Mercurial > repos > bebatut > format_cd_hit_output
view format_cd_hit_output.py @ 0:4015e9d6d277 draft
planemo upload for repository https://github.com/ASaiM/galaxytools/tree/master/tools/format_cd_hit_output/ commit 975a480d80c774a1de58c8fc80b71ea44c5c702b-dirty
| author | bebatut |
|---|---|
| date | Tue, 26 Apr 2016 08:55:33 -0400 |
| parents | |
| children | 64da677bcee2 |
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#!/usr/bin/env python # -*- coding: utf-8 -*- import sys import os import argparse import copy import operator from sets import Set def extract_mapping_info(input_mapping_filepath): mapping_info = {} categories = Set([]) with open(input_mapping_filepath,'r') as mapping_file: for line in mapping_file.readlines(): split_line = line[:-1].split('\t') mapping_info.setdefault(split_line[0],split_line[1]) categories.add(split_line[1]) return mapping_info, categories def init_category_distribution(categories = None): cluster_category_distribution = {} if categories != None: for category in categories: cluster_category_distribution[category] = 0 return cluster_category_distribution def flush_cluster_info(cluster_name, cluster_ref_seq, ref_seq_cluster, cluster_category_distribution, categories, output_category_distribution_file, cluster_seq_number): if cluster_name != '': if categories != None: output_category_distribution_file.write(cluster_name) output_category_distribution_file.write('\t' + str(cluster_seq_number)) for category in categories: output_category_distribution_file.write('\t') output_category_distribution_file.write(str(cluster_category_distribution[category])) output_category_distribution_file.write('\n') if cluster_ref_seq == '': string = "No reference sequence found for " string += cluster_name raise ValueError(string) ref_seq_cluster.setdefault(cluster_ref_seq, cluster_name) def extract_cluster_info(args, mapping_info = None, categories = None): ref_seq_cluster = {} if args.output_category_distribution != None: if mapping_info == None or categories == None: string = "A file with category distribution is expected but " string += "no mapping information are available" raise ValueError(string) output_cat_distri_file = open(args.output_category_distribution, 'w') output_cat_distri_file.write('Cluster\tSequence_number') for category in categories: output_cat_distri_file.write('\t' + category) output_cat_distri_file.write('\n') else: output_cat_distri_file = None with open(args.input_cluster_info,'r') as cluster_info_file: cluster_name = '' cluster_category_distribution = init_category_distribution(categories) cluster_ref_seq = '' cluster_seq_number = 0 for line in cluster_info_file.readlines(): if line[0] == '>': flush_cluster_info(cluster_name, cluster_ref_seq, ref_seq_cluster, cluster_category_distribution, categories, output_cat_distri_file, cluster_seq_number) cluster_name = line[1:-1] cluster_name = cluster_name.replace(' ','_') cluster_category_distribution = init_category_distribution(categories) cluster_ref_seq = '' cluster_seq_number = 0 else: seq_info = line[:-1].split('\t')[1].split(' ') seq_name = seq_info[1][1:-3] cluster_seq_number += 1 if categories != None: seq_count = 1 if args.number_sum != None: if seq_name.find('size') != -1: substring = seq_name[seq_name.find('size'):-1] seq_count = int(substring.split('=')[1]) if not mapping_info.has_key(seq_name): string = seq_name + " not found in mapping" raise ValueError(string) category = mapping_info[seq_name] cluster_category_distribution[category] += seq_count if seq_info[-1] == '*': if cluster_ref_seq != '': string = "A reference sequence (" + cluster_ref_seq string += ") already found for cluster " + cluster_name string += " (" + seq_name + ")" raise ValueError(string) cluster_ref_seq = seq_name flush_cluster_info(cluster_name, cluster_ref_seq, ref_seq_cluster, cluster_category_distribution, categories, output_cat_distri_file, cluster_seq_number) if args.output_category_distribution != None: output_cat_distri_file.close() return ref_seq_cluster def rename_representative_sequences(args, ref_seq_cluster): with open(args.input_representative_sequences,'r') as input_sequences: with open(args.output_representative_sequences,'w') as output_sequences: for line in input_sequences.readlines(): if line[0] == '>': seq_name = line[1:-1] if not ref_seq_cluster.has_key(seq_name): string = seq_name + " not found as reference sequence" raise ValueError(string) output_sequences.write('>' + ref_seq_cluster[seq_name] + '\n') else: output_sequences.write(line) def format_cd_hit_outputs(args): if args.input_mapping != None: mapping_info, categories = extract_mapping_info(args.input_mapping) else: mapping_info = None categories = None ref_seq_cluster = extract_cluster_info(args, mapping_info, categories) if args.input_representative_sequences != None: rename_representative_sequences(args, ref_seq_cluster) if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument('--input_cluster_info', required=True) parser.add_argument('--input_representative_sequences') parser.add_argument('--output_representative_sequences') parser.add_argument('--input_mapping') parser.add_argument('--output_category_distribution') parser.add_argument('--number_sum') args = parser.parse_args() format_cd_hit_outputs(args)