コード例 #1
0
ファイル: S1S2.py プロジェクト: MartinPdeS/PyMieSim
def run():
    from PyMieSim.Scatterer import Sphere
    from PyMieSim.Source    import PlaneWave


    Source = PlaneWave(Wavelength   = 450e-9,
                       Polarization = 0,
                       Amplitude    = 1)

    Scat = Sphere(Diameter    = 600e-9,
                  Source      = Source,
                  Index       = 1.4)


    S1S2 = Scat.S1S2(Num=200)

    S1S2.Plot()
コード例 #2
0
def run(Plot, Save):
    from PyMieSim.Scatterer import Sphere
    from PyMieSim.Source import PlaneWave

    Source = PlaneWave(Wavelength=450e-9, Polarization=0, E0=1)

    Scat = Sphere(Diameter=300e-9, Source=Source, Index=1.4)

    S1S2 = Scat.S1S2(Num=100)

    if Plot:
        S1S2.Plot()

    if Save:
        from pathlib import Path
        dir = f'docs/images/{Path(__file__).stem}'
        S1S2.SaveFig(Directory=dir)
コード例 #3
0
ファイル: Scatterers.py プロジェクト: MartinPdeS/PyMieSim
class ScattererTestCase(unittest.TestCase, BaseStepTest):

    Source        = PlaneWave(Wavelength = 450e-9, Polarization = 0)

    photodiode         = Photodiode(**DetectorKwarg)

    lpmode             = LPmode(Mode  = (0,1), **DetectorKwarg)

    integratingSphere  = IntegratingSphere()


    #___________________________________SPHERE________________________________________________________________
    @TestFactory('Spherical scatterer initialization')
    def step00(self):
        print("\nUnittest: <Scatterer>" + '='*100)
        self.sphere = Sphere(Diameter = 300e-9, Index = 1.4, Source = self.Source)


    @TestFactory('Spherical Scatterer <S1S2> compute')
    def step03(self):
        self.sphere.S1S2(Num=40)


    @TestFactory('Spherical Scatterer <Stokes> compute')
    def step04(self):
        self.sphere.Stokes(Num=40)


    @TestFactory('Spherical Scatterer <FarFields> compute')
    def step04(self):
        self.sphere.FarField(Num=30)


    @TestFactory('Spherical Scatterer <SPF> compute')
    def step05(self):
        self.sphere.SPF(Num=30)


    @TestFactory('Spherical Scatterer <An & Bn> compute')
    def step06(self):
        pass
        self.sphere.an(3)
        self.sphere.an()
        self.sphere.bn(3)
        self.sphere.bn()
        self.sphere.cn(3)
        self.sphere.cn()
        self.sphere.dn(3)
        self.sphere.dn()


    @TestFactory('Spherical Scatterer <S1S2> plotting')
    def step07(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.sphere.S1S2(Num=40).Plot()


    @TestFactory('Spherical Scatterer <Stokes> plotting')
    def step08(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.sphere.Stokes(Num=40).Plot()


    @TestFactory('Spherical Scatterer <FarField> plotting')
    def step09(self):
        GUI.invoke_after(PLOTTIME, Close)
        GUI.invoke_after(2*PLOTTIME, Close)
        self.sphere.FarField(Num=40).Plot()


    @TestFactory('Spherical Scatterer <SPF> plotting')
    def step10(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.sphere.SPF(Num=40).Plot()


    @TestFactory('Spherical <Photodiode> coupling')
    def step11(self):
        self.photodiode.Coupling(Scatterer = self.sphere)


    @TestFactory('Spherical <LPmode> coupling')
    def step12(self):
        self.lpmode.Coupling(Scatterer = self.sphere)


    @TestFactory('Spherical <IntegratingSphere> coupling')
    def step13(self):
        self.integratingSphere.Coupling(Scatterer = self.sphere)


    @TestFactory('Spherical Photodiode footprint compute')
    def step14(self):
        self.photodiode.Footprint(Scatterer=self.sphere)


    @TestFactory('Spherical LPmode footprint compute')
    def step15(self):
        self.lpmode.Footprint(Scatterer=self.sphere)


    #___________________________________CYLINDER________________________________________________________________
    @TestFactory('Cylindrical scatterer initialization')
    def step16(self):
        self.cylinder = Cylinder(Diameter = 300e-9, Index = 1.4, Source = self.Source)


    @TestFactory('Cylindrical Scatterer <S1S2> compute')
    def step17(self):
        self.cylinder.S1S2(Num=40)


    @TestFactory('Cylindrical Scatterer <Stokes> compute')
    def step18(self):
        self.cylinder.Stokes(Num=40)


    @TestFactory('Cylindrical Scatterer <FarFields> compute')
    def step19(self):
        self.cylinder.FarField(Num=30)


    @TestFactory('Cylindrical Scatterer <SPF> compute')
    def step20(self):
        self.cylinder.SPF(Num=30)


    @TestFactory('Cylindrical Scatterer <An & Bn> compute')
    def step21(self):
        self.cylinder.an(3)
        self.cylinder.an()
        self.cylinder.bn(3)
        self.cylinder.bn()


    @TestFactory('Cylindrical Scatterer <S1S2> plotting')
    def step22(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.cylinder.S1S2(Num=10).Plot()


    @TestFactory('Cylindrical Scatterer <Stokes> plotting')
    def step23(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.cylinder.Stokes(40).Plot()


    @TestFactory('Cylindrical Scatterer <FarField> plotting')
    def step24(self):
        GUI.invoke_after(PLOTTIME, Close)
        GUI.invoke_after(2*PLOTTIME, Close)
        self.cylinder.FarField(40).Plot()


    @TestFactory('Cylindrical Scatterer <SPF> plotting')
    def step25(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.cylinder.SPF(40).Plot()


    @TestFactory('Cylindrical <Photodiode> coupling')
    def step26(self):
        self.photodiode.Coupling(Scatterer = self.cylinder)


    @TestFactory('Cylindrical <LPmode> coupling')
    def step27(self):
        self.lpmode.Coupling(Scatterer = self.cylinder)


    @TestFactory('Cylindrical <IntegratingSphere> coupling')
    def step28(self):
        self.integratingSphere.Coupling(Scatterer = self.cylinder)


    @TestFactory('Cylindrical Photodiode footprint compute')
    def step29(self):
        self.photodiode.Footprint(Scatterer=self.cylinder)


    @TestFactory('Cylindrical LPmode footprint compute')
    def step30(self):
        self.lpmode.Footprint(Scatterer=self.cylinder)


    # #___________________________________CORESHELL________________________________________________________________
    @TestFactory('Core/Shell scatterer initialization')
    def step31(self):
        self.coreShell = ShellSphere(CoreDiameter = 300e-9, ShellWidth=200e-9, CoreIndex = 1.4, ShellIndex=1.5, Source = self.Source)


    @TestFactory('Core/Shell Scatterer <S1S2> compute')
    def step32(self):
        self.coreShell.S1S2(Num=40)


    @TestFactory('Core/Shell Scatterer <Stokes> compute')
    def step33(self):
        self.coreShell.Stokes(Num=40)


    @TestFactory('Core/Shell Scatterer <FarFields> compute')
    def step34(self):
        self.coreShell.FarField(Num=30)


    @TestFactory('Core/Shell Scatterer <SPF> compute')
    def step35(self):
        self.coreShell.SPF(Num=30)


    @TestFactory('Core/Shell Scatterer <An & Bn> compute')
    def step36(self):
        self.coreShell.an(3)
        self.coreShell.an()
        self.coreShell.bn(3)
        self.coreShell.bn()


    @TestFactory('Core/Shell Scatterer <S1S2> plotting')
    def step37(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.coreShell.S1S2(Num=10).Plot()


    @TestFactory('Core/Shell Scatterer <Stokes> plotting')
    def step38(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.coreShell.Stokes(40).Plot()


    @TestFactory('Core/Shell Scatterer <FarField> plotting')
    def step39(self):
        GUI.invoke_after(PLOTTIME, Close)
        GUI.invoke_after(2*PLOTTIME, Close)
        self.coreShell.FarField(40).Plot()


    @TestFactory('Core/Shell Scatterer <SPF> plotting')
    def step40(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.coreShell.SPF(40).Plot()


    @TestFactory('Core/Shell <Photodiode> coupling')
    def step41(self):
        self.photodiode.Coupling(Scatterer = self.coreShell)


    @TestFactory('Core/Shell <LPmode> coupling')
    def step42(self):
        self.lpmode.Coupling(Scatterer = self.coreShell)


    @TestFactory('Core/Shell <IntegratingSphere> coupling')
    def step43(self):
        self.integratingSphere.Coupling(Scatterer = self.coreShell)


    @TestFactory('Core/Shell Photodiode footprint compute')
    def step44(self):
        self.photodiode.Footprint(Scatterer=self.coreShell)


    @TestFactory('Core/Shell LPmode footprint compute')
    def step45(self):
        self.footprint = self.lpmode.Footprint(Scatterer=self.coreShell)


    @TestFactory('Core/Shell Scatterer <Footprint> plotting')
    def step46(self):
        GUI.invoke_after(PLOTTIME, Close)
        self.footprint.Plot()