import os import json import fire import numpy as np from scipy import sparse from sklearn.model_selection import PredefinedSplit from sklearn.linear_model import LogisticRegressionCV from sklearn.feature_extraction.text import TfidfVectorizer def _load_split(data_dir, source, split, n=np.inf): path = os.path.join(data_dir, f'{source}.{split}.jsonl') texts = [] for i, line in enumerate(open(path)): if i >= n: break texts.append(json.loads(line)['text']) return texts def load_split(data_dir, source, split, n=np.inf): webtext = _load_split(data_dir, 'webtext', split, n=n//2) gen = _load_split(data_dir, source, split, n=n//2) texts = webtext+gen labels = [0]*len(webtext)+[1]*len(gen) return texts, labels def main(data_dir, log_dir, source='xl-1542M-k40', n_train=500000, n_valid=1000, n_jobs=-1, verbose=False): train_texts, train_labels = load_split(data_dir, source, 'train', n=n_train) valid_texts, valid_labels = load_split(data_dir, source, 'valid', n=n_valid) test_texts, test_labels = load_split(data_dir, source, 'test') vect = TfidfVectorizer(ngram_range=(1, 2), min_df=5, max_features=2**21) train_features = vect.fit_transform(train_texts) valid_features = vect.transform(valid_texts) test_features = vect.transform(test_texts) Cs = [1/64, 1/32, 1/16, 1/8, 1/4, 1/2, 1, 2, 4, 8, 16, 32, 64] split = PredefinedSplit([-1]*n_train+[0]*n_valid) model = LogisticRegressionCV(Cs=Cs, cv=split, solver='liblinear', n_jobs=n_jobs, verbose=verbose, refit=False) model.fit(sparse.vstack([train_features, valid_features]), train_labels+valid_labels) valid_accuracy = model.score(valid_features, valid_labels)*100. test_accuracy = model.score(test_features, test_labels)*100. data = { 'source':source, 'n_train':n_train, 'valid_accuracy':valid_accuracy, 'test_accuracy':test_accuracy } print(data) json.dump(data, open(os.path.join(log_dir, f'{source}.json'), 'w')) if __name__ == '__main__': fire.Fire(main)