Traktor/myenv/Lib/site-packages/scipy/stats/tests/test_entropy.py
2024-05-23 01:57:24 +02:00

287 lines
11 KiB
Python

import numpy as np
from numpy.testing import assert_equal, assert_allclose
# avoid new uses of the following; prefer assert/np.testing.assert_allclose
from numpy.testing import (assert_, assert_almost_equal,
assert_array_almost_equal)
import pytest
from pytest import raises as assert_raises
import scipy.stats as stats
class TestEntropy:
def test_entropy_positive(self):
# See ticket #497
pk = [0.5, 0.2, 0.3]
qk = [0.1, 0.25, 0.65]
eself = stats.entropy(pk, pk)
edouble = stats.entropy(pk, qk)
assert_(0.0 == eself)
assert_(edouble >= 0.0)
def test_entropy_base(self):
pk = np.ones(16, float)
S = stats.entropy(pk, base=2.)
assert_(abs(S - 4.) < 1.e-5)
qk = np.ones(16, float)
qk[:8] = 2.
S = stats.entropy(pk, qk)
S2 = stats.entropy(pk, qk, base=2.)
assert_(abs(S/S2 - np.log(2.)) < 1.e-5)
def test_entropy_zero(self):
# Test for PR-479
assert_almost_equal(stats.entropy([0, 1, 2]), 0.63651416829481278,
decimal=12)
def test_entropy_2d(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
qk = [[0.2, 0.1], [0.3, 0.6], [0.5, 0.3]]
assert_array_almost_equal(stats.entropy(pk, qk),
[0.1933259, 0.18609809])
def test_entropy_2d_zero(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
qk = [[0.0, 0.1], [0.3, 0.6], [0.5, 0.3]]
assert_array_almost_equal(stats.entropy(pk, qk),
[np.inf, 0.18609809])
pk[0][0] = 0.0
assert_array_almost_equal(stats.entropy(pk, qk),
[0.17403988, 0.18609809])
def test_entropy_base_2d_nondefault_axis(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
assert_array_almost_equal(stats.entropy(pk, axis=1),
[0.63651417, 0.63651417, 0.66156324])
def test_entropy_2d_nondefault_axis(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
qk = [[0.2, 0.1], [0.3, 0.6], [0.5, 0.3]]
assert_array_almost_equal(stats.entropy(pk, qk, axis=1),
[0.231049, 0.231049, 0.127706])
def test_entropy_raises_value_error(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
qk = [[0.1, 0.2], [0.6, 0.3]]
assert_raises(ValueError, stats.entropy, pk, qk)
def test_base_entropy_with_axis_0_is_equal_to_default(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
assert_array_almost_equal(stats.entropy(pk, axis=0),
stats.entropy(pk))
def test_entropy_with_axis_0_is_equal_to_default(self):
pk = [[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]]
qk = [[0.2, 0.1], [0.3, 0.6], [0.5, 0.3]]
assert_array_almost_equal(stats.entropy(pk, qk, axis=0),
stats.entropy(pk, qk))
def test_base_entropy_transposed(self):
pk = np.array([[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]])
assert_array_almost_equal(stats.entropy(pk.T).T,
stats.entropy(pk, axis=1))
def test_entropy_transposed(self):
pk = np.array([[0.1, 0.2], [0.6, 0.3], [0.3, 0.5]])
qk = np.array([[0.2, 0.1], [0.3, 0.6], [0.5, 0.3]])
assert_array_almost_equal(stats.entropy(pk.T, qk.T).T,
stats.entropy(pk, qk, axis=1))
def test_entropy_broadcasting(self):
np.random.rand(0)
x = np.random.rand(3)
y = np.random.rand(2, 1)
res = stats.entropy(x, y, axis=-1)
assert_equal(res[0], stats.entropy(x, y[0]))
assert_equal(res[1], stats.entropy(x, y[1]))
def test_entropy_shape_mismatch(self):
x = np.random.rand(10, 1, 12)
y = np.random.rand(11, 2)
message = "Array shapes are incompatible for broadcasting."
with pytest.raises(ValueError, match=message):
stats.entropy(x, y)
def test_input_validation(self):
x = np.random.rand(10)
message = "`base` must be a positive number."
with pytest.raises(ValueError, match=message):
stats.entropy(x, base=-2)
class TestDifferentialEntropy:
"""
Vasicek results are compared with the R package vsgoftest.
# library(vsgoftest)
#
# samp <- c(<values>)
# entropy.estimate(x = samp, window = <window_length>)
"""
def test_differential_entropy_vasicek(self):
random_state = np.random.RandomState(0)
values = random_state.standard_normal(100)
entropy = stats.differential_entropy(values, method='vasicek')
assert_allclose(entropy, 1.342551, rtol=1e-6)
entropy = stats.differential_entropy(values, window_length=1,
method='vasicek')
assert_allclose(entropy, 1.122044, rtol=1e-6)
entropy = stats.differential_entropy(values, window_length=8,
method='vasicek')
assert_allclose(entropy, 1.349401, rtol=1e-6)
def test_differential_entropy_vasicek_2d_nondefault_axis(self):
random_state = np.random.RandomState(0)
values = random_state.standard_normal((3, 100))
entropy = stats.differential_entropy(values, axis=1, method='vasicek')
assert_allclose(
entropy,
[1.342551, 1.341826, 1.293775],
rtol=1e-6,
)
entropy = stats.differential_entropy(values, axis=1, window_length=1,
method='vasicek')
assert_allclose(
entropy,
[1.122044, 1.102944, 1.129616],
rtol=1e-6,
)
entropy = stats.differential_entropy(values, axis=1, window_length=8,
method='vasicek')
assert_allclose(
entropy,
[1.349401, 1.338514, 1.292332],
rtol=1e-6,
)
def test_differential_entropy_raises_value_error(self):
random_state = np.random.RandomState(0)
values = random_state.standard_normal((3, 100))
error_str = (
r"Window length \({window_length}\) must be positive and less "
r"than half the sample size \({sample_size}\)."
)
sample_size = values.shape[1]
for window_length in {-1, 0, sample_size//2, sample_size}:
formatted_error_str = error_str.format(
window_length=window_length,
sample_size=sample_size,
)
with assert_raises(ValueError, match=formatted_error_str):
stats.differential_entropy(
values,
window_length=window_length,
axis=1,
)
def test_base_differential_entropy_with_axis_0_is_equal_to_default(self):
random_state = np.random.RandomState(0)
values = random_state.standard_normal((100, 3))
entropy = stats.differential_entropy(values, axis=0)
default_entropy = stats.differential_entropy(values)
assert_allclose(entropy, default_entropy)
def test_base_differential_entropy_transposed(self):
random_state = np.random.RandomState(0)
values = random_state.standard_normal((3, 100))
assert_allclose(
stats.differential_entropy(values.T).T,
stats.differential_entropy(values, axis=1),
)
def test_input_validation(self):
x = np.random.rand(10)
message = "`base` must be a positive number or `None`."
with pytest.raises(ValueError, match=message):
stats.differential_entropy(x, base=-2)
message = "`method` must be one of..."
with pytest.raises(ValueError, match=message):
stats.differential_entropy(x, method='ekki-ekki')
@pytest.mark.parametrize('method', ['vasicek', 'van es',
'ebrahimi', 'correa'])
def test_consistency(self, method):
# test that method is a consistent estimator
n = 10000 if method == 'correa' else 1000000
rvs = stats.norm.rvs(size=n, random_state=0)
expected = stats.norm.entropy()
res = stats.differential_entropy(rvs, method=method)
assert_allclose(res, expected, rtol=0.005)
# values from differential_entropy reference [6], table 1, n=50, m=7
norm_rmse_std_cases = { # method: (RMSE, STD)
'vasicek': (0.198, 0.109),
'van es': (0.212, 0.110),
'correa': (0.135, 0.112),
'ebrahimi': (0.128, 0.109)
}
@pytest.mark.parametrize('method, expected',
list(norm_rmse_std_cases.items()))
def test_norm_rmse_std(self, method, expected):
# test that RMSE and standard deviation of estimators matches values
# given in differential_entropy reference [6]. Incidentally, also
# tests vectorization.
reps, n, m = 10000, 50, 7
rmse_expected, std_expected = expected
rvs = stats.norm.rvs(size=(reps, n), random_state=0)
true_entropy = stats.norm.entropy()
res = stats.differential_entropy(rvs, window_length=m,
method=method, axis=-1)
assert_allclose(np.sqrt(np.mean((res - true_entropy)**2)),
rmse_expected, atol=0.005)
assert_allclose(np.std(res), std_expected, atol=0.002)
# values from differential_entropy reference [6], table 2, n=50, m=7
expon_rmse_std_cases = { # method: (RMSE, STD)
'vasicek': (0.194, 0.148),
'van es': (0.179, 0.149),
'correa': (0.155, 0.152),
'ebrahimi': (0.151, 0.148)
}
@pytest.mark.parametrize('method, expected',
list(expon_rmse_std_cases.items()))
def test_expon_rmse_std(self, method, expected):
# test that RMSE and standard deviation of estimators matches values
# given in differential_entropy reference [6]. Incidentally, also
# tests vectorization.
reps, n, m = 10000, 50, 7
rmse_expected, std_expected = expected
rvs = stats.expon.rvs(size=(reps, n), random_state=0)
true_entropy = stats.expon.entropy()
res = stats.differential_entropy(rvs, window_length=m,
method=method, axis=-1)
assert_allclose(np.sqrt(np.mean((res - true_entropy)**2)),
rmse_expected, atol=0.005)
assert_allclose(np.std(res), std_expected, atol=0.002)
@pytest.mark.parametrize('n, method', [(8, 'van es'),
(12, 'ebrahimi'),
(1001, 'vasicek')])
def test_method_auto(self, n, method):
rvs = stats.norm.rvs(size=(n,), random_state=0)
res1 = stats.differential_entropy(rvs)
res2 = stats.differential_entropy(rvs, method=method)
assert res1 == res2