def get_ordered_pair(ordered_pair_num, xs, ys):
x = 0
y = 0
while (x is not None and y is not None):
x = input("x for point #" + str(ordered_pair_num) + "(sbm): ")
if (x == ""):
print("Got empty, quitting...")
main.page1()
elif (x != ""):
if (x == "sbm"):
if ((xs == []) or (ys == [])):
print("Submission can't be empty")
get_ordered_pair(ordered_pair_num, xs, ys)
answer = find_domain_range_ordered(xs, ys)
x = None
y = None
break
elif (RepresentsFloat(x)):
print("Loading...")
elif (any(c.isalpha() for c in x)):
print("Must be a number!")
get_ordered_pair(ordered_pair_num, xs, ys)
y = input("y for point #" + str(ordered_pair_num) + ": ")
if (y == ""):
print("y cannot be empty")
get_ordered_pair(ordered_pair_num, xs, ys)
elif (y != ""):
if (RepresentsFloat(y)):
print("loading...")
ordered_pair_num += 1
elif (any(c.isalpha() for c in x)):
print("Must be a number!")
get_ordered_pair(ordered_pair_num, xs, ys)
xs += x
ys += y
return answer
def test_solve_pythagorean_03(self, mocked_input):
mocked_input.side_effect = ['5', 'c', '6.7082', '2.00001']
self.assertEqual(main.page1(), 'c ≈ 7.0')
def test_solve_pythagorean_02(self, mocked_input):
mocked_input.side_effect = ['5', 'b', '6.7082', '7']
self.assertEqual(main.page1(), 'b ≈ 2.0')
def test_solve_pythagorean_01(self, mocked_input):
mocked_input.side_effect = ['5', 'a', '2', '7']
self.assertEqual(main.page1(), 'a ≈ 6.71')
def test_simplify_fraction_01(self, mocked_input):
mocked_input.side_effect = ['1', '3', '7']
self.assertEqual(main.page1(), '3/7')
def test_find_dr_ordered_pair_02(self, mocked_input):
mocked_input.side_effect = [
'4', '2', '1', '2', '3', '4', '3', '2', '4', '4', 'sbm'
]
self.assertEqual(main.page1(), 'Domain: 1, 3, 4\nRange: 2, 4')
def test_solve_linear_func_03(self, mocked_input):
mocked_input.side_effect = ['3', 'a', '4', '4', '13']
self.assertEqual(main.page1(), 'a(4)= 29')
def test_solve_linear_func_02(self, mocked_input):
mocked_input.side_effect = ['3', 'g', '23', '1', '2']
self.assertEqual(main.page1(), 'g(1)= 25')
def test_solve_linear_func_01(self, mocked_input):
mocked_input.side_effect = ['3', 'f', '1', '2', '3']
self.assertEqual(main.page1(), 'f(2)= 5')
def test_factor_quadratic_03(self, mocked_input):
mocked_input.side_effect = ['2', '1', '2', '3']
self.assertEqual(main.page1(), 'Solutions are imaginary')
def test_factor_quadratic_02(self, mocked_input):
mocked_input.side_effect = ['2', '1', '99', '23']
self.assertEqual(main.page1(), 'No factorization')
def test_factor_quadratic_01(self, mocked_input):
mocked_input.side_effect = ['2', '1', '5', '4']
self.assertEqual(main.page1(), '(1x+1)(1x+4)')
def test_simplify_fraction_04(self, mocked_input):
mocked_input.side_effect = ['1', '5', '0']
self.assertEqual(main.page1(), 'Division by 0 - result undefined')
import main main.page1()
