def test_failing_query(rosetta): """IN the current set of edges, there is no gene->anatomy service. If we add one this teset will fail""" disease_name = 'test_name' did = 'DOID:123' disease_identifiers = [did] name_node = KNode('{}:{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) qd = UserQuery(disease_identifiers, node_types.DISEASE, name_node) qd.add_transition(node_types.GENE) qd.add_transition(node_types.ANATOMY) assert not qd.compile_query(rosetta)
def generate_query(pathway, start_identifiers, start_name=None, end_identifiers=None, end_name=None): start, middle, end = pathway[0], pathway[1:-1], pathway[-1] query = UserQuery(start_identifiers, start.nodetype, start_name) for transition in middle: print(transition) query.add_transition(transition.nodetype, transition.min_path_length, transition.max_path_length) query.add_transition(end.nodetype, end.min_path_length, end.max_path_length, end_values=end_identifiers, end_name=end_name) return query
def test_query_set_different_valid_ids(rosetta): disease_name = 'test_name' disease_identifiers = ['DOID:123', 'EFO:456'] name_node = KNode('{}:{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) qd = UserQuery(disease_identifiers, node_types.DISEASE, name_node) qd.add_transition(node_types.GENE) qd.add_transition(node_types.GENETIC_CONDITION) assert qd.compile_query(rosetta) cyphers = qd.generate_cypher() assert len(cyphers) == 2 start_nodes = qd.get_start_node() assert len(start_nodes) == 2 assert start_nodes[0][0] == disease_identifiers[0] assert start_nodes[1][0] == disease_identifiers[1] lookups = qd.get_lookups() assert len(lookups) == 2 assert lookups[0].identifier == '{}:{}'.format(node_types.DISEASE_NAME, disease_name) assert lookups[1].identifier == '{}:{}'.format(node_types.DISEASE_NAME, disease_name) reverse = qd.get_reversed() assert len(reverse) == 2 assert not reverse[0] assert not reverse[1]
def build_question2(drug_name, disease_name, drug_ids, disease_ids): drug_name_node = KNode('{}.{}'.format(node_types.DRUG_NAME, drug_name), node_types.DRUG_NAME) disease_name_node = KNode( '{}.{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) query = UserQuery(drug_ids, node_types.DRUG, drug_name_node) query.add_transition(node_types.GENE) query.add_transition(node_types.PROCESS) query.add_transition(node_types.CELL) query.add_transition(node_types.ANATOMY) query.add_transition(node_types.PHENOTYPE) query.add_transition(node_types.DISEASE, end_values=disease_ids) return query
def test_query_two(rosetta): drug_name = 'test_drug' drug_name_node = KNode('{}.{}'.format(node_types.DRUG_NAME, drug_name), node_types.DRUG_NAME) drug_identifiers = ['CTD:Adapalene', 'PHAROS.DRUG:95769', 'PUBCHEM:60164'] disease_name = 'test_disease' disease_name_node = KNode( '{}.{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) disease_identifiers = ['DOID:123'] query = UserQuery(drug_identifiers, node_types.DRUG, drug_name_node) query.add_transition(node_types.GENE) query.add_transition(node_types.PROCESS) query.add_transition(node_types.CELL) query.add_transition(node_types.ANATOMY) query.add_transition(node_types.PHENOTYPE) query.add_transition(node_types.DISEASE, end_values=disease_identifiers) query.add_end_lookup_node(disease_name_node) assert query.compile_query(rosetta)
def test_generate_set(rosetta): drug_name = 'test_drug' drug_name_node = KNode('{}.{}'.format(node_types.DRUG_NAME, drug_name), node_types.DRUG_NAME) drug_identifiers = ['CTD:123'] disease_name = 'test_disease' disease_name_node = KNode( '{}.{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) disease_identifiers = ['DOID:123'] query = UserQuery(drug_identifiers, node_types.DRUG, drug_name_node) query.add_transition(node_types.GENE) query.add_transition(node_types.PROCESS) query.add_transition(node_types.CELL) query.add_transition(node_types.ANATOMY) query.add_transition(node_types.PHENOTYPE) query.add_transition(node_types.DISEASE, end_values=disease_identifiers) query.add_end_lookup_node(disease_name_node) d = query.definition l, r = d.generate_paired_query(4) assert len(l.transitions) == 4 assert len(r.transitions) == 2 lq = OneSidedLinearUserQuerySet(l) rq = OneSidedLinearUserQuerySet(r) #print(lq.generate_cypher()[0]) #print() #print(rq.generate_cypher()[0]) print(rq.generate_cypher()[0]) assert lq.compile_query(rosetta) assert rq.compile_query(rosetta)
def test_two_sided_query_compose(rosetta): """Create a 2sided query, composing it by hand.Mimics what should happen automatically in a 2 sided user query""" drug_name = 'test_drug' drug_name_node = KNode('{}.{}'.format(node_types.DRUG_NAME, drug_name), node_types.DRUG_NAME) drug_identifiers = ['CTD:123'] disease_name = 'test_disease' disease_name_node = KNode( '{}.{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) disease_identifiers = ['DOID:123'] #This will create a OneSidedQuerySet queryl = UserQuery(drug_identifiers, node_types.DRUG, drug_name_node) queryl.add_transition(node_types.GENE) queryl.add_transition(node_types.PROCESS) queryl.add_transition(node_types.CELL) queryl.add_transition(node_types.ANATOMY) #this is another queryr = UserQuery(disease_identifiers, node_types.DISEASE, disease_name_node) queryr.add_transition(node_types.PHENOTYPE) queryr.add_transition(node_types.ANATOMY) #The individual queries check out assert queryl.compile_query(rosetta) assert queryr.compile_query(rosetta) #The two sided checks out twolq = TwoSidedLinearUserQuery(queryl.query, queryr.query) assert twolq.compile_query(rosetta) twolqs = TwoSidedLinearUserQuerySet() twolqs.add_query(twolq, rosetta) #the two sided set checks out assert twolqs.compile_query(rosetta)
def test_simple_query(rosetta): disease_name = 'test_name' did = 'DOID:123' disease_identifiers = [did] name_node = KNode('{}:{}'.format(node_types.DISEASE_NAME, disease_name), node_types.DISEASE_NAME) qd = UserQuery(disease_identifiers, node_types.DISEASE, name_node) qd.add_transition(node_types.GENE) qd.add_transition(node_types.GENETIC_CONDITION) assert qd.compile_query(rosetta) cyphers = qd.generate_cypher() assert len(cyphers) == 1 start_nodes = qd.get_start_node() assert len(start_nodes) == 1 assert start_nodes[0][0] == did lookups = qd.get_lookups() assert len(lookups) == 1 assert lookups[0].identifier == '{}:{}'.format(node_types.DISEASE_NAME, disease_name) reverse = qd.get_reversed() assert len(reverse) == 1 assert not reverse[0]