typescript-react-patterns

TypeScript best practices for React development. Use when writing typed React components, hooks, events, refs, or generic components. Triggers on tasks involving TypeScript errors, type definitions, props typing, or type-safe React patterns.

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更新日 1/16/2026

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TypeScript React Patterns

Comprehensive TypeScript patterns for React applications. Contains 35+ rules across 7 categories for building type-safe, maintainable React code.

When to Apply

Reference these guidelines when:

Typing React component props
Creating custom hooks with TypeScript
Handling events with proper types
Building generic, reusable components
Fixing TypeScript errors in React code

Rule Categories by Priority

Priority	Category	Impact	Prefix
1	Component Typing	CRITICAL	`comp-`
2	Hook Typing	CRITICAL	`hook-`
3	Event Handling	HIGH	`event-`
4	Ref Typing	HIGH	`ref-`
5	Generic Components	MEDIUM	`generic-`
6	Context & State	MEDIUM	`ctx-`
7	Utility Types	LOW	`util-`

Quick Reference

1. Component Typing (CRITICAL)

comp-props-interface - Use interface for props, type for unions
comp-children-types - Correct children typing patterns
comp-default-props - Default props with TypeScript
comp-forward-ref - Typing forwardRef components
comp-compound - Compound component patterns
comp-polymorphic - "as" prop typing

2. Hook Typing (CRITICAL)

hook-usestate - useState with proper types
hook-useref - useRef for DOM and mutable values
hook-useeffect - useEffect cleanup typing
hook-usereducer - useReducer with discriminated unions
hook-custom-return - Custom hook return types
hook-generic - Generic custom hooks

3. Event Handling (HIGH)

event-handler-types - Event handler type patterns
event-synthetic - SyntheticEvent types
event-form - Form event handling
event-keyboard - Keyboard event types
event-mouse - Mouse event types
event-custom - Custom event types

4. Ref Typing (HIGH)

ref-dom-elements - Refs for DOM elements
ref-mutable - Mutable ref pattern
ref-callback - Callback ref typing
ref-forward - Forwarding refs
ref-imperative-handle - useImperativeHandle typing

5. Generic Components (MEDIUM)

generic-list - Generic list components
generic-form - Generic form components
generic-select - Generic select/dropdown
generic-table - Generic table components
generic-constraints - Generic constraints

6. Context & State (MEDIUM)

ctx-create - Creating typed context
ctx-provider - Provider typing patterns
ctx-consumer - useContext with proper types
ctx-reducer - Context with reducer
ctx-default-value - Handling default values

7. Utility Types (LOW)

util-react-types - Built-in React types
util-component-props - ComponentProps utility
util-pick-omit - Pick and Omit for props
util-discriminated-unions - State machines
util-assertion-functions - Type assertions

Essential Patterns

Component Props

// Use interface for props (extendable)
interface ButtonProps {
  variant: 'primary' | 'secondary' | 'danger'
  size?: 'sm' | 'md' | 'lg'
  isLoading?: boolean
  children: React.ReactNode
  onClick?: () => void
}

// Use type for unions
type ButtonVariant = 'primary' | 'secondary' | 'danger'

function Button({
  variant,
  size = 'md',
  isLoading = false,
  children,
  onClick,
}: ButtonProps) {
  return (
    <button
      className={`btn-${variant} btn-${size}`}
      onClick={onClick}
      disabled={isLoading}
    >
      {isLoading ? 'Loading...' : children}
    </button>
  )
}

Children Typing

// ReactNode - most flexible (string, number, element, array, null)
interface CardProps {
  children: React.ReactNode
}

// ReactElement - only JSX elements
interface WrapperProps {
  children: React.ReactElement
}

// Render prop pattern
interface DataFetcherProps<T> {
  children: (data: T) => React.ReactNode
}

// Specific element type
interface TabsProps {
  children: React.ReactElement<TabProps> | React.ReactElement<TabProps>[]
}

Event Handlers

// Form events
function Form() {
  const handleSubmit = (e: React.FormEvent<HTMLFormElement>) => {
    e.preventDefault()
    // handle submit
  }

  const handleChange = (e: React.ChangeEvent<HTMLInputElement>) => {
    console.log(e.target.value)
  }

  const handleSelect = (e: React.ChangeEvent<HTMLSelectElement>) => {
    console.log(e.target.value)
  }

  return (
    <form onSubmit={handleSubmit}>
      <input onChange={handleChange} />
      <select onChange={handleSelect}>
        <option>A</option>
        <option>B</option>
      </select>
    </form>
  )
}

Refs

// DOM element ref
function Input() {
  const inputRef = useRef<HTMLInputElement>(null)

  const focus = () => {
    inputRef.current?.focus()
  }

  return <input ref={inputRef} />
}

// Mutable ref (no null, stores values)
function Timer() {
  const intervalRef = useRef<number | undefined>(undefined)

  useEffect(() => {
    intervalRef.current = window.setInterval(() => {
      // tick
    }, 1000)

    return () => {
      clearInterval(intervalRef.current)
    }
  }, [])
}

Generic Components

// Generic list component
interface ListProps<T> {
  items: T[]
  renderItem: (item: T, index: number) => React.ReactNode
  keyExtractor: (item: T) => string | number
}

function List<T>({ items, renderItem, keyExtractor }: ListProps<T>) {
  return (
    <ul>
      {items.map((item, index) => (
        <li key={keyExtractor(item)}>{renderItem(item, index)}</li>
      ))}
    </ul>
  )
}

// Usage - T is inferred
<List
  items={users}
  renderItem={(user) => <UserCard user={user} />}
  keyExtractor={(user) => user.id}
/>

Context

interface AuthContextType {
  user: User | null
  login: (credentials: Credentials) => Promise<void>
  logout: () => void
  isLoading: boolean
}

const AuthContext = createContext<AuthContextType | null>(null)

export function useAuth() {
  const context = useContext(AuthContext)
  if (!context) {
    throw new Error('useAuth must be used within AuthProvider')
  }
  return context
}

export function AuthProvider({ children }: { children: React.ReactNode }) {
  const [user, setUser] = useState<User | null>(null)
  const [isLoading, setIsLoading] = useState(true)

  const login = async (credentials: Credentials) => {
    // implementation
  }

  const logout = () => {
    setUser(null)
  }

  return (
    <AuthContext.Provider value={{ user, login, logout, isLoading }}>
      {children}
    </AuthContext.Provider>
  )
}

How to Use

Read individual rule files for detailed explanations and code examples:

rules/comp-props-interface.md
rules/hook-usestate.md
rules/event-handler-types.md

Each rule file contains:

Brief explanation of why it matters
Incorrect code example with explanation
Correct code example with explanation
Additional context and edge cases

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typescript-react-patterns

TypeScript React Patterns

When to Apply

Rule Categories by Priority

Quick Reference

1. Component Typing (CRITICAL)

2. Hook Typing (CRITICAL)

3. Event Handling (HIGH)

4. Ref Typing (HIGH)

5. Generic Components (MEDIUM)

6. Context & State (MEDIUM)

7. Utility Types (LOW)

Essential Patterns

Component Props

Children Typing

Event Handlers

Refs

Generic Components

Context

How to Use

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