Agent skill

react-best-practices

Comprehensive React and Next.js performance optimisation guide with 40+ rules for eliminating waterfalls, optimising bundles, and improving rendering. Use when optimising React apps, reviewing performance, or refactoring components.

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SKILL.md

React Best Practices - Performance Optimization

Comprehensive performance optimization guide for React and Next.js applications with 40+ rules organized by impact level. Designed to help developers eliminate performance bottlenecks and follow best practices.

When to use this skill

Use React Best Practices when:

  • Optimizing React or Next.js application performance
  • Reviewing code for performance improvements
  • Refactoring existing components for better performance
  • Implementing new features with performance in mind
  • Debugging slow rendering or loading issues
  • Reducing bundle size
  • Eliminating request waterfalls

Key areas covered:

  • Eliminating Waterfalls (CRITICAL): Prevent sequential async operations
  • Bundle Size Optimization (CRITICAL): Reduce initial JavaScript payload
  • Server-Side Performance (HIGH): Optimize RSC and data fetching
  • Client-Side Data Fetching (MEDIUM-HIGH): Implement efficient caching
  • Re-render Optimization (MEDIUM): Minimize unnecessary re-renders
  • Rendering Performance (MEDIUM): Optimize browser rendering
  • JavaScript Performance (LOW-MEDIUM): Micro-optimizations for hot paths
  • Advanced Patterns (LOW): Specialized techniques for edge cases

Quick reference

Critical priorities

  1. Defer await until needed - Move awaits into branches where they're used
  2. Use Promise.all() - Parallelize independent async operations
  3. Avoid barrel imports - Import directly from source files
  4. Dynamic imports - Lazy-load heavy components
  5. Strategic Suspense - Stream content while showing layout

Common patterns

Parallel data fetching:

typescript
const [user, posts, comments] = await Promise.all([
  fetchUser(),
  fetchPosts(),
  fetchComments()
])

Direct imports:

tsx
// ❌ Loads entire library
import { Check } from 'lucide-react'

// ✅ Loads only what you need
import Check from 'lucide-react/dist/esm/icons/check'

Dynamic components:

tsx
import dynamic from 'next/dynamic'

const MonacoEditor = dynamic(
  () => import('./monaco-editor'),
  { ssr: false }
)

Using the guidelines

The complete performance guidelines are available in the references folder:

  • react-performance-guidelines.md: Complete guide with all 40+ rules, code examples, and impact analysis

Each rule includes:

  • Incorrect/correct code comparisons
  • Specific impact metrics
  • When to apply the optimization
  • Real-world examples

Categories overview

1. Eliminating Waterfalls (CRITICAL)

Waterfalls are the #1 performance killer. Each sequential await adds full network latency.

  • Defer await until needed
  • Dependency-based parallelization
  • Prevent waterfall chains in API routes
  • Promise.all() for independent operations
  • Strategic Suspense boundaries

2. Bundle Size Optimization (CRITICAL)

Reducing initial bundle size improves Time to Interactive and Largest Contentful Paint.

  • Avoid barrel file imports
  • Conditional module loading
  • Defer non-critical third-party libraries
  • Dynamic imports for heavy components
  • Preload based on user intent

3. Server-Side Performance (HIGH)

Optimize server-side rendering and data fetching.

  • Cross-request LRU caching
  • Minimize serialization at RSC boundaries
  • Parallel data fetching with component composition
  • Per-request deduplication with React.cache()

4. Client-Side Data Fetching (MEDIUM-HIGH)

Automatic deduplication and efficient data fetching patterns.

  • Deduplicate global event listeners
  • Use SWR for automatic deduplication

5. Re-render Optimization (MEDIUM)

Reduce unnecessary re-renders to minimize wasted computation.

  • Defer state reads to usage point
  • Extract to memoized components
  • Narrow effect dependencies
  • Subscribe to derived state
  • Use lazy state initialization
  • Use transitions for non-urgent updates

6. Rendering Performance (MEDIUM)

Optimize the browser rendering process.

  • Animate SVG wrapper instead of SVG element
  • CSS content-visibility for long lists
  • Hoist static JSX elements
  • Optimize SVG precision
  • Prevent hydration mismatch without flickering
  • Use Activity component for show/hide
  • Use explicit conditional rendering

7. JavaScript Performance (LOW-MEDIUM)

Micro-optimizations for hot paths.

  • Batch DOM CSS changes
  • Build index maps for repeated lookups
  • Cache property access in loops
  • Cache repeated function calls
  • Cache storage API calls
  • Combine multiple array iterations
  • Early length check for array comparisons
  • Early return from functions
  • Hoist RegExp creation
  • Use loop for min/max instead of sort
  • Use Set/Map for O(1) lookups
  • Use toSorted() instead of sort()

8. Advanced Patterns (LOW)

Specialized techniques for edge cases.

  • Store event handlers in refs
  • useLatest for stable callback refs

Implementation approach

When optimizing a React application:

  1. Profile first: Use React DevTools Profiler and browser performance tools to identify bottlenecks
  2. Focus on critical paths: Start with eliminating waterfalls and reducing bundle size
  3. Measure impact: Verify improvements with metrics (LCP, TTI, FID)
  4. Apply incrementally: Don't over-optimize prematurely
  5. Test thoroughly: Ensure optimizations don't break functionality

Key metrics to track

  • Time to Interactive (TTI): When page becomes fully interactive
  • Largest Contentful Paint (LCP): When main content is visible
  • First Input Delay (FID): Responsiveness to user interactions
  • Cumulative Layout Shift (CLS): Visual stability
  • Bundle size: Initial JavaScript payload
  • Server response time: TTFB for server-rendered content

Common pitfalls to avoid

Don't:

  • Use barrel imports from large libraries
  • Block parallel operations with sequential awaits
  • Re-render entire trees when only part needs updating
  • Load analytics/tracking in the critical path
  • Mutate arrays with .sort() instead of .toSorted()
  • Create RegExp or heavy objects inside render

Do:

  • Import directly from source files
  • Use Promise.all() for independent operations
  • Memoize expensive components
  • Lazy-load non-critical code
  • Use immutable array methods
  • Hoist static objects outside components

Resources

Version history

v0.1.0 (January 2026)

  • Initial release from Vercel Engineering
  • 40+ performance rules across 8 categories
  • Comprehensive code examples and impact analysis

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