Mercurial > repos > goeckslab > scimap_spatial
view scimap_plotting.py @ 2:d19c068c2490 draft
planemo upload for repository https://github.com/goeckslab/tools-mti/tree/main/tools/scimap commit 9fb5578191db8a559191e45156cfb95350f01aea
author | goeckslab |
---|---|
date | Mon, 10 Jun 2024 18:44:35 +0000 |
parents | |
children | 2983eb1d7362 |
line wrap: on
line source
import argparse import json import os import warnings import matplotlib.pylab as plt import numpy as np import scimap as sm import seaborn as sns from anndata import read_h5ad sns.set(color_codes=True) def main(inputs, anndata, output): """ Parameter --------- inputs : str File path to galaxy tool parameter. anndata : str File path to anndata containing phenotyping info. output : str File path to output. """ warnings.simplefilter('ignore') with open(inputs, 'r') as param_handler: params = json.load(param_handler) adata = read_h5ad(anndata) tool = params['analyses']['selected_tool'] options = params['analyses']['options'] if tool == 'stacked_barplot': # parse list text arguments for o in options.copy(): opt_list = options.pop(o) if opt_list: options[o] = [x.strip() for x in opt_list.split(',')] # add base args into options dict to pass to tool options['x_axis'] = params['analyses']['x_axis'] options['y_axis'] = params['analyses']['y_axis'] options['method'] = params['analyses']['method'] options['return_data'] = True df = sm.pl.stacked_barplot(adata, **options) # Pick cmap to use num_phenotypes = len(df.columns) - 1 if num_phenotypes <= 9: matplotlib_cmap = "Set1" elif num_phenotypes > 9 and num_phenotypes <= 20: matplotlib_cmap = plt.cm.tab20 else: matplotlib_cmap = plt.cm.gist_ncar # Plotting sns.set_theme(style="white") ax = df.plot.bar(stacked=True, cmap=matplotlib_cmap) fig = ax.get_figure() handles, labels = ax.get_legend_handles_labels() ax.legend( reversed(handles), reversed(labels), bbox_to_anchor=(1, 1), loc='upper left' ) plt.tight_layout() # # save and close fig.savefig('out.png', dpi=300) plt.close(fig) if tool == 'voronoi': plt.style.use('fast') tool_func = getattr(sm.pl, tool) # x_lim/y_lim need to be parsed from comma-sep str to integer tuples for lim in ['x_lim', 'y_lim']: opt_list = options.pop(lim) if opt_list: options[lim] = [int(x.strip()) for x in opt_list.split(',')] # parse list text arguments for cat in ['overlay_points_categories', 'overlay_drop_categories']: opt_list = options.pop(cat) if opt_list: options[cat] = [x.strip() for x in opt_list.split(',')] # add base args into options dict to pass to tool options['color_by'] = params['analyses']['color_by'] options['x_coordinate'] = params['analyses']['x_coordinate'] options['y_coordinate'] = params['analyses']['y_coordinate'] # fill any missing params with None as tool expects for k, v in options.items(): if v == '': options[k] = None options['saveDir'] = os.getcwd() options['fileName'] = 'out.png' if options['size_max'] is None: options['size_max'] = np.inf # call the tool and unpack all options tool_func(adata, **options) if __name__ == '__main__': aparser = argparse.ArgumentParser() aparser.add_argument("-i", "--inputs", dest="inputs", required=True) aparser.add_argument("-a", "--anndata", dest="anndata", required=True) aparser.add_argument("-e", "--output", dest="output", required=True) args = aparser.parse_args() main(args.inputs, args.anndata, args.output)