from typing import Optional import warnings import numpy as np from pandas._libs.algos import unique_deltas from pandas._libs.tslibs import Timestamp, tzconversion from pandas._libs.tslibs.ccalendar import ( DAYS, MONTH_ALIASES, MONTH_NUMBERS, MONTHS, int_to_weekday, ) from pandas._libs.tslibs.fields import build_field_sarray, month_position_check from pandas._libs.tslibs.offsets import ( # noqa:F401 DateOffset, Day, _get_offset, to_offset, ) from pandas._libs.tslibs.parsing import get_rule_month from pandas.util._decorators import cache_readonly from pandas.core.dtypes.common import ( is_datetime64_dtype, is_period_dtype, is_timedelta64_dtype, ) from pandas.core.dtypes.generic import ABCSeries from pandas.core.algorithms import unique _ONE_MICRO = 1000 _ONE_MILLI = _ONE_MICRO * 1000 _ONE_SECOND = _ONE_MILLI * 1000 _ONE_MINUTE = 60 * _ONE_SECOND _ONE_HOUR = 60 * _ONE_MINUTE _ONE_DAY = 24 * _ONE_HOUR # --------------------------------------------------------------------- # Offset names ("time rules") and related functions _offset_to_period_map = { "WEEKDAY": "D", "EOM": "M", "BM": "M", "BQS": "Q", "QS": "Q", "BQ": "Q", "BA": "A", "AS": "A", "BAS": "A", "MS": "M", "D": "D", "C": "C", "B": "B", "T": "T", "S": "S", "L": "L", "U": "U", "N": "N", "H": "H", "Q": "Q", "A": "A", "W": "W", "M": "M", "Y": "A", "BY": "A", "YS": "A", "BYS": "A", } _need_suffix = ["QS", "BQ", "BQS", "YS", "AS", "BY", "BA", "BYS", "BAS"] for _prefix in _need_suffix: for _m in MONTHS: key = f"{_prefix}-{_m}" _offset_to_period_map[key] = _offset_to_period_map[_prefix] for _prefix in ["A", "Q"]: for _m in MONTHS: _alias = f"{_prefix}-{_m}" _offset_to_period_map[_alias] = _alias for _d in DAYS: _offset_to_period_map[f"W-{_d}"] = f"W-{_d}" def get_period_alias(offset_str: str) -> Optional[str]: """ Alias to closest period strings BQ->Q etc. """ return _offset_to_period_map.get(offset_str, None) def get_offset(name: str) -> DateOffset: """ Return DateOffset object associated with rule name. .. deprecated:: 1.0.0 Examples -------- get_offset('EOM') --> BMonthEnd(1) """ warnings.warn( "get_offset is deprecated and will be removed in a future version, " "use to_offset instead", FutureWarning, stacklevel=2, ) return _get_offset(name) # --------------------------------------------------------------------- # Period codes def infer_freq(index, warn: bool = True) -> Optional[str]: """ Infer the most likely frequency given the input index. If the frequency is uncertain, a warning will be printed. Parameters ---------- index : DatetimeIndex or TimedeltaIndex If passed a Series will use the values of the series (NOT THE INDEX). warn : bool, default True Returns ------- str or None None if no discernible frequency. Raises ------ TypeError If the index is not datetime-like. ValueError If there are fewer than three values. """ import pandas as pd if isinstance(index, ABCSeries): values = index._values if not ( is_datetime64_dtype(values) or is_timedelta64_dtype(values) or values.dtype == object ): raise TypeError( "cannot infer freq from a non-convertible dtype " f"on a Series of {index.dtype}" ) index = values inferer: _FrequencyInferer if not hasattr(index, "dtype"): pass elif is_period_dtype(index.dtype): raise TypeError( "PeriodIndex given. Check the `freq` attribute " "instead of using infer_freq." ) elif is_timedelta64_dtype(index.dtype): # Allow TimedeltaIndex and TimedeltaArray inferer = _TimedeltaFrequencyInferer(index, warn=warn) return inferer.get_freq() if isinstance(index, pd.Index) and not isinstance(index, pd.DatetimeIndex): if isinstance(index, (pd.Int64Index, pd.Float64Index)): raise TypeError( f"cannot infer freq from a non-convertible index type {type(index)}" ) index = index._values if not isinstance(index, pd.DatetimeIndex): index = pd.DatetimeIndex(index) inferer = _FrequencyInferer(index, warn=warn) return inferer.get_freq() class _FrequencyInferer: """ Not sure if I can avoid the state machine here """ def __init__(self, index, warn: bool = True): self.index = index self.i8values = index.asi8 # This moves the values, which are implicitly in UTC, to the # the timezone so they are in local time if hasattr(index, "tz"): if index.tz is not None: self.i8values = tzconversion.tz_convert_from_utc( self.i8values, index.tz ) self.warn = warn if len(index) < 3: raise ValueError("Need at least 3 dates to infer frequency") self.is_monotonic = ( self.index._is_monotonic_increasing or self.index._is_monotonic_decreasing ) @cache_readonly def deltas(self): return unique_deltas(self.i8values) @cache_readonly def deltas_asi8(self): # NB: we cannot use self.i8values here because we may have converted # the tz in __init__ return unique_deltas(self.index.asi8) @cache_readonly def is_unique(self) -> bool: return len(self.deltas) == 1 @cache_readonly def is_unique_asi8(self) -> bool: return len(self.deltas_asi8) == 1 def get_freq(self) -> Optional[str]: """ Find the appropriate frequency string to describe the inferred frequency of self.i8values Returns ------- str or None """ if not self.is_monotonic or not self.index._is_unique: return None delta = self.deltas[0] if _is_multiple(delta, _ONE_DAY): return self._infer_daily_rule() # Business hourly, maybe. 17: one day / 65: one weekend if self.hour_deltas in ([1, 17], [1, 65], [1, 17, 65]): return "BH" # Possibly intraday frequency. Here we use the # original .asi8 values as the modified values # will not work around DST transitions. See #8772 elif not self.is_unique_asi8: return None delta = self.deltas_asi8[0] if _is_multiple(delta, _ONE_HOUR): # Hours return _maybe_add_count("H", delta / _ONE_HOUR) elif _is_multiple(delta, _ONE_MINUTE): # Minutes return _maybe_add_count("T", delta / _ONE_MINUTE) elif _is_multiple(delta, _ONE_SECOND): # Seconds return _maybe_add_count("S", delta / _ONE_SECOND) elif _is_multiple(delta, _ONE_MILLI): # Milliseconds return _maybe_add_count("L", delta / _ONE_MILLI) elif _is_multiple(delta, _ONE_MICRO): # Microseconds return _maybe_add_count("U", delta / _ONE_MICRO) else: # Nanoseconds return _maybe_add_count("N", delta) @cache_readonly def day_deltas(self): return [x / _ONE_DAY for x in self.deltas] @cache_readonly def hour_deltas(self): return [x / _ONE_HOUR for x in self.deltas] @cache_readonly def fields(self): return build_field_sarray(self.i8values) @cache_readonly def rep_stamp(self): return Timestamp(self.i8values[0]) def month_position_check(self): return month_position_check(self.fields, self.index.dayofweek) @cache_readonly def mdiffs(self): nmonths = self.fields["Y"] * 12 + self.fields["M"] return unique_deltas(nmonths.astype("i8")) @cache_readonly def ydiffs(self): return unique_deltas(self.fields["Y"].astype("i8")) def _infer_daily_rule(self) -> Optional[str]: annual_rule = self._get_annual_rule() if annual_rule: nyears = self.ydiffs[0] month = MONTH_ALIASES[self.rep_stamp.month] alias = f"{annual_rule}-{month}" return _maybe_add_count(alias, nyears) quarterly_rule = self._get_quarterly_rule() if quarterly_rule: nquarters = self.mdiffs[0] / 3 mod_dict = {0: 12, 2: 11, 1: 10} month = MONTH_ALIASES[mod_dict[self.rep_stamp.month % 3]] alias = f"{quarterly_rule}-{month}" return _maybe_add_count(alias, nquarters) monthly_rule = self._get_monthly_rule() if monthly_rule: return _maybe_add_count(monthly_rule, self.mdiffs[0]) if self.is_unique: return self._get_daily_rule() if self._is_business_daily(): return "B" wom_rule = self._get_wom_rule() if wom_rule: return wom_rule return None def _get_daily_rule(self) -> Optional[str]: days = self.deltas[0] / _ONE_DAY if days % 7 == 0: # Weekly wd = int_to_weekday[self.rep_stamp.weekday()] alias = f"W-{wd}" return _maybe_add_count(alias, days / 7) else: return _maybe_add_count("D", days) def _get_annual_rule(self) -> Optional[str]: if len(self.ydiffs) > 1: return None if len(unique(self.fields["M"])) > 1: return None pos_check = self.month_position_check() return {"cs": "AS", "bs": "BAS", "ce": "A", "be": "BA"}.get(pos_check) def _get_quarterly_rule(self) -> Optional[str]: if len(self.mdiffs) > 1: return None if not self.mdiffs[0] % 3 == 0: return None pos_check = self.month_position_check() return {"cs": "QS", "bs": "BQS", "ce": "Q", "be": "BQ"}.get(pos_check) def _get_monthly_rule(self) -> Optional[str]: if len(self.mdiffs) > 1: return None pos_check = self.month_position_check() return {"cs": "MS", "bs": "BMS", "ce": "M", "be": "BM"}.get(pos_check) def _is_business_daily(self) -> bool: # quick check: cannot be business daily if self.day_deltas != [1, 3]: return False # probably business daily, but need to confirm first_weekday = self.index[0].weekday() shifts = np.diff(self.index.asi8) shifts = np.floor_divide(shifts, _ONE_DAY) weekdays = np.mod(first_weekday + np.cumsum(shifts), 7) return np.all( ((weekdays == 0) & (shifts == 3)) | ((weekdays > 0) & (weekdays <= 4) & (shifts == 1)) ) def _get_wom_rule(self) -> Optional[str]: # FIXME: dont leave commented-out # wdiffs = unique(np.diff(self.index.week)) # We also need -47, -49, -48 to catch index spanning year boundary # if not lib.ismember(wdiffs, set([4, 5, -47, -49, -48])).all(): # return None weekdays = unique(self.index.weekday) if len(weekdays) > 1: return None week_of_months = unique((self.index.day - 1) // 7) # Only attempt to infer up to WOM-4. See #9425 week_of_months = week_of_months[week_of_months < 4] if len(week_of_months) == 0 or len(week_of_months) > 1: return None # get which week week = week_of_months[0] + 1 wd = int_to_weekday[weekdays[0]] return f"WOM-{week}{wd}" class _TimedeltaFrequencyInferer(_FrequencyInferer): def _infer_daily_rule(self): if self.is_unique: return self._get_daily_rule() def _is_multiple(us, mult: int) -> bool: return us % mult == 0 def _maybe_add_count(base: str, count: float) -> str: if count != 1: assert count == int(count) count = int(count) return f"{count}{base}" else: return base # ---------------------------------------------------------------------- # Frequency comparison def is_subperiod(source, target) -> bool: """ Returns True if downsampling is possible between source and target frequencies Parameters ---------- source : str or DateOffset Frequency converting from target : str or DateOffset Frequency converting to Returns ------- bool """ if target is None or source is None: return False source = _maybe_coerce_freq(source) target = _maybe_coerce_freq(target) if _is_annual(target): if _is_quarterly(source): return _quarter_months_conform( get_rule_month(source), get_rule_month(target) ) return source in {"D", "C", "B", "M", "H", "T", "S", "L", "U", "N"} elif _is_quarterly(target): return source in {"D", "C", "B", "M", "H", "T", "S", "L", "U", "N"} elif _is_monthly(target): return source in {"D", "C", "B", "H", "T", "S", "L", "U", "N"} elif _is_weekly(target): return source in {target, "D", "C", "B", "H", "T", "S", "L", "U", "N"} elif target == "B": return source in {"B", "H", "T", "S", "L", "U", "N"} elif target == "C": return source in {"C", "H", "T", "S", "L", "U", "N"} elif target == "D": return source in {"D", "H", "T", "S", "L", "U", "N"} elif target == "H": return source in {"H", "T", "S", "L", "U", "N"} elif target == "T": return source in {"T", "S", "L", "U", "N"} elif target == "S": return source in {"S", "L", "U", "N"} elif target == "L": return source in {"L", "U", "N"} elif target == "U": return source in {"U", "N"} elif target == "N": return source in {"N"} else: return False def is_superperiod(source, target) -> bool: """ Returns True if upsampling is possible between source and target frequencies Parameters ---------- source : str or DateOffset Frequency converting from target : str or DateOffset Frequency converting to Returns ------- bool """ if target is None or source is None: return False source = _maybe_coerce_freq(source) target = _maybe_coerce_freq(target) if _is_annual(source): if _is_annual(target): return get_rule_month(source) == get_rule_month(target) if _is_quarterly(target): smonth = get_rule_month(source) tmonth = get_rule_month(target) return _quarter_months_conform(smonth, tmonth) return target in {"D", "C", "B", "M", "H", "T", "S", "L", "U", "N"} elif _is_quarterly(source): return target in {"D", "C", "B", "M", "H", "T", "S", "L", "U", "N"} elif _is_monthly(source): return target in {"D", "C", "B", "H", "T", "S", "L", "U", "N"} elif _is_weekly(source): return target in {source, "D", "C", "B", "H", "T", "S", "L", "U", "N"} elif source == "B": return target in {"D", "C", "B", "H", "T", "S", "L", "U", "N"} elif source == "C": return target in {"D", "C", "B", "H", "T", "S", "L", "U", "N"} elif source == "D": return target in {"D", "C", "B", "H", "T", "S", "L", "U", "N"} elif source == "H": return target in {"H", "T", "S", "L", "U", "N"} elif source == "T": return target in {"T", "S", "L", "U", "N"} elif source == "S": return target in {"S", "L", "U", "N"} elif source == "L": return target in {"L", "U", "N"} elif source == "U": return target in {"U", "N"} elif source == "N": return target in {"N"} else: return False def _maybe_coerce_freq(code) -> str: """we might need to coerce a code to a rule_code and uppercase it Parameters ---------- source : string or DateOffset Frequency converting from Returns ------- str """ assert code is not None if isinstance(code, DateOffset): code = code.rule_code return code.upper() def _quarter_months_conform(source: str, target: str) -> bool: snum = MONTH_NUMBERS[source] tnum = MONTH_NUMBERS[target] return snum % 3 == tnum % 3 def _is_annual(rule: str) -> bool: rule = rule.upper() return rule == "A" or rule.startswith("A-") def _is_quarterly(rule: str) -> bool: rule = rule.upper() return rule == "Q" or rule.startswith("Q-") or rule.startswith("BQ") def _is_monthly(rule: str) -> bool: rule = rule.upper() return rule == "M" or rule == "BM" def _is_weekly(rule: str) -> bool: rule = rule.upper() return rule == "W" or rule.startswith("W-")