def test_mult_square_2x2_matrix(self):
first_matrix = Matrix.make_from_list([[1, 0], [0, 1]])
second_matrix = Matrix.make_from_list([[3, 3], [3, 3]])
result_matrix = MatrixOperations.multiply_matrix(
first_matrix, second_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == 3
and result_matrix.data_lines[1][1] == 3)
def test_plus_onesize_diff_char_matrix(self):
first_matrix = Matrix.make_from_list([[1, 1]])
second_matrix = Matrix.make_from_list([[-1, -1]])
result_matrix = MatrixOperations.add_matrix(first_matrix,
second_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == 0
and result_matrix.data_lines[0][1] == 0)
def test_plus_onesize_negative_matrix(self):
first_matrix = Matrix.make_from_list([[1, 1]])
second_matrix = Matrix.make_from_list([[-2, 2]])
result_matrix = MatrixOperations.add_matrix(first_matrix,
second_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == -1
and result_matrix.data_lines[0][1] == 3)
def test_plus_3x2_matrix(self):
first_matrix = Matrix.make_from_list([[1, 1], [2, 2], [3, 3]])
second_matrix = Matrix.make_from_list([[-1, -1], [-1, -1], [-1, -1]])
result_matrix = MatrixOperations.add_matrix(first_matrix,
second_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == 0
and result_matrix.data_lines[1][1] == 1
and result_matrix.data_lines[2][1] == 2)
def inverse(cls, matrix):
if matrix.calculate_det() == 0:
raise MatrixError(
'Matrix has zero determinant! Check your matrix.')
minor_matrix = Matrix.make_from_list([[0 for i in range(matrix.cols)]
for i in range(matrix.rows)])
for i in range(minor_matrix.rows):
for j in range(minor_matrix.cols):
minor = MatrixOperations.delete_col_and_row(matrix, i, j)
minor_matrix.data_lines[i][j] = minor.calculate_det() * (
(-1)**(i + j))
minor_matrix = MatrixOperations.transpose(minor_matrix)
return Matrix.make_from_list(
[[elem / matrix.calculate_det() for elem in row]
for row in minor_matrix.data_lines])
def test_inverse_2x2_matrix(self):
matrix = Matrix.make_from_list([[1, 2], [3, 4]])
result_matrix = MatrixOperations.inverse(matrix)
self.assertTrue(result_matrix.data_lines[0][0] == -2
and result_matrix.data_lines[0][1] == 1
and result_matrix.data_lines[1][0] == 1.5
and result_matrix.data_lines[1][1] == -0.5)
def test_scalar_1_mult_matrix(self):
first_matrix = Matrix.make_from_list([[1, 2], [3, 4]])
scalar = 1
result_matrix = MatrixOperations.scalar_multiply_matrix(
scalar, first_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == 1
and result_matrix.data_lines[1][1] == 4)
def test_scalar_2_mult_square_2x2_matrix(self):
first_matrix = Matrix.make_from_list([[1, 2], [3, 4]])
skalar = 2
result_matrix = MatrixOperations.scalar_multiply_matrix(
skalar, first_matrix)
self.assertTrue(result_matrix.data_lines[0][0] == 2
and result_matrix.data_lines[1][1] == 8)
def scalar_multiply_matrix(cls, scalar, matrix):
if scalar == 0:
return 0
elif scalar == 1:
return matrix
return Matrix.make_from_list([[scalar * elem for elem in row]
for row in matrix.data_lines])
def add_matrix(cls, first_matrix, second_matrix):
if not MatrixOperations.is_both_same_size(first_matrix, second_matrix):
raise MatrixOperationsError(
'Matrices of different sizes! Check matrices elements.')
return Matrix.make_from_list(
[[elem1 + elem2
for elem1, elem2 in zip(row1, row2)] for row1, row2 in zip(
first_matrix.data_lines, second_matrix.data_lines)])
def test_can_calculate_determinant_of_matrix6x6(self):
test_matrix = Matrix.make_from_list([[-1, 2, 3, 4, 5, 6],
[7, 0, 4, -1, 0, -3],
[0, 5, -6, 0, 0, 3],
[1, 0, 3, 4, 5, 6],
[0, 8, 0, 1, 2, 0],
[-4, 0, 6, 0, 0, -5]])
det = test_matrix.calculate_det()
self.assertEqual(det, -96)
def multiply_matrix(cls, first_matrix, second_matrix):
if not MatrixOperations.can_multiply_matrix(first_matrix,
second_matrix):
raise MatrixOperationsError(
'Matrices has invalid sizes! Check matrices size.')
result_matrix = Matrix.make_from_list(
[[0 for i in range(second_matrix.cols)]
for i in range(first_matrix.rows)])
for i in range(first_matrix.rows):
for k in range(first_matrix.cols):
for j in range(second_matrix.cols):
result_matrix.data_lines[i][j] += first_matrix.data_lines[i][k] * \
second_matrix.data_lines[k][j]
return result_matrix
def test_can_calculate_determinant_of_matrix2x2(self):
test_matrix = Matrix.make_from_list([[1, 3], [5, 7]])
det = test_matrix.calculate_det()
self.assertEqual(det, -8)
def test_can_not_delete_incorrect_col_or_row(self):
test_matrix = Matrix.make_from_list([[1, 3], [5, 7], [5, 7]])
with self.assertRaises(MatrixError):
Matrix.delete_col_and_row(test_matrix, -100, -500)
def test_is_matrix_not_square(self):
test_matrix = Matrix.make_random(3, 2)
self.assertEqual(test_matrix.is_matrix_square(), 0)
def test_is_correct_index(self):
test_matrix = Matrix.make_random(3, 3)
self.assertEqual(test_matrix.is_correct_index(4, 3), False)
def test_is_matrix_square(self):
test_matrix = Matrix.make_random(3, 3)
self.assertEqual(test_matrix.is_matrix_square(), True)
def test_check_exception(self):
with self.assertRaises(MatrixError):
test_matrix = Matrix.make_from_list([[1, 3]])
test_matrix.calculate_det()
def test_can_write_matrix_as_string(self):
test_matrix = Matrix.make_from_list([[1, 3], [5, 7]])
self.assertEqual(str(test_matrix), '1 3\n5 7\n')
def test_can_calculate_determinant_of_matrix1x1(self):
test_matrix = Matrix.make_random(1, 1)
det = test_matrix.calculate_det()
self.assertTrue(test_matrix.data_lines[0][0] == det)
def test_can_calculate_minor_0_1(self):
test_matrix = Matrix.delete_col_and_row(
Matrix.make_from_list([[1, 0, -3], [0, 0, 2], [-1, -2, 0]]), 0, 1)
det = test_matrix.calculate_det()
self.assertEqual(det, 2)
def test_delete_zero_row_and_zero_col_in_matrix(self):
test_matrix = Matrix.delete_col_and_row(
Matrix.make_from_list([[1, 3], [5, 7]]), 0, 0)
det = test_matrix.calculate_det()
self.assertEqual(det, 7)
def test_inverse_matrix_with_zero_det(self):
matrix = Matrix.make_from_list([[1, 2], [2, 4]])
with self.assertRaises(MatrixError):
MatrixOperations.inverse(matrix)
def test_not_onesize_matrices(self):
first_matrix = Matrix.make_from_list([[1, 1]])
second_matrix = Matrix.make_from_list([[2]])
self.assertEqual(
MatrixOperations.is_both_same_size(first_matrix, second_matrix),
False)
def test_can_calculate_determinant_of_matrix3x3(self):
test_matrix = Matrix.make_from_list([[7, 2, 0], [5, 8, 7], [1, 2, 3]])
det = test_matrix.calculate_det()
self.assertEqual(det, 54)
def test_plus_diffsize_matrix(self):
first_matrix = Matrix.make_from_list([[1, 1]])
second_matrix = Matrix.make_from_list([[-1]])
with self.assertRaises(MatrixOperationsError):
MatrixOperations.add_matrix(first_matrix, second_matrix)
def test_check_constructor(self):
test_matrix = Matrix.make_from_list([[1, 1]])
self.assertTrue(
test_matrix.cols == 2 and test_matrix.rows == 1 and
test_matrix.data_lines[0][0] == test_matrix.data_lines[0][1] == 1)
def test_can_not_multiply_matrices(self):
first_matrix = Matrix.make_from_list([[1, 1], [1, 1]])
second_matrix = Matrix.make_from_list([[2, 2]])
self.assertEqual(
MatrixOperations.can_multiply_matrix(first_matrix, second_matrix),
False)
def test_get_data_line(self):
test_matrix = Matrix.make_from_list([[7, 0], [5, 8]])
self.assertEqual(test_matrix.get_data_lines(), [[7, 0], [5, 8]])
def test_create_matrix_with_not_full_first_string(self):
with self.assertRaises(MatrixError):
Matrix.make_from_list([[1, 1], [1, 1, 1], [1, 2, 1]])