Spaces:
Running
Running
| from sympy.matrices.expressions.slice import MatrixSlice | |
| from sympy.matrices.expressions import MatrixSymbol | |
| from sympy.abc import a, b, c, d, k, l, m, n | |
| from sympy.testing.pytest import raises, XFAIL | |
| from sympy.functions.elementary.integers import floor | |
| from sympy.assumptions import assuming, Q | |
| X = MatrixSymbol('X', n, m) | |
| Y = MatrixSymbol('Y', m, k) | |
| def test_shape(): | |
| B = MatrixSlice(X, (a, b), (c, d)) | |
| assert B.shape == (b - a, d - c) | |
| def test_entry(): | |
| B = MatrixSlice(X, (a, b), (c, d)) | |
| assert B[0,0] == X[a, c] | |
| assert B[k,l] == X[a+k, c+l] | |
| raises(IndexError, lambda : MatrixSlice(X, 1, (2, 5))[1, 0]) | |
| assert X[1::2, :][1, 3] == X[1+2, 3] | |
| assert X[:, 1::2][3, 1] == X[3, 1+2] | |
| def test_on_diag(): | |
| assert not MatrixSlice(X, (a, b), (c, d)).on_diag | |
| assert MatrixSlice(X, (a, b), (a, b)).on_diag | |
| def test_inputs(): | |
| assert MatrixSlice(X, 1, (2, 5)) == MatrixSlice(X, (1, 2), (2, 5)) | |
| assert MatrixSlice(X, 1, (2, 5)).shape == (1, 3) | |
| def test_slicing(): | |
| assert X[1:5, 2:4] == MatrixSlice(X, (1, 5), (2, 4)) | |
| assert X[1, 2:4] == MatrixSlice(X, 1, (2, 4)) | |
| assert X[1:5, :].shape == (4, X.shape[1]) | |
| assert X[:, 1:5].shape == (X.shape[0], 4) | |
| assert X[::2, ::2].shape == (floor(n/2), floor(m/2)) | |
| assert X[2, :] == MatrixSlice(X, 2, (0, m)) | |
| assert X[k, :] == MatrixSlice(X, k, (0, m)) | |
| def test_exceptions(): | |
| X = MatrixSymbol('x', 10, 20) | |
| raises(IndexError, lambda: X[0:12, 2]) | |
| raises(IndexError, lambda: X[0:9, 22]) | |
| raises(IndexError, lambda: X[-1:5, 2]) | |
| def test_symmetry(): | |
| X = MatrixSymbol('x', 10, 10) | |
| Y = X[:5, 5:] | |
| with assuming(Q.symmetric(X)): | |
| assert Y.T == X[5:, :5] | |
| def test_slice_of_slice(): | |
| X = MatrixSymbol('x', 10, 10) | |
| assert X[2, :][:, 3][0, 0] == X[2, 3] | |
| assert X[:5, :5][:4, :4] == X[:4, :4] | |
| assert X[1:5, 2:6][1:3, 2] == X[2:4, 4] | |
| assert X[1:9:2, 2:6][1:3, 2] == X[3:7:2, 4] | |
| def test_negative_index(): | |
| X = MatrixSymbol('x', 10, 10) | |
| assert X[-1, :] == X[9, :] | |