zundo
v2.3.0
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๐ undo/redo middleware for zustand
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๐ Zundo
enable time-travel in your apps. undo/redo middleware for zustand. built with zustand. <700 B
Try a live demo
Install
npm i zustand zundo
zustand v4.2.0+ or v5 is required for TS usage. v4.0.0 or higher is required for JS usage. Node 16 or higher is required.
Background
- Solves the issue of managing state in complex user applications
- "It Just Works" mentality
- Small and fast
- Provides simple middleware to add undo/redo capabilities
- Leverages zustand for state management
- Works with multiple stores in the same app
- Has an unopinionated and extensible API
First create a vanilla store with temporal
middleware
This returns the familiar store accessible by a hook! But now your store also tracks past states.
import { create } from 'zustand';
import { temporal } from 'zundo';
// Define the type of your store state (typescript)
interface StoreState {
bears: number;
increasePopulation: () => void;
removeAllBears: () => void;
}
// Use `temporal` middleware to create a store with undo/redo capabilities
const useStoreWithUndo = create<StoreState>()(
temporal((set) => ({
bears: 0,
increasePopulation: () => set((state) => ({ bears: state.bears + 1 })),
removeAllBears: () => set({ bears: 0 }),
})),
);
Then access temporal
functions and properties of your store
Your zustand store will now have an attached temporal
object that provides access to useful time-travel utilities, including undo
, redo
, and clear
!
const App = () => {
const { bears, increasePopulation, removeAllBears } = useStoreWithUndo();
// See API section for temporal.getState() for all functions and
// properties provided by `temporal`, but note that properties, such as `pastStates` and `futureStates`, are not reactive when accessed directly from the store.
const { undo, redo, clear } = useStoreWithUndo.temporal.getState();
return (
<>
bears: {bears}
<button onClick={() => increasePopulation}>increase</button>
<button onClick={() => removeAllBears}>remove</button>
<button onClick={() => undo()}>undo</button>
<button onClick={() => redo()}>redo</button>
<button onClick={() => clear()}>clear</button>
</>
);
};
For reactive changes to member properties of the temporal
object, optionally convert to a React store hook
In React, to subscribe components or custom hooks to member properties of the temporal
object (like the array of pastStates
or currentStates
), you can create a useTemporalStore
hook.
import { useStoreWithEqualityFn } from 'zustand/traditional';
import type { TemporalState } from 'zundo';
function useTemporalStore(): TemporalState<MyState>;
function useTemporalStore<T>(selector: (state: TemporalState<MyState>) => T): T;
function useTemporalStore<T>(
selector: (state: TemporalState<MyState>) => T,
equality: (a: T, b: T) => boolean,
): T;
function useTemporalStore<T>(
selector?: (state: TemporalState<MyState>) => T,
equality?: (a: T, b: T) => boolean,
) {
return useStoreWithEqualityFn(useStoreWithUndo.temporal, selector!, equality);
}
const App = () => {
const { bears, increasePopulation, removeAllBears } = useStoreWithUndo();
// changes to pastStates and futureStates will now trigger a reactive component rerender
const { undo, redo, clear, pastStates, futureStates } = useTemporalStore(
(state) => state,
);
return (
<>
<p> bears: {bears}</p>
<p> pastStates: {JSON.stringify(pastStates)}</p>
<p> futureStates: {JSON.stringify(futureStates)}</p>
<button onClick={() => increasePopulation}>increase</button>
<button onClick={() => removeAllBears}>remove</button>
<button onClick={() => undo()}>undo</button>
<button onClick={() => redo()}>redo</button>
<button onClick={() => clear()}>clear</button>
</>
);
};
API
The Middleware
(config: StateCreator, options?: ZundoOptions) => StateCreator
zundo
has one export: temporal
. It is used as middleware for create
from zustand. The config
parameter is your store created by zustand. The second options
param is optional and has the following API.
Bear's eye view
export interface ZundoOptions<TState, PartialTState = TState> {
partialize?: (state: TState) => PartialTState;
limit?: number;
equality?: (pastState: PartialTState, currentState: PartialTState) => boolean;
diff?: (
pastState: Partial<PartialTState>,
currentState: Partial<PartialTState>,
) => Partial<PartialTState> | null;
onSave?: (pastState: TState, currentState: TState) => void;
handleSet?: (
handleSet: StoreApi<TState>['setState'],
) => StoreApi<TState>['setState'];
pastStates?: Partial<PartialTState>[];
futureStates?: Partial<PartialTState>[];
wrapTemporal?: (
storeInitializer: StateCreator<
_TemporalState<TState>,
[StoreMutatorIdentifier, unknown][],
[]
>,
) => StateCreator<
_TemporalState<TState>,
[StoreMutatorIdentifier, unknown][],
[StoreMutatorIdentifier, unknown][]
>;
}
Exclude fields from being tracked in history
partialize?: (state: TState) => PartialTState
Use the partialize
option to omit or include specific fields. Pass a callback that returns the desired fields. This can also be used to exclude fields. By default, the entire state object is tracked.
// Only field1 and field2 will be tracked
const useStoreWithUndoA = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
partialize: (state) => {
const { field1, field2, ...rest } = state;
return { field1, field2 };
},
},
),
);
// Everything besides field1 and field2 will be tracked
const useStoreWithUndoB = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
partialize: (state) => {
const { field1, field2, ...rest } = state;
return rest;
},
},
),
);
useTemporalStore
with partialize
If converting temporal store to a React Store Hook with typescript, be sure to define the type of your partialized state
interface StoreState {
bears: number;
untrackedStateField: number;
}
type PartializedStoreState = Pick<StoreState, 'bears'>;
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
bears: 0,
untrackedStateField: 0,
}),
{
partialize: (state) => {
const { bears } = state;
return { bears };
},
},
),
);
const useTemporalStore = <T,>(
// Use partalized StoreState type as the generic here
selector: (state: TemporalState<PartializedStoreState>) => T,
) => useStore(useStoreWithUndo.temporal, selector);
Limit number of historical states stored
limit?: number
For performance reasons, you may want to limit the number of previous and future states stored in history. Setting limit
will limit the number of previous and future states stored in the temporal
store. When the limit is reached, the oldest state is dropped. By default, no limit is set.
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{ limit: 100 },
),
);
Prevent unchanged states from getting stored in history
equality?: (pastState: PartialTState, currentState: PartialTState) => boolean
By default, a state snapshot is stored in temporal
history when any zustand
state setter is calledโeven if no value in your zustand
store has changed.
If all of your zustand
state setters modify state in a way that you want tracked in history, this default is sufficient.
However, for more precise control over when a state snapshot is stored in zundo
history, you can provide an equality
function.
You can write your own equality function or use something like fast-equals
, fast-deep-equal
, zustand/shallow
, lodash.isequal
, or underscore.isEqual
.
Example with deep equality
import isDeepEqual from 'fast-deep-equal';
// Use a deep equality function to only store history when currentState has changed
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
// a state snapshot will only be stored in history when currentState is not deep-equal to pastState
// Note: this can also be more concisely written as {equality: isDeepEqual}
{
equality: (pastState, currentState) =>
isDeepEqual(pastState, currentState),
},
),
);
Example with shallow equality
If your state or specific application does not require deep equality (for example, if you're only using non-nested primitives), you may for performance reasons choose to use a shallow equality fn that does not do deep comparison.
import shallow from 'zustand/shallow';
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
// a state snapshot will only be stored in history when currentState is not deep-equal to pastState
// Note: this can also be more concisely written as {equality: shallow}
{
equality: (pastState, currentState) => shallow(pastState, currentState),
},
),
);
Example with custom equality
You can also just as easily use custom equality functions for your specific application
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
// Only track history when field1 AND field2 diverge from their pastState
// Why would you do this? I don't know! But you can do it!
equality: (pastState, currentState) =>
pastState.field1 !== currentState.field1 &&
pastState.field2 !== currentState.field2,
},
),
);
Store state delta rather than full object
diff?: (pastState: Partial<PartialTState>, currentState: Partial<PartialTState>) => Partial<PartialTState> | null
For performance reasons, you may want to store the state delta rather than the complete (potentially partialized) state object. This can be done by passing a diff
function. The diff
function should return an object that represents the difference between the past and current state. By default, the full state object is stored.
If diff
returns null
, the state change will not be tracked. This is helpful for a conditionally storing past states or if you have a doNothing
action that does not change the state.
You can write your own or use something like microdiff
, just-diff
, or deep-object-diff
.
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
diff: (pastState, currentState) => {
const myDiff = diff(currentState, pastState);
const newStateFromDiff = myDiff.reduce(
(acc, difference) => {
type Key = keyof typeof currentState;
if (difference.type === 'CHANGE') {
const pathAsString = difference.path.join('.') as Key;
acc[pathAsString] = difference.value;
}
return acc;
},
{} as Partial<typeof currentState>,
);
return isEmpty(newStateFromDiff) ? null : newStateFromDiff;
},
},
),
);
Callback when temporal store is updated
onSave?: (pastState: TState, currentState: TState) => void
Sometimes, you may need to call a function when the temporal store is updated. This can be configured using onSave
in the options, or by programmatically setting the callback if you need lexical context (see the TemporalState
API below for more information).
import { shallow } from 'zustand/shallow';
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{ onSave: (state) => console.log('saved', state) },
),
);
Cool-off period
handleSet?: (handleSet: StoreApi<TState>['setState']) => (
pastState: Parameters<StoreApi<TState>['setState']>[0],
// `replace` will likely be deprecated and removed in the future
replace: Parameters<StoreApi<TState>['setState']>[1],
currentState: PartialTState,
deltaState?: Partial<PartialTState> | null,
) => void
Sometimes multiple state changes might happen in a short amount of time and you only want to store one change in history. To do so, we can utilize the handleSet
callback to set a timeout to prevent new changes from being stored in history. This can be used with something like throttle-debounce
, just-throttle
, just-debounce-it
, lodash.throttle
, or lodash.debounce
. This a way to provide middleware to the temporal store's setter function.
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
handleSet: (handleSet) =>
throttle<typeof handleSet>((state) => {
console.info('handleSet called');
handleSet(state);
}, 1000),
},
),
);
Initialize temporal store with past and future states
pastStates?: Partial<PartialTState>[]
futureStates?: Partial<PartialTState>[]
You can initialize the temporal store with past and future states. This is useful when you want to load a previous state from a database or initialize the store with a default state. By default, the temporal store is initialized with an empty array of past and future states.
Note: The
pastStates
andfutureStates
do not respect the limit set in the options. If you want to limit the number of past and future states, you must do so manually prior to initializing the store.
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
pastStates: [{ field1: 'value1' }, { field1: 'value2' }],
futureStates: [{ field1: 'value3' }, { field1: 'value4' }],
},
),
);
Wrap temporal store
wrapTemporal?: (storeInitializer: StateCreator<_TemporalState<TState>, [StoreMutatorIdentifier, unknown][], []>) => StateCreator<_TemporalState<TState>, [StoreMutatorIdentifier, unknown][], [StoreMutatorIdentifier, unknown][]>
You can wrap the temporal store with your own middleware. This is useful if you want to add additional functionality to the temporal store. For example, you can add persist
middleware to the temporal store to persist the past and future states to local storage.
For a full list of middleware, see zustand middleware and third-party zustand libraries.
Note: The
temporal
middleware can be added to thetemporal
store. This way, you could track the history of the history. ๐คฏ
import { persist } from 'zustand/middleware';
const useStoreWithUndo = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
wrapTemporal: (storeInitializer) =>
persist(storeInitializer, { name: 'temporal-persist' }),
},
),
);
useStore.temporal
When using zustand with the temporal
middleware, a temporal
object is attached to your vanilla or React-based store. temporal
is a vanilla zustand store: see StoreApi from zustand for more details.
Use temporal.getState()
to access to temporal store!
While
setState
,subscribe
, anddestroy
exist ontemporal
, you should not need to use them.
useStore.temporal.getState()
temporal.getState()
returns the TemporalState
which contains undo
, redo
, and other helpful functions and fields.
interface TemporalState<TState> {
pastStates: TState[];
futureStates: TState[];
undo: (steps?: number) => void;
redo: (steps?: number) => void;
clear: () => void;
isTracking: boolean;
pause: () => void;
resume: () => void;
setOnSave: (onSave: onSave<TState>) => void;
}
Going back in time
pastStates: TState[]
pastStates
is an array of previous states. The most recent previous state is at the end of the array. This is the state that will be applied when undo
is called.
Forward to the future
futureStates: TState[]
futureStates
is an array of future states. States are added when undo
is called. The most recent future state is at the end of the array. This is the state that will be applied when redo
is called. The future states are the "past past states."
Back it up
undo: (steps?: number) => void
undo
: call function to apply previous state (if there are previous states). Optionally pass a number of steps to undo to go back multiple state at once.
Take it back now y'all
redo: (steps?: number) => void
redo
: call function to apply future state (if there are future states). Future states are "previous previous states." Optionally pass a number of steps to redo go forward multiple states at once.
Remove all knowledge of time
clear: () => void
clear
: call function to remove all stored states from your undo store. Sets pastStates
and futureStates
to arrays with length of 0. Warning: clearing cannot be undone.
Dispatching a new state will clear all of the future states.
Stop and start history
isTracking: boolean
isTracking
: a stateful flag in the temporal
store that indicates whether the temporal
store is tracking state changes or not. Possible values are true
or false
. To programmatically pause and resume tracking, use pause()
and resume()
explained below.
Pause tracking of history
pause: () => void
pause
: call function to pause tracking state changes. This will prevent new states from being stored in history within the temporal store. Sets isTracking
to false
.
Resume tracking of history
resume: () => void
resume
: call function to resume tracking state changes. This will allow new states to be stored in history within the temporal store. Sets isTracking
to true
.
Programmatically add middleware to the setter
setOnSave: (onSave: (pastState: State, currentState: State) => void) => void
setOnSave
: call function to set a callback that will be called when the temporal store is updated. This can be used to call the temporal store setter using values from the lexical context. This is useful when needing to throttle or debounce updates to the temporal store.
Community
zundo
is used by several projects and teams including Stability AI, Yext, KaotoIO, and NutSH.ai.
If this library is useful to you, please consider sponsoring the project. Thank you!
PRs are welcome! pnpm is used as a package manager. Run pnpm install
to install local dependencies. Thank you for contributing!
Examples
- Basic
- with lodash.debounce
- with just-debounce-it
- SubscribeWithSelector
- canUndo, canRedo, undoDepth, redoDepth
- with deep equal
- with input
Migrate from v1 to v2
v2.0.0 - Smaller and more flexible
v2.0.0 is a complete rewrite of zundo. It is smaller and more flexible. It also has a smaller bundle size and allows you to opt into specific performance trade-offs. The API has changed slightly. See the API section for more details. Below is a summary of the changes as well as steps to migrate from v1 to v2.
Breaking Changes
Middleware Option Changes
include
andexclude
options are now handled by thepartialize
option.allowUnchanged
option is now handled by theequality
option. By default, all state changes are tracked. In v1, we bundledlodash.isequal
to handle equality checks. In v2, you are able to use any function.historyDepthLimit
option has been renamed tolimit
.coolOffDurationMs
option is now handled by thehandleSet
option by wrapping the setter function with a throttle or debounce function.
Import changes
- The middleware is called
temporal
rather thanundoMiddleware
.
New Features
New Options
partialize
option to omit or include specific fields. By default, the entire state object is tracked.limit
option to limit the number of previous and future states stored in history.equality
option to use a custom equality function to determine when a state change should be tracked. By default, all state changes are tracked.diff
option to store state delta rather than full object.onSave
option to call a function when the temporal store is updated.handleSet
option to throttle or debounce state changes.pastStates
andfutureStates
options to initialize the temporal store with past and future states.wrapTemporal
option to wrap the temporal store with middleware. Thetemporal
store is a vanilla zustand store.
New temporal.getState()
API
undo
,redo
, andclear
functions are now always defined. They can no longer beundefined
.undo()
andredo()
functions now accept an optionalsteps
parameter to go back or forward multiple states at once.isTracking
flag, andpause
, andresume
functions are now available on the temporal store.setOnSave
function is now available on the temporal store to change theonSave
behavior after the store has been created.
Migration Steps
- Update zustand to v4.3.0 or higher
- Update zundo to v2.0.0 or higher
- Update your store to use the new API
- Update imports
- import { undoMiddleware } from 'zundo';
+ import { temporal } from 'zundo';
- If you're using
include
orexclude
, use the newpartialize
option
// v1.6.0
// Only field1 and field2 will be tracked
const useStoreA = create<StoreState>()(
undoMiddleware(
set => ({ ... }),
{ include: ['field1', 'field2'] }
)
);
// Everything besides field1 and field2 will be tracked
const useStoreB = create<StoreState>()(
undoMiddleware(
set => ({ ... }),
{ exclude: ['field1', 'field2'] }
)
);
// v2.0.0
// Only field1 and field2 will be tracked
const useStoreA = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
partialize: (state) => {
const { field1, field2, ...rest } = state;
return { field1, field2 };
},
},
),
);
// Everything besides field1 and field2 will be tracked
const useStoreB = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{
partialize: (state) => {
const { field1, field2, ...rest } = state;
return rest;
},
},
),
);
- If you're using
allowUnchanged
, use the newequality
option
// v1.6.0
// Use an existing `allowUnchanged` option
const useStore = create<StoreState>()(
undoMiddleware(
set => ({ ... }),
{ allowUnchanged: true }
)
);
// v2.0.0
// Use an existing equality function
import { shallow } from 'zustand/shallow'; // or use `lodash.isequal` or any other equality function
// Use an existing equality function
const useStoreA = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{ equality: shallow },
),
);
- If you're using
historyDepthLimit
, use the newlimit
option
// v1.6.0
// Use an existing `historyDepthLimit` option
const useStore = create<StoreState>()(
undoMiddleware(
set => ({ ... }),
{ historyDepthLimit: 100 }
)
);
// v2.0.0
// Use `limit` option
const useStore = create<StoreState>()(
temporal(
(set) => ({
// your store fields
}),
{ limit: 100 },
),
);
- If you're using
coolOffDurationMs
, use the newhandleSet
option
// v1.6.0
// Use an existing `coolOffDurationMs` option
const useStore = create<StoreState>()(
undoMiddleware(
set => ({ ... }),
{ coolOfDurationMs: 1000 }
)
);
// v2.0.0
// Use `handleSet` option
const withTemporal = temporal<MyState>(
(set) => ({
// your store fields
}),
{
handleSet: (handleSet) =>
throttle<typeof handleSet>((state) => {
console.info('handleSet called');
handleSet(state);
}, 1000),
},
);
Road Map
- [ ] create nicer API, or a helper hook in react land (useTemporal). or vanilla version of the it
- [ ] support history branches rather than clearing the future states
- [ ] track state for multiple stores at once
Author
Charles Kornoelje (@_charkour)
Versioning
View the releases for the change log. This project follows semantic versioning.
Illustration Credits
Ivo Iliฤ (@theivoson)