A fast, robust Python library to check for profanity or offensive language in strings. Read more about how and why profanity-check
was built in this blog post. You can also test out profanity-check
in your browser.
profanity-check
uses a linear SVM model trained on 200k human-labeled samples of clean and profane text strings. Its model is simple but surprisingly effective, meaning profanity-check
is both robust and extremely performant.
Many profanity detection libraries use a hard-coded list of bad words to detect and filter profanity. For example, profanity uses this wordlist, and even better-profanity still uses a wordlist. There are obviously glaring issues with this approach, and, while they might be performant, these libraries are not accurate at all.
A simple example for which profanity-check
is better is the phrase "You cocksucker" - profanity
thinks this is clean because it doesn't have "cocksucker" in its wordlist.
Other libraries like profanity-filter use more sophisticated methods that are much more accurate but at the cost of performance. A benchmark (performed December 2018 on a new 2018 Macbook Pro) using a Kaggle dataset of Wikipedia comments yielded roughly the following results:
Package | 1 Prediction (ms) | 10 Predictions (ms) | 100 Predictions (ms) |
---|---|---|---|
profanity-check | 0.2 | 0.5 | 3.5 |
profanity-filter | 60 | 1200 | 13000 |
profanity | 0.3 | 1.2 | 24 |
profanity-check
is anywhere from 300 - 4000 times faster than profanity-filter
in this benchmark!
This table speaks for itself:
Package | Test Accuracy | Balanced Test Accuracy | Precision | Recall | F1 Score |
---|---|---|---|---|---|
profanity-check | 95.0% | 93.0% | 86.1% | 89.6% | 0.88 |
profanity-filter | 91.8% | 83.6% | 85.4% | 70.2% | 0.77 |
profanity | 85.6% | 65.1% | 91.7% | 30.8% | 0.46 |
See the How section below for more details on the dataset used for these results.
$ pip install profanity-check
from profanity_check import predict, predict_prob
predict(['predict() takes an array and returns a 1 for each string if it is offensive, else 0.'])
# [0]
predict(['fuck you'])
# [1]
predict_prob(['predict_prob() takes an array and returns the probability each string is offensive'])
# [0.08686173]
predict_prob(['go to hell, you scum'])
# [0.7618861]
Note that both predict()
and predict_prob
return numpy
arrays.
Special thanks to the authors of the datasets used in this project. profanity-check
was trained on a combined dataset from 2 sources:
- t-davidson/hate-speech-and-offensive-language, used in their paper Automated Hate Speech Detection and the Problem of Offensive Language
- the Toxic Comment Classification Challenge on Kaggle.
profanity-check
relies heavily on the excellent scikit-learn
library. It's mostly powered by scikit-learn
classes CountVectorizer
, LinearSVC
, and CalibratedClassifierCV
. It uses a Bag-of-words model to vectorize input strings before feeding them to a linear classifier.
One simplified way you could think about why profanity-check
works is this: during the training process, the model learns which words are "bad" and how "bad" they are because those words will appear more often in offensive texts. Thus, it's as if the training process is picking out the "bad" words out of all possible words and using those to make future predictions. This is better than just relying on arbitrary word blacklists chosen by humans!
This library is far from perfect. For example, it has a hard time picking up on less common variants of swear words like "f4ck you" or "you b1tch" because they don't appear often enough in the training corpus. Never treat any prediction from this library as unquestionable truth, because it does and will make mistakes. Instead, use this library as a heuristic.