Audio Overview

Audio Features

Qt Multimedia offers a range of audio classes, covering both low and high level approaches to audio input, output and processing. In addition to traditional audio usage, the Qt Audio Engine QML types offer high level 3D positional audio for QML applications. See that documentation for more information.

Audio Implementation Details

Playing Compressed Audio

For playing media or audio files that are not simple, uncompressed audio, you can use the QMediaPlayer C++ class, or the Audio and MediaPlayer QML types. The QMediaPlayer class and associated QML types are also capable of playing video, if required. The compressed audio formats supported does depend on the operating system environment, and also what media plugins the user may have installed.

Here is how you play a local file using C++:

 player = new QMediaPlayer;
 // ...
 player->setMedia(QUrl::fromLocalFile("/Users/me/Music/coolsong.mp3"));
 player->setVolume(50);
 player->play();

You can also put files (even remote URLs) into a playlist:

 player = new QMediaPlayer;

 playlist = new QMediaPlaylist(player);
 playlist->addMedia(QUrl("http://example.com/myfile1.mp3"));
 playlist->addMedia(QUrl("http://example.com/myfile2.mp3"));
 // ...
 playlist->setCurrentIndex(1);
 player->play();

Recording Audio to a File

For recording audio to a file, the QAudioRecorder class allows you to compress audio data from an input device and record it.

 audioRecorder = new QAudioRecorder;

 QAudioEncoderSettings audioSettings;
 audioSettings.setCodec("audio/amr");
 audioSettings.setQuality(QMultimedia::HighQuality);

 audioRecorder->setEncodingSettings(audioSettings);

 audioRecorder->setOutputLocation(QUrl::fromLocalFile("test.amr"));
 audioRecorder->record();

Low Latency Sound Effects

In addition to the raw access to sound devices described above, the QSoundEffect class (and SoundEffect QML type) offers a slightly higher level way to play sounds. These classes allow you to specify a WAV format file which can then be played with low latency when necessary. Both QSoundEffect and SoundEffect have essentially the same API.

You can adjust the number of loops a sound effect is played, as well as the volume (or muting) of the effect.

For older, Qt 4.x based applications QSound is also available. Applications are recommended to use QSoundEffect where possible.

Monitoring Audio Data During Playback or Recording

The QAudioProbe class allows you to monitor audio data being played or recorded in the higher level classes like QMediaPlayer, QCamera and QAudioRecorder. After creating your high level class, you can simply set the source of the probe to your class, and receive audio buffers as they are processed. This is useful for several audio processing tasks, particularly for visualization or adjusting gain. You cannot modify the buffers, and they may arrive at a slightly different time than the media pipeline processes them.

Here's an example of installing a probe during recording:

 audioRecorder = new QAudioRecorder;

 QAudioEncoderSettings audioSettings;
 audioSettings.setCodec("audio/amr");
 audioSettings.setQuality(QMultimedia::HighQuality);

 audioRecorder->setEncodingSettings(audioSettings);

 audioRecorder->setOutputLocation(QUrl::fromLocalFile("test.amr"));

 audioProbe = new QAudioProbe(this);
 if (audioProbe->setSource(audioRecorder)) {
     // Probing succeeded, audioProbe->isValid() should be true.
     connect(audioProbe, SIGNAL(audioBufferProbed(QAudioBuffer)),
             this, SLOT(calculateLevel(QAudioBuffer)));
 }

 audioRecorder->record();
 // Now audio buffers being recorded should be signaled
 // by the probe, so we can do things like calculating the
 // audio power level, or performing a frequency transform

Low Level Audio Playback and Recording

Qt Multimedia offers classes for raw access to audio input and output facilities, allowing applications to receive raw data from devices like microphones, and to write raw data to speakers or other devices. Generally these classes do not do any audio decoding, or other processing, but they can support different types of raw audio data.

The QAudioOutput class offers raw audio data output, while QAudioInput offers raw audio data input. Both classes have adjustable buffers and latency, so they are suitable for both low latency use cases (like games or VOIP) and high latency (like music playback). The available hardware determines what audio outputs and inputs are available.

Push and Pull

The low level audio classes can operate in two modes - push and pull. In pull mode, the audio device is started by giving it a QIODevice. For an output device, the QAudioOutput class will pull data from the QIODevice (using QIODevice::read()) when more audio data is required. Conversely, for pull mode with QAudioInput, when audio data is available then the data will be written directly to the QIODevice.

In push mode, the audio device provides a QIODevice instance that can be written or read to as needed. Typically this results in simpler code but more buffering, which may affect latency.

Decoding Compressed Audio to Memory

In some cases you may want to decode a compressed audio file and do further processing yourself (for example, mixing multiple samples or using custom digital signal processing algorithms). QAudioDecoder supports decoding local files or data streams from QIODevice instances.

Here's an example of decoding a local file:

 QAudioFormat desiredFormat;
 desiredFormat.setChannelCount(2);
 desiredFormat.setCodec("audio/x-raw");
 desiredFormat.setSampleType(QAudioFormat::UnSignedInt);
 desiredFormat.setSampleRate(48000);
 desiredFormat.setSampleSize(16);

 QAudioDecoder *decoder = new QAudioDecoder(this);
 decoder->setAudioFormat(desiredFormat);
 decoder->setSourceFilename("level1.mp3");

 connect(decoder, SIGNAL(bufferReady()), this, SLOT(readBuffer()));
 decoder->start();

 // Now wait for bufferReady() signal and call decoder->read()

Examples

There are both C++ and QML examples available.

C++ Examples

Reference Documentation

C++ Classes

QML Types