, groups=None, n_genes=10, groupby=None, min_logfoldchange=None, key=None, show=None, save=None, return_fig=False, **kwds)

Plot ranking of genes using stacked_violin plot (see stacked_violin())

adata : AnnDataAnnData

Annotated data matrix.

groups : str, Sequence[str], NoneUnion[str, Sequence[str], None] (default: None)

The groups for which to show the gene ranking.

n_genes : intint (default: 10)

Number of genes to show.

groupby : str, NoneOptional[str] (default: None)

The key of the observation grouping to consider. By default, the groupby is chosen from the rank genes groups parameter but other groupby options can be used. It is expected that groupby is a categorical. If groupby is not a categorical observation, it would be subdivided into num_categories (see stacked_violin()).

min_logfoldchange : float, NoneOptional[float] (default: None)

Value to filter genes in groups if their logfoldchange is less than the min_logfoldchange

key : str, NoneOptional[str] (default: None)

Key used to store the ranking results in adata.uns.

show : bool, NoneOptional[bool] (default: None)

Show the plot, do not return axis.

save : bool, NoneOptional[bool] (default: None)

If True or a str, save the figure. A string is appended to the default filename. Infer the filetype if ending on {'.pdf', '.png', '.svg'}.


A matplotlib axes object. Only works if plotting a single component.

return_fig : bool, NoneOptional[bool] (default: False)

Returns StackedViolin object. Useful for fine-tuning the plot. Takes precedence over show=False.


Are passed to stacked_violin().


If return_fig is True, returns a StackedViolin object, else if show is false, return axes dict


>>> import scanpy as sc
>>> adata = sc.datasets.pbmc68k_reduced()
>>>, 'bulk_labels', n_genes=adata.raw.shape[1])
>>>, n_genes=4,
... min_logfoldchange=4, figsize=(8,6))