Options: Lifecycle
See also
For shared usage of lifecycle hooks, see Guide - Lifecycle Hooks
beforeCreate
Called when the instance is initialized.
Type
tsinterface ComponentOptions { beforeCreate?(this: ComponentPublicInstance): void }
Details
Called immediately when the instance is initialized, after props resolution, before processing other options such as
data()
orcomputed
.Note that the
setup()
hook of Composition API is called before any Options API hooks, evenbeforeCreate()
.
created
Called after the instance has finished processing all state-related options.
Type
tsinterface ComponentOptions { created?(this: ComponentPublicInstance): void }
Details
When this hooks is called, the following have been set up: reactive data, computed properties, methods, and watchers. However, the mounting phase has not been started, and the
$el
property will not be available yet.
beforeMount
Called right before the component is to be mounted.
Type
tsinterface ComponentOptions { beforeMount?(this: ComponentPublicInstance): void }
Details
When this hook is called, the component has finished setting up its reactive state, but no DOM nodes have been created yet. It is about to execute its DOM render effect for the first time.
This hook is not called during server-side rendering.
mounted
Called after the component has been mounted.
Type
tsinterface ComponentOptions { mounted?(this: ComponentPublicInstance): void }
Details
A component is considered mounted after:
All of its synchronous child components have been mounted (does not include async components or components inside
<Suspense>
trees).Its own DOM tree has been created and inserted into the parent container. Note it only guarantees that the component's DOM tree is in-document if the application's root container is also in-document.
This hook is typically used for performing side effects that need access to the component's rendered DOM, or for limiting DOM-related code to the client in a server-rendered application.
This hook is not called during server-side rendering.
beforeUpdate
Called right before the component is about to update its DOM tree due to a reactive state change.
Type
tsinterface ComponentOptions { beforeUpdate?(this: ComponentPublicInstance): void }
Details
This hook can be used to access the DOM state before Vue updates the DOM. It is also safe to modify component state inside this hook.
This hook is not called during server-side rendering.
updated
Called after the component has updated its DOM tree due to a reactive state change.
Type
tsinterface ComponentOptions { updated?(this: ComponentPublicInstance): void }
Details
A parent component's updated hook is called after that of its child components.
This hook is called after any DOM update of the component, which can be caused by different state changes. If you need to access the updated DOM after a specific state change, use nextTick() instead.
This hook is not called during server-side rendering.
WARNING
Do not mutate component state in the updated hook - this will likely lead to an infinite update loop!
beforeUnmount
Called right before a component instance is to be unmounted.
Type
tsinterface ComponentOptions { beforeUnmount?(this: ComponentPublicInstance): void }
Details
When this hook is called, the component instance is still fully functional.
This hook is not called during server-side rendering.
unmounted
Called after the component has been unmounted.
Type
tsinterface ComponentOptions { unmounted?(this: ComponentPublicInstance): void }
Details
A component is considered unmounted after:
All of its child components have been unmounted.
All of its associated reactive effects (render effect and computed / watchers created during
setup()
) have been stopped.
Use this hook to clean up manually created side effects such as timers, DOM event listeners or server connections.
This hook is not called during server-side rendering.
errorCaptured
Called when an error propagating from a descendant component has been captured.
Type
tsinterface ComponentOptions { errorCaptured?( this: ComponentPublicInstance, err: unknown, instance: ComponentPublicInstance | null, info: string ): boolean | void }
Details
Errors can be captured from the following sources:
- Component renders
- Event handlers
- Lifecycle hooks
setup()
function- Watchers
- Custom directive hooks
- Transition hooks
The hook receives three arguments: the error, the component instance that triggered the error, and an information string specifying the error source type.
You can modify component state in
errorCaptured()
to display an error state to the user. However, it is important that the error state should not render the original content that caused the error; otherwise the component will be thrown into an infinite render loop.The hook can return
false
to stop the error from propagating further. See error propagation details below.Error Propagation Rules
By default, all errors are still sent to the application-level
app.config.errorHandler
if it is defined, so that these errors can still be reported to an analytics service in a single place.If multiple
errorCaptured
hooks exist on a component's inheritance chain or parent chain, all of them will be invoked on the same error, in the order of bottom to top. This is similar to the bubbling mechanism of native DOM events.If the
errorCaptured
hook itself throws an error, both this error and the original captured error are sent toapp.config.errorHandler
.An
errorCaptured
hook can returnfalse
to prevent the error from propagating further. This is essentially saying "this error has been handled and should be ignored." It will prevent any additionalerrorCaptured
hooks orapp.config.errorHandler
from being invoked for this error.
renderTracked
Called when a reactive dependency has been tracked by the component's render effect.
This hook is development-mode-only and not called during server-side rendering.
Type
tsinterface ComponentOptions { renderTracked?(this: ComponentPublicInstance, e: DebuggerEvent): void } type DebuggerEvent = { effect: ReactiveEffect target: object type: TrackOpTypes /* 'get' | 'has' | 'iterate' */ key: any }
See also: Reactivity in Depth
renderTriggered
Called when a reactive dependency triggers the component's render effect to be re-run.
This hook is development-mode-only and not called during server-side rendering.
Type
tsinterface ComponentOptions { renderTriggered?(this: ComponentPublicInstance, e: DebuggerEvent): void } type DebuggerEvent = { effect: ReactiveEffect target: object type: TriggerOpTypes /* 'set' | 'add' | 'delete' | 'clear' */ key: any newValue?: any oldValue?: any oldTarget?: Map<any, any> | Set<any> }
See also: Reactivity in Depth
activated
Called after the component instance is inserted into the DOM as part of a tree cached by <KeepAlive>
.
This hook is not called during server-side rendering.
Type
tsinterface ComponentOptions { activated?(this: ComponentPublicInstance): void }
See also: Guide - Lifecycle of Cached Instance
deactivated
Called after the component instance is removed from the DOM as part of a tree cached by <KeepAlive>
.
This hook is not called during server-side rendering.
Type
tsinterface ComponentOptions { deactivated?(this: ComponentPublicInstance): void }
See also: Guide - Lifecycle of Cached Instance
serverPrefetch
Async function to be resolved before the component instance is to be rendered on the server.
Type
tsinterface ComponentOptions { serverPrefetch?(this: ComponentPublicInstance): Promise<any> }
Details
If the hook returns a Promise, the server renderer will wait until the Promise is resolved before rendering the component.
This hook is only called during server-side rendering can be used to perform server-only data fetching.
Example
jsexport default { data() { return { data: null } }, async serverPrefetch() { // component is rendered as part of the initial request // pre-fetch data on server as it is faster than on the client this.data = await fetchOnServer(/* ... */) }, async mounted() { if (!this.data) { // if data is null on mount, it means the component // is dynamically rendered on the client. Perform a // client-side fetch instead. this.data = await fetchOnClient(/* ... */) } } }
See also: Server-Side Rendering