react-state-management
ПопулярноMaster modern React state management with Redux Toolkit, Zustand, Jotai, and React Query. Use when setting up global state, managing server state, or choosing between state management solutions.
Master modern React state management with Redux Toolkit, Zustand, Jotai, and React Query. Use when setting up global state, managing server state, or choosing between state management solutions.
React State Management
Comprehensive guide to modern React state management patterns, from local component state to global stores and server state synchronization.
When to Use This Skill
- Setting up global state management in a React app
- Choosing between Redux Toolkit, Zustand, or Jotai
- Managing server state with React Query or SWR
- Implementing optimistic updates
- Debugging state-related issues
- Migrating from legacy Redux to modern patterns
Core Concepts
1. State Categories
| Type | Description | Solutions |
|---|---|---|
| Local State | Component-specific, UI state | useState, useReducer |
| Global State | Shared across components | Redux Toolkit, Zustand, Jotai |
| Server State | Remote data, caching | React Query, SWR, RTK Query |
| URL State | Route parameters, search | React Router, nuqs |
| Form State | Input values, validation | React Hook Form, Formik |
2. Selection Criteria
Small app, simple state → Zustand or Jotai
Large app, complex state → Redux Toolkit
Heavy server interaction → React Query + light client state
Atomic/granular updates → Jotai
Quick Start
Zustand (Simplest)
// store/useStore.ts
import { create } from 'zustand'
import { devtools, persist } from 'zustand/middleware'
interface AppState {
user: User | null
theme: 'light' | 'dark'
setUser: (user: User | null) => void
toggleTheme: () => void
}
export const useStore = create<AppState>()(
devtools(
persist(
(set) => ({
user: null,
theme: 'light',
setUser: (user) => set({ user }),
toggleTheme: () => set((state) => ({
theme: state.theme === 'light' ? 'dark' : 'light'
})),
}),
{ name: 'app-storage' }
)
)
)
// Usage in component
function Header() {
const { user, theme, toggleTheme } = useStore()
return (
<header className={theme}>
{user?.name}
<button onClick={toggleTheme}>Toggle Theme</button>
</header>
)
}
Patterns
Pattern 1: Redux Toolkit with TypeScript
// store/index.ts
import { configureStore } from "@reduxjs/toolkit";
import { TypedUseSelectorHook, useDispatch, useSelector } from "react-redux";
import userReducer from "./slices/userSlice";
import cartReducer from "./slices/cartSlice";
export const store = configureStore({
reducer: {
user: userReducer,
cart: cartReducer,
},
middleware: (getDefaultMiddleware) =>
getDefaultMiddleware({
serializableCheck: {
ignoredActions: ["persist/PERSIST"],
},
}),
});
export type RootState = ReturnType<typeof store.getState>;
export type AppDispatch = typeof store.dispatch;
// Typed hooks
export const useAppDispatch: () => AppDispatch = useDispatch;
export const useAppSelector: TypedUseSelectorHook<RootState> = useSelector;
// store/slices/userSlice.ts
import { createSlice, createAsyncThunk, PayloadAction } from "@reduxjs/toolkit";
interface User {
id: string;
email: string;
name: string;
}
interface UserState {
current: User | null;
status: "idle" | "loading" | "succeeded" | "failed";
error: string | null;
}
const initialState: UserState = {
current: null,
status: "idle",
error: null,
};
export const fetchUser = createAsyncThunk(
"user/fetchUser",
async (userId: string, { rejectWithValue }) => {
try {
const response = await fetch(`/api/users/${userId}`);
if (!response.ok) throw new Error("Failed to fetch user");
return await response.json();
} catch (error) {
return rejectWithValue((error as Error).message);
}
},
);
const userSlice = createSlice({
name: "user",
initialState,
reducers: {
setUser: (state, action: PayloadAction<User>) => {
state.current = action.payload;
state.status = "succeeded";
},
clearUser: (state) => {
state.current = null;
state.status = "idle";
},
},
extraReducers: (builder) => {
builder
.addCase(fetchUser.pending, (state) => {
state.status = "loading";
state.error = null;
})
.addCase(fetchUser.fulfilled, (state, action) => {
state.status = "succeeded";
state.current = action.payload;
})
.addCase(fetchUser.rejected, (state, action) => {
state.status = "failed";
state.error = action.payload as string;
});
},
});
export const { setUser, clearUser } = userSlice.actions;
export default userSlice.reducer;
Pattern 2: Zustand with Slices (Scalable)
// store/slices/createUserSlice.ts
import { StateCreator } from "zustand";
export interface UserSlice {
user: User | null;
isAuthenticated: boolean;
login: (credentials: Credentials) => Promise<void>;
logout: () => void;
}
export const createUserSlice: StateCreator<
UserSlice & CartSlice, // Combined store type
[],
[],
UserSlice
> = (set, get) => ({
user: null,
isAuthenticated: false,
login: async (credentials) => {
const user = await authApi.login(credentials);
set({ user, isAuthenticated: true });
},
logout: () => {
set({ user: null, isAuthenticated: false });
// Can access other slices
// get().clearCart()
},
});
// store/index.ts
import { create } from "zustand";
import { createUserSlice, UserSlice } from "./slices/createUserSlice";
import { createCartSlice, CartSlice } from "./slices/createCartSlice";
type StoreState = UserSlice & CartSlice;
export const useStore = create<StoreState>()((...args) => ({
...createUserSlice(...args),
...createCartSlice(...args),
}));
// Selective subscriptions (prevents unnecessary re-renders)
export const useUser = () => useStore((state) => state.user);
export const useCart = () => useStore((state) => state.cart);
Pattern 3: Jotai for Atomic State
// atoms/userAtoms.ts
import { atom } from 'jotai'
import { atomWithStorage } from 'jotai/utils'
// Basic atom
export const userAtom = atom<User | null>(null)
// Derived atom (computed)
export const isAuthenticatedAtom = atom((get) => get(userAtom) !== null)
// Atom with localStorage persistence
export const themeAtom = atomWithStorage<'light' | 'dark'>('theme', 'light')
// Async atom
export const userProfileAtom = atom(async (get) => {
const user = get(userAtom)
if (!user) return null
const response = await fetch(`/api/users/${user.id}/profile`)
return response.json()
})
// Write-only atom (action)
export const logoutAtom = atom(null, (get, set) => {
set(userAtom, null)
set(cartAtom, [])
localStorage.removeItem('token')
})
// Usage
function Profile() {
const [user] = useAtom(userAtom)
const [, logout] = useAtom(logoutAtom)
const [profile] = useAtom(userProfileAtom) // Suspense-enabled
return (
<Suspense fallback={<Skeleton />}>
<ProfileContent profile={profile} onLogout={logout} />
</Suspense>
)
}
Pattern 4: React Query for Server State
// hooks/useUsers.ts
import { useQuery, useMutation, useQueryClient } from "@tanstack/react-query";
// Query keys factory
export const userKeys = {
all: ["users"] as const,
lists: () => [...userKeys.all, "list"] as const,
list: (filters: UserFilters) => [...userKeys.lists(), filters] as const,
details: () => [...userKeys.all, "detail"] as const,
detail: (id: string) => [...userKeys.details(), id] as const,
};
// Fetch hook
export function useUsers(filters: UserFilters) {
return useQuery({
queryKey: userKeys.list(filters),
queryFn: () => fetchUsers(filters),
staleTime: 5 * 60 * 1000, // 5 minutes
gcTime: 30 * 60 * 1000, // 30 minutes (formerly cacheTime)
});
}
// Single user hook
export function useUser(id: string) {
return useQuery({
queryKey: userKeys.detail(id),
queryFn: () => fetchUser(id),
enabled: !!id, // Don't fetch if no id
});
}
// Mutation with optimistic update
export function useUpdateUser() {
const queryClient = useQueryClient();
return useMutation({
mutationFn: updateUser,
onMutate: async (newUser) => {
// Cancel outgoing refetches
await queryClient.cancelQueries({
queryKey: userKeys.detail(newUser.id),
});
// Snapshot previous value
const previousUser = queryClient.getQueryData(
userKeys.detail(newUser.id),
);
// Optimistically update
queryClient.setQueryData(userKeys.detail(newUser.id), newUser);
return { previousUser };
},
onError: (err, newUser, context) => {
// Rollback on error
queryClient.setQueryData(
userKeys.detail(newUser.id),
context?.previousUser,
);
},
onSettled: (data, error, variables) => {
// Refetch after mutation
queryClient.invalidateQueries({
queryKey: userKeys.detail(variables.id),
});
},
});
}
Pattern 5: Combining Client + Server State
// Zustand for client state
const useUIStore = create<UIState>((set) => ({
sidebarOpen: true,
modal: null,
toggleSidebar: () => set((s) => ({ sidebarOpen: !s.sidebarOpen })),
openModal: (modal) => set({ modal }),
closeModal: () => set({ modal: null }),
}))
// React Query for server state
function Dashboard() {
const { sidebarOpen, toggleSidebar } = useUIStore()
const { data: users, isLoading } = useUsers({ active: true })
const { data: stats } = useStats()
if (isLoading) return <DashboardSkeleton />
return (
<div className={sidebarOpen ? 'with-sidebar' : ''}>
<Sidebar open={sidebarOpen} onToggle={toggleSidebar} />
<main>
<StatsCards stats={stats} />
<UserTable users={users} />
</main>
</div>
)
}
Best Practices
Do's
- Colocate state - Keep state as close to where it's used as possible
- Use selectors - Prevent unnecessary re-renders with selective subscriptions
- Normalize data - Flatten nested structures for easier updates
- Type everything - Full TypeScript coverage prevents runtime errors
- Separate concerns - Server state (React Query) vs client state (Zustand)
Don'ts
- Don't over-globalize - Not everything needs to be in global state
- Don't duplicate server state - Let React Query manage it
- Don't mutate directly - Always use immutable updates
- Don't store derived data - Compute it instead
- Don't mix paradigms - Pick one primary solution per category
Migration Guides
From Legacy Redux to RTK
// Before (legacy Redux)
const ADD_TODO = "ADD_TODO";
const addTodo = (text) => ({ type: ADD_TODO, payload: text });
function todosReducer(state = [], action) {
switch (action.type) {
case ADD_TODO:
return [...state, { text: action.payload, completed: false }];
default:
return state;
}
}
// After (Redux Toolkit)
const todosSlice = createSlice({
name: "todos",
initialState: [],
reducers: {
addTodo: (state, action: PayloadAction<string>) => {
// Immer allows "mutations"
state.push({ text: action.payload, completed: false });
},
},
});
Resources
You Might Also Like
Related Skills
cache-components
Expert guidance for Next.js Cache Components and Partial Prerendering (PPR). **PROACTIVE ACTIVATION**: Use this skill automatically when working in Next.js projects that have `cacheComponents: true` in their next.config.ts/next.config.js. When this config is detected, proactively apply Cache Components patterns and best practices to all React Server Component implementations. **DETECTION**: At the start of a session in a Next.js project, check for `cacheComponents: true` in next.config. If enabled, this skill's patterns should guide all component authoring, data fetching, and caching decisions. **USE CASES**: Implementing 'use cache' directive, configuring cache lifetimes with cacheLife(), tagging cached data with cacheTag(), invalidating caches with updateTag()/revalidateTag(), optimizing static vs dynamic content boundaries, debugging cache issues, and reviewing Cache Component implementations.
vercel
component-refactoring
Refactor high-complexity React components in Dify frontend. Use when `pnpm analyze-component --json` shows complexity > 50 or lineCount > 300, when the user asks for code splitting, hook extraction, or complexity reduction, or when `pnpm analyze-component` warns to refactor before testing; avoid for simple/well-structured components, third-party wrappers, or when the user explicitly wants testing without refactoring.
langgenius
web-artifacts-builder
Suite of tools for creating elaborate, multi-component claude.ai HTML artifacts using modern frontend web technologies (React, Tailwind CSS, shadcn/ui). Use for complex artifacts requiring state management, routing, or shadcn/ui components - not for simple single-file HTML/JSX artifacts.
anthropicsfrontend-design
Create distinctive, production-grade frontend interfaces with high design quality. Use this skill when the user asks to build web components, pages, artifacts, posters, or applications (examples include websites, landing pages, dashboards, React components, HTML/CSS layouts, or when styling/beautifying any web UI). Generates creative, polished code and UI design that avoids generic AI aesthetics.
anthropics
react-modernization
Upgrade React applications to latest versions, migrate from class components to hooks, and adopt concurrent features. Use when modernizing React codebases, migrating to React Hooks, or upgrading to latest React versions.
wshobsontailwind-design-system
Build scalable design systems with Tailwind CSS v4, design tokens, component libraries, and responsive patterns. Use when creating component libraries, implementing design systems, or standardizing UI patterns.
wshobson