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 AutoAlignmentStorage(LineListener):
def __init__(self, line, rc = None):
# type: (Contig, Optional[AutoAlignmentStorage]) -> None
self.line = line
if rc is None:
self.content = AlignmentStorage()
rc = AutoAlignmentStorage(line.rc, self)
rc.content = self.content.rc
rc.state = -1
LineListener.__init__(self, rc)
self.rc = rc # type: AutoAlignmentStorage
self.state = 1 # from precedes to
def makeCanonical(self, al):
if (self.state == 1) == (al.seg_from.left < al.seg_to.left):
return al
else:
return al.reverse()
def isCanonical(self, al):
return (self.state == 1) == (al.seg_from.left < al.seg_to.left)
def add(self, al):
# type: (AlignmentPiece) -> None
if al.isIdentical():
return
self.content.add(self.makeCanonical(al))
def addAll(self, als):
for al in als:
self.add(al)
return self
def addAndMergeRight(self, al):
if al.isIdentical():
return
if self.isCanonical(al):
self.content.addAndMergeRight(al)
else:
self.content.addAndMergeRight(al.reverse())
def __iter__(self):
# type: () -> Generator[AlignmentPiece]
for al in self.content:
yield al
for al in self.content:
yield al.reverse()
yield AlignmentPiece.Identical(self.line.asSegment())
def getAlignmentsTo(self, seg):
# type: (Segment) -> Generator[AlignmentPiece]
for al in self:
if al.seg_to.contains(seg):
yield al
def allInter(self, seg):
for al in self:
if al.seg_to.inter(seg):
yield al
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)
# alignments from new sequence to new sequence
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)
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)
def reverse(self):
self.state = -self.state
self.rc.state = -self.rc.state
self.content = self.content.reverse()
self.rc.content = self.content.rc
def merge(self, other):
# type: (AutoAlignmentStorage) -> AutoAlignmentStorage
if self.state != other.state:
self.reverse()
res = AutoAlignmentStorage(self.line)
res.state = self.state
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, self.line)
def setState(self, state):
assert state in [-1, 1]
if self.state != state:
self.reverse()