orange-bioinformatics / orangecontrib / bio / dicty /

import os
import urllib2
import shutil
import pickle

from collections import defaultdict

from Orange.orng import orngServerFiles

from Orange.utils.serverfiles import localpath_download

domain = "dictybase"
pickle_file = "mutants.pkl"
tags = ["Dictyostelium discoideum", "mutant", "dictyBase", "phenotype"]

class DictyMutant(object):
    A single Dictyostelium discoideum mutant from the Dictybase.
    :param str mutant_entry: A single mutant entry from 
        `curated mutants file <>`_.

    :ivar dictyBase ID.
    :ivar DictyMutant.descriptor: dictyBase strain descriptor.
    :ivar DictyMutant.genes: all associated genes.
    :ivar DictyMutant.phenotypes: all associated phenotypes.

    def __init__(self, mutant_entry):
        mutant = mutant_entry.split("\t") = mutant[0]
        self.descriptor = mutant[1]
        self.genes = mutant[2].split(" | ")
        self.phenotypes = mutant[3].split(" | ")
        self.null = False
        self.overexp = False
        self.multiple = False
        self.develop = False
        self.other = False

class DictyMutants(object):
    A collection of Dictybase mutants as a dictionary of
    :obj:`DictyMutant` objects.

    :param local_database_path: A path for storing
        D. dictyostelium mutants objects. If `None` then 
        a default database path is used.
    DEFAULT_DATABASE_PATH = orngServerFiles.localpath("DictyMutants") #use a default local folder for storing the genesets
    def __init__(self, local_database_path=None):
        self.local_database_path = local_database_path if local_database_path is not None else self.DEFAULT_DATABASE_PATH
        if not os.path.exists(self.local_database_path):
        self._mutants = pickle.load(open(localpath_download(domain, pickle_file), "rb"))
    def update_file(self, name):
        url = ""
        filename = os.path.join(self.local_database_path, name)
        temp_file = os.path.join(self.local_database_path, name + "_temp")
        stream = urllib2.urlopen(url + name)
        with open(temp_file, "wb") as file:
            shutil.copyfileobj(stream, file)
        os.rename(temp_file, filename)
        return filename
    def load_mutants(self, file):
        data = open(file)
        #data_header = data.readline()
        data =
        return data.splitlines()
    def download_mutants(self):   
        all_mutants = self.load_mutants(self.update_file("all-mutants.txt"))
        null_mutants = self.load_mutants(
        overexp_mutants = self.load_mutants(
        multiple_mutants = self.load_mutants(
        develop_mutants = self.load_mutants(
        other_mutants = self.load_mutants(
        _mutants = [DictyMutant(mutant) for mutant in all_mutants]
        the_nulls = set([DictyMutant(line).name for line in null_mutants])
        the_overexps = set([DictyMutant(line).name for line in overexp_mutants])
        the_multiples = set([DictyMutant(line).name for line in multiple_mutants])
        the_develops = set([DictyMutant(line).name for line in develop_mutants])
        the_others = set([DictyMutant(line).name for line in other_mutants])

        for mutant in _mutants:
            if in the_nulls: mutant.null = True
            if in the_overexps: mutant.overexp = True 
            if in the_multiples: mutant.multiple = True
            if in the_develops: mutant.develop = True
            if in the_others: mutant.other = True
        final_mutants = {x: x for x in _mutants}
        return final_mutants

    def pickle_data(self):
        return pickle.dumps(self.download_mutants(), -1)

    def get_instance(cls):
        if not hasattr(cls, "_shared_dict"):
            dicty = DictyMutants()
            cls._shared_dict = dicty.__dict__
        instance = DictyMutants.__new__(DictyMutants)
        instance.__dict__ = cls._shared_dict
        return instance

    def mutants(self):
        return self._mutants.keys()

    def genes(self):
        return sorted(set(reduce(list.__add__,
                                  for mutant in self.mutants()], [])))

    def phenotypes(self):
        return sorted(set(reduce(list.__add__,
                                  for mutant in self.mutants()], [])))

    def mutant_genes(self, mutant):
        return self._mutants[mutant].genes
    def mutant_phenotypes(self, mutant):
        return self._mutants[mutant].phenotypes

    def gene_mutants(self):
        dgm = defaultdict(set)
        for mutant, genes in [(mutant, self.mutant_genes(mutant))
                              for mutant in self.mutants()]:
            for gene in genes:
        return dgm

    def phenotype_mutants(self):
        dpm = defaultdict(set)
        for mutant, phenotypes in [(mutant, self.mutant_phenotypes(mutant))
                                   for mutant in self.mutants()]:
            for phenotype in phenotypes:
        return dpm

def mutants():
    """ Return all :obj:`DictyMutant` objects.
    return DictyMutants.get_instance().mutants()

def genes():
    """ Return a set of all genes referenced in the Dictybase.
    return DictyMutants.get_instance().genes()

def phenotypes():
    """ Return a set of all phenotypes referenced in Dictybase.
    return DictyMutants.get_instance().phenotypes()

def mutant_genes(mutant):
    """ Return a set of all genes referenced by a `mutant` in Dictybase.
    return DictyMutants.get_instance().mutant_genes(mutant)

def mutant_phenotypes(mutant):   
    """ Return a set of all phenotypes referenced by a `mutant` in Dictybase.
    return DictyMutants.get_instance().mutant_phenotypes(mutant)

def gene_mutants():
    """ Return a dictionary { gene: set(mutant_objects for mutant), ... }.
    return DictyMutants.get_instance().gene_mutants()

def phenotype_mutants():
    """ Return a dictionary { phenotype: set(mutant_objects for mutant), ... }.
    return DictyMutants.get_instance().phenotype_mutants()

def download_mutants():
    return DictyMutants.get_instance().pickle_data()

if __name__ == "__main__":
    dicty_mutants = mutants()
    print mutant_phenotypes(dicty_mutants[0])