# Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ IMDB dataset: http://ai.stanford.edu/%7Eamaas/data/sentiment/aclImdb_v1.tar.gz """ import paddle.v2.dataset.common import tarfile import Queue import re import string import threading __all__ = ['build_dict', 'train', 'test'] URL = 'http://ai.stanford.edu/%7Eamaas/data/sentiment/aclImdb_v1.tar.gz' MD5 = '7c2ac02c03563afcf9b574c7e56c153a' # Read files that match pattern. Tokenize and yield each file. def tokenize(pattern): with tarfile.open(paddle.v2.dataset.common.download(URL, 'imdb', MD5)) as tarf: # Note that we should use tarfile.next(), which does # sequential access of member files, other than # tarfile.extractfile, which does random access and might # destroy hard disks. tf = tarf.next() while tf != None: if bool(pattern.match(tf.name)): # newline and punctuations removal and ad-hoc tokenization. yield tarf.extractfile(tf).read().rstrip("\n\r").translate( None, string.punctuation).lower().split() tf = tarf.next() def build_dict(pattern, cutoff): word_freq = {} for doc in tokenize(pattern): for word in doc: paddle.v2.dataset.common.dict_add(word_freq, word) # Not sure if we should prune less-frequent words here. word_freq = filter(lambda x: x[1] > cutoff, word_freq.items()) dictionary = sorted(word_freq, key=lambda x: (-x[1], x[0])) words, _ = list(zip(*dictionary)) word_idx = dict(zip(words, xrange(len(words)))) word_idx[''] = len(words) return word_idx def reader_creator(pos_pattern, neg_pattern, word_idx, buffer_size): UNK = word_idx[''] qs = [Queue.Queue(maxsize=buffer_size), Queue.Queue(maxsize=buffer_size)] def load(pattern, queue): for doc in tokenize(pattern): queue.put(doc) queue.put(None) def reader(): # Creates two threads that loads positive and negative samples # into qs. t0 = threading.Thread( target=load, args=( pos_pattern, qs[0], )) t0.daemon = True t0.start() t1 = threading.Thread( target=load, args=( neg_pattern, qs[1], )) t1.daemon = True t1.start() # Read alternatively from qs[0] and qs[1]. i = 0 doc = qs[i].get() while doc != None: yield [word_idx.get(w, UNK) for w in doc], i % 2 i += 1 doc = qs[i % 2].get() # If any queue is empty, reads from the other queue. i += 1 doc = qs[i % 2].get() while doc != None: yield [word_idx.get(w, UNK) for w in doc], i % 2 doc = qs[i % 2].get() return reader() def train(word_idx): return reader_creator( re.compile("aclImdb/train/pos/.*\.txt$"), re.compile("aclImdb/train/neg/.*\.txt$"), word_idx, 1000) def test(word_idx): return reader_creator( re.compile("aclImdb/test/pos/.*\.txt$"), re.compile("aclImdb/test/neg/.*\.txt$"), word_idx, 1000)