import Piscina from '..'; import { test } from 'tap'; import { resolve } from 'path'; test('coverage test for Atomics optimization', async ({ equal }) => { const pool = new Piscina({ filename: resolve(__dirname, 'fixtures/notify-then-sleep-or.ts'), minThreads: 2, maxThreads: 2, concurrentTasksPerWorker: 2 }); const tasks = []; let v : number; // Post 4 tasks, and wait for all of them to be ready. const i32array = new Int32Array(new SharedArrayBuffer(4)); for (let index = 0; index < 4; index++) { tasks.push(pool.runTask({ i32array, index })); } // Wait for 2 tasks to enter 'wait' state. do { v = Atomics.load(i32array, 0); if (popcount8(v) >= 2) break; Atomics.wait(i32array, 0, v); } while (true); // The check above could also be !== 2 but it's hard to get things right // sometimes and this gives us a nice assertion. Basically, at this point // exactly 2 tasks should be in Atomics.wait() state. equal(popcount8(v), 2); // Wake both tasks up as simultaneously as possible. The other 2 tasks should // then start executing. Atomics.store(i32array, 0, 0); Atomics.notify(i32array, 0, Infinity); // Wait for the other 2 tasks to enter 'wait' state. do { v = Atomics.load(i32array, 0); if (popcount8(v) >= 2) break; Atomics.wait(i32array, 0, v); } while (true); // At this point, the first two tasks are definitely finished and have // definitely posted results back to the main thread, and the main thread // has definitely not received them yet, meaning that the Atomics check will // be used. Making sure that that works is the point of this test. // Wake up the remaining 2 tasks in order to make sure that the test finishes. // Do the same consistency check beforehand as above. equal(popcount8(v), 2); Atomics.store(i32array, 0, 0); Atomics.notify(i32array, 0, Infinity); await Promise.all(tasks); }); // Inefficient but straightforward 8-bit popcount function popcount8 (v : number) : number { v &= 0xff; if (v & 0b11110000) return popcount8(v >>> 4) + popcount8(v & 0xb00001111); if (v & 0b00001100) return popcount8(v >>> 2) + popcount8(v & 0xb00000011); if (v & 0b00000010) return popcount8(v >>> 1) + popcount8(v & 0xb00000001); return v; } test('avoids unbounded recursion', async () => { const pool = new Piscina({ filename: resolve(__dirname, 'fixtures/simple-isworkerthread.ts'), minThreads: 2, maxThreads: 2 }); const tasks = []; for (let i = 1; i <= 10000; i++) { tasks.push(pool.runTask(null)); } await Promise.all(tasks); });