# Refs
This section uses single-file component syntax for code examples
# ref
Takes an inner value and returns a reactive and mutable ref object. The ref object has a single property .value
that points to the inner value.
Example:
const count = ref(0)
console.log(count.value) // 0
count.value++
console.log(count.value) // 1
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If an object is assigned as a ref's value, the object is made deeply reactive by the reactive method.
Typing:
interface Ref<T> {
value: T
}
function ref<T>(value: T): Ref<T>
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Sometimes we may need to specify complex types for a ref's inner value. We can do that succinctly by passing a generics argument when calling ref
to override the default inference:
const foo = ref<string | number>('foo') // foo's type: Ref<string | number>
foo.value = 123 // ok!
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If the type of the generic is unknown, it's recommended to cast ref
to Ref<T>
:
function useState<State extends string>(initial: State) {
const state = ref(initial) as Ref<State> // state.value -> State extends string
return state
}
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# unref
Returns the inner value if the argument is a ref
, otherwise return the argument itself. This is a sugar function for val = isRef(val) ? val.value : val
.
function useFoo(x: number | Ref<number>) {
const unwrapped = unref(x) // unwrapped is guaranteed to be number now
}
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# toRef
Can be used to create a ref
for a property on a source reactive object. The ref can then be passed around, retaining the reactive connection to its source property.
const state = reactive({
foo: 1,
bar: 2
})
const fooRef = toRef(state, 'foo')
fooRef.value++
console.log(state.foo) // 2
state.foo++
console.log(fooRef.value) // 3
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toRef
is useful when you want to pass the ref of a prop to a composition function:
export default {
setup(props) {
useSomeFeature(toRef(props, 'foo'))
}
}
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toRef
will return a usable ref even if the source property doesn't currently exist. This makes it especially useful when working with optional props, which wouldn't be picked up by toRefs
.
# toRefs
Converts a reactive object to a plain object where each property of the resulting object is a ref
pointing to the corresponding property of the original object.
const state = reactive({
foo: 1,
bar: 2
})
const stateAsRefs = toRefs(state)
/*
Type of stateAsRefs:
{
foo: Ref<number>,
bar: Ref<number>
}
*/
// The ref and the original property is "linked"
state.foo++
console.log(stateAsRefs.foo.value) // 2
stateAsRefs.foo.value++
console.log(state.foo) // 3
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toRefs
is useful when returning a reactive object from a composition function so that the consuming component can destructure/spread the returned object without losing reactivity:
function useFeatureX() {
const state = reactive({
foo: 1,
bar: 2
})
// logic operating on state
// convert to refs when returning
return toRefs(state)
}
export default {
setup() {
// can destructure without losing reactivity
const { foo, bar } = useFeatureX()
return {
foo,
bar
}
}
}
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toRefs
will only generate refs for properties that are included in the source object. To create a ref for a specific property use toRef
instead.
# isRef
Checks if a value is a ref object.
# customRef
Creates a customized ref with explicit control over its dependency tracking and updates triggering. It expects a factory function, which receives track
and trigger
functions as arguments and should return an object with get
and set
.
Example using a custom ref to implement debounce with
v-model
:<input v-model="text" />
1function 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) } } }) } export default { setup() { return { text: useDebouncedRef('hello') } } }
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Typing:
function customRef<T>(factory: CustomRefFactory<T>): Ref<T>
type CustomRefFactory<T> = (
track: () => void,
trigger: () => void
) => {
get: () => T
set: (value: T) => void
}
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# shallowRef
Creates a ref that tracks its own .value
mutation but doesn't make its value reactive.
const foo = shallowRef({})
// mutating the ref's value is reactive
foo.value = {}
// but the value will not be converted.
isReactive(foo.value) // false
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See also: Creating Standalone Reactive Values as refs
# triggerRef
Execute any effects tied to a shallowRef
manually.
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)
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See also: Computed and Watch - watchEffect