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Detailed explanation of MVVM principles and implementation methods in Vue

青灯夜游
青灯夜游 forward
2020-07-15 16:44:06 2600browse

Detailed explanation of MVVM principles and implementation methods in Vue

Analysis and implementation of MVVM principles in Vue

First of all, you need to have a certain understanding of Vue Understand, know MVVM. This will help you to successfully complete the reading, learning and writing of the following principles

The following is a detailed walkthrough of the MVVM principles in Vue by my Aba Aba For the implementation, you can learn from this article:

1. Vue data two-way binding core code module and implementation principle

2. How does the subscriber-publisher pattern allow data to drive the view, the view to drive the data, and then the view to drive the view

3. How to parse the instructions on the element node and associate the subscriber to implement the view Update

1. Organize ideas

##Flow chart of implementation:

Detailed explanation of MVVM principles and implementation methods in Vue

If we want to implement a simple version of the Vue framework similar to MVVM, we need to implement the following points:

1. Implement a data monitoring Observer to monitor all properties of the data object. If the data changes, the latest value can be obtained to notify subscribers.

2. Implement a parser, Compile, to parse the page node instructions and initialize the view.

3. Implement an observer Watcher, subscribe to data changes and bind related update functions. And put yourself into the observer collection Dep. Dep is the bridge between Observer and Watcher. Data changes are notified to Dep, and then Dep notifies the corresponding Watcher to update the view.

2. Implementation

The following is written in ES6, which is relatively concise, so it can be implemented in more than 300 lines of code. A simple MVVM framework.

1. Implement the html page

Define some data and instructions on the page according to Vue’s writing method, and introduce two JS document. First instantiate an MVue object and pass in our el, data, and methods parameters. Let’s look at it later. What is the Mvue.js file?

html

 

{{person.name}} --- {{person.age}}

{{person.fav}}

{{person.a.b}}

  • 1
  • 2
  • 3

{{msg}}

2. Implement parser and observer

MVue .js

// 先创建一个MVue类,它是一个入口 Class MVue { construction(options) { this.$el = options.el this.$data = options.data this.$options = options } if(this.$el) { // 1.实现一个数据的观察者 --先看解析器,再看Obeserver new Observer(this.$data) // 2.实现一个指令解析器 new Compile(this.$el,this) } } ? // 定义一个Compile类解析元素节点和指令 class Compile { constructor(el,vm) { // 判断el是否是元素节点对象,不是就通过DOM获取 this.el = this.isElementNode(el) ? el : document.querySelector(el) this.vm = vm // 1.获取文档碎片对象,放入内存中可以减少页面的回流和重绘 const fragment = this.node2Fragment(this.el) // 2.编辑模板 this.compile(fragment) // 3.追加子元素到根元素(还原页面) this.el.appendChild(fragment) } // 将元素插入到文档碎片中 node2Fragment(el) { const f = document.createDocumnetFragment(); let firstChild while(firstChild = el.firstChild) { // appendChild // 将已经存在的节点再次插入,那么原来位置的节点自动删除,并在新的位置重新插入。 f.appendChild(firstChild) } // 此处执行完,页面已经没有元素节点了 return f } // 解析模板 compile(frafment) { // 1.获取子节点 conts childNodes = fragment.childNodes; [...childNodes].forEach(child => { if(this.isElementNode(child)) { // 是元素节点 // 编译元素节点 this.compileElement(child) } else { // 文本节点 // 编译文本节点 this.compileText(child) } // 嵌套子节点进行遍历解析 if(child.childNodes && child.childNodes.length) { this.compule(child) } }) } // 判断是元素节点还是属性节点 isElementNode(node) { // nodeType属性返回 以数字值返回指定节点的节点类型。1-元素节点 2-属性节点 return node.nodeType === 1 } // 编译元素节点 compileElement(node) { // 获得元素属性集合 const attributes = node.attributes [...attributes].forEach(attr => { const {name, value} = attr if(this.isDirective(name)) { // 判断属性是不是以v-开头的指令 // 解析指令(v-mode v-text v-on:click 等...) const [, dirctive] = name.split('-') const [dirName, eventName] = dirctive.split(':') // 初始化视图 将数据渲染到视图上 compileUtil[dirName](node, value, this.vm, eventName) // 删除有指令的标签上的属性 node.removeAttribute('v-' + dirctive) } else if (this.isEventName(name)) { //判断属性是不是以@开头的指令 // 解析指令 let [, eventName] = name.split('@') compileUtil['on'](node,val,this.vm, eventName) // 删除有指令的标签上的属性 node.removeAttribute('@' + eventName) } else if(this.isBindName(name)) { //判断属性是不是以:开头的指令 // 解析指令 let [, attrName] = name.split(':') compileUtil['bind'](node,val,this.vm, attrName) // 删除有指令的标签上的属性 node.removeAttribute(':' + attrName) } }) } // 编译文本节点 compileText(node) { const content = node.textContent if(/\{\{(.+?)\}\}/.test(content)) { compileUtil['text'](node, content, this.vm) } } // 判断属性是不是指令 isDirective(attrName) { return attrName.startsWith('v-') } // 判断属性是不是以@开头的事件指令 isEventName(attrName) { return attrName.startsWith('@') } // 判断属性是不是以:开头的事件指令 isBindName(attrName) { return attrName.startsWith(':') } } ? ? // 定义一个对象,针对不同指令执行不同操作 const compileUtil = { // 解析参数(包含嵌套参数解析),获取其对应的值 getVal(expre, vm) { return expre.split('.').reduce((data, currentVal) => { return data[currentVal] }, vm.$data) }, // 获取当前节点内参数对应的值 getgetContentVal(expre,vm) { return expre.replace(/\{\{(.+?)\}\}/g, (...arges) => { return this.getVal(arges[1], vm) }) }, // 设置新值 setVal(expre, vm, inputVal) { return expre.split('.').reduce((data, currentVal) => { return data[currentVal] = inputVal }, vm.$data) }, // 指令解析:v-test test(node, expre, vm) { let value; if(expre.indexOf('{{') !== -1) { // 正则匹配{{}}里的内容 value = expre.replace(/\{\{(.+?)\}\}/g, (...arges) => { // new watcher这里相关的先可以不看,等后面讲解写到观察者再回头看。这里是绑定观察者实现 的效果是通过改变数据会触发视图,即数据=》视图。 // 没有new watcher 不影响视图初始化(页面参数的替换渲染)。 // 订阅数据变化,绑定更新函数。 new watcher(vm, arges[1], () => { // 确保 {{person.name}}----{{person.fav}} 不会因为一个参数变化都被成新值 this.updater.textUpdater(node, this.getgetContentVal(expre,vm)) }) return this.getVal(arges[1],vm) }) } else { // 同上,先不看 // 数据=》视图 new watcher(vm, expre, (newVal) => { // 找不到{}说明是test指令,所以当前节点只有一个参数变化,直接用回调函数传入的新值 this.updater.textUpdater(node, newVal) }) value = this.getVal(expre,vm) } // 将数据替换,更新到视图上 this.updater.textUpdater(node,value) }, //指令解析: v-html html(node, expre, vm) { const value = this.getVal(expre, vm) // 同上,先不看 // 绑定观察者 数据=》视图 new watcher(vm, expre (newVal) => { this.updater.htmlUpdater(node, newVal) }) // 将数据替换,更新到视图上 this.updater.htmlUpdater(node, newVal) }, // 指令解析:v-mode model(node,expre, vm) { const value = this.getVal(expre, vm) // 同上,先不看 // 绑定观察者 数据=》视图 new watcher(vm, expre, (newVal) => { this.updater.modelUpdater(node, newVal) }) // input框 视图=》数据=》视图 node.addEventListener('input', (e) => { //设置新值 - 将input值赋值到v-model绑定的参数上 this.setVal(expre, vm, e.traget.value) }) // 将数据替换,更新到视图上 this.updater.modelUpdater(node, value) }, // 指令解析: v-on on(node, expre, vm, eventName) { // 或者指令绑定的事件函数 let fn = vm.$option.methods && vm.$options.methods[expre] // 监听函数并调用 node.addEventListener(eventName,fn.bind(vm),false) }, // 指令解析: v-bind bind(node, expre, vm, attrName) { const value = this.getVal(expre,vm) this.updater.bindUpdate(node, attrName, value) } // updater对象,管理不同指令对应的更新方法 updater: { // v-text指令对应更新方法 textUpdater(node, value) { node.textContent = value }, // v-html指令对应更新方法 htmlUpdater(node, value) { node.innerHTML = value }, // v-model指令对应更新方法 modelUpdater(node,value) { node.value = value }, // v-bind指令对应更新方法 bindUpdate(node, attrName, value) { node[attrName] = value } }, }

3. Implement data hijacking and monitoring

#We have data monitoring, and we also need an observer to trigger the update view. Because data changes are required to trigger updates, a bridge Dep is needed to collect all observers (observer collection) and connect Observer and Watcher. Data changes notify Dep, and Dep notifies the corresponding observer to update the view.

Observer.js

// 定义一个观察者 class watcher { constructor(vm, expre, cb) { this.vm = vm this.expre = expre this.cb =cb // 把旧值保存起来 this.oldVal = this.getOldVal() } // 获取旧值 getOldVal() { // 将watcher放到targe值中 Dep.target = this // 获取旧值 const oldVal = compileUtil.getVal(this.expre, this.vm) // 将target值清空 Dep.target = null return oldVal } // 更新函数 update() { const newVal = compileUtil.getVal(this.expre, this.vm) if(newVal !== this.oldVal) { this.cb(newVal) } } } // 定义一个观察者集合 class Dep { constructor() { this.subs = [] } // 收集观察者 addSub(watcher) { this.subs.push(watcher) } //通知观察者去更新 notify() { this.subs.forEach(w => w.update()) } } // 定义一个Observer类通过gettr,setter实现数据的监听绑定 class Observer { constructor(data) { this.observer(data) } // 定义函数解析data,实现数据劫持 observer (data) { if(data && typeof data === 'object') { // 是对象遍历对象写入getter,setter方法 Reflect.ownKeys(data).forEach(key => { this.defineReactive(data, key, data[key]); }) } } // 数据劫持方法 defineReactive(obj,key, value) { // 递归遍历 this.observer(data) // 实例化一个dep对象 const dep = new Dep() // 通过ES5的API实现数据劫持 Object.defineProperty(obj, key, { enumerable: true, configurable: false, get() { // 当读当前值的时候,会触发。 // 订阅数据变化时,往Dep中添加观察者 Dep.target && dep.addSub(Dep.target) return value }, set: (newValue) => { // 对新数据进行劫持监听 this.observer(newValue) if(newValue !== value) { value = newValue } // 告诉dep通知变化 dep.notify() } }) } }
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