def on_btn_z_mod_released(self): try: z1 = self.get_z_z(1) z2 = self.get_z_z(2) result = integer.MOD_ZZ_Z(z1, z2) self.add_history_record('%d %% %d = %d' % ( common.Z_to_num(z1), common.Z_to_num(z2), common.Z_to_num(result), )) except Exception as e: self.on_exception(e)
def open_window_int_mod(): layout = [[sg.Text('Enter two integers')], [sg.Input(key='dig1')], [sg.Button('mod', key='start')], [sg.Input(key='dig2')], [sg.Text(size=(400, 10), key='out')]] window = sg.Window('The mod of integer numbers', layout, size=(460, 260), resizable=True) while True: event, values = window.read() if event == "start": window['out'].update( ListToStr( integer.MOD_ZZ_Z(StrToList(values['dig1']), StrToList(values['dig2'])))) if event == sg.WINDOW_CLOSED: break
def test_less_negative_both(self): number1 = [1, 1, [4]] number2 = [1, 2, [1, 2]] expect = [0, 2, [7, 1]] result = integer.MOD_ZZ_Z(number1, number2) self.assertEqual(result, expect)
def test_less_positive(self): number1 = [0, 1, [4]] number2 = [0, 2, [1, 2]] expect = number1 result = integer.MOD_ZZ_Z(number1, number2) self.assertEqual(result, expect)
def test_normal_negative_both(self): number1 = [1, 3, [4, 2, 5]] number2 = [1, 2, [3, 5]] expect = [0, 1, [6]] result = integer.MOD_ZZ_Z(number1, number2) self.assertEqual(result, expect)
def test_normal_positive(self): number1 = [0, 3, [4, 2, 5]] number2 = [0, 2, [3, 5]] expect = [0, 2, [7, 4]] result = integer.MOD_ZZ_Z(number1, number2) self.assertEqual(result, expect)
def test_one_negative(self): number = [1, 3, [4, 2, 5]] one = [1, 1, [1]] expect = [0, 1, [0]] result = integer.MOD_ZZ_Z(number, one) self.assertEqual(result, expect)
def test_equal_negative(self): number = [1, 3, [4, 2, 5]] expect = [0, 1, [0]] result = integer.MOD_ZZ_Z(number, number) self.assertEqual(result, expect)
def test_zero(self): number = [0, 2, [3, 5]] zero = [0, 1, [0]] expect = zero result = integer.MOD_ZZ_Z(zero, number) self.assertEqual(result, expect)