class RCAlignmentStorage(LineListener): def __init__(self, line, rc = None): # type: (Contig, Optional[RCAlignmentStorage]) -> None self.line = line if rc is None: self.content = AlignmentStorage() rc = RCAlignmentStorage(line.rc, self) rc.content = self.content.rc LineListener.__init__(self, rc) self.rc = rc # type: AutoAlignmentStorage def __iter__(self): # type: () -> Generator[AlignmentPiece] return self.content.__iter__() def getAlignmentsTo(self, seg): # type: (Segment) -> Generator[AlignmentPiece] return self.content.getAlignmentsTo(seg) def allInter(self, seg): return self.content.allInter(seg) def add(self, alignment): self.content.add(alignment) self.content.add(alignment.reverse().rc) def addAndMergeRight(self, al): # type: (AlignmentPiece) -> None self.content.addAndMergeRight(al) self.content.addAndMergeLeft(al.reverse().rc) def addAll(self, als): for al in als: self.add(al) return self def fireBeforeExtendRight(self, line, new_seq, seq): # type: (Any, Contig, str) -> None self.content.fireBeforeExtendRight(line, new_seq, seq) self.reverse() self.content.fireBeforeExtendRight(line, new_seq, seq) def fireBeforeCutRight(self, line, new_seq, pos): # type: (Any, Contig, int) -> None self.content.fireBeforeCutRight(line, new_seq, pos) self.reverse() self.content.fireBeforeCutRight(line, new_seq, pos) # alignments from new sequence to new sequence def fireBeforeCorrect(self, alignments): # type: (Correction) -> None self.content.fireBeforeCorrect(alignments) self.reverse() self.content.fireBeforeCorrect(alignments) def fireAfterExtendRight(self, line, seq, relevant_als = None): # type: (Any, str, Optional[List[AlignmentPiece]]) -> None self.content.fireAfterExtendRight(line, seq) self.reverse() self.content.fireAfterExtendRight(line, seq) def fireAfterCutRight(self, line, pos): # type: (Any, int) -> None self.content.fireAfterCutRight(line, pos) self.reverse() self.content.fireAfterCutRight(line, pos) def fireAfterCorrect(self, line, alignments): # type: (Any, Correction) -> None self.content.fireAfterCorrect(line, alignments) self.reverse() self.content.fireAfterCorrect(line, alignments) # This is CRAAAZY!!! But correct. def reverse(self): self.rc.content = self.content.reverse() self.content = self.rc.content.rc def merge(self, other): # type: (RCAlignmentStorage) -> RCAlignmentStorage res = RCAlignmentStorage(self.line) res.content.addAll(self.content.merge(other.content)) return res def save(self, handler): # type: (TokenWriter) -> None self.content.save(handler) def load(self, handler): # type: (TokenReader) -> None self.content.load(handler, self.line.rc, self.line)
class TwoLineAlignmentStorage(LineListener): def __init__(self, line_from, line_to, rc = None, reverse = None): # type: (Contig, Contig, Optional[TwoLineAlignmentStorage], Optional[TwoLineAlignmentStorage]) -> None assert line_from.id != line_to.id and line_from.rc.id != line_to.id self.line_from = line_from self.line_to = line_to self.reverse = reverse if rc is None: self.content = AlignmentStorage() self.rc = TwoLineAlignmentStorage(line_from.rc, line_to.rc, self, None) else: self.rc = rc self.content = rc.content.rc # type: AlignmentStorage LineListener.__init__(self, self.rc) self.rc = self.rc # type: TwoLineAlignmentStorage if reverse is None and rc is None: reverse = TwoLineAlignmentStorage(line_to, line_from, None, self) self.reverse = reverse self.reverse.reverse = self self.rc.reverse = self.reverse.rc self.rc.reverse.reverse = self.rc def add(self, al): # type: (AlignmentPiece) -> None assert al.seg_from.contig == self.line_from assert al.seg_to.contig == self.line_to self.content.add(al) reverse = al.reverse() self.reverse.content.add(reverse) def addAll(self, als): for al in als: self.add(al) return self def __iter__(self): # type: () -> Generator[AlignmentPiece] return self.content.__iter__() def getAlignmentsTo(self, seg): # type: (Segment) -> Generator[AlignmentPiece] return self.content.getAlignmentsTo(seg) def allInter(self, seg): return self.content.allInter(seg) def normalizeReverse(self): self.reverse.content = self.content.reverse() self.reverse.rc.content = self.reverse.content.rc def fireBeforeExtendRight(self, line, new_seq, seq): # type: (Any, Contig, str) -> None self.content.fireBeforeExtendRight(line, new_seq, seq) self.normalizeReverse() def fireBeforeCutRight(self, line, new_seq, pos): # type: (Any, Contig, int) -> None self.content.fireBeforeCutRight(line, new_seq, pos) self.normalizeReverse() # alignments from new sequence to new sequence def fireBeforeCorrect(self, alignments): # type: (Correction) -> None self.content.fireBeforeCorrect(alignments) self.normalizeReverse() def fireAfterExtendRight(self, line, seq, relevant_als = None): # type: (Any, str, Optional[List[AlignmentPiece]]) -> None self.content.fireAfterExtendRight(line, seq) self.normalizeReverse() def fireAfterCutRight(self, line, pos): # type: (Any, int) -> None self.content.fireAfterCutRight(line, pos) self.normalizeReverse() def fireAfterCorrect(self, line, alignments): # type: (Any, Correction) -> None self.content.fireAfterCorrect(line, alignments) self.normalizeReverse() def addAndMergeRight(self, al): self.content.addAndMergeRight(al) self.normalizeReverse() def merge(self, other): # type: (TwoLineAlignmentStorage) -> TwoLineAlignmentStorage res = TwoLineAlignmentStorage(self.line_from, self.line_to) res.content.addAll(self.content.merge(other.content)) res.normalizeReverse() def save(self, handler): # type: (TokenWriter) -> None self.content.save(handler) def load(self, handler, lines): # type: (TokenReader, Any) -> None self.content.load(handler, lines, lines) self.normalizeReverse()
class NewLine(Contig): def __init__(self, seq, id, extension_handler, rc = None): # type: (str, str, ExtensionHandler, Optional[NewLine]) -> None self.extensionHandler = extension_handler self.seq = seq self.id = id # type: str self.circular = False self.name_printer = None self.max_extension = False if rc is None: self.initial = AlignmentStorage() self.correct_segments = SegmentStorage() self.completely_resolved = SegmentStorage() self.disjointig_alignments = AlignmentStorage() self.read_alignments = ReadAlignmentStorage() self.listeners = [self.initial, self.correct_segments, self.completely_resolved, self.disjointig_alignments, self.read_alignments, extension_handler] # type: List[LineListener] rc = NewLine(basic.RC(seq), basic.Reverse(self.id), extension_handler.rc, self) #type: NewLine self.rc = rc self.addListener(ReadAlignmentListener(self)) # self.initial.add(AlignmentPiece.Identical(self.asSegment().asContig().asSegment(), self.asSegment())) else: self.initial = rc.initial.rc # type: AlignmentStorage self.correct_segments = rc.correct_segments.rc # type: SegmentStorage self.completely_resolved = rc.completely_resolved.rc # type: SegmentStorage self.disjointig_alignments = rc.disjointig_alignments.rc # type: AlignmentStorage self.read_alignments = rc.read_alignments.rc # type: ReadAlignmentStorage self.listeners = [listener.rc for listener in rc.listeners] # type: List[LineListener] Contig.__init__(self, seq, id, rc) self.rc = rc #type: NewLine self.knot = None # type: Knot def updateCorrectSegments(self, seg, threshold = params.reliable_coverage): # type: (Segment, int) -> None segs = AlignmentStorage().addAll(self.read_alignments.allInter(seg)).filterByCoverage(mi=threshold) self.correct_segments.addAll(segs) self.correct_segments.mergeSegments() def addReads(self, alignments): # type: (Iterable[AlignmentPiece]) -> None self.read_alignments.addAll(alignments) self.max_extension = False def getReadAlignmentsTo(self, seg): # type: (Segment) -> Iterable[AlignmentPiece] return self.read_alignments.getAlignmentsTo(seg) def getPotentialAlignmentsTo(self, seg): # type: (Segment) -> Generator[AlignmentPiece] result = [] for alDL in self.disjointig_alignments.getAlignmentsTo(seg): reduced = alDL.reduce(target=seg) dt = alDL.seg_from.contig # type: Disjointig for alRD in dt.getAlignmentsTo(reduced.seg_from): result.append(alRD.compose(alDL)) result = sorted(result, key = lambda al: (al.seg_from.contig.id, -len(al.seg_from))) for read, iter in itertools.groupby(result, key = lambda al: al.seg_from.contig): readRes = [] for al in iter: found = False for al1 in readRes: inter = al.matchingSequence(True).inter(al1.matchingSequence(True)) if len(inter.matches) != 0: found = True if not found: yield al readRes.append(al) def getRelevantAlignmentsFor(self, seg): # type: (Segment) -> Generator[AlignmentPiece] sys.stdout.trace("Requesting read alignments for", seg) result = [] if params.debug: print self.disjointig_alignments print list(self.disjointig_alignments.allInter(seg)) for alDL in self.disjointig_alignments.allInter(seg): if len(alDL.seg_to) < params.k: continue reduced = alDL.reduce(target=seg) dt = alDL.seg_from.contig # type: Disjointig cnt = 0 als = filter(lambda al: al.seg_to.interSize(alDL.seg_from) > 8 * params.k / 10, dt.allInter(reduced.seg_from)) compositions = alDL.massComposeBack(als) for al in compositions: if len(al.seg_to) >= params.k: result.append(al) cnt += 1 sys.stdout.trace("Request for read alignments for", seg, " collecting finished. Started filtering") result = sorted(result, key = lambda al: (al.seg_from.contig.id, -len(al.seg_from))) for read, iter in itertools.groupby(result, key = lambda al: al.seg_from.contig): # type: AlignedRead, Generator[AlignmentPiece] readRes = [] for al in iter: found = False for al1 in readRes: inter = al.matchingSequence(True).inter(al1.matchingSequence(True)) if len(inter.matches) != 0: found = True break if not found: if params.debug: print al yield al readRes.append(al) sys.stdout.trace("Request for read alignments for", seg, "finished") def position(self, pos): # type: (int) -> LinePosition return LinePosition(self, pos) def extendRight(self, seq, relevant_als = None): # type: (str, List[AlignmentPiece]) -> None sys.stdout.trace("Line operation Extend:", self, len(seq), relevant_als) assert self.knot is None if relevant_als is None: relevant_als = [] new_seq = Contig(self.seq + seq, "TMP2_" + self.id) self.notifyBeforeExtendRight(new_seq, seq) self.seq = self.seq + seq self.rc.seq = basic.RC(seq) + self.rc.seq self.notifyAfterExtendRight(seq, relevant_als) self.updateCorrectSegments(self.asSegment()) self.max_extension = True def notifyBeforeExtendRight(self, new_seq, seq): # type: (Contig, str) -> None for listener in self.listeners: listener.fireBeforeExtendRight(self, new_seq, seq) def notifyAfterExtendRight(self, seq, relevant_als): # type: (str, Optional[List[AlignmentPiece]]) -> None for listener in self.listeners: listener.fireAfterExtendRight(self, seq, relevant_als) def cutRight(self, pos): sys.stdout.trace("Line operation Cut:", self, pos) assert pos > 0 and pos <= len(self) cut_length = len(self) - pos if cut_length == 0: return new_seq = Contig(self.seq[:pos], "TMP3_" + self.id) self.notifyBeforeCutRight(new_seq, pos) self.seq = self.seq[:-cut_length] self.rc.seq = self.rc.seq[cut_length:] self.notifyAfterCutRight(pos) def notifyBeforeCutRight(self, new_seq, pos): # type: (Contig, int) -> None for listener in self.listeners: listener.fireBeforeCutRight(self, new_seq, pos) def notifyAfterCutRight(self, pos): # type: (int) -> None for listener in self.listeners: listener.fireAfterCutRight(self, pos) def correctSequence(self, alignments): # type: (Iterable[AlignmentPiece]) -> None sys.stdout.trace("Line operation Correct:", alignments) alignments = [al.cutIdenticalEnds() for al in alignments if al.seg_from.Seq() != al.seg_to.Seq()] if len(alignments) == 0: sys.stdout.trace("Skipping trivial correction operation") return assert len(alignments) > 0 correction = Correction.constructCorrection(alignments) self.notifyBeforeCorrect(correction) old = Contig(self.seq, "old") self.seq = correction.seq_from.seq self.rc.seq = basic.RC(self.seq) correction.changeQT(self, old) self.notifyAfterCorrect(correction) def notifyBeforeCorrect(self, alignments): # type: (Correction) -> None for listener in self.listeners: listener.fireBeforeCorrect(alignments) def notifyAfterCorrect(self, alignments): # type: (Correction) -> None for listener in self.listeners: listener.fireAfterCorrect(self, alignments) def addReadAlignment(self, al): # type: (AlignmentPiece) -> AlignmentPiece self.read_alignments.add(al) self.max_extension = False return al def addListener(self, listener): self.listeners.append(listener) self.rc.listeners.append(listener.rc) def removeListener(self, listener): self.listeners.remove(listener) self.rc.listeners.remove(listener.rc) def save(self, handler): # type: (TokenWriter) -> None handler.writeTokenLine(self.id) handler.writeTokenLine(self.seq) self.initial.save(handler) self.correct_segments.save(handler) self.completely_resolved.save(handler) self.disjointig_alignments.save(handler) self.read_alignments.save(handler) def loadLine(self, handler, disjointigs, reads, contigs): # type: (TokenReader, DisjointigCollection, ReadCollection, ContigCollection) -> None self.id = handler.readToken() self.seq = handler.readToken() self.rc.id = basic.Reverse(self.id) n = handler.readInt() for i in range(n): handler.readToken() handler.readToken() handler.readToken() seg = Segment.load(handler, self) handler.readToken() self.initial.add(AlignmentPiece.Identical(seg.asContig().asSegment(), seg)) # self.add(AlignmentPiece.load(handler, collection_from, collection_to)) self.correct_segments.load(handler, self) self.completely_resolved.load(handler, self) self.disjointig_alignments.load(handler, disjointigs, self) self.read_alignments.load(handler, reads, self) for al in self.read_alignments: read = al.seg_from.contig #type: AlignedRead read.addAlignment(al) self.max_extension = False def __str__(self): if self.name_printer is not None: return self.name_printer(self) points = [self.left()] if len(self.initial) == 0: points.append("NA") else: points.append(self.initial[0].seg_to.left) points.append(self.initial[-1].seg_to.right) points.append(self.right()) points = map(str, points) return "Line:" + str(self.id) + ":" + "[" + ":".join(points) +"]" def __repr__(self): points = [self.left()] points.extend(self.initial) points.append(self.right()) points = map(str, points) return "Line:" + str(self.id) + ":" + "[" + ":".join(points) +"]" def setCircular(self): self.circular = True self.rc.circular = True def cleanReadAlignments(self): for read in self.read_alignments: read.seg_from.contig.removeContig(self) self.read_alignments.clean() self.max_extension = False def tie(self, other, gap, gap_seq): self.knot = Knot(self, other, gap, gap_seq) other.rc.knot = self.knot.rc if self == other: self.setCircular() def unTie(self): if self.knot is not None: self.knot.line_right.rc.knot = None if self.knot is not None: self.knot = None