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| author | siyuan |
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| date | Tue, 11 Mar 2014 12:14:01 -0400 |
| parents | acc2ca1a3ba4 |
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#!/usr/bin/env python #This is a program to implement the PRADA pipeline "process subsection", based on the work of Rahul Vegesna and Wandaliz Torres-Garcia #It merely generates a PBS file, depending on the user input entry point (step) #Author: Siyuan Zheng, szheng2@mdanderson.org #Copy right belongs to Roel Verhaak's lab from MD Anderson Cancer Center, Department of Bioinformatics and Computational Biology. #Last revision: 02/17/2014 import subprocess import os,os.path import sys import time import ioprada import re ######################################################################################## args=sys.argv help_menu='''\nPipeline for RNAseq Data Analaysis - preprocessing pipeline (PRADA). \t**Usage**: \tprada-preprocess-bi -conf xx.txt -inputdir .. -sample XX -tag TCGA-XX -platform illumina -step 1_1 -intermediate no -pbs xxx -outdir ... -submit no \t**Parameters**: \t-h print help message \t-step_info print complete steps curated in the module. \t-inputdir the dir where the input bam or fastq can be found. \t-sample input sample name. PRADA searches for sample.bam or sample.end1.fastq/sample.end2.fastq, etc, depending on the \t initiating step number. See step_info for more information. \t-conf config file for references and parameters. Default is conf.txt in py-PRADA installation folder. \t-tag a tag to describe the sample, likely sample ID, such as TCGA-LGG-01; no default. \t-platform only illumina at present (default). \t-step values: 1_1/2,2_e1/2_1/2/3/4,3_e1/2_1/2,4_1/2,5,6_1/2,7,8; example 2_e1_1; no default. \t-outdir output dir. Default is the directory where the input bam is. \t-pbs name for output pbs file and log file. Default (time-stamp) is used if no input. \t-intermediate values:yes/no; if intermediate files should be kept. Default is not. \t-submit if submit the job to HPC, default is no. If yes, ppn is set to 12. \t-v print version information. ''' steps_info=''' Command orders (sample XX) step 1_1 --> XX.sorted.bam [sort input bam by name] step 1_2 --> XX.end1/2.fastq [extract reads from bam] step 2_e1_1 --> XX.end1.sai [realign end1 reads to composite reference] step 2_e1_2 --> XX.end1.sam [generate sam] step 2_e1_3 --> XX.end1.bam [generate bam] step 2_e1_4 --> XX.end1.sorted.bam [sort bam] step 2_e2_1 --> XX.end2.sai [realign end2 reads to composite reference] step 2_e2_2 --> XX.end2.sam [generate sam] step 2_e2_3 --> XX.end2.bam [generate bam] step 2_e2_4 --> XX.end2.sorted.bam [sort bam] step 3_e1_1 --> XX.end1.remapped.bam [remap end1 to genome] step 3_e1_2 --> XX.end1.remapped.sorted.bam [sort remapped bam] step 3_e2_1 --> XX.end2.remapped.bam [remap end2 to genome] step 3_e2_2 --> XX.end2.remapped.sorted.bam [sort remapped bam] step 4_1 --> XX.paired.bam [pair end1 and end1] step 4_2 --> XX.paired.sorted.bam [sort paired bam] step 5 --> XX.withRG.paired.sorted.bam [add read group] step 6_1 --> XX.orig.csv [prepair recalibration table] step 6_2 --> XX.withRG.GATKRecalibrated.bam [recalibration] step 7 --> XX.withRG.GATKRecalibrated.flagged.bam [flag duplication reads] step 8 --> folder XX for gene expression, QC metrics etc. [generate QC and expression] ''' if '-h' in args or '-help' in args or len(args)==1: print help_menu sys.exit(0) if '-step_info' in args: print steps_info sys.exit(0) if '-v' in args: import version print version.version sys.exit(0) if '-sample' not in args: sys.exit('ERROR: Sample name is needed') if '-step' not in args: sys.exit('ERROR: Step number is needed') if '-tag' not in args: sys.exit('ERROR: A tag is needed') i=args.index('-sample') sample=args[i+1] if '-inputdir' not in args: inputpath=os.path.abspath('./') else: i=args.index('-inputdir') inputpath=args[i+1] bampath=os.path.abspath(inputpath)+'/%s.bam'%sample if '-outdir' not in args: outpath=os.path.dirname(bampath) else: i=args.index('-outdir') outpath=os.path.abspath(args[i+1]) if not os.path.exists(outpath): os.mkdir(outpath) #bam=os.path.basename(bampath) #sample=bam[:-4] i=args.index('-step') step=args[i+1] i=args.index('-tag') tag=args[i+1] prada_path=os.path.dirname(os.path.abspath(__file__)) #### ref_search_path=[prada_path,os.getcwd()] #search path for ref file if not specified in command line if '-conf' in args: i=args.index('-conf') reffile=args[i+1] if os.path.exists(reffile): pass else: for pth in ref_search_path: new_reffile='%s/%s'%(pth, os.path.basename(reffile)) if os.path.exists(new_reffile): reffile=new_reffile break else: sys.exit('ERROR: conf file %s not found'%reffile) else: reffile='%s/conf.txt'%prada_path if not os.path.exists(reffile): sys.exit('ERROR: No default conf.txt found and none specified') if '-platform' in args: i=args.index('-platform') plat=args[i+1] else: plat='illumina' if '-submit' in args: i=args.index('-submit') submit=args[i+1] else: submit='no' if '-intermediate' in args: i=args.index('-intermediate') keepmed=args[i+1] else: keepmed='False' if keepmed in ['False','FALSE','false','F','NO','No','no','n']: keepmed_flag='no' elif keepmed in ['True','TRUE','true','T','YES','Yes','yes','y']: keepmed_flag='yes' else: sys.exit('ERROR: -intermediate value not recognized') if '-pbs' in args: i=args.index('-pbs') docstr=args[i+1] else: a=time.ctime().split() b=time.time() timestamp='_'.join([a[-1],a[1],a[2]])+'.'+str(b) docstr='prada_prep_'+timestamp logfilename=docstr+'.log' pbsfilename=docstr+'.pbs' pbspath=outpath+'/'+pbsfilename logpath=outpath+'/'+logfilename ######################################################################################## ######################################################################################## #underlying utilities, automatically detected samtools='%s/tools/samtools-0.1.16/samtools'%prada_path bwa='%s/tools/bwa-0.5.7-mh/bwa'%prada_path gatk='%s/tools/GATK/'%prada_path picard='%s/tools/Picard/'%prada_path seqc='%s/tools/RNA-SeQC_v1.1.7.jar'%prada_path sam2fastq='%s/tools/ubu-1.2-jar-with-dependencies.jar'%prada_path #Default uses 12 nodes in HPC ######################################################################################### ######################################################################################### #reference files refdict=ioprada.read_conf(reffile) genome_gtf=refdict['--REF--']['genome_gtf'] compdb_fasta=refdict['--REF--']['compdb_fasta'] compdb_map=refdict['--REF--']['compdb_map'] genome_fasta=refdict['--REF--']['genome_fasta'] dbsnp_vcf=refdict['--REF--']['dbsnp_vcf'] select_tx=refdict['--REF--']['select_tx'] pat=re.compile('ppn=(\d*)') parallel_n=pat.search(refdict['--PBS--']['-l']).groups()[0] ######################################################################################### ######################################################################################### #pipeline command lines. ##Cleaning up steps: if -intermediate is yes, none will be executed. step_1_1_cmd=['%s sort -n -m 1000000000 %s %s.sorted'%(samtools,bampath,sample)] post_1_1_clean=[] step_1_2_cmd=['java -Xmx8g -jar %s INPUT=%s.sorted.bam FASTQ=%s.end1.fastq SECOND_END_FASTQ=%s.end2.fastq INCLUDE_NON_PF_READS=true VALIDATION_STRINGENCY=SILENT TMP_DIR=tmp/'%(sam2fastq,sample,sample,sample)] post_1_2_clean=['rm -f %s.sorted.bam'%sample] alnparams=' '.join([' '.join(x) for x in refdict['--BWA aln--'].items()]) samseparams=' '.join([' '.join(x) for x in refdict['--BWA samse--'].items()]) if step == '2_e1_1' or step == '2_e2_1': step_2_e1_1_cmd=['%s aln %s %s %s > %s.end1.sai'%(bwa,alnparams,compdb_fasta,fq1path,sample)] post_2_e1_1_clean=[] step_2_e1_2_cmd=['%s samse -s %s %s %s.end1.sai %s > %s.end1.sam'%(bwa,samseparams,compdb_fasta,sample,fq1path,sample)] post_2_e1_2_clean=['rm -f %s.end1.sai'%sample] step_2_e2_1_cmd=['%s aln %s %s %s > %s.end2.sai'%(bwa,alnparams,compdb_fasta,fq2path,sample)] post_2_e2_1_clean=[] step_2_e2_2_cmd=['%s samse -s %s %s %s.end2.sai %s > %s.end2.sam'%(bwa,samseparams,compdb_fasta,sample,fq2path,sample)] post_2_e2_2_clean=['rm -f %s.end2.sai'%sample] else: step_2_e1_1_cmd=['%s aln %s %s %s.end1.fastq > %s.end1.sai'%(bwa,alnparams,compdb_fasta,sample,sample)] post_2_e1_1_clean=[] step_2_e1_2_cmd=['%s samse -s %s %s %s.end1.sai %s.end1.fastq > %s.end1.sam'%(bwa,samseparams,compdb_fasta,sample,sample,sample)] post_2_e1_2_clean=['rm -f %s.end1.sai'%sample,'rm -f %s.end1.fastq'%sample] step_2_e2_1_cmd=['%s aln %s %s %s.end2.fastq > %s.end2.sai'%(bwa,alnparams,compdb_fasta,sample,sample)] post_2_e2_1_clean=[] step_2_e2_2_cmd=['%s samse -s %s %s %s.end2.sai %s.end2.fastq > %s.end2.sam'%(bwa,samseparams,compdb_fasta,sample,sample,sample)] post_2_e2_2_clean=['rm -f %s.end2.sai'%sample,'rm -f %s.end2.fastq'%sample] step_2_e1_3_cmd=['%s view -bS -o %s.end1.bam %s.end1.sam'%(samtools,sample,sample)] post_2_e1_3_clean=['rm -f %s.end1.sam'%sample] step_2_e1_4_cmd=['%s sort -n -m 1000000000 %s.end1.bam %s.end1.sorted'%(samtools,sample,sample)] post_2_e1_4_clean=['rm -f %s.end1.bam'%sample] step_2_e2_3_cmd=['%s view -bS -o %s.end2.bam %s.end2.sam'%(samtools,sample,sample)] post_2_e2_3_clean=['rm -f %s.end2.sam'%sample] step_2_e2_4_cmd=['%s sort -n -m 1000000000 %s.end2.bam %s.end2.sorted'%(samtools,sample,sample)] post_2_e2_4_clean=['rm -f %s.end2.bam'%sample] step_3_e1_1_cmd=['java -Djava.io.tmpdir=tmp/ -cp %s/RemapAlignments.jar -Xmx8g org.broadinstitute.cga.tools.gatk.rna.RemapAlignments M=%s IN=%s.end1.sorted.bam OUT=%s.end1.remapped.bam R=%s REDUCE=TRUE'%(gatk,compdb_map,sample,sample,genome_fasta)] post_3_e1_1_clean=['rm -f %s.end1.sorted.bam'%sample] step_3_e1_2_cmd=['%s sort -n -m 1000000000 %s.end1.remapped.bam %s.end1.remapped.sorted'%(samtools,sample,sample)] post_3_e1_2_clean=['rm -f %s.end1.remapped.bam'%sample] step_3_e2_1_cmd=['java -Djava.io.tmpdir=tmp/ -cp %s/RemapAlignments.jar -Xmx8g org.broadinstitute.cga.tools.gatk.rna.RemapAlignments M=%s IN=%s.end2.sorted.bam OUT=%s.end2.remapped.bam R=%s REDUCE=TRUE'%(gatk,compdb_map,sample,sample,genome_fasta)] post_3_e2_1_clean=['rm -f %s.end2.sorted.bam'%sample] step_3_e2_2_cmd=['%s sort -n -m 1000000000 %s.end2.remapped.bam %s.end2.remapped.sorted'%(samtools,sample,sample)] post_3_e2_2_clean=['rm -f %s.end2.remapped.bam'%sample] step_4_1_cmd=['java -Djava.io.tmpdir=tmp/ -Xmx8g -jar %s/PairMaker.jar IN1=%s.end1.remapped.sorted.bam IN2=%s.end2.remapped.sorted.bam OUTPUT=%s.paired.bam TMP_DIR=tmp/'%(gatk,sample,sample,sample)] post_4_1_clean=['rm -f %s.end1.remapped.sorted.bam'%sample,'rm -f %s.end2.remapped.sorted.bam'%sample] step_4_2_cmd=['%s sort -m 1000000000 %s.paired.bam %s.paired.sorted'%(samtools,sample,sample)] post_4_2_clean=['rm -f %s.paired.bam'%sample] step_5_cmd=['java -Xmx8g -jar %s/AddOrReplaceReadGroups.jar I=%s.paired.sorted.bam O=%s.withRG.paired.sorted.bam RGLB=%s RGPL=%s RGPU=%s RGSM=%s'%(picard,sample,sample,tag,plat,tag,tag)] post_5_clean=['rm -f %s.paired.sorted.bam'%sample] step_6_1_cmd=['%s index %s.withRG.paired.sorted.bam'%(samtools,sample),'java -Xmx8g -jar %s/GenomeAnalysisTK.jar -l INFO -R %s --default_platform %s --knownSites %s -I %s.withRG.paired.sorted.bam --downsample_to_coverage 10000 -T CountCovariates -cov ReadGroupCovariate -cov QualityScoreCovariate -cov CycleCovariate -cov DinucCovariate -nt %s -recalFile %s.orig.csv'%(gatk,genome_fasta,plat,dbsnp_vcf,sample,parallel_n,sample)] post_6_1_clean=[] step_6_2_cmd=['java -Xmx8g -jar %s/GenomeAnalysisTK.jar -l INFO -R %s --default_platform %s -I %s.withRG.paired.sorted.bam -T TableRecalibration --out %s.withRG.GATKRecalibrated.bam -recalFile %s.orig.csv'%(gatk,genome_fasta,plat,sample,sample,sample)] post_6_2_clean=['rm -f %s.withRG.paired.sorted.bam'%sample,'rm -f %s.withRG.paired.sorted.bam.bai'%sample,'rm -f %s.orig.csv'%sample] step_7_cmd=['java -Xmx8g -jar %s/MarkDuplicates.jar I=%s.withRG.GATKRecalibrated.bam O=%s.withRG.GATKRecalibrated.flagged.bam METRICS_FILE=%s.Duplicates_metrics.txt VALIDATION_STRINGENCY=SILENT TMP_DIR=tmp/'%(picard,sample,sample,sample),'%s index %s.withRG.GATKRecalibrated.flagged.bam'%(samtools,sample)] post_7_clean=['rm -f %s.withRG.GATKRecalibrated.bam'%sample,'rm -f %s.withRG.GATKRecalibrated.bai'%sample,'rm -f %s.Duplicates_metrics.txt'%sample] step_8_cmd=["java -Xmx8g -jar %s -ttype 2 -t %s -r %s -s '%s|%s.withRG.GATKRecalibrated.flagged.bam|Disc' -o %s/"%(seqc,genome_gtf,genome_fasta,sample,sample,sample)] post_8_clean=[] cmdset=[] for item in globals().keys(): if item.endswith('_cmd'): cmdset.append(item) cmdset.sort() ######################################################################################### #write PBS file ###############Entry Point try: cmd_entry=cmdset.index('step_'+step+'_cmd') ##entry point except ValueError: sys.exit('ERROR: STEP not recognized') def _parsecmd(cmd): '''pase cmd str for step information''' info=cmd.split('_') cstep='_'.join(info[1:-1]) return cstep ########################### ##headers outfile=open(pbspath,'w') outfile.write('#! /bin/sh\n') outfile.write('#PBS -V\n') outfile.write('#PBS -N %s\n'%tag) outfile.write('#PBS -j oe\n') outfile.write('#PBS -o %s\n'%logpath) for item in refdict['--PBS--']: outfile.write('#PBS %s %s\n'%(item,refdict['--PBS--'][item])) outfile.write('#PBS -d %s\n'%outpath) #commands outfile.write('echo "Job start: `date`"\n') for i in range(cmd_entry,len(cmdset)): cmd=cmdset[i] cstep=_parsecmd(cmd) clean_flag=1 outfile.write('echo "step %s start: `date`"\n'%cstep) outfile.write('if\n') outfile.write('\t%s\n'%('\n'.join(eval(cmd)))) outfile.write('then\n') outfile.write('\techo "step %s done: `date`"\n'%cstep) outfile.write('else\n') outfile.write('\techo "step %s ERROR"\n'%cstep) outfile.write('\texit\n') outfile.write('fi\n') if keepmed_flag=='yes': #if so, keep files by force clean_flag=0 if clean_flag==1: outfile.write('\n'.join(eval('post_%s_clean'%cstep))) outfile.write('\n') outfile.write('echo "PIPELINE FINISHED"\n') outfile.close() ###################################################################### if submit in ['False','FALSE','false','F','NO','No','no','n']: jid='Not_Submitted' logpath='None' elif submit in ['True','TRUE','true','T','YES','Yes','yes','y']: cmdstr='qsub %s'%pbspath cmd=cmdstr.split() cmdout=subprocess.Popen(cmd,stdout=subprocess.PIPE,stderr=subprocess.STDOUT) jid=cmdout.stdout.read().strip() ##JOB ID else: sys.exit('ERROR: submit parameter not recognized') print '#!#%s'%tag print 'BAM\t%s'%bampath print 'Entry\t%s'%step print 'PBS\t%s'%pbspath print 'JOB\t%s'%jid print 'LOG\t%s'%logpath