TF-IDF 算法原理以及源码实现
TF-IDF(Term Frequency-Inverse Document Frequency),是用来衡量一个词在文档中的重要性,下面看一下TDF-IDF的公式:
首先是TF,也就是词频,用来衡量一个词在文档中出现频率的指标。假设某词在文档中出现了( n )次,而文档总共包含( N )个词,则该词的TF定义为:
注意:(t,d)中的t表示的是文档中的词汇,d表示的是文档的词汇集合,通过计算TF也就是进行词频率的统计,好的,那么看一下代码的实现。
def compute_tf(word_dict, doc_words): """ :param word_dict: 字符的统计个数 :param doc_words: 文档中的字符集合 :return: """ tf_dict = {} words_len = len(doc_words) for word_i, count_i in word_dict.items(): tf_dict[word_i] = count_i / words_len return tf_dict # 示例文档 doc1 = "this is a sample" doc2 = "this is another example example example" doc3 = "this is a different example example" # 分割单词 doc1_words = doc1.split() doc2_words = doc2.split() doc3_words = doc3.split() # 计算每个文档的词频 word_dict1 = Counter(doc1_words) word_dict2 = Counter(doc2_words) word_dict3 = Counter(doc3_words) # 计算TF tf1 = compute_tf(word_dict1, doc1_words) tf2 = compute_tf(word_dict2, doc2_words) tf3 = compute_tf(word_dict3, doc3_words) print(f'tf1:{tf1}') print(f'tf2:{tf2}') print(f'tf3:{tf3}') # tf1:{'this': 0.25, 'is': 0.25, 'a': 0.25, 'sample': 0.25} # tf2:{'this': 0.16666666666666666, 'is': 0.16666666666666666, 'another': 0.16666666666666666, 'example': 0.5} # tf3:{'this': 0.16666666666666666, 'is': 0.16666666666666666, 'a': 0.16666666666666666, 'different': 0.16666666666666666, 'example': 0.3333333333333333}
看完TF的计算之后,我们看一下IDF的定义,公式和对应的实现吧,IDF的定义是:即逆文档频率,反映了词的稀有程度,IDF越高,说明词越稀有。这个逆文档频率也就是说一个词的文档集合中出现的次数越少,他就越具有表征型,因为在文中有很多“的”,“了”这种词,这些词重要性不大,反而出现少的词重要性大一点,来看一下IDF的公式:
其中,( D )是文档总数,( df_t )是包含词( t )的文档数量。通过取对数,可以避免数值过大的问题,同时保证了IDF的单调递减特性,下面看一下代码的现实:
def compute_idf(doc_list): """ :param doc_list: 文档的集合 :return: """ sum_list = list(set([word_i for doc_i in doc_list for word_i in doc_i])) idf_dict = {word_i: 0 for word_i in sum_list} for word_j in sum_list: for doc_j in doc_list: if word_j in doc_j: idf_dict[word_j] += 1 return {k: math.log(len(doc_list) / (v + 1)) for k, v in idf_dict.items()} # 示例文档 doc1 = "this is a sample" doc2 = "this is another example example example" doc3 = "this is a different example example" # 分割单词 doc1_words = doc1.split() doc2_words = doc2.split() doc3_words = doc3.split() # 计算每个文档的词频 word_dict1 = Counter(doc1_words) word_dict2 = Counter(doc2_words) word_dict3 = Counter(doc3_words) # 计算整个文档集合的IDF idf = compute_idf([doc1_words, doc2_words, doc3_words]) # idf:{'different': 0.4054651081081644, 'another': 0.4054651081081644, 'a': 0.0, 'example': 0.0, 'this': -0.2876820724517809, 'sample': 0.4054651081081644, 'is': -0.2876820724517809}
通过结果可以发现,different、another和sample都比is、a等词汇的IDF值要高,代表越重要。
好的,最后看一下TF-IDF的公式吧,
$$TF-IDF=TF*IDF $$
TF-IDF 就是TF*IDF,来综合的评价一个词在文档中的重要性。
最后看一下完整的代码,
import math from collections import Counter import math def compute_tfidf(tf_dict, idf_dict): tfidf = {} for word, tf_value in tf_dict.items(): tfidf[word] = tf_value * idf_dict[word] return tfidf def compute_tf(word_dict, doc_words): """ :param word_dict: 字符的统计个数 :param doc_words: 文档中的字符集合 :return: """ tf_dict = {} words_len = len(doc_words) for word_i, count_i in word_dict.items(): tf_dict[word_i] = count_i / words_len return tf_dict def compute_idf(doc_list): """ :param doc_list: 文档的集合 :return: """ sum_list = list(set([word_i for doc_i in doc_list for word_i in doc_i])) idf_dict = {word_i: 0 for word_i in sum_list} for word_j in sum_list: for doc_j in doc_list: if word_j in doc_j: idf_dict[word_j] += 1 return {k: math.log(len(doc_list) / (v + 1)) for k, v in idf_dict.items()} # 示例文档 doc1 = "this is a sample" doc2 = "this is another example example example" doc3 = "this is a different example example" # 分割单词 doc1_words = doc1.split() doc2_words = doc2.split() doc3_words = doc3.split() # 计算每个文档的词频 word_dict1 = Counter(doc1_words) word_dict2 = Counter(doc2_words) word_dict3 = Counter(doc3_words) # 计算TF tf1 = compute_tf(word_dict1, doc1_words) tf2 = compute_tf(word_dict2, doc2_words) tf3 = compute_tf(word_dict3, doc3_words) print(f'tf1:{tf1}') print(f'tf2:{tf2}') print(f'tf3:{tf3}') # 计算整个文档集合的IDF idf = compute_idf([doc1_words, doc2_words, doc3_words]) print(f'idf:{idf}') # 计算每个文档的TF-IDF tfidf1 = compute_tfidf(tf1, idf) tfidf2 = compute_tfidf(tf2, idf) tfidf3 = compute_tfidf(tf3, idf) print("TF-IDF for Document 1:", tfidf1) print("TF-IDF for Document 2:", tfidf2) print("TF-IDF for Document 3:", tfidf3) """ tf1:{'this': 0.25, 'is': 0.25, 'a': 0.25, 'sample': 0.25} tf2:{'this': 0.16666666666666666, 'is': 0.16666666666666666, 'another': 0.16666666666666666, 'example': 0.5} tf3:{'this': 0.16666666666666666, 'is': 0.16666666666666666, 'a': 0.16666666666666666, 'different': 0.16666666666666666, 'example': 0.3333333333333333} idf:{'example': 0.0, 'different': 0.4054651081081644, 'this': -0.2876820724517809, 'another': 0.4054651081081644, 'is': -0.2876820724517809, 'a': 0.0, 'sample': 0.4054651081081644} TF-IDF for Document 1: {'this': -0.07192051811294523, 'is': -0.07192051811294523, 'a': 0.0, 'sample': 0.1013662770270411} TF-IDF for Document 2: {'this': -0.047947012075296815, 'is': -0.047947012075296815, 'another': 0.06757751801802739, 'example': 0.0} TF-IDF for Document 3: {'this': -0.047947012075296815, 'is': -0.047947012075296815, 'a': 0.0, 'different': 0.06757751801802739, 'example': 0.0} """