rng = period_range('1959Q2', '2009Q3', freq='Q-NOV')
rng = Index(rng.to_timestamp('D', how='e').astype(object))
assert rng.inferred_freq == 'Q-NOV'
rng = period_range('1959Q2', '2009Q3', freq='Q-OCT')
rng = Index(rng.to_timestamp('D', how='e').astype(object))
assert rng.inferred_freq == 'Q-OCT'
def test_infer_freq_tz(self):
freqs = {'AS-JAN':
['2009-01-01', '2010-01-01', '2011-01-01', '2012-01-01'],
'Q-OCT':
['2009-01-31', '2009-04-30', '2009-07-31', '2009-10-31'],
'M': ['2010-11-30', '2010-12-31', '2011-01-31', '2011-02-28'],
'W-SAT':
['2010-12-25', '2011-01-01', '2011-01-08', '2011-01-15'],
'D': ['2011-01-01', '2011-01-02', '2011-01-03', '2011-01-04'],
'H': ['2011-12-31 22:00', '2011-12-31 23:00',
'2012-01-01 00:00', '2012-01-01 01:00']}
# GH 7310
for tz in [None, 'Australia/Sydney', 'Asia/Tokyo', 'Europe/Paris',
'US/Pacific', 'US/Eastern']:
for expected, dates in compat.iteritems(freqs):
idx = DatetimeIndex(dates, tz=tz)
assert idx.inferred_freq == expected
def test_infer_freq_tz_transition(self):
# Tests for #8772
date_pairs = [['2013-11-02', '2013-11-5'], # Fall DST
['2014-03-08', '2014-03-11'], # Spring DST
['2014-01-01', '2014-01-03']] # Regular Time
freqs = ['3H', '10T', '3601S', '3600001L', '3600000001U',
'3600000000001N']
for tz in [None, 'Australia/Sydney', 'Asia/Tokyo', 'Europe/Paris',
'US/Pacific', 'US/Eastern']:
for date_pair in date_pairs:
for freq in freqs:
idx = date_range(date_pair[0], date_pair[
1], freq=freq, tz=tz)
assert idx.inferred_freq == freq
index = date_range("2013-11-03", periods=5,
freq="3H").tz_localize("America/Chicago")
assert index.inferred_freq is None
def test_infer_freq_businesshour(self):
# GH 7905
idx = DatetimeIndex(
['2014-07-01 09:00', '2014-07-01 10:00', '2014-07-01 11:00',
'2014-07-01 12:00', '2014-07-01 13:00', '2014-07-01 14:00'])
# hourly freq in a day must result in 'H'
assert idx.inferred_freq == 'H'
idx = DatetimeIndex(
['2014-07-01 09:00', '2014-07-01 10:00', '2014-07-01 11:00',
'2014-07-01 12:00', '2014-07-01 13:00', '2014-07-01 14:00',
'2014-07-01 15:00', '2014-07-01 16:00', '2014-07-02 09:00',
'2014-07-02 10:00', '2014-07-02 11:00'])
assert idx.inferred_freq == 'BH'
idx = DatetimeIndex(
['2014-07-04 09:00', '2014-07-04 10:00', '2014-07-04 11:00',
'2014-07-04 12:00', '2014-07-04 13:00', '2014-07-04 14:00',
'2014-07-04 15:00', '2014-07-04 16:00', '2014-07-07 09:00',
'2014-07-07 10:00', '2014-07-07 11:00'])
assert idx.inferred_freq == 'BH'
idx = DatetimeIndex(
['2014-07-04 09:00', '2014-07-04 10:00', '2014-07-04 11:00',
'2014-07-04 12:00', '2014-07-04 13:00', '2014-07-04 14:00',
'2014-07-04 15:00', '2014-07-04 16:00', '2014-07-07 09:00',
'2014-07-07 10:00', '2014-07-07 11:00', '2014-07-07 12:00',
'2014-07-07 13:00', '2014-07-07 14:00', '2014-07-07 15:00',
'2014-07-07 16:00', '2014-07-08 09:00', '2014-07-08 10:00',
'2014-07-08 11:00', '2014-07-08 12:00', '2014-07-08 13:00',
'2014-07-08 14:00', '2014-07-08 15:00', '2014-07-08 16:00'])
assert idx.inferred_freq == 'BH'
def test_not_monotonic(self):
rng = _dti(['1/31/2000', '1/31/2001', '1/31/2002'])
rng = rng[::-1]
assert rng.inferred_freq == '-1A-JAN'
def test_non_datetimeindex2(self):
rng = _dti(['1/31/2000', '1/31/2001', '1/31/2002'])
vals = rng.to_pydatetime()
result = frequencies.infer_freq(vals)
assert result == rng.inferred_freq
def test_invalid_index_types(self):
# test all index types
for i in [tm.makeIntIndex(10), tm.makeFloatIndex(10),
tm.makePeriodIndex(10)]:
pytest.raises(TypeError, lambda: frequencies.infer_freq(i))
# GH 10822
# odd error message on conversions to datetime for unicode
if not is_platform_windows():
for i in [tm.makeStringIndex(10), tm.makeUnicodeIndex(10)]:
pytest.raises(ValueError, lambda: frequencies.infer_freq(i))
def test_string_datetimelike_compat(self):
# GH 6463
expected = frequencies.infer_freq(['2004-01', '2004-02', '2004-03',
'2004-04'])
result = frequencies.infer_freq(Index(['2004-01', '2004-02', '2004-03',
'2004-04']))
assert result == expected
def test_series(self):
# GH6407
# inferring series
# invalid type of Series
for s in [Series(np.arange(10)), Series(np.arange(10.))]:
pytest.raises(TypeError, lambda: frequencies.infer_freq(s))
# a non-convertible string
pytest.raises(ValueError, lambda: frequencies.infer_freq(
Series(['foo', 'bar'])))
# cannot infer on PeriodIndex
for freq in [None, 'L']:
s = Series(period_range('2013', periods=10, freq=freq))
pytest.raises(TypeError, lambda: frequencies.infer_freq(s))
# DateTimeIndex
for freq in ['M', 'L', 'S']:
s = Series(date_range('20130101', periods=10, freq=freq))
inferred = frequencies.infer_freq(s)
assert inferred == freq
s = Series(date_range('20130101', '20130110'))
inferred = frequencies.infer_freq(s)
assert inferred == 'D'
def test_legacy_offset_warnings(self):
freqs = ['WEEKDAY', 'EOM', 'W@MON', 'W@TUE', 'W@WED', 'W@THU',
'W@FRI', 'W@SAT', 'W@SUN', 'Q@JAN', 'Q@FEB', 'Q@MAR',
'A@JAN', 'A@FEB', 'A@MAR', 'A@APR', 'A@MAY', 'A@JUN',
'A@JUL', 'A@AUG', 'A@SEP', 'A@OCT', 'A@NOV', 'A@DEC',
'Y@JAN', 'WOM@1MON', 'WOM@2MON', 'WOM@3MON',
'WOM@4MON', 'WOM@1TUE', 'WOM@2TUE', 'WOM@3TUE',
'WOM@4TUE', 'WOM@1WED', 'WOM@2WED', 'WOM@3WED',
'WOM@4WED', 'WOM@1THU', 'WOM@2THU', 'WOM@3THU',
'WOM@4THU', 'WOM@1FRI', 'WOM@2FRI', 'WOM@3FRI',
'WOM@4FRI']
msg = INVALID_FREQ_ERR_MSG
for freq in freqs:
with pytest.raises(ValueError, match=msg):
frequencies.get_offset(freq)
with pytest.raises(ValueError, match=msg):
date_range('2011-01-01', periods=5, freq=freq)
