Skip to content
On this page

HMR API

Note

This is the client HMR API. For handling HMR update in plugins, see handleHotUpdate.

The manual HMR API is primarily intended for framework and tooling authors. As an end user, HMR is likely already handled for you in the framework specific starter templates.

Vite exposes its manual HMR API via the special import.meta.hot object:

ts
interface ImportMeta {
  readonly hot?: ViteHotContext
}

type ModuleNamespace = Record<string, any> & {
  [Symbol.toStringTag]: 'Module'
}

interface ViteHotContext {
  readonly data: any

  accept(): void
  accept(cb: (mod: ModuleNamespace | undefined) => void): void
  accept(dep: string, cb: (mod: ModuleNamespace | undefined) => void): void
  accept(
    deps: readonly string[],
    cb: (mods: Array<ModuleNamespace | undefined>) => void,
  ): void

  dispose(cb: (data: any) => void): void
  prune(cb: (data: any) => void): void
  invalidate(message?: string): void

  // `InferCustomEventPayload` provides types for built-in Vite events
  on<T extends string>(
    event: T,
    cb: (payload: InferCustomEventPayload<T>) => void,
  ): void
  send<T extends string>(event: T, data?: InferCustomEventPayload<T>): void
}

Required Conditional Guard

First of all, make sure to guard all HMR API usage with a conditional block so that the code can be tree-shaken in production:

js
if (import.meta.hot) {
  // HMR code
}

hot.accept(cb)

For a module to self-accept, use import.meta.hot.accept with a callback which receives the updated module:

js
export const count = 1

if (import.meta.hot) {
  import.meta.hot.accept((newModule) => {
    if (newModule) {
      // newModule is undefined when SyntaxError happened
      console.log('updated: count is now ', newModule.count)
    }
  })
}

A module that "accepts" hot updates is considered an HMR boundary.

Vite's HMR does not actually swap the originally imported module: if an HMR boundary module re-exports imports from a dep, then it is responsible for updating those re-exports (and these exports must be using let). In addition, importers up the chain from the boundary module will not be notified of the change. This simplified HMR implementation is sufficient for most dev use cases, while allowing us to skip the expensive work of generating proxy modules.

Vite requires that the call to this function appears as import.meta.hot.accept( (whitespace-sensitive) in the source code in order for the module to accept update. This is a requirement of the static analysis that Vite does to enable HMR support for a module.

hot.accept(deps, cb)

A module can also accept updates from direct dependencies without reloading itself:

js
import { foo } from './foo.js'

foo()

if (import.meta.hot) {
  import.meta.hot.accept('./foo.js', (newFoo) => {
    // the callback receives the updated './foo.js' module
    newFoo?.foo()
  })

  // Can also accept an array of dep modules:
  import.meta.hot.accept(
    ['./foo.js', './bar.js'],
    ([newFooModule, newBarModule]) => {
      // The callback receives an array where only the updated module is non null
      // If the update was not successful (syntax error for ex.), the array is empty
    },
  )
}

hot.dispose(cb)

A self-accepting module or a module that expects to be accepted by others can use hot.dispose to clean-up any persistent side effects created by its updated copy:

js
function setupSideEffect() {}

setupSideEffect()

if (import.meta.hot) {
  import.meta.hot.dispose((data) => {
    // cleanup side effect
  })
}

hot.prune(cb)

Register a callback that will call when the module is no longer imported on the page. Compared to hot.dispose, this can be used if the source code cleans up side-effects by itself on updates and you only need to clean-up when it's removed from the page. Vite currently uses this for .css imports.

js
function setupOrReuseSideEffect() {}

setupOrReuseSideEffect()

if (import.meta.hot) {
  import.meta.hot.prune((data) => {
    // cleanup side effect
  })
}

hot.data

The import.meta.hot.data object is persisted across different instances of the same updated module. It can be used to pass on information from a previous version of the module to the next one.

hot.decline()

This is currently a noop and is there for backward compatibility. This could change in the future if there is a new usage for it. To indicate that the module is not hot-updatable, use hot.invalidate().

hot.invalidate(message?: string)

A self-accepting module may realize during runtime that it can't handle a HMR update, and so the update needs to be forcefully propagated to importers. By calling import.meta.hot.invalidate(), the HMR server will invalidate the importers of the caller, as if the caller wasn't self-accepting. This will log a message both in the browser console and in the terminal. You can pass a message to give some context on why the invalidation happened.

Note that you should always call import.meta.hot.accept even if you plan to call invalidate immediately afterwards, or else the HMR client won't listen for future changes to the self-accepting module. To communicate your intent clearly, we recommend calling invalidate within the accept callback like so:

js
import.meta.hot.accept((module) => {
  // You may use the new module instance to decide whether to invalidate.
  if (cannotHandleUpdate(module)) {
    import.meta.hot.invalidate()
  }
})

hot.on(event, cb)

Listen to an HMR event.

The following HMR events are dispatched by Vite automatically:

  • 'vite:beforeUpdate' when an update is about to be applied (e.g. a module will be replaced)
  • 'vite:afterUpdate' when an update has just been applied (e.g. a module has been replaced)
  • 'vite:beforeFullReload' when a full reload is about to occur
  • 'vite:beforePrune' when modules that are no longer needed are about to be pruned
  • 'vite:invalidate' when a module is invalidated with import.meta.hot.invalidate()
  • 'vite:error' when an error occurs (e.g. syntax error)

Custom HMR events can also be sent from plugins. See handleHotUpdate for more details.

hot.send(event, data)

Send custom events back to Vite's dev server.

If called before connected, the data will be buffered and sent once the connection is established.

See Client-server Communication for more details.

Released under the MIT License. (d953536a)