Mercurial > repos > artbio > fetch_fasta_from_ncbi
view fetch_fasta_from_NCBI.py @ 3:8be88084f89c draft
planemo upload for repository https://github.com/ARTbio/tools-artbio/tree/master/tools/fetch_fasta_from_ncbi commit ab45487db8cc69750f92a40d763d51ffac940e25
author | artbio |
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date | Wed, 08 Nov 2017 13:00:26 -0500 |
parents | 50f5ef3313bb |
children | c667d0ee39f5 |
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#!/usr/bin/env python # -*- coding: utf-8 -*- """ From a taxonomy ID retrieves all the nucleotide sequences It returns a multiFASTA nuc/prot file Entrez Database UID common name E-utility Database Name Nucleotide GI number nuccore Protein GI number protein Retrieve strategy: esearch to get total number of UIDs (count) esearch to get UIDs in batches loop untile end of UIDs list: epost to put a batch of UIDs in the history server efetch to retrieve info from previous post retmax of efetch is 1/10 of declared value from NCBI queries are 1 sec delayed, to satisfy NCBI guidelines (more than what they request) """ import argparse import httplib import logging import re import sys import time import urllib import urllib2 class QueryException(Exception): pass class Eutils: def __init__(self, options, logger): """ Initialize retrieval parameters """ self.logger = logger self.base = "https://eutils.ncbi.nlm.nih.gov/entrez/eutils/" self.query_string = options.query_string self.dbname = options.dbname if options.outname: self.outname = options.outname else: self.outname = 'NCBI_download' + '.' + self.dbname + '.fasta' self.ids = [] self.retmax_esearch = 100000 self.retmax_efetch = 500 self.count = 0 self.webenv = "" self.query_key = "" def dry_run(self): self.get_count_value() def retrieve(self): """ Retrieve the fasta sequences corresponding to the query """ self.get_count_value() # If no UIDs are found exit script if self.count > 0: self.get_uids_list() try: self.get_sequences() except QueryException as e: self.logger.error("Exiting script.") raise e else: self.logger.error("No UIDs were found. Exiting script.") raise Exception("") def get_count_value(self): """ just to retrieve Count (number of UIDs) Total number of UIDs from the retrieved set to be shown in the XML output (default=20). By default, ESearch only includes the first 20 UIDs retrieved in the XML output. If usehistory is set to 'y', the remainder of the retrieved set will be stored on the History server http://www.ncbi.nlm.nih.gov/books/NBK25499/#chapter4.EFetch """ self.logger.info("retrieving data from %s" % self.base) self.logger.info("for Query: %s and database: %s" % (self.query_string, self.dbname)) querylog = self.esearch(self.dbname, self.query_string, '', '', "count") self.logger.debug("Query response:") for line in querylog: self.logger.debug(line.rstrip()) if '</Count>' in line: self.count = int(line[line.find('<Count>')+len('<Count>'): line.find('</Count>')]) self.logger.info("Found %d UIDs" % self.count) def get_uids_list(self): """ Increasing retmax allows more of the retrieved UIDs to be included in the XML output, up to a maximum of 100,000 records. from http://www.ncbi.nlm.nih.gov/books/NBK25499/#chapter4.ESearch """ retmax = self.retmax_esearch if (self.count > retmax): num_batches = (self.count / retmax) + 1 else: num_batches = 1 self.logger.info("Batch size for esearch action: %d UIDs" % retmax) self.logger.info("Number of batches for esearch action: %d " % num_batches) for n in range(num_batches): querylog = self.esearch(self.dbname, self.query_string, n*retmax, retmax, '') for line in querylog: if '<Id>' in line and '</Id>' in line: uid = (line[line.find('<Id>')+len('<Id>'): line.find('</Id>')]) self.ids.append(uid) self.logger.info("Retrieved %d UIDs" % len(self.ids)) def esearch(self, db, term, retstart, retmax, rettype): url = self.base + "esearch.fcgi" self.logger.debug("url: %s" % url) values = {'db': db, 'term': term, 'rettype': rettype, 'retstart': retstart, 'retmax': retmax} data = urllib.urlencode(values) self.logger.debug("data: %s" % str(data)) req = urllib2.Request(url, data) response = urllib2.urlopen(req) querylog = response.readlines() response.close() time.sleep(1) return querylog def epost(self, db, ids): url = self.base + "epost.fcgi" self.logger.debug("url_epost: %s" % url) values = {'db': db, 'id': ids} data = urllib.urlencode(values) req = urllib2.Request(url, data) serverResponse = False nb_trials = 0 while not serverResponse: nb_trials += 1 try: self.logger.debug("Try number %s for opening and readin URL %s" % (nb_trials, url+data)) response = urllib2.urlopen(req) querylog = response.readlines() response.close() serverResponse = True except urllib2.HTTPError as e: self.logger.info("urlopen error:%s, %s" % (e.code, e.read())) self.logger.info("Retrying in 1 sec") serverResponse = False time.sleep(1) except urllib2.URLError as e: self.logger.info("urlopen error: Failed to reach a server") self.logger.info("Reason :%s" % (e.reason)) self.logger.info("Retrying in 1 sec") serverResponse = False time.sleep(1) except httplib.IncompleteRead as e: self.logger.info("IncompleteRead error: %s" % (e.partial)) self.logger.info("Retrying in 1 sec") serverResponse = False time.sleep(1) self.logger.debug("query response:") for line in querylog: self.logger.debug(line.rstrip()) if '</QueryKey>' in line: self.query_key = str(line[line.find('<QueryKey>') + len('<QueryKey>'):line.find('</QueryKey>') ]) if '</WebEnv>' in line: self.webenv = str(line[line.find('<WebEnv>')+len('<WebEnv>'): line.find('</WebEnv>')]) self.logger.debug("*** epost action ***") self.logger.debug("query_key: %s" % self.query_key) self.logger.debug("webenv: %s" % self.webenv) time.sleep(1) def efetch(self, db, query_key, webenv): url = self.base + "efetch.fcgi" self.logger.debug("url_efetch: %s" % url) values = {'db': db, 'query_key': query_key, 'webenv': webenv, 'rettype': "fasta", 'retmode': "text"} data = urllib.urlencode(values) req = urllib2.Request(url, data) self.logger.debug("data: %s" % str(data)) serverTransaction = False counter = 0 response_code = 0 while not serverTransaction: counter += 1 self.logger.info("Server Transaction Trial: %s" % (counter)) try: self.logger.debug("Going to open") response = urllib2.urlopen(req) self.logger.debug("Going to get code") response_code = response.getcode() self.logger.debug("Going to read, de code was : %s", str(response_code)) fasta = response.read() self.logger.debug("Did all that") response.close() if((response_code != 200) or ("Resource temporarily unavailable" in fasta) or ("Error" in fasta) or (not fasta.startswith(">"))): serverTransaction = False if (response_code != 200): self.logger.info("urlopen error: Response code is not\ 200") elif ("Resource temporarily unavailable" in fasta): self.logger.info("Ressource temporarily unavailable") elif ("Error" in fasta): self.logger.info("Error in fasta") else: self.logger.info("Fasta doesn't start with '>'") else: serverTransaction = True except urllib2.HTTPError as e: serverTransaction = False self.logger.info("urlopen error:%s, %s" % (e.code, e.read())) except urllib2.URLError as e: serverTransaction = False self.logger.info("urlopen error: Failed to reach a server") self.logger.info("Reason :%s" % (e.reason)) except httplib.IncompleteRead as e: serverTransaction = False self.logger.info("IncompleteRead error: %s" % (e.partial)) if (counter > 500): serverTransaction = True if (counter > 500): raise QueryException({"message": "500 Server Transaction Trials attempted for\ this batch. Aborting."}) fasta = self.sanitiser(self.dbname, fasta) time.sleep(0.1) return fasta def sanitiser(self, db, fastaseq): if(db not in "nuccore protein"): return fastaseq regex = re.compile(r"[ACDEFGHIKLMNPQRSTVWYBZ]{49,}") sane_seqlist = [] seqlist = fastaseq.split("\n\n") for seq in seqlist[:-1]: fastalines = seq.split("\n") if len(fastalines) < 2: self.logger.info("Empty sequence for %s" % ("|".join(fastalines[0].split("|")[:4]))) self.logger.info("%s download is skipped" % ("|".join(fastalines[0].split("|")[:4]))) continue if db == "nuccore": badnuc = 0 for nucleotide in fastalines[1]: if nucleotide not in "ATGC": badnuc += 1 if float(badnuc)/len(fastalines[1]) > 0.4: self.logger.info("%s ambiguous nucleotides in %s\ or download interrupted at this offset\ | %s" % (float(badnuc)/len(fastalines[1]), "|".join(fastalines[0].split("|") [:4]), fastalines[1])) self.logger.info("%s download is skipped" % (fastalines[0].split("|")[:4])) continue """ remove spaces and trim the header to 100 chars """ fastalines[0] = fastalines[0].replace(" ", "_")[:100] cleanseq = "\n".join(fastalines) sane_seqlist.append(cleanseq) elif db == "protein": fastalines[0] = fastalines[0][0:100] fastalines[0] = fastalines[0].replace(" ", "_") fastalines[0] = fastalines[0].replace("[", "_") fastalines[0] = fastalines[0].replace("]", "_") fastalines[0] = fastalines[0].replace("=", "_") """ because blast makedb doesn't like it """ fastalines[0] = fastalines[0].rstrip("_") fastalines[0] = re.sub(regex, "_", fastalines[0]) cleanseq = "\n".join(fastalines) sane_seqlist.append(cleanseq) self.logger.info("clean sequences appended: %d" % (len(sane_seqlist))) return "\n".join(sane_seqlist) def get_sequences(self): """ Total number of records from the input set to be retrieved, up to a maximum of 10,000. Optionally, for a large set the value of retstart can be iterated while holding retmax constant, thereby downloading the entire set in batches of size retmax. http://www.ncbi.nlm.nih.gov/books/NBK25499/#chapter4.EFetch """ batch_size = self.retmax_efetch count = self.count uids_list = self.ids self.logger.info("Batch size for efetch action: %d" % batch_size) self.logger.info("Number of batches for efetch action: %d" % ((count / batch_size) + 1)) with open(self.outname, 'w') as out: for start in range(0, count, batch_size): end = min(count, start+batch_size) batch = uids_list[start:end] if self.epost(self.dbname, ",".join(batch)) != -1: mfasta = '' while not mfasta: self.logger.info("retrieving batch %d" % ((start / batch_size) + 1)) try: mfasta = self.efetch(self.dbname, self.query_key, self.webenv) out.write(mfasta + '\n') except QueryException as e: self.logger.error("%s" % e.message) raise e LOG_FORMAT = '%(asctime)s|%(levelname)-8s|%(message)s' LOG_DATEFMT = '%Y-%m-%d %H:%M:%S' LOG_LEVELS = ['DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'] def command_parse(): parser = argparse.ArgumentParser(description='Retrieve data from NCBI') parser.add_argument('-i', dest='query_string', help='NCBI Query String', required=True) parser.add_argument('-o', dest='outname', help='output file name') parser.add_argument('-d', dest='dbname', help='database type') parser.add_argument('--count', '-c', dest='count_ids', action='store_true', default=False, help='dry run ouputing only the number of sequences\ found') parser.add_argument('-l', '--logfile', help='log file (default=stderr)') parser.add_argument('--loglevel', choices=LOG_LEVELS, default='INFO', help='logging level (default: INFO)') args = parser.parse_args() return args def __main__(): """ main function """ args = command_parse() log_level = getattr(logging, args.loglevel) kwargs = {'format': LOG_FORMAT, 'datefmt': LOG_DATEFMT, 'level': log_level} if args.logfile: kwargs['filename'] = args.logfile logging.basicConfig(**kwargs) logger = logging.getLogger('data_from_NCBI') E = Eutils(args, logger) if args.count_ids: try: E.dry_run() except Exception: sys.exit(1) else: try: E.retrieve() except Exception: sys.exit(1) if __name__ == "__main__": __main__()