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offset.py
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# -*- coding: utf-8 -*-
from datetime import datetime
import numpy as np
import pandas as pd
from pandas import date_range
hcal = pd.tseries.holiday.USFederalHolidayCalendar()
class ApplyIndex(object):
goal_time = 0.2
params = [pd.offsets.YearEnd(), pd.offsets.YearBegin(),
pd.offsets.BYearEnd(), pd.offsets.BYearBegin(),
pd.offsets.QuarterEnd(), pd.offsets.QuarterBegin(),
pd.offsets.BQuarterEnd(), pd.offsets.BQuarterBegin(),
pd.offsets.MonthEnd(), pd.offsets.MonthBegin(),
pd.offsets.BMonthEnd(), pd.offsets.BMonthBegin()]
def setup(self, param):
self.offset = param
self.N = 100000
self.rng = date_range(start='1/1/2000', periods=self.N, freq='T')
self.ser = pd.Series(self.rng)
def time_apply_index(self, param):
self.rng + self.offset
def time_apply_series(self, param):
self.ser + self.offset
class DatetimeIndexArithmetic(object):
goal_time = 0.2
def setup(self):
self.N = 100000
self.rng = date_range(start='1/1/2000', periods=self.N, freq='T')
self.day_offset = pd.offsets.Day()
self.relativedelta_offset = pd.offsets.DateOffset(months=2, days=2)
self.busday_offset = pd.offsets.BusinessDay()
def time_add_offset_delta(self):
self.rng + self.day_offset
def time_add_offset_fast(self):
self.rng + self.relativedelta_offset
def time_add_offset_slow(self):
self.rng + self.busday_offset
class SeriesArithmetic(object):
goal_time = 0.2
def setup(self):
self.N = 100000
rng = date_range(start='20140101', freq='T', periods=self.N)
self.ser = pd.Series(rng)
self.day_offset = pd.offsets.Day()
self.relativedelta_offset = pd.offsets.DateOffset(months=2, days=2)
self.busday_offset = pd.offsets.BusinessDay()
def time_add_offset_delta(self):
self.ser + self.day_offset
def time_add_offset_fast(self):
self.ser + self.relativedelta_offset
def time_add_offset_slow(self):
self.ser + self.busday_offset
class YearBegin(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.year = pd.offsets.YearBegin()
def time_timeseries_year_apply(self):
self.year.apply(self.date)
def time_timeseries_year_incr(self):
self.date + self.year
class Day(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.day = pd.offsets.Day()
def time_timeseries_day_apply(self):
self.day.apply(self.date)
def time_timeseries_day_incr(self):
self.date + self.day
class CBDay(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.dt64 = np.datetime64('2011-01-01 09:00Z')
self.cday = pd.offsets.CustomBusinessDay()
def time_custom_bday_decr(self):
self.date - self.cday
def time_custom_bday_incr(self):
self.date + self.cday
def time_custom_bday_apply(self):
self.cday.apply(self.date)
def time_custom_bday_apply_dt64(self):
self.cday.apply(self.dt64)
class CBDayHolidays(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.cdayh = pd.offsets.CustomBusinessDay(calendar=hcal)
def time_custom_bday_cal_incr(self):
self.date + 1 * self.cdayh
def time_custom_bday_cal_decr(self):
self.date - 1 * self.cdayh
def time_custom_bday_cal_incr_n(self):
self.date + 10 * self.cdayh
def time_custom_bday_cal_incr_neg_n(self):
self.date - 10 * self.cdayh
class CBMonthBegin(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.cmb = pd.offsets.CustomBusinessMonthBegin(calendar=hcal)
def time_custom_bmonthbegin_decr_n(self):
self.date - (10 * self.cmb)
def time_custom_bmonthbegin_incr_n(self):
self.date + (10 * self.cmb)
class CBMonthEnd(object):
goal_time = 0.2
def setup(self):
self.date = datetime(2011, 1, 1)
self.cme = pd.offsets.CustomBusinessMonthEnd(calendar=hcal)
def time_custom_bmonthend_incr(self):
self.date + self.cme
def time_custom_bmonthend_incr_n(self):
self.date + (10 * self.cme)
def time_custom_bmonthend_decr_n(self):
self.date - (10 * self.cme)
class SemiMonthOffset(object):
goal_time = 0.2
def setup(self):
self.N = 100000
self.rng = date_range(start='1/1/2000', periods=self.N, freq='T')
# date is not on an offset which will be slowest case
self.date = datetime(2011, 1, 2)
self.semi_month_end = pd.offsets.SemiMonthEnd()
self.semi_month_begin = pd.offsets.SemiMonthBegin()
def time_end_apply(self):
self.semi_month_end.apply(self.date)
def time_end_incr(self):
self.date + self.semi_month_end
def time_end_incr_n(self):
self.date + 10 * self.semi_month_end
def time_end_decr(self):
self.date - self.semi_month_end
def time_end_decr_n(self):
self.date - 10 * self.semi_month_end
def time_end_apply_index(self):
self.semi_month_end.apply_index(self.rng)
def time_end_incr_rng(self):
self.rng + self.semi_month_end
def time_end_decr_rng(self):
self.rng - self.semi_month_end
def time_begin_apply(self):
self.semi_month_begin.apply(self.date)
def time_begin_incr(self):
self.date + self.semi_month_begin
def time_begin_incr_n(self):
self.date + 10 * self.semi_month_begin
def time_begin_decr(self):
self.date - self.semi_month_begin
def time_begin_decr_n(self):
self.date - 10 * self.semi_month_begin
def time_begin_apply_index(self):
self.semi_month_begin.apply_index(self.rng)
def time_begin_incr_rng(self):
self.rng + self.semi_month_begin
def time_begin_decr_rng(self):
self.rng - self.semi_month_begin