| 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. |
| origin | ECC |
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
4. Git Checkpoints
- If the repository is under Git, create a checkpoint commit after each TDD stage
- Do not squash or rewrite these checkpoint commits until the workflow is complete
- Each checkpoint commit message must describe the stage and the exact evidence captured
- Count only commits created on the current active branch for the current task
- Do not treat commits from other branches, earlier unrelated work, or distant branch history as valid checkpoint evidence
- Before treating a checkpoint as satisfied, verify that the commit is reachable from the current
HEAD on the active branch and belongs to the current task sequence
- The preferred compact workflow is:
- one commit for failing test added and RED validated
- one commit for minimal fix applied and GREEN validated
- one optional commit for refactor complete
- Separate evidence-only commits are not required if the test commit clearly corresponds to RED and the fix commit clearly corresponds to GREEN
TDD Workflow Steps
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:
describe('Semantic Search', () => {
it('returns relevant markets for query', async () => {
})
it('handles empty query gracefully', async () => {
})
it('falls back to substring search when Redis unavailable', async () => {
})
it('sorts results by similarity score', async () => {
})
})
Step 3: Run Tests (They Should Fail)
npm test
This step is mandatory and is the RED gate for all production changes.
Before modifying business logic or other production code, you must verify a valid RED state via one of these paths:
- Runtime RED:
- The relevant test target compiles successfully
- The new or changed test is actually executed
- The result is RED
- Compile-time RED:
- The new test newly instantiates, references, or exercises the buggy code path
- The compile failure is itself the intended RED signal
- In either case, the failure is caused by the intended business-logic bug, undefined behavior, or missing implementation
- The failure is not caused only by unrelated syntax errors, broken test setup, missing dependencies, or unrelated regressions
A test that was only written but not compiled and executed does not count as RED.
Do not edit production code until this RED state is confirmed.
If the repository is under Git, create a checkpoint commit immediately after this stage is validated.
Recommended commit message format:
test: add reproducer for <feature or bug>
- This commit may also serve as the RED validation checkpoint if the reproducer was compiled and executed and failed for the intended reason
- Verify that this checkpoint commit is on the current active branch before continuing
Step 4: Implement Code
Write minimal code to make tests pass:
export async function searchMarkets(query: string) {
}
If the repository is under Git, stage the minimal fix now but defer the checkpoint commit until GREEN is validated in Step 5.
Step 5: Run Tests Again
npm test
Rerun the same relevant test target after the fix and confirm the previously failing test is now GREEN.
Only after a valid GREEN result may you proceed to refactor.
If the repository is under Git, create a checkpoint commit immediately after GREEN is validated.
Recommended commit message format:
fix: <feature or bug>
- The fix commit may also serve as the GREEN validation checkpoint if the same relevant test target was rerun and passed
- Verify that this checkpoint commit is on the current active branch before continuing
Step 6: Refactor
Improve code quality while keeping tests green:
- Remove duplication
- Improve naming
- Optimize performance
- Enhance readability
If the repository is under Git, create a checkpoint commit immediately after refactoring is complete and tests remain green.
Recommended commit message format:
refactor: clean up after <feature or bug> implementation
- Verify that this checkpoint commit is on the current active branch before considering the TDD cycle complete
Step 7: Verify Coverage
npm run test:coverage
Testing Patterns
Unit Test Pattern (Jest/Vitest)
import { render, screen, fireEvent } from '@testing-library/react'
import { Button } from './Button'
describe('Button Component', () => {
it('renders with correct text', () => {
render(<Button>Click me</Button>)
expect(screen.getByText('Click me')).toBeInTheDocument()
})
it('calls onClick when clicked', () => {
const handleClick = jest.fn()
render(<Button onClick={handleClick}>Click</Button>)
fireEvent.click(screen.getByRole('button'))
expect(handleClick).toHaveBeenCalledTimes(1)
})
it('is disabled when disabled prop is true', () => {
render(<Button disabled>Click</Button>)
expect(screen.getByRole('button')).toBeDisabled()
})
})
API Integration Test Pattern
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 () => {
const request = new NextRequest('http://localhost/api/markets')
})
})
E2E Test Pattern (Playwright)
import { test, expect } from '@playwright/test'
test('user can search and filter markets', async ({ page }) => {
await page.goto('/')
await page.click('a[href="/markets"]')
await expect(page.locator('h1')).toContainText('Markets')
await page.fill('input[placeholder="Search markets"]', 'election')
await page.waitForTimeout(600)
const results = page.locator('[data-testid="market-card"]')
await expect(results).toHaveCount(5, { timeout: 5000 })
const firstResult = results.first()
await expect(firstResult).toContainText('election', { ignoreCase: true })
await page.click('button:has-text("Active")')
await expect(results).toHaveCount(3)
})
test('user can create a new market', async ({ page }) => {
await page.goto('/creator-dashboard')
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')
await page.click('button[type="submit"]')
await expect(page.locator('text=Market created successfully')).toBeVisible()
await expect(page).toHaveURL(/\/markets\/test-market/)
})
Test File Organization
src/
โโโ components/
โ โโโ Button/
โ โ โโโ Button.tsx
โ โ โโโ Button.test.tsx # Unit tests
โ โ โโโ Button.stories.tsx # Storybook
โ โโโ MarketCard/
โ โโโ MarketCard.tsx
โ โโโ MarketCard.test.tsx
โโโ app/
โ โโโ api/
โ โโโ markets/
โ โโโ route.ts
โ โโโ route.test.ts # Integration tests
โโโ e2e/
โโโ markets.spec.ts # E2E tests
โโโ trading.spec.ts
โโโ auth.spec.ts
Mocking External Services
Supabase Mock
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
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
jest.mock('@/lib/openai', () => ({
generateEmbedding: jest.fn(() => Promise.resolve(
new Array(1536).fill(0.1)
))
}))
Test Coverage Verification
Run Coverage Report
npm run test:coverage
Coverage Thresholds
{
"jest": {
"coverageThresholds": {
"global": {
"branches": 80,
"functions": 80,
"lines": 80,
"statements": 80
}
}
}
}
Common Testing Mistakes to Avoid
FAIL: WRONG: Testing Implementation Details
expect(component.state.count).toBe(5)
PASS: CORRECT: Test User-Visible Behavior
expect(screen.getByText('Count: 5')).toBeInTheDocument()
FAIL: WRONG: Brittle Selectors
await page.click('.css-class-xyz')
PASS: CORRECT: Semantic Selectors
await page.click('button:has-text("Submit")')
await page.click('[data-testid="submit-button"]')
FAIL: WRONG: No Test Isolation
test('creates user', () => { })
test('updates same user', () => { })
PASS: CORRECT: Independent Tests
test('creates user', () => {
const user = createTestUser()
})
test('updates user', () => {
const user = createTestUser()
})
Continuous Testing
Watch Mode During Development
npm test -- --watch
Pre-Commit Hook
npm test && npm run lint
CI/CD Integration
- name: Run Tests
run: npm test -- --coverage
- name: Upload Coverage
uses: codecov/codecov-action@v3
Best Practices
- Write Tests First - Always TDD
- One Assert Per Test - Focus on single behavior
- Descriptive Test Names - Explain what's tested
- Arrange-Act-Assert - Clear test structure
- Mock External Dependencies - Isolate unit tests
- Test Edge Cases - Null, undefined, empty, large
- Test Error Paths - Not just happy paths
- Keep Tests Fast - Unit tests < 50ms each
- Clean Up After Tests - No side effects
- 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.