class TestSin(unittest.TestCase): """Unit tests for Sin(x) function""" def setUp(self): from sas.models.Sin import Sin self.sin = Sin() def test1D(self): self.assertEqual(self.sin.run(1.13), math.sin(1.13)) def test2D(self): self.assertEqual(self.sin.run([1.13,0.56]), math.sin(1.13*math.cos(0.56))*math.sin(1.13*math.sin(0.56))) self.assertEqual(self.sin.runXY([1.13,0.56]), math.sin(1.13)*math.sin(0.56))
class TestSin(unittest.TestCase): """Unit tests for Sin(x) function""" def setUp(self): from sas.models.Sin import Sin self.sin = Sin() def test1D(self): self.assertEqual(self.sin.run(1.13), math.sin(1.13)) def test2D(self): self.assertEqual( self.sin.run([1.13, 0.56]), math.sin(1.13 * math.cos(0.56)) * math.sin(1.13 * math.sin(0.56))) self.assertEqual(self.sin.runXY([1.13, 0.56]), math.sin(1.13) * math.sin(0.56))
def testFunction(self): # version 0.5.0: No longer supported return from sas.models.Sin import Sin s = Sin() A = self.const A.setParam('Value', 1.5) B = self.const.clone() B.setParam('value', 2.0) C = self.const.clone() C.setParam('value', 3.0) f = A + B * s * s + C answer = 1.5 + 2.0 * math.sin(1.1)**2 + 3.0 self.assertEqual(f.run(1.1), answer)
def setUp(self): from sas.models.Sin import Sin self.sin = Sin()