# Copyright 2022 by Michiel de Hoon. All rights reserved. # # This file is part of the Biopython distribution and governed by your # choice of the "Biopython License Agreement" or the "BSD 3-Clause License". # Please see the LICENSE file that should have been included as part of this # package. """Bio.Align support for the "bigmaf" multiple alignment format. The bigMaf format stores multiple alignments in a format compatible with the MAF (Multiple Alignment Format) format. BigMaf files are binary and are indexed as a bigBed file. See https://genome.ucsc.edu/goldenPath/help/bigMaf.html """ import re import struct import zlib import numpy as np from Bio.Align import _aligncore # type: ignore from Bio.Align import Alignment from Bio.Align import Alignments from Bio.Align import bigbed from Bio.Align import maf from Bio.Align.bigbed import AutoSQLTable from Bio.Align.bigbed import Field from Bio.Seq import Seq from Bio.SeqRecord import SeqRecord declaration = AutoSQLTable( "bedMaf", "Bed3 with MAF block", [ Field( as_type="string", name="chrom", comment="Reference sequence chromosome or scaffold", ), Field( as_type="uint", name="chromStart", comment="Start position in chromosome", ), Field( as_type="uint", name="chromEnd", comment="End position in chromosome", ), Field( as_type="lstring", name="mafBlock", comment="MAF block", ), ], ) class AlignmentWriter(bigbed.AlignmentWriter): """Alignment file writer for the bigMaf file format.""" fmt = "bigMaf" def __init__( self, target, targets=None, compress=True, blockSize=256, itemsPerSlot=512, ): """Create an AlignmentWriter object. Arguments: - target - output stream or file name. - targets - A list of SeqRecord objects with the chromosomes in the order as they appear in the alignments. The sequence contents in each SeqRecord may be undefined, but the sequence length must be defined, as in this example: SeqRecord(Seq(None, length=248956422), id="chr1") If targets is None (the default value), the alignments must have an attribute .targets providing the list of SeqRecord objects. - compress - If True (default), compress data using zlib. If False, do not compress data. Use compress=False for faster searching. - blockSize - Number of items to bundle in r-tree. See UCSC's bedToBigBed program for more information. Default value is 256. - itemsPerSlot - Number of data points bundled at lowest level. See UCSC's bedToBigBed program for more information. Use itemsPerSlot=1 for faster searching. Default value is 512. """ super().__init__( target, bedN=3, declaration=declaration, targets=targets, compress=compress, blockSize=blockSize, itemsPerSlot=itemsPerSlot, ) def write_file(self, stream, alignments): """Write the file.""" fixed_alignments = Alignments() for alignment in alignments: if not isinstance(alignment, Alignment): raise TypeError("Expected an Alignment object") mafBlock = format(alignment, "maf")[:-1].replace("\n", ";") coordinates = alignment.coordinates if not coordinates.size: # alignment consists of gaps only continue alignment = alignment[:2] reference, chromosome = alignment.target.id.split(".", 1) alignment.target.id = chromosome assert coordinates[0, 0] < coordinates[0, -1] alignment.annotations = {} alignment.annotations["mafBlock"] = mafBlock fixed_alignments.append(alignment) fixed_alignments.sort( key=lambda alignment: (alignment.target.id, alignment.coordinates[0, 0]) ) record = alignments.targets[0] reference, chromosome = record.id.split(".", 1) targets = list(alignments.targets) targets[0] = SeqRecord(record.seq, id=chromosome) fixed_alignments.targets = targets bigbed.AlignmentWriter( stream, bedN=3, declaration=declaration, compress=self.compress ).write(fixed_alignments) class AlignmentIterator(bigbed.AlignmentIterator, maf.AlignmentIterator): """Alignment iterator for bigMaf files. The file may contain multiple alignments, which are loaded and returned incrementally. Alignment annotations are stored in the ``.annotations`` attribute of the ``Alignment`` object, except for the alignment score, which is stored as an attribute. Sequence information of empty parts in the alignment block (sequences that connect the previous alignment block to the next alignment block, but do not align to the current alignment block) is stored in the alignment annotations under the ``"empty"`` key. Annotations specific to each line in the alignment are stored in the ``.annotations`` attribute of the corresponding sequence record. """ fmt = "bigMaf" mode = "b" def __init__(self, source): """Create an AlignmentIterator object. Arguments: - source - input file stream, or path to input file """ self.reference = None super().__init__(source) def _read_reference(self, stream): # Supplemental Table 12: Binary BED-data format # chromId 4 bytes, unsigned # chromStart 4 bytes, unsigned # chromEnd 4 bytes, unsigned # rest zero-terminated string in tab-separated format formatter = struct.Struct(self.byteorder + "III") size = formatter.size node = self.tree while True: try: children = node.children except AttributeError: break else: node = children[0] filepos = stream.tell() stream.seek(node.dataOffset) dataSize = 256 data = b"" compressed_data = b"" while True: chunk = stream.read(dataSize) if self._compressed: compressed_data += chunk decompressor = zlib.decompressobj() data = decompressor.decompress(compressed_data) else: data += chunk try: i = data.index(b";s", size) except ValueError: continue words = data[i + 1 :].split() if len(words) > 2: break name = words[1] stream.seek(filepos) reference, chromosome = name.split(b".", 1) return reference.decode() def _read_header(self, stream): super()._read_header(stream) if self.reference is None: self.reference = self._read_reference(stream) self._index = 0 self.targets[0].id = "%s.%s" % (self.reference, self.targets[0].id) def _create_alignment( self, chromId, chromStart, chromEnd, data, dataStart, dataEnd ): assert data[dataEnd - 1] == 0 buffer = memoryview(data) buffer = buffer[dataStart:dataEnd] records = [] strands = [] annotations = {} score = None printed_alignment_parser = _aligncore.PrintedAlignmentParser(b";") j = -1 sequences = [] while True: i = j + 1 prefix = buffer[i : i + 1] if prefix == b"#": m = re.match(b"^[^;]*", buffer[i:]) j = i + m.span()[1] elif prefix == b"a": m = re.match(b"^[^;]*", buffer[i:]) j = i + m.span()[1] line = buffer[i:j].tobytes() words = line[1:].split() for word in words: key, value = word.split(b"=") if key == b"score": score = float(value) elif key == b"pass": value = int(value) if value <= 0: raise ValueError( "pass value must be positive (found %d)" % value ) annotations["pass"] = value else: raise ValueError( "Unknown annotation variable '%s'" % key.decode() ) elif prefix == b"s": m = re.match(rb"^s\s*\S*\s*\d*\s*\d*\s*[+-]\s*\d*\s*", buffer[i:]) j = i + m.span()[1] line = buffer[i:j].tobytes() words = line.split(None, 5) if len(words) != 6: raise ValueError( "Error parsing alignment - 's' line must have 7 fields" ) src = words[1].decode() start = int(words[2]) size = int(words[3]) strand = words[4] srcSize = int(words[5]) i = j n, sequence = printed_alignment_parser.feed(data, dataStart + i) if len(sequence) != size: raise ValueError( "sequence size is incorrect (found %d, expected %d)" % (len(sequence), size) ) seq = Seq({start: sequence}, length=srcSize) record = SeqRecord(seq, id=src, name="", description="") records.append(record) j = i + n i = j + 1 strands.append(strand) elif prefix == b"i": m = re.match(b"^[^;]*", buffer[i:]) j = i + m.span()[1] line = buffer[i:j].tobytes() words = line.split(None, 5) assert len(words) == 6 assert words[1].decode() == src # from the previous "s" line leftStatus = words[2].decode() leftCount = int(words[3]) rightStatus = words[4].decode() rightCount = int(words[5]) assert leftStatus in AlignmentIterator.status_characters assert rightStatus in AlignmentIterator.status_characters record.annotations["leftStatus"] = leftStatus record.annotations["leftCount"] = leftCount record.annotations["rightStatus"] = rightStatus record.annotations["rightCount"] = rightCount elif prefix == b"e": m = re.match(b"^[^;]*", buffer[i:]) j = i + m.span()[1] line = buffer[i:j].tobytes() words = line.split(None, 6) assert len(words) == 7 src = words[1].decode() start = int(words[2]) size = int(words[3]) strand = words[4] srcSize = int(words[5]) status = words[6].decode() assert status in AlignmentIterator.empty_status_characters sequence = Seq(None, length=srcSize) record = SeqRecord(sequence, id=src, name="", description="") end = start + size if strand == b"+": segment = (start, end) else: segment = (srcSize - start, srcSize - end) empty = (record, segment, status) annotation = annotations.get("empty") if annotation is None: annotation = [] annotations["empty"] = annotation annotation.append(empty) elif prefix == b"q": m = re.match(b"^[^;]*", buffer[i:]) j = i + m.span()[1] line = buffer[i:j].tobytes() words = line.split(None, 2) assert len(words) == 3 assert words[1].decode() == src # from the previous "s" line value = words[2].replace(b"-", b"") record.annotations["quality"] = value.decode() elif prefix == b"\00": # reached the end of the alignment break else: raise ValueError(f"Error parsing alignment - unexpected line:\n{line}") shape = printed_alignment_parser.shape coordinates = np.empty(shape, np.int64) printed_alignment_parser.fill(coordinates) for record, strand, row in zip(records, strands, coordinates): if strand == b"+": row += record.seq.defined_ranges[0][0] else: # strand == b"-" record.seq = record.seq.reverse_complement() row[:] = record.seq.defined_ranges[0][1] - row alignment = Alignment(records, coordinates) if annotations is not None: alignment.annotations = annotations if score is not None: alignment.score = score return alignment