示例#1
0
def dhsstrandtobw(bamfile, rbwfile, fbwfile, library='Duke', nagtiverev=True):
    """

    :param bamfile:
    :param bwfile:
    :param library:Duke or Washington

        Duke: |=====>
                        <=====|

        Washington: |===========|

        Out put cutting site '|'
    :param nagtiverev: - Strand use nagative score
    :return:
    """

    bamfor = Baminfo.Baminfo(bamfile)

    bwf = pyBigWig.open(fbwfile, "w")

    bwr = pyBigWig.open(rbwfile, "w")

    bwf.addHeader(list(bamfor.chrlen.items()))

    bwr.addHeader(list(bamfor.chrlen.items()))

    for chromosome in bamfor.chrlen:

        end = bamfor.chrlen[chromosome]

        dhscut = dhsbam.dhstrandcutcount(bamfile=bamfile, chromosome=chromosome, start=1,
                                         end=end, library=library)

        if dhscut['+']:

            starts = list()

            values = list()

            for start in sorted(dhscut['+']):
                starts.append(start)

                values.append(float(dhscut['+'][start]))

            bwf.addEntries(chromosome, starts=starts, values=values,
                           span=1, step=1)

        if dhscut['-']:

            starts = list()

            values = list()

            for start in sorted(dhscut['-']):

                starts.append(start)
                if nagtiverev:
                    values.append(0 - float(dhscut['-'][start]))
                else:
                    values.append(float(dhscut['-'][start]))

            bwr.addEntries(chromosome, starts=starts, values=values,
                           span=1, step=1)

    bwf.close()

    bwr.close()
示例#2
0
def dhsstrandtobw(bamfile, rbwfile, fbwfile, library='Duke', nagtiverev=True):
    """

    :param bamfile:
    :param bwfile:
    :param library:Duke or Washington

        Duke: |=====>
                        <=====|

        Washington: |===========|

        Out put cutting site '|'
    :param nagtiverev: - Strand use nagative score
    :return:
    """

    bamfor = Baminfo.Baminfo(bamfile)

    bwf = pyBigWig.open(fbwfile, "w")

    bwr = pyBigWig.open(rbwfile, "w")

    bwf.addHeader(list(bamfor.chrlen.items()))

    bwr.addHeader(list(bamfor.chrlen.items()))

    for chromosome in bamfor.chrlen:

        end = bamfor.chrlen[chromosome]

        dhscut = dhsbam.dhstrandcutcount(bamfile=bamfile, chromosome=chromosome, start=1,
                                         end=end, library=library)

        if dhscut['+']:

            starts = list()

            values = list()

            for start in sorted(dhscut['+']):
                starts.append(start)

                values.append(float(dhscut['+'][start]))

            bwf.addEntries(chromosome, starts=starts, values=values,
                           span=1, step=1)

        if dhscut['-']:

            starts = list()

            values = list()

            for start in sorted(dhscut['-']):

                starts.append(start)
                if nagtiverev:
                    values.append(0 - float(dhscut['-'][start]))
                else:
                    values.append(float(dhscut['-'][start]))

            bwr.addEntries(chromosome, starts=starts, values=values,
                           span=1, step=1)

    bwf.close()

    bwr.close()
示例#3
0
def dhextendtobw(bamfile, bwfile, extendsize=20, library='Duke'):
    """

    :param bamfile:
    :param bwfile:
    :param library:Duke or Washington

        Duke: |=====>
                        <=====|

        Washington: |===========|

        Out put cutting site '|'
    :param nagtiverev: - Strand use nagative score
    :return:
    """

    bamfor = Baminfo.Baminfo(bamfile)

    bw = pyBigWig.open(bwfile, "w")

    bw.addHeader(list(bamfor.chrlen.items()))

    for chromosome in bamfor.chrlen:

        end = bamfor.chrlen[chromosome]

        dhscut = dhsbam.dhstrandcutcount(bamfile=bamfile, chromosome=chromosome, start=1,
                                         end=end, library=library)

        dhsext = dict()

        if dhscut['+']:

            # starts = list()
            #
            # values = list()

            for start in sorted(dhscut['+']):

                # starts.append(start)
                #
                # values.append(float(dhscut['+'][start]))
                for i in range(0, extendsize):

                    nowsite = start + i

                    if 0 < nowsite < end:

                        if nowsite in dhsext:
                            dhsext[nowsite] += float(dhscut['+'][start])
                        else:
                            dhsext[nowsite] = float(dhscut['+'][start])

        if dhscut['-']:

            starts = list()

            values = list()

            for start in sorted(dhscut['-']):

                for i in range(0 - extendsize, 0):
                    nowsite = start + i

                    if 0 < nowsite < end:

                        if nowsite in dhsext:

                            dhsext[nowsite] += float(dhscut['-'][start])
                        else:
                            dhsext[nowsite] = float(dhscut['-'][start])

        starts = list()

        values = list()

        for nowsite in sorted(dhsext):
            starts.append(nowsite)

            values.append(dhsext[nowsite])

        bw.addEntries(chromosome, starts=starts, values=values,
                      span=1, step=1)

    bw.close()
示例#4
0
def dhextendtobw(bamfile, bwfile, extendsize=20, library='Duke'):
    """

    :param bamfile:
    :param bwfile:
    :param library:Duke or Washington

        Duke: |=====>
                        <=====|

        Washington: |===========|

        Out put cutting site '|'
    :param nagtiverev: - Strand use nagative score
    :return:
    """

    bamfor = Baminfo.Baminfo(bamfile)

    bw = pyBigWig.open(bwfile, "w")

    bw.addHeader(list(bamfor.chrlen.items()))

    for chromosome in bamfor.chrlen:

        end = bamfor.chrlen[chromosome]

        dhscut = dhsbam.dhstrandcutcount(bamfile=bamfile, chromosome=chromosome, start=1,
                                         end=end, library=library)

        dhsext = dict()

        if dhscut['+']:

            # starts = list()
            #
            # values = list()

            for start in sorted(dhscut['+']):

                # starts.append(start)
                #
                # values.append(float(dhscut['+'][start]))
                for i in range(0, extendsize):

                    nowsite = start + i

                    if 0 < nowsite < end:

                        if nowsite in dhsext:
                            dhsext[nowsite] += float(dhscut['+'][start])
                        else:
                            dhsext[nowsite] = float(dhscut['+'][start])

        if dhscut['-']:

            starts = list()

            values = list()

            for start in sorted(dhscut['-']):

                for i in range(0 - extendsize, 0):
                    nowsite = start + i

                    if 0 < nowsite < end:

                        if nowsite in dhsext:

                            dhsext[nowsite] += float(dhscut['-'][start])
                        else:
                            dhsext[nowsite] = float(dhscut['-'][start])

        starts = list()

        values = list()

        for nowsite in sorted(dhsext):
            starts.append(nowsite)

            values.append(dhsext[nowsite])

        bw.addEntries(chromosome, starts=starts, values=values,
                      span=1, step=1)

    bw.close()