Awesome
Simple Bayes
A Naive Bayes machine learning implementation in Elixir.
In machine learning, naive Bayes classifiers are a family of simple probabilistic classifiers based on applying Bayes' theorem with strong (naive) independence assumptions between the features.
Naive Bayes has been studied extensively since the 1950s. It was introduced under a different name into the text retrieval community in the early 1960s, and remains a popular (baseline) method for text categorization, the problem of judging documents as belonging to one category or the other (such as spam or legitimate, sports or politics, etc.) with word frequencies as the features. With appropriate preprocessing, it is competitive in this domain with more advanced methods including support vector machines. It also finds application in automatic medical diagnosis.
Naive Bayes classifiers are highly scalable, requiring a number of parameters linear in the number of variables (features/predictors) in a learning problem. Maximum-likelihood training can be done by evaluating a closed-form expression, which takes linear time, rather than by expensive iterative approximation as used for many other types of classifiers. - Wikipedia
Features
- Naive Bayes algorithm with different models
- Multinomial
- Binarized (boolean) multinomial
- Bernoulli
- Multiple storage options
- In-memory (default)
- File system
- Dets (Disk-based Erlang Term Storage)
- Ignores stop words
- Additive smoothing
- TF-IDF
- Optional keywords weighting
- Optional word stemming via Stemmer
Feature Matrix
Multinomial | Binarized multinomial | Bernoulli | |
---|---|---|---|
Stop words | ✅ | ✅ | ✅ |
Additive smoothing | ✅ | ✅ | |
TF-IDF | ✅ | ||
Keywords weighting | ✅ | ||
Stemming | ✅ | ✅ | ✅ |
Usage
Install by adding :simple_bayes
and optionally :stemmer
(for the default
stemming functionality) to deps
in your
mix.exs
:
defp deps do
[
{:simple_bayes, "~> 0.12"},
{:stemmer, "~> 1.0"}
]
end
If you're on Elixir 1.3 or below, ensure :simple_bayes
and optionally
:stemmer
are started before your application:
def application do
[applications: [:logger, :simple_bayes, :stemmer]]
end
bayes = SimpleBayes.init()
|> SimpleBayes.train(:apple, "red sweet")
|> SimpleBayes.train(:apple, "green", weight: 0.5)
|> SimpleBayes.train(:apple, "round", weight: 2)
|> SimpleBayes.train(:banana, "sweet")
|> SimpleBayes.train(:banana, "green", weight: 0.5)
|> SimpleBayes.train(:banana, "yellow long", weight: 2)
|> SimpleBayes.train(:orange, "red")
|> SimpleBayes.train(:orange, "yellow sweet", weight: 0.5)
|> SimpleBayes.train(:orange, "round", weight: 2)
bayes |> SimpleBayes.classify_one("Maybe green maybe red but definitely round and sweet.")
# => :apple
bayes |> SimpleBayes.classify("Maybe green maybe red but definitely round and sweet.")
# => [
# apple: 0.18519202529366116,
# orange: 0.14447781772131096,
# banana: 0.10123406763124557
# ]
bayes |> SimpleBayes.classify("Maybe green maybe red but definitely round and sweet.", top: 2)
# => [
# apple: 0.18519202529366116,
# orange: 0.14447781772131096,
# ]
With and without word stemming (requires a stem function, we recommend Stemmer):
SimpleBayes.init()
|> SimpleBayes.train(:apple, "buying apple")
|> SimpleBayes.train(:banana, "buy banana")
|> SimpleBayes.classify("buy apple")
# => [
# banana: 0.05719389206673358,
# apple: 0.05719389206673358
# ]
SimpleBayes.init(stem: &Stemmer.stem/1) # or any other stemming function
|> SimpleBayes.train(:apple, "buying apple")
|> SimpleBayes.train(:banana, "buy banana")
|> SimpleBayes.classify("buy apple")
# => [
# apple: 0.18096114003107086,
# banana: 0.15054767928902865
# ]
Configuration (Optional)
For application wide configuration, in your application's config/config.exs
:
config :simple_bayes, model: :multinomial
config :simple_bayes, storage: :memory
config :simple_bayes, default_weight: 1
config :simple_bayes, smoothing: 0
config :simple_bayes, stem: false
config :simple_bayes, top: nil
config :simple_bayes, stop_words: ~w(
a about above after again against all am an and any are aren't as at be
because been before being below between both but by can't cannot could
couldn't did didn't do does doesn't doing don't down during each few for from
further had hadn't has hasn't have haven't having he he'd he'll he's her here
here's hers herself him himself his how how's i i'd i'll i'm i've if in into
is isn't it it's its itself let's me more most mustn't my myself no nor not of
off on once only or other ought our ours ourselves out over own same shan't
she she'd she'll she's should shouldn't so some such than that that's the
their theirs them themselves then there there's these they they'd they'll
they're they've this those through to too under until up very was wasn't we
we'd we'll we're we've were weren't what what's when when's where where's
which while who who's whom why why's with won't would wouldn't you you'd
you'll you're you've your yours yourself yourselves
)
Alternatively, you may pass in the configuration options when you initialise:
SimpleBayes.init(
model: :multinomial,
storage: :memory,
default_weight: 1,
smoothing: 0,
stem: false,
top: nil,
stop_words: []
)
Available options for :model
are:
:multinomial
(default):binarized_multinomial
:bernoulli
Available options for :storage
are:
:memory
(default, can also be used by any database, see below for more details):file_system
:dets
Storage options have extra configurations:
Memory
:namespace
- optional, it's only useful when you want toload
by the namespace
File System
:file_path
Dets
:file_path
File System vs Dets
File system encodes and decodes data using base64, whereas Dets is a native Erlang library. Performance wise file system with base64 tends to be faster with less data, and Dets faster with more data. YMMV, please do your own comparison.
Configuration Examples
# application-wide configuration:
config :simple_bayes, storage: :file_system
config :simple_bayes, file_path: "path/to/the/file.txt"
# per-initialization configuration:
SimpleBayes.init(
storage: :file_system,
file_path: "path/to/the/file.txt"
)
Storage Usage
opts = [
storage: :file_system,
file_path: "test/temp/file_sysmte_test.txt"
]
SimpleBayes.init(opts)
|> SimpleBayes.train(:apple, "red sweet")
|> SimpleBayes.train(:apple, "green", weight: 0.5)
|> SimpleBayes.train(:apple, "round", weight: 2)
|> SimpleBayes.train(:banana, "sweet")
|> SimpleBayes.save()
SimpleBayes.load(opts)
|> SimpleBayes.train(:banana, "green", weight: 0.5)
|> SimpleBayes.train(:banana, "yellow long", weight: 2)
|> SimpleBayes.train(:orange, "red")
|> SimpleBayes.train(:orange, "yellow sweet", weight: 0.5)
|> SimpleBayes.train(:orange, "round", weight: 2)
|> SimpleBayes.save()
SimpleBayes.load(opts)
|> SimpleBayes.classify("Maybe green maybe red but definitely round and sweet")
In-memory save/2
, load/1
and the encoded_data
option
Calling SimpleBayes.save/2
is unnecessary for :memory
storage. However, when using the in-memory storage, you are able to get the encoded data - this is useful if you would like to store the encoded data in your persistence of choice. For example:
{:ok, _pid, encoded_data} = SimpleBayes.init()
|> SimpleBayes.train(:apple, "red sweet")
|> SimpleBayes.train(:apple, "green", weight: 0.5)
|> SimpleBayes.train(:apple, "round", weight: 2)
|> SimpleBayes.train(:banana, "sweet")
|> SimpleBayes.save()
# now store `encoded_data` in your database of choice
# once `encoded_data` is fetched again from the database, you are then able to:
SimpleBayes.load(encoded_data: encoded_data)
|> SimpleBayes.train(:banana, "green", weight: 0.5)
|> SimpleBayes.train(:banana, "yellow long", weight: 2)
|> SimpleBayes.train(:orange, "red")
|> SimpleBayes.train(:orange, "yellow sweet", weight: 0.5)
|> SimpleBayes.train(:orange, "round", weight: 2)
|> SimpleBayes.classify("Maybe green maybe red but definitely round and sweet")
Changelog
Please see CHANGELOG.md.
License
Licensed under MIT.