コード例 #1
0
    def test_extract_overlapping_m_chunked(self, its=50):
        for it in range(its):
            num_subs = random.choice([0, 1, randint(10), randint(100)])
            step = random.choice([1, randint(1, 10)])
            width = step + random.choice([0, 1, randint(10)])
            depth = width - 1
            assert depth >= 0
            overlap = width - step
            mat_size = num_subs * step + overlap
            chunk_size = random.choice([1, randint(1, 10), randint(1, 10)])

            mat_bm = gen_BandMat(mat_size, l=depth, u=depth)

            indices_remaining = set(range(num_subs))
            submats_all = np.empty((num_subs, width, width))
            for start, end, submats in bmo.extract_overlapping_m_chunked(
                    mat_bm, chunk_size, step=step):
                assert end >= start + 1
                for index in range(start, end):
                    assert index in indices_remaining
                    indices_remaining.remove(index)
                submats_all[start:end] = submats

            submats_good = bmo.extract_overlapping_m(mat_bm, step=step)
            assert_allclose(submats_all, submats_good)
コード例 #2
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ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_dot_mm_partial(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            l = random.choice([0, 1, randint(0, 10)])
            u = random.choice([0, 1, randint(0, 10)])
            diag = None if rand_bool() else randn(size)
            diag_value = np.ones((size,)) if diag is None else diag
            a_full = a_bm.full()
            b_full = b_bm.full()

            c_bm = bm.dot_mm_partial(l, u, a_bm, b_bm, diag=diag)
            c_full = fl.band_ec(
                l, u,
                np.dot(np.dot(a_full, np.diag(diag_value)), b_full)
            )
            assert c_bm.l == l
            assert c_bm.u == u
            assert c_bm.size == size
            assert_allclose(c_bm.full(), c_full)
            assert not np.may_share_memory(c_bm.data, a_bm.data)
            assert not np.may_share_memory(c_bm.data, b_bm.data)
            if diag is not None:
                assert not np.may_share_memory(c_bm.data, diag)
コード例 #3
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ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_dot_mm_plus_equals(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            c_bm = gen_BandMat(size)
            diag = None if rand_bool() else randn(size)
            diag_value = np.ones((size,)) if diag is None else diag
            a_full = a_bm.full()
            b_full = b_bm.full()
            c_full = c_bm.full()
            l = c_bm.l
            u = c_bm.u
            array_mem = get_array_mem(a_bm.data, b_bm.data, c_bm.data)
            if diag is not None:
                diag_mem = get_array_mem(diag)

            bm.dot_mm_plus_equals(a_bm, b_bm, c_bm, diag=diag)
            c_full += fl.band_ec(
                l, u,
                np.dot(np.dot(a_full, np.diag(diag_value)), b_full)
            )
            assert_allclose(c_bm.full(), c_full)
            assert get_array_mem(a_bm.data, b_bm.data, c_bm.data) == array_mem
            if diag is not None:
                assert get_array_mem(diag) == diag_mem
コード例 #4
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ファイル: test_full.py プロジェクト: MattShannon/bandmat
    def test_band_e_linear(self, its=100):
        """Checks band_e is linear."""
        for it in range(its):
            l = random.choice([0, 1, randint(0, 10)])
            u = random.choice([0, 1, randint(0, 10)])
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])

            # check additive
            mat_full1 = randn(size, size)
            mat_full2 = randn(size, size)
            assert_allclose(
                fl.band_e(l, u, mat_full1 + mat_full2),
                fl.band_e(l, u, mat_full1) + fl.band_e(l, u, mat_full2)
            )

            # check homogeneous
            mat_full = randn(size, size)
            mult = random.choice([0.0, randn(), randn(), randn()])
            assert_allclose(
                fl.band_e(l, u, mat_full * mult),
                fl.band_e(l, u, mat_full) * mult
            )

            # check output is a newly-created array
            mat_rect = fl.band_e(l, u, mat_full)
            assert not np.may_share_memory(mat_rect, mat_full)
コード例 #5
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_isub(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            a_full = a_bm.full()
            b_full = b_bm.full()
            array_mem = get_array_mem(a_bm.data, b_bm.data)

            if a_bm.l >= b_bm.l and a_bm.u >= b_bm.u:
                a_bm -= b_bm
                a_full -= b_full
                assert_allclose(a_bm.full(), a_full)
                assert get_array_mem(a_bm.data, b_bm.data) == array_mem
            else:
                with self.assertRaises(AssertionError):
                    a_bm -= b_bm

            a_bm -= 0
            a_full -= 0
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data, b_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm -= 1.0
コード例 #6
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ファイル: test_overlap.py プロジェクト: MattShannon/bandmat
    def test_extract_overlapping_m_chunked(self, its=50):
        for it in range(its):
            num_subs = random.choice([0, 1, randint(10), randint(100)])
            step = random.choice([1, randint(1, 10)])
            width = step + random.choice([0, 1, randint(10)])
            depth = width - 1
            assert depth >= 0
            overlap = width - step
            mat_size = num_subs * step + overlap
            chunk_size = random.choice([1, randint(1, 10), randint(1, 10)])

            mat_bm = gen_BandMat(mat_size, l=depth, u=depth)

            indices_remaining = set(range(num_subs))
            submats_all = np.empty((num_subs, width, width))
            for start, end, submats in bmo.extract_overlapping_m_chunked(
                mat_bm, chunk_size, step=step
            ):
                assert end >= start + 1
                for index in range(start, end):
                    assert index in indices_remaining
                    indices_remaining.remove(index)
                submats_all[start:end] = submats

            submats_good = bmo.extract_overlapping_m(mat_bm, step=step)
            assert_allclose(submats_all, submats_good)
コード例 #7
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_isub(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            a_full = a_bm.full()
            b_full = b_bm.full()
            array_mem = get_array_mem(a_bm.data, b_bm.data)

            if a_bm.l >= b_bm.l and a_bm.u >= b_bm.u:
                a_bm -= b_bm
                a_full -= b_full
                assert_allclose(a_bm.full(), a_full)
                assert get_array_mem(a_bm.data, b_bm.data) == array_mem
            else:
                with self.assertRaises(AssertionError):
                    a_bm -= b_bm

            a_bm -= 0
            a_full -= 0
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data, b_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm -= 1.0
コード例 #8
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ファイル: test_full.py プロジェクト: runngezhang/bandmat
    def test_band_e_linear(self, its=100):
        """Checks band_e is linear."""
        for it in range(its):
            l = random.choice([0, 1, randint(0, 10)])
            u = random.choice([0, 1, randint(0, 10)])
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])

            # check additive
            mat_full1 = randn(size, size)
            mat_full2 = randn(size, size)
            assert_allclose(
                fl.band_e(l, u, mat_full1 + mat_full2),
                fl.band_e(l, u, mat_full1) + fl.band_e(l, u, mat_full2)
            )

            # check homogeneous
            mat_full = randn(size, size)
            mult = random.choice([0.0, randn(), randn(), randn()])
            assert_allclose(
                fl.band_e(l, u, mat_full * mult),
                fl.band_e(l, u, mat_full) * mult
            )

            # check output is a newly-created array
            mat_rect = fl.band_e(l, u, mat_full)
            assert not np.may_share_memory(mat_rect, mat_full)
コード例 #9
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_neg(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = -a_bm
            b_full = -a_full
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #10
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_neg(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = -a_bm
            b_full = -a_full
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #11
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ファイル: test_tensor.py プロジェクト: slyedoc/bandmat
    def test_trace_dot(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            a_full = a_bm.full()
            b_full = b_bm.full()

            c = bm.trace_dot(a_bm, b_bm)
            c_good = np.trace(np.dot(a_full.T, b_full))
            assert_allclose(c, c_good)
コード例 #12
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 def test_assert_allclose(self):
     a0 = np.array([2.0, 3.0, 4.0])
     a1 = np.array([2.0, 3.0, 4.0])
     a2 = np.array([2.0, 3.0])
     a3 = np.array([2.0, 3.0, 5.0])
     a4 = np.array([[2.0, 3.0, 4.0]])
     th.assert_allclose(a0, a0)
     th.assert_allclose(a0, a1)
     self.assertRaises(AssertionError, th.assert_allclose, a0, a2)
     self.assertRaises(AssertionError, th.assert_allclose, a0, a3)
     self.assertRaises(AssertionError, th.assert_allclose, a0, a4)
コード例 #13
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ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_trace_dot(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            a_full = a_bm.full()
            b_full = b_bm.full()

            c = bm.trace_dot(a_bm, b_bm)
            c_good = np.trace(np.dot(a_full.T, b_full))
            assert_allclose(c, c_good)
コード例 #14
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 def test_cholesky_banded_upper_scipy_test(self):
     """Basic test copied from scipy.linalg.tests.test_decomp_cholesky."""
     # Symmetric positive definite banded matrix `a`
     a = np.array([[4.0, 1.0, 0.0, 0.0], [1.0, 4.0, 0.5, 0.0],
                   [0.0, 0.5, 4.0, 0.2], [0.0, 0.0, 0.2, 4.0]])
     # Banded storage form of `a`.
     ab = np.array([[-1.0, 1.0, 0.5, 0.2], [4.0, 4.0, 4.0, 4.0]])
     c = bla._cholesky_banded(ab, lower=False)
     ufac = np.zeros_like(a)
     ufac[range(4), range(4)] = c[-1]
     ufac[(0, 1, 2), (1, 2, 3)] = c[0, 1:]
     assert_allclose(a, np.dot(ufac.T, ufac))
コード例 #15
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ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_dot_mv(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b = randn(size)
            a_full = a_bm.full()

            c = bm.dot_mv(a_bm, b)
            c_good = np.dot(a_full, b)
            assert_allclose(c, c_good)
            assert not np.may_share_memory(c, a_bm.data)
            assert not np.may_share_memory(c, b)
コード例 #16
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_reverse_view(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm.reverse_view()
            b_full = a_full[::-1, ::-1]
            assert_allclose(b_bm.full(), b_full)
            assert b_bm.data.base is a_bm.data
            if size > 0:
                assert np.may_share_memory(b_bm.data, a_bm.data)
コード例 #17
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_reverse_view(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm.reverse_view()
            b_full = a_full[::-1, ::-1]
            assert_allclose(b_bm.full(), b_full)
            assert b_bm.data.base is a_bm.data
            if size > 0:
                assert np.may_share_memory(b_bm.data, a_bm.data)
コード例 #18
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_band_e_bm_common(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            num_bms = randint(5)
            mat_bms = [ gen_BandMat(size) for _ in range(num_bms) ]
            if num_bms > 0:
                l = max([ mat_bm.l for mat_bm in mat_bms ])
                u = max([ mat_bm.u for mat_bm in mat_bms ])

            mat_rects = bm.band_e_bm_common(*mat_bms)
            for mat_bm, mat_rect in zip(mat_bms, mat_rects):
                assert_allclose(mat_rect, bm.band_e_bm(l, u, mat_bm))
コード例 #19
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 def test_cholesky_banded_lower_scipy_test(self):
     """Basic test copied from scipy.linalg.tests.test_decomp_cholesky."""
     # Symmetric positive definite banded matrix `a`
     a = np.array([[4.0, 1.0, 0.0, 0.0], [1.0, 4.0, 0.5, 0.0],
                   [0.0, 0.5, 4.0, 0.2], [0.0, 0.0, 0.2, 4.0]])
     # Banded storage form of `a`.
     ab = np.array([[4.0, 4.0, 4.0, 4.0], [1.0, 0.5, 0.2, -1.0]])
     c = bla._cholesky_banded(ab, lower=True)
     lfac = np.zeros_like(a)
     lfac[range(4), range(4)] = c[0]
     lfac[(1, 2, 3), (0, 1, 2)] = c[1, :3]
     assert_allclose(a, np.dot(lfac, lfac.T))
コード例 #20
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ファイル: test_tensor.py プロジェクト: slyedoc/bandmat
    def test_dot_mv(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b = randn(size)
            a_full = a_bm.full()

            c = bm.dot_mv(a_bm, b)
            c_good = np.dot(a_full, b)
            assert_allclose(c, c_good)
            assert not np.may_share_memory(c, a_bm.data)
            assert not np.may_share_memory(c, b)
コード例 #21
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_band_e_bm_common(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            num_bms = randint(5)
            mat_bms = [gen_BandMat(size) for _ in range(num_bms)]
            if num_bms > 0:
                l = max([mat_bm.l for mat_bm in mat_bms])
                u = max([mat_bm.u for mat_bm in mat_bms])

            mat_rects = bm.band_e_bm_common(*mat_bms)
            for mat_bm, mat_rect in zip(mat_bms, mat_rects):
                assert_allclose(mat_rect, bm.band_e_bm(l, u, mat_bm))
コード例 #22
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_various_divs(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm // mult
            b_full = a_full // mult
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm / mult
            b_full = a_full / mult
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm.__floordiv__(mult)
            b_full = a_full.__floordiv__(mult)
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            # __div__ does not exist in python3
            if sys.version_info[0] < 3:
                b_bm = a_bm.__div__(mult)
                b_full = a_full.__div__(mult)
                assert b_bm.l == a_bm.l
                assert b_bm.u == a_bm.u
                assert_allclose(b_bm.full(), b_full)
                assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm.__truediv__(mult)
            b_full = a_full.__truediv__(mult)
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            with self.assertRaises(TypeError):
                a_bm // a_bm
            with self.assertRaises(TypeError):
                a_bm / a_bm
            with self.assertRaises(TypeError):
                1.0 // a_bm
            with self.assertRaises(TypeError):
                1.0 / a_bm
コード例 #23
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ファイル: test_core.py プロジェクト: MattShannon/bandmat
    def test_BandMat_various_divs(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm // mult
            b_full = a_full // mult
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm / mult
            b_full = a_full / mult
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm.__floordiv__(mult)
            b_full = a_full.__floordiv__(mult)
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            # __div__ does not exist in python3
            if sys.version_info[0] < 3:
                b_bm = a_bm.__div__(mult)
                b_full = a_full.__div__(mult)
                assert b_bm.l == a_bm.l
                assert b_bm.u == a_bm.u
                assert_allclose(b_bm.full(), b_full)
                assert not np.may_share_memory(b_bm.data, a_bm.data)

            b_bm = a_bm.__truediv__(mult)
            b_full = a_full.__truediv__(mult)
            assert b_bm.l == a_bm.l
            assert b_bm.u == a_bm.u
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)

            with self.assertRaises(TypeError):
                a_bm // a_bm
            with self.assertRaises(TypeError):
                a_bm / a_bm
            with self.assertRaises(TypeError):
                1.0 // a_bm
            with self.assertRaises(TypeError):
                1.0 / a_bm
コード例 #24
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_sum(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            num_terms = randint(10)
            a_bms = [ gen_BandMat(size) for _ in range(num_terms) ]
            a_fulls = [ a_bm.full() for a_bm in a_bms ]

            b_bm = sum(a_bms)
            b_full = sum(a_fulls)
            if num_terms > 0:
                assert_allclose(b_bm.full(), b_full)
            for a_bm in a_bms:
                assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #25
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_sum(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            num_terms = randint(10)
            a_bms = [gen_BandMat(size) for _ in range(num_terms)]
            a_fulls = [a_bm.full() for a_bm in a_bms]

            b_bm = sum(a_bms)
            b_full = sum(a_fulls)
            if num_terms > 0:
                assert_allclose(b_bm.full(), b_full)
            for a_bm in a_bms:
                assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #26
0
    def test_band_of_inverse(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mat_bm = gen_pos_def_BandMat(size)
            depth = mat_bm.l

            band_of_inv_bm = bla.band_of_inverse(mat_bm)
            assert not np.may_share_memory(band_of_inv_bm.data, mat_bm.data)

            band_of_inv_full_good = fl.band_ec(
                depth, depth,
                np.eye(0, 0) if size == 0 else la.inv(mat_bm.full()))
            assert_allclose(band_of_inv_bm.full(), band_of_inv_full_good)
コード例 #27
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_various_idivs(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm //= mult
            a_full //= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm /= mult
            a_full /= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm.__ifloordiv__(mult)
            a_full.__ifloordiv__(mult)
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            # __idiv__ does not exist in python3
            if sys.version_info[0] < 3:
                a_bm = gen_BandMat(size)
                a_full = a_bm.full()
                array_mem = get_array_mem(a_bm.data)
                a_bm.__idiv__(mult)
                a_full.__idiv__(mult)
                assert_allclose(a_bm.full(), a_full)
                assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm.__itruediv__(mult)
            a_full.__itruediv__(mult)
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm //= a_bm
            with self.assertRaises(TypeError):
                a_bm /= a_bm
コード例 #28
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ファイル: test_core.py プロジェクト: MattShannon/bandmat
    def test_BandMat_various_idivs(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm //= mult
            a_full //= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm /= mult
            a_full /= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm.__ifloordiv__(mult)
            a_full.__ifloordiv__(mult)
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            # __idiv__ does not exist in python3
            if sys.version_info[0] < 3:
                a_bm = gen_BandMat(size)
                a_full = a_bm.full()
                array_mem = get_array_mem(a_bm.data)
                a_bm.__idiv__(mult)
                a_full.__idiv__(mult)
                assert_allclose(a_bm.full(), a_full)
                assert get_array_mem(a_bm.data) == array_mem

            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)
            a_bm.__itruediv__(mult)
            a_full.__itruediv__(mult)
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm //= a_bm
            with self.assertRaises(TypeError):
                a_bm /= a_bm
コード例 #29
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ファイル: test_tensor.py プロジェクト: slyedoc/bandmat
    def test_dot_mv_plus_equals(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b = randn(size)
            c = randn(size)
            a_full = a_bm.full()
            c_good = c.copy()
            array_mem = get_array_mem(a_bm.data, b, c)

            bm.dot_mv_plus_equals(a_bm, b, c)
            c_good += np.dot(a_full, b)
            assert_allclose(c, c_good)
            assert get_array_mem(a_bm.data, b, c) == array_mem
コード例 #30
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ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
    def test_band_of_inverse(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mat_bm = gen_pos_def_BandMat(size)
            depth = mat_bm.l

            band_of_inv_bm = bla.band_of_inverse(mat_bm)
            assert not np.may_share_memory(band_of_inv_bm.data, mat_bm.data)

            band_of_inv_full_good = fl.band_ec(
                depth, depth,
                np.eye(0, 0) if size == 0 else la.inv(mat_bm.full())
            )
            assert_allclose(band_of_inv_bm.full(), band_of_inv_full_good)
コード例 #31
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ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_dot_mv_plus_equals(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b = randn(size)
            c = randn(size)
            a_full = a_bm.full()
            c_good = c.copy()
            array_mem = get_array_mem(a_bm.data, b, c)

            bm.dot_mv_plus_equals(a_bm, b, c)
            c_good += np.dot(a_full, b)
            assert_allclose(c, c_good)
            assert get_array_mem(a_bm.data, b, c) == array_mem
コード例 #32
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_imul(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)

            a_bm *= mult
            a_full *= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm *= a_bm
コード例 #33
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_plus_equals_band_of(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            target_bm = gen_BandMat(size)
            mat_bm = gen_BandMat(size)
            target_full = target_bm.full()
            mat_full = mat_bm.full()
            array_mem = get_array_mem(target_bm.data, mat_bm.data)

            target_bm.plus_equals_band_of(mat_bm, mult)
            target_full += (fl.band_ec(target_bm.l, target_bm.u, mat_full) *
                            mult)
            assert_allclose(target_bm.full(), target_full)
            assert get_array_mem(target_bm.data, mat_bm.data) == array_mem
コード例 #34
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_embed_as_sub_matrix(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            start = randint(size + 1)
            end = randint(size + 1)
            if start > end:
                start, end = end, start
            a_bm = gen_BandMat(end - start)
            a_full = a_bm.full()

            b_bm = a_bm.embed_as_sub_matrix(start, size)
            b_full = np.zeros((size, size))
            b_full[start:end, start:end] = a_full
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #35
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_embed_as_sub_matrix(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            start = randint(size + 1)
            end = randint(size + 1)
            if start > end:
                start, end = end, start
            a_bm = gen_BandMat(end - start)
            a_full = a_bm.full()

            b_bm = a_bm.embed_as_sub_matrix(start, size)
            b_full = np.zeros((size, size))
            b_full[start:end, start:end] = a_full
            assert_allclose(b_bm.full(), b_full)
            assert not np.may_share_memory(b_bm.data, a_bm.data)
コード例 #36
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    def test_band_of_inverse_from_chol(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            chol_bm = gen_chol_factor_BandMat(size)
            depth = chol_bm.l + chol_bm.u

            band_of_inv_bm = bla.band_of_inverse_from_chol(chol_bm)
            assert not np.may_share_memory(band_of_inv_bm.data, chol_bm.data)

            mat_bm = (bm.dot_mm(chol_bm, chol_bm.T)
                      if chol_bm.u == 0 else bm.dot_mm(chol_bm.T, chol_bm))
            band_of_inv_full_good = fl.band_ec(
                depth, depth,
                np.eye(0, 0) if size == 0 else la.inv(mat_bm.full()))
            assert_allclose(band_of_inv_bm.full(), band_of_inv_full_good)
コード例 #37
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ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
 def test_cholesky_banded_lower_scipy_test(self):
     """Basic test copied from scipy.linalg.tests.test_decomp_cholesky."""
     # Symmetric positive definite banded matrix `a`
     a = np.array([[4.0, 1.0, 0.0, 0.0],
                   [1.0, 4.0, 0.5, 0.0],
                   [0.0, 0.5, 4.0, 0.2],
                   [0.0, 0.0, 0.2, 4.0]])
     # Banded storage form of `a`.
     ab = np.array([[4.0, 4.0, 4.0, 4.0],
                    [1.0, 0.5, 0.2, -1.0]])
     c = bla._cholesky_banded(ab, lower=True)
     lfac = np.zeros_like(a)
     lfac[range(4), range(4)] = c[0]
     lfac[(1, 2, 3), (0, 1, 2)] = c[1, :3]
     assert_allclose(a, np.dot(lfac, lfac.T))
コード例 #38
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ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
 def test_cholesky_banded_upper_scipy_test(self):
     """Basic test copied from scipy.linalg.tests.test_decomp_cholesky."""
     # Symmetric positive definite banded matrix `a`
     a = np.array([[4.0, 1.0, 0.0, 0.0],
                   [1.0, 4.0, 0.5, 0.0],
                   [0.0, 0.5, 4.0, 0.2],
                   [0.0, 0.0, 0.2, 4.0]])
     # Banded storage form of `a`.
     ab = np.array([[-1.0, 1.0, 0.5, 0.2],
                    [4.0, 4.0, 4.0, 4.0]])
     c = bla._cholesky_banded(ab, lower=False)
     ufac = np.zeros_like(a)
     ufac[range(4), range(4)] = c[-1]
     ufac[(0, 1, 2), (1, 2, 3)] = c[0, 1:]
     assert_allclose(a, np.dot(ufac.T, ufac))
コード例 #39
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_imul(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()
            array_mem = get_array_mem(a_bm.data)

            a_bm *= mult
            a_full *= mult
            assert_allclose(a_bm.full(), a_full)
            assert get_array_mem(a_bm.data) == array_mem

            with self.assertRaises(TypeError):
                a_bm *= a_bm
コード例 #40
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_sub_matrix_view(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            start = randint(size + 1)
            end = randint(size + 1)
            if start > end:
                start, end = end, start
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm.sub_matrix_view(start, end)
            b_full = a_full[start:end, start:end]
            assert_allclose(b_bm.full(), b_full)
            assert b_bm.data.base is a_bm.data
            if end > start:
                assert np.may_share_memory(b_bm.data, a_bm.data)
コード例 #41
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ファイル: test_core.py プロジェクト: wuaalb/bandmat
    def test_BandMat_plus_equals_band_of(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mult = randn()
            target_bm = gen_BandMat(size)
            mat_bm = gen_BandMat(size)
            target_full = target_bm.full()
            mat_full = mat_bm.full()
            array_mem = get_array_mem(target_bm.data, mat_bm.data)

            target_bm.plus_equals_band_of(mat_bm, mult)
            target_full += (
                fl.band_ec(target_bm.l, target_bm.u, mat_full) * mult
            )
            assert_allclose(target_bm.full(), target_full)
            assert get_array_mem(target_bm.data, mat_bm.data) == array_mem
コード例 #42
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ファイル: test_linalg.py プロジェクト: maxcd/bandmat_compiled
    def test_solveh(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            b = randn(size)
            a_bm = gen_pos_def_BandMat(size)
            a_full = a_bm.full()

            x = bla.solveh(a_bm, b)
            assert_allclose(bm.dot_mv(a_bm, x), b)
            if size == 0:
                x_good = np.zeros((size,))
            else:
                x_good = sla.solve(a_full, b, sym_pos=True)
            assert_allclose(x, x_good)
            assert not np.may_share_memory(x, a_bm.data)
            assert not np.may_share_memory(x, b)
コード例 #43
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ファイル: test_core.py プロジェクト: slyedoc/bandmat
    def test_BandMat_sub_matrix_view(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            start = randint(size + 1)
            end = randint(size + 1)
            if start > end:
                start, end = end, start
            a_bm = gen_BandMat(size)
            a_full = a_bm.full()

            b_bm = a_bm.sub_matrix_view(start, end)
            b_full = a_full[start:end, start:end]
            assert_allclose(b_bm.full(), b_full)
            assert b_bm.data.base is a_bm.data
            if end > start:
                assert np.may_share_memory(b_bm.data, a_bm.data)
コード例 #44
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ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
    def test_solveh(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            b = randn(size)
            a_bm = gen_pos_def_BandMat(size)
            a_full = a_bm.full()

            x = bla.solveh(a_bm, b)
            assert_allclose(bm.dot_mv(a_bm, x), b)
            if size == 0:
                x_good = np.zeros((size,))
            else:
                x_good = sla.solve(a_full, b, sym_pos=True)
            assert_allclose(x, x_good)
            assert not np.may_share_memory(x, a_bm.data)
            assert not np.may_share_memory(x, b)
コード例 #45
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ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
    def test_band_of_inverse_from_chol(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            chol_bm = gen_chol_factor_BandMat(size)
            depth = chol_bm.l + chol_bm.u

            band_of_inv_bm = bla.band_of_inverse_from_chol(chol_bm)
            assert not np.may_share_memory(band_of_inv_bm.data, chol_bm.data)

            mat_bm = (bm.dot_mm(chol_bm, chol_bm.T) if chol_bm.u == 0
                      else bm.dot_mm(chol_bm.T, chol_bm))
            band_of_inv_full_good = fl.band_ec(
                depth, depth,
                np.eye(0, 0) if size == 0 else la.inv(mat_bm.full())
            )
            assert_allclose(band_of_inv_bm.full(), band_of_inv_full_good)
コード例 #46
0
ファイル: test_tensor.py プロジェクト: wuaalb/bandmat
    def test_band_of_outer_plus_equals(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_vec = randn(size)
            b_vec = randn(size)
            mult = randn()
            mat_bm = gen_BandMat(size)
            mat_full = mat_bm.full()
            l = mat_bm.l
            u = mat_bm.u
            array_mem = get_array_mem(a_vec, b_vec, mat_bm.data)

            bm.band_of_outer_plus_equals(a_vec, b_vec, mat_bm, mult=mult)
            mat_full += fl.band_ec(l, u, np.outer(a_vec, b_vec) * mult)
            assert_allclose(mat_bm.full(), mat_full)
            assert get_array_mem(a_vec, b_vec, mat_bm.data) == array_mem
コード例 #47
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ファイル: test_tensor.py プロジェクト: slyedoc/bandmat
    def test_band_of_outer_plus_equals(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_vec = randn(size)
            b_vec = randn(size)
            mult = randn()
            mat_bm = gen_BandMat(size)
            mat_full = mat_bm.full()
            l = mat_bm.l
            u = mat_bm.u
            array_mem = get_array_mem(a_vec, b_vec, mat_bm.data)

            bm.band_of_outer_plus_equals(a_vec, b_vec, mat_bm, mult=mult)
            mat_full += fl.band_ec(l, u, np.outer(a_vec, b_vec) * mult)
            assert_allclose(mat_bm.full(), mat_full)
            assert get_array_mem(a_vec, b_vec, mat_bm.data) == array_mem
コード例 #48
0
ファイル: test_overlap.py プロジェクト: MattShannon/bandmat
    def test_sum_overlapping_m(self, its=50):
        for it in range(its):
            num_contribs = random.choice([0, 1, randint(10), randint(100)])
            step = random.choice([1, randint(2), randint(10)])
            width = max(step, 1) + random.choice([0, 1, randint(10)])
            depth = width - 1
            assert depth >= 0
            overlap = width - step
            mat_size = num_contribs * step + overlap

            contribs = randn(num_contribs, width, width)
            target_bm = gen_BandMat(mat_size, l=depth, u=depth)
            target_bm_orig = target_bm.copy()

            mat_bm = bmo.sum_overlapping_m(contribs, step=step)
            assert mat_bm.size == mat_size
            assert mat_bm.l == mat_bm.u == depth

            # check target-based version adds to target_bm correctly
            bmo.sum_overlapping_m(contribs, step=step, target_bm=target_bm)
            assert_allclose(*cc(target_bm, target_bm_orig + mat_bm))

            if num_contribs == 0:
                # check action for no contributions
                assert_allequal(mat_bm.full(), np.zeros((overlap, overlap)))
            elif num_contribs == 1:
                # check action for a single contribution
                assert_allequal(mat_bm.full(), contribs[0])
            else:
                # check action under splitting list of contributions in two
                split_pos = randint(num_contribs + 1)
                mat_bm_again = bm.zeros(depth, depth, mat_size)
                bmo.sum_overlapping_m(
                    contribs[:split_pos],
                    step=step,
                    target_bm=mat_bm_again.sub_matrix_view(
                        0, split_pos * step + overlap
                    )
                )
                bmo.sum_overlapping_m(
                    contribs[split_pos:],
                    step=step,
                    target_bm=mat_bm_again.sub_matrix_view(
                        split_pos * step, mat_size
                    )
                )
                assert_allclose(*cc(mat_bm, mat_bm_again))
コード例 #49
0
ファイル: test_linalg.py プロジェクト: wuaalb/bandmat
    def test_solve(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            b = randn(size)
            # the below tries to ensure the matrix is well-conditioned
            a_bm = gen_BandMat(size) + bm.diag(np.ones((size,)) * 10.0)
            a_full = a_bm.full()

            x = bla.solve(a_bm, b)
            assert_allclose(bm.dot_mv(a_bm, x), b)
            if size == 0:
                x_good = np.zeros((size,))
            else:
                x_good = sla.solve(a_full, b)
            assert_allclose(x, x_good)
            assert not np.may_share_memory(x, a_bm.data)
            assert not np.may_share_memory(x, b)
コード例 #50
0
ファイル: test_misc.py プロジェクト: wuaalb/bandmat
    def test_fancy_plus_equals(self, its=100):
        for it in range(its):
            source_size = random.choice([0, 1, randint(10), randint(100)])
            target_size = random.choice([1, randint(1, 10), randint(1, 100)])
            source = randn(source_size)
            target = randn(target_size)
            target_index_seq = randint(target_size, size=source_size)
            array_mem = get_array_mem(target_index_seq, source, target)

            target_good = target.copy()
            for source_index, target_index in enumerate(target_index_seq):
                target_good[target_index] += source[source_index]

            fancy_plus_equals(target_index_seq, source, target)

            assert_allclose(target, target_good)
            assert get_array_mem(target_index_seq, source, target) == array_mem
コード例 #51
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ファイル: test_linalg.py プロジェクト: MattShannon/bandmat
    def test__cholesky_banded(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            if rand_bool():
                mat_bm = gen_pos_def_BandMat(size, transposed=False)
            else:
                mat_bm = gen_symmetric_BandMat(size, transposed=False)
                # make it a bit more likely to be pos def
                bm.diag(mat_bm)[:] = np.abs(bm.diag(mat_bm)) + 0.1
            depth = mat_bm.l
            lower = rand_bool()
            if lower:
                mat_half_data = mat_bm.data[depth:]
            else:
                mat_half_data = mat_bm.data[:(depth + 1)]
            overwrite = rand_bool()

            mat_half_data_arg = mat_half_data.copy()
            try:
                chol_data = bla._cholesky_banded(
                    mat_half_data_arg, overwrite_ab=overwrite, lower=lower
                )
            except la.LinAlgError as e:
                # First part of the message is e.g. "2-th leading minor".
                msgRe = (r'^' + re.escape(str(e)[:15]) +
                         r'.*not positive definite$')
                with self.assertRaisesRegexp(la.LinAlgError, msgRe):
                    sla.cholesky(mat_bm.full(), lower=lower)
            else:
                assert np.shape(chol_data) == (depth + 1, size)
                if lower:
                    chol_bm = bm.BandMat(depth, 0, chol_data)
                    mat_bm_again = bm.dot_mm(chol_bm, chol_bm.T)
                else:
                    chol_bm = bm.BandMat(0, depth, chol_data)
                    mat_bm_again = bm.dot_mm(chol_bm.T, chol_bm)
                assert_allclose(mat_bm_again.full(), mat_bm.full())

                if size > 0:
                    self.assertEqual(
                        np.may_share_memory(chol_data, mat_half_data_arg),
                        overwrite
                    )

            if not overwrite:
                assert np.all(mat_half_data_arg == mat_half_data)
コード例 #52
0
    def test_fancy_plus_equals(self, its=100):
        for it in range(its):
            source_size = random.choice([0, 1, randint(10), randint(100)])
            target_size = random.choice([1, randint(1, 10), randint(1, 100)])
            source = randn(source_size)
            target = randn(target_size)
            target_index_seq = randint(target_size, size=source_size)
            array_mem = get_array_mem(target_index_seq, source, target)

            target_good = target.copy()
            for source_index, target_index in enumerate(target_index_seq):
                target_good[target_index] += source[source_index]

            fancy_plus_equals(target_index_seq, source, target)

            assert_allclose(target, target_good)
            assert get_array_mem(target_index_seq, source, target) == array_mem
コード例 #53
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ファイル: test_linalg.py プロジェクト: maxcd/bandmat_compiled
    def test_solve(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            b = randn(size)
            # the below tries to ensure the matrix is well-conditioned
            a_bm = gen_BandMat(size) + bm.diag(np.ones((size,)) * 10.0)
            a_full = a_bm.full()

            x = bla.solve(a_bm, b)
            assert_allclose(bm.dot_mv(a_bm, x), b)
            if size == 0:
                x_good = np.zeros((size,))
            else:
                x_good = sla.solve(a_full, b)
            assert_allclose(x, x_good)
            assert not np.may_share_memory(x, a_bm.data)
            assert not np.may_share_memory(x, b)
コード例 #54
0
ファイル: test_linalg.py プロジェクト: slyedoc/bandmat
    def test__cholesky_banded(self, its=100):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            if rand_bool():
                mat_bm = gen_pos_def_BandMat(size, transposed=False)
            else:
                mat_bm = gen_symmetric_BandMat(size, transposed=False)
                # make it a bit more likely to be pos def
                bm.diag(mat_bm)[:] = np.abs(bm.diag(mat_bm)) + 0.1
            depth = mat_bm.l
            lower = rand_bool()
            if lower:
                mat_half_data = mat_bm.data[depth:]
            else:
                mat_half_data = mat_bm.data[:(depth + 1)]
            overwrite = rand_bool()

            mat_half_data_arg = mat_half_data.copy()
            try:
                chol_data = bla._cholesky_banded(mat_half_data_arg,
                                                 overwrite_ab=overwrite,
                                                 lower=lower)
            except la.LinAlgError as e:
                # First part of the message is e.g. "2-th leading minor".
                msgRe = (r'^' + re.escape(str(e)[:15]) +
                         r'.*not positive definite$')
                with self.assertRaisesRegexp(la.LinAlgError, msgRe):
                    sla.cholesky(mat_bm.full(), lower=lower)
            else:
                assert np.shape(chol_data) == (depth + 1, size)
                if lower:
                    chol_bm = bm.BandMat(depth, 0, chol_data)
                    mat_bm_again = bm.dot_mm(chol_bm, chol_bm.T)
                else:
                    chol_bm = bm.BandMat(0, depth, chol_data)
                    mat_bm_again = bm.dot_mm(chol_bm.T, chol_bm)
                assert_allclose(mat_bm_again.full(), mat_bm.full())

                if size > 0:
                    self.assertEqual(
                        np.may_share_memory(chol_data, mat_half_data_arg),
                        overwrite)

            if not overwrite:
                assert np.all(mat_half_data_arg == mat_half_data)
コード例 #55
0
ファイル: test_overlap.py プロジェクト: MattShannon/bandmat
    def test_sum_overlapping_v_chunked(self, its=50):
        for it in range(its):
            num_contribs = random.choice([0, 1, randint(10), randint(100)])
            step = random.choice([1, randint(2), randint(10)])
            width = step + random.choice([0, 1, randint(10)])
            overlap = width - step
            vec_size = num_contribs * step + overlap

            contribs = randn(num_contribs, width)
            contribs_chunks = chunk_randomly(contribs)
            target = randn(vec_size)
            target_orig = target.copy()

            bmo.sum_overlapping_v_chunked(
                contribs_chunks, width, target, step=step
            )
            vec_good = bmo.sum_overlapping_v(contribs, step=step)
            assert_allclose(target, target_orig + vec_good)
コード例 #56
0
ファイル: test_linalg.py プロジェクト: maxcd/bandmat_compiled
    def test_cholesky(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            mat_bm = gen_pos_def_BandMat(size)
            depth = mat_bm.l
            lower = rand_bool()
            alternative = rand_bool()

            chol_bm = bla.cholesky(mat_bm, lower=lower,
                                   alternative=alternative)
            assert chol_bm.l == (depth if lower else 0)
            assert chol_bm.u == (0 if lower else depth)
            assert not np.may_share_memory(chol_bm.data, mat_bm.data)

            if lower != alternative:
                mat_bm_again = bm.dot_mm(chol_bm, chol_bm.T)
            else:
                mat_bm_again = bm.dot_mm(chol_bm.T, chol_bm)
            assert_allclose(mat_bm_again.full(), mat_bm.full())
コード例 #57
0
ファイル: test_linalg.py プロジェクト: maxcd/bandmat_compiled
    def test_solve_triangular(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            b = randn(size)
            chol_bm = gen_chol_factor_BandMat(size)
            depth = chol_bm.l + chol_bm.u
            lower = (chol_bm.u == 0)
            chol_lower_bm = chol_bm if lower else chol_bm.T
            chol_full = chol_bm.full()

            x = bla.solve_triangular(chol_bm, b)
            assert_allclose(bm.dot_mv(chol_bm, x), b)
            if size == 0:
                x_good = np.zeros((size,))
            else:
                x_good = sla.solve_triangular(chol_full, b, lower=lower)
            assert_allclose(x, x_good)
            assert not np.may_share_memory(x, chol_bm.data)
            assert not np.may_share_memory(x, b)
コード例 #58
0
    def test_sum_overlapping_v_chunked(self, its=50):
        for it in range(its):
            num_contribs = random.choice([0, 1, randint(10), randint(100)])
            step = random.choice([1, randint(2), randint(10)])
            width = step + random.choice([0, 1, randint(10)])
            overlap = width - step
            vec_size = num_contribs * step + overlap

            contribs = randn(num_contribs, width)
            contribs_chunks = chunk_randomly(contribs)
            target = randn(vec_size)
            target_orig = target.copy()

            bmo.sum_overlapping_v_chunked(contribs_chunks,
                                          width,
                                          target,
                                          step=step)
            vec_good = bmo.sum_overlapping_v(contribs, step=step)
            assert_allclose(target, target_orig + vec_good)
コード例 #59
0
ファイル: test_tensor.py プロジェクト: slyedoc/bandmat
    def test_dot_mm(self, its=50):
        for it in range(its):
            size = random.choice([0, 1, randint(0, 10), randint(0, 100)])
            a_bm = gen_BandMat(size)
            b_bm = gen_BandMat(size)
            diag = None if rand_bool() else randn(size)
            diag_value = np.ones((size, )) if diag is None else diag
            a_full = a_bm.full()
            b_full = b_bm.full()

            c_bm = bm.dot_mm(a_bm, b_bm, diag=diag)
            c_full = np.dot(np.dot(a_full, np.diag(diag_value)), b_full)
            assert c_bm.l == a_bm.l + b_bm.l
            assert c_bm.u == a_bm.u + b_bm.u
            assert c_bm.size == size
            assert_allclose(c_bm.full(), c_full)
            assert not np.may_share_memory(c_bm.data, a_bm.data)
            assert not np.may_share_memory(c_bm.data, b_bm.data)
            if diag is not None:
                assert not np.may_share_memory(c_bm.data, diag)