ranker.rs - mozsearch

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use std::cmp::max;

use crate::interest::{Interest, InterestVector};

/// Calculate score for a piece of categorized content based on a user interest vector.

///

/// This scoring function is of the following properties:

///   - The score ranges from 0.0 to 1.0

///   - The score is monotonically increasing for the accumulated interest count

///

/// Params:

///   - `interest_vector`: a user interest vector that can be fetched via

///     `RelevancyStore::user_interest_vector()`.

///   - `content_categories`: a list of categories (interests) of the give content.

/// Return:

///   - A score ranges in [0, 1].

#[uniffi::export]

pub fn score(interest_vector: InterestVector, content_categories: Vec<Interest>) -> f64 {

    let n = content_categories

        .iter()

        .fold(0, |acc, &category| acc + interest_vector[category]);

    // Apply base 10 logarithm to the accumulated count so its hyperbolic tangent is more

    // evenly distributed in [0, 1]. Note that `max(n, 1)` is used to avoid negative scores.

    (max(n, 1) as f64).log10().tanh()

#[cfg(test)]

mod test {

    use crate::interest::{Interest, InterestVector};

    use super::*;

    const EPSILON: f64 = 1e-10;

    const SUBEPSILON: f64 = 1e-6;

    #[test]

    fn test_score_lower_bound() {

        // Empty interest vector yields score 0.

        let s = score(InterestVector::default(), vec![Interest::Food]);

        let delta = (s - 0_f64).abs();

        assert!(delta < EPSILON);

        // No overlap also yields score 0.

        let s = score(

            InterestVector {

                animals: 10,

                ..InterestVector::default()

},

            vec![Interest::Food],

);

        let delta = (s - 0_f64).abs();

        assert!(delta < EPSILON);

    #[test]

    fn test_score_upper_bound() {

        let score = score(

            InterestVector {

                animals: 1_000_000_000,

                ..InterestVector::default()

},

            vec![Interest::Animals],

);

        let delta = (score - 1.0_f64).abs();

        // Can get very close to the upper bound 1.0 but not over.

        assert!(delta < SUBEPSILON);

    #[test]

    fn test_score_monotonic() {

        let l = score(

            InterestVector {

                animals: 1,

                ..InterestVector::default()

},

            vec![Interest::Animals],

);

        let r = score(

            InterestVector {

                animals: 5,

                ..InterestVector::default()

},

            vec![Interest::Animals],

);

        assert!(l < r);

    #[test]

    fn test_score_multi_categories() {

        let l = score(

            InterestVector {

                animals: 100,

                food: 100,

                ..InterestVector::default()

},

            vec![Interest::Animals, Interest::Food],

);

        let r = score(

            InterestVector {

                animals: 200,

                ..InterestVector::default()

},

            vec![Interest::Animals],

);

        let delta = (l - r).abs();

        assert!(delta < EPSILON);