| name | unit-test-implementation |
| description | Best practices for implementing unit tests in this TypeScript monorepo. Use when writing new tests, refactoring existing tests, or fixing failing tests. Covers mocking strategies, test organization, helper functions, and assertion patterns. |
Unit Test Implementation Guide
Mocking Dependencies
Use jest-mock-extended for External Dependencies
Use jest-mock-extended for dependencies that are external to the unit under test:
import { mock, mockDeep, mockFn, type MockProxy } from "jest-mock-extended";
let httpClient: MockProxy<HttpClient>;
let database: MockProxy<Database>;
beforeEach(() => {
httpClient = mock<HttpClient>();
database = mockDeep<Database>();
});
NEVER Pass Complex Objects as mock() Props
jest-mock-extended's mock<T>(props) deep-processes any objects passed as initial properties. When those objects contain class instances with internal state (like Fr, EthAddress, AztecAddress, GasFees, Buffer, etc.), this causes O(2^n) exponential slowdown across tests — each test doubles the time of the previous one.
const constants = { chainId: new Fr(1), coinbase: EthAddress.random(), gasFees: GasFees.empty() };
beforeEach(() => {
builder = mock<CheckpointBuilder>({ checkpointNumber, constants });
});
beforeEach(() => {
builder = mock<CheckpointBuilder>();
Object.defineProperty(builder, 'checkpointNumber', { value: checkpointNumber });
Object.defineProperty(builder, 'constants', { value: constants });
});
Simple primitives (strings, numbers, booleans) and arrow functions are safe to pass as props. The issue is specifically with class instances that have complex prototypes.
When to Use Real Instances vs Mocks
Mock external dependencies that are:
- Difficult to set up and not to relevant to the behavior being tested
- External services or APIs
Use real instances for dependencies that are:
- Tightly coupled to the subject (e.g., a config object, a small utility class)
- Pure functions or simple data transformers
- Part of the same module and tested together
When in doubt, ask the user which dependencies should be mocked and which should use real instances. The decision depends on what behavior you're trying to test.
Prefer mockReturnValueOnce Over Complex mockImplementation
let callCount = 0;
mock.fetch.mockImplementation(() => {
callCount++;
return callCount === 1 ? responseA : responseB;
});
mock.fetch
.mockReturnValueOnce(responseA)
.mockReturnValueOnce(responseB)
.mockReturnValue(defaultResponse);
When Mock Behavior Becomes Too Complex, Create a Mock Class
If mocking requires complex state management (tracking multiple calls, conditional responses based on arguments, etc.), create a proper fake implementation instead:
export class MockCache {
private store = new Map<string, Item>();
public getCalls: string[] = [];
public setCalls: Array<{ key: string; value: Item }> = [];
async get(key: string): Promise<Item | undefined> {
this.getCalls.push(key);
return this.store.get(key);
}
async set(key: string, value: Item): Promise<void> {
this.setCalls.push({ key, value });
this.store.set(key, value);
}
seed(entries: Array<[string, Item]>): this {
entries.forEach(([k, v]) => this.store.set(k, v));
return this;
}
reset(): void {
this.store.clear();
this.getCalls = [];
this.setCalls = [];
}
}
Exposing Internals for Testing
Use a Derived Test Class
When you need to access or modify internal state, create a test subclass that exposes protected members:
Base class (production code):
class MyService {
protected config: Config;
constructor(config: Config) {
this.config = config;
}
protected async waitUntilReady(): Promise<void> {
await sleep(1000);
}
async execute(): Promise<Result> {
await this.waitUntilReady();
}
}
Test class (test file):
class TestMyService extends MyService {
protected override async waitUntilReady(): Promise<void> {
return Promise.resolve();
}
public updateConfig(partial: Partial<Config>): void {
this.config = { ...this.config, ...partial };
}
public getConfig(): Config {
return this.config;
}
}
Note: This requires the base class to use protected (not private) for members you need to access. Feel free to modify the base class for this when writing its unit tests.
Test Organization
Move Setup Logic to beforeEach
describe("MyFeature", () => {
let subject: TestMyService;
let dependency: MockProxy<Dependency>;
beforeEach(() => {
dependency = mock<Dependency>();
subject = new TestMyService(dependency);
});
});
Use Nested beforeEach for Variations
describe("with caching enabled", () => {
beforeEach(() => {
subject.updateConfig({ cacheEnabled: true });
});
it("returns cached results", async () => {
});
});
describe("with caching disabled", () => {
beforeEach(() => {
subject.updateConfig({ cacheEnabled: false });
});
it("always fetches fresh data", async () => {
});
});
Avoid Direct Object Mutation
config.maxRetries = 5;
subject.updateConfig({ maxRetries: 5 });
Helper Functions for Readability
Extract Repeated Setup Patterns
When you find yourself repeating the same 3-4 setup calls across multiple tests, extract them:
it("test 1", async () => {
const items = await Promise.all([createItem(1), createItem(2)]);
mockSource.getItems.mockResolvedValue(items);
mockValidator.validate.mockResolvedValue(true);
});
it("test 2", async () => {
const items = await Promise.all([createItem(1), createItem(2)]);
mockSource.getItems.mockResolvedValue(items);
mockValidator.validate.mockResolvedValue(true);
});
async function setupValidItems(count: number) {
const items = await Promise.all(times(count, (i) => createItem(i)));
mockSource.getItems.mockResolvedValue(items);
mockValidator.validate.mockResolvedValue(true);
return items;
}
it("test 1", async () => {
const items = await setupValidItems(2);
});
Extract Repeated Assertion Patterns
When the same assertion sequence appears in multiple tests:
it("test 1", async () => {
await subject.publish();
expect(publisher.enqueue).toHaveBeenCalledTimes(1);
expect(publisher.enqueue).toHaveBeenCalledWith(
expect.objectContaining({ type: "proposal" }),
expect.any(Date)
);
expect(publisher.send).toHaveBeenCalled();
});
const expectPublished = () => {
expect(publisher.enqueue).toHaveBeenCalledTimes(1);
expect(publisher.enqueue).toHaveBeenCalledWith(
expect.objectContaining({ type: "proposal" }),
expect.any(Date)
);
expect(publisher.send).toHaveBeenCalled();
};
it("test 1", async () => {
await subject.publish();
expectPublished();
});
Note: Only extract when the pattern repeats across multiple tests. A single complex assertion block doesn't need extraction.
Helper Location
- Suite-specific helpers: Define inside the describe block
- Package-shared helpers: Move to
src/test/utils.ts
- Cross-package helpers: Consider if they belong in a shared testing package
Assertions
Be Specific
expect(mock.save).toHaveBeenCalledWith(expect.anything());
expect(mock.save).toHaveBeenCalledWith(
expect.objectContaining({
id: expectedId,
status: "active",
})
);
Use Mock Class Properties for Assertions
When using custom mock classes, assert on tracked properties:
expect(mockCache.getCalls).toEqual(["key1", "key2"]);
expect(mockCache.setCalls).toHaveLength(1);
expect(mockCache.setCalls[0]).toEqual({ key: "key1", value: expectedValue });
Reusable Test Suites
For testing multiple implementations of the same interface (e.g., in-memory vs persistent storage), create a shared test suite:
export function describeCacheImplementation(
name: string,
createCache: () => Cache
) {
describe(name, () => {
let cache: Cache;
beforeEach(() => {
cache = createCache();
});
it("stores and retrieves values", async () => {
await cache.set("key", "value");
expect(await cache.get("key")).toBe("value");
});
it("returns undefined for missing keys", async () => {
expect(await cache.get("missing")).toBeUndefined();
});
});
}
describeCacheImplementation("MemoryCache", () => new MemoryCache());
describeCacheImplementation("RedisCache", () => new RedisCache(mockClient));
Testing Async Operations
Use Promise.allSettled for Multiple Outcomes
it("handles mixed success and failure", async () => {
const results = await Promise.allSettled([
subject.processValid(),
subject.processInvalid(),
]);
expect(results).toEqual([
{ status: "fulfilled", value: expectedValue },
{
status: "rejected",
reason: expect.objectContaining({ message: "Invalid" }),
},
]);
});
Control Time in Tests
beforeEach(() => {
jest.useFakeTimers();
});
afterEach(() => {
jest.useRealTimers();
});
it("retries after delay", async () => {
mock.fetch.mockRejectedValueOnce(new Error("fail")).mockResolvedValue(data);
const promise = subject.fetchWithRetry();
await jest.advanceTimersByTimeAsync(1000);
await expect(promise).resolves.toEqual(data);
});
Running Tests
yarn build
yarn workspace @aztec/<package-name> test my-class.test.ts
yarn workspace @aztec/<package-name> test my-class.test.ts -t 'test name'
LOG_LEVEL=verbose yarn workspace @aztec/<package-name> test my-class.test.ts