前言
通过上一篇内容RxSwift学习--核心逻辑初探,对RxSwift有了些初步的认知,下面通过源码来看一下RxSwift到底有多骚
RxSwift核心逻辑再探
先把上篇中的例子代码搬过来:
//第一步:创建序列
//在create()函数中传入一个闭包,任务是对每一个过来的订阅进行处理
let ob = Observable<Any>.create { (observer) -> Disposable in
// 第三步:发送信号(onCompleted和onError只能发送一个)
observer.onNext("你好骚啊")
observer.onCompleted()
// observer.onError(NSError.init(domain: "loser", code: 10010, userInfo: nil))
return Disposables.create()
//第二步:订阅信息
//当我们订阅了Observable的消息后,只要Observable的事件触发,都会通过onNext这个闭包告诉我们。
let _ = ob.subscribe(onNext: { (text) in
print("订阅到:\(text)") //这里会监听到订阅的Observable事件
}, onError: { (error) in
print("error: \(error)") //当发生错误时,会回调这里
}, onCompleted: { // 当序列执行完毕时,会回调这里。
print("完成")
}) {
print("销毁")
}
下面我们根据代码进行具体分析:
1.创建序列Observable<Any>.create()
在执行let ob = Observable<Any>.create { (obserber) -> Disposable in } 这句代码时,是创建了一个可观察序列,点进create()方法的源码
extension ObservableType {
/*
Creates an observable sequence from a specified subscribe method implementation.
- seealso: [create operator on reactivex.io](http://reactivex.io/documentation/operators/create.html)
- parameter subscribe: Implementation of the resulting observable sequence's `subscribe` method.
- returns: The observable sequence with the specified implementation for the `subscribe` method.
*/
public static func create(_ subscribe: @escaping (RxSwift.AnyObserver<Self.E>) -> Disposable) -> RxSwift.Observable<Self.E>
}
根据注释路由可知create()方法是在Create.swift文件中实现的
public static func create(_ subscribe: @escaping (AnyObserver<E>) -> Disposable) -> Observable<E> {
return AnonymousObservable(subscribe)
}
在create()方法中返回了一个匿名内部类---AnonymousObservable(匿名序列),用来存储产生事件的闭包(self._subscribeHandler = subscribeHandler)和激活处理事件闭包的入口(run方法)在跟进去这个类,
final private class AnonymousObservable<Element>: Producer<Element> {
typealias SubscribeHandler = (AnyObserver<Element>) -> Disposable
let _subscribeHandler: SubscribeHandler
init(_ subscribeHandler: @escaping SubscribeHandler) {
self._subscribeHandler = subscribeHandler
}
override func run<O : ObserverType>(_ observer: O, cancel: Cancelable) -> (sink: Disposable, subscription: Disposable) where O.E == Element {
let sink = AnonymousObservableSink(observer: observer, cancel: cancel)
let subscription = sink.run(self)
return (sink: sink, subscription: subscription)
}
}
可以看到在匿名序列的里面是把传给create()方法的闭包(也就是序列订阅的回调,self._subscribeHandler = subscribeHandler)保存下来了
2.序列订阅ob.subscribe(onNext:)
同样的,跟进去订阅信号的这个方法的源码,
在这里跟源码,跟进去的是ObserveableType.subscribe这个方法
public func subscribe(onNext: ((E) -> Void)? = nil, onError: ((Swift.Error) -> Void)? = nil, onCompleted: (() -> Void)? = nil, onDisposed: (() -> Void)? = nil)
-> Disposable {
let disposable: Disposable
if let disposed = onDisposed {
disposable = Disposables.create(with: disposed)
}
else {
disposable = Disposables.create()
}
#if DEBUG
let synchronizationTracker = SynchronizationTracker()
#endif
let callStack = Hooks.recordCallStackOnError ? Hooks.customCaptureSubscriptionCallstack() : []
let observer = AnonymousObserver<E> { event in
#if DEBUG
synchronizationTracker.register(synchronizationErrorMessage: .default)
defer { synchronizationTracker.unregister() }
#endif
switch event {
case .next(let value):
onNext?(value)
case .error(let error):
if let onError = onError {
onError(error)
}
else {
Hooks.defaultErrorHandler(callStack, error)
}
disposable.dispose()
case .completed:
onCompleted?()
disposable.dispose()
}
}
return Disposables.create(
self.asObservable().subscribe(observer),
disposable
)
}
可以看到在调用ob.subscribe()这个方法的时候,onNext, onError,onComplete, onDisposed这四个闭包都是作为参数传递到这个订阅函数中来,
在这段代码里同样的也创建了一个匿名观察者let observer = AnonymousObserver<E>用于存储和处理事件的闭包,而对于这个观察者会传入一个带有event的闭包,在前面已经知道event是一个枚举类型,有三种事件类型.next,.error,.completed,所以只要这个观察者调用了这三种事件,那么相应的就会调用onNext,onError,onCompleted这三个方法的具体实现,可是这里的observer观察者只是一个局部变量,它怎么和外界的观察者联系起来呢?
骚就骚在这个订阅方法的return这句代码:
return Disposables.create(
self.asObservable().subscribe(observer),
disposable
)
其实这个self.asObservable()就是我们在最开始定义的序列let ob = Observable<Any>,而subscribe()就是回调了我们刚刚创建的observer闭包,而observer就会调用传入的监听序列消息闭包onNext, onError,onCompleted,
那么这个subscribe()是怎么回调了observer呢?
可知self.asObservable()是AnonymousObservable类型的,但是通过前面的AnonymousObservable类的源码可以发现,它并没有subscribe()这个方法,但是AnonymousObservable是继承于Producer(生产者)的,下面来看一下Producer这个类的源码:
class Producer<Element> : Observable<Element> {
override init() {
super.init()
}
override func subscribe<O : ObserverType>(_ observer: O) -> Disposable where O.E == Element {
if !CurrentThreadScheduler.isScheduleRequired {
// The returned disposable needs to release all references once it was disposed.
let disposer = SinkDisposer()
let sinkAndSubscription = self.run(observer, cancel: disposer)
disposer.setSinkAndSubscription(sink: sinkAndSubscription.sink, subscription: sinkAndSubscription.subscription)
return disposer
}
else {
return CurrentThreadScheduler.instance.schedule(()) { _ in
let disposer = SinkDisposer()
let sinkAndSubscription = self.run(observer, cancel: disposer)
disposer.setSinkAndSubscription(sink: sinkAndSubscription.sink, subscription: sinkAndSubscription.subscription)
return disposer
}
}
}
func run<O : ObserverType>(_ observer: O, cancel: Cancelable) -> (sink: Disposable, subscription: Disposable) where O.E == Element {
rxAbstractMethod()
}
}
在这里面subscribe()方法会把传入的observer,调用self.run(observer, cancel: disposer);那么再次跟进去看源码;至于这个run()方法具体怎么调用,应该还是交给Producer的子类AnonymousObservable去实现的,那么跟进去,代码再次回到了AnonymousObservable类里面:
override func run<O : ObserverType>(_ observer: O, cancel: Cancelable) -> (sink: Disposable, subscription: Disposable) where O.E == Element {
let sink = AnonymousObservableSink(observer: observer, cancel: cancel)
let subscription = sink.run(self)
return (sink: sink, subscription: subscription)
}
在这里会创建一个AnonymousObservableSink对象并持有observer,然后这个AnonymousObservableSink类会调用它自己的run()方法,并传入self,再次跟进去sink.run(self),发现来到了AnonymousObservableSink类的源码;
final private class AnonymousObservableSink<O: ObserverType>: Sink<O>, ObserverType {
typealias E = O.E
typealias Parent = AnonymousObservable<E>
// state
private let _isStopped = AtomicInt(0)
#if DEBUG
fileprivate let _synchronizationTracker = SynchronizationTracker()
#endif
override init(observer: O, cancel: Cancelable) {
super.init(observer: observer, cancel: cancel)
}
func on(_ event: Event<E>) {
#if DEBUG
self._synchronizationTracker.register(synchronizationErrorMessage: .default)
defer { self._synchronizationTracker.unregister() }
#endif
switch event {
case .next:
if load(self._isStopped) == 1 {
return
}
self.forwardOn(event)
case .error, .completed:
if fetchOr(self._isStopped, 1) == 0 {
self.forwardOn(event)
self.dispose()
}
}
}
func run(_ parent: Parent) -> Disposable {
return parent._subscribeHandler(AnyObserver(self))
}
}
可以看到AnonymousObservableSink的run()方法,返回parent._subscribeHandler(),而这个Parent,在这个AnonymousObservableSink类中已经取了别名,那就是typealias Parent = AnonymousObservable<E>;在前面我们已经知道,AnonymousObservable匿名序列的里面是把传给create()函数的闭包保存了下来,那么return parent._subscribeHandler(AnyObserver(self))这个_subscribeHandler就是之前create()函数的闭包,在这个_subscribeHandler(AnyObserver(self))方法中把self转换成AnyObserver对象,也就是把AnonymousObservableSink对象转换成AnyObserver对象.
现在接着来看AnyObserver的源码:
public struct AnyObserver<Element> : ObserverType {
/// The type of elements in sequence that observer can observe.
public typealias E = Element
/// Anonymous event handler type.
public typealias EventHandler = (Event<Element>) -> Void
private let observer: EventHandler
/// Construct an instance whose `on(event)` calls `eventHandler(event)`
///
/// - parameter eventHandler: Event handler that observes sequences events.
public init(eventHandler: @escaping EventHandler) {
self.observer = eventHandler
}
/// Construct an instance whose `on(event)` calls `observer.on(event)`
///
/// - parameter observer: Observer that receives sequence events.
public init<O : ObserverType>(_ observer: O) where O.E == Element {
self.observer = observer.on
}
/// Send `event` to this observer.
///
/// - parameter event: Event instance.
public func on(_ event: Event<Element>) {
return self.observer(event)
}
/// Erases type of observer and returns canonical observer.
///
/// - returns: type erased observer.
public func asObserver() -> AnyObserver<E> {
return self
}
}
通过刚刚的AnyObserver(self)我们应该知道这里的self指的是AnonymousObservableSink,所以在AnyObserver的源码中,可以看到在构造函数中有一行代码self.observer = observer.on,就是把AnonymousObservableSink类的on函数赋值给AnyObserver的observer变量.注意这里保存的是AnonymousObservableSink.on.
看到这里是否能明白,在调用ob.subscribe方法的时候,创建了一个AnonymousObserver对象,并把闭包传入,但是这个对象最终走向的却是继承于Producer的AnonymousObservable类的subscribe()方法,经过调用self.run()之后,最后返回AnonymousObservable._subscribeHandler()方法,也就是ob.create()方法。这部分代码先分析到这里,下面来分析下发送信号的代码。
3.发送信号observer.onNext("你好骚啊")
在刚开始分析create()方法的时候,就已经知道,observer.onNext("你好骚啊")中的observer是AnyObserver类型的,可是在上面的AnyObserver源码中我们可以清楚地看到它并没有onNext()方法,那就去它的父类ObserverType看一下,
extension ObserverType {
/// Convenience method equivalent to `on(.next(element: E))`
///
/// - parameter element: Next element to send to observer(s)
public func onNext(_ element: E) {
self.on(.next(element))
}
/// Convenience method equivalent to `on(.completed)`
public func onCompleted() {
self.on(.completed)
}
/// Convenience method equivalent to `on(.error(Swift.Error))`
/// - parameter error: Swift.Error to send to observer(s)
public func onError(_ error: Swift.Error) {
self.on(.error(error))
}
}
在这里可以看到调用ObserverType的onNext方法,返回ObserverType的on(.next(element)),所以在observer.onNext("你好骚啊")调用onNext()方法,其实调用的就是observer.on(.next()),在前面的AnyObserver的源码中,已经知道AnyObserver的observer变量保存的是AnonymousObservableSink.on,同样的看一下在AnyObserver的源码中的on()方法
public func on(_ event: Event<Element>) {
return self.observer(event)
}
这里返回的是self.observer(event),也就是说observer.on(.next())可以是self.observer(.next()),然而self.observer = AnonymousObservableSink.on,所以self.observer(.next())可以是AnonymousObservableSink.on(.next()),这里又回到了AnonymousObservableSink这个类了,(AnonymousObservableSink的源码在前面已经出现了)这是饶了一圈又回来了,下面把AnonymousObservableSink的on(event)方法单独拿出来:
func on(_ event: Event<E>) {
#if DEBUG
self._synchronizationTracker.register(synchronizationErrorMessage: .default)
defer { self._synchronizationTracker.unregister() }
#endif
switch event {
case .next:
if load(self._isStopped) == 1 {
return
}
self.forwardOn(event)
case .error, .completed:
if fetchOr(self._isStopped, 1) == 0 {
self.forwardOn(event)
self.dispose()
}
}
}
在on(event)方法中有句重要的代码self.forwardOn(event),再跟进去self.forwardOn(event)这个方法,可以看到进入到Sink类的方法中,这里AnonymousObservableSink继承于Sink:
final func forwardOn(_ event: Event<O.E>) {
#if DEBUG
self._synchronizationTracker.register(synchronizationErrorMessage: .default)
defer { self._synchronizationTracker.unregister() }
#endif
if isFlagSet(self._disposed, 1) {
return
}
self._observer.on(event)
}
在这个方法中self._observer.on(event)代码中,这个self._observer就是在初始化AnonymousObservableSink时候传入的observer(
let sink = AnonymousObservableSink(observer: observer, cancel: cancel)),然而这个observer是在subscribe()订阅方法中由let observer = AnonymousObserver创建的observer,那么等于是这里又来到了AnonymousObserver中,那么下面就来看一下调用AnonymousObserver.on(event)会发生什么,现在来看一下AnonymousObserver的源码:
final class AnonymousObserver<ElementType> : ObserverBase<ElementType> {
typealias Element = ElementType
typealias EventHandler = (Event<Element>) -> Void
private let _eventHandler : EventHandler
init(_ eventHandler: @escaping EventHandler) {
#if TRACE_RESOURCES
_ = Resources.incrementTotal()
#endif
self._eventHandler = eventHandler
}
override func onCore(_ event: Event<Element>) {
return self._eventHandler(event)
}
#if TRACE_RESOURCES
deinit {
_ = Resources.decrementTotal()
}
#endif
}
通过这里的源码可以看到AnonymousObserver类中并没有on方法,但是AnonymousObserver是继承于ObserverBase的,在ObserverBase的源码中我们可以看到:
class ObserverBase<ElementType> : Disposable, ObserverType {
typealias E = ElementType
private let _isStopped = AtomicInt(0)
func on(_ event: Event<E>) {
switch event {
case .next:
if load(self._isStopped) == 0 {
self.onCore(event)
}
case .error, .completed:
if fetchOr(self._isStopped, 1) == 0 {
self.onCore(event)
}
}
}
func onCore(_ event: Event<E>) {
rxAbstractMethod()
}
func dispose() {
fetchOr(self._isStopped, 1)
}
}
调用ObserverBase的on()方法会返回self.onCore(event);这里回到子类AnonymousObserver去执行这个方法;
override func onCore(_ event: Event<Element>) {
return self._eventHandler(event)
}
可以看到这里返回的是self._eventHandler(event);也就是AnonymousObserver._eventHandler(event)通过源码可知这里的AnonymousObserver._eventHandler(event)就是传入的eventHandler(event),也就是序列订阅方法ob.subscribe()传入的闭包,那么就来看下在subscribe()订阅方法中AnonymousObserver创建的observer到底对这个eventHandler(event)做了什么事情:
let observer = AnonymousObserver<E> { event in
#if DEBUG
synchronizationTracker.register(synchronizationErrorMessage: .default)
defer { synchronizationTracker.unregister() }
#endif
switch event {
case .next(let value):
onNext?(value)
case .error(let error):
if let onError = onError {
onError(error)
}
else {
Hooks.defaultErrorHandler(callStack, error)
}
disposable.dispose()
case .completed:
onCompleted?()
disposable.dispose()
}
}
因为Event是枚举值这里会根据observer传入的event来判断到底该响应onNext(),onError(),onCompleted()的具体方法,这样就是把create()方法中的observer.onNext("你好骚啊")与subscribe()订阅方法中onNext()联系起来了。这样就说明了为什么观察者调用了onNext()方法,序列能够订阅到这个方法里的内容。
总结
啰啰嗦嗦写了这么多,算是对RxSwift的核心逻辑有了个初步的认识,不等不说RxSwift很强大,足够的"骚气"。目前写到这里,对RxSwift仅仅只是略知皮毛,冰山一角罢了,对RxSwift的学习还需要继续努力。下面通过一张图来总结一下:
