Exemple #1
0
def getLegacyStrandSetArray(ss: StrandSetT,
                            max_base_idx: int) -> List[List[int]]:
    """Given a strandset and max_base_idx, return legacy serialization array format."""
    num = ss.idNum()
    ret = [[-1, -1, -1, -1] for i in range(max_base_idx)]
    if ss.isForward():
        for strand in ss.strands():
            lo, hi = strand.idxs()
            assert strand.idx5Prime() == lo and strand.idx3Prime() == hi
            # map the first base (5' xover if necessary)
            s5p = strand.connection5p()
            if s5p is not None:
                ret[lo][0] = s5p.idNum()
                ret[lo][1] = s5p.idx3Prime()
            ret[lo][2] = num
            ret[lo][3] = lo + 1
            # map the internal bases
            for idx in range(lo + 1, hi):
                ret[idx][0] = num
                ret[idx][1] = idx - 1
                ret[idx][2] = num
                ret[idx][3] = idx + 1
            # map the last base (3' xover if necessary)
            ret[hi][0] = num
            ret[hi][1] = hi - 1
            s3p = strand.connection3p()
            if s3p is not None:
                ret[hi][2] = s3p.idNum()
                ret[hi][3] = s3p.idx5Prime()
            # end if
        # end for
    # end if
    else:
        for strand in ss.strands():
            lo, hi = strand.idxs()
            assert strand.idx3Prime() == lo and strand.idx5Prime() == hi
            # map the first base (3' xover if necessary)
            ret[lo][0] = num
            ret[lo][1] = lo + 1
            s3p = strand.connection3p()
            if s3p is not None:
                ret[lo][2] = s3p.idNum()
                ret[lo][3] = s3p.idx5Prime()
            # map the internal bases
            for idx in range(lo + 1, hi):
                ret[idx][0] = num
                ret[idx][1] = idx + 1
                ret[idx][2] = num
                ret[idx][3] = idx - 1
            # map the last base (5' xover if necessary)
            ret[hi][2] = num
            ret[hi][3] = hi - 1
            s5p = strand.connection5p()
            if s5p is not None:
                ret[hi][0] = s5p.idNum()
                ret[hi][1] = s5p.idx3Prime()
            # end if
        # end for
    return ret
Exemple #2
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def getLegacyStrandSetArray(ss: StrandSetT, max_base_idx: int) -> List[List[int]]:
    """Given a strandset and max_base_idx, return legacy serialization array format."""
    num = ss.idNum()
    ret = [[-1, -1, -1, -1] for i in range(max_base_idx)]
    if ss.isForward():
        for strand in ss.strands():
            lo, hi = strand.idxs()
            assert strand.idx5Prime() == lo and strand.idx3Prime() == hi
            # map the first base (5' xover if necessary)
            s5p = strand.connection5p()
            if s5p is not None:
                ret[lo][0] = s5p.idNum()
                ret[lo][1] = s5p.idx3Prime()
            ret[lo][2] = num
            ret[lo][3] = lo + 1
            # map the internal bases
            for idx in range(lo + 1, hi):
                ret[idx][0] = num
                ret[idx][1] = idx - 1
                ret[idx][2] = num
                ret[idx][3] = idx + 1
            # map the last base (3' xover if necessary)
            ret[hi][0] = num
            ret[hi][1] = hi - 1
            s3p = strand.connection3p()
            if s3p is not None:
                ret[hi][2] = s3p.idNum()
                ret[hi][3] = s3p.idx5Prime()
            # end if
        # end for
    # end if
    else:
        for strand in ss.strands():
            lo, hi = strand.idxs()
            assert strand.idx3Prime() == lo and strand.idx5Prime() == hi
            # map the first base (3' xover if necessary)
            ret[lo][0] = num
            ret[lo][1] = lo + 1
            s3p = strand.connection3p()
            if s3p is not None:
                ret[lo][2] = s3p.idNum()
                ret[lo][3] = s3p.idx5Prime()
            # map the internal bases
            for idx in range(lo + 1, hi):
                ret[idx][0] = num
                ret[idx][1] = idx + 1
                ret[idx][2] = num
                ret[idx][3] = idx - 1
            # map the last base (5' xover if necessary)
            ret[hi][2] = num
            ret[hi][3] = hi - 1
            s5p = strand.connection5p()
            if s5p is not None:
                ret[hi][0] = s5p.idNum()
                ret[hi][1] = s5p.idx3Prime()
            # end if
        # end for
    return ret
Exemple #3
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    def __init__(self,
                 strandset: StrandSetT,
                 base_idx_low: int,
                 base_idx_high: int,
                 oligo: OligoT = None):
        self._document = strandset.document()
        super(Strand, self).__init__(strandset)
        self._strandset = strandset
        self._id_num = strandset.idNum()
        """Keep track of its own segments.  Updated on creation and resizing
        """

        self._base_idx_low = base_idx_low  # base index of the strand's left bound
        self._base_idx_high = base_idx_high  # base index of the right bound
        self._oligo = oligo
        self._strand5p = None  # 5' connection to another strand
        self._strand3p = None  # 3' connection to another strand
        self._sequence = None

        self.segments = []
        self.abstract_sequence = []

        # dynamic methods for mapping high/low connection /indices
        # to corresponding 3Prime 5Prime
        is_forward = strandset.isForward()
        if is_forward:
            self.idx5Prime = self.lowIdx
            self.idx3Prime = self.highIdx
            self.connectionLow = self.connection5p
            self.connectionHigh = self.connection3p
            self.setConnectionLow = self.setConnection5p
            self.setConnectionHigh = self.setConnection3p
        else:
            self.idx5Prime = self.highIdx
            self.idx3Prime = self.lowIdx
            self.connectionLow = self.connection3p
            self.connectionHigh = self.connection5p
            self.setConnectionLow = self.setConnection3p
            self.setConnectionHigh = self.setConnection5p
        self._is_forward = is_forward
Exemple #4
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    def __init__(self,  strandset: StrandSetT,
                        base_idx_low: int, base_idx_high: int,
                        oligo: OligoT = None):
        self._document = strandset.document()
        super(Strand, self).__init__(strandset)
        self._strandset = strandset
        self._id_num = strandset.idNum()

        """Keep track of its own segments.  Updated on creation and resizing
        """

        self._base_idx_low = base_idx_low  # base index of the strand's left bound
        self._base_idx_high = base_idx_high  # base index of the right bound
        self._oligo = oligo
        self._strand5p = None  # 5' connection to another strand
        self._strand3p = None  # 3' connection to another strand
        self._sequence = None

        self.segments = []
        self.abstract_sequence = []

        # dynamic methods for mapping high/low connection /indices
        # to corresponding 3Prime 5Prime
        is_forward = strandset.isForward()
        if is_forward:
            self.idx5Prime = self.lowIdx
            self.idx3Prime = self.highIdx
            self.connectionLow = self.connection5p
            self.connectionHigh = self.connection3p
            self.setConnectionLow = self.setConnection5p
            self.setConnectionHigh = self.setConnection3p
        else:
            self.idx5Prime = self.highIdx
            self.idx3Prime = self.lowIdx
            self.connectionLow = self.connection3p
            self.connectionHigh = self.connection5p
            self.setConnectionLow = self.setConnection3p
            self.setConnectionHigh = self.setConnection5p
        self._is_forward = is_forward