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diff --git a/src/python/test/test_dtm.py b/src/python/test/test_dtm.py
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+""" This file is part of the Gudhi Library - https://gudhi.inria.fr/ - which is released under MIT.
+    See file LICENSE or go to https://gudhi.inria.fr/licensing/ for full license details.
+    Author(s):       Marc Glisse
+
+    Copyright (C) 2020 Inria
+
+    Modification(s):
+      - YYYY/MM Author: Description of the modification
+"""
+
+from gudhi.point_cloud.dtm import DistanceToMeasure, DTMDensity
+import numpy
+import pytest
+import torch
+import math
+
+
+def test_dtm_compare_euclidean():
+    pts = numpy.random.rand(1000, 4)
+    k = 6
+    dtm = DistanceToMeasure(k, implementation="ckdtree")
+    r0 = dtm.fit_transform(pts)
+    dtm = DistanceToMeasure(k, implementation="sklearn")
+    r1 = dtm.fit_transform(pts)
+    assert r1 == pytest.approx(r0)
+    dtm = DistanceToMeasure(k, implementation="sklearn", algorithm="brute")
+    r2 = dtm.fit_transform(pts)
+    assert r2 == pytest.approx(r0)
+    dtm = DistanceToMeasure(k, implementation="hnsw")
+    r3 = dtm.fit_transform(pts)
+    assert r3 == pytest.approx(r0, rel=0.1)
+    from scipy.spatial.distance import cdist
+
+    d = cdist(pts, pts)
+    dtm = DistanceToMeasure(k, metric="precomputed")
+    r4 = dtm.fit_transform(d)
+    assert r4 == pytest.approx(r0)
+    dtm = DistanceToMeasure(k, metric="precomputed", n_jobs=2)
+    r4b = dtm.fit_transform(d)
+    assert r4b == pytest.approx(r0)
+    dtm = DistanceToMeasure(k, implementation="keops")
+    r5 = dtm.fit_transform(pts)
+    assert r5 == pytest.approx(r0)
+    pts2 = torch.tensor(pts, requires_grad=True)
+    assert pts2.grad is None
+    dtm = DistanceToMeasure(k, implementation="keops", enable_autodiff=True)
+    r6 = dtm.fit_transform(pts2)
+    assert r6.detach().numpy() == pytest.approx(r0)
+    r6.sum().backward()
+    assert not torch.isnan(pts2.grad).any()
+    pts2 = torch.tensor(pts, requires_grad=True)
+    assert pts2.grad is None
+    dtm = DistanceToMeasure(k, implementation="ckdtree", enable_autodiff=True)
+    r7 = dtm.fit_transform(pts2)
+    assert r7.detach().numpy() == pytest.approx(r0)
+    r7.sum().backward()
+    assert not torch.isnan(pts2.grad).any()
+
+
+def test_dtm_precomputed():
+    dist = numpy.array([[1.0, 3, 8], [1, 5, 5], [0, 2, 3]])
+    dtm = DistanceToMeasure(2, q=1, metric="neighbors")
+    r = dtm.fit_transform(dist)
+    assert r == pytest.approx([2.0, 3, 1])
+
+    dist = numpy.array([[2.0, 2], [0, 1], [3, 4]])
+    dtm = DistanceToMeasure(2, q=2, metric="neighbors")
+    r = dtm.fit_transform(dist)
+    assert r == pytest.approx([2.0, 0.707, 3.5355], rel=0.01)
+
+
+def test_density_normalized():
+    sample = numpy.random.normal(0, 1, (1000000, 2))
+    queries = numpy.array([[0.0, 0.0], [-0.5, 0.7], [0.4, 1.7]])
+    expected = numpy.exp(-(queries ** 2).sum(-1) / 2) / (2 * math.pi)
+    estimated = DTMDensity(k=150, normalize=True).fit(sample).transform(queries)
+    assert estimated == pytest.approx(expected, rel=0.4)
+
+
+def test_density():
+    distances = [[0, 1, 10], [2, 0, 30], [1, 3, 5]]
+    density = DTMDensity(k=2, metric="neighbors", dim=1).fit_transform(distances)
+    expected = numpy.array([2.0, 1.0, 0.5])
+    assert density == pytest.approx(expected)
+    distances = [[0, 1], [2, 0], [1, 3]]
+    density = DTMDensity(metric="neighbors", dim=1).fit_transform(distances)
+    assert density == pytest.approx(expected)
+    density = DTMDensity(weights=[0.5, 0.5], metric="neighbors", dim=1).fit_transform(distances)
+    assert density == pytest.approx(expected)