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authorFrederick Muriuki Muriithi2022-05-26 16:42:27 +0300
committerFrederick Muriuki Muriithi2022-05-26 16:42:27 +0300
commit236d9236c794d7870258eab9e087f990c557462a (patch)
tree8f5d38f5819ac6853c99215a7fe983263d784b2a /gn3/db
parentfdf9061981ce5d341d178951adeb19dd0376ee66 (diff)
downloadgenenetwork3-236d9236c794d7870258eab9e087f990c557462a.tar.gz
Add Endpoint to get menu items for use in UI
Diffstat (limited to 'gn3/db')
-rw-r--r--gn3/db/menu.py229
1 files changed, 229 insertions, 0 deletions
diff --git a/gn3/db/menu.py b/gn3/db/menu.py
new file mode 100644
index 0000000..8dccabf
--- /dev/null
+++ b/gn3/db/menu.py
@@ -0,0 +1,229 @@
+"""Menu generation code for the data in the dropdowns in the index page."""
+
+from typing import Tuple
+from functools import reduce
+
+from gn3.db.species import get_all_species
+
+def gen_dropdown_json(conn):
+ """
+ Generates and outputs (as json file) the data for the main dropdown menus on
+ the home page.
+ """
+ species = get_all_species(conn)
+ groups = get_groups(conn, tuple(row[0] for row in species))
+ types = get_types(conn, groups)
+ datasets = get_datasets(conn, types)
+ return dict(species=species,
+ groups=groups,
+ types=types,
+ datasets=datasets)
+
+def get_groups(conn, species_names: Tuple[str, ...]):
+ """Build groups list"""
+ with conn.cursor() as cursor:
+ query = (
+ "SELECT InbredSet.Name, InbredSet.FullName, "
+ "IFNULL(InbredSet.Family, 'None'), "
+ "Species.Name AS species_name "
+ "FROM Species "
+ "INNER JOIN InbredSet ON InbredSet.SpeciesId = Species.Id "
+ "WHERE Species.Name IN "
+ f"({', '.join(['%s']*len(species_names))}) "
+ "GROUP BY InbredSet.Name "
+ "ORDER BY IFNULL(InbredSet.FamilyOrder, InbredSet.FullName) ASC, "
+ "IFNULL(InbredSet.Family, InbredSet.FullName) ASC, "
+ "InbredSet.FullName ASC, "
+ "InbredSet.MenuOrderId ASC")
+ cursor.execute(query, tuple(species_names))
+ results = cursor.fetchall()
+
+ def __organise_by_species(acc, row):
+ family_name = f"Family:{str(row[2])}"
+ species_name = row[3]
+ key_exists = bool(acc.get(species_name, False))
+ if not key_exists:
+ return {
+ **acc,
+ species_name: [[str(row[0]), str(row[1]), family_name],]
+ }
+
+ return {
+ **acc,
+ species_name: acc[species_name] + [
+ [str(row[0]), str(row[1]), family_name],]
+ }
+
+ return reduce(__organise_by_species, results, {})
+
+def get_types(conn, groups):
+ """Build types list"""
+ types = {}
+
+ for species, group_dict in list(groups.items()):
+ types[species] = {}
+ for group_name, _group_full_name, _family_name in group_dict:
+ if phenotypes_exist(conn, group_name):
+ types[species][group_name] = [
+ ("Phenotypes", "Traits and Cofactors", "Phenotypes")]
+ if genotypes_exist(conn, group_name):
+ if group_name in types[species]:
+ types[species][group_name] += [
+ ("Genotypes", "DNA Markers and SNPs", "Genotypes")]
+ else:
+ types[species][group_name] = [
+ ("Genotypes", "DNA Markers and SNPs", "Genotypes")]
+ if group_name in types[species]:
+ types_list = build_types(conn, species, group_name)
+ if len(types_list) > 0:
+ types[species][group_name] += types_list
+ else:
+ types_list = build_types(conn, species, group_name)
+ if len(types_list) > 0:
+ types[species][group_name] = types_list
+ else:
+ types[species].pop(group_name, None)
+ groups[species] = list(
+ group for group in groups[species]
+ if group[0] != group_name)
+ return types
+
+def phenotypes_exist(conn, group_name):
+ "Check whether phenotypes exist for the given group"
+ with conn.cursor() as cursor:
+ cursor.execute(
+ ("SELECT Name FROM PublishFreeze "
+ "WHERE PublishFreeze.Name = %s"),
+ (group_name + "Publish",))
+ results = cursor.fetchone()
+ return bool(results)
+
+def genotypes_exist(conn, group_name):
+ "Check whether genotypes exist for the given group"
+ with conn.cursor() as cursor:
+ cursor.execute(
+ ("SELECT Name FROM GenoFreeze " +
+ "WHERE GenoFreeze.Name = %s"),
+ (group_name + "Geno",))
+ results = cursor.fetchone()
+ return bool(results)
+
+def build_types(conn, species, group):
+ """Fetches tissues
+
+ Gets the tissues with data for this species/group
+ (all types except phenotype/genotype are tissues)
+ """
+ query = (
+ "SELECT DISTINCT Tissue.Name "
+ "FROM ProbeFreeze, ProbeSetFreeze, InbredSet, "
+ "Tissue, Species WHERE Species.Name = %s "
+ "AND Species.Id = InbredSet.SpeciesId AND "
+ "InbredSet.Name = %s AND ProbeFreeze.TissueId = "
+ "Tissue.Id AND ProbeFreeze.InbredSetId = InbredSet.Id "
+ "AND ProbeSetFreeze.ProbeFreezeId = ProbeFreeze.Id "
+ "ORDER BY Tissue.Name")
+ results = []
+ with conn.cursor() as cursor:
+ cursor.execute(query, (species, group))
+ for result in cursor.fetchall():
+ if bool(result):
+ these_datasets = build_datasets(conn, species, group, result[0])
+ if len(these_datasets) > 0:
+ results.append([
+ str(result[0]), str(result[0]), "Molecular Traits"])
+
+ return results
+
+def get_datasets(conn, types):
+ """Build datasets list"""
+ datasets = {}
+ for species, group_dict in list(types.items()):
+ datasets[species] = {}
+ for group, type_list in list(group_dict.items()):
+ datasets[species][group] = {}
+ for type_name in type_list:
+ these_datasets = build_datasets(
+ conn, species, group, type_name[0])
+ if bool(these_datasets):
+ datasets[species][group][type_name[0]] = these_datasets
+
+ return datasets
+
+def build_datasets(conn, species, group, type_name):
+ """Gets dataset names from database"""
+ dataset_text = dataset_value = None
+ datasets = []
+ with conn.cursor() as cursor:
+ if type_name == "Phenotypes":
+ cursor.execute(
+ ("SELECT InfoFiles.GN_AccesionId, PublishFreeze.Name, "
+ "PublishFreeze.FullName FROM InfoFiles, PublishFreeze, "
+ "InbredSet WHERE InbredSet.Name = %s AND "
+ "PublishFreeze.InbredSetId = InbredSet.Id AND "
+ "InfoFiles.InfoPageName = PublishFreeze.Name "
+ "ORDER BY PublishFreeze.CreateTime ASC"), (group,))
+ results = cursor.fetchall()
+ if bool(results):
+ for result in results:
+ dataset_id = str(result[0])
+ dataset_value = str(result[1])
+ dataset_text = str(result[2])
+ if group == 'MDP':
+ dataset_text = "Mouse Phenome Database"
+
+ datasets.append([dataset_id, dataset_value, dataset_text])
+ else:
+ cursor.execute(
+ ("SELECT PublishFreeze.Name, PublishFreeze.FullName "
+ "FROM PublishFreeze, InbredSet "
+ "WHERE InbredSet.Name = %s AND "
+ "PublishFreeze.InbredSetId = InbredSet.Id "
+ "ORDER BY PublishFreeze.CreateTime ASC"), (group,))
+ result = cursor.fetchone()
+ dataset_id = "None"
+ dataset_value = str(result[0])
+ dataset_text = str(result[1])
+ datasets.append([dataset_id, dataset_value, dataset_text])
+
+ elif type_name == "Genotypes":
+ cursor.execute(
+ ("SELECT InfoFiles.GN_AccesionId "
+ "FROM InfoFiles, GenoFreeze, InbredSet "
+ "WHERE InbredSet.Name = %s AND "
+ "GenoFreeze.InbredSetId = InbredSet.Id AND "
+ "InfoFiles.InfoPageName = GenoFreeze.ShortName "
+ "ORDER BY GenoFreeze.CreateTime "
+ "DESC"), (group,))
+ results = cursor.fetchone()
+ dataset_id = "None"
+ if bool(results):
+ dataset_id = str(results[0])
+
+ dataset_value = f"{group}Geno"
+ dataset_text = f"{group} Genotypes"
+ datasets.append([dataset_id, dataset_value, dataset_text])
+
+ else: # for mRNA expression/ProbeSet
+ cursor.execute(
+ ("SELECT ProbeSetFreeze.Id, ProbeSetFreeze.Name, "
+ "ProbeSetFreeze.FullName FROM ProbeSetFreeze, "
+ "ProbeFreeze, InbredSet, Tissue, Species WHERE "
+ "Species.Name = %s AND Species.Id = "
+ "InbredSet.SpeciesId AND InbredSet.Name = %s "
+ "AND ProbeSetFreeze.ProbeFreezeId = ProbeFreeze.Id "
+ "AND Tissue.Name = %s AND ProbeFreeze.TissueId = "
+ "Tissue.Id AND ProbeFreeze.InbredSetId = InbredSet.Id "
+ "AND ProbeSetFreeze.public > 0 "
+ "ORDER BY -ProbeSetFreeze.OrderList DESC, "
+ "ProbeSetFreeze.CreateTime "
+ "DESC"), (species, group, type_name))
+ results = cursor.fetchall()
+ datasets = []
+ for dataset_info in results:
+ this_dataset_info = []
+ for info in dataset_info:
+ this_dataset_info.append(str(info))
+ datasets.append(this_dataset_info)
+
+ return datasets