def __init__(self, news_path=defaults.NEWS_PATH,
tweets_path=defaults.TWEETS_PATH,
resolve_url_map_path=defaults.RESOLVE_URL_MAP_PATH,
fraction=defaults.DATASET_FRACTION,
init_by_prepared_tweets=None,
percent_of_unique_words=0.0):
self.type = 'auto' if init_by_prepared_tweets is None else 'manual'
self.news = load('cutted_news_storage')#NewsStorage(news_path)
self.tweets = TweetsStorage(tweets_path, fraction, init_by_prepared_tweets)
self.text_to_text_links = None
self.percent_of_unique_words = percent_of_unique_words
if self.type == 'auto':
url_resolver = UrlResolver(resolve_url_map_path)
self.tweets.resolve_urls(url_resolver)
self.tweets.filter(self.news)
#print self.tweets.length()
if self.percent_of_unique_words > 0.0:
self.tweets.filter_not_unique_tweets(self.news, self.percent_of_unique_words)
#print self.tweets.length()
self.lemmatized_texts = lemmatize_texts(self.get_texts())
self.corpus, self.tf_idf_matrix = build_tf_idf_matrix(self.lemmatized_texts)
logging.info('Dataset {NAME} builded and consist of {NUM_TWEETS} tweets and {NUM_NEWS} news'.format(
NAME=self.name(),
NUM_TWEETS=self.tweets.length(),
NUM_NEWS=self.news.length()))
def main():
args = parse_args()
logging.info('--------------- Twnews started ------------------')
if args.subparser == 'tweets_sample':
log_and_print(logging.INFO, 'get sample of random tweets')
length = args.length
tweets_filepath = args.tweets
tweets_dirname, tweets_filename = split_filepath(tweets_filepath)
storage = TweetsStorage(defaults.TWEETS_PATH, num_of_documents=length, sorted_keys=False)
dump(storage.get_documents(), tweets_filename, tweets_dirname)
# with open(tweets_filepath, 'w') as f:
# for doc in storage.get_documents():
# f.write('{ID} {TEXT}\n'.format(ID=doc.tweet_id, TEXT=str(doc).replace('\n',' ')))
log_and_print(logging.INFO, 'sample generated and saved at {PATH}'.format(PATH=tweets_filepath))
elif args.subparser == 'resolver':
log_and_print(logging.INFO, 'url resolver')
if args.resolve:
log_and_print(logging.INFO, 'resolve all urls')
resolve(sample_size=None)
log_and_print(logging.INFO, 'all urls resolved')
elif args.analyze:
log_and_print(logging.INFO, 'stats of resolved urls')
url_analyse()
elif args.subparser == 'build_dataset':
log_and_print(logging.INFO, 'building automatic dataset')
dataset_filepath = args.dataset
dataset_dirname, dataset_filename = split_filepath(dataset_filepath)
unique_words = args.unique_words
dataset = Dataset(fraction=1, percent_of_unique_words=unique_words)
dataset.init_text_to_text_links()
dump(dataset, dataset_filename, dataset_dirname)
log_and_print(logging.INFO, 'dataset builded and saved at {PATH}'.format(PATH=dataset_filepath))
elif args.subparser == 'train':
log_and_print(logging.INFO, 'train model')
dataset_filepath = args.dataset
dataset_dirname, dataset_filename = split_filepath(dataset_filepath)
dataset_applied_filepath = args.dataset_applied
dataset_applied_dirname, dataset_applied_filename = split_filepath(dataset_applied_filepath)
model_dirname = args.model_dir
dataset = load(dataset_filename, dataset_dirname)
if args.wtmf:
model = WTMF(dataset, dirname=model_dirname)
elif args.wtmf_g:
model = WTMF_G(dataset, dirname=model_dirname)
#log_and_print(logging.INFO, 'train {NAME} model'.format(NAME=model.name()))
model.build()
#log_and_print(logging.INFO, 'model {NAME} builded'.format(NAME=model.name()))
#log_and_print(logging.INFO, 'model saved: {PATH}'.format(PATH=os.path.join(model_dirname, model.name())))
dump(model.dataset_applied, dataset_applied_filename, dataset_applied_dirname)
log_and_print(logging.INFO, 'applied dataset saved: {PATH}'.format(PATH=dataset_applied_filepath))
elif args.subparser == 'apply':
log_and_print(logging.INFO, 'apply model')
model_filepath = args.model
model_dirname, model_filename = split_filepath(model_filepath)
tweets_filepath = args.tweets
tweets_dirname, tweets_filename = split_filepath(tweets_filepath)
tweets_applied_filepath = args.tweets_applied
tweets_applied_dirname, tweets_applied_filename = split_filepath(tweets_applied_filepath)
if args.wtmf:
model = WTMF(model_name=model_filename, dirname=model_dirname)
elif args.wtmf_g:
model = WTMF_G(model_name=model_filename, dirname=model_dirname)
tweets = load(tweets_filename, tweets_dirname)
corpus = model.words
texts = map(lambda x: x.get_text(), tweets)
texts = lemmatize_texts(texts)
_, tf_idf_matrix = build_tf_idf_matrix(texts, vocabulary=corpus)
model.texts = texts
model.tf_idf_matrix = tf_idf_matrix
result_matrix = model.apply()
set_compare_vector(tweets, result_matrix)
dump(tweets, tweets_applied_filename, tweets_applied_dirname)
log_and_print(logging.INFO, 'tweets applied and stored at {PATH}'.format(PATH=tweets_applied_filepath))
elif 'tfidf' in args.subparser:
log_and_print(logging.INFO, 'apply tfidf to dataset')
dataset_filepath = args.dataset
dataset_dirname, dataset_filename = split_filepath(dataset_filepath)
dataset_applied_filepath = args.dataset_applied
dataset_applied_dirname, dataset_applied_filename = split_filepath(dataset_applied_filepath)
dataset = load(dataset_filename, dataset_dirname)
news_num = dataset.news.length()
documents = dataset.get_documents()
set_compare_vector(documents, dataset.tf_idf_matrix)
news, tweets = documents[:news_num], documents[news_num:]
dump((news, tweets), dataset_applied_filename, dataset_applied_dirname)
log_and_print(logging.INFO, 'dataset applied and stored at {PATH}'.format(
PATH=dataset_applied_filepath))
if args.subparser == 'tfidf_dataset':
pass
elif args.subparser == 'tfidf_tweets':
log_and_print(logging.INFO, 'apply tfidf to tweets')
tweets_filepath = args.tweets
tweets_dirname, tweets_filename = split_filepath(tweets_filepath)
tweets_applied_filepath = args.tweets_applied
tweets_applied_dirname, tweets_applied_filename = split_filepath(tweets_applied_filepath)
tweets = load(tweets_filename, tweets_dirname)
texts = map(lambda x: x.get_text(), tweets)
texts = lemmatize_texts(texts)
_, result_matrix = build_tf_idf_matrix(texts, vocabulary=dataset.corpus)
set_compare_vector(tweets, result_matrix)
dump(tweets, tweets_applied_filename, tweets_applied_dirname)
log_and_print(logging.INFO, 'tweets applied and stored at {PATH}'.format(
PATH=tweets_applied_filepath))
else:
raise Exception('unexpected tfidf parser')
elif args.subparser == 'build_recommendation':
input_dir = args.input_dir
output_dir = args.output_dir
tweets_applied_filename = args.tweets_applied
dataset_applied_filename = args.dataset_applied
news, tweets = load(dataset_applied_filename, input_dir)
is_dataset = True
if tweets_applied_filename:
tweets = load(tweets_applied_filename, input_dir)
is_dataset = False
recommendation, correct_news_idxs = recommend(news, tweets, top_size=10, is_dataset=is_dataset)
dump((recommendation, correct_news_idxs), 'recommendation', output_dir)
log_and_print(logging.INFO, 'recommendation builded and stored at {PATH}'.format(PATH=os.path.join(output_dir, 'recommendation')))
elif 'recommend' in args.subparser:
dataset_applied_filepath = args.dataset_applied
dataset_applied_dirname, dataset_applied_filename = split_filepath(dataset_applied_filepath)
dump_filepath = args.dump
news, tweets = load(dataset_applied_filename, dataset_applied_dirname)
if args.subparser == 'recommend_dataset':
log_and_print(logging.INFO, 'build recommendation')
recommendation, correct_news_idxs = recommend(news, tweets, top_size=10, evaluate=True)
log_and_print(logging.INFO, 'recommendation result evaluation')
print 'RR =', RR(correct_news_idxs)
print 'TOP1 =', TOP1(correct_news_idxs)
print 'TOP3 =', TOP3(correct_news_idxs)
dump_to_csv(recommendation, dump_filepath, score_threshold=0.0)
elif args.subparser == 'recommend_tweets':
tweets_applied_filepath = args.tweets_applied
tweets_applied_dirname, tweets_applied_filename = split_filepath(tweets_applied_filepath)
tweets = load(tweets_applied_filename, tweets_applied_dirname)
recommendation, _ = recommend(news, tweets, top_size=10, evaluate=False)
dump_to_csv(recommendation, dump_filepath)
else:
raise Exception('unexpected recommend parser')
log_and_print(logging.INFO, 'recommendation dumped to {PATH}'.format(PATH=dump_filepath))