Basically you are looking for customizing the n_grams creation based upon your special words (I call it as interested_words
in the function). I have customized the default n_grams creation function for your purpose.
def custom_word_ngrams(tokens, stop_words=None, interested_words=None):
"""Turn tokens into a sequence of n-grams after stop words filtering"""
original_tokens = tokens
stop_wrds_inds = np.where(np.isin(tokens,stop_words))[0]
intersted_wrds_inds = np.where(np.isin(tokens,interested_words))[0]
tokens = [w for w in tokens if w not in stop_words+interested_words]
n_original_tokens = len(original_tokens)
# bind method outside of loop to reduce overhead
tokens_append = tokens.append
space_join = " ".join
for i in xrange(n_original_tokens - 1):
if not any(np.isin(stop_wrds_inds, [i,i+1])):
tokens_append(space_join(original_tokens[i: i + 2]))
return tokens
Now, we can plugin this function inside the usual analyzer of TfidfVectorizer, as following!
import numpy as np
from sklearn.externals.six.moves import xrange
from sklearn.feature_extraction.text import TfidfVectorizer,CountVectorizer
from sklearn.feature_extraction import text
def analyzer():
base_vect = CountVectorizer()
stop_words = list(text.ENGLISH_STOP_WORDS)
preprocess = base_vect.build_preprocessor()
tokenize = base_vect.build_tokenizer()
return lambda doc: custom_word_ngrams(
tokenize(preprocess(base_vect.decode(doc))), stop_words, ['script', 'rule'])
#feed your special words list here
vectorizer = TfidfVectorizer(analyzer=analyzer())
vectorizer.fit(["Script include is a script that has rule which has a business rule"])
vectorizer.get_feature_names()
['business', 'business rule', 'include', 'script include']