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Store

A beautifully-simple framework-agnostic modern state management library.

Debug

Features

  • Simple: there's barely anything to learn and no boilerplate code required. Thanks to our usage of Proxys you just have to wrap your state with store, mutate it and retrieve values from it just like if it was a regular object, and listen to changes via onChange or useStore.
  • Framework-agnostic: Store doesn't make any assumptions about your UI framework of choice, in fact it can also be used without one.
  • React support: an hook for React is provided, because that's the UI framework I'm using. Support for other UI frameworks can be added easily, PRs are very welcome.
  • TypeScript-ready: Store is written in TypeScript and enables you to get a fully typed app with no extra effort.

Read more about how Store compares against other libraries in the FAQ section below.

Install

npm install --save store@npm:@fabiospampinato/store

Usage

Core

store

The first step is wrapping the objects containing the state of your app with the store function, this way Store will be able to transparently detect when mutations occur.

Example usage:

import {store} from 'store';

const CounterApp = {
  store: store ({ value: 0 }),
  increment: () => CounterApp.store.value += 1,
  decrement: () => CounterApp.store.value -= 1
};
  • ℹ️ The object passed to store can contain a variety of values:
  • ℹ️ store will wrap your object with a Proxy, which will detect mutations, and return a proxied object.
  • ℹ️ Never mutate the raw object passed to store directly, as those mutations won't be detected, always go through the proxied object returned by store instead. I'd suggest you to wrap your raw objects with store immediately so you won't even keep a reference to them.
  • ℹ️ In order to trigger a change simply mutate the proxied object returned by store as if it was a regular object.
  • ℹ️ Mutations happening at locations that need to be reached via a Symbol aren't detected (e.g. { [Symbol ()]: { undetected: true }).

isStore

This function checks if the passed value is a recognized Proxy object or not.

Example usage:

import {store, isStore} from 'store';

isStore ( store ( {} ) ); // => true
isStore ( {} ); // => false

isIdle

When no store is passed to it it checks if all known stores have no pending updates, i.e. some changes happened to them and at least one onChange listener has not been called yet.

If a store is passed it checks only if the passed store has no pending updates.

This is its interface:

function isIdle ( store?: Store ): boolean;

Example usage:

import {store, isIdle} from 'store';

const proxy1 = store ( {} );
const proxy2 = store ( {} );

isIdle (); // => true
isIdle ( proxy1 ); // => true
isIdle ( proxy2 ); // => true

proxy1.foo = true;

isIdle (); // => false
isIdle ( proxy1 ); // => false
isIdle ( proxy2 ); // => true

onChange

Next you'll probably want to listen for changes to your stores, the onChange function is how you do that in a framework-agnostic way.

This is its interface:

// Single store, without selector, listen to all changes to the store
function onChange ( store: Store, listener: ( data: Store ) => any ): Disposer;

// Multiple stores, without selector, listen to all changes to any store
function onChange ( stores: Store[], listener: ( ...data: Store[] ) => any ): Disposer;

// Single store, with selector, listen to only changes that cause the value returned by the selector to change
function onChange ( store: Store, selector: ( store: Store ) => Data, listener: ( data: Data ) => any ): Disposer;

// Single store, with selector, with comparator, listen to only changes that cause the value returned by the selector to change and the comparator to return true
function onChange ( store: Store, selector: ( store: Store ) => Data, comparator: ( dataPrev: Data, dataNext: Data ) => boolean, listener: ( data: Data ) => any ): Disposer;

// Multiple stores, with selector, listen to only changes that cause the value returned by the selector to change
function onChange ( stores: Store[], selector: ( ...stores: Store[] ) => Data, listener: ( data: Data ) => any ): Disposer;

// Multiple stores, with selector, with comparator, listen to only changes that cause the value returned by the selector to change and the comparator to return true
function onChange ( stores: Store[], selector: ( ...stores: Store[] ) => Data, comparator: ( dataPrev: Data, dataNext: Data ) => boolean, listener: ( data: Data ) => any ): Disposer;
  • The store/stores argument is either a single proxied object retuned by the store function or an array of those.
  • The listener argument is the function that will be called when a change to the provided stores occurs. It will be called with the value returned by the selector, if a selector was provided, or with all the provided stores as its arguments otherwise.
  • The selector optional argument is a function that computes some value that will be passed to the listener as its first argument. It's called with all the provided stores as its arguments.
  • The comparator optional argument is a function that checks for equality between the previous value returned by the selector and the current one.
  • The return value is a disposer, a function that when called will terminate this specific listening operation.

Example usage:

import areShallowEqual from 'are-shallow-equal';
import {store, onChange} from 'store';

const CounterApp = {
  store: store ({ value: 0 }),
  increment: () => CounterApp.store.value += 1,
  decrement: () => CounterApp.store.value -= 1
};

// No selector

const disposer1 = onChange ( CounterApp.store, store => {
  console.log ( 'Value changed, new value:', store.value );
  disposer1 (); // Preventing this listener to be called again
});

// With selector

const disposer2 = onChange ( CounterApp.store, store => store.value % 2 === 0, isEven => {
  console.log ( 'Is the new value even?', isEven );
});

// With selector, with comparator

const disposer = onChange ( CounterApp.store, store => ({ sqrt: Math.sqrt ( store.value ) }), areShallowEqual, ({ sqrt }) => {
  console.log ( 'The new square root is:', sqrt );
});

CounterApp.increment (); // This will cause a mutation, causing the listeners to be called
CounterApp.increment (); // This will cause another mutation, but the listeners will still be called once as these mutations are occurring in a single event loop tick

setTimeout ( CounterApp.increment, 100 ); // This will cause the remaining listener to be called again
  • ℹ️ Using a selector that retrieves only parts of the store will improve performance.
  • ℹ️ It's possible that the listener will be called even if the object returned by the selector, or the entire store, didn't actually change.
  • ℹ️ Calls to listeners are automatically coalesced and batched together for performance, so if you synchronously, i.e. within a single event loop tick, mutate a store multiple times and there's a listener listening for those changes that listener will only be called once.
  • ℹ️ Using a comparator can improve performance if your selector only selects a small part of a large object.
    • ℹ️ The comparator is not called if the library is certain that the value returned by the selector did or didn't change.
      • ℹ️ As a consequence of this the comparator is never called with primitive values.
    • ℹ️ When using a comparator the selector should return a new object, not one that might get mutated, or the comparator will effectively get called with the same objects.

batch

Synchronous mutations, i.e. mutations that happen within a single event loop tick, are batched and coalesced together automatically, if you sometimes also want to batch and coalesce mutations happening inside an asynchronous function or two arbitrary points in time you can use the batch function.

This is its interface:

function batch<P extends Promise<any>> ( fn: () => P ): P;

// Helper methods
batch.start = function (): void;
batch.stop = function (): void;

Example usage:

import {batch, store} from 'store';

const myStore = store ( { foo: 123 } );

// Function-based batching

batch ( async () => {
  myStore.foo = 0;
  await someAsyncFunction ();
  myStore.foo = 1;
});

// Manual batching

batch.start ();
for ( const nr of [1, 2, 3, 4, 5] ) {
  myStore.foo = nr;
  await someAsyncFunction ();
}
batch.stop ();
  • ℹ️ This function is critical for performance when performing a very large number of mutations in an asynchronous way.
  • ℹ️ When batching and coalescing asynchronous mutations by passing a function to batch everything is taken care of for you: if the passed function throws batching is stopped automatically, nested batch calls are not a problem either.
  • ℹ️ When batching and coalescing asynchronous mutations manually using batch.start and batch.stop you have to make sure that batch.stop is always called the same number of times that batch.start was called, or batching will never stop. So make sure that for instance thrown errors or early exits are not an issue.

target

This function unwraps a store and returns the raw plain object used under the hood.

This is its interface:

function target<T> ( store: T ): T;

Example usage:

import {store, target, isStore} from 'store';

const myStore = store ( { foo: 123 } );
const rawObject = target ( myStore );

isStore ( myStore ); // => true
isStore ( rawObject ); // => false

debug

debug provides a simple way to access your stores and see at a glance how and when they change from the DevTools.

Debug

This is its interface:

type Global = {
  stores: Store[], // Access all stores
  log: () => void // Log all stores
};

type Options = {
  collapsed: true, // Whether the logged groups should be collapsed
  logStoresNew: false, // Whether to log new store that have been created
  logChangesDiff: true, // Whether to log diffs (added, updated, removed) state changes
  logChangesFull: false // Whether to log the previous and current state in their entirity
};

function debug ( options?: Options ): Global;

Example usage:

import {debug} from 'store';

debug ();

Once called, debug defines a global object named STORE, which you can then access from the DevTools, and returns it.

Example usage:

STORE.stores[0].value += 1; // Manually triggering a mutation
STORE.log (); // Logging all stores to the console
  • ℹ️ It's important to call debug before creating any stores.
  • ℹ️ It's important to call debug only during development, as it may perform some potentially slow computations.

Hooks

Hooks provides a simple way to "hook" into Store's internal events.

Each hook has the following interface:

class Hook {
  subscribe ( listener: Function ): Disposer
}
  • subscribe registers a function for being called every time that hook is triggered.
    • The returned value is a disposer, a function that when called will terminate this specific subscription.

These are all the currently available hooks:

const Hooks = {
  store: {
    change: Hook, // Triggered whenever a store is mutated
    changeBatch: Hook, // Triggered whenever a store is mutated (batched)
    new: Hook // Triggered whenever a new store is created. This hook is used internally for implementing `debug`
  }
};

Example usage:

import {Hooks} from 'store';

const disposer = Hooks.store.new.subscribe ( store => {
  console.log ( 'New store:', store );
});

disposer ();

If you need some more hooks for your Store plugin let me know and I'll make sure to add them.

We currently don't have an official "Store DevTools Extension", but it would be super cool to have one. Perhaps it could provide a GUI for debug's functionalities, and/or implement other features like time-travel debugging. If you're interested in developing this please do get in touch! 😃

Extra/React

These extra features, intended to be used with React, are available from a dedicated subpackage.

useStore

useStore is a React hook for accessing a store's, or multiple stores's, values from within a functional component in a way that makes the component re-render whenever those values change.

This is its interface:

// Single store, without selector, re-render after any change to the store
function useStore ( store: Store ): Store;

// Multiple stores, without selector, re-render after any change to any store
function useStore ( stores: Store[] ): Store[];

// Single store, with selector, re-render only after changes that cause the value returned by the selector to change
function useStore ( store: Store, selector: ( store: Store ) => Data, dependencies: ReadonlyArray<any> = [] ): Data;

// Single store, with selector, with comparator, re-render only after changes that cause the value returned by the selector to change and the comparator to return true
function useStore ( store: Store, selector: ( store: Store ) => Data, comparator: ( dataPrev: Data, dataNext: Data ) => boolean, dependencies: ReadonlyArray<any> = [] ): Data;

// Multiple stores, with selector, re-render only after changes that cause the value returned by the selector to change
function useStore ( stores: Store[], selector: ( ...args: Store[] ) => Data, dependencies: ReadonlyArray<any> = [] ): Data;

// Multiple stores, with selector, with comparator, re-render only after changes that cause the value returned by the selector to change and the comparator to return true
function useStore ( stores: Store[], selector: ( ...args: Store[] ) => Data, comparator: ( dataPrev: Data, dataNext: Data ) => boolean, dependencies: ReadonlyArray<any> = [] ): Data;
  • The store/stores argument is either a single proxied object retuned by the store function or an array of those.
  • The selector optional argument if a function that computes some value that will be the return value of the hook. It's called with all the passed stores as its arguments.
  • The comparator optional argument is a function that checks for equality between the previous value returned by the selector and the current one.
  • The dependencies optional argument is an array of dependencies used to inform React about any objects your selector function will reference from outside of its innermost scope, ensuring the selector gets called again if any of those change.
  • The return value is whatever selector returns, if a selector was provided, or the entire store if only one store was provided, or the entire array of stores otherwise.

Example usage:

import areShallowEqual from 'are-shallow-equal';
import {store, onChange} from 'store';
import {useStore} from 'store/x/react';

const CounterApp = {
  store: store ({ value: 0 }),
  increment: () => CounterApp.store.value += 1,
  decrement: () => CounterApp.store.value -= 1
};

// No selector

const CounterComponent1 = () => {
  const {value} = useStore ( ConunterApp.store );
  return (
    <div>
      <div>{value}</div>
      <button onClick={CounterApp.increment}>Increment</button>
      <button onClick={CounterApp.decrement}>Decrement</button>
    </div>
  )
};

// With selector

const CounterComponent2 = () => {
  const isEven = useStore ( ConunterApp.store, store => store.value % 2 === 0 );
  return (
    <div>
      <div>Is the value even? {isEven}</div>
      <button onClick={CounterApp.increment}>Increment</button>
      <button onClick={CounterApp.decrement}>Decrement</button>
    </div>
  )
};

// With selector, with comparator

const CounterComponent3 = () => {
  const {sqrt} = useStore ( ConunterApp.store, store => ({ sqrt: Math.sqrt ( store.value ) }), areShallowEqual );
  return (
    <div>
      <div>The square root is: {sqrt}</div>
      <button onClick={CounterApp.increment}>Increment</button>
      <button onClick={CounterApp.decrement}>Decrement</button>
    </div>
  )
};
  • ℹ️ You basically just need to wrap the parts of your component that access any value from any store in a useStore hook, in order to make the component re-render whenever any of the retireved values change.
  • ℹ️ You don't need to use useStore for accessing methods that mutate the store, you can just reference them directly.
  • ℹ️ Using a selector that retrieves only parts of the store will improve performance.
  • ℹ️ It's possible that the component will be re-rendered even if the object returned by the selector, or the entire store, didn't actually change.
  • ℹ️ Re-renders are automatically coalesced and batched together for performance, so if synchronously, i.e. within a single event loop tick, the stores you're listening to are mutated multiple times the related components will only be re-rendered once.
  • ℹ️ Using a comparator can improve performance if your selector only selects a small part of a large object.
    • ℹ️ The comparator is not called if the library is certain that the value returned by the selector did or didn't change.
      • ℹ️ As a consequence of this the comparator is never called with primitive values.
    • ℹ️ When using a comparator the selector should return a new object, not one that might get mutated, or the comparator will effectively get called with the same objects.

useStores

useStores is just an alias for useStore, this alias is provided in case passing multiple stores to an hook called useStore doesn't feel quite right to you.

Example import:

import {useStores} from 'store/x/react';

FAQ

Why not using Redux, Unstated, Overstated, react-easy-state etc.?

I'll personally use this library over more popular ones for a few reasons:

  • Simpler APIs: almost all other state management libraries I've encountered have APIs that don't resonate with me, often they feel unnecessarily bloated. I don't want to write "actions", I don't want to write "reducers", I don't want to litter my code with decorators or unnecessary boilerplate.
  • Fewer footguns: many other libraries I've encountered have multiple footguns to be aware of, some which may cause hard-to-debug bugs. With Store you won't update your stores incorrectly once you have wrapped them with store, you won't have to specially handle asynchronicity, and you won't have to carefully update your stores in an immutable fashion.
  • Fewer restrictions: most other libraries require you to structure your stores in a specific way, update them with library-specific APIs, perhaps require the usage of classes, and/or are tied to a specific UI framework. Store is more flexible in this regard: your stores are just proxied objects, you can manipulate them however you like, adopt a more functional coding style if you prefer, and the library isn't tied to any specific UI framework, in fact you can use it to manage your purely server-side state too.
  • Easy type-safety: some libraries don't play very well with TypeScript and/or require you to manually write some types, Store just works with no extra effort.

Why not using Store?

You might not want to use Store if: the design choices I made don't resonate with you, you need something more battle-tested, you need to support some of the ~5% of the outdated browsers where Proxy isn't available, or you need the absolute maximum performance from your state management library since you know that will be your bottleneck, which is very unlikely.

License

MIT © Fabio Spampinato