from functools import partial

import numpy as np
import pytest

import pandas.util._test_decorators as td

from pandas import DataFrame, Series, concat, isna, notna
import pandas._testing as tm

import pandas.tseries.offsets as offsets


@td.skip_if_no_scipy
@pytest.mark.parametrize("sp_func, roll_func", [["kurtosis", "kurt"], ["skew", "skew"]])
def test_series(series, sp_func, roll_func):
    import scipy.stats

    compare_func = partial(getattr(scipy.stats, sp_func), bias=False)
    result = getattr(series.rolling(50), roll_func)()
    assert isinstance(result, Series)
    tm.assert_almost_equal(result.iloc[-1], compare_func(series[-50:]))


@td.skip_if_no_scipy
@pytest.mark.parametrize("sp_func, roll_func", [["kurtosis", "kurt"], ["skew", "skew"]])
def test_frame(raw, frame, sp_func, roll_func):
    import scipy.stats

    compare_func = partial(getattr(scipy.stats, sp_func), bias=False)
    result = getattr(frame.rolling(50), roll_func)()
    assert isinstance(result, DataFrame)
    tm.assert_series_equal(
        result.iloc[-1, :],
        frame.iloc[-50:, :].apply(compare_func, axis=0, raw=raw),
        check_names=False,
    )


@td.skip_if_no_scipy
@pytest.mark.parametrize("sp_func, roll_func", [["kurtosis", "kurt"], ["skew", "skew"]])
def test_time_rule_series(series, sp_func, roll_func):
    import scipy.stats

    compare_func = partial(getattr(scipy.stats, sp_func), bias=False)
    win = 25
    ser = series[::2].resample("B").mean()
    series_result = getattr(ser.rolling(window=win, min_periods=10), roll_func)()
    last_date = series_result.index[-1]
    prev_date = last_date - 24 * offsets.BDay()

    trunc_series = series[::2].truncate(prev_date, last_date)
    tm.assert_almost_equal(series_result[-1], compare_func(trunc_series))


@td.skip_if_no_scipy
@pytest.mark.parametrize("sp_func, roll_func", [["kurtosis", "kurt"], ["skew", "skew"]])
def test_time_rule_frame(raw, frame, sp_func, roll_func):
    import scipy.stats

    compare_func = partial(getattr(scipy.stats, sp_func), bias=False)
    win = 25
    frm = frame[::2].resample("B").mean()
    frame_result = getattr(frm.rolling(window=win, min_periods=10), roll_func)()
    last_date = frame_result.index[-1]
    prev_date = last_date - 24 * offsets.BDay()

    trunc_frame = frame[::2].truncate(prev_date, last_date)
    tm.assert_series_equal(
        frame_result.xs(last_date),
        trunc_frame.apply(compare_func, raw=raw),
        check_names=False,
    )


@td.skip_if_no_scipy
@pytest.mark.parametrize("sp_func, roll_func", [["kurtosis", "kurt"], ["skew", "skew"]])
def test_nans(sp_func, roll_func):
    import scipy.stats

    compare_func = partial(getattr(scipy.stats, sp_func), bias=False)
    obj = Series(np.random.randn(50))
    obj[:10] = np.NaN
    obj[-10:] = np.NaN

    result = getattr(obj.rolling(50, min_periods=30), roll_func)()
    tm.assert_almost_equal(result.iloc[-1], compare_func(obj[10:-10]))

    # min_periods is working correctly
    result = getattr(obj.rolling(20, min_periods=15), roll_func)()
    assert isna(result.iloc[23])
    assert not isna(result.iloc[24])

    assert not isna(result.iloc[-6])
    assert isna(result.iloc[-5])

    obj2 = Series(np.random.randn(20))
    result = getattr(obj2.rolling(10, min_periods=5), roll_func)()
    assert isna(result.iloc[3])
    assert notna(result.iloc[4])

    result0 = getattr(obj.rolling(20, min_periods=0), roll_func)()
    result1 = getattr(obj.rolling(20, min_periods=1), roll_func)()
    tm.assert_almost_equal(result0, result1)


@pytest.mark.parametrize("minp", [0, 99, 100])
@pytest.mark.parametrize("roll_func", ["kurt", "skew"])
def test_min_periods(series, minp, roll_func):
    result = getattr(series.rolling(len(series) + 1, min_periods=minp), roll_func)()
    expected = getattr(series.rolling(len(series), min_periods=minp), roll_func)()
    nan_mask = isna(result)
    tm.assert_series_equal(nan_mask, isna(expected))

    nan_mask = ~nan_mask
    tm.assert_almost_equal(result[nan_mask], expected[nan_mask])


@pytest.mark.parametrize("roll_func", ["kurt", "skew"])
def test_center(roll_func):
    obj = Series(np.random.randn(50))
    obj[:10] = np.NaN
    obj[-10:] = np.NaN

    result = getattr(obj.rolling(20, center=True), roll_func)()
    expected = getattr(concat([obj, Series([np.NaN] * 9)]).rolling(20), roll_func)()[
        9:
    ].reset_index(drop=True)
    tm.assert_series_equal(result, expected)


@pytest.mark.parametrize("roll_func", ["kurt", "skew"])
def test_center_reindex_series(series, roll_func):
    # shifter index
    s = [f"x{x:d}" for x in range(12)]

    series_xp = (
        getattr(
            series.reindex(list(series.index) + s).rolling(window=25),
            roll_func,
        )()
        .shift(-12)
        .reindex(series.index)
    )
    series_rs = getattr(series.rolling(window=25, center=True), roll_func)()
    tm.assert_series_equal(series_xp, series_rs)


@pytest.mark.parametrize("roll_func", ["kurt", "skew"])
def test_center_reindex_frame(frame, roll_func):
    # shifter index
    s = [f"x{x:d}" for x in range(12)]

    frame_xp = (
        getattr(
            frame.reindex(list(frame.index) + s).rolling(window=25),
            roll_func,
        )()
        .shift(-12)
        .reindex(frame.index)
    )
    frame_rs = getattr(frame.rolling(window=25, center=True), roll_func)()
    tm.assert_frame_equal(frame_xp, frame_rs)