decla-red/test/physics-determinism.test.mjs
Andras Schmelczer d9b80b92ca
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ai
2026-06-20 11:30:49 +01:00

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JavaScript

// Determinism guard for the shared character simulation. The client predictor
// and the authoritative server run the EXACT same stepCharacterMovement; if it
// were non-deterministic (a stray Math.random / Date, or an order-dependent
// reduce) prediction would rubber-band and could never reconcile. This is also
// the regression net for the upcoming GC/scratch-pool perf rewrites: the pinned
// hash must not change unless physics behaviour is intentionally changed.
import { describe, it, expect } from 'vitest';
import { createRequire } from 'node:module';
const require = createRequire(import.meta.url);
const shared = require('../shared/lib/main.js');
const { vec2 } = require('../shared/node_modules/gl-matrix');
const {
stepCharacterMovement,
resolveCircleMovement,
headRadius,
feetRadius,
headOffset,
leftFootOffset,
rightFootOffset,
} = shared;
const makeBody = (center, radius) => ({
center: vec2.clone(center),
radius,
velocity: vec2.create(),
lastNormal: vec2.fromValues(0, 1),
restitution: 0,
});
// A free-space world (no planets): the body is driven purely by the movement
// input force, posture springs and momentum decay — enough to exercise the
// deterministic core without coupling the test to planet SDF geometry.
const emptyWorld = {
groundsNear: () => [],
stepBody: (body, dt) => {
resolveCircleMovement(body, dt, []);
return undefined;
},
};
const stepSeconds = 1 / 200;
// Run a fixed, scripted input sequence through the shared sim and return a
// stable string snapshot of the final pose + carried momentum.
const runSimulation = () => {
const start = vec2.fromValues(100, 100);
const state = {
head: makeBody(vec2.add(vec2.create(), start, headOffset), headRadius),
leftFoot: makeBody(vec2.add(vec2.create(), start, leftFootOffset), feetRadius),
rightFoot: makeBody(vec2.add(vec2.create(), start, rightFootOffset), feetRadius),
direction: 0,
currentPlanet: undefined,
secondsSinceOnSurface: 1,
bodyVelocity: vec2.create(),
};
for (let i = 0; i < 300; i++) {
const angle = i * 0.1;
const input = vec2.fromValues(Math.cos(angle), Math.sin(angle));
stepCharacterMovement(state, emptyWorld, input, stepSeconds);
}
const round = (v) => Math.round(v * 1000) / 1000;
return JSON.stringify({
head: [round(state.head.center[0]), round(state.head.center[1])],
leftFoot: [round(state.leftFoot.center[0]), round(state.leftFoot.center[1])],
rightFoot: [round(state.rightFoot.center[0]), round(state.rightFoot.center[1])],
bodyVelocity: [round(state.bodyVelocity[0]), round(state.bodyVelocity[1])],
});
};
describe('shared character simulation determinism', () => {
it('produces identical output across independent runs', () => {
expect(runSimulation()).toBe(runSimulation());
});
it('matches the pinned reference pose (changes only with intentional physics edits)', () => {
// Regression pin — update deliberately when physics behaviour changes.
expect(runSimulation()).toMatchSnapshot();
});
});