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The svelte package exposes lifecycle functions and the context API.

onMount

ts
function onMount<T>(
fn: () =>
| NotFunction<T>
| Promise<NotFunction<T>>
| (() => any)
): void;

The onMount function schedules a callback to run as soon as the component has been mounted to the DOM. It must be called during the component's initialisation (but doesn't need to live inside the component; it can be called from an external module).

onMount does not run inside a server-side component.

<script>
  import { onMount } from 'svelte';

  onMount(() => {
    console.log('the component has mounted');
  });
</script>

If a function is returned from onMount, it will be called when the component is unmounted.

<script>
  import { onMount } from 'svelte';

  onMount(() => {
    const interval = setInterval(() => {
      console.log('beep');
    }, 1000);

    return () => clearInterval(interval);
  });
</script>

This behaviour will only work when the function passed to onMount synchronously returns a value. async functions always return a Promise, and as such cannot synchronously return a function.

beforeUpdate

ts
function beforeUpdate(fn: () => any): void;

Schedules a callback to run immediately before the component is updated after any state change.

The first time the callback runs will be before the initial onMount

<script>
  import { beforeUpdate } from 'svelte';

  beforeUpdate(() => {
    console.log('the component is about to update');
  });
</script>

afterUpdate

ts
function afterUpdate(fn: () => any): void;

Schedules a callback to run immediately after the component has been updated.

The first time the callback runs will be after the initial onMount

<script>
  import { afterUpdate } from 'svelte';

  afterUpdate(() => {
    console.log('the component just updated');
  });
</script>

onDestroy

ts
function onDestroy(fn: () => any): void;

Schedules a callback to run immediately before the component is unmounted.

Out of onMount, beforeUpdate, afterUpdate and onDestroy, this is the only one that runs inside a server-side component.

<script>
  import { onDestroy } from 'svelte';

  onDestroy(() => {
    console.log('the component is being destroyed');
  });
</script>

tick

ts
function tick(): Promise<void>;

Returns a promise that resolves once any pending state changes have been applied, or in the next microtask if there are none.

<script>
  import { beforeUpdate, tick } from 'svelte';

  beforeUpdate(async () => {
    console.log('the component is about to update');
    await tick();
    console.log('the component just updated');
  });
</script>

setContext

ts
function setContext<T>(key: any, context: T): T;

Associates an arbitrary context object with the current component and the specified key and returns that object. The context is then available to children of the component (including slotted content) with getContext.

Like lifecycle functions, this must be called during component initialisation.

<script>
  import { setContext } from 'svelte';

  setContext('answer', 42);
</script>

Context is not inherently reactive. If you need reactive values in context then you can pass a store into context, which will be reactive.

getContext

ts
function getContext<T>(key: any): T;

Retrieves the context that belongs to the closest parent component with the specified key. Must be called during component initialisation.

<script>
  import { getContext } from 'svelte';

  const answer = getContext('answer');
</script>

hasContext

ts
function hasContext(key: any): boolean;

Checks whether a given key has been set in the context of a parent component. Must be called during component initialisation.

<script>
  import { hasContext } from 'svelte';

  if (hasContext('answer')) {
    // do something
  }
</script>

getAllContexts

ts
function getAllContexts<
T extends Map<any, any> = Map<any, any>
>(): T;

Retrieves the whole context map that belongs to the closest parent component. Must be called during component initialisation. Useful, for example, if you programmatically create a component and want to pass the existing context to it.

<script>
  import { getAllContexts } from 'svelte';

  const contexts = getAllContexts();
</script>

createEventDispatcher

ts
function createEventDispatcher<
EventMap extends Record<string, any> = any
>(): EventDispatcher<EventMap>;

Creates an event dispatcher that can be used to dispatch component events. Event dispatchers are functions that can take two arguments: name and detail.

Component events created with createEventDispatcher create a CustomEvent. These events do not bubble. The detail argument corresponds to the CustomEvent.detail property and can contain any type of data.

<script>
  import { createEventDispatcher } from 'svelte';

  const dispatch = createEventDispatcher();
</script>

<button on:click={() => dispatch('notify', 'detail value')}>Fire Event</button>

Events dispatched from child components can be listened to in their parent. Any data provided when the event was dispatched is available on the detail property of the event object.

<script>
  function callbackFunction(event) {
    console.log(`Notify fired! Detail: ${event.detail}`);
  }
</script>

<Child on:notify={callbackFunction} />

Events can be cancelable by passing a third parameter to the dispatch function. The function returns false if the event is cancelled with event.preventDefault(), otherwise it returns true.

<script>
  import { createEventDispatcher } from 'svelte';

  const dispatch = createEventDispatcher();

  function notify() {
    const shouldContinue = dispatch('notify', 'detail value', { cancelable: true });
    if (shouldContinue) {
      // no one called preventDefault
    } else {
      // a listener called preventDefault
    }
  }
</script>

You can type the event dispatcher to define which events it can receive. This will make your code more type safe both within the component (wrong calls are flagged) and when using the component (types of the events are now narrowed). See here how to do it.

Types

ComponentConstructorOptions

ts
interface ComponentConstructorOptions<
Props extends Record<string, any> = Record<string, any>
> {}
ts
target: Element | Document | ShadowRoot;
ts
anchor?: Element;
ts
props?: Props;
ts
context?: Map<any, any>;
ts
hydrate?: boolean;
ts
intro?: boolean;
ts
$$inline?: boolean;

ComponentEvents

Convenience type to get the events the given component expects. Example:

<script lang="ts">
   import type { ComponentEvents } from 'svelte';
   import Component from './Component.svelte';

   function handleCloseEvent(event: ComponentEvents<Component>['close']) {
    console.log(event.detail);
   }
</script>

<Component on:close={handleCloseEvent} />
ts
type ComponentEvents<Component extends SvelteComponent_1> =
Component extends SvelteComponent<any, infer Events>
? Events
: never;

ComponentProps

Convenience type to get the props the given component expects. Example:

<script lang="ts">
  import type { ComponentProps } from 'svelte';
  import Component from './Component.svelte';

  const props: ComponentProps<Component> = { foo: 'bar' }; // Errors if these aren't the correct props
</script>
ts
type ComponentProps<Component extends SvelteComponent_1> =
Component extends SvelteComponent<infer Props>
? Props
: never;

ComponentType

Convenience type to get the type of a Svelte component. Useful for example in combination with dynamic components using <svelte:component>.

Example:

<script lang="ts">
  import type { ComponentType, SvelteComponent } from 'svelte';
  import Component1 from './Component1.svelte';
  import Component2 from './Component2.svelte';

  const component: ComponentType = someLogic() ? Component1 : Component2;
  const componentOfCertainSubType: ComponentType<SvelteComponent<{ needsThisProp: string }>> = someLogic() ? Component1 : Component2;
</script>

<svelte:component this={component} />
<svelte:component this={componentOfCertainSubType} needsThisProp="hello" />
ts
type ComponentType<
Component extends SvelteComponent = SvelteComponent
> = (new (
Component extends SvelteComponent<infer Props>
? Props
: Record<string, any>
>
) => Component) & {
/** The custom element version of the component. Only present if compiled with the `customElement` compiler option */
element?: typeof HTMLElement;
};

SvelteComponent

Base class for Svelte components with some minor dev-enhancements. Used when dev=true.

Can be used to create strongly typed Svelte components.

Example:

You have component library on npm called component-library, from which you export a component called MyComponent. For Svelte+TypeScript users, you want to provide typings. Therefore you create a index.d.ts:

ts
import { SvelteComponent } from "svelte";
export class MyComponent extends SvelteComponent<{foo: string}> {}

Typing this makes it possible for IDEs like VS Code with the Svelte extension to provide intellisense and to use the component like this in a Svelte file with TypeScript:

<script lang="ts">
  import { MyComponent } from "component-library";
</script>
<MyComponent foo={'bar'} />
ts
Props extends Record<string, any> = any,
Events extends Record<string, any> = any,
Slots extends Record<string, any> = any
> extends SvelteComponent_1<Props, Events> {}
ts
[prop: string]: any;
ts
constructor(options: ComponentConstructorOptions<Props>);
ts
$capture_state(): void;
ts
$inject_state(): void;

SvelteComponentTyped

Use SvelteComponent instead. See PR for more information: https://github.com/sveltejs/svelte/pull/8512

ts
class SvelteComponentTyped<
Props extends Record<string, any> = any,
Events extends Record<string, any> = any,
Slots extends Record<string, any> = any
> extends SvelteComponent<Props, Events, Slots> {}