""" Testing miobase module """ import numpy as np from numpy.testing import assert_equal from pytest import raises as assert_raises from scipy.io.matlab._miobase import matdims def test_matdims(): # Test matdims dimension finder assert_equal(matdims(np.array(1)), (1, 1)) # NumPy scalar assert_equal(matdims(np.array([1])), (1, 1)) # 1-D array, 1 element assert_equal(matdims(np.array([1,2])), (2, 1)) # 1-D array, 2 elements assert_equal(matdims(np.array([[2],[3]])), (2, 1)) # 2-D array, column vector assert_equal(matdims(np.array([[2,3]])), (1, 2)) # 2-D array, row vector # 3d array, rowish vector assert_equal(matdims(np.array([[[2,3]]])), (1, 1, 2)) assert_equal(matdims(np.array([])), (0, 0)) # empty 1-D array assert_equal(matdims(np.array([[]])), (1, 0)) # empty 2-D array assert_equal(matdims(np.array([[[]]])), (1, 1, 0)) # empty 3-D array assert_equal(matdims(np.empty((1, 0, 1))), (1, 0, 1)) # empty 3-D array # Optional argument flips 1-D shape behavior. assert_equal(matdims(np.array([1,2]), 'row'), (1, 2)) # 1-D array, 2 elements # The argument has to make sense though assert_raises(ValueError, matdims, np.array([1,2]), 'bizarre') # Check empty sparse matrices get their own shape from scipy.sparse import csr_matrix, csc_matrix assert_equal(matdims(csr_matrix(np.zeros((3, 3)))), (3, 3)) assert_equal(matdims(csc_matrix(np.zeros((2, 2)))), (2, 2))