vue-reactive-decorator
Provides mobx-like reactive decorator with OOP style for Vue 2 (composition-api) and Vue 3.
Supports legacy decorator syntax and stage 3 decorators proposal.
Installation
npm install vue-reactive-decorator --saveDecorator Versions
Legacy Decorator (most existing libs are using this, supported by most tools)
If you are using the legacy decorator syntax(most existing libs are using this), you should add the following configuration to your tsconfig.json:
{
"compilerOptions": {
"experimentalDecorators": true // legacy decorator, set to true
}
}Stage 3 Decorator Proposal (2023-05, the future es standard)
If you are using the stage 3 decorator proposal, which was supported by TypeScript 5.0, you should remove the experimentalDecorators option or set it to false from your tsconfig.json:
{
"compilerOptions": {
"experimentalDecorators": false // stage 3 decorator proposal, set to false or remove it
}
}Notice: If your build tool throws an error like:
[!] (plugin rpt2) RollupError: Unexpected token `@`. Expected identifier, string literal, numeric literal or [ for the computed key (Note that you need plugins to import files that are not JavaScript)You can try to add the flowing configuration to your tsconfig.json:
{
"compilerOptions": {
"useDefineForClassFields": false
}
}Quick Start
Put the provided reactive decorators on your class properties and call makeObservable(this) in the constructor.
Notice: The decorators only collect the information of the properties, you need to call makeObservable(this) in constructor to make the properties reactive. This is recommended to suit the new decorators proposal.
import { observable, computed, makeObservable } from 'vue-reactive-decorator';
import { watchSyncEffect } from 'vue'
class Order {
@observable
price = 0;
@observable
quantity = 0;
@computed
get total() {
return this.price * this.quantity;
}
constructor() {
makeObservable(this);
}
}
const order = new Order();
const numbers = {
price: order.price,
quantity: order.quantity,
total: order.total,
}
console.log(numbers.total); // 0
console.log(numbers.price); // 0
console.log(numbers.quantity); // 0
watchSyncEffect(() => {
numbers.price = order.price;
});
watchSyncEffect(() => {
numbers.quantity = order.quantity;
});
watchSyncEffect(() => {
numbers.total = order.total;
});
order.price = 10;
console.log(numbers.price); // 10
order.quantity = 2;
console.log(numbers.quantity); // 2
console.log(numbers.total); // 20Documentation
Notice: The documentation is under construction, you can refer to the source code for more details.
@observable
Marks a property as observable(ref).
When you call makeObservable(this) ,the getter and setter of the property will be replaced with a proxy, and the property will be reactive.
import { observable } from 'vue-reactive-decorator';
class Order {
@observable
price = 0;
constructor() {
makeObservable(this);
}
}The inner implementation of @observable just like the following code:
import { ref } from 'vue';
const order = {
price:0
}
const value = ref(order.price);
Object.defineProperty(order, 'price', {
get() {
return value.value;
},
set(value) {
value.value = value;
}
});@observable.ref
the same as @observable.
@observable.reactive
Marks a property as reactive.
When you call makeObservable(this) ,the getter and setter of the property will be replaced with reactive proxy, and the property will be reactive.
import { observable } from 'vue-reactive-decorator';
class Order {
@observable.reactive
items = {
apple: 0,
orange: 0,
}
constructor() {
makeObservable(this)
}
}
const order = new Order()
const items = { ...order.items }
watchSyncEffect(() => {
items.apple = order.items.apple
})
watchSyncEffect(() => {
items.orange = order.items.orange
})
order.items.apple++
console.log(items.apple) // 1Notice: The same as reactive in vue, it will lose reactivity when the marked property is assigned to a new object.
@observable.shallowRef
Marks a property as shallowRef.
When you call makeObservable(this) ,the getter and setter of the property will be replaced shallowRef, and the property will be reactive.
The behavior is same as shallowRef in vue. Unlike ref(), the inner value of a shallow ref is stored and exposed as-is, and will not be made deeply reactive. Only the top-level access is reactive.
import { observable } from 'vue-reactive-decorator';
class Order {
@observable.shallowRef
items = {
apple: 0,
orange: 0,
}
constructor() {
makeObservable(this)
}
}
const order = new Order()
let items = { ...order.items }
watchSyncEffect(() => {
items = order.items
})
order.items = { apple: 1, orange: 1 }
console.log(items) // { apple: 1, orange: 1 }@observable.shallowReactive
Marks a property as shallowReactive.
When you call makeObservable(this) ,the getter and setter of the property will be replaced shallowReactive, and the property will be reactive.
The behavior is same as shallowReactive in vue. Unlike reactive(), there is no deep conversion: only root-level properties are reactive for a shallow reactive object. Property values are stored and exposed as-is - this also means properties with ref values will not be automatically unwrapped.
import { observable } from 'vue-reactive-decorator';
class Order {
@observable.shallowReactive
items = {
apple: 0,
orange: 0,
// obj: {
// a: 1,
// b: 2
// } // the deep-level properties are not reactive
}
constructor() {
makeObservable(this)
}
}
const order = new Order()
let items = { ...order.items }
watchSyncEffect(() => {
items.apple = order.items.apple
})
watchSyncEffect(() => {
items.orange = order.items.orange
})
order.items.apple++
console.log(items.apple) // 1Notice: The same as shallowReactive in vue, it will lose reactivity when the marked property is assigned to a new object.
@computed
Marks a getter method as a computed property.
The behavior is similar to computed in vue.
import { computed } from 'vue-reactive-decorator';
class Order {
@observable
price = 0;
@observable
quantity = 0;
@computed
get total() {
return this.price * this.quantity;
}
constructor() {
makeObservable(this);
}
}@watchEffect
Marks a method as a watcher.
The behavior is similar to watchEffect in vue. When the properties used in the method are changed, the method will be called.
import { watchEffect, nextTick } from 'vue-reactive-decorator';
class Order {
@observable
price = 0;
@observable
quantity = 0;
total = 0;
@watchEffect
effect() {
this.total = this.price * this.quantity;
}
constructor() {
makeObservable(this);
}
const order = new Order();
order.price = 10;
order.quantity = 2;
console.log(order.total); // 0
nextTick(() => { // wait for the effect to be called
console.log(order.total); // 20
});
}@watchSyncEffect
Marks a method as a synchronous watcher.
The behavior is similar to watchSyncEffect in vue. When the properties used in the method are changed, the method will be called.
import { watchSyncEffect } from 'vue-reactive-decorator';
class Order {
@observable
price = 0;
@observable
quantity = 0;
total = 0;
@watchSyncEffect
effect() {
this.total = this.price * this.quantity;
}
constructor() {
makeObservable(this);
}
}
const order = new Order();
order.price = 10;
order.quantity = 2;
console.log(order.total); // 20Thanks
The project is inspired by: