def test_n_dimensional_rayleigh_optical_depth(self): """ Tests :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition n-dimensional arrays support. """ wl = 360 * 10e-8 T_R = 0.599101336848028 np.testing.assert_almost_equal(rayleigh_optical_depth(wl), T_R, decimal=7) T_R = np.tile(T_R, 6) np.testing.assert_almost_equal(rayleigh_optical_depth(wl), T_R, decimal=7) T_R = np.reshape(T_R, (2, 3)) np.testing.assert_almost_equal(rayleigh_optical_depth(wl), T_R, decimal=7) T_R = np.reshape(T_R, (2, 3, 1)) np.testing.assert_almost_equal(rayleigh_optical_depth(wl), T_R, decimal=7)
def test_nan_rayleigh_optical_depth(self): """ Test :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition nan support. """ cases = [-1.0, 0.0, 1.0, -np.inf, np.inf, np.nan] cases = set(permutations(cases * 3, r=1)) for case in cases: wavelength = case CO2_concentration = case temperature = case latitude = case altitude = case rayleigh_optical_depth(wavelength, CO2_concentration, temperature, latitude, altitude)
def test_nan_rayleigh_optical_depth(self): """ Tests :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition nan support. """ cases = [-1.0, 0.0, 1.0, -np.inf, np.inf, np.nan] cases = set(permutations(cases * 3, r=1)) for case in cases: wavelength = case CO2_concentration = case temperature = case latitude = case altitude = case rayleigh_optical_depth(wavelength, CO2_concentration, temperature, latitude, altitude)
def test_n_dimensional_rayleigh_optical_depth(self): """ Tests :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition n-dimensional arrays support. """ wl = 360 * 10e-8 T_R = rayleigh_optical_depth(wl) T_R = np.tile(T_R, 6) np.testing.assert_almost_equal( rayleigh_optical_depth(wl), T_R, decimal=7) T_R = np.reshape(T_R, (2, 3)) np.testing.assert_almost_equal( rayleigh_optical_depth(wl), T_R, decimal=7) T_R = np.reshape(T_R, (2, 3, 1)) np.testing.assert_almost_equal( rayleigh_optical_depth(wl), T_R, decimal=7)
def test_rayleigh_optical_depth(self): """ Test :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition. """ self.assertAlmostEqual(rayleigh_optical_depth(360 * 10e-8), 0.599101336848028, places=7) self.assertAlmostEqual(rayleigh_optical_depth(555 * 10e-8), 0.100407017728965, places=7) self.assertAlmostEqual(rayleigh_optical_depth(830 * 10e-8), 0.019655847912114, places=7) self.assertAlmostEqual(rayleigh_optical_depth(555 * 10e-8, 0), 0.093640964348049, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, 360), 0.100698605176897, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, 620), 0.101394382260863, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=200), 0.048371194415621, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=300), 0.108835187435146, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=400), 0.193484777662482, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=101325), 0.100407017728965, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=100325), 0.099416077509583, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=99325), 0.098425137290200, places=7, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=0, altitude=0), 0.100407017728965, places=10, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=45, altitude=1500), 0.100190076534634, places=10, ) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=48.8567, altitude=35), 0.100108462705423, places=10, )
def test_rayleigh_optical_depth(self): """ Tests :func:`colour.phenomena.rayleigh.rayleigh_optical_depth` definition. """ self.assertAlmostEqual( rayleigh_optical_depth(360 * 10e-8), 0.599101336848028, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8), 0.100407017728965, places=7) self.assertAlmostEqual( rayleigh_optical_depth(830 * 10e-8), 0.019655847912114, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, 0), 0.093640964348049, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, 360), 0.100698605176897, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, 620), 0.101394382260863, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=200), 0.048371194415621, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=300), 0.108835187435146, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, temperature=400), 0.193484777662482, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=101325), 0.100407017728965, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=100325), 0.099416077509583, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, pressure=99325), 0.098425137290200, places=7) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=0, altitude=0), 0.100407017728965, places=10) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=45, altitude=1500), 0.100190076534634, places=10) self.assertAlmostEqual( rayleigh_optical_depth(555 * 10e-8, latitude=48.8567, altitude=35), 0.100108462705423, places=10)