Skip to content

V
VCCI-News
Commit 4489f507 authored by Lê Bảo Hồng Đức's avatar Lê Bảo Hồng Đức
Browse files
Options

fix

parent 138856d6
Expand all Hide whitespace changes
Inline Side-by-side
Showing with 16523 additions and 0 deletions
.agents/skills/vercel-composition-patterns/AGENTS.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/vercel-composition-patterns/README.md 0 → 100644
View file @ 4489f507
# React Composition Patterns
A structured repository for React composition patterns that scale. These
patterns help avoid boolean prop proliferation by using compound components,
lifting state, and composing internals.
## Structure
- `rules/` - Individual rule files (one per rule)
- `_sections.md` - Section metadata (titles, impacts, descriptions)
- `_template.md` - Template for creating new rules
- `area-description.md` - Individual rule files
- `metadata.json` - Document metadata (version, organization, abstract)
- **`AGENTS.md`** - Compiled output (generated)
## Rules
### Component Architecture (CRITICAL)
- `architecture-avoid-boolean-props.md` - Don't add boolean props to customize
behavior
- `architecture-compound-components.md` - Structure as compound components with
shared context
### State Management (HIGH)
- `state-lift-state.md` - Lift state into provider components
- `state-context-interface.md` - Define clear context interfaces
(state/actions/meta)
- `state-decouple-implementation.md` - Decouple state management from UI
### Implementation Patterns (MEDIUM)
- `patterns-children-over-render-props.md` - Prefer children over renderX props
- `patterns-explicit-variants.md` - Create explicit component variants
## Core Principles
1. **Composition over configuration** — Instead of adding props, let consumers
compose
2. **Lift your state** — State in providers, not trapped in components
3. **Compose your internals** — Subcomponents access context, not props
4. **Explicit variants** — Create ThreadComposer, EditComposer, not Composer
with isThread
## Creating a New Rule
1. Copy `rules/_template.md` to `rules/area-description.md`
2. Choose the appropriate area prefix:
- `architecture-` for Component Architecture
- `state-` for State Management
- `patterns-` for Implementation Patterns
3. Fill in the frontmatter and content
4. Ensure you have clear examples with explanations
## Impact Levels
- `CRITICAL` - Foundational patterns, prevents unmaintainable code
- `HIGH` - Significant maintainability improvements
- `MEDIUM` - Good practices for cleaner code
.agents/skills/vercel-composition-patterns/SKILL.md 0 → 100644
View file @ 4489f507
---
name: vercel-composition-patterns
description:
React composition patterns that scale. Use when refactoring components with
boolean prop proliferation, building flexible component libraries, or
designing reusable APIs. Triggers on tasks involving compound components,
render props, context providers, or component architecture. Includes React 19
API changes.
license: MIT
metadata:
author: vercel
version: '1.0.0'
---
# React Composition Patterns
Composition patterns for building flexible, maintainable React components. Avoid
boolean prop proliferation by using compound components, lifting state, and
composing internals. These patterns make codebases easier for both humans and AI
agents to work with as they scale.
## When to Apply
Reference these guidelines when:
- Refactoring components with many boolean props
- Building reusable component libraries
- Designing flexible component APIs
- Reviewing component architecture
- Working with compound components or context providers
## Rule Categories by Priority
| Priority | Category | Impact | Prefix |
| -------- | ----------------------- | ------ | --------------- |
| 1 | Component Architecture | HIGH | `architecture-` |
| 2 | State Management | MEDIUM | `state-` |
| 3 | Implementation Patterns | MEDIUM | `patterns-` |
| 4 | React 19 APIs | MEDIUM | `react19-` |
## Quick Reference
### 1. Component Architecture (HIGH)
- `architecture-avoid-boolean-props` - Don't add boolean props to customize
behavior; use composition
- `architecture-compound-components` - Structure complex components with shared
context
### 2. State Management (MEDIUM)
- `state-decouple-implementation` - Provider is the only place that knows how
state is managed
- `state-context-interface` - Define generic interface with state, actions, meta
for dependency injection
- `state-lift-state` - Move state into provider components for sibling access
### 3. Implementation Patterns (MEDIUM)
- `patterns-explicit-variants` - Create explicit variant components instead of
boolean modes
- `patterns-children-over-render-props` - Use children for composition instead
of renderX props
### 4. React 19 APIs (MEDIUM)
> **⚠️ React 19+ only.** Skip this section if using React 18 or earlier.
- `react19-no-forwardref` - Don't use `forwardRef`; use `use()` instead of `useContext()`
## How to Use
Read individual rule files for detailed explanations and code examples:
```
rules/architecture-avoid-boolean-props.md
rules/state-context-interface.md
```
Each rule file contains:
- Brief explanation of why it matters
- Incorrect code example with explanation
- Correct code example with explanation
- Additional context and references
## Full Compiled Document
For the complete guide with all rules expanded: `AGENTS.md`
.agents/skills/vercel-composition-patterns/metadata.json 0 → 100644
View file @ 4489f507
{
"version": "1.0.0",
"organization": "Engineering",
"date": "January 2026",
"abstract": "Composition patterns for building flexible, maintainable React components. Avoid boolean prop proliferation by using compound components, lifting state, and composing internals. These patterns make codebases easier for both humans and AI agents to work with as they scale.",
"references": [
"https://react.dev",
"https://react.dev/learn/passing-data-deeply-with-context",
"https://react.dev/reference/react/use"
]
}
.agents/skills/vercel-composition-patterns/rules/_sections.md 0 → 100644
View file @ 4489f507
# Sections
This file defines all sections, their ordering, impact levels, and descriptions.
The section ID (in parentheses) is the filename prefix used to group rules.
---
## 1. Component Architecture (architecture)
**Impact:** HIGH
**Description:** Fundamental patterns for structuring components to avoid prop
proliferation and enable flexible composition.
## 2. State Management (state)
**Impact:** MEDIUM
**Description:** Patterns for lifting state and managing shared context across
composed components.
## 3. Implementation Patterns (patterns)
**Impact:** MEDIUM
**Description:** Specific techniques for implementing compound components and
context providers.
## 4. React 19 APIs (react19)
**Impact:** MEDIUM
**Description:** React 19+ only. Don't use `forwardRef`; use `use()` instead of `useContext()`.
.agents/skills/vercel-composition-patterns/rules/_template.md 0 → 100644
View file @ 4489f507
---
title: Rule Title Here
impact: MEDIUM
impactDescription: brief description of impact
tags: composition, components
---
## Rule Title Here
Brief explanation of the rule and why it matters.
**Incorrect:**
```tsx
// Bad code example
```
**Correct:**
```tsx
// Good code example
```
Reference: [Link](https://example.com)
.agents/skills/vercel-composition-patterns/rules/architecture-avoid-boolean-props.md 0 → 100644
View file @ 4489f507
---
title: Avoid Boolean Prop Proliferation
impact: CRITICAL
impactDescription: prevents unmaintainable component variants
tags: composition, props, architecture
---
## Avoid Boolean Prop Proliferation
Don't add boolean props like `isThread`, `isEditing`, `isDMThread` to customize
component behavior. Each boolean doubles possible states and creates
unmaintainable conditional logic. Use composition instead.
**Incorrect (boolean props create exponential complexity):**
```tsx
function Composer({
onSubmit,
isThread,
channelId,
isDMThread,
dmId,
isEditing,
isForwarding,
}: Props) {
return (
<form>
<Header />
<Input />
{isDMThread ? (
<AlsoSendToDMField id={dmId} />
) : isThread ? (
<AlsoSendToChannelField id={channelId} />
) : null}
{isEditing ? (
<EditActions />
) : isForwarding ? (
<ForwardActions />
) : (
<DefaultActions />
)}
<Footer onSubmit={onSubmit} />
</form>
)
}
```
**Correct (composition eliminates conditionals):**
```tsx
// Channel composer
function ChannelComposer() {
return (
<Composer.Frame>
<Composer.Header />
<Composer.Input />
<Composer.Footer>
<Composer.Attachments />
<Composer.Formatting />
<Composer.Emojis />
<Composer.Submit />
</Composer.Footer>
</Composer.Frame>
)
}
// Thread composer - adds "also send to channel" field
function ThreadComposer({ channelId }: { channelId: string }) {
return (
<Composer.Frame>
<Composer.Header />
<Composer.Input />
<AlsoSendToChannelField id={channelId} />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<Composer.Submit />
</Composer.Footer>
</Composer.Frame>
)
}
// Edit composer - different footer actions
function EditComposer() {
return (
<Composer.Frame>
<Composer.Input />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<Composer.CancelEdit />
<Composer.SaveEdit />
</Composer.Footer>
</Composer.Frame>
)
}
```
Each variant is explicit about what it renders. We can share internals without
sharing a single monolithic parent.
.agents/skills/vercel-composition-patterns/rules/architecture-compound-components.md 0 → 100644
View file @ 4489f507
---
title: Use Compound Components
impact: HIGH
impactDescription: enables flexible composition without prop drilling
tags: composition, compound-components, architecture
---
## Use Compound Components
Structure complex components as compound components with a shared context. Each
subcomponent accesses shared state via context, not props. Consumers compose the
pieces they need.
**Incorrect (monolithic component with render props):**
```tsx
function Composer({
renderHeader,
renderFooter,
renderActions,
showAttachments,
showFormatting,
showEmojis,
}: Props) {
return (
<form>
{renderHeader?.()}
<Input />
{showAttachments && <Attachments />}
{renderFooter ? (
renderFooter()
) : (
<Footer>
{showFormatting && <Formatting />}
{showEmojis && <Emojis />}
{renderActions?.()}
</Footer>
)}
</form>
)
}
```
**Correct (compound components with shared context):**
```tsx
const ComposerContext = createContext<ComposerContextValue | null>(null)
function ComposerProvider({ children, state, actions, meta }: ProviderProps) {
return (
<ComposerContext value={{ state, actions, meta }}>
{children}
</ComposerContext>
)
}
function ComposerFrame({ children }: { children: React.ReactNode }) {
return <form>{children}</form>
}
function ComposerInput() {
const {
state,
actions: { update },
meta: { inputRef },
} = use(ComposerContext)
return (
<TextInput
ref={inputRef}
value={state.input}
onChangeText={(text) => update((s) => ({ ...s, input: text }))}
/>
)
}
function ComposerSubmit() {
const {
actions: { submit },
} = use(ComposerContext)
return <Button onPress={submit}>Send</Button>
}
// Export as compound component
const Composer = {
Provider: ComposerProvider,
Frame: ComposerFrame,
Input: ComposerInput,
Submit: ComposerSubmit,
Header: ComposerHeader,
Footer: ComposerFooter,
Attachments: ComposerAttachments,
Formatting: ComposerFormatting,
Emojis: ComposerEmojis,
}
```
**Usage:**
```tsx
<Composer.Provider state={state} actions={actions} meta={meta}>
<Composer.Frame>
<Composer.Header />
<Composer.Input />
<Composer.Footer>
<Composer.Formatting />
<Composer.Submit />
</Composer.Footer>
</Composer.Frame>
</Composer.Provider>
```
Consumers explicitly compose exactly what they need. No hidden conditionals. And the state, actions and meta are dependency-injected by a parent provider, allowing multiple usages of the same component structure.
.agents/skills/vercel-composition-patterns/rules/patterns-children-over-render-props.md 0 → 100644
View file @ 4489f507
---
title: Prefer Composing Children Over Render Props
impact: MEDIUM
impactDescription: cleaner composition, better readability
tags: composition, children, render-props
---
## Prefer Children Over Render Props
Use `children` for composition instead of `renderX` props. Children are more
readable, compose naturally, and don't require understanding callback
signatures.
**Incorrect (render props):**
```tsx
function Composer({
renderHeader,
renderFooter,
renderActions,
}: {
renderHeader?: () => React.ReactNode
renderFooter?: () => React.ReactNode
renderActions?: () => React.ReactNode
}) {
return (
<form>
{renderHeader?.()}
<Input />
{renderFooter ? renderFooter() : <DefaultFooter />}
{renderActions?.()}
</form>
)
}
// Usage is awkward and inflexible
return (
<Composer
renderHeader={() => <CustomHeader />}
renderFooter={() => (
<>
<Formatting />
<Emojis />
</>
)}
renderActions={() => <SubmitButton />}
/>
)
```
**Correct (compound components with children):**
```tsx
function ComposerFrame({ children }: { children: React.ReactNode }) {
return <form>{children}</form>
}
function ComposerFooter({ children }: { children: React.ReactNode }) {
return <footer className='flex'>{children}</footer>
}
// Usage is flexible
return (
<Composer.Frame>
<CustomHeader />
<Composer.Input />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<SubmitButton />
</Composer.Footer>
</Composer.Frame>
)
```
**When render props are appropriate:**
```tsx
// Render props work well when you need to pass data back
<List
data={items}
renderItem={({ item, index }) => <Item item={item} index={index} />}
/>
```
Use render props when the parent needs to provide data or state to the child.
Use children when composing static structure.
.agents/skills/vercel-composition-patterns/rules/patterns-explicit-variants.md 0 → 100644
View file @ 4489f507
---
title: Create Explicit Component Variants
impact: MEDIUM
impactDescription: self-documenting code, no hidden conditionals
tags: composition, variants, architecture
---
## Create Explicit Component Variants
Instead of one component with many boolean props, create explicit variant
components. Each variant composes the pieces it needs. The code documents
itself.
**Incorrect (one component, many modes):**
```tsx
// What does this component actually render?
<Composer
isThread
isEditing={false}
channelId='abc'
showAttachments
showFormatting={false}
/>
```
**Correct (explicit variants):**
```tsx
// Immediately clear what this renders
<ThreadComposer channelId="abc" />
// Or
<EditMessageComposer messageId="xyz" />
// Or
<ForwardMessageComposer messageId="123" />
```
Each implementation is unique, explicit and self-contained. Yet they can each
use shared parts.
**Implementation:**
```tsx
function ThreadComposer({ channelId }: { channelId: string }) {
return (
<ThreadProvider channelId={channelId}>
<Composer.Frame>
<Composer.Input />
<AlsoSendToChannelField channelId={channelId} />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<Composer.Submit />
</Composer.Footer>
</Composer.Frame>
</ThreadProvider>
)
}
function EditMessageComposer({ messageId }: { messageId: string }) {
return (
<EditMessageProvider messageId={messageId}>
<Composer.Frame>
<Composer.Input />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<Composer.CancelEdit />
<Composer.SaveEdit />
</Composer.Footer>
</Composer.Frame>
</EditMessageProvider>
)
}
function ForwardMessageComposer({ messageId }: { messageId: string }) {
return (
<ForwardMessageProvider messageId={messageId}>
<Composer.Frame>
<Composer.Input placeholder="Add a message, if you'd like." />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
<Composer.Mentions />
</Composer.Footer>
</Composer.Frame>
</ForwardMessageProvider>
)
}
```
Each variant is explicit about:
- What provider/state it uses
- What UI elements it includes
- What actions are available
No boolean prop combinations to reason about. No impossible states.
.agents/skills/vercel-composition-patterns/rules/react19-no-forwardref.md 0 → 100644
View file @ 4489f507
---
title: React 19 API Changes
impact: MEDIUM
impactDescription: cleaner component definitions and context usage
tags: react19, refs, context, hooks
---
## React 19 API Changes
> **⚠️ React 19+ only.** Skip this if you're on React 18 or earlier.
In React 19, `ref` is now a regular prop (no `forwardRef` wrapper needed), and `use()` replaces `useContext()`.
**Incorrect (forwardRef in React 19):**
```tsx
const ComposerInput = forwardRef<TextInput, Props>((props, ref) => {
return <TextInput ref={ref} {...props} />
})
```
**Correct (ref as a regular prop):**
```tsx
function ComposerInput({ ref, ...props }: Props & { ref?: React.Ref<TextInput> }) {
return <TextInput ref={ref} {...props} />
}
```
**Incorrect (useContext in React 19):**
```tsx
const value = useContext(MyContext)
```
**Correct (use instead of useContext):**
```tsx
const value = use(MyContext)
```
`use()` can also be called conditionally, unlike `useContext()`.
.agents/skills/vercel-composition-patterns/rules/state-context-interface.md 0 → 100644
View file @ 4489f507
---
title: Define Generic Context Interfaces for Dependency Injection
impact: HIGH
impactDescription: enables dependency-injectable state across use-cases
tags: composition, context, state, typescript, dependency-injection
---
## Define Generic Context Interfaces for Dependency Injection
Define a **generic interface** for your component context with three parts:
`state`, `actions`, and `meta`. This interface is a contract that any provider
can implement—enabling the same UI components to work with completely different
state implementations.
**Core principle:** Lift state, compose internals, make state
dependency-injectable.
**Incorrect (UI coupled to specific state implementation):**
```tsx
function ComposerInput() {
// Tightly coupled to a specific hook
const { input, setInput } = useChannelComposerState()
return <TextInput value={input} onChangeText={setInput} />
}
```
**Correct (generic interface enables dependency injection):**
```tsx
// Define a GENERIC interface that any provider can implement
interface ComposerState {
input: string
attachments: Attachment[]
isSubmitting: boolean
}
interface ComposerActions {
update: (updater: (state: ComposerState) => ComposerState) => void
submit: () => void
}
interface ComposerMeta {
inputRef: React.RefObject<TextInput>
}
interface ComposerContextValue {
state: ComposerState
actions: ComposerActions
meta: ComposerMeta
}
const ComposerContext = createContext<ComposerContextValue | null>(null)
```
**UI components consume the interface, not the implementation:**
```tsx
function ComposerInput() {
const {
state,
actions: { update },
meta,
} = use(ComposerContext)
// This component works with ANY provider that implements the interface
return (
<TextInput
ref={meta.inputRef}
value={state.input}
onChangeText={(text) => update((s) => ({ ...s, input: text }))}
/>
)
}
```
**Different providers implement the same interface:**
```tsx
// Provider A: Local state for ephemeral forms
function ForwardMessageProvider({ children }: { children: React.ReactNode }) {
const [state, setState] = useState(initialState)
const inputRef = useRef(null)
const submit = useForwardMessage()
return (
<ComposerContext
value={{
state,
actions: { update: setState, submit },
meta: { inputRef },
}}
>
{children}
</ComposerContext>
)
}
// Provider B: Global synced state for channels
function ChannelProvider({ channelId, children }: Props) {
const { state, update, submit } = useGlobalChannel(channelId)
const inputRef = useRef(null)
return (
<ComposerContext
value={{
state,
actions: { update, submit },
meta: { inputRef },
}}
>
{children}
</ComposerContext>
)
}
```
**The same composed UI works with both:**
```tsx
// Works with ForwardMessageProvider (local state)
<ForwardMessageProvider>
<Composer.Frame>
<Composer.Input />
<Composer.Submit />
</Composer.Frame>
</ForwardMessageProvider>
// Works with ChannelProvider (global synced state)
<ChannelProvider channelId="abc">
<Composer.Frame>
<Composer.Input />
<Composer.Submit />
</Composer.Frame>
</ChannelProvider>
```
**Custom UI outside the component can access state and actions:**
The provider boundary is what matters—not the visual nesting. Components that
need shared state don't have to be inside the `Composer.Frame`. They just need
to be within the provider.
```tsx
function ForwardMessageDialog() {
return (
<ForwardMessageProvider>
<Dialog>
{/* The composer UI */}
<Composer.Frame>
<Composer.Input placeholder="Add a message, if you'd like." />
<Composer.Footer>
<Composer.Formatting />
<Composer.Emojis />
</Composer.Footer>
</Composer.Frame>
{/* Custom UI OUTSIDE the composer, but INSIDE the provider */}
<MessagePreview />
{/* Actions at the bottom of the dialog */}
<DialogActions>
<CancelButton />
<ForwardButton />
</DialogActions>
</Dialog>
</ForwardMessageProvider>
)
}
// This button lives OUTSIDE Composer.Frame but can still submit based on its context!
function ForwardButton() {
const {
actions: { submit },
} = use(ComposerContext)
return <Button onPress={submit}>Forward</Button>
}
// This preview lives OUTSIDE Composer.Frame but can read composer's state!
function MessagePreview() {
const { state } = use(ComposerContext)
return <Preview message={state.input} attachments={state.attachments} />
}
```
The `ForwardButton` and `MessagePreview` are not visually inside the composer
box, but they can still access its state and actions. This is the power of
lifting state into providers.
The UI is reusable bits you compose together. The state is dependency-injected
by the provider. Swap the provider, keep the UI.
.agents/skills/vercel-composition-patterns/rules/state-decouple-implementation.md 0 → 100644
View file @ 4489f507
---
title: Decouple State Management from UI
impact: MEDIUM
impactDescription: enables swapping state implementations without changing UI
tags: composition, state, architecture
---
## Decouple State Management from UI
The provider component should be the only place that knows how state is managed.
UI components consume the context interface—they don't know if state comes from
useState, Zustand, or a server sync.
**Incorrect (UI coupled to state implementation):**
```tsx
function ChannelComposer({ channelId }: { channelId: string }) {
// UI component knows about global state implementation
const state = useGlobalChannelState(channelId)
const { submit, updateInput } = useChannelSync(channelId)
return (
<Composer.Frame>
<Composer.Input
value={state.input}
onChange={(text) => sync.updateInput(text)}
/>
<Composer.Submit onPress={() => sync.submit()} />
</Composer.Frame>
)
}
```
**Correct (state management isolated in provider):**
```tsx
// Provider handles all state management details
function ChannelProvider({
channelId,
children,
}: {
channelId: string
children: React.ReactNode
}) {
const { state, update, submit } = useGlobalChannel(channelId)
const inputRef = useRef(null)
return (
<Composer.Provider
state={state}
actions={{ update, submit }}
meta={{ inputRef }}
>
{children}
</Composer.Provider>
)
}
// UI component only knows about the context interface
function ChannelComposer() {
return (
<Composer.Frame>
<Composer.Header />
<Composer.Input />
<Composer.Footer>
<Composer.Submit />
</Composer.Footer>
</Composer.Frame>
)
}
// Usage
function Channel({ channelId }: { channelId: string }) {
return (
<ChannelProvider channelId={channelId}>
<ChannelComposer />
</ChannelProvider>
)
}
```
**Different providers, same UI:**
```tsx
// Local state for ephemeral forms
function ForwardMessageProvider({ children }) {
const [state, setState] = useState(initialState)
const forwardMessage = useForwardMessage()
return (
<Composer.Provider
state={state}
actions={{ update: setState, submit: forwardMessage }}
>
{children}
</Composer.Provider>
)
}
// Global synced state for channels
function ChannelProvider({ channelId, children }) {
const { state, update, submit } = useGlobalChannel(channelId)
return (
<Composer.Provider state={state} actions={{ update, submit }}>
{children}
</Composer.Provider>
)
}
```
The same `Composer.Input` component works with both providers because it only
depends on the context interface, not the implementation.
.agents/skills/vercel-composition-patterns/rules/state-lift-state.md 0 → 100644
View file @ 4489f507
---
title: Lift State into Provider Components
impact: HIGH
impactDescription: enables state sharing outside component boundaries
tags: composition, state, context, providers
---
## Lift State into Provider Components
Move state management into dedicated provider components. This allows sibling
components outside the main UI to access and modify state without prop drilling
or awkward refs.
**Incorrect (state trapped inside component):**
```tsx
function ForwardMessageComposer() {
const [state, setState] = useState(initialState)
const forwardMessage = useForwardMessage()
return (
<Composer.Frame>
<Composer.Input />
<Composer.Footer />
</Composer.Frame>
)
}
// Problem: How does this button access composer state?
function ForwardMessageDialog() {
return (
<Dialog>
<ForwardMessageComposer />
<MessagePreview /> {/* Needs composer state */}
<DialogActions>
<CancelButton />
<ForwardButton /> {/* Needs to call submit */}
</DialogActions>
</Dialog>
)
}
```
**Incorrect (useEffect to sync state up):**
```tsx
function ForwardMessageDialog() {
const [input, setInput] = useState('')
return (
<Dialog>
<ForwardMessageComposer onInputChange={setInput} />
<MessagePreview input={input} />
</Dialog>
)
}
function ForwardMessageComposer({ onInputChange }) {
const [state, setState] = useState(initialState)
useEffect(() => {
onInputChange(state.input) // Sync on every change 😬
}, [state.input])
}
```
**Incorrect (reading state from ref on submit):**
```tsx
function ForwardMessageDialog() {
const stateRef = useRef(null)
return (
<Dialog>
<ForwardMessageComposer stateRef={stateRef} />
<ForwardButton onPress={() => submit(stateRef.current)} />
</Dialog>
)
}
```
**Correct (state lifted to provider):**
```tsx
function ForwardMessageProvider({ children }: { children: React.ReactNode }) {
const [state, setState] = useState(initialState)
const forwardMessage = useForwardMessage()
const inputRef = useRef(null)
return (
<Composer.Provider
state={state}
actions={{ update: setState, submit: forwardMessage }}
meta={{ inputRef }}
>
{children}
</Composer.Provider>
)
}
function ForwardMessageDialog() {
return (
<ForwardMessageProvider>
<Dialog>
<ForwardMessageComposer />
<MessagePreview /> {/* Custom components can access state and actions */}
<DialogActions>
<CancelButton />
<ForwardButton /> {/* Custom components can access state and actions */}
</DialogActions>
</Dialog>
</ForwardMessageProvider>
)
}
function ForwardButton() {
const { actions } = use(Composer.Context)
return <Button onPress={actions.submit}>Forward</Button>
}
```
The ForwardButton lives outside the Composer.Frame but still has access to the
submit action because it's within the provider. Even though it's a one-off
component, it can still access the composer's state and actions from outside the
UI itself.
**Key insight:** Components that need shared state don't have to be visually
nested inside each other—they just need to be within the same provider.
.agents/skills/vercel-react-best-practices/AGENTS.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/vercel-react-best-practices/README.md 0 → 100644
View file @ 4489f507
# React Best Practices
A structured repository for creating and maintaining React Best Practices optimized for agents and LLMs.
## Structure
- `rules/` - Individual rule files (one per rule)
- `_sections.md` - Section metadata (titles, impacts, descriptions)
- `_template.md` - Template for creating new rules
- `area-description.md` - Individual rule files
- `src/` - Build scripts and utilities
- `metadata.json` - Document metadata (version, organization, abstract)
- __`AGENTS.md`__ - Compiled output (generated)
- __`test-cases.json`__ - Test cases for LLM evaluation (generated)
## Getting Started
1. Install dependencies:
```bash
pnpm install
```
2. Build AGENTS.md from rules:
```bash
pnpm build
```
3. Validate rule files:
```bash
pnpm validate
```
4. Extract test cases:
```bash
pnpm extract-tests
```
## Creating a New Rule
1. Copy `rules/_template.md` to `rules/area-description.md`
2. Choose the appropriate area prefix:
- `async-` for Eliminating Waterfalls (Section 1)
- `bundle-` for Bundle Size Optimization (Section 2)
- `server-` for Server-Side Performance (Section 3)
- `client-` for Client-Side Data Fetching (Section 4)
- `rerender-` for Re-render Optimization (Section 5)
- `rendering-` for Rendering Performance (Section 6)
- `js-` for JavaScript Performance (Section 7)
- `advanced-` for Advanced Patterns (Section 8)
3. Fill in the frontmatter and content
4. Ensure you have clear examples with explanations
5. Run `pnpm build` to regenerate AGENTS.md and test-cases.json
## Rule File Structure
Each rule file should follow this structure:
```markdown
---
title: Rule Title Here
impact: MEDIUM
impactDescription: Optional description
tags: tag1, tag2, tag3
---
## Rule Title Here
Brief explanation of the rule and why it matters.
**Incorrect (description of what's wrong):**
```typescript
// Bad code example
```
**Correct (description of what's right):**
```typescript
// Good code example
```
Optional explanatory text after examples.
Reference: [Link](https://example.com)
## File Naming Convention
- Files starting with `_` are special (excluded from build)
- Rule files: `area-description.md` (e.g., `async-parallel.md`)
- Section is automatically inferred from filename prefix
- Rules are sorted alphabetically by title within each section
- IDs (e.g., 1.1, 1.2) are auto-generated during build
## Impact Levels
- `CRITICAL` - Highest priority, major performance gains
- `HIGH` - Significant performance improvements
- `MEDIUM-HIGH` - Moderate-high gains
- `MEDIUM` - Moderate performance improvements
- `LOW-MEDIUM` - Low-medium gains
- `LOW` - Incremental improvements
## Scripts
- `pnpm build` - Compile rules into AGENTS.md
- `pnpm validate` - Validate all rule files
- `pnpm extract-tests` - Extract test cases for LLM evaluation
- `pnpm dev` - Build and validate
## Contributing
When adding or modifying rules:
1. Use the correct filename prefix for your section
2. Follow the `_template.md` structure
3. Include clear bad/good examples with explanations
4. Add appropriate tags
5. Run `pnpm build` to regenerate AGENTS.md and test-cases.json
6. Rules are automatically sorted by title - no need to manage numbers!
## Acknowledgments
Originally created by [@shuding](https://x.com/shuding) at [Vercel](https://vercel.com).
.agents/skills/vercel-react-best-practices/SKILL.md 0 → 100644
View file @ 4489f507
---
name: vercel-react-best-practices
description: 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.
license: MIT
metadata:
author: vercel
version: "1.0.0"
---
# Vercel React Best Practices
Comprehensive performance optimization guide for React and Next.js applications, maintained by Vercel. Contains 70 rules across 8 categories, prioritized by impact to guide automated refactoring and code generation.
## When to Apply
Reference these guidelines when:
- Writing new React components or Next.js pages
- Implementing data fetching (client or server-side)
- Reviewing code for performance issues
- Refactoring existing React/Next.js code
- Optimizing bundle size or load times
## Rule Categories by Priority
| Priority | Category | Impact | Prefix |
|----------|----------|--------|--------|
| 1 | Eliminating Waterfalls | CRITICAL | `async-` |
| 2 | Bundle Size Optimization | CRITICAL | `bundle-` |
| 3 | Server-Side Performance | HIGH | `server-` |
| 4 | Client-Side Data Fetching | MEDIUM-HIGH | `client-` |
| 5 | Re-render Optimization | MEDIUM | `rerender-` |
| 6 | Rendering Performance | MEDIUM | `rendering-` |
| 7 | JavaScript Performance | LOW-MEDIUM | `js-` |
| 8 | Advanced Patterns | LOW | `advanced-` |
## Quick Reference
### 1. Eliminating Waterfalls (CRITICAL)
- `async-cheap-condition-before-await` - Check cheap sync conditions before awaiting flags or remote values
- `async-defer-await` - Move await into branches where actually used
- `async-parallel` - Use Promise.all() for independent operations
- `async-dependencies` - Use better-all for partial dependencies
- `async-api-routes` - Start promises early, await late in API routes
- `async-suspense-boundaries` - Use Suspense to stream content
### 2. Bundle Size Optimization (CRITICAL)
- `bundle-barrel-imports` - Import directly, avoid barrel files
- `bundle-analyzable-paths` - Prefer statically analyzable import and file-system paths to avoid broad bundles and traces
- `bundle-dynamic-imports` - Use next/dynamic for heavy components
- `bundle-defer-third-party` - Load analytics/logging after hydration
- `bundle-conditional` - Load modules only when feature is activated
- `bundle-preload` - Preload on hover/focus for perceived speed
### 3. Server-Side Performance (HIGH)
- `server-auth-actions` - Authenticate server actions like API routes
- `server-cache-react` - Use React.cache() for per-request deduplication
- `server-cache-lru` - Use LRU cache for cross-request caching
- `server-dedup-props` - Avoid duplicate serialization in RSC props
- `server-hoist-static-io` - Hoist static I/O (fonts, logos) to module level
- `server-no-shared-module-state` - Avoid module-level mutable request state in RSC/SSR
- `server-serialization` - Minimize data passed to client components
- `server-parallel-fetching` - Restructure components to parallelize fetches
- `server-parallel-nested-fetching` - Chain nested fetches per item in Promise.all
- `server-after-nonblocking` - Use after() for non-blocking operations
### 4. Client-Side Data Fetching (MEDIUM-HIGH)
- `client-swr-dedup` - Use SWR for automatic request deduplication
- `client-event-listeners` - Deduplicate global event listeners
- `client-passive-event-listeners` - Use passive listeners for scroll
- `client-localstorage-schema` - Version and minimize localStorage data
### 5. Re-render Optimization (MEDIUM)
- `rerender-defer-reads` - Don't subscribe to state only used in callbacks
- `rerender-memo` - Extract expensive work into memoized components
- `rerender-memo-with-default-value` - Hoist default non-primitive props
- `rerender-dependencies` - Use primitive dependencies in effects
- `rerender-derived-state` - Subscribe to derived booleans, not raw values
- `rerender-derived-state-no-effect` - Derive state during render, not effects
- `rerender-functional-setstate` - Use functional setState for stable callbacks
- `rerender-lazy-state-init` - Pass function to useState for expensive values
- `rerender-simple-expression-in-memo` - Avoid memo for simple primitives
- `rerender-split-combined-hooks` - Split hooks with independent dependencies
- `rerender-move-effect-to-event` - Put interaction logic in event handlers
- `rerender-transitions` - Use startTransition for non-urgent updates
- `rerender-use-deferred-value` - Defer expensive renders to keep input responsive
- `rerender-use-ref-transient-values` - Use refs for transient frequent values
- `rerender-no-inline-components` - Don't define components inside components
### 6. Rendering Performance (MEDIUM)
- `rendering-animate-svg-wrapper` - Animate div wrapper, not SVG element
- `rendering-content-visibility` - Use content-visibility for long lists
- `rendering-hoist-jsx` - Extract static JSX outside components
- `rendering-svg-precision` - Reduce SVG coordinate precision
- `rendering-hydration-no-flicker` - Use inline script for client-only data
- `rendering-hydration-suppress-warning` - Suppress expected mismatches
- `rendering-activity` - Use Activity component for show/hide
- `rendering-conditional-render` - Use ternary, not && for conditionals
- `rendering-usetransition-loading` - Prefer useTransition for loading state
- `rendering-resource-hints` - Use React DOM resource hints for preloading
- `rendering-script-defer-async` - Use defer or async on script tags
### 7. JavaScript Performance (LOW-MEDIUM)
- `js-batch-dom-css` - Group CSS changes via classes or cssText
- `js-index-maps` - Build Map for repeated lookups
- `js-cache-property-access` - Cache object properties in loops
- `js-cache-function-results` - Cache function results in module-level Map
- `js-cache-storage` - Cache localStorage/sessionStorage reads
- `js-combine-iterations` - Combine multiple filter/map into one loop
- `js-length-check-first` - Check array length before expensive comparison
- `js-early-exit` - Return early from functions
- `js-hoist-regexp` - Hoist RegExp creation outside loops
- `js-min-max-loop` - Use loop for min/max instead of sort
- `js-set-map-lookups` - Use Set/Map for O(1) lookups
- `js-tosorted-immutable` - Use toSorted() for immutability
- `js-flatmap-filter` - Use flatMap to map and filter in one pass
- `js-request-idle-callback` - Defer non-critical work to browser idle time
### 8. Advanced Patterns (LOW)
- `advanced-effect-event-deps` - Don't put `useEffectEvent` results in effect deps
- `advanced-event-handler-refs` - Store event handlers in refs
- `advanced-init-once` - Initialize app once per app load
- `advanced-use-latest` - useLatest for stable callback refs
## How to Use
Read individual rule files for detailed explanations and code examples:
```
rules/async-parallel.md
rules/bundle-barrel-imports.md
```
Each rule file contains:
- Brief explanation of why it matters
- Incorrect code example with explanation
- Correct code example with explanation
- Additional context and references
## Full Compiled Document
For the complete guide with all rules expanded: `AGENTS.md`
.agents/skills/vercel-react-best-practices/metadata.json 0 → 100644
View file @ 4489f507
{
"version": "1.0.0",
"organization": "Vercel Engineering",
"date": "January 2026",
"abstract": "Comprehensive performance optimization guide for React and Next.js applications, designed for AI agents and LLMs. Contains 40+ rules across 8 categories, prioritized by impact from critical (eliminating waterfalls, reducing bundle size) to incremental (advanced patterns). Each rule includes detailed explanations, real-world examples comparing incorrect vs. correct implementations, and specific impact metrics to guide automated refactoring and code generation.",
"references": [
"https://react.dev",
"https://nextjs.org",
"https://swr.vercel.app",
"https://github.com/shuding/better-all",
"https://github.com/isaacs/node-lru-cache",
"https://vercel.com/blog/how-we-optimized-package-imports-in-next-js",
"https://vercel.com/blog/how-we-made-the-vercel-dashboard-twice-as-fast"
]
}
.agents/skills/vercel-react-best-practices/rules/_sections.md 0 → 100644
View file @ 4489f507
# Sections
This file defines all sections, their ordering, impact levels, and descriptions.
The section ID (in parentheses) is the filename prefix used to group rules.
---
## 1. Eliminating Waterfalls (async)
**Impact:** CRITICAL
**Description:** Waterfalls are the #1 performance killer. Each sequential await adds full network latency. Eliminating them yields the largest gains.
## 2. Bundle Size Optimization (bundle)
**Impact:** CRITICAL
**Description:** Reducing initial bundle size improves Time to Interactive and Largest Contentful Paint.
## 3. Server-Side Performance (server)
**Impact:** HIGH
**Description:** Optimizing server-side rendering and data fetching eliminates server-side waterfalls and reduces response times.
## 4. Client-Side Data Fetching (client)
**Impact:** MEDIUM-HIGH
**Description:** Automatic deduplication and efficient data fetching patterns reduce redundant network requests.
## 5. Re-render Optimization (rerender)
**Impact:** MEDIUM
**Description:** Reducing unnecessary re-renders minimizes wasted computation and improves UI responsiveness.
## 6. Rendering Performance (rendering)
**Impact:** MEDIUM
**Description:** Optimizing the rendering process reduces the work the browser needs to do.
## 7. JavaScript Performance (js)
**Impact:** LOW-MEDIUM
**Description:** Micro-optimizations for hot paths can add up to meaningful improvements.
## 8. Advanced Patterns (advanced)
**Impact:** LOW
**Description:** Advanced patterns for specific cases that require careful implementation.
.agents/skills/vercel-react-best-practices/rules/_template.md 0 → 100644
View file @ 4489f507
---
title: Rule Title Here
impact: MEDIUM
impactDescription: Optional description of impact (e.g., "20-50% improvement")
tags: tag1, tag2
---
## Rule Title Here
**Impact: MEDIUM (optional impact description)**
Brief explanation of the rule and why it matters. This should be clear and concise, explaining the performance implications.
**Incorrect (description of what's wrong):**
```typescript
// Bad code example here
const bad = example()
```
**Correct (description of what's right):**
```typescript
// Good code example here
const good = example()
```
Reference: [Link to documentation or resource](https://example.com)
.agents/skills/vercel-react-best-practices/rules/advanced-effect-event-deps.md 0 → 100644
View file @ 4489f507
---
title: Do Not Put Effect Events in Dependency Arrays
impact: LOW
impactDescription: avoids unnecessary effect re-runs and lint errors
tags: advanced, hooks, useEffectEvent, dependencies, effects
---
## Do Not Put Effect Events in Dependency Arrays
Effect Event functions do not have a stable identity. Their identity intentionally changes on every render. Do not include the function returned by `useEffectEvent` in a `useEffect` dependency array. Keep the actual reactive values as dependencies and call the Effect Event from inside the effect body or subscriptions created by that effect.
**Incorrect (Effect Event added as a dependency):**
```tsx
import { useEffect, useEffectEvent } from 'react'
function ChatRoom({ roomId, onConnected }: {
roomId: string
onConnected: () => void
}) {
const handleConnected = useEffectEvent(onConnected)
useEffect(() => {
const connection = createConnection(roomId)
connection.on('connected', handleConnected)
connection.connect()
return () => connection.disconnect()
}, [roomId, handleConnected])
}
```
Including the Effect Event in dependencies makes the effect re-run every render and triggers the React Hooks lint rule.
**Correct (depend on reactive values, not the Effect Event):**
```tsx
import { useEffect, useEffectEvent } from 'react'
function ChatRoom({ roomId, onConnected }: {
roomId: string
onConnected: () => void
}) {
const handleConnected = useEffectEvent(onConnected)
useEffect(() => {
const connection = createConnection(roomId)
connection.on('connected', handleConnected)
connection.connect()
return () => connection.disconnect()
}, [roomId])
}
```
Reference: [React useEffectEvent: Effect Event in deps](https://react.dev/reference/react/useEffectEvent#effect-event-in-deps)
.agents/skills/vercel-react-best-practices/rules/advanced-event-handler-refs.md 0 → 100644
View file @ 4489f507
---
title: Store Event Handlers in Refs
impact: LOW
impactDescription: stable subscriptions
tags: advanced, hooks, refs, event-handlers, optimization
---
## Store Event Handlers in Refs
Store callbacks in refs when used in effects that shouldn't re-subscribe on callback changes.
**Incorrect (re-subscribes on every render):**
```tsx
function useWindowEvent(event: string, handler: (e) => void) {
useEffect(() => {
window.addEventListener(event, handler)
return () => window.removeEventListener(event, handler)
}, [event, handler])
}
```
**Correct (stable subscription):**
```tsx
function useWindowEvent(event: string, handler: (e) => void) {
const handlerRef = useRef(handler)
useEffect(() => {
handlerRef.current = handler
}, [handler])
useEffect(() => {
const listener = (e) => handlerRef.current(e)
window.addEventListener(event, listener)
return () => window.removeEventListener(event, listener)
}, [event])
}
```
**Alternative: use `useEffectEvent` if you're on latest React:**
```tsx
import { useEffectEvent } from 'react'
function useWindowEvent(event: string, handler: (e) => void) {
const onEvent = useEffectEvent(handler)
useEffect(() => {
window.addEventListener(event, onEvent)
return () => window.removeEventListener(event, onEvent)
}, [event])
}
```
`useEffectEvent` provides a cleaner API for the same pattern: it creates a stable function reference that always calls the latest version of the handler.
.agents/skills/vercel-react-best-practices/rules/advanced-init-once.md 0 → 100644
View file @ 4489f507
---
title: Initialize App Once, Not Per Mount
impact: LOW-MEDIUM
impactDescription: avoids duplicate init in development
tags: initialization, useEffect, app-startup, side-effects
---
## Initialize App Once, Not Per Mount
Do not put app-wide initialization that must run once per app load inside `useEffect([])` of a component. Components can remount and effects will re-run. Use a module-level guard or top-level init in the entry module instead.
**Incorrect (runs twice in dev, re-runs on remount):**
```tsx
function Comp() {
useEffect(() => {
loadFromStorage()
checkAuthToken()
}, [])
// ...
}
```
**Correct (once per app load):**
```tsx
let didInit = false
function Comp() {
useEffect(() => {
if (didInit) return
didInit = true
loadFromStorage()
checkAuthToken()
}, [])
// ...
}
```
Reference: [Initializing the application](https://react.dev/learn/you-might-not-need-an-effect#initializing-the-application)
.agents/skills/vercel-react-best-practices/rules/advanced-use-latest.md 0 → 100644
View file @ 4489f507
---
title: useEffectEvent for Stable Callback Refs
impact: LOW
impactDescription: prevents effect re-runs
tags: advanced, hooks, useEffectEvent, refs, optimization
---
## useEffectEvent for Stable Callback Refs
Access latest values in callbacks without adding them to dependency arrays. Prevents effect re-runs while avoiding stale closures.
**Incorrect (effect re-runs on every callback change):**
```tsx
function SearchInput({ onSearch }: { onSearch: (q: string) => void }) {
const [query, setQuery] = useState('')
useEffect(() => {
const timeout = setTimeout(() => onSearch(query), 300)
return () => clearTimeout(timeout)
}, [query, onSearch])
}
```
**Correct (using React's useEffectEvent):**
```tsx
import { useEffectEvent } from 'react';
function SearchInput({ onSearch }: { onSearch: (q: string) => void }) {
const [query, setQuery] = useState('')
const onSearchEvent = useEffectEvent(onSearch)
useEffect(() => {
const timeout = setTimeout(() => onSearchEvent(query), 300)
return () => clearTimeout(timeout)
}, [query])
}
```
.agents/skills/vercel-react-best-practices/rules/async-api-routes.md 0 → 100644
View file @ 4489f507
---
title: Prevent Waterfall Chains in API Routes
impact: CRITICAL
impactDescription: 2-10× improvement
tags: api-routes, server-actions, waterfalls, parallelization
---
## Prevent Waterfall Chains in API Routes
In API routes and Server Actions, start independent operations immediately, even if you don't await them yet.
**Incorrect (config waits for auth, data waits for both):**
```typescript
export async function GET(request: Request) {
const session = await auth()
const config = await fetchConfig()
const data = await fetchData(session.user.id)
return Response.json({ data, config })
}
```
**Correct (auth and config start immediately):**
```typescript
export async function GET(request: Request) {
const sessionPromise = auth()
const configPromise = fetchConfig()
const session = await sessionPromise
const [config, data] = await Promise.all([
configPromise,
fetchData(session.user.id)
])
return Response.json({ data, config })
}
```
For operations with more complex dependency chains, use `better-all` to automatically maximize parallelism (see Dependency-Based Parallelization).
.agents/skills/vercel-react-best-practices/rules/async-cheap-condition-before-await.md 0 → 100644
View file @ 4489f507
---
title: Check Cheap Conditions Before Async Flags
impact: HIGH
impactDescription: avoids unnecessary async work when a synchronous guard already fails
tags: async, await, feature-flags, short-circuit, conditional
---
## Check Cheap Conditions Before Async Flags
When a branch uses `await` for a flag or remote value and also requires a **cheap synchronous** condition (local props, request metadata, already-loaded state), evaluate the cheap condition **first**. Otherwise you pay for the async call even when the compound condition can never be true.
This is a specialization of [Defer Await Until Needed](./async-defer-await.md) for `flag && cheapCondition` style checks.
**Incorrect:**
```typescript
const someFlag = await getFlag()
if (someFlag && someCondition) {
// ...
}
```
**Correct:**
```typescript
if (someCondition) {
const someFlag = await getFlag()
if (someFlag) {
// ...
}
}
```
This matters when `getFlag` hits the network, a feature-flag service, or `React.cache` / DB work: skipping it when `someCondition` is false removes that cost on the cold path.
Keep the original order if `someCondition` is expensive, depends on the flag, or you must run side effects in a fixed order.
.agents/skills/vercel-react-best-practices/rules/async-defer-await.md 0 → 100644
View file @ 4489f507
---
title: Defer Await Until Needed
impact: HIGH
impactDescription: avoids blocking unused code paths
tags: async, await, conditional, optimization
---
## Defer Await Until Needed
Move `await` operations into the branches where they're actually used to avoid blocking code paths that don't need them.
**Incorrect (blocks both branches):**
```typescript
async function handleRequest(userId: string, skipProcessing: boolean) {
const userData = await fetchUserData(userId)
if (skipProcessing) {
// Returns immediately but still waited for userData
return { skipped: true }
}
// Only this branch uses userData
return processUserData(userData)
}
```
**Correct (only blocks when needed):**
```typescript
async function handleRequest(userId: string, skipProcessing: boolean) {
if (skipProcessing) {
// Returns immediately without waiting
return { skipped: true }
}
// Fetch only when needed
const userData = await fetchUserData(userId)
return processUserData(userData)
}
```
**Another example (early return optimization):**
```typescript
// Incorrect: always fetches permissions
async function updateResource(resourceId: string, userId: string) {
const permissions = await fetchPermissions(userId)
const resource = await getResource(resourceId)
if (!resource) {
return { error: 'Not found' }
}
if (!permissions.canEdit) {
return { error: 'Forbidden' }
}
return await updateResourceData(resource, permissions)
}
// Correct: fetches only when needed
async function updateResource(resourceId: string, userId: string) {
const resource = await getResource(resourceId)
if (!resource) {
return { error: 'Not found' }
}
const permissions = await fetchPermissions(userId)
if (!permissions.canEdit) {
return { error: 'Forbidden' }
}
return await updateResourceData(resource, permissions)
}
```
This optimization is especially valuable when the skipped branch is frequently taken, or when the deferred operation is expensive.
For `await getFlag()` combined with a cheap synchronous guard (`flag && someCondition`), see [Check Cheap Conditions Before Async Flags](./async-cheap-condition-before-await.md).
.agents/skills/vercel-react-best-practices/rules/async-dependencies.md 0 → 100644
View file @ 4489f507
---
title: Dependency-Based Parallelization
impact: CRITICAL
impactDescription: 2-10× improvement
tags: async, parallelization, dependencies, better-all
---
## Dependency-Based Parallelization
For operations with partial dependencies, use `better-all` to maximize parallelism. It automatically starts each task at the earliest possible moment.
**Incorrect (profile waits for config unnecessarily):**
```typescript
const [user, config] = await Promise.all([
fetchUser(),
fetchConfig()
])
const profile = await fetchProfile(user.id)
```
**Correct (config and profile run in parallel):**
```typescript
import { all } from 'better-all'
const { user, config, profile } = await all({
async user() { return fetchUser() },
async config() { return fetchConfig() },
async profile() {
return fetchProfile((await this.$.user).id)
}
})
```
**Alternative without extra dependencies:**
We can also create all the promises first, and do `Promise.all()` at the end.
```typescript
const userPromise = fetchUser()
const profilePromise = userPromise.then(user => fetchProfile(user.id))
const [user, config, profile] = await Promise.all([
userPromise,
fetchConfig(),
profilePromise
])
```
Reference: [https://github.com/shuding/better-all](https://github.com/shuding/better-all)
.agents/skills/vercel-react-best-practices/rules/async-parallel.md 0 → 100644
View file @ 4489f507
---
title: Promise.all() for Independent Operations
impact: CRITICAL
impactDescription: 2-10× improvement
tags: async, parallelization, promises, waterfalls
---
## Promise.all() for Independent Operations
When async operations have no interdependencies, execute them concurrently using `Promise.all()`.
**Incorrect (sequential execution, 3 round trips):**
```typescript
const user = await fetchUser()
const posts = await fetchPosts()
const comments = await fetchComments()
```
**Correct (parallel execution, 1 round trip):**
```typescript
const [user, posts, comments] = await Promise.all([
fetchUser(),
fetchPosts(),
fetchComments()
])
```
.agents/skills/vercel-react-best-practices/rules/async-suspense-boundaries.md 0 → 100644
View file @ 4489f507
---
title: Strategic Suspense Boundaries
impact: HIGH
impactDescription: faster initial paint
tags: async, suspense, streaming, layout-shift
---
## Strategic Suspense Boundaries
Instead of awaiting data in async components before returning JSX, use Suspense boundaries to show the wrapper UI faster while data loads.
**Incorrect (wrapper blocked by data fetching):**
```tsx
async function Page() {
const data = await fetchData() // Blocks entire page
return (
<div>
<div>Sidebar</div>
<div>Header</div>
<div>
<DataDisplay data={data} />
</div>
<div>Footer</div>
</div>
)
}
```
The entire layout waits for data even though only the middle section needs it.
**Correct (wrapper shows immediately, data streams in):**
```tsx
function Page() {
return (
<div>
<div>Sidebar</div>
<div>Header</div>
<div>
<Suspense fallback={<Skeleton />}>
<DataDisplay />
</Suspense>
</div>
<div>Footer</div>
</div>
)
}
async function DataDisplay() {
const data = await fetchData() // Only blocks this component
return <div>{data.content}</div>
}
```
Sidebar, Header, and Footer render immediately. Only DataDisplay waits for data.
**Alternative (share promise across components):**
```tsx
function Page() {
// Start fetch immediately, but don't await
const dataPromise = fetchData()
return (
<div>
<div>Sidebar</div>
<div>Header</div>
<Suspense fallback={<Skeleton />}>
<DataDisplay dataPromise={dataPromise} />
<DataSummary dataPromise={dataPromise} />
</Suspense>
<div>Footer</div>
</div>
)
}
function DataDisplay({ dataPromise }: { dataPromise: Promise<Data> }) {
const data = use(dataPromise) // Unwraps the promise
return <div>{data.content}</div>
}
function DataSummary({ dataPromise }: { dataPromise: Promise<Data> }) {
const data = use(dataPromise) // Reuses the same promise
return <div>{data.summary}</div>
}
```
Both components share the same promise, so only one fetch occurs. Layout renders immediately while both components wait together.
**When NOT to use this pattern:**
- Critical data needed for layout decisions (affects positioning)
- SEO-critical content above the fold
- Small, fast queries where suspense overhead isn't worth it
- When you want to avoid layout shift (loading → content jump)
**Trade-off:** Faster initial paint vs potential layout shift. Choose based on your UX priorities.
.agents/skills/vercel-react-best-practices/rules/bundle-analyzable-paths.md 0 → 100644
View file @ 4489f507
---
title: Prefer Statically Analyzable Paths
impact: HIGH
impactDescription: avoids accidental broad bundles and file traces
tags: bundle, nextjs, vite, webpack, rollup, esbuild, path
---
## Prefer Statically Analyzable Paths
Build tools work best when import and file-system paths are obvious at build time. If you hide the real path inside a variable or compose it too dynamically, the tool either has to include a broad set of possible files, warn that it cannot analyze the import, or widen file tracing to stay safe.
Prefer explicit maps or literal paths so the set of reachable files stays narrow and predictable. This is the same rule whether you are choosing modules with `import()` or reading files in server/build code.
When analysis becomes too broad, the cost is real:
- Larger server bundles
- Slower builds
- Worse cold starts
- More memory use
### Import Paths
**Incorrect (the bundler cannot tell what may be imported):**
```ts
const PAGE_MODULES = {
home: './pages/home',
settings: './pages/settings',
} as const
const Page = await import(PAGE_MODULES[pageName])
```
**Correct (use an explicit map of allowed modules):**
```ts
const PAGE_MODULES = {
home: () => import('./pages/home'),
settings: () => import('./pages/settings'),
} as const
const Page = await PAGE_MODULES[pageName]()
```
### File-System Paths
**Incorrect (a 2-value enum still hides the final path from static analysis):**
```ts
const baseDir = path.join(process.cwd(), 'content/' + contentKind)
```
**Correct (make each final path literal at the callsite):**
```ts
const baseDir =
kind === ContentKind.Blog
? path.join(process.cwd(), 'content/blog')
: path.join(process.cwd(), 'content/docs')
```
In Next.js server code, this matters for output file tracing too. `path.join(process.cwd(), someVar)` can widen the traced file set because Next.js statically analyze `import`, `require`, and `fs` usage.
Reference: [Next.js output](https://nextjs.org/docs/app/api-reference/config/next-config-js/output), [Next.js dynamic imports](https://nextjs.org/learn/seo/dynamic-imports), [Vite features](https://vite.dev/guide/features.html), [esbuild API](https://esbuild.github.io/api/), [Rollup dynamic import vars](https://www.npmjs.com/package/@rollup/plugin-dynamic-import-vars), [Webpack dependency management](https://webpack.js.org/guides/dependency-management/)
.agents/skills/vercel-react-best-practices/rules/bundle-barrel-imports.md 0 → 100644
View file @ 4489f507
---
title: Avoid Barrel File Imports
impact: CRITICAL
impactDescription: 200-800ms import cost, slow builds
tags: bundle, imports, tree-shaking, barrel-files, performance
---
## Avoid Barrel File Imports
Import directly from source files instead of barrel files to avoid loading thousands of unused modules. **Barrel files** are entry points that re-export multiple modules (e.g., `index.js` that does `export * from './module'`).
Popular icon and component libraries can have **up to 10,000 re-exports** in their entry file. For many React packages, **it takes 200-800ms just to import them**, affecting both development speed and production cold starts.
**Why tree-shaking doesn't help:** When a library is marked as external (not bundled), the bundler can't optimize it. If you bundle it to enable tree-shaking, builds become substantially slower analyzing the entire module graph.
**Incorrect (imports entire library):**
```tsx
import { Check, X, Menu } from 'lucide-react'
// Loads 1,583 modules, takes ~2.8s extra in dev
// Runtime cost: 200-800ms on every cold start
import { Button, TextField } from '@mui/material'
// Loads 2,225 modules, takes ~4.2s extra in dev
```
**Correct - Next.js 13.5+ (recommended):**
```js
// next.config.js - automatically optimizes barrel imports at build time
module.exports = {
experimental: {
optimizePackageImports: ['lucide-react', '@mui/material']
}
}
```
```tsx
// Keep the standard imports - Next.js transforms them to direct imports
import { Check, X, Menu } from 'lucide-react'
// Full TypeScript support, no manual path wrangling
```
This is the recommended approach because it preserves TypeScript type safety and editor autocompletion while still eliminating the barrel import cost.
**Correct - Direct imports (non-Next.js projects):**
```tsx
import Button from '@mui/material/Button'
import TextField from '@mui/material/TextField'
// Loads only what you use
```
> **TypeScript warning:** Some libraries (notably `lucide-react`) don't ship `.d.ts` files for their deep import paths. Importing from `lucide-react/dist/esm/icons/check` resolves to an implicit `any` type, causing errors under `strict` or `noImplicitAny`. Prefer `optimizePackageImports` when available, or verify the library exports types for its subpaths before using direct imports.
These optimizations provide 15-70% faster dev boot, 28% faster builds, 40% faster cold starts, and significantly faster HMR.
Libraries commonly affected: `lucide-react`, `@mui/material`, `@mui/icons-material`, `@tabler/icons-react`, `react-icons`, `@headlessui/react`, `@radix-ui/react-*`, `lodash`, `ramda`, `date-fns`, `rxjs`, `react-use`.
Reference: [How we optimized package imports in Next.js](https://vercel.com/blog/how-we-optimized-package-imports-in-next-js)
.agents/skills/vercel-react-best-practices/rules/bundle-conditional.md 0 → 100644
View file @ 4489f507
---
title: Conditional Module Loading
impact: HIGH
impactDescription: loads large data only when needed
tags: bundle, conditional-loading, lazy-loading
---
## Conditional Module Loading
Load large data or modules only when a feature is activated.
**Example (lazy-load animation frames):**
```tsx
function AnimationPlayer({ enabled, setEnabled }: { enabled: boolean; setEnabled: React.Dispatch<React.SetStateAction<boolean>> }) {
const [frames, setFrames] = useState<Frame[] | null>(null)
useEffect(() => {
if (enabled && !frames && typeof window !== 'undefined') {
import('./animation-frames.js')
.then(mod => setFrames(mod.frames))
.catch(() => setEnabled(false))
}
}, [enabled, frames, setEnabled])
if (!frames) return <Skeleton />
return <Canvas frames={frames} />
}
```
The `typeof window !== 'undefined'` check prevents bundling this module for SSR, optimizing server bundle size and build speed.
.agents/skills/vercel-react-best-practices/rules/bundle-defer-third-party.md 0 → 100644
View file @ 4489f507
---
title: Defer Non-Critical Third-Party Libraries
impact: MEDIUM
impactDescription: loads after hydration
tags: bundle, third-party, analytics, defer
---
## Defer Non-Critical Third-Party Libraries
Analytics, logging, and error tracking don't block user interaction. Load them after hydration.
**Incorrect (blocks initial bundle):**
```tsx
import { Analytics } from '@vercel/analytics/react'
export default function RootLayout({ children }) {
return (
<html>
<body>
{children}
<Analytics />
</body>
</html>
)
}
```
**Correct (loads after hydration):**
```tsx
import dynamic from 'next/dynamic'
const Analytics = dynamic(
() => import('@vercel/analytics/react').then(m => m.Analytics),
{ ssr: false }
)
export default function RootLayout({ children }) {
return (
<html>
<body>
{children}
<Analytics />
</body>
</html>
)
}
```
.agents/skills/vercel-react-best-practices/rules/bundle-dynamic-imports.md 0 → 100644
View file @ 4489f507
---
title: Dynamic Imports for Heavy Components
impact: CRITICAL
impactDescription: directly affects TTI and LCP
tags: bundle, dynamic-import, code-splitting, next-dynamic
---
## Dynamic Imports for Heavy Components
Use `next/dynamic` to lazy-load large components not needed on initial render.
**Incorrect (Monaco bundles with main chunk ~300KB):**
```tsx
import { MonacoEditor } from './monaco-editor'
function CodePanel({ code }: { code: string }) {
return <MonacoEditor value={code} />
}
```
**Correct (Monaco loads on demand):**
```tsx
import dynamic from 'next/dynamic'
const MonacoEditor = dynamic(
() => import('./monaco-editor').then(m => m.MonacoEditor),
{ ssr: false }
)
function CodePanel({ code }: { code: string }) {
return <MonacoEditor value={code} />
}
```
.agents/skills/vercel-react-best-practices/rules/bundle-preload.md 0 → 100644
View file @ 4489f507
---
title: Preload Based on User Intent
impact: MEDIUM
impactDescription: reduces perceived latency
tags: bundle, preload, user-intent, hover
---
## Preload Based on User Intent
Preload heavy bundles before they're needed to reduce perceived latency.
**Example (preload on hover/focus):**
```tsx
function EditorButton({ onClick }: { onClick: () => void }) {
const preload = () => {
if (typeof window !== 'undefined') {
void import('./monaco-editor')
}
}
return (
<button
onMouseEnter={preload}
onFocus={preload}
onClick={onClick}
>
Open Editor
</button>
)
}
```
**Example (preload when feature flag is enabled):**
```tsx
function FlagsProvider({ children, flags }: Props) {
useEffect(() => {
if (flags.editorEnabled && typeof window !== 'undefined') {
void import('./monaco-editor').then(mod => mod.init())
}
}, [flags.editorEnabled])
return <FlagsContext.Provider value={flags}>
{children}
</FlagsContext.Provider>
}
```
The `typeof window !== 'undefined'` check prevents bundling preloaded modules for SSR, optimizing server bundle size and build speed.
.agents/skills/vercel-react-best-practices/rules/client-event-listeners.md 0 → 100644
View file @ 4489f507
---
title: Deduplicate Global Event Listeners
impact: LOW
impactDescription: single listener for N components
tags: client, swr, event-listeners, subscription
---
## Deduplicate Global Event Listeners
Use `useSWRSubscription()` to share global event listeners across component instances.
**Incorrect (N instances = N listeners):**
```tsx
function useKeyboardShortcut(key: string, callback: () => void) {
useEffect(() => {
const handler = (e: KeyboardEvent) => {
if (e.metaKey && e.key === key) {
callback()
}
}
window.addEventListener('keydown', handler)
return () => window.removeEventListener('keydown', handler)
}, [key, callback])
}
```
When using the `useKeyboardShortcut` hook multiple times, each instance will register a new listener.
**Correct (N instances = 1 listener):**
```tsx
import useSWRSubscription from 'swr/subscription'
// Module-level Map to track callbacks per key
const keyCallbacks = new Map<string, Set<() => void>>()
function useKeyboardShortcut(key: string, callback: () => void) {
// Register this callback in the Map
useEffect(() => {
if (!keyCallbacks.has(key)) {
keyCallbacks.set(key, new Set())
}
keyCallbacks.get(key)!.add(callback)
return () => {
const set = keyCallbacks.get(key)
if (set) {
set.delete(callback)
if (set.size === 0) {
keyCallbacks.delete(key)
}
}
}
}, [key, callback])
useSWRSubscription('global-keydown', () => {
const handler = (e: KeyboardEvent) => {
if (e.metaKey && keyCallbacks.has(e.key)) {
keyCallbacks.get(e.key)!.forEach(cb => cb())
}
}
window.addEventListener('keydown', handler)
return () => window.removeEventListener('keydown', handler)
})
}
function Profile() {
// Multiple shortcuts will share the same listener
useKeyboardShortcut('p', () => { /* ... */ })
useKeyboardShortcut('k', () => { /* ... */ })
// ...
}
```
.agents/skills/vercel-react-best-practices/rules/client-localstorage-schema.md 0 → 100644
View file @ 4489f507
---
title: Version and Minimize localStorage Data
impact: MEDIUM
impactDescription: prevents schema conflicts, reduces storage size
tags: client, localStorage, storage, versioning, data-minimization
---
## Version and Minimize localStorage Data
Add version prefix to keys and store only needed fields. Prevents schema conflicts and accidental storage of sensitive data.
**Incorrect:**
```typescript
// No version, stores everything, no error handling
localStorage.setItem('userConfig', JSON.stringify(fullUserObject))
const data = localStorage.getItem('userConfig')
```
**Correct:**
```typescript
const VERSION = 'v2'
function saveConfig(config: { theme: string; language: string }) {
try {
localStorage.setItem(`userConfig:${VERSION}`, JSON.stringify(config))
} catch {
// Throws in incognito/private browsing, quota exceeded, or disabled
}
}
function loadConfig() {
try {
const data = localStorage.getItem(`userConfig:${VERSION}`)
return data ? JSON.parse(data) : null
} catch {
return null
}
}
// Migration from v1 to v2
function migrate() {
try {
const v1 = localStorage.getItem('userConfig:v1')
if (v1) {
const old = JSON.parse(v1)
saveConfig({ theme: old.darkMode ? 'dark' : 'light', language: old.lang })
localStorage.removeItem('userConfig:v1')
}
} catch {}
}
```
**Store minimal fields from server responses:**
```typescript
// User object has 20+ fields, only store what UI needs
function cachePrefs(user: FullUser) {
try {
localStorage.setItem('prefs:v1', JSON.stringify({
theme: user.preferences.theme,
notifications: user.preferences.notifications
}))
} catch {}
}
```
**Always wrap in try-catch:** `getItem()` and `setItem()` throw in incognito/private browsing (Safari, Firefox), when quota exceeded, or when disabled.
**Benefits:** Schema evolution via versioning, reduced storage size, prevents storing tokens/PII/internal flags.
.agents/skills/vercel-react-best-practices/rules/client-passive-event-listeners.md 0 → 100644
View file @ 4489f507
---
title: Use Passive Event Listeners for Scrolling Performance
impact: MEDIUM
impactDescription: eliminates scroll delay caused by event listeners
tags: client, event-listeners, scrolling, performance, touch, wheel
---
## Use Passive Event Listeners for Scrolling Performance
Add `{ passive: true }` to touch and wheel event listeners to enable immediate scrolling. Browsers normally wait for listeners to finish to check if `preventDefault()` is called, causing scroll delay.
**Incorrect:**
```typescript
useEffect(() => {
const handleTouch = (e: TouchEvent) => console.log(e.touches[0].clientX)
const handleWheel = (e: WheelEvent) => console.log(e.deltaY)
document.addEventListener('touchstart', handleTouch)
document.addEventListener('wheel', handleWheel)
return () => {
document.removeEventListener('touchstart', handleTouch)
document.removeEventListener('wheel', handleWheel)
}
}, [])
```
**Correct:**
```typescript
useEffect(() => {
const handleTouch = (e: TouchEvent) => console.log(e.touches[0].clientX)
const handleWheel = (e: WheelEvent) => console.log(e.deltaY)
document.addEventListener('touchstart', handleTouch, { passive: true })
document.addEventListener('wheel', handleWheel, { passive: true })
return () => {
document.removeEventListener('touchstart', handleTouch)
document.removeEventListener('wheel', handleWheel)
}
}, [])
```
**Use passive when:** tracking/analytics, logging, any listener that doesn't call `preventDefault()`.
**Don't use passive when:** implementing custom swipe gestures, custom zoom controls, or any listener that needs `preventDefault()`.
.agents/skills/vercel-react-best-practices/rules/client-swr-dedup.md 0 → 100644
View file @ 4489f507
---
title: Use SWR for Automatic Deduplication
impact: MEDIUM-HIGH
impactDescription: automatic deduplication
tags: client, swr, deduplication, data-fetching
---
## Use SWR for Automatic Deduplication
SWR enables request deduplication, caching, and revalidation across component instances.
**Incorrect (no deduplication, each instance fetches):**
```tsx
function UserList() {
const [users, setUsers] = useState([])
useEffect(() => {
fetch('/api/users')
.then(r => r.json())
.then(setUsers)
}, [])
}
```
**Correct (multiple instances share one request):**
```tsx
import useSWR from 'swr'
function UserList() {
const { data: users } = useSWR('/api/users', fetcher)
}
```
**For immutable data:**
```tsx
import { useImmutableSWR } from '@/lib/swr'
function StaticContent() {
const { data } = useImmutableSWR('/api/config', fetcher)
}
```
**For mutations:**
```tsx
import { useSWRMutation } from 'swr/mutation'
function UpdateButton() {
const { trigger } = useSWRMutation('/api/user', updateUser)
return <button onClick={() => trigger()}>Update</button>
}
```
Reference: [https://swr.vercel.app](https://swr.vercel.app)
.agents/skills/vercel-react-best-practices/rules/js-batch-dom-css.md 0 → 100644
View file @ 4489f507
---
title: Avoid Layout Thrashing
impact: MEDIUM
impactDescription: prevents forced synchronous layouts and reduces performance bottlenecks
tags: javascript, dom, css, performance, reflow, layout-thrashing
---
## Avoid Layout Thrashing
Avoid interleaving style writes with layout reads. When you read a layout property (like `offsetWidth`, `getBoundingClientRect()`, or `getComputedStyle()`) between style changes, the browser is forced to trigger a synchronous reflow.
**This is OK (browser batches style changes):**
```typescript
function updateElementStyles(element: HTMLElement) {
// Each line invalidates style, but browser batches the recalculation
element.style.width = '100px'
element.style.height = '200px'
element.style.backgroundColor = 'blue'
element.style.border = '1px solid black'
}
```
**Incorrect (interleaved reads and writes force reflows):**
```typescript
function layoutThrashing(element: HTMLElement) {
element.style.width = '100px'
const width = element.offsetWidth // Forces reflow
element.style.height = '200px'
const height = element.offsetHeight // Forces another reflow
}
```
**Correct (batch writes, then read once):**
```typescript
function updateElementStyles(element: HTMLElement) {
// Batch all writes together
element.style.width = '100px'
element.style.height = '200px'
element.style.backgroundColor = 'blue'
element.style.border = '1px solid black'
// Read after all writes are done (single reflow)
const { width, height } = element.getBoundingClientRect()
}
```
**Correct (batch reads, then writes):**
```typescript
function avoidThrashing(element: HTMLElement) {
// Read phase - all layout queries first
const rect1 = element.getBoundingClientRect()
const offsetWidth = element.offsetWidth
const offsetHeight = element.offsetHeight
// Write phase - all style changes after
element.style.width = '100px'
element.style.height = '200px'
}
```
**Better: use CSS classes**
```css
.highlighted-box {
width: 100px;
height: 200px;
background-color: blue;
border: 1px solid black;
}
```
```typescript
function updateElementStyles(element: HTMLElement) {
element.classList.add('highlighted-box')
const { width, height } = element.getBoundingClientRect()
}
```
**React example:**
```tsx
// Incorrect: interleaving style changes with layout queries
function Box({ isHighlighted }: { isHighlighted: boolean }) {
const ref = useRef<HTMLDivElement>(null)
useEffect(() => {
if (ref.current && isHighlighted) {
ref.current.style.width = '100px'
const width = ref.current.offsetWidth // Forces layout
ref.current.style.height = '200px'
}
}, [isHighlighted])
return <div ref={ref}>Content</div>
}
// Correct: toggle class
function Box({ isHighlighted }: { isHighlighted: boolean }) {
return (
<div className={isHighlighted ? 'highlighted-box' : ''}>
Content
</div>
)
}
```
Prefer CSS classes over inline styles when possible. CSS files are cached by the browser, and classes provide better separation of concerns and are easier to maintain.
See [this gist](https://gist.github.com/paulirish/5d52fb081b3570c81e3a) and [CSS Triggers](https://csstriggers.com/) for more information on layout-forcing operations.
.agents/skills/vercel-react-best-practices/rules/js-cache-function-results.md 0 → 100644
View file @ 4489f507
---
title: Cache Repeated Function Calls
impact: MEDIUM
impactDescription: avoid redundant computation
tags: javascript, cache, memoization, performance
---
## Cache Repeated Function Calls
Use a module-level Map to cache function results when the same function is called repeatedly with the same inputs during render.
**Incorrect (redundant computation):**
```typescript
function ProjectList({ projects }: { projects: Project[] }) {
return (
<div>
{projects.map(project => {
// slugify() called 100+ times for same project names
const slug = slugify(project.name)
return <ProjectCard key={project.id} slug={slug} />
})}
</div>
)
}
```
**Correct (cached results):**
```typescript
// Module-level cache
const slugifyCache = new Map<string, string>()
function cachedSlugify(text: string): string {
if (slugifyCache.has(text)) {
return slugifyCache.get(text)!
}
const result = slugify(text)
slugifyCache.set(text, result)
return result
}
function ProjectList({ projects }: { projects: Project[] }) {
return (
<div>
{projects.map(project => {
// Computed only once per unique project name
const slug = cachedSlugify(project.name)
return <ProjectCard key={project.id} slug={slug} />
})}
</div>
)
}
```
**Simpler pattern for single-value functions:**
```typescript
let isLoggedInCache: boolean | null = null
function isLoggedIn(): boolean {
if (isLoggedInCache !== null) {
return isLoggedInCache
}
isLoggedInCache = document.cookie.includes('auth=')
return isLoggedInCache
}
// Clear cache when auth changes
function onAuthChange() {
isLoggedInCache = null
}
```
Use a Map (not a hook) so it works everywhere: utilities, event handlers, not just React components.
Reference: [How we made the Vercel Dashboard twice as fast](https://vercel.com/blog/how-we-made-the-vercel-dashboard-twice-as-fast)
.agents/skills/vercel-react-best-practices/rules/js-cache-property-access.md 0 → 100644
View file @ 4489f507
---
title: Cache Property Access in Loops
impact: LOW-MEDIUM
impactDescription: reduces lookups
tags: javascript, loops, optimization, caching
---
## Cache Property Access in Loops
Cache object property lookups in hot paths.
**Incorrect (3 lookups × N iterations):**
```typescript
for (let i = 0; i < arr.length; i++) {
process(obj.config.settings.value)
}
```
**Correct (1 lookup total):**
```typescript
const value = obj.config.settings.value
const len = arr.length
for (let i = 0; i < len; i++) {
process(value)
}
```
.agents/skills/vercel-react-best-practices/rules/js-cache-storage.md 0 → 100644
View file @ 4489f507
---
title: Cache Storage API Calls
impact: LOW-MEDIUM
impactDescription: reduces expensive I/O
tags: javascript, localStorage, storage, caching, performance
---
## Cache Storage API Calls
`localStorage`, `sessionStorage`, and `document.cookie` are synchronous and expensive. Cache reads in memory.
**Incorrect (reads storage on every call):**
```typescript
function getTheme() {
return localStorage.getItem('theme') ?? 'light'
}
// Called 10 times = 10 storage reads
```
**Correct (Map cache):**
```typescript
const storageCache = new Map<string, string | null>()
function getLocalStorage(key: string) {
if (!storageCache.has(key)) {
storageCache.set(key, localStorage.getItem(key))
}
return storageCache.get(key)
}
function setLocalStorage(key: string, value: string) {
localStorage.setItem(key, value)
storageCache.set(key, value) // keep cache in sync
}
```
Use a Map (not a hook) so it works everywhere: utilities, event handlers, not just React components.
**Cookie caching:**
```typescript
let cookieCache: Record<string, string> | null = null
function getCookie(name: string) {
if (!cookieCache) {
cookieCache = Object.fromEntries(
document.cookie.split('; ').map(c => c.split('='))
)
}
return cookieCache[name]
}
```
**Important (invalidate on external changes):**
If storage can change externally (another tab, server-set cookies), invalidate cache:
```typescript
window.addEventListener('storage', (e) => {
if (e.key) storageCache.delete(e.key)
})
document.addEventListener('visibilitychange', () => {
if (document.visibilityState === 'visible') {
storageCache.clear()
}
})
```
.agents/skills/vercel-react-best-practices/rules/js-combine-iterations.md 0 → 100644
View file @ 4489f507
---
title: Combine Multiple Array Iterations
impact: LOW-MEDIUM
impactDescription: reduces iterations
tags: javascript, arrays, loops, performance
---
## Combine Multiple Array Iterations
Multiple `.filter()` or `.map()` calls iterate the array multiple times. Combine into one loop.
**Incorrect (3 iterations):**
```typescript
const admins = users.filter(u => u.isAdmin)
const testers = users.filter(u => u.isTester)
const inactive = users.filter(u => !u.isActive)
```
**Correct (1 iteration):**
```typescript
const admins: User[] = []
const testers: User[] = []
const inactive: User[] = []
for (const user of users) {
if (user.isAdmin) admins.push(user)
if (user.isTester) testers.push(user)
if (!user.isActive) inactive.push(user)
}
```
.agents/skills/vercel-react-best-practices/rules/js-early-exit.md 0 → 100644
View file @ 4489f507
---
title: Early Return from Functions
impact: LOW-MEDIUM
impactDescription: avoids unnecessary computation
tags: javascript, functions, optimization, early-return
---
## Early Return from Functions
Return early when result is determined to skip unnecessary processing.
**Incorrect (processes all items even after finding answer):**
```typescript
function validateUsers(users: User[]) {
let hasError = false
let errorMessage = ''
for (const user of users) {
if (!user.email) {
hasError = true
errorMessage = 'Email required'
}
if (!user.name) {
hasError = true
errorMessage = 'Name required'
}
// Continues checking all users even after error found
}
return hasError ? { valid: false, error: errorMessage } : { valid: true }
}
```
**Correct (returns immediately on first error):**
```typescript
function validateUsers(users: User[]) {
for (const user of users) {
if (!user.email) {
return { valid: false, error: 'Email required' }
}
if (!user.name) {
return { valid: false, error: 'Name required' }
}
}
return { valid: true }
}
```
.agents/skills/vercel-react-best-practices/rules/js-flatmap-filter.md 0 → 100644
View file @ 4489f507
---
title: Use flatMap to Map and Filter in One Pass
impact: LOW-MEDIUM
impactDescription: eliminates intermediate array
tags: javascript, arrays, flatMap, filter, performance
---
## Use flatMap to Map and Filter in One Pass
**Impact: LOW-MEDIUM (eliminates intermediate array)**
Chaining `.map().filter(Boolean)` creates an intermediate array and iterates twice. Use `.flatMap()` to transform and filter in a single pass.
**Incorrect (2 iterations, intermediate array):**
```typescript
const userNames = users
.map(user => user.isActive ? user.name : null)
.filter(Boolean)
```
**Correct (1 iteration, no intermediate array):**
```typescript
const userNames = users.flatMap(user =>
user.isActive ? [user.name] : []
)
```
**More examples:**
```typescript
// Extract valid emails from responses
// Before
const emails = responses
.map(r => r.success ? r.data.email : null)
.filter(Boolean)
// After
const emails = responses.flatMap(r =>
r.success ? [r.data.email] : []
)
// Parse and filter valid numbers
// Before
const numbers = strings
.map(s => parseInt(s, 10))
.filter(n => !isNaN(n))
// After
const numbers = strings.flatMap(s => {
const n = parseInt(s, 10)
return isNaN(n) ? [] : [n]
})
```
**When to use:**
- Transforming items while filtering some out
- Conditional mapping where some inputs produce no output
- Parsing/validating where invalid inputs should be skipped
.agents/skills/vercel-react-best-practices/rules/js-hoist-regexp.md 0 → 100644
View file @ 4489f507
---
title: Hoist RegExp Creation
impact: LOW-MEDIUM
impactDescription: avoids recreation
tags: javascript, regexp, optimization, memoization
---
## Hoist RegExp Creation
Don't create RegExp inside render. Hoist to module scope or memoize with `useMemo()`.
**Incorrect (new RegExp every render):**
```tsx
function Highlighter({ text, query }: Props) {
const regex = new RegExp(`(${query})`, 'gi')
const parts = text.split(regex)
return <>{parts.map((part, i) => ...)}</>
}
```
**Correct (memoize or hoist):**
```tsx
const EMAIL_REGEX = /^[^\s@]+@[^\s@]+\.[^\s@]+$/
function Highlighter({ text, query }: Props) {
const regex = useMemo(
() => new RegExp(`(${escapeRegex(query)})`, 'gi'),
[query]
)
const parts = text.split(regex)
return <>{parts.map((part, i) => ...)}</>
}
```
**Warning (global regex has mutable state):**
Global regex (`/g`) has mutable `lastIndex` state:
```typescript
const regex = /foo/g
regex.test('foo') // true, lastIndex = 3
regex.test('foo') // false, lastIndex = 0
```
.agents/skills/vercel-react-best-practices/rules/js-index-maps.md 0 → 100644
View file @ 4489f507
---
title: Build Index Maps for Repeated Lookups
impact: LOW-MEDIUM
impactDescription: 1M ops to 2K ops
tags: javascript, map, indexing, optimization, performance
---
## Build Index Maps for Repeated Lookups
Multiple `.find()` calls by the same key should use a Map.
**Incorrect (O(n) per lookup):**
```typescript
function processOrders(orders: Order[], users: User[]) {
return orders.map(order => ({
...order,
user: users.find(u => u.id === order.userId)
}))
}
```
**Correct (O(1) per lookup):**
```typescript
function processOrders(orders: Order[], users: User[]) {
const userById = new Map(users.map(u => [u.id, u]))
return orders.map(order => ({
...order,
user: userById.get(order.userId)
}))
}
```
Build map once (O(n)), then all lookups are O(1).
For 1000 orders × 1000 users: 1M ops → 2K ops.
.agents/skills/vercel-react-best-practices/rules/js-length-check-first.md 0 → 100644
View file @ 4489f507
---
title: Early Length Check for Array Comparisons
impact: MEDIUM-HIGH
impactDescription: avoids expensive operations when lengths differ
tags: javascript, arrays, performance, optimization, comparison
---
## Early Length Check for Array Comparisons
When comparing arrays with expensive operations (sorting, deep equality, serialization), check lengths first. If lengths differ, the arrays cannot be equal.
In real-world applications, this optimization is especially valuable when the comparison runs in hot paths (event handlers, render loops).
**Incorrect (always runs expensive comparison):**
```typescript
function hasChanges(current: string[], original: string[]) {
// Always sorts and joins, even when lengths differ
return current.sort().join() !== original.sort().join()
}
```
Two O(n log n) sorts run even when `current.length` is 5 and `original.length` is 100. There is also overhead of joining the arrays and comparing the strings.
**Correct (O(1) length check first):**
```typescript
function hasChanges(current: string[], original: string[]) {
// Early return if lengths differ
if (current.length !== original.length) {
return true
}
// Only sort when lengths match
const currentSorted = current.toSorted()
const originalSorted = original.toSorted()
for (let i = 0; i < currentSorted.length; i++) {
if (currentSorted[i] !== originalSorted[i]) {
return true
}
}
return false
}
```
This new approach is more efficient because:
- It avoids the overhead of sorting and joining the arrays when lengths differ
- It avoids consuming memory for the joined strings (especially important for large arrays)
- It avoids mutating the original arrays
- It returns early when a difference is found
.agents/skills/vercel-react-best-practices/rules/js-min-max-loop.md 0 → 100644
View file @ 4489f507
---
title: Use Loop for Min/Max Instead of Sort
impact: LOW
impactDescription: O(n) instead of O(n log n)
tags: javascript, arrays, performance, sorting, algorithms
---
## Use Loop for Min/Max Instead of Sort
Finding the smallest or largest element only requires a single pass through the array. Sorting is wasteful and slower.
**Incorrect (O(n log n) - sort to find latest):**
```typescript
interface Project {
id: string
name: string
updatedAt: number
}
function getLatestProject(projects: Project[]) {
const sorted = [...projects].sort((a, b) => b.updatedAt - a.updatedAt)
return sorted[0]
}
```
Sorts the entire array just to find the maximum value.
**Incorrect (O(n log n) - sort for oldest and newest):**
```typescript
function getOldestAndNewest(projects: Project[]) {
const sorted = [...projects].sort((a, b) => a.updatedAt - b.updatedAt)
return { oldest: sorted[0], newest: sorted[sorted.length - 1] }
}
```
Still sorts unnecessarily when only min/max are needed.
**Correct (O(n) - single loop):**
```typescript
function getLatestProject(projects: Project[]) {
if (projects.length === 0) return null
let latest = projects[0]
for (let i = 1; i < projects.length; i++) {
if (projects[i].updatedAt > latest.updatedAt) {
latest = projects[i]
}
}
return latest
}
function getOldestAndNewest(projects: Project[]) {
if (projects.length === 0) return { oldest: null, newest: null }
let oldest = projects[0]
let newest = projects[0]
for (let i = 1; i < projects.length; i++) {
if (projects[i].updatedAt < oldest.updatedAt) oldest = projects[i]
if (projects[i].updatedAt > newest.updatedAt) newest = projects[i]
}
return { oldest, newest }
}
```
Single pass through the array, no copying, no sorting.
**Alternative (Math.min/Math.max for small arrays):**
```typescript
const numbers = [5, 2, 8, 1, 9]
const min = Math.min(...numbers)
const max = Math.max(...numbers)
```
This works for small arrays, but can be slower or just throw an error for very large arrays due to spread operator limitations. Maximal array length is approximately 124000 in Chrome 143 and 638000 in Safari 18; exact numbers may vary - see [the fiddle](https://jsfiddle.net/qw1jabsx/4/). Use the loop approach for reliability.
.agents/skills/vercel-react-best-practices/rules/js-request-idle-callback.md 0 → 100644
View file @ 4489f507
---
title: Defer Non-Critical Work with requestIdleCallback
impact: MEDIUM
impactDescription: keeps UI responsive during background tasks
tags: javascript, performance, idle, scheduling, analytics
---
## Defer Non-Critical Work with requestIdleCallback
**Impact: MEDIUM (keeps UI responsive during background tasks)**
Use `requestIdleCallback()` to schedule non-critical work during browser idle periods. This keeps the main thread free for user interactions and animations, reducing jank and improving perceived performance.
**Incorrect (blocks main thread during user interaction):**
```typescript
function handleSearch(query: string) {
const results = searchItems(query)
setResults(results)
// These block the main thread immediately
analytics.track('search', { query })
saveToRecentSearches(query)
prefetchTopResults(results.slice(0, 3))
}
```
**Correct (defers non-critical work to idle time):**
```typescript
function handleSearch(query: string) {
const results = searchItems(query)
setResults(results)
// Defer non-critical work to idle periods
requestIdleCallback(() => {
analytics.track('search', { query })
})
requestIdleCallback(() => {
saveToRecentSearches(query)
})
requestIdleCallback(() => {
prefetchTopResults(results.slice(0, 3))
})
}
```
**With timeout for required work:**
```typescript
// Ensure analytics fires within 2 seconds even if browser stays busy
requestIdleCallback(
() => analytics.track('page_view', { path: location.pathname }),
{ timeout: 2000 }
)
```
**Chunking large tasks:**
```typescript
function processLargeDataset(items: Item[]) {
let index = 0
function processChunk(deadline: IdleDeadline) {
// Process items while we have idle time (aim for <50ms chunks)
while (index < items.length && deadline.timeRemaining() > 0) {
processItem(items[index])
index++
}
// Schedule next chunk if more items remain
if (index < items.length) {
requestIdleCallback(processChunk)
}
}
requestIdleCallback(processChunk)
}
```
**With fallback for unsupported browsers:**
```typescript
const scheduleIdleWork = window.requestIdleCallback ?? ((cb: () => void) => setTimeout(cb, 1))
scheduleIdleWork(() => {
// Non-critical work
})
```
**When to use:**
- Analytics and telemetry
- Saving state to localStorage/IndexedDB
- Prefetching resources for likely next actions
- Processing non-urgent data transformations
- Lazy initialization of non-critical features
**When NOT to use:**
- User-initiated actions that need immediate feedback
- Rendering updates the user is waiting for
- Time-sensitive operations
.agents/skills/vercel-react-best-practices/rules/js-set-map-lookups.md 0 → 100644
View file @ 4489f507
---
title: Use Set/Map for O(1) Lookups
impact: LOW-MEDIUM
impactDescription: O(n) to O(1)
tags: javascript, set, map, data-structures, performance
---
## Use Set/Map for O(1) Lookups
Convert arrays to Set/Map for repeated membership checks.
**Incorrect (O(n) per check):**
```typescript
const allowedIds = ['a', 'b', 'c', ...]
items.filter(item => allowedIds.includes(item.id))
```
**Correct (O(1) per check):**
```typescript
const allowedIds = new Set(['a', 'b', 'c', ...])
items.filter(item => allowedIds.has(item.id))
```
.agents/skills/vercel-react-best-practices/rules/js-tosorted-immutable.md 0 → 100644
View file @ 4489f507
---
title: Use toSorted() Instead of sort() for Immutability
impact: MEDIUM-HIGH
impactDescription: prevents mutation bugs in React state
tags: javascript, arrays, immutability, react, state, mutation
---
## Use toSorted() Instead of sort() for Immutability
`.sort()` mutates the array in place, which can cause bugs with React state and props. Use `.toSorted()` to create a new sorted array without mutation.
**Incorrect (mutates original array):**
```typescript
function UserList({ users }: { users: User[] }) {
// Mutates the users prop array!
const sorted = useMemo(
() => users.sort((a, b) => a.name.localeCompare(b.name)),
[users]
)
return <div>{sorted.map(renderUser)}</div>
}
```
**Correct (creates new array):**
```typescript
function UserList({ users }: { users: User[] }) {
// Creates new sorted array, original unchanged
const sorted = useMemo(
() => users.toSorted((a, b) => a.name.localeCompare(b.name)),
[users]
)
return <div>{sorted.map(renderUser)}</div>
}
```
**Why this matters in React:**
1. Props/state mutations break React's immutability model - React expects props and state to be treated as read-only
2. Causes stale closure bugs - Mutating arrays inside closures (callbacks, effects) can lead to unexpected behavior
**Browser support (fallback for older browsers):**
`.toSorted()` is available in all modern browsers (Chrome 110+, Safari 16+, Firefox 115+, Node.js 20+). For older environments, use spread operator:
```typescript
// Fallback for older browsers
const sorted = [...items].sort((a, b) => a.value - b.value)
```
**Other immutable array methods:**
- `.toSorted()` - immutable sort
- `.toReversed()` - immutable reverse
- `.toSpliced()` - immutable splice
- `.with()` - immutable element replacement
.agents/skills/vercel-react-best-practices/rules/rendering-activity.md 0 → 100644
View file @ 4489f507
---
title: Use Activity Component for Show/Hide
impact: MEDIUM
impactDescription: preserves state/DOM
tags: rendering, activity, visibility, state-preservation
---
## Use Activity Component for Show/Hide
Use React's `<Activity>` to preserve state/DOM for expensive components that frequently toggle visibility.
**Usage:**
```tsx
import { Activity } from 'react'
function Dropdown({ isOpen }: Props) {
return (
<Activity mode={isOpen ? 'visible' : 'hidden'}>
<ExpensiveMenu />
</Activity>
)
}
```
Avoids expensive re-renders and state loss.
.agents/skills/vercel-react-best-practices/rules/rendering-animate-svg-wrapper.md 0 → 100644
View file @ 4489f507
---
title: Animate SVG Wrapper Instead of SVG Element
impact: LOW
impactDescription: enables hardware acceleration
tags: rendering, svg, css, animation, performance
---
## Animate SVG Wrapper Instead of SVG Element
Many browsers don't have hardware acceleration for CSS3 animations on SVG elements. Wrap SVG in a `<div>` and animate the wrapper instead.
**Incorrect (animating SVG directly - no hardware acceleration):**
```tsx
function LoadingSpinner() {
return (
<svg
className="animate-spin"
width="24"
height="24"
viewBox="0 0 24 24"
>
<circle cx="12" cy="12" r="10" stroke="currentColor" />
</svg>
)
}
```
**Correct (animating wrapper div - hardware accelerated):**
```tsx
function LoadingSpinner() {
return (
<div className="animate-spin">
<svg
width="24"
height="24"
viewBox="0 0 24 24"
>
<circle cx="12" cy="12" r="10" stroke="currentColor" />
</svg>
</div>
)
}
```
This applies to all CSS transforms and transitions (`transform`, `opacity`, `translate`, `scale`, `rotate`). The wrapper div allows browsers to use GPU acceleration for smoother animations.
.agents/skills/vercel-react-best-practices/rules/rendering-conditional-render.md 0 → 100644
View file @ 4489f507
---
title: Use Explicit Conditional Rendering
impact: LOW
impactDescription: prevents rendering 0 or NaN
tags: rendering, conditional, jsx, falsy-values
---
## Use Explicit Conditional Rendering
Use explicit ternary operators (`? :`) instead of `&&` for conditional rendering when the condition can be `0`, `NaN`, or other falsy values that render.
**Incorrect (renders "0" when count is 0):**
```tsx
function Badge({ count }: { count: number }) {
return (
<div>
{count && <span className="badge">{count}</span>}
</div>
)
}
// When count = 0, renders: <div>0</div>
// When count = 5, renders: <div><span class="badge">5</span></div>
```
**Correct (renders nothing when count is 0):**
```tsx
function Badge({ count }: { count: number }) {
return (
<div>
{count > 0 ? <span className="badge">{count}</span> : null}
</div>
)
}
// When count = 0, renders: <div></div>
// When count = 5, renders: <div><span class="badge">5</span></div>
```
.agents/skills/vercel-react-best-practices/rules/rendering-content-visibility.md 0 → 100644
View file @ 4489f507
---
title: CSS content-visibility for Long Lists
impact: HIGH
impactDescription: faster initial render
tags: rendering, css, content-visibility, long-lists
---
## CSS content-visibility for Long Lists
Apply `content-visibility: auto` to defer off-screen rendering.
**CSS:**
```css
.message-item {
content-visibility: auto;
contain-intrinsic-size: 0 80px;
}
```
**Example:**
```tsx
function MessageList({ messages }: { messages: Message[] }) {
return (
<div className="overflow-y-auto h-screen">
{messages.map(msg => (
<div key={msg.id} className="message-item">
<Avatar user={msg.author} />
<div>{msg.content}</div>
</div>
))}
</div>
)
}
```
For 1000 messages, browser skips layout/paint for ~990 off-screen items (10× faster initial render).
.agents/skills/vercel-react-best-practices/rules/rendering-hoist-jsx.md 0 → 100644
View file @ 4489f507
---
title: Hoist Static JSX Elements
impact: LOW
impactDescription: avoids re-creation
tags: rendering, jsx, static, optimization
---
## Hoist Static JSX Elements
Extract static JSX outside components to avoid re-creation.
**Incorrect (recreates element every render):**
```tsx
function LoadingSkeleton() {
return <div className="animate-pulse h-20 bg-gray-200" />
}
function Container() {
return (
<div>
{loading && <LoadingSkeleton />}
</div>
)
}
```
**Correct (reuses same element):**
```tsx
const loadingSkeleton = (
<div className="animate-pulse h-20 bg-gray-200" />
)
function Container() {
return (
<div>
{loading && loadingSkeleton}
</div>
)
}
```
This is especially helpful for large and static SVG nodes, which can be expensive to recreate on every render.
**Note:** If your project has [React Compiler](https://react.dev/learn/react-compiler) enabled, the compiler automatically hoists static JSX elements and optimizes component re-renders, making manual hoisting unnecessary.
.agents/skills/vercel-react-best-practices/rules/rendering-hydration-no-flicker.md 0 → 100644
View file @ 4489f507
---
title: Prevent Hydration Mismatch Without Flickering
impact: MEDIUM
impactDescription: avoids visual flicker and hydration errors
tags: rendering, ssr, hydration, localStorage, flicker
---
## Prevent Hydration Mismatch Without Flickering
When rendering content that depends on client-side storage (localStorage, cookies), avoid both SSR breakage and post-hydration flickering by injecting a synchronous script that updates the DOM before React hydrates.
**Incorrect (breaks SSR):**
```tsx
function ThemeWrapper({ children }: { children: ReactNode }) {
// localStorage is not available on server - throws error
const theme = localStorage.getItem('theme') || 'light'
return (
<div className={theme}>
{children}
</div>
)
}
```
Server-side rendering will fail because `localStorage` is undefined.
**Incorrect (visual flickering):**
```tsx
function ThemeWrapper({ children }: { children: ReactNode }) {
const [theme, setTheme] = useState('light')
useEffect(() => {
// Runs after hydration - causes visible flash
const stored = localStorage.getItem('theme')
if (stored) {
setTheme(stored)
}
}, [])
return (
<div className={theme}>
{children}
</div>
)
}
```
Component first renders with default value (`light`), then updates after hydration, causing a visible flash of incorrect content.
**Correct (no flicker, no hydration mismatch):**
```tsx
function ThemeWrapper({ children }: { children: ReactNode }) {
return (
<>
<div id="theme-wrapper">
{children}
</div>
<script
dangerouslySetInnerHTML={{
__html: `
(function() {
try {
var theme = localStorage.getItem('theme') || 'light';
var el = document.getElementById('theme-wrapper');
if (el) el.className = theme;
} catch (e) {}
})();
`,
}}
/>
</>
)
}
```
The inline script executes synchronously before showing the element, ensuring the DOM already has the correct value. No flickering, no hydration mismatch.
This pattern is especially useful for theme toggles, user preferences, authentication states, and any client-only data that should render immediately without flashing default values.
.agents/skills/vercel-react-best-practices/rules/rendering-hydration-suppress-warning.md 0 → 100644
View file @ 4489f507
---
title: Suppress Expected Hydration Mismatches
impact: LOW-MEDIUM
impactDescription: avoids noisy hydration warnings for known differences
tags: rendering, hydration, ssr, nextjs
---
## Suppress Expected Hydration Mismatches
In SSR frameworks (e.g., Next.js), some values are intentionally different on server vs client (random IDs, dates, locale/timezone formatting). For these *expected* mismatches, wrap the dynamic text in an element with `suppressHydrationWarning` to prevent noisy warnings. Do not use this to hide real bugs. Don’t overuse it.
**Incorrect (known mismatch warnings):**
```tsx
function Timestamp() {
return <span>{new Date().toLocaleString()}</span>
}
```
**Correct (suppress expected mismatch only):**
```tsx
function Timestamp() {
return (
<span suppressHydrationWarning>
{new Date().toLocaleString()}
</span>
)
}
```
.agents/skills/vercel-react-best-practices/rules/rendering-resource-hints.md 0 → 100644
View file @ 4489f507
---
title: Use React DOM Resource Hints
impact: HIGH
impactDescription: reduces load time for critical resources
tags: rendering, preload, preconnect, prefetch, resource-hints
---
## Use React DOM Resource Hints
**Impact: HIGH (reduces load time for critical resources)**
React DOM provides APIs to hint the browser about resources it will need. These are especially useful in server components to start loading resources before the client even receives the HTML.
- **`prefetchDNS(href)`**: Resolve DNS for a domain you expect to connect to
- **`preconnect(href)`**: Establish connection (DNS + TCP + TLS) to a server
- **`preload(href, options)`**: Fetch a resource (stylesheet, font, script, image) you'll use soon
- **`preloadModule(href)`**: Fetch an ES module you'll use soon
- **`preinit(href, options)`**: Fetch and evaluate a stylesheet or script
- **`preinitModule(href)`**: Fetch and evaluate an ES module
**Example (preconnect to third-party APIs):**
```tsx
import { preconnect, prefetchDNS } from 'react-dom'
export default function App() {
prefetchDNS('https://analytics.example.com')
preconnect('https://api.example.com')
return <main>{/* content */}</main>
}
```
**Example (preload critical fonts and styles):**
```tsx
import { preload, preinit } from 'react-dom'
export default function RootLayout({ children }) {
// Preload font file
preload('/fonts/inter.woff2', { as: 'font', type: 'font/woff2', crossOrigin: 'anonymous' })
// Fetch and apply critical stylesheet immediately
preinit('/styles/critical.css', { as: 'style' })
return (
<html>
<body>{children}</body>
</html>
)
}
```
**Example (preload modules for code-split routes):**
```tsx
import { preloadModule, preinitModule } from 'react-dom'
function Navigation() {
const preloadDashboard = () => {
preloadModule('/dashboard.js', { as: 'script' })
}
return (
<nav>
<a href="/dashboard" onMouseEnter={preloadDashboard}>
Dashboard
</a>
</nav>
)
}
```
**When to use each:**
| API | Use case |
|-----|----------|
| `prefetchDNS` | Third-party domains you'll connect to later |
| `preconnect` | APIs or CDNs you'll fetch from immediately |
| `preload` | Critical resources needed for current page |
| `preloadModule` | JS modules for likely next navigation |
| `preinit` | Stylesheets/scripts that must execute early |
| `preinitModule` | ES modules that must execute early |
Reference: [React DOM Resource Preloading APIs](https://react.dev/reference/react-dom#resource-preloading-apis)
.agents/skills/vercel-react-best-practices/rules/rendering-script-defer-async.md 0 → 100644
View file @ 4489f507
---
title: Use defer or async on Script Tags
impact: HIGH
impactDescription: eliminates render-blocking
tags: rendering, script, defer, async, performance
---
## Use defer or async on Script Tags
**Impact: HIGH (eliminates render-blocking)**
Script tags without `defer` or `async` block HTML parsing while the script downloads and executes. This delays First Contentful Paint and Time to Interactive.
- **`defer`**: Downloads in parallel, executes after HTML parsing completes, maintains execution order
- **`async`**: Downloads in parallel, executes immediately when ready, no guaranteed order
Use `defer` for scripts that depend on DOM or other scripts. Use `async` for independent scripts like analytics.
**Incorrect (blocks rendering):**
```tsx
export default function Document() {
return (
<html>
<head>
<script src="https://example.com/analytics.js" />
<script src="/scripts/utils.js" />
</head>
<body>{/* content */}</body>
</html>
)
}
```
**Correct (non-blocking):**
```tsx
export default function Document() {
return (
<html>
<head>
{/* Independent script - use async */}
<script src="https://example.com/analytics.js" async />
{/* DOM-dependent script - use defer */}
<script src="/scripts/utils.js" defer />
</head>
<body>{/* content */}</body>
</html>
)
}
```
**Note:** In Next.js, prefer the `next/script` component with `strategy` prop instead of raw script tags:
```tsx
import Script from 'next/script'
export default function Page() {
return (
<>
<Script src="https://example.com/analytics.js" strategy="afterInteractive" />
<Script src="/scripts/utils.js" strategy="beforeInteractive" />
</>
)
}
```
Reference: [MDN - Script element](https://developer.mozilla.org/en-US/docs/Web/HTML/Element/script#defer)
.agents/skills/vercel-react-best-practices/rules/rendering-svg-precision.md 0 → 100644
View file @ 4489f507
---
title: Optimize SVG Precision
impact: LOW
impactDescription: reduces file size
tags: rendering, svg, optimization, svgo
---
## Optimize SVG Precision
Reduce SVG coordinate precision to decrease file size. The optimal precision depends on the viewBox size, but in general reducing precision should be considered.
**Incorrect (excessive precision):**
```svg
<path d="M 10.293847 20.847362 L 30.938472 40.192837" />
```
**Correct (1 decimal place):**
```svg
<path d="M 10.3 20.8 L 30.9 40.2" />
```
**Automate with SVGO:**
```bash
npx svgo --precision=1 --multipass icon.svg
```
.agents/skills/vercel-react-best-practices/rules/rendering-usetransition-loading.md 0 → 100644
View file @ 4489f507
---
title: Use useTransition Over Manual Loading States
impact: LOW
impactDescription: reduces re-renders and improves code clarity
tags: rendering, transitions, useTransition, loading, state
---
## Use useTransition Over Manual Loading States
Use `useTransition` instead of manual `useState` for loading states. This provides built-in `isPending` state and automatically manages transitions.
**Incorrect (manual loading state):**
```tsx
function SearchResults() {
const [query, setQuery] = useState('')
const [results, setResults] = useState([])
const [isLoading, setIsLoading] = useState(false)
const handleSearch = async (value: string) => {
setIsLoading(true)
setQuery(value)
const data = await fetchResults(value)
setResults(data)
setIsLoading(false)
}
return (
<>
<input onChange={(e) => handleSearch(e.target.value)} />
{isLoading && <Spinner />}
<ResultsList results={results} />
</>
)
}
```
**Correct (useTransition with built-in pending state):**
```tsx
import { useTransition, useState } from 'react'
function SearchResults() {
const [query, setQuery] = useState('')
const [results, setResults] = useState([])
const [isPending, startTransition] = useTransition()
const handleSearch = (value: string) => {
setQuery(value) // Update input immediately
startTransition(async () => {
// Fetch and update results
const data = await fetchResults(value)
setResults(data)
})
}
return (
<>
<input onChange={(e) => handleSearch(e.target.value)} />
{isPending && <Spinner />}
<ResultsList results={results} />
</>
)
}
```
**Benefits:**
- **Automatic pending state**: No need to manually manage `setIsLoading(true/false)`
- **Error resilience**: Pending state correctly resets even if the transition throws
- **Better responsiveness**: Keeps the UI responsive during updates
- **Interrupt handling**: New transitions automatically cancel pending ones
Reference: [useTransition](https://react.dev/reference/react/useTransition)
.agents/skills/vercel-react-best-practices/rules/rerender-defer-reads.md 0 → 100644
View file @ 4489f507
---
title: Defer State Reads to Usage Point
impact: MEDIUM
impactDescription: avoids unnecessary subscriptions
tags: rerender, searchParams, localStorage, optimization
---
## Defer State Reads to Usage Point
Don't subscribe to dynamic state (searchParams, localStorage) if you only read it inside callbacks.
**Incorrect (subscribes to all searchParams changes):**
```tsx
function ShareButton({ chatId }: { chatId: string }) {
const searchParams = useSearchParams()
const handleShare = () => {
const ref = searchParams.get('ref')
shareChat(chatId, { ref })
}
return <button onClick={handleShare}>Share</button>
}
```
**Correct (reads on demand, no subscription):**
```tsx
function ShareButton({ chatId }: { chatId: string }) {
const handleShare = () => {
const params = new URLSearchParams(window.location.search)
const ref = params.get('ref')
shareChat(chatId, { ref })
}
return <button onClick={handleShare}>Share</button>
}
```
.agents/skills/vercel-react-best-practices/rules/rerender-dependencies.md 0 → 100644
View file @ 4489f507
---
title: Narrow Effect Dependencies
impact: LOW
impactDescription: minimizes effect re-runs
tags: rerender, useEffect, dependencies, optimization
---
## Narrow Effect Dependencies
Specify primitive dependencies instead of objects to minimize effect re-runs.
**Incorrect (re-runs on any user field change):**
```tsx
useEffect(() => {
console.log(user.id)
}, [user])
```
**Correct (re-runs only when id changes):**
```tsx
useEffect(() => {
console.log(user.id)
}, [user.id])
```
**For derived state, compute outside effect:**
```tsx
// Incorrect: runs on width=767, 766, 765...
useEffect(() => {
if (width < 768) {
enableMobileMode()
}
}, [width])
// Correct: runs only on boolean transition
const isMobile = width < 768
useEffect(() => {
if (isMobile) {
enableMobileMode()
}
}, [isMobile])
```
.agents/skills/vercel-react-best-practices/rules/rerender-derived-state-no-effect.md 0 → 100644
View file @ 4489f507
---
title: Calculate Derived State During Rendering
impact: MEDIUM
impactDescription: avoids redundant renders and state drift
tags: rerender, derived-state, useEffect, state
---
## Calculate Derived State During Rendering
If a value can be computed from current props/state, do not store it in state or update it in an effect. Derive it during render to avoid extra renders and state drift. Do not set state in effects solely in response to prop changes; prefer derived values or keyed resets instead.
**Incorrect (redundant state and effect):**
```tsx
function Form() {
const [firstName, setFirstName] = useState('First')
const [lastName, setLastName] = useState('Last')
const [fullName, setFullName] = useState('')
useEffect(() => {
setFullName(firstName + ' ' + lastName)
}, [firstName, lastName])
return <p>{fullName}</p>
}
```
**Correct (derive during render):**
```tsx
function Form() {
const [firstName, setFirstName] = useState('First')
const [lastName, setLastName] = useState('Last')
const fullName = firstName + ' ' + lastName
return <p>{fullName}</p>
}
```
References: [You Might Not Need an Effect](https://react.dev/learn/you-might-not-need-an-effect)
.agents/skills/vercel-react-best-practices/rules/rerender-derived-state.md 0 → 100644
View file @ 4489f507
---
title: Subscribe to Derived State
impact: MEDIUM
impactDescription: reduces re-render frequency
tags: rerender, derived-state, media-query, optimization
---
## Subscribe to Derived State
Subscribe to derived boolean state instead of continuous values to reduce re-render frequency.
**Incorrect (re-renders on every pixel change):**
```tsx
function Sidebar() {
const width = useWindowWidth() // updates continuously
const isMobile = width < 768
return <nav className={isMobile ? 'mobile' : 'desktop'} />
}
```
**Correct (re-renders only when boolean changes):**
```tsx
function Sidebar() {
const isMobile = useMediaQuery('(max-width: 767px)')
return <nav className={isMobile ? 'mobile' : 'desktop'} />
}
```
.agents/skills/vercel-react-view-transitions/AGENTS.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/vercel-react-view-transitions/README.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/vercel-react-view-transitions/SKILL.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/vercel-react-view-transitions/metadata.json 0 → 100644
View file @ 4489f507
This diff is collapsed.
.agents/skills/web-design-guidelines/SKILL.md 0 → 100644
View file @ 4489f507
This diff is collapsed.
skills-lock.json 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/categories/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/dashboard/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/emails/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/header-config/[categoryId]/posts/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/header-config/components/index.ts 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/header-config/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/layout.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/members/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/news/[id]/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/news/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/partners/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/app/admin/website-config/page.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/components/admin/admin-delete-dialog.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/components/admin/admin-stats-grid.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/components/shared/admin-header.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/components/shared/admin-sidebar.tsx 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/hooks/use-admin-sidebar.ts 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/mockdata/header-category-posts.ts 0 → 100644
View file @ 4489f507
This diff is collapsed.
src/mockdata/header-config.ts 0 → 100644
View file @ 4489f507
This diff is collapsed.
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment