Пример #1
0
def main():

    grating = Grating(pitch=3.3, height=100, angle=math.radians(0))

    #print(repr(grating[0]))
    #print(repr(grating[1]))

    #disc = Disc(-50,10)
    #pencil = RayPencil().addBeam(disc,0.0).addMonitor(RayPath())
    ip = ImagePlane(50, xsize=30)
    orders = [0, 1, 2, 3]
    for order in orders:

        pencil = RayPencil().addRays(
            -60, math.radians(0), [0.35, 0.4, 0.45, 0.5, 0.55, 0.6, 0.65, 0.7])
        pencil.addMonitor(RayPath())

        pencil *= grating

        for ray in pencil:
            yi = ray.director.y
            ym = yi + order * ray.wavelength / grating.pitch
            zm = math.sqrt(1.0 - ym * ym)
            ray.director = Unit3d(0.0, ym, zm)

        pencil *= ip

        pencil.draw()

    grating.draw()
    ip.draw()
    plt.axis("equal")
    plt.grid()
    plt.show()
Пример #2
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    def __init__(self,
                 pt=Vector3d(),
                 xpixel=256,
                 ypixel=None,
                 xsize=200,
                 ysize=None,
                 wave=TriColour):
        """
        Form the OpticalImage with either blank array of nmpy image array
        """

        if isinstance(pt, ImagePlane):  # Deal with ImagePlane
            ImagePlane.__init__(self, pt.point, pt.xsize, pt.ysize)
        else:
            if ysize == None:
                ysize = xsize
            ImagePlane.__init__(self, pt, xsize,
                                ysize)  # Set underying ImagePlane

        if isinstance(xpixel, int):
            if ypixel == None:
                ypixel = xpixel
            self.image = np.zeros((xpixel, ypixel, 3))  # Make array of zeros.
        else:
            self.image = xpixel  # assume numpy array given
        self.xpixel, self.ypixel, c = self.image.shape  # set xpixel and ypixel from image data
        self.wavelengths = wave
Пример #3
0
    def getSurfaceInteraction(self, r):
        """
        Method to get back the surface interaction information for a ray and also add the ray to the image
        This also add the ray intensity to the cloeset pixel.

        :return: SurfaceInteraction.

        """

        #       get interaction with super class
        info = ImagePlane.getSurfaceInteraction(self, r)

        #            Add ray to pixel
        if not math.isnan(info.position.x) or not math.isnan(info.position.y):
            i = int(
                round(self.xpixel *
                      (info.position.x + self.xsize / 2 - info.point.x) /
                      self.xsize))
            j = int(
                round(self.ypixel *
                      (info.position.y + self.ysize / 2 - info.point.y) /
                      self.ysize))

            #          Check if pixel is in image (note due to distrortions it may not be)
            if i >= 0 and i < self.xpixel and j >= 0 and j < self.ypixel:
                if r.wavelength == TriColour[0]:
                    self.image[i, j, 0] += r.intensity  # Add it to the image
                elif r.wavelength == TriColour[1]:
                    self.image[i, j, 1] += r.intensity  # Add it to the image
                else:
                    self.image[i, j, 2] += r.intensity

        #          Retun info to calling object
        return info
Пример #4
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def main():

    #       Make a set of surface
    op = ImagePlane(-100, 30)
    ca = CircularAperture(-10, 20)
    ia = IrisAperture(50, 15).setRatio(0.7)
    fs = SphericalSurface(20, 0.025, 15, "BK7")
    bs = SphericalSurface(30, -0.025, 15, "air")
    ip = ImagePlane(60, 40)

    #      Plot them in a simple diagram
    op.draw()
    ca.draw()
    ia.draw()
    fs.draw()
    bs.draw()
    ip.draw()
    plt.axis("equal")  # Set the x/y axis to the same scale
    plt.show()
Пример #5
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 def __init__(self, pt=0.0, xsize=100.00, ysize=None, wavelength=Default):
     """
     Constuctor with
     """
     if isinstance(pt, ImagePlane):
         ImagePlane.__init__(self, pt, pt.xsize, pt.ysize)
     elif isinstance(pt, CircularAperture):
         ImagePlane.__init__(self, pt, 2 * pt.getRadius())
     else:
         ImagePlane.__init__(self, pt, xsize,
                             ysize)  # Initialse underlying ImagePlane
     self.wavelength = wavelength
     self.targets = []  # List of targets to be added
Пример #6
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 def __str__(self):
     """
     Update str
     """
     return ImagePlane.__str__(self) + " targets : {0:d}".format(
         len(self.targets))