chrisjurich/motif.py

## motif.py
from enum import Enum
from abc import ABC, abstractmethod
from multipledispatch import dispatch

class MotifType(Enum):
    SINGLESTRAND = 0
    HELIX = 1
    HAIRPIN = 2
    JUNCTION = 3

TYPE_MAPPER = {
    MotifType.SINGLESTRAND : "SingleStrand",
    MotifType.HELIX : "Helix",
    MotifType.HAIRPIN : "Hairpin",
    MotifType.JUNCTION : "Junction",
        }

def connectivity_list(structure):
    connections, pairs = [-1]*len(structure), []

    for index, db in enumerate(structure):
        if db == '(':
            pairs.append(index)
        elif db == ')':
            complement = pairs.pop()
            connections[complement] = index
            connections[index] = complement

    assert len(pairs) == 0

    return connections

class Motif(ABC):
    def __init__(self, **kwargs):
        self.type_ = None
        self.parent_ = None
        self.sequence_ = str()
        self.children_ = []
        self.strands_ = []
        self.depth = int()
        self.structure = str()
        self.token = str()

        if 'sequence' in kwargs:
            self.sequence_ = kwargs['sequence']

        if 'strands_' in kwargs:
            self.strands_ = kwargs['strands']

        for variable, value in kwargs.items():
            setattr(self, variable, value)

        if len(self.sequence_) == 0:
            return

        strand_seqs = []
        for strand in self.strands:
            strand_seqs.append(''.join([self.sequence_[index] for index in strand]))

        self.sequence_ = '&'.join(strand_seqs)

    def link_children_(self, depth):

        if self.type() == MotifType.SINGLESTRAND:
            depth = 0

        self.depth = depth

        for child in self.children():
            child.parent(self)

        for child in self.children():
            child.link_children_(depth+1)

    def str(self):
        depth = '\t'*self.depth
        if len(self.children_ ) == 0:
            return f"{depth}{self.token} {self.structure} {self.sequence_}"
        else:
            children_ = '\n'.join([""] + [child.str() for child in self.children_])
            return f"{depth}{self.token} {self.structure} {self.sequence_}{children_}"

    def __str__(self):
        return self.str()

    def __repr__(self):
        return self.str()

#    def __eq__(self, other):

    def type(self):
        return self.type_

    def children(self):
        return self.children_

    def parent(self, other=None):
        if other is not None:
            self.parent_ = other
        else:
            return self.parent_

    @abstractmethod
    def buffer(self):
        pass

    def has_children(self):
        return len(self.children_) > 0

class SingleStrand(Motif):
    def __init__(self, **kwargs):
        super().__init__( **kwargs)
        self.type_ = MotifType.SINGLESTRAND

        self.structure = '.'*len(self.sequence_)
        self.token = f"SingleStrand{len(self.sequence_)}"

    def buffer(self):
        return -1

class Helix(Motif):
    def __init__(self, **kwargs):
        super().__init__( **kwargs)
        self.type_ = MotifType.HELIX
        self.size_ = (len(self.sequence_) - 1) // 2
        self.structure = f'{"("*self.size_}&{")"*self.size_}'
        self.token = f"Helix{self.size_}"
        self.pairs_ = []

        for index in range(self.size_):
            self.pairs_.append(
                self.sequence_[index] + self.sequence_[-index-1]
                    )

    def buffer(self):
        return self.size_

    def pairs(self):
        return self.pairs_

class Hairpin(Motif):
    def __init__(self, **kwargs):
        super().__init__( **kwargs)
        self.type_ = MotifType.HAIRPIN

        size = len(self.sequence_) - 2
        self.structure = '(' + '.'*size + ')'
        self.token = f"Hairpin{size}"

    def buffer(self):
        return self.parent().buffer()

class Junction(Motif):
    def __init__(self, **kwargs):
        super().__init__( **kwargs)
        self.type_ = MotifType.JUNCTION

        self.gaps_ = [len(strand) -2 for strands in self.strands_]

        self.structure = ['.']*len(self.sequence_)
        for index, nt in enumerate(self.sequence_):
            if nt == '&':
                self.structure[index-1] = '('
                self.structure[index] = '&'
                self.structure[index+1] = ')'
        self.structure[0] = '('
        self.structure[-1] = ')'

        self.structure = "".join(self.structure)
        self.token = "Junction_" + '|'.join([str(len(strand)-2) for strand in self.strands_])

    def buffer(self):
        buffers = [self.parent.buffer()]
        for child in self.children:
            buffers.append(child.buffer())
        return buffers

    def gaps(self):
        return self.gaps_

def helix_length_(connections, start):
    complement = connections[start]
    length = 0
    while start + length == connections[connections[start+length]]:
        length += 1
    return length


def get_junction_or_helix_(sequence, connections, start):

    strands = []
    offset = 1
    it = start

    while True:
        next = [it]
        it += 1

        while connections[it] == -1:
            next.append(it)
            it += 1

        next.append(it)
        strands.append(next)
        it = connections[it]

        if it == start:
            break

    if len(strands) > 1:
        # JUNCTION
        junction = Junction(strands=strands, sequence=sequence)
        for strand in strands[:-1]:
            junction.children_.append(get_motifs_(sequence, connections, strand[-1]))
        return junction
    else:
        hp = Hairpin(sequence=sequence, strands=strands)
        return hp


def get_helix_(sequence, connections, start):
    # figure out how big this current helix i
    helix_len = helix_length_(connections, start)
    lhs, rhs = [], []
    for index in range(start, start + helix_len):
        lhs.append(index)
        rhs.append(connections[index])
    rhs.reverse()
    helix = Helix(sequence=sequence, strands = [lhs, rhs] )
    # figure out what is at the other end of the junction
    helix.children_.append(get_junction_or_helix_(sequence, connections, start+helix_len-1))
    # basically need to check if already inside of a junction or need to go out to a new singlestrand
    # the singlestrand is only added if the singlestrand ends out the structure or the next helix
    # is not part of a junction
    it = rhs[-1] + 1
    while it < len(connections) and connections[it] == -1:
        it += 1

    if it == len(connections) or connections[it] > rhs[-1]:
        helix.children_.append(get_motifs_(sequence, connections, rhs[-1] + 1))
    return helix

def get_singlestrand_(sequence, connections, start):
        offset = 0
        while start + offset < len(connections) and connections[start+offset] == -1:
            offset += 1

        strand = list(range(start,start+offset))
        singlestrand = SingleStrand(sequence=sequence, strands=[strand])
        # checking here if there is an outer nt
        if start + offset < len(connections):
            singlestrand.children_.append(get_motifs_(sequence, connections, start+offset))

        return singlestrand

def get_motifs_(sequence, connections, start):
    if connections[start] < 0:
        return get_singlestrand_(sequence, connections, start)
    return get_helix_(sequence, connections, start)


def parse_to_motifs(structure, sequence):
    connections = connectivity_list(structure)
    root = get_motifs_(sequence, connections,  0)
    root.link_children_(0)
    return root

if __name__ == "__main__":
    ss="...(((.((((....)))).)))..(((.((((....)))).)))..(((.((((....)))).)))..(((.((((....)))).)))..(((((((....)))))))....................."
    seq="GGAACCGAGACUUCGGUCUGGGUAAACCGUGACUUCGGUCAGGGUAAACCGCGACUUCGGUCGGGGUAAACCGGGACUUCGGUCCGGGUAAACUGUUUUUCGAAACAGUAAAAGAAACAACAACAACAAC"
    m = parse_to_motifs(ss, seq)
    print(m)
	from enum import Enum
	from abc import ABC, abstractmethod
	from multipledispatch import dispatch

	class MotifType(Enum):
	SINGLESTRAND = 0
	HELIX = 1
	HAIRPIN = 2
	JUNCTION = 3

	TYPE_MAPPER = {
	MotifType.SINGLESTRAND : "SingleStrand",
	MotifType.HELIX : "Helix",
	MotifType.HAIRPIN : "Hairpin",
	MotifType.JUNCTION : "Junction",
	}

	def connectivity_list(structure):
	connections, pairs = [-1]*len(structure), []

	for index, db in enumerate(structure):
	if db == '(':
	pairs.append(index)
	elif db == ')':
	complement = pairs.pop()
	connections[complement] = index
	connections[index] = complement

	assert len(pairs) == 0

	return connections

	class Motif(ABC):
	def __init__(self, **kwargs):
	self.type_ = None
	self.parent_ = None
	self.sequence_ = str()
	self.children_ = []
	self.strands_ = []
	self.depth = int()
	self.structure = str()
	self.token = str()

	if 'sequence' in kwargs:
	self.sequence_ = kwargs['sequence']

	if 'strands_' in kwargs:
	self.strands_ = kwargs['strands']

	for variable, value in kwargs.items():
	setattr(self, variable, value)

	if len(self.sequence_) == 0:
	return

	strand_seqs = []
	for strand in self.strands:
	strand_seqs.append(''.join([self.sequence_[index] for index in strand]))

	self.sequence_ = '&'.join(strand_seqs)

	def link_children_(self, depth):

	if self.type() == MotifType.SINGLESTRAND:
	depth = 0

	self.depth = depth

	for child in self.children():
	child.parent(self)

	for child in self.children():
	child.link_children_(depth+1)

	def str(self):
	depth = '\t'*self.depth
	if len(self.children_ ) == 0:
	return f"{depth}{self.token} {self.structure} {self.sequence_}"
	else:
	children_ = '\n'.join([""] + [child.str() for child in self.children_])
	return f"{depth}{self.token} {self.structure} {self.sequence_}{children_}"

	def __str__(self):
	return self.str()

	def __repr__(self):
	return self.str()

	# def __eq__(self, other):

	def type(self):
	return self.type_

	def children(self):
	return self.children_

	def parent(self, other=None):
	if other is not None:
	self.parent_ = other
	else:
	return self.parent_

	@abstractmethod
	def buffer(self):
	pass

	def has_children(self):
	return len(self.children_) > 0

	class SingleStrand(Motif):
	def __init__(self, **kwargs):
	super().__init__( **kwargs)
	self.type_ = MotifType.SINGLESTRAND

	self.structure = '.'*len(self.sequence_)
	self.token = f"SingleStrand{len(self.sequence_)}"

	def buffer(self):
	return -1

	class Helix(Motif):
	def __init__(self, **kwargs):
	super().__init__( **kwargs)
	self.type_ = MotifType.HELIX
	self.size_ = (len(self.sequence_) - 1) // 2
	self.structure = f'{"("self.size_}&{")"self.size_}'
	self.token = f"Helix{self.size_}"
	self.pairs_ = []

	for index in range(self.size_):
	self.pairs_.append(
	self.sequence_[index] + self.sequence_[-index-1]
	)

	def buffer(self):
	return self.size_

	def pairs(self):
	return self.pairs_

	class Hairpin(Motif):
	def __init__(self, **kwargs):
	super().__init__( **kwargs)
	self.type_ = MotifType.HAIRPIN

	size = len(self.sequence_) - 2
	self.structure = '(' + '.'*size + ')'
	self.token = f"Hairpin{size}"

	def buffer(self):
	return self.parent().buffer()

	class Junction(Motif):
	def __init__(self, **kwargs):
	super().__init__( **kwargs)
	self.type_ = MotifType.JUNCTION

	self.gaps_ = [len(strand) -2 for strands in self.strands_]

	self.structure = ['.']*len(self.sequence_)
	for index, nt in enumerate(self.sequence_):
	if nt == '&':
	self.structure[index-1] = '('
	self.structure[index] = '&'
	self.structure[index+1] = ')'
	self.structure[0] = '('
	self.structure[-1] = ')'

	self.structure = "".join(self.structure)
	self.token = "Junction_" + '\|'.join([str(len(strand)-2) for strand in self.strands_])

	def buffer(self):
	buffers = [self.parent.buffer()]
	for child in self.children:
	buffers.append(child.buffer())
	return buffers

	def gaps(self):
	return self.gaps_

	def helix_length_(connections, start):
	complement = connections[start]
	length = 0
	while start + length == connections[connections[start+length]]:
	length += 1
	return length


	def get_junction_or_helix_(sequence, connections, start):

	strands = []
	offset = 1
	it = start

	while True:
	next = [it]
	it += 1

	while connections[it] == -1:
	next.append(it)
	it += 1

	next.append(it)
	strands.append(next)
	it = connections[it]

	if it == start:
	break

	if len(strands) > 1:
	# JUNCTION
	junction = Junction(strands=strands, sequence=sequence)
	for strand in strands[:-1]:
	junction.children_.append(get_motifs_(sequence, connections, strand[-1]))
	return junction
	else:
	hp = Hairpin(sequence=sequence, strands=strands)
	return hp


	def get_helix_(sequence, connections, start):
	# figure out how big this current helix i
	helix_len = helix_length_(connections, start)
	lhs, rhs = [], []
	for index in range(start, start + helix_len):
	lhs.append(index)
	rhs.append(connections[index])
	rhs.reverse()
	helix = Helix(sequence=sequence, strands = [lhs, rhs] )
	# figure out what is at the other end of the junction
	helix.children_.append(get_junction_or_helix_(sequence, connections, start+helix_len-1))
	# basically need to check if already inside of a junction or need to go out to a new singlestrand
	# the singlestrand is only added if the singlestrand ends out the structure or the next helix
	# is not part of a junction
	it = rhs[-1] + 1
	while it < len(connections) and connections[it] == -1:
	it += 1

	if it == len(connections) or connections[it] > rhs[-1]:
	helix.children_.append(get_motifs_(sequence, connections, rhs[-1] + 1))
	return helix

	def get_singlestrand_(sequence, connections, start):
	offset = 0
	while start + offset < len(connections) and connections[start+offset] == -1:
	offset += 1

	strand = list(range(start,start+offset))
	singlestrand = SingleStrand(sequence=sequence, strands=[strand])
	# checking here if there is an outer nt
	if start + offset < len(connections):
	singlestrand.children_.append(get_motifs_(sequence, connections, start+offset))

	return singlestrand

	def get_motifs_(sequence, connections, start):
	if connections[start] < 0:
	return get_singlestrand_(sequence, connections, start)
	return get_helix_(sequence, connections, start)


	def parse_to_motifs(structure, sequence):
	connections = connectivity_list(structure)
	root = get_motifs_(sequence, connections, 0)
	root.link_children_(0)
	return root

	if __name__ == "__main__":
	ss="...(((.((((....)))).)))..(((.((((....)))).)))..(((.((((....)))).)))..(((.((((....)))).)))..(((((((....)))))))....................."
	seq="GGAACCGAGACUUCGGUCUGGGUAAACCGUGACUUCGGUCAGGGUAAACCGCGACUUCGGUCGGGGUAAACCGGGACUUCGGUCCGGGUAAACUGUUUUUCGAAACAGUAAAAGAAACAACAACAACAAC"
	m = parse_to_motifs(ss, seq)
	print(m)