10.5尤大大发布了vue3.0 pre-alpha版本的源码,vue3.0之前,大家基本都知道响应式核心是用ES5的
Object.defineProperty,而新版本3.0则是使用ES6的proxy
2.x实现原理
在理解3.0的proxy实现之前,先回顾一下2.x版本基本实现原理:
- 将一个对象作为data选项(组件是data函数返回对象)
- 遍历data里面所有的属性,通过
Object.defineProperty给属性加上getter/setter - 每个组件都有一个
watcher,它用来记录接触过的属性,并将其收集为依赖,当依赖的setter变更时,通知watcher,使与其有关联的组件更新 - 异步更新
初始化data
首先对data进行初始化initData,代码路径/src/core/instance/state.js
function initData (vm: Component) {
let data = vm.$options.data
data = vm._data = typeof data === 'function'
? getData(data, vm)
: data || {}
if (!isPlainObject(data)) {
data = {}
process.env.NODE_ENV !== 'production' && warn(
'data functions should return an object:\n' +
'https://vuejs.org/v2/guide/components.html#data-Must-Be-a-Function',
vm
)
}
// proxy data on instance
const keys = Object.keys(data)
const props = vm.$options.props
const methods = vm.$options.methods
let i = keys.length
while (i--) {
const key = keys[i]
if (process.env.NODE_ENV !== 'production') {
if (methods && hasOwn(methods, key)) {
warn(
`Method "${key}" has already been defined as a data property.`,
vm
)
}
}
if (props && hasOwn(props, key)) {
process.env.NODE_ENV !== 'production' && warn(
`The data property "${key}" is already declared as a prop. ` +
`Use prop default value instead.`,
vm
)
} else if (!isReserved(key)) {
proxy(vm, `_data`, key)
}
}
// observe data
observe(data, true /* asRootData */)
}
data的初始化主要做两件事:
- 对data的所有属性遍历,先检查属性是否已定义为method或prop,否则通过一个proxy函数(不是ES6的proxy),把
vm._data.xxx代理到vm.xxx - 调用observe实现对data的监测,把data变成响应式
下面先看自定义的代理函数proxy
代理函数proxy
const sharedPropertyDefinition = {
enumerable: true,
configurable: true,
get: noop,
set: noop
}
export function proxy (target: Object, sourceKey: string, key: string) {
sharedPropertyDefinition.get = function proxyGetter () {
return this[sourceKey][key]
}
sharedPropertyDefinition.set = function proxySetter (val) {
this[sourceKey][key] = val
}
Object.defineProperty(target, key, sharedPropertyDefinition)
}
proxy函数的作用是通过Object.defineProperty,将target[sourceKey][key]的读写变成target[key]的读写。而vm._prop.xxx、vm._data.xxx可以访问到props、data里面的属性,因此通过proxy函数之后,vm._prop.xxx、vm._data.xxx就变成vm.xxx的读写了,这也是为什么props的属性和data的属性一样,可以通过vm.xxx来访问。
observe
observe的作用是监测数据的变化,代码路径/src/core/observer/index.js
/**
* Attempt to create an observer instance for a value,
* returns the new observer if successfully observed,
* or the existing observer if the value already has one.
*/
export function observe (value: any, asRootData: ?boolean): Observer | void {
if (!isObject(value) || value instanceof VNode) {
return
}
let ob: Observer | void
if (hasOwn(value, '__ob__') && value.__ob__ instanceof Observer) {
ob = value.__ob__
} else if (
shouldObserve &&
!isServerRendering() &&
(Array.isArray(value) || isPlainObject(value)) &&
Object.isExtensible(value) &&
!value._isVue
) {
ob = new Observer(value)
}
if (asRootData && ob) {
ob.vmCount++
}
return ob
}
Observer
代码路径/src/core/observer/index.js
export class Observer {
value: any;
dep: Dep;
vmCount: number; // number of vms that have this object as root $data
constructor (value: any) {
this.value = value
// 实例化Dep对象
this.dep = new Dep()
this.vmCount = 0
// 将自身属性添加到value对象的__ob__属性
def(value, '__ob__', this)
if (Array.isArray(value)) {
if (hasProto) {
protoAugment(value, arrayMethods)
} else {
copyAugment(value, arrayMethods, arrayKeys)
}
this.observeArray(value)
} else {
this.walk(value)
}
}
/**
* Walk through all properties and convert them into
* getter/setters. This method should only be called when
* value type is Object.
*/
walk (obj: Object) {
const keys = Object.keys(obj)
for (let i = 0; i < keys.length; i++) {
defineReactive(obj, keys[i])
}
}
/**
* Observe a list of Array items.
*/
observeArray (items: Array<any>) {
for (let i = 0, l = items.length; i < l; i++) {
observe(items[i])
}
}
}
在Observer的构造函数里,先实例化一个Dep对象,用def函数(defineProperty的迷你版),将自身实例添加到value对象的__ob__属性,接下来判断value是数组还是对象,如果是数组,则调用observeArray,如果是对象,则调用walk函数。
接下来看一下defineReactive这个函数,代码路径/src/core/observer/index.js
defineReactive
/**
* Define a reactive property on an Object.
*/
export function defineReactive (
obj: Object,
key: string,
val: any,
customSetter?: ?Function,
shallow?: boolean
) {
// 实例化Dep对象
const dep = new Dep()
// 获取对象属性描述符
const property = Object.getOwnPropertyDescriptor(obj, key)
if (property && property.configurable === false) {
return
}
// cater for pre-defined getter/setters
const getter = property && property.get
const setter = property && property.set
if ((!getter || setter) && arguments.length === 2) {
val = obj[key]
}
let childOb = !shallow && observe(val)
Object.defineProperty(obj, key, {
enumerable: true,
configurable: true,
get: function reactiveGetter () {
const value = getter ? getter.call(obj) : val
if (Dep.target) {
dep.depend()
if (childOb) {
childOb.dep.depend()
if (Array.isArray(value)) {
dependArray(value)
}
}
}
return value
},
set: function reactiveSetter (newVal) {
const value = getter ? getter.call(obj) : val
/* eslint-disable no-self-compare */
if (newVal === value || (newVal !== newVal && value !== value)) {
return
}
/* eslint-enable no-self-compare */
if (process.env.NODE_ENV !== 'production' && customSetter) {
customSetter()
}
// #7981: for accessor properties without setter
if (getter && !setter) return
if (setter) {
setter.call(obj, newVal)
} else {
val = newVal
}
childOb = !shallow && observe(newVal)
dep.notify()
}
})
}
从代码可以看到,defineReactive先实例化一个Dep对象,之后拿到对象属性的描述符,如果对象存在子对象,将会递归调用observe方法,确保每个属性都能被监测到,最后通过defineProperty给属性加上用于收集依赖的getter和派发更新的setter。
到了这里,data的初始化已经完成,后面接着对收集依赖和派发更新做分析。
