From daffy0208-ai-dev-standards
Build modern React/Next.js frontends. Use when creating web applications, choosing frontend stack, structuring components, or implementing UI/UX designs. Covers React, Next.js, Tailwind CSS, and component patterns.
npx claudepluginhub joshuarweaver/cascade-content-creation-misc-1 --plugin daffy0208-ai-dev-standardsThis skill uses the workspace's default tool permissions.
Build maintainable, performant React and Next.js frontends.
Creates isolated Git worktrees for feature branches with prioritized directory selection, gitignore safety checks, auto project setup for Node/Python/Rust/Go, and baseline verification.
Executes implementation plans in current session by dispatching fresh subagents per independent task, with two-stage reviews: spec compliance then code quality.
Dispatches parallel agents to independently tackle 2+ tasks like separate test failures or subsystems without shared state or dependencies.
Build maintainable, performant React and Next.js frontends.
Break UI into small, reusable, single-purpose components
Keep state as close to where it's used as possible
Optimize rendering, code splitting, and asset loading
Clear naming, consistent patterns, helpful errors
Use React + Vite when:
Use Next.js when:
Recommended for most projects: Next.js (App Router)
1. Page Components (Route entry points):
// app/users/page.tsx (Next.js App Router)
export default function UsersPage() {
return (
<div>
<Header />
<UserList />
<Footer />
</div>
)
}
2. Feature Components (Business logic):
// components/features/UserList.tsx
export function UserList() {
const { data, isLoading } = useUsers()
if (isLoading) return <LoadingSpinner />
return (
<div>
{data.map(user => <UserCard key={user.id} user={user} />)}
</div>
)
}
3. UI Components (Reusable, no business logic):
// components/ui/button.tsx
export function Button({ children, variant = 'primary', ...props }) {
return (
<button
className={cn(buttonVariants[variant])}
{...props}
>
{children}
</button>
)
}
// ✅ Good: Small, focused, typed
interface UserProfileProps {
user: User
onEdit?: () => void
}
export function UserProfile({ user, onEdit }: UserProfileProps) {
return (
<div className="flex gap-4">
<Avatar src={user.avatar} alt={user.name} />
<UserDetails user={user} />
{onEdit && <Button onClick={onEdit}>Edit</Button>}
</div>
)
}
// ❌ Bad: Giant, untyped, unclear
export function UserProfile(props) {
// 500 lines of JSX, multiple responsibilities
return <div>...</div>
}
How many components need this state?
│
├─ One component → useState
├─ Parent + children → Props or useState + props
├─ Siblings → Lift to common parent
├─ Widely used (theme, auth) → Context API
└─ Complex app state → Zustand or Redux
// For component-level state
function Counter() {
const [count, setCount] = useState(0)
const [isOpen, setIsOpen] = useState(false)
return (
<div>
<button onClick={() => setCount(count + 1)}>{count}</button>
</div>
)
}
// For app-wide state (theme, auth, user)
const UserContext = createContext<UserContextType | undefined>(undefined)
export function UserProvider({ children }: { children: ReactNode }) {
const [user, setUser] = useState<User | null>(null)
return (
<UserContext.Provider value={{ user, setUser }}>
{children}
</UserContext.Provider>
)
}
export function useUser() {
const context = useContext(UserContext)
if (!context) throw new Error('useUser must be within UserProvider')
return context
}
import { create } from 'zustand'
interface CounterStore {
count: number
increment: () => void
decrement: () => void
reset: () => void
}
export const useCounterStore = create<CounterStore>((set) => ({
count: 0,
increment: () => set((state) => ({ count: state.count + 1 })),
decrement: () => set((state) => ({ count: state.count - 1 })),
reset: () => set({ count: 0 })
}))
// Usage
function Counter() {
const { count, increment } = useCounterStore()
return <button onClick={increment}>{count}</button>
}
import { useQuery, useMutation, useQueryClient } from '@tanstack/react-query'
// Query (GET)
function Users() {
const { data, isLoading, error } = useQuery({
queryKey: ['users'],
queryFn: fetchUsers,
staleTime: 5 * 60 * 1000 // 5 minutes
})
if (isLoading) return <LoadingSpinner />
if (error) return <ErrorMessage error={error} />
return <UserList users={data} />
}
// Mutation (POST, PUT, DELETE)
function CreateUser() {
const queryClient = useQueryClient()
const mutation = useMutation({
mutationFn: createUser,
onSuccess: () => {
queryClient.invalidateQueries({ queryKey: ['users'] })
}
})
return (
<button onClick={() => mutation.mutate({ name: 'John' })}>
Create User
</button>
)
}
// app/users/page.tsx
// Server Component - fetches on server
export default async function UsersPage() {
const users = await fetchUsers() // Runs on server
return <UserList users={users} />
}
// Client Component - for interactivity
'use client'
export function UserList({ users }: { users: User[] }) {
const [selected, setSelected] = useState<string | null>(null)
return (
<div>
{users.map(user => (
<UserCard
key={user.id}
user={user}
onClick={() => setSelected(user.id)}
/>
))}
</div>
)
}
import { useForm } from 'react-hook-form'
import { zodResolver } from '@hookform/resolvers/zod'
import { z } from 'zod'
const loginSchema = z.object({
email: z.string().email('Invalid email address'),
password: z.string().min(8, 'Password must be at least 8 characters')
})
type LoginForm = z.infer<typeof loginSchema>
function LoginForm() {
const {
register,
handleSubmit,
formState: { errors, isSubmitting }
} = useForm<LoginForm>({
resolver: zodResolver(loginSchema)
})
const onSubmit = async (data: LoginForm) => {
await login(data)
}
return (
<form onSubmit={handleSubmit(onSubmit)}>
<div>
<input
{...register('email')}
type="email"
placeholder="Email"
className="border p-2"
/>
{errors.email && (
<span className="text-red-500">{errors.email.message}</span>
)}
</div>
<div>
<input
{...register('password')}
type="password"
placeholder="Password"
className="border p-2"
/>
{errors.password && (
<span className="text-red-500">{errors.password.message}</span>
)}
</div>
<button type="submit" disabled={isSubmitting}>
{isSubmitting ? 'Logging in...' : 'Login'}
</button>
</form>
)
}
// Install: @shadcn/ui for component library
function Button({ variant = 'primary', children, ...props }) {
return (
<button
className={cn(
'px-4 py-2 rounded font-medium transition-colors',
{
'bg-blue-500 text-white hover:bg-blue-600': variant === 'primary',
'bg-gray-200 text-gray-900 hover:bg-gray-300': variant === 'secondary',
'bg-red-500 text-white hover:bg-red-600': variant === 'danger'
}
)}
{...props}
>
{children}
</button>
)
}
// Button.module.css
.button {
padding: 0.5rem 1rem;
border-radius: 0.25rem;
}
.primary {
background-color: blue;
color: white;
}
// Button.tsx
import styles from './Button.module.css'
export function Button({ variant = 'primary', children }) {
return (
<button className={`${styles.button} ${styles[variant]}`}>
{children}
</button>
)
}
import { memo, useMemo, useCallback } from 'react'
// 1. Memoize expensive calculations
function DataTable({ data }) {
const sortedData = useMemo(
() => data.sort((a, b) => a.name.localeCompare(b.name)),
[data]
)
return <Table data={sortedData} />
}
// 2. Memoize callbacks
function Parent() {
const handleClick = useCallback(() => {
console.log('Clicked')
}, [])
return <ExpensiveChild onClick={handleClick} />
}
// 3. Memoize components
const ExpensiveChild = memo(function ExpensiveChild({ onClick }) {
return <button onClick={onClick}>Click</button>
})
// 1. Image optimization
import Image from 'next/image'
<Image
src="/photo.jpg"
alt="Photo"
width={500}
height={300}
priority // Above the fold
/>
// 2. Font optimization
import { Inter } from 'next/font/google'
const inter = Inter({ subsets: ['latin'] })
export default function RootLayout({ children }) {
return (
<html className={inter.className}>
<body>{children}</body>
</html>
)
}
// 3. Dynamic imports (code splitting)
import dynamic from 'next/dynamic'
const HeavyComponent = dynamic(() => import('./HeavyComponent'), {
loading: () => <LoadingSpinner />
})
'use client'
import { Component, ReactNode } from 'react'
interface Props {
children: ReactNode
fallback?: ReactNode
}
interface State {
hasError: boolean
error?: Error
}
export class ErrorBoundary extends Component<Props, State> {
constructor(props: Props) {
super(props)
this.state = { hasError: false }
}
static getDerivedStateFromError(error: Error): State {
return { hasError: true, error }
}
render() {
if (this.state.hasError) {
return this.props.fallback || (
<div className="p-4 bg-red-50 border border-red-200">
<h2 className="text-red-800">Something went wrong</h2>
<p className="text-red-600">{this.state.error?.message}</p>
</div>
)
}
return this.props.children
}
}
// app/error.tsx
'use client'
export default function Error({
error,
reset
}: {
error: Error
reset: () => void
}) {
return (
<div>
<h2>Something went wrong!</h2>
<button onClick={reset}>Try again</button>
</div>
)
}
app/
├── (auth)/ # Route group (auth pages)
│ ├── login/
│ └── signup/
├── (dashboard)/ # Route group (dashboard)
│ ├── layout.tsx
│ ├── page.tsx
│ └── settings/
├── api/ # API routes
│ └── users/
│ └── route.ts
└── layout.tsx # Root layout
components/
├── ui/ # shadcn/ui components
│ ├── button.tsx
│ ├── input.tsx
│ └── dialog.tsx
├── features/ # Feature components
│ ├── UserList.tsx
│ └── UserProfile.tsx
└── layouts/ # Layout components
├── Header.tsx
└── Footer.tsx
lib/
├── utils.ts # Utility functions
├── api.ts # API client
└── validation.ts # Zod schemas
hooks/
├── useUser.ts
└── useDebounce.ts
stores/
└── userStore.ts # Zustand stores
// 1. Type component props
interface ButtonProps {
variant?: 'primary' | 'secondary' | 'danger'
children: ReactNode
onClick?: () => void
}
export function Button({ variant = 'primary', children, onClick }: ButtonProps) {
return <button onClick={onClick}>{children}</button>
}
// 2. Type API responses
interface User {
id: string
name: string
email: string
}
async function fetchUsers(): Promise<User[]> {
const res = await fetch('/api/users')
return res.json()
}
// 3. Type state
const [user, setUser] = useState<User | null>(null)
const [isLoading, setIsLoading] = useState<boolean>(false)
Great frontends:
Related Skills:
api-designer - For designing backend APIs to consumeux-designer - For creating UX designs to implementdeployment-advisor - For hosting Next.js/React appsRelated Patterns:
META/DECISION-FRAMEWORK.md - Frontend framework selectionSTANDARDS/architecture-patterns/component-patterns.md - Component design patterns (when created)Related Playbooks:
PLAYBOOKS/setup-nextjs-project.md - Next.js project setup (when created)PLAYBOOKS/optimize-frontend-performance.md - Performance optimization (when created)