def shogun_bt2_lca(input, output, bt2_indx, extract_ncbi_tid, depth, threads, annotate_lineage, run_lca): verify_make_dir(output) basenames = [os.path.basename(filename)[:-4] for filename in os.listdir(input) if filename.endswith('.fna')] for basename in basenames: fna_inf = os.path.join(input, basename + '.fna') sam_outf = os.path.join(output, basename + '.sam') if os.path.isfile(sam_outf): print("Found the samfile \"%s\". Skipping the alignment phase for this file." % sam_outf) else: print(bowtie2_align(fna_inf, sam_outf, bt2_indx, num_threads=threads)) if run_lca: tree = NCBITree() rank_name = list(tree.lineage_ranks.keys())[depth-1] if not rank_name: raise ValueError('Depth must be between 0 and 7, it was %d' % depth) begin, end = extract_ncbi_tid.split(',') counts = [] for basename in basenames: sam_file = os.path.join(output, basename + '.sam') lca_map = {} for qname, rname in yield_alignments_from_sam_inf(sam_file): ncbi_tid = int(find_between(rname, begin, end)) if qname in lca_map: current_ncbi_tid = lca_map[qname] if current_ncbi_tid: if current_ncbi_tid != ncbi_tid: lca_map[qname] = tree.lowest_common_ancestor(ncbi_tid, current_ncbi_tid) else: lca_map[qname] = ncbi_tid if annotate_lineage: lca_map = valmap(lambda x: tree.green_genes_lineage(x, depth=depth), lca_map) taxon_counts = Counter(filter(None, lca_map.values())) else: lca_map = valfilter(lambda x: tree.get_rank_from_taxon_id(x) == rank_name, lca_map) taxon_counts = Counter(filter(None, lca_map.values())) counts.append(taxon_counts) df = pd.DataFrame(counts, index=basenames) df.T.to_csv(os.path.join(output, 'taxon_counts.csv'))
def shogun_bt2_capitalist(input, output, bt2_indx, reference_fasta, reference_map, extract_ncbi_tid, depth, threads): verify_make_dir(output) fna_files = [os.path.join(input, filename) for filename in os.listdir(input) if filename.endswith('.fna')] for fna_file in fna_files: sam_outf = os.path.join(output, '.'.join(str(os.path.basename(fna_file)).split('.')[:-1]) + '.sam') print(bowtie2_align(fna_file, sam_outf, bt2_indx, num_threads=threads)) tree = NCBITree() begin, end = extract_ncbi_tid.split(',') sam_files = [os.path.join(output, filename) for filename in os.listdir(output) if filename.endswith('.sam')] lca_maps = {} for sam_file in sam_files: lca_map = {} for qname, rname in yield_alignments_from_sam_inf(sam_file): ncbi_tid = int(find_between(rname, begin, end)) if qname in lca_map: current_ncbi_tid = lca_map[qname] if current_ncbi_tid: if current_ncbi_tid != ncbi_tid: lca_map[qname] = tree.lowest_common_ancestor(ncbi_tid, current_ncbi_tid) else: lca_map[qname] = ncbi_tid lca_map = valmap(lambda x: tree.green_genes_lineage(x, depth=depth), lca_map) # filter out null values lca_maps['.'.join(os.path.basename(sam_file).split('.')[:-1])] = reverse_collision_dict(lca_map) for basename in lca_maps.keys(): lca_maps[basename] = valmap(lambda val: (basename, val), lca_maps[basename]) lca_map_2 = defaultdict(list) for basename in lca_maps.keys(): for key, val in lca_maps[basename].items(): if key: lca_map_2[key].append(val) fna_faidx = {} for fna_file in fna_files: fna_faidx[os.path.basename(fna_file)[:-4]] = pyfaidx.Fasta(fna_file) dict_reference_map = defaultdict(list) with open(reference_map) as inf: tsv_in = csv.reader(inf, delimiter='\t') for line in tsv_in: dict_reference_map[';'.join(line[1].split('; '))].append(line[0]) # reverse the dict to feed into embalmer references_faidx = pyfaidx.Fasta(reference_fasta) tmpdir = tempfile.mkdtemp() with open(os.path.join(output, 'embalmer_out.txt'), 'w') as embalmer_cat: for key in lca_map_2.keys(): queries_fna_filename = os.path.join(tmpdir, 'queries.fna') references_fna_filename = os.path.join(tmpdir, 'reference.fna') output_filename = os.path.join(tmpdir, 'output.txt') with open(queries_fna_filename, 'w') as queries_fna: for basename, headers in lca_map_2[key]: for header in headers: record = fna_faidx[basename][header][:] queries_fna.write('>filename|%s|%s\n%s\n' % (basename, record.name, record.seq)) with open(references_fna_filename, 'w') as references_fna: for i in dict_reference_map[key]: record = references_faidx[i][:] references_fna.write('>%s\n%s\n' % (record.name, record.seq)) embalmer_align(queries_fna_filename, references_fna_filename, output_filename) with open(output_filename) as embalmer_out: for line in embalmer_out: embalmer_cat.write(line) os.remove(queries_fna_filename) os.remove(references_fna_filename) os.remove(output_filename) os.rmdir(tmpdir) sparse_ncbi_dict = defaultdict(dict) # build query by NCBI_TID DataFrame with open(os.path.join(output, 'embalmer_out.txt')) as embalmer_cat: embalmer_csv = csv.reader(embalmer_cat, delimiter='\t') for line in embalmer_csv: # line[0] = qname, line[1] = rname, line[2] = %match ncbi_tid = np.int(find_between(line[1], begin, end)) sparse_ncbi_dict[line[0]][ncbi_tid] = np.float(line[2]) df = pd.DataFrame.from_dict(sparse_ncbi_dict) df.to_csv(os.path.join(output, 'strain_alignments.csv'))