def testAssigments(self):
ini = os.path.join(os.path.dirname(__file__), '..', 'inifiles', 'planck_2018.ini')
if os.path.exists(ini):
pars = camb.read_ini(ini)
self.assertTrue(np.abs(camb.get_background(pars).cosmomc_theta() * 100 / 1.040909 - 1) < 2e-5)
pars = camb.CAMBparams()
pars.set_cosmology(H0=68.5, ombh2=0.022, mnu=0, omch2=0.1)
self.assertAlmostEqual(pars.omegam, (0.022 + 0.1) / 0.685 ** 2)
with self.assertRaises(AttributeError):
# noinspection PyPropertyAccess
pars.omegam = 1
pars.InitPower.set_params(ns=0.01)
data = camb.CAMBdata()
data.Params = pars
self.assertEqual(data.Params.InitPower.ns, pars.InitPower.ns)
d = dark_energy.DarkEnergyFluid(w=-0.95)
pars.DarkEnergy = d
self.assertEqual(pars.DarkEnergy.w, -0.95)
pars.DarkEnergy = dark_energy.AxionEffectiveFluid(w_n=0.4)
data.Params = pars
self.assertEqual(pars.DarkEnergy.w_n, 0.4)
pars.z_outputs = [0.1, 0.4]
self.assertEqual(pars.z_outputs[1], 0.4)
pars.z_outputs[0] = 0.3
self.assertEqual(pars.z_outputs[0], 0.3)
pars.z_outputs = pars.z_outputs
pars.z_outputs = []
pars.z_outputs = None
self.assertFalse(len(pars.z_outputs))
with self.assertRaises(TypeError):
pars.DarkEnergy = initialpower.InitialPowerLaw()
pars.NonLinear = model.NonLinear_both
printstr = str(pars)
self.assertTrue('Want_CMB_lensing = True' in printstr and
"NonLinear = NonLinear_both" in printstr)
pars.NonLinear = model.NonLinear_lens
self.assertTrue(pars.NonLinear == model.NonLinear_lens)
with self.assertRaises(ValueError):
pars.NonLinear = 4
pars.nu_mass_degeneracies = np.zeros(3)
self.assertTrue(len(pars.nu_mass_degeneracies) == 3)
pars.nu_mass_degeneracies = [1, 2, 3]
self.assertTrue(pars.nu_mass_degeneracies[1] == 2)
pars.nu_mass_degeneracies[1] = 5
self.assertTrue(pars.nu_mass_degeneracies[1] == 5)
with self.assertRaises(CAMBParamRangeError):
pars.nu_mass_degeneracies = np.zeros(7)
pars.nu_mass_eigenstates = 0
self.assertFalse(len((pars.nu_mass_degeneracies[:1])))
pars = camb.set_params(**{'InitPower.ns': 1.2, 'WantTransfer': True})
self.assertEqual(pars.InitPower.ns, 1.2)
self.assertTrue(pars.WantTransfer)
pars.DarkEnergy = None
from camb.sources import GaussianSourceWindow
pars = camb.CAMBparams()
pars.SourceWindows = [GaussianSourceWindow(), GaussianSourceWindow(redshift=1)]
self.assertEqual(pars.SourceWindows[1].redshift, 1)
pars.SourceWindows[0].redshift = 2
self.assertEqual(pars.SourceWindows[0].redshift, 2)
self.assertTrue(len(pars.SourceWindows) == 2)
pars.SourceWindows[0] = GaussianSourceWindow(redshift=3)
self.assertEqual(pars.SourceWindows[0].redshift, 3)
self.assertTrue('redshift = 3.0' in str(pars))
pars.SourceWindows = pars.SourceWindows[0:1]
self.assertTrue(len(pars.SourceWindows) == 1)
pars.SourceWindows = []
self.assertTrue(len(pars.SourceWindows) == 0)
def testAssigments(self):
ini = os.path.join(os.path.dirname(__file__), '..', 'inifiles',
'planck_2018.ini')
if os.path.exists(ini):
pars = camb.read_ini(ini)
self.assertTrue(
np.abs(
camb.get_background(pars).cosmomc_theta() * 100 /
1.040909 - 1) < 2e-5)
pars = camb.CAMBparams()
pars.set_cosmology(H0=68.5, ombh2=0.022, mnu=0, omch2=0.1)
self.assertAlmostEqual(pars.omegam, (0.022 + 0.1) / 0.685**2)
with self.assertRaises(AttributeError):
# noinspection PyPropertyAccess
pars.omegam = 1
pars.InitPower.set_params(ns=0.01)
data = camb.CAMBdata()
data.Params = pars
self.assertEqual(data.Params.InitPower.ns, pars.InitPower.ns)
d = dark_energy.DarkEnergyFluid(w=-0.95)
pars.DarkEnergy = d
self.assertEqual(pars.DarkEnergy.w, -0.95)
pars.DarkEnergy = dark_energy.AxionEffectiveFluid(w_n=0.4)
data.Params = pars
self.assertEqual(pars.DarkEnergy.w_n, 0.4)
pars.z_outputs = [0.1, 0.4]
self.assertEqual(pars.z_outputs[1], 0.4)
pars.z_outputs[0] = 0.3
self.assertEqual(pars.z_outputs[0], 0.3)
pars.z_outputs = pars.z_outputs
pars.z_outputs = []
pars.z_outputs = None
# noinspection PyTypeChecker
self.assertFalse(len(pars.z_outputs))
with self.assertRaises(TypeError):
pars.DarkEnergy = initialpower.InitialPowerLaw()
pars.NonLinear = model.NonLinear_both
printstr = str(pars)
self.assertTrue('Want_CMB_lensing = True' in printstr
and "NonLinear = NonLinear_both" in printstr)
pars.NonLinear = model.NonLinear_lens
self.assertTrue(pars.NonLinear == model.NonLinear_lens)
with self.assertRaises(ValueError):
pars.NonLinear = 4
pars.nu_mass_degeneracies = np.zeros(3)
self.assertTrue(len(pars.nu_mass_degeneracies) == 3)
pars.nu_mass_degeneracies = [1, 2, 3]
self.assertTrue(pars.nu_mass_degeneracies[1] == 2)
pars.nu_mass_degeneracies[1] = 5
self.assertTrue(pars.nu_mass_degeneracies[1] == 5)
with self.assertRaises(CAMBParamRangeError):
pars.nu_mass_degeneracies = np.zeros(7)
pars.nu_mass_eigenstates = 0
self.assertFalse(len((pars.nu_mass_degeneracies[:1])))
pars = camb.set_params(**{'InitPower.ns': 1.2, 'WantTransfer': True})
self.assertEqual(pars.InitPower.ns, 1.2)
self.assertTrue(pars.WantTransfer)
pars.DarkEnergy = None
pars = camb.set_params(**{
'H0': 67,
'ombh2': 0.002,
'r': 0.1,
'Accuracy.AccurateBB': True
})
self.assertEqual(pars.Accuracy.AccurateBB, True)
from camb.sources import GaussianSourceWindow
pars = camb.CAMBparams()
pars.SourceWindows = [
GaussianSourceWindow(),
GaussianSourceWindow(redshift=1)
]
self.assertEqual(pars.SourceWindows[1].redshift, 1)
pars.SourceWindows[0].redshift = 2
self.assertEqual(pars.SourceWindows[0].redshift, 2)
self.assertTrue(len(pars.SourceWindows) == 2)
pars.SourceWindows[0] = GaussianSourceWindow(redshift=3)
self.assertEqual(pars.SourceWindows[0].redshift, 3)
self.assertTrue('redshift = 3.0' in str(pars))
pars.SourceWindows = pars.SourceWindows[0:1]
self.assertTrue(len(pars.SourceWindows) == 1)
pars.SourceWindows = []
self.assertTrue(len(pars.SourceWindows) == 0)
params = camb.get_valid_numerical_params()
self.assertEqual(
params, {
'ombh2', 'deltazrei', 'omnuh2', 'tau', 'omk', 'zrei',
'thetastar', 'nrunrun', 'meffsterile', 'nnu', 'ntrun',
'HMCode_A_baryon', 'HMCode_eta_baryon', 'HMCode_logT_AGN',
'cosmomc_theta', 'YHe', 'wa', 'cs2', 'H0', 'mnu', 'Alens',
'TCMB', 'ns', 'nrun', 'As', 'nt', 'r', 'w', 'omch2'
})
params2 = camb.get_valid_numerical_params(
dark_energy_model='AxionEffectiveFluid')
self.assertEqual(params2.difference(params),
{'fde_zc', 'w_n', 'zc', 'theta_i'})
