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# Copyright 2004 by Jason A. Hackney.  All rights reserved.
# This code is part of the Biopython distribution and governed by its
# license.  Please see the LICENSE file that should have been included
# as part of this package.

from Bio import Seq
from Bio.Alphabet import IUPAC
from math import sqrt
import sys

00011 class Motif:
    """A generic motif class.
    A Motif has information about the alphabet used in the motif,
    the length of the motif, the motif name, the number of occurrences,
    and the individual instances of the motif. Each of the instances
    is an object of the Instance class.
    add_instance(instance): adds a new instance of the motif.
    get_instance_by_name(name): returns an instance with the specified name.
    def __init__(self):
        self.instances = []
        self.alphabet = None
        self.length = 0
        self.num_occurrences = 0
        self.name = ""
        self.consensus = ""
        self.pssm = []
    def add_instance (self, instance):
        if isinstance(instance, Instance):
            if self.length:
            if self.name:
    def get_instance_by_name (self,name):
        for i in set.instances:
            if i.seqname == name:
                return i
        return None
    def _alphabet (self, alphabet):
        if alphabet == IUPAC.unambiguous_dna or alphabet == IUPAC.protein or alphabet == IUPAC.ambiguous_dna:
            self.alphabet = alphabet
            return -1
    def _length (self, length):
        if type(length) == int:
            self.length = length
            length = int(length)
            self.length = length
    def _name (self, name):
        self.name = name    
    def _consensus (self, consensus):
        if self.alphabet:
            self.consensus = Seq.Seq(consensus, self.alphabet)
            self.consensus = consensus
    def _numoccurrences (self, number):
        if type(number) == int:
            self.num_occurrences = number
            number = int(number)
            self.num_occurrences = number
    def make_pssm (self):
        if self.alphabet == None:
            raise ValueError("Alphabet for motif has not been set")
        moieties = ''
        if self.alphabet == IUPAC.unambiguous_dna:
            moieties = 'ACGT'
        if self.alphabet == IUPAC.protein:
            moieties = 'ACDEFGHIKLMNPQRSTVWY'
        pssm = []
        if self.instances and self.instances[0].sequence:
            for position in self.instances[0].sequence:
                pos = []
                for m in moieties:
            for instance in self.instances:
                for position in range(self.length):
                    my_moiety = instance.sequence[position]
                        moiety_index = moieties.index(my_moiety)
                    except ValueError:
                        moiety_index = 0
                    pssm[position][moiety_index] += 1.0
            pssm = [[x/len(self.instances) for x in y] for y in pssm ]            
            pssm = [tuple(x) for x in pssm]
            self.pssm = pssm
            self.pssm = None
    def make_consensus (self, minimum_frequency = 0.6):
        if not self.pssm:
        consensus = ''
        null_character = 'N'
        moieties = 'ACGT'
        if self.alphabet == IUPAC.protein:
            null_character = 'X'
            moieties = 'ACDEFGHIKLMNPQRSTVWY'
        for position in self.pssm:
            this_position = null_character
            vals = zip(position,moieties)
            good_values = filter(lambda x: x[0] >= minimum_frequency, vals)
            if good_values:
                letters = [str(x[1]) for x in good_values]            
                my_letter = '/'.join(letters)
                my_letter = null_character
            consensus += my_letter
        self.consensus = consensus

00125 class MEMEMotif (Motif):
    """A subclass of Motif used in parsing MEME (and MAST) output.
    This sublcass defines functions and data specific to MEME motifs. 
    This includes the evalue for a motif and the PSSM of the motif.
    add_instance_from_values (name = 'default', pvalue = 1, sequence = 'ATA', start = 0, strand = +): create a new instance of the motif with the specified values.
    add_to_pssm (position): add a new position to the pssm. The position should be a list of nucleotide/amino acid frequencies
    add_to_logodds (position): add a new position to the log odds matrix. The position should be a tuple of log odds values for the nucleotide/amino acid at that position.
    compare_motifs (other_motif): returns the maximum correlation between this motif and other_motif
    def __init__ (self):
        self.evalue = 0.0
        self.pssm = []
        self.logodds = []
    def add_instance_from_values (self, name = 'default', pvalue = 1, sequence = 'ATA', start = 0, strand = '+'):
        inst = Instance()
        if self.length:
        if self.name:
    def _evalue (self, evalue):
        if type(evalue) == float:
            self.evalue = evalue
            evalue = float(evalue)
            self.evalue = evalue
    def add_to_pssm (self, thisposition):
    def add_to_logodds (self, thisposition):
    def compare_motifs (self, motif):
        if isinstance(motif, MEMEMotif):
            if not self.pssm:
                raise ValueError('This motif does not have a PSSM')
            if not motif.pssm:
                raise ValueError('The other motif does not have a PSSM')
            mylen = len(self.pssm)
            yourlen = len(motif.pssm)
            myr = None
            if mylen == yourlen:
                myr = _corr(self.pssm, motif.pssm)
            elif mylen < yourlen:
                diff = yourlen - mylen
                for i in range(0,diff):
                    yourpssm = motif.pssm[i:mylen+i]
                    r = _corr(self.pssm, yourpssm)
                    if r > myr:
                        myr = r
                diff = mylen - yourlen
                for i in range(0, diff):
                    mypssm = self.pssm[i:yourlen+i]
                    r = _corr(mypssm, motif.pssm)
                    if r > myr:
                        myr = r
            return myr
            return None

00201 class Instance:
    """A class describing the instances of a motif, and the data thereof. 
    def __init__ (self):
        self.sequence = None
        self.sequence_name = ""
        self.start = 0
        self.pvalue = 1.0
        self.strand = 0
        self.length = 0
        self.motif_name = ""
    def _sequence (self, seq):
        self.sequence = seq
    def _seqname (self, name):
        self.sequence_name = name
    def _motifname (self, name):
        self.motif_name = name
    def _start (self,start):
        start = int(start)
        self.start = start
    def _pvalue (self,pval):
        pval = float(pval)
        self.pvalue = pval
    def _score (self, score):
        score = float(score)
        self.score = score
    def _strand (self, strand):
        self.strand = strand
    def _length (self, length):
        self.length = length

def _corr (x,y):
    sx = 0
    sy = 0
    sxx = 0
    syy = 0
    sxy = 0
    #make the two-dimensional lists one dimensional
    if type(x[0] == list):
        x = reduce(lambda a,b: a+b, x)
    if type(y[0] == list):
        y = reduce(lambda a,b: a+b, y)
    sq = lambda t: t*t
    length = len(x)
    for a,b in zip(x,y):
        sx += a
        sy += b
        sxx += sq(a)
        syy += sq(b)
        sxy += a*b
    s1 = sxy - sx * sy * 1.0/length
    s2 = (sxx - sx * sy * 1.0/length) * (syy - sx * sy * 1.0/length)
    r = s1 / sqrt (s2)
    return r

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