mne.channels.Layout

class mne.channels.Layout(box, pos, names, ids, kind)

Sensor layouts.

Layouts are typically loaded from a file using read_layout(). Only use this class directly if you’re constructing a new layout.

Parameters:

boxtuple of length 4

The box dimension (x_min, x_max, y_min, y_max).

posarray, shape=(n_channels, 4)

The unit-normalized positions of the channels in 2d (x, y, width, height).

nameslist

The channel names.

idslist

The channel ids.

kindstr

The type of Layout (e.g. ‘Vectorview-all’).

Methods

plot([picks, show_axes, show])	Plot the sensor positions.
save(fname[, overwrite])	Save Layout to disk.

plot(picks=None, show_axes=False, show=True)

Plot the sensor positions.

Parameters:

pickslist | slice | None

Channels to include. Slices and lists of integers will be interpreted as channel indices. None (default) will pick all channels. Note that channels in info['bads'] will be included if their indices are explicitly provided.

show_axesbool

Show layout axes if True. Defaults to False.

showbool

Show figure if True. Defaults to True.

Returns:

figinstance of matplotlib.figure.Figure

Figure containing the sensor topography.

Notes

New in v0.12.0.

Examples using plot:

Working with sensor locations

Working with sensor locations

save(fname, overwrite=False)

Save Layout to disk.

Parameters:

fnamepath-like

The file name (e.g. 'my_layout.lout').

overwritebool

If True, overwrites the destination file if it exists.

See also

read_layout

Examples using save:

Working with sensor locations

Working with sensor locations

Examples using mne.channels.Layout

Working with sensor locations

Working with sensor locations

Visualizing epoched data

Visualizing epoched data

How to convert 3D electrode positions to a 2D image

How to convert 3D electrode positions to a 2D image