function resolvePromise(promise2,x,resolve,reject){ //判断x是不是promise //规范中规定:我们允许别人乱写,这个代码可以实现我们的promise和别人的promise 进行交互 if(promise2 === x){//不能自己等待自己完成 return reject(new TypeError(‘循环引用‘)); }; // x是除了null以外的对象或者函数 if(x !=null && (typeof x === ‘object‘ || typeof x === ‘function‘)){ let called;//防止成功后调用失败 try{//防止取then是出现异常 object.defineProperty let then = x.then;//取x的then方法 {then:{}} if(typeof then === ‘function‘){//如果then是函数就认为他是promise //call第一个参数是this,后面的是成功的回调和失败的回调 then.call(x,y => {//如果Y是promise就继续递归promise if(called) return; called = true; resolvePromise(promise2,y,resolve,reject) },r => { //只要失败了就失败了 if(called) return; called = true; reject(r); }); }else{//then是一个普通对象,就直接成功即可 resolve(x); } }catch (e){ if(called) return; called = true; reject(e) } }else{//x = 123 x就是一个普通值 作为下个then成功的参数 resolve(x) } } class Promise { constructor (executor){ //默认状态是等待状态 this.status = ‘panding‘; this.value = undefined; this.reason = undefined; //存放成功的回调 this.onResolvedCallbacks = []; //存放失败的回调 this.onRejectedCallbacks = []; let resolve = (data) => {//this指的是实例 if(this.status === ‘pending‘){ this.value = data; this.status = "resolved"; this.onResolvedCallbacks.forEach(fn => fn()); } } let reject = (reason) => { if(this.status === ‘pending‘){ this.reason = reason; this.status = ‘rejected‘; this.onRejectedCallbacks.forEach(fn => fn()); } } try{//执行时可能会发生异常 executor(resolve,reject); }catch (e){ reject(e);//promise失败了 } } then(onFuiFilled,onRejected){ //防止值得穿透 onFuiFilled = typeof onFuiFilled === ‘function‘ ? onFuiFilled : y => y; onRejected = typeof onRejected === ‘function‘ ? onRejected :err => {throw err;} let promise2;//作为下一次then方法的promise if(this.status === ‘resolved‘){ promise2 = new Promise((resolve,reject) => { setTimeout(() => { try{ //成功的逻辑 失败的逻辑 let x = onFuiFilled(this.value); //看x是不是promise 如果是promise取他的结果 作为promise2成功的的结果 //如果返回一个普通值,作为promise2成功的结果 //resolvePromise可以解析x和promise2之间的关系 //在resolvePromise中传入四个参数,第一个是返回的promise,第二个是返回的结果,第三个和第四个分别是resolve()和reject()的方法。 resolvePromise(promise2,x,resolve,reject) }catch(e){ reject(e); } },0) }); } if(this.status === ‘rejected‘){ promise2 = new Promise((resolve,reject) => { setTimeout(() => { try{ let x = onRejected(this.reason); //在resolvePromise中传入四个参数,第一个是返回的promise,第二个是返回的结果,第三个和第四个分别是resolve()和reject()的方法。 resolvePromise(promise2,x,resolve,reject) }catch(e){ reject(e); } },0) }); } //当前既没有完成也没有失败 if(this.status === ‘pending‘){ promise2 = new Promise((resolve,reject) => { //把成功的函数一个个存放到成功回调函数数组中 this.onResolvedCallbacks.push( () =>{ setTimeout(() => { try{ let x = onFuiFilled(this.value); resolvePromise(promise2,x,resolve,reject); }catch(e){ reject(e); } },0) }); //把失败的函数一个个存放到失败回调函数数组中 this.onRejectedCallbacks.push( ()=>{ setTimeout(() => { try{ let x = onRejected(this.reason); resolvePromise(promise2,x,resolve,reject) }catch(e){ reject(e) } },0) }) }) } return promise2;//调用then后返回一个新的promise } catch (onRejected) { // catch 方法就是then方法没有成功的简写 return this.then(null, onRejected); } } Promise.all = function (promises) { //promises是一个promise的数组 return new Promise(function (resolve, reject) { let arr = []; //arr是最终返回值的结果 let i = 0; // 表示成功了多少次 function processData(index, data) { arr[index] = data; if (++i === promises.length) { resolve(arr); } } for (let i = 0; i < promises.length; i++) { promises[i].then(function (data) { processData(i, data) }, reject) } }) } // 只要有一个promise成功了 就算成功。如果第一个失败了就失败了 Promise.race = function (promises) { return new Promise((resolve, reject) => { for (var i = 0; i < promises.length; i++) { promises[i].then(resolve,reject) } }) } // 生成一个成功的promise Promise.resolve = function(value){ return new Promise((resolve,reject) => resolve(value); } // 生成一个失败的promise Promise.reject = function(reason){ return new Promise((resolve,reject) => reject(reason)); } Promise.defer = Promise.deferred = function () { let dfd = {}; dfd.promise = new Promise( (resolve, reject) => { dfd.resolve = resolve; dfd.reject = reject; }); return dfd } module.exports = Promise;
原文:https://www.cnblogs.com/yangsg/p/13732341.html