AV Foundation is a framework for working with audio and visual media on iOS and OSX. Using AV Foundation, you can play, capture, and encode media. It is quite an extensive framework and for the purpose of this tutorial we will be focusing on the audio portion. Specifically, we will be using the AVAudioPlayer
class to play MP3 files.
Starter Project
I have provided a starter project that has all the actions and outlets already configured, and with the appropriate methods stubbed out. The classes the project uses, are already stubbed out as well so we can dive right into the code. You can download the starter project from GitHub.
1. Linking the AV Foundation Framework
Before you can use AV Foundation, you have to link the project against the framework. In the Project Navigator, make sure your project is selected. Under the General tab, go to Linked Frameworks and Libraries and from there you choose AVFoundation.framework.
2.FileReader
Class
In the starter project, you will find a file named FileReader.swift. Open this file to view its contents.
import UIKit class FileReader: NSObject { }
This is a simple stub of the class that we'll use to read files from disk. It inherits from NSObject
. We will implement a method, readFiles
, which will be a type method. Type methods allow you to call a method on the class itself, the type, as opposed to an instance of the class. Below is the implementation of the readFiles
method.
class func readFiles() -> [String] { return NSBundle.mainBundle().pathsForResourcesOfType("mp3", inDirectory: nil) as! [String] }
The main bundle contains the code and resources for your project, and it is here that we will find the MP3s. We use the method pathsForResourcesOfType(_:inDirectory:)
method, which returns an array containing the pathnames for the specified type of resource. In this case, we are searching for type "mp3"
. Because we are not interested in a specific directory, we pass in nil
.
This class will be used by the MP3Player
class, which we will work on next.
3.MP3Player
Class
Next, open MP3Player.swift and view its contents.
import UIKit import AVFoundation class MP3Player: NSObject, AVAudioPlayerDelegate { }
Notice that we are adopting the AVAudioPlayerDelegate
protocol. This protocol declares a number of useful methods, one of which is audioPlayerDidFinishPlaying(_:successfully:)
. By implementing the audioPlayerDidFinishPlaying(_:successfully:)
method, we will be notified when the audio has finished playing.
Step 1: Properties
Add the following to MP3Player.swift.
class MP3Player: NSObject, AVAudioPlayerDelegate { var player:AVAudioPlayer? var currentTrackIndex = 0 var tracks:[String] = [String]() }
The player
property will be an instance of the AVAudioPlayer
class, which we will use to play, pause, and stop the MP3s. The currentTrackIndex
variable keeps track of which MP3 is currently playing. Finally, the tracks
variable will be an array of the paths to the list of MP3s that are included in the application's bundle.
Step 2: init
override init(){ tracks = FileReader.readFiles() super.init() queueTrack(); }
During initialization, we invoke the FileReader
's readFiles
method to fetch the paths of the MP3s and store this list in the tracks
array. Because this is a designated initializer, we must call the init
method of the superclass. Finally, we call queueTrack
, which we will be writing next.
Step 3: queueTrack
Add the following implementation for the queueTrack
method to the MP3Player
class.
func queueTrack(){ if (player != nil) { player = nil } var error:NSError? let url = NSURL.fileURLWithPath(tracks[currentTrackIndex] as String) player = AVAudioPlayer(contentsOfURL: url, error: &error) if let hasError = error { //SHOW ALERT OR SOMETHING } else { player?.delegate = self player?.prepareToPlay() } }
Because we will be instantiating a new AVAudioPlayer
instance each time this method is called, we do a little housekeeping by setting player
to nil
.
We declare an optional NSError
and a constant url
. We invoke fileURLWithPath(_:)
to fetch the path to the current MP3 and store the value in url
. We are passing the tracks
array as a parameter using currentTrackIndex
as the subscript. Remember the tracks array contains the paths to the MP3s, not a reference to the MP3 files themselves.
To instantiate the player
, we pass the url
constant and error
variable into the AVAudioPlayer
's initializer. If the initialization happens to fail, the error
variable is populated with a description of the error.
If we don't encounter an error, we set the player's delegate to self
and invoke the prepareToPlay
method on the player. The prepareToPlay
method preloads the buffers and acquires the audio hardware, which minimizes any lag when calling the play
method.
Step 4: play
The play
method first checks to see whether or not the audio is already playing by checking the aptly named playing
property. If the audio is not playing, it invokes the play
method of the player
property.
func play() { if player?.playing == false { player?.play() }
Step 5: stop
The stop
method first checks whether the audio player is already playing. If it is, it invokes the stop
method and sets the currentTime
property to 0. When you invoke the stop
method, it just stops the audio. It does not reset the audio back to the beginning, which is why we need to do it manually.
func stop(){ if player?.playing == true { player?.stop() player?.currentTime = 0 } }
Step 6: pause
Just like the stop
method, we first check to see if the audio player is playing. If it is, we invoke the pause
method.
func pause(){ if player?.playing == true{ player?.pause() } }
Step 7: nextSong
The nextSong(_:Bool)
method queues up the next song and, if the player is playing, plays that song. We don't want the next song playing if the player is paused. However, this method is also called when a song finishes playing. In that case, we do want to play the next song, which is what the parameter songFinishedPlaying
is for.
func nextSong(songFinishedPlaying:Bool){ var playerWasPlaying = false if player?.playing == true { player?.stop() playerWasPlaying = true } currentTrackIndex++ if currentTrackIndex >= tracks.count { currentTrackIndex = 0 } queueTrack() if playerWasPlaying || songFinishedPlaying { player?.play() } }
The playerWasPlaying
variable is used to tell whether or not the player was playing when this method was invoked. If the song was playing, we invoke the stop
method on the player
and set playerWasPlaying
to true
.
Next, we increment the currentTrackIndex
and check to see if it is greater than or equal to tracks.count
. The count
property of an array gives us the total number of items in the array. We need to be sure that we don't try to access an element that doesn't exist in the tracks
array. To prevent this, we set currentTrackIndex
back to the first element of the array if that is the case.
Finally, we invoke queueTrack
to get the next song ready and play that song if either playerWasPlaying
or songFinishedPlaying
is true
.
Step 8: previousSong
The previousSong
method works very similar to nextSong
. The only difference is that we decrement the currentTrackIndex
and check if it is equal to 0. If it is, we set it to the index of the last element in the array.
func previousSong(){ var playerWasPlaying = false if player?.playing == true { player?.stop() playerWasPlaying = true } currentTrackIndex-- if currentTrackIndex < 0 { currentTrackIndex = tracks.count - 1 } queueTrack() if playerWasPlaying { player?.play() } }
By utilizing both the nextSong
and previousSong
methods, we are able to cycle through all of the MP3s and start over when we reach the beginning or the end of the list.
Step 9: getCurrentTrackName
The getCurrentTrackName
method gets the name of the MP3 without the extension.
func getCurrentTrackName() -> String { let trackName = tracks[currentTrackIndex].lastPathComponent.stringByDeletingPathExtension return trackName }
We get a reference to whatever the current MP3 is by using tracks[currentTrackIndex]
. Remember, however, that these are the paths to the MP3s and not the actual files themselves. The paths are rather long, because it is the full path to the MP3 files.
On my machine, for example, the first element of the tracks
array is equal to "/Users/jamestyner/Library/Developer/CoreSimulator/Devices/80C8CD34-22AE-4F00-862E-FD41E2D8D6BA/data/Containers/Bundle/Application/3BCF8543-BA1B-4997-9777-7EC56B1C4348/MP3Player.app/Lonesome Road Blues.mp3". This path would be different on an actual device of course.
We've got a large string that contains the path to the MP3, but we just want the name of the MP3 itself. The NSString
class defines two properties that can help us. As the name implies, the lastPathComponent
property returns the last component of a path. As you might have guessed, the stringByDeletingPathExtension
property removes the extension.
Step 10: getCurrentTimeAsString
The getCurrentTimeAsString
method uses the currentTime
property of the player
instance and returns it as a human-readable string (e.g., 1:02).
func getCurrentTimeAsString() -> String { var seconds = 0 var minutes = 0 if let time = player?.currentTime { seconds = Int(time) % 60 minutes = (Int(time) / 60) % 60 } return String(format: "%0.2d:%0.2d",minutes,seconds) }
The currentTime
property is of type NSTimeInterval
, which is just a typealias
for a Double
. We use some math to get the seconds
and minutes
, making sure we convert time
to an Int
since we need to work with whole numbers. If you are not familiar with the remainder operator (%), it finds the remainder after division of one number by another. If the time
variable was equal to 65, then seconds
would be equal to 5 because we are using 60.
Step 11: getProgress
The getProgress
method is used by the UIProgressView
instance to give an indication of how much of the MP3 has played. This progress is represented by a value from 0.0 to 1.0 as a Float
.
func getProgress()->Float{ var theCurrentTime = 0.0 var theCurrentDuration = 0.0 if let currentTime = player?.currentTime, duration = player?.duration { theCurrentTime = currentTime theCurrentDuration = duration } return Float(theCurrentTime / theCurrentDuration) }
To get this value, we divide the player
's currentTime
property by the player
's duration
property, we store these values in the variables theCurrentTime
and theCurrentDuration
. Like currentTime
, the duration
property is of type NSTimeInterval
and it represents the duration of the song in seconds.
Step 12: setVolume
The setVolume(_:Float)
method invokes the setVolume
method of the player
instance.
func setVolume(volume:Float){ player?.volume = volume }
Step 13: audioPlayerDidFinishPlaying(_:successfully:)
The audioPlayerDidFinishPlaying(_:successfully:)
method is a method of the AVAudioPlayerDelegate
protocol. This method takes as parameters the AVAudioPlayer
instance and a boolean. The boolean is set to true
if the audio player has finished playing the current song.
func audioPlayerDidFinishPlaying(player: AVAudioPlayer, successfully flag: Bool){ if flag == true { nextSong(true) } }
If the song successfully finished playing, we call the nextSong
method, passing in true
since the song finished playing on its own.
This completes the MP3Player
class. We will revisit it a bit later, after implementing the actions of the ViewController
class.
4. ViewController
Class
Open ViewController.swift and view its contents.
mport UIKit import AVFoundation class ViewController: UIViewController { var mp3Player:MP3Player? var timer:NSTimer? @IBOutlet weak var trackName: UILabel! @IBOutlet weak var trackTime: UILabel! @IBOutlet weak var progressBar: UIProgressView! override func viewDidLoad() { super.viewDidLoad() } @IBAction func playSong(sender: AnyObject) { } @IBAction func stopSong(sender: AnyObject) { } @IBAction func pauseSong(sender: AnyObject) { } @IBAction func playNextSong(sender: AnyObject) { } @IBAction func setVolume(sender: UISlider) { } @IBAction func playPreviousSong(sender: AnyObject) { } override func didReceiveMemoryWarning() { super.didReceiveMemoryWarning() // Dispose of any resources that can be recreated. } }
The mp3Player
variable is an instance of the MP3Player
class we implemented earlier. The timer
variable will be used to update the trackTime
and progressBar
views every second.
In the next few steps, we will implement the actions of the ViewController
class. But first, we should instantiate the MP3Player
instance. Update the implementation of the viewDidLoad
method as shown below.
override func viewDidLoad() { super.viewDidLoad() mp3Player = MP3Player() }
Step 1: playSong(_: AnyObject)
Enter the following in the playSong(_: AnyObject)
method.
@IBAction func playSong(sender: AnyObject) { mp3Player?.play() }
In this method, we invoke the play
method on the mp3Player
object. We are at a point where we can start testing the app now. Run the app and press the play button. The song should start playing.
Step 2: stopSong(_: AnyObject)
The stopSong(_: AnyObject)
method invokes the stop method on the mp3Player
object.
@IBAction func stopSong(sender: AnyObject) { mp3Player?.stop() }
Run the app again and tap the play button. You should now be able to stop the song by tapping the stop button.
Step 3: pauseSong(_: AnyObject)
As you might have guessed, the pauseSong(_: AnyObject)
method invokes the pause
method on the mp3Player
object.
@IBAction func pauseSong(sender: AnyObject) { mp3Player?.pause() }
Step 4: playNextSong(_: AnyObject)
IBAction func playNextSong(sender: AnyObject) { mp3Player?.nextSong(false) }
In playNextSong(_: AnyObject)
, we invoke the nextSong
method on the mp3player
object. Note that we pass false
as a parameter, because the song didn't finish playing on its own. We are manually starting the next song by pressing the next button.
Step 5: previousSong(_: AnyObject)
@IBAction func playPreviousSong(sender: AnyObject) { mp3Player?.previousSong() }
As you can see, the implementation of the previousSong(_: AnyObject)
method is very similar to that of nextSong(_: AnyObject)
. All the buttons of the MP3 player should be functional now. If you've not tested the app yet, now would be a good time to make sure everything is working as expected.
Step 6: setVolume(_: UISlider)
The setVolume(_: UISlider)
method invokes the setVolume
method on the mp3Player
object. The volume property is of type Float
. The value ranges from 0.0 to 1.0. The UISlider
object is set up with 0.0 as its minimum value and 1.0 as its maximum value.
@IBAction func setVolume(sender: UISlider) { mp3Player?.setVolume(sender.value) }
Run the app one more time and play with the volume slider to test that everything is working correctly.
Step 7: startTimer
The startTimer
method instantiates a new NSTimer
instance.
func startTimer(){ timer = NSTimer.scheduledTimerWithTimeInterval(1.0, target: self, selector: Selector("updateViewsWithTimer:"), userInfo: nil, repeats: true) }
The scheduledTimerWithTimeInterval(_:target:selector:userInfo:repeats:)
initializer takes as parameters the number of seconds between firing of the timer, the object to which to call a method on specified by selector
, the method that gets called when the timer fires, an optional userInfo
dictionary, and whether or not the timer repeats until it is invalidated.
We are using a method named updateViewsWithTimer(_: NSTimer)
as the selector, so we will create that next.
Step 8: updateViewsWithTimer(_: NSTimer)
The updateViewsWithTimer(_: NSTimer)
method calls the updateViews
method, which we will implement in the next step.
func updateViewsWithTimer(theTimer: NSTimer){ updateViews() }
Step 9: updateViews
The updateViews
method updates the trackTime
and progressBar
views.
func updateViews(){ trackTime.text = mp3Player?.getCurrentTimeAsString() if let progress = mp3Player?.getProgress() { progressBar.progress = progress } }
The text
property of trackTime
is updated with the currentTime
property, formatted as a string by invoking the getCurrentTimeAsString
method. We declare a constant progress
using the mp3Player
's getProgress
method, and set progressBar.progress
using that constant.
Step 10: Wiring Up the Timer
Now we need to call the startTimer
method at the appropriate places. We need to start the timer in the playSong(_: AnyObject)
method, the playNextSong(_ :AnyObject)
method, and the playPreviousSong(_ :AnyObject)
method.
@IBAction func playSong(sender: AnyObject) { mp3Player?.play() startTimer() }
@IBAction func playNextSong(sender: AnyObject) { mp3Player?.nextSong(false) startTimer() }
@IBAction func playPreviousSong(sender: AnyObject) { mp3Player?.previousSong() startTimer() }
Step 11: Stopping the Timer
We also need to stop the timer
when the pause and stop buttons are pressed. You can stop the timer
object by invoking the invalidate
method on the NSTimer
instance.
@IBAction func stopSong(sender: AnyObject) { mp3Player?.stop() updateViews() timer?.invalidate() }
@IBAction func pauseSong(sender: AnyObject) { mp3Player?.pause() timer?.invalidate() }
Step 12: setTrackName
The setTrackName
method sets the text
property of trackName
by invoking getCurrentTrackName
on the mp3Player
object.
func setTrackName(){ trackName.text = mp3Player?.getCurrentTrackName() }
Step 13: setupNotificationCenter
When a song finishes playing, it should automatically show the next song's name and start playing that song. Also, when the user presses the play, next, or previous buttons, the setTrackName
method should be invoked. The ideal place to do this is the queueTrack
method of the MP3Player
class.
We need a way to have the MP3Player
class tell the ViewController
class to invoke the setTrackName
method. To do that, we will use the NSNotificationCenter
class. The notification center provides a way to broadcast information throughout a program. By registering as an observer with the notification center, an object can receive these broadcasts and perform an operation. Another way to accomplish this task would be to use the delegation pattern.
Add the following method to the ViewController
class.
func setupNotificationCenter(){ NSNotificationCenter.defaultCenter().addObserver(self, selector:"setTrackName", name:"SetTrackNameText", object:nil) }
We first obtain a reference to the default notification center. We then invoke the addObserver(_:selector:name:object:)
method on the notification center. This method accepts four parameters:
- the object registering as the observer,
self
in this case - the message that will be sent to the observer when the notification is posted
- the name of the notification for which to register the observer
- the object whose notifications the observer wants to receive
By passing in nil
as the last argument, we listen for every notification that has a name of SetTrackNameText.
Now we need to call this method in the view controller's viewDidLoad
method.
override func viewDidLoad() { super.viewDidLoad() mp3Player = MP3Player() setupNotificationCenter() }
Step 14: Posting the Notification
To post the notification, we invoke the postNotificationName(_:object:)
method on the default notification center. As I mentioned earlier, we will do this in the queueTrack
method of the MP3Player
class. Open MP3Player.swift and update the queueTrack
method as shown below.
func queueTrack(){ if(player != nil){ player = nil } var error:NSError? let url = NSURL.fileURLWithPath(tracks[currentTrackIndex] as String) player = AVAudioPlayer(contentsOfURL: url, error: &error) if let hasError = error { //SHOW ALERT OR SOMETHING } else { player?.delegate = self player?.prepareToPlay() NSNotificationCenter.defaultCenter().postNotificationName("SetTrackNameText", object: nil) } }
If you test the app now and let a song play all the way through, it should start playing the next song automatically. But you may be wondering why the song's name does not show up during the first song. The init
method of the MP3Player
class calls the queueTrack
method, but since it has not finished initializing, it has no affect.
All we need to do is manually call the setTrackName
method after we initialize the mp3Player
object. Add the following code to the viewDidLoad
method in ViewController.swift.
override func viewDidLoad() { super.viewDidLoad() mp3Player = MP3Player() setupNotificationCenter() setTrackName() updateViews() }
You'll notice that I also called the updateViews
method. This way, the player shows a time of 0:00 at the start. If you test the app now, you should have a fully functional MP3 player.
Conclusion
This was a rather long tutorial, but you now have a functional MP3 player to build and expand on. One suggestion is to allow the user to choose a song to play by implementing a UITableView
below the player. Thanks for reading and I hope you've learned something useful.