def test__fit_sub_plot__all_types_of_galaxy_fit( gal_fit_7x7_image, gal_fit_7x7_convergence, gal_fit_7x7_potential, gal_fit_7x7_deflections_y, gal_fit_7x7_deflections_x, positions_7x7, include_all, plot_patch, galaxy_fit_plotter_path, ): aplt.fit_galaxy.subplot_fit_galaxy( fit=gal_fit_7x7_image, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(path=galaxy_fit_plotter_path, format="png")), ) assert galaxy_fit_plotter_path + "subplot_fit_galaxy.png" in plot_patch.paths aplt.fit_galaxy.subplot_fit_galaxy( fit=gal_fit_7x7_convergence, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(path=galaxy_fit_plotter_path, format="png")), ) assert galaxy_fit_plotter_path + "subplot_fit_galaxy.png" in plot_patch.paths aplt.fit_galaxy.subplot_fit_galaxy( fit=gal_fit_7x7_potential, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(path=galaxy_fit_plotter_path, format="png")), ) assert galaxy_fit_plotter_path + "subplot_fit_galaxy.png" in plot_patch.paths aplt.fit_galaxy.subplot_fit_galaxy( fit=gal_fit_7x7_deflections_y, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(path=galaxy_fit_plotter_path, format="png")), ) assert galaxy_fit_plotter_path + "subplot_fit_galaxy.png" in plot_patch.paths aplt.fit_galaxy.subplot_fit_galaxy( fit=gal_fit_7x7_deflections_x, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(path=galaxy_fit_plotter_path, format="png")), ) assert galaxy_fit_plotter_path + "subplot_fit_galaxy.png" in plot_patch.paths
def test__plot_rectangular_mapper__works_with_all_extras_included( self, rectangular_mapper_7x7_3x3, plot_path, plot_patch ): plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper1", format="png") ) plotter.plot_rectangular_mapper( mapper=rectangular_mapper_7x7_3x3, include_pixelization_grid=True, include_grid=True, include_border=True, light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], ) assert plot_path + "mapper1.png" in plot_patch.paths plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper2", format="png") ) plotter.plot_rectangular_mapper( mapper=rectangular_mapper_7x7_3x3, include_pixelization_grid=True, include_grid=True, include_border=True, light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], ) assert plot_path + "mapper2.png" in plot_patch.paths aplt.mapper_obj( mapper=rectangular_mapper_7x7_3x3, light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], plotter=aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper3", format="png") ), ) assert plot_path + "mapper3.png" in plot_patch.paths
def test__plot_grid__works_with_all_extras_included(self, plot_path, plot_patch): grid = aa.grid.uniform(shape_2d=(11, 11), pixel_scales=1.0) color_array = np.linspace(start=0.0, stop=1.0, num=grid.shape_1d) plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="grid1", format="png") ) plotter.plot_grid( grid=grid, color_array=color_array, axis_limits=[-1.5, 1.5, -2.5, 2.5], light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], indexes=[0, 1, 2, 14], symmetric_around_centre=False, ) assert plot_path + "grid1.png" in plot_patch.paths plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="grid2", format="png") ) plotter.plot_grid( grid=grid, color_array=color_array, axis_limits=[-1.5, 1.5, -2.5, 2.5], light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], indexes=[0, 1, 2, 14], symmetric_around_centre=True, ) assert plot_path + "grid2.png" in plot_patch.paths aplt.grid( grid=grid, color_array=color_array, axis_limits=[-1.5, 1.5, -2.5, 2.5], light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], indexes=[0, 1, 2, 14], symmetric_around_centre=True, plotter=aplt.Plotter( output=aplt.Output(path=plot_path, filename="grid3", format="png") ), ) assert plot_path + "grid3.png" in plot_patch.paths
def test__all_quantities_are_output(mp_0, sub_grid_7x7, positions_7x7, include_all, mp_plotter_path, plot_patch): aast.plot.mp.convergence( mass_profile=mp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter( output=aplt.Output(mp_plotter_path, format="png")), ) assert mp_plotter_path + "convergence.png" in plot_patch.paths aast.plot.mp.potential( mass_profile=mp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter( output=aplt.Output(mp_plotter_path, format="png")), ) assert mp_plotter_path + "potential.png" in plot_patch.paths aast.plot.mp.deflections_y( mass_profile=mp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter( output=aplt.Output(mp_plotter_path, format="png")), ) assert mp_plotter_path + "deflections_y.png" in plot_patch.paths aast.plot.mp.deflections_x( mass_profile=mp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter( output=aplt.Output(mp_plotter_path, format="png")), ) assert mp_plotter_path + "deflections_x.png" in plot_patch.paths aast.plot.mp.magnification( mass_profile=mp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter( output=aplt.Output(mp_plotter_path, format="png")), ) assert mp_plotter_path + "magnification.png" in plot_patch.paths
def test__plot_array__fits_files_output_correctly(self, plot_path): plot_path = plot_path + "/fits/" if os.path.exists(plot_path): shutil.rmtree(plot_path) arr = aa.array.ones(shape_2d=(31, 31), pixel_scales=(1.0, 1.0), sub_size=2) plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="array", format="fits") ) plotter.plot_array(array=arr) arr = aa.util.array.numpy_array_2d_from_fits( file_path=plot_path + "/array.fits", hdu=0 ) assert (arr == np.ones(shape=(31, 31))).all() mask = aa.mask.circular( shape_2d=(31, 31), pixel_scales=(1.0, 1.0), radius=5.0, centre=(2.0, 2.0) ) masked_array = aa.masked.array.manual_2d(array=arr, mask=mask) plotter.plot_array(array=masked_array) arr = aa.util.array.numpy_array_2d_from_fits( file_path=plot_path + "/array.fits", hdu=0 ) assert arr.shape == (13, 13)
def test__plot_line__works_with_all_extras_included(self, plot_path, plot_patch): plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="line1", format="png") ) plotter.plot_line( y=np.array([1.0, 2.0, 3.0]), x=np.array([0.5, 1.0, 1.5]), plot_axis_type="loglog", vertical_lines=[1.0, 2.0], label="line0", vertical_line_labels=["line1", "line2"], ) assert plot_path + "line1.png" in plot_patch.paths plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="line2", format="png") ) plotter.plot_line( y=np.array([1.0, 2.0, 3.0]), x=np.array([0.5, 1.0, 1.5]), plot_axis_type="semilogy", vertical_lines=[1.0, 2.0], label="line0", vertical_line_labels=["line1", "line2"], ) assert plot_path + "line2.png" in plot_patch.paths aplt.line( y=np.array([1.0, 2.0, 3.0]), x=np.array([0.5, 1.0, 1.5]), plot_axis_type="loglog", vertical_lines=[1.0, 2.0], label="line0", vertical_line_labels=["line1", "line2"], plotter=aplt.Plotter( output=aplt.Output(path=plot_path, filename="line3", format="png") ), ) assert plot_path + "line3.png" in plot_patch.paths
def test__plot_voronoi_mapper__works_with_all_extras_included( self, voronoi_mapper_9_3x3, plot_path, plot_patch ): plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper1", format="png") ) plotter.plot_voronoi_mapper( mapper=voronoi_mapper_9_3x3, include_pixelization_grid=True, include_grid=True, include_border=True, image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], ) assert plot_path + "mapper1.png" in plot_patch.paths plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper2", format="png") ) plotter.plot_voronoi_mapper( mapper=voronoi_mapper_9_3x3, include_pixelization_grid=True, include_grid=True, include_border=True, image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], ) assert plot_path + "mapper2.png" in plot_patch.paths aplt.mapper_obj( mapper=voronoi_mapper_9_3x3, image_pixel_indexes=[[(0, 0), (0, 1)], [(1, 2)]], source_pixel_indexes=[[0, 1], [2]], plotter=aplt.Plotter( output=aplt.Output(path=plot_path, filename="mapper3", format="png") ), ) assert plot_path + "mapper3.png" in plot_patch.paths
def test__all_quantities_are_output( lp_0, sub_grid_7x7, positions_7x7, include_all, profile_plotter_path, plot_patch ): aast.plot.lp.profile_image( light_profile=lp_0, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(profile_plotter_path, format="png")), ) assert profile_plotter_path + "profile_image.png" in plot_patch.paths
def test__individual_images_are_output( gal_x1_lp_x1_mp, sub_grid_7x7, mask_7x7, positions_7x7, include_all, galaxy_plotter_path, plot_patch, ): aplt.galaxy.profile_image( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "profile_image.png" in plot_patch.paths aplt.galaxy.convergence( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "convergence.png" in plot_patch.paths aplt.galaxy.potential( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "potential.png" in plot_patch.paths aplt.galaxy.deflections_y( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "deflections_y.png" in plot_patch.paths aplt.galaxy.deflections_x( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "deflections_x.png" in plot_patch.paths aplt.galaxy.magnification( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "magnification.png" in plot_patch.paths gal_x1_lp_x1_mp.hyper_galaxy = aast.HyperGalaxy() gal_x1_lp_x1_mp.hyper_model_image = aa.array.ones(shape_2d=(7, 7), pixel_scales=0.1) gal_x1_lp_x1_mp.hyper_galaxy_image = aa.array.ones( shape_2d=(7, 7), pixel_scales=0.1 ) aplt.galaxy.contribution_map( galaxy=gal_x1_lp_x1_mp, mask=mask_7x7, positions=positions_7x7, include=include_all, plotter=aplt.Plotter(output=aplt.Output(galaxy_plotter_path, format="png")), ) assert galaxy_plotter_path + "contribution_map.png" in plot_patch.paths
def test__individual_galaxy_quantities__all_are_output( gal_x1_lp_x1_mp, sub_grid_7x7, positions_7x7, include_all, galaxy_plotter_path, plot_patch, ): aplt.galaxy.profile_image_subplot( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(galaxy_plotter_path, format="png") ), ) assert galaxy_plotter_path + "profile_image_subplot.png" in plot_patch.paths aplt.galaxy.convergence_subplot( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(galaxy_plotter_path, format="png") ), ) assert galaxy_plotter_path + "convergence_subplot.png" in plot_patch.paths aplt.galaxy.potential_subplot( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(galaxy_plotter_path, format="png") ), ) assert galaxy_plotter_path + "potential_subplot.png" in plot_patch.paths aplt.galaxy.deflections_y_subplot( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(galaxy_plotter_path, format="png") ), ) assert galaxy_plotter_path + "deflections_y_subplot.png" in plot_patch.paths aplt.galaxy.deflections_x_subplot( galaxy=gal_x1_lp_x1_mp, grid=sub_grid_7x7, positions=positions_7x7, include=include_all, sub_plotter=aplt.SubPlotter( output=aplt.Output(galaxy_plotter_path, format="png") ), ) assert galaxy_plotter_path + "deflections_x_subplot.png" in plot_patch.paths
def test__plot_array__works_with_all_extras_included(self, plot_path, plot_patch): array = aa.array.ones(shape_2d=(31, 31), pixel_scales=(1.0, 1.0), sub_size=2) mask = aa.mask.circular( shape_2d=array.shape_2d, pixel_scales=array.pixel_scales, radius=5.0, centre=(2.0, 2.0), ) grid = aa.grid.uniform(shape_2d=(11, 11), pixel_scales=0.5) plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="array1", format="png") ) plotter.plot_array( array=array, mask=mask, grid=grid, positions=[(-1.0, -1.0)], light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], include_origin=True, include_border=True, ) assert plot_path + "array1.png" in plot_patch.paths plotter = aplt.Plotter( output=aplt.Output(path=plot_path, filename="array2", format="png") ) plotter.plot_array( array=array, mask=mask, grid=grid, positions=[[(1.0, 1.0), (2.0, 2.0)], [(-1.0, -1.0)]], critical_curves=[[(1.0, 1.0), (2.0, 2.0)], [(2.0, 4.0), (5.0, 6.0)]], include_origin=True, include_border=True, ) assert plot_path + "array2.png" in plot_patch.paths aplt.array( array=array, mask=mask, grid=grid, positions=[(-1.0, -1.0)], light_profile_centres=[(1.0, 1.0)], mass_profile_centres=[(1.0, 1.0)], multiple_images=[(1.0, 1.0)], critical_curves=[(1.0, 1.0), (2.0, 2.0)], caustics=[(1.0, 1.0), (2.0, 2.0)], plotter=aplt.Plotter( output=aplt.Output(path=plot_path, filename="array3", format="png") ), ) assert plot_path + "array3.png" in plot_patch.paths