Beispiel #1
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    def test_set_get(self):
        shp = (10, 10, 10)
        chunk_shape = 32

        dims = np.multiply(shp, chunk_shape)

        s = Sparse(shape=dims, chunks=chunk_shape)

        test_data = np.zeros(shape=dims)

        test_data[:dims[0] // 3, :dims[1] // 4, 32] = 3.14

        test_data[128:160, 128:161, 128:159] = np.random.rand(32, 33, 31)

        s.set((0, 0, 0), test_data)

        for i in range(shp[0]):
            for j in range(shp[1]):
                for k in range(shp[2]):
                    np.testing.assert_array_equal(
                        s.get_chunk((i, j, k)),
                        test_data[i * chunk_shape:(i + 1) * chunk_shape,
                                  j * chunk_shape:(j + 1) * chunk_shape,
                                  k * chunk_shape:(k + 1) * chunk_shape, ],
                    )
Beispiel #2
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    def test_getitem(self):
        shp = (234, 231, 128)
        mga = np.random.rand(shp[0], shp[1], shp[2])
        s = Sparse(shp, dtype=np.float_, chunks=(16, 32, 8), fill_value=0)
        s.set((0, 0, 0), mga)

        w2 = s[-138:-10:2, -223:-39:5, 120:128:1]
        w3 = mga[-138:-10:2, -223:-39:5, 120:128:1]

        np.testing.assert_array_equal(w2, w3)
Beispiel #3
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    def test_getitem_simple_vs_slice(self):
        shp = (234, 231, 128)
        mga = np.random.rand(*shp)
        s = Sparse(shp, dtype=np.float_, chunks=(16, 32, 8), fill_value=0)
        s.set((0, 0, 0), mga)

        for _ in range(10):
            i, j, k = map(np.random.randint, shp)
            v_slice = s[i:i + 1, j:j + 1, k:k + 1]
            v_simple = s[i, j, k]
            self.assertEqual(v_simple, v_slice)
Beispiel #4
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    def test_step_broadcast(self):
        expected = np.zeros((3, 3, 3))
        expected[:2] = [3, 4, 5]
        s = Sparse(shape=(3, 3, 3))
        s[:2] = [3, 4, 5]
        np.testing.assert_array_equal(s[...], expected)

        expected = np.zeros((3, 3, 3))
        expected[::2] = [3, 4, 5]
        s = Sparse(shape=(3, 3, 3))
        s[::2] = [3, 4, 5]
        np.testing.assert_array_equal(s[...], expected)
Beispiel #5
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    def test_zero(self):
        shp = (10, 10, 10)

        chunk_shape = 32

        s = Sparse(shape=np.multiply(shp, chunk_shape), chunks=chunk_shape)

        zeros = np.zeros(shape=(chunk_shape, chunk_shape, chunk_shape))

        for i in range(shp[0]):
            for j in range(shp[1]):
                for k in range(shp[2]):
                    np.testing.assert_array_equal(s.get_chunk((i, j, k)),
                                                  zeros)
Beispiel #6
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 def test_non_contiguous_memory_blocks(self):
     s = Sparse(shape=(3, 3, 3), chunks=(2, 2, 2))
     s[1, 1, 1] = 1.0
     s[2, 2, 2] = 1.0
     # Exception: Memory blocks have wrong len: 2, use make_dense_data() to fix.
     with self.assertRaises(Exception):
         point_probe(np.zeros((1, 3)), s)
Beispiel #7
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 def test_max(self):
     sp = Sparse(shape=(10, 10, 10))
     sp[0, 2, 1] = 2
     sp[4, 3, 5] = 4
     self.assertEqual(sf.max(sp), 4)
     sp[4, 4, 3] = np.nan
     self.assertTrue(np.isnan(sf.max(sp)))
     self.assertEqual(sf.nanmax(sp), 4)
Beispiel #8
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 def test_label(self):
     s = Sparse((30, 30, 30), dtype=np.uint32)
     s[2:5, 2:5, 2:5] = 1
     s[7:9, 7:9, 7:9] = 1
     s[15:18, 15:18, 15:18] = 1
     s[25:28, 25:28, 25:28] = 1
     label(s)
     self.assertSetEqual(unique(s), set(range(5)))
Beispiel #9
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    def save_load(self, compression_level):
        shp = (67, 87, 33)
        mga = np.random.randint(0, 100, shp, dtype=np.uint8)
        s = Sparse(shp, dtype=np.uint8, chunks=(16, 32, 8), fill_value=0)
        s.set((0, 0, 0), mga)

        s.save("save.msgpack", compression_level)
        loaded_s = Sparse.load("save.msgpack")

        for (k1, v1), (k2, v2) in zip(vars(s).items(), vars(loaded_s).items()):
            self.assertEqual(k1, k2)

            if k1 not in ["_grid", "_memory_blocks"]:
                # fields like 'shape' etc.
                self.assertEqual(v1, v2)
                continue

            if k1 == "_grid":
                for (_, d1), (_, d2) in zip(v1.items(), v2.items()):
                    np.testing.assert_array_equal(d1, d2)
                continue

            if k1 == "_memory_blocks":
                for d1, d2 in zip(v1, v2):
                    np.testing.assert_array_equal(d1, d2)
                continue

        os.remove("save.msgpack")
Beispiel #10
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 def test_thinning(self):
     s = Sparse((5, 5, 5), dtype=np.uint16)
     s[...] = 1
     s[2, 2] = 0
     expected_slice = np.array([
         [0, 0, 1, 0, 0],
         [0, 1, 0, 1, 0],
         [0, 1, 0, 0, 1],
         [0, 0, 1, 1, 0],
         [0, 0, 0, 0, 0],
     ],
                               dtype=np.uint8)
     ss = {1: s, 2: s.copy()}
     for mp in (1, 2):
         with self.subTest(multiprocesses=mp):
             ss = s.copy()
             thinning(ss, (0, 0, 0), multiprocesses=mp)
             np.testing.assert_array_equal(ss[..., 2], expected_slice)
Beispiel #11
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class TestInterpolation(unittest.TestCase):
    def setUp(self):
        self.s = Sparse(shape=(3, 3, 3), chunks=(2, 2, 2))
        self.s[1, 1, 1] = 1.0
        self.s[2, 2, 2] = 2.0
        self.s.make_dense_data()
        self.s.update_grid_mask()

    def test_grid_mask_exception(self):
        s = Sparse(shape=(2, 2, 2), chunks=(2, 2, 2))
        s[1, 1, 1] = 1.0
        # RuntimeError: Missing grid_mask in sparse array. Use update_grid_mask() before point_probe().
        with self.assertRaises(RuntimeError):
            point_probe(np.zeros((1, 3)), s)

    def test_non_contiguous_memory_blocks(self):
        s = Sparse(shape=(3, 3, 3), chunks=(2, 2, 2))
        s[1, 1, 1] = 1.0
        s[2, 2, 2] = 1.0
        # Exception: Memory blocks have wrong len: 2, use make_dense_data() to fix.
        with self.assertRaises(Exception):
            point_probe(np.zeros((1, 3)), s)

    def test_empty_zeros(self):
        self.assertEqual(point_probe(np.zeros((1, 3)), self.s), 0.0)

    def test_flat_xyz(self):
        self.assertEqual(point_probe(np.ones(3), self.s), 1.0)

    def test_middle_of_voxel(self):
        self.assertEqual(point_probe(np.ones((1, 3)) * 0.5, self.s), 0.125)

    def test_list_xyz(self):
        self.assertEqual(point_probe([0.5, 0.5, 0.5], self.s), 0.125)

    def test_unequal_spacing(self):
        s = Sparse(shape=(2, 2, 2), chunks=(2, 2, 2), spacing=(1, 2, 4))
        s[:2, :2, :2] = np.arange(8).reshape((2, 2, 2))
        s.update_grid_mask()
        self.assertEqual(point_probe([0.5, 0.5, 0.5], s), 1.5)

    def test_shape_corner_probe(self):
        self.assertEqual(point_probe(np.full(3, 2), self.s), 2.0)
Beispiel #12
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 def test_to_indices_value(self):
     sp = Sparse(shape=(100, 100, 100))
     sp[1, 2, 3] = 4
     sp[50, 60, 70] = 80
     result = to_indices_value(sp)
     result.sort(axis=0)
     np.testing.assert_array_equal(
         result,
         [[1, 2, 3, 4], [50, 60, 70, 80]],
         verbose=True,
     )
Beispiel #13
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 def test_min(self):
     sp = Sparse(shape=(10, 10, 10))
     sp[0, 2, 1] = 2
     sp[4, 3, 5] = 4
     self.assertEqual(sf.min(sp), 0)
     sp[0, 2, 2] = -2
     sp[4, 3, 3] = -4
     self.assertEqual(sf.min(sp), -4)
     sp[4, 4, 3] = np.nan
     self.assertTrue(np.isnan(sf.min(sp)))
     self.assertEqual(sf.nanmin(sp), -4)
Beispiel #14
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    def test_setitem_simple_vs_slice(self):
        shp = (23, 12, 128)
        s_point = Sparse(shp,
                         dtype=np.float_,
                         chunks=(16, 32, 8),
                         fill_value=0)
        s_slice = Sparse(shp,
                         dtype=np.float_,
                         chunks=(16, 32, 8),
                         fill_value=0)

        s_point[0, 1, 2] = 3
        s_slice[0:1, 1:2, 2:3] = 3

        s_point[22, 11, 127] = 4
        s_slice[22:23, 11:12, 127:128] = 4

        for _ in range(200):
            i, j, k = map(np.random.randint, shp)
            val = np.random.random()
            s_slice[i:i + 1, j:j + 1, k:k + 1] = val
            s_point[i, j, k] = val

        np.testing.assert_array_equal(s_slice[...], s_point[...])
Beispiel #15
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 def test_dilate(self):
     s = Sparse((15, 15, 15), dtype=np.uint8)
     s[3, 3, 3] = 1
     dilate(s, [1])  # also: dilate(s, 1) and dilate(s, (1, 1, 1))
     expected = np.array(
         [
             # as you see, corners are still empty, because this is
             # itk::BinaryBallStructuringElement (a ball kernel)
             [[0, 1, 0], [1, 1, 1], [0, 1, 0]],
             [[1, 1, 1], [1, 1, 1], [1, 1, 1]],
             [[0, 1, 0], [1, 1, 1], [0, 1, 0]]
         ],
         dtype=np.uint8)
     np.testing.assert_array_equal(s[2:5, 2:5, 2:5], expected)
     self.assertEqual(sf.sum(s), 3**3 - 8)
Beispiel #16
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    def test_contour(self):
        shape = (100, 100, 100)
        sp = Sparse(shape=shape)
        step = 0

        step += 1
        sp[50, 50, 50] = 100
        c = contour(sp, 100)
        self.assertEqual(c.GetNumberOfCells(), 0)
        self.assertEqual(c.GetNumberOfPoints(), 0)

        step += 1
        sp[50, 50, 50] = 101
        c = contour(sp, 100)
        self.assertEqual(c.GetNumberOfPoints(), 6)
        self.assertEqual(c.GetNumberOfCells(), 8)
Beispiel #17
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    def test_too_big(self):
        # base behavior
        n = np.zeros((4, 4, 4))
        with self.assertRaises(ValueError) as cm:
            n[:3, :3, :3] = np.ones((4, 4, 4))
        self.assertTrue(str(cm.exception).startswith("could not broadcast"))

        # chunky behavior
        s = Sparse(shape=(4, 4, 4))

        with self.assertRaises(ValueError) as cm:
            s[:3, :3, :3] = np.ones((4, 4, 4))
        # time will show if this message is constant
        self.assertTrue(
            str(cm.exception).startswith(
                "operands could not be broadcast together"))
Beispiel #18
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 def test_sum(self):
     sp = Sparse(shape=(10, 10, 10))
     sp[0, 2, 1] = 2
     sp[4, 3, 5] = 4
     self.assertEqual(sf.sum(sp), 6)
Beispiel #19
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 def test_negative_shape(self):
     with self.assertRaises(ValueError) as cm:
         Sparse((10, -2, 10))
     self.assertTrue(
         str(cm.exception).startswith(
             "all dimensions of shape must be positive"))
Beispiel #20
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 def test_unsigned_shape(self):
     s = Sparse(tuple(np.arange(2, 5, dtype=np.uint8)))
     print(s.shape)
     self.assertTrue(
         np.all(-np.array(s.shape) < 0))  # unsinged would be > 0
Beispiel #21
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 def test_unequal_spacing(self):
     s = Sparse(shape=(2, 2, 2), chunks=(2, 2, 2), spacing=(1, 2, 4))
     s[:2, :2, :2] = np.arange(8).reshape((2, 2, 2))
     s.update_grid_mask()
     self.assertEqual(point_probe([0.5, 0.5, 0.5], s), 1.5)
Beispiel #22
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 def test_grid_mask_exception(self):
     s = Sparse(shape=(2, 2, 2), chunks=(2, 2, 2))
     s[1, 1, 1] = 1.0
     # RuntimeError: Missing grid_mask in sparse array. Use update_grid_mask() before point_probe().
     with self.assertRaises(RuntimeError):
         point_probe(np.zeros((1, 3)), s)
Beispiel #23
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 def setUp(self):
     self.s = Sparse(shape=(3, 3, 3), chunks=(2, 2, 2))
     self.s[1, 1, 1] = 1.0
     self.s[2, 2, 2] = 2.0
     self.s.make_dense_data()
     self.s.update_grid_mask()
Beispiel #24
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 def test_unique(self):
     sp = Sparse(shape=(10, 10, 10))
     sp[0, 2, 1] = 2
     sp[4, 3, 5] = 4
     self.assertSetEqual(unique(sp), {0, 2, 4})
Beispiel #25
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    def test_memory_usage(self):
        s = Sparse(shape=(64, 64, 64), chunks=(2, 2, 2))
        empty_memory = s.__sizeof__()

        s[0, 0, 0] = 1
        single_chunk = s.__sizeof__()

        s[1, 1, 1] = 1
        single_chunk2 = s.__sizeof__()

        self.assertEqual(single_chunk, single_chunk2)

        s[2, 2, 2] = 1
        self.assertEqual(len(s._memory_blocks), 2)
        two_chunks = s.__sizeof__()

        self.assertAlmostEqual(two_chunks - single_chunk,
                               single_chunk - empty_memory,
                               delta=32)

        s.make_dense_data()
        self.assertEqual(len(s._memory_blocks), 1)
        defragmented = s.__sizeof__()

        self.assertLess(defragmented, two_chunks)

        s.update_grid_mask()
        mask_size = np.zeros(s._block_shape, dtype=np.int32).__sizeof__()
        after_grid_mask = s.__sizeof__()
        self.assertEqual(after_grid_mask,
                         defragmented + mask_size - None.__sizeof__())
Beispiel #26
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 def test_uniform_value(self):
     s = Sparse(shape=(4, 4, 4))
     s[...] = 3
     np.testing.assert_array_equal(s[...], np.full((4, 4, 4), 3))
     s[...] = 9
     np.testing.assert_array_equal(s[...], np.full((4, 4, 4), 9))