响应式编程

• 响应式编程(Reactive Programming，简称RP)

  • 也是一种编程范式，于1997年提出，可以简化异步编程，提供更优雅的数据绑定

  • 一般与函数式融合在一起，所以也会叫做:函数响应式编程(Functional Reactive Programming，简称FRP)

• 比较著名的、成熟的响应式框架

  • ReactiveCocoa

  简称RAC，有Objective-C、Swift版本
  官网: http://reactivecocoa.io/
  github:https://github.com/ReactiveCocoa

  • ReactiveX

  简称Rx，有众多编程语言的版本，比如RxJava、RxKotlin、RxJS、RxCpp、RxPHP、RxGo、RxSwift等等

  官网: http://reactivex.io/

  github: https://github.com/ReactiveX

RxSwift

• RxSwift(ReactiveX for Swift)，ReactiveX的Swift版本

  • 源码:https://github.com/ReactiveX/RxSwift

  • 中文文档: https://beeth0ven.github.io/RxSwift-Chinese-Documentation/

• RxSwift的github上已经有详细的安装教程，这里只演示CocoaPods方式的安装

image.png

• 模块说明

  • RxSwift:Rx标准API的Swift实现，不包括任何iOS相关的内容

  • RxCocoa:基于RxSwift，给iOS UI控件扩展了很多Rx特性

RxSwift 的核心角色

• Observable:负责发送事件(Event)

• Observer:负责订阅Observable，监听Observable发送的事件(Event)

image.png

public enum Event<Element> {
    /// Next element is produced. 
    case next(Element)                                              
    /// Sequence terminated with an error.                                              
    case error(Swift.Error)                                              
    /// Sequence completed successfully. 
    case completed
}

• Event有3种

  • next:携带具体数据

  • error:携带错误信息，表明Observable终止，不会再发出事件

  • completed:表明Observable终止，不会再发出事件

创建、订阅Observable1

var observable = Observable<Int>.create { observer in 
    observer.onNext(1)
    observer.onCompleted()
    return Disposables.create()                                            
} 

// 等价于
observable = Observable.just(1) 
observable = Observable.of(1) 
observable = Observable.from([1]) 

var observable = Observable<Int>.create { observer in 
    observer.onNext(1)
    observer.onNext(2)
    observer.onNext(3)                                 
    observer.onCompleted()                                              
    return Disposables.create() 
} 

// 等价于
observable = Observable.of(1, 2, 3) 
observable = Observable.from([1, 2, 3]) 

observable.subscribe { event in 
    print(event)                       
}.dispose() 

observable.subscribe(onNext: { 
    print("next", $0) 
}, onError: {
    print("error", $0)
}, onCompleted: {
    print("completed")
}, onDisposed: {
    print("dispose")
}).dispose()

创建、订阅Observable2

let observable = Observable<Int>.timer(.seconds(3),
                                       period: .seconds(1),
                                       scheduler: MainScheduler.instance)
observable.map { "数值是\($0)" } 
          .bind(to: label.rx.text) 
          .disposed(by: bag) 

创建Observer

let observer = AnyObserver<Int>.init { event in switch event { 
    case .next(let data):
        print(data)
    case .completed:
        print("completed")
    case .error(let error):
        print("error", error)                                         
} } 

Observable.just(1).subscribe(observer).dispose() 

let binder = Binder<String>(label) { label, text in 
    label.text = text                                              
}
 Observable.just(1).map { "数值是\($0)" }.subscribe(binder).dispose() 
 Observable.just(1).map { "数值是\($0)" }.bind(to: binder).dispose() 

扩展 Binder 属性

extension Reactive where Base: UIView {
    var hidden: Binder<Bool> {
        Binder<Bool>(base) { view, value in
            view.isHidden = value                                   
        } 
    }                                              
} 

let observable = Observable<Int>.interval(.seconds(1),
                                          scheduler: MainScheduler.instance)
observable.map { $0 % 2 == 0 }.bind(to: button.rx.hidden).disposed(by: bag)

传统的状态监听

• 在开发中经常要对各种状态进行监听，传统的常见监听方案有

  • KVO

  • Target-Action

  • Notification

  • Delegate

  • Block Callback

• 传统方案经常会出现错综复杂的依赖关系、耦合性较高，还需要编写重复的非业务代码

RxSwift 的状态监听1

button.rx.tap.subscribe(onNext: { 
    print("按钮被点击了1") 
}).disposed(by: bag)

let data = Observable.just(
    [ Person(name: "Jack", age: 10), 
    Person(name: "Rose", age: 20)                                              
])

data.bind(to: tableView.rx.items(cellIdentifier: "cell")) { row, person, cell in                            
    cell.textLabel?.text = person.name                                                  
    cell.detailTextLabel?.text = "\(person.age)" 
}.disposed(by: bag)                                              

tableView.rx.modelSelected(Person.self) 
    .subscribe(onNext: { person in                                                  
        print("点击了", person.name) 
    }).disposed(by: bag) 

RxSwift 的状态监听2

class Dog: NSObject {
    @objc dynamic var name: String?
}

dog.rx.observe(String.self, "name")
    .subscribe(onNext: { name in
        print("name is", name ?? "nil")
    }).disposed(by: bag)

dog.name = "larry"
dog.name = "wangwang"

NotificationCenter.default.rx
    .notification(UIApplication.didEnterBackgroundNotification)
    .subscribe(onNext: { notification in                   
print("APP进入后台", notification) }).disposed(by: bag) 

既是Observable，又是Observer

Observable.just(0.8).bind(to: slider.rx.value).dispose()

slider.rx.value.map {
     "当前数值是:\($0)" 
}.bind(to: textField.rx.text).disposed(by: bag)

textField.rx.text
    .subscribe(onNext: { text in
        print("text is", text ?? "nil")
    }).disposed(by: bag)

• 诸如UISlider.rx.value、UTextField.rx.text这类属性值，既是Observable，又是Observer

• 它们是RxCocoa.ControlProperty类型

Disposable

• 每当Observable被订阅时，都会返回一个Disposable实例，当调用Disposable的dispose，就相当于取消订阅

• 在不需要再接收事件时，建议取消订阅，释放资源。有3种常见方式取消订阅

// 立即取消订阅(一次性订阅) 
observable.subscribe { event in 
    print(event)
}.dispose()

// 当bag销毁(deinit)时，会自动调用Disposable实例的dispose 
observable.subscribe { event in 
    print(event)
}.disposed(by: bag)

// self销毁时(deinit)时，会自动调用Disposable实例的dispose
 let _ = observable.takeUntil(self.rx.deallocated).subscribe { event in 
     print(event)
 }