A powerful and flexible state management library developed using RxJS, inspired by the Flux architecture. Ideal for managing complex state in Preact applications.
Easily integrate preact-state-manager
into your project:
npm install preact-state-manager
or
yarn add preact-state-manager
Tip: This library can be used as a Preact hook for efficient state management.
Initialize the state manager to manage your application's state effectively.
import { rxStateManager } from 'preact-state-manager';
export const {
updateState: updateCounterState,
useStateManager: useCounterState,
} = rxStateManager({
count: 0,
});
class CounterAction {
changeCounter = (newCount) => {
updateCounterState((state) => {
state.count = newCount;
});
};
}
export const counterAction = new CounterAction();
Key Feature: When passing a function to the updater, the state
argument can be mutated freely. Changes will be made immutable and become the next state once the producer ends.
Learn how to use the hook to consume and update state in your Preact components.
import { h } from 'preact';
import { counterAction, useCounterState } from './counter-state-manager';
export function App() {
const { count } = useCounterState('count');
return (
<div class="card">
<button onClick={() => counterAction.changeCounter(count + 1)}>
count is {count}
</button>
<p>
Edit <code>src/App.tsx</code> and save to test HMR
</p>
</div>
);
}
-
Selective Rerendering: Use
const { count } = useCounterState('count')
to rerender components only when specific state keys change, improving performance. -
Effortless State Updates: Simplify state updates with
onClick={() => counterAction.changeCounter(count + 1)}
without the need for dispatchers.
useCounterState
hook allows you to access the current state of the counter:
const { count } = useCounterState('count');
console.log(count);
- Efficient State Management: Manage your application’s state efficiently with RxJS and Preact.
- Scalable and Maintainable: Ideal for complex applications requiring a scalable and maintainable state management solution.
- Improved Performance: Optimize performance with selective rerendering and immutable state updates.
This project is licensed under the MIT License.