def test_timeScale(self): dim = Nondimensional() dim._configure() dim.setTimeScale(2.0 * second) self.assertEqual(1.0 * meter, dim.getLengthScale()) self.assertEqual(1.0 * pascal, dim.getPressureScale()) self.assertEqual(2.0 * second, dim.getTimeScale()) self.assertEqual(1.0 * kilogram / meter**3, dim.getDensityScale())
def test_timeScale(self): dim = Nondimensional() dim._configure() dim.setTimeScale(2.0*second) self.assertEqual(1.0*meter, dim.lengthScale()) self.assertEqual(1.0*pascal, dim.pressureScale()) self.assertEqual(2.0*second, dim.timeScale()) self.assertEqual(1.0*kilogram/meter**3, dim.densityScale()) return
def setUp(self): from spatialdata.units.Nondimensional import Nondimensional normalizer = Nondimensional() normalizer._configure() normalizer.setTimeScale(2.0 * second) tstep = TimeStepAdapt() tstep._configure() tstep.preinitialize() tstep.initialize(normalizer) self.tstep = tstep return
def setUp(self): from spatialdata.units.Nondimensional import Nondimensional normalizer = Nondimensional() normalizer._configure() normalizer.setTimeScale(2.0*second) tstep = TimeStep() tstep._configure() tstep.preinitialize() tstep.initialize(normalizer) self.tstep = tstep return
def setUp(self): from spatialdata.units.Nondimensional import Nondimensional normalizer = Nondimensional() normalizer._configure() normalizer.setTimeScale(0.5*year) tstep = TimeStepUser() tstep._configure() tstep.filename = "data/timesteps.txt" tstep.preinitialize() tstep.initialize(normalizer) self.tstep = tstep return
def setUp(self): from spatialdata.units.Nondimensional import Nondimensional normalizer = Nondimensional() normalizer._configure() normalizer.setTimeScale(0.5 * year) tstep = TimeStepUser() tstep._configure() tstep.filename = "data/timesteps.txt" tstep.preinitialize() tstep.initialize(normalizer) self.tstep = tstep return