PyFacts/tests/test_fincal.py

232 lines
9.4 KiB
Python

import datetime
import os
import random
from typing import Literal, Sequence
import pytest
from fincal.core import FincalOptions, Frequency, Series
from fincal.fincal import TimeSeries, create_date_series
THIS_DIR = os.path.dirname(os.path.abspath(__file__))
sample_data_path = os.path.join(THIS_DIR, "data")
def create_test_data(
frequency: str,
eomonth: bool,
n: int,
gaps: float,
month_position: Literal["start", "middle", "end"],
date_as_str: bool,
as_outer_type: Literal["dict", "list"] = "list",
as_inner_type: Literal["dict", "list", "tuple"] = "tuple",
) -> Sequence[tuple]:
start_dates = {
"start": datetime.datetime(2016, 1, 1),
"middle": datetime.datetime(2016, 1, 15),
"end": datetime.datetime(2016, 1, 31),
}
end_date = datetime.datetime(2021, 12, 31)
dates = create_date_series(start_dates[month_position], end_date, frequency=frequency, eomonth=eomonth)
dates = dates[:n]
if gaps:
num_gaps = int(len(dates) * gaps)
to_remove = random.sample(dates, num_gaps)
for i in to_remove:
dates.remove(i)
if date_as_str:
dates = [i.strftime("%Y-%m-%d") for i in dates]
values = [random.randint(8000, 90000) / 100 for _ in dates]
data = list(zip(dates, values))
if as_outer_type == "list":
if as_inner_type == "list":
data = [list(i) for i in data]
elif as_inner_type == "dict[1]":
data = [dict((i,)) for i in data]
elif as_inner_type == "dict[2]":
data = [dict(date=i, value=j) for i, j in data]
elif as_outer_type == "dict":
data = dict(data)
return data
class TestDateSeries:
def test_daily(self):
start_date = datetime.datetime(2020, 1, 1)
end_date = datetime.datetime(2020, 12, 31)
d = create_date_series(start_date, end_date, frequency="D")
assert len(d) == 366
start_date = datetime.datetime(2017, 1, 1)
end_date = datetime.datetime(2017, 12, 31)
d = create_date_series(start_date, end_date, frequency="D")
assert len(d) == 365
with pytest.raises(ValueError):
create_date_series(start_date, end_date, frequency="D", eomonth=True)
def test_monthly(self):
start_date = datetime.datetime(2020, 1, 1)
end_date = datetime.datetime(2020, 12, 31)
d = create_date_series(start_date, end_date, frequency="M")
assert len(d) == 12
d = create_date_series(start_date, end_date, frequency="M", eomonth=True)
assert datetime.datetime(2020, 2, 29) in d
start_date = datetime.datetime(2020, 1, 31)
d = create_date_series(start_date, end_date, frequency="M")
assert datetime.datetime(2020, 2, 29) in d
assert datetime.datetime(2020, 8, 31) in d
assert datetime.datetime(2020, 10, 30) not in d
start_date = datetime.datetime(2020, 2, 29)
d = create_date_series(start_date, end_date, frequency="M")
assert len(d) == 11
assert datetime.datetime(2020, 2, 29) in d
assert datetime.datetime(2020, 8, 31) not in d
assert datetime.datetime(2020, 10, 29) in d
def test_quarterly(self):
start_date = datetime.datetime(2018, 1, 1)
end_date = datetime.datetime(2020, 12, 31)
d = create_date_series(start_date, end_date, frequency="Q")
assert len(d) == 12
d = create_date_series(start_date, end_date, frequency="Q", eomonth=True)
assert datetime.datetime(2020, 4, 30) in d
start_date = datetime.datetime(2020, 1, 31)
d = create_date_series(start_date, end_date, frequency="Q")
assert len(d) == 4
assert datetime.datetime(2020, 2, 29) not in d
assert max(d) == datetime.datetime(2020, 10, 31)
start_date = datetime.datetime(2020, 2, 29)
d = create_date_series(start_date, end_date, frequency="Q")
assert datetime.datetime(2020, 2, 29) in d
assert datetime.datetime(2020, 8, 31) not in d
assert datetime.datetime(2020, 11, 29) in d
d = create_date_series(start_date, end_date, frequency="Q", eomonth=True)
assert datetime.datetime(2020, 11, 30) in d
class TestFincalBasic:
def test_creation(self):
data = create_test_data(frequency="D", eomonth=False, n=50, gaps=0, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
assert len(time_series) == 50
assert isinstance(time_series.frequency, Frequency)
assert time_series.frequency.days == 1
ffill_data = time_series.ffill()
assert len(ffill_data) == 50
data = create_test_data(frequency="D", eomonth=False, n=500, gaps=0.1, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
assert len(time_series) == 450
def test_fill(self):
data = create_test_data(frequency="D", eomonth=False, n=500, gaps=0.1, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
ffill_data = time_series.ffill()
assert len(ffill_data) >= 498
ffill_data = time_series.ffill(inplace=True)
assert ffill_data is None
assert len(time_series) >= 498
data = create_test_data(frequency="D", eomonth=False, n=500, gaps=0.1, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
bfill_data = time_series.bfill()
assert len(bfill_data) >= 498
bfill_data = time_series.bfill(inplace=True)
assert bfill_data is None
assert len(time_series) >= 498
data = [("2021-01-01", 220), ("2021-01-02", 230), ("2021-03-04", 240)]
ts = TimeSeries(data, frequency="D")
ff = ts.ffill()
assert ff["2021-01-03"][1] == 230
bf = ts.bfill()
assert bf["2021-01-03"][1] == 240
def test_iloc_slicing(self):
data = create_test_data(frequency="D", eomonth=False, n=50, gaps=0, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
assert time_series.iloc[0] is not None
assert time_series.iloc[:3] is not None
assert time_series.iloc[5:7] is not None
assert isinstance(time_series.iloc[0], tuple)
assert isinstance(time_series.iloc[10:20], list)
assert len(time_series.iloc[10:20]) == 10
def test_key_slicing(self):
data = create_test_data(frequency="D", eomonth=False, n=50, gaps=0, month_position="start", date_as_str=True)
time_series = TimeSeries(data, frequency="D")
available_date = time_series.iloc[5][0]
assert time_series[available_date] is not None
assert isinstance(time_series["dates"], Series)
assert isinstance(time_series["values"], Series)
assert len(time_series.dates) == 50
assert len(time_series.values) == 50
class TestReturns:
data = [
('2020-01-01', 10),
('2020-02-01', 12),
('2020-03-01', 14),
('2020-04-01', 16),
('2020-05-01', 18),
('2020-06-01', 20),
('2020-07-01', 22),
('2020-08-01', 24),
('2020-09-01', 26),
('2020-10-01', 28),
('2020-11-01', 30),
('2020-12-01', 32),
('2021-01-01', 34)
]
def test_returns_calc(self):
ts = TimeSeries(self.data, frequency='M')
returns = ts.calculate_returns("2021-01-01", compounding=False, interval_type='years', interval_value=1)
assert returns[1] == 2.4
returns = ts.calculate_returns("2020-04-01", compounding=False, interval_type='months', interval_value=3)
assert round(returns[1], 4) == 0.6
returns = ts.calculate_returns("2020-04-01", compounding=True, interval_type='months', interval_value=3)
assert round(returns[1], 4) == 5.5536
returns = ts.calculate_returns("2020-04-01", compounding=False, interval_type='days', interval_value=90)
assert round(returns[1], 4) == 0.6
returns = ts.calculate_returns("2020-04-01", compounding=True, interval_type='days', interval_value=90)
assert round(returns[1], 4) == 5.727
returns = ts.calculate_returns("2020-04-10", compounding=True, interval_type='days', interval_value=90)
assert round(returns[1], 4) == 5.727
with pytest.raises(ValueError):
ts.calculate_returns("2020-04-10", interval_type='days', interval_value=90, as_on_match='exact')
def test_date_formats(self):
ts = TimeSeries(self.data, frequency='M')
FincalOptions.date_format = '%d-%m-%Y'
with pytest.raises(ValueError):
ts.calculate_returns("2020-04-10", compounding=True, interval_type='days', interval_value=90)
returns1 = ts.calculate_returns("2020-04-10", interval_type='days', interval_value=90, date_format='%Y-%m-%d')
returns2 = ts.calculate_returns("10-04-2020", interval_type='days', interval_value=90)
assert round(returns1[1], 4) == round(returns2[1], 4) == 5.727
FincalOptions.date_format = '%m-%d-%Y'
with pytest.raises(ValueError):
ts.calculate_returns("2020-04-10", compounding=True, interval_type='days', interval_value=90)
returns1 = ts.calculate_returns("2020-04-10", interval_type='days', interval_value=90, date_format='%Y-%m-%d')
returns2 = ts.calculate_returns("04-10-2020", interval_type='days', interval_value=90)
assert round(returns1[1], 4) == round(returns2[1], 4) == 5.727