utilities.py

#!/usr/bin/python
# -*- coding: utf-8 -*-

import yaml
import logging
import sys
import os
import subprocess
import bioblend
import constants

def load_yaml(yaml_file):

    try:
        with open(yaml_file, 'r') as stream:
            try:
                data = yaml.safe_load(stream)
            except yaml.YAMLError as err:
                logging.critical("Input file %s is not in YAML format" % yaml_file)
                sys.exit(err)
    except FileNotFoundError:
        logging.critical("Input file doesn't exist (%s)" % yaml_file)
        sys.exit()
    except OSError:
        logging.critical("Input file cannot be read (%s)" % yaml_file)
        sys.exit()

    return data

def parse_config(config_file):
    """
    Parse a config file containing users and password used by the different services (tripal, galaxy, chado, ...)

    :param config_file:
    :return:
    """

    config_dict = load_yaml(config_file)
    if isinstance(config_dict, dict):
        #logging.debug("Config dictionary: {0}".format(config_dict))
        return config_dict
    else:
        logging.critical("Config yaml file is not a dictionary" % config_file)
        sys.exit()

def parse_input(input_file):
    """
    Parse the yml input file to extract data to create the SpeciesData objects
    Return a list of dictionaries. Each dictionary contains data tied to a species

    :param input_file:
    :return:
    """

    sp_dict_list = load_yaml(input_file)
    if isinstance(sp_dict_list, list):
        return sp_dict_list
    else:
        logging.critical("Input organisms yaml file is not a list" % input_file)
        sys.exit()

def filter_empty_not_empty_items(li):
    """
    Separate a list between empty items and non empty items.
    Return a dict with 2 keys: empty values (items) and non empty values (items)

    :param li:
    :return:
    """
    filtered_dict = {"empty": [], "not_empty": []}
    for i in li:
        if i is None or i == "":
            filtered_dict["empty"].append(i)
        else:
            filtered_dict["not_empty"].append(i)
    return filtered_dict


def check_galaxy_state(genus_lowercase, species, script_dir):
    """
    Read the logs of the galaxy container for the current species to check if the service is "ready"

    :param genus_lowercase:
    :param species:
    :param script_dir:
    :return:
    """

    # Run supervisorctl status in the galaxy container via serexec
    # Change serexec permissions in repo
    try:
        os.chmod("%s/serexec" % script_dir, 0o0755)
    except PermissionError:
        logging.warning("serexec permissions incorrect in %s" % script_dir)
    galaxy_logs = subprocess.run(["%s/serexec" % script_dir, "{0}_{1}_galaxy".format(genus_lowercase, species),
                                  "supervisorctl", "status", "galaxy:"], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
    if "galaxy:galaxy_web                RUNNING" in str(galaxy_logs.stdout) \
            and "galaxy:handler0                  RUNNING" in str(galaxy_logs.stdout) \
            and "galaxy:handler1                  RUNNING" in str(galaxy_logs.stdout):
        return 1
    else:
        return 0


def get_species_history_id(instance, full_name):
    """
    Set and return the current species history id in its galaxy instance

    :param instance:
    :param full_name:
    :return:
    """

    histories = instance.histories.get_histories(name=str(full_name))
    history_id = histories[0]["id"]
    show_history = instance.histories.show_history(history_id=history_id)

    return [history_id, show_history]

def get_gspecies_string_from_sp_dict(sp_dict):

    genus = sp_dict[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_GENUS]
    species = sp_dict[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_SPECIES]
    gspecies = genus.lower() + "_" + species.lower()
    return gspecies

def get_unique_species_str_list(sp_dict_list):
    """
    Find and return which species (i.e genus species) are not duplicated in the input dictionary used by gga scripts
    Returns a list of species (directories) for which to interact only once (i.e deploying a stack or loading the library)
    This aims to reduce the number of deployments/loading for a single species

    :param sp_dict_list:
    :return:
    """

    unique_species_li = []

    for sp in sp_dict_list:
        sp_gspecies = get_gspecies_string_from_sp_dict(sp)
        if sp_gspecies not in unique_species_li and sp_gspecies != "":
            unique_species_li.append(sp_gspecies)
                
    return unique_species_li


def get_unique_species_dict_list(sp_dict_list):
    """
    Filter the species dictionary list to return only unique genus_species combinations
    The default organism  is always the first encountered in the list of species input list of dictionaries
    Used in gga_init.py to write the docker-compose files for the input organisms
    
    :param sp_dict_list:
    :return:
    """

    unique_species_dict = {}
    unique_species_list_of_dict = []

    for sp in sp_dict_list:
        gspecies = get_gspecies_string_from_sp_dict(sp)
        if gspecies not in unique_species_dict.keys() or ( constants.ORG_PARAM_DESC_MAIN_SPECIES in sp[constants.ORG_PARAM_DESC].keys() and
                                                           sp[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_MAIN_SPECIES] == True ) :
            unique_species_dict[gspecies] = sp

    for k, v in unique_species_dict.items():
        unique_species_list_of_dict.append(v)

    return unique_species_list_of_dict

def get_sp_picture(sp_dict_list):
    """
    Get the picture for each species: the picture of the main strain if exists, other strain if not
    """

    sp_picture_dict = {}

    for sp in sp_dict_list:
        gspecies = get_gspecies_string_from_sp_dict(sp)
        if gspecies not in sp_picture_dict.keys() or ( constants.ORG_PARAM_DESC_MAIN_SPECIES in sp[constants.ORG_PARAM_DESC].keys() and
                                                           sp[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_MAIN_SPECIES] == True ):
            sp_picture_dict[gspecies] = ""
            if constants.ORG_PARAM_DESC_PICTURE_PATH in sp[constants.ORG_PARAM_DESC].keys() and \
                    sp[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_PICTURE_PATH] != "":
                sp_picture_dict[gspecies] = sp[constants.ORG_PARAM_DESC][constants.ORG_PARAM_DESC_PICTURE_PATH]
    return sp_picture_dict

def run_tool(instance, tool_id, history_id, tool_inputs):

    output_dict = None
    try:
        logging.debug("Running tool {0} with tool inputs: {1}".format(tool_id, tool_inputs))
        output_dict =  instance.tools.run_tool(
            tool_id=tool_id,
            history_id=history_id,
            tool_inputs=tool_inputs)
    except bioblend.ConnectionError:
        logging.error("Unexpected HTTP response (bioblend.ConnectionError) when running tool {0} with tool inputs: {1}".format(tool_id, tool_inputs))

    return output_dict

def run_tool_and_get_single_output_dataset_id(instance, tool_id, history_id, tool_inputs):

    output_dict = run_tool(instance, tool_id, history_id, tool_inputs)
    single_output_dataset_id = output_dict["outputs"][0]["id"]

    return single_output_dataset_id

def create_org_param_dict_from_constants():
    """
    Create a dictionary of variables containing the keys needed to render the organisms.yml.j2 (NOT the values)
    Created from the constants
    """

    org_param_dict={}
    org_param_dict["org_param_name"] = constants.ORG_PARAM_NAME
    org_param_dict["org_param_desc"] = constants.ORG_PARAM_DESC
    org_param_dict["org_param_desc_genus"] = constants.ORG_PARAM_DESC_GENUS
    org_param_dict["org_param_desc_species"] = constants.ORG_PARAM_DESC_SPECIES
    org_param_dict["org_param_desc_sex"] = constants.ORG_PARAM_DESC_SEX
    org_param_dict["org_param_desc_strain"] = constants.ORG_PARAM_DESC_STRAIN
    org_param_dict["org_param_desc_common_name"] = constants.ORG_PARAM_DESC_COMMON_NAME
    org_param_dict["org_param_desc_origin"] = constants.ORG_PARAM_DESC_ORIGIN
    org_param_dict["org_param_desc_picture_path"] = constants.ORG_PARAM_DESC_PICTURE_PATH
    org_param_dict["org_param_desc_main_species"] = constants.ORG_PARAM_DESC_MAIN_SPECIES
    org_param_dict["org_param_data"] = constants.ORG_PARAM_DATA
    org_param_dict["org_param_data_genome_path"] = constants.ORG_PARAM_DATA_GENOME_PATH
    org_param_dict["org_param_data_transcripts_path"] = constants.ORG_PARAM_DATA_TRANSCRIPTS_PATH
    org_param_dict["org_param_data_proteins_path"] = constants.ORG_PARAM_DATA_PROTEINS_PATH
    org_param_dict["org_param_data_gff_path"] = constants.ORG_PARAM_DATA_GFF_PATH
    org_param_dict["org_param_data_interpro_path"] = constants.ORG_PARAM_DATA_INTERPRO_PATH
    org_param_dict["org_param_data_orthofinder_path"] = constants.ORG_PARAM_DATA_ORTHOFINDER_PATH
    org_param_dict["org_param_data_blastp_path"] = constants.ORG_PARAM_DATA_BLASTP_PATH
    org_param_dict["org_param_data_blastx_path"] = constants.ORG_PARAM_DATA_BLASTX_PATH
    org_param_dict["org_param_data_genome_version"] = constants.ORG_PARAM_DATA_GENOME_VERSION
    org_param_dict["org_param_data_ogs_version"] = constants.ORG_PARAM_DATA_OGS_VERSION
    org_param_dict["org_param_data_performed_by"] = constants.ORG_PARAM_DATA_PERFORMED_BY
    org_param_dict["org_param_services"] = constants.ORG_PARAM_SERVICES
    org_param_dict["org_param_services_blast"] = constants.ORG_PARAM_SERVICES_BLAST
    org_param_dict["org_param_services_go"] = constants.ORG_PARAM_SERVICES_GO

    return org_param_dict