react-component-performance

Diagnose slow React components and suggest targeted performance fixes.

24,269 stars

Best use case

react-component-performance is best used when you need a repeatable AI agent workflow instead of a one-off prompt.

Diagnose slow React components and suggest targeted performance fixes.

Teams using react-component-performance should expect a more consistent output, faster repeated execution, less prompt rewriting.

When to use this skill

You want a reusable workflow that can be run more than once with consistent structure.

When not to use this skill

You only need a quick one-off answer and do not need a reusable workflow.
You cannot install or maintain the underlying files, dependencies, or repository context.

Installation

Claude Code / Cursor / Codex

$curl -o ~/.claude/skills/react-component-performance/SKILL.md --create-dirs "https://raw.githubusercontent.com/davila7/claude-code-templates/main/cli-tool/components/skills/web-development/react-component-performance/SKILL.md"

Manual Installation

Download SKILL.md from GitHub
Place it in .claude/skills/react-component-performance/SKILL.md inside your project
Restart your AI agent — it will auto-discover the skill

How react-component-performance Compares

Feature / Agent	react-component-performance	Standard Approach
Platform Support	Not specified	Limited / Varies
Context Awareness	High	Baseline
Installation Complexity	Unknown	N/A

Frequently Asked Questions

What does this skill do?

Diagnose slow React components and suggest targeted performance fixes.

Where can I find the source code?

You can find the source code on GitHub using the link provided at the top of the page.

Related Guides

AI Agents for Coding

Browse AI agent skills for coding, debugging, testing, refactoring, code review, and developer workflows across Claude, Cursor, and Codex.

Best AI Skills for Claude

Explore the best AI skills for Claude and Claude Code across coding, research, workflow automation, documentation, and agent operations.

ChatGPT vs Claude for Agent Skills

Compare ChatGPT and Claude for AI agent skills across coding, writing, research, and reusable workflow execution.

SKILL.md Source

# React Component Performance

## Overview

Identify render hotspots, isolate expensive updates, and apply targeted optimizations without changing UI behavior.

## When to Use

- When the user asks to profile or improve a slow React component.
- When you need to reduce re-renders, list lag, or expensive render work in React UI.

## Workflow

1. Reproduce or describe the slowdown.
2. Identify what triggers re-renders (state updates, props churn, effects).
3. Isolate fast-changing state from heavy subtrees.
4. Stabilize props and handlers; memoize where it pays off.
5. Reduce expensive work (computation, DOM size, list length).
6. **Validate**: open React DevTools Profiler → record the interaction → inspect the Flamegraph for components rendering longer than ~16 ms → compare against a pre-optimization baseline recording.

## Checklist

- Measure: use React DevTools Profiler or log renders; capture baseline.
- Find churn: identify state updated on a timer, scroll, input, or animation.
- Split: move ticking state into a child; keep heavy lists static.
- Memoize: wrap leaf rows with `memo` only when props are stable.
- Stabilize props: use `useCallback`/`useMemo` for handlers and derived values.
- Avoid derived work in render: precompute, or compute inside memoized helpers.
- Control list size: window/virtualize long lists; avoid rendering hidden items.
- Keys: ensure stable keys; avoid index when order can change.
- Effects: verify dependency arrays; avoid effects that re-run on every render.
- Style/layout: watch for expensive layout thrash or large Markdown/diff renders.

## Optimization Patterns

### Isolate ticking state

Move a timer or animation counter into a child so the parent list never re-renders on each tick.

```tsx
// ❌ Before – entire parent (and list) re-renders every second
function Dashboard({ items }: { items: Item[] }) {
  const [tick, setTick] = useState(0);
  useEffect(() => {
    const id = setInterval(() => setTick(t => t + 1), 1000);
    return () => clearInterval(id);
  }, []);
  return (
    <>
      <Clock tick={tick} />
      <ExpensiveList items={items} /> {/* re-renders every second */}
    </>
  );
}

// ✅ After – only <Clock> re-renders; list is untouched
function Clock() {
  const [tick, setTick] = useState(0);
  useEffect(() => {
    const id = setInterval(() => setTick(t => t + 1), 1000);
    return () => clearInterval(id);
  }, []);
  return <span>{tick}s</span>;
}

function Dashboard({ items }: { items: Item[] }) {
  return (
    <>
      <Clock />
      <ExpensiveList items={items} />
    </>
  );
}
```

### Stabilize callbacks with `useCallback` + `memo`

```tsx
// ❌ Before – new handler reference on every render busts Row memo
function List({ items }: { items: Item[] }) {
  const handleClick = (id: string) => console.log(id); // new ref each render
  return items.map(item => <Row key={item.id} item={item} onClick={handleClick} />);
}

// ✅ After – stable handler; Row only re-renders when its own item changes
const Row = memo(({ item, onClick }: RowProps) => (
  <li onClick={() => onClick(item.id)}>{item.name}</li>
));

function List({ items }: { items: Item[] }) {
  const handleClick = useCallback((id: string) => console.log(id), []);
  return items.map(item => <Row key={item.id} item={item} onClick={handleClick} />);
}
```

### Prefer derived data outside render

```tsx
// ❌ Before – recomputes on every render
function Summary({ orders }: { orders: Order[] }) {
  const total = orders.reduce((sum, o) => sum + o.amount, 0); // runs every render
  return <p>Total: {total}</p>;
}

// ✅ After – recomputes only when orders changes
function Summary({ orders }: { orders: Order[] }) {
  const total = useMemo(() => orders.reduce((sum, o) => sum + o.amount, 0), [orders]);
  return <p>Total: {total}</p>;
}
```

### Additional patterns

- **Split rows**: extract list rows into memoized components with narrow props.
- **Defer heavy rendering**: lazy-render or collapse expensive content until expanded.

## Profiling Validation Steps

1. Open **React DevTools → Profiler** tab.
2. Click **Record**, perform the slow interaction, then **Stop**.
3. Switch to **Flamegraph** view; any bar labeled with a component and time > ~16 ms is a candidate.
4. Use **Ranked chart** to sort by self render time and target the top offenders.
5. Apply one optimization at a time, re-record, and compare render counts and durations against the baseline.

## Example Reference

Load `references/examples.md` when the user wants a concrete refactor example.

Related Skills

react-state-management

24269

from davila7/claude-code-templates

Master modern React state management with Redux Toolkit, Zustand, Jotai, and React Query. Use when setting up global state, managing server state, or choosing between state management solutions.

react-native-architecture

24269

from davila7/claude-code-templates

Production-ready patterns for React Native development with Expo, including navigation, state management, native modules, and offline-first architecture.

performance-optimizer

24269

from davila7/claude-code-templates

Identifies and fixes performance bottlenecks in code, databases, and APIs. Measures before and after to prove improvements.

web-performance-optimization

24269

from davila7/claude-code-templates

Optimize website and web application performance including loading speed, Core Web Vitals, bundle size, caching strategies, and runtime performance

reactome-database

24269

from davila7/claude-code-templates

Query Reactome REST API for pathway analysis, enrichment, gene-pathway mapping, disease pathways, molecular interactions, expression analysis, for systems biology studies.

react-useeffect

24269

from davila7/claude-code-templates

React useEffect best practices from official docs. Use when writing/reviewing useEffect, useState for derived values, data fetching, or state synchronization. Teaches when NOT to use Effect and better alternatives.

react-ui-patterns

24269

from davila7/claude-code-templates

Modern React UI patterns for loading states, error handling, and data fetching. Use when building UI components, handling async data, or managing UI states.

react-patterns

24269

from davila7/claude-code-templates

Modern React patterns and principles. Hooks, composition, performance, TypeScript best practices.

react-dev

24269

from davila7/claude-code-templates

This skill should be used when building React components with TypeScript, typing hooks, handling events, or when React TypeScript, React 19, Server Components are mentioned. Covers type-safe patterns for React 18-19 including generic components, proper event typing, and routing integration (TanStack Router, React Router).

vercel-react-best-practices

24269

from davila7/claude-code-templates

React and Next.js performance optimization guidelines from Vercel Engineering. This skill should be used when writing, reviewing, or refactoring React/Next.js code to ensure optimal performance patterns. Triggers on tasks involving React components, Next.js pages, data fetching, bundle optimization, or performance improvements.

performance

24269

from davila7/claude-code-templates

Optimize web performance for faster loading and better user experience. Use when asked to "speed up my site", "optimize performance", "reduce load time", "fix slow loading", "improve page speed", or "performance audit".

performance-profiling

24269

from davila7/claude-code-templates

Performance profiling principles. Measurement, analysis, and optimization techniques.