1 unstable release

0.0.2 Jun 20, 2021
0.0.1 Jun 15, 2021

#13 in #generative

MIT license

44KB
690 lines

r-gen

A probabilistic programming framework for the rust programming language. This is heavily based on the Gen library for the Julia programming language.

Example using importance sampling to estimate latent variables.

...
fn main() {
    //Define our generative model. 
    #[r_gen]
    fn my_model(():()){
        let p = sample!(format!("p"), Distribution::Beta(1.0, 1.0)); 
        sample!(format!("num_heads"), Distribution::Binomial(100, p.into()));
    }

    //Run the model once in the forward direction and record the observations. 
    let (t, _) : (Trace, _)= simulate(&mut my_model, ());
    let choices = Choicemap::from(vec![("num_heads", t.choices["num_heads"])]);

    //Perform importance resampling to get an estimate for the value of p. 
    let mut traces = Vec::new();
    for _ in 0..1000 {
        let (gt, _) : (Trace, _)= generate(&mut my_model, (), &choices);
        traces.push(gt); 
    }
    
    println!("Actual value for p:\t {}", t.choices["p"]); 
    println!("Generated value for p:\t {}", Trace::sample_weighted_traces(&traces).unwrap().choices["p"]); 
}

Outputs:

Actual value for p:      0.8011431168181488
Generated value for p:   0.7879998086169554

Note the #[r_gen] tag on the generative function. This must be on any of your generative functions in order to use simulate and generate on them. One other stipulation of a generative function is that it must have a single argument. This can be a tuple or () if you dont need to pass any arguments. In order to make a random choice (sample from a distribution) you must use the sample!() macro. The syntax for this is

sample!(identifier, Distribution); 

This samples the Distribution given and stores the result in identifier. Distribution is defined as

pub enum Distribution {
    Bernoulli(f64),         //p
    Binomial(i64, f64),     //n, p
    Normal(f64, f64),       //mu, sigma
    Gamma(f64, f64),        //alpha, beta
    Beta(f64, f64),         //alpha, beta
    LogNormal(f64, f64),    //mu, sigma 
    Categorical(Vec<f64>),  //p
    Dirichlet(Vec<f64>),    //alpha
}

Value is defined as

pub enum Value {
    Boolean(bool), 
    Integer(i64), 
    Real(f64), 
    Vector(Vec<Value>)
}

The variant of the enum that is returned from sampling depends on the distribution being sampled.


This framework is in EARLY stages of development. Everything is subject to change.

Dependencies

~7MB
~129K SLoC