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react-dev

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React TypeScript

Type-safe React = compile-time guarantees = confident refactoring.

<when_to_use>

  • Building typed React components
  • Implementing generic components
  • Typing event handlers, forms, refs
  • Using React 19 features (Actions, Server Components, use())
  • Router integration (TanStack Router, React Router)
  • Custom hooks with proper typing

NOT for: non-React TypeScript, vanilla JS React

</when_to_use>

<react_19_changes>

React 19 breaking changes require migration. Key patterns:

ref as prop - forwardRef deprecated:

// React 19 - ref as regular prop
type ButtonProps = {
  ref?: React.Ref<HTMLButtonElement>;
} & React.ComponentPropsWithoutRef<'button'>;

function Button({ ref, children, ...props }: ButtonProps) {
  return <button ref={ref} {...props}>{children}</button>;
}

useActionState - replaces useFormState:

import { useActionState } from 'react';

type FormState = { errors?: string[]; success?: boolean };

function Form() {
  const [state, formAction, isPending] = useActionState(submitAction, {});
  return <form action={formAction}>...</form>;
}

use() - unwraps promises/context:

function UserProfile({ userPromise }: { userPromise: Promise<User> }) {
  const user = use(userPromise); // Suspends until resolved
  return <div>{user.name}</div>;
}

See react-19-patterns.md for useOptimistic, useTransition, migration checklist.

</react_19_changes>

<component_patterns>

Props - extend native elements:

type ButtonProps = {
  variant: 'primary' | 'secondary';
} & React.ComponentPropsWithoutRef<'button'>;

function Button({ variant, children, ...props }: ButtonProps) {
  return <button className={variant} {...props}>{children}</button>;
}

Children typing:

type Props = {
  children: React.ReactNode;          // Anything renderable
  icon: React.ReactElement;           // Single element
  render: (data: T) => React.ReactNode;  // Render prop
};

Discriminated unions for variant props:

type ButtonProps =
  | { variant: 'link'; href: string }
  | { variant: 'button'; onClick: () => void };

function Button(props: ButtonProps) {
  if (props.variant === 'link') {
    return <a href={props.href}>Link</a>;
  }
  return <button onClick={props.onClick}>Button</button>;
}

</component_patterns>

<event_handlers>

Use specific event types for accurate target typing:

// Mouse
function handleClick(e: React.MouseEvent<HTMLButtonElement>) {
  e.currentTarget.disabled = true;
}

// Form
function handleSubmit(e: React.FormEvent<HTMLFormElement>) {
  e.preventDefault();
  const formData = new FormData(e.currentTarget);
}

// Input
function handleChange(e: React.ChangeEvent<HTMLInputElement>) {
  console.log(e.target.value);
}

// Keyboard
function handleKeyDown(e: React.KeyboardEvent<HTMLInputElement>) {
  if (e.key === 'Enter') e.currentTarget.blur();
}

See event-handlers.md for focus, drag, clipboard, touch, wheel events.

</event_handlers>

<hooks_typing>

useState - explicit for unions/null:

const [user, setUser] = useState<User | null>(null);
const [status, setStatus] = useState<'idle' | 'loading'>('idle');

useRef - null for DOM, value for mutable:

const inputRef = useRef<HTMLInputElement>(null);  // DOM - use ?.
const countRef = useRef<number>(0);               // Mutable - direct access

useReducer - discriminated unions for actions:

type Action =
  | { type: 'increment' }
  | { type: 'set'; payload: number };

function reducer(state: State, action: Action): State {
  switch (action.type) {
    case 'set': return { ...state, count: action.payload };
    default: return state;
  }
}

Custom hooks - tuple returns with as const:

function useToggle(initial = false) {
  const [value, setValue] = useState(initial);
  const toggle = () => setValue(v => !v);
  return [value, toggle] as const;
}

useContext - null guard pattern:

const UserContext = createContext<User | null>(null);

function useUser() {
  const user = useContext(UserContext);
  if (!user) throw new Error('useUser outside UserProvider');
  return user;
}

See hooks.md for useCallback, useMemo, useImperativeHandle, useSyncExternalStore.

</hooks_typing>

<generic_components>

Generic components infer types from props - no manual annotations at call site.

Pattern - keyof T for column keys, render props for custom rendering:

type Column<T> = {
  key: keyof T;
  header: string;
  render?: (value: T[keyof T], item: T) => React.ReactNode;
};

type TableProps<T> = {
  data: T[];
  columns: Column<T>[];
  keyExtractor: (item: T) => string | number;
};

function Table<T>({ data, columns, keyExtractor }: TableProps<T>) {
  return (
    <table>
      <thead>
        <tr>{columns.map(col => <th key={String(col.key)}>{col.header}</th>)}</tr>
      </thead>
      <tbody>
        {data.map(item => (
          <tr key={keyExtractor(item)}>
            {columns.map(col => (
              <td key={String(col.key)}>
                {col.render ? col.render(item[col.key], item) : String(item[col.key])}
              </td>
            ))}
          </tr>
        ))}
      </tbody>
    </table>
  );
}

Constrained generics for required properties:

type HasId = { id: string | number };

function List<T extends HasId>({ items }: { items: T[] }) {
  return <ul>{items.map(item => <li key={item.id}>...</li>)}</ul>;
}

See generic-components.md for Select, List, Modal, FormField patterns.

</generic_components>

<server_components>

React 19 Server Components run on server, can be async.

Async data fetching:

export default async function UserPage({ params }: { params: { id: string } }) {
  const user = await fetchUser(params.id);
  return <div>{user.name}</div>;
}

Server Actions - 'use server' for mutations:

'use server';

export async function updateUser(userId: string, formData: FormData) {
  await db.user.update({ where: { id: userId }, data: { ... } });
  revalidatePath(`/users/${userId}`);
}

Client + Server Action:

'use client';

import { useActionState } from 'react';
import { updateUser } from '@/actions/user';

function UserForm({ userId }: { userId: string }) {
  const [state, formAction, isPending] = useActionState(
    (prev, formData) => updateUser(userId, formData), {}
  );
  return <form action={formAction}>...</form>;
}

use() for promise handoff:

// Server: pass promise without await
async function Page() {
  const userPromise = fetchUser('123');
  return <UserProfile userPromise={userPromise} />;
}

// Client: unwrap with use()
'use client';
function UserProfile({ userPromise }: { userPromise: Promise<User> }) {
  const user = use(userPromise);
  return <div>{user.name}</div>;
}

See server-components.md for parallel fetching, streaming, error boundaries.

</server_components>

<routing>

Both TanStack Router and React Router v7 provide type-safe routing solutions.

TanStack Router - Compile-time type safety with Zod validation:

import { createRoute } from '@tanstack/react-router';
import { z } from 'zod';

const userRoute = createRoute({
  path: '/users/$userId',
  component: UserPage,
  loader: async ({ params }) => ({ user: await fetchUser(params.userId) }),
  validateSearch: z.object({
    tab: z.enum(['profile', 'settings']).optional(),
    page: z.number().int().positive().default(1),
  }),
});

function UserPage() {
  const { user } = useLoaderData({ from: userRoute.id });
  const { tab, page } = useSearch({ from: userRoute.id });
  const { userId } = useParams({ from: userRoute.id });
}

React Router v7 - Automatic type generation with Framework Mode:

import type { Route } from "./+types/user";

export async function loader({ params }: Route.LoaderArgs) {
  return { user: await fetchUser(params.userId) };
}

export default function UserPage({ loaderData }: Route.ComponentProps) {
  const { user } = loaderData; // Typed from loader
  return <h1>{user.name}</h1>;
}

See tanstack-router.md for TanStack patterns and react-router.md for React Router patterns.

</routing> <rules>

ALWAYS:

  • Specific event types (MouseEvent, ChangeEvent, etc)
  • Explicit useState for unions/null
  • ComponentPropsWithoutRef for native element extension
  • Discriminated unions for variant props
  • as const for tuple returns
  • ref as prop in React 19 (no forwardRef)
  • useActionState for form actions
  • Type-safe routing patterns (see routing section)

NEVER:

  • any for event handlers
  • JSX.Element for children (use ReactNode)
  • forwardRef in React 19+
  • useFormState (deprecated)
  • Forget null handling for DOM refs
  • Mix Server/Client components in same file
  • Await promises when passing to use()
</rules> <references> </references>

Source

git clone https://github.com/softaworks/agent-toolkit/blob/main/skills/react-dev/SKILL.mdView on GitHub

Overview

This skill codifies type-safe patterns for building React components with TypeScript, covering generics, event typing, and server components in React 18–19. It also includes routing integration with TanStack Router and React Router, plus proper typing for custom hooks.

How This Skill Works

It uses TypeScript to define precise prop types, event handlers, and hook usage. The guide demonstrates patterns like extending native elements, discriminated unions for props, and server-component aware patterns, with examples for ref handling, useActionState, and use() to unwrap promises.

When to Use It

  • Building typed React components
  • Implementing generic components
  • Typing event handlers, forms, refs
  • Using React 19 features (Actions, Server Components, use())
  • Router integration (TanStack Router, React Router)

Quick Start

  1. Step 1: Create a Button component that extends React.ButtonHTMLAttributes<'button'> and add a variant prop
  2. Step 2: Implement typed event handlers (handleClick, handleChange) using React.MouseEvent and React.ChangeEvent
  3. Step 3: Integrate use() for async data and wire up with TanStack Router/React Router for navigation

Best Practices

  • Extend native elements when appropriate to preserve standard behavior
  • Type events with specific React.*Event types (e.g., MouseEvent, FormEvent, ChangeEvent, KeyboardEvent)
  • Use discriminated unions for variant props to keep components predictable
  • Explicitly type useState, useRef, and useReducer for clear state management
  • Integrate routing types early when components participate in navigation (TanStack Router or React Router)

Example Use Cases

  • Typed Button component that extends button props and adds a variant prop
  • A form pattern using explicit event types and useActionState for submission
  • A component using use() to render data once a Promise resolves
  • Discriminated union props to switch between link and button behaviors
  • Event handlers for submit, change, and keydown with precise React event types

Frequently Asked Questions

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