// 三种状态
const PENDING = "pending";
const RESOLVED = "resolved";
const REJECTED = "rejected";
// promise 接收一个函数参数,该函数会立即执行
function MyPromise(fn) {
let _this = this;
_this.currentState = PENDING;
_this.value = undefined;
// 用于保存 then 中的回调,只有当 promise
// 状态为 pending 时才会缓存,并且每个实例至多缓存一个
_this.resolvedCallbacks = [];
_this.rejectedCallbacks = [];
_this.resolve = function (value) {
if (value instanceof MyPromise) {
// 如果 value 是个 Promise,递归执行
return value.then(_this.resolve, _this.reject)
}
setTimeout(() => { // 异步执行,保证执行顺序
if (_this.currentState === PENDING) {
_this.currentState = RESOLVED;
_this.value = value;
_this.resolvedCallbacks.forEach(cb => cb());
}
})
};
_this.reject = function (reason) {
setTimeout(() => { // 异步执行,保证执行顺序
if (_this.currentState === PENDING) {
_this.currentState = REJECTED;
_this.value = reason;
_this.rejectedCallbacks.forEach(cb => cb());
}
})
}
// 用于解决以下问题
// new Promise(() => throw Error('error))
try {
fn(_this.resolve, _this.reject);
} catch (e) {
_this.reject(e);
}
}
MyPromise.prototype.then = function (onResolved, onRejected) {
var self = this;
// 规范 2.2.7,then 必须返回一个新的 promise
var promise2;
// 规范 2.2.onResolved 和 onRejected 都为可选参数
// 如果类型不是函数需要忽略,同时也实现了透传
// Promise.resolve(4).then().then((value) => console.log(value))
onResolved = typeof onResolved === 'function' ? onResolved : v => v;
onRejected = typeof onRejected === 'function' ? onRejected : r => throw r;
if (self.currentState === RESOLVED) {
return (promise2 = new MyPromise(function (resolve, reject) {
// 规范 2.2.4,保证 onFulfilled,onRjected 异步执行
// 所以用了 setTimeout 包裹下
setTimeout(function () {
try {
var x = onResolved(self.value);
resolutionProcedure(promise2, x, resolve, reject);
} catch (reason) {
reject(reason);
}
});
}));
}
if (self.currentState === REJECTED) {
return (promise2 = new MyPromise(function (resolve, reject) {
setTimeout(function () {
// 异步执行onRejected
try {
var x = onRejected(self.value);
resolutionProcedure(promise2, x, resolve, reject);
} catch (reason) {
reject(reason);
}
});
}));
}
if (self.currentState === PENDING) {
return (promise2 = new MyPromise(function (resolve, reject) {
self.resolvedCallbacks.push(function () {
// 考虑到可能会有报错,所以使用 try/catch 包裹
try {
var x = onResolved(self.value);
resolutionProcedure(promise2, x, resolve, reject);
} catch (r) {
reject(r);
}
});
self.rejectedCallbacks.push(function () {
try {
var x = onRejected(self.value);
resolutionProcedure(promise2, x, resolve, reject);
} catch (r) {
reject(r);
}
});
}));
}
};
// 规范 2.3
function resolutionProcedure(promise2, x, resolve, reject) {
// 规范 2.3.1,x 不能和 promise2 相同,避免循环引用
if (promise2 === x) {
return reject(new TypeError("Error"));
}
// 规范 2.3.2
// 如果 x 为 Promise,状态为 pending 需要继续等待否则执行
if (x instanceof MyPromise) {
if (x.currentState === PENDING) {
x.then(function (value) {
// 再次调用该函数是为了确认 x resolve 的
// 参数是什么类型,如果是基本类型就再次 resolve
// 把值传给下个 then
resolutionProcedure(promise2, value, resolve, reject);
}, reject);
} else {
x.then(resolve, reject);
}
return;
}
// 规范 2.3.3.3.3
// reject 或者 resolve 其中一个执行过得话,忽略其他的
let called = false;
// 规范 2.3.3,判断 x 是否为对象或者函数
if (x !== null && (typeof x === "object" || typeof x === "function")) {
// 规范 2.3.3.2,如果不能取出 then,就 reject
try {
// 规范 2.3.3.1
let then = x.then;
// 如果 then 是函数,调用 x.then
if (typeof then === "function") {
// 规范 2.3.3.3
then.call(
x,
y => {
if (called) return;
called = true;
// 规范 2.3.3.3.1
resolutionProcedure(promise2, y, resolve, reject);
},
e => {
if (called) return;
called = true;
reject(e);
}
);
} else {
// 规范 2.3.3.4
resolve(x);
}
} catch (e) {
if (called) return;
called = true;
reject(e);
}
} else {
// 规范 2.3.4,x 为基本类型
resolve(x);
}
}
console