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# Copyright 2007 by Tiago Antao.  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.

This module provides code to work with GenePop.

See http://wbiomed.curtin.edu.au/genepop/ , the format is documented
here: http://wbiomed.curtin.edu.au/genepop/help_input.html .

Record           Holds GenePop data.
RecordParser     Parses a GenePop record (file) into a Record object.

_Scanner         Scans a GenePop record.
_RecordConsumer  Consumes GenePop data to a Record object.

Partially inspired on MedLine Code.

from copy import deepcopy
from types import *

from Bio import File
from Bio.ParserSupport import *

00029 class Record:
    """Holds information from a GenePop record.

    marker_len         The marker length (2 or 3 digit code per allele).    
    comment_line       Comment line.

    loci_list          List of loci names.
    populations        List of population data.
    populations has one element per population. Each element is itself
    a list of individuals, each individual is a pair composed by individual
    name and a list of alleles (2 per marker): Example
            ('Ind1', [(1,2),    (3,3), (200,201)],
            ('Ind2', [(2,None), (3,3), (None,None)],
            ('Other1', [(1,1),  (4,3), (200,200)],

    def __init__(self):
        self.marker_len      = 0
        self.comment_line    = ""
        self.loci_list       = []
        self.populations     = []

    def __str__(self):
        rep  = [self.comment_line + '\n']
        rep.append('\n'.join(self.loci_list) + '\n')
        for pop in self.populations:
            for indiv in pop:
                name, markers = indiv
                for marker in markers:
                    rep.append(' ')
                    for al in marker:
                        if al == None:
                            al = '0'
                        aStr = str(al)
                        while len(aStr)<self.marker_len:
                            aStr = "".join(['0', aStr])
        return "".join(rep)

00083     def split_in_pops(self, pop_names):
        """Splits a GP record in a dictionary with 1 pop per entry.

            Given a record with n pops and m loci returns a dictionary
            of records (key pop_name) where each item is a record
            with a single pop and m loci.

            pop_names - Population names
        gp_pops = {}
        for i in range(len(self.populations)):
            gp_pop = GenePop.Record()
            gp_pop.marker_len = self.marker_len
            gp_pop.comment_line = self.comment_line
            gp_pop.loci_list = deepcopy(self.loci_list)
            gp_pop.populations = [deepcopy(self.populations[i])]
            gp_pops[pop_names[i]] = gp_pop
        return gp_pops

00103     def split_in_loci(self, gp):
        """Splits a GP record in a dictionary with 1 locus per entry.

            Given a record with n pops and m loci returns a dictionary
            of records (key locus name) where each item is a record
            with a single locus and n pops.
        gp_loci = {}
        for i in range(len(self.loci_list)):
            gp_pop = GenePop.Record()
            gp_pop.marker_len = self.marker_len
            gp_pop.comment_line = self.comment_line
            gp_pop.loci_list = [self.loci_list[i]]
            gp_pop.populations = []
            for pop in self.populations:
                my_pop = []
                for indiv in pop:
                    my_pop.append((indiv[0], [indiv[1][i]]))
            gp_loci[gp_pop.loci_list[0]] = gp_pop
        return gp_loci

00126     def remove_population(self, pos):
        """Removes a population (by position).
        del self.populations[pos]
00131     def remove_locus_by_position(self, pos):
        """Removes a locus by position.
        del self.loci_list[pos]
        for pop in self.populations:
            for indiv in pop:
                name, loci = indiv
                del loci[pos]

00140     def remove_locus_by_name(self, name):
        """Removes a locus by name.
        for i in range(len(self.loci_list)):
            if self.loci_list[i] == name:
        #If here than locus not existent... Maybe raise exception?
        #   Although it should be Ok... Just a boolean return, maybe?

00151 class RecordParser(AbstractParser):
    """Parses GenePop data into a Record object.

    def __init__(self):
        self._scanner = _Scanner()
        self._consumer = _RecordConsumer()

    def parse(self, handle):
        self._scanner.feed(handle, self._consumer)
        return self._consumer.data

def parse(handle):
   """Parses a handle containing a GenePop file.
   parser = RecordParser()
   return parser.parse(handle)

00169 class _Scanner:
    """Scans a GenePop record.
    There is only one record per file.

00176     def feed(self, handle, consumer):
        """feed(self, handle, consumer)

        Feed in a GenePop unit record for scanning.  handle is a file-like
        object that contains a Genepop record.  consumer is a
        Consumer object that will receive events as the report is scanned.

        if isinstance(handle, File.UndoHandle):
            uhandle = handle
            uhandle = File.UndoHandle(handle)

        comment_line = uhandle.readline().rstrip()
        #We can now have one loci per line or all loci in a single line
        #seperated by either space or comma+space...
        #We will remove all commas on loci... that should not be a problem
        sample_loci_line = uhandle.readline().rstrip().replace(',', '')
        all_loci = sample_loci_line.split(' ')
        if len(all_loci)>1: #This is all loci in one line
            for locus in all_loci:
        next_line = uhandle.readline().rstrip()
        while next_line.upper()<>'POP':
            if next_line == '':
                raise ValueError('No population data found, file probably not GenePop related')
            next_line = uhandle.readline().rstrip()
        first_individual = True
        line = uhandle.readline().rstrip()
        while line<>'':
            if line.upper()=='POP':
                (indiv_name, marker_line) = line.split(',')
                markers = marker_line.replace('\t', ' ').split(' ')
                for i in range(len(markers), 0, -1):
                    if markers[i-1] == '':
                if first_individual:
                    first_individual = False
                    if len(markers[0]) == 4: #2 digits per allele
                        marker_len = 2
                        marker_len = 3
                allele_list = []
                for marker in markers:
                consumer.individual(indiv_name, allele_list)
            line = uhandle.readline().rstrip()

00240 class _RecordConsumer(AbstractConsumer):
    """Consumer that converts a GenePop record to a Record object.

    data    Record with GenePop data.

    def __init__(self):
        self.data = None

    def start_record(self):
        self.data = Record()

    def end_record(self):
        pops = self.data.populations
        loci = self.data.loci_list
        for pop_i in range(len(pops)):
            for indiv_i in range(len(pops[pop_i])):
                for mk_i in range(len(loci)):
                    mk_orig = pops[pop_i][indiv_i][1][mk_i]
                    mk_real = []
                    for al in mk_orig:
                        if al == 0:
                    pops[pop_i][indiv_i][1][mk_i] = tuple(mk_real)

    def comment(self, comment_line):
        self.data.comment_line = comment_line

    def loci_name(self, locus):

    def marker_len(self, marker_len):
        self.data.marker_len = marker_len

    def start_pop(self):
        self.current_pop = []

    def individual(self, indiv_name, allele_list):
        self.current_pop.append((indiv_name, allele_list))

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