core-web-vitals

What this skill does

# Core Web Vitals optimization

Targeted optimization for the three Core Web Vitals metrics that affect Google Search ranking and user experience.

## The three metrics

| Metric | Measures | Good | Needs work | Poor |
|--------|----------|------|------------|------|
| **LCP** | Loading | ≤ 2.5s | 2.5s – 4s | > 4s |
| **INP** | Interactivity | ≤ 200ms | 200ms – 500ms | > 500ms |
| **CLS** | Visual Stability | ≤ 0.1 | 0.1 – 0.25 | > 0.25 |

Google measures at the **75th percentile** — 75% of page visits must meet "Good" thresholds.

---

## LCP: Largest Contentful Paint

LCP measures when the largest visible content element renders. Usually this is:
- Hero image or video
- Large text block
- Background image
- `<svg>` element

### Common LCP issues

**1. Slow server response (TTFB > 800ms)**
```
Fix: CDN, caching, optimized backend, edge rendering
```

**2. Render-blocking resources**
```html
<!-- ❌ Blocks rendering -->
<link rel="stylesheet" href="/all-styles.css">

<!-- ✅ Critical CSS inlined, rest deferred -->
<style>/* Critical above-fold CSS */</style>
<link rel="preload" href="/styles.css" as="style" 
      onload="this.onload=null;this.rel='stylesheet'">
```

**3. Slow resource load times**
```html
<!-- ❌ No hints, discovered late -->
<img src="/hero.jpg" alt="Hero">

<!-- ✅ Preloaded with high priority -->
<link rel="preload" href="/hero.webp" as="image" fetchpriority="high">
<img src="/hero.webp" alt="Hero" fetchpriority="high">
```

**4. Client-side rendering delays**
```javascript
// ❌ Content loads after JavaScript
useEffect(() => {
  fetch('/api/hero-text').then(r => r.json()).then(setHeroText);
}, []);

// ✅ Server-side or static rendering
// Use SSR, SSG, or streaming to send HTML with content
export async function getServerSideProps() {
  const heroText = await fetchHeroText();
  return { props: { heroText } };
}
```

### LCP optimization checklist

```markdown
- [ ] TTFB < 800ms (use CDN, edge caching)
- [ ] LCP image preloaded with fetchpriority="high"
- [ ] LCP image optimized (WebP/AVIF, correct size)
- [ ] Critical CSS inlined (< 14KB)
- [ ] No render-blocking JavaScript in <head>
- [ ] Fonts don't block text rendering (font-display: swap)
- [ ] LCP element in initial HTML (not JS-rendered)
```

### LCP element identification
```javascript
// Find your LCP element
new PerformanceObserver((list) => {
  const entries = list.getEntries();
  const lastEntry = entries[entries.length - 1];
  console.log('LCP element:', lastEntry.element);
  console.log('LCP time:', lastEntry.startTime);
}).observe({ type: 'largest-contentful-paint', buffered: true });
```

---

## INP: Interaction to Next Paint

INP measures responsiveness across ALL interactions (clicks, taps, key presses) during a page visit. It reports the worst interaction (at 98th percentile for high-traffic pages).

### INP breakdown

Total INP = **Input Delay** + **Processing Time** + **Presentation Delay**

| Phase | Target | Optimization |
|-------|--------|--------------|
| Input Delay | < 50ms | Reduce main thread blocking |
| Processing | < 100ms | Optimize event handlers |
| Presentation | < 50ms | Minimize rendering work |

### Common INP issues

**1. Long tasks blocking main thread**
```javascript
// ❌ Long synchronous task
function processLargeArray(items) {
  items.forEach(item => expensiveOperation(item));
}

// ✅ Break into chunks with yielding
async function processLargeArray(items) {
  const CHUNK_SIZE = 100;
  for (let i = 0; i < items.length; i += CHUNK_SIZE) {
    const chunk = items.slice(i, i + CHUNK_SIZE);
    chunk.forEach(item => expensiveOperation(item));
    
    // Yield to main thread
    await new Promise(r => setTimeout(r, 0));
    // Or use scheduler.yield() when available
  }
}
```

**2. Heavy event handlers**
```javascript
// ❌ All work in handler
button.addEventListener('click', () => {
  // Heavy computation
  const result = calculateComplexThing();
  // DOM updates
  updateUI(result);
  // Analytics
  trackEvent('click');
});

// ✅ Prioritize visual feedback
button.addEventListener('click', () => {
  // Immediate visual feedback
  button.classList.add('loading');
  
  // Defer non-critical work
  requestAnimationFrame(() => {
    const result = calculateComplexThing();
    updateUI(result);
  });
  
  // Use requestIdleCallback for analytics
  requestIdleCallback(() => trackEvent('click'));
});
```

**3. Third-party scripts**
```javascript
// ❌ Eagerly loaded, blocks interactions
<script src="https://heavy-widget.com/widget.js"></script>

// ✅ Lazy loaded on interaction or visibility
const loadWidget = () => {
  import('https://heavy-widget.com/widget.js')
    .then(widget => widget.init());
};
button.addEventListener('click', loadWidget, { once: true });
```

**4. Excessive re-renders (React/Vue)**
```javascript
// ❌ Re-renders entire tree
function App() {
  const [count, setCount] = useState(0);
  return (
    <div>
      <Counter count={count} />
      <ExpensiveComponent /> {/* Re-renders on every count change */}
    </div>
  );
}

// ✅ Memoized expensive components
const MemoizedExpensive = React.memo(ExpensiveComponent);

function App() {
  const [count, setCount] = useState(0);
  return (
    <div>
      <Counter count={count} />
      <MemoizedExpensive />
    </div>
  );
}
```

### INP optimization checklist

```markdown
- [ ] No tasks > 50ms on main thread
- [ ] Event handlers complete quickly (< 100ms)
- [ ] Visual feedback provided immediately
- [ ] Heavy work deferred with requestIdleCallback
- [ ] Third-party scripts don't block interactions
- [ ] Debounced input handlers where appropriate
- [ ] Web Workers for CPU-intensive operations
```

### INP debugging
```javascript
// Identify slow interactions
new PerformanceObserver((list) => {
  for (const entry of list.getEntries()) {
    if (entry.duration > 200) {
      console.warn('Slow interaction:', {
        type: entry.name,
        duration: entry.duration,
        processingStart: entry.processingStart,
        processingEnd: entry.processingEnd,
        target: entry.target
      });
    }
  }
}).observe({ type: 'event', buffered: true, durationThreshold: 16 });
```

---

## CLS: Cumulative Layout Shift

CLS measures unexpected layout shifts. A shift occurs when a visible element changes position between frames without user interaction.

**CLS Formula:** `impact fraction × distance fraction`

### Common CLS causes

**1. Images without dimensions**
```html
<!-- ❌ Causes layout shift when loaded -->
<img src="photo.jpg" alt="Photo">

<!-- ✅ Space reserved -->
<img src="photo.jpg" alt="Photo" width="800" height="600">

<!-- ✅ Or use aspect-ratio -->
<img src="photo.jpg" alt="Photo" style="aspect-ratio: 4/3; width: 100%;">
```

**2. Ads, embeds, and iframes**
```html
<!-- ❌ Unknown size until loaded -->
<iframe src="https://ad-network.com/ad"></iframe>

<!-- ✅ Reserve space with min-height -->
<div style="min-height: 250px;">
  <iframe src="https://ad-network.com/ad" height="250"></iframe>
</div>

<!-- ✅ Or use aspect-ratio container -->
<div style="aspect-ratio: 16/9;">
  <iframe src="https://youtube.com/embed/..." 
          style="width: 100%; height: 100%;"></iframe>
</div>
```

**3. Dynamically injected content**
```javascript
// ❌ Inserts content above viewport
notifications.prepend(newNotification);

// ✅ Insert below viewport or use transform
const insertBelow = viewport.bottom < newNotification.top;
if (insertBelow) {
  notifications.prepend(newNotification);
} else {
  // Animate in without shifting
  newNotification.style.transform = 'translateY(-100%)';
  notifications.prepend(newNotification);
  requestAnimationFrame(() => {
    newNotification.style.transform = '';
  });
}
```

**4. Web fonts causing FOUT**
```css
/* ❌ Font swap shifts text */
@font-face {
  font-family: 'Custom';
  src: url('custom.woff2') format('woff2');
}

/* ✅ Optional font (no shift if slow) */
@font-face {
  font-family: 'Custom';
  src: url('custom.woff2') format('woff2');
  font-display: