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combine_kreports.py
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combine_kreports.py
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#!/usr/bin/env python
################################################################
#combine_kreports.py takes multiple kraken-style reports and combines
#them into a single report file
#Copyright (C) 2019-2020 Jennifer Lu, jennifer.lu717@gmail.com
#
#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, jlu26@jhmi.edu
#Updated: 05/16/2019
#
#This program reads in multiple Kraken report files and generates
#a combined Kraken report with columns for read counts and summarized
#read counts for each sample, along with two columns for across-sample sums
#
#Parameters:
# -h, --help................show help message.
# -r X, --report-file X.....all input kraken reports (separated by spaces)
# -o X, --output X..........output kraken report filename
# --display-headers.........includes header lines mapping samples to abbreviated names
# [default:true]
# --no-headers..............do not include header lines [default:false]
# --sample-names............sample names for each kraken report (separated by spaces)
# [if none are given, each sample is given names S1, S2, etc]
#Each Input report file format (tab-delimited)
# - percentage of total reads
# - number of reads (including reads within subtree)
# - number of reads (only at this level)
# - taxonomic classification level (U, D, P, C, O, F, G, S,...etc)
# - NCBI taxonomic ID
# - name of level
#Output file format (tab-delimited)
# - percentage of total reads (for summed reads)
# - combined number of reads (including reads within subtree)
# - combined number of reads (only at this level)
# - S1_all_reads, S1_lvl_reads, S2_all_reads, S2_lvl_reads, ...etc.
# - taxonomic classification level (U, D, P, C, O, F, G, S,...etc)
# - NCBI taxonomic ID
# - name of level
#Methods
# - main
# - process_kraken_report
####################################################################
import os, sys, argparse
import operator
from time import gmtime
from time import strftime
#Tree Class
#usage: tree node used in constructing a taxonomy tree
# including only the taxonomy levels and genomes identified in the Kraken report
class Tree(object):
'Tree node.'
def __init__(self, name, taxid, level_num, level_id, all_reads, lvl_reads, children=None, parent=None):
self.name = name
self.taxid = taxid
self.level_num = level_num
self.level_id = level_id
self.tot_all = all_reads
self.tot_lvl = lvl_reads
self.all_reads = {}
self.lvl_reads = {}
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)
def add_reads(self, sample, all_reads, lvl_reads):
self.all_reads[sample] = all_reads
self.lvl_reads[sample] = lvl_reads
self.tot_all += all_reads
self.tot_lvl += lvl_reads
def __lt__(self,other):
return self.tot_all < other.tot_all
####################################################################
#process_kraken_report
#usage: parses a single line in the kraken report and extracts relevant information
#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:
# - classification/genome name
# - taxonomy ID for this classification
# - level for this classification (number)
# - level name (U, -, D, P, C, O, F, G, S)
# - all reads classified at this level and below in the tree
# - reads classified only at this level
def process_kraken_report(curr_str):
split_str = curr_str.strip().split('\t')
if len(split_str) < 5:
return []
try:
int(split_str[1])
except ValueError:
return []
#Extract relevant information
all_reads = int(split_str[1])
level_reads = int(split_str[2])
try:
level_type = split_str[-3]
taxid = int(split_str[-2])
except ValueError:
taxid = int(split_str[-3])
level_type = split_str[-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]
#Get name and spaces
spaces = 0
name = split_str[-1]
for char in name:
if char == ' ':
name = name[1:]
spaces += 1
else:
break
#Determine which level based on number of spaces
level_num = int(spaces/2)
return [name, taxid, level_num, level_type, all_reads, level_reads]
####################################################################
#Main method
def main():
#Parse arguments
parser = argparse.ArgumentParser()
parser.add_argument('-r','--report-file','--report-files',
'--report','--reports', required=True,dest='r_files',nargs='+',
help='Input kraken report files to combine (separate by spaces)')
parser.add_argument('-o','--output', required=True,dest='output',
help='Output kraken report file with combined information')
parser.add_argument('--display-headers',required=False,dest='headers',
action='store_true', default=True,
help='Include header lines')
parser.add_argument('--no-headers',required=False,dest='headers',
action='store_false',default=True,
help='Do not include header lines')
parser.add_argument('--sample-names',required=False,nargs='+',
dest='s_names',default=[],help='Sample names to use as headers in the new report')
parser.add_argument('--only-combined', required=False, dest='c_only',
action='store_true', default=False,
help='Include only the total combined reads column, not the individual sample cols')
args=parser.parse_args()
#Initialize combined values
main_lvls = ['U','R','D','K','P','C','O','F','G','S']
map_lvls = {'kingdom':'K', 'superkingdom':'D','phylum':'P','class':'C','order':'O','family':'F','genus':'G','species':'S'}
count_samples = 0
num_samples = len(args.r_files)
sample_names = args.s_names
root_node = -1
prev_node = -1
curr_node = -1
u_reads = {0:0}
total_reads = {0:0}
taxid2node = {}
#Check input values
if len(sample_names) > 0 and len(sample_names) != num_samples:
sys.stderr.write("Number of sample names provided does not match number of reports\n")
sys.exit(1)
#Map names
id2names = {}
id2files = {}
if len(sample_names) == 0:
for i in range(num_samples):
id2names[i+1] = "S" + str(i+1)
id2files[i+1] = ""
else:
for i in range(num_samples):
id2names[i+1] = sample_names[i]
id2files[i+1] = ""
#################################################
#STEP 1: READ IN REPORTS
#Iterate through reports and make combined tree!
sys.stdout.write(">>STEP 1: READING REPORTS\n")
sys.stdout.write("\t%i/%i samples processed" % (count_samples, num_samples))
sys.stdout.flush()
for r_file in args.r_files:
count_samples += 1
sys.stdout.write("\r\t%i/%i samples processed" % (count_samples, num_samples))
sys.stdout.flush()
id2files[count_samples] = r_file
#Open File
curr_file = open(r_file,'r')
for line in curr_file:
report_vals = process_kraken_report(line)
if len(report_vals) < 5:
continue
[name, taxid, level_num, level_id, all_reads, level_reads] = report_vals
if level_id in map_lvls:
level_id = map_lvls[level_id]
#Total reads
total_reads[0] += level_reads
total_reads[count_samples] = level_reads
#Unclassified
if level_id == 'U' or taxid == '0':
u_reads[0] += level_reads
u_reads[count_samples] = level_reads
continue
#Tree Root
if taxid == 1:
if count_samples == 1:
root_node = Tree(name, taxid, level_num, 'R', 0,0)
taxid2node[taxid] = root_node
root_node.add_reads(count_samples, all_reads, level_reads)
prev_node = root_node
continue
#Move to correct parent
while level_num != (prev_node.level_num + 1):
prev_node = prev_node.parent
#IF NODE EXISTS
if taxid in taxid2node:
taxid2node[taxid].add_reads(count_samples, all_reads, level_reads)
prev_node = taxid2node[taxid]
continue
#OTHERWISE
#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)
#Add node to tree
curr_node = Tree(name, taxid, level_num, level_id, 0, 0, None, prev_node)
curr_node.add_reads(count_samples, all_reads, level_reads)
taxid2node[taxid] = curr_node
prev_node.add_child(curr_node)
prev_node = curr_node
curr_file.close()
sys.stdout.write("\r\t%i/%i samples processed\n" % (count_samples, num_samples))
sys.stdout.flush()
#################################################
#STEP 2: SETUP OUTPUT FILE
sys.stdout.write(">>STEP 2: WRITING NEW REPORT HEADERS\n")
o_file = open(args.output,'w')
#Lines mapping sample ids to filenames
if args.headers:
o_file.write("#Number of Samples: %i\n" % num_samples)
o_file.write("#Total Number of Reads: %i\n" % total_reads[0])
for i in id2names:
o_file.write("#")
o_file.write("%s\t" % id2names[i])
o_file.write("%s\n" % id2files[i])
#Report columns
o_file.write("#perc\ttot_all\ttot_lvl")
if not args.c_only:
for i in id2names:
o_file.write("\t%s_all" % id2names[i])
o_file.write("\t%s_lvl" % id2names[i])
o_file.write("\tlvl_type\ttaxid\tname\n")
#################################################
#STEP 3: PRINT TREE
sys.stdout.write(">>STEP 3: PRINTING REPORT\n")
#Print line for unclassified reads
o_file.write("%0.4f\t" % (float(u_reads[0])/float(total_reads[0])*100))
for i in range(num_samples+1):
if i == 0 or (i > 0 and not args.c_only):
if i not in u_reads:
o_file.write("0\t")
o_file.write("0\t")
else:
o_file.write("%i\t" % u_reads[i])
o_file.write("%i\t" % u_reads[i])
o_file.write("U\t0\tunclassified\n")
#Print for all remaining reads
all_nodes = [root_node]
curr_node = -1
curr_lvl = 0
prev_node = -1
while len(all_nodes) > 0:
#Remove node and insert children
curr_node = all_nodes.pop()
if len(curr_node.children) > 0:
curr_node.children.sort()
for node in curr_node.children:
all_nodes.append(node)
#Print information for this node
o_file.write("%0.4f\t" % (float(curr_node.tot_all)/float(total_reads[0])*100))
o_file.write("%i\t" % curr_node.tot_all)
o_file.write("%i\t" % curr_node.tot_lvl)
if not args.c_only:
for i in range(num_samples):
if (i+1) not in curr_node.all_reads:
o_file.write("0\t0\t")
else:
o_file.write("%i\t" % curr_node.all_reads[i+1])
o_file.write("%i\t" % curr_node.lvl_reads[i+1])
o_file.write("%s\t" % curr_node.level_id)
o_file.write("%s\t" % curr_node.taxid)
o_file.write(" "*curr_node.level_num*2)
o_file.write("%s\n" % curr_node.name)
o_file.close()
####################################################################
if __name__ == "__main__":
main()