Skip to content

adebola-io/cells

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

45 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

@adbl/cells

npm version License: MIT

Cells is a powerful yet lightweight library for reactive state management in JavaScript applications. It offers an intuitive API that simplifies the complexities of managing and propagating state changes throughout your application.

Features

  • Simple API: Easy to learn and use, even for developers new to reactive programming.
  • Lightweight: No external dependencies, keeping your project lean.
  • Flexible: Works seamlessly with any JavaScript framework or vanilla JS.
  • Type-safe: Built with TypeScript, providing excellent type inference and checking.
  • Performant: Optimized for efficiency, with features like batched updates to minimize unnecessary computations.

Installation

Get started with Cells in your project:

npm install @adbl/cells

Or if you prefer Yarn:

yarn add @adbl/cells

Core Concepts

1. Source Cells

Source cells are the building blocks of your reactive state. They hold values that can change over time, automatically notifying dependents when updates occur.

import { Cell } from '@adbl/cells';

const count = Cell.source(0);
console.log(count.value); // Output: 0

count.value = 5;
console.log(count.value); // Output: 5

2. Derived Cells

Derived cells allow you to create computed values based on other cells. They update automatically when their dependencies change, ensuring your derived state is always in sync.

const count = Cell.source(0);
const doubledCount = Cell.derived(() => count.value * 2);

console.log(doubledCount.value); // Output: 0

count.value = 5;
console.log(doubledCount.value); // Output: 10

3. Reactive Effects

Easily set up listeners to react to changes in cell values, allowing you to create side effects or update your UI in response to state changes.

const count = Cell.source(0);

count.listen((newValue) => {
  console.log(`Count changed to: ${newValue}`);
});

count.value = 3; // Output: "Count changed to: 3"
count.value = 7; // Output: "Count changed to: 7"

4. Global Effects

Cells allows you to set up global effects that run before or after any cell is updated, giving you fine-grained control over your application's reactive behavior.

Cell.beforeUpdate((value) => {
  console.log(`About to update a cell with value: ${value}`);
});

Cell.afterUpdate((value) => {
  console.log(`Just updated a cell with value: ${value}`);
});

5. Batch Updates

When you need to perform multiple updates but only want to trigger effects once, you can use batch updates to optimize performance:

const cell1 = Cell.source(0);
const cell2 = Cell.source(0);

Cell.afterUpdate(() => {
  console.log('Update occurred');
});

Cell.batch(() => {
  cell1.value = 1;
  cell2.value = 2;
});
// Output: "Update occurred" (only once)

6. Async Operations

Cells provides utilities for handling asynchronous operations, making it easy to manage loading states, data, and errors:

const fetchUser = Cell.async(async (userId) => {
  const response = await fetch(`https://api.example.com/users/${userId}`);
  return response.json();
});

const { pending, data, error, run } = fetchUser;

pending.listen((isPending) => {
  console.log(isPending ? 'Loading...' : 'Done!');
});

data.listen((userData) => {
  if (userData) {
    console.log('User data:', userData);
  }
});

run(123); // Triggers the async operation

7. Flattening

Cells offers utility functions to work with nested cell structures, making it easier to handle complex state shapes:

const nestedCell = Cell.source(Cell.source(5));
const flattenedValue = Cell.flatten(nestedCell);
console.log(flattenedValue); // Output: 5

const arrayOfCells = [Cell.source(1), Cell.source(2), Cell.source(3)];
const flattenedArray = Cell.flattenArray(arrayOfCells);
console.log(flattenedArray); // Output: [1, 2, 3]

const objectWithCells = { a: Cell.source(1), b: Cell.source(2) };
const flattenedObject = Cell.flattenObject(objectWithCells);
console.log(flattenedObject); // Output: { a: 1, b: 2 }

8. Custom Equality Checks

For more complex objects, you can provide custom equality functions to determine when a cell's value has truly changed:

const userCell = Cell.source(
  { name: 'Alice', age: 30 },
  {
    equals: (a, b) => a.name === b.name && a.age === b.age,
  }
);

9. Named Effects

To aid in debugging, you can name your effects, making it easier to track and manage them:

const count = Cell.source(0);

count.listen((value) => console.log(`Count is now: ${value}`), {
  name: 'countLogger',
});

console.log(count.isListeningTo('countLogger')); // Output: true

count.stopListeningTo('countLogger');

Advanced Features and API Details

Cell Options

When creating a source cell, you have fine-grained control over its behavior:

const cell = Cell.source(initialValue, {
  immutable: boolean, // If true, the cell will not allow updates
  deep: boolean, // By default, the cell only reacts to changes at the top level of objects. Setting deep to true will proxy the cell to all nested properties and trigger updates when they change as well.
  equals: (oldValue, newValue) => boolean, // Custom equality function
});

Effect Options

When setting up listeners or effects, you can customize their behavior:

cell.listen(callback, {
  once: boolean, // If true, the effect will only run once
  signal: AbortSignal, // An AbortSignal to cancel the effect
  name: string, // A name for the effect (useful for debugging)
  priority: number, // The priority of the effect (higher priority effects run first)
});

About

Crude reactive signals.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published