Shallow version of ref().
Type
function shallowRef<T>(value: T): ShallowRef<T>
interface ShallowRef<T> {
value: T
}
Details
Unlike ref(), the inner value of a shallow ref is stored and exposed as-is, and will not be made deeply reactive. Only the .value access is reactive.
shallowRef() is typically used for performance optimizations of large data structures, or integration with external state management systems.
Example
const state = shallowRef({ count: 1 })
// does NOT trigger change
state.value.count = 2
// does trigger change
state.value = { count: 2 }
See also
Force trigger effects that depends on a shallow ref. This is typically used after making deep mutations to the inner value of a shallow ref.
Type
function triggerRef(ref: ShallowRef): void
Example
const shallow = shallowRef({
greet: 'Hello, world'
})
// Logs "Hello, world" once for the first run-through
watchEffect(() => {
console.log(shallow.value.greet)
})
// This won't trigger the effect because the ref is shallow
shallow.value.greet = 'Hello, universe'
// Logs "Hello, universe"
triggerRef(shallow)
Creates a customized ref with explicit control over its dependency tracking and updates triggering.
Type
function customRef<T>(factory: CustomRefFactory<T>): Ref<T>
type CustomRefFactory<T> = (
track: () => void,
trigger: () => void
) => {
get: () => T
set: (value: T) => void
}
Details
customRef() expects a factory function, which receives track and trigger functions as arguments and should return an object with get and set methods.
In general, track() should be called inside get(), and trigger() should be called inside set(). However, you have full control over when they should be called, or whether they should be called at all.
Example
Creating a debounced ref that only updates the value after a certain timeout after the latest set call:
import { customRef } from 'vue'
export function useDebouncedRef(value, delay = 200) {
let timeout
return customRef((track, trigger) => {
return {
get() {
track()
return value
},
set(newValue) {
clearTimeout(timeout)
timeout = setTimeout(() => {
value = newValue
trigger()
}, delay)
}
}
})
}
Usage in component:
<script setup>
import { useDebouncedRef } from './debouncedRef'
const text = useDebouncedRef('hello')
</script>
<template>
<input v-model="text" />
</template>
Shallow version of reactive().
Type
function shallowReactive<T extends object>(target: T): T
Details
Unlike reactive(), there is no deep conversion: only root-level properties are reactive for a shallow reactive object. Property values are stored and exposed as-is - this also means properties with ref values will not be automatically unwrapped.
Shallow data structures should only be used for root level state in a component. Avoid nesting it inside a deep reactive object as it creates a tree with inconsistent reactivity behavior which can be difficult to understand and debug.
Example
const state = shallowReactive({
foo: 1,
nested: {
bar: 2
}
})
// mutating state's own properties is reactive
state.foo++
// ...but does not convert nested objects
isReactive(state.nested) // false
// NOT reactive
state.nested.bar++
Shallow version of readonly().
Type
function shallowReadonly<T extends object>(target: T): Readonly<T>
Details
Unlike readonly(), there is no deep conversion: only root-level properties are made readonly. Property values are stored and exposed as-is - this also means properties with ref values will not be automatically unwrapped.
Shallow data structures should only be used for root level state in a component. Avoid nesting it inside a deep reactive object as it creates a tree with inconsistent reactivity behavior which can be difficult to understand and debug.
Example
const state = shallowReadonly({
foo: 1,
nested: {
bar: 2
}
})
// mutating state's own properties will fail
state.foo++
// ...but works on nested objects
isReadonly(state.nested) // false
// works
state.nested.bar++
Returns the raw, original object of a Vue-created proxy.
Type
function toRaw<T>(proxy: T): T
Details
toRaw() can return the original object from proxies created by reactive(), readonly(), shallowReactive() or shallowReadonly().
This is an escape hatch that can be used to temporarily read without incurring proxy access / tracking overhead or write without triggering changes. It is not recommended to hold a persistent reference to the original object. Use with caution.
Example
const foo = {}
const reactiveFoo = reactive(foo)
console.log(toRaw(reactiveFoo) === foo) // true
Marks an object so that it will never be converted to a proxy. Returns the object itself.
Type
function markRaw<T extends object>(value: T): T
Example
const foo = markRaw({})
console.log(isReactive(reactive(foo))) // false
// also works when nested inside other reactive objects
const bar = reactive({ foo })
console.log(isReactive(bar.foo)) // false
markRaw() and shallow APIs such as shallowReactive() allow you to selectively opt-out of the default deep reactive/readonly conversion and embed raw, non-proxied objects in your state graph. They can be used for various reasons:
Some values simply should not be made reactive, for example a complex 3rd party class instance, or a Vue component object.
Skipping proxy conversion can provide performance improvements when rendering large lists with immutable data sources.
They are considered advanced because the raw opt-out is only at the root level, so if you set a nested, non-marked raw object into a reactive object and then access it again, you get the proxied version back. This can lead to identity hazards - i.e. performing an operation that relies on object identity but using both the raw and the proxied version of the same object:
const foo = markRaw({
nested: {}
})
const bar = reactive({
// although `foo` is marked as raw, foo.nested is not.
nested: foo.nested
})
console.log(foo.nested === bar.nested) // false
Identity hazards are in general rare. However, to properly utilize these APIs while safely avoiding identity hazards requires a solid understanding of how the reactivity system works.
Creates an effect scope object which can capture the reactive effects (i.e. computed and watchers) created within it so that these effects can be disposed together. For detailed use cases of this API, please consult its corresponding RFC.
Type
function effectScope(detached?: boolean): EffectScope
interface EffectScope {
run<T>(fn: () => T): T | undefined // undefined if scope is inactive
stop(): void
}
Example
const scope = effectScope()
scope.run(() => {
const doubled = computed(() => counter.value * 2)
watch(doubled, () => console.log(doubled.value))
watchEffect(() => console.log('Count: ', doubled.value))
})
// to dispose all effects in the scope
scope.stop()
Returns the current active effect scope if there is one.
Type
function getCurrentScope(): EffectScope | undefined
Registers a dispose callback on the current active effect scope. The callback will be invoked when the associated effect scope is stopped.
This method can be used as a non-component-coupled replacement of onUnmounted in reusable composition functions, since each Vue component's setup() function is also invoked in an effect scope.
Type
function onScopeDispose(fn: () => void): void
© 2013–present Yuxi Evan You
Licensed under the MIT License.
https://vuejs.org/api/reactivity-advanced