view bedutil.py @ 0:da1b538b87e5 draft

planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/proteogenomics/retrieve_ensembl_bed commit 88cf1e923a8c9e5bc6953ad412d15a7c70f054d1
author galaxyp
date Mon, 22 Jan 2018 13:13:47 -0500
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#!/usr/bin/env python
"""
#
#------------------------------------------------------------------------------
#                         University of Minnesota
#         Copyright 2016, Regents of the University of Minnesota
#------------------------------------------------------------------------------
# Author:
#
#  James E Johnson
#
#------------------------------------------------------------------------------
"""

from __future__ import print_function

import sys

from Bio.Seq import reverse_complement, translate


def bed_from_line(line, ensembl=False, seq_column=None):
    fields = line.rstrip('\r\n').split('\t')
    if len(fields) < 12:
        return None
    (chrom, chromStart, chromEnd, name, score, strand,
     thickStart, thickEnd, itemRgb,
     blockCount, blockSizes, blockStarts) = fields[0:12]
    bed_entry = BedEntry(chrom=chrom, chromStart=chromStart, chromEnd=chromEnd,
                         name=name, score=score, strand=strand,
                         thickStart=thickStart, thickEnd=thickEnd,
                         itemRgb=itemRgb,
                         blockCount=blockCount,
                         blockSizes=blockSizes.rstrip(','),
                         blockStarts=blockStarts.rstrip(','))
    if seq_column is not None and -len(fields) <= seq_column < len(fields):
        bed_entry.seq = fields[seq_column]
    if ensembl and len(fields) >= 20:
        bed_entry.second_name = fields[12]
        bed_entry.cds_start_status = fields[13]
        bed_entry.cds_end_status = fields[14]
        bed_entry.exon_frames = fields[15].rstrip(',')
        bed_entry.biotype = fields[16]
        bed_entry.gene_name = fields[17]
        bed_entry.second_gene_name = fields[18]
        bed_entry.gene_type = fields[19]
    return bed_entry


def as_int_list(obj):
    if obj is None:
        return None
    if isinstance(obj, list):
        return [int(x) for x in obj]
    elif isinstance(obj, str):
        return [int(x) for x in obj.split(',')]
    else:  # python2 unicode?
        return [int(x) for x in str(obj).split(',')]


class BedEntry(object):
    def __init__(self, chrom=None, chromStart=None, chromEnd=None,
                 name=None, score=None, strand=None,
                 thickStart=None, thickEnd=None, itemRgb=None,
                 blockCount=None, blockSizes=None, blockStarts=None):
        self.chrom = chrom
        self.chromStart = int(chromStart)
        self.chromEnd = int(chromEnd)
        self.name = name
        self.score = int(score) if score is not None else 0
        self.strand = '-' if str(strand).startswith('-') else '+'
        self.thickStart = int(thickStart) if thickStart else self.chromStart
        self.thickEnd = int(thickEnd) if thickEnd else self.chromEnd
        self.itemRgb = str(itemRgb) if itemRgb is not None else r'100,100,100'
        self.blockCount = int(blockCount)
        self.blockSizes = as_int_list(blockSizes)
        self.blockStarts = as_int_list(blockStarts)
        self.second_name = None
        self.cds_start_status = None
        self.cds_end_status = None
        self.exon_frames = None
        self.biotype = None
        self.gene_name = None
        self.second_gene_name = None
        self.gene_type = None
        self.seq = None
        self.cdna = None
        self.pep = None
        # T26C
        self.aa_change = []
        # p.Trp26Cys g.<pos><ref>><alt> # g.1304573A>G
        self.variants = []

    def __str__(self):
        return '%s\t%d\t%d\t%s\t%d\t%s\t%d\t%d\t%s\t%d\t%s\t%s' % (
            self.chrom, self.chromStart, self.chromEnd,
            self.name, self.score, self.strand,
            self.thickStart, self.thickEnd, str(self.itemRgb), self.blockCount,
            ','.join([str(x) for x in self.blockSizes]),
            ','.join([str(x) for x in self.blockStarts]))

    def get_splice_junctions(self):
        splice_juncs = []
        for i in range(self.blockCount - 1):
            splice_junc = "%s:%d_%d"\
                % (self.chrom,
                   self.chromStart + self.blockSizes[i],
                   self.chromStart + self.blockStarts[i+1])
            splice_juncs.append(splice_junc)
        return splice_juncs

    def get_exon_seqs(self):
        if not self.seq:
            return None
        exons = []
        for i in range(self.blockCount):
            exons.append(self.seq[self.blockStarts[i]:self.blockStarts[i]
                         + self.blockSizes[i]])
        if self.strand == '-':  # reverse complement
            exons.reverse()
            for i, s in enumerate(exons):
                exons[i] = reverse_complement(s)
        return exons

    def get_spliced_seq(self, strand=None):
        if not self.seq:
            return None
        seq = ''.join(self.get_exon_seqs())
        if strand and self.strand != strand:
            seq = reverse_complement(seq)
        return seq

    def get_cdna(self):
        if not self.cdna:
            self.cdna = self.get_spliced_seq()
        return self.cdna

    def get_cds(self):
        cdna = self.get_cdna()
        if cdna:
            if self.chromStart == self.thickStart\
               and self.chromEnd == self.thickEnd:
                return cdna
            pos = [self.cdna_offset_of_pos(self.thickStart),
                   self.cdna_offset_of_pos(self.thickEnd)]
            if 0 <= min(pos) <= max(pos) <= len(cdna):
                return cdna[min(pos):max(pos)]
        return None

    def set_cds(self, cdna_start, cdna_end):
        cdna_len = sum(self.blockSizes)
        if 0 <= cdna_start < cdna_end <= cdna_len:
            cds_pos = [self.pos_of_cdna_offet(cdna_start),
                       self.pos_of_cdna_offet(cdna_end)]
            if all(cds_pos):
                self.thickStart = min(cds_pos)
                self.thickEnd = max(cds_pos)
            return self
        return None

    def trim_cds(self, basepairs):
        if self.chromStart <= self.thickStart < self.thickEnd <= self.chromEnd:
            cds_pos = [self.cdna_offset_of_pos(self.thickStart),
                       self.cdna_offset_of_pos(self.thickEnd)]
            if basepairs > 0:
                return self.set_cds(min(cds_pos) + basepairs, max(cds_pos))
            else:
                return self.set_cds(min(cds_pos), max(cds_pos) + basepairs)
        return None

    def get_cds_bed(self):
        cds_pos = [self.cdna_offset_of_pos(self.thickStart),
                   self.cdna_offset_of_pos(self.thickEnd)]
        return self.trim(min(cds_pos), max(cds_pos))

    def get_cigar(self):
        cigar = ''
        r = range(self.blockCount)
        xl = None
        for x in r:
            if xl is not None:
                intronSize = abs(self.blockStarts[x] - self.blockSizes[xl]
                                 - self.blockStarts[xl])
                cigar += '%dN' % intronSize
            cigar += '%dM' % self.blockSizes[x]
            xl = x
        return cigar

    def get_cigar_md(self):
        cigar = ''
        md = ''
        r = range(self.blockCount)
        xl = None
        for x in r:
            if xl is not None:
                intronSize = abs(self.blockStarts[x] - self.blockSizes[xl]
                                 - self.blockStarts[xl])
                cigar += '%dN' % intronSize
            cigar += '%dM' % self.blockSizes[x]
            xl = x
        md = '%d' % sum(self.blockSizes)
        return (cigar, md)

    def get_translation(self, sequence=None):
        translation = None
        seq = sequence if sequence else self.get_spliced_seq()
        if seq:
            seqlen = len(seq) / 3 * 3
            if seqlen >= 3:
                translation = translate(seq[:seqlen])
        return translation

    def get_translations(self):
        translations = []
        seq = self.get_spliced_seq()
        if seq:
            for i in range(3):
                translation = self.get_translation(sequence=seq[i:])
                if translation:
                    translations.append(translation)
        return translations

    def pos_of_cdna_offet(self, offset):
        if offset is not None and 0 <= offset < sum(self.blockSizes):
            r = list(range(self.blockCount))
            rev = self.strand == '-'
            if rev:
                r.reverse()
            nlen = 0
            for x in r:
                if offset < nlen + self.blockSizes[x]:
                    if rev:
                        return self.chromStart + self.blockStarts[x]\
                               + self.blockSizes[x] - (offset - nlen)
                    else:
                        return self.chromStart + self.blockStarts[x]\
                               + (offset - nlen)
                nlen += self.blockSizes[x]
        return None

    def cdna_offset_of_pos(self, pos):
        if not self.chromStart <= pos < self.chromEnd:
            return -1
        r = list(range(self.blockCount))
        rev = self.strand == '-'
        if rev:
            r.reverse()
        nlen = 0
        for x in r:
            bStart = self.chromStart + self.blockStarts[x]
            bEnd = bStart + self.blockSizes[x]
            if bStart <= pos < bEnd:
                return nlen + (bEnd - pos if rev else pos - bStart)
            nlen += self.blockSizes[x]

    def apply_variant(self, pos, ref, alt):
        pos = int(pos)
        if not ref or not alt:
            print("variant requires ref and alt sequences", file=sys.stderr)
            return
        if not self.chromStart <= pos <= self.chromEnd:
            print("variant not in entry %s: %s %d < %d < %d" %
                  (self.name, self.strand,
                   self.chromStart, pos, self.chromEnd),
                  file=sys.stderr)
            print("%s" % str(self), file=sys.stderr)
            return
        if len(ref) != len(alt):
            print("variant only works for snp: %s  %s" % (ref, alt),
                  file=sys.stderr)
            return
        if not self.seq:
            print("variant entry %s has no seq" % self.name, file=sys.stderr)
            return
        """
        if self.strand  == '-':
            ref = reverse_complement(ref)
            alt = reverse_complement(alt)
        """
        bases = list(self.seq)
        offset = pos - self.chromStart
        for i in range(len(ref)):
            # offset = self.cdna_offset_of_pos(pos+i)
            if offset is not None:
                bases[offset+i] = alt[i]
            else:
                print("variant offset %s: %s %d < %d < %d" %
                      (self.name, self.strand, self.chromStart,
                       pos+1, self.chromEnd), file=sys.stderr)
                print("%s" % str(self), file=sys.stderr)
        self.seq = ''.join(bases)
        self.variants.append("g.%d%s>%s" % (pos+1, ref, alt))

    def get_variant_bed(self, pos, ref, alt):
        pos = int(pos)
        if not ref or not alt:
            print("variant requires ref and alt sequences", file=sys.stderr)
            return None
        if not self.chromStart <= pos <= self.chromEnd:
            print("variant not in entry %s: %s %d < %d < %d" %
                  (self.name, self.strand,
                   self.chromStart, pos, self.chromEnd),
                  file=sys.stderr)
            print("%s" % str(self), file=sys.stderr)
            return None
        if not self.seq:
            print("variant entry %s has no seq" % self.name, file=sys.stderr)
            return None
        tbed = BedEntry(chrom=self.chrom,
                        chromStart=self.chromStart, chromEnd=self.chromEnd,
                        name=self.name, score=self.score, strand=self.strand,
                        thickStart=self.chromStart, thickEnd=self.chromEnd,
                        itemRgb=self.itemRgb,
                        blockCount=self.blockCount,
                        blockSizes=self.blockSizes,
                        blockStarts=self.blockStarts)
        bases = list(self.seq)
        offset = pos - self.chromStart
        tbed.seq = ''.join(bases[:offset] + list(alt)
                           + bases[offset+len(ref):])
        if len(ref) != len(alt):
            diff = len(alt) - len(ref)
            rEnd = pos + len(ref)
            # need to adjust blocks
            #  change spans blocks,
            for x in range(tbed.blockCount):
                bStart = tbed.chromStart + tbed.blockStarts[x]
                bEnd = bStart + tbed.blockSizes[x]
                # change within a block or extends (last block)
                #  adjust blocksize
                #  seq:            GGGcatGGG
                #  ref c alt tag:  GGGtagatGGG
                #  ref cat alt a:  GGGaGGG
                if bStart <= pos < rEnd < bEnd:
                    tbed.blockSizes[x] += diff
        return tbed

    # (start, end)
    def get_subrange(self, tstart, tstop, debug=False):
        chromStart = self.chromStart
        chromEnd = self.chromEnd
        if debug:
            print("%s" % (str(self)), file=sys.stderr)
        r = list(range(self.blockCount))
        if self.strand == '-':
            r.reverse()
        bStart = 0
        bEnd = 0
        for x in r:
            bEnd = bStart + self.blockSizes[x]
            if bStart <= tstart < bEnd:
                if self.strand == '+':
                    chromStart = self.chromStart + self.blockStarts[x] +\
                        (tstart - bStart)
                else:
                    chromEnd = self.chromStart + self.blockStarts[x] +\
                        self.blockSizes[x] - (tstart - bStart)
            if bStart <= tstop < bEnd:
                if self.strand == '+':
                    chromEnd = self.chromStart + self.blockStarts[x] +\
                        (tstop - bStart)
                else:
                    chromStart = self.chromStart + self.blockStarts[x] +\
                        self.blockSizes[x] - (tstop - bStart)
            if debug:
                print("%3d %s\t%d\t%d\t%d\t%d\t%d\t%d" %
                      (x, self.strand, bStart, bEnd,
                       tstart, tstop, chromStart, chromEnd), file=sys.stderr)
            bStart += self.blockSizes[x]
        return(chromStart, chromEnd)

    # get the blocks for sub range
    def get_blocks(self, chromStart, chromEnd):
        tblockCount = 0
        tblockSizes = []
        tblockStarts = []
        for x in range(self.blockCount):
            bStart = self.chromStart + self.blockStarts[x]
            bEnd = bStart + self.blockSizes[x]
            if bStart > chromEnd:
                break
            if bEnd < chromStart:
                continue
            cStart = max(chromStart, bStart)
            tblockStarts.append(cStart - chromStart)
            tblockSizes.append(min(chromEnd, bEnd) - cStart)
            tblockCount += 1
        return (tblockCount, tblockSizes, tblockStarts)

    def trim(self, tstart, tstop, debug=False):
        (tchromStart, tchromEnd) =\
            self.get_subrange(tstart, tstop, debug=debug)
        (tblockCount, tblockSizes, tblockStarts) =\
            self.get_blocks(tchromStart, tchromEnd)
        tbed = BedEntry(
            chrom=self.chrom, chromStart=tchromStart, chromEnd=tchromEnd,
            name=self.name, score=self.score, strand=self.strand,
            thickStart=tchromStart, thickEnd=tchromEnd, itemRgb=self.itemRgb,
            blockCount=tblockCount,
            blockSizes=tblockSizes, blockStarts=tblockStarts)
        if self.seq:
            ts = tchromStart-self.chromStart
            te = tchromEnd - tchromStart + ts
            tbed.seq = self.seq[ts:te]
        return tbed

    def get_filtered_translations(self, untrimmed=False, filtering=True,
                                  ignore_left_bp=0, ignore_right_bp=0,
                                  debug=False):
        translations = [None, None, None]
        seq = self.get_spliced_seq()
        ignore = (ignore_left_bp if self.strand == '+'
                  else ignore_right_bp) / 3
        block_sum = sum(self.blockSizes)
        exon_sizes = [x for x in self.blockSizes]
        if self.strand == '-':
            exon_sizes.reverse()
        splice_sites = [sum(exon_sizes[:x]) / 3
                        for x in range(1, len(exon_sizes))]
        if debug:
            print("splice_sites: %s" % splice_sites, file=sys.stderr)
        junc = splice_sites[0] if len(splice_sites) > 0 else exon_sizes[0]
        if seq:
            for i in range(3):
                translation = self.get_translation(sequence=seq[i:])
                if translation:
                    tstart = 0
                    tstop = len(translation)
                    offset = (block_sum - i) % 3
                    if debug:
                        print("frame: %d\ttstart: %d  tstop: %d  " +
                              "offset: %d\t%s" %
                              (i, tstart, tstop, offset, translation),
                              file=sys.stderr)
                    if not untrimmed:
                        tstart = translation.rfind('*', 0, junc) + 1
                        stop = translation.find('*', junc)
                        tstop = stop if stop >= 0 else len(translation)
                    offset = (block_sum - i) % 3
                    trimmed = translation[tstart:tstop]
                    if debug:
                        print("frame: %d\ttstart: %d  tstop: %d  " +
                              "offset: %d\t%s" %
                              (i, tstart, tstop, offset, trimmed),
                              file=sys.stderr)
                    if filtering and tstart > ignore:
                        continue
                    # get genomic locations for start and end
                    if self.strand == '+':
                        chromStart = self.chromStart + i + (tstart * 3)
                        chromEnd = self.chromEnd - offset\
                            - (len(translation) - tstop) * 3
                    else:
                        chromStart = self.chromStart + offset\
                            + (len(translation) - tstop) * 3
                        chromEnd = self.chromEnd - i - (tstart * 3)
                    # get the blocks for this translation
                    (tblockCount, tblockSizes, tblockStarts) =\
                        self.get_blocks(chromStart, chromEnd)
                    translations[i] = (chromStart, chromEnd, trimmed,
                                       tblockCount, tblockSizes, tblockStarts)
                    if debug:
                        print("tblockCount: %d tblockStarts: %s " +
                              "tblockSizes: %s" %
                              (tblockCount, tblockStarts, tblockSizes),
                              file=sys.stderr)
        return translations

    def get_seq_id(self, seqtype='unk:unk', reference='', frame=None):
        # Ensembl fasta ID format
        # >ID SEQTYPE:STATUS LOCATION GENE TRANSCRIPT
        # >ENSP00000328693 pep:splice chromosome:NCBI35:1:904515:910768:1\
        #   gene:ENSG00000158815:transcript:ENST00000328693\
        #    gene_biotype:protein_coding transcript_biotype:protein_coding
        frame_name = ''
        chromStart = self.chromStart
        chromEnd = self.chromEnd
        strand = 1 if self.strand == '+' else -1
        if frame is not None:
            block_sum = sum(self.blockSizes)
            offset = (block_sum - frame) % 3
            frame_name = '_' + str(frame + 1)
            if self.strand == '+':
                chromStart += frame
                chromEnd -= offset
            else:
                chromStart += offset
                chromEnd -= frame
        location = "chromosome:%s:%s:%s:%s:%s"\
            % (reference, self.chrom, chromStart, chromEnd, strand)
        seq_id = "%s%s %s %s" % (self.name, frame_name, seqtype, location)
        return seq_id

    def get_line(self, start_offset=0, end_offset=0):
        if start_offset or end_offset:
            s_offset = start_offset if start_offset else 0
            e_offset = end_offset if end_offset else 0
            if s_offset > self.chromStart:
                s_offset = self.chromStart
            chrStart = self.chromStart - s_offset
            chrEnd = self.chromEnd + e_offset
            blkSizes = self.blockSizes
            blkSizes[0] += s_offset
            blkSizes[-1] += e_offset
            blkStarts = self.blockStarts
            for i in range(1, self.blockCount):
                blkStarts[i] += s_offset
            items = [str(x) for x in [self.chrom, chrStart, chrEnd, self.name,
                                      self.score, self.strand, self.thickStart,
                                      self.thickEnd, self.itemRgb,
                                      self.blockCount,
                                      ','.join([str(x) for x in blkSizes]),
                                      ','.join([str(x) for x in blkStarts])]]
            return '\t'.join(items) + '\n'
        return self.line