linfa-bayes
provides pure Rust implementations of Naive Bayes algorithms for the Linfa toolkit.
linfa-bayes
is a crate in the linfa
ecosystem, an effort to create a toolkit for classical Machine Learning implemented in pure Rust, akin to Python's scikit-learn
.
linfa-bayes
currently provides an implementation of the following methods:
- Gaussian Naive Bayes (
GaussianNb
) - Multinomial Naive Nayes (
MultinomialNb
)
You can find examples in the examples/
directory. To run Gaussian Naive Bayes example, use:
$ cargo run --example winequality --release
Show source code
use linfa::metrics::ToConfusionMatrix;
use linfa::traits::{Fit, Predict};
use linfa_bayes::{GaussianNb, Result};
// Read in the dataset and convert targets to binary data
let (train, valid) = linfa_datasets::winequality()
.map_targets(|x| if *x > 6 { "good" } else { "bad" })
.split_with_ratio(0.9);
// Train the model
let model = GaussianNb::params().fit(&train)?;
// Predict the validation dataset
let pred = model.predict(&valid);
// Construct confusion matrix
let cm = pred.confusion_matrix(&valid)?;
// classes | bad | good
// bad | 130 | 12
// good | 7 | 10
//
// accuracy 0.8805031, MCC 0.45080978
println!("{:?}", cm);
println!("accuracy {}, MCC {}", cm.accuracy(), cm.mcc());
# Result::Ok(())
To run Multinomial Naive Bayes example, use:
$ cargo run --example winequality_multinomial --release
Show source code
use linfa::metrics::ToConfusionMatrix;
use linfa::traits::{Fit, Predict};
use linfa_bayes::{MultinomialNb, Result};
// Read in the dataset and convert targets to binary data
let (train, valid) = linfa_datasets::winequality()
.map_targets(|x| if *x > 6 { "good" } else { "bad" })
.split_with_ratio(0.9);
// Train the model
let model = MultinomialNb::params().fit(&train)?;
// Predict the validation dataset
let pred = model.predict(&valid);
// Construct confusion matrix
let cm = pred.confusion_matrix(&valid)?;
// classes | bad | good
// bad | 88 | 54
// good | 10 | 7
// accuracy 0.5974843, MCC 0.02000631
println!("{:?}", cm);
println!("accuracy {}, MCC {}", cm.accuracy(), cm.mcc());
# Result::Ok(())