--- name: tdd-workflow description: Use this skill when writing new features, fixing bugs, or refactoring code. Enforces test-driven development with 80%+ coverage including unit, integration, and E2E tests. --- # Test-Driven Development Workflow This skill ensures all code development follows TDD principles with comprehensive test coverage. ## When to Activate - Writing new features or functionality - Fixing bugs or issues - Refactoring existing code - Adding API endpoints - Creating new components ## Core Principles ### 1. Tests BEFORE Code ALWAYS write tests first, then implement code to make tests pass. ### 2. Coverage Requirements - Minimum 80% coverage (unit + integration + E2E) - All edge cases covered - Error scenarios tested - Boundary conditions verified ### 3. Test Types #### Unit Tests - Individual functions and utilities - Component logic - Pure functions - Helpers and utilities #### Integration Tests - API endpoints - Database operations - Service interactions - External API calls #### E2E Tests (Playwright) - Critical user flows - Complete workflows - Browser automation - UI interactions ## TDD Workflow Steps ### Step 0: Detect the Test Runner Do not assume `npm test`. The commands in the steps and examples below use ``, ``, and `` as placeholders for the project's actual runner. Resolve them once before starting: 1. **Run the package-manager detector** (ships with ECC): ```bash node scripts/setup-package-manager.js --detect ``` It resolves the package manager (npm / pnpm / yarn / bun) from, in order: `CLAUDE_PACKAGE_MANAGER`, `.claude/package-manager.json`, the `package.json` `packageManager` field, the lockfile, then global config. 2. **Distinguish the package manager from the test runner — they are not the same.** A project can use Bun to install dependencies yet still run Jest or Vitest. Inspect `package.json` `scripts.test` and the test files: - `scripts.test` invokes `jest` / `vitest` -> run through the detected PM (`npm test`, `pnpm test`, `yarn test`, or `bun run test`). - `scripts.test` is `bun test`, or test files `import { test, expect } from "bun:test"`, or there is no jest/vitest config but Bun is present -> use **Bun's native runner** (`bun test`). See [Bun Native Test Pattern](#bun-native-test-pattern-buntest) below. Runner command matrix: | Runner | `` | `` | `` | `` | |--------|----------|----------------|--------------|----------| | npm | `npm test` | `npm test -- --watch` | `npm run test:coverage` | `npm run lint` | | pnpm | `pnpm test` | `pnpm test --watch` | `pnpm test:coverage` | `pnpm lint` | | yarn | `yarn test` | `yarn test --watch` | `yarn test:coverage` | `yarn lint` | | Bun (script runs jest/vitest) | `bun run test` | `bun run test --watch` | `bun run test:coverage` | `bun run lint` | | Bun (native `bun:test`) | `bun test` | `bun test --watch` | `bun test --coverage` | `bun run lint` | > `bun test` (Bun's built-in runner) is **not** the same as `bun run test` (which runs the `package.json` `test` script). Picking the wrong one is a common failure — e.g. invoking Jest through `npx`/`bun run` in an ESM-only project breaks, while `bun test` runs the suite natively. Confirm which the project expects before the RED gate, then substitute `` / `` everywhere `npm test` appears below. ### Step 1: Write User Journeys ``` As a [role], I want to [action], so that [benefit] Example: As a user, I want to search for markets semantically, so that I can find relevant markets even without exact keywords. ``` ### Step 2: Generate Test Cases For each user journey, create comprehensive test cases: ```typescript describe('Semantic Search', () => { it('returns relevant markets for query', async () => { // Test implementation }) it('handles empty query gracefully', async () => { // Test edge case }) it('falls back to substring search when Redis unavailable', async () => { // Test fallback behavior }) it('sorts results by similarity score', async () => { // Test sorting logic }) }) ``` ### Step 3: Run Tests (They Should Fail) ```bash # Tests should fail - we haven't implemented yet ``` ### Step 4: Implement Code Write minimal code to make tests pass: ```typescript // Implementation guided by tests export async function searchMarkets(query: string) { // Implementation here } ``` ### Step 5: Run Tests Again ```bash # Tests should now pass ``` ### Step 6: Refactor Improve code quality while keeping tests green: - Remove duplication - Improve naming - Optimize performance - Enhance readability ### Step 7: Verify Coverage ```bash # Verify 80%+ coverage achieved ``` ## Testing Patterns ### Unit Test Pattern (Jest/Vitest) ```typescript import { render, screen, fireEvent } from '@testing-library/react' import { Button } from './Button' describe('Button Component', () => { it('renders with correct text', () => { render() expect(screen.getByText('Click me')).toBeInTheDocument() }) it('calls onClick when clicked', () => { const handleClick = jest.fn() render() fireEvent.click(screen.getByRole('button')) expect(handleClick).toHaveBeenCalledTimes(1) }) it('is disabled when disabled prop is true', () => { render() expect(screen.getByRole('button')).toBeDisabled() }) }) ``` ### Bun Native Test Pattern (`bun:test`) When the project uses Bun's built-in runner (see [Step 0](#step-0-detect-the-test-runner)), import from `bun:test` and run with `bun test` — not `bun run test`. The API is Jest-like, so `describe` / `it` / `expect` and most matchers carry over. See the `bun-runtime` skill for runtime, install, and bundler details. ```typescript import { describe, it, expect, mock } from 'bun:test' import { searchMarkets } from './search' describe('searchMarkets', () => { it('returns an empty list for an empty query', async () => { expect(await searchMarkets('')).toEqual([]) }) it('sorts results by similarity score', async () => { const results = await searchMarkets('election') expect(results).toEqual([...results].sort((a, b) => b.score - a.score)) }) }) ``` ```bash bun test # run once (RED/GREEN gate) bun test --watch # watch mode during development bun test --coverage # coverage report ``` - Mock modules with `mock.module(...)` / `mock(...)` from `bun:test` instead of `jest.mock(...)`. - Configure coverage thresholds in `bunfig.toml` under `[test]` (e.g. `coverageThreshold`) rather than the Jest `coverageThresholds` config block. ### API Integration Test Pattern ```typescript import { NextRequest } from 'next/server' import { GET } from './route' describe('GET /api/markets', () => { it('returns markets successfully', async () => { const request = new NextRequest('http://localhost/api/markets') const response = await GET(request) const data = await response.json() expect(response.status).toBe(200) expect(data.success).toBe(true) expect(Array.isArray(data.data)).toBe(true) }) it('validates query parameters', async () => { const request = new NextRequest('http://localhost/api/markets?limit=invalid') const response = await GET(request) expect(response.status).toBe(400) }) it('handles database errors gracefully', async () => { // Mock database failure const request = new NextRequest('http://localhost/api/markets') // Test error handling }) }) ``` ### E2E Test Pattern (Playwright) ```typescript import { test, expect } from '@playwright/test' test('user can search and filter markets', async ({ page }) => { // Navigate to markets page await page.goto('/') await page.click('a[href="/markets"]') // Verify page loaded await expect(page.locator('h1')).toContainText('Markets') // Search for markets await page.fill('input[placeholder="Search markets"]', 'election') // Wait for debounce and results await page.waitForTimeout(600) // Verify search results displayed const results = page.locator('[data-testid="market-card"]') await expect(results).toHaveCount(5, { timeout: 5000 }) // Verify results contain search term const firstResult = results.first() await expect(firstResult).toContainText('election', { ignoreCase: true }) // Filter by status await page.click('button:has-text("Active")') // Verify filtered results await expect(results).toHaveCount(3) }) test('user can create a new market', async ({ page }) => { // Login first await page.goto('/creator-dashboard') // Fill market creation form await page.fill('input[name="name"]', 'Test Market') await page.fill('textarea[name="description"]', 'Test description') await page.fill('input[name="endDate"]', '2025-12-31') // Submit form await page.click('button[type="submit"]') // Verify success message await expect(page.locator('text=Market created successfully')).toBeVisible() // Verify redirect to market page await expect(page).toHaveURL(/\/markets\/test-market/) }) ``` ## Test File Organization ``` src/ ├── components/ │ ├── Button/ │ │ ├── Button.tsx │ │ ├── Button.test.tsx # Unit tests │ │ └── Button.stories.tsx # Storybook │ └── MarketCard/ │ ├── MarketCard.tsx │ └── MarketCard.test.tsx ├── app/ │ └── api/ │ └── markets/ │ ├── route.ts │ └── route.test.ts # Integration tests └── e2e/ ├── markets.spec.ts # E2E tests ├── trading.spec.ts └── auth.spec.ts ``` ## Mocking External Services ### Supabase Mock ```typescript jest.mock('@/lib/supabase', () => ({ supabase: { from: jest.fn(() => ({ select: jest.fn(() => ({ eq: jest.fn(() => Promise.resolve({ data: [{ id: 1, name: 'Test Market' }], error: null })) })) })) } })) ``` ### Redis Mock ```typescript jest.mock('@/lib/redis', () => ({ searchMarketsByVector: jest.fn(() => Promise.resolve([ { slug: 'test-market', similarity_score: 0.95 } ])), checkRedisHealth: jest.fn(() => Promise.resolve({ connected: true })) })) ``` ### OpenAI Mock ```typescript jest.mock('@/lib/openai', () => ({ generateEmbedding: jest.fn(() => Promise.resolve( new Array(1536).fill(0.1) // Mock 1536-dim embedding )) })) ``` ## Test Coverage Verification ### Run Coverage Report ```bash ``` ### Coverage Thresholds ```json { "jest": { "coverageThresholds": { "global": { "branches": 80, "functions": 80, "lines": 80, "statements": 80 } } } } ``` ## Common Testing Mistakes to Avoid ### FAIL: WRONG: Testing Implementation Details ```typescript // Don't test internal state expect(component.state.count).toBe(5) ``` ### PASS: CORRECT: Test User-Visible Behavior ```typescript // Test what users see expect(screen.getByText('Count: 5')).toBeInTheDocument() ``` ### FAIL: WRONG: Brittle Selectors ```typescript // Breaks easily await page.click('.css-class-xyz') ``` ### PASS: CORRECT: Semantic Selectors ```typescript // Resilient to changes await page.click('button:has-text("Submit")') await page.click('[data-testid="submit-button"]') ``` ### FAIL: WRONG: No Test Isolation ```typescript // Tests depend on each other test('creates user', () => { /* ... */ }) test('updates same user', () => { /* depends on previous test */ }) ``` ### PASS: CORRECT: Independent Tests ```typescript // Each test sets up its own data test('creates user', () => { const user = createTestUser() // Test logic }) test('updates user', () => { const user = createTestUser() // Update logic }) ``` ## Continuous Testing ### Watch Mode During Development ```bash # Tests run automatically on file changes ``` ### Pre-Commit Hook ```bash # Runs before every commit && ``` ### CI/CD Integration ```yaml # GitHub Actions - name: Run Tests run: - name: Upload Coverage uses: codecov/codecov-action@v3 ``` ## Best Practices 1. **Write Tests First** - Always TDD 2. **One Assert Per Test** - Focus on single behavior 3. **Descriptive Test Names** - Explain what's tested 4. **Arrange-Act-Assert** - Clear test structure 5. **Mock External Dependencies** - Isolate unit tests 6. **Test Edge Cases** - Null, undefined, empty, large 7. **Test Error Paths** - Not just happy paths 8. **Keep Tests Fast** - Unit tests < 50ms each 9. **Clean Up After Tests** - No side effects 10. **Review Coverage Reports** - Identify gaps ## Success Metrics - 80%+ code coverage achieved - All tests passing (green) - No skipped or disabled tests - Fast test execution (< 30s for unit tests) - E2E tests cover critical user flows - Tests catch bugs before production --- **Remember**: Tests are not optional. They are the safety net that enables confident refactoring, rapid development, and production reliability.