Example #1
0
def test__visuals_with_include_2d(gal_x1_lp_x1_mp, grid_2d_7x7):

    visuals_2d = aplt.Visuals2D(vector_field=2)

    include = aplt.Include2D(
        origin=True,
        mask=True,
        border=True,
        light_profile_centres=True,
        mass_profile_centres=True,
        critical_curves=True,
        caustics=True,
    )

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=grid_2d_7x7,
        visuals_2d=visuals_2d,
        include_2d=include,
    )

    assert galaxy_plotter.visuals_with_include_2d.origin.in_list == [(0.0, 0.0)
                                                                     ]
    assert (
        galaxy_plotter.visuals_with_include_2d.mask == grid_2d_7x7.mask).all()
    assert (galaxy_plotter.visuals_with_include_2d.border ==
            grid_2d_7x7.mask.border_grid_sub_1.binned).all()
    assert galaxy_plotter.visuals_with_include_2d.light_profile_centres.in_list == [
        gal_x1_lp_x1_mp.light_profile_0.centre
    ]
    assert galaxy_plotter.visuals_with_include_2d.mass_profile_centres.in_list == [
        gal_x1_lp_x1_mp.mass_profile_0.centre
    ]
    assert galaxy_plotter.visuals_with_include_2d.vector_field == 2

    include = aplt.Include2D(origin=False, mask=False, border=False)

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=grid_2d_7x7,
        visuals_2d=visuals_2d,
        include_2d=include,
    )

    assert galaxy_plotter.visuals_with_include_2d.origin == None
    assert galaxy_plotter.visuals_with_include_2d.mask == None
    assert galaxy_plotter.visuals_with_include_2d.border == None
    assert galaxy_plotter.visuals_with_include_2d.vector_field == 2
Example #2
0
def test__figures_2d__all_are_output(
    gal_x1_lp_x1_mp,
    sub_grid_2d_7x7,
    mask_2d_7x7,
    grid_2d_irregular_7x7_list,
    include_2d_all,
    plot_path,
    plot_patch,
):

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=sub_grid_2d_7x7,
        include_2d=include_2d_all,
        mat_plot_2d=aplt.MatPlot2D(
            output=aplt.Output(plot_path, format="png")),
    )
    galaxy_plotter.figures_2d(image=True, convergence=True)

    assert path.join(plot_path, "image_2d.png") in plot_patch.paths
    assert path.join(plot_path, "convergence_2d.png") in plot_patch.paths

    gal_x1_lp_x1_mp.hyper_galaxy = ag.HyperGalaxy()
    gal_x1_lp_x1_mp.hyper_model_image = ag.Array2D.ones(shape_native=(7, 7),
                                                        pixel_scales=0.1)
    gal_x1_lp_x1_mp.hyper_galaxy_image = ag.Array2D.ones(shape_native=(7, 7),
                                                         pixel_scales=0.1)

    galaxy_plotter.figures_2d(contribution_map=True)
    assert path.join(plot_path, "contribution_map_2d.png") in plot_patch.paths
Example #3
0
def test__subplots_galaxy_quantities__all_are_output(
    gal_x1_lp_x1_mp,
    sub_grid_2d_7x7,
    grid_2d_irregular_7x7_list,
    include_2d_all,
    plot_path,
    plot_patch,
):

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=sub_grid_2d_7x7,
        include_2d=include_2d_all,
        mat_plot_2d=aplt.MatPlot2D(
            output=aplt.Output(plot_path, format="png")),
    )
    galaxy_plotter.subplot_of_light_profiles(image=True)

    assert path.join(plot_path, "subplot_image.png") in plot_patch.paths

    galaxy_plotter.subplot_of_mass_profiles(convergence=True,
                                            potential=True,
                                            deflections_y=True,
                                            deflections_x=True)

    assert path.join(plot_path, "subplot_convergence.png") in plot_patch.paths
    assert path.join(plot_path, "subplot_potential.png") in plot_patch.paths
    assert path.join(plot_path,
                     "subplot_deflections_y.png") in plot_patch.paths
    assert path.join(plot_path,
                     "subplot_deflections_x.png") in plot_patch.paths
Example #4
0
def test__figures_1d__all_are_output(gal_x1_lp_x1_mp, sub_grid_2d_7x7,
                                     mask_2d_7x7, include_1d_all, plot_path,
                                     plot_patch):

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=sub_grid_2d_7x7,
        include_1d=include_1d_all,
        mat_plot_1d=aplt.MatPlot1D(
            output=aplt.Output(plot_path, format="png")),
    )
    galaxy_plotter.figures_1d(image=True, convergence=True, potential=True)

    assert path.join(plot_path, "image_1d.png") in plot_patch.paths
    assert path.join(plot_path, "convergence_1d.png") in plot_patch.paths
    assert path.join(plot_path, "potential_1d.png") in plot_patch.paths

    plot_patch.paths = []

    galaxy_plotter = aplt.GalaxyPDFPlotter(
        galaxy_pdf_list=[gal_x1_lp_x1_mp, gal_x1_lp_x1_mp, gal_x1_lp_x1_mp],
        grid=sub_grid_2d_7x7,
        include_1d=include_1d_all,
        mat_plot_1d=aplt.MatPlot1D(
            output=aplt.Output(plot_path, format="png")),
    )
    galaxy_plotter.figures_1d(image=True, convergence=True, potential=True)

    assert path.join(plot_path, "image_1d.png") in plot_patch.paths
    assert path.join(plot_path, "convergence_1d.png") in plot_patch.paths
    assert path.join(plot_path, "potential_1d.png") in plot_patch.paths
Example #5
0
def test__figures_1d_decomposed__all_are_output(gal_x1_lp_x1_mp,
                                                sub_grid_2d_7x7, mask_2d_7x7,
                                                include_1d_all, plot_path,
                                                plot_patch):

    galaxy_plotter = aplt.GalaxyPlotter(
        galaxy=gal_x1_lp_x1_mp,
        grid=sub_grid_2d_7x7,
        include_1d=include_1d_all,
        mat_plot_1d=aplt.MatPlot1D(
            output=aplt.Output(plot_path, format="png")),
    )
    galaxy_plotter.figures_1d_decomposed(convergence=True)

    #  assert path.join(plot_path, "image_1d.png") in plot_patch.paths
    assert path.join(plot_path,
                     "convergence_1d_decomposed.png") in plot_patch.paths