Mercurial > repos > fcaramia > contra
view Contra/contra.py @ 11:b6ce842a633d
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author | fcaramia |
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date | Sun, 02 Dec 2012 23:09:56 -0500 |
parents | 7564f3b1e675 |
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#!/usr/bin/python # ----------------------------------------------------------------------# # Copyright (c) 2011, Richard Lupat & Jason Li. # # > Source License < # This file is part of CONTRA. # # CONTRA 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. # # CONTRA 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 CONTRA. If not, see <http://www.gnu.org/licenses/>. # # #-----------------------------------------------------------------------# # Last Updated : 23 July 2012 16:43PM import os from optparse import OptionParser import sys import subprocess import shlex from multiprocessing import Process, Manager from scripts.assign_bin_number_v2 import * from scripts.average_count import * from scripts.cn_apply_threshold import * from scripts.convert_gene_coordinate import * from scripts.convert_targeted_regions import * from scripts.split_chromosome import * from scripts.vcf_out import * from scripts.get_chr_length import * from scripts.count_libsize import * from scripts.target_breakdown import * #Absolute Path scriptPath = os.path.realpath(os.path.dirname(sys.argv[0])) class Params: """ Class for top-level system parameters """ def __init__(self): # command-line option definition self.parser = OptionParser() self.parser.add_option("-t", "--target", help="Target region definition file [REQUIRED] [BED Format]", action="store", type="string", dest="target") self.parser.add_option("-s", "--test", help="Alignment file for the test sample [REQUIRED] [BAM/SAM]", action="store", type="string", dest="test") self.parser.add_option("-c", "--control", help="Alignment file for the control sample [REQUIRED] [BAM/SAM]", action="store", type="string", dest="control") self.parser.add_option("-f", "--fasta", help="Reference Genome [REQUIRED][FASTA]", action="store", type="string", dest="fasta") self.parser.add_option("-o", "--outFolder", help="the output folder path name to store the output of analysis [REQUIRED]", action="store", type="string", dest="outFolder") self.parser.add_option("--numBin", help="Numbers of bins to group regions. User can specify multiple experiments with different number of bins (comma separated) [20]", action="store", type="string", dest="numBin", default="20") self.parser.add_option("--minReadDepth", help="The threshold for minimum read depth for each bases [10]", action="store", type="string", dest="minReadDepth", default=10) self.parser.add_option("--minNBases", help="The threshold for minimum number of bases for each target regions [10]", action="store", type="string", dest="minNBases", default= 10) self.parser.add_option("--sam", help="If the specified, test and control sample are in SAM [False]", action="store_true", dest="sam", default="False") self.parser.add_option("--bed", help="if specified, control will be in BED format [False]", action="store_true", dest = "bedInput", default="False") self.parser.add_option("--pval", help="The p-value threshold for filtering [0.05]. Applies to Adjusted P-Value.", action="store", type="string", dest="pval", default=0.05) self.parser.add_option("--sampleName", help ="The name to be appended to the front of default output name ['']", action="store", type="string", dest="sampleName", default='') self.parser.add_option("--nomultimapped", help="The option to remove multi-mapped reads [False]", action="store_true", dest="nomultimapped",default="False") self.parser.add_option("-p", "--plot", help="Plots log-ratio distribution for each bin [False]", action="store_true", dest="plot", default="False") self.parser.add_option("--minExon", help="Minimum number of Exons in one bin (if less than this, bin that contains small number of exons" +"will be moved to the adjacent bins) [2000] ", action="store", type="string", dest="minExon", default="2000") self.parser.add_option("--minControlRdForCall", help="Minimum control readdepth for call [5]", action="store", type="string", dest="minControl", default="5") self.parser.add_option("--minTestRdForCall", help="Minimum test readdepth for call [0]", action="store", type="string", dest="minTest", default="0") self.parser.add_option("--minAvgForCall", help="Minimum average coverage for call [20]", action="store", type="string", dest="minAvg", default="20") self.parser.add_option("--maxRegionSize", help="Maximum Region Size in target region (for breaking large region into smaller region. By default, maxRegionSize 0 means no breakdown) [0]", action="store", type="string", dest="maxRegionSize", default="0") self.parser.add_option("--targetRegionSize", help="Target Region Size for breakdown (if maxRegionSize is non zero) [200]", action="store", type="string", dest="targetRegionSize", default="200") self.parser.add_option("-l", "--largeDeletion", help="if specified, CONTRA will run large deletion analysis (CBS). User must have DNAcopy R-library installed to run the analysis. [False]", action="store_true", dest = "large", default="False") self.parser.add_option("--smallSegment", help="CBS segment size for calling large variations [1]", action="store", type="string", dest="smallSegment", default="1") self.parser.add_option("--largeSegment", help="CBS segment size for calling large variations [25]", action="store", type="string", dest="largeSegment", default="25") self.parser.add_option("--lrCallStart", help="Log ratios start range that will be used to call CNV [-0.3]", action="store", type="string", dest="lrs", default="-0.3") self.parser.add_option("--lrCallEnd", help="Log ratios end range that will be used to call CNV [0.3]", action="store", type="string", dest="lre", default="0.3") self.parser.add_option("--passSize", help="Size of exons that passed the p-value threshold compare to the original exon size [0.35]", action="store", type="string", dest="passSize", default="0.35") # required parameters list self.ERRORLIST = [] # change system parameters based on any command line (options, args) = self.parser.parse_args() if options.target: self.TARGET = options.target else: #self.parser.print_help() #self.parser.error("--target not supplied") self.ERRORLIST.append("target") if options.test: self.TEST = options.test else: #self.parser.error("--test not supplied") self.ERRORLIST.append("test") if options.control: self.CONTROL = options.control else: #self.parser.error("--control not supplied") self.ERRORLIST.append("control") if options.fasta: self.FASTA = options.fasta else: #self.parser.error("--fasta not supplied") self.ERRORLIST.append("fasta") if options.outFolder: self.OUTFOLDER = options.outFolder else: #self.parser.error("--outFolder not supplied") self.ERRORLIST.append("outfolder") if len(self.ERRORLIST) != 0: self.parser.print_help() self.parser.error("Missing required parameters") if options.numBin: binsNumber = options.numBin.split(",") try: self.NUMBIN = [int(j) for j in binsNumber] except: self.NUMBIN = [20] if options.minReadDepth: self.MINREADDEPTH = int(options.minReadDepth) if options.minNBases: self.MINNBASES = int(options.minNBases) if options.sam: self.SAM = str(options.sam) if options.pval: self.PVAL = options.pval if options.sampleName: self.SAMPLENAME = options.sampleName else: self.SAMPLENAME = 'No-SampleName' if options.nomultimapped: self.NOMULTIMAPPED = str(options.nomultimapped) if options.plot: self.PLOT = str(options.plot) if options.bedInput: self.BEDINPUT = options.bedInput if options.minExon: self.MINEXON = int(options.minExon) if options.minControl: self.MINCONTROL = options.minControl if options.minTest: self.MINTEST = options.minTest if options.minAvg: self.MINAVG = options.minAvg if options.maxRegionSize: self.MAXREGIONSIZE = int(options.maxRegionSize) if options.targetRegionSize: self.TARGETREGIONSIZE = int(options.targetRegionSize) if options.large: self.LARGE = str(options.large) if options.smallSegment: self.SMALLSEGMENT = options.smallSegment if options.largeSegment: self.LARGESEGMENT = options.largeSegment if options.lre: self.LRE = options.lre if options.lrs: self.LRS = options.lrs if options.passSize: self.PASSSIZE = options.passSize def repeat(self): # params test print "target :", self.TARGET print "test :", self.TEST print "control :", self.CONTROL print "fasta :", self.FASTA print "outfolder :", self.OUTFOLDER print "numBin :", self.NUMBIN print "minreaddepth :", self.MINREADDEPTH print "minNBases :", self.MINNBASES print "sam :", self.SAM print "pval :", self.PVAL print "sampleName :", self.SAMPLENAME print "nomultimapped :", self.NOMULTIMAPPED print "plot :", self.PLOT print "bedInput :", self.BEDINPUT print "minExon :", self.MINEXON print "largeDeletion :", self.LARGE def checkOutputFolder(outF): print "Creating Output Folder :", if outF[len(outF)-1] == "/": outF = outF[:len(outF)-1] try: os.mkdir(outF) except: print "cannot create folder '%s'" %outF print "if folder already exist, please specify other folder" sys.exit(1) try: os.mkdir(outF+"/table") os.mkdir(outF+"/plot") os.mkdir(outF+"/buf") os.mkdir(outF+"/buf/ctrData/") os.mkdir(outF+"/buf/testData/") except: print "[ERROR: CANNOT CREATE SUBFOLDERS]" sys.exit(1) print " Done." return outF #BEDINPUT def countTotalReads3(params, folder): tempFileName = folder + "/temp.txt" tempReadFile = open(tempFileName, "w") libsize = get_libsize(params.BEDINPUT) tempReadFile.write(libsize) #tempReadFile.write(params.CONTROLREADCOUNT) tempReadFile.close() def countTotalReads(params, folder): if 'testData' in folder: inF = params.TEST else: inF = params.CONTROL # Get Total ReadCount getreadcount = os.system("samtools view %s | wc -l > %s/temp.txt" %(inF,folder)) def samToBam(samfile, bamfile): args = shlex.split("samtools view -bS %s -o %s" %(samfile, bamfile)) samtobam = subprocess.call(args) return bamfile def removeMultiMapped(inF, newBAM): # Get New BAM Files with mapping quality > 0 args = shlex.split("samtools view -bq 1 %s -o %s" %(inF, newBAM)) removeMM = subprocess.call(args) print "Multi mapped reads removed. " #BEDINPUT def convertBamSimple(params, folder, targetList, genomeFile): if 'testData' in folder: inF = params.TEST print "Converting TEST Sample... " else: inF = params.CONTROL print "Converting CONTROL Sample... " #Copy file to working folder os.system("cp %s %s" %(inF, folder+"sample.BEDGRAPH")) # Split Bedgraph by its chromosomes splitByChromosome(folder) # Slice the coverage files to only cover the targeted regions print "Getting targeted regions DOC..." convertGeneCoordinate(targetList, folder) # LIBSIZE libsize = str(get_libsize(folder+"geneRefCoverage2.txt")) tempLibSize = open(folder + "/temp.txt", "w") tempLibSize.write(libsize) tempLibSize.close() print "Targeted regions pre-processing: Done" def convertBam(params, folder, targetList, genomeFile): if 'testData' in folder: inF = params.TEST print "Converting TEST Sample... " else: inF = params.CONTROL print "Converting CONTROL Sample... " # Convert BAM Files to BEDGRAPH bedgraph = folder + "sample.BEDGRAPH" args = shlex.split("genomeCoverageBed -ibam %s -bga -g %s" %(inF, genomeFile)) #output = subprocess.Popen(args, stdout = subprocess.PIPE).communicate()[0] iOutFile = open(bedgraph, "w") #iOutFile.write(output) output = subprocess.Popen(args, stdout = iOutFile).wait() iOutFile.close() # Split Bedgraph by its chromosomes splitByChromosome(folder) # Slice the coverage files to only cover the targeted regions print "Getting targeted regions DOC..." convertGeneCoordinate(targetList, folder) # LIBSIZE libsize = str(get_libsize(folder+"geneRefCoverage2.txt")) tempLibSize = open(folder + "temp.txt", "w") tempLibSize.write(libsize) tempLibSize.close() print "Targeted regions pre-processing: Done" def analysisPerBin(params, num_bin, outFolder, targetList): import shutil bufLoc = outFolder + "/buf" # Assign bin number to the median and average file numBin = assignBin(num_bin, bufLoc+"/average.txt", bufLoc+"/bin", targetList, params.MINEXON) #copy bin_boundary to plot folder #outBounFile = os.path.join(outFolder, "plot", "bin_boundary"+str(num_bin)) #curBounFile = os.path.join(bufLoc, "bin" + str(num_bin) + ".boundaries.txt") #shutil.copy(curBounFile, outBounFile) print "Significance Test ... " rScriptName = os.path.join(scriptPath, "scripts", "cn_analysis.v3.R") args = shlex.split("Rscript %s %s %s %s %s %s %s %s %s %s %s" %(rScriptName, num_bin, params.MINREADDEPTH, params.MINNBASES, outFolder, params.SAMPLENAME,params.PLOT, numBin, params.MINCONTROL, params.MINTEST, params.MINAVG)) rscr = subprocess.call(args) print "Generating Output Files ... " # Analysis of CNV tNameList = os.listdir(outFolder+"/table/") if num_bin > 1: tNameId = str(num_bin) + "bins" else: tNameId = str(num_bin) + "bin" for tName in tNameList: if tNameId in tName: break if "CNATable" in tName: tName = tName[:len(tName)-4] tableName = outFolder + "/table/" + tName bufTable = bufLoc + "/" + tName applyThreshold(tableName, bufTable, params.PVAL, 100000) #params.MAXGAP = 100000 # Large Region CBS if (params.LARGE != "False"): rScriptName2 = os.path.join(scriptPath, "scripts", "large_region_cbs.R") args = shlex.split("Rscript %s %s %s %s %s %s %s %s %s" %(rScriptName2, tableName+".txt", params.SMALLSEGMENT, params.LARGESEGMENT, params.PVAL, params.PASSSIZE, params.LRS, params.LRE, bufLoc)) rscr2 = subprocess.call(args) # Generate the DNA sequence (for VCF file) bedFile = bufTable + ".BED" bedFasta = bufTable + ".fastaOut.txt" fastaFile = params.FASTA args = shlex.split("fastaFromBed -fi %s -bed %s -fo %s -name" %(fastaFile, bedFile, bedFasta)) fastaBED = subprocess.call(args) # Write VCF print "Creating VCF file ... " vcfFile = tableName + ".vcf" vcf_out(bedFasta, vcfFile) print "%s created. " %(vcfFile) else: print "Table not found" def removeTempFolder(tempFolderPath): import shutil shutil.rmtree(tempFolderPath) print "Temp Folder Removed" def main(): # option handling params = Params() params.repeat() # output folder handling outFolder = checkOutputFolder(params.OUTFOLDER) bufLoc = outFolder + "/buf" # convert target file sorted_target = os.path.join(bufLoc, "target.BED") os.system("sort -k1,1 -k2n %s > %s" %(params.TARGET, sorted_target)) # target breakdown if params.MAXREGIONSIZE > 0: new_target = os.path.join(bufLoc, "target_breakdown.BED") target_breakdown(sorted_target, params.MAXREGIONSIZE, params.TARGETREGIONSIZE, new_target) sorted_target = new_target targetList = convertTarget(sorted_target) # convert sam to bam if -sam specified if (params.SAM == "True"): print "Pre-processing SAM files" test_bam = bufLoc + "/test.BAM" ctr_bam = bufLoc + "/control.BAM" samTest = Process(target= samToBam, args=(params.TEST, test_bam)) if params.BEDINPUT == "False": samCtr = Process(target= samToBam, args=(params.CONTROL, ctr_bam)) samTest.start() if params.BEDINPUT == "False": samCtr.start() samTest.join() if params.BEDINPUT == "False": samCtr.join() params.TEST = test_bam if params.BEDINPUT == "False": params.CONTROL = ctr_bam # remove multi mapped reads if --nomultimapped is specified if (params.NOMULTIMAPPED == "True"): print "Removing multi-mapped reads" test_bam = bufLoc + "/test_reliable.BAM" ctr_bam = bufLoc + "/control_reliable.BAM" bamTest = Process(target= removeMultiMapped, args=(params.TEST, test_bam)) if params.BEDINPUT == "False": bamCtr = Process(target= removeMultiMapped, args=(params.CONTROL, ctr_bam)) bamTest.start() if params.BEDINPUT == "False": bamCtr.start() bamTest.join() if params.BEDINPUT == "False": bamCtr.join() params.TEST = test_bam if params.BEDINPUT == "False": params.CONTROL = ctr_bam # Get Chromosome Length genomeFile = bufLoc + '/sample.Genome' get_genome(params.TEST, genomeFile) # spawn bam converting scripts pTest = Process(target= convertBam, args=(params, bufLoc+'/testData/', targetList, genomeFile)) #BEDINPUT if params.BEDINPUT == "False": cTest = Process(target= convertBam, args=(params, bufLoc+'/ctrData/' , targetList, genomeFile)) else: cTest = Process(target= convertBamSimple, args=(params, bufLoc+'/ctrData/', targetList, genomeFile)) # start the processes pTest.start() cTest.start() # wait for all the processes to finish before continuing pTest.join() cTest.join() # Get the read depth count from temporary folder for folder in [bufLoc+'/testData/', bufLoc+'/ctrData/']: if 'testData' in folder: t1 = int(file.readlines(open(folder+"temp.txt"))[0].strip("\n")) else: n1 = int(file.readlines(open(folder+"temp.txt"))[0].strip("\n")) print "Test file read depth = ", t1 print "Control file read depth = ", n1 print "Pre-processing Completed. " # Get the Average of the Log Ratio print "Getting the Log Ratio ... " testListName = bufLoc + '/testData/geneRefCoverage.txt' controlListName = bufLoc + '/ctrData/geneRefCoverage.txt' avOut = bufLoc + "/average.txt" averageCount(testListName, controlListName, avOut, t1, n1, params.MINREADDEPTH, params.MINNBASES) # Analysis. [Bin, significance test, large deletion, vcf output] print "Binning ... " binProc = [] for numBin in params.NUMBIN: binProc.append(Process(target= analysisPerBin, args=(params,numBin,outFolder,targetList))) for proc in binProc: proc.start() for proc in binProc: proc.join() # Removed Temp Folder removeTempFolder(bufLoc) if __name__ == "__main__": main() print "Done... "