Implement comprehensive testing strategies using Jest, Vitest, and Testing Library for unit tests, integration tests, and end-to-end testing with mocking, fixtures, and test-driven development. Use when writing JavaScript/TypeScript tests, setting up test infrastructure, or implementing TDD/BDD workflows.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add wshobson/agents --skill "javascript-testing-patterns" -g -a claude-code -yOr manually — clone and copy the skill directory (SKILL.md + companion files):
git clone --depth 1 https://github.com/wshobson/agents /tmp/agents && cp -r /tmp/agents/plugins/javascript-typescript/skills/javascript-testing-patterns ~/.claude/skills/javascript-testing-patterns-wshobsonThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: javascript-testing-patterns
description: Implement comprehensive testing strategies using Jest, Vitest, and Testing Library for unit tests, integration tests, and end-to-end testing with mocking, fixtures, and test-driven development. Use when writing JavaScript/TypeScript tests, setting up test infrastructure, or implementing TDD/BDD workflows.
---
# JavaScript Testing Patterns
Comprehensive guide for implementing robust testing strategies in JavaScript/TypeScript applications using modern testing frameworks and best practices.
## When to Use This Skill
- Setting up test infrastructure for new projects
- Writing unit tests for functions and classes
- Creating integration tests for APIs and services
- Implementing end-to-end tests for user flows
- Mocking external dependencies and APIs
- Testing React, Vue, or other frontend components
- Implementing test-driven development (TDD)
- Setting up continuous testing in CI/CD pipelines
## Testing Frameworks
### Jest - Full-Featured Testing Framework
**Setup:**
```typescript
// jest.config.ts
import type { Config } from "jest";
const config: Config = {
preset: "ts-jest",
testEnvironment: "node",
roots: ["<rootDir>/src"],
testMatch: ["**/__tests__/**/*.ts", "**/?(*.)+(spec|test).ts"],
collectCoverageFrom: [
"src/**/*.ts",
"!src/**/*.d.ts",
"!src/**/*.interface.ts",
],
coverageThreshold: {
global: {
branches: 80,
functions: 80,
lines: 80,
statements: 80,
},
},
setupFilesAfterEnv: ["<rootDir>/src/test/setup.ts"],
};
export default config;
```
### Vitest - Fast, Vite-Native Testing
**Setup:**
```typescript
// vitest.config.ts
import { defineConfig } from "vitest/config";
export default defineConfig({
test: {
globals: true,
environment: "node",
coverage: {
provider: "v8",
reporter: ["text", "json", "html"],
exclude: ["**/*.d.ts", "**/*.config.ts", "**/dist/**"],
},
setupFiles: ["./src/test/setup.ts"],
},
});
```
## Unit Testing Patterns
### Pattern 1: Testing Pure Functions
```typescript
// utils/calculator.ts
export function add(a: number, b: number): number {
return a + b;
}
export function divide(a: number, b: number): number {
if (b === 0) {
throw new Error("Division by zero");
}
return a / b;
}
// utils/calculator.test.ts
import { describe, it, expect } from "vitest";
import { add, divide } from "./calculator";
describe("Calculator", () => {
describe("add", () => {
it("should add two positive numbers", () => {
expect(add(2, 3)).toBe(5);
});
it("should add negative numbers", () => {
expect(add(-2, -3)).toBe(-5);
});
it("should handle zero", () => {
expect(add(0, 5)).toBe(5);
expect(add(5, 0)).toBe(5);
});
});
describe("divide", () => {
it("should divide two numbers", () => {
expect(divide(10, 2)).toBe(5);
});
it("should handle decimal results", () => {
expect(divide(5, 2)).toBe(2.5);
});
it("should throw error when dividing by zero", () => {
expect(() => divide(10, 0)).toThrow("Division by zero");
});
});
});
```
### Pattern 2: Testing Classes
```typescript
// services/user.service.ts
export class UserService {
private users: Map<string, User> = new Map();
create(user: User): User {
if (this.users.has(user.id)) {
throw new Error("User already exists");
}
this.users.set(user.id, user);
return user;
}
findById(id: string): User | undefined {
return this.users.get(id);
}
update(id: string, updates: Partial<User>): User {
const user = this.users.get(id);
if (!user) {
throw new Error("User not found");
}
const updated = { ...user, ...updates };
this.users.set(id, updated);
return updated;
}
delete(id: string): boolean {
return this.users.delete(id);
}
}
// services/user.service.test.ts
import { describe, it, expect, beforeEach } from "vitest";
import { UserService } from "./user.service";
describe("UserService", () => {
let service: UserService;
beforeEach(() => {
service = new UserService();
});
describe("create", () => {
it("should create a new user", () => {
const user = { id: "1", name: "John", email: "john@example.com" };
const created = service.create(user);
expect(created).toEqual(user);
expect(service.findById("1")).toEqual(user);
});
it("should throw error if user already exists", () => {
const user = { id: "1", name: "John", email: "john@example.com" };
service.create(user);
expect(() => service.create(user)).toThrow("User already exists");
});
});
describe("update", () => {
it("should update existing user", () => {
const user = { id: "1", name: "John", email: "john@example.com" };
service.create(user);
const updated = service.update("1", { name: "Jane" });
expect(updated.name).toBe("Jane");
expect(updated.email).toBe("john@example.com");
});
it("should throw error if user not found", () => {
expect(() => service.update("999", { name: "Jane" })).toThrow(
"User not found",
);
});
});
});
```
### Pattern 3: Testing Async Functions
```typescript
// services/api.service.ts
export class ApiService {
async fetchUser(id: string): Promise<User> {
const response = await fetch(`https://api.example.com/users/${id}`);
if (!response.ok) {
throw new Error("User not found");
}
return response.json();
}
async createUser(user: CreateUserDTO): Promise<User> {
const response = await fetch("https://api.example.com/users", {
method: "POST",
headers: { "Content-Type": "application/json" },
body: JSON.stringify(user),
});
return response.json();
}
}
// services/api.service.test.ts
import { describe, it, expect, vi, beforeEach } from "vitest";
import { ApiService } from "./api.service";
// Mock fetch globally
global.fetch = vi.fn();
describe("ApiService", () => {
let service: ApiService;
beforeEach(() => {
service = new ApiService();
vi.clearAllMocks();
});
describe("fetchUser", () => {
it("should fetch user successfully", async () => {
const mockUser = { id: "1", name: "John", email: "john@example.com" };
(fetch as any).mockResolvedValueOnce({
ok: true,
json: async () => mockUser,
});
const user = await service.fetchUser("1");
expect(user).toEqual(mockUser);
expect(fetch).toHaveBeenCalledWith("https://api.example.com/users/1");
});
it("should throw error if user not found", async () => {
(fetch as any).mockResolvedValueOnce({
ok: false,
});
await expect(service.fetchUser("999")).rejects.toThrow("User not found");
});
});
describe("createUser", () => {
it("should create user successfully", async () => {
const newUser = { name: "John", email: "john@example.com" };
const createdUser = { id: "1", ...newUser };
(fetch as any).mockResolvedValueOnce({
ok: true,
json: async () => createdUser,
});
const user = await service.createUser(newUser);
expect(user).toEqual(createdUser);
expect(fetch).toHaveBeenCalledWith(
"https://api.example.com/users",
expect.objectContaining({
method: "POST",
body: JSON.stringify(newUser),
}),
);
});
});
});
```
## Mocking Patterns
### Pattern 1: Mocking Modules
```typescript
// services/email.service.ts
import nodemailer from "nodemailer";
export class EmailService {
private transporter = nodemailer.createTransport({
host: process.env.SMTP_HOST,
port: 587,
auth: {
user: process.env.SMTP_USER,
pass: process.env.SMTP_PASS,
},
});
async sendEmail(to: string, subject: string, html: string) {
await this.transporter.sendMail({
from: process.env.EMAIL_FROM,
to,
subject,
html,
});
}
}
// services/email.service.test.ts
import { describe, it, expect, vi, beforeEach } from "vitest";
import { EmailService } from "./email.service";
vi.mock("nodemailer", () => ({
default: {
createTransport: vi.fn(() => ({
sendMail: vi.fn().mockResolvedValue({ messageId: "123" }),
})),
},
}));
describe("EmailService", () => {
let service: EmailService;
beforeEach(() => {
service = new EmailService();
});
it("should send email successfully", async () => {
await service.sendEmail(
"test@example.com",
"Test Subject",
"<p>Test Body</p>",
);
expect(service["transporter"].sendMail).toHaveBeenCalledWith(
expect.objectContaining({
to: "test@example.com",
subject: "Test Subject",
}),
);
});
});
```
### Pattern 2: Dependency Injection for Testing
```typescript
// services/user.service.ts
export interface IUserRepository {
findById(id: string): Promise<User | null>;
create(user: User): Promise<User>;
}
export class UserService {
constructor(private userRepository: IUserRepository) {}
async getUser(id: string): Promise<User> {
const user = await this.userRepository.findById(id);
if (!user) {
throw new Error("User not found");
}
return user;
}
async createUser(userData: CreateUserDTO): Promise<User> {
// Business logic here
const user = { id: generateId(), ...userData };
return this.userRepository.create(user);
}
}
// services/user.service.test.ts
import { describe, it, expect, vi, beforeEach } from "vitest";
import { UserService, IUserRepository } from "./user.service";
describe("UserService", () => {
let service: UserService;
let mockRepository: IUserRepository;
beforeEach(() => {
mockRepository = {
findById: vi.fn(),
create: vi.fn(),
};
service = new UserService(mockRepository);
});
describe("getUser", () => {
it("should return user if found", async () => {
const mockUser = { id: "1", name: "John", email: "john@example.com" };
vi.mocked(mockRepository.findById).mockResolvedValue(mockUser);
const user = await service.getUser("1");
expect(user).toEqual(mockUser);
expect(mockRepository.findById).toHaveBeenCalledWith("1");
});
it("should throw error if user not found", async () => {
vi.mocked(mockRepository.findById).mockResolvedValue(null);
await expect(service.getUser("999")).rejects.toThrow("User not found");
});
});
describe("createUser", () => {
it("should create user successfully", async () => {
const userData = { name: "John", email: "john@example.com" };
const createdUser = { id: "1", ...userData };
vi.mocked(mockRepository.create).mockResolvedValue(createdUser);
const user = await service.createUser(userData);
expect(user).toEqual(createdUser);
expect(mockRepository.create).toHaveBeenCalled();
});
});
});
```
### Pattern 3: Spying on Functions
```typescript
// utils/logger.ts
export const logger = {
info: (message: string) => console.log(`INFO: ${message}`),
error: (message: string) => console.error(`ERROR: ${message}`),
};
// services/order.service.ts
import { logger } from "../utils/logger";
export class OrderService {
async processOrder(orderId: string): Promise<void> {
logger.info(`Processing order ${orderId}`);
// Process order logic
logger.info(`Order ${orderId} processed successfully`);
}
}
// services/order.service.test.ts
import { describe, it, expect, vi, beforeEach, afterEach } from "vitest";
import { OrderService } from "./order.service";
import { logger } from "../utils/logger";
describe("OrderService", () => {
let service: OrderService;
let loggerSpy: any;
beforeEach(() => {
service = new OrderService();
loggerSpy = vi.spyOn(logger, "info");
});
afterEach(() => {
loggerSpy.mockRestore();
});
it("should log order processing", async () => {
await service.processOrder("123");
expect(loggerSpy).toHaveBeenCalledWith("Processing order 123");
expect(loggerSpy).toHaveBeenCalledWith("Order 123 processed successfully");
expect(loggerSpy).toHaveBeenCalledTimes(2);
});
});
```
## Integration Testing
Integration tests verify real database operations and HTTP endpoints using `supertest` and a test database instance. Always truncate tables in `beforeEach` and tear down in `afterAll`.
For full API integration test examples (supertest + PostgreSQL) and database repository integration tests, see [references/advanced-testing-patterns.md](references/advanced-testing-patterns.md).
## Frontend Testing with Testing Library
Test React components by rendering them and querying by role, placeholder, or test ID. Test hooks with `renderHook` + `act`. Prefer semantic queries (`getByRole`, `getByPlaceholderText`) over `data-testid`.
For complete React component test examples (UserForm, hooks with `renderHook`/`act`), see [references/advanced-testing-patterns.md](references/advanced-testing-patterns.md).
## Test Fixtures and Factories
Use `@faker-js/faker` to generate realistic test data factories. Factories accept optional `overrides` so tests can set only the fields they care about:
```typescript
// tests/fixtures/user.fixture.ts
import { faker } from "@faker-js/faker";
export function createUserFixture(overrides?: Partial<User>): User {
return {
id: faker.string.uuid(),
name: faker.person.fullName(),
email: faker.internet.email(),
createdAt: faker.date.past(),
...overrides,
};
}
```
For snapshot testing, coverage configuration, test organization patterns, promise testing, and timer mocking, see [references/advanced-testing-patterns.md](references/advanced-testing-patterns.md).
## Best Practices
1. **Follow AAA Pattern**: Arrange, Act, Assert
2. **One assertion per test**: Or logically related assertions
3. **Descriptive test names**: Should describe what is being tested
4. **Use beforeEach/afterEach**: For setup and teardown
5. **Mock external dependencies**: Keep tests isolated
6. **Test edge cases**: Not just happy paths
7. **Avoid implementation details**: Test behavior, not implementation
8. **Use test factories**: For consistent test data
9. **Keep tests fast**: Mock slow operations
10. **Write tests first (TDD)**: When possible
11. **Maintain test coverage**: Aim for 80%+ coverage
12. **Use TypeScript**: For type-safe tests
13. **Test error handling**: Not just success cases
14. **Use data-testid sparingly**: Prefer semantic queries
15. **Clean up after tests**: Prevent test pollution
Use when facing 2+ independent tasks that can be worked on without shared state or sequential dependencies
Use when encountering any bug, test failure, or unexpected behavior, before proposing fixes
Use when implementing any feature or bugfix, before writing implementation code