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view SMART/Java/Python/getDistribution.py @ 6:769e306b7933
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author | yufei-luo |
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date | Fri, 18 Jan 2013 04:54:14 -0500 |
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#! /usr/bin/env python # # Copyright INRA-URGI 2009-2010 # # This software is governed by the CeCILL license under French law and # abiding by the rules of distribution of free software. You can use, # modify and/ or redistribute the software under the terms of the CeCILL # license as circulated by CEA, CNRS and INRIA at the following URL # "http://www.cecill.info". # # As a counterpart to the access to the source code and rights to copy, # modify and redistribute granted by the license, users are provided only # with a limited warranty and the software's author, the holder of the # economic rights, and the successive licensors have only limited # liability. # # In this respect, the user's attention is drawn to the risks associated # with loading, using, modifying and/or developing or reproducing the # software by the user in light of its specific status of free software, # that may mean that it is complicated to manipulate, and that also # therefore means that it is reserved for developers and experienced # professionals having in-depth computer knowledge. Users are therefore # encouraged to load and test the software's suitability as regards their # requirements in conditions enabling the security of their systems and/or # data to be ensured and, more generally, to use and operate it in the # same conditions as regards security. # # The fact that you are presently reading this means that you have had # knowledge of the CeCILL license and that you accept its terms. # """Get the repartition of some elements in a chromosomes""" import os from optparse import OptionParser from SMART.Java.Python.structure.TranscriptContainer import TranscriptContainer from SMART.Java.Python.structure.Transcript import Transcript from commons.core.writer.Gff3Writer import Gff3Writer from SMART.Java.Python.misc.RPlotter import RPlotter from SMART.Java.Python.misc.Progress import Progress from math import * def divideKeyDict(dictionary, ratio): return dict([(key / ratio, dictionary[key]) for key in dictionary]) def setTranscript(chromosome, direction, start, end, name, value): transcript = Transcript() transcript.setChromosome(chromosome) transcript.setDirection(direction) transcript.setStart(start) transcript.setEnd(end) transcript.setName(name) transcript.setTagValue("nbElements", value) return transcript if __name__ == "__main__": magnifyingFactor = 1000 # parse command line description = "Get Distribution v1.0.1: Get the distribution of the genomic coordinates on a genome. [Category: Visualization]" parser = OptionParser(description = description) parser.add_option("-i", "--input", dest="inputFileName", action="store", type="string", help="input file [compulsory] [format: file in transcript format given by -f]") parser.add_option("-f", "--format", dest="format", action="store", type="string", help="format of the input file [compulsory] [format: transcript file format]") parser.add_option("-o", "--output", dest="outputFileName", action="store", type="string", help="output file [compulsory] [format: output file in GFF3 format]") parser.add_option("-r", "--reference", dest="referenceFileName", action="store", default=None, type="string", help="file containing the genome [compulsory] [format: file in FASTA format]") parser.add_option("-n", "--nbBins", dest="nbBins", action="store", default=1000, type="int", help="number of bins [default: 1000] [format: int]") parser.add_option("-2", "--bothStrands", dest="bothStrands", action="store_true", default=False, help="plot one curve per strand [format: bool] [default: false]") parser.add_option("-w", "--raw", dest="raw", action="store_true", default=False, help="plot raw number of occurrences instead of density [format: bool] [default: false]") parser.add_option("-x", "--csv", dest="csv", action="store_true", default=False, help="write a .csv file [format: bool]") parser.add_option("-c", "--chromosome", dest="chromosome", action="store", default=None, type="string", help="plot only a chromosome [format: string]") parser.add_option("-s", "--start", dest="start", action="store", default=None, type="int", help="start from a given region [format: int]") parser.add_option("-e", "--end", dest="end", action="store", default=None, type="int", help="end from a given region [format: int]") parser.add_option("-y", "--yMin", dest="yMin", action="store", default=None, type="int", help="minimum value on the y-axis to plot [format: int]") parser.add_option("-Y", "--yMax", dest="yMax", action="store", default=None, type="int", help="maximum value on the y-axis to plot [format: int]") parser.add_option("-g", "--gff", dest="gff", action="store_true", default=False, help="also write GFF3 file [format: bool] [default: false]") parser.add_option("-H", "--height", dest="height", action="store", default=None, type="int", help="height of the graphics [format: int] [default: 300]") parser.add_option("-W", "--width", dest="width", action="store", default=None, type="int", help="width of the graphics [format: int] [default: 1000]") parser.add_option("-v", "--verbosity", dest="verbosity", action="store", default=1, type="int", help="trace level [default: 1] [format: int]") parser.add_option("-l", "--log", dest="log", action="store_true", default=False, help="write a log file [format: bool]") parser.add_option("-D", "--directory", dest="working_Dir", action="store", default=os.getcwd(), type="string", help="the directory to store the results [format: directory]") (options, args) = parser.parse_args() sizes = {} if options.referenceFileName != None: # get the sizes of the chromosomes referenceHandle = open(options.referenceFileName) name = None size = 0 maxSize = 0 for line in referenceHandle: line = line.strip() if line == "": continue if line[0] == ">": if name != None: if options.verbosity > 10: print name sizes[name] = size maxSize = max(maxSize, size) size = 0 name = line[1:] else: size += len(line) sizes[name] = size maxSize = max(maxSize, size) if options.verbosity > 1: print "done" start = 0 end = maxSize else: if options.chromosome == None or options.start == None or options.end == None: raise Exception("Missing chromosome or start and end positions, or reference file") maxSize = options.end sizes[options.chromosome] = options.end start = options.start end = options.end tmp1 = int(maxSize / float(options.nbBins)) tmp2 = 10 ** (len("%d" % (tmp1))-2) sliceSize = int((tmp1 / tmp2) * tmp2) bins = dict() binsPlus = dict() binsMinus = dict() for chromosome in sizes: bins[chromosome] = dict([(i * sliceSize + 1, 0) for i in range(start / sliceSize, sizes[chromosome] / sliceSize + 1)]) binsPlus[chromosome] = dict([(i * sliceSize + 1, 0) for i in range(start / sliceSize, sizes[chromosome] / sliceSize + 1)]) binsMinus[chromosome] = dict([(i * sliceSize + 1, 0) for i in range(start / sliceSize, sizes[chromosome] / sliceSize + 1)]) parser = TranscriptContainer(options.inputFileName, options.format, options.verbosity) progress = Progress(parser.getNbTranscripts(), "Parsing %s" % (options.inputFileName), options.verbosity) maxSlice = 0 # count the number of reads for transcript in parser.getIterator(): if options.chromosome == None or (transcript.getChromosome() == options.chromosome and transcript.getStart() >= start and transcript.getStart() <= end): if transcript.getDirection() == 1: binsPlus[transcript.getChromosome()][(transcript.getStart() / sliceSize) * sliceSize + 1] += 1 else: binsMinus[transcript.getChromosome()][(transcript.getStart() / sliceSize) * sliceSize + 1] += 1 bins[transcript.getChromosome()][(transcript.getStart() / sliceSize) * sliceSize + 1] += 1 maxSlice = max(maxSlice, transcript.getStart() / sliceSize) progress.inc() progress.done() # compute densities densityPlus = dict() for chromosome in bins: densityPlus[chromosome] = dict([(bin, 0) for bin in binsPlus[chromosome]]) for bin in binsPlus[chromosome]: densityPlus[chromosome][bin] = float(binsPlus[chromosome][bin]) / sliceSize * magnifyingFactor # correct densities for first and last bins if start % sliceSize != 0: densityPlus[chromosome][(start / sliceSize) * sliceSize + 1] = float(binsPlus[chromosome][(start / sliceSize) * sliceSize + 1]) / (sliceSize - (start % sliceSize)) * magnifyingFactor if sizes[chromosome] % sliceSize != 0: densityPlus[chromosome][(sizes[chromosome] / sliceSize) * sliceSize + 1] = float(binsPlus[chromosome][(sizes[chromosome] / sliceSize) * sliceSize + 1]) / (sizes[chromosome] % sliceSize) * magnifyingFactor densityMinus = dict() for chromosome in binsMinus: densityMinus[chromosome] = dict([(bin, 0) for bin in binsMinus[chromosome]]) for bin in binsMinus[chromosome]: densityMinus[chromosome][bin] = float(binsMinus[chromosome][bin]) / sliceSize * magnifyingFactor # correct densities for first and last bins if start % sliceSize != 0: densityMinus[chromosome][(start / sliceSize) * sliceSize + 1] = float(binsMinus[chromosome][(start / sliceSize) * sliceSize + 1]) / (sliceSize - (start % sliceSize)) * magnifyingFactor if sizes[chromosome] % sliceSize != 0: densityMinus[chromosome][(sizes[chromosome] / sliceSize) * sliceSize + 1] = float(binsMinus[chromosome][(sizes[chromosome] / sliceSize) * sliceSize + 1]) / (sizes[chromosome] % sliceSize) * magnifyingFactor density = dict() for chromosome in bins: density[chromosome] = dict([(bin, 0) for bin in bins[chromosome]]) for bin in bins[chromosome]: density[chromosome][bin] = densityPlus[chromosome][bin] + densityMinus[chromosome][bin] for chromosome in densityMinus: for bin in densityMinus[chromosome]: densityMinus[chromosome][bin] *= -1 for bin in binsMinus[chromosome]: binsMinus[chromosome][bin] *= -1 for chromosome in density: maxX = max(bins[chromosome].keys()) if maxX <= 1000: unit = "nt." ratio = 1.0 elif maxX <= 1000000: unit = "kb" ratio = 1000.0 else: unit = "Mb" ratio = 1000000.0 outputFileName = "%s_%s" % (options.outputFileName, chromosome) if options.start != None and options.end != None: outputFileName += ":%d-%d" % (options.start, options.end) outputFileName += ".png" plotter = RPlotter(outputFileName, options.verbosity) plotter.setXLabel("Position on %s (in %s)" % (chromosome.replace("_", " "), unit)) plotter.setYLabel("# reads") if options.bothStrands: plotter.setImageSize(1000, 300) else: plotter.setImageSize(1000, 200) if options.height != None: plotter.setHeight(options.height) if options.width != None: plotter.setWidth(options.width) if options.yMax != None: plotter.setMinimumY(options.yMin) if options.yMax != None: plotter.setMaximumY(options.yMax) if options.bothStrands : if options.raw: plotter.addLine(divideKeyDict(binsPlus[chromosome], ratio)) else: plotter.addLine(divideKeyDict(densityPlus[chromosome], ratio)) if options.raw: plotter.addLine(divideKeyDict(binsMinus[chromosome], ratio)) else: plotter.addLine(divideKeyDict(densityMinus[chromosome], ratio)) else: if options.raw: plotter.addLine(divideKeyDict(bins[chromosome], ratio)) else: plotter.addLine(divideKeyDict(density[chromosome], ratio)) plotter.plot() if options.csv: outputFileName = "%s" % (options.outputFileName) if options.chromosome != None: outputFileName += "_%s" % (options.chromosome) if options.start != None and options.end != None: outputFileName += ":%d-%d" % (options.start, options.end) outputFileName += ".csv" csvHandle = open(outputFileName, "w") for slice in range(start / sliceSize, maxSlice + 1): csvHandle.write(";%d-%d" % (slice * sliceSize + 1, (slice+1) * sliceSize)) csvHandle.write("\n") if options.bothStrands: for chromosome in densityPlus: if len(densityPlus[chromosome]) > 0: csvHandle.write("%s [+]" % (chromosome)) for slice in sorted(densityPlus[chromosome].keys()): csvHandle.write(";%.2f" % (densityPlus[chromosome][slice])) csvHandle.write("\n") if len(densityMinus[chromosome]) > 0: csvHandle.write("%s [-]" % (chromosome)) for slice in sorted(densityPlus[chromosome].keys()): csvHandle.write(";%.2f" % (-densityMinus[chromosome][slice])) csvHandle.write("\n") else: for chromosome in density: if len(density[chromosome]) > 0: csvHandle.write(chromosome) for slice in sorted(density[chromosome].keys()): csvHandle.write(";%.2f" % (density[chromosome][slice])) csvHandle.write("\n") csvHandle.close() if options.gff: chromosome = "" if options.chromosome == None else options.chromosome.capitalize() start = "" if options.start == None else "%d" % (options.start) end = "" if options.end == None else "%d" % (options.end) link1 = "" if options.start == None and options.end == None else ":" link2 = "" if options.start == None and options.end == None else "-" writer = Gff3Writer("%s%s%s%s%s.gff3" % (options.outputFileName, link1, start, link2, end), options.verbosity) cpt = 1 if options.raw: valuesPlus = binsPlus valuesMinus = binsMinus values = bins else: valuesPlus = densityPlus valuesMinus = densityMinus values = density if options.bothStrands: for chromosome in values: for slice in valuesPlus[chromosome]: writer.addTranscript(setTranscript(chromosome, 1, slice, slice + sliceSize, "region%d" % (cpt), valuesPlus[chromosome][slice])) cpt += 1 for slice in valuesMinus[chromosome]: writer.addTranscript(setTranscript(chromosome, -1, slice, slice + sliceSize, "region%d" % (cpt), - valuesMinus[chromosome][slice])) cpt += 1 else: for chromosome in values: for slice in values[chromosome]: writer.addTranscript(setTranscript(chromosome, 1, slice, slice + sliceSize, "region%d" % (cpt), values[chromosome][slice])) cpt += 1 writer.write()