Use class style to write setup and support vue2 and vue3
Using class can help you avoid ref
, reactive
, computed
and withDefaults
, and significantly reduce your mental burden and better organize your code. It supports vue2 and vue3 at the same time. After gzip compression, it is only 1KB
We should deprecate vue-class-component, and use class in setup
List | vue-class-component | vue-class-setup |
---|---|---|
Vue2 | ✅ | ✅ |
Vue3 | ❌ | ✅ |
Method bind this | ✅ | ✅ |
Props type check | ❌ | ✅ |
Emit type check | ❌ | ✅ |
Watch type check | ❌ | ✅ |
Multiple class instances | ❌ | ✅ |
Class attribute sets the default value of the prop | ❌ | ✅ |
npm install vue-class-setup
# or
yarn add vue-class-setup
<script lang="ts">
import { defineComponent } from 'vue';
import { Setup, Context } from 'vue-class-setup';
// Setup and Context must work together
@Setup
class App extends Context {
private _value = 0;
public get text() {
return String(this._value);
}
public set text(text: string) {
this._value = Number(text);
}
public onClick() {
this._value++;
}
}
export default defineComponent({
// Inject setup
...App.inject(),
});
</script>
<template>
<div>
<p>{{ text }}</p>
<button @click="onClick()"></button>
</div>
</template>
Setup
and Context
collect dependency information together, and convert it into a Vue program after executing the subclass constructor
If the component defines props
, writing the class
in the setup
will cause the setup
function to create a class
every time as it executes, which will add costs. So we should avoid writing class
in setup
and use Define
basic class to receive props
and emit
.
Context
automatic injection $vm
, Define
extend from Context
, and Define
will automatically inject $props
and $emit
, when encapsulating public classes, you may not want to inject props and emit
<script lang="ts">
import { defineComponent } from 'vue';
import { Setup, Define } from 'vue-class-setup';
// You can create multiple setup class, Only one is shown here
@Setup
class App extends Define<Props, Emit> {
// ✨ The default value of the prop can only be initialized in the constructor,
// ✨ and cannot be modified later. It is only read-only
public readonly dest = '--';
// Automatically convert to vue 'computed'
public get text() {
return String(this.value);
}
public click(evt: MouseEvent) {
this.$emit('click', evt);
}
}
/**
* You can directly call the injection method here
* or manually inject in the setup function
* <script lang="ts" setup>
* const app = new App();
* <\/script>
* <template>
* <div>{{ app.text }}</div>
* </template>
*/
export default defineComponent({
...App.inject(),
});
</script>
<script lang="ts" setup>
// Props and Emits need to be exported
export interface Props {
value: number;
dest?: string;
}
export interface Emit {
(event: 'click', evt: MouseEvent): void;
}
// Variable reception must be used, otherwise Vue compilation error
// ❌ const props = defineProps<Props>();
// ❌ const emit = defineEmits<Emit>();
defineProps<Props>(); // ✅
defineEmits<Emit>(); // ✅
// You should define default values directly on the class
// ❌ withDefaults(defineProps<Props>(), { dest: '--' });
// ✅ @Setup
// ✅ class App extends Define<Props, Emit> {
// ✅ public readonly dest = '--'
// ✅ }
// Automatic dependency injection and reactive
// const app = reactive(new App()); // ❌
// const app = new App(); // ✅
</script>
<template>
<button class="btn" @click="click($event)">
<span class="text">{{ text }}</span>
<span class="props-dest">{{ dest }}</span>
<span class="props-value">{{ $props.value }}</span>
</button>
</template>
When the business is complex, multiple instances should be split
<script lang="ts">
import { onBeforeMount, onMounted } from 'vue';
import { Setup, Context, PassOnTo } from 'vue-class-setup';
@Setup
class Base extends Context {
public value = 0;
public get text() {
return String(this.value);
}
@PassOnTo(onBeforeMount)
public init() {
this.value++;
}
}
@Setup
class Left extends Base {
public left = 0;
public get text() {
return String(`value:${this.value}`);
}
public init() {
super.init();
this.value++;
}
@PassOnTo(onMounted)
public initLeft() {
this.left++;
}
}
@Setup
class Right extends Base {
public right = 0;
public init() {
super.init();
this.value++;
}
@PassOnTo(onMounted)
public initLeft() {
this.right++;
}
}
</script>
<script setup lang="ts">
const left = new Left();
const right = new Right();
</script>
<template>
<p class="left">{{ left.text }}</p>
<p class="right">{{ right.text }}</p>
</template>
This callback
will be called back after the Test class
instantiation is completed, and the decorated function will be passed in, and the TS can check whether the type is correct
@Setup
class App extends Define {
@PassOnTo(myFunc)
public init(name: string) {}
}
function myFunc(callback: (name: string) => void) {
// ...
}
If PassOnTo
does not pass in a handler, it is called after reactive
and computed
execution are completed, You should avoid watching in the constructor
because it may not have reactive
import { Watch } from 'vue';
@Setup
class App extends Define {
public value = 0;
@PassOnTo()
private setup() {
// You can safely watch, but it is recommended to use the Watch decorator
watch(
() => this.value,
(value) => {
// ...
}
);
}
}
It can correctly identify the type
<script lang="ts">
import { Setup, Watch, Context } from 'vue-class-setup';
@Setup
class App extends Context {
public value = 0;
public immediateValue = 0;
public onClick() {
this.value++;
}
@Watch('value')
public watchValue(value: number, oldValue: number) {
if (value > 100) {
this.value = 100;
}
}
@Watch('value', { immediate: true })
public watchImmediateValue(value: number, oldValue: number | undefined) {
if (typeof oldValue === 'undefined') {
this.immediateValue = 10;
} else {
this.immediateValue++;
}
}
}
</script>
<script setup lang="ts">
const app = new App();
</script>
<template>
<p class="value">{{ app.value }}</p>
<p class="immediate-value">{{ app.immediateValue }}</p>
<button @click="app.onClick()">Add</button>
</template>
Useful when defineExpose
<script lang="ts">
import { defineComponent } from 'vue';
import { Setup, Context } from 'vue-class-setup';
@Setup
class App extends Context {
private _value = 0;
public get text() {
return String(this._value);
}
public set text(text: string) {
this._value = Number(text);
}
public addValue() {
this._value++;
}
}
export default defineComponent({
...App.inject(),
});
</script>
<script lang="ts" setup>
const app = App.use();
defineExpose({
addValue: app.addValue,
});
</script>
<template>
<div>
<p class="text">{{ text }}</p>
<p class="text-eq">{{ app.text === text }}</p>
<button @click="addValue"></button>
</div>
</template>
getCurrentInstance
returns the proxy object by defaultVueInstance
It is not easy to get a Vue instance object type compatible with vue2 and vue3. We make it easy
import {
isVue2,
isVue3,
getCurrentInstance,
type VueInstance,
} from 'vue-class-setup';
// isVue2 -> boolean
// isVue3 -> boolean
// getCurrentInstance -> VueInstance