TanStack Query ist die Standardlösung für Server-Zustandsverwaltung in React-Anwendungen.
useQuery: Daten abrufen und cachen
useQuery abonniert einen Server-Zustand mit queryKey als Cache-Schlüssel.
import { useQuery, QueryClient, QueryClientProvider } from '@tanstack/react-query';
// Setup: wrap your app
const queryClient = new QueryClient({
defaultOptions: {
queries: {
staleTime: 1000 * 60 * 5, // 5 minutes
gcTime: 1000 * 60 * 30, // 30 minutes (formerly cacheTime)
retry: 3,
refetchOnWindowFocus: true,
},
},
});
function App() {
return (
<QueryClientProvider client={queryClient}>
<MyApp />
</QueryClientProvider>
);
}
// Basic query
interface User {
id: number;
name: string;
email: string;
}
function useUser(userId: number) {
return useQuery<User>({
queryKey: ['user', userId], // cache key — must be unique
queryFn: async () => {
const res = await fetch(`/api/users/${userId}`);
if (!res.ok) throw new Error('Failed to fetch user');
return res.json();
},
enabled: userId > 0, // only run if userId is valid
staleTime: 1000 * 60 * 10, // override global default
});
}
function UserProfile({ userId }: { userId: number }) {
const { data, isLoading, isError, error } = useUser(userId);
if (isLoading) return <div>Loading...</div>;
if (isError) return <div>Error: {error.message}</div>;
return <div>{data.name} — {data.email}</div>;
}useMutation: Erstellen, Aktualisieren, Löschen
useMutation verarbeitet CRUD-Operationen mit onSuccess-Callbacks.
import { useMutation, useQueryClient } from '@tanstack/react-query';
interface CreatePostInput {
title: string;
body: string;
userId: number;
}
function useCreatePost() {
const queryClient = useQueryClient();
return useMutation({
mutationFn: async (input: CreatePostInput) => {
const res = await fetch('/api/posts', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify(input),
});
if (!res.ok) throw new Error('Failed to create post');
return res.json();
},
onSuccess: (newPost) => {
// Invalidate and refetch posts list
queryClient.invalidateQueries({ queryKey: ['posts'] });
// Or add directly to cache (no refetch needed)
queryClient.setQueryData(['post', newPost.id], newPost);
},
onError: (error) => {
console.error('Failed to create post:', error);
},
});
}
function CreatePostForm() {
const mutation = useCreatePost();
const handleSubmit = (e: React.FormEvent) => {
e.preventDefault();
mutation.mutate({ title: 'New Post', body: 'Content', userId: 1 });
};
return (
<form onSubmit={handleSubmit}>
<button type="submit" disabled={mutation.isPending}>
{mutation.isPending ? 'Creating...' : 'Create Post'}
</button>
{mutation.isError && <p>Error: {mutation.error.message}</p>}
{mutation.isSuccess && <p>Post created!</p>}
</form>
);
}Optimistische Updates für sofortige UI
Optimistische Updates wenden Änderungen vor der Serverantwort an.
import { useMutation, useQueryClient } from '@tanstack/react-query';
interface Todo {
id: number;
title: string;
completed: boolean;
}
function useToggleTodo() {
const queryClient = useQueryClient();
return useMutation({
mutationFn: (todo: Todo) =>
fetch(`/api/todos/${todo.id}`, {
method: 'PATCH',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({ completed: !todo.completed }),
}).then(r => r.json()),
// Optimistic update — runs BEFORE the mutation
onMutate: async (updatedTodo) => {
// Cancel outgoing refetches
await queryClient.cancelQueries({ queryKey: ['todos'] });
// Snapshot current data for rollback
const previousTodos = queryClient.getQueryData<Todo[]>(['todos']);
// Optimistically update the cache
queryClient.setQueryData<Todo[]>(['todos'], (old) =>
old?.map(todo =>
todo.id === updatedTodo.id
? { ...todo, completed: !todo.completed }
: todo
)
);
return { previousTodos }; // context for onError
},
// If mutation fails, roll back to snapshot
onError: (_err, _variables, context) => {
if (context?.previousTodos) {
queryClient.setQueryData(['todos'], context.previousTodos);
}
},
// Always refetch after error or success
onSettled: () => {
queryClient.invalidateQueries({ queryKey: ['todos'] });
},
});
}Infinite Queries für Paginierung
useInfiniteQuery verarbeitet cursor-basierte Paginierung.
import { useInfiniteQuery } from '@tanstack/react-query';
interface Page {
items: Post[];
nextCursor?: string;
}
function useInfinitePosts() {
return useInfiniteQuery<Page>({
queryKey: ['posts', 'infinite'],
queryFn: async ({ pageParam }) => {
const url = pageParam
? `/api/posts?cursor=${pageParam}`
: '/api/posts';
return fetch(url).then(r => r.json());
},
initialPageParam: undefined as string | undefined,
getNextPageParam: (lastPage) => lastPage.nextCursor,
});
}
function InfinitePostList() {
const {
data,
fetchNextPage,
hasNextPage,
isFetchingNextPage,
} = useInfinitePosts();
return (
<div>
{data?.pages.flatMap(page => page.items).map(post => (
<div key={post.id}>{post.title}</div>
))}
{hasNextPage && (
<button onClick={() => fetchNextPage()} disabled={isFetchingNextPage}>
{isFetchingNextPage ? 'Loading...' : 'Load more'}
</button>
)}
</div>
);
}Query-Key-Muster und Prefetching
Konsistente Key-Factories verhindern Cache-Fehler.
// Query key patterns — factory functions for consistency
const queryKeys = {
all: ['posts'] as const,
lists: () => [...queryKeys.all, 'list'] as const,
list: (filters: string) => [...queryKeys.lists(), { filters }] as const,
details: () => [...queryKeys.all, 'detail'] as const,
detail: (id: number) => [...queryKeys.details(), id] as const,
};
// Usage:
useQuery({ queryKey: queryKeys.detail(1), queryFn: ... });
// Invalidate all posts:
queryClient.invalidateQueries({ queryKey: queryKeys.all });
// Invalidate only lists:
queryClient.invalidateQueries({ queryKey: queryKeys.lists() });
// Prefetching for better UX
async function prefetchUser(userId: number) {
await queryClient.prefetchQuery({
queryKey: ['user', userId],
queryFn: () => fetchUser(userId),
staleTime: 10 * 60 * 1000, // only prefetch if > 10 min stale
});
}
// On hover: prefetch before click
<link onMouseEnter={() => prefetchUser(userId)} href={`/users/${userId}`}>
View Profile
</link>TanStack Query vs andere Lösungen
| Feature | TanStack Query | Redux Toolkit | SWR | Apollo |
|---|---|---|---|---|
| Caching | Built-in (staleTime, gcTime) | Manual | Built-in | Built-in (Apollo-only) |
| Optimistic updates | First-class | Manual | Basic | First-class |
| Infinite query | useInfiniteQuery | Manual | useSWRInfinite | fetchMore |
| Mutations | useMutation | RTK Query | No (use fetch) | useMutation |
| DevTools | Excellent | Excellent | Basic | Good |
| REST + GraphQL | Both | Both | REST focused | GraphQL only |
Best Practices
- Query-Key-Factories für Konsistenz verwenden.
- staleTime je nach Daten-Frische-Anforderungen setzen.
- Immer Lade- und Fehlerzustände bereitstellen.
- Optimistische Updates für schnelle Operationen verwenden.
- Daten bei Hover oder Route-Wechsel vorabrufen.
FAQ
Unterschied zwischen staleTime und gcTime?
staleTime kontrolliert, wann Daten veraltet sind; gcTime, wie lange sie im Speicher bleiben.
Wie behandelt TanStack Query Race Conditions?
Es dedupliziert automatisch identische Anfragen.
TanStack Query mit Redux oder Zustand?
Ergänzend: TanStack Query für Server-Zustand, Zustand für Client-Zustand.
Authentifizierungsfehler global behandeln?
Globalen onError-Callback des QueryClient verwenden.
Änderungen in TanStack Query v5?
cacheTime in gcTime umbenannt, queryFn-Parameter als Objekt, RSC-Unterstützung.