Installation • Usage • Documentation • Why I Built Piano • License • Contribute • Questions? • Credits

Piano is a convenient and easy-to-use wrapper around the AVFoundation and UIHapticFeedback frameworks, leveraging the full capabilities of the Taptic Engine, while following strict Apple guidelines to preserve battery life. Ultimately, Piano allows you, the composer, to conduct masterful symphonies of sounds and vibrations, and create a more immersive, usable and meaningful user experience in your app or game.

Piano requires iOS 10+ and is compatible with Swift 4.2 projects.

• Installation for CocoaPods:

platform :ios, '10.0'
target 'ProjectName' do
use_frameworks!

    pod 'Piano', '~> 1.8'

end

(if you run into problems, pod repo update and try again)

• Installation for Carthage:

github "saoudrizwan/Piano"

(make sure Xcode 10 is set as your system's default Xcode before using CocoaPods or Carthage with Swift 4 frameworks)

• Or embed the Piano framework into your project

And import Piano in the files you'd like to use it.

Using Piano is simple.

let symphony: [Piano.Note] = [
    .sound(.asset(name: "acapella")),
    .hapticFeedback(.impact(.light)),
    .waitUntilFinished,
    .hapticFeedback(.impact(.heavy)),
    .wait(0.2),
    .sound(.system(.chooChoo))
]

Piano.play(symphony)

... or better yet:

🎹.play([
    .sound(.asset(name: "acapella"))
    ])

Optionally add a completion block to be called when all the notes are finished playing:

🎹.play([
    .sound(.asset(name: "acapella"))
]) {
    // ...
}

Or cancel the currently playing symphony:

🎹.cancel()

In the background, each note has an internal completion block, so you can add a .waitUntilFinished note that tells Piano to not play the next note until the previous note is done playing. This is useful for creating patterns of custom haptic feedback, besides the ones Apple predefined. This is also great for creating complex combinations of sound effects and vibrations.

Plays an audio file.

Plays standard vibrations available on all models of the iPhone.

Plays Taptic Engine vibrations available on the iPhone 6S and above.

Plays Taptic Engine Haptic Feedback available on the iPhone 7 and above.

_{See: Apple's Guidelines for using Haptic Feedback}

Tells Piano to wait until the previous note is done playing before playing the next note.

Tells Piano to wait a given duration before playing the next note.

• The iPhone 6S and 6S Plus carry the first generation of Taptic Engine which has a few "haptic" vibration patterns, which you can play with Piano using the .tapticEngine() notes.

• The iPhone 7 and above carry the latest version of the Taptic Engine which supports the iOS 10 Haptic Feedback frameworks, allowing you to select from many more vibration types. You can play these vibrations using the .hapticFeedback() notes.

• All versions of the iPhone can play the .vibration() notes.

Piano also includes a useful extension for UIDevice to check if the user's device has a Taptic Engine and if it supports Haptic Feedback. This extension is especially useful for creating symphonies for all devices:

if UIDevice.current.hasHapticFeedback {
    // use .hapticFeedback(HapticFeedback) notes
} else if UIDevice.current.hasTapticEngine {
    // use .tapticEngine(TapticEngine) notes
} else {
    // use .vibration(Vibration) notes
}

Note: This extension does not work on simulators, it will always return false.

Apple's guide over the Haptic Feedback framework is very clear about using the Taptic Engine appropriately in order to prevent draining the user's device's battery life. Piano was built with this in mind, and handles most cases as efficiently as possible. But you can help preserve battery life and reduce latency further by calling these helper methods based on your specific needs.

Piano.wakeTapticEngine()

This initializes and allocates the Haptic Feedback framework and essentially "wakes up" the Taptic Engine, as it is normally in an idle state. A good place to put this is at the begin state of a gesture or action, in anticipation of playing a .hapticFeedback() note.

Piano.prepareTapticEngine()

This tells the Taptic Engine to prepare itself before creating any feedback to reduce latency when triggering feedback.

From Apple's documentation:

This is particularly important when trying to match feedback to sound or visual cues. To preserve power, the Taptic Engine stays in this prepared state for only a short period of time (on the order of seconds), or until you next trigger feedback. Think about when and where you can best prepare your generators. If you call prepare and then immediately trigger feedback, the system won’t have enough time to get the Taptic Engine into the prepared state, and you may not see a reduction in latency. On the other hand, if you call prepare too early, the Taptic Engine may become idle again before you trigger feedback.

tl;dr A good place to put this is right after calling .wakeTapticEngine(), usually at the beginning of a gesture or action, in anticipation of playing a .hapticFeedback() note.

Piano.putTapticEngineToSleep()

Once we know we're done using the Taptic Engine, we can deallocate the Haptic Feedback framework, returning the Taptic Engine to its idle state. A good place to put this is at the end of a finished, cancelled, or failed gesture or action.

Piano automatically wakes and prepares the Taptic Engine when you call .play([ ... ]) if it includes a .hapticFeedback() note, and returns the Taptic Engine back to sleep when the notes are done playing.

The example app is a great place to get started. It's designed as a playground for you to compose and test out your own symphonies of sounds and vibrations.

You can even drag and drop your own sound files into the project and tweak the code a bit to see how your own sounds can work alongside the Taptic Engine. To add your own sound file, simply drag it into Sounds.xcassets, name it accordingly, then edit the cellData property in ViewController.swift (Scroll down to case 7 in cellData, or look for "Add your own sound assets here..." in the Jump Bar using Ctrl + 6).

Option + click on any of Piano's methods or notes for detailed documentation.

With the new iPhone 8 and iPhone X, we are going to see many new Augmented Reality apps, and one of the keypoints in the Human Interface Guidelines for AR is to not clutter the AR view, allowing as much content from the augmented reality to be displayed as possible. Besides AR, Apple has spent tremendous time and manpower giving the iPhone an interface beyond our vision with the Taptic Engine and Siri. Apple even had a session during WWDC 2017 talking about the importance of sound design and the impact it can have on a user experience. It's obvious that the future of technology is not visual interfaces, but augmenting our connection with the real world. By using our physical, auditory, and most importantly visual senses, we can see the world in a whole new light. That's why I built Piano and ARLogger, frameworks I hope will help developers create immersive and uncluttered interfaces, while keeping the user aware of the technology's state and purpose. If you'd like my help on an AR project, or just want to chat about the future of technology, don't hesitate to reach out to me on Twitter @sdrzn.

Piano uses the MIT license. Please file an issue if you have any questions or if you'd like to share how you're using Piano.

Please feel free to create issues for feature requests or send pull requests of any additions you think would complement Piano and its philosophy.

Contact me by email hello@saoudmr.com, or by twitter @sdrzn. Please create an issue if you come across a bug or would like a feature to be added.

• Example app sound files from Icons 8 UI Sounds
• Music notes in README header image from LSE Design on the Noun Project