def test_3_collinear_points_1_line(): points = [(0, 0), (1, 1), (2, 2)] assert get_lines(points) == [(1, 0)] assert len(get_lines(points)) == 1 pnt_set1 = [(0, 0), (-1, -1), (-2, -2)] assert get_lines(pnt_set1) == [(1, 0)] assert len(get_lines(pnt_set1)) == 1 pnt_set2 = [(0, 0), (-1, -1), (-2, -2)] assert get_lines(pnt_set2) == [(1, 0)] assert len(get_lines(pnt_set2)) == 1 pnt_set3 = [(4, -28), (9, -53), (0, -8)] x0, y0 = pnt_set3[0] x1, y1 = pnt_set3[2] x2, y2 = pnt_set3[1] slop = (y0 - y2) / (x0 - x2) assert slop == (y2 - y1) / (x2 - x1) intercept = y0 - slop * x0 assert intercept == y2 - slop * x2 assert intercept == y1 - slop * x1 assert len(get_lines(points)) == 1 assert get_lines(pnt_set3) == [(slop, intercept)] pnt_set4 = [(9, -42), (-2, 2), (3, -18)] x0, y0 = pnt_set4[0] x1, y1 = pnt_set4[2] x2, y2 = pnt_set4[1] slop = (y0 - y2) / (x0 - x2) assert slop == (y2 - y1) / (x2 - x1) intercept = y0 - slop * x0 assert intercept == y2 - slop * x2 assert intercept == y1 - slop * x1 assert len(get_lines(points)) == 1
def test_raise_exception_if_xy_not_exactly_2_elements(): # Too many values to unpack with pytest.raises(ValueError) as exception_info: get_lines([(3, 2, 5), (4, -1, -1), (8, 1, 2), (-7, 0, 2)]) assert "too many values to unpack" in str(exception_info.value) # Not enough values to unpack with pytest.raises(ValueError) as exception_info: get_lines([(3,), (4,), (8,), (-7,)]) assert "not enough values to unpack" in str(exception_info.value)
def test_300_to_900_collinear_points_forming_100_lines(): collinear_points = random_collinear_points( num_lines=100, min_collinear_points_per_line=3, max_collinear_points_per_line= 9, # each line can have `randomly` between 3 to 9 collinear points ) assert len(get_lines(collinear_points)) == 100
def test_10_x_axis_parallel_lines(): x_axis_parallel_lines = [] for _ in range(10): y = randint(-100000, 100001) x_axis_parallel_lines += [(randint(-10000, 10001), y) for _ in range(10)] shuffle(x_axis_parallel_lines) assert len(get_lines(x_axis_parallel_lines)) == 10
def test_10_y_axis_parallel_lines(): y_axis_parallel_lines = [] for _ in range(10): x = randint(-100000, 100001) y_axis_parallel_lines += [(x, randint(-10000, 10001)) for _ in range(10)] shuffle(y_axis_parallel_lines) assert len(get_lines(y_axis_parallel_lines)) == 10
def test_about_400_collinears_and_400_non_collinears_mixed(): mixed_points = random_collinear_points( num_lines=100, min_collinear_points_per_line=3, max_collinear_points_per_line=5) + random_non_collinear_points( num_non_collinears=400) shuffle(mixed_points) # Randomly rearrange all points in-place assert len(get_lines(mixed_points)) == 100
def test_less_than_3_points_input(): """Correct Type but Insufficient Data""" pnt_set0 = [] pnt_set1 = [(0, 0)] pnt_set2 = [(0, 0), (1, 1)] assert get_lines(pnt_set0) == [] assert get_lines(pnt_set0) == [] assert get_lines(pnt_set1) == [] assert get_lines(pnt_set2) == [] pnt_set3 = [(0, 0), (1, 1), (2, 2)] # collinear points assert get_lines(pnt_set3) != [] assert len(get_lines(pnt_set3)) == 1
def test_300_collinear_points_forming_100_lines(): collinear_points = random_collinear_points(num_lines=100, min_collinear_points_per_line=3, max_collinear_points_per_line=3) assert len(get_lines(collinear_points)) == 100
def test_200_non_collinear_points(): non_collinear_point = random_non_collinear_points(num_non_collinears=200) # non_collinear_point = [(23, 6342), (42, 7777), (54, 1), (24111, 0), (6, 77)] assert get_lines(non_collinear_point) == [ ] # Expecting no line to be found
def test_raise_exception_if_input_type_not_list(): with pytest.raises(TypeError) as exception_info: xy_input = ((-1, -1), (3, 3), (6, 6), (0, 0)) get_lines(xy_input) assert "Expected input type is list." in str(exception_info.value)
def test_raise_exception_if_missing_input(): with pytest.raises(ValueError) as exception_info: get_lines() assert "Expected input argument is missing." in str(exception_info.value)