It actually does matter whether you are making a network request or using debounce, because a network request would be done using flatMap and is an independent observable. Here is some sample code that will animate an activity indicator while the network request is in flight:
class ViewController: UIViewController {
@IBOutlet weak var button: UIButton!
@IBOutlet weak var activityIndicator: UIActivityIndicatorView!
override func viewDidLoad() {
super.viewDidLoad()
let _activityIndicator = activityIndicator! // to avoid dealing with self.
button.rx.tap
.flatMapLatest { () -> Observable<Int> in
let request = Observable<Int>.timer(5.0, scheduler: MainScheduler.instance)
return Observable.using({ ActivityIndicatorAnimator(_activityIndicator) }, observableFactory: { _ in request })
}
.subscribe()
.disposed(by: bag)
}
let bag = DisposeBag()
}
class ActivityIndicatorAnimator: Disposable {
init(_ spinner: UIActivityIndicatorView) {
self.spinner = spinner
spinner.startAnimating()
}
func dispose() {
spinner.stopAnimating()
}
let spinner: UIActivityIndicatorView
}
The above uses a timer to simulate a network request. The using
operator will create a resource when the observable starts and dispose of the resource when the observable completes. The ActivityIndicatorAnimator
resource starts the animation when the resource is created and stops it when the resource is disposed.
The RxSwift repository has a more complex example called ActivityIndicator
that maintains a count of how many times it was started and stopped and can be used to monitor several network requests.