def handle(self, *args, **options):
chemical_names = Chemical.objects.annotate(
name_lower=Lower("name")).values("name_lower").annotate(
cnt=Count("name_lower")).order_by("-cnt")
filtered = []
for pair in chemical_names:
if pair["cnt"] > 1:
filtered.append(pair["name_lower"])
chemicals = Chemical.objects.annotate(name_lower=Lower("name")).filter(
name_lower__in=filtered).order_by("name_lower")
merging_chemical = None
remaining_cnt = chemicals.count()
name_lower = ""
cnt = 0
first_cnt = 0
last_cnt = 0
with transaction.atomic():
for chemical in chemicals:
remaining_time(remaining_cnt)
if name_lower == chemical.name_lower:
# print(merging_chemical.id, chemical.id)
if merging_chemical.id < chemical.id:
self.merge(merging_chemical, chemical)
first_cnt += 1
else:
self.merge(chemical, merging_chemical)
last_cnt += 1
cnt += 1
else:
name_lower = chemical.name_lower
merging_chemical = chemical
print("Successfully merged %s pairs of chemicals" % (cnt, ))
def handle(self, *args, **options):
data = pandas.read_csv(options.get('file'), header=0, delimiter=',', quoting=csv.QUOTE_ALL)
data = data.replace(np.nan, '', regex=True)
pathways = data[["PathwayName", "PathwayID"]].drop_duplicates()
pathways.columns = ("pathway_name", "pathway_id")
pathways = pathways.to_dict('records')
data = data.to_dict('records')
count = len(data)
with transaction.atomic():
interactions_to_create = []
DiseasePathway.objects.bulk_create([DiseasePathway(
pathway_name=record["pathway_name"],
pathway_id=record["pathway_id"]
) for record in pathways])
existing_pathways = dict(DiseasePathway.objects.values_list("pathway_id", "id"))
existing_diseases = dict(DiseaseTrait.objects.filter(category=disease_category).values_list("ctd_id", "id"))
existing_genes = dict(Gene.objects.values_list("symbol", "id"))
for row in data:
remaining_time(count)
disease = existing_diseases.get(row["DiseaseID"])
pathway = existing_pathways.get(row["PathwayID"])
gene = existing_genes.get(row["InferenceGeneSymbol"].lower())
interactions_to_create.append(
DiseasePathwayInteraction(
disease_id=disease,
pathway_id=pathway,
gene_id=gene,
gene_symbol=row["InferenceGeneSymbol"]
)
)
DiseasePathwayInteraction.objects.bulk_create(interactions_to_create)
def handle(self, *args, **options):
go_type = options.get('go_type')
data = pandas.read_csv(options.get('file'),
header=0,
delimiter=',',
quoting=csv.QUOTE_ALL)
data = data.replace(np.nan, '', regex=True)
with transaction.atomic():
existing_chemicals = dict(
Chemical.objects.filter(
chemical_number__isnull=False).values_list(
"chemical_number", "id"))
data = data.to_dict('records')
count = len(data)
interactions_to_save = []
for row in data:
remaining_time(count)
chemical = existing_chemicals.get("MESH:" + row["ChemicalID"])
if chemical:
interactions_to_save.append(
ChemicalPathway(
chemical_id=chemical,
cas_rn=row.get("CasRN"),
pathway_name=row.get("PathwayName"),
pathway_id=row.get("PathwayID"),
p_value=row.get("PValue"),
corrected_p_value=row.get("CorrectedPValue"),
target_match_qty=row.get("TargetMatchQty"),
target_total_qty=row.get("TargetTotalQty"),
background_match_qty=row.get("BackgroundMatchQty"),
background_total_qty=row.get(
"BackgroundTotalQty")))
ChemicalPathway.objects.bulk_create(interactions_to_save)
def handle(self, *args, **options):
chemicals = Chemical.objects.filter(
Q(name__iregex=r"(.+\-|.+\ ){4,}.+")
| Q(name__iregex=r".*[\d].*[\-].*")).all()
obscure_category = SubstanceCategory.objects.filter(
slug="obscure_chemicals").first()
rest = [
record.get_family()
for record in SubstanceCategory.objects.filter(slug__in=[
"popular-drugs", "natural-treatments", "beneficial-substances",
"important-natural-compounds", "gras",
"chemical_of_bilological_interest"
]).all()
]
rest = list(itertools.chain(*rest))
chemicals = list(set(chemicals))
count = len(chemicals)
with transaction.atomic():
for chemical in chemicals:
remaining_time(count)
chemical.categories.add(obscure_category)
chemical.categories.remove(*rest)
bio_interest = SubstanceCategory.objects.filter(
slug="chemical_of_bilological_interest").first()
chemicals = Chemical.objects.exclude(
categories__in=obscure_category.get_family())
count = len(chemicals)
with transaction.atomic():
for chemical in chemicals:
remaining_time(count)
chemical.categories.add(bio_interest)
def handle(self, *args, **options):
healtheffects = HealthEffect.objects.all()
count = HealthEffect.objects.count()
for effect in healtheffects:
remaining_time(count)
effect.slug = slugify(effect.name)
effect.save()
def handle(self, *args, **options):
organisms = Organism.objects.all()
count = organisms.count()
with transaction.atomic():
for organism in organisms:
remaining_time(count)
# if not organism.slug:
organism.slug = slugify("-".join(
[str(organism.id), organism.latin_name]))
organism.save()
def handle(self, *args, **options):
chemical_pathways = ChemicalPathway.objects.all()
pathways = dict(Pathway.objects.values_list("pathway_id", "id"))
count = chemical_pathways.count()
with transaction.atomic():
for chemical_pathway in chemical_pathways:
remaining_time(count)
related_pathway_id = pathways.get(chemical_pathway.pathway_id)
if related_pathway_id:
chemical_pathway.related_pathway_id = related_pathway_id
chemical_pathway.save()
print("Done")
def handle(self, *args, **options):
headers = {
"GeneSymbol": str,
"GeneName": str,
"GeneID": str,
"AltGeneIDs": str,
"Synonyms": str,
"BioGRIDIDs": str,
"PharmGKBIDs": str,
"UniprotIDs": str
}
data = pandas.read_csv(options.get('file'),
header=0,
delimiter=',',
quoting=csv.QUOTE_ALL,
dtype=headers)
data.columns = [
"gene_symbol", "gene_name", "gene_id", "alt_gene_id", "synonyms",
"bio_grid_ids", "pharm_gkbid_ids", "uniprot_ids"
]
data = data.replace(np.nan, '', regex=True)
# data = data[["gene_symbol", "gene_name", "synonyms"]]
existing_genes = Gene.objects.all()
count = existing_genes.count()
data.gene_symbol = data.gene_symbol.str.lower().str.strip()
with transaction.atomic():
for gene in existing_genes:
remaining_time(count)
row = data.ix[data.gene_symbol == gene.symbol]
if row.index.size == 0:
row = data.synonyms.str.contains(gene.name)
row = row[row == True]
if row.index.size != 0:
row = data.ix[row.index]
else:
continue
# synonyms_to_add = []
# if row.synonyms[row.index[0]] and str(row.synonyms[row.index[0]]) != 'nan':
# for synonym in row.synonyms[row.index[0]].split("|"):
# synonyms_to_add.append(Synonym.objects.get_or_create(name=synonym)[0])
# synonyms_to_add.append(Synonym.objects.get_or_create(name=gene.name)[0])
# gene.synonyms.add(*synonyms_to_add)
gene.ctd_id = row.gene_id[row.index[0]]
gene.ctd_alt_gene_ids = row.alt_gene_id[row.index[0]]
gene.ctd_bio_grid_ids = row.bio_grid_ids[row.index[0]]
gene.ctd_pharm_gkb_ids = row.pharm_gkbid_ids[row.index[0]]
gene.ctd_uniprot_ids = row.uniprot_ids[row.index[0]]
# gene.full_name = row.gene_name[row.index[0]]
# gene.symbol = row.gene_symbol[row.index[0]]
gene.save()
def handle(self, *args, **options):
existing_interactions = ChemicalGeneInteraction.objects.all()
count = existing_interactions.count()
with transaction.atomic():
for interactions in chunks(existing_interactions, 10000):
for interaction in interactions:
remaining_time(count)
if interaction.pub_med_ids:
ids = interaction.pub_med_ids.split("|")
refs = [
"https://www.ncbi.nlm.nih.gov/pubmed/" + record
for record in ids
]
refs = "\n".join(refs)
interaction.references = refs
interaction.save()
def create_chemical_organism_interactions(self, file_path):
data = pandas.read_csv(file_path, header=0, delimiter='\t', quoting=csv.QUOTE_ALL)
data = data.replace(np.nan, '', regex=True)
data = data.replace('NULL', '', regex=True)
data = data.to_dict('records')
cnt = len(data)
interactions_to_create = []
for row in data:
remaining_time(cnt)
preparation_id = None
organism_id = None
if row["rel_type"] == "organism" and row["related_item_id"]:
organism_id = row["related_item_id"] if row["related_item_id"] > 566 else row["related_item_id"] - 1
if row["rel_type"] == "preparation" and row["related_item_id"]:
preparation_id = row["related_item_id"]
interactions_to_create.append(ChemicalConcentration(
rel_type=row["rel_type"],
source_compound_id=int(row["source_compound_id"] or 0),
source_food_id=int(row["source_food_id"] or 0),
orig_food_id=row["orig_food_id"],
orig_food_common_name=row["orig_food_common_name"],
orig_food_scientific_name=row["orig_food_scientific_name"],
orig_food_part=row["orig_food_part"],
orig_compound_id=row["orig_compound_id"],
orig_compound_name=row["orig_compound_name"],
conc=float(row["conc"] or 0),
conc_min=float(row["conc_min"] or 0),
conc_max=float(row["conc_max"] or 0),
conc_unit=row["conc_unit"],
citation=row["citation"],
citation_type=row["citation_type"],
orig_method=row["orig_method"],
orig_unit_expression=row["orig_unit_expression"],
ref_compound=row["ref_compound"],
ref_food=row["ref_food"],
compound_id=int(row["compound_id"] or 0),
related_item_id=int(row["related_item_id"] or 0),
preparation_id=preparation_id,
organism_id=organism_id
))
print("Start bulk creation")
# with transaction.atomic():
for interactions in chunks(interactions_to_create, 25000):
remaining_time(30)
ChemicalConcentration.objects.bulk_create(interactions)
print("Finished")
def handle(self, *args, **options):
concentrations = ChemicalConcentration.objects.only(
"orig_compound_name")
chemicals = dict(
Chemical.objects.annotate(name_lower=Lower('name')).values_list(
'name_lower', 'id'))
cnt = concentrations.count()
for chunk in chunks(concentrations, 2000):
with transaction.atomic():
for concentration in chunk:
remaining_time(cnt)
chemical_name = concentration.orig_compound_name.lower()
chemical = chemicals.get(chemical_name)
if chemical:
concentration.chemical.add(chemical)
print("Success!")
def handle(self, *args, **options):
categories = SubstanceCategory.objects.filter(slug__in=[
"natural-treatments", "beneficial-substances",
"important-natural-compounds", "chemical_of_bilological_interest"
]).all()
with open(options.get('file')) as f:
lines = f.read().splitlines()
count = len(lines)
with transaction.atomic():
for line in lines:
remaining_time(count)
line = line.strip()
if not line:
continue
chemicals = Chemical.objects.filter(
Q(name__iexact=line) | Q(synonyms__iexact=line)
| Q(synonyms__istartswith=line + "|")
| Q(synonyms__iendswith="|" + line)
| Q(synonyms__icontains="|" + line + "|")).all()
for chemical in chemicals.all():
chemical.categories.add(*categories)
def handle(self, *args, **options):
concentrations = ChemicalConcentration.objects.only(
"conc", "conc_unit", "conc_max")
cnt = concentrations.count()
for chunk in chunks(concentrations, 2000):
with transaction.atomic():
for concentration in chunk:
remaining_time(cnt)
if concentration.conc > 0:
concentration.unified_concentration = concentration.conc * multiplier.get(
concentration.conc_unit)
elif concentration.conc_max:
concentration.unified_concentration = concentration.conc_max * multiplier.get(
concentration.conc_unit)
# chemical_name = concentration.orig_compound_name.lower()
# chemical = chemicals.get(chemical_name)
# if chemical:
# concentration.chemical.add(chemical)
concentration.save()
print("Success!")
def upload_chemical_disease_interactions(self, file):
existing_chemicals = dict(Chemical.objects.filter(chemical_number__isnull=False).values_list("chemical_number", "id"))
existing_diseases = dict(DiseaseTrait.objects.filter(ctd_id__isnull=False).values_list("ctd_id", "id"))
existing_genes = dict(Gene.objects.filter(symbol__isnull=False).values_list("symbol", "id"))
import os
files = os.listdir(file)
count = len(files)*1000000
# import pdb
# pdb.set_trace()
with transaction.atomic():
for part in files:
data = pandas.read_csv(file + part, header=None, comment="#", delimiter=',', quoting=csv.QUOTE_ALL)
data.columns = ["ChemicalName", "ChemicalID", "CasRN", "DiseaseName", "DiseaseID",
"DirectEvidence", "InferenceGeneSymbol", "InferenceScore", "OmimIDs", "PubMedIDs"]
data = data.replace(np.nan, '', regex=True)
data = data.to_dict('records')
interactions_to_create = []
for row in data:
remaining_time(count)
chemical = existing_chemicals.get("MESH:"+row["ChemicalID"])
disease = existing_diseases.get(row["DiseaseID"])
gene = existing_genes.get(row["InferenceGeneSymbol"].lower())
# import pdb
# pdb.set_trace()
if gene and disease:
interactions_to_create.append(
ChemicalDiseaseInteraction(
chemical_id=chemical,
disease_id=disease,
inference_gene_id=gene,
direct_evidence=row["DirectEvidence"],
inference_score=float(row["InferenceScore"]) if row["InferenceScore"] else 0,
omim_ids=row["OmimIDs"],
pub_med_ids=row["PubMedIDs"],
cas_rn=row["CasRN"]
)
)
else:
continue
ChemicalDiseaseInteraction.objects.bulk_create(interactions_to_create)
def handle(self, *args, **options):
headers = {
"DiseaseName": str,
"DiseaseID": str,
"AltDiseaseIDs": str,
"Definition": str,
"ParentIDs": str,
"TreeNumbers": str,
"ParentTreeNumbers": str,
"Synonyms": str,
"SlimMapping": str
}
data = pandas.read_csv(options.get('file'),
header=0,
delimiter=',',
quoting=csv.QUOTE_ALL,
dtype=headers)
data.columns = [
"ctd_name", "ctd_id", "ctd_alt_id", "ctd_definition",
"ctd_parent_ids", "ctd_tree_numbers", "ctd_parent_tree_numbers",
"ctd_synonyms", "ctd_slim_mapping"
]
data = data.replace(np.nan, '', regex=True)
count = len(data)
with transaction.atomic():
for index, row in data.iterrows():
remaining_time(count)
query = Q(name__iexact=row["ctd_name"])
for synonym in row.ctd_synonyms.split("|"):
query |= Q(name__iexact=synonym)
diseases = DiseaseTrait.objects.filter(
category=disease_category).filter(query)
if diseases.exists():
for disease in diseases:
self.update_existing_disease(disease, row)
else:
self.create_new_disease(row)
def handle(self, *args, **options):
go_type = options.get('go_type')
data = pandas.read_csv(options.get('file'),
header=0,
delimiter=',',
quoting=csv.QUOTE_ALL)
data = data.replace(np.nan, '', regex=True)
go_data = data[["GOName", "GOID"
]].sort("GOID").drop_duplicates().to_dict('records')
# import pdb
# pdb.set_trace()
with transaction.atomic():
GeneOntology.objects.bulk_create([
GeneOntology(go_id=record.get("GOID"),
go_name=record.get("GOName"),
type=go_type) for record in go_data
])
go_objects = dict(GeneOntology.objects.values_list("go_id", "id"))
disease_objects = dict(
DiseaseTrait.objects.filter(ctd_id__isnull=False).values_list(
"ctd_id", "id"))
data = data.to_dict('records')
count = len(data)
interactions_to_save = []
for row in data:
remaining_time(count)
go = go_objects.get(row["GOID"])
disease = disease_objects.get("MESH:" + row["DiseaseID"])
if go and disease:
interactions_to_save.append(
DiseaseGOAssociations(
disease_id=disease,
gene_ontology_id=go,
inference_gene=row["InferenceGeneSymbols"],
inference_gene_qty=row["InferenceGeneQty"]))
DiseaseGOAssociations.objects.bulk_create(interactions_to_save)
