def test_b_circular(self): """Impact parameter mapping test for circular orbits. Test impact parameter mapping to ensure that b == z(t0) for circular orbits. """ Is = o.i_from_ba(self.bs, self.a) zs = np.concatenate( [of.z_circular(self.t, self.t0, self.p, self.a, i, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([ of.z_eccentric_newton(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is ]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([ of.z_eccentric_iter(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is ]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([ of.z_eccentric_ps3(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is ]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([ of.z_eccentric_ps5(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is ]) npt.assert_array_almost_equal(self.bs, zs)
def test_b_ecc_iter(self): """Impact parameter mapping test for z_eccentric_iter. Test impact parameter mapping to ensure that b == z(t0) for eccentric orbits using the iterative method. """ es = uniform(0, 0.75, 50) Is = o.i_from_baew(self.bs, self.a, es, self.ws) zs = np.concatenate([of.z_eccentric_iter(self.t, self.t0, self.p, self.a, i, e, w, 1) for i,e,w in zip(Is, es, self.ws)]) npt.assert_array_almost_equal(self.bs, zs, decimal=4)
def test_iter(self): for (i, t0), w in product(enumerate(self.t0s), self.ws): z = of.z_eccentric_iter(self.t, t0, self.p, self.a, self.i, 0, w, nth=1) npt.assert_array_almost_equal(z, self.ref_zs[i], decimal=3)
def test_iter(self): for i, (t0, e, w) in enumerate(product(self.t0s, self.es, self.ws)): z = of.z_eccentric_iter(self.t, t0, self.p, self.a, self.i, e, w, nth=1) npt.assert_array_almost_equal(z, self.ref_zs[i], decimal=3)
def test_b_ecc_iter(self): """Impact parameter mapping test for z_eccentric_iter. Test impact parameter mapping to ensure that b == z(t0) for eccentric orbits using the iterative method. """ es = uniform(0, 0.75, 50) Is = o.i_from_baew(self.bs, self.a, es, self.ws) zs = np.concatenate([ of.z_eccentric_iter(self.t, self.t0, self.p, self.a, i, e, w, 1) for i, e, w in zip(Is, es, self.ws) ]) npt.assert_array_almost_equal(self.bs, zs, decimal=4)
def test_b_circular(self): """Impact parameter mapping test for circular orbits. Test impact parameter mapping to ensure that b == z(t0) for circular orbits. """ Is = o.i_from_ba(self.bs, self.a) zs = np.concatenate([of.z_circular(self.t, self.t0, self.p, self.a, i, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([of.z_eccentric_newton(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([of.z_eccentric_iter(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([of.z_eccentric_ps3(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs) zs = np.concatenate([of.z_eccentric_ps5(self.t, self.t0, self.p, self.a, i, 0, 0, 1) for i in Is]) npt.assert_array_almost_equal(self.bs, zs)
def test_iter(self): for (i,t0), w in product(enumerate(self.t0s), self.ws): z = of.z_eccentric_iter(self.t, t0, self.p, self.a, self.i, 0, w, nth=1) npt.assert_array_almost_equal(z, self.ref_zs[i], decimal=3)