文本是一类序列数据,一篇文章可以看作是字符或单词的序列,本节将介绍文本数据的常见预处理步骤,预处理通常包括四个步骤:
我们用一部英文小说,即H. G. Well的Time Machine,作为示例,展示文本预处理的具体过程。
import collections
import re
def read_time_machine():
with open('/home/kesci/input/timemachine7163/timemachine.txt', 'r') as f:
lines = [re.sub('[^a-z]+', ' ', line.strip().lower()) for line in f]
return lines
lines = read_time_machine()
print('# sentences %d' % len(lines))
我们对每个句子进行分词,也就是将一个句子划分成若干个词(token),转换为一个词的序列。
def tokenize(sentences, token='word'):
"""Split sentences into word or char tokens"""
if token == 'word':
return [sentence.split(' ') for sentence in sentences]
elif token == 'char':
return [list(sentence) for sentence in sentences]
else:
print('ERROR: unkown token type '+token)
tokens = tokenize(lines)
tokens[0:2]
## 输出
## [['the', 'time', 'machine', 'by', 'h', 'g', 'wells', ''], ['']]
为了方便模型处理,我们需要将字符串转换为数字。因此我们需要先构建一个字典(vocabulary),将每个词映射到一个唯一的索引编号。
class Vocab(object):
def __init__(self, tokens, min_freq=0, use_special_tokens=False):
counter = count_corpus(tokens) # :
self.token_freqs = list(counter.items())
self.idx_to_token = []
if use_special_tokens:
# padding, begin of sentence, end of sentence, unknown
self.pad, self.bos, self.eos, self.unk = (0, 1, 2, 3)
self.idx_to_token += ['', '', '', '']
else:
self.unk = 0
self.idx_to_token += ['']
self.idx_to_token += [token for token, freq in self.token_freqs
if freq >= min_freq and token not in self.idx_to_token]
self.token_to_idx = dict()
for idx, token in enumerate(self.idx_to_token):
self.token_to_idx[token] = idx
def __len__(self):
return len(self.idx_to_token)
def __getitem__(self, tokens):
if not isinstance(tokens, (list, tuple)):
return self.token_to_idx.get(tokens, self.unk)
return [self.__getitem__(token) for token in tokens]
def to_tokens(self, indices):
if not isinstance(indices, (list, tuple)):
return self.idx_to_token[indices]
return [self.idx_to_token[index] for index in indices]
def count_corpus(sentences):
tokens = [tk for st in sentences for tk in st]
return collections.Counter(tokens) # 返回一个字典,记录每个词的出现次数
我们看一个例子,这里我们尝试用Time Machine作为语料构建字典
vocab = Vocab(tokens)
print(list(vocab.token_to_idx.items())[0:10])
## 输出
## [('', 0), ('the', 1), ('time', 2), ('machine', 3), ('by', 4), ('h', 5), ('g', 6), ('wells', 7), ('i', 8), ('traveller', 9)]
使用字典,我们可以将原文本中的句子从单词序列转换为索引序列
for i in range(8, 10):
print('words:', tokens[i])
print('indices:', vocab[tokens[i]])
## 输出
## words: ['the', 'time', 'traveller', 'for', 'so', 'it', 'will', 'be', 'convenient', 'to', 'speak', 'of', 'him', '']
## indices: [1, 2, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 0]
## words: ['was', 'expounding', 'a', 'recondite', 'matter', 'to', 'us', 'his', 'grey', 'eyes', 'shone', 'and']
## indices: [20, 21, 22, 23, 24, 16, 25, 26, 27, 28, 29, 30]
我们前面介绍的分词方式非常简单,它至少有以下几个缺点:
我们可以通过引入更复杂的规则来解决这些问题,但是事实上,有一些现有的工具可以很好地进行分词,我们在这里简单介绍其中的两个:spaCy和NLTK。
下面是一个简单的例子:
text = "Mr. Chen doesn't agree with my suggestion."
spaCy:
!pip install spacy
import spacy
nlp = spacy.load('en_core_web_sm')
doc = nlp(text)
print([token.text for token in doc])
NLTK:
from nltk.tokenize import word_tokenize
from nltk import data
data.path.append('/home/kesci/input/nltk_data3784/nltk_data')
print(word_tokenize(text))