ffill now fills based on frequency

create date series supports eomonth parameter

fincal/fincal.py

@@ -1,211 +1,37 @@
+from __future__ import annotations
+
 import datetime
-from dataclasses import dataclass
-from typing import Dict, Iterable, List, Literal, Tuple, Union
+from typing import List, Union
 
 from dateutil.relativedelta import relativedelta
 
-
-@dataclass
-class Options:
-    date_format: str = '%Y-%m-%d'
-    closest: str = 'before'  # after
-
-
-@dataclass(frozen=True)
-class Frequency:
-    name: str
-    freq_type: str
-    value: int
-    days: int
-
-
-class AllFrequencies:
-    D = Frequency('daily', 'days', 1, 1)
-    W = Frequency('weekly', 'days', 7, 7)
-    M = Frequency('monthly', 'months', 1, 30)
-    Q = Frequency('quarterly', 'months', 3, 91)
-    H = Frequency('half-yearly', 'months', 6, 182)
-    Y = Frequency('annual', 'years', 1, 365)
+from .core import AllFrequencies, Frequency, TimeSeriesCore, _preprocess_match_options
 
 
 def create_date_series(
-    start_date: datetime.datetime,
-    end_date: datetime.datetime,
-    frequency: Frequency
+    start_date: datetime.datetime, end_date: datetime.datetime, frequency: Frequency, eomonth: bool = False
 ) -> List[datetime.datetime]:
     """Creates a date series using a frequency"""
 
-    print(f"{start_date=}, {end_date=}")
-    datediff = (end_date - start_date).days/frequency.days+1
+    if eomonth and frequency.days < AllFrequencies.M.days:
+        raise ValueError(f"eomonth cannot be set to True if frequency is higher than {AllFrequencies.M.name}")
+
+    datediff = (end_date - start_date).days / frequency.days + 1
     dates = []
 
     for i in range(0, int(datediff)):
-        diff = {frequency.freq_type: frequency.value*i}
-        dates.append(start_date + relativedelta(**diff))
+        diff = {frequency.freq_type: frequency.value * i}
+        date = start_date + relativedelta(**diff)
+        if eomonth:
+            if date.month == 12:
+                date = date.replace(day=31)
+            else:
+                date = date.replace(day=1).replace(month=date.month+1) - relativedelta(days=1)
+        dates.append(date)
 
     return dates
 
 
-def _preprocess_timeseries(
-    data: Union[
-        List[Iterable[Union[str, datetime.datetime, float]]],
-        List[Dict[str, Union[float, datetime.datetime]]],
-        List[Dict[Union[str, datetime.datetime], float]],
-        Dict[Union[str, datetime.datetime], float]
-    ],
-    date_format: str
-) -> List[Tuple[datetime.datetime, float]]:
-    """Converts any type of list to the correct type"""
-
-    if isinstance(data, list):
-        if isinstance(data[0], dict):
-            if len(data[0].keys()) == 2:
-                current_data = [tuple(i.values()) for i in data]
-            elif len(data[0].keys()) == 1:
-                current_data = [tuple(*i.items()) for i in data]
-            else:
-                raise TypeError("Could not parse the data")
-            current_data = _preprocess_timeseries(current_data, date_format)
-
-        elif isinstance(data[0], Iterable):
-            if isinstance(data[0][0], str):
-                current_data = []
-                for i in data:
-                    row = datetime.datetime.strptime(i[0], date_format), i[1]
-                    current_data.append(row)
-            elif isinstance(data[0][0], datetime.datetime):
-                current_data = [(i, j) for i, j in data]
-            else:
-                raise TypeError("Could not parse the data")
-        else:
-            raise TypeError("Could not parse the data")
-
-    elif isinstance(data, dict):
-        current_data = [(k, v) for k, v in data.items()]
-        current_data = _preprocess_timeseries(current_data, date_format)
-
-    else:
-        raise TypeError("Could not parse the data")
-    current_data.sort()
-    return current_data
-
-
-def _preprocess_match_options(as_on_match: str, prior_match: str, closest: str) -> datetime.timedelta:
-    """Checks the arguments and returns appropriate timedelta objects"""
-
-    deltas = {'exact': 0, 'previous': -1, 'next': 1}
-    if closest not in deltas.keys():
-        raise ValueError(f"Invalid closest argument: {closest}")
-
-    as_on_match = closest if as_on_match == 'closest' else as_on_match
-    prior_match = closest if prior_match == 'closest' else prior_match
-
-    if as_on_match in deltas.keys():
-        as_on_delta = datetime.timedelta(days=deltas[as_on_match])
-    else:
-        raise ValueError(f"Invalid as_on_match argument: {as_on_match}")
-
-    if prior_match in deltas.keys():
-        prior_delta = datetime.timedelta(days=deltas[prior_match])
-    else:
-        raise ValueError(f"Invalid prior_match argument: {prior_match}")
-
-    return as_on_delta, prior_delta
-
-
-class TimeSeriesCore:
-    """Defines the core building blocks of a TimeSeries object"""
-
-    def __init__(
-        self,
-        data: List[Iterable],
-        date_format: str = "%Y-%m-%d",
-        frequency=Literal['D', 'W', 'M', 'Q', 'H', 'Y']
-    ):
-        """Instantiate a TimeSeries object
-
-        Parameters
-        ----------
-        data : List[tuple]
-            Time Series data in the form of list of tuples.
-            The first element of each tuple should be a date and second element should be a value.
-
-        date_format : str, optional, default "%Y-%m-%d"
-            Specify the format of the date
-            Required only if the first argument of tuples is a string. Otherwise ignored.
-
-        frequency : str, optional, default "infer"
-            The frequency of the time series. Default is infer.
-            The class will try to infer the frequency automatically and adjust to the closest member.
-            Note that inferring frequencies can fail if the data is too irregular.
-            Valid values are {D, W, M, Q, H, Y}
-        """
-
-        data = _preprocess_timeseries(data, date_format=date_format)
-
-        self.time_series = dict(data)
-        self.dates = set(list(self.time_series))
-        if len(self.dates) != len(data):
-            print("Warning: The input data contains duplicate dates which have been ignored.")
-        self.start_date = list(self.time_series)[0]
-        self.end_date = list(self.time_series)[-1]
-        self.frequency = getattr(AllFrequencies, frequency)
-
-    def __repr__(self):
-        if len(self.time_series) > 6:
-            printable_data_1 = list(self.time_series)[:3]
-            printable_data_2 = list(self.time_series)[-3:]
-            printable_str = "TimeSeries([{}\n\t...\n\t{}])".format(
-                                ',\n\t'.join([str((i, self.time_series[i])) for i in printable_data_1]),
-                                ',\n\t'.join([str((i, self.time_series[i])) for i in printable_data_2])
-                                )
-        else:
-            printable_data = self.time_series
-            printable_str = "TimeSeries([{}])".format(',\n\t'.join(
-                                [str((i, self.time_series[i])) for i in printable_data]))
-        return printable_str
-
-    def __str__(self):
-        if len(self.time_series) > 6:
-            printable_data_1 = list(self.time_series)[:3]
-            printable_data_2 = list(self.time_series)[-3:]
-            printable_str = "[{}\n ...\n {}]".format(
-                                ',\n '.join([str((i, self.time_series[i])) for i in printable_data_1]),
-                                ',\n '.join([str((i, self.time_series[i])) for i in printable_data_2])
-                                )
-        else:
-            printable_data = self.time_series
-            printable_str = "[{}]".format(',\n '.join([str((i, self.time_series[i])) for i in printable_data]))
-        return printable_str
-
-    def __getitem__(self, n):
-        all_keys = list(self.time_series.keys())
-        if isinstance(n, int):
-            keys = [all_keys[n]]
-        else:
-            keys = all_keys[n]
-        item = [(key, self.time_series[key]) for key in keys]
-        if len(item) == 1:
-            return item[0]
-
-        return item
-
-    def __len__(self):
-        return len(self.time_series.keys())
-
-    def head(self, n: int = 6):
-        keys = list(self.time_series.keys())
-        keys = keys[:n]
-        result = [(key, self.time_series[key]) for key in keys]
-        return result
-
-    def tail(self, n: int = 6):
-        keys = list(self.time_series.keys())
-        keys = keys[-n:]
-        result = [(key, self.time_series[key]) for key in keys]
-        return result
-
-
 class TimeSeries(TimeSeriesCore):
     """Container for TimeSeries objects"""
 
@@ -216,12 +42,27 @@ class TimeSeries(TimeSeriesCore):
         res_string = "First date: {}\nLast date: {}\nNumber of rows: {}"
         return res_string.format(self.start_date, self.end_date, total_dates)
 
-    def ffill(self, inplace=False):
-        num_days = (self.end_date - self.start_date).days + 1
+    def ffill(self, inplace: bool = False, limit: int = None) -> Union[TimeSeries, None]:
+        """Forward fill missing dates in the time series
+
+        Parameters
+        ----------
+        inplace : bool
+            Modify the time-series data in place and return None.
+
+        limit : int, optional
+            Maximum number of periods to forward fill
+
+        Returns
+        -------
+            Returns a TimeSeries object if inplace is False, otherwise None
+        """
+
+        eomonth = True if self.frequency.days >= AllFrequencies.M.days else False
+        dates_to_fill = create_date_series(self.start_date, self.end_date, self.frequency, eomonth)
 
         new_ts = dict()
-        for i in range(num_days):
-            cur_date = self.start_date + datetime.timedelta(days=i)
+        for cur_date in dates_to_fill:
             try:
                 cur_val = self.time_series[cur_date]
             except KeyError:
@@ -255,11 +96,11 @@ class TimeSeries(TimeSeriesCore):
     def calculate_returns(
         self,
         as_on: datetime.datetime,
-        as_on_match: str = 'closest',
-        prior_match: str = 'closest',
+        as_on_match: str = "closest",
+        prior_match: str = "closest",
         closest: str = "previous",
         compounding: bool = True,
-        years: int = 1
+        years: int = 1,
     ) -> float:
         """Method to calculate returns for a certain time-period as on a particular date
 
@@ -328,8 +169,8 @@ class TimeSeries(TimeSeriesCore):
         from_date: datetime.date,
         to_date: datetime.date,
         frequency: str = "D",
-        as_on_match: str = 'closest',
-        prior_match: str = 'closest',
+        as_on_match: str = "closest",
+        prior_match: str = "closest",
         closest: str = "previous",
         compounding: bool = True,
         years: int = 1,
@@ -343,14 +184,20 @@ class TimeSeries(TimeSeriesCore):
 
         rolling_returns = []
         for i in dates:
-            returns = self.calculate_returns(as_on=i, compounding=compounding, years=years, as_on_match=as_on_match,
-                                             prior_match=prior_match, closest=closest)
+            returns = self.calculate_returns(
+                as_on=i,
+                compounding=compounding,
+                years=years,
+                as_on_match=as_on_match,
+                prior_match=prior_match,
+                closest=closest,
+            )
             rolling_returns.append((i, returns))
         self.rolling_returns = rolling_returns
         return self.rolling_returns
 
 
-if __name__ == '__main__':
+if __name__ == "__main__":
     date_series = [
         datetime.datetime(2020, 1, 1),
         datetime.datetime(2020, 1, 2),