class TestParallelepiped(unittest.TestCase): """ Unit tests for calculate_ER (Parallelepipedmodel) """ def setUp(self): from sas.models.ParallelepipedModel import ParallelepipedModel from sas.models.DiamCylFunc import DiamCylFunc self.comp = ParallelepipedModel() self.diam = DiamCylFunc() def test(self): """ Test 1D model for a Parallelepiped """ self.comp.setParam("short_a", 35) self.comp.setParam("short_b", 75) self.comp.setParam("long_c", 400) r_value = math.sqrt(35 * 75 / math.pi) self.diam.setParam("radius", r_value) self.diam.setParam("length", 400) self.assertAlmostEqual(self.comp.calculate_ER(), self.diam.run(0.1) / 2)
class TestParallelepiped(unittest.TestCase): """ Unit tests for calculate_ER (Parallelepipedmodel) """ def setUp(self): from sas.models.ParallelepipedModel import ParallelepipedModel from sas.models.DiamCylFunc import DiamCylFunc self.comp = ParallelepipedModel() self.diam = DiamCylFunc() def test(self): """ Test 1D model for a Parallelepiped """ self.comp.setParam("short_a", 35) self.comp.setParam("short_b", 75) self.comp.setParam("long_c",400) r_value = math.sqrt(35*75/math.pi) self.diam.setParam("radius", r_value) self.diam.setParam("length",400) self.assertAlmostEqual(self.comp.calculate_ER(), self.diam.run(0.1)/2)
def setUp(self): from sas.models.ParallelepipedModel import ParallelepipedModel from sas.models.DiamCylFunc import DiamCylFunc self.comp = ParallelepipedModel() self.diam = DiamCylFunc()
def setUp(self): from sas.models.ParallelepipedModel import ParallelepipedModel from sas.models.DiamCylFunc import DiamCylFunc self.comp = ParallelepipedModel() self.diam = DiamCylFunc()