def process_qnode(self, kw: KgtkWriter, current_process_node_id: str,
each_node_attributes: EACH_NODE_ATTRIBUTES) -> bool:
interesting_qnode: bool = False
if each_node_attributes:
for k in each_node_attributes:
if each_node_attributes[k]:
interesting_qnode = True
break
if not interesting_qnode:
return False
concat_sentence: str
explanation: str
concat_sentence, explanation = self.attribute_to_sentence(
each_node_attributes, current_process_node_id)
if self.explain:
kw.write([
current_process_node_id, self.sentence_label,
KgtkFormat.stringify(concat_sentence),
KgtkFormat.stringify(explanation)
])
else:
kw.write([
current_process_node_id, self.sentence_label,
KgtkFormat.stringify(concat_sentence)
])
return True
def produce_node_labels(event):
if '\t' in event:
event = event.split('\t')[0]
e1 = event.lower()
e1 = e1.rstrip('.').strip()
e2 = remove_people_mentions(e1)
while ' ' in e2:
e2 = e2.replace(' ', ' ')
if e1 != e2 and e2:
return '|'.join(
[KgtkFormat.stringify(e1),
KgtkFormat.stringify(e2)])
else:
return KgtkFormat.stringify(e1)
def edge2KGTK(edge: Tuple[str, str, str]) -> pd.Series:
"""
Gets the edge as triple of subject, object, predicate and converts the edge to the KGTK format
Args:
edge: Tuple[str, str, str]
input edge
Returns: pd.Series
pandas Series with keys according to KGTK format at
https://docs.google.com/document/d/1fbbqgyX0N2EdxLam6hatfke1R-nZWkoN6M1oB_f4aQo/edit#heading=h.a5nlqev5bmm4
"""
s, p, o = edge
def clean(e: str) -> str:
out = e.split(':')[-1].replace('_', ' ')
return KgtkFormat.stringify(
re.sub("([a-z])([A-Z])", "\g<1> \g<2>", out).strip().lower())
return pd.Series({
'node1': s,
'relation': p,
'node2': o,
'node1;label': clean(s),
'node2;label': clean(o),
'relation;label': clean(p),
'relation;dimension': '',
'source': KgtkFormat.stringify('FN'),
'sentence': ''
})
def create_edge(node1, node1_lbl, node2, node2_lbl, rel, rel_lbl,
image_id):
my_row = [
node1, rel, node2, '|'.join(node1_lbl), '|'.join(node2_lbl),
rel_lbl, '',
KgtkFormat.stringify('VG'), ''
]
return my_row
def create_edges(data, labels, rel, rel_label):
all_rows=[]
source=KgtkFormat.stringify('WN')
for node1, v in data.items():
for node2 in v:
node1_preflabel=labels[node1].split('|')[0]
node2_preflabel=labels[node2].split('|')[0]
a_row=['wn:' + node1, rel, 'wn:' + node2, labels[node1], labels[node2], rel_label, "", source, '']
all_rows.append(a_row)
return all_rows
def row_to_edge(row, cols):
edge = {}
edge['node1'] = row[2]
edge['relation'] = row[1]
edge['node2'] = row[3]
edge['node1_label'] = make_node_label(row[2])
edge['node2_label'] = make_node_label(row[3])
edge['relation_label'] = make_rel_label(row[1])
edge['relation_dimension'] = ''
metadata = json.loads(row[4])
edge['source'] = KgtkFormat.stringify('CN')
if 'surfaceText' in metadata.keys():
edge['sentence'] = KgtkFormat.stringify(
metadata['surfaceText'].replace('\\', ''))
else:
edge['sentence'] = ''
edge_list = [edge[col] for col in cols]
return '\t'.join(edge_list) + '\n'
def extract(input_file, output_file, source):
rows=[]
with open(output_file, 'w') as w:
columns=['id', 'node1', 'relation', 'node2', 'node1;label', 'node2;label','relation;label', 'relation;dimension', 'source', 'sentence']
w.write(print_edge(columns))
with open(input_file, 'r') as f:
header=next(f)
for line in f:
data=line.split('\t')
data[1]=data[1].replace('same', 'Same')
id='-'.join(data[:3])
new_row=[id, *data[:3], "", "", "", "", KgtkFormat.stringify(source), ""]
w.write(print_edge(new_row))
def produce_rel_label(rel):
mapping = {
'xAttr': 'person x has attribute',
'oAttr': 'others have attribute',
'xReact': 'person x feels',
'oReact': 'others feel',
'xIntent': 'person x wants',
'xWant': 'person x wants',
'oWant': 'others want',
'xNeed': 'person x needs',
'xEffect': 'effect on person x',
'oEffect': 'the effect on others'
}
return KgtkFormat.stringify(mapping[rel])
def row_to_edge(node1, rel, node2, source, cols):
edge = {}
prefix = source.lower()
edge['node1'] = prefix + ':' + node1
edge['relation'] = rel
edge['node2'] = prefix + ':' + node2
edge['node1;label'] = make_node_label(node1)
edge['node2;label'] = make_node_label(node2)
edge['relation;label'] = make_rel_label(rel)
edge['relation;dimension'] = ''
edge['source'] = KgtkFormat.stringify(source)
edge['sentence'] = ''
edge_list = [edge[col] for col in cols]
return edge_list
def run(input_file: KGTKFiles, output_file: KGTKFiles):
# import modules locally
import sys # type: ignore
from kgtk.exceptions import kgtk_exception_auto_handler, KGTKException
import csv
import re
import json
from pathlib import Path
from string import Template
import pandas as pd
from kgtk.kgtkformat import KgtkFormat
from kgtk.io.kgtkwriter import KgtkWriter
def make_node(x):
und_x = x.replace(' ', '_')
pref_und_x = 'at:%s' % und_x
return pref_und_x
def remove_people_mentions(event):
e = event.replace('personx', '').strip()
e = e.replace('persony', '').strip()
e = e.replace('person x', '').strip()
e = e.replace('person y', '').strip()
e = e.replace('the ___', '')
e = e.replace('___', '')
e = e.replace("'s", '')
e = e.replace('to y', '')
return e.strip()
def produce_node_labels(event):
if '\t' in event:
event = event.split('\t')[0]
e1 = event.lower()
e1 = e1.rstrip('.').strip()
e2 = remove_people_mentions(e1)
while ' ' in e2:
e2 = e2.replace(' ', ' ')
if e1 != e2 and e2:
return '|'.join(
[KgtkFormat.stringify(e1),
KgtkFormat.stringify(e2)])
else:
return KgtkFormat.stringify(e1)
def produce_rel_label(rel):
mapping = {
'xAttr': 'person x has attribute',
'oAttr': 'others have attribute',
'xReact': 'person x feels',
'oReact': 'others feel',
'xIntent': 'person x wants',
'xWant': 'person x wants',
'oWant': 'others want',
'xNeed': 'person x needs',
'xEffect': 'effect on person x',
'oEffect': 'the effect on others'
}
return KgtkFormat.stringify(mapping[rel])
try:
filename: Path = KGTKArgumentParser.get_input_file(input_file)
out_columns = [
'node1', 'relation', 'node2', 'node1;label', 'node2;label',
'relation;label', 'relation;dimension', 'source', 'sentence'
]
output_kgtk_file: Path = KGTKArgumentParser.get_output_file(
output_file)
ew: KgtkWriter = KgtkWriter.open(
out_columns,
output_kgtk_file,
#mode=input_kr.mode,
require_all_columns=False,
prohibit_extra_columns=True,
fill_missing_columns=True,
gzip_in_parallel=False,
#verbose=self.verbose,
#very_verbose=self.very_verbose
)
df = pd.read_csv(filename, index_col=0)
df.iloc[:, :9] = df.iloc[:, :9].apply(
lambda col: col.apply(json.loads))
df.drop(df.columns[len(df.columns) - 1], axis=1, inplace=True)
df.drop(df.columns[len(df.columns) - 1], axis=1, inplace=True)
for event, row in df.iterrows():
event_label = produce_node_labels(event)
first_event_label = KgtkFormat.unstringify(
event_label.split('|')[0] if '|' in
event_label else event_label)
n1 = make_node(first_event_label)
for c in df.columns:
for v in row[c]:
if v == 'none': continue
value_label = produce_node_labels(v)
first_value_label = KgtkFormat.unstringify(
value_label.split('|')[0] if '|' in
value_label else value_label)
n2 = make_node(first_value_label)
rel_label = produce_rel_label(c)
sentence = ''
relation = make_node(c)
this_row = [
n1, relation, n2, event_label, value_label, rel_label,
'',
KgtkFormat.stringify('AT'), sentence
]
ew.write(this_row)
# Clean up.
ew.close()
except Exception as e:
raise KGTKException('Error: ' + str(e))
def make_node_label(node):
return KgtkFormat.stringify(node.strip().split('/')[3].replace(
'_', ' '))
def make_rel_label(rel):
return KgtkFormat.stringify(split_camel_case(rel.split('/')[-1]))
def implode_language_qualified_string(
self,
input_line_count: int,
row: typing.List[str],
implosion: typing.Mapping[str, int],
type_name: str,
) -> typing.Tuple[str, bool]:
valid: bool = True
text_idx: int = implosion[KgtkValueFields.TEXT_FIELD_NAME]
text_val: str = row[text_idx]
if len(text_val) == 0:
valid = False
if self.verbose:
print("Input line %d: data type '%s': %s field is empty" %
(input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
elif len(text_val) == 1:
valid = False
if self.verbose:
print("Input line %d: data type '%s': %s field is too short" %
(input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
else:
if not text_val.startswith('"'):
valid = False
if self.verbose:
print(
"Input line %d: data type '%s': %s field does not start with a double quote"
% (input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
if not text_val.endswith('"'):
valid = False
if self.verbose:
print(
"Input line %d: data type '%s': %s field does not end with a double quote"
% (input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
language_idx: int = implosion[KgtkValueFields.LANGUAGE_FIELD_NAME]
language_val: str = self.unwrap(row[language_idx])
if len(language_val) == 0:
valid = False
if self.verbose:
print("Input line %d: data type '%s': %s field is empty" %
(input_line_count, type_name,
KgtkValueFields.LANGUAGE_FIELD_NAME),
file=self.error_file,
flush=True)
suf_idx: int = implosion[KgtkValueFields.LANGUAGE_SUFFIX_FIELD_NAME]
suf: str = self.unwrap(row[suf_idx]) if suf_idx >= 0 else ""
if len(suf) > 0 and not suf.startswith("-"):
# As a siecial favor, we'll accept language suffixes that do not
# start with a dash. We'll prepend the dash.
suf = "-" + suf
value: str = ""
if valid:
# This subterfuge uses Python's literal parser to parse the string.
if not self.escape_pipes:
# ast.literal_eval(...) doesn't treat backslash pipe (\|) as an escaped pipe (|).
# (this is documented behavior) so we will remove escaped pipes manually.
text_val = text_val.replace('\\|', '|')
value = KgtkFormat.stringify(ast.literal_eval(text_val),
language=language_val,
language_suffix=suf)
if valid and self.validate:
kv: KgtkValue = KgtkValue(value, options=self.value_options)
valid = kv.is_language_qualified_string(validate=True)
if not valid:
if self.verbose:
print(
"Input line %d: data type '%s': imploded value '%s' is not a valid language qualified string."
% (input_line_count, type_name, value),
file=self.error_file,
flush=True)
return value, valid
sources=['AT', 'RG', 'CN']
identity_rel='mw:SameAs'
lbl2ids=defaultdict(set)
with open(input_file, 'r') as f:
header=next(f)
for line in f:
data=line.split('\t')
if check_source(data[8], sources):
node1=data[1]
node2=data[3]
if lexical_node(node1):
node1_label=data[4]
lbl2ids[node1_label].add(node1)
if lexical_node(node2):
node2_label=data[5]
lbl2ids[node2_label].add(node2)
print(len(lbl2ids))
with open('tmp/lexical_mappings.tsv', 'w') as w:
w.write(header)
for label, ids in lbl2ids.items():
if len(ids)<=1: continue
list_ids=list(ids)
for i in range(len(list_ids)-1):
edge_id='%s-%s-%s-1' % (list_ids[i], identity_rel, list_ids[i+1])
row=[edge_id, list_ids[i], identity_rel, list_ids[i+1], '', '', '', '', KgtkFormat.stringify('LEX'), '']
w.write('\t'.join(row) + '\n')
def clean(e: str) -> str:
out = e.split(':')[-1].replace('_', ' ')
return KgtkFormat.stringify(
re.sub("([a-z])([A-Z])", "\g<1> \g<2>", out).strip().lower())
def implode_string(
self,
input_line_count: int,
row: typing.List[str],
implosion: typing.Mapping[str, int],
type_name: str,
) -> typing.Tuple[str, bool]:
valid: bool = True
if KgtkValueFields.LANGUAGE_FIELD_NAME in implosion:
language_idx: int = implosion[KgtkValueFields.LANGUAGE_FIELD_NAME]
if language_idx >= 0:
language_val: str = self.unwrap(row[language_idx])
if len(language_val) > 0:
if self.general_strings:
return self.implode_language_qualified_string(
input_line_count, row, implosion, type_name)
else:
valid = False
if self.verbose:
print(
"Input line %d: data type '%s': %s field is not empty"
% (input_line_count, type_name,
KgtkValueFields.LANGUAGE_FIELD_NAME),
file=self.error_file,
flush=True)
text_idx: int = implosion[KgtkValueFields.TEXT_FIELD_NAME]
text_val: str = row[text_idx]
if len(text_val) == 0:
valid = False
if self.verbose:
print("Input line %d: data type '%s': %s field is empty" %
(input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
elif len(text_val) == 1:
valid = False
if self.verbose:
print("Input line %d: data type '%s': %s field is too short" %
(input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
else:
if not text_val.startswith('"'):
valid = False
if self.verbose:
print(
"Input line %d: data type '%s': %s field does not start with a double quote"
% (input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
if not text_val.endswith('"'):
valid = False
if self.verbose:
print(
"Input line %d: data type '%s': %s field does not end with a double quote"
% (input_line_count, type_name,
KgtkValueFields.TEXT_FIELD_NAME),
file=self.error_file,
flush=True)
value: str = ""
if valid:
# This subterfuge uses Python's literal parser to parse the string.
if not self.escape_pipes:
# ast.literal_eval(...) doesn't treat backslash pipe (\|) as an escaped pipe (|).
# (this is documented behavior) so we will remove escaped pipes manually.
text_val = text_val.replace('\\|', '|')
value = KgtkFormat.stringify(ast.literal_eval(text_val))
if valid and self.validate:
kv: KgtkValue = KgtkValue(value, options=self.value_options)
valid = kv.is_string(validate=True)
if not valid:
if self.verbose:
print(
"Input line %d: data type '%s': imploded value '%s' is not a valid string."
% (input_line_count, type_name, value),
file=self.error_file,
flush=True)
return value, valid
def run(input_file: KGTKFiles, attr_syn_file: KGTKFiles):
# import modules locally
import sys # type: ignore
from kgtk.exceptions import kgtk_exception_auto_handler
import csv
import json
import re
from pathlib import Path
from collections import defaultdict
from kgtk.kgtkformat import KgtkFormat
out_columns = [
'node1', 'relation', 'node2', 'node1_label', 'node2_label',
'relation_label', 'relation_dimension', 'source', 'sentence'
]
proximity_relation = '/r/LocatedNear'
property_relation = 'mw:MayHaveProperty'
property_relation_label = KgtkFormat.stringify('may have property')
capableof_relation = '/r/CapableOf'
capableof_relation_label = KgtkFormat.stringify('capable of')
def create_edge(node1, node1_lbl, node2, node2_lbl, rel, rel_lbl,
image_id):
my_row = [
node1, rel, node2, '|'.join(node1_lbl), '|'.join(node2_lbl),
rel_lbl, '',
KgtkFormat.stringify('VG'), ''
]
return '\t'.join(my_row) + '\n'
def header_to_edge(row):
row = [r.replace('_', ';') for r in row]
return '\t'.join(row) + '\n'
def create_uri(ns, rel):
return '%s:%s' % (ns, rel)
try:
scene_graph_filename: Path = KGTKArgumentParser.get_input_file(
input_file)
attr_synsets_filename: Path = KGTKArgumentParser.get_input_file(
attr_syn_file)
with open(scene_graph_filename, 'r') as f:
images_data = json.load(f)
with open(attr_synsets_filename, 'r') as f:
attr_synsets = json.load(f)
sys.stdout.write(header_to_edge(out_columns))
for counter, an_image in enumerate(images_data):
image_id = str(an_image['image_id'])
# OBJECTS
objid2names = defaultdict(list)
objid2syns = {}
rows = []
for o in an_image['objects']:
obj_id = o['object_id']
o_synset = o['synsets']
objid2syns[obj_id] = o_synset
for name in o['names']:
name = name.strip().lower().rstrip('.')
if not name: continue
objid2names[obj_id].append(KgtkFormat.stringify(name))
# ATTRIBUTES
if 'attributes' in o.keys():
for attr in o['attributes']:
attr = attr.lower()
if attr in attr_synsets:
asyn = attr_synsets[attr]
apos = asyn.split('.')[1]
if apos != 'n':
if apos == 'v': # verb
for osyn in o_synset:
if osyn != asyn:
edge_row = create_edge(
'wn:' + osyn,
objid2names[obj_id],
'wn:' + asyn,
[KgtkFormat.stringify(attr)],
capableof_relation,
capableof_relation_label,
image_id)
if edge_row not in rows:
rows.append(edge_row)
else: #adjective
for osyn in o_synset:
if osyn != asyn:
edge_row = create_edge(
'wn:' + osyn,
objid2names[obj_id],
'wn:' + asyn,
[KgtkFormat.stringify(attr)],
property_relation,
property_relation_label,
image_id)
if edge_row not in rows:
rows.append(edge_row)
# RELATIONS
for rel in an_image['relationships']:
#synsets=rel['synsets']
relation_label = KgtkFormat.stringify(
rel['predicate'].lower().strip().strip('.'))
sub_id = rel['subject_id']
sub_names = objid2names[sub_id]
sub_syns = objid2syns[sub_id]
obj_id = rel['object_id']
obj_names = objid2names[obj_id]
obj_syns = objid2syns[obj_id]
for ssyn in sub_syns:
for osyn in obj_syns:
if osyn != ssyn:
edge_row = create_edge('wn:' + ssyn, sub_names,
'wn:' + osyn, obj_names,
proximity_relation,
relation_label, image_id)
if edge_row not in rows:
rows.append(edge_row)
for a_row in rows:
sys.stdout.write(a_row)
except Exception as e:
kgtk_exception_auto_handler(e)
def run(output_file: KGTKFiles):
# import modules locally
import sys # type: ignore
from kgtk.exceptions import kgtk_exception_auto_handler
import json
import nltk
nltk.download("wordnet")
from nltk.corpus import wordnet as wn
from kgtk.kgtkformat import KgtkFormat
from kgtk.io.kgtkwriter import KgtkWriter
def obtain_wordnet_lemmas(syn):
lemmas = []
for lemma in syn.lemma_names():
lemmas.append(KgtkFormat.stringify(lemma.replace('_', ' ')))
return lemmas
def obtain_hypernyms(syn):
hyps = []
for hypernym in syn.hypernyms():
hyps.append(hypernym.name())
return hyps
def obtain_member_holonyms(syn):
hols = []
for hol in syn.member_holonyms():
hols.append(hol.name())
return hols
def obtain_part_holonyms(syn):
hols = []
for hol in syn.part_holonyms():
hols.append(hol.name())
return hols
def obtain_substance_meronyms(syn):
hols = []
for hol in syn.substance_meronyms():
hols.append(hol.name())
return hols
def get_wn_data():
syns = list(wn.all_synsets())
all_labels = {}
all_hyps = {}
all_members = {}
all_parts = {}
all_subs = {}
for syn in syns:
syn_name = syn.name()
lemmas = obtain_wordnet_lemmas(syn)
all_labels[syn_name] = '|'.join(lemmas)
hypernyms = obtain_hypernyms(syn)
if len(hypernyms):
all_hyps[syn_name] = hypernyms
member_holonyms = obtain_member_holonyms(syn)
if len(member_holonyms):
all_members[syn_name] = member_holonyms
part_holonyms = obtain_part_holonyms(syn)
if len(part_holonyms):
all_parts[syn_name] = part_holonyms
substance_meronyms = obtain_substance_meronyms(syn)
if len(substance_meronyms):
all_subs[syn_name] = substance_meronyms
return all_labels, all_hyps, all_members, all_parts, all_subs
def create_edges(data, labels, rel, rel_label):
all_rows = []
source = KgtkFormat.stringify('WN')
for node1, v in data.items():
for node2 in v:
node1_preflabel = labels[node1].split('|')[0]
node2_preflabel = labels[node2].split('|')[0]
a_row = [
'wn:' + node1, rel, 'wn:' + node2, labels[node1],
labels[node2], rel_label, "", source, ''
]
all_rows.append(a_row)
return all_rows
try:
out_columns = [
'node1', 'relation', 'node2', 'node1;label', 'node2;label',
'relation;label', 'relation;dimension', 'source', 'sentence'
]
output_kgtk_file: Path = KGTKArgumentParser.get_output_file(
output_file)
ew: KgtkWriter = KgtkWriter.open(
out_columns,
output_kgtk_file,
#mode=input_kr.mode,
require_all_columns=False,
prohibit_extra_columns=True,
fill_missing_columns=True,
gzip_in_parallel=False,
#verbose=self.verbose,
#very_verbose=self.very_verbose
)
all_labels, all_hyps, all_members, all_parts, all_subs = get_wn_data()
hyp_edges = create_edges(all_hyps, all_labels, '/r/IsA',
KgtkFormat.stringify('is a'))
member_edges = create_edges(all_members, all_labels, '/r/PartOf',
KgtkFormat.stringify('is a part of'))
part_edges = create_edges(all_parts, all_labels, '/r/PartOf',
KgtkFormat.stringify('is a part of'))
sub_edges = create_edges(all_subs, all_labels, '/r/MadeOf',
KgtkFormat.stringify('is made of'))
all_edges = hyp_edges + member_edges + part_edges + sub_edges
for edge in all_edges:
ew.write(edge)
# Clean up.
ew.close()
except Exception as e:
kgtk_exception_auto_handler(e)
def run(input_file: KGTKFiles, attr_syn_file: KGTKFiles,
output_file: KGTKFiles):
# import modules locally
import sys # type: ignore
from kgtk.exceptions import kgtk_exception_auto_handler
import csv
import json
import re
from pathlib import Path
from collections import defaultdict
from kgtk.kgtkformat import KgtkFormat
from kgtk.io.kgtkwriter import KgtkWriter
def create_edge(node1, node1_lbl, node2, node2_lbl, rel, rel_lbl,
image_id):
my_row = [
node1, rel, node2, '|'.join(node1_lbl), '|'.join(node2_lbl),
rel_lbl, '',
KgtkFormat.stringify('VG'), ''
]
return my_row
try:
scene_graph_filename: Path = KGTKArgumentParser.get_input_file(
input_file)
attr_synsets_filename: Path = KGTKArgumentParser.get_input_file(
attr_syn_file)
out_columns = [
'node1', 'relation', 'node2', 'node1;label', 'node2;label',
'relation;label', 'relation;dimension', 'source', 'sentence'
]
output_kgtk_file: Path = KGTKArgumentParser.get_output_file(
output_file)
ew: KgtkWriter = KgtkWriter.open(
out_columns,
output_kgtk_file,
#mode=input_kr.mode,
require_all_columns=False,
prohibit_extra_columns=True,
fill_missing_columns=True,
gzip_in_parallel=False,
#verbose=self.verbose,
#very_verbose=self.very_verbose
)
proximity_relation = '/r/LocatedNear'
property_relation = 'mw:MayHaveProperty'
property_relation_label = KgtkFormat.stringify('may have property')
capableof_relation = '/r/CapableOf'
capableof_relation_label = KgtkFormat.stringify('capable of')
with open(scene_graph_filename, 'r') as f:
images_data = json.load(f)
with open(attr_synsets_filename, 'r') as f:
attr_synsets = json.load(f)
for counter, an_image in enumerate(images_data):
image_id = str(an_image['image_id'])
# OBJECTS
objid2names = defaultdict(list)
objid2syns = {}
rows = []
for o in an_image['objects']:
obj_id = o['object_id']
o_synset = o['synsets']
objid2syns[obj_id] = o_synset
for name in o['names']:
name = name.strip().lower().rstrip('.')
if not name: continue
objid2names[obj_id].append(KgtkFormat.stringify(name))
# ATTRIBUTES
if 'attributes' in o.keys():
for attr in o['attributes']:
attr = attr.lower()
if attr in attr_synsets:
asyn = attr_synsets[attr]
apos = asyn.split('.')[1]
if apos != 'n':
if apos == 'v': # verb
for osyn in o_synset:
if osyn != asyn:
edge_row = create_edge(
'wn:' + osyn,
objid2names[obj_id],
'wn:' + asyn,
[KgtkFormat.stringify(attr)],
capableof_relation,
capableof_relation_label,
image_id)
if edge_row not in rows:
rows.append(edge_row)
else: #adjective
for osyn in o_synset:
if osyn != asyn:
edge_row = create_edge(
'wn:' + osyn,
objid2names[obj_id],
'wn:' + asyn,
[KgtkFormat.stringify(attr)],
property_relation,
property_relation_label,
image_id)
if edge_row not in rows:
rows.append(edge_row)
# RELATIONS
for rel in an_image['relationships']:
#synsets=rel['synsets']
relation_label = KgtkFormat.stringify(
rel['predicate'].lower().strip().strip('.'))
sub_id = rel['subject_id']
sub_names = objid2names[sub_id]
sub_syns = objid2syns[sub_id]
obj_id = rel['object_id']
obj_names = objid2names[obj_id]
obj_syns = objid2syns[obj_id]
for ssyn in sub_syns:
for osyn in obj_syns:
if osyn != ssyn:
edge_row = create_edge('wn:' + ssyn, sub_names,
'wn:' + osyn, obj_names,
proximity_relation,
relation_label, image_id)
if edge_row not in rows:
rows.append(edge_row)
for a_row in rows:
ew.write(a_row)
# Clean up
ew.close()
except Exception as e:
kgtk_exception_auto_handler(e)
def obtain_wordnet_lemmas(syn):
lemmas = []
for lemma in syn.lemma_names():
lemmas.append(KgtkFormat.stringify(lemma.replace('_', ' ')))
return lemmas
def make_node_label(node):
return KgtkFormat.stringify(node[3:])
