一, 前言
深入学习Promise的朋友应该都看过<深入理解Promise五部曲>这一系列的文章, 以解除回调地狱之外的观点来剖析Promise更多的内涵,确实十分精彩.
Part 1: The Sync Problem(译文:http://segmentfault.com/blog/kk_470661/1190000000586666)
Part 2: The Inversion Problem(译文:http://segmentfault.com/blog/kk_470661/1190000000591382)
Part 3: The Trust Problem(译文:http://segmentfault.com/blog/kk_470661/1190000000593885)
Part 4: The Extension Problem(译文:http://segmentfault.com/blog/kk_470661/1190000000600268)
Part 5: The LEGO Problem(译文:http://segmentfault.com/blog/kk_470661/1190000000611040)
NPO(Native Promise Only)是原文作者polyfill的ES6 Promise, 本文为拜读文章及源码后的笔记,以便日后查阅.
二, 整体脉络
对于Promise实现而言, 主要的主体类型就两个-----Promise和Thenable. NPO中通过MakeDef构建Promise的内部状态结构体def, 并且通过def.chain存储Promise子节点P2-1,P2-2到P2-n, 从而形成一颗Promise树. 而Thenable的内部状态结构体def_wrapper则由MakeDefWrapper构建而成.
Promise树的结构并不稳定, 实际上每个Promise节点仅与状态为pending的子节点关联, 一旦子节点状态发生变化则断开关联.(该部分在 notify() 中实现)
{Promise} then(success, failure) , 将success和failure事件处理函数与新生成的Promise子节点绑定, 但订阅的是Promise父节点的状态变化事件.
另外NPO中通过构建一个异步执行请求队列(scheduling_queue),来收集异步执行请求然后對请求作同一处理,并通过门闩(cycle)来防止重复执行异步请求处理操作.
三, 源码详解
先看看Promise构造函数, 规定仅能通过new方式来构建Promise实例.
function Promise(executor) {
if (typeof executor != "function") {
throw TypeError("Not a function");
} if (this.__NPO__ !== ) {
throw TypeError("Not a promise");
} // instance shadowing the inherited "brand"
// to signal an already "initialized" promise
this.__NPO__ = ; // 内部结构体
var def = new MakeDef(this); this["then"] = function then(success,failure) {
var o = {
success: typeof success == "function" ? success : true,
failure: typeof failure == "function" ? failure : false
};
// Note: `then(..)` itself can be borrowed to be used against
// a different promise constructor for making the chained promise,
// by substituting a different `this` binding.
o.promise = new this.constructor(function extractChain(resolve,reject) {
if (typeof resolve != "function" || typeof reject != "function") {
throw TypeError("Not a function");
} o.resolve = resolve;
o.reject = reject;
});
// 构建Promise树
def.chain.push(o);
// 当前Promise节点状态不为pending时,发起异步执行请求事件处理函数
if (def.state !== ) {
schedule(notify,def);
} return o.promise;
};
this["catch"] = function $catch$(failure) {
return this.then(void ,failure);
}; try {
// 调用工厂方法
executor.call(
void ,
function publicResolve(msg){
resolve.call(def,msg);
},
function publicReject(msg) {
reject.call(def,msg);
}
);
}
catch (err) {
reject.call(def,err);
}
}
Promise的状态变化放在resolve和reject函数中
function resolve(msg) {
var _then, def_wrapper, self = this; // already triggered?
if (self.triggered) { return; } self.triggered = true; // unwrap
if (self.def) {
self = self.def;
} try {
if (_then = isThenable(msg)) {
// 构造Thenable的内部状态结构体
def_wrapper = new MakeDefWrapper(self);
_then.call(msg,
function $resolve$(){ resolve.apply(def_wrapper,arguments); },
function $reject$(){ reject.apply(def_wrapper,arguments); }
);
}
else {
self.msg = msg;
self.state = ;
if (self.chain.length > ) {
schedule(notify,self);
}
}
}
catch (err) {
reject.call(def_wrapper || (new MakeDefWrapper(self)),err);
}
}
function reject(msg) {
var self = this; // already triggered?
if (self.triggered) { return; } self.triggered = true; // unwrap
if (self.def) {
self = self.def;
} self.msg = msg;
self.state = ;
if (self.chain.length > ) {
schedule(notify,self);
}
}
下面看一下我觉得最亮眼的地方异步执行请求队列, 主要由以下几个部分组成
1. notify, 遍历def.chain中的所有Promise子节点, 最后由于所有Promise子节的状态均变为fulfilled或rejected因此清空def.chain.
2. notifyIsolated, 被notify所调用, 用于单独调用绑定在每个Promise子节点的success或failure事件处理函数, 并修改Promse子节点的状态.
3. scheduling_queue, 存放异步执行请求(以链表实现, 對队列首尾操作性能比数组高).
4. schedule, 向异步执行请求队列添加元素, 并发起异步请求处理操作.
上述的1和2两点将作为异步执行请求被存放在3中.代码中各部分则通过4来對队列和异步执行请求作操作.
function notify() {
for (var i=; i<this.chain.length; i++) {
notifyIsolated(
this,
(this.state === ) ? this.chain[i].success : this.chain[i].failure,
this.chain[i]
);
}
this.chain.length = ;
} // NOTE: This is a separate function to isolate
// the `try..catch` so that other code can be
// optimized better
function notifyIsolated(self,cb,chain) {
var ret, _then;
try {
if (cb === false) {
chain.reject(self.msg);
}
else {
if (cb === true) {
ret = self.msg;
}
else {
ret = cb.call(void ,self.msg);
} if (ret === chain.promise) {
chain.reject(TypeError("Promise-chain cycle"));
}
else if (_then = isThenable(ret)) {
_then.call(ret,chain.resolve,chain.reject);
}
else {
chain.resolve(ret);
}
}
}
catch (err) {
chain.reject(err);
}
}
scheduling_queue = (function Queue() {
var first // 指向队首元素
, last // 指向队尾元素
, item; function Item(fn,self) {
this.fn = fn;
this.self = self;
this.next = void ;
} return {
// 元素入队
add: function add(fn,self) {
item = new Item(fn,self);
if (last) {
last.next = item;
}
else {
first = item;
}
last = item;
item = void ;
},
// 清空队列
drain: function drain() {
var f = first;
first = last = cycle = void ; // 从队首元素开始遍历所有队列元素
while (f) {
f.fn.call(f.self);
f = f.next;
}
}
};
})(); // 安排执行状态变化事件的处理函数
function schedule(fn,self) {
scheduling_queue.add(fn,self);
// 防止重复发起异步执行请求
if (!cycle) {
cycle = timer(scheduling_queue.drain);
}
}
四, 总结
尊重原创,转载请注明来自: http://www.cnblogs.com/fsjohnhuang/p/4293499.html ^_^肥仔John