Mercurial > repos > estrain > microrunqc
view sum_mlst.py @ 11:5eb0f25cf5d3 draft
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author | estrain |
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date | Fri, 10 Mar 2023 16:44:08 +0000 |
parents | a53acd38d77e |
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#!/usr/bin/env ## Generate basic summary stats from SKESA, fastq-scan, and MLST output. ## author: errol strain, estrain@gmail.com from argparse import (ArgumentParser, FileType) import sys import glob import subprocess from decimal import Decimal def parse_args(): "Parse the input arguments, use '-h' for help." parser = ArgumentParser(description='Generate Basic Summary Statistics from SKESA assemblies, fastq-scan output, and MLST reports') # Read inputs parser.add_argument('--fasta', type=str, required=True, nargs=1, help='SKESA FASTA assembly') parser.add_argument('--mlst', type=str, required=True, nargs=1, help='MLST output') parser.add_argument('--fqscan', type=str, required=True, nargs=1, help='fastq-scan output') parser.add_argument('--med', type=str, required=True, nargs=1, help='Median Insert Size') parser.add_argument('--output', type=str, required=True, nargs=1, help='Output File') return parser.parse_args() args =parse_args() # FASTA file fasta = args.fasta[0] # Get individual and total length of contigs cmd = ["awk", "/^>/ {if (seqlen){print seqlen}; ;seqlen=0;next; } { seqlen = seqlen +length($0)}END{print seqlen}",fasta] seqlen = subprocess.Popen(cmd,stdout= subprocess.PIPE).communicate()[0] intlen = list(map(int,seqlen.splitlines())) totlen = sum(intlen) # Count number of contigs numtigs = len(intlen) # Get coverage information from skesa fasta header cmd1 = ["grep",">",fasta] cmd2 = ["cut","-f","3","-d","_"] p1 = subprocess.Popen(cmd1, stdout=subprocess.PIPE) p2 = subprocess.Popen(cmd2, stdin=p1.stdout, stdout=subprocess.PIPE).communicate()[0] covdep = map(float,p2.splitlines()) covlist = [a*b for a,b in zip([float(i) for i in intlen],covdep)] covdep = round(sum(covlist)/totlen,1) # Calculate N50 vals = [int(i) for i in intlen] vals.sort(reverse=True) n50=0 for counter in range(0,len(vals)-1): if sum(vals[0:counter]) > (totlen/2): n50=vals[counter-1] break # Read in MLST output mlst = open(args.mlst[0],"r") profile = mlst.readline() els = profile.split("\t") # Read in median insert size medfile = open(args.med[0],"r") insert = medfile.readline() insert = insert.rstrip() # Read in fastq-scan fqfile = open(args.fqscan[0],"r") fq = fqfile.readline() fq = fq.rstrip() output = open(args.output[0],"w") filehead = str("File\tContigs\tLength\tEstCov\tN50\tMedianInsert\tMeanLength_R1\tMeanLength_R2\tMeanQ_R1\tMeanQ_R2\tScheme\tST\n") output.write(filehead) output.write(str(fasta) + "\t" + str(numtigs) + "\t" + str(totlen) + "\t" + str(covdep) + "\t" + str(n50) +"\t" + str(insert) + "\t" + str(fq)) for counter in range(1,len(els)): output.write("\t" + str(els[counter]))