def test_perimetr(self, test_vars):
     side1 = Rectangl(test_vars)
     p = (test_vars[0] + test_vars[1]) * 2
     if side1.perimetr() != p:
         print(
             f"Тестируемое число{side1.perimetr()}, сравнивается с расчетным {p}. Тест не пройден"
         )
     assert side1.perimetr() == p
 def test_area(self, test_vars):
     side1 = test_vars
     area = Rectangl(test_vars)
     test_area = test_vars[0] * test_vars[1]
     if area.area() != test_area:
         print(
             f"Тестируемое число{area.area()}, сравнивается с расчетным {test_area}. Тест не пройден"
         )
     assert area.area() == test_area
 def test_sum_area(self, test_triangl, test_rect):
     triangl = Triangl(test_triangl)
     rect = Rectangl(test_rect)
     sum = rect.calculatio() + triangl.calculatio()
     assert sum == rect.add_square(triangl)
 def test_angels(self, test_angels):
     test_rect = Rectangl((8, 18))
     assert test_rect.angels() == test_angels
 def test_name(self, test_name_list):
     name = Rectangl((8, 18))
     name.print()
     assert name.nameTrig() == test_name_list
 def test_sum_area(self, test_circl, test_rect):
     circl = Circle(test_circl)
     rect = Rectangl(test_rect)
     sum = rect.calculatio() + circl.calculatio()
     assert sum == circl.add_square(rect)