k.ladutenko
/
scatt


			
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							import unittest
from scattnlay import mie, mie_mp
from scattnlay import mesomie

# A list of tests for a bulk sphere from
# Hong Du, "Mie-scattering calculation," Appl. Opt. 43, 1951-1956 (2004)
# table 1: sphere size and refractive index
# followed by resulting extinction and scattering efficiencies
test_cases = [
    # x, m, Qext, Qsca #, test_name
    [0.099, 0.75 + 0j, 7.417859e-06, 7.417859e-06],  # ,'a'],
    [0.101, 0.75 + 0j, 8.033538e-06, 8.033538e-06],  # ,'b'],
    [10, 0.75 + 0j, 2.232265, 2.232265],  # ,'c'],
    [0.055, 1.5 + 1j, 0.10149104, 1.131687e-05],  # ,'g'],
    [0.056, 1.5 + 1j, 0.1033467, 1.216311e-05],  # ,'h'],
    [1, 10 + 10j, 2.532993, 2.049405],  # ,'k'],
    [100, 1.33 + 1e-5j, 2.101321, 2.096594],  # ,'e'],
    [100, 1.5 + 1j, 2.097502, 1.283697],  # ,'i'],
    [1000, 0.75 + 0j, 1.997908, 1.997908],  # ,'d'],
    [100, 10 + 10j, 2.071124, 1.836785],  # ,'l'],
    [10000, 1.33 + 1e-5j, 2.004089, 1.723857],  # ,'f'],
    [10000, 1.5 + 1j, 2.004368, 1.236574],  # ,'j'],
    [10000, 10 + 10j, 2.005914, 1.795393],  # ,'m'],
    # [1.8263846985116234, 0.02867488311561525+1.2957040351341687j, 3, 3]
    # 'water r=1mkm scattnlay 2020/04/22']
    [2.03575204, 1.4558642 + 0.20503704j, 1.952484, 0.9391477],
]


class TestStringMethods(unittest.TestCase):
    def test_bulk_mesomie(self):
        tol = 3e-7
        for solver in [mesomie]:
            print("Using solver: ", solver)
            for case in test_cases:
                x = case[0]
                m = case[1]
                solver.calc_ab(
                    x,  # R
                    x,  # xd
                    x * m,  # xm
                    1,  # eps_d
                    m * m,  # eps_m
                    0,  # d_parallel
                    0,
                )  # d_perp
                solver.calc_Q()
                Qext = solver.GetQext()
                Qsca = solver.GetQsca()
                # print(x, m, Qext)
                self.assertTrue((case[2] - Qext) / Qext < tol)
                self.assertTrue((case[3] - Qsca) / Qsca < tol)

    def test_bulk_multilayer(self):
        tol = 3e-7
        for solver in [mie, mie_mp]:
            if solver is None:
                continue
            print("Using solver: ", solver)
            for case in test_cases:
                solver.SetLayersSize(case[0])
                solver.SetLayersIndex(case[1])
                solver.RunMieCalculation()
                Qext = solver.GetQext()
                Qsca = solver.GetQsca()
                if case == test_cases[0]:
                    print("test case:", case)
                    print("ext tol:", (case[2] - Qext) / Qext)
                    print("sca tol:", (case[3] - Qsca) / Qsca)
                self.assertTrue((case[2] - Qext) / Qext < tol)
                self.assertTrue((case[3] - Qsca) / Qsca < tol)


if __name__ == "__main__":
    unittest.main()