def test_generalized_gaussian_io(): model = GeneralizedGaussianSpatialModel() assert isinstance(model.to_region(), EllipseSkyRegion) new_model = GeneralizedGaussianSpatialModel.from_dict(model.to_dict()) assert isinstance(new_model, GeneralizedGaussianSpatialModel)
def test_generalized_gaussian(eta, r_0, e): reval = 6 dr = 0.01 geom = WcsGeom.create( skydir=(0, 0), binsz=dr, width=(2 * reval, 2 * reval), frame="galactic", ) # check normalization is robust for a large set of values model = GeneralizedGaussianSpatialModel(eta=eta, r_0=r_0 * u.deg, e=e, frame="galactic") eval_geom = model.evaluate_geom(geom) integ_geom = model.integrate_geom(geom) assert eval_geom.unit.is_equivalent("sr-1") assert integ_geom.unit.is_equivalent("") assert_allclose(integ_geom.data.sum(), 1.0, atol=3e-2) assert isinstance(model.to_region(), EllipseSkyRegion) new_model = GeneralizedGaussianSpatialModel.from_dict(model.to_dict()) assert isinstance(new_model, GeneralizedGaussianSpatialModel) assert_allclose( new_model.integrate_geom(geom).data.sum(), integ_geom.data.sum())
def test_generalized_gaussian_io(): model = GeneralizedGaussianSpatialModel(e=0.5) reg = model.to_region() assert isinstance(reg, EllipseSkyRegion) assert_allclose(reg.width.value, 1.73205, rtol=1e-5) new_model = GeneralizedGaussianSpatialModel.from_dict(model.to_dict()) assert isinstance(new_model, GeneralizedGaussianSpatialModel)
e = 0.5 phi = 45 * u.deg fig, axes = plt.subplots(1, 3, figsize=(9, 6)) for ax, eta, tag in zip(axes, eta_range, tags): model = GeneralizedGaussianSpatialModel( lon_0=lon_0 * u.deg, lat_0=lat_0 * u.deg, eta=eta, r_0=r_0 * u.deg, e=e, phi=phi, frame="galactic", ) meval = model.evaluate_geom(geom) Map.from_geom(geom=geom, data=meval.value, unit=meval.unit).plot(ax=ax) pixreg = model.to_region().to_pixel(geom.wcs) pixreg.plot(ax=ax, edgecolor="g", facecolor="none", lw=2) ax.set_title(tag) ax.set_xticks([]) ax.set_yticks([]) plt.tight_layout() # %% # YAML representation # ------------------- # Here is an example YAML file using the model: pwl = PowerLawSpectralModel() gengauss = GeneralizedGaussianSpatialModel() model = SkyModel(spectral_model=pwl,