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<p align="center"><img src="https://omijs.github.io/home/assets/logo.svg" alt="omi" width="100"/></p> <h2 align="center">Omi - Web Components Framework</h2>
import { render, signal, tag, Component, h } from 'omi'

const count = signal(0)

function add() {
  count.value++
}

function sub() {
  count.value--
}

@tag('counter-demo')
export class CounterDemo extends Component {
  static css = 'span { color: red; }'

  render() {
    return (
      <>
        <button onClick={sub}>-</button>
        <span>{count.value}</span>
        <button onClick={add}>+</button>
      </>
    )
  }
}

Use this component:

import { h } from 'omi'
import './counter-demo'

render(<counter-demo />, document.body)

// or 
import { CounterDemo, Other } from './counter-demo'
// Prevent tree Shaking when importing other things
render(<CounterDemo />, document.body)

// or
document.body.appendChild(document.createElement('counter-demo'))

Install

npm i omi

To quickly create an Omi + Vite + TS/JS project:

$ npx omi-cli init my-app    # or create js project by: npx omi-cli init-js my-app
$ cd my-app           
$ npm start           # develop
$ npm run build       # release

To quickly create an Omi + Router + Signal + Suspense + Tailwindcss + Vite + TS project:

$ npx omi-cli init-spa my-app  
$ cd my-app           
$ npm start           # develop
$ npm run build       # release

Packages

If you want to help the project grow, start by simply sharing it with your peers!

Thank you!

Usage

TodoApp with reactivity functions

Data oriented programming

In data-oriented programming, the focus is on the data itself and the operations on the data, rather than the objects or data structures that hold the data. This programming paradigm emphasizes the change and flow of data, and how to respond to these changes. The TodoApp with reactivity functions is a good example of this, using the concepts of reactive programming, where the UI automatically updates to reflect changes in the data (i.e., the to-do list).

import { render, signal, computed, tag, Component, h } from 'omi'

const todos = signal([
  { text: 'Learn OMI', completed: true },
  { text: 'Learn Web Components', completed: false },
  { text: 'Learn JSX', completed: false },
  { text: 'Learn Signal', completed: false }
])

const completedCount = computed(() => {
  return todos.value.filter(todo => todo.completed).length
})

const newItem = signal('')

function addTodo() {
  // api a
  todos.value.push({ text: newItem.value, completed: false })
  todos.update() // Trigger UI auto update
  
  // api b, same as api a
  // todos.value = [...todos.value, { text: newItem.value, completed: false }]

  newItem.value = '' // Changing the value type can automatically update the UI
}

function removeTodo(index: number) {
  todos.value.splice(index, 1)
  todos.update() // Trigger UI auto update
}

@tag('todo-list')
class TodoList extends Component {
  onInput = (event: Event) => {
    const target = event.target as HTMLInputElement
    newItem.value = target.value
  }

  render() {
    return (
      <>
        <input type="text" value={newItem.value} onInput={this.onInput} />
        <button onClick={addTodo}>Add</button>
        <ul>
          {todos.value.map((todo, index) => {
            return (
              <li>
                <label>
                  <input
                    type="checkbox"
                    checked={todo.completed}
                    onInput={() => {
                      todo.completed = !todo.completed
                      todos.update() // Trigger UI auto update
                    }}
                  />
                  {todo.completed ? <s>{todo.text}</s> : todo.text}
                </label>
                {' '}
                <button onClick={() => removeTodo(index)}>❌</button>
              </li>
            )
          })}
        </ul>
        <p>Completed count: {completedCount.value}</p>
      </>
    )
  }
}

render(<todo-list />, document.body)

Auto Import h

vite.config.js:

import { defineConfig } from 'vite'

export default defineConfig({
  esbuild: {
    jsxInject: "import { h } from 'omi'",
    jsxFactory: "h",
    jsxFragment: "h.f"
  }
})

You can inject code during construction, so you don't have to manually export h.

<!-- ## With Twind ```tsx import { Component, define, h } from 'omi' import install from '@twind/with-web-components' import { defineConfig } from '@twind/core' import presetAutoprefix from '@twind/preset-autoprefix' import presetTailwind from '@twind/preset-tailwind' const withTwind = install(defineConfig({ presets: [presetAutoprefix(), presetTailwind()], })) define('my-app', class extends withTwind(Component) { render() { return <h1 class="text-3xl font-bold underline">Hello world!</h1> } }) ``` -->

Define Cross Framework Component

The case of using Omi component in Vue is as follows:

my-counter.tsx:

import { tag, Component, h, bind } from 'omi'

@tag('my-counter')
class MyCounter extends Component {
  static props = {
    count: {
      type: Number,
      default: 0,
      changed(newValue, oldValue) {
        this.state.count = newValue
        this.update()
      }
    }
  }

  state = {
    count: null
  }

  install() {
    this.state.count = this.props.count
  }

  @bind
  sub() {
    this.state.count--
    this.update()
    this.fire('change', this.state.count)
  }

  @bind
  add() {
    this.state.count++
    this.update()
    this.fire('change', this.state.count)
  }

  render() {
    return (
      <>
        <button onClick={this.sub}>-</button>
        <span>{this.state.count}</span>
        <button onClick={this.add}>+</button>
      </>
    )
  }
}

Using in Vue3

<script setup>
import { ref } from 'vue'
// import omi component
import './my-counter'

defineProps({
  msg: String,
})

const count = ref(0)

const change = (e) => {
  count.value = e.detail
}

</script>

<template>
  <h1>{{ msg }}</h1>

  <my-counter @change="change" :count="count" />
  <p>
    【Omi】 
  </p>

  <div class="card">
    <button type="button" @click="count++">count is {{ count }}</button>
    <p>
     【Vue】 
    </p>
  </div>

</template>

If you fire the count-change in an Omi component:

this.fire('count-change', this.state.count)

To use the component and listen for events in Vue:

<my-counter @count-change="change" :count="count" />

Using in React

import { useState, useRef, useEffect } from 'react'
import useEventListener from '@use-it/event-listener'
import './my-counter'

function App() {
  const [count, setCount] = useState(100)
  const myCounterRef = useRef(null)

  useEffect(() => {
    const counter = myCounterRef.current
    if (counter) {
      const handleChange = (evt) => {
        setCount(evt.detail)
      }
      counter.addEventListener('change', handleChange)
      return () => {
        counter.removeEventListener('change', handleChange)
      }
    }
  }, [])

  return (
    <>
      <h1>Omi + React</h1>
      <my-counter count={count} ref={myCounterRef}></my-counter>
      <div className="card">
        <button onClick={() => setCount((count) => count + 1)}>
          count is {count}
        </button>
      </div>
    </>
  )
}

export default App

Contributors

<a href="https://github.com/Tencent/omi/graphs/contributors"> <img src="./assets/contributors.png" /> </a>

License

MIT © Tencent

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