Skip to content

Latest commit

 

History

History
157 lines (99 loc) · 9.14 KB

README.md

File metadata and controls

157 lines (99 loc) · 9.14 KB

SFBAudioEngine

SFBAudioEngine is a powerhouse of audio functionality for macOS, iOS, and tvOS. SFBAudioEngine supports:

SFBAudioEngine is usable from both Swift and Objective-C.

Format Support

SFBAudioEngine supports most audio formats. In addition to all formats supported by Core Audio SFBAudioEngine supports:

FLAC, Ogg Opus, and MP3 are natively supported by Core Audio, however SFBAudioEngine provides its own encoders and decoders for these formats.

Quick Start

Playback

Playing an audio file is as simple as:

import SFBAudioEngine
let player = AudioPlayer()
let url = URL(fileURLWithPath: "example.flac")
try? player.play(url)

Note

Only file URLs are supported.

Metadata

Reading audio properties and metadata is similarly trivial:

if let audioFile = try? AudioFile(readingPropertiesAndMetadataFrom: url) {
    let sampleRate = audioFile.properties.sampleRate
    let title = audioFile.metadata.title
}

Conversion

Want to convert a WAVE file to FLAC?

let inputURL = URL(fileURLWithPath: "music.wav")
let outputURL = URL(fileURLWithPath: "music.flac")
try AudioConverter.convert(inputURL, to: outputURL)

The output file's format is inferred from the file extension.

More complex conversions are supported including writing to Data instead of files:

let output = OutputSource.makeForData()
let encoder = try AudioEncoder(outputSource: output, encoderName: .coreAudio)
encoder.settings = [
    .coreAudioFileTypeID: kAudioFileM4AType,
    .coreAudioFormatID: kAudioFormatMPEG4AAC,
    .coreAudioAudioConverterPropertySettings: [kAudioConverterCodecQuality: kAudioConverterQuality_High]
]
try AudioConverter.convert(inputURL, using: encoder)
// Encoder output is in `output.data`

Requirements

macOS 11.0+, iOS 15.0+, or tvOS 15.0+

Installation

Swift Package Manager

Add a package dependency to https://github.com/sbooth/SFBAudioEngine in Xcode.

Manual or Custom Build

  1. Clone the SFBAudioEngine repository.
  2. swift build.

Decoding

Audio decoders in SFBAudioEngine are broadly divided into two categories, those producing PCM output and those producing DSD output. Audio decoders read data from an SFBInputSource which may refer to a file, buffer, or data.

All audio decoders in SFBAudioEngine implement the SFBAudioDecoding protocol. PCM-producing decoders additionally implement SFBPCMDecoding while DSD decoders implement SFBDSDDecoding.

Three special decoder subclasses that wrap an underlying audio decoder instance are also provided: SFBLoopableRegionDecoder, SFBDoPDecoder, and SFBDSDPCMDecoder. For seekable inputs, SFBLoopableRegionDecoder allows arbitrary looping and repeating of a specified PCM decoder segment. SFBDoPDecoder and SFBDSDPCMDecoder wrap a DSD decoder providing DSD over PCM (DoP) and PCM output respectively.

Playback

SFBAudioPlayerNode is a subclass of AVAudioSourceNode that provides rich playback functionality within an AVAudioEngine processing graph. SFBAudioPlayerNode supports gapless playback and comprehensive status notifications through a delegate.

SFBAudioPlayer wraps an AVAudioEngine processing graph driven by SFBAudioPlayerNode. SFBAudioPlayer provides complete player functionality with no required configuration but also allows customization of the underlying processing graph as well as rich status notifications through a delegate.

Encoding

Audio encoders in SFBAudioEngine process input data and convert it to their output format. Audio encoders write data to an SFBOutputSource which may refer to a file, buffer, or data.

All audio encoders in SFBAudioEngine implement the SFBAudioEncoding protocol. PCM-consuming encoders additionally implement SFBPCMEncoding. Currently there are no encoders consuming DSD in SFBAudioEngine.

Encoders don't support arbitrary input formats. The processing format used by an encoder is derived from a desired format combined with the encoder's settings.

Conversion

SFBAudioConverter supports high level conversion operations. An audio converter reads PCM audio from an audio decoder in the decoder's processing format, converts that audio to an intermediate PCM format, and then writes the intermediate PCM audio to an audio encoder which performs the final conversion to the desired format.

The decoder's processing format and the intermediate format must both be PCM but do not have to have the same sample rate, bit depth, channel count, or channel layout.

Properties and Metadata

Audio properties and metadata are accessed via instances of SFBAudioFile. Audio properties are read-only while metadata is writable for most formats. Audio metadata may be obtained from an instance of SFBAudioFile or instantiated directly.

Sample Audio Players

Two versions of SimplePlayer, one for macOS and one for iOS, are provided to illustrate the usage of SFBAudioEngine.

macOS

SimplePlayer for macOS is written in Swift using AppKit and supports gapless sequential playback of items from a playlist. The essential functionality is contained in one file, PlayerWindowController.swift.

iOS

SimplePlayer for iOS is written in Swift using SwiftUI and supports playback of a single item selected from a list.

License

SFBAudioEngine is released under the MIT License.

The open-source projects providing support for the various audio formats are subject to their own licenses that are compatible with the MIT license when used with SFBAudioEngine's default build configuration.

LGPL Notes

In order to maintain compatibility with the LGPL used by libsndfile, mpg123, libtta-cpp, lame, and the Musepack encoder dynamic linking is required.