from unittest import TestCase from esbo_etc.classes import * import astropy.units as u import numpy as np class OpticalComponent(AOpticalComponent): def __init__(self, parent: IRadiant, transreflectivity: SpectralQty = None, noise: SpectralQty = None, obstruction: float = 0, obstructor_temp: u.Quantity = 0 * u.K, obstructor_emissivity: float = 0): super().__init__(parent, transreflectivity, noise, obstruction, obstructor_temp, obstructor_emissivity) class TestAOpticalComponent(TestCase): wl = np.arange(4, 8, 1) << u.um def setUp(self): self.target = BlackBodyTarget(self.wl, temp=5778 * u.K, mag=10 * u.mag, band="U") self.comp = OpticalComponent(self.target, SpectralQty(self.wl, np.repeat(0.5, 4) << u.dimensionless_unscaled), SpectralQty(self.wl, np.repeat(1e-5, 4) << u.W / (u.m ** 2 * u.nm * u.sr)), obstruction=0.1, obstructor_temp=300 * u.K, obstructor_emissivity=1) def test_calcSignal(self): self.assertEqual(self.comp.calcSignal()[0], SpectralQty(self.wl, np.array([1.29074440e-17, 5.65909989e-18, 2.85372997e-18, 1.58973516e-18]) << u.W / (u.m ** 2 * u.nm))) def test_calcBackground(self): self.assertEqual(self.comp.calcBackground(), SpectralQty(self.wl, np.array([8.21976423e-05, 2.70268340e-04, 5.27503292e-04, 7.60597616e-04]) << u.W / (u.m ** 2 * u.nm * u.sr))) comp = OpticalComponent(self.comp, SpectralQty(self.wl, np.repeat(0.5, 4) << u.dimensionless_unscaled), SpectralQty(self.wl, np.repeat(0, 4) << u.W / (u.m ** 2 * u.nm * u.sr)), obstruction=0.1, obstructor_temp=300 * u.K, obstructor_emissivity=1) self.assertEqual(comp.calcBackground(), SpectralQty(self.wl, np.array([1.09186581e-04, 3.81889092e-04, 7.54879773e-04, 10.92866544e-04]) << u.W / (u.m ** 2 * u.nm * u.sr)))