Usage with Next.js
If you're using tRPC in a new project, consider using one of the example projects as a starting point or for reference: tRPC Example Projects
tRPC and Next.js are a match made in heaven! Next.js makes it easy for you to build your client and server together in one codebase. This makes it easy to share types between them.
tRPC includes dedicated tools to make the Next.js developer experience as seamless as possible.
Recommended file structure​
Recommended but not enforced file structure. This is what you get when starting from the examples.
.
├── prisma # <-- if prisma is added
│ └── [..]
├── src
│ ├── pages
│ │ ├── _app.tsx # <-- add `withTRPC()`-HOC here
│ │ ├── api
│ │ │ └── trpc
│ │ │ └── [trpc].ts # <-- tRPC HTTP handler
│ │ └── [..]
│ ├── server
│ │ ├── routers
│ │ │ ├── app.ts # <-- main app router
│ │ │ ├── post.ts # <-- sub routers
│ │ │ └── [..]
│ │ ├── context.ts # <-- create app context
│ │ └── createRouter.ts # <-- router helper
│ └── utils
│ └── trpc.ts # <-- your typesafe tRPC hooks
└── [..]
Add tRPC to existing Next.js project​
1. Install deps​
yarn add @trpc/client @trpc/server @trpc/react @trpc/next zod react-query
- React Query:
@trpc/reactprovides a thin wrapper over react-query. It is required as a peer dependency. - Zod: most examples use Zod for input validation and we highly recommended it, though it isn't required. You can use a validation library of your choice (Yup, Superstruct, io-ts, etc). In fact, any object containing a
parse,createorvalidateSyncmethod will work.
2. Enable strict mode​
If you want to use Zod for input validation, make sure you have enabled strict mode in your tsconfig.json:
// tsconfig.json
{
// ...
"compilerOptions": {
// ...
"strict": true
}
}
If strict mode is too much, at least enable strictNullChecks:
// tsconfig.json
{
// ...
"compilerOptions": {
// ...
"strictNullChecks": true
}
}
3. Create a tRPC router​
Implement your tRPC router in ./pages/api/trpc/[trpc].ts. If you need to split your router into several subrouters, implement them in a top-level server directory in your project root, then import them into ./pages/api/trpc/[trpc].ts and merge them into a single root appRouter.
View sample router
import * as trpc from '@trpc/server';
import * as trpcNext from '@trpc/server/adapters/next';
import { z } from 'zod';
export const appRouter = trpc
.router()
.query('hello', {
input: z
.object({
text: z.string().nullish(),
})
.nullish(),
resolve({ input }) {
return {
greeting: `hello ${input?.text ?? 'world'}`,
};
},
});
// export type definition of API
export type AppRouter = typeof appRouter;
// export API handler
export default trpcNext.createNextApiHandler({
router: appRouter,
createContext: () => null,
});
4. Create tRPC hooks​
Create a set of strongly-typed hooks using your API's type signature.
import { createReactQueryHooks } from '@trpc/react';
import type { AppRouter } from '../pages/api/trpc/[trpc]';
export const trpc = createReactQueryHooks<AppRouter>();
// => { useQuery: ..., useMutation: ...}
5. Configure _app.tsx​
The createReactQueryHooks function expects certain parameters to be passed via the Context API. To set these parameters, create a custom _app.tsx using the withTRPC higher-order component:
import { withTRPC } from '@trpc/next';
import { AppType } from 'next/dist/shared/lib/utils';
import { AppRouter } from './api/trpc/[trpc]';
const MyApp: AppType = ({ Component, pageProps }) => {
return <Component {...pageProps} />;
};
export default withTRPC<AppRouter>({
config({ ctx }) {
/**
* If you want to use SSR, you need to use the server's full URL
* @link https://trpc.io/docs/ssr
*/
const url = process.env.VERCEL_URL
? `https://${process.env.VERCEL_URL}/api/trpc`
: 'http://localhost:3000/api/trpc';
return {
url,
/**
* @link https://react-query.tanstack.com/reference/QueryClient
*/
// queryClientConfig: { defaultOptions: { queries: { staleTime: 60 } } },
};
},
/**
* @link https://trpc.io/docs/ssr
*/
ssr: true,
})(MyApp);
6. Make API requests​
import { trpc } from '../utils/trpc';
export default function IndexPage() {
const hello = trpc.useQuery(['hello', { text: 'client' }]);
if (!hello.data) {
return <div>Loading...</div>;
}
return (
<div>
<p>{hello.data.greeting}</p>
</div>
);
};
withTRPC() options​
config-callback​
The config-argument is a function that returns an object that configures the tRPC and React Query clients. This function has a ctx input that gives you access to the Next.js req object, among other things. The returned value can contain the following properties:
Exactly one of these are required:
urlyour API URL.linksto customize the flow of data between tRPC Client and the tRPC-server. Read more.
Optional:
queryClientConfig: a configuration object for the React QueryQueryClientused internally by the tRPC React hooks: QueryClient docsheaders: an object or a function that returns an object of outgoing tRPC requeststransformer: a transformer applied to outgoing payloads. Read more about Data Transformersfetch: customize the implementation offetchused by tRPC internallyAbortController: customize the implementation ofAbortControllerused by tRPC internally
ssr-boolean (default: false)​
Whether tRPC should await queries when server-side rendering a page. Defaults to false.
responseMeta-callback​
Ability to set request headers and HTTP status when server-side rendering.
Example​
export default withTRPC<AppRouter>({
config({ ctx }) {
/* [...] */
},
ssr: true,
responseMeta({ clientErrors, ctx }) {
if (clientErrors.length) {
// propagate first http error from API calls
return {
status: clientErrors[0].data?.httpStatus ?? 500,
};
}
// cache full page for 1 day + revalidate once every second
const ONE_DAY_IN_SECONDS = 60 * 60 * 24;
return {
'Cache-Control': `s-maxage=1, stale-while-revalidate=${ONE_DAY_IN_SECONDS}`,
};
},
})(MyApp);
Next steps​
Refer to the @trpc/react docs for additional information on executing Queries and Mutations inside your components.