from __future__ import annotations from datetime import ( datetime, timedelta, ) import warnings from dateutil.relativedelta import ( FR, MO, SA, SU, TH, TU, WE, ) import numpy as np from pandas.errors import PerformanceWarning from pandas import ( DateOffset, DatetimeIndex, Series, Timestamp, concat, date_range, ) from pandas.tseries.offsets import ( Day, Easter, ) def next_monday(dt: datetime) -> datetime: """ If holiday falls on Saturday, use following Monday instead; if holiday falls on Sunday, use Monday instead """ if dt.weekday() == 5: return dt + timedelta(2) elif dt.weekday() == 6: return dt + timedelta(1) return dt def next_monday_or_tuesday(dt: datetime) -> datetime: """ For second holiday of two adjacent ones! If holiday falls on Saturday, use following Monday instead; if holiday falls on Sunday or Monday, use following Tuesday instead (because Monday is already taken by adjacent holiday on the day before) """ dow = dt.weekday() if dow == 5 or dow == 6: return dt + timedelta(2) elif dow == 0: return dt + timedelta(1) return dt def previous_friday(dt: datetime) -> datetime: """ If holiday falls on Saturday or Sunday, use previous Friday instead. """ if dt.weekday() == 5: return dt - timedelta(1) elif dt.weekday() == 6: return dt - timedelta(2) return dt def sunday_to_monday(dt: datetime) -> datetime: """ If holiday falls on Sunday, use day thereafter (Monday) instead. """ if dt.weekday() == 6: return dt + timedelta(1) return dt def weekend_to_monday(dt: datetime) -> datetime: """ If holiday falls on Sunday or Saturday, use day thereafter (Monday) instead. Needed for holidays such as Christmas observation in Europe """ if dt.weekday() == 6: return dt + timedelta(1) elif dt.weekday() == 5: return dt + timedelta(2) return dt def nearest_workday(dt: datetime) -> datetime: """ If holiday falls on Saturday, use day before (Friday) instead; if holiday falls on Sunday, use day thereafter (Monday) instead. """ if dt.weekday() == 5: return dt - timedelta(1) elif dt.weekday() == 6: return dt + timedelta(1) return dt def next_workday(dt: datetime) -> datetime: """ returns next weekday used for observances """ dt += timedelta(days=1) while dt.weekday() > 4: # Mon-Fri are 0-4 dt += timedelta(days=1) return dt def previous_workday(dt: datetime) -> datetime: """ returns previous weekday used for observances """ dt -= timedelta(days=1) while dt.weekday() > 4: # Mon-Fri are 0-4 dt -= timedelta(days=1) return dt def before_nearest_workday(dt: datetime) -> datetime: """ returns previous workday after nearest workday """ return previous_workday(nearest_workday(dt)) def after_nearest_workday(dt: datetime) -> datetime: """ returns next workday after nearest workday needed for Boxing day or multiple holidays in a series """ return next_workday(nearest_workday(dt)) class Holiday: """ Class that defines a holiday with start/end dates and rules for observance. """ def __init__( self, name, year=None, month=None, day=None, offset=None, observance=None, start_date=None, end_date=None, days_of_week=None, ) -> None: """ Parameters ---------- name : str Name of the holiday , defaults to class name offset : array of pandas.tseries.offsets or class from pandas.tseries.offsets computes offset from date observance: function computes when holiday is given a pandas Timestamp days_of_week: provide a tuple of days e.g (0,1,2,3,) for Monday Through Thursday Monday=0,..,Sunday=6 Examples -------- >>> from dateutil.relativedelta import MO >>> USMemorialDay = pd.tseries.holiday.Holiday( ... "Memorial Day", month=5, day=31, offset=pd.DateOffset(weekday=MO(-1)) ... ) >>> USMemorialDay Holiday: Memorial Day (month=5, day=31, offset=) >>> USLaborDay = pd.tseries.holiday.Holiday( ... "Labor Day", month=9, day=1, offset=pd.DateOffset(weekday=MO(1)) ... ) >>> USLaborDay Holiday: Labor Day (month=9, day=1, offset=) >>> July3rd = pd.tseries.holiday.Holiday("July 3rd", month=7, day=3) >>> July3rd Holiday: July 3rd (month=7, day=3, ) >>> NewYears = pd.tseries.holiday.Holiday( ... "New Years Day", month=1, day=1, ... observance=pd.tseries.holiday.nearest_workday ... ) >>> NewYears # doctest: +SKIP Holiday: New Years Day ( month=1, day=1, observance= ) >>> July3rd = pd.tseries.holiday.Holiday( ... "July 3rd", month=7, day=3, ... days_of_week=(0, 1, 2, 3) ... ) >>> July3rd Holiday: July 3rd (month=7, day=3, ) """ if offset is not None and observance is not None: raise NotImplementedError("Cannot use both offset and observance.") self.name = name self.year = year self.month = month self.day = day self.offset = offset self.start_date = ( Timestamp(start_date) if start_date is not None else start_date ) self.end_date = Timestamp(end_date) if end_date is not None else end_date self.observance = observance assert days_of_week is None or type(days_of_week) == tuple self.days_of_week = days_of_week def __repr__(self) -> str: info = "" if self.year is not None: info += f"year={self.year}, " info += f"month={self.month}, day={self.day}, " if self.offset is not None: info += f"offset={self.offset}" if self.observance is not None: info += f"observance={self.observance}" repr = f"Holiday: {self.name} ({info})" return repr def dates(self, start_date, end_date, return_name=False): """ Calculate holidays observed between start date and end date Parameters ---------- start_date : starting date, datetime-like, optional end_date : ending date, datetime-like, optional return_name : bool, optional, default=False If True, return a series that has dates and holiday names. False will only return dates. """ start_date = Timestamp(start_date) end_date = Timestamp(end_date) filter_start_date = start_date filter_end_date = end_date if self.year is not None: dt = Timestamp(datetime(self.year, self.month, self.day)) if return_name: return Series(self.name, index=[dt]) else: return [dt] dates = self._reference_dates(start_date, end_date) holiday_dates = self._apply_rule(dates) if self.days_of_week is not None: holiday_dates = holiday_dates[ np.in1d(holiday_dates.dayofweek, self.days_of_week) ] if self.start_date is not None: filter_start_date = max( self.start_date.tz_localize(filter_start_date.tz), filter_start_date ) if self.end_date is not None: filter_end_date = min( self.end_date.tz_localize(filter_end_date.tz), filter_end_date ) holiday_dates = holiday_dates[ (holiday_dates >= filter_start_date) & (holiday_dates <= filter_end_date) ] if return_name: return Series(self.name, index=holiday_dates) return holiday_dates def _reference_dates(self, start_date, end_date): """ Get reference dates for the holiday. Return reference dates for the holiday also returning the year prior to the start_date and year following the end_date. This ensures that any offsets to be applied will yield the holidays within the passed in dates. """ if self.start_date is not None: start_date = self.start_date.tz_localize(start_date.tz) if self.end_date is not None: end_date = self.end_date.tz_localize(start_date.tz) year_offset = DateOffset(years=1) reference_start_date = Timestamp( datetime(start_date.year - 1, self.month, self.day) ) reference_end_date = Timestamp( datetime(end_date.year + 1, self.month, self.day) ) # Don't process unnecessary holidays dates = date_range( start=reference_start_date, end=reference_end_date, freq=year_offset, tz=start_date.tz, ) return dates def _apply_rule(self, dates): """ Apply the given offset/observance to a DatetimeIndex of dates. Parameters ---------- dates : DatetimeIndex Dates to apply the given offset/observance rule Returns ------- Dates with rules applied """ if self.observance is not None: return dates.map(lambda d: self.observance(d)) if self.offset is not None: if not isinstance(self.offset, list): offsets = [self.offset] else: offsets = self.offset for offset in offsets: # if we are adding a non-vectorized value # ignore the PerformanceWarnings: with warnings.catch_warnings(): warnings.simplefilter("ignore", PerformanceWarning) dates += offset return dates holiday_calendars = {} def register(cls): try: name = cls.name except AttributeError: name = cls.__name__ holiday_calendars[name] = cls def get_calendar(name): """ Return an instance of a calendar based on its name. Parameters ---------- name : str Calendar name to return an instance of """ return holiday_calendars[name]() class HolidayCalendarMetaClass(type): def __new__(cls, clsname, bases, attrs): calendar_class = super().__new__(cls, clsname, bases, attrs) register(calendar_class) return calendar_class class AbstractHolidayCalendar(metaclass=HolidayCalendarMetaClass): """ Abstract interface to create holidays following certain rules. """ rules: list[Holiday] = [] start_date = Timestamp(datetime(1970, 1, 1)) end_date = Timestamp(datetime(2200, 12, 31)) _cache = None def __init__(self, name=None, rules=None) -> None: """ Initializes holiday object with a given set a rules. Normally classes just have the rules defined within them. Parameters ---------- name : str Name of the holiday calendar, defaults to class name rules : array of Holiday objects A set of rules used to create the holidays. """ super().__init__() if name is None: name = type(self).__name__ self.name = name if rules is not None: self.rules = rules def rule_from_name(self, name): for rule in self.rules: if rule.name == name: return rule return None def holidays(self, start=None, end=None, return_name=False): """ Returns a curve with holidays between start_date and end_date Parameters ---------- start : starting date, datetime-like, optional end : ending date, datetime-like, optional return_name : bool, optional If True, return a series that has dates and holiday names. False will only return a DatetimeIndex of dates. Returns ------- DatetimeIndex of holidays """ if self.rules is None: raise Exception( f"Holiday Calendar {self.name} does not have any rules specified" ) if start is None: start = AbstractHolidayCalendar.start_date if end is None: end = AbstractHolidayCalendar.end_date start = Timestamp(start) end = Timestamp(end) # If we don't have a cache or the dates are outside the prior cache, we # get them again if self._cache is None or start < self._cache[0] or end > self._cache[1]: pre_holidays = [ rule.dates(start, end, return_name=True) for rule in self.rules ] if pre_holidays: holidays = concat(pre_holidays) else: holidays = Series(index=DatetimeIndex([]), dtype=object) self._cache = (start, end, holidays.sort_index()) holidays = self._cache[2] holidays = holidays[start:end] if return_name: return holidays else: return holidays.index @staticmethod def merge_class(base, other): """ Merge holiday calendars together. The base calendar will take precedence to other. The merge will be done based on each holiday's name. Parameters ---------- base : AbstractHolidayCalendar instance/subclass or array of Holiday objects other : AbstractHolidayCalendar instance/subclass or array of Holiday objects """ try: other = other.rules except AttributeError: pass if not isinstance(other, list): other = [other] other_holidays = {holiday.name: holiday for holiday in other} try: base = base.rules except AttributeError: pass if not isinstance(base, list): base = [base] base_holidays = {holiday.name: holiday for holiday in base} other_holidays.update(base_holidays) return list(other_holidays.values()) def merge(self, other, inplace=False): """ Merge holiday calendars together. The caller's class rules take precedence. The merge will be done based on each holiday's name. Parameters ---------- other : holiday calendar inplace : bool (default=False) If True set rule_table to holidays, else return array of Holidays """ holidays = self.merge_class(self, other) if inplace: self.rules = holidays else: return holidays USMemorialDay = Holiday( "Memorial Day", month=5, day=31, offset=DateOffset(weekday=MO(-1)) ) USLaborDay = Holiday("Labor Day", month=9, day=1, offset=DateOffset(weekday=MO(1))) USColumbusDay = Holiday( "Columbus Day", month=10, day=1, offset=DateOffset(weekday=MO(2)) ) USThanksgivingDay = Holiday( "Thanksgiving Day", month=11, day=1, offset=DateOffset(weekday=TH(4)) ) USMartinLutherKingJr = Holiday( "Birthday of Martin Luther King, Jr.", start_date=datetime(1986, 1, 1), month=1, day=1, offset=DateOffset(weekday=MO(3)), ) USPresidentsDay = Holiday( "Washington’s Birthday", month=2, day=1, offset=DateOffset(weekday=MO(3)) ) GoodFriday = Holiday("Good Friday", month=1, day=1, offset=[Easter(), Day(-2)]) EasterMonday = Holiday("Easter Monday", month=1, day=1, offset=[Easter(), Day(1)]) class USFederalHolidayCalendar(AbstractHolidayCalendar): """ US Federal Government Holiday Calendar based on rules specified by: https://www.opm.gov/policy-data-oversight/ snow-dismissal-procedures/federal-holidays/ """ rules = [ Holiday("New Year's Day", month=1, day=1, observance=nearest_workday), USMartinLutherKingJr, USPresidentsDay, USMemorialDay, Holiday( "Juneteenth National Independence Day", month=6, day=19, start_date="2021-06-18", observance=nearest_workday, ), Holiday("Independence Day", month=7, day=4, observance=nearest_workday), USLaborDay, USColumbusDay, Holiday("Veterans Day", month=11, day=11, observance=nearest_workday), USThanksgivingDay, Holiday("Christmas Day", month=12, day=25, observance=nearest_workday), ] def HolidayCalendarFactory(name, base, other, base_class=AbstractHolidayCalendar): rules = AbstractHolidayCalendar.merge_class(base, other) calendar_class = type(name, (base_class,), {"rules": rules, "name": name}) return calendar_class __all__ = [ "after_nearest_workday", "before_nearest_workday", "FR", "get_calendar", "HolidayCalendarFactory", "MO", "nearest_workday", "next_monday", "next_monday_or_tuesday", "next_workday", "previous_friday", "previous_workday", "register", "SA", "SU", "sunday_to_monday", "TH", "TU", "WE", "weekend_to_monday", ]