Persisting store data
The Persist middleware enables you to store
your Zustand state in a storage
(e.g., localStorage
, AsyncStorage
, IndexedDB
, etc.),
thus persisting its data.
Note that this middleware supports both
synchronous storages, like localStorage
,
and asynchronous storages, like AsyncStorage
,
but using an asynchronous storage does come with a cost.
See Hydration and asynchronous storages
for more details.
Simple example
import { create } from 'zustand'
import { persist, createJSONStorage } from 'zustand/middleware'
export const useBearStore = create(
persist(
(set, get) => ({
bears: 0,
addABear: () => set({ bears: get().bears + 1 }),
}),
{
name: 'food-storage', // name of the item in the storage (must be unique)
storage: createJSONStorage(() => sessionStorage), // (optional) by default, 'localStorage' is used
},
),
)
Options
name
This is the only required option. The given name is going to be the key used to store your Zustand state in the storage, so it must be unique.
storage
Type:
() => StateStorage
The StateStorage
can be imported with:
import { StateStorage } from 'zustand/middleware'
Default:
createJSONStorage(() => localStorage)
Enables you to use your own storage. Simply pass a function that returns the storage you want to use. It's recommended to use the createJSONStorage
helper function to create a storage
object that is compliant with the StateStorage
interface.
Example:
import { persist, createJSONStorage } from 'zustand/middleware'
export const useBoundStore = create(
persist(
(set, get) => ({
// ...
}),
{
// ...
storage: createJSONStorage(() => AsyncStorage),
},
),
)
partialize
Type:
(state: Object) => Object
Default:
(state) => state
Enables you to pick some of the state's fields to be stored in the storage.
You could omit multiple fields using the following:
export const useBoundStore = create(
persist(
(set, get) => ({
foo: 0,
bar: 1,
}),
{
// ...
partialize: (state) =>
Object.fromEntries(
Object.entries(state).filter(([key]) => !['foo'].includes(key)),
),
},
),
)
Or you could allow only specific fields using the following:
export const useBoundStore = create(
persist(
(set, get) => ({
foo: 0,
bar: 1,
}),
{
// ...
partialize: (state) => ({ foo: state.foo }),
},
),
)
onRehydrateStorage
Type:
(state: Object) => ((state?: Object, error?: Error) => void) | void
This option enables you to pass a listener function that will be called when the storage is hydrated.
Example:
export const useBoundStore = create(
persist(
(set, get) => ({
// ...
}),
{
// ...
onRehydrateStorage: (state) => {
console.log('hydration starts')
// optional
return (state, error) => {
if (error) {
console.log('an error happened during hydration', error)
} else {
console.log('hydration finished')
}
}
},
},
),
)
version
Type:
number
Default:
0
If you want to introduce a breaking change in your storage (e.g. renaming a field), you can specify a new version number. By default, if the version in the storage does not match the version in the code, the stored value won't be used. You can use the migrate function (see below) to handle breaking changes in order to persist previously stored data.
migrate
Type:
(persistedState: Object, version: number) => Object | Promise<Object>
Default:
(persistedState) => persistedState
You can use this option to handle versions migration. The migrate function takes the persisted state and the version number as arguments. It must return a state that is compliant to the latest version (the version in the code).
For instance, if you want to rename a field, you can use the following:
export const useBoundStore = create(
persist(
(set, get) => ({
newField: 0, // let's say this field was named otherwise in version 0
}),
{
// ...
version: 1, // a migration will be triggered if the version in the storage mismatches this one
migrate: (persistedState, version) => {
if (version === 0) {
// if the stored value is in version 0, we rename the field to the new name
persistedState.newField = persistedState.oldField
delete persistedState.oldField
}
return persistedState
},
},
),
)
merge
Type:
(persistedState: Object, currentState: Object) => Object
Default:
(persistedState, currentState) => ({ ...currentState, ...persistedState })
In some cases, you might want to use a custom merge function to merge the persisted value with the current state.
By default, the middleware does a shallow merge. The shallow merge might not be enough if you have partially persisted nested objects. For instance, if the storage contains the following:
{
foo: {
bar: 0,
}
}
But your Zustand store contains:
{
foo: {
bar: 0,
baz: 1,
}
}
The shallow merge will erase the baz
field from the foo
object.
One way to fix this would be to give a custom deep merge function:
export const useBoundStore = create(
persist(
(set, get) => ({
foo: {
bar: 0,
baz: 1,
},
}),
{
// ...
merge: (persistedState, currentState) =>
deepMerge(currentState, persistedState),
},
),
)
skipHydration
Type:
boolean | undefined
Default:
undefined
By default the store will be hydrated on initialization.
In some applications you may need to control when the first hydration occurs. For example, in server-rendered apps.
If you set skipHydration
, the initial call for hydration isn't called,
and it is left up to you to manually call rehydrate()
.
export const useBoundStore = create(
persist(
() => ({
count: 0,
// ...
}),
{
// ...
skipHydration: true,
},
),
)
import { useBoundStore } from './path-to-store';
export function StoreConsumer() {
// hydrate persisted store after on mount
useEffect(() => {
useBoundStore.persist.rehydrate();
}, [])
return (
//...
)
}
API
Version: >=3.6.3
The Persist API enables you to do a number of interactions with the Persist middleware from inside or outside of a React component.
getOptions
Type:
() => Partial<PersistOptions>
Returns: Options of the Persist middleware
For example, it can be used to obtain the storage name:
useBoundStore.persist.getOptions().name
setOptions
Type:
(newOptions: Partial<PersistOptions>) => void
Changes the middleware options. Note that the new options will be merged with the current ones.
For instance, this can be used to change the storage name:
useBoundStore.persist.setOptions({
name: 'new-name',
})
Or even to change the storage engine:
useBoundStore.persist.setOptions({
storage: createJSONStorage(() => sessionStorage),
})
clearStorage
Type:
() => void
Clears everything stored under the name key.
useBoundStore.persist.clearStorage()
rehydrate
Type:
() => Promise<void>
In some cases, you might want to trigger the rehydration manually.
This can be done by calling the rehydrate
method.
await useBoundStore.persist.rehydrate()
hasHydrated
Type:
() => boolean
This is a non-reactive getter to check
if the storage has been hydrated
(note that it updates when calling rehydrate
).
useBoundStore.persist.hasHydrated()
onHydrate
Type:
(listener: (state) => void) => () => void
Returns: Unsubscribe function
This listener will be called when the hydration process starts.
const unsub = useBoundStore.persist.onHydrate((state) => {
console.log('hydration starts')
})
// later on...
unsub()
onFinishHydration
Type:
(listener: (state) => void) => () => void
Returns: Unsubscribe function
This listener will be called when the hydration process ends.
const unsub = useBoundStore.persist.onFinishHydration((state) => {
console.log('hydration finished')
})
// later on...
unsub()
createJSONStorage
Type:
(getStorage: () => StateStorage, options?: JsonStorageOptions) => StateStorage
Returns:
PersistStorage
This helper function enables you to create a storage
object which is useful when you want to use a custom storage engine.
getStorage
is a function that returns the storage engine with the properties getItem
, setItem
, and removeItem
.
options
is an optional object that can be used to customize the serialization and deserialization of the data. options.reviver
is a function that is passed to JSON.parse
to deserialize the data. options.replacer
is a function that is passed to JSON.stringify
to serialize the data.
import { createJSONStorage } from 'zustand/middleware'
const storage = createJSONStorage(() => sessionStorage, {
reviver: (key, value) => {
if (value && value.type === 'date') {
return new Date(value)
}
return value
},
replacer: (key, value) => {
if (value instanceof Date) {
return { type: 'date', value: value.toISOString() }
}
return value
},
})
Hydration and asynchronous storages
To explain what is the "cost" of asynchronous storages, you need to understand what is hydration.
In a nutshell, hydration is a process of retrieving persisted state from the storage and merging it with the current state.
The Persist middleware does two kinds of hydration:
synchronous and asynchronous.
If the given storage is synchronous (e.g., localStorage
),
hydration will be done synchronously.
On the other hand, if the given storage is asynchronous (e.g., AsyncStorage
),
hydration will be done asynchronously (shocking, I know!).
But what's the catch? With synchronous hydration, the Zustand store will already have been hydrated at its creation. In contrast, with asynchronous hydration, the Zustand store will be hydrated later on, in a microtask.
Why does it matter? Asynchronous hydration can cause some unexpected behaviors. For instance, if you use Zustand in a React app, the store will not be hydrated at the initial render. In cases where your app depends on the persisted value at page load, you might want to wait until the store has been hydrated before showing anything. For example, your app might think the user is not logged in because it's the default, but in reality the store has not been hydrated yet.
If your app does depends on the persisted state at page load, see How can I check if my store has been hydrated in the FAQ section below.
Usage in Next.js
NextJS uses Server Side Rendering, and it will compare the rendered component on the server with the one rendered on client. But since you are using data from browser to change your component, the two renders will differ and Next will throw a warning at you.
The errors usually are:
- Text content does not match server-rendered HTML
- Hydration failed because the initial UI does not match what was rendered on the server
- There was an error while hydrating. Because the error happened outside of a Suspense boundary, the entire root will switch to client rendering
To solve these errors, create a custom hook so that Zustand waits a little before changing your components.
Create a file with the following:
// useStore.ts
import { useState, useEffect } from 'react'
const useStore = <T, F>(
store: (callback: (state: T) => unknown) => unknown,
callback: (state: T) => F,
) => {
const result = store(callback) as F
const [data, setData] = useState<F>()
useEffect(() => {
setData(result)
}, [result])
return data
}
export default useStore
Now in your pages, you will use the hook a little bit differently:
// useBearStore.ts
import { create } from 'zustand'
import { persist } from 'zustand/middleware'
// the store itself does not need any change
export const useBearStore = create(
persist(
(set, get) => ({
bears: 0,
addABear: () => set({ bears: get().bears + 1 }),
}),
{
name: 'food-storage',
},
),
)
// yourComponent.tsx
import useStore from './useStore'
import { useBearStore } from './stores/useBearStore'
const bears = useStore(useBearStore, (state) => state.bears)
Credits: This reply to an issue, which points to this blog post.
FAQ
How can I check if my store has been hydrated
There are a few different ways to do this.
You can use the onRehydrateStorage
listener function to update a field in the store:
const useBoundStore = create(
persist(
(set, get) => ({
// ...
_hasHydrated: false,
setHasHydrated: (state) => {
set({
_hasHydrated: state
});
}
}),
{
// ...
onRehydrateStorage: (state) => {
return () => state.setHasHydrated(true)
}
}
)
);
export default function App() {
const hasHydrated = useBoundStore(state => state._hasHydrated);
if (!hasHydrated) {
return <p>Loading...</p>
}
return (
// ...
);
}
You can also create a custom useHydration
hook:
const useBoundStore = create(persist(...))
const useHydration = () => {
const [hydrated, setHydrated] = useState(false)
useEffect(() => {
// Note: This is just in case you want to take into account manual rehydration.
// You can remove the following line if you don't need it.
const unsubHydrate = useBoundStore.persist.onHydrate(() => setHydrated(false))
const unsubFinishHydration = useBoundStore.persist.onFinishHydration(() => setHydrated(true))
setHydrated(useBoundStore.persist.hasHydrated())
return () => {
unsubHydrate()
unsubFinishHydration()
}
}, [])
return hydrated
}
How can I use a custom storage engine
If the storage you want to use does not match the expected API, you can create your own storage:
import { create } from 'zustand'
import { persist, createJSONStorage, StateStorage } from 'zustand/middleware'
import { get, set, del } from 'idb-keyval' // can use anything: IndexedDB, Ionic Storage, etc.
// Custom storage object
const storage: StateStorage = {
getItem: async (name: string): Promise<string | null> => {
console.log(name, 'has been retrieved')
return (await get(name)) || null
},
setItem: async (name: string, value: string): Promise<void> => {
console.log(name, 'with value', value, 'has been saved')
await set(name, value)
},
removeItem: async (name: string): Promise<void> => {
console.log(name, 'has been deleted')
await del(name)
},
}
export const useBoundStore = create(
persist(
(set, get) => ({
bears: 0,
addABear: () => set({ bears: get().bears + 1 }),
}),
{
name: 'food-storage', // unique name
storage: createJSONStorage(() => storage),
},
),
)
If you're using a type that JSON.stringify()
doesn't support, you'll need to write your own serialization/deserialization code. However, if this is tedious, you can use third-party libraries to serialize and deserialize different types of data.
For example, Superjson can serialize data along with its type, allowing the data to be parsed back to its original type upon deserialization
import superjson from 'superjson' // can use anything: serialize-javascript, devalue, etc.
import { PersistStorage } from 'zustand/middleware'
interface BearState {
bear: Map<string, string>
fish: Set<string>
time: Date
query: RegExp
}
const storage: PersistStorage<BearState> = {
getItem: (name) => {
const str = localStorage.getItem(name)
if (!str) return null
return superjson.parse(str)
},
setItem: (name, value) => {
localStorage.setItem(name, superjson.stringify(value))
},
removeItem: (name) => localStorage.removeItem(name),
}
const initialState: BearState = {
bear: new Map(),
fish: new Set(),
time: new Date(),
query: new RegExp(''),
}
export const useBearStore = create<BearState>()(
persist(
(set) => ({
...initialState,
// ...
}),
{
name: 'food-storage',
storage,
},
),
)
How can I rehydrate on storage event
You can use the Persist API to create your own implementation, similar to the example below:
type StoreWithPersist = Mutate<StoreApi<State>, [["zustand/persist", unknown]]>
export const withStorageDOMEvents = (store: StoreWithPersist) => {
const storageEventCallback = (e: StorageEvent) => {
if (e.key === store.persist.getOptions().name && e.newValue) {
store.persist.rehydrate()
}
}
window.addEventListener('storage', storageEventCallback)
return () => {
window.removeEventListener('storage', storageEventCallback)
}
}
const useBoundStore = create(persist(...))
withStorageDOMEvents(useBoundStore)
How do I use it with TypeScript
Basic typescript usage doesn't require anything special
except for writing create<State>()(...)
instead of create(...)
.
import { create } from 'zustand'
import { persist, createJSONStorage } from 'zustand/middleware'
interface MyState {
bears: number
addABear: () => void
}
export const useBearStore = create<MyState>()(
persist(
(set, get) => ({
bears: 0,
addABear: () => set({ bears: get().bears + 1 }),
}),
{
name: 'food-storage', // name of item in the storage (must be unique)
storage: createJSONStorage(() => sessionStorage), // (optional) by default the 'localStorage' is used
partialize: (state) => ({ bears: state.bears }),
},
),
)
How do I use it with Map and Set
In order to persist object types such as Map
and Set
, they will need to be converted to JSON-serializable types such as an Array
which can be done by defining a custom storage
engine.
Let's say your state uses Map
to handle a list of transactions
,
then you can convert the Map
into an Array
in the storage
prop which is shown below:
interface BearState {
.
.
.
transactions: Map<any>
}
storage: {
getItem: (name) => {
const str = localStorage.getItem(name);
if (!str) return null;
const existingValue = JSON.parse(str);
return {
...existingValue,
state: {
...existingValue.state,
transactions: new Map(existingValue.state.transactions),
}
}
},
setItem: (name, newValue: StorageValue<BearState>) => {
// functions cannot be JSON encoded
const str = JSON.stringify({
...newValue,
state: {
...newValue.state,
transactions: Array.from(newValue.state.transactions.entries()),
},
})
localStorage.setItem(name, str)
},
removeItem: (name) => localStorage.removeItem(name),
},