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| author | Eric Wieser <wieser.eric@gmail.com> | 2019-04-23 01:55:21 -0700 |
|---|---|---|
| committer | Eric Wieser <wieser.eric@gmail.com> | 2019-04-23 22:48:02 -0700 |
| commit | 9a23f16b67958205468f7f5c4e0966f393558d9a (patch) | |
| tree | 9f42fe0fec010d33a0708a16f9d7af13c71b1c73 /numpy/lib/tests/test_function_base.py | |
| parent | f91b033aa35b929610c0db12f16b1b0c1ddc08e6 (diff) | |
| download | numpy-9a23f16b67958205468f7f5c4e0966f393558d9a.tar.gz | |
ENH: Add support for Fraction to percentile and quantile
With true division available, using `.0` to convert integers to floats offers no value, and harms compatibility with precise rational types.
Diffstat (limited to 'numpy/lib/tests/test_function_base.py')
| -rw-r--r-- | numpy/lib/tests/test_function_base.py | 36 |
1 files changed, 36 insertions, 0 deletions
diff --git a/numpy/lib/tests/test_function_base.py b/numpy/lib/tests/test_function_base.py index e2c24a123..6d32c365a 100644 --- a/numpy/lib/tests/test_function_base.py +++ b/numpy/lib/tests/test_function_base.py @@ -5,6 +5,7 @@ import warnings import sys import decimal import types +from fractions import Fraction import pytest import numpy as np @@ -2508,6 +2509,21 @@ class TestPercentile(object): assert_equal(np.percentile(x, 0), np.nan) assert_equal(np.percentile(x, 0, interpolation='nearest'), np.nan) + def test_fraction(self): + x = [Fraction(i, 2) for i in np.arange(8)] + + p = np.percentile(x, Fraction(0)) + assert_equal(p, Fraction(0)) + assert_equal(type(p), Fraction) + + p = np.percentile(x, Fraction(100)) + assert_equal(p, Fraction(7, 2)) + assert_equal(type(p), Fraction) + + p = np.percentile(x, Fraction(50)) + assert_equal(p, Fraction(7, 4)) + assert_equal(type(p), Fraction) + def test_api(self): d = np.ones(5) np.percentile(d, 5, None, None, False) @@ -2912,6 +2928,26 @@ class TestQuantile(object): assert_equal(np.quantile(x, 1), 3.5) assert_equal(np.quantile(x, 0.5), 1.75) + def test_fraction(self): + # fractional input, integral quantile + x = [Fraction(i, 2) for i in np.arange(8)] + + q = np.quantile(x, 0) + assert_equal(q, 0) + assert_equal(type(q), Fraction) + + q = np.quantile(x, 1) + assert_equal(q, Fraction(7, 2)) + assert_equal(type(q), Fraction) + + q = np.quantile(x, Fraction(1, 2)) + assert_equal(q, Fraction(7, 4)) + assert_equal(type(q), Fraction) + + # repeat with integral input but fractional quantile + x = np.arange(8) + assert_equal(np.quantile(x, Fraction(1, 2)), Fraction(7, 2)) + def test_no_p_overwrite(self): # this is worth retesting, because quantile does not make a copy p0 = np.array([0, 0.75, 0.25, 0.5, 1.0]) |