def test_compare(self):
print("단위간 비교")
len1 = measurement.Length(10.0,'m')
len2 = measurement.Length(6,'m')
ma1 = measurement.Mass(10.0,'kg')
ma2 = measurement.Mass(5,'kg')
self.assertFalse(measurement.compare_unit(len1,ma1),"len1과 ma1의 단위는 서로 다름")
print("-------------")
def test_volume(self):
len1= measurement.Length(10,'m')
vol1 = measurement.Volume()
print(vol1.get())
vol2= measurement.Volume(10,'m^3')
vol3.get_square_volume(len1)
def __init__(self,x_f= meas.Length(0.0,'m')):
self.position_x= x_f #x축(1차원계)상에서의 위치 객체 생성
def test_Length(self):
print("길이 객체 생성")
len1 = measurement.Length()
len1.set(10.0)
self.assertEqual(10.0,len1.get(),"결과정상")
print("-------------")
def __init__(self, x, y):
self.x = measure.Length(x)
self.y = measure.Length(y)
self.r = math.sqrt(self.x.get()**2 + self.y.get()**2)
self.theta = measure.Degree(math.degrees(math.atan2(y, x)), 'deg')