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ES6 Proxy实现Vue的变化检测问题

Vue变化检测Object使用DefineProperty、数组使用方法拦截实现。最近,Vue3.0将采用ES6 Proxy的形式重新实现Vue的变化检测,在官方还没给出新方法之前,我们先实现一个基于Proxy的变化检测。

模块划分

参照之前Vue变化检测的代码,将Vue 变化检测的功能分为以下几个部分。

  • Observer
  • Dep
  • Watcher
  • Utils

首先,我们要确定的问题是,将Dep依赖搜集存在哪里。Vue 2.x里,Object的依赖收集放在defineRactive,Array的依收集存入到Observer中。ES6 Proxy里,考虑到让handler访问dep,我们将依赖放入到Observer中。

Observer

observer.js功能代码如下:

import Dep from './dep';
import { isObject } from './utils';
export default class Observer {
  constructor (value) {
    // 递归处理子元素
    this.obeserve(value);
    // 实现当前元素的代理
    this.value = this.proxyTarget(value);
  }
  proxyTarget (targetBefore, keyBefore) {
    const dep = new Dep();
    targetBefore.__dep__ = dep;
    let self = this;
    const filtersAtrr = val => ['__dep__', '__parent__'].indexOf(val) > -1;
    return new Proxy(targetBefore, {
      get: function(target, key, receiver){
        if (filtersAtrr(key)) return Reflect.get(target, key, receiver);
        if (!Array.isArray(target)) {
          dep.depend(key);
        }
        // sort/reverse等不改变数组长度的,在get里触发
        if (Array.isArray(target)) {
          if ((key === 'sort' || key === 'reverse') && target.__parent__) {
            target.__parent__.__dep__.notify(keyBefore);
          }
        } 
        return Reflect.get(target, key, receiver);
      },
      set: function(target, key, value, receiver){
        if (filtersAtrr(key)) return Reflect.set(target, key, value, receiver);
        // 新增元素,需要proxy
        const { newValue, isChanged } = self.addProxyTarget(value, target, key, self);
        // 设置key为新元素
        Reflect.set(target, key, newValue, receiver);
        // notify
        self.depNotify(target, key, keyBefore, dep, isChanged);
        return true;
      },
    });
  }
  addProxyTarget(value, target, key, self) {
    let newValue = value;
    let isChanged = false;
    if (isObject(value) && !value.__parent__) {
      self.obeserve(newValue);
      newValue = self.proxyTarget(newValue, key);
      newValue.__parent__ = target;
      isChanged = true;
    }
    return {
      newValue,
      isChanged,
    }
  }
  depNotify(target, key, keyBefore, dep, isChanged) {
    if (isChanged && target.__parent__) {
      target.__parent__.__dep__.notify(keyBefore);
      return;
    }
    if (Array.isArray(target)) {
      if (key === 'length' && target.__parent__) {
        target.__parent__.__dep__.notify(keyBefore);
      }
    } else {
      dep.notify(key);
    }
  }
  obeserve(target) {
    // 只处理对象类型,包括数组、对象
    if (!isObject(target)) return;
    for (let key in target) {
      if (isObject(target[key]) && target[key] !== null) {
        this.obeserve(target[key]);
        target[key] = this.proxyTarget(target[key], key);
        // 设置__parent__,方便子元素调用
        target[key].__parent__ = target;
      }
    }
  }
}

在Observer中,针对对象,只需要执行 dep.depend(key) dep.notify(key) 即可。添加 key 是为了能正确的触发收集,不知道怎么说明白为什么要这样做,只能一切尽在不言中了。

Array, 如何实现依赖的收集和触发那。依赖收集与Object类似, dep.depend(key) 完成数组的收集。关于触发,可以分为两个方面,一是改变数组长度、二未改变数组长度的。改变数组长度的,在set里,通过长度属性的设置触发父级元素的notify。为什么要使用父级元素的notify那?我们可以分析以下,在你设置数组的长度时,这时候的target\key\value分别是[]\length*, 这个时候,数组的依赖收集是没有的,你watcher的是数组,并不是数组本身。这个时候只能通过 target.__parent__.__dep__.notify(keyBefore) 触发父级的收集,完成数据变化的检测。二对于未改变数组长度的,这里的做法,虽然是直接 target.__parent__.__dep__.notify(keyBefore) 触发依赖,但是有个严重的问题,实际上更新的数据不是最新的,这个地方暂时还没想到比较好的方法,欢迎大家讨论。

Dep

Dep.js

let uid = 0;
export default class Dep {
  constructor () {
    this.subs = {};
    this.id = uid++;
  }
  addSub(prop, sub) {
    this.subs[prop] = this.subs[prop] || [];
    this.subs[prop].push(sub);
  }
  removeSub(prop, sub) {
    this.remove(this.subs[prop] || [], sub);
  }
  depend(prop) {
    if (Dep.target) {
      // 传入的是当前依赖
      Dep.target.addDep(prop, this)
    }
  }
  notify(prop) {
    const subs = (this.subs[prop] || []).slice();
    for (let i = 0, l = subs.length; i < l; i++) {
      subs[i].update();
    }
  }
  remove(arr, item) {
    if (arr.length) {
      const index = arr.indexOf(item);
      if (index > -1) {
        return arr.splice(index, 1);
      }
    }
  }
}
Dep.target = null
const targetStack = []
export function pushTarget (_target) {
  if (Dep.target) targetStack.push(Dep.target)
  Dep.target = _target
}
export function popTarget () {
  Dep.target = targetStack.pop()
}

dep 添加prop实现类型的绑定,为什么要这么做那?使用proxy代理后,你假如wahcter对象下的几个元素,此时的deps将同时存在这几个元素,你触发依赖的时候,这些依赖都会执行。因此,通过key值绑定观察事件,触发时,能完成对象的正确触发。

watcher、utils

import { parsePath } from './utils';
import { pushTarget, popTarget } from './dep'
export default class Watcher {
  constructor(vm, expOrFn, cb) {
    // dep id集合
    this.depIds = new Set();
    this.vm = vm;
    this.getter = parsePath(expOrFn);
    this.cb = cb;
    this.value = this.get();
  }
  get () {
    pushTarget(this);
    let value = this.getter.call(this.vm, this.vm);
    popTarget();
    return value;
  }
  update() {
    const oldValue = this.value;
    this.value = this.get();
    this.cb.call(this.vm, this.value, oldValue);
  }
  addDep (prop, dep) {
    const id = dep.id;
    if (!this.depIds.has(id)) {
      this.depIds.add(id);
      dep.addSub(prop, this);
    }
  }
}

utils.js

/**
 * 解析简单路径
 */
const bailRE = /[^\w.$]/;
export function parsePath (path) {
  if (bailRE.test(path)) {
    return;
  }
  const segments = path.split('.');
  return function (obj) {
    for (let i = 0; i < segments.length; i++) {
      if (!obj) return;
      obj = obj[segments[i]];
    }
    return obj;
  };
}
/**
 * Define a property.
 */
export function def (obj, key, val, enumerable) {
  Object.defineProperty(obj, key, {
    value: val,
    enumerable: !!enumerable,
    writable: true,
    configurable: true
  })
}
/**
 * Quick object check - this is primarily used to tell
 * Objects from primitive values when we know the value
 * is a JSON-compliant type.
 */
export function isObject (obj) {
  return obj !== null && typeof obj === 'object'
}
/**
 * Check whether an object has the property.
 */
const hasOwnProperty = Object.prototype.hasOwnProperty
export function hasOwn (obj, key) {
 return hasOwnProperty.call(obj, key)
}

Utils.js/Watchers.js与Vue 2.x类似,这里就不多介绍了。

测试一下

test.js

import Observer from './observer';
import Watcher from './watcher';
let data = {
  name: 'lijincai',
  password: '***********',
  address: {
    home: '安徽亳州谯城区',
  },
  list: [{
    name: 'lijincai',
    password: 'you know it Object',
  }], 
};
const newData = new Observer(data);
let index = 0;
const watcherName = new Watcher(newData, 'value.name', (newValue, oldValue) => {
  console.log(`${index++}: name newValue:`, newValue, ', oldValue:', oldValue);
});
const watcherPassword = new Watcher(newData, 'value.password', (newValue, oldValue) => {
  console.log(`${index++}: password newValue:`, newValue, ', oldValue:', oldValue);
});
const watcherAddress = new Watcher(newData, 'value.address', (newValue, oldValue) => {
  console.log(`${index++}: address newValue:`, newValue, ', oldValue:', oldValue);
});
const watcherAddressHome = new Watcher(newData, 'value.address.home', (newValue, oldValue) => {
  console.log(`${index++}: address.home newValue:`, newValue, ', oldValue:', oldValue);
});
const watcherAddProp = new Watcher(newData, 'value.addProp', (newValue, oldValue) => {
  console.log(`${index++}: addProp newValue:`, newValue, ', oldValue:', oldValue);
});
const watcherDataObject = new Watcher(newData, 'value.list', (newValue, oldValue) => {
  console.log(`${index++}: newValue:`, newValue, ', oldValue:', oldValue);
});
newData.value.name = 'resetName';
newData.value.password = 'resetPassword';
newData.value.name = 'hello world name';
newData.value.password = 'hello world password';
newData.value.address.home = 'hello home';
newData.value.address.home = 'hello home2';
newData.value.addProp = 'hello addProp';
newData.value.addProp ={
  name: 'ceshi',
};
newData.value.addProp.name = 'ceshi2';
newData.value.list.push('1');
newData.value.list.splice(0, 1);
newData.value.list.sort();
newData.value.list.reverse();
newData.value.list.push('1');
newData.value.list.unshift({name: 'nihao'});
newData.value.list[0] = {
  name: 'lijincai',
  password: 'you know it Array',
};
newData.value.list[0].name = 'you know it array after';
newData.value.list.pop();
newData.value.list.shift();
newData.value.list.length = 1;

我们使用对象、数组测试一下我们的ES6 Proxy检测。

20:17:44.725 index.js"ceshi", __dep__: Dep, __parent__: {…}} , oldValue: hello addProp
20:17:44.727 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: Proxy, 1: "1", __dep__: Dep, __parent__: {…}}
20:17:44.728 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", __dep__: Dep, __parent__: {…}}
20:17:44.729 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", __dep__: Dep, __parent__: {…}}
20:17:44.731 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", __dep__: Dep, __parent__: {…}}
20:17:44.734 index.js"1", 1: "1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", 1: "1", __dep__: Dep, __parent__: {…}}
20:17:44.735 index.js"1", 2: "1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: Proxy, 1: "1", 2: "1", __dep__: Dep, __parent__: {…}}
20:17:44.735 index.js"1", 2: "1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: Proxy, 1: "1", 2: "1", __dep__: Dep, __parent__: {…}}
20:17:44.736 index.js"1", 2: "1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: Proxy, 1: "1", 2: "1", __dep__: Dep, __parent__: {…}}
20:17:44.737 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: Proxy, 1: "1", __dep__: Dep, __parent__: {…}}
20:17:44.738 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", __dep__: Dep, __parent__: {…}}
20:17:44.738 index.js"1", __dep__: Dep, __parent__: {…}} , oldValue: Proxy {0: "1", __dep__: Dep, __parent__: {…}}

我们看到了ES6 Proxy后实现了Object/Array的检测,虽然还存在一些问题,但是基本的侦测变化的功能都已经具备了。

总结

以上所述是小编给大家介绍的ES6 Proxy实现Vue的变化检测问题,希望对大家有所帮助,如果大家有任何疑问请给我留言,小编会及时回复大家的。在此也非常感谢大家对网站的支持!
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