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extract_kraken_reads.py
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extract_kraken_reads.py
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#!/usr/bin/env python
######################################################################
#extract_kraken_reads.py takes in a kraken-style output and kraken report
#and a taxonomy level to extract reads matching that level
#Copyright (C) 2019-2023 Jennifer Lu, [email protected]
#
#This file is part of KrakenTools
#KrakenTools is free software; you can redistribute it and/or modify
#it under the terms of the GNU General Public License as published by
#the Free Software Foundation; either version 3 of the license, or
#(at your option) any later version.
#
#This program is distributed in the hope that it will be useful,
#but WITHOUT ANY WARRANTY; without even the implied warranty of
#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
#GNU General Public License for more details.
#
#You should have received a copy of the GNU General Public License
#along with this program; if not, see <http://www.gnu.org/licenses/>.
#
######################################################################
#Jennifer Lu, [email protected]
#Updated: 06/03/2019
#
#This program extracts reads classified by Kraken as a
#specified taxonomy ID. Those reads are extracted into a new FASTA file.
#
#Required Parameters:
# -k, --kraken, --kraken-file X.......kraken output file
# -s, -s1, -1, -U X...................read file
# [FASTA/FASTQ - may be gzipped]
# -s2, -2, X..........................second read file if paired
# [FASTA/FASTQ - may be gzipped]
# -o, --output X......................output FASTA file with reads
# -t, --taxid, --taxids X.............list of taxonomy IDs to extract
# [separated by spaces]
# -r, --report-file X.................kraken report file
# [required only with --include-children/parents]
#Optional Parameters:
# -h, --help..........................show help message.
# --max X.............................only save the first X reads found
# --include-children **...............include reads classified at lower levels
# --include-parents **................include reads classified at parent levels
# of taxids
# --append............................append extracted reads to output file if existing
# --noappend..........................rewrite file if existing [default]
# --exclude...........................exclude the taxids specified
# ** by default, only reads classified exactly at taxids provided will be extracted
# ** if either of these are specified, a report file must also be provided
######################################################################
import os, sys, argparse
import gzip
from time import gmtime
from time import strftime
from Bio import SeqIO
from Bio.Seq import Seq
from Bio.SeqRecord import SeqRecord
#################################################################################
#Tree Class
#usage: tree node used in constructing taxonomy tree
# includes only taxonomy levels and genomes identified in the Kraken report
class Tree(object):
'Tree node.'
def __init__(self, taxid, level_num, level_id, children=None, parent=None):
self.taxid = taxid
self.level_num = level_num
self.level_id = level_id
self.children = []
self.parent = parent
if children is not None:
for child in children:
self.add_child(child)
def add_child(self, node):
assert isinstance(node,Tree)
self.children.append(node)
#################################################################################
#process_kraken_output
#usage: parses single line from kraken output and returns taxonomy ID and readID
#input: kraken output file with readid and taxid in the
# second and third tab-delimited columns
#returns:
# - taxonomy ID
# - read ID
def process_kraken_output(kraken_line):
l_vals = kraken_line.split('\t')
if len(l_vals) < 5:
return [-1, '']
if "taxid" in l_vals[2]:
temp = l_vals[2].split("taxid ")[-1]
tax_id = temp[:-1]
else:
tax_id = l_vals[2]
read_id = l_vals[1]
if (tax_id == 'A'):
tax_id = 81077
else:
tax_id = int(tax_id)
return [tax_id, read_id]
#process_kraken_report
#usage: parses single line from report output and returns taxID, levelID
#input: kraken report file with the following tab delimited lines
# - percent of total reads
# - number of reads (including at lower levels)
# - number of reads (only at this level)
# - taxonomy classification of level
# (U, - (root), - (cellular org), D, P, C, O, F, G, S)
# - taxonomy ID (0 = unclassified, 1 = root, 2 = Bacteria...etc)
# - spaces + name
#returns:
# - taxonomy ID
# - level number (number of spaces before name)
# - level_type (type of taxonomy level - U, R, D, P, C, O, F, G, S, etc)
def process_kraken_report(report_line):
l_vals = report_line.strip().split('\t')
if len(l_vals) < 5:
return []
try:
int(l_vals[1])
except ValueError:
return []
#Extract relevant information
try:
taxid = int(l_vals[-3])
level_type = l_vals[-2]
map_kuniq = {'species':'S', 'genus':'G','family':'F',
'order':'O','class':'C','phylum':'P','superkingdom':'D',
'kingdom':'K'}
if level_type not in map_kuniq:
level_type = '-'
else:
level_type = map_kuniq[level_type]
except ValueError:
taxid = int(l_vals[-2])
level_type = l_vals[-3]
#Get spaces to determine level num
spaces = 0
for char in l_vals[-1]:
if char == ' ':
spaces += 1
else:
break
level_num = int(spaces/2)
return[taxid, level_num, level_type]
################################################################################
#Main method
def main():
#Parse arguments
parser = argparse.ArgumentParser()
parser.add_argument('-k', dest='kraken_file', required=True,
help='Kraken output file to parse')
parser.add_argument('-s','-s1', '-1', '-U', dest='seq_file1', required=True,
help='FASTA/FASTQ File containing the raw sequence letters.')
parser.add_argument('-s2', '-2', dest='seq_file2', default= "",
help='2nd FASTA/FASTQ File containing the raw sequence letters (paired).')
parser.add_argument('-t', "--taxid",dest='taxid', required=True,
nargs='+',
help='Taxonomy ID[s] of reads to extract (space-delimited)')
parser.add_argument('-o', "--output",dest='output_file', required=True,
help='Output FASTA/Q file containing the reads and sample IDs')
parser.add_argument('-o2',"--output2", dest='output_file2', required=False, default='',
help='Output FASTA/Q file containig the second pair of reads [required for paired input]')
parser.add_argument('--append', dest='append', action='store_true',
help='Append the sequences to the end of the output FASTA file specified.')
parser.add_argument('--noappend', dest='append', action='store_false',
help='Create a new FASTA file containing sample sequences and IDs \
(rewrite if existing) [default].')
parser.add_argument('--max', dest='max_reads', required=False,
default=100000000, type=int,
help='Maximum number of reads to save [default: 100,000,000]')
parser.add_argument('-r','--report',dest='report_file', required=False,
default="",
help='Kraken report file. [required only if --include-parents/children \
is specified]')
parser.add_argument('--include-parents',dest="parents", required=False,
action='store_true',default=False,
help='Include reads classified at parent levels of the specified taxids')
parser.add_argument('--include-children',dest='children', required=False,
action='store_true',default=False,
help='Include reads classified more specifically than the specified taxids')
parser.add_argument('--exclude', dest='exclude', required=False,
action='store_true',default=False,
help='Instead of finding reads matching specified taxids, finds all reads NOT matching specified taxids')
parser.add_argument('--fastq-output', dest='fastq_out', required=False,
action='store_true',default=False,
help='Print output FASTQ reads [requires input FASTQ, default: output is FASTA]')
parser.set_defaults(append=False)
args=parser.parse_args()
#Start Program
time = strftime("%m-%d-%Y %H:%M:%S", gmtime())
sys.stdout.write("PROGRAM START TIME: " + time + '\n')
#Check input
if (len(args.output_file2) == 0) and (len(args.seq_file2) > 0):
sys.stderr.write("Must specify second output file -o2 for paired input\n")
sys.exit(1)
#Initialize taxids
save_taxids = {}
for tid in args.taxid:
save_taxids[int(tid)] = 0
main_lvls = ['R','K','D','P','C','O','F','G','S']
#STEP 0: READ IN REPORT FILE AND GET ALL TAXIDS
if args.parents or args.children:
#check that report file exists
if args.report_file == "":
sys.stderr.write(">> ERROR: --report not specified.")
sys.exit(1)
sys.stdout.write(">> STEP 0: PARSING REPORT FILE %s\n" % args.report_file)
#create tree and save nodes with taxids in the list
base_nodes = {}
r_file = open(args.report_file,'r')
prev_node = -1
for line in r_file:
#extract values
report_vals = process_kraken_report(line)
if len(report_vals) == 0:
continue
[taxid, level_num, level_id] = report_vals
if taxid == 0:
continue
#tree root
if taxid == 1:
level_id = 'R'
root_node = Tree(taxid, level_num, level_id)
prev_node = root_node
#save if needed
if taxid in save_taxids:
base_nodes[taxid] = root_node
continue
#move to correct parent
while level_num != (prev_node.level_num + 1):
prev_node = prev_node.parent
#determine correct level ID
if level_id == '-' or len(level_id) > 1:
if prev_node.level_id in main_lvls:
level_id = prev_node.level_id + '1'
else:
num = int(prev_node.level_id[-1]) + 1
level_id = prev_node.level_id[:-1] + str(num)
#make node
curr_node = Tree(taxid, level_num, level_id, None, prev_node)
prev_node.add_child(curr_node)
prev_node = curr_node
#save if taxid matches
if taxid in save_taxids:
base_nodes[taxid] = curr_node
r_file.close()
#FOR SAVING PARENTS
if args.parents:
#For each node saved, traverse up the tree and save each taxid
for tid in base_nodes:
curr_node = base_nodes[tid]
while curr_node.parent != None:
curr_node = curr_node.parent
save_taxids[curr_node.taxid] = 0
#FOR SAVING CHILDREN
if args.children:
for tid in base_nodes:
curr_nodes = base_nodes[tid].children
while len(curr_nodes) > 0:
#For this node
curr_n = curr_nodes.pop()
if curr_n.taxid not in save_taxids:
save_taxids[curr_n.taxid] = 0
#Add all children
if curr_n.children != None:
for child in curr_n.children:
curr_nodes.append(child)
##############################################################################
sys.stdout.write("\t%i taxonomy IDs to parse\n" % len(save_taxids))
sys.stdout.write(">> STEP 1: PARSING KRAKEN FILE FOR READIDS %s\n" % args.kraken_file)
#Initialize values
count_kraken = 0
read_line = -1
exclude_taxids = {}
if args.exclude:
exclude_taxids = save_taxids
save_taxids = {}
#PROCESS KRAKEN FILE FOR CLASSIFIED READ IDS
k_file = open(args.kraken_file, 'r')
sys.stdout.write('\t0 reads processed')
sys.stdout.flush()
#Evaluate each sample in the kraken file
save_readids = {}
save_readids2 = {}
for line in k_file:
count_kraken += 1
if (count_kraken % 10000 == 0):
sys.stdout.write('\r\t%0.2f million reads processed' % float(count_kraken/1000000.))
sys.stdout.flush()
#Parse line for results
[tax_id, read_id] = process_kraken_output(line)
if tax_id == -1:
continue
#Skip if reads are human/artificial/synthetic
if (tax_id in save_taxids) and not args.exclude:
save_taxids[tax_id] += 1
save_readids2[read_id] = 0
save_readids[read_id] = 0
elif (tax_id not in exclude_taxids) and args.exclude:
if tax_id not in save_taxids:
save_taxids[tax_id] = 1
else:
save_taxids[tax_id] += 1
save_readids2[read_id] = 0
save_readids[read_id] = 0
if len(save_readids) >= args.max_reads:
break
#Update user
k_file.close()
sys.stdout.write('\r\t%0.2f million reads processed\n' % float(count_kraken/1000000.))
sys.stdout.write('\t%i read IDs saved\n' % len(save_readids))
##############################################################################
#Sequence files
seq_file1 = args.seq_file1
seq_file2 = args.seq_file2
####TEST IF INPUT IS FASTA OR FASTQ
if(seq_file1[-3:] == '.gz'):
s_file1 = gzip.open(seq_file1,'rt')
else:
s_file1 = open(seq_file1,'rt')
first = s_file1.readline()
if len(first) == 0:
sys.stderr.write("ERROR: sequence file's first line is blank\n")
sys.exit(1)
if first[0] == ">":
filetype = "fasta"
elif first[0] == "@":
filetype = "fastq"
else:
sys.stderr.write("ERROR: sequence file must be FASTA or FASTQ\n")
sys.exit(1)
s_file1.close()
if filetype != 'fastq' and args.fastq_out:
sys.stderr.write('ERROR: for FASTQ output, input file must be FASTQ\n')
sys.exit(1)
####ACTUALLY OPEN FILE
if(seq_file1[-3:] == '.gz'):
#Zipped Sequence Files
s_file1 = gzip.open(seq_file1,'rt')
if len(seq_file2) > 0:
s_file2 = gzip.open(seq_file2,'rt')
else:
s_file1 = open(seq_file1, 'r')
if len(seq_file2) > 0:
s_file2 = open(seq_file2, 'r')
#PROCESS INPUT FILE AND SAVE FASTA FILE
sys.stdout.write(">> STEP 2: READING SEQUENCE FILES AND WRITING READS\n")
sys.stdout.write('\t0 read IDs found (0 mill reads processed)')
sys.stdout.flush()
#Open output file
if (args.append):
o_file = open(args.output_file, 'a')
if args.output_file2 != '':
o_file2 = open(args.output_file2, 'a')
else:
o_file = open(args.output_file, 'w')
if args.output_file2 != '':
o_file2 = open(args.output_file2, 'w')
#Process SEQUENCE 1 file
count_seqs = 0
count_output = 0
for record in SeqIO.parse(s_file1,filetype):
count_seqs += 1
#Print update
if (count_seqs % 1000 == 0):
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
#Check ID
test_id = str(record.id)
test_id2 = test_id
if ("/1" in test_id) or ("/2" in test_id):
test_id2 = test_id[:-2]
#Sequence found
if test_id in save_readids or test_id2 in save_readids:
count_output += 1
#Print update
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
#Save to file
if args.fastq_out:
SeqIO.write(record, o_file, "fastq")
else:
SeqIO.write(record, o_file, "fasta")
#If no more reads to find
if len(save_readids) == count_output:
break
#Close files
s_file1.close()
o_file.close()
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)\n' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
if len(seq_file2) > 0:
count_output = 0
count_seqs = 0
sys.stdout.write('\t%i read IDs found (%0.2f mill reads processed)' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
for record in SeqIO.parse(s_file2, filetype):
count_seqs += 1
#Print update
if (count_seqs % 1000 == 0):
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
test_id = str(record.id)
test_id2 = test_id
if ("/1" in test_id) or ("/2" in test_id):
test_id2 = test_id[:-2]
#Sequence found
if test_id in save_readids or test_id2 in save_readids:
count_output += 1
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)' % (count_output, float(count_seqs/1000000.)))
sys.stdout.flush()
#Save to file
if args.fastq_out:
SeqIO.write(record, o_file2, "fastq")
else:
SeqIO.write(record, o_file2, "fasta")
#If no more reads to find
if len(save_readids) == count_output:
break
s_file2.close()
o_file2.close()
#End Program
sys.stdout.write('\r\t%i read IDs found (%0.2f mill reads processed)\n' % (count_output, float(count_seqs/1000000.)))
#End Program
sys.stdout.write('\t' + str(count_output) + ' reads printed to file\n')
sys.stdout.write('\tGenerated file: %s\n' % args.output_file)
if args.output_file2 != '':
sys.stdout.write('\tGenerated file: %s\n' % args.output_file2)
#End of program
time = strftime("%m-%d-%Y %H:%M:%S", gmtime())
sys.stdout.write("PROGRAM END TIME: " + time + '\n')
sys.exit(0)
#################################################################################
if __name__ == "__main__":
main()
#################################################################################
#################################END OF PROGRAM##################################
#################################################################################