def test_get_liquid_water_path2(self): self.lwc.init_cloud_layers(0, 50) lwc = LowWaterCloud(2000., 255., 400., 0) lwc.init_cloud_layers(0, 10) lwc.get_liquid_water_path() self.lwc.get_liquid_water_path() self.assertAlmostEqual(lwc.lwp, self.lwc.lwp, 1)
def test_get_fog_cloud_height2(self): lwc = LowWaterCloud(1000., 275., 100., 100., 10e-6) lwc.init_cloud_layers(100, 10) lwp = lwc.get_liquid_water_path() cbh = lwc.optimize_cbh(lwc.cbh) fbh = lwc.get_fog_base_height() self.assertAlmostEqual(round(lwc.lwp, 3), 100) self.assertAlmostEqual(round(lwc.maxlwc, 3), 0.494) self.assertAlmostEqual(round(fbh, 0), 612)
def test_get_fog_cloud_height2(self): lwc = LowWaterCloud(1000., 275., 100., 100., 10e-6) lwc.init_cloud_layers(100, 10) lwc.get_liquid_water_path() np.random.seed(42) lwc.optimize_cbh(lwc.cbh, method="basin") fbh = lwc.get_fog_base_height() self.assertAlmostEqual(lwc.lwp, 100, 3) self.assertAlmostEqual(lwc.maxlwc, 0.494, 3) self.assertAlmostEqual(fbh, 612, 0)
def test_get_fog_cloud_height(self): lwc = LowWaterCloud(2000., 275., 400., 100, 10e-6) lwc.init_cloud_layers(100, 50) fbh = lwc.get_fog_base_height() self.assertAlmostEqual(fbh, 125, 0)
class Test_LowWaterCloud(unittest.TestCase): def setUp(self): self.lwc = LowWaterCloud(2000., 255., 400., 0, 10e-6) self.thinlwc = LowWaterCloud(2000., 255., 1., 0, 10e-6) self.nanlwc = LowWaterCloud(np.nan, 255., 400., 0, 10e-6) self.nodatalwc = LowWaterCloud(2000., 255., -9999, 0, 10e-6) def tearDown(self): pass def test_get_sat_vapour_pressure_buck(self): psv_m50 = self.lwc.get_sat_vapour_pressure(-50) psv_m20 = self.lwc.get_sat_vapour_pressure(-20) psv_0 = self.lwc.get_sat_vapour_pressure(0) psv_20 = self.lwc.get_sat_vapour_pressure(20) psv_50 = self.lwc.get_sat_vapour_pressure(50) self.assertAlmostEqual(psv_m50, 0.064, 3) self.assertAlmostEqual(psv_m20, 1.256, 3) self.assertAlmostEqual(psv_0, 6.112, 3) self.assertAlmostEqual(psv_20, 23.383, 3) self.assertAlmostEqual(psv_50, 123.494, 3) def test_get_sat_vapour_pressure_magnus(self): psv_m50 = self.lwc.get_sat_vapour_pressure(-50, 'magnus') psv_m20 = self.lwc.get_sat_vapour_pressure(-20, 'magnus') psv_0 = self.lwc.get_sat_vapour_pressure(0, 'magnus') psv_20 = self.lwc.get_sat_vapour_pressure(20, 'magnus') psv_50 = self.lwc.get_sat_vapour_pressure(50, 'magnus') self.assertAlmostEqual(psv_m50, 0.064, 3) self.assertAlmostEqual(psv_m20, 1.254, 3) self.assertAlmostEqual(psv_0, 6.108, 3) self.assertAlmostEqual(psv_20, 23.420, 3) self.assertAlmostEqual(psv_50, 123.335, 3) def test_get_air_pressure(self): pa_1 = self.lwc.get_air_pressure(610) pa_2 = self.lwc.get_air_pressure(0) self.assertAlmostEqual(pa_1, 942.08, 2) self.assertAlmostEqual(pa_2, 1013.25, 2) def test_get_moist_adiabatic_lapse_temp(self): temp_0 = self.lwc.get_moist_adiabatic_lapse_temp(500, 1500, 0) self.assertAlmostEqual(temp_0, 6.5, 1) def test_get_vapour_mixing_ratio(self): vmr = self.lwc.get_vapour_mixing_ratio(1007.26, 8.44) self.assertAlmostEqual(vmr, 5.26, 2) def test_get_cloud_based_vapour_mixing_ratio(self): self.lwc.cbh = 0 cb_vmr = self.lwc.get_cloud_based_vapour_mixing_ratio() self.assertAlmostEqual(cb_vmr, 2.57, 2) def test_get_liquid_mixing_ratio(self): self.lwc.cbh = 0 self.lwc.get_cloud_based_vapour_mixing_ratio() temp = self.lwc.get_moist_adiabatic_lapse_temp(0, self.lwc.cth, self.lwc.ctt, True) cb_press = self.lwc.get_air_pressure(self.lwc.cbh) psv = self.lwc.get_sat_vapour_pressure(temp, self.lwc.vapour_method) vmr = self.lwc.get_vapour_mixing_ratio(cb_press, psv) lmr = self.lwc.get_liquid_mixing_ratio(self.lwc.cb_vmr, vmr) self.assertAlmostEqual(self.lwc.cb_vmr, vmr) self.assertAlmostEqual(lmr, 0) def test_get_liquid_water_content(self): lwc = LowWaterCloud(2000., 255., 400., 0) lwc = self.lwc.get_liquid_water_content(1950, 2000, 1.091, 1.392, 0.0, 1.518, 50) self.assertAlmostEqual(lwc, 1.519, 3) def test_get_liquid_water_path(self): self.lwc.init_cloud_layers(421., 100) self.lwc.get_liquid_water_path() lwc = LowWaterCloud(2000., 255., 400., 0) CloudLayer(1900, 2000, lwc) lwc.get_liquid_water_path() self.assertAlmostEqual(len(lwc.layers), 1) self.assertAlmostEqual(lwc.lwp, 60.719, 3) self.assertAlmostEqual(self.lwc.lwp, 400., 1) def test_get_liquid_water_path2(self): self.lwc.init_cloud_layers(0, 50) lwc = LowWaterCloud(2000., 255., 400., 0) lwc.init_cloud_layers(0, 10) lwc.get_liquid_water_path() self.lwc.get_liquid_water_path() self.assertAlmostEqual(lwc.lwp, self.lwc.lwp, 1) def test_init_cloud_layers(self): self.lwc.init_cloud_layers(0, 100) self.lwc.plot_lowcloud('lwc', 'Liquid water content in [g m-3]', '/tmp/test_lowwatercloud_lwc.png') self.assertAlmostEqual(len(self.lwc.layers), 22) self.assertAlmostEqual(self.lwc.layers[0].z, 0) self.assertAlmostEqual(self.lwc.layers[1].z, 50) self.assertAlmostEqual(self.lwc.layers[20].press, 800, 0) self.assertAlmostEqual(self.lwc.layers[21].z, 2000) def test_cloud_layer(self): lwc = LowWaterCloud(2000., 255., 400., 0) cl = CloudLayer(0, 100, lwc) cl1 = CloudLayer(1945, 1955, lwc) cl2 = CloudLayer(1970, 1980, lwc) cl3 = CloudLayer(1950, 2050, lwc) self.assertAlmostEqual(cl.z, 50., 2) self.assertAlmostEqual(cl.temp, -5.47, 2) self.assertAlmostEqual(cl.press, 1007.26, 2) self.assertAlmostEqual(cl.psv, 4.07, 2) self.assertAlmostEqual(cl1.lwc, 0.607, 3) self.assertAlmostEqual(cl2.lwc, 0.304, 3) self.assertAlmostEqual(cl3.lwc, 0., 3) def test_cloud_layer_small(self): lwc = LowWaterCloud(1000., 235., 400., 950) cl = CloudLayer(950, 960, lwc, False) cl1 = CloudLayer(960, 970, lwc, False) cl2 = CloudLayer(970, 980, lwc, False) cl3 = CloudLayer(980, 990, lwc, False) cl4 = CloudLayer(990, 1000, lwc, False) self.assertAlmostEqual(cl.lwc, 8e-5, 5) self.assertAlmostEqual(cl1.lwc, 6e-5, 5) self.assertAlmostEqual(cl2.lwc, 4e-5, 5) self.assertAlmostEqual(cl3.lwc, 3e-5, 5) self.assertAlmostEqual(cl4.lwc, 1e-5, 5) self.assertAlmostEqual(lwc.upthres, 49) self.assertAlmostEqual(lwc.maxlwc, 8.2e-5, 5) def test_cloud_layer_small2(self): lwc = LowWaterCloud(1000., 235., 400., 950) cl1 = CloudLayer(970, 980, lwc, False) cl2 = CloudLayer(980, 990, lwc, False) cl3 = CloudLayer(990, 1000, lwc, False) self.assertAlmostEqual(cl1.lwc, 4e-5, 5) self.assertAlmostEqual(cl2.lwc, 3e-5, 5) self.assertAlmostEqual(cl3.lwc, 1e-5, 5) self.assertAlmostEqual(lwc.upthres, 49) self.assertAlmostEqual(lwc.maxlwc, 8.2e-5, 6) def test_get_moist_air_density(self): self.lwc.cbh = 0 empiric_hrho_0 = self.lwc.get_moist_air_density( 100000, 0, 273.15, True) empiric_hrho_20 = self.lwc.get_moist_air_density( 101325, 0, 293.15, True) empiric_humid_hrho_20 = self.lwc.get_moist_air_density( 101325, 2338, 293.15, True) empiric_humid_hrho_neg20 = self.lwc.get_moist_air_density( 101325, 996.3, 253.15, True) ideal_hrho_15 = self.lwc.get_moist_air_density(101325, 0, 288.15) ideal_hrho_20 = self.lwc.get_moist_air_density(101325, 0, 293.15) humid_ideal_hrho_20 = self.lwc.get_moist_air_density( 101325, 2338, 293.15) humid_ideal_hrho_neg20 = self.lwc.get_moist_air_density( 101325, 996.3, 253.15) self.assertAlmostEqual(empiric_hrho_0, 1.276, 3) self.assertAlmostEqual(empiric_hrho_20, 1.205, 4) self.assertAlmostEqual(ideal_hrho_15, 1.2250, 4) self.assertAlmostEqual(ideal_hrho_20, 1.2041, 4) self.assertAlmostEqual(humid_ideal_hrho_20, 1.194, 3) self.assertAlmostEqual(empiric_humid_hrho_20, 1.1945, 4) self.assertAlmostEqual(humid_ideal_hrho_neg20, 1.3892, 4) self.assertAlmostEqual(empiric_humid_hrho_neg20, 1.3902, 4) def test_get_incloud_mixing_ratio(self): self.lwc.cbh = 100 self.lwc.cth = 1000 beta_0 = self.lwc.get_incloud_mixing_ratio(500, 1000, 100) beta_1 = self.lwc.get_incloud_mixing_ratio(100, 1000, 100) beta_2 = self.lwc.get_incloud_mixing_ratio(130, 1000, 100) beta_3 = self.lwc.get_incloud_mixing_ratio(175, 1000, 100) beta_4 = self.lwc.get_incloud_mixing_ratio(950, 1000, 100) self.assertAlmostEqual(beta_0, 0.3) self.assertAlmostEqual(beta_1, 0) self.assertAlmostEqual(beta_2, 0.12) self.assertAlmostEqual(beta_3, 0.3, 2) self.assertAlmostEqual(beta_4, 0.3) def test_get_incloud_mixing_ratio_limit(self): self.lwc.cbh = 950 self.lwc.cth = 1000 beta_0 = self.lwc.get_incloud_mixing_ratio(950, 1000, 950) beta_1 = self.lwc.get_incloud_mixing_ratio(960, 1000, 950) beta_2 = self.lwc.get_incloud_mixing_ratio(970, 1000, 950) beta_3 = self.lwc.get_incloud_mixing_ratio(980, 1000, 950) beta_4 = self.lwc.get_incloud_mixing_ratio(990, 1000, 950) beta_5 = self.lwc.get_incloud_mixing_ratio(1000, 1000, 950) self.assertAlmostEqual(beta_0, 0.3) self.assertAlmostEqual(beta_1, 0.3) self.assertAlmostEqual(beta_2, 0.3) self.assertAlmostEqual(beta_3, 0.3, 2) self.assertAlmostEqual(beta_4, 0.3) self.assertAlmostEqual(beta_5, 0.3) def test_optimize_cbh_brute(self): self.lwc.thickness = 100 ret_brute = self.lwc.optimize_cbh(100., method='brute') self.assertAlmostEqual(ret_brute, 421., 1) def test_optimize_cbh_basin(self): self.lwc.thickness = 100 np.random.seed(42) ret_basin = self.lwc.optimize_cbh(100., method='basin') self.assertIn(round(ret_basin, 0), [421, 479, 478, 477]) def test_optimize_cbh_start(self): self.lwc.thickness = 100. np.random.seed(42) listresult = [] listresult.append(self.lwc.optimize_cbh(1000., method='basin')) listresult.append(self.lwc.optimize_cbh(900., method='basin')) listresult.append(self.lwc.optimize_cbh(800., method='basin')) listresult.append(self.lwc.optimize_cbh(700., method='basin')) listresult.append(self.lwc.optimize_cbh(600., method='basin')) listresult.append(self.lwc.optimize_cbh(500., method='basin')) listresult.append(self.lwc.optimize_cbh(400., method='basin')) listresult.append(self.lwc.optimize_cbh(300., method='basin')) listresult.append(self.lwc.optimize_cbh(200., method='basin')) listresult.append(self.lwc.optimize_cbh(100., method='basin')) listresult.append(self.lwc.optimize_cbh(0., method='basin')) listresult.append(self.lwc.optimize_cbh(-100., method='basin')) test = [round(i, 0) == 421 for i in listresult] self.assertGreaterEqual(sum(test), 8) @unittest.expectedFailure def test_optimize_cbh_start_thin(self): self.thinlwc.thickness = 10. np.random.seed(42) listresult = [] listresult.append(self.thinlwc.optimize_cbh(1000., method='basin')) listresult.append(self.thinlwc.optimize_cbh(900., method='basin')) listresult.append(self.thinlwc.optimize_cbh(800., method='basin')) listresult.append(self.thinlwc.optimize_cbh(700., method='basin')) listresult.append(self.thinlwc.optimize_cbh(600., method='basin')) listresult.append(self.thinlwc.optimize_cbh(500., method='basin')) listresult.append(self.thinlwc.optimize_cbh(400., method='basin')) listresult.append(self.thinlwc.optimize_cbh(300., method='basin')) listresult.append(self.thinlwc.optimize_cbh(200., method='basin')) listresult.append(self.thinlwc.optimize_cbh(100., method='basin')) listresult.append(self.thinlwc.optimize_cbh(0., method='basin')) listresult.append(self.thinlwc.optimize_cbh(-100., method='basin')) test = [round(i, 0) == 421 for i in listresult] self.assertGreaterEqual(sum(test), 8) def test_optimize_cbh_basin_nan(self): self.nanlwc.thickness = 100 np.random.seed(42) ret_basin = self.nanlwc.optimize_cbh(100., method='basin') self.assertTrue(np.isnan(ret_basin)) def test_optimize_cbh_basin_nodata(self): self.nodatalwc.thickness = 100 np.random.seed(42) ret_basin = self.nodatalwc.optimize_cbh(100., method='basin') self.assertTrue(np.isnan(ret_basin)) def test_get_visibility(self): LowWaterCloud(2000., 255., 400., 0, 10e-6) vis = self.lwc.get_visibility(1) vis2 = self.lwc.get_visibility(1 / 1000.) self.assertAlmostEqual(vis, 3.912, 3) self.assertAlmostEqual(vis2, 3912, 0) def test_get_liquid_density(self): LowWaterCloud(2000., 285., 400., 0) rho1 = self.lwc.get_liquid_density(20, 100e5) rho2 = self.lwc.get_liquid_density(4, 1e5) rho3 = self.lwc.get_liquid_density(0, 1e5) self.assertAlmostEqual(rho1, 1002.66, 3) self.assertAlmostEqual(rho2, 999.448, 3) self.assertAlmostEqual(rho3, 999.80, 3) def test_get_effective_radius(self): lwc = LowWaterCloud(1000., 255., 400., reff=10e-6, cbh=0) reff_b = lwc.get_effective_radius(0) reff_m = lwc.get_effective_radius(500) reff_t = lwc.get_effective_radius(lwc.cth) self.assertAlmostEqual(reff_b, 1e-6) self.assertAlmostEqual(reff_m, 5.5e-6) self.assertAlmostEqual(reff_t, 10e-6) def test_get_effective_radius_with_cbh(self): lwc = LowWaterCloud(1000., 255., 400., reff=10e-6, cbh=100) reff_b = lwc.get_effective_radius(100) reff_m = lwc.get_effective_radius(550) reff_t = lwc.get_effective_radius(lwc.cth) self.assertAlmostEqual(reff_b, 1e-6) self.assertAlmostEqual(reff_m, 5.5e-6) self.assertAlmostEqual(reff_t, 10e-6) def test_get_fog_cloud_height(self): lwc = LowWaterCloud(2000., 275., 400., 100, 10e-6) lwc.init_cloud_layers(100, 50) fbh = lwc.get_fog_base_height() self.assertAlmostEqual(fbh, 125, 0) def test_get_fog_cloud_height2(self): lwc = LowWaterCloud(1000., 275., 100., 100., 10e-6) lwc.init_cloud_layers(100, 10) lwc.get_liquid_water_path() np.random.seed(42) lwc.optimize_cbh(lwc.cbh, method="basin") fbh = lwc.get_fog_base_height() self.assertAlmostEqual(lwc.lwp, 100, 3) self.assertAlmostEqual(lwc.maxlwc, 0.494, 3) self.assertAlmostEqual(fbh, 612, 0) def test_reset_layers_after_minimisation(self): """Test that layers are properly reset after minimisation Test for fix for #29 """ lwc = LowWaterCloud(1000., 275., 100., 100., 10e-6) lwc.optimize_cbh(lwc.cbh, method="brute") brl = lwc.layers brfb = lwc.get_fog_base_height() np.random.seed(42) lwc.optimize_cbh(lwc.cbh, method="basin") bhl = lwc.layers bhfb = lwc.get_fog_base_height() np.testing.assert_almost_equal( [l.visibility for l in bhl if l.visibility is not None], [l.visibility for l in brl if l.visibility is not None], -1) self.assertAlmostEqual(brfb, bhfb, 0)
class Test_LowWaterCloud(unittest.TestCase): def setUp(self): self.lwc = LowWaterCloud(2000., 255., 400., 0, 10e-6) def tearDown(self): pass def test_get_sat_vapour_pressure_buck(self): psv_m50 = self.lwc.get_sat_vapour_pressure(-50) psv_m20 = self.lwc.get_sat_vapour_pressure(-20) psv_0 = self.lwc.get_sat_vapour_pressure(0) psv_20 = self.lwc.get_sat_vapour_pressure(20) psv_50 = self.lwc.get_sat_vapour_pressure(50) self.assertAlmostEqual(round(psv_m50, 3), 0.064) self.assertAlmostEqual(round(psv_m20, 3), 1.256) self.assertAlmostEqual(round(psv_0, 3), 6.112) self.assertAlmostEqual(round(psv_20, 3), 23.383) self.assertAlmostEqual(round(psv_50, 3), 123.494) def test_get_sat_vapour_pressure_magnus(self): psv_m50 = self.lwc.get_sat_vapour_pressure(-50, 'magnus') psv_m20 = self.lwc.get_sat_vapour_pressure(-20, 'magnus') psv_0 = self.lwc.get_sat_vapour_pressure(0, 'magnus') psv_20 = self.lwc.get_sat_vapour_pressure(20, 'magnus') psv_50 = self.lwc.get_sat_vapour_pressure(50, 'magnus') self.assertAlmostEqual(round(psv_m50, 3), 0.064) self.assertAlmostEqual(round(psv_m20, 3), 1.254) self.assertAlmostEqual(round(psv_0, 3), 6.108) self.assertAlmostEqual(round(psv_20, 3), 23.420) self.assertAlmostEqual(round(psv_50, 3), 123.335) def test_get_air_pressure(self): pa_1 = self.lwc.get_air_pressure(610) pa_2 = self.lwc.get_air_pressure(0) self.assertAlmostEqual(round(pa_1, 2), 942.08) self.assertAlmostEqual(round(pa_2, 2), 1013.25) def test_get_moist_adiabatic_lapse_temp(self): temp_0 = self.lwc.get_moist_adiabatic_lapse_temp(500, 1500, 0) self.assertAlmostEqual(round(temp_0, 1), 6.5) def test_get_vapour_mixing_ratio(self): vmr = self.lwc.get_vapour_mixing_ratio(1007.26, 8.44) self.assertAlmostEqual(round(vmr, 2), 5.26) def test_get_cloud_based_vapour_mixing_ratio(self): self.lwc.cbh = 0 cb_vmr = self.lwc.get_cloud_based_vapour_mixing_ratio() self.assertAlmostEqual(round(cb_vmr, 2), 2.57) def test_get_liquid_mixing_ratio(self): self.lwc.cbh = 0 self.lwc.get_cloud_based_vapour_mixing_ratio() temp = self.lwc.get_moist_adiabatic_lapse_temp(0, self.lwc.cth, self.lwc.ctt, True) cb_press = self.lwc.get_air_pressure(self.lwc.cbh) psv = self.lwc.get_sat_vapour_pressure(temp, self.lwc.vapour_method) vmr = self.lwc.get_vapour_mixing_ratio(cb_press, psv) lmr = self.lwc.get_liquid_mixing_ratio(self.lwc.cb_vmr, vmr) self.assertAlmostEqual(self.lwc.cb_vmr, vmr) self.assertAlmostEqual(lmr, 0) def test_get_liquid_water_content(self): lwc = LowWaterCloud(2000., 255., 400., 0) lwc = self.lwc.get_liquid_water_content(1950, 2000, 1.091, 1.392, 0.0, 1.518, 50) self.assertAlmostEqual(round(lwc, 3), 1.519) def test_get_liquid_water_path(self): self.lwc.init_cloud_layers(421., 100) self.lwc.get_liquid_water_path() lwc = LowWaterCloud(2000., 255., 400., 0) cl = CloudLayer(1900, 2000, lwc) lwc.get_liquid_water_path() self.assertAlmostEqual(len(lwc.layers), 1) self.assertAlmostEqual(round(lwc.lwp, 3), 60.719) self.assertAlmostEqual(round(self.lwc.lwp, 1), 400.) def test_get_liquid_water_path2(self): self.lwc.init_cloud_layers(0, 50) lwc = LowWaterCloud(2000., 255., 400., 0) lwc.init_cloud_layers(0, 10) lwc.get_liquid_water_path() self.lwc.get_liquid_water_path() self.assertAlmostEqual(round(lwc.lwp, 1), round(self.lwc.lwp, 1)) def test_init_cloud_layers(self): self.lwc.init_cloud_layers(0, 100) self.lwc.plot_lowcloud('lwc', 'Liquid water content in [g m-3]', '/tmp/test_lowwatercloud_lwc.png') self.assertAlmostEqual(len(self.lwc.layers), 22) self.assertAlmostEqual(self.lwc.layers[0].z, 0) self.assertAlmostEqual(self.lwc.layers[1].z, 50) self.assertAlmostEqual(round(self.lwc.layers[20].press, 0), 800) self.assertAlmostEqual(self.lwc.layers[21].z, 2000) def test_cloud_layer(self): lwc = LowWaterCloud(2000., 255., 400., 0) cl = CloudLayer(0, 100, lwc) cl1 = CloudLayer(1945, 1955, lwc) cl2 = CloudLayer(1970, 1980, lwc) cl3 = CloudLayer(1950, 2050, lwc) self.assertAlmostEqual(round(cl.z, 2), 50.) self.assertAlmostEqual(round(cl.temp, 2), -5.47) self.assertAlmostEqual(round(cl.press, 2), 1007.26) self.assertAlmostEqual(round(cl.psv, 2), 4.07) self.assertAlmostEqual(round(cl1.lwc, 3), 0.607) self.assertAlmostEqual(round(cl2.lwc, 3), 0.304) self.assertAlmostEqual(round(cl3.lwc, 3), 0.) def test_cloud_layer_small(self): lwc = LowWaterCloud(1000., 235., 400., 950) cl = CloudLayer(950, 960, lwc, False) cl1 = CloudLayer(960, 970, lwc, False) cl2 = CloudLayer(970, 980, lwc, False) cl3 = CloudLayer(980, 990, lwc, False) cl4 = CloudLayer(990, 1000, lwc, False) self.assertAlmostEqual(round(cl.lwc, 5), 8e-5) self.assertAlmostEqual(round(cl1.lwc, 5), 6e-05) self.assertAlmostEqual(round(cl2.lwc, 5), 4e-05) self.assertAlmostEqual(round(cl3.lwc, 5), 3e-05) self.assertAlmostEqual(round(cl4.lwc, 5), 1e-05) self.assertAlmostEqual(lwc.upthres, 49) self.assertAlmostEqual(round(lwc.maxlwc, 6), 8.2e-5) def test_cloud_layer_small2(self): lwc = LowWaterCloud(1000., 235., 400., 950) cl1 = CloudLayer(970, 980, lwc, False) cl2 = CloudLayer(980, 990, lwc, False) cl3 = CloudLayer(990, 1000, lwc, False) self.assertAlmostEqual(round(cl1.lwc, 5), 4e-5) self.assertAlmostEqual(round(cl2.lwc, 5), 3e-05) self.assertAlmostEqual(round(cl3.lwc, 5), 1e-05) self.assertAlmostEqual(lwc.upthres, 49) self.assertAlmostEqual(round(lwc.maxlwc, 6), 8.2e-5) def test_get_moist_air_density(self): self.lwc.cbh = 0 empiric_hrho_0 = self.lwc.get_moist_air_density( 100000, 0, 273.15, True) empiric_hrho_20 = self.lwc.get_moist_air_density( 101325, 0, 293.15, True) empiric_humid_hrho_20 = self.lwc.get_moist_air_density( 101325, 2338, 293.15, True) empiric_humid_hrho_neg20 = self.lwc.get_moist_air_density( 101325, 996.3, 253.15, True) ideal_hrho_15 = self.lwc.get_moist_air_density(101325, 0, 288.15) ideal_hrho_20 = self.lwc.get_moist_air_density(101325, 0, 293.15) humid_ideal_hrho_20 = self.lwc.get_moist_air_density( 101325, 2338, 293.15) humid_ideal_hrho_neg20 = self.lwc.get_moist_air_density( 101325, 996.3, 253.15) self.assertAlmostEqual(round(empiric_hrho_0, 3), 1.276) self.assertAlmostEqual(round(empiric_hrho_20, 4), 1.205) self.assertAlmostEqual(round(ideal_hrho_15, 4), 1.2250) self.assertAlmostEqual(round(ideal_hrho_20, 4), 1.2041) self.assertAlmostEqual(round(humid_ideal_hrho_20, 3), 1.194) self.assertAlmostEqual(round(empiric_humid_hrho_20, 4), 1.1945) self.assertAlmostEqual(round(humid_ideal_hrho_neg20, 4), 1.3892) self.assertAlmostEqual(round(empiric_humid_hrho_neg20, 4), 1.3902) def test_get_incloud_mixing_ratio(self): self.lwc.cbh = 100 self.lwc.cth = 1000 beta_0 = self.lwc.get_incloud_mixing_ratio(500, 1000, 100) beta_1 = self.lwc.get_incloud_mixing_ratio(100, 1000, 100) beta_2 = self.lwc.get_incloud_mixing_ratio(130, 1000, 100) beta_3 = self.lwc.get_incloud_mixing_ratio(175, 1000, 100) beta_4 = self.lwc.get_incloud_mixing_ratio(950, 1000, 100) self.assertAlmostEqual(beta_0, 0.3) self.assertAlmostEqual(beta_1, 0) self.assertAlmostEqual(beta_2, 0.12) self.assertAlmostEqual(round(beta_3, 2), 0.3) self.assertAlmostEqual(beta_4, 0.3) def test_get_incloud_mixing_ratio_limit(self): self.lwc.cbh = 950 self.lwc.cth = 1000 beta_0 = self.lwc.get_incloud_mixing_ratio(950, 1000, 950) beta_1 = self.lwc.get_incloud_mixing_ratio(960, 1000, 950) beta_2 = self.lwc.get_incloud_mixing_ratio(970, 1000, 950) beta_3 = self.lwc.get_incloud_mixing_ratio(980, 1000, 950) beta_4 = self.lwc.get_incloud_mixing_ratio(990, 1000, 950) beta_5 = self.lwc.get_incloud_mixing_ratio(1000, 1000, 950) self.assertAlmostEqual(beta_0, 0.3) self.assertAlmostEqual(beta_1, 0.3) self.assertAlmostEqual(beta_2, 0.3) self.assertAlmostEqual(round(beta_3, 2), 0.3) self.assertAlmostEqual(beta_4, 0.3) self.assertAlmostEqual(beta_5, 0.3) def test_optimize_cbh_brute(self): self.lwc.thickness = 100 ret_brute = self.lwc.optimize_cbh(100., method='brute') self.assertAlmostEqual(round(ret_brute, 1), 421.) def test_optimize_cbh_basin(self): self.lwc.thickness = 100 ret_basin = self.lwc.optimize_cbh(100., method='basin') self.assertIn(round(ret_basin, 0), [421, 479, 478, 477]) def test_get_visibility(self): lwc = LowWaterCloud(2000., 255., 400., 0, 10e-6) vis = self.lwc.get_visibility(1) vis2 = self.lwc.get_visibility(1 / 1000.) self.assertAlmostEqual(round(vis, 3), 3.912) self.assertAlmostEqual(round(vis2, 0), 3912) def test_get_liquid_density(self): lwc = LowWaterCloud(2000., 285., 400., 0) rho1 = self.lwc.get_liquid_density(20, 100e5) rho2 = self.lwc.get_liquid_density(4, 1e5) rho3 = self.lwc.get_liquid_density(0, 1e5) self.assertAlmostEqual(round(rho1, 3), 1002.66) self.assertAlmostEqual(round(rho2, 3), 999.448) self.assertAlmostEqual(round(rho3, 3), 999.80) def test_get_effective_radius(self): lwc = LowWaterCloud(1000., 255., 400., reff=10e-6, cbh=0) reff_b = lwc.get_effective_radius(0) reff_m = lwc.get_effective_radius(500) reff_t = lwc.get_effective_radius(lwc.cth) self.assertAlmostEqual(reff_b, 1e-6) self.assertAlmostEqual(reff_m, 5.5e-6) self.assertAlmostEqual(reff_t, 10e-6) def test_get_effective_radius_with_cbh(self): lwc = LowWaterCloud(1000., 255., 400., reff=10e-6, cbh=100) reff_b = lwc.get_effective_radius(100) reff_m = lwc.get_effective_radius(550) reff_t = lwc.get_effective_radius(lwc.cth) self.assertAlmostEqual(reff_b, 1e-6) self.assertAlmostEqual(reff_m, 5.5e-6) self.assertAlmostEqual(reff_t, 10e-6) def test_get_fog_cloud_height(self): lwc = LowWaterCloud(2000., 275., 400., 100, 10e-6) lwc.init_cloud_layers(100, 50) fbh = lwc.get_fog_base_height() self.assertAlmostEqual(round(fbh, 0), 125) def test_get_fog_cloud_height2(self): lwc = LowWaterCloud(1000., 275., 100., 100., 10e-6) lwc.init_cloud_layers(100, 10) lwp = lwc.get_liquid_water_path() cbh = lwc.optimize_cbh(lwc.cbh) fbh = lwc.get_fog_base_height() self.assertAlmostEqual(round(lwc.lwp, 3), 100) self.assertAlmostEqual(round(lwc.maxlwc, 3), 0.494) self.assertAlmostEqual(round(fbh, 0), 612)