Source code for pyleecan.Methods.Machine.LamSlotMag.plot
from matplotlib.patches import Patch
import matplotlib.pyplot as plt
from ....Functions.init_fig import init_fig
from ....definitions import config_dict
from ....Functions.labels import decode_label, MAG_LAB, LAM_LAB
MAGNET_COLOR = config_dict["PLOT"]["COLOR_DICT"]["MAGNET_COLOR"]
ROTOR_COLOR = config_dict["PLOT"]["COLOR_DICT"]["ROTOR_COLOR"]
STATOR_COLOR = config_dict["PLOT"]["COLOR_DICT"]["STATOR_COLOR"]
[docs]def plot(
self,
fig=None,
ax=None,
is_lam_only=False,
sym=1,
alpha=0,
delta=0,
is_edge_only=False,
edgecolor=None,
is_add_arrow=False,
is_show_fig=True,
win_title=None,
is_legend=True,
is_winding_connection=False,
):
"""Plot a Lamination with Magnets in a matplotlib fig
Parameters
----------
self : LamSlotMag
A LamSlotMag object
fig : Matplotlib.figure.Figure
existing figure to use if None create a new one
ax : Matplotlib.axes.Axes object
Axis on which to plot the data
is_lam_only : bool
True to plot only the lamination (remove the magnet)
sym : int
Symmetry factor (1= full machine, 2= half of the machine...)
alpha : float
Angle for rotation [rad]
delta : complex
Complex value for translation
is_edge_only: bool
To plot transparent Patches
edgecolor:
Color of the edges if is_edge_only=True
is_show_fig : bool
To call show at the end of the method
win_title : str
Window title
is_legend : bool
True to add the legend
is_winding_connection : bool
True to display winding connections (not used)
Returns
-------
fig : Matplotlib.figure.Figure
Figure containing the plot
ax : Matplotlib.axes.Axes object
Axis containing the plot
"""
if self.is_stator:
Lam_Name = "Stator"
lam_color = STATOR_COLOR
else:
Lam_Name = "Rotor"
lam_color = ROTOR_COLOR
(fig, ax, patch_leg, label_leg) = init_fig(fig=fig, ax=ax, shape="rectangle")
# Get the lamination surfaces
surf_list = self.build_geometry(sym=sym, alpha=alpha, delta=delta)
patches = list()
for surf in surf_list:
label_dict = decode_label(surf.label)
if LAM_LAB in label_dict["surf_type"]:
patches.extend(
surf.get_patches(
color=lam_color, is_edge_only=is_edge_only, edgecolor=edgecolor
)
)
elif MAG_LAB in label_dict["surf_type"]:
if not is_lam_only:
patches.extend(
surf.get_patches(
color=MAGNET_COLOR,
is_edge_only=is_edge_only,
edgecolor=edgecolor,
)
)
else:
patches.extend(
surf.get_patches(is_edge_only=is_edge_only, edgecolor=edgecolor)
)
# Display the result
(fig, ax, patch_leg, label_leg) = init_fig(fig)
ax.set_xlabel("(m)")
ax.set_ylabel("(m)")
for patch in patches:
ax.add_patch(patch)
# Axis Setup
ax.axis("equal")
# The Lamination is centered in the figure
Lim = self.Rext * 1.5
ax.set_xlim(-Lim, Lim)
ax.set_ylim(-Lim, Lim)
# Window title
if (
win_title is None
and self.parent is not None
and self.parent.name not in [None, ""]
):
win_title = self.parent.name + " " + Lam_Name
elif win_title is None:
win_title = Lam_Name
manager = plt.get_current_fig_manager()
if manager is not None:
manager.set_window_title(win_title)
# Add the legend
if not is_edge_only:
if self.is_stator:
patch_leg.append(Patch(color=STATOR_COLOR))
label_leg.append("Stator")
ax.set_title("Stator with Magnet")
else:
patch_leg.append(Patch(color=ROTOR_COLOR))
label_leg.append("Rotor")
ax.set_title("Rotor with Magnet")
if not is_lam_only:
patch_leg.append(Patch(color=MAGNET_COLOR))
label_leg.append("Magnet")
if is_legend:
ax.legend(patch_leg, label_leg)
if is_show_fig:
fig.show()
return fig, ax
