import { describe, it } from 'node:test'; import assert from 'node:assert/strict'; import { int32atomic } from 'moroutine'; describe('Int32Atomic', () => { it('self-allocates and initializes to zero', () => { const a = int32atomic(); assert.equal(a.load(), 0); }); it('stores and loads a value', () => { const a = int32atomic(); a.store(42); assert.equal(a.load(), 42); }); it('exposes byteSize of 4', () => { assert.equal(int32atomic.byteSize, 4); }); it('add returns previous value and updates', () => { const a = int32atomic(); a.store(10); const prev = a.add(5); assert.equal(prev, 10); assert.equal(a.load(), 15); }); it('sub returns previous value and updates', () => { const a = int32atomic(); a.store(10); const prev = a.sub(3); assert.equal(prev, 10); assert.equal(a.load(), 7); }); it('and returns previous value and updates', () => { const a = int32atomic(); a.store(0b1100); const prev = a.and(0b1010); assert.equal(prev, 0b1100); assert.equal(a.load(), 0b1000); }); it('or returns previous value and updates', () => { const a = int32atomic(); a.store(0b1100); const prev = a.or(0b0011); assert.equal(prev, 0b1100); assert.equal(a.load(), 0b1111); }); it('xor returns previous value and updates', () => { const a = int32atomic(); a.store(0b1100); const prev = a.xor(0b1010); assert.equal(prev, 0b1100); assert.equal(a.load(), 0b0110); }); it('exchange returns previous value and sets new', () => { const a = int32atomic(); a.store(42); const prev = a.exchange(99); assert.equal(prev, 42); assert.equal(a.load(), 99); }); it('compareExchange succeeds when expected matches', () => { const a = int32atomic(); a.store(42); const actual = a.compareExchange(42, 99); assert.equal(actual, 42); assert.equal(a.load(), 99); }); it('compareExchange fails when expected does not match', () => { const a = int32atomic(); a.store(42); const actual = a.compareExchange(0, 99); assert.equal(actual, 42); assert.equal(a.load(), 42); }); });