implemented _parse_date function to formalise date parsing
made Series a subclass of UserList to improve compatibility
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053a93900a
commit
cbace875c1
131
fincal/core.py
131
fincal/core.py
@ -1,4 +1,5 @@
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import datetime
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import datetime
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from collections import UserList
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from dataclasses import dataclass
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from dataclasses import dataclass
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from numbers import Number
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from numbers import Number
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from typing import Iterable, List, Literal, Mapping, Sequence, Tuple, Union
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from typing import Iterable, List, Literal, Mapping, Sequence, Tuple, Union
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@ -6,8 +7,8 @@ from typing import Iterable, List, Literal, Mapping, Sequence, Tuple, Union
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@dataclass
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@dataclass
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class FincalOptions:
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class FincalOptions:
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date_format: str = '%Y-%m-%d'
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date_format: str = "%Y-%m-%d"
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closest: str = 'before' # after
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closest: str = "before" # after
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@dataclass(frozen=True)
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@dataclass(frozen=True)
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@ -20,12 +21,12 @@ class Frequency:
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class AllFrequencies:
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class AllFrequencies:
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D = Frequency('daily', 'days', 1, 1, 'D')
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D = Frequency("daily", "days", 1, 1, "D")
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W = Frequency('weekly', 'days', 7, 7, 'W')
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W = Frequency("weekly", "days", 7, 7, "W")
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M = Frequency('monthly', 'months', 1, 30, 'M')
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M = Frequency("monthly", "months", 1, 30, "M")
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Q = Frequency('quarterly', 'months', 3, 91, 'Q')
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Q = Frequency("quarterly", "months", 3, 91, "Q")
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H = Frequency('half-yearly', 'months', 6, 182, 'H')
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H = Frequency("half-yearly", "months", 6, 182, "H")
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Y = Frequency('annual', 'years', 1, 365, 'Y')
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Y = Frequency("annual", "years", 1, 365, "Y")
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def _preprocess_timeseries(
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def _preprocess_timeseries(
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@ -33,9 +34,9 @@ def _preprocess_timeseries(
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Sequence[Iterable[Union[str, datetime.datetime, float]]],
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Sequence[Iterable[Union[str, datetime.datetime, float]]],
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Sequence[Mapping[str, Union[float, datetime.datetime]]],
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Sequence[Mapping[str, Union[float, datetime.datetime]]],
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Sequence[Mapping[Union[str, datetime.datetime], float]],
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Sequence[Mapping[Union[str, datetime.datetime], float]],
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Mapping[Union[str, datetime.datetime], float]
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Mapping[Union[str, datetime.datetime], float],
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],
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],
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date_format: str
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date_format: str,
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) -> List[Tuple[datetime.datetime, float]]:
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) -> List[Tuple[datetime.datetime, float]]:
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"""Converts any type of list to the correct type"""
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"""Converts any type of list to the correct type"""
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@ -75,12 +76,12 @@ def _preprocess_timeseries(
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def _preprocess_match_options(as_on_match: str, prior_match: str, closest: str) -> datetime.timedelta:
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def _preprocess_match_options(as_on_match: str, prior_match: str, closest: str) -> datetime.timedelta:
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"""Checks the arguments and returns appropriate timedelta objects"""
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"""Checks the arguments and returns appropriate timedelta objects"""
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deltas = {'exact': 0, 'previous': -1, 'next': 1}
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deltas = {"exact": 0, "previous": -1, "next": 1}
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if closest not in deltas.keys():
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if closest not in deltas.keys():
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raise ValueError(f"Invalid closest argument: {closest}")
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raise ValueError(f"Invalid closest argument: {closest}")
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as_on_match = closest if as_on_match == 'closest' else as_on_match
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as_on_match = closest if as_on_match == "closest" else as_on_match
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prior_match = closest if prior_match == 'closest' else prior_match
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prior_match = closest if prior_match == "closest" else prior_match
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if as_on_match in deltas.keys():
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if as_on_match in deltas.keys():
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as_on_delta = datetime.timedelta(days=deltas[as_on_match])
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as_on_delta = datetime.timedelta(days=deltas[as_on_match])
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@ -95,6 +96,24 @@ def _preprocess_match_options(as_on_match: str, prior_match: str, closest: str)
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return as_on_delta, prior_delta
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return as_on_delta, prior_delta
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def _parse_date(date: str, date_format: str = None):
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"""Parses date and handles errors"""
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if isinstance(date, (datetime.datetime, datetime.date)):
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return datetime.datetime.fromordinal(date.toordinal())
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if date_format is None:
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date_format = FincalOptions.date_format
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try:
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date = datetime.datetime.strptime(date, date_format)
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except TypeError:
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raise Exception("Date does not seem to be valid date-like string")
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except ValueError:
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raise Exception("Date could not be parsed. Have you set the correct date format in FincalOptions.date_format?")
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return date
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class _IndexSlicer:
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class _IndexSlicer:
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def __init__(self, parent_obj):
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def __init__(self, parent_obj):
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self.parent = parent_obj
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self.parent = parent_obj
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@ -112,7 +131,7 @@ class _IndexSlicer:
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return item
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return item
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class Series:
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class Series(UserList):
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def __init__(self, data):
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def __init__(self, data):
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if not isinstance(data, Sequence):
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if not isinstance(data, Sequence):
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raise TypeError("Series only supports creation using Sequence types")
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raise TypeError("Series only supports creation using Sequence types")
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@ -128,27 +147,26 @@ class Series:
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data = [datetime.datetime.strptime(i, FincalOptions.date_format) for i in data]
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data = [datetime.datetime.strptime(i, FincalOptions.date_format) for i in data]
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self.dtype = datetime.datetime
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self.dtype = datetime.datetime
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except ValueError:
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except ValueError:
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raise TypeError("Series does not support string data type except dates.\n"
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raise TypeError(
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"Hint: Try setting the date format using FincalOptions.date_format")
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"Series does not support string data type except dates.\n"
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elif isinstance(data[0], datetime.datetime):
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"Hint: Try setting the date format using FincalOptions.date_format"
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)
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elif isinstance(data[0], (datetime.datetime, datetime.date)):
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self.dtype = datetime.datetime
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self.dtype = datetime.datetime
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self.data = data
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self.data = [_parse_date(i) for i in data]
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else:
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else:
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raise TypeError(f"Cannot create series object from {type(data).__name__} of {type(data[0]).__name__}")
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raise TypeError(f"Cannot create series object from {type(data).__name__} of {type(data[0]).__name__}")
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def __repr__(self):
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def __repr__(self):
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return f"{self.__class__.__name__}({self.data})"
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return f"{self.__class__.__name__}({self.data})"
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def __getitem__(self, n):
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return self.data[n]
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def __len__(self):
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return len(self.data)
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def __gt__(self, other):
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def __gt__(self, other):
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if self.dtype == bool:
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if self.dtype == bool:
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raise TypeError("> not supported for boolean series")
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raise TypeError("> not supported for boolean series")
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if isinstance(other, (str, datetime.datetime, datetime.date)):
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other = _parse_date(other)
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if self.dtype == float and isinstance(other, Number) or isinstance(other, self.dtype):
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if self.dtype == float and isinstance(other, Number) or isinstance(other, self.dtype):
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gt = Series([i > other for i in self.data])
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gt = Series([i > other for i in self.data])
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else:
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else:
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@ -178,10 +196,7 @@ class TimeSeriesCore:
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"""Defines the core building blocks of a TimeSeries object"""
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"""Defines the core building blocks of a TimeSeries object"""
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def __init__(
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def __init__(
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self,
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self, data: List[Iterable], frequency: Literal["D", "W", "M", "Q", "H", "Y"], date_format: str = "%Y-%m-%d"
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data: List[Iterable],
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frequency: Literal['D', 'W', 'M', 'Q', 'H', 'Y'],
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date_format: str = "%Y-%m-%d"
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):
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):
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"""Instantiate a TimeSeries object
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"""Instantiate a TimeSeries object
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@ -241,42 +256,42 @@ class TimeSeriesCore:
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printable = {}
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printable = {}
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iter_f = iter(self.time_series)
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iter_f = iter(self.time_series)
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first_n = [next(iter_f) for i in range(n//2)]
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first_n = [next(iter_f) for i in range(n // 2)]
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iter_b = reversed(self.time_series)
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iter_b = reversed(self.time_series)
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last_n = [next(iter_b) for i in range(n//2)]
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last_n = [next(iter_b) for i in range(n // 2)]
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last_n.sort()
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last_n.sort()
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printable['start'] = [str((i, self.time_series[i])) for i in first_n]
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printable["start"] = [str((i, self.time_series[i])) for i in first_n]
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printable['end'] = [str((i, self.time_series[i])) for i in last_n]
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printable["end"] = [str((i, self.time_series[i])) for i in last_n]
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return printable
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return printable
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def __repr__(self):
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def __repr__(self):
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if len(self.time_series) > 6:
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if len(self.time_series) > 6:
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printable = self._get_printable_slice(6)
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printable = self._get_printable_slice(6)
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printable_str = "{}([{}\n\t ...\n\t {}], frequency={})".format(
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printable_str = "{}([{}\n\t ...\n\t {}], frequency={})".format(
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self.__class__.__name__,
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self.__class__.__name__,
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',\n\t '.join(printable['start']),
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",\n\t ".join(printable["start"]),
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',\n\t '.join(printable['end']),
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",\n\t ".join(printable["end"]),
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repr(self.frequency.symbol)
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repr(self.frequency.symbol),
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)
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)
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else:
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else:
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printable_str = "{}([{}], frequency={})".format(
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printable_str = "{}([{}], frequency={})".format(
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self.__class__.__name__,
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self.__class__.__name__,
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',\n\t'.join([str(i) for i in self.time_series.items()]),
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",\n\t".join([str(i) for i in self.time_series.items()]),
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repr(self.frequency.symbol)
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repr(self.frequency.symbol),
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)
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)
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return printable_str
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return printable_str
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def __str__(self):
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def __str__(self):
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if len(self.time_series) > 6:
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if len(self.time_series) > 6:
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printable = self._get_printable_slice(6)
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printable = self._get_printable_slice(6)
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printable_str = "[{}\n ...\n {}]".format(
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printable_str = "[{}\n ...\n {}]".format(
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',\n '.join(printable['start']),
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",\n ".join(printable["start"]),
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',\n '.join(printable['end']),
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",\n ".join(printable["end"]),
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)
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)
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else:
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else:
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printable_str = "[{}]".format(',\n '.join([str(i) for i in self.time_series.items()]))
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printable_str = "[{}]".format(",\n ".join([str(i) for i in self.time_series.items()]))
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return printable_str
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return printable_str
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def __getitem__(self, key):
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def __getitem__(self, key):
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@ -288,27 +303,25 @@ class TimeSeriesCore:
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else:
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else:
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dates_to_return = [self.dates[i] for i, j in enumerate(key) if j]
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dates_to_return = [self.dates[i] for i, j in enumerate(key) if j]
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data_to_return = [(key, self.time_series[key]) for key in dates_to_return]
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data_to_return = [(key, self.time_series[key]) for key in dates_to_return]
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return TimeSeriesCore(data_to_return)
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return TimeSeriesCore(data_to_return, frequency=self.frequency.symbol)
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if isinstance(key, int):
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if isinstance(key, int):
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raise KeyError(f"{key}. For index based slicing, use .iloc[{key}]")
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raise KeyError(f"{key}. For index based slicing, use .iloc[{key}]")
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elif isinstance(key, datetime.datetime):
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elif isinstance(key, (datetime.datetime, datetime.date)):
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key = _parse_date(key)
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item = (key, self.time_series[key])
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item = (key, self.time_series[key])
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if isinstance(key, str):
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elif isinstance(key, str):
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if key == 'dates':
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if key == "dates":
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return self.dates
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return self.dates
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elif key == 'values':
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elif key == "values":
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return self.values
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return self.values
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try:
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dt_key = datetime.datetime.strptime(key, FincalOptions.date_format)
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dt_key = _parse_date(key)
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item = (dt_key, self.time_series[dt_key])
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item = (dt_key, self.time_series[dt_key])
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except ValueError:
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raise KeyError(f"{repr(key)}. If you passed a date as a string, "
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"try setting the date format using Fincal.Options.date_format")
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except KeyError:
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raise KeyError(f"{repr(key)}. This date is not available.")
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elif isinstance(key, Sequence):
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elif isinstance(key, Sequence):
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item = [(k, self.time_series[k]) for k in key]
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keys = [_parse_date(i) for i in key]
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item = [(k, self.time_series[k]) for k in keys]
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else:
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else:
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raise TypeError(f"Invalid type {repr(type(key).__name__)} for slicing.")
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raise TypeError(f"Invalid type {repr(type(key).__name__)} for slicing.")
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return item
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return item
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