说起Promise大家应该都耳熟能详,咱们明天来看下Promise的相干办法
有如下:
原型办法:then、catch、finally
静态方法:resolve、reject、race、all、allSettled、any
手写实现办法如下:
实现resolve办法
promise.resolve('123')本质上就是
new Promise(resolve=>
resolve('123')
})Promise.resolve(value) 将给定的一个值转为Promise对象。
- 如果这个值是一个 promise ,那么将返回这个 promise ;
- 如果这个值是thenable(即带有”then” 办法),返回的promise会“追随”这个thenable的对象,采纳它的最终状态;
- 否则返回的promise将以此值实现,即以此值执行resolve()办法 (状态为fulfilled)。
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
//value 要解析为 Promise 对象的值
static resolve(value) {
//如果是
if (value instanceof MyPromise) {
return value
} else if (value && typeof value === 'object' && 'then' in value) {
return new MyPromise((resolve, reject) => {
value.then(resolve, reject)
})
}
return new MyPromise((resolve) => {
resolve(value)
})
}
}
const promise1 = MyPromise.resolve(123)
promise1.then((value) => {
console.log(value)
// expected output: 123
})
// Resolve一个thenable对象
var p1 = MyPromise.resolve({
then: function (onFulfill) {
onFulfill('Resolving')
},
})
console.log(p1 instanceof MyPromise) // true, 这是一个Promise对象
setTimeout(() => {
console.log('p1 :>> ', p1)
}, 1000)
p1.then(
function (v) {
console.log(v) // 输入"Resolving!"
},
function (e) {
// 不会被调用
}
)
// Thenable在callback之前抛出异样
// MyPromise rejects
var thenable = {
then: function (resolve) {
throw new TypeError('Throwing')
resolve('Resolving')
},
}
var p2 = MyPromise.resolve(thenable)
p2.then(
function (v) {
// 不会被调用
},
function (e) {
console.log(e) // TypeError: Throwing
}
)
更多面试题解答参见 前端手写面试题具体解答
实现reject办法
const p=Promise.reject(‘error’)
相当于下方函数:
const p=new Promise(reject=>{
reject(‘11111’)
})
Promise.reject()办法返回一个带有回绝起因的Promise对象。
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
//error 要解析为 Promise reject的值
static reject(error) {
return new MyPromise((resolve, reject) => {
reject(error)
})
}
}
MyPromise.reject(new Error('fail')).then(
function () {
// not called
},
function (error) {
console.error(error) // Error: fail
}
)
实现Promise.prototype.catch办法
catch() 办法返回一个Promise,并且解决回绝的状况,用于指定产生谬误时的回调函数。
它的行为与调用Promise.prototype.then(undefined, onRejected) 雷同。
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
catch(onRejected) {
return this.then(undefined, onRejected)
}
}
// 捕捉异样
const p2 = new MyPromise(function (resolve, reject) {
throw new Error('test')
})
p2.catch(function (error) {
console.log(error) //Error: test
})
实现 Promise.prototype.finally
finally() 办法返回一个Promise。在promise完结时,无论后果是fulfilled或者是rejected,都会执行指定的回调函数。
因为无奈晓得promise的最终状态,所以 finally 的回调函数中不接管任何参数,它仅用于无论最终后果如何都要执行的状况。
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
finally(callBack) {
return this.then(callBack, callBack)
}
}
// 捕捉异样
let p1 = new MyPromise(function (resolve, reject) {
resolve(1)
}).finally(function () {
console.log('finally') // finally
})
实现 Promise.all
Promise.all() 办法接管一个promise的iterable类型(注:Array,Map,Set都属于ES6的iterable类型)的输出,并且只返回一个Promise实例, 输出的所有promise的resolve回调的后果是一个数组。
- Promise.all 期待所有都实现(或第一个失败)
- 如果传入的参数是一个空的可迭代对象,则返回一个已实现(already resolved)状态的 Promise
- 如果参数中蕴含非 promise 值,这些值将被疏忽,但依然会被放在返回数组中,如果 promise 实现的话 (也就是如果参数里的某值不是Promise,则须要原样返回在数组里)
- 在任何状况下,Promise.all 返回的 promise 的实现状态的后果都是一个数组,它蕴含所有的传入迭代参数对象的值(也包含非 promise 值)。
- 如果传入的 promise 中有一个失败(rejected),Promise.all 异步地将失败的那个后果给失败状态的回调函数,而不论其它 promise 是否实现
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
//value 要解析为 Promise 对象的值
static resolve(value) {
//如果是
if (value instanceof MyPromise) {
return value
} else if (value && typeof value === 'object' && 'then' in value) {
return new MyPromise((resolve, reject) => {
value.then(resolve, reject)
})
}
return new MyPromise((resolve) => {
resolve(value)
})
}
static all(promiseList) {
if (Array.isArray(promiseList)) {
return new MyPromise((resolve, reject) => {
if (promiseList.length === 0) {
resolve(promiseList)
}
let count = 0
let result = []
promiseList.forEach((item, index) => {
if (item instanceof MyPromise) {
MyPromise.resolve(item).then(
(res) => {
count++
result[index] = res
count === promiseList.length && resolve(result)
},
(error) => {
reject(error)
}
)
} else {
count++
result[index] = item
count === promiseList.length && resolve(result)
}
})
})
} else {
throw TypeError('argument must be Array')
}
}
}
// 捕捉异样
const promise1 = MyPromise.resolve(3)
const promise2 = 42
const promise3 = new MyPromise((resolve, reject) => {
setTimeout(() => {
resolve(100)
})
})
MyPromise.all([promise1, promise2, promise3]).then((values) => {
console.log(values)
})
// [3, 42, 100]
实现Promise.allSettled
Promise.allSettled(iterable)办法返回一个在所有给定的promise都曾经fulfilled或rejected后的promise,并带有一个对象数组,每个对象示意对应的promise后果。
- 当你有多个彼此不依赖的异步工作胜利实现时,或者你总是想晓得每个promise的后果时,通常应用它。
- 相比之下,Promise.all() 更适宜彼此相互依赖或者在其中任何一个reject时立刻完结。
参数 iterable 是一个可迭代的对象,例如Array,其中每个成员都是Promise。
对于每个后果对象,都有一个 status 字符串。如果它的值为 fulfilled,则后果对象上存在一个 value 。如果值为 rejected,则存在一个 reason 。value(或 reason )反映了每个 promise 决定(或回绝)的值。
举个🌰:
let p1=Promise.resolve(1)
let p2=Promise.reject(2)
let p3=Promise.resolve(3)
let p4=Promise.reject(4)
Promise.allSettled([p1,p2,p3,p4]).then(res=>{
console.log(res)
})
//返回了一个数组
[{status: 'fulfilled', value: 1},
{status: 'rejected', reason: 2},
{status: 'fulfilled', value: 3},
{status: 'rejected', reason: 4}]
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
//value 要解析为 Promise 对象的值
static resolve(value) {
//如果是
if (value instanceof MyPromise) {
return value
} else if (value && typeof value === 'object' && 'then' in value) {
return new MyPromise((resolve, reject) => {
value.then(resolve, reject)
})
}
return new MyPromise((resolve) => {
resolve(value)
})
}
static allSettled(promiseList) {
if (Array.isArray(promiseList)) {
return new MyPromise((resolve, reject) => {
let count = 0
let result = []
// 如果传入的是一个空数组,那么就间接返回一个resolved的空数组promise对象
if (promiseList.length === 0) {
return resolve(promiseList)
}
promiseList.forEach((item, index) => {
MyPromise.resolve(item).then(
(res) => {
count++
result[index] = {
status: MyPromise.FULFILLED,
value: res,
}
count === promiseList.length && resolve(result)
},
(error) => {
count++
result[index] = {
status: MyPromise.REJECTED,
reason: error,
}
count === promiseList.length && resolve(result)
}
)
})
})
} else {
throw TypeError('argument must be Array')
}
}
}
// 测试代码
const promise1 = MyPromise.resolve(3)
const promise2 = 1
const promises = [promise1, promise2]
MyPromise.allSettled(promises).then((results) =>
results.forEach((result) => console.log(result))
)
setTimeout(() => {
const p1 = MyPromise.resolve(3)
const p2 = new MyPromise((resolve, reject) =>
setTimeout(reject, 100, 'foo')
)
const ps = [p1, p2]
MyPromise.allSettled(ps).then((results) =>
results.forEach((result) => console.log(result))
)
}, 1000)
MyPromise.allSettled([]).then((results) => console.log(results))
//打印后果
(0) []
{status: 'fulfilled', value: 3}
{status: 'fulfilled', value: 1}
{status: 'fulfilled', value: 3}
{status: 'rejected', reason: 'foo'}
\
实现Promise.any
Promise.any() 接管一个Promise可迭代对象,只有其中的一个 promise 胜利,就返回那个曾经胜利的 promise 。
如果可迭代对象中没有一个 promise 胜利(即所有的 promises 都失败/回绝),就返回一个失败的 promise 和AggregateError类型的实例,它是 Error 的一个子类,用于把繁多的谬误汇合在一起。
- 如果传入的参数是一个空的可迭代对象,则返回一个 已失败(already rejected) 状态的 Promise。
- 如果传入的参数不蕴含任何 promise,则返回一个 异步实现 (asynchronously resolved)的 Promise。(将非Promise值,转换为Promise并当做胜利)
- 只有传入的迭代对象中的任何一个 promise 变成胜利(resolve)状态,或者其中的所有的 promises 都失败,那么返回的 promise 就会 异步地(当调用栈为空时) 变成胜利/失败(resolved/reject)状态。(如果所有Promise都失败,则报错)
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
catch(onRejected) {
return this.then(undefined, onRejected)
}
//value 要解析为 Promise 对象的值
static resolve(value) {
//如果是
if (value instanceof MyPromise) {
return value
} else if (value && typeof value === 'object' && 'then' in value) {
return new MyPromise((resolve, reject) => {
value.then(resolve, reject)
})
}
return new MyPromise((resolve) => {
resolve(value)
})
}
static any(promiseList) {
if (Array.isArray(promiseList)) {
return new MyPromise((resolve, reject) => {
let count = 0
let errors = []
// 留神留神:如果传入的参数是一个空的可迭代对象,则返回一个 已失败(already rejected) 状态的 Promise。
if (promiseList.length === 0) return reject(new AggregateError('All promises were rejected'));
promiseList.forEach((item, index) => {
MyPromise.resolve(item).then(
(res) => {
resolve(res)
},
(reason) => {
count++
errors.push(reason)
/**+ * 如果可迭代对象中没有一个 promise 胜利,就返回一个失败的 promise 和AggregateError类型的实例,+ * AggregateError是 Error 的一个子类,用于把繁多的谬误汇合在一起。+ */
count === promiseList.length &&
reject(new AggregateError(errors))
}
)
})
})
} else {
throw TypeError('argument must be Array')
}
}
}
// 测试代码
MyPromise.any([]).catch((e) => {
console.log(e)
})
const pErr = new Promise((resolve, reject) => {
reject('总是失败')
})
const pSlow = new Promise((resolve, reject) => {
setTimeout(resolve, 500, '最终实现')
})
const pFast = new Promise((resolve, reject) => {
setTimeout(resolve, 100, '很快实现')
})
Promise.any([pErr, pSlow, pFast]).then((value) => {
console.log(value)
// 冀望输入: "很快实现"
})
const pErr1 = new MyPromise((resolve, reject) => {
reject('总是失败')
})
const pErr2 = new MyPromise((resolve, reject) => {
reject('总是失败')
})
const pErr3 = new MyPromise((resolve, reject) => {
reject('总是失败')
})
MyPromise.any([pErr1, pErr2, pErr3]).catch((e) => {
console.log(e)
})
//打印后果
// AggregateError: All promises were rejected
// AggregateError: All promises were rejected
// 很快实现
实现race办法
Promise.race(iterable) 办法返回一个 promise,一旦迭代器中的某个promise解决或回绝,返回的 promise就会解决或回绝。
一个待定的 Promise 只有给定的迭代中的一个promise解决或回绝,就采纳第一个promise的值作为它的返回值,从而异步地解析或回绝(一旦堆栈为空)。
race 函数返回一个 Promise,它将与第一个传递的 promise 雷同的实现形式被实现。它能够是实现( resolves),也能够是失败(rejects),这要取决于第一个实现的形式是两个中的哪个。
- 如果传的迭代是空的,则返回的 promise 将永远期待。
- 如果迭代蕴含一个或多个非承诺值和/或已解决/回绝的承诺,则 Promise.race 将解析为迭代中找到的第一个值。
class MyPromise {
static PENDING = 'pending'
static FULFILLED = 'fulfilled'
static REJECTED = 'rejected'
constructor(executor) {
this.PromiseState = MyPromise.PENDING
this.PromiseResult = null
this.fulfilledCallBacks = []
this.rejectedCallBacks = []
try {
executor(this.resolve.bind(this), this.reject.bind(this))
} catch (error) {
this.reject(error)
}
}
resolve(result) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.FULFILLED
this.PromiseResult = result
for (const callBack of this.fulfilledCallBacks) {
callBack(result)
}
})
}
}
reject(reason) {
if ((this.PromiseState = MyPromise.PENDING)) {
setTimeout(() => {
this.PromiseState = MyPromise.REJECTED
this.PromiseResult = reason
for (const callBack of this.rejectedCallBacks) {
callBack(reason)
}
})
}
}
then(onFulfilled, onRejected) {
onFulfilled =
typeof onFulfilled === 'function' ? onFulfilled : (val) => val
onRejected =
typeof onRejected === 'function'
? onRejected
: (err) => {
throw err
}
return new MyPromise((resolve, reject) => {
if (this.PromiseState === MyPromise.PENDING) {
this.fulfilledCallBacks.push(() => {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
})
this.rejectedCallBacks.push(() => {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
})
} else if (this.PromiseState === MyPromise.FULFILLED) {
try {
setTimeout(() => {
let x = onFulfilled(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : resolve(x)
})
} catch (error) {
reject(error)
}
} else {
try {
setTimeout(() => {
let x = onRejected(this.PromiseResult)
x instanceof MyPromise ? x.then(resolve, reject) : reject(x)
})
} catch (error) {
reject(error)
}
}
})
}
catch(onRejected) {
return this.then(undefined, onRejected)
}
//value 要解析为 Promise 对象的值
static resolve(value) {
//如果是
if (value instanceof MyPromise) {
return value
} else if (value && typeof value === 'object' && 'then' in value) {
return new MyPromise((resolve, reject) => {
value.then(resolve, reject)
})
}
return new MyPromise((resolve) => {
resolve(value)
})
}
static race(promiseList) {
if (Array.isArray(promiseList)) {
return new MyPromise((resolve, reject) => {
// 留神留神:如果传入的参数是一个空的可迭代对象,则永远为pending状态
if (promiseList.length > 0) {
promiseList.forEach((item, index) => {
/** * 如果迭代蕴含一个或多个非承诺值和/或已解决/回绝的承诺, * 则 Promise.race 将解析为迭代中找到的第一个值。 */
MyPromise.resolve(item).then(resolve, reject)
})
}
})
} else {
throw TypeError('argument must be Array')
}
}
}
// 测试代码
/** * 验证Promise.race()办法 */
// 数组全是非Promise值,测试通过
let p1 = Promise.race([1, 3, 4])
setTimeout(() => {
console.log('p1 :>> ', p1) //1
})
// 空数组,测试通过
let p2 = Promise.race([])
setTimeout(() => {
console.log('p2 :>> ', p2) //pengding
})
// p1 :>> Promise {<fulfilled>: 1}
// p2 :>> Promise {<pending>}
总结:
| Promise办法 | 总结 | 传递[]数组影响 |
|---|---|---|
| all() | 参数所有后果为胜利才执行then办法返回后果,否则catch办法为第一个rejected的Promise | 返回一个已实现(already resolved)状态的 Promise(resolve([])) |
| allSettled() | 不论Promise的后果是否胜利,都要等后果返回结束之后执行then办法 | |
| race() | 只有有一个Promise有了后果,就决定了最终新Promise的状态 | 始终处于pending状态 |
| any() | 只有有一个Promise为胜利,就会这个胜利Promise的后果,如果所有Promise为失败,那么最终新Promise的状态为rejected且报错 | Promise的状态为rejected且报错(AggregateError) |
| finally() | 不论Promise对象无论变成fulfilled还是reject状态,最终都会被执行的代码 | – |
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