QAudio#
The QAudio namespace contains enums used by the audio classes. More…
Synopsis#
Static functions#
def
convertVolume
(volume, from, to)
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
- PySide6.QtMultimedia.QAudio.Error#
Constant
Description
QAudio.NoError
No errors have occurred
QAudio.OpenError
An error occurred opening the audio device
QAudio.IOError
An error occurred during read/write of audio device
QAudio.UnderrunError
Audio data is not being fed to the audio device at a fast enough rate
QAudio.FatalError
A non-recoverable error has occurred, the audio device is not usable at this time.
- PySide6.QtMultimedia.QAudio.State#
Constant
Description
QAudio.ActiveState
Audio data is being processed, this state is set after start() is called and while audio data is available to be processed.
QAudio.SuspendedState
The audio stream is in a suspended state. Entered after suspend() is called or when another stream takes control of the audio device. In the later case, a call to resume will return control of the audio device to this stream. This should usually only be done upon user request.
QAudio.StoppedState
The audio device is closed, and is not processing any audio data
QAudio.IdleState
The
QIODevice
passed in has no data and audio system’s buffer is empty, this state is set after start() is called and while no audio data is available to be processed.
- PySide6.QtMultimedia.QAudio.VolumeScale#
This enum defines the different audio volume scales.
Constant
Description
QAudio.LinearVolumeScale
Linear scale.
0.0
(0%) is silence and1.0
(100%) is full volume. All Qt Multimedia classes that have an audio volume use a linear scale.QAudio.CubicVolumeScale
Cubic scale.
0.0
(0%) is silence and1.0
(100%) is full volume.QAudio.LogarithmicVolumeScale
Logarithmic Scale.
0.0
(0%) is silence and1.0
(100%) is full volume. UI volume controls should usually use a logarithmic scale.QAudio.DecibelVolumeScale
Decibel (dB, amplitude) logarithmic scale.
-200
is silence and0
is full volume.See also
- static PySide6.QtMultimedia.QAudio.convertVolume(volume, from, to)#
- Parameters:
volume – float
from –
VolumeScale
to –
VolumeScale
- Return type:
float
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Converts an audio volume
from
a volume scale to
another, and returns the result.
Depending on the context, different scales are used to represent audio volume. All Qt Multimedia classes that have an audio volume use a linear scale, the reason is that the loudness of a speaker is controlled by modulating its voltage on a linear scale. The human ear on the other hand, perceives loudness in a logarithmic way. Using a logarithmic scale for volume controls is therefore appropriate in most applications. The decibel scale is logarithmic by nature and is commonly used to define sound levels, it is usually used for UI volume controls in professional audio applications. The cubic scale is a computationally cheap approximation of a logarithmic scale, it provides more control over lower volume levels.
The following example shows how to convert the volume value from a slider control before passing it to a QMediaPlayer
. As a result, the perceived increase in volume is the same when increasing the volume slider from 20 to 30 as it is from 50 to 60:
def applyVolume(volumeSliderValue): # volumeSliderValue is in the range [0..100] linearVolume = QAudio.convertVolume(volumeSliderValue / qreal(100.0),() QAudio.LogarithmicVolumeScale, QAudio.LinearVolumeScale) player.setVolume(qRound(linearVolume * 100))See also
VolumeScale
setVolume()
setVolume()
setVolume()