Routing
Edit this page on GitHubAt the heart of SvelteKit is a filesystem-based router. This means that the structure of your application is defined by the structure of your codebase — specifically, the contents of src/routes
.
You can change this to a different directory by editing the project config.
There are two types of route — pages and endpoints.
Pages typically generate HTML to display to the user (as well as any CSS and JavaScript needed for the page). By default, pages are rendered on both the client and server, though this behaviour is configurable.
Endpoints run only on the server (or when you build your site, if prerendering). This means it's the place to do things like access databases or APIs that require private credentials or return data that lives on a machine in your production network. Pages can request data from endpoints. Endpoints return JSON by default, though may also return data in other formats.
Pagespermalink
Pages are Svelte components written in .svelte
files (or any file with an extension listed in config.extensions
). By default, when a user first visits the application, they will be served a server-rendered version of the page in question, plus some JavaScript that 'hydrates' the page and initialises a client-side router. From that point forward, navigating to other pages is handled entirely on the client for a fast, app-like feel where the common portions in the layout do not need to be rerendered.
The filename determines the route. For example, src/routes/index.svelte
is the root of your site:
src/routes/index.svelte
<svelte:head>
<title>Welcome</title>
</svelte:head>
<h1>Hello and welcome to my site!</h1>
A file called either src/routes/about.svelte
or src/routes/about/index.svelte
would correspond to the /about
route:
src/routes/about.svelte
<svelte:head>
<title>About</title>
</svelte:head>
<h1>About this site</h1>
<p>TODO...</p>
Dynamic parameters are encoded using [brackets]
. For example, a blog post might be defined by src/routes/blog/[slug].svelte
. These parameters can be accessed in a load
function or via the page
store.
A file or directory can have multiple dynamic parts, like [id]-[category].svelte
. (Parameters are 'non-greedy'; in an ambiguous case like x-y-z
, id
would be x
and category
would be y-z
.)
Endpointspermalink
Endpoints are modules written in .js
(or .ts
) files that export functions corresponding to HTTP methods. Their job is to allow pages to read and write data that is only available on the server (for example in a database, or on the filesystem).
If an endpoint has the same filename as a page (except for the extension), the page will get its props from the endpoint. So a page like src/routes/items/[id].svelte
could get its props from this file:
src/routes/items/[id].js
ts
importdb from '$lib/database';export async functionget ({params }) {// `params.id` comes from [id].jsconstitem = awaitdb .get (params .id );if (item ) {return {body : {item }};}return {status : 404};};
All server-side code, including endpoints, has access to
fetch
in case you need to request data from external APIs. Don't worry about the$lib
import, we'll get to that later.
The job of this function is to return a { status, headers, body }
object representing the response, where status
is an HTTP status code:
2xx
— successful response (default is200
)3xx
— redirection (should be accompanied by alocation
header)4xx
— client error5xx
— server error
If
{fallthrough: true}
is returned SvelteKit will fall through to other routes until something responds, or will respond with a generic 404.
The returned body
corresponds to the page's props:
src/routes/items/[id].svelte
<script>
// populated with data from the endpoint export let item;
</script>
<h1>{item.title}</h1>
POST, PUT, PATCH, DELETEpermalink
Endpoints can handle any HTTP method — not just GET
— by exporting the corresponding function:
ts
export functionpost (event ) {...}export functionput (event ) {...}export functionpatch (event ) {...}export functiondel (event ) {...} // `delete` is a reserved word
These functions can, like get
, return a body
that will be passed to the page as props. Whereas 4xx/5xx responses from get
will result in an error page rendering, similar responses to non-GET requests do not, allowing you to do things like render form validation errors:
src/routes/items.js
ts
import * asdb from '$lib/database';export async functionget () {constitems = awaitdb .list ();return {body : {items }};}export async functionpost ({request }) {const [errors ,item ] = awaitdb .create (request );if (errors ) {// return validation errorsreturn {status : 400,body : {errors }};}// redirect to the newly created itemreturn {status : 303,headers : {location : `/items/${item .id }`}};}
src/routes/items.svelte
<script>
// The page always has access to props from `get`... export let items;
// ...plus props from `post` when the page is rendered // in response to a POST request, for example after // submitting the form below export let errors;
</script>
{#each items as item}
<Preview item={item}/>
{/each}
<form method="post">
<input name="title">
{#if errors?.title}
<p class="error">{errors.title}</p>
{/if}
<button type="submit">Create item</button>
</form>
If you request the route with an accept: application/json
header, SvelteKit will render the endpoint data as JSON, rather than the page as HTML.
Body parsingpermalink
The request
object is an instance of the standard Request class. As such, accessing the request body is easy:
ts
export async functionpost ({request }) {constdata = awaitrequest .formData (); // or .json(), or .text(), etcawaitcreate (data );return {status : 201 };}
Setting cookiespermalink
Endpoints can set cookies by returning a headers
object with set-cookie
. To set multiple cookies simultaneously, return an array:
ts
export functionget () {return {headers : {'set-cookie': [cookie1 ,cookie2 ]}};}
HTTP method overridespermalink
HTML <form>
elements only support GET
and POST
methods natively. You can allow other methods, like PUT
and DELETE
, by specifying them in your configuration and adding a _method=VERB
parameter (you can configure the name) to the form's action
:
svelte.config.js
ts
constconfig = {kit : {methodOverride : {allowed : ['PUT', 'PATCH', 'DELETE']}}};export defaultconfig ;
<form method="post" action="/todos/{id}?_method=PUT">
<!-- form elements --></form>
Using native
<form>
behaviour ensures your app continues to work when JavaScript fails or is disabled.
Standalone endpointspermalink
Most commonly, endpoints exist to provide data to the page with which they're paired. They can, however, exist separately from pages. Standalone endpoints have slightly more flexibility over the returned body
type — in addition to objects, they can return a string or a Uint8Array
.
Support for streaming request and response bodies is coming soon.
Private modulespermalink
Files and directories with a leading _
or .
(other than .well-known
) are private by default, meaning that they do not create routes (but can be imported by files that do). You can configure which modules are considered public or private with the routes
configuration.
Advanced routingpermalink
Rest parameterspermalink
A route can have multiple dynamic parameters, for example src/routes/[category]/[item].svelte
or even src/routes/[category]-[item].svelte
. (Parameters are 'non-greedy'; in an ambiguous case like /x-y-z
, category
would be x
and item
would be y-z
.) If the number of route segments is unknown, you can use rest syntax — for example you might implement GitHub's file viewer like so...
/[org]/[repo]/tree/[branch]/[...file]
...in which case a request for /sveltejs/kit/tree/master/documentation/docs/01-routing.md
would result in the following parameters being available to the page:
ts
{org: 'sveltejs',repo : 'kit',branch : 'master',file : 'documentation/docs/01-routing.md'}
src/routes/a/[...rest]/z.svelte
will match/a/z
as well as/a/b/z
and/a/b/c/z
and so on. Make sure you check that the value of the rest parameter is valid.
Sortingpermalink
It's possible for multiple routes to match a given path. For example each of these routes would match /foo-abc
:
src/routes/[a].js
src/routes/[b].svelte
src/routes/[c].svelte
src/routes/[...catchall].svelte
src/routes/foo-[bar].svelte
SvelteKit needs to know which route is being requested. To do so, it sorts them according to the following rules...
- More specific routes are higher priority
- Standalone endpoints have higher priority than pages with the same specificity
- Rest parameters have lowest priority
- Ties are resolved alphabetically
...resulting in this ordering, meaning that /foo-abc
will invoke src/routes/foo-[bar].svelte
rather than a less specific route:
src/routes/foo-[bar].svelte
src/routes/[a].js
src/routes/[b].svelte
src/routes/[c].svelte
src/routes/[...catchall].svelte
Fallthrough routespermalink
In rare cases, the ordering above might not be what you want for a given path. For example, perhaps /foo-abc
should resolve to src/routes/foo-[bar].svelte
, but /foo-def
should resolve to src/routes/[b].svelte
.
Higher priority routes can fall through to lower priority routes by returning { fallthrough: true }
, either from load
(for pages) or a request handler (for endpoints):
src/routes/foo-[bar].svelte
<script context="module">
export function load({ params }) {
if (params.bar === 'def') {
return { fallthrough: true };
}
// ... }
</script>
src/routes/[a].js
ts
export functionFunction lacks ending return statement and return type does not include 'undefined'.2366Function lacks ending return statement and return type does not include 'undefined'.({ get params }) {if (params .a === 'foo-def') {return {fallthrough : true };}// ...}