Ejemplo n.º 1
0
def test_fromStop():
    telescope = batoid.Optic.fromYaml("LSST_r.yaml")
    rv = batoid.RayVector.asPolar(
        optic=telescope, wavelength=625e-9,
        theta_x=np.deg2rad(1.0), theta_y=np.deg2rad(0.2),
        nrad=4, naz=10
    )
    rv_traced = telescope.trace(rv.copy())
    rv_stop = telescope.stopSurface.interact(rv.copy())

    for rv1, rv_traced1, rv_stop1 in zip(rv, rv_traced, rv_stop):
        rv_test1 = batoid.RayVector.fromStop(
            rv_stop1.x[0], rv_stop1.y[0],
            optic=telescope, wavelength=625e-9,
            theta_x=np.deg2rad(1.0), theta_y=np.deg2rad(0.2)
        )
        rv_test2 = batoid.RayVector.fromStop(
            rv_stop1.x[0], rv_stop1.y[0],
            optic=telescope, backDist=telescope.backDist, wavelength=625e-9,
            theta_x=np.deg2rad(1.0), theta_y=np.deg2rad(0.2)
        )
        rv_test3 = batoid.RayVector.fromStop(
            rv_stop1.x[0], rv_stop1.y[0],
            optic=telescope, medium=telescope.inMedium, wavelength=625e-9,
            theta_x=np.deg2rad(1.0), theta_y=np.deg2rad(0.2)
        )
        rv_test4 = batoid.RayVector.fromStop(
            rv_stop1.x[0], rv_stop1.y[0],
            optic=telescope, stopSurface=telescope.stopSurface,
            wavelength=625e-9,
            theta_x=np.deg2rad(1.0), theta_y=np.deg2rad(0.2)
        )
        rv_test5 = batoid.RayVector.fromStop(
            rv_stop1.x[0], rv_stop1.y[0],
            optic=telescope, stopSurface=telescope.stopSurface,
            wavelength=625e-9,
            dirCos=batoid.utils.fieldToDirCos(np.deg2rad(1.0), np.deg2rad(0.2))
        )

        for rv_test in [rv_test1, rv_test2, rv_test3, rv_test4, rv_test5]:
            telescope.trace(rv_test)
            np.testing.assert_allclose(
                rv_test.x, rv_traced1.x, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.y, rv_traced1.y, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.z, rv_traced1.z, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vx, rv_traced1.vx, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vy, rv_traced1.vy, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vz, rv_traced1.vz, rtol=0, atol=1e-14
            )

    # A few more coverage checks
    with np.testing.assert_raises(ValueError):
        rv = batoid.RayVector.fromStop(
            0, 0, theta_x=0.0, theta_y=0.0
        )
    rv = batoid.RayVector.fromStop(
        0, 0, theta_x=0.0, theta_y=0.0, wavelength=625e-9
    )
    rv2 = batoid.RayVector.fromStop(
        0, 0, theta_x=0.0, theta_y=0.0, wavelength=625e-9,
        backDist=40.0,
        stopSurface=batoid.Interface(batoid.Plane()),
        medium=batoid.vacuum
    )
    np.testing.assert_equal(rv, rv2)
Ejemplo n.º 2
0
def test_fromFieldAngles():
    telescope = batoid.Optic.fromYaml("LSST_r.yaml")
    thx = np.linspace(-0.5, 0.5, 10)
    thy = np.linspace(-0.5, 0.5, 10)
    rv = batoid.RayVector.fromFieldAngles(
        np.deg2rad(thx), np.deg2rad(thy),
        optic=telescope, wavelength=625e-9,
    )
    rv_traced = telescope.trace(rv.copy())
    rv_stop = telescope.stopSurface.interact(rv.copy())

    for rv1, rv_traced1, rv_stop1 in zip(rv, rv_traced, rv_stop):
        dc = rv_stop1.v[0]/np.sqrt(np.sum(np.square(rv_stop1.v)))
        thx, thy = batoid.utils.dirCosToField(*dc)
        rv_test1 = batoid.RayVector.fromStop(
            0.0, 0.0,
            optic=telescope, wavelength=625e-9,
            theta_x=thx, theta_y=thy
        )
        rv_test2 = batoid.RayVector.fromStop(
            0.0, 0.0,
            optic=telescope, backDist=telescope.backDist, wavelength=625e-9,
            theta_x=thx, theta_y=thy
        )
        rv_test3 = batoid.RayVector.fromStop(
            0.0, 0.0,
            optic=telescope, medium=telescope.inMedium, wavelength=625e-9,
            theta_x=thx, theta_y=thy
        )
        rv_test4 = batoid.RayVector.fromStop(
            0.0, 0.0,
            optic=telescope, stopSurface=telescope.stopSurface,
            wavelength=625e-9,
            theta_x=thx, theta_y=thy
        )

        rv_tests = [rv_test1, rv_test2, rv_test3, rv_test4]
        for rv_test in rv_tests:
            telescope.trace(rv_test)
            np.testing.assert_allclose(
                rv_test.x, rv_traced1.x, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.y, rv_traced1.y, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.z, rv_traced1.z, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vx, rv_traced1.vx, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vy, rv_traced1.vy, rtol=0, atol=1e-14
            )
            np.testing.assert_allclose(
                rv_test.vz, rv_traced1.vz, rtol=0, atol=1e-14
            )

    # A few more coverage checks
    with np.testing.assert_raises(ValueError):  # no wavelength
        rv = batoid.RayVector.fromFieldAngles(
            0, 0
        )
    rv = batoid.RayVector.fromFieldAngles(
        0, 0, wavelength=625e-9
    )
    rv2 = batoid.RayVector.fromFieldAngles(
        0, 0, wavelength=625e-9,
        backDist=40.0,
        stopSurface=batoid.Interface(batoid.Plane()),
        medium=batoid.vacuum
    )
    np.testing.assert_equal(rv, rv2)
Ejemplo n.º 3
0
def test_traceSplit_simple():
    telescope = batoid.CompoundOptic(
        name = "simple",
        stopSurface=batoid.Interface(batoid.Plane()),
        items = [
            batoid.Lens(
                name = "L1",
                items = [
                    batoid.RefractiveInterface(
                        batoid.Plane(),
                        name = "L1_entrance",
                        coordSys=batoid.CoordSys(origin=[0,0,0.3]),
                        inMedium=batoid.ConstMedium(1.0),
                        outMedium=batoid.ConstMedium(1.1)
                    ),
                    batoid.RefractiveInterface(
                        batoid.Plane(),
                        name = "L1_exit",
                        coordSys=batoid.CoordSys(origin=[0,0,0.2]),
                        inMedium=batoid.ConstMedium(1.1),
                        outMedium=batoid.ConstMedium(1.0)
                    )
                ]
            ),
            batoid.Mirror(
                batoid.Plane(),
                name="Mirror"
            ),
            batoid.Detector(
                batoid.Plane(),
                name="detector",
                coordSys=batoid.CoordSys(origin=[0, 0, 0.1])
            )
        ],
        pupilSize=1.0,
        backDist=1.0,
        inMedium=batoid.ConstMedium(1.0)
    )
    telescope['L1_entrance'].forwardCoating = batoid.SimpleCoating(0.02, 0.98)
    telescope['L1_entrance'].reverseCoating = batoid.SimpleCoating(0.02, 0.98)
    telescope['L1_exit'].forwardCoating = batoid.SimpleCoating(0.02, 0.98)
    telescope['L1_exit'].reverseCoating = batoid.SimpleCoating(0.02, 0.98)
    telescope['detector'].forwardCoating = batoid.SimpleCoating(0.02, 0.98)
    rays = batoid.RayVector.asPolar(
        telescope,
        wavelength=500e-9,
        theta_x=np.deg2rad(1.0),
        theta_y=0.0,
        nrad=10, naz=60
    )
    rForward, rReverse = telescope.traceSplit(rays.copy(), minFlux=1e-4)

    for r in rForward:
        r2 = telescope.trace(rays.copy(), path=r.path)
        w = ~r2.vignetted
        np.testing.assert_allclose(r.r, r2.r[w])
        np.testing.assert_allclose(r.v, r2.v[w])
        np.testing.assert_allclose(r.t, r2.t[w])

        tf = telescope.traceFull(rays.copy(), path=r.path)
        keys = []
        for item in r.path:
            j = 0
            key = f"{item}_{j}"
            while key in keys:
                j += 1
                key = f"{item}_{j}"
            keys.append(key)
        assert keys == [k for k in tf.keys()]

        r3 = tf[keys[-1]]['out']
        w = ~r3.vignetted
        np.testing.assert_allclose(r.r, r3.r[w])
        np.testing.assert_allclose(r.v, r3.v[w])
        np.testing.assert_allclose(r.t, r3.t[w])

    for r in rReverse:
        r2 = telescope.trace(rays.copy(), path=r.path)
        w = ~r2.vignetted
        np.testing.assert_allclose(r.r, r2.r[w])
        np.testing.assert_allclose(r.v, r2.v[w])
        np.testing.assert_allclose(r.t, r2.t[w])

        tf = telescope.traceFull(rays.copy(), path=r.path)
        keys = []
        for item in r.path:
            j = 0
            key = f"{item}_{j}"
            while key in keys:
                j += 1
                key = f"{item}_{j}"
            keys.append(key)
        assert keys == [k for k in tf.keys()]

        r3 = tf[keys[-1]]['out']
        w = ~r3.vignetted
        np.testing.assert_allclose(r.r, r3.r[w])
        np.testing.assert_allclose(r.v, r3.v[w])
        np.testing.assert_allclose(r.t, r3.t[w])