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liabru-matter-js/test/ExampleWorker.js
2024-03-10 14:14:48 +00:00

343 lines
9.5 KiB
JavaScript

/* eslint-env es6 */
/* eslint no-global-assign: 0 */
"use strict";
const mock = require('mock-require');
const { requireUncached, serialize, smoothExp } = require('./TestTools');
const consoleOriginal = global.console;
const DateOriginal = global.Date;
const runExample = options => {
const {
Matter,
logs,
frameCallbacks
} = prepareEnvironment(options);
let memoryDeltaAverage = 0;
let timeDeltaAverage = 0;
let overlapTotal = 0;
let overlapCount = 0;
let i;
let j;
try {
let runner;
let engine;
let render;
let extrinsicCapture;
const pairOverlap = (pair) => {
const collision = Matter.Collision.collides(pair.bodyA, pair.bodyB);
return collision ? Math.max(collision.depth - pair.slop, 0) : -1;
};
for (i = 0; i < options.repeats; i += 1) {
if (global.gc) {
global.gc();
}
const Examples = requireUncached('../examples/index');
const example = Examples[options.name]();
runner = example.runner;
engine = example.engine;
render = example.render;
for (j = 0; j < options.updates; j += 1) {
const time = j * runner.delta;
const callbackCount = frameCallbacks.length;
global.timeNow = time;
for (let p = 0; p < callbackCount; p += 1) {
const frameCallback = frameCallbacks.shift();
const memoryBefore = process.memoryUsage().heapUsed;
const timeBefore = process.hrtime();
frameCallback(time);
const timeDuration = process.hrtime(timeBefore);
const timeDelta = timeDuration[0] * 1e9 + timeDuration[1];
const memoryAfter = process.memoryUsage().heapUsed;
const memoryDelta = Math.max(memoryAfter - memoryBefore, 0);
memoryDeltaAverage = smoothExp(memoryDeltaAverage, memoryDelta);
timeDeltaAverage = smoothExp(timeDeltaAverage, timeDelta);
}
let overlapTotalUpdate = 0;
let overlapCountUpdate = 0;
const pairsList = engine.pairs.list;
const pairsListLength = engine.pairs.list.length;
for (let p = 0; p < pairsListLength; p += 1) {
const pair = pairsList[p];
if (pair.isActive && !pair.isSensor){
const overlap = pairOverlap(pair);
if (overlap >= 0) {
overlapTotalUpdate += overlap;
overlapCountUpdate += 1;
}
}
}
if (overlapCountUpdate > 0) {
overlapTotal += overlapTotalUpdate / overlapCountUpdate;
overlapCount += 1;
}
if (!extrinsicCapture && engine.timing.timestamp >= 1000) {
extrinsicCapture = captureExtrinsics(engine, Matter);
extrinsicCapture.updates = j;
}
}
}
resetEnvironment();
return {
name: options.name,
duration: timeDeltaAverage,
memory: memoryDeltaAverage,
overlap: overlapTotal / (overlapCount || 1),
extrinsic: extrinsicCapture,
intrinsic: captureIntrinsics(engine, Matter),
state: captureState(engine, runner, render),
logs
};
} catch (err) {
err.message = `On example '${options.name}' update ${j}:\n\n ${err.message}`;
throw err;
}
};
const prepareMatter = (options) => {
const Matter = requireUncached(options.useDev ? '../build/matter.dev' : '../build/matter');
if (Matter.Common._nextId !== 0) {
throw 'Matter instance has already been used.';
}
Matter.Common.info = Matter.Common.warn = Matter.Common.log;
if (options.stableSort) {
if (Matter.Collision) {
const MatterCollisionCollides = Matter.Collision.collides;
Matter.Collision.collides = function(bodyA, bodyB, pairs) {
const _bodyA = bodyA.id < bodyB.id ? bodyA : bodyB;
const _bodyB = bodyA.id < bodyB.id ? bodyB : bodyA;
return MatterCollisionCollides(_bodyA, _bodyB, pairs);
};
} else {
const MatterSATCollides = Matter.SAT.collides;
Matter.SAT.collides = function(bodyA, bodyB, previousCollision, pairActive) {
const _bodyA = bodyA.id < bodyB.id ? bodyA : bodyB;
const _bodyB = bodyA.id < bodyB.id ? bodyB : bodyA;
return MatterSATCollides(_bodyA, _bodyB, previousCollision, pairActive);
};
}
Matter.after('Detector.collisions', function() { this.sort(collisionCompareId); });
Matter.after('Composite.allBodies', function() { sortById(this); });
Matter.after('Composite.allConstraints', function() { sortById(this); });
Matter.after('Composite.allComposites', function() { sortById(this); });
Matter.before('Pairs.update', function(pairs) {
pairs.list.sort((pairA, pairB) => collisionCompareId(pairA.collision, pairB.collision));
});
Matter.after('Pairs.update', function(pairs) {
pairs.list.sort((pairA, pairB) => collisionCompareId(pairA.collision, pairB.collision));
});
}
if (options.jitter) {
Matter.after('Body.create', function() {
Matter.Body.applyForce(this, this.position, {
x: Math.cos(this.id * this.id) * options.jitter * this.mass,
y: Math.sin(this.id * this.id) * options.jitter * this.mass
});
});
}
return Matter;
};
const prepareEnvironment = options => {
const logs = [];
const frameCallbacks = [];
global.document = global.window = {
performance: {},
addEventListener: () => {},
requestAnimationFrame: callback => {
frameCallbacks.push(callback);
return frameCallbacks.length;
},
createElement: () => ({
parentNode: {},
width: 800,
height: 600,
style: {},
addEventListener: () => {},
getAttribute: name => ({
'data-pixel-ratio': '1'
}[name]),
getContext: () => new Proxy({}, {
get() { return () => {}; }
})
})
};
global.document.body = global.document.createElement();
global.Image = function Image() { };
global.console = {
log: (...args) => {
logs.push(args.join(' '));
}
};
global.Math.random = () => {
throw new Error("Math.random was called during tests, output can not be compared.");
};
global.timeNow = 0;
global.window.performance.now = () => global.timeNow;
global.Date = function() {
this.toString = () => global.timeNow.toString();
this.valueOf = () => global.timeNow;
};
global.Date.now = () => global.timeNow;
const Matter = prepareMatter(options);
mock('matter-js', Matter);
global.Matter = Matter;
return {
Matter,
logs,
frameCallbacks
};
};
const resetEnvironment = () => {
global.console = consoleOriginal;
global.Date = DateOriginal;
global.window = undefined;
global.document = undefined;
global.Matter = undefined;
mock.stopAll();
};
const captureExtrinsics = ({ world }, Matter) => ({
bodies: Matter.Composite.allBodies(world).reduce((bodies, body) => {
bodies[body.id] = {
position: { x: body.position.x, y: body.position.y },
vertices: body.vertices.map(vertex => ({ x: vertex.x, y: vertex.y }))
};
return bodies;
}, {})
});
const captureIntrinsics = ({ world, timing }, Matter) => serialize({
engine: {
timing: {
timeScale: timing.timeScale,
timestamp: timing.timestamp
}
},
bodies: Matter.Composite.allBodies(world).reduce((bodies, body) => {
bodies[body.id] = body;
return bodies;
}, {}),
constraints: Matter.Composite.allConstraints(world).reduce((constraints, constraint) => {
constraints[constraint.id] = constraint;
return constraints;
}, {}),
composites: Matter.Composite.allComposites(world).reduce((composites, composite) => {
composites[composite.id] = {
bodies: Matter.Composite.allBodies(composite).map(body => body.id),
constraints: Matter.Composite.allConstraints(composite).map(constraint => constraint.id),
composites: Matter.Composite.allComposites(composite).map(composite => composite.id)
};
return composites;
}, {})
}, (key) => !Number.isInteger(parseInt(key)) && !intrinsicProperties.includes(key));
const captureState = (engine, runner, render, excludeKeys=excludeStateProperties) => (
serialize({ engine, runner, render }, (key) => excludeKeys.includes(key))
);
const intrinsicProperties = [
// Composite
'bodies', 'constraints', 'composites',
// Common
'id', 'label',
// Constraint
'angularStiffness', 'bodyA', 'bodyB', 'damping', 'length', 'stiffness',
// Body
'area', 'collisionFilter', 'category', 'mask', 'group', 'density', 'friction',
'frictionAir', 'frictionStatic', 'inertia', 'inverseInertia', 'inverseMass',
'isSensor', 'isSleeping', 'isStatic', 'mass', 'parent', 'parts', 'restitution',
'sleepThreshold', 'slop', 'timeScale',
// Composite
'bodies', 'constraints', 'composites'
];
const extrinsicProperties = [
'axes',
'vertices',
'bounds',
'angle',
'anglePrev',
'angularVelocity',
'angularSpeed',
'speed',
'velocity',
'position',
'positionPrev',
'motion',
'sleepCounter',
'positionImpulse'
];
const excludeStateProperties = [
'cache',
'grid',
'context',
'broadphase',
'metrics',
'controller',
'detector',
'pairs',
'lastElapsed',
'deltaHistory',
'elapsedHistory',
'engineDeltaHistory',
'engineElapsedHistory',
'timestampElapsedHistory',
].concat(extrinsicProperties);
const collisionId = (collision) =>
Math.min(collision.bodyA.id, collision.bodyB.id) + Math.max(collision.bodyA.id, collision.bodyB.id) * 10000;
const collisionCompareId = (collisionA, collisionB) => collisionId(collisionA) - collisionId(collisionB);
const sortById = (objs) => objs.sort((objA, objB) => objA.id - objB.id);
module.exports = { runExample };