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* Integration tests for mel.worker.ts
*
* Tests that the mel worker:
* 1. Loads successfully (catches import/syntax errors before runtime)
* 2. Responds to INIT, PUSH_AUDIO, GET_FEATURES, GET_STATUS, RESET messages
* 3. Computes mel features correctly for known inputs
*
* Uses @vitest/web-worker to polyfill Web Workers in the test environment.
*
* Run: npm test
*/
import '@vitest/web-worker';
import { describe, it, expect, beforeEach, afterEach } from 'vitest';
import { MEL_CONSTANTS, sampleToFrame } from './mel-math';
/**
* Helper: send a message to the worker and wait for a response.
*/
function sendWorkerMessage(
worker: Worker,
type: string,
payload: any,
id: number,
transferable?: Transferable[],
): Promise<any> {
return new Promise((resolve, reject) => {
const timeout = setTimeout(() => reject(new Error(`Worker ${type} timed out`)), 5000);
const handler = (e: MessageEvent) => {
if (e.data.id === id) {
clearTimeout(timeout);
worker.removeEventListener('message', handler);
if (e.data.type === 'ERROR') {
reject(new Error(e.data.payload));
} else {
resolve(e.data);
}
}
};
worker.addEventListener('message', handler);
if (transferable) {
worker.postMessage({ type, payload, id }, transferable);
} else {
worker.postMessage({ type, payload, id });
}
});
}
describe('mel.worker', () => {
let worker: Worker;
let nextId: number;
beforeEach(() => {
worker = new Worker(new URL('./mel.worker.ts', import.meta.url), {
type: 'module'
});
nextId = 1;
});
afterEach(() => {
worker.terminate();
});
// βββ Loading ββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should load without errors', async () => {
// If the worker has syntax errors or broken imports, this will fail.
const errorPromise = new Promise<ErrorEvent>((resolve) => {
worker.onerror = (e) => resolve(e as ErrorEvent);
});
const initPromise = sendWorkerMessage(worker, 'INIT', {}, nextId++);
// Race: either init succeeds or error fires
const result = await Promise.race([
initPromise.then(() => 'success'),
errorPromise.then((e) => {
throw new Error(`Worker failed to load: ${e.message || 'unknown error'}`);
}),
]);
expect(result).toBe('success');
});
// βββ INIT βββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should respond to INIT with INIT_DONE', async () => {
const response = await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
expect(response.type).toBe('INIT_DONE');
});
it('should accept custom nMels', async () => {
const response = await sendWorkerMessage(worker, 'INIT', { nMels: 64 }, nextId++);
expect(response.type).toBe('INIT_DONE');
// Verify through status
const status = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(status.payload.melBins).toBe(64);
});
// βββ PUSH_AUDIO βββββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should accept audio chunks after init', async () => {
await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
// PUSH_AUDIO is fire-and-forget (no response), so we verify via GET_STATUS
const chunk = new Float32Array(1600); // 0.1s
for (let i = 0; i < chunk.length; i++) {
chunk[i] = Math.sin(2 * Math.PI * 440 * i / 16000);
}
const copy = new Float32Array(chunk);
worker.postMessage({ type: 'PUSH_AUDIO', payload: copy }, [copy.buffer]);
// Give worker time to process
await new Promise(r => setTimeout(r, 100));
const status = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(status.payload.totalSamples).toBe(1600);
expect(status.payload.computedFrames).toBe(sampleToFrame(1600));
});
// βββ GET_FEATURES βββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should return null for empty buffer', async () => {
await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
const response = await sendWorkerMessage(
worker,
'GET_FEATURES',
{ startSample: 0, endSample: 16000 },
nextId++,
);
expect(response.type).toBe('GET_FEATURES_DONE');
expect(response.payload).toBeNull();
});
it('should return normalized features for pushed audio', async () => {
const nMels = 128;
await sendWorkerMessage(worker, 'INIT', { nMels }, nextId++);
// Push 1 second of 440 Hz sine wave
const audio = new Float32Array(16000);
for (let i = 0; i < audio.length; i++) {
audio[i] = Math.sin(2 * Math.PI * 440 * i / 16000) * 0.3;
}
const copy = new Float32Array(audio);
worker.postMessage({ type: 'PUSH_AUDIO', payload: copy }, [copy.buffer]);
// Wait for processing
await new Promise(r => setTimeout(r, 200));
// Request features for the full second
const response = await sendWorkerMessage(
worker,
'GET_FEATURES',
{ startSample: 0, endSample: 16000 },
nextId++,
);
expect(response.type).toBe('GET_FEATURES_DONE');
expect(response.payload).not.toBeNull();
const { features, T, melBins } = response.payload;
expect(melBins).toBe(nMels);
expect(T).toBe(sampleToFrame(16000)); // 100 frames
expect(features).toBeInstanceOf(Float32Array);
expect(features.length).toBe(nMels * T);
// Features should be normalized (mean ~0)
let sum = 0;
for (let i = 0; i < features.length; i++) {
sum += features[i];
expect(isFinite(features[i])).toBe(true);
}
// Average across all values should be near 0
const avgMean = sum / features.length;
expect(Math.abs(avgMean)).toBeLessThan(0.5);
});
// βββ GET_STATUS βββββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should return correct status after init', async () => {
await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
const response = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(response.type).toBe('GET_STATUS_DONE');
expect(response.payload.totalSamples).toBe(0);
expect(response.payload.computedFrames).toBe(0);
expect(response.payload.melBins).toBe(128);
expect(response.payload.bufferCapacityFrames).toBeGreaterThan(0);
});
// βββ RESET ββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
it('should clear state on RESET', async () => {
await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
// Push some audio
const chunk = new Float32Array(3200);
for (let i = 0; i < chunk.length; i++) chunk[i] = Math.sin(i * 0.1);
worker.postMessage({ type: 'PUSH_AUDIO', payload: new Float32Array(chunk) }, [new Float32Array(chunk).buffer]);
await new Promise(r => setTimeout(r, 100));
// Verify we have data
let status = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(status.payload.totalSamples).toBeGreaterThan(0);
// Reset
await sendWorkerMessage(worker, 'RESET', {}, nextId++);
// Should be cleared
status = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(status.payload.totalSamples).toBe(0);
expect(status.payload.computedFrames).toBe(0);
});
// βββ Incremental Processing βββββββββββββββββββββββββββββββββββββββββββ
it('should accumulate frames from multiple audio pushes', async () => {
await sendWorkerMessage(worker, 'INIT', { nMels: 128 }, nextId++);
// Push 5 chunks of 0.1 seconds each
for (let chunk = 0; chunk < 5; chunk++) {
const audio = new Float32Array(1600);
for (let i = 0; i < 1600; i++) {
audio[i] = Math.sin(2 * Math.PI * 440 * (chunk * 1600 + i) / 16000);
}
const copy = new Float32Array(audio);
worker.postMessage({ type: 'PUSH_AUDIO', payload: copy }, [copy.buffer]);
}
await new Promise(r => setTimeout(r, 200));
const status = await sendWorkerMessage(worker, 'GET_STATUS', {}, nextId++);
expect(status.payload.totalSamples).toBe(8000); // 5 * 1600
expect(status.payload.computedFrames).toBe(sampleToFrame(8000)); // 50 frames
});
});
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