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import ot
import numpy as np
# import pytest
def test_sinkhorn():
# test sinkhorn
n = 100
np.random.seed(0)
x = np.random.randn(n, 2)
u = ot.utils.unif(n)
M = ot.dist(x, x)
G = ot.sinkhorn(u, u, M, 1, stopThr=1e-10)
# check constratints
assert np.allclose(u, G.sum(1), atol=1e-05) # cf convergence sinkhorn
assert np.allclose(u, G.sum(0), atol=1e-05) # cf convergence sinkhorn
def test_sinkhorn_variants():
# test sinkhorn
n = 100
np.random.seed(0)
x = np.random.randn(n, 2)
u = ot.utils.unif(n)
M = ot.dist(x, x)
G0 = ot.sinkhorn(u, u, M, 1, method='sinkhorn', stopThr=1e-10)
Gs = ot.sinkhorn(u, u, M, 1, method='sinkhorn_stabilized', stopThr=1e-10)
Ges = ot.sinkhorn(
u, u, M, 1, method='sinkhorn_epsilon_scaling', stopThr=1e-10)
# check constratints
assert np.allclose(G0, Gs, atol=1e-05)
assert np.allclose(G0, Ges, atol=1e-05)
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