def test_deinvert(self, mini_amr):
m = Model()
assert m.deinvert(('a', ':ARG0', 'b')) == ('a', ':ARG0', 'b')
assert m.deinvert(('a', ':ARG0-of', 'b')) == ('b', ':ARG0', 'a')
assert m.deinvert(('a', ':consist-of', 'b')) == ('b', ':consist', 'a')
assert m.deinvert(('a', ':mod', 'b')) == ('a', ':mod', 'b')
assert m.deinvert(('a', ':domain', 'b')) == ('a', ':domain', 'b')
# # without :
# assert m.deinvert(('a', 'ARG0', 'b')) == ('a', 'ARG0', 'b')
# assert m.deinvert(('a', 'ARG0-of', 'b')) == ('b', 'ARG0', 'a')
m = Model.from_dict(mini_amr)
assert m.deinvert(('a', ':ARG0', 'b')) == ('a', ':ARG0', 'b')
assert m.deinvert(('a', ':ARG0-of', 'b')) == ('b', ':ARG0', 'a')
assert m.deinvert(('a', ':consist-of', 'b')) == ('a', ':consist-of', 'b')
assert m.deinvert(('a', ':mod', 'b')) == ('a', ':mod', 'b')
assert m.deinvert(('a', ':domain', 'b')) == ('a', ':domain', 'b')
def _interpret_node(t: Node, variables: Set[Variable], model: Model):
has_concept = False
triples = []
epidata = {}
var, edges = t
for role, target in edges:
epis: List[Epidatum] = []
if role == '/':
role = CONCEPT_ROLE
has_concept = True
elif '~' in role:
role, _, alignment = role.partition('~')
epis.append(RoleAlignment.from_string(alignment))
# atomic targets
if is_atomic(target):
# remove any alignments
if target and '~' in target:
if target.startswith('"'):
# need to handle alignments on strings differently
# because strings may contain ~ inside the quotes
pivot = target.rindex('"') + 1
if pivot < len(target):
epis.append(Alignment.from_string(target[pivot:]))
target = target[:pivot]
else:
target, _, alignment = target.partition('~')
epis.append(Alignment.from_string(alignment))
triple = (var, role, target)
if model.is_role_inverted(role):
if target in variables:
triple = model.invert(triple)
else:
logger.warning('cannot deinvert attribute: %r', triple)
triples.append(triple)
epidata[triple] = epis
# nested nodes
else:
triple = model.deinvert((var, role, target[0]))
triples.append(triple)
epidata[triple] = epis
# recurse to nested nodes
epidata[triple].append(Push(target[0]))
_, _triples, _epis = _interpret_node(target, variables, model)
triples.extend(_triples)
epidata.update(_epis)
epidata[triples[-1]].append(POP)
if not has_concept:
instance = (var, CONCEPT_ROLE, None)
triples.insert(0, instance)
epidata[instance] = []
return var, triples, epidata
def _interpret_node(t: Node, variables: Set[Variable], model: Model):
has_concept = False
triples = []
epidata = {}
var, edges = t
for role, target in edges:
epis: List[Epidatum] = []
if role == '/':
role = CONCEPT_ROLE
has_concept = True
elif '~' in role:
role, _, alignment = role.partition('~')
epis.append(RoleAlignment.from_string(alignment))
# atomic targets
if is_atomic(target):
if target and '~' in target:
target, _, alignment = target.partition('~')
epis.append(Alignment.from_string(alignment))
triple = (var, role, target)
if model.is_role_inverted(role):
if target in variables:
triple = model.invert(triple)
else:
logger.warning('cannot deinvert attribute: %r', triple)
triples.append(triple)
epidata[triple] = epis
# nested nodes
else:
triple = model.deinvert((var, role, target[0]))
triples.append(triple)
epidata[triple] = epis
# recurse to nested nodes
epidata[triple].append(Push(target[0]))
_, _triples, _epis = _interpret_node(target, variables, model)
triples.extend(_triples)
epidata.update(_epis)
epidata[triples[-1]].append(POP)
if not has_concept:
instance = (var, CONCEPT_ROLE, None)
triples.insert(0, instance)
epidata[instance] = []
return var, triples, epidata
def _interpret_node(t: Node, variables: Set[Variable], model: Model):
has_concept = False
triples = []
epidata = []
var, edges = t
for role, target in edges:
epis: List[Epidatum] = []
role, role_epis = _process_role(role)
epis.extend(role_epis)
has_concept |= role == CONCEPT_ROLE
# atomic targets
if is_atomic(target):
target, target_epis = _process_atomic(target)
epis.extend(target_epis)
triple = (var, role, target)
if model.is_role_inverted(role):
if target in variables:
triple = model.invert(triple)
else:
logger.warning('cannot deinvert attribute: %r', triple)
triples.append(triple)
epidata.append((triple, epis))
# nested nodes
else:
triple = model.deinvert((var, role, target[0]))
triples.append(triple)
epis.append(Push(target[0]))
epidata.append((triple, epis))
# recurse to nested nodes
_, _triples, _epis = _interpret_node(target, variables, model)
triples.extend(_triples)
_epis[-1][1].append(POP) # POP from last triple of nested node
epidata.extend(_epis)
if not has_concept:
instance = (var, CONCEPT_ROLE, None)
triples.insert(0, instance)
epidata.append((instance, []))
return var, triples, epidata
