def test_patch_modification(): fig = plt.figure() ax = fig.add_subplot(projection="3d") circle = Circle((0, 0)) ax.add_patch(circle) art3d.patch_2d_to_3d(circle) circle.set_facecolor((1.0, 0.0, 0.0, 1)) assert mcolors.same_color(circle.get_facecolor(), (1, 0, 0, 1)) fig.canvas.draw() assert mcolors.same_color(circle.get_facecolor(), (1, 0, 0, 1))
ax_t_l.plot(ds_center_t_l, areas_t_l / width_t_l, color=_colors[0], linewidth=3) ax_t_l.set_title(r'$\Gamma({:.2f}, {:.2f})$ (peak = ${:.2f}$ $\mu$m)'.format( k_t_l, theta_t_l, peak_t_l, 100 * errors[list(np.round(krange, 3)).index(k_t_l), list(np.round(peakrange, 3)).index(peak_t_l)]), fontsize=16) ax_t_l.set_xlim(0, xmaxplot) ax_t_l.set_ylim(0 - minus_y_buffer, ymaxplot) pl.xticks(fontsize=13) pl.yticks(fontsize=13) for axis in ['top', 'bottom', 'left', 'right']: ax_t_l.spines[axis].set_linewidth(3) ax_t_l.spines[axis].set_color(cc_t_l.get_facecolor()) ## bottom left ax_b_l = pl.subplot(gs[1, 0]) ds_center_b_l, areas_b_l = get_gamma_binned_pdf(k_b_l, theta_b_l, maxq=qmaxplot, N=Nplot) width_b_l = ds_center_b_l[2] - ds_center_b_l[1] ax_b_l.bar(ds_center_b_l, areas_b_l / width_b_l, width_b_l, color=_colors[0], alpha=0.3) ax_b_l.plot(ds_center_b_l, areas_b_l / width_b_l,