Introduction

Developing a complex Android app that has lots of network connections, user interactions, and animations often means writing code that is full of nested callbacks. Such code, sometimes called callback hell, is not only lengthy and hard to understand, but also error-prone. ReactiveX offers an alternative approach that is both clear and concise, to manage asynchronous tasks and events.

RxJava is a JVM implementation of ReactiveX, developed by NetFlix, and is very popular among Java developers. In this tutorial, you will learn how to use RxJava bindings for Android, or RxAndroid for short, in your Android projects.

1. Setting Up RxAndroid

To use RxAndroid in an Android Studio project, add it as a compile dependency in the app module’s build.gradle.

2. Basics of Observers and Observables

When working with ReactiveX, you will be using observables and observers extensively. You can think of an observable as an object that emits data and an observer as an object that consumes that data. In RxJava and RxAndroid, observers are instances of the Observer interface, and observables are instances of the Observable class.

The Observable class has many static methods, called operators, to create Observable objects. The following code shows you how to use the just operator to create a very simple Observable that emits a single String .

The observable we just created will emit its data only when it has at least one observer. To create an observer, you create a class that implements the Observer interface. The Observer interface has intuitively named methods to handle the different types of notifications it can receive from the observable. Here’s an observer that can print the String emitted by the observable we created earlier:

To assign an observer to an observable, you should use the subscribe method, which returns a Subscription object. The following code makes myObserver observe myObservable :

As soon as an observer is added to the observable, it emits its data. Therefore, if you execute the code now, you will see Hello printed in Android Studio’s logcat window.

You might have noticed that we didn’t use the onCompleted and the onError methods in myObserver . As these methods are often left unused, you also have the option of using the Action1 interface, which contains a single method named call .

When you pass an instance of Action1 to the subscribe method, the call method is invoked whenever the observable emits data.

To detach an observer from its observable while the observable is still emitting data, you can call the unsubscribe method on the Subscription object.

3. Using Operators

Now that you know how to create observers and observables, let me show you how to use ReactiveX’s operators that can create, transform, and perform other operations on observables. Let’s start by creating a slightly more advanced Observable , one that emits items from an array of Integer objects. To do so, you have to use the from operator, which can generate an Observable from arrays and lists.

When you run this code, you will see each of the numbers of the array printed one after another.

If you’re familiar with JavaScript, Ruby, or Kotlin, you might be familiar with higher-order functions such as map and filter , which can be used when working with arrays. ReactiveX has operators that can perform similar operations on observables. However, because Java 7 doesn’t have lambdas and higher-order functions, we’ll have to do it with classes that simulate lambdas. To simulate a lambda that takes one argument, you will have to create a class that implements the Func1 interface.

Here’s how you can use the map operator to square each item of myArrayObservable :

Note that the call to the map operator returns a new Observable , it doesn’t change the original Observable . If you subscribe to myArrayObservable now, you will receive squares of the numbers.

Operators can be chained. For example, the following code block uses the skip operator to skip the first two numbers, and then the filter operator to ignore odd numbers:

4. Handling Asynchronous Jobs

The observers and observables we created in the previous sections worked on a single thread, Android’s UI thread. In this section, I will show you how to use ReactiveX to manage multiple threads and how ReactiveX solves the problem of callback hell.

Assume you have a method named fetchData that can be used to fetch data from an API. Let’s say it accepts a URL as its parameter and returns the contents of the response as a String . The following code snippet shows how it could be used.

This method needs to run on its own thread, because Android does not allow network operations on the UI thread. This means you would either create an AsyncTask or create a Thread that uses a Handler .

With ReactiveX, however, you have a third option that is slightly more concise. Using the subscribeOn and observeOn operators, you can explicitly specify which thread should run the background job and which thread should handle the user interface updates.

The following code creates a custom Observable using the create operator. When you create an Observable in this manner, you have to implement the Observable.OnSubscribe interface and control what it emits by calling the onNext , onError , and onCompleted methods yourself.

When the Observable is ready, you can use subscribeOn and observeOn to specify the threads it should use and subscribe to it.

You might still be thinking that the reactive approach isn’t drastically better than using the AsyncTask or Handler classes. You are right, you don’t really need ReactiveX if you have to manage only one background job.

Now consider a scenario that would result in a complex codebase if you used the conventional approach. Let’s say you have to fetch data from two (or more) websites in parallel and update a View only when all the requests have completed. If you follow the conventional approach, you would have to write lots of unnecessary code to make sure that the requests completed without errors.

Consider another scenario in which you have to start a background job only after another background job has completed. Using the conventional approach, this would result in nested callbacks.

With ReactiveX’s operators, both scenarios can be handled with very little code. For example, if you have to use fetchData to fetch the contents of two websites, fore example Google and Yahoo, you would create two Observable objects, and use the subscribeOn method to make them run on different threads.

To handle the first scenario in which both requests need to run in parallel, you can use the zip operator and subscribe to the Observable it returns.

Similarly, to handle the second scenario, you can use the concat operator to run the threads one after another.

5. Handling Events

RxAndroid has a class named ViewObservable that makes it easy to handle events associated with View objects. The following code snippet shows you how to create a ViewObservable that can be used to handle the click events of a Button .

You can now subscribe to clicksObservable and use any of the operators you learned about in the previous sections. For example, if you want your app to skip the first four clicks of the button and start responding from the fifth click onwards, you could use the following implementation:

Conclusion

In this tutorial, you learned how to use ReactiveX’s observers, observables, and operators to handle multiple asynchronous operations and events. As working with ReactiveX involves functional, reactive programming, a programming paradigm most Android developers are not used to, don’t be too hard on yourself if you don’t get it right the first time. You should also know that ReactiveX code will be a lot more readable if you use a modern programming language, such as Kotlin, that supports higher-order functions.

To learn more about reactive extensions, I encourage you to browse the resources available at ReactiveX.