Mercurial > repos > ebi-gxa > score_genes_aucell
view decoupler_pseudobulk.py @ 0:1e8697931d73 draft
planemo upload for repository https://github.com/ebi-gene-expression-group/container-galaxy-sc-tertiary/ commit c8c39f14eeee6e7a6d097fd0cb9430b12793eb8b
| author | ebi-gxa |
|---|---|
| date | Thu, 09 Nov 2023 11:36:08 +0000 |
| parents | |
| children | c9aaac87c583 |
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import argparse import anndata import decoupler import pandas as pd def get_pseudobulk( adata, sample_col, groups_col, layer=None, mode="sum", min_cells=10, min_counts=1000, use_raw=False, ): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> adata.X = abs(adata.X).astype(int) >>> pseudobulk = get_pseudobulk(adata, "bulk_labels", "louvain") """ return decoupler.get_pseudobulk( adata, sample_col=sample_col, groups_col=groups_col, layer=layer, mode=mode, use_raw=use_raw, min_cells=min_cells, min_counts=min_counts, ) def prepend_c_to_index(index_value): if index_value and index_value[0].isdigit(): return "C" + index_value return index_value # write results for loading into DESeq2 def write_DESeq2_inputs(pdata, layer=None, output_dir="", factor_fields=None): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> adata.X = abs(adata.X).astype(int) >>> pseudobulk = get_pseudobulk(adata, "bulk_labels", "louvain") >>> write_DESeq2_inputs(pseudobulk) """ # add / to output_dir if is not empty or if it doesn't end with / if output_dir != "" and not output_dir.endswith("/"): output_dir = output_dir + "/" obs_for_deseq = pdata.obs.copy() # replace any index starting with digits to start with C instead. obs_for_deseq.rename(index=prepend_c_to_index, inplace=True) # avoid dash that is read as point on R colnames. obs_for_deseq.index = obs_for_deseq.index.str.replace("-", "_") obs_for_deseq.index = obs_for_deseq.index.str.replace(" ", "_") col_metadata_file = f"{output_dir}col_metadata.tsv" # write obs to a col_metadata file if factor_fields: # only output the index plus the columns in factor_fields in that order obs_for_deseq[factor_fields].to_csv(col_metadata_file, sep="\t", index=True) else: obs_for_deseq.to_csv(col_metadata_file, sep="\t", index=True) # write var to a gene_metadata file pdata.var.to_csv(f"{output_dir}gene_metadata.tsv", sep="\t", index=True) # write the counts matrix of a specified layer to file if layer is None: # write the X numpy matrix transposed to file df = pd.DataFrame(pdata.X.T, index=pdata.var.index, columns=obs_for_deseq.index) else: df = pd.DataFrame( pdata.layers[layer].T, index=pdata.var.index, columns=obs_for_deseq.index ) df.to_csv(f"{output_dir}counts_matrix.tsv", sep="\t", index_label="") def plot_pseudobulk_samples( pseudobulk_data, groupby, figsize=(10, 10), save_path=None, ): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> adata.X = abs(adata.X).astype(int) >>> pseudobulk = get_pseudobulk(adata, "bulk_labels", "louvain") >>> plot_pseudobulk_samples(pseudobulk, groupby=["bulk_labels", "louvain"], figsize=(10, 10)) """ fig = decoupler.plot_psbulk_samples( pseudobulk_data, groupby=groupby, figsize=figsize, return_fig=True ) if save_path: fig.savefig(f"{save_path}/pseudobulk_samples.png") else: fig.show() def plot_filter_by_expr( pseudobulk_data, group, min_count=None, min_total_count=None, save_path=None ): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> adata.X = abs(adata.X).astype(int) >>> pseudobulk = get_pseudobulk(adata, "bulk_labels", "louvain") >>> plot_filter_by_expr(pseudobulk, group="bulk_labels", min_count=10, min_total_count=200) """ fig = decoupler.plot_filter_by_expr( pseudobulk_data, group=group, min_count=min_count, min_total_count=min_total_count, return_fig=True, ) if save_path: fig.savefig(f"{save_path}/filter_by_expr.png") else: fig.show() def filter_by_expr(pdata, min_count=None, min_total_count=None): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> adata.X = abs(adata.X).astype(int) >>> pseudobulk = get_pseudobulk(adata, "bulk_labels", "louvain") >>> pdata_filt = filter_by_expr(pseudobulk, min_count=10, min_total_count=200) """ genes = decoupler.filter_by_expr( pdata, min_count=min_count, min_total_count=min_total_count ) return pdata[:, genes].copy() def check_fields(fields, adata, obs=True, context=None): """ >>> import scanpy as sc >>> adata = sc.datasets.pbmc68k_reduced() >>> check_fields(["bulk_labels", "louvain"], adata, obs=True) """ legend = "" if context: legend = f", passed in {context}," if obs: if not set(fields).issubset(set(adata.obs.columns)): raise ValueError( f"Some of the following fields {legend} are not present in adata.obs: {fields}. Possible fields are: {list(set(adata.obs.columns))}" ) else: if not set(fields).issubset(set(adata.var.columns)): raise ValueError( f"Some of the following fields {legend} are not present in adata.var: {fields}. Possible fields are: {list(set(adata.var.columns))}" ) def main(args): # Load AnnData object from file adata = anndata.read_h5ad(args.adata_file) # Merge adata.obs fields specified in args.adata_obs_fields_to_merge if args.adata_obs_fields_to_merge: # first split potential groups by ":" and iterate over them for group in args.adata_obs_fields_to_merge.split(":"): fields = group.split(",") check_fields(fields, adata) adata = merge_adata_obs_fields(fields, adata) check_fields([args.groupby, args.sample_key], adata) factor_fields = None if args.factor_fields: factor_fields = args.factor_fields.split(",") check_fields(factor_fields, adata) print(f"Using mode: {args.mode}") # Perform pseudobulk analysis pseudobulk_data = get_pseudobulk( adata, sample_col=args.sample_key, groups_col=args.groupby, layer=args.layer, mode=args.mode, use_raw=args.use_raw, min_cells=args.min_cells, min_counts=args.min_counts, ) # Plot pseudobulk samples plot_pseudobulk_samples( pseudobulk_data, args.groupby, save_path=args.save_path, figsize=args.plot_samples_figsize, ) plot_filter_by_expr( pseudobulk_data, group=args.groupby, min_count=args.min_counts, min_total_count=args.min_total_counts, save_path=args.save_path, ) # Filter by expression if enabled if args.filter_expr: filtered_adata = filter_by_expr( pseudobulk_data, min_count=args.min_counts, min_total_count=args.min_total_counts, ) pseudobulk_data = filtered_adata # Save the pseudobulk data if args.anndata_output_path: pseudobulk_data.write_h5ad(args.anndata_output_path, compression="gzip") write_DESeq2_inputs( pseudobulk_data, output_dir=args.deseq2_output_path, factor_fields=factor_fields ) def merge_adata_obs_fields(obs_fields_to_merge, adata): """ Merge adata.obs fields specified in args.adata_obs_fields_to_merge Parameters ---------- obs_fields_to_merge : str Fields in adata.obs to merge, comma separated adata : anndata.AnnData The AnnData object Returns ------- anndata.AnnData The merged AnnData object docstring tests: >>> import scanpy as sc >>> ad = sc.datasets.pbmc68k_reduced() >>> ad = merge_adata_obs_fields(["bulk_labels","louvain"], ad) >>> ad.obs.columns Index(['bulk_labels', 'n_genes', 'percent_mito', 'n_counts', 'S_score', 'G2M_score', 'phase', 'louvain', 'bulk_labels_louvain'], dtype='object') """ field_name = "_".join(obs_fields_to_merge) for field in obs_fields_to_merge: if field not in adata.obs.columns: raise ValueError(f"The '{field}' column is not present in adata.obs.") if field_name not in adata.obs.columns: adata.obs[field_name] = adata.obs[field].astype(str) else: adata.obs[field_name] = ( adata.obs[field_name] + "_" + adata.obs[field].astype(str) ) return adata if __name__ == "__main__": # Create argument parser parser = argparse.ArgumentParser( description="Perform pseudobulk analysis on an AnnData object" ) # Add arguments parser.add_argument("adata_file", type=str, help="Path to the AnnData file") parser.add_argument( "-m", "--adata_obs_fields_to_merge", type=str, help="Fields in adata.obs to merge, comma separated. You can have more than one set of fields, separated by semi-colon ;", ) parser.add_argument( "--groupby", type=str, required=True, help="The column in adata.obs that defines the groups", ) parser.add_argument( "--sample_key", required=True, type=str, help="The column in adata.obs that defines the samples", ) # add argument for layer parser.add_argument( "--layer", type=str, default=None, help="The name of the layer of the AnnData object to use", ) # add argument for mode parser.add_argument( "--mode", type=str, default="sum", help="The mode for Decoupler pseudobulk analysis", choices=["sum", "mean", "median"], ) # add boolean argument for use_raw parser.add_argument( "--use_raw", action="store_true", default=False, help="Whether to use the raw part of the AnnData object", ) # add argument for min_cells parser.add_argument( "--min_cells", type=int, default=10, help="Minimum number of cells for pseudobulk analysis", ) parser.add_argument( "--save_path", type=str, help="Path to save the plot (optional)" ) parser.add_argument( "--min_counts", type=int, help="Minimum count threshold for filtering by expression", ) parser.add_argument( "--min_total_counts", type=int, help="Minimum total count threshold for filtering by expression", ) parser.add_argument( "--anndata_output_path", type=str, help="Path to save the filtered AnnData object or pseudobulk data", ) parser.add_argument( "--filter_expr", action="store_true", help="Enable filtering by expression" ) parser.add_argument( "--factor_fields", type=str, help="Comma separated list of fields for the factors", ) parser.add_argument( "--deseq2_output_path", type=str, help="Path to save the DESeq2 inputs", required=True, ) parser.add_argument( "--plot_samples_figsize", type=int, default=[10, 10], nargs=2, help="Size of the samples plot as a tuple (two arguments)", ) parser.add_argument("--plot_filtering_figsize", type=int, default=[10, 10], nargs=2) # Parse the command line arguments args = parser.parse_args() # Call the main function main(args)