Note
This page is a reference documentation. It only explains the function signature, and not how to use it. Please refer to the user guide for the big picture.
nilearn.plotting.plot_surf¶
- nilearn.plotting.plot_surf(surf_mesh=None, surf_map=None, bg_map=None, hemi='left', view='lateral', engine='matplotlib', cmap=None, symmetric_cmap=False, colorbar=False, avg_method=None, threshold=None, alpha=None, bg_on_data=False, darkness=0.7, vmin=None, vmax=None, cbar_vmin=None, cbar_vmax=None, cbar_tick_format='auto', title=None, title_font_size=18, output_file=None, axes=None, figure=None)[source]¶
Plot surfaces with optional background and data.
Added in version 0.3.
- Parameters:
- surf_mesh
str
orlist
of twonumpy.ndarray
or aInMemoryMesh
, or aPolyMesh
, or None Surface mesh geometry, can be a file (valid formats are .gii or Freesurfer specific files such as .orig, .pial, .sphere, .white, .inflated) or a list of two Numpy arrays, the first containing the x-y-z coordinates of the mesh vertices, the second containing the indices (into coords) of the mesh faces, or a
InMemoryMesh
object with “coordinates” and “faces” attributes, or aPolyMesh
object, or None. If None is passed, thensurf_map
must be aSurfaceImage
instance and the mesh from thatSurfaceImage
instance will be used.- surf_map
str
ornumpy.ndarray
orSurfaceImage
or None, default=None Data to be displayed on the surface mesh. Can be a file (valid formats are .gii, .mgz, .nii, .nii.gz, or Freesurfer specific files such as .thickness, .area, .curv, .sulc, .annot, .label) or a Numpy array with a value for each vertex of the surf_mesh, or a
SurfaceImage
instance. If None is passed forsurf_mesh
thensurf_map
must be aSurfaceImage
instance and its the mesh will be used for plotting.- bg_map
str
ornumpy.ndarray
orSurfaceImage
or None, default=None Background image to be plotted on the mesh underneath the surf_data in greyscale, most likely a sulcal depth map for realistic shading. If the map contains values outside [0, 1], it will be rescaled such that all values are in [0, 1]. Otherwise, it will not be modified.
- hemi{“left”, “right”}, default=”left”
Hemisphere to display.
- view
str
, or a pair offloat
orint
, default=”lateral” If a string, must be in {“lateral”, “medial”, “dorsal”, “ventral”, “anterior”, “posterior”}. If a sequence, must be a pair (elev, azim) of
float
orint
angles in degrees that will manually set a custom view. E.g., view=[270.0, 90] or view=(0, -180.0). View of the surface that is rendered.- engine{‘matplotlib’, ‘plotly’}, default=’matplotlib’
Added in version 0.9.0.
Selects which plotting engine will be used by
plot_surf
. Currently, onlymatplotlib
andplotly
are supported.Note
To use the
plotly
engine, you need to haveplotly
installed.Note
To be able to save figures to disk with the
plotly
engine, you need to havekaleido
installed.Warning
The
plotly
engine is new and experimental. Please report bugs that you may encounter.- cmap
matplotlib.colors.Colormap
, orstr
, optional The colormap to use. Either a string which is a name of a matplotlib colormap, or a matplotlib colormap object. If None, matplotlib default will be chosen.
- symmetric_cmap
bool
, default=False Whether to use a symmetric colormap or not.
Note
This option is currently only implemented for the
plotly
engine.Added in version 0.9.0.
- colorbar
bool
, optional If True, display a colorbar on the right of the plots. Default=False.
- avg_method{“mean”, “median”, “min”, “max”, custom function, None}, default=None
How to average vertex values to derive the face value:
"mean"
: results in smooth boundaries"median"
: results in sharp boundaries"min"
or"max"
: for sparse matricescustom function: You can also pass a custom function which will be executed though
numpy.apply_along_axis
. Here is an example of a custom function:def custom_function(vertices): return vertices[0] * vertices[1] * vertices[2]
Note
This option is currently only implemented for the
matplotlib
engine.When using matplotlib as engine, avg_method will default to
"mean"
ifNone
is passed.- thresholda number or None, default=None.
If None is given, the image is not thresholded. If a number is given, it is used to threshold the image, values below the threshold (in absolute value) are plotted as transparent.
- alpha
float
or None, default=None Alpha level of the mesh (not surf_data). When using matplotlib as engine, alpha will default to
"auto"
ifNone
is passed. If ‘auto’ is chosen, alpha will default to 0.5 when no bg_map is passed and to 1 if a bg_map is passed.Note
This option is currently only implemented for the
matplotlib
engine.- bg_on_data
bool
, default=False If True and a bg_map is specified, the surf_data data is multiplied by the background image, so that e.g. sulcal depth is jointly visible with surf_data. Otherwise, the background image will only be visible where there is no surface data (either because surf_data contains nans or because is was thresholded).
Note
This non-uniformly changes the surf_data values according to e.g the sulcal depth.
- darkness
float
between 0 and 1, optional Specifying the darkness of the background image:
1 indicates that the original values of the background are used
- 0.5 indicates that the background values
are reduced by half before being applied.
Default=1.
- vmin
float
, optional Lower bound of the colormap. If None, the min of the image is used. Passed to
matplotlib.pyplot.imshow
.- vmax
float
, optional Upper bound of the colormap. If None, the max of the image is used. Passed to
matplotlib.pyplot.imshow
.- cbar_vmin
float
or None, default=None Lower bound for the colorbar. If None, the value will be set from the data.
- cbar_vmax
float
or None, default=None Upper bound for the colorbar. If None, the value will be set from the data.
Note
This option is currently only implemented for the
matplotlib
engine.- cbar_tick_format
str
, optional Controls how to format the tick labels of the colorbar. Ex: use “%%.2g” to display using scientific notation. Default=”auto” which will select:
‘%.2g’ (scientific notation) with
matplotlib
engine.‘.1f’ (rounded floats) with
plotly
engine.
Added in version 0.7.1.
- title
str
, or None, default=None The title displayed on the figure.
- title_font_size
int
, default=18 Size of the title font (only implemented for the plotly engine).
Added in version 0.9.0.
- output_file
str
, or None, optional The name of an image file to export the plot to. Valid extensions are .png, .pdf, .svg. If output_file is not None, the plot is saved to a file, and the display is closed.
- axesinstance of matplotlib axes or None, default=None
The axes instance to plot to. The projection must be ‘3d’ (e.g., figure, axes = plt.subplots(subplot_kw={‘projection’: ‘3d’}), where axes should be passed.). If None, a new axes is created.
Note
This option is currently only implemented for the
matplotlib
engine.- figure
int
, ormatplotlib.figure.Figure
, or None, optional Matplotlib figure used or its number. If None is given, a new figure is created.
Note
This option is currently only implemented for the
matplotlib
engine.
- surf_mesh
- Returns:
- fig
Figure
orPlotlySurfaceFigure
The surface figure. If
engine='matplotlib'
then aFigure
is returned. Ifengine='plotly'
, then aPlotlySurfaceFigure
is returned
- fig
See also
nilearn.datasets.fetch_surf_fsaverage
For surface data object to be used as background map for this plotting function.
nilearn.plotting.plot_surf_roi
For plotting statistical maps on brain surfaces.
nilearn.plotting.plot_surf_stat_map
for plotting statistical maps on brain surfaces.
nilearn.surface.vol_to_surf
For info on the generation of surfaces.
Examples using nilearn.plotting.plot_surf
¶
A short demo of the surface images & maskers