Anders Olsson
8b53cacd64
Adds soft Gaussian-observation evidence on the per-pair diff variable,
enabling continuous score margins as a richer alternative to ranks.
Public API:
- `Outcome::Scored([scores])` (non-breaking enum extension under
`#[non_exhaustive]`).
- `Game::scored(teams, outcome, options)` constructor parallel to
`Game::ranked`.
- `EventBuilder::scores([...])` fluent helper.
- `HistoryBuilder::score_sigma(σ)` knob (default 1.0, validated > 0).
- `GameOptions::score_sigma`.
- `EventKind` re-exported from `lib.rs` (annotated `#[non_exhaustive]`).
- New `InferenceError::InvalidParameter { name, value }` variant.
Internals:
- `MarginFactor` (`factor/margin.rs`): Gaussian observation factor that
closes in one EP step; cavity-cached log-evidence mirrors `TruncFactor`.
- `BuiltinFactor::Margin` dispatch arm.
- `DiffFactor` enum in `game.rs` lets `Game::likelihoods` and the new
`likelihoods_scored` share the per-pair link abstraction.
- Per-event `EventKind { Ranked, Scored { score_sigma } }` routed through
`TimeSlice::add_events`, `iteration_direct`, and `log_evidence`.
Tests: 88 lib + 27 integration (4 new in `tests/scored.rs`); existing
goldens byte-identical. Bench: `benches/scored.rs` baseline ~960µs for
60 events × 20-player pool with default convergence.
Plan: docs/superpowers/plans/2026-04-27-t4-margin-factor.md
Spec item marked Done.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
140 lines
3.9 KiB
Rust
140 lines
3.9 KiB
Rust
//! Integration tests for `Outcome::Scored` routing through `History::add_events`.
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use smallvec::smallvec;
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use trueskill_tt::{ConstantDrift, Event, History, Member, Outcome, Team};
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#[test]
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fn scored_two_team_one_event_pulls_winner_up() {
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let mut h: History = History::builder()
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.mu(0.0)
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.sigma(2.0)
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.beta(1.0)
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.drift(ConstantDrift(0.0))
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.score_sigma(1.0)
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.build();
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let events: Vec<Event<i64, &'static str>> = vec![Event {
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time: 1,
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teams: smallvec![
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Team::with_members([Member::new("a")]),
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Team::with_members([Member::new("b")]),
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],
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outcome: Outcome::scores([10.0, 4.0]),
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}];
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h.add_events(events).unwrap();
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let mu_a = h.current_skill(&"a").unwrap().mu();
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let mu_b = h.current_skill(&"b").unwrap().mu();
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assert!(
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mu_a > 0.0,
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"winner mu should be pulled up; got mu_a = {mu_a}"
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);
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assert!(
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mu_b < 0.0,
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"loser mu should be pulled down; got mu_b = {mu_b}"
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);
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assert!(
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mu_a > mu_b,
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"winner mu should exceed loser mu; got mu_a = {mu_a}, mu_b = {mu_b}"
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);
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}
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#[test]
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fn scored_zero_margin_treats_as_tie() {
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let mut h: History = History::builder()
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.mu(0.0)
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.sigma(2.0)
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.beta(1.0)
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.drift(ConstantDrift(0.0))
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.score_sigma(1.0)
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.build();
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let events: Vec<Event<i64, &'static str>> = vec![Event {
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time: 1,
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teams: smallvec![
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Team::with_members([Member::new("a")]),
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Team::with_members([Member::new("b")]),
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],
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outcome: Outcome::scores([5.0, 5.0]),
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}];
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h.add_events(events).unwrap();
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let mu_a = h.current_skill(&"a").unwrap().mu();
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let mu_b = h.current_skill(&"b").unwrap().mu();
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let sigma_a = h.current_skill(&"a").unwrap().sigma();
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// Equal scores: posterior means stay symmetric around the prior mean.
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assert!(
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(mu_a - mu_b).abs() < 1e-9,
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"equal scores should leave mu_a == mu_b; got {mu_a} vs {mu_b}"
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);
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assert!(
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mu_a.abs() < 1e-9,
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"equal scores against equal priors should leave mu near zero; got {mu_a}"
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);
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// A zero-margin scored event still reduces uncertainty.
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assert!(
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sigma_a < 2.0,
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"expected sigma to tighten below prior 2.0; got {}",
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sigma_a
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);
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}
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#[test]
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fn scored_three_team_partial_order() {
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let mut h: History = History::builder()
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.mu(0.0)
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.sigma(2.0)
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.beta(1.0)
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.drift(ConstantDrift(0.0))
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.score_sigma(1.0)
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.build();
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let events: Vec<Event<i64, &'static str>> = vec![Event {
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time: 1,
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teams: smallvec![
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Team::with_members([Member::new("a")]),
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Team::with_members([Member::new("b")]),
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Team::with_members([Member::new("c")]),
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],
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outcome: Outcome::scores([9.0, 5.0, 1.0]),
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}];
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h.add_events(events).unwrap();
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let mu_a = h.current_skill(&"a").unwrap().mu();
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let mu_b = h.current_skill(&"b").unwrap().mu();
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let mu_c = h.current_skill(&"c").unwrap().mu();
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assert!(
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mu_a > mu_b,
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"team with highest score should rank highest; mu_a = {mu_a}, mu_b = {mu_b}"
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);
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assert!(
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mu_b > mu_c,
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"middle score should outrank lowest; mu_b = {mu_b}, mu_c = {mu_c}"
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);
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}
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#[test]
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fn scored_rejects_outcome_team_count_mismatch() {
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use trueskill_tt::InferenceError;
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let mut h: History = History::builder().build();
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let events: Vec<Event<i64, &'static str>> = vec![Event {
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time: 1,
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teams: smallvec![
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Team::with_members([Member::new("a")]),
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Team::with_members([Member::new("b")]),
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],
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outcome: Outcome::scores([10.0, 4.0, 1.0]), // 3 scores, 2 teams
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}];
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let err = h.add_events(events).unwrap_err();
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assert!(
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matches!(err, InferenceError::MismatchedShape { .. }),
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"expected MismatchedShape error, got {err:?}"
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);
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}
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