DeepMoji / torchmoji /create_vocab.py
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# -*- coding: utf-8 -*-
from __future__ import print_function, division
import glob
import json
import uuid
from copy import deepcopy
from collections import defaultdict, OrderedDict
import numpy as np
from torchmoji.filter_utils import is_special_token
from torchmoji.word_generator import WordGenerator
from torchmoji.global_variables import SPECIAL_TOKENS, VOCAB_PATH
class VocabBuilder():
""" Create vocabulary with words extracted from sentences as fed from a
word generator.
"""
def __init__(self, word_gen):
# initialize any new key with value of 0
self.word_counts = defaultdict(lambda: 0, {})
self.word_length_limit=30
for token in SPECIAL_TOKENS:
assert len(token) < self.word_length_limit
self.word_counts[token] = 0
self.word_gen = word_gen
def count_words_in_sentence(self, words):
""" Generates word counts for all tokens in the given sentence.
# Arguments:
words: Tokenized sentence whose words should be counted.
"""
for word in words:
if 0 < len(word) and len(word) <= self.word_length_limit:
try:
self.word_counts[word] += 1
except KeyError:
self.word_counts[word] = 1
def save_vocab(self, path=None):
""" Saves the vocabulary into a file.
# Arguments:
path: Where the vocabulary should be saved. If not specified, a
randomly generated filename is used instead.
"""
dtype = ([('word','|S{}'.format(self.word_length_limit)),('count','int')])
np_dict = np.array(self.word_counts.items(), dtype=dtype)
# sort from highest to lowest frequency
np_dict[::-1].sort(order='count')
data = np_dict
if path is None:
path = str(uuid.uuid4())
np.savez_compressed(path, data=data)
print("Saved dict to {}".format(path))
def get_next_word(self):
""" Returns next tokenized sentence from the word geneerator.
# Returns:
List of strings, representing the next tokenized sentence.
"""
return self.word_gen.__iter__().next()
def count_all_words(self):
""" Generates word counts for all words in all sentences of the word
generator.
"""
for words, _ in self.word_gen:
self.count_words_in_sentence(words)
class MasterVocab():
""" Combines vocabularies.
"""
def __init__(self):
# initialize custom tokens
self.master_vocab = {}
def populate_master_vocab(self, vocab_path, min_words=1, force_appearance=None):
""" Populates the master vocabulary using all vocabularies found in the
given path. Vocabularies should be named *.npz. Expects the
vocabularies to be numpy arrays with counts. Normalizes the counts
and combines them.
# Arguments:
vocab_path: Path containing vocabularies to be combined.
min_words: Minimum amount of occurences a word must have in order
to be included in the master vocabulary.
force_appearance: Optional vocabulary filename that will be added
to the master vocabulary no matter what. This vocabulary must
be present in vocab_path.
"""
paths = glob.glob(vocab_path + '*.npz')
sizes = {path: 0 for path in paths}
dicts = {path: {} for path in paths}
# set up and get sizes of individual dictionaries
for path in paths:
np_data = np.load(path)['data']
for entry in np_data:
word, count = entry
if count < min_words:
continue
if is_special_token(word):
continue
dicts[path][word] = count
sizes[path] = sum(dicts[path].values())
print('Overall word count for {} -> {}'.format(path, sizes[path]))
print('Overall word number for {} -> {}'.format(path, len(dicts[path])))
vocab_of_max_size = max(sizes, key=sizes.get)
max_size = sizes[vocab_of_max_size]
print('Min: {}, {}, {}'.format(sizes, vocab_of_max_size, max_size))
# can force one vocabulary to always be present
if force_appearance is not None:
force_appearance_path = [p for p in paths if force_appearance in p][0]
force_appearance_vocab = deepcopy(dicts[force_appearance_path])
print(force_appearance_path)
else:
force_appearance_path, force_appearance_vocab = None, None
# normalize word counts before inserting into master dict
for path in paths:
normalization_factor = max_size / sizes[path]
print('Norm factor for path {} -> {}'.format(path, normalization_factor))
for word in dicts[path]:
if is_special_token(word):
print("SPECIAL - ", word)
continue
normalized_count = dicts[path][word] * normalization_factor
# can force one vocabulary to always be present
if force_appearance_vocab is not None:
try:
force_word_count = force_appearance_vocab[word]
except KeyError:
continue
#if force_word_count < 5:
#continue
if word in self.master_vocab:
self.master_vocab[word] += normalized_count
else:
self.master_vocab[word] = normalized_count
print('Size of master_dict {}'.format(len(self.master_vocab)))
print("Hashes for master dict: {}".format(
len([w for w in self.master_vocab if '#' in w[0]])))
def save_vocab(self, path_count, path_vocab, word_limit=100000):
""" Saves the master vocabulary into a file.
"""
# reserve space for 10 special tokens
words = OrderedDict()
for token in SPECIAL_TOKENS:
# store -1 instead of np.inf, which can overflow
words[token] = -1
# sort words by frequency
desc_order = OrderedDict(sorted(self.master_vocab.items(),
key=lambda kv: kv[1], reverse=True))
words.update(desc_order)
# use encoding of up to 30 characters (no token conversions)
# use float to store large numbers (we don't care about precision loss)
np_vocab = np.array(words.items(),
dtype=([('word','|S30'),('count','float')]))
# output count for debugging
counts = np_vocab[:word_limit]
np.savez_compressed(path_count, counts=counts)
# output the index of each word for easy lookup
final_words = OrderedDict()
for i, w in enumerate(words.keys()[:word_limit]):
final_words.update({w:i})
with open(path_vocab, 'w') as f:
f.write(json.dumps(final_words, indent=4, separators=(',', ': ')))
def all_words_in_sentences(sentences):
""" Extracts all unique words from a given list of sentences.
# Arguments:
sentences: List or word generator of sentences to be processed.
# Returns:
List of all unique words contained in the given sentences.
"""
vocab = []
if isinstance(sentences, WordGenerator):
sentences = [s for s, _ in sentences]
for sentence in sentences:
for word in sentence:
if word not in vocab:
vocab.append(word)
return vocab
def extend_vocab_in_file(vocab, max_tokens=10000, vocab_path=VOCAB_PATH):
""" Extends JSON-formatted vocabulary with words from vocab that are not
present in the current vocabulary. Adds up to max_tokens words.
Overwrites file in vocab_path.
# Arguments:
new_vocab: Vocabulary to be added. MUST have word_counts populated, i.e.
must have run count_all_words() previously.
max_tokens: Maximum number of words to be added.
vocab_path: Path to the vocabulary json which is to be extended.
"""
try:
with open(vocab_path, 'r') as f:
current_vocab = json.load(f)
except IOError:
print('Vocabulary file not found, expected at ' + vocab_path)
return
extend_vocab(current_vocab, vocab, max_tokens)
# Save back to file
with open(vocab_path, 'w') as f:
json.dump(current_vocab, f, sort_keys=True, indent=4, separators=(',',': '))
def extend_vocab(current_vocab, new_vocab, max_tokens=10000):
""" Extends current vocabulary with words from vocab that are not
present in the current vocabulary. Adds up to max_tokens words.
# Arguments:
current_vocab: Current dictionary of tokens.
new_vocab: Vocabulary to be added. MUST have word_counts populated, i.e.
must have run count_all_words() previously.
max_tokens: Maximum number of words to be added.
# Returns:
How many new tokens have been added.
"""
if max_tokens < 0:
max_tokens = 10000
words = OrderedDict()
# sort words by frequency
desc_order = OrderedDict(sorted(new_vocab.word_counts.items(),
key=lambda kv: kv[1], reverse=True))
words.update(desc_order)
base_index = len(current_vocab.keys())
added = 0
for word in words:
if added >= max_tokens:
break
if word not in current_vocab.keys():
current_vocab[word] = base_index + added
added += 1
return added