projektAI/venv/Lib/site-packages/pandas/tests/series/methods/test_asof.py

import numpy as np
import pytest

from pandas._libs.tslibs import IncompatibleFrequency

from pandas import Series, Timestamp, date_range, isna, notna, offsets
import pandas._testing as tm


class TestSeriesAsof:
    def test_basic(self):

        # array or list or dates
        N = 50
        rng = date_range("1/1/1990", periods=N, freq="53s")
        ts = Series(np.random.randn(N), index=rng)
        ts.iloc[15:30] = np.nan
        dates = date_range("1/1/1990", periods=N * 3, freq="25s")

        result = ts.asof(dates)
        assert notna(result).all()
        lb = ts.index[14]
        ub = ts.index[30]

        result = ts.asof(list(dates))
        assert notna(result).all()
        lb = ts.index[14]
        ub = ts.index[30]

        mask = (result.index >= lb) & (result.index < ub)
        rs = result[mask]
        assert (rs == ts[lb]).all()

        val = result[result.index[result.index >= ub][0]]
        assert ts[ub] == val

    def test_scalar(self):

        N = 30
        rng = date_range("1/1/1990", periods=N, freq="53s")
        ts = Series(np.arange(N), index=rng)
        ts.iloc[5:10] = np.NaN
        ts.iloc[15:20] = np.NaN

        val1 = ts.asof(ts.index[7])
        val2 = ts.asof(ts.index[19])

        assert val1 == ts[4]
        assert val2 == ts[14]

        # accepts strings
        val1 = ts.asof(str(ts.index[7]))
        assert val1 == ts[4]

        # in there
        result = ts.asof(ts.index[3])
        assert result == ts[3]

        # no as of value
        d = ts.index[0] - offsets.BDay()
        assert np.isnan(ts.asof(d))

    def test_with_nan(self):
        # basic asof test
        rng = date_range("1/1/2000", "1/2/2000", freq="4h")
        s = Series(np.arange(len(rng)), index=rng)
        r = s.resample("2h").mean()

        result = r.asof(r.index)
        expected = Series(
            [0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6.0],
            index=date_range("1/1/2000", "1/2/2000", freq="2h"),
        )
        tm.assert_series_equal(result, expected)

        r.iloc[3:5] = np.nan
        result = r.asof(r.index)
        expected = Series(
            [0, 0, 1, 1, 1, 1, 3, 3, 4, 4, 5, 5, 6.0],
            index=date_range("1/1/2000", "1/2/2000", freq="2h"),
        )
        tm.assert_series_equal(result, expected)

        r.iloc[-3:] = np.nan
        result = r.asof(r.index)
        expected = Series(
            [0, 0, 1, 1, 1, 1, 3, 3, 4, 4, 4, 4, 4.0],
            index=date_range("1/1/2000", "1/2/2000", freq="2h"),
        )
        tm.assert_series_equal(result, expected)

    def test_periodindex(self):
        from pandas import PeriodIndex, period_range

        # array or list or dates
        N = 50
        rng = period_range("1/1/1990", periods=N, freq="H")
        ts = Series(np.random.randn(N), index=rng)
        ts.iloc[15:30] = np.nan
        dates = date_range("1/1/1990", periods=N * 3, freq="37min")

        result = ts.asof(dates)
        assert notna(result).all()
        lb = ts.index[14]
        ub = ts.index[30]

        result = ts.asof(list(dates))
        assert notna(result).all()
        lb = ts.index[14]
        ub = ts.index[30]

        pix = PeriodIndex(result.index.values, freq="H")
        mask = (pix >= lb) & (pix < ub)
        rs = result[mask]
        assert (rs == ts[lb]).all()

        ts.iloc[5:10] = np.nan
        ts.iloc[15:20] = np.nan

        val1 = ts.asof(ts.index[7])
        val2 = ts.asof(ts.index[19])

        assert val1 == ts[4]
        assert val2 == ts[14]

        # accepts strings
        val1 = ts.asof(str(ts.index[7]))
        assert val1 == ts[4]

        # in there
        assert ts.asof(ts.index[3]) == ts[3]

        # no as of value
        d = ts.index[0].to_timestamp() - offsets.BDay()
        assert isna(ts.asof(d))

        # Mismatched freq
        msg = "Input has different freq"
        with pytest.raises(IncompatibleFrequency, match=msg):
            ts.asof(rng.asfreq("D"))

    def test_errors(self):

        s = Series(
            [1, 2, 3],
            index=[Timestamp("20130101"), Timestamp("20130103"), Timestamp("20130102")],
        )

        # non-monotonic
        assert not s.index.is_monotonic
        with pytest.raises(ValueError, match="requires a sorted index"):
            s.asof(s.index[0])

        # subset with Series
        N = 10
        rng = date_range("1/1/1990", periods=N, freq="53s")
        s = Series(np.random.randn(N), index=rng)
        with pytest.raises(ValueError, match="not valid for Series"):
            s.asof(s.index[0], subset="foo")

    def test_all_nans(self):
        # GH 15713
        # series is all nans

        # testing non-default indexes
        N = 50
        rng = date_range("1/1/1990", periods=N, freq="53s")

        dates = date_range("1/1/1990", periods=N * 3, freq="25s")
        result = Series(np.nan, index=rng).asof(dates)
        expected = Series(np.nan, index=dates)
        tm.assert_series_equal(result, expected)

        # testing scalar input
        date = date_range("1/1/1990", periods=N * 3, freq="25s")[0]
        result = Series(np.nan, index=rng).asof(date)
        assert isna(result)

        # test name is propagated
        result = Series(np.nan, index=[1, 2, 3, 4], name="test").asof([4, 5])
        expected = Series(np.nan, index=[4, 5], name="test")
        tm.assert_series_equal(result, expected)
Działa 2021-06-06 22:13:05 +02:00			`import numpy as np`
			`import pytest`

			`from pandas._libs.tslibs import IncompatibleFrequency`

			`from pandas import Series, Timestamp, date_range, isna, notna, offsets`
			`import pandas._testing as tm`


			`class TestSeriesAsof:`
			`def test_basic(self):`

			`# array or list or dates`
			`N = 50`
			`rng = date_range("1/1/1990", periods=N, freq="53s")`
			`ts = Series(np.random.randn(N), index=rng)`
			`ts.iloc[15:30] = np.nan`
			`dates = date_range("1/1/1990", periods=N * 3, freq="25s")`

			`result = ts.asof(dates)`
			`assert notna(result).all()`
			`lb = ts.index[14]`
			`ub = ts.index[30]`

			`result = ts.asof(list(dates))`
			`assert notna(result).all()`
			`lb = ts.index[14]`
			`ub = ts.index[30]`

			`mask = (result.index >= lb) & (result.index < ub)`
			`rs = result[mask]`
			`assert (rs == ts[lb]).all()`

			`val = result[result.index[result.index >= ub][0]]`
			`assert ts[ub] == val`

			`def test_scalar(self):`

			`N = 30`
			`rng = date_range("1/1/1990", periods=N, freq="53s")`
			`ts = Series(np.arange(N), index=rng)`
			`ts.iloc[5:10] = np.NaN`
			`ts.iloc[15:20] = np.NaN`

			`val1 = ts.asof(ts.index[7])`
			`val2 = ts.asof(ts.index[19])`

			`assert val1 == ts[4]`
			`assert val2 == ts[14]`

			`# accepts strings`
			`val1 = ts.asof(str(ts.index[7]))`
			`assert val1 == ts[4]`

			`# in there`
			`result = ts.asof(ts.index[3])`
			`assert result == ts[3]`

			`# no as of value`
			`d = ts.index[0] - offsets.BDay()`
			`assert np.isnan(ts.asof(d))`

			`def test_with_nan(self):`
			`# basic asof test`
			`rng = date_range("1/1/2000", "1/2/2000", freq="4h")`
			`s = Series(np.arange(len(rng)), index=rng)`
			`r = s.resample("2h").mean()`

			`result = r.asof(r.index)`
			`expected = Series(`
			`[0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6.0],`
			`index=date_range("1/1/2000", "1/2/2000", freq="2h"),`
			`)`
			`tm.assert_series_equal(result, expected)`

			`r.iloc[3:5] = np.nan`
			`result = r.asof(r.index)`
			`expected = Series(`
			`[0, 0, 1, 1, 1, 1, 3, 3, 4, 4, 5, 5, 6.0],`
			`index=date_range("1/1/2000", "1/2/2000", freq="2h"),`
			`)`
			`tm.assert_series_equal(result, expected)`

			`r.iloc[-3:] = np.nan`
			`result = r.asof(r.index)`
			`expected = Series(`
			`[0, 0, 1, 1, 1, 1, 3, 3, 4, 4, 4, 4, 4.0],`
			`index=date_range("1/1/2000", "1/2/2000", freq="2h"),`
			`)`
			`tm.assert_series_equal(result, expected)`

			`def test_periodindex(self):`
			`from pandas import PeriodIndex, period_range`

			`# array or list or dates`
			`N = 50`
			`rng = period_range("1/1/1990", periods=N, freq="H")`
			`ts = Series(np.random.randn(N), index=rng)`
			`ts.iloc[15:30] = np.nan`
			`dates = date_range("1/1/1990", periods=N * 3, freq="37min")`

			`result = ts.asof(dates)`
			`assert notna(result).all()`
			`lb = ts.index[14]`
			`ub = ts.index[30]`

			`result = ts.asof(list(dates))`
			`assert notna(result).all()`
			`lb = ts.index[14]`
			`ub = ts.index[30]`

			`pix = PeriodIndex(result.index.values, freq="H")`
			`mask = (pix >= lb) & (pix < ub)`
			`rs = result[mask]`
			`assert (rs == ts[lb]).all()`

			`ts.iloc[5:10] = np.nan`
			`ts.iloc[15:20] = np.nan`

			`val1 = ts.asof(ts.index[7])`
			`val2 = ts.asof(ts.index[19])`

			`assert val1 == ts[4]`
			`assert val2 == ts[14]`

			`# accepts strings`
			`val1 = ts.asof(str(ts.index[7]))`
			`assert val1 == ts[4]`

			`# in there`
			`assert ts.asof(ts.index[3]) == ts[3]`

			`# no as of value`
			`d = ts.index[0].to_timestamp() - offsets.BDay()`
			`assert isna(ts.asof(d))`

			`# Mismatched freq`
			`msg = "Input has different freq"`
			`with pytest.raises(IncompatibleFrequency, match=msg):`
			`ts.asof(rng.asfreq("D"))`

			`def test_errors(self):`

			`s = Series(`
			`[1, 2, 3],`
			`index=[Timestamp("20130101"), Timestamp("20130103"), Timestamp("20130102")],`
			`)`

			`# non-monotonic`
			`assert not s.index.is_monotonic`
			`with pytest.raises(ValueError, match="requires a sorted index"):`
			`s.asof(s.index[0])`

			`# subset with Series`
			`N = 10`
			`rng = date_range("1/1/1990", periods=N, freq="53s")`
			`s = Series(np.random.randn(N), index=rng)`
			`with pytest.raises(ValueError, match="not valid for Series"):`
			`s.asof(s.index[0], subset="foo")`

			`def test_all_nans(self):`
			`# GH 15713`
			`# series is all nans`

			`# testing non-default indexes`
			`N = 50`
			`rng = date_range("1/1/1990", periods=N, freq="53s")`

			`dates = date_range("1/1/1990", periods=N * 3, freq="25s")`
			`result = Series(np.nan, index=rng).asof(dates)`
			`expected = Series(np.nan, index=dates)`
			`tm.assert_series_equal(result, expected)`

			`# testing scalar input`
			`date = date_range("1/1/1990", periods=N * 3, freq="25s")[0]`
			`result = Series(np.nan, index=rng).asof(date)`
			`assert isna(result)`

			`# test name is propagated`
			`result = Series(np.nan, index=[1, 2, 3, 4], name="test").asof([4, 5])`
			`expected = Series(np.nan, index=[4, 5], name="test")`
			`tm.assert_series_equal(result, expected)`