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import uuid
from math import *
import requests
import unicodedata
from urllib.parse import urlencode, urljoin
import re
import json
from pymonad.maybe import Just, Maybe
from pymonad.tools import curry
from flask import g
from gn3.monads import MonadicDict
from gn2.base.data_set import create_dataset
from gn2.base.webqtlConfig import PUBMEDLINK_URL
from gn2.wqflask import parser
from gn2.wqflask import do_search
from gn2.wqflask.database import database_connection
from gn2.utility.authentication_tools import check_resource_availability
from gn2.utility.hmac import hmac_creation
from gn2.utility.tools import get_setting, GN2_BASE_URL, GN3_LOCAL_URL
from gn2.utility.type_checking import is_str
MAX_SEARCH_RESULTS = 50000 # Max number of search results, passed to Xapian search (this needs to match the value in GN3!)
class SearchResultPage:
#maxReturn = 3000
def __init__(self, kw):
"""
This class gets invoked after hitting submit on the main menu (in
views.py).
"""
###########################################
# Names and IDs of group / F2 set
###########################################
self.uc_id = uuid.uuid4()
self.go_term = None
self.search_type = "sql" # Assume it's an SQL search by default, since all searches will work with SQL
if kw['search_terms_or']:
self.and_or = "or"
self.search_terms = kw['search_terms_or']
else:
self.and_or = "and"
self.search_terms = kw['search_terms_and']
search = self.search_terms
self.original_search_string = self.search_terms
# check for dodgy search terms
rx = re.compile(
r'.*\W(href|http|sql|select|update)\W.*', re.IGNORECASE)
if rx.match(search):
self.search_term_exists = False
return
else:
self.search_term_exists = True
self.results = []
max_result_count = 100000 # max number of results to display
type = kw.get('type')
if type == "Phenotypes": # split datatype on type field
max_result_count = 50000
dataset_type = "Publish"
elif type == "Genotypes":
dataset_type = "Geno"
else:
dataset_type = "ProbeSet" # ProbeSet is default
assert(is_str(kw.get('dataset')))
self.dataset = create_dataset(kw['dataset'], dataset_type)
# I don't like using try/except, but it seems like the easiest way to account for all possible bad searches here
try:
self.search()
except:
self.search_term_exists = False
self.too_many_results = False
if self.search_term_exists:
if len(self.results) > max_result_count:
self.trait_list = []
self.too_many_results = True
else:
self.gen_search_result()
def gen_search_result(self):
"""
Get the info displayed in the search result table from the set of results computed in
the "search" function
"""
trait_list = []
# result_set represents the results for each search term; a search of
# "shh grin2b" would have two sets of results, one for each term
if self.dataset.type == "ProbeSet":
self.header_data_names = ['index', 'display_name', 'symbol', 'description', 'location', 'mean', 'lrs_score', 'lrs_location', 'additive']
elif self.dataset.type == "Publish":
self.header_data_names = ['index', 'display_name', 'description', 'mean', 'authors', 'pubmed_text', 'lrs_score', 'lrs_location', 'additive']
elif self.dataset.type == "Geno":
self.header_data_names = ['index', 'display_name', 'location']
for index, result in enumerate(self.results):
if not result:
continue
if self.search_type == "xapian":
# These four lines are borrowed from gsearch.py; probably need to put them somewhere else to avoid duplicated code
chr_mb = curry(2, lambda chr, mb: f"Chr{chr}: {mb:.6f}")
format3f = lambda x: f"{x:.3f}"
hmac = curry(3, lambda trait_name, dataset, data_hmac: f"{trait_name}:{dataset}:{data_hmac}")
convert_lod = lambda x: x / 4.61
trait = MonadicDict(result)
trait["index"] = Just(index)
trait["display_name"] = trait["name"]
trait["location"] = (Maybe.apply(chr_mb)
.to_arguments(trait.pop("chr"), trait.pop("mb")))
trait["lod_score"] = trait.pop("lrs").map(convert_lod).map(format3f)
trait["additive"] = trait["additive"].map(format3f)
trait["mean"] = trait["mean"].map(format3f)
trait["lrs_location"] = (Maybe.apply(chr_mb)
.to_arguments(trait.pop("geno_chr"), trait.pop("geno_mb")))
description_text = trait['description'].maybe("N/A", lambda a: a)
if len(description_text) > 200:
description_text = description_text[:200] + "..."
trait['description'] = Just(description_text)
if self.dataset.type == "ProbeSet":
trait["hmac"] = (Maybe.apply(hmac)
.to_arguments(trait['name'], trait['dataset'], Just(hmac_creation(f"{trait['name']}:{trait['dataset']}"))))
elif self.dataset.type == "Publish":
inbredsetcode = trait.pop("inbredsetcode")
if inbredsetcode.map(len) == Just(3):
trait["display_name"] = (Maybe.apply(
curry(2, lambda inbredsetcode, name: f"{inbredsetcode}_{name}"))
.to_arguments(inbredsetcode, trait["name"]))
trait["hmac"] = (Maybe.apply(hmac)
.to_arguments(trait['name'], trait['dataset'], Just(hmac_creation(f"{trait['name']}:{trait['dataset']}"))))
trait["authors"] = trait["authors_display"] = (trait.pop("authors").map(
lambda authors:
", ".join(authors[:2] + ["et al."] if len(authors) >=2 else authors)))
trait["pubmed_text"] = trait["year"].map(str)
trait_list.append(trait.data)
else:
trait_dict = {}
trait_dict['index'] = index + 1
trait_dict['dataset'] = self.dataset.name
if self.dataset.type == "ProbeSet":
trait_dict['display_name'] = result[2]
trait_dict['hmac'] = hmac_creation('{}:{}'.format(trait_dict['display_name'], trait_dict['dataset']))
trait_dict['symbol'] = "N/A" if result[3] is None else result[3].strip()
description_text = ""
if result[4] is not None and str(result[4]) != "":
description_text = unicodedata.normalize("NFKD", result[4].decode('latin1'))
target_string = result[5].decode('utf-8') if result[5] else ""
description_display = description_text if target_string is None or str(target_string) == "" else description_text + "; " + str(target_string).strip()
trait_dict['description'] = description_display
trait_dict['location'] = "N/A"
if (result[6] is not None) and (result[6] != "") and (result[6] != "Un") and (result[7] is not None) and (result[7] != 0):
trait_dict['location'] = f"Chr{result[6]}: {float(result[7]):.6f}"
trait_dict['mean'] = "N/A" if result[8] is None or result[8] == "" else f"{result[8]:.3f}"
trait_dict['additive'] = "N/A" if result[12] is None or result[12] == "" else f"{result[12]:.3f}"
trait_dict['lod_score'] = "N/A" if result[9] is None or result[9] == "" else f"{float(result[9]) / 4.61:.1f}"
trait_dict['lrs_location'] = "N/A" if result[13] is None or result[13] == "" or result[14] is None else f"Chr{result[13]}: {float(result[14]):.6f}"
elif self.dataset.type == "Geno":
trait_dict['display_name'] = str(result[0])
trait_dict['hmac'] = hmac.data_hmac('{}:{}'.format(trait_dict['display_name'], trait_dict['dataset']))
trait_dict['location'] = "N/A"
if (result[4] != "NULL" and result[4] != "") and (result[5] != 0):
trait_dict['location'] = f"Chr{result[4]}: {float(result[5]):.6f}"
elif self.dataset.type == "Publish":
# Check permissions on a trait-by-trait basis for phenotype traits
trait_dict['name'] = trait_dict['display_name'] = str(result[0])
trait_dict['hmac'] = hmac_creation('{}:{}'.format(trait_dict['name'], trait_dict['dataset']))
permissions = check_resource_availability(
self.dataset, g.user_session.user_id, trait_dict['display_name'])
if not any(x in permissions['data'] for x in ["view", "edit"]):
continue
if result[10]:
trait_dict['display_name'] = str(result[10]) + "_" + str(result[0])
trait_dict['description'] = "N/A"
trait_dict['pubmed_id'] = "N/A"
trait_dict['pubmed_link'] = "N/A"
trait_dict['pubmed_text'] = "N/A"
trait_dict['mean'] = "N/A"
trait_dict['additive'] = "N/A"
pre_pub_description = "N/A" if result[1] is None else result[1].strip()
post_pub_description = "N/A" if result[2] is None else result[2].strip()
if result[5] != "NULL" and result[5] != None:
trait_dict['pubmed_id'] = result[5]
trait_dict['pubmed_link'] = PUBMEDLINK_URL % trait_dict['pubmed_id']
trait_dict['description'] = post_pub_description
else:
trait_dict['description'] = pre_pub_description
if result[4].isdigit():
trait_dict['pubmed_text'] = result[4]
trait_dict['authors'] = result[3]
trait_dict['authors_display'] = trait_dict['authors']
author_list = trait_dict['authors'].split(",")
if len(author_list) >= 2:
trait_dict['authors_display'] = (",").join(author_list[:2]) + ", et al."
if result[6] != "" and result[6] != None:
trait_dict['mean'] = f"{result[6]:.3f}"
try:
trait_dict['lod_score'] = f"{float(result[7]) / 4.61:.1f}"
except:
trait_dict['lod_score'] = "N/A"
try:
trait_dict['lrs_location'] = f"Chr{result[11]}: {float(result[12]):.6f}"
except:
trait_dict['lrs_location'] = "N/A"
trait_dict['additive'] = "N/A" if not result[8] else f"{result[8]:.3f}"
trait_dict['trait_info_str'] = trait_info_str(trait_dict, self.dataset.type)
# Convert any bytes in dict to a normal utf-8 string
for key in trait_dict.keys():
if isinstance(trait_dict[key], bytes):
try:
trait_dict[key] = trait_dict[key].decode('utf-8')
except UnicodeDecodeError:
trait_dict[key] = trait_dict[key].decode('latin-1')
trait_list.append(trait_dict)
if self.results:
self.max_widths = {}
for i, trait in enumerate(trait_list):
for key in trait.keys():
if key == "authors":
authors_string = ",".join(str(trait[key]).split(",")[:2]) + ", et al."
self.max_widths[key] = max(len(authors_string), self.max_widths[key]) if key in self.max_widths else len(str(authors_string))
elif key == "symbol":
self.max_widths[key] = len(trait[key])
if len(trait[key]) > 20:
self.max_widths[key] = 20
else:
self.max_widths[key] = max(len(str(trait[key])), self.max_widths[key]) if key in self.max_widths else len(str(trait[key]))
self.wide_columns_exist = False
if self.dataset.type == "Publish":
if (self.max_widths['display_name'] > 25 or self.max_widths['description'] > 100 or self.max_widths['authors']> 80):
self.wide_columns_exist = True
if self.dataset.type == "ProbeSet":
if (self.max_widths['display_name'] > 25 or self.max_widths['symbol'] > 25 or self.max_widths['description'] > 100):
self.wide_columns_exist = True
self.trait_list = trait_list
def search(self):
"""
This function sets up the actual search query in the form of a SQL statement and executes
"""
self.search_terms = parser.parse(self.search_terms)
# Set of terms compatible with Xapian currently (None is a search without a term)
xapian_terms = ["POSITION", "MEAN", "LRS", "LOD"]
if all([(the_term['key'] in xapian_terms) or (not the_term['key'] and self.dataset.type != "Publish") for the_term in self.search_terms]):
self.search_type = "xapian"
self.results = requests.get(generate_xapian_request(self.dataset, self.search_terms, self.and_or)).json()
if not len(self.results) or 'error' in self.results:
self.results = []
self.sql_search()
else:
self.sql_search()
def get_search_ob(self, a_search):
search_term = a_search['search_term']
search_operator = a_search['separator']
search_type = {}
search_type['dataset_type'] = self.dataset.type
if a_search['key']:
search_type['key'] = a_search['key'].upper()
else:
search_type['key'] = None
search_ob = do_search.DoSearch.get_search(search_type)
if search_ob:
search_class = getattr(do_search, search_ob)
the_search = search_class(search_term,
search_operator,
self.dataset,
search_type['key']
)
return the_search
else:
return None
def sql_search(self):
self.search_type = "sql"
combined_from_clause = ""
combined_where_clause = ""
# The same table can't be referenced twice in the from clause
previous_from_clauses = []
for i, a_search in enumerate(self.search_terms):
if a_search['key'] == "GO":
self.go_term = a_search['search_term'][0]
gene_list = get_GO_symbols(a_search)
self.search_terms += gene_list
continue
else:
the_search = self.get_search_ob(a_search)
if the_search != None:
if a_search['key'] == None and self.dataset.type == "ProbeSet":
alias_terms = get_alias_terms(a_search['search_term'][0], self.dataset.group.species)
alias_where_clauses = []
for alias_search in alias_terms:
alias_search_ob = self.get_search_ob(alias_search)
if alias_search_ob != None:
get_from_clause = getattr(
alias_search_ob, "get_from_clause", None)
if callable(get_from_clause):
from_clause = alias_search_ob.get_from_clause()
if from_clause in previous_from_clauses:
pass
else:
previous_from_clauses.append(from_clause)
combined_from_clause += from_clause
where_clause = alias_search_ob.get_alias_where_clause()
alias_where_clauses.append(where_clause)
get_from_clause = getattr(
the_search, "get_from_clause", None)
if callable(get_from_clause):
from_clause = the_search.get_from_clause()
if from_clause in previous_from_clauses:
pass
else:
previous_from_clauses.append(from_clause)
combined_from_clause += from_clause
where_clause = the_search.get_where_clause()
alias_where_clauses.append(where_clause)
combined_where_clause += "(" + " OR ".join(alias_where_clauses) + ")"
if (i + 1) < len(self.search_terms):
if self.and_or == "and":
combined_where_clause += "AND"
else:
combined_where_clause += "OR"
else:
get_from_clause = getattr(
the_search, "get_from_clause", None)
if callable(get_from_clause):
from_clause = the_search.get_from_clause()
if from_clause in previous_from_clauses:
pass
else:
previous_from_clauses.append(from_clause)
combined_from_clause += from_clause
where_clause = the_search.get_where_clause()
combined_where_clause += "(" + where_clause + ")"
if (i + 1) < len(self.search_terms):
if self.and_or == "and":
combined_where_clause += "AND"
else:
combined_where_clause += "OR"
else:
self.search_term_exists = False
if self.search_term_exists:
combined_where_clause = "(" + combined_where_clause + ")"
final_query = the_search.compile_final_query(
combined_from_clause, combined_where_clause)
results = the_search.execute(final_query)
self.results.extend(results)
if self.search_term_exists:
if the_search != None:
self.header_fields = the_search.header_fields
def trait_info_str(trait, dataset_type):
"""Provide a string representation for given trait"""
def __trait_desc(trt):
if dataset_type == "Geno":
return f"Marker: {trait['display_name']}"
return trait['description'] or "N/A"
def __symbol(trt):
if dataset_type == "ProbeSet":
return (trait['symbol'] or "N/A")[:20]
def __lrs(trt):
if dataset_type == "Geno":
return 0
else:
if trait['lod_score'] != "N/A":
return (
f"{float(trait['lod_score']):0.3f}" if float(trait['lod_score']) > 0
else f"{trait['lod_score']}")
else:
return "N/A"
def __lrs_location(trt):
if 'lrs_location' in trait:
return trait['lrs_location']
else:
return "N/A"
def __location(trt):
if 'location' in trait:
return trait['location']
else:
return None
def __mean(trt):
if 'mean' in trait:
return trait['mean']
else:
return 0
return "{}|||{}|||{}|||{}|||{}|||{}|||{}|||{}".format(
trait['display_name'], trait['dataset'], __trait_desc(trait), __symbol(trait),
__location(trait), __mean(trait), __lrs(trait), __lrs_location(trait))
def get_GO_symbols(a_search):
gene_list = None
with database_connection(get_setting("SQL_URI")) as conn, conn.cursor() as cursor:
cursor.execute("SELECT genes FROM GORef WHERE goterm=%s",
(f"{a_search['key']}:{a_search['search_term'][0]}",))
gene_list = cursor.fetchone()[0].strip().split()
new_terms = []
for gene in gene_list:
new_terms.append(dict(key=None, separator=None, search_term=[gene]))
return new_terms
def insert_newlines(string, every=64):
""" This is because it is seemingly impossible to change the width of the description column, so I'm just manually adding line breaks """
lines = []
for i in range(0, len(string), every):
lines.append(string[i:i + every])
return '\n'.join(lines)
def get_alias_terms(symbol, species):
if species == "mouse":
symbol_string = symbol.capitalize()
elif species == "human":
symbol_string = symbol.upper()
else:
return []
filtered_aliases = []
response = requests.get(
GN2_BASE_URL + "/gn3/gene/aliases/" + symbol_string)
if response:
alias_list = json.loads(response.content)
seen = set()
for item in alias_list:
if item in seen:
continue
else:
filtered_aliases.append(item)
seen.add(item)
alias_terms = []
for alias in filtered_aliases:
the_search_term = {'key': None,
'search_term': [alias],
'separator': None}
alias_terms.append(the_search_term)
return alias_terms
def generate_xapian_request(dataset, search_terms, and_or):
""" Generate the resquest to GN3 which queries Xapian """
match dataset.type:
case "ProbeSet":
search_type = "gene"
case "Publish":
search_type = "phenotype"
case "Geno":
search_type = "genotype"
case _: # This should never happen
raise ValueError(f"Dataset types should only be ProbeSet, Publish, or Geno, not '{dataset.type}'")
xapian_terms = f" {and_or.upper()} ".join([create_xapian_term(dataset, term) for term in search_terms])
return urljoin(GN3_LOCAL_URL, "/api/search?" + urlencode({"query": xapian_terms,
"type": search_type,
"per_page": MAX_SEARCH_RESULTS}))
def create_xapian_term(dataset, term):
""" Create Xapian term for each search term """
search_term = term['search_term']
xapian_term = f"dataset:{dataset.name.lower()} AND "
match term['key']:
case 'MEAN':
return xapian_term + f"mean:{search_term[0]}..{search_term[1]}"
case 'POSITION':
return xapian_term + f"chr:{search_term[0].lower().replace('chr', '')} AND position:{int(search_term[1])*10**6}..{int(search_term[2])*10**6}"
case 'AUTHOR':
return xapian_term + f"author:{search_term[0]}"
case 'LRS':
xapian_term += f"peak:{search_term[0]}..{search_term[1]}"
if len(search_term) == 5:
xapian_term += f" AND peakchr:{search_term[2].lower().replace('chr', '')} AND peakmb:{float(search_term[3])}..{float(search_term[4])}"
return xapian_term
case 'LOD': # Basically just LRS search but all values are multiplied by 4.61
xapian_term += f"peak:{float(search_term[0]) * 4.61}..{float(search_term[1]) * 4.61}"
if len(search_term) == 5:
xapian_term += f" AND peakchr:{search_term[2].lower().replace('chr', '')}"
xapian_term += f" AND peakmb:{float(search_term[3])}..{float(search_term[4])}"
return xapian_term
case None:
return xapian_term + f"{search_term[0]}"
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