def test_sin(self): self._test1(np.sin, (np.arange(0, pi/2, pi/4) * self.ureg.dimensionless, np.arange(0, pi/2, pi/4) * self.ureg.radian, np.arange(0, pi/2, pi/4) * self.ureg.mm / self.ureg.m ), (self.ureg.m, ), '', results=(None, None, np.sin(np.arange(0, pi/2, pi/4)*0.001))) self._test1(np.sin, (np.rad2deg(np.arange(0, pi/2, pi/4)) * self.ureg.degrees, ), results=(np.sin(np.arange(0, pi/2, pi/4)), ))
def test_sin(self): self._test1( np.sin, (np.arange(0, pi / 2, pi / 4) * self.ureg.dimensionless, np.arange(0, pi / 2, pi / 4) * self.ureg.radian, np.arange(0, pi / 2, pi / 4) * self.ureg.mm / self.ureg.m), (self.ureg.m, ), '', results=(None, None, np.sin(np.arange(0, pi / 2, pi / 4) * 0.001))) self._test1( np.sin, (np.rad2deg(np.arange(0, pi / 2, pi / 4)) * self.ureg.degrees, ), results=(np.sin(np.arange(0, pi / 2, pi / 4)), ))
def test_issue45b(self): ureg = UnitRegistry() self.assertAlmostEqual(np.sin([np.pi / 2] * ureg.m / ureg.m), np.sin([np.pi / 2] * ureg.dimensionless)) self.assertAlmostEqual(np.sin([np.pi / 2] * ureg.cm / ureg.m), np.sin([np.pi / 2] * ureg.dimensionless * 0.01))
def test_issue45b(self): ureg = UnitRegistry() self.assertAlmostEqual(np.sin([np.pi/2] * ureg.m / ureg.m ), np.sin([np.pi/2] * ureg.dimensionless)) self.assertAlmostEqual(np.sin([np.pi/2] * ureg.cm / ureg.m ), np.sin([np.pi/2] * ureg.dimensionless * 0.01))