Audio, sound, or music can be essential part of mobile apps. Unfortunately, Xamarin.Forms doesn’t support this directly from their API. But of course, it can be implemented easily by using DependencyService .

This time I’ll show you how to implement this Audio Player in Xamarin.Forms with the help of DependencyService . Also, I’ll show you how to integrate it using simple MVVM Pattern.

First thing first, create a new Xamarin.Forms Solution.

Use Portable Class library and XAML for user interface. Let’s name this solution AudioPlayer . Now that we’ve created a new solution, we’ll have three projects: Portable Library, iOS, and Android. We’ll implement one by one starting from our core Portable Library.

Audio Player Service Interface

Let’s head to our portable library project, AudioPlayer . Create a new interface called IAudioPlayerService . This Audio Service will have 4 core functions:

Play(string pathToAudio) : Play an audio file which path is defined by pathToAudio .

: Play an audio file which path is defined by . Play() : Same with previous function, but it’ll play the audio from previous session if paused.

: Same with previous function, but it’ll play the audio from previous session if paused. Pause(): This will pause current audio session. We’ll use Play() to resume audio playing.

This will pause current audio session. We’ll use to resume audio playing. OnFinishedPlaying : This Action will be fired if audio player reached the end of file, which means audio playing is stopped.

Based on those functions, here is how our interface looks like:

public interface IAudioPlayerService { void Play ( string pathToAudioFile ); void Play (); void Pause (); Action OnFinishedPlaying { get ; set ; } }

Next step is to implement audio player service for each platforms based on this interface.

Audio Player Service iOS Implementation

For this step, let’s head to iOS project. Create a new class called AudioPlayerService and implement IAudioPlayerService interface. Also don’t forget to put [assembly: Dependency(typeof(AudioPlayerService))] on top of namespace declaration.

In iOS environment, we’re going to use AVAudioPlayer class to handle audio player. So we’re going to declare _audioPlayer as a private variable. We won’t need anything to initialize this class, so we’re going to leave the constructor empty.

private AVAudioPlayer _audioPlayer = null ; public Action OnFinishedPlaying { get ; set ; } public AudioPlayerService () { }

Next we’re going to implement Play(string) function. It’ll look for the file under Resources folder in iOS project at first, then an AVAudioPlayer class will be created by using pathToAudioFile parameter as path to audio file relative to Resources folder. So for example if you have file under Resources/file.mp3 , you can just call this function like this: Play("file.mp3") .

But before we play the audio file, we need to check if _audioPlayer is playing another file. All we need to do is remove FinishedPlaying event and stop the audio playing. After that, create an AVAudioPlayer object. Then add a FinishedPlaying event listener and finally, we can just call _audioPlayer.Play() to start playing the audio.

public void Play ( string pathToAudioFile ) { // Check if _audioPlayer is currently playing if ( _audioPlayer != null ) { _audioPlayer . FinishedPlaying -= Player_FinishedPlaying ; _audioPlayer . Stop (); } string localUrl = pathToAudioFile ; _audioPlayer = AVAudioPlayer . FromUrl ( NSUrl . FromFilename ( localUrl )); _audioPlayer . FinishedPlaying += Player_FinishedPlaying ; _audioPlayer . Play (); }

For the rest of the functions, we just need to call the equivalent of each native functions. The following snippet is what you need to implement those functions.

private void Player_FinishedPlaying ( object sender , AVStatusEventArgs e ) { OnFinishedPlaying ?. Invoke (); } public void Pause () { _audioPlayer ?. Pause (); } public void Play () { _audioPlayer ?. Play (); }

OnFinishedPlaying action is invoked under Player_FinishedPlaying event listener because it indicates that the player has finished playing the audio file.

Audio Player Service Android Implementation

Android implementation is similar with iOS. The equivalent native class that can be used to handle audio playing is MediaPlayer . So let’s declare a private variable called _mediaPlayer . Also, we don’t need anything for initialization of this class, so just left the constructor empty.

private MediaPlayer _mediaPlayer ; public Action OnFinishedPlaying { get ; set ; } public AudioPlayerService () { }

If iOS look for the file under Resources folder, then Android uses Assets folder equivalently. So if your mp3 file is under Assets/file.mp3 is equivalent with iOS under Resources/file.mp3 .

Similar with iOS version, before we play the audio file we need to remove Completion event listener and stop _mediaPlayer if it’s currently playing. The difference with iOS is we can’t just create a new MediaPlayer native class with selected file name. We’re going to need AssetFileDescriptor to read the file. Then the MediaPlayer need to be prepared by calling PrepareAsync .

This preparation is handled asynchronously. So we need to implement an event listener called Prepared when preparation is completed. Then under Prepared event listener, we can implement Completion event listener to indicate that _mediaPlayer finished playing the audio file and also call Start() function to start audio playing process.

public void Play ( string pathToAudioFile ) { if ( _mediaPlayer != null ) { _mediaPlayer . Completion -= MediaPlayer_Completion ; _mediaPlayer . Stop (); } var fullPath = pathToAudioFile ; Android . Content . Res . AssetFileDescriptor afd = null ; try { afd = Forms . Context . Assets . OpenFd ( fullPath ); } catch ( Exception ex ) { Console . WriteLine ( "Error openfd: " + ex ); } if ( afd != null ) { System . Diagnostics . Debug . WriteLine ( "Length " + afd . Length ); if ( _mediaPlayer == null ) { _mediaPlayer = new MediaPlayer (); _mediaPlayer . Prepared += ( sender , args ) => { _mediaPlayer . Start (); _mediaPlayer . Completion += MediaPlayer_Completion ; }; } _mediaPlayer . Reset (); _mediaPlayer . SetVolume ( 1.0f , 1.0f ); _mediaPlayer . SetDataSource ( afd . FileDescriptor , afd . StartOffset , afd . Length ); _mediaPlayer . PrepareAsync (); } }

Like in iOS version, the rest of the functions have equivalent with native implementation. So what we need to do is to implement like following snippet.

void MediaPlayer_Completion ( object sender , EventArgs e ) { OnFinishedPlaying ?. Invoke (); } public void Pause () { _mediaPlayer ?. Pause (); } public void Play () { _mediaPlayer ?. Start (); }

Same with iOS, OnFinishedPlaying action is invoked under MediaPlayer_Completion that indicates the media player finished playing the entire audio file

Integrating Audio Player Service into Xamarin.Forms App

This final section is how to implement our audio player service inside Xamarin.Forms app. We’re just going to need implement a simple Page with one button to play or pause audio file. First you need to put audio file(s) under respective folder. Put it under Droid/Assets/ for Android version and iOS/Resources for iOS version. If you don’t have any audio file to test, you can download one of awesome music from incompetech. For this tutorial, I use their music called Galway.

Let’s create a new ViewModel called AudioPlayerViewModel . Don’t forget to implement INotifyPropertyChanged or any MVVM framework you prefer.

Add a new property called CommandText . This property will be used as Button’s text. It’ll be written as Play if audio is stopped and Pause if audio is currently playing.

private string _commandText ; public string CommandText { get { return _commandText ;} set { _commandText = value ; PropertyChanged ?. Invoke ( this , new PropertyChangedEventArgs ( "CommandText" )); } }

Add one parameter inside AudioPlayerViewModel to pass audio player service we’ve created. Then add one variable _isStopped to indicate wether audio player service is finished playing or not.

private IAudioPlayerService _audioPlayer ; private bool _isStopped ; public event PropertyChangedEventHandler PropertyChanged ; public AudioPlayerViewModel ( IAudioPlayerService audioPlayer ) { _audioPlayer = audioPlayer ; _audioPlayer . OnFinishedPlaying = () => { _isStopped = true ; CommandText = "Play" ; }; CommandText = "Play" ; _isStopped = true ; }

Last one is to add PlayPauseCommand that will be fired if user touch the button. This is just a simple implementation. If audio is playing, it’ll paused. If not, it’ll resume playing.

private ICommand _playPauseCommand ; public ICommand PlayPauseCommand { get { return _playPauseCommand ?? ( _playPauseCommand = new Command ( ( obj ) => { if ( CommandText == "Play" ) { if ( _isStopped ) { _isStopped = false ; _audioPlayer . Play ( "Galway.mp3" ); } else { _audioPlayer . Play (); } CommandText = "Pause" ; } else { _audioPlayer . Pause (); CommandText = "Play" ; } })); } }

Now let’s head to our user interface. You can create whatever you want, but for the sake of this tutorial I just need to add one button under StackLayout . Bind respective button’s properties with the ViewModel’s properties.

<?xml version="1.0" encoding="utf-8"?> <ContentPage xmlns= "http://xamarin.com/schemas/2014/forms" xmlns:x= "http://schemas.microsoft.com/winfx/2009/xaml" xmlns:local= "clr-namespace:AudioPlayer" x:Class= "AudioPlayer.AudioPlayerPage" > <StackLayout VerticalOptions= "CenterAndExpand" HorizontalOptions= "Fill" > <Button Text= "{Binding CommandText}" Command= "{Binding PlayPauseCommand}" /> </StackLayout> </ContentPage>

Finally, add AudioPlayerViewModel class as your user interface’s BindingContext . To get native audio player service, use DependencyService.Get() function and pass it into ViewModel’s parameter.

public AudioPlayerPage () { InitializeComponent (); BindingContext = new AudioPlayerViewModel ( DependencyService . Get < IAudioPlayerService >()); }

After all above code implemented, you can try running it on your iOS or Android devices. Press the button to play or pause the audio.

Summary

Even though Xamarin.Forms doesn’t provide anything out of the box, we can easily implement it by using Dependency Service and native implementation for each platforms. If you stuck finding C# code for each native implementation, you can just find Java code or Objective-C / Swift and rewrite it in C#. Anyway, thanks for reading and hopefully it’s useful for your next project.

You can download the final projects from GitHub.

References

“Galway” Kevin MacLeod (incompetech.com) Licensed under Creative Commons: By Attribution 3.0 License.