A lot of Remix API isn't imported from remix
, but are instead conventions and exports from your application modules.
When remix first starts up, it reads your config file, you need to make sure this file is deployed to your server as it's read when the server starts.
module.exports = {
appDirectory: "app",
browserBuildDirectory: "public/build",
devServerPort: 8002,
publicPath: "/build/",
serverBuildDirectory: "build",
routes(defineRoutes) {
return defineRoute(route => {
route("/somewhere/cool/*", "catchall.tsx");
});
}
};
The path to the app
directory, relative to remix.config.js. Defaults to "app".
// default
exports.appDirectory = "./app";
// custom
exports.appDirectory = "./elsewhere";
A function for defining custom routes, in addition to those already defined
using the filesystem convention in app/routes
. Both sets of routes will be merged.
exports.routes = async (defineRoutes) => {
// If you need to do async work, do it before calling `defineRoutes`, we use
// the call stack of `route` inside to set nesting.
return defineRoutes((route) => {
// A common use for this is catchall routes.
// - The first argument is the React Router path to match against
// - The second is the relative filename of the route handler
route("/some/path/*", "catchall.tsx")
// if you want to nest routes, use the optional callback argument
route("some/:path", "some/route/file.js", () => {
// - path is relative to parent path
// - filenames are still relative to the app directory
route("relative/path", "some/other/file")
});
}
}
The path to the browser build, relative to remix.config.js. Defaults to "public/build". Should be deployed to static hosting.
The URL prefix of the browser build with a trailing slash. Defaults to "/build/". This is the path the browser will use to find assets.
The path to the server build, relative to remix.config.js. Defaults to "build". This needs to be deployed to your server.
The port number to use for the dev server. Defaults to 8002.
There are a few conventions that Remix uses you should be aware of.
remix.config.js
: Remix uses this file to know how to build your app for production and run it in development. This file is required.app/entry.server.{js,tsx}
: This is your entry into the server rendering piece of Remix. This file is required.app/entry.client.{js,tsx}
: This is your entry into the browser rendering/hydration piece of Remix. This file is required.app/root.tsx
: This is your root layout, or "root route" (very sorry for those of you who pronounce those words the same way!). It works just like all other routes: you can export a loader
, action
, etc.
app/routes/*.{js,jsx,tsx,md,mdx}
: Any files in the app/routes/
directory will become routes in your application. Remix supports all of those extensions.
app/routes/{folder}/*.tsx
: Folders inside of routes will create nested URLs.
app/routes/{folder}
with app/routes/{folder}.tsx
: When a route has the same name as a folder, it becomes a "layout route" for the child routes inside the folder. Render an <Outlet />
and the child routes will appear there. This is how you can have multiple levels of persistent layout nesting associated with URLs.
Dots in route filesnames: Adding a .
in a route file will create a nested URL, but not a nested layout. Flat files are flat layouts, nested files are nested layouts. The .
allows you to create nested URLs without needing to create a bunch of layouts. For example: app/routes/some.long.url.tsx
will create the URL /some/long/url
.
app/routes/index.tsx
: Routes named "index" will render when the parent layout route's path is matched exactly.
$param
: The dollar sign denotes a dynamic segment of the URL. It will be parsed and passed to your loaders and routes.
For example: app/routes/users/$userId.tsx
will match the following URLs: users/123
and users/abc
but not users/123/abc
because that has too many segments. See the routing guide for more information.
Some CLIs require you to escape the $ when creating files:
touch routes/\$params.tsx
Params can be nested routes, just create a folder with the $
in it.
app/routes/files/$.tsx
: To add a "splat" path (some people call this a "catchall") name the file simply $.tsx
. It will create a route path pattern like files/*
. You can also use this along with dot file names: app/routes/files.$.tsx
.
app/routes/__some-layout/some-path.tsx
: Prefixing a folder with __
will create a "layout route". Layout routes are routes that don't add anything to the URL for matching, but do add nested components in the tree for layouts. Make sure to also have __some-layout.tsx
as well. For example, all of your marketing pages could share a layout in the route tree with app/routes/__marketing.tsx
as the layout and then all of the child routes go in app/routes/__marketing/products.tsx
and app/routes/__marketing/buy.tsx
. The __marketing.tsx
route won't add any segments to the URL, but it will render when it's child routes match.
Remix uses app/entry.client.tsx
as the entry point for the browser bundle. This module gives you full control over the "hydrate" step after JavaScript loads into the document.
Typically this module uses ReactDOM.hydrate
to re-hydrate the markup that was already generated on the server in your server entry module.
Here's a basic example:
import ReactDOM from "react-dom";
import Remix from "@remix-run/react/browser";
ReactDOM.hydrate(<Remix />, document);
As you can see, you have full control over hydration. This is the first piece of code that runs in the browser. As you can see, you have full control here. You can initialize client side libraries, setup thing likes window.history.scrollRestoration
, etc.
Remix uses app/entry.server.tsx
to generate the HTTP response when rendering on the server. The default
export of this module is a function that lets you create the response, including HTTP status, headers, and HTML, giving you full control over the way the markup is generated and sent to the client.
This module should render the markup for the current page using a <Remix>
element with the context
and url
for the current request. This markup will (optionally) be re-hydrated once JavaScript loads in the browser using the browser entry module.
You can also export an optional handleDataRequest
function that will allow you to modify the response of a data request. These are the requests that do not render HTML, but rather return the loader and action data to the browser once client side hydration has occured.
Here's a basic example:
import ReactDOMServer from "react-dom/server";
import type {
EntryContext,
HandleDataRequestFunction
} from "remix";
import { RemixServer } from "remix";
export default function handleRequest(
request: Request,
responseStatusCode: number,
responseHeaders: Headers,
remixContext: EntryContext
) {
let markup = ReactDOMServer.renderToString(
<RemixServer context={remixContext} url={request.url} />
);
responseHeaders.set("Content-Type", "text/html");
return new Response("<!DOCTYPE html>" + markup, {
status: responseStatusCode,
headers: responseHeaders
});
}
// this is an optional export
export let handleDataRequest: HandleDataRequestFunction = (
response: Response,
// same args that get passed to the action or loader that was called
{ request, params, context }
) => {
response.headers.set("x-custom", "yay!");
return response;
};
A route in Remix is mostly a React component, with a couple extra exports.
It's important to read Route Module Constraints.
The only required export of a route module is a React component. When the URL matches, the component will be rendered.
export default function SomeRouteComponent() {
return (
<div>
<h1>Look ma!</h1>
<p>I'm still using React after like 7 years.</p>
</div>
);
}
Each route can define a loader function that will be called before rendering to provide data to the route.
export let loader = () => {
return fetch("https://example.com/api/stuff");
};
This function is only ever run on the server. On the initial server render it will be called and provide data to the HTML document. On navigations in the browser, Remix will call the function via fetch
. This means you can talk directly to your database, use server only API secrets, etc. Any code that isn't used to render the UI will be removed from the browser bundle.
Using the database ORM Prisma as an example:
import { prisma } from "../db";
export let loader = () => {
return await prisma.user.findMany();
};
export default function Users() {
let data = useLoaderData();
return (
<ul>
{data.map(user => (
<li>{user.name}</li>
))}
</ul>
);
}
Because prisma
is only used in the loader it will be removed from the browser bundle.
Route params are passed to your loader. If you have a loader at data/invoices/$invoiceId.tsx
then Remix will parse out the invoiceId
and pass it to your loader. This is useful for fetching data from an API or database.
// if the user visits /invoices/123
export let loader: LoaderFunction = ({ params }) => {
params.invoiceId; // "123"
};
This is a Web API Request instance with information about the request. You can read the MDN docs to see all of it's properties.
You can also use this to read URL URLSearchParams from the request like so:
// say the user is at /some/route?foo=bar
export let loader: LoaderFunction = ({ request }) => {
let url = new URL(request.url);
let foo = url.searchParams.get("foo");
};
This is the context you passed in to your deployment wrapper's getLoaderContext()
function. It's a way to bridge the gap between the platform's request/response API with your remix app.
Say your express server (or your serverless function handler) looks something like this:
const {
createRequestHandler
} = require("@remix-run/express");
app.all(
"*",
createRequestHandler({
getLoaderContext(req, res) {
// this becomes the loader context
return { req, res };
}
})
);
And then your loader can access it.
// routes/some-route.tsx
export let loader: LoaderFunction = ({ context }) => {
let { req } = context.req;
// read a cookie
req.cookies.session;
};
You can return plain JavaScript objects from your loaders that will be made available to your route modules.
// some fake database, not part of remix
let db = require("../db");
export let loader = async () => {
let users = await db.query("users");
return users;
};
You can return Web API Response objects from your loaders. Here's a pretty basic JSON response:
// some fake database, not part of remix
import db from "../db";
export let loader: LoaderFunction = async () => {
let users = await db.query("users");
let body = JSON.stringify(users);
return new Response(body, {
headers: {
"Content-Type": "application/json"
}
});
};
Normally you'd use the json
helper from your environment.
import db from "../db";
import { json } from "remix";
export let loader: LoaderFunction = async () => {
let users = await db.query("users");
return json(users);
};
Between these two examples you can see how json
just does a little of work to make your loader a lot cleaner.
See also:
headers
)["#headers"]Loaders can return Responses with status codes. This is very useful for "not found" data making it's way all the way down to the browser's UI with a real 404 status code, 500s, etc.
import { json } from "remix";
export let loader = async () => {
let res = db.query("users").where("id", "=", "_why");
if (res === null) {
return json({ notFound: true }, { status: 404 });
} else {
return res;
}
};
This is also useful for 500 error handling. You don't need to render a different page, instead, handle the error, send the data, and send a 500 response to the app.
export let loader: LoaderFunction = async () => {
try {
let stuff = await something();
return json(stuff);
} catch (error) {
return json(
{
error: true,
message: error.message
},
{ status: 500 }
);
}
};
Now your route component can deal with it:
export default function Something() {
let data = useLoaderData();
if (data.error) {
return <ErrorMessage>{data.message}</ErrorMessage>;
}
// ...
}
The initial server render will get a 500 for this page, and client side transitions will get it also.
Along with returning responses, you can also throw WebAPI Response objects from your loaders allowing you to break through the call stack and show an alternate UI with contextual data through the CatchBoundary
.
Here is a full example showing how you can create utility functions that throw responses to avoid "callback hell" in your loader.
app/db.ts
import { json } from "remix";
import type { ThrownResponse } from "remix";
export type InvoiceNotFoundResponse = ThrownResponse<
404,
string
>;
export function getInvoice(id, user) {
let invoice = db.invoice.find({ where: { id } });
if (invoice === null) {
throw json("Not Found", { status: 404 });
}
return invoice;
}
app/http.ts
import { redirect } from "remix";
import { getSession } from "./session";
function requireUserSession(request) {
let session = await getSession(
request.headers.get("cookie")
);
if (!session) {
// can throw our helpers like `redirect` and `json` because they
// return responses.
throw redirect("/login", 302);
}
return session.get("user");
}
app/routes/invoice/$invoiceId.tsx
import { useCatch, useLoaderData } from "remix";
import type { ThrownResponse } from "remix";
import { requireUserSession } from "~/http";
import { getInvoice } from "~/db";
import type { Invoice, InvoiceNotFoundResponse } from "~/db";
type InvoiceCatchData = {
invoiceOwnerEmail: string;
};
type ThrownResponses = InvoiceNotFoundResponse | ThrownResponse<401, InvoiceCatchData>;
export let loader = async ({ request, params }) => {
let user = await requireUserSession(request);
let invoice: Invoice = getInvoice(params.invoiceId);
if (!invoice.userIds.includes(user.id)) {
let data: InvoiceCatchData = { invoiceOwnerEmail: invoice.owner.email };
throw new json(data, { status: 401 });
}
return invoice;
};
export default function InvoiceRoute() {
let invoice = useLoaderData<Invoice>();
return <InvoiceView invoice={invoice} />;
}
export function CatchBoundary() {
// this returns { status, statusText, data }
let caught = useCatch<ThrownResponses>();
switch (caught.status) {
case 401:
return (
<div>
<p>You don't have access to this invoice.</p>
<p>Contact {invoiceCatch.data.invoiceOwnerEmail} to get access</p>
</div>
);
case 404:
return <div>Invoice not found!</div>;
}
// You could also `throw new Error("Unknown status in catch boundary")`.
// This will be caught by the closest `ErrorBoundary`.
return <div>Something went wrong: {invoiceCatch.status} {invoiceCatch.statusText}</div>;
}
Like loader
, action is a server only function to handle data mutations and other actions. If a non-GET request is made to your route (POST, PUT, PATCH, DELETE) then the matching route action is called before the loaders page.
They have the the very same API as loaders, the only difference is when they are called. Actions are triggered from <Form method="post | put | patch | delete" />
submits.
This enables you to co-locate everything about a data set in a single route module: the data read, the component that renders the data, and the data writes:
export async function loader() {
return fakeGetTodos();
}
export async function action({ request }) {
let body = new URLSearchParams(await request.text());
return fakeCreateTodo({ title: body.get("title") });
}
export default function Todos() {
let data = useLoaderData();
return (
<div>
<TodoList todos={data} />
<Form method="post">
<input type="text" name="title" />
<button type="submit">Create Todo</button>
</Form>
</div>
);
}
When a POST is made to a URL, multiple routes in your route hierarchy will match the URL. Unlike a GET to loaders, where all of them are called to build the UI, only one action is called.
If you want to post to an index route use ?index
in the action: <Form action="/accounts?index" method="post" />
action url | route action |
---|---|
/accounts?index |
routes/accounts/index.js |
/accounts |
routes/accounts.js |
Also note that forms without an action prop (<Form method="post">
) will automatically post to the same route within which they are rendered, so using the ?index
param to disambiguate between parent and index routes is only useful if you're posting to an index route from somewhere besides the index route itself. If you're posting from the index route to itself, or from the parent route to itselt, you don't need to define a <Form action>
at all, just omit it: <Form method="post">
.
See also:
Each route can define it's own HTTP headers. One of the most important headers is the Cache-Control
header that indicates to browser and CDN caches where and for how long a page is able to be cached.
export function headers({ loaderHeaders, parentHeaders }) {
return {
"X-Stretchy-Pants": "its for fun",
"Cache-Control": "max-age=300, s-maxage=3600"
};
}
Usually your data is a better indicator of your cache duration than your route module (data tends to be more dynamic than markup), so the loader's headers are passed in to headers()
too:
export function headers({ loaderHeaders }) {
return {
"Cache-Control": loaderHeaders.get("Cache-Control")
};
}
Note: loaderHeaders
is an instance of the Web Fetch API Headers
class.
Because Remix has nested routes, there's a battle of the headers to be won when nested routes match. In this case, the deepest route wins. Consider these files in the routes directory:
├── users.tsx
└── users
├── $userId.tsx
└── $userId
└── profile.tsx
If we are looking at /users/123/profile
then three routes are rendering:
<Users>
<UserId>
<Profile />
</UserId>
</Users>
If all three define headers
, the deepest module wins, in this case profile.tsx
.
We don't want surprise headers in your responses, so it's your job to merge them if you'd like. Remix passes in the parentHeaders
to your headers
function. So users.tsx
headers get passed to $userId.tsx
, and then $userId.tsx
headers are passed to profile.tsx
headers.
That is all to say that Remix has given you a very large gun with which to shoot your foot. You need to be careful not to send a Cache-Control
from a child route module that is more aggressive than a parent route. Here's some code that picks the least aggressive caching in these cases:
import parseCacheControl from "parse-cache-control";
export function headers({ loaderHeaders, parentHeaders }) {
let loaderCache = parseCacheControl(
loaderHeaders.get("Cache-Control")
);
let parentCache = parseCacheControl(
parentHeaders.get("Cache-Control")
);
// take the most conservative between the parent and loader, otherwise
// we'll be too aggressive for one of them.
let maxAge = Math.min(
loaderCache["max-age"],
parentCache["max-age"]
);
return {
"Cache-Control": `max-age=${maxAge}`
};
}
All that said, you can avoid this entire problem by not defining headers in layout routes and only in leaf routes. Every layout that can be visited directly will likely have an "index route". If you only define headers on your leaf routes, not your layout routes, you will never have to worry about merging headers.
The meta export will set meta tags for your html document. We highly recommend setting the title and description on every route besides layout routes (their index route will set the meta).
import type { MetaFunction } from "remix";
export let meta: MetaFunction = () => {
return {
title: "Something cool",
description:
"This becomes the nice preview on search results."
};
};
Title is a special case and will render a <title>
tag, the rest render <meta name={key} content={value}/>
.
In the case of nested routes, the meta tags are merged, so parent routes can add meta tags with the child routes needing to copy them.
The links function defines which <link>
elements to add to the page when the user visits a route.
import type { LinksFunction } from "remix";
export let links: LinksFunction = () => {
return [
{
rel: "icon",
href: "/favicon.png",
type: "image/png"
},
{
rel: "stylesheet",
href: "https://example.com/some/styles.css"
},
{ page: "/users/123" },
{
rel: "preload",
href: "/images/banner.jpg",
as: "image"
}
];
};
There are two types of link descriptors you can return:
This is an object representation of a normal <link {...props} />
element. View the MDN docs for the link API.
Examples:
import type { LinksFunction } from "remix";
import stylesHref from "../styles/something.css";
export let links: LinksFunction = () => {
return [
// add a favicon
{
rel: "icon",
href: "/favicon.png",
type: "image/png"
},
// add an external stylesheet
{
rel: "stylesheet",
href: "https://example.com/some/styles.css",
crossOrigin: "true"
},
// add a local stylesheet, remix will fingerprint the file name for
// production caching
{ rel: "stylesheet", href: stylesHref },
// prefetch an image into the browser cache that the user is likely to see
// as they interact with this page, perhaps they click a button to reveal in
// a summary/details element
{
rel: "prefetch",
as: "image",
href: "/img/bunny.jpg"
},
// only prefetch it if they're on a bigger screen
{
rel: "prefetch",
as: "image",
href: "/img/bunny.jpg",
media: "(min-width: 1000px)"
}
];
};
These descriptors allow you to prefetch the resources for a page the user is likely to navigate to. While this API is useful, you might get more mileage out of <Link prefetch="render">
instead. But if you'd like, you can get the same behavior with this API.
export function links() {
return [{ page: "/posts/public" }];
}
This load up the JavaScript modules, loader data, and the stylesheets (defined in the links
exports of the next routes) into the browser cache before the user even navigates there.
Be careful with this feature. You don't want to download 10MB of JavaScript and data for pages the user probably won't ever visit.
A CatchBoundary
is a React component that renders whenever an action or loader throws a Response
.
Note: We use the word "catch" to represent the codepath taken when a Response
type is thrown; you thought about bailing from the "happy path". This is different from an uncaught error you did not expect to occur.
A Remix CatchBoundary
component works just like a route component, but instead of useLoaderData
you have access to useCatch
. When a response is thrown in an action or loader, the CatchBoundary
will be rendered in it's place, nested inside parent routes.
A CatchBoundary
component has access to the status code and thrown response data through useCatch
.
import { useCatch } from "remix";
export function CatchBoundary() {
let caught = useCatch();
return (
<div>
<h1>Caught</h1>
<p>Status: {caught.status}</p>
<pre>
<code>{JSON.stringify(caught.data, null, 2)}</code>
</pre>
</div>
);
}
An ErrorBoundary
is a React component that renders whenever there is an error anywhere on the route, either during rendering or during data loading.
Note: We use the word "error" to mean an uncaught exception; something you didn't anticipate happening. This is different from other types of "errors" that you are able to recover from easily, for example a 404 error where you can still show something in the user interface to indicate you weren't able to find some data.
A Remix ErrorBoundary
component works just like normal React error boundaries, but with a few extra capabilities. When there is an error in your route component, the ErrorBoundary
will be rendered in its place, nested inside any parent routes. ErrorBoundary
components also render when there is an error in the loader
or action
functions for a route, so all errors for that route may be handled in one spot.
An ErrorBoundary
component receives one prop: the error
that occurred.
export function ErrorBoundary({ error }) {
return (
<div>
<h1>Error</h1>
<p>{error.message}</p>
<p>The stack trace is:</p>
<pre>{error.stack}</pre>
</div>
);
}
Exporting a handle allows you to create application conventions with the useMatches()
hook. You can put whatever values you want on it:
export let handle = {
its: "all yours"
};
This is almost always used on conjunction with useMatches
. To see what kinds of things you can do with it, refer to useMatches
for more information.
This function lets apps optimize which routes should be reloaded on some client side transitions.
import type { ShouldReloadFunction } from "remix";
export let unstable_shouldReload: ShouldReloadFunction = ({
// same params that go to `loader` and `action`
params,
// a possible form submission that caused this to be reloaded
submission,
// the next URL being used to render this page
url,
// the previous URL used to render this page
prevUrl
}) => false; // or `true`;
During client side transitions, Remix will optimize reloading of routes that are already rendering, like not reloading layout routes that aren't changing. In other cases, like form submissions or search param changes, Remix doesn't know which routes need to be reloaded so it reloads them all to be safe. This ensures data mutations from the submission or changes in the search params are reflected across the entire page.
This function lets apps further optimize by returning false
when Remix is about to reload a route. There are three cases when Remix will reload a route and you have the opportunity to optimize:
url.search
changes (while the url.pathname
is the same)Otherwise Remix will reload the route and you have no choice:
url.pathname
changed (including route params)Here are a couple of common use-cases:
It's common for root loaders to return data that never changes, like environment variables to be sent to the client app. In these cases you never need the root loader to be called again. For this case, you can simply return false
.
export let loader = () => {
return {
ENV: {
CLOUDINARY_ACCT: process.env.CLOUDINARY_ACCT,
STRIPE_PUBLIC_KEY: process.env.STRIPE_PUBLIC_KEY
}
};
};
export let unstable_shouldReload = () => false;
With this in place, Remix will no longer make a request to your root loader for any reason, not after form submissions, not after search param changes, etc.
Another common case is when you've got nested routes and a child component has a feature that uses the search params in the URL, like a search page or some tabs with state you want to keep in the search params.
Consider these routes:
└── $projectId.tsx
└── activity.tsx
And lets say the UI looks something like this:
┌──────────────────────────────┐
│ Project: Design Revamp │
├────────┬─────────┬───────────┤
│ Tasks │ Collabs │ >ACTIVITY │
├────────┴─────────┴───────────┤
│ Search: _____________ │
│ │
│ - Ryan added an image │
│ │
│ - Michael commented │
│ │
└──────────────────────────────┘
The $activity.tsx
loader can use the search params to filter the list, so visiting a URL like /projects/design-revamp/activity?search=image
could filter the list of results. Maybe it looks something like this:
export function loader({ request, params }) {
let url = new URLSearchParams(request.url);
return exampleDb.activity.findAll({
where: {
projectId: params.projectId,
name: {
contains: url.searchParams.get("search")
}
}
});
}
This is great for the activity route, but Remix doesn't know if the parent loader, $projectId.tsx
also cares about the search params. That's why Remix does the safest thing and reloads all the routes on the page when the search params change.
In this UI, that's wasted bandwidth for the user, your server, and your database because $projectId.tsx
doesn't use the search params. Consider that our loader for $projectId.tsx
looks something like this:
export function loader({ params }) {
return fakedb.findProject(params.projectId);
}
We want this loader to be called only if the project has had an update, so we can make this really simple and just say to reload if there is a non-GET submission:
export function unstable_shouldReload({ submission }) {
return submission && submission.method !== "GET";
}
Now if the child route causes the search params to change, this route will no longer be reloaded because there was no submission.
You may want to get more granular and reload only for submissions to this project:
export function unstable_shouldReload({
params,
submission
}) {
return (
submission &&
submission.action === `/projects/${params.projectId}`
);
}
You need to be very careful here, though. That project (or its nested relationships) may be updated by other actions and your app will get out of sync if you don't also consider them.
Any files inside the app
folder can be imported into your modules. Remix will:
It's most common for stylesheets, but can used for anything.
// root.tsx
import type { LinksFunction } from "remix";
import styles from "./styles/app.css";
import banner from "./images/banner.jpg";
export let links: LinksFunction = () => {
return [{ rel: "stylesheet", href: styles }];
};
export default function Page() {
return (
<div>
<h1>Some Page</h1>
<img src={banner} />
</div>
);
}