[blackfmt] reported by reviewdog 🐶 Raw Output: docs/photonics/examples/effective_area.py:211:-ax[0].set_title(f"Poynting vector $S_z$\nfor h = {h_fig_h}μm & w = {w_fig_h}nm\n(Reproduction of Fig.1.h)") docs/photonics/examples/effective_area.py:212:-ax[0].set_xlim(-w_fig_h*1e-3/2 - 0.1, w_fig_h*1e-3/2 + 0.1) docs/photonics/examples/effective_area.py:211:+ax[0].set_title( docs/photonics/examples/effective_area.py:212:+ f"Poynting vector $S_z$\nfor h = {h_fig_h}μm & w = {w_fig_h}nm\n(Reproduction of Fig.1.h)" docs/photonics/examples/effective_area.py:213:+) docs/photonics/examples/effective_area.py:214:+ax[0].set_xlim(-w_fig_h * 1e-3 / 2 - 0.1, w_fig_h * 1e-3 / 2 + 0.1)

[blackfmt] reported by reviewdog 🐶 Raw Output: docs/photonics/examples/effective_area.py:215:-ax[0].axis('off') docs/photonics/examples/effective_area.py:217:+ax[0].axis("off")

[blackfmt] reported by reviewdog 🐶 Raw Output: docs/photonics/examples/effective_area.py:218:- basis_fig_h.mesh.restrict(subdomain).draw(ax=ax[0], boundaries_only=True, color="k", linewidth=1.0) docs/photonics/examples/effective_area.py:220:+ basis_fig_h.mesh.restrict(subdomain).draw( docs/photonics/examples/effective_area.py:221:+ ax=ax[0], boundaries_only=True, color="k", linewidth=1.0 docs/photonics/examples/effective_area.py:222:+ )

[blackfmt] reported by reviewdog 🐶 Raw Output: docs/photonics/examples/effective_area.py:221:-ax[1].set_title(f"Poynting vector $S_z$\nfor h = {h_fig_f}μm & w = {w_fig_f}nm\n(Reproduction of Fig.1.f)") docs/photonics/examples/effective_area.py:222:-ax[1].set_xlim(-w_list[idx_fig_f]*1e-3/2 - 0.1, w_list[idx_fig_f]*1e-3/2 + 0.1) docs/photonics/examples/effective_area.py:225:+ax[1].set_title( docs/photonics/examples/effective_area.py:226:+ f"Poynting vector $S_z$\nfor h = {h_fig_f}μm & w = {w_fig_f}nm\n(Reproduction of Fig.1.f)" docs/photonics/examples/effective_area.py:227:+) docs/photonics/examples/effective_area.py:228:+ax[1].set_xlim(-w_list[idx_fig_f] * 1e-3 / 2 - 0.1, w_list[idx_fig_f] * 1e-3 / 2 + 0.1)

[blackfmt] reported by reviewdog 🐶 Raw Output: docs/photonics/examples/effective_area.py:225:-ax[1].axis('off') docs/photonics/examples/effective_area.py:231:+ax[1].axis("off")