Ejemplo n.º 1
0
    def test_tracing(self):
        simulation = self.simulation
        bead = self.bead
        report = simulation.run()

        self.plot_bead()
        plot_traces(report["rays"]["rays"])
        axis("equal")
        show()
Ejemplo n.º 2
0
    def test_tracing(self):
        simulation = self.simulation

        # modify the base setup a bit for this test
        simulation.source = AngleSpanSource(5, Ray=Trace)
        simulation.setup.append(RayDetector("rays"))

        report = simulation.run()
        plot_traces(report["rays"]["rays"])
        show()
Ejemplo n.º 3
0
    def test_known_ray(self):
        simulation = self.simulation
        bead = self.bead

        offset = bead.radius / 2.0
        source = SingleRaySource(offset, 0, Ray=Trace)
        simulation.source = source
        a = bead.radius

        x_i = offset
        z_i = self.pre_space + a - np.sqrt(a ** 2 - offset ** 2)

        th_i = atan(x_i / a)
        th_r = atan(bead.n_surround / bead.n_bead * sin(th_i))
        pathlength_in_bead = 2 * a * cos(th_r)

        beta = th_i - th_r
        x_e = x_i - pathlength_in_bead * sin(beta)
        z_e = z_i + pathlength_in_bead * cos(beta)

        x_theoretical = array(
            [
                offset,  # starting place
                offset,  # hit first plane of the bead object
                x_i,  # interset bead
                x_e,  # exit bead
                # should add the last one here once I calculate it
            ]
        )

        z_theoretical = array([0, self.pre_space, z_i, z_e])

        report = simulation.run()

        locations = report["rays"]["rays"][0].locations

        if PLOTTING:
            self.plot_bead()
            plot_traces(report["rays"]["rays"])
            plot(z_theoretical, x_theoretical, "r")
            show()

        self.assertEqual(locations[0], (x_theoretical[0], z_theoretical[0]))
        self.assertEqual(locations[1], (x_theoretical[1], z_theoretical[1]))
        self.assertEqual(locations[2], (x_theoretical[2], z_theoretical[2]))
        self.assertEqual(locations[3], (x_theoretical[3], z_theoretical[3]))