def create_message(self):
target = ekb_kstring_from_text(self.target)
drug = ekb_kstring_from_text(self.drug)
content = KQMLList('IS-DRUG-TARGET')
content.set('target', target)
content.set('drug', drug)
return get_request(content), content
def respond_find_disease_targets(self, content):
"""Response content to find-disease-targets request."""
try:
disease_arg = content.gets('disease')
disease = get_disease(ET.fromstring(disease_arg))
except Exception as e:
logger.error(e)
reply = self.make_failure('INVALID_DISEASE')
return reply
if not trips_isa(disease.disease_type, 'ont::cancer'):
reply = self.make_failure('DISEASE_NOT_FOUND')
return reply
logger.debug('Disease: %s' % disease.name)
try:
mut_protein, mut_percent, agents = \
self.dtda.get_top_mutation(disease.name)
except DiseaseNotFoundException:
reply = self.make_failure('DISEASE_NOT_FOUND')
return reply
# TODO: get functional effect from actual mutations
# TODO: add list of actual mutations to response (get from agents)
# TODO: get fraction not percentage from DTDA (edit get_top_mutation)
reply = KQMLList('SUCCESS')
protein = KQMLList()
protein.set('name', mut_protein)
protein.set('hgnc', mut_protein)
reply.set('protein', protein)
reply.set('prevalence', '%.2f' % (mut_percent/100.0))
reply.set('functional-effect', 'ACTIVE')
return reply
def respond_has_qca_path(self, content):
"""Response content to find-qca-path request."""
target_arg = content.gets('TARGET')
source_arg = content.gets('SOURCE')
reltype_arg = content.get('RELTYPE')
if not source_arg:
raise ValueError("Source list is empty")
if not target_arg:
raise ValueError("Target list is empty")
target = self._get_term_name(target_arg)
source = self._get_term_name(source_arg)
if reltype_arg is None or len(reltype_arg) == 0:
relation_types = None
else:
relation_types = [str(k.data) for k in reltype_arg.data]
has_path = self.qca.has_path([source], [target])
reply = KQMLList('SUCCESS')
reply.set('haspath', 'TRUE' if has_path else 'FALSE')
return reply
def response_error(self, error):
reply_content = KQMLList()
for e in error:
error_msg = '"%s"' %\
str(e).encode('string-escape').replace('"', '\\"')
reply_content.add(error_msg)
return self.format_error(reply_content.to_string())
def receive_request(self, msg, content):
"""Handle request messages and respond.
If a "request" message is received, decode the task and the content
and call the appropriate function to prepare the response. A
reply_content message is then sent back.
"""
try:
content = msg.get('content')
task_str = content.head().upper()
logger.info(task_str)
except Exception as e:
logger.error('Could not get task string from request.')
logger.error(e)
return self.error_reply(msg, 'Invalid task')
try:
if task_str == 'INDRA-TO-NL':
reply_content = self.respond_indra_to_nl(content)
else:
return self.error_reply(msg, 'Unknown task ' + task_str)
except Exception as e:
logger.error('Failed to perform task.')
logger.error(e)
reply_content = KQMLList('FAILURE')
reply_content.set('reason', 'NL_GENERATION_ERROR')
return self.reply_with_content(msg, reply_content)
def send_display_figure(self, path):
msg = KQMLPerformative('tell')
content = KQMLList('display-image')
content.set('type', 'simulation')
content.sets('path', path)
msg.set('content', content)
self.send(msg)
def make_failure(self, reason=None, description=None):
msg = KQMLList('FAILURE')
if reason:
msg.set('reason', reason)
if description:
msg.sets('description', description)
return msg
def test_respond_choose_nonsense():
bs = BioSense_Module(testing=True)
msg_content = KQMLList('CHOOSE-SENSE')
msg_content.sets('ekb-term', ekb_from_text('bagel'))
res = bs.respond_choose_sense(msg_content)
print(res)
assert res.head() == 'SUCCESS'
assert res.get('agents')[0].gets('ont-type') is None
def send_null_provenance(self, stmt, for_what, reason=''):
"""Send out that no provenance could be found for a given Statement."""
content_fmt = ('<h4>No supporting evidence found for {statement} from '
'{cause}{reason}.</h4>')
content = KQMLList('add-provenance')
stmt_txt = EnglishAssembler([stmt]).make_model()
content.sets('html', content_fmt.format(statement=stmt_txt,
cause=for_what, reason=reason))
return self.tell(content)
def _get_perf(text, msg_id):
"""Return a request message for a given text."""
msg = KQMLPerformative('REQUEST')
msg.set('receiver', 'READER')
content = KQMLList('run-text')
content.sets('text', text)
msg.set('content', content)
msg.set('reply-with', msg_id)
return msg
def respond_indra_to_nl(self, content):
"""Return response content to build-model request."""
stmts_json_str = content.gets('statements')
stmts = decode_indra_stmts(stmts_json_str)
txts = assemble_english(stmts)
txts_kqml = [KQMLString(txt) for txt in txts]
txts_list = KQMLList(txts_kqml)
reply = KQMLList('OK')
reply.set('NL', txts_list)
return reply
def reply(self,):
reply_msg = KQMLPerformative('reply')
reply_content = KQMLList()
for t in self.tests:
print 'reply {0}'.format(t)
t_content = t.get_content()
if t_content:
reply_content.add(t_content.to_string())
reply_msg.setParameter(':content', reply_content)
return reply_msg
def test_respond_get_synonyms():
bs = BioSense_Module(testing=True)
msg_content = KQMLList('GET-SYNONYMS')
msg_content.sets('entity', mek1_ekb)
res = bs.respond_get_synonyms(msg_content)
assert res.head() == 'SUCCESS'
syns = res.get('synonyms')
syn_strs = [s.gets(':name') for s in syns]
assert 'MAP2K1' in syn_strs
assert 'MEK1' in syn_strs
assert 'MKK1' in syn_strs
def respond_test(self):
'''
Response content to version message
'''
reply_content = KQMLList()
version_response = KQMLList.from_string( '' +\
'(ONT::TELL :content ' +\
')')
reply_content.add(KQMLList(version_response))
return reply_content
def test_respond_choose_sense_is_member():
bs = BioSense_Module(testing=True)
msg_content = KQMLList('CHOOSE-SENSE-IS-MEMBER')
msg_content.sets('ekb-term', mek1_ekb)
msg_content.sets('collection', mek_ekb)
print(msg_content)
res = bs.respond_choose_sense_is_member(msg_content)
print(res)
print(res.head())
assert(res.head() == 'SUCCESS')
assert(res.get('is-member') == 'TRUE')
def respond_find_target_drug(self, content):
"""Response content to find-target-drug request."""
try:
target_arg = content.gets('target')
target = self._get_agent(target_arg)
except Exception:
return self.make_failure('INVALID_TARGET')
drug_results = self.dtda.find_target_drugs(target)
drugs = self._get_drug_kqml(drug_results)
reply = KQMLList('SUCCESS')
reply.set('drugs', drugs)
return reply
def respond_get_common(self, content):
"""Find the common up/down streams of a protein."""
# TODO: This entire function could be part of the MSA.
if not CAN_CHECK_STATEMENTS:
return self.make_failure(
'NO_KNOWLEDGE_ACCESS',
'Cannot access the database through the web api.'
)
genes_ekb = content.gets('genes')
agents = _get_agents(genes_ekb)
if len(agents) < 2:
return self.make_failure('NO_TARGET',
'Only %d < 2 agents given.' % len(agents))
direction = content.gets('up-down')
logger.info("Got genes: %s and direction %s." % (agents, direction))
# Choose some parameters based on direction.
if direction == 'ONT::MORE':
method = 'common_upstreams'
prefix = 'up'
elif direction == 'ONT::SUCCESSOR':
method = 'common_downstreams'
prefix = 'down'
else:
# TODO: With the new MSA we could handle common neighbors.
return self.make_failure("UNKNOWN_ACTION", direction)
# Find the commonalities.
try:
finder = self.msa.find_mechanisms(method, *agents)
except EntityError as e:
return self.make_failure("MISSING_TARGET", e.args[0])
# Get post statements to provenance.
if len(agents) > 2:
name_list = ', '.join(ag.name for ag in agents[:-1]) + ','
else:
name_list = agents[0].name
name_list += ' and ' + agents[-1].name
msg = ('%sstreams of ' % prefix).capitalize() + name_list
self.send_provenance_for_stmts(finder.get_statements(), msg,
ev_counts=finder.get_ev_totals())
# Create the reply
resp = KQMLPerformative('SUCCESS')
gene_list = KQMLList()
for gene in finder.get_common_entities():
gene_list.append(gene)
resp.set('commons', gene_list)
resp.sets('prefix', prefix)
return resp
def send_display_model(self, diagrams):
for diagram_type, resource in diagrams.items():
if not resource:
continue
if diagram_type == 'sbgn':
content = KQMLList('display-sbgn')
content.set('type', diagram_type)
content.sets('graph', resource)
else:
content = KQMLList('display-image')
content.set('type', diagram_type)
content.sets('path', resource)
self.tell(content)
def report_paths_graph(self, paths_list):
from indra.assemblers.graph import GraphAssembler
from indra.util import flatten
path_stmts = [stmts_from_json(l) for l in paths_list]
all_stmts = flatten(path_stmts)
ga = GraphAssembler(all_stmts)
ga.make_model()
resource = get_img_path('qca_paths.png')
ga.save_pdf(resource)
content = KQMLList('display-image')
content.set('type', 'simulation')
content.sets('path', resource)
self.tell(content)
def test_respond_choose_sense():
bs = BioSense_Module(testing=True)
msg_content = KQMLList('CHOOSE-SENSE')
msg_content.sets('ekb-term', mek1_ekb)
res = bs.respond_choose_sense(msg_content)
print(res)
agents = res.get('agents')
assert agents and agents.data
agent = agents[0]
name = agent.gets('name')
assert name == 'MAP2K1'
ont_type = agent.get('ont-type')
assert ont_type == 'ONT::GENE'
def respond_satisfies_pattern(self, content_list):
"""
Response content to satisfies-pattern request
"""
model_token = content_list.get_keyword_arg(":model")
pattern_lst = content_list.get_keyword_arg(":pattern")
conditions_lst = content_list.get_keyword_arg(":conditions")
try:
model_str = str(model_token)
model = decode_model(model_str)
except Exception as e:
logger.error(e)
reply_content = KQMLList.from_string("(FAILURE :reason INVALID_MODEL)")
return reply_content
try:
pattern = get_temporal_pattern(pattern_lst)
except InvalidTimeUnitError as e:
logger.error(e)
reply_content = KQMLList.from_string("(FAILURE :reason INVALID_TIME_LIMIT)")
return reply_content
except Exception as e:
logger.error(e)
reply_content = KQMLList.from_string("(FAILURE :reason INVALID_PATTERN)")
return reply_content
if conditions_lst is None:
conditions = None
else:
try:
conditions = []
for condition_lst in conditions_lst:
condition = get_molecular_condition(condition_lst)
conditions.append(condition)
except Exception as e:
logger.error(e)
msg_str = "(FAILURE :reason INVALID_CONDITIONS)"
reply_content = KQMLList.from_string(msg_str)
return reply_content
try:
sat_rate, num_sim = self.tra.check_property(model, pattern, conditions)
except SimulatorError as e:
logger.error(e)
reply_content = KQMLList.from_string("(FAILURE :reason KAPPA_FAILURE)")
return reply_content
except Exception as e:
logger.error(e)
reply_content = KQMLList.from_string("(FAILURE :reason INVALID_PATTERN)")
return reply_content
reply_content = KQMLList()
msg_str = "(:satisfies-rate %.1f :num-sim %d)" % (sat_rate, num_sim)
reply_content.add("SUCCESS :content %s" % msg_str)
return reply_content
def respond_model_get_json(self, content):
"""Return response content to model-get-json request."""
try:
model_id = self._get_model_id(content)
except Exception:
model_id = None
model = self.mra.get_model_by_id(model_id)
if model is not None:
model_msg = encode_indra_stmts(model)
reply = KQMLList('SUCCESS')
reply.sets('model', model_msg)
else:
reply = self.make_failure('MISSING_MODEL')
return reply
def respond_describe_model(self, content):
"""Convert the model to natural language."""
# Get the model.
model_id = self._get_model_id(content)
model = self.mra.get_model_by_id(model_id)
# Turn the model into a text description.
english_assembler = EnglishAssembler(model)
desc = english_assembler.make_model()
# Respond to the BA.
resp = KQMLList('SUCCESS')
resp.sets('description', desc)
return resp
def test_respond_choose_sense_what_member():
bs = BioSense_Module(testing=True)
msg_content = KQMLList('CHOOSE-SENSE-WHAT-MEMBER')
msg_content.sets('collection', mek_ekb)
print(msg_content)
res = bs.respond_choose_sense_what_member(msg_content)
print(res)
print(res.head())
assert(res.head() == 'SUCCESS')
assert(len(res.get('members')) == 2)
m1 = res.get('members')[0]
m2 = res.get('members')[1]
assert m1.gets('name') == 'MAP2K1', m1.gets('name')
assert m2.gets('name') == 'MAP2K2', m2.gets('name')
def respond_choose_sense_category(self, content):
"""Return response content to choose-sense-category request."""
ekb = content.gets('ekb-term')
category = content.gets('category')
try:
in_category = self.bs.choose_sense_category(ekb, category)
except InvalidAgentError:
msg = make_failure('INVALID_AGENT')
except UnknownCategoryError:
msg = make_failure('UNKNOWN_CATEGORY')
else:
msg = KQMLList('SUCCESS')
msg.set('in-category',
'TRUE' if in_category else 'FALSE')
return msg
def respond_start(self, arguments):
'''
Response content to start message
'''
if "CODE" not in arguments:
response_content = self.response_error(["Missing code"])
elif "NB_PLOT" not in arguments:
response_content =\
self.response_error(["Missing number of plot points"])
else:
try:
parameter = {}
parameter["nb_plot"] = arguments["NB_PLOT"]
if "MAX_TIME" in arguments:
parameter["max_time"] = float(arguments["MAX_TIME"])
if "MAX_EVENTS" in arguments:
parameter["max_events"] = int(arguments["MAX_EVENTS"])
request_code = arguments["CODE"]
request_code = request_code[1:-1]
request_code = request_code.decode('string_escape')
parameter["code"] = request_code
try:
logger.debug(parameter)
response = self.kappa.start(parameter)
response_message = '(SUCCESS :id %d)' % response
response_content = KQMLList.from_string(response_message)
except RuntimeError as e:
response_content = self.response_error(e.errors)
except ValueError as e:
response_content = self.response_error([str(e)])
return response_content
def respond_choose_sense_what_member(self, content):
"""Return response content to choose-sense-what-member request."""
# Get the collection agent
ekb = content.gets('collection')
try:
members = self.bs.choose_sense_what_member(ekb)
except InvalidCollectionError:
msg = make_failure('INVALID_COLLECTION')
except CollectionNotFamilyOrComplexError:
msg = make_failure('COLLECTION_NOT_FAMILY_OR_COMPLEX')
else:
kagents = [get_kagent((m, 'ONT::PROTEIN', _get_urls(m)))
for m in members]
msg = KQMLList('SUCCESS')
msg.set('members', KQMLList(kagents))
return msg
def respond_build_model(self, content_list):
"""
Response content to build-model request
"""
try:
descr_arg = content_list.get_keyword_arg(":description")
descr = descr_arg[0].to_string()
descr = self.decode_description(descr)
model = self.mra.build_model_from_ekb(descr)
except Exception as e:
raise InvalidModelDescriptionError(e)
if model is None:
raise InvalidModelDescriptionError
self.get_context(model)
self.models.append(model)
model_id = len(self.models)
model_enc = self.encode_model(model)
try:
model_diagram = self.get_model_diagram(model, model_id)
except DiagramGenerationError as e:
logger.error("Could not generate model diagram.")
logger.error(e)
model_diagram = ""
except DiagramConversionError as e:
logger.error("Could not save model diagram.")
logger.error(e)
model_diagram = ""
reply_content = KQMLList.from_string(
'(SUCCESS :model-id %s :model "%s" :diagram "%s")' % (model_id, model_enc, model_diagram)
)
return reply_content
def receive_request(self, msg, content):
"""
If a "request" message is received, decode the task and the content
and call the appropriate function to prepare the response. A reply
"tell" message is then sent back.
"""
if self.tra is None:
reply_content = KQMLList.from_string("(FAILURE :reason KAPPA_FAILURE)")
reply_msg = KQMLPerformative("reply")
reply_msg.set_parameter(":content", reply_content)
self.reply(msg, reply_msg)
return
content_list = content
task_str = content_list[0].to_string().upper()
if task_str == "SATISFIES-PATTERN":
try:
reply_content = self.respond_satisfies_pattern(content_list)
except Exception as e:
self.error_reply(msg, "Error in performing satisfies " + "pattern task.")
return
else:
self.error_reply(msg, "Unknown request task " + task_str)
return
reply_msg = KQMLPerformative("reply")
reply_msg.set_parameter(":content", reply_content)
self.reply(msg, reply_msg)
def respond_has_mechanism(self, content_list):
"""
Response content to model-has-mechanism request
"""
try:
descr_arg = content_list.get_keyword_arg(":description")
descr = descr_arg[0].to_string()
descr = self.decode_description(descr)
except Exception as e:
raise InvalidModelDescriptionError(e)
model_id_arg = content_list.get_keyword_arg(":model-id")
if model_id_arg is None:
logger.error("Model ID missing.")
raise InvalidModelIdError
try:
model_id_str = model_id_arg.to_string()
model_id = int(model_id_str)
except Exception as e:
logger.error("Could not get model ID as integer.")
raise InvalidModelIdError(e)
if model_id < 1 or model_id > len(self.models):
logger.error("Model ID does not refer to an existing model.")
raise InvalidModelIdError
try:
has_mechanism = self.mra.has_mechanism(descr, model_id)
except Exception as e:
raise InvalidModelDescriptionError
reply_content = KQMLList.from_string("(SUCCESS :model-id %s :has-mechanism %s)" % (model_id, has_mechanism))
return reply_content
def test_get_temporal_pattern():
pattern_msg = '(:type "transient" :entities ((:description ' + \
'%s)))' % clj_complex
lst = KQMLList.from_string(pattern_msg)
pattern = tra_module.get_temporal_pattern(lst)
assert pattern.pattern_type == 'transient'
def test_get_molecular_condition_badvalue():
lst = KQMLList.from_string('(:type "multiple" :value "xyz" ' +
':quantity (:type "total" ' +
':entity (:description %s)))' % clj_braf)
tra_module.get_molecular_condition(lst)
def test_molecular_quantity_badentity():
s = '(:type "xyz" :entity (:description "xyz"))'
lst = KQMLList.from_string(s)
tra_module.get_molecular_quantity_ref(lst)
def render_status(status):
reply_content = KQMLList()
reply_content.add(":status")
if 'plot' in status:
plot_data = status['plot']
plot = KQMLList()
plot.add(':plot')
if 'legend' in plot_data:
legend = KQMLList()
legend.add(':legend')
for label in plot_data['legend']:
legend.add('"' + label + '"')
plot.add(legend)
if 'observables' in plot_data:
observables = KQMLList()
observables.add(':observables')
for o in plot_data['observables']:
observation = KQMLList()
observation.add(':observation')
if 'time' in o:
time = KQMLList()
time.add(':time')
time.add(render_value(o['time']))
observation.add(time)
if 'values' in o:
values = KQMLList()
values.add(':values')
for f in o['values']:
values.add(render_value(f))
observation.add(values)
observables.add(observation)
plot.add(observables)
reply_content.add(plot)
if 'tracked_events' in status:
tracked_events = KQMLList()
tracked_events.add(':tracked_events')
tracked_events.add(render_value(status['tracked_events']))
plot.add(tracked_events)
if 'is_running' in status:
is_running = KQMLList()
is_running.add(':is_running')
is_running.add(render_value(status['is_running']))
plot.add(is_running)
if 'event_percentage' in status:
event_percentage = KQMLList()
event_percentage.add(':event_percentage')
event_percentage.add(render_value(status['event_percentage']))
plot.add(event_percentage)
if 'time_percentage' in status:
time_percentage = KQMLList()
time_percentage.add(':time_percentage')
time_percentage.add(render_value(status['time_percentage']))
plot.add(time_percentage)
if 'time' in status:
time = KQMLList()
time.add(':time')
time.add(render_value(status['time']))
plot.add(time)
if 'event' in status:
event = KQMLList()
event.add(':event')
event.add(render_value(status['event']))
plot.add(event)
# trips is not happy with this not sure why
# if 'log_messages':
# log_messages = KQMLList()
# log_messages.add(':log_messages')
# for message in status['log_messages']:
# log_messages.add("'"+render_value(message)+"'")
# plot.add(log_messages)
return reply_content
def create_message(self):
model = stmts_clj_from_text('MAP2K1 binds MAPK1')
entity = agent_clj_from_text('MAPK1-MAP2K1 complex')
condition_entity = agent_clj_from_text('MAP2K1')
entities = KQMLList([KQMLList([':description', entity])])
pattern = KQMLList()
pattern.set('entities', entities)
pattern.sets('type', 'no_change')
value = KQMLList()
value.sets('type', 'qualitative')
value.sets('value', 'high')
pattern.set('value', value)
content = KQMLList('SATISFIES-PATTERN')
content.set('pattern', pattern)
content.set('model', model)
conditions = KQMLList()
condition = KQMLList()
condition.sets('type', 'multiple')
condition.set('value', '10.0')
quantity = KQMLList()
quantity.sets('type', 'total')
entity = KQMLList()
entity.set('description', condition_entity)
quantity.set('entity', entity)
condition.set('quantity', quantity)
conditions.append(condition)
content.set('conditions', conditions)
msg = get_request(content)
return (msg, content)
def test_molecular_quantity_badtype():
s = '(:type "xyz" :entity (:description %s))' % clj_complex
lst = KQMLList.from_string(s)
tra_module.get_molecular_quantity_ref(lst)
def test_get_molecular_condition_badentity():
lst = KQMLList.from_string('(:type "exact" :value 2 ' +
':quantity (:type "total" ' +
':entity (:description "xyz")))')
tra_module.get_molecular_condition(lst)
def format_error(self, message):
response_content = KQMLList.from_string('(FAILURE :reason %s)' %
message)
return response_content
def test_molecular_quantity_qual_badval():
s = '(:type "qualitative" :value 123)'
lst = KQMLList.from_string(s)
tra_module.get_molecular_quantity(lst)
def test_molecular_quantity_qual():
s = '(:type "qualitative" :value "high")'
lst = KQMLList.from_string(s)
mq = tra_module.get_molecular_quantity(lst)
assert mq.quant_type == 'qualitative'
assert mq.value == 'high'
def create_message(self):
content = KQMLPerformative('SATISFIES-PATTERN')
content.set('model', self.model)
patt = KQMLList()
patt.sets('type', 'eventual_value')
ents = KQMLList()
ent = KQMLList()
ent.sets('description', agent_clj_from_text('phosphorylated MAPK1'))
ents.append(ent)
patt.set('entities', ents)
val = KQMLList()
val.sets('type', 'qualitative')
val.sets('value', 'low')
patt.set('value', val)
content.set('pattern', patt)
conds = KQMLList()
cond = KQMLList()
cond.sets('type', 'multiple')
quant = KQMLList()
quant.sets('type', 'total')
ent = KQMLList()
ent.sets('description', agent_clj_from_text('DUSP6'))
quant.set('entity', ent)
cond.sets('quantity', quant)
#val = KQMLList()
#val.sets('type', 'number')
cond.set('value', KQMLToken('10'))
#cond.set('value', val)
conds.append(cond)
content.set('conditions', conds)
msg = get_request(content)
return msg, content
def test_molecular_quantity_num_badval():
s = '(:type "number" :value -1)'
lst = KQMLList.from_string(s)
tra_module.get_molecular_quantity(lst)
def create_message(self):
model = stmts_clj_from_text('MEK binds ERK')
entity = agent_clj_from_text('MEK that is bound to ERK')
entities = KQMLList([KQMLList([':description', entity])])
pattern = KQMLList()
pattern.set('entities', entities)
pattern.sets('type', 'no_change')
value = KQMLList()
value.sets('type', 'qualitative')
value.sets('value', 'low')
pattern.set('value', value)
content = KQMLList('SATISFIES-PATTERN')
content.set('pattern', pattern)
content.set('model', model)
msg = get_request(content)
return (msg, content)
def send_display_model(self, diagrams):
for diagram_type, resource in diagrams.items():
if not resource:
continue
if diagram_type == 'sbgn':
content = KQMLList('display-sbgn')
content.set('type', diagram_type)
content.sets('graph', resource)
else:
content = KQMLList('display-image')
content.set('type', diagram_type)
content.sets('path', resource)
self.tell(content)
def test_get_molecular_entity():
me = KQMLList.from_string('(:description %s)' % clj_complex)
ent = tra_module.get_molecular_entity(me)
assert len(ent.bound_conditions) == 1, len(ent.bound_conditions)
