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Bag-of-Words Language Model
Spam A Lot No More

Amazing work! As is the case with many tasks in Python, there’s already a library that can do all of that work for you.

For text_to_bow(), you can approximate the functionality with the collections module’s Counter() function:

from collections import Counter tokens = ['another', 'five', 'fish', 'find', 'another', 'faraway', 'fish'] print(Counter(tokens)) # Counter({'fish': 2, 'another': 2, 'find': 1, 'five': 1, 'faraway': 1})

For vectorization, you can use CountVectorizer from the machine learning library scikit-learn. You can use fit() to train the features dictionary and then transform() to transform text into a vector:

from sklearn.feature_extraction.text import CountVectorizer training_documents = ["Five fantastic fish flew off to find faraway functions.", "Maybe find another five fantastic fish?", "Find my fish with a function please!"] test_text = ["Another five fish find another faraway fish."] bow_vectorizer = CountVectorizer() bow_vectorizer.fit(training_documents) bow_vector = bow_vectorizer.transform(test_text) print(bow_vector.toarray()) # [[2 0 1 1 2 1 0 0 0 0 0 0 0 0 0]]

Instructions

1.

Now, let’s see how scikit-learn stacks up with the same bag-of-words functionality! Import CountVectorizer from sklearn. (Check out the example we gave for how to import CountVectorizer.)

2.

Define bow_vectorizer as our vectorizer using CountVectorizer().

3.

Define training_vectors as bow_vectorizer.fit_transform() called on training_docs.

fit_transform() does two things: creation of the features dictionary and the vectorization of the training data.

Define test_vectors as bow_vectorizer.transform() called on test_docs.

4.

Uncomment the code at the bottom of script.py. Run the code again to see why it makes sense to use sklearn‘s optimized functions!

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