def When_module(sent, sent_features):
question = []
structures = []
sNLP = StanfordNLP()
# print(sent_features)
# dep_parse = sNLP.dependency_parse(sent)
# dep_parse = dep_parse.__next__()
#
# dep_parse_list = list(dep_parse.triples())
parse = sNLP.parse(sent)
# parse.pretty_print()
# for t in dep_parse_list:
# print(t)
# print(sNLP.ner(sent))
# print(sNLP.pos(sent))
when_parseTraversal(sent, parse, question, structures)
# print(question)
# print(structures)
prev_min = float('Inf')
if len(structures) > 0:
whenPhrase = ""
for t in structures:
if t[1] < prev_min:
whenPhrase = t[0]
prev_min = t[1]
# print(sent)
# print(whenPhrase)
thisQ = sent.replace(whenPhrase, "")
dep_tree = sNLP.dependency_parse(thisQ)
dep_tree = dep_tree.__next__()
dep_tree_list = list(dep_tree.triples())
# for t in dep_tree_list:
# print(t)
return construct_when(thisQ, dep_tree_list)
for q in question:
dep_tree = sNLP.dependency_parse(q)
dep_tree = dep_tree.__next__()
dep_tree_list = list(dep_tree.triples())
# for t in dep_tree_list:
# print(t)
return construct_when(q, dep_tree_list)
# print()
pass
def Where_Which_module(sent, sent_features):
question = []
simple_ques = []
sNLP = StanfordNLP()
# print(sent_features)
# dep_parse = sNLP.dependency_parse(sent)
# dep_parse = dep_parse.__next__()
#
# dep_parse_list = list(dep_parse.triples())
parse = sNLP.parse(sent)
# parse.pretty_print()
#
# for t in dep_parse_list:
# print(t)
# print(sNLP.ner(sent))
# print(sNLP.pos(sent))
where_which_inFirstPP(sent, parse, simple_ques)
if len(simple_ques) > 0:
for bool, thisSent, nerSet, thisPP in simple_ques:
dep_tree = sNLP.dependency_parse(thisSent)
dep_tree = dep_tree.__next__()
dep_tree_list = list(dep_tree.triples())
# for t in dep_tree_list:
# print(t)
if bool:
case = thisPP.split(" ")[0]
type = ""
if "COUNTRY" in nerSet:
type = "country"
elif "LOCATION" in nerSet:
type = "location"
elif "CITY" in nerSet:
type = "city"
else:
type = "place"
return([construct_where_which(thisSent, dep_tree_list,case,type)])
else:
where_which_parseTraversal(thisSent, dep_tree_list, sNLP.ner(thisSent), question)
return(question)
class QA():
def __init__(self):
self.sNLP = StanfordNLP()
self.dropType = {}
self.typeNer = {}
self.typePro = {}
self.initQstType()
self.candidateAnswer = []
self.candidateSentence = []
self.qgPipeline = QGPipeline()
self.threshold = 90
def initQstType(self):
self.typeSet = ['WHADJP', 'WHADVP', 'WHPP', 'WHAVP', 'WHNP']
self.dropType['WHADJP'] = ['NP', 'CD']
self.dropType['WHAVP'] = ['PP', 'SBAR']
self.dropType['WHADVP'] = ['PP', 'SBAR']
self.dropType['WHPP'] = ['PP']
self.dropType['WHNP'] = ['NP']
self.dropType['UK'] = ['NP', 'NN']
self.auxWord = ['did', 'do', 'does', 'is', 'are', 'were', 'was']
self.typePro['where'] = ['in', 'at', 'on', 'behind', 'next']
self.typeNer['when'] = ['DATE']
self.typeNer['where'] = [
'CITY', 'STATE_OR_PROVINCE', 'ORGANIZATION', 'LOCATION', 'COUNTRY'
]
def decideType(self, myParent):
if self.qstFlag:
return
for node in myParent:
#node.pretty_print()
if self.qstFlag:
return
if isinstance(node, str): continue
if node.label() in self.typeSet:
self.thisType = node.label()
myParent.remove(node)
self.qstFlag = True
self.decideType(node)
if node.label() == 'ROOT':
self.qstSim = node.leaves()
self.qstSim = ' '.join(self.qstSim[:-1])
def parseDep(self, x):
a = x[0][0].lower()
a = WordNetLemmatizer().lemmatize(a)
b = x[2][0].lower()
b = WordNetLemmatizer().lemmatize(b)
return (a, b)
def bin_answer(self, question, sent):
#print(question, sent)
qstTree = self.sNLP.dependency_parse(question)
qstTree = qstTree.__next__()
qstTree = list(qstTree.triples())
sentTree = self.sNLP.dependency_parse(sent)
sentTree = sentTree.__next__()
sentTree = list(sentTree.triples())
#print(qstTree, sentTree)
qstSub = []
sentSub = []
flag = False
neg = False
for x in qstTree:
# print(x)
if x[1] in ['nsubj', 'nsubjpass', 'csubj', 'csubjpass']:
qstSub.append(self.parseDep(x))
if x[1] == 'neg':
neg = True
for x in sentTree:
if x[1] in ['nsubj', 'nsubjpass', 'csubj', 'csubjpass']:
sentSub.append(self.parseDep(x))
if self.parseDep(x) in qstSub:
flag = True
#print(qstSub)
#print(sentSub)
if flag:
if neg:
return ('No', 100)
else:
return ('Yes', 100)
bin_tags = set(
["did", 'do', 'does', 'are', 'is', 'have', 'was', 'were', 'has'])
question = question.lower()
sent = sent.lower()
q_tokens = word_tokenize(question)
s_tokens = word_tokenize(sent)
negations = set(['not', 'never', "aren't"])
ans = ''
# case 1: negations
for neg in negations:
if (neg in q_tokens) and (neg not in s_tokens):
if ans == "No":
ans = "Yes"
else:
ans = "No"
if (neg in q_tokens) and (neg in s_tokens):
if ans == "Yes":
ans = "No"
else:
ans = "Yes"
# case 2: similarity
sim = fuzz.partial_ratio(question, sent)
if sim > 90:
ans = "Yes"
else:
ans = "No"
return (ans, sim)
def qstType(self, qst):
self.thisType = 'UK'
self.qstFlag = False
self.qstSim = None
tree = self.sNLP.parser_sents([
qst,
])
for i in tree:
self.decideType(i)
def fitness(self, txt, qst):
self.qstType(qst)
if self.thisType == 'UK':
_, sim = self.bin_answer(qst, txt)
return sim > self.threshold
qstType = self.thisType
self.candidateAnswer = []
self.candidateSentence = []
extendList = []
for thisSent in [txt]:
extendList.append(thisSent)
thisParseTree = self.qgPipeline.getParseTree(thisSent)
no_conj_list = self.qgPipeline.splitConj(thisParseTree)
simpl_sents = self.qgPipeline.simplify_sentence(no_conj_list)
for i in simpl_sents:
extendList.append(i)
# pdb.set_trace()
for txt in extendList:
# print(txt)
tree = self.sNLP.parser_sents([
txt,
])
for i in tree:
self.dropTotal = 0
self.dropFlag = 1
while self.dropFlag:
self.findFlag = 0
nowTree = copy.deepcopy(i)
self.dropTime = 0
nowTree = self.dropFragment(nowTree, qstType)
if self.dropTime <= self.dropTotal:
self.dropFlag = 0
self.dropTotal += 1
best_dis = 0
best_ans = '_'
best_candi = None
best_sen = None
for i in range(len(self.candidateSentence)):
nowSentence = ' '.join(self.candidateSentence[i])
score = fuzz.partial_ratio(self.qstSim, nowSentence)
this_ans = ' '.join(self.candidateAnswer[i])
# print(this_ans, best_ans, score, best_dis)
if self.qstSim == None: continue
if this_ans == None: continue
if (score >= best_dis):
if score == best_dis and len(this_ans) >= len(
best_ans) and self.thisType in ['WHADVP', 'WHPP']:
continue
if score == best_dis and len(this_ans) <= len(
best_ans) and self.thisType in ['WHNP']:
continue
best_dis = score
best_sen = nowSentence
best_ans = this_ans
return self.threshold < best_dis
def dropFragment(self, myParent, qstType):
flag = 0
for node in myParent:
if isinstance(node, str): continue
if self.dropTime > self.dropTotal:
return
if node.label() in self.dropType[qstType]:
self.dropTime += 1
if self.dropTime > self.dropTotal:
myParent.remove(node)
self.candidateAnswer.append(node.leaves())
self.findFlag = 1
return
self.dropFragment(node, qstType)
if node.label() == 'ROOT' and self.findFlag:
# print(node.leaves())
self.candidateSentence.append(node.leaves())
def findFragment(self, myParent, qstType):
for node in myParent:
if isinstance(node, str): continue
# node.pretty_print()
if node.label() in self.dropType[qstType]:
self.candidateAnswer.append((node.leaves(), node.label()))
self.findFragment(node, qstType)
def answerSpecial(self, txtList, tokens, qstType):
# print(tokens[0])
self.candidateAnswer = []
self.finalAnswer = []
self.candidateSentence = []
for txt in txtList:
tree = self.sNLP.parser_sents([
txt,
])
for i in tree:
self.findFragment(i, qstType)
for i in self.candidateAnswer:
sentence = ' '.join(i[0])
pos_tag = self.sNLP.ner(sentence)
print(pos_tag)
if pos_tag[1][1] in self.typeNer[qstType]:
# print(pos_tag)
self.finalAnswer.append(sentence)
print(self.finalAnswer[0])
def preProcessText(self, text):
data = re.sub("\(.*\)", "", text)
data = re.sub(' +', ' ', data).strip()
return data
def answer(self, txtList, qst):
self.head = word_tokenize(qst)[0].lower()
self.qstType(qst)
if self.thisType == 'UK':
best_score = 0
best_ans = 'Yes'
best_sent = '_'
for txt in txtList:
ans, sim = self.bin_answer(qst, txt)
if sim > best_score:
best_ans = ans
best_score = sim
best_sent = txt
#print('=======')
#print(best_sent)
#print(qst)
print(best_ans + '.')
#print(best_score)
#print('=======')
return
qstType = self.thisType
self.candidateAnswer = []
self.candidateSentence = []
extendList = []
for thisSent in txtList:
thisSent = self.preProcessText(thisSent)
if (len(word_tokenize(thisSent)) < 4
or len(word_tokenize(thisSent)) > 25):
continue
extendList.append(thisSent)
thisParseTree = self.qgPipeline.getParseTree(thisSent)
no_conj_list = self.qgPipeline.splitConj(thisParseTree)
simpl_sents = self.qgPipeline.simplify_sentence(no_conj_list)
for i in simpl_sents:
extendList.append(i)
# pdb.set_trace()
for txt in extendList:
# print(txt)
tree = self.sNLP.parser_sents([
txt,
])
for i in tree:
self.dropTotal = 0
self.dropFlag = 1
while self.dropFlag:
self.findFlag = 0
nowTree = copy.deepcopy(i)
self.dropTime = 0
nowTree = self.dropFragment(nowTree, qstType)
if self.dropTime <= self.dropTotal:
self.dropFlag = 0
self.dropTotal += 1
best_dis = 0
best_candi = None
best_sen = None
best_ans = '_'
for i in range(len(self.candidateSentence)):
nowSentence = ' '.join(self.candidateSentence[i])
# print(nowSentence)
# print(self.qstSim)
score = fuzz.partial_ratio(self.qstSim, nowSentence)
# print(score)
# print('----------')
this_ans = ' '.join(self.candidateAnswer[i])
# print(this_ans, best_ans, score, best_dis)
if self.qstSim == None: continue
if this_ans == None: continue
if (score >= best_dis):
if score == best_dis and len(this_ans) >= len(
best_ans) and self.thisType in ['WHADVP', 'WHPP']:
continue
if score == best_dis and len(this_ans) <= len(
best_ans) and self.thisType in ['WHNP']:
continue
if self.head == 'who':
ners = getExhaustiveNERs(this_ans)
#print(this_ans, ners[0])
if 'PERSON' not in ners[0] and 'ORGANIZATION' not in ners[
0]:
if score - best_dis < 10:
continue
else:
score = score - 10
if self.head == 'when':
ners = getExhaustiveNERs(this_ans)
if 'DATE' not in ners[0]:
if score - best_dis < 10:
continue
else:
score = score - 10
if self.head == 'where':
ners = getExhaustiveNERs(this_ans)
if 'LOCATION' not in ners[0] and 'CITY' not in ners[
0] and 'ORGANIZATION' not in ners[
0] and 'STATE_OR_PROVINCE' not in ners[
0] and 'COUNTRY' not in ners[0]:
if score - best_dis < 10:
continue
else:
score = score - 10
best_dis = score
best_sen = nowSentence
best_ans = this_ans
#print('++++++++++++++++++')
#print(qst)
#print(best_dis)
#print(best_sen)
if best_ans == '_':
print('I cannot answer that question: ' + qst)
else:
print(best_ans.capitalize() + '.')
#print('++++++++++++++++++')
def edit_distance(self, s1, s2):
if len(s1) < len(s2):
return self.edit_distance(s2, s1)
# len(s1) >= len(s2)
if len(s2) == 0:
return len(s1)
previous_row = range(len(s2) + 1)
for i, c1 in enumerate(s1):
c1 = c1.lower()
current_row = [i + 1]
for j, c2 in enumerate(s2):
c2 = c2.lower()
insertions = previous_row[
j +
1] + 1 # j+1 instead of j since previous_row and current_row are one character longer
deletions = current_row[j] + 1 # than s2
substitutions = previous_row[j] + (c1 != c2)
current_row.append(min(insertions, deletions, substitutions))
previous_row = current_row
return previous_row[-1]
for i in range(len(self.candidateSentence)):
nowSentence = self.candidateSentence[i]
score = self.edit_distance(nowSentence, tokens)
best_candi = ' '.join(nowSentence)
this_ans = ' '.join(self.candidateAnswer[i])
if (score < best_dis
or (score == best_dis and len(this_ans) < len(best_ans))):
best_dis = score
best_ans = this_ans
return best_dis
class QuestionGeneration:
def __init__(self):
self.sNLP = StanfordNLP()
self.beVerbs = {"am", "is", "are", "was", "were"}
# self.aux_verbs = {'is', 'were', 'can', 'could', }
def auxilaryWord(self, sub, POS_tag):
# TODO lowercase
# TODO will may...
# TODO plural...
# Jerry and I
if sub.lower() in ('i', 'they', 'you'):
return 'do'
if sub.lower() in ('he', 'she'):
return 'does'
def beWork(self, sentence):
# pos = nltk.pos_tag(sentence)
j = None
for i in range(len(sentence) - 1):
if sentence[i] in self.beVerbs:
j = i
break
if j is not None:
temp = sentence[j]
sentence.pop(j)
sentence.insert(0, temp)
#print(sentence)
return sentence
return
# def getNounandVerbOfSentence(self, sentence):
def QG(self, text):
dep_parse_Tree = self.sNLP.dependency_parse(text)
dep_parse_Tree = dep_parse_Tree.__next__()
Ques_list = []
# Yes or No question
be_question = self.beWork(text)
if be_question is not None:
be_question += '?'
Ques_list.append(be_question)
# WHO question for Subject
# create NER tags
ner_tags = dict(self.sNLP.ner(text))
pos_tag = self.sNLP.pos(text)
#print(ner_tags)
# get triples list of the dependency tree
triples_list = list(dep_parse_Tree.triples())
#print(triples_list)
##### LOOP THRU DEPENDENCY TREE AND CREATE QUESTIONS
auxWord = 'xxx'
for this in triples_list:
# print(this)
temp_text = '?'
# for the subject question
if this[1] in ['nsubj', 'csubj', 'nsubjpass']:
subject = None
sub_pos = None
# in order of preference
if this[2][1] in ['NNP', 'NNPS', 'PRP']:
subject = this[2][0]
sub_pos = this[2][1]
elif this[0][1] in ['NNP', 'NNPS']:
subject = this[0][0]
sub_pos = this[0][1]
elif this[2][1] in ['NN', 'NNS']:
subject = this[2][0]
sub_pos = this[2][1]
#print("sub", subject)
if subject is not None: # need to add sub_pos
auxWord = self.auxilaryWord(subject, sub_pos)
if ner_tags[subject] in ['PERSON', 'TITLE', 'MISC'
]: # check if its a PERSON NER
temp_text = self.contructQ(triples_list, subject, text,
None)
temp_text = temp_text.replace(subject, "Who").replace(
" .", "?") # create question
# some string manipulation to get the ?
if "?" not in temp_text:
temp_text = temp_text + "?"
# print(text.replace(subject, "Who").replace(" .", "?"))
if ner_tags[
subject] == 'ORGANIZATION': # if the subject is ORG
temp_text = text.replace(subject,
"Which organization").replace(
" .", "?")
if ner_tags[subject] == 'CITY': # if the subject is CITY
temp_text = text.replace(subject,
"Which city").replace(
" .", "?")
if ner_tags[
subject] == 'COUNTRY': # if the subject is CITY
temp_text = text.replace(subject,
"Which country").replace(
" .", "?")
if this[2][1] in ['PRP']: # if the subject is preposition
temp_text = text.replace(subject,
"Who").replace(" .", "?")
if ner_tags[subject] in [
'O', 'LOCATION'
] and temp_text == '?': # if the subject is Other
temp_text = self.contructQ(triples_list, subject, text,
None)
if sub_pos == 'PRP' and subject.lower() in [
'they', 'he', 'she'
]:
temp_text = temp_text.replace(subject,
"Who").replace(
" .", "?")
else:
temp_text = temp_text.replace(subject,
"What").replace(
" .", "?")
# for number, How many questions
elif this[1] in ['nummod']:
numPhrase = this[2][0] + ' ' + this[0][0]
targetWord = this[2][0]
if ner_tags[targetWord] in ('NUMBERS'):
temp_text = text.replace(numPhrase, "").replace(" .", "?")
temp_text = "How many " + this[0][0] + " " + (
auxWord
if auxWord is not None else "") + " " + temp_text
# for possessive questions
elif this[1] in ['nmod:poss']:
if this[2][1] in ['NNP']:
# if this[2][0][-1] == 's':
# poss_word = this[2][0]
# else:
poss_word = this[2][0] #+ " 's"
temp_text = self.contructQ(triples_list, this[2][0], text,
None)
temp_text = temp_text.replace(poss_word, "Whose").replace(
" .", "?").replace("'s", "").replace(" '", "")
if not temp_text.startswith("Whose"):
temp_text = temp_text.replace("Whose",
"whose").replace(
" '", "")
# for prop questions
elif this[1] in ('case'):
subject = this[0][0]
propPhrase = this[2][0] + ' ' + this[0][0]
# print(propPhrase)
if ner_tags[subject] in ['CITY']: # where
temp_text = text.replace(propPhrase, "").replace(
" .", "?") # create question
temp_text = "Where " + (auxWord if auxWord is not None else
"") + " " + temp_text
# some string manipulation to get the ?
if ner_tags[subject] in ['DATE']: # when
temp_text = text.replace(propPhrase, "").replace(" .", "?")
# print(auxWord, temp_text)
temp_text = "When " + (auxWord if auxWord is not None else
"") + " " + temp_text
elif this[1] in ('iobj', 'dobj'):
# code to be written for questions on direct and indirect Objects
pass
#### endif
if "?" not in temp_text:
temp_text = temp_text + "?"
if temp_text != '?':
# print(temp_text)
Ques_list.append(temp_text)
return (Ques_list)
#### in case of the subject has modifiers or the Subject is a part of a long NP remove all the related modifiers of the subject with the help of dependency tree
#### same to be replicated for Object as well
def contructQ(self, list_triples, subject, text, object):
if subject is not None:
text = text[text.find(
subject
):] ## removing unnecessary determinants (a, the, An) by slicing off until the subject word
# print(text)
dict_of_words_removed = {
} # subject related word removal to construct a question
for thisTriple in list_triples: ## loop thru dependency tree
if thisTriple[0][0] == subject or thisTriple[0][
0] in dict_of_words_removed:
if thisTriple[1] not in ['nsubj', 'csubj']:
if (thisTriple[2][0]).lower() not in [
'the', 'a', 'an'
]: # skipping determinants as they can be present in other places of the sentence as well
text = re.sub(
' +',
' ', text.replace(thisTriple[2][0], '')).strip(
) # removing subject related words
dict_of_words_removed[thisTriple[2][
0]] = 0 # adding the removed word so that other words that are connected to this can also be removed
return (text)