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Exactly replicating R text preprocessing in python

I would like to preprocess a corpus of documents using Python in the same way that I can in R. For example, given an initial corpus, corpus, I would like to end up with a preprocessed corpus that corresponds to the one produced using the following R code:

library(tm)
library(SnowballC)

corpus = tm_map(corpus, tolower)
corpus = tm_map(corpus, removePunctuation)
corpus = tm_map(corpus, removeWords, c("myword", stopwords("english")))
corpus = tm_map(corpus, stemDocument)

Is there a simple or straightforward — preferably pre-built — method of doing this in Python? Is there a way to ensure exactly the same results?


For example, I would like to preprocess

@Apple ear pods are AMAZING! Best sound from in-ear headphones I've ever had!

into

ear pod amaz best sound inear headphon ive ever

like image 709
orome Avatar asked Apr 01 '14 21:04

orome


2 Answers

It seems tricky to get things exactly the same between nltk and tm on the preprocessing steps, so I think the best approach is to use rpy2 to run the preprocessing in R and pull the results into python:

import rpy2.robjects as ro
preproc = [x[0] for x in ro.r('''
tweets = read.csv("tweets.csv", stringsAsFactors=FALSE)
library(tm)
library(SnowballC)
corpus = Corpus(VectorSource(tweets$Tweet))
corpus = tm_map(corpus, tolower)
corpus = tm_map(corpus, removePunctuation)
corpus = tm_map(corpus, removeWords, c("apple", stopwords("english")))
corpus = tm_map(corpus, stemDocument)''')]

Then, you can load it into scikit-learn -- the only thing you'll need to do to get things to match between the CountVectorizer and the DocumentTermMatrix is to remove terms of length less than 3:

from sklearn.feature_extraction.text import CountVectorizer
def mytokenizer(x):
    return [y for y in x.split() if len(y) > 2]

# Full document-term matrix
cv = CountVectorizer(tokenizer=mytokenizer)
X = cv.fit_transform(preproc)
X
# <1181x3289 sparse matrix of type '<type 'numpy.int64'>'
#   with 8980 stored elements in Compressed Sparse Column format>

# Sparse terms removed
cv2 = CountVectorizer(tokenizer=mytokenizer, min_df=0.005)
X2 = cv2.fit_transform(preproc)
X2
# <1181x309 sparse matrix of type '<type 'numpy.int64'>'
#   with 4669 stored elements in Compressed Sparse Column format>

Let's verify this matches with R:

tweets = read.csv("tweets.csv", stringsAsFactors=FALSE)
library(tm)
library(SnowballC)
corpus = Corpus(VectorSource(tweets$Tweet))
corpus = tm_map(corpus, tolower)
corpus = tm_map(corpus, removePunctuation)
corpus = tm_map(corpus, removeWords, c("apple", stopwords("english")))
corpus = tm_map(corpus, stemDocument)
dtm = DocumentTermMatrix(corpus)
dtm
# A document-term matrix (1181 documents, 3289 terms)
# 
# Non-/sparse entries: 8980/3875329
# Sparsity           : 100%
# Maximal term length: 115 
# Weighting          : term frequency (tf)

sparse = removeSparseTerms(dtm, 0.995)
sparse
# A document-term matrix (1181 documents, 309 terms)
# 
# Non-/sparse entries: 4669/360260
# Sparsity           : 99%
# Maximal term length: 20 
# Weighting          : term frequency (tf)

As you can see, the number of stored elements and terms exactly match between the two approaches now.

like image 76
josliber Avatar answered Oct 25 '22 00:10

josliber


CountVectorizer and TfidfVectorizer can be customized as described in the docs. In particular, you'll want to write a custom tokenizer, which is a function that takes a document and returns a list of terms. Using NLTK:

import nltk.corpus.stopwords
import nltk.stem

def smart_tokenizer(doc):
    doc = doc.lower()
    doc = re.findall(r'\w+', doc, re.UNICODE)
    return [nltk.stem.PorterStemmer().stem(term)
            for term in doc
            if term not in nltk.corpus.stopwords.words('english')]

Demo:

>>> v = CountVectorizer(tokenizer=smart_tokenizer)
>>> v.fit_transform([doc]).toarray()
array([[1, 1, 1, 2, 1, 1, 1, 1, 1]])
>>> from pprint import pprint
>>> pprint(v.vocabulary_)
{u'amaz': 0,
 u'appl': 1,
 u'best': 2,
 u'ear': 3,
 u'ever': 4,
 u'headphon': 5,
 u'pod': 6,
 u'sound': 7,
 u've': 8}

(The example I linked to actually uses a class to cache the lemmatizer, but a function works too.)

like image 1
Fred Foo Avatar answered Oct 24 '22 23:10

Fred Foo