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ir_chinese_medqa / utility /utils /dpr.py

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	"""
	Source: DPR Implementation from Facebook Research
	https://github.com/facebookresearch/DPR/tree/master/dpr
	"""

	import string
	import spacy
	import regex
	import unicodedata


	class Tokens(object):
	"""A class to represent a list of tokenized text."""
	TEXT = 0
	TEXT_WS = 1
	SPAN = 2
	POS = 3
	LEMMA = 4
	NER = 5

	def __init__(self, data, annotators, opts=None):
	self.data = data
	self.annotators = annotators
	self.opts = opts or {}

	def __len__(self):
	"""The number of tokens."""
	return len(self.data)

	def slice(self, i=None, j=None):
	"""Return a view of the list of tokens from [i, j)."""
	new_tokens = copy.copy(self)
	new_tokens.data = self.data[i: j]
	return new_tokens

	def untokenize(self):
	"""Returns the original text (with whitespace reinserted)."""
	return ''.join([t[self.TEXT_WS] for t in self.data]).strip()

	def words(self, uncased=False):
	"""Returns a list of the text of each token

	Args:
	uncased: lower cases text
	"""
	if uncased:
	return [t[self.TEXT].lower() for t in self.data]
	else:
	return [t[self.TEXT] for t in self.data]

	def offsets(self):
	"""Returns a list of [start, end) character offsets of each token."""
	return [t[self.SPAN] for t in self.data]

	def pos(self):
	"""Returns a list of part-of-speech tags of each token.
	Returns None if this annotation was not included.
	"""
	if 'pos' not in self.annotators:
	return None
	return [t[self.POS] for t in self.data]

	def lemmas(self):
	"""Returns a list of the lemmatized text of each token.
	Returns None if this annotation was not included.
	"""
	if 'lemma' not in self.annotators:
	return None
	return [t[self.LEMMA] for t in self.data]

	def entities(self):
	"""Returns a list of named-entity-recognition tags of each token.
	Returns None if this annotation was not included.
	"""
	if 'ner' not in self.annotators:
	return None
	return [t[self.NER] for t in self.data]

	def ngrams(self, n=1, uncased=False, filter_fn=None, as_strings=True):
	"""Returns a list of all ngrams from length 1 to n.

	Args:
	n: upper limit of ngram length
	uncased: lower cases text
	filter_fn: user function that takes in an ngram list and returns
	True or False to keep or not keep the ngram
	as_string: return the ngram as a string vs list
	"""

	def _skip(gram):
	if not filter_fn:
	return False
	return filter_fn(gram)

	words = self.words(uncased)
	ngrams = [(s, e + 1)
	for s in range(len(words))
	for e in range(s, min(s + n, len(words)))
	if not _skip(words[s:e + 1])]

	# Concatenate into strings
	if as_strings:
	ngrams = ['{}'.format(' '.join(words[s:e])) for (s, e) in ngrams]

	return ngrams

	def entity_groups(self):
	"""Group consecutive entity tokens with the same NER tag."""
	entities = self.entities()
	if not entities:
	return None
	non_ent = self.opts.get('non_ent', 'O')
	groups = []
	idx = 0
	while idx < len(entities):
	ner_tag = entities[idx]
	# Check for entity tag
	if ner_tag != non_ent:
	# Chomp the sequence
	start = idx
	while (idx < len(entities) and entities[idx] == ner_tag):
	idx += 1
	groups.append((self.slice(start, idx).untokenize(), ner_tag))
	else:
	idx += 1
	return groups


	class Tokenizer(object):
	"""Base tokenizer class.
	Tokenizers implement tokenize, which should return a Tokens class.
	"""

	def tokenize(self, text):
	raise NotImplementedError

	def shutdown(self):
	pass

	def __del__(self):
	self.shutdown()


	class SimpleTokenizer(Tokenizer):
	ALPHA_NUM = r'[\p{L}\p{N}\p{M}]+'
	NON_WS = r'[^\p{Z}\p{C}]'

	def __init__(self, **kwargs):
	"""
	Args:
	annotators: None or empty set (only tokenizes).
	"""
	self._regexp = regex.compile(
	'(%s)\|(%s)' % (self.ALPHA_NUM, self.NON_WS),
	flags=regex.IGNORECASE + regex.UNICODE + regex.MULTILINE
	)
	if len(kwargs.get('annotators', {})) > 0:
	logger.warning('%s only tokenizes! Skipping annotators: %s' %
	(type(self).__name__, kwargs.get('annotators')))
	self.annotators = set()

	def tokenize(self, text):
	data = []
	matches = [m for m in self._regexp.finditer(text)]
	for i in range(len(matches)):
	# Get text
	token = matches[i].group()

	# Get whitespace
	span = matches[i].span()
	start_ws = span[0]
	if i + 1 < len(matches):
	end_ws = matches[i + 1].span()[0]
	else:
	end_ws = span[1]

	# Format data
	data.append((
	token,
	text[start_ws: end_ws],
	span,
	))
	return Tokens(data, self.annotators)


	def has_answer(tokenized_answers, text):
	text = DPR_normalize(text)

	for single_answer in tokenized_answers:
	for i in range(0, len(text) - len(single_answer) + 1):
	if single_answer == text[i: i + len(single_answer)]:
	return True

	return False


	def locate_answers(tokenized_answers, text):
	"""
	Returns each occurrence of an answer as (offset, endpos) in terms of characters.
	"""
	tokenized_text = DPR_tokenize(text)
	occurrences = []

	text_words, text_word_positions = tokenized_text.words(uncased=True), tokenized_text.offsets()
	answers_words = [ans.words(uncased=True) for ans in tokenized_answers]

	for single_answer in answers_words:
	for i in range(0, len(text_words) - len(single_answer) + 1):
	if single_answer == text_words[i: i + len(single_answer)]:
	(offset, _), (_, endpos) = text_word_positions[i], text_word_positions[i+len(single_answer)-1]
	occurrences.append((offset, endpos))

	return occurrences


	STokenizer = SimpleTokenizer()


	def DPR_tokenize(text):
	return STokenizer.tokenize(unicodedata.normalize('NFD', text))


	def DPR_normalize(text):
	return DPR_tokenize(text).words(uncased=True)


	# Source: https://github.com/shmsw25/qa-hard-em/blob/master/prepro_util.py
	def strip_accents(text):
	"""Strips accents from a piece of text."""
	text = unicodedata.normalize("NFD", text)
	output = []
	for char in text:
	cat = unicodedata.category(char)
	if cat == "Mn":
	continue
	output.append(char)
	return "".join(output)