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#include "qaudiodevicefactory_p.h"
#include "qaudiosystem.h"
#include "qaudiodeviceinfo.h"
#include <QtCore/qmap.h>
QT_BEGIN_NAMESPACE
class QAudioDeviceInfoPrivate : public QSharedData
{
public:
QAudioDeviceInfoPrivate():info(0) {}
QAudioDeviceInfoPrivate(const QString &r, const QByteArray &h, QAudio::Mode m):
realm(r), handle(h), mode(m)
{
info = QAudioDeviceFactory::audioDeviceInfo(realm, handle, mode);
}
QAudioDeviceInfoPrivate(const QAudioDeviceInfoPrivate &other):
QSharedData(other),
realm(other.realm), handle(other.handle), mode(other.mode)
{
info = QAudioDeviceFactory::audioDeviceInfo(realm, handle, mode);
}
QAudioDeviceInfoPrivate& operator=(const QAudioDeviceInfoPrivate &other)
{
delete info;
realm = other.realm;
handle = other.handle;
mode = other.mode;
info = QAudioDeviceFactory::audioDeviceInfo(realm, handle, mode);
return *this;
}
~QAudioDeviceInfoPrivate()
{
delete info;
}
QString realm;
QByteArray handle;
QAudio::Mode mode;
QAbstractAudioDeviceInfo* info;
};
/*!
\class QAudioDeviceInfo
\brief The QAudioDeviceInfo class provides an interface to query audio devices and their functionality.
\inmodule QtMultimedia
\ingroup multimedia
\since 4.6
QAudioDeviceInfo lets you query for audio devices--such as sound
cards and USB headsets--that are currently available on the system.
The audio devices available are dependent on the platform or audio plugins installed.
You can also query each device for the formats it supports. A
format in this context is a set consisting of a specific byte
order, channel, codec, frequency, sample rate, and sample type. A
format is represented by the QAudioFormat class.
The values supported by the the device for each of these
parameters can be fetched with
supportedByteOrders(), supportedChannelCounts(), supportedCodecs(),
supportedSampleRates(), supportedSampleSizes(), and
supportedSampleTypes(). The combinations supported are dependent on the platform,
audio plugins installed and the audio device capabilities. If you need a specific format, you can check if
the device supports it with isFormatSupported(), or fetch a
supported format that is as close as possible to the format with
nearestFormat(). For instance:
\code
QAudioFormat format;
format.setFrequency(44100);
\endcode
\dots 8
\code
format.setSampleType(QAudioFormat::SignedInt);
QAudioDeviceInfo info(QAudioDeviceInfo::defaultOutputDevice());
if (!info.isFormatSupported(format))
format = info.nearestFormat(format);
\endcode
A QAudioDeviceInfo is used by Qt to construct
classes that communicate with the device--such as
QAudioInput, and QAudioOutput. The static
functions defaultInputDevice(), defaultOutputDevice(), and
availableDevices() let you get a list of all available
devices. Devices are fetch according to the value of mode
this is specified by the QAudio::Mode enum.
The QAudioDeviceInfo returned are only valid for the QAudio::Mode.
For instance:
\code
foreach(const QAudioDeviceInfo &deviceInfo, QAudioDeviceInfo::availableDevices(QAudio::AudioOutput))
qDebug() << "Device name: " << deviceInfo.deviceName();
\endcode
In this code sample, we loop through all devices that are able to output
sound, i.e., play an audio stream in a supported format. For each device we
find, we simply print the deviceName().
\sa QAudioOutput, QAudioInput
*/
/*!
Constructs an empty QAudioDeviceInfo object.
*/
QAudioDeviceInfo::QAudioDeviceInfo():
d(new QAudioDeviceInfoPrivate)
{
}
/*!
Constructs a copy of \a other.
*/
QAudioDeviceInfo::QAudioDeviceInfo(const QAudioDeviceInfo& other):
d(other.d)
{
}
/*!
Destroy this audio device info.
*/
QAudioDeviceInfo::~QAudioDeviceInfo()
{
}
/*!
Sets the QAudioDeviceInfo object to be equal to \a other.
*/
QAudioDeviceInfo& QAudioDeviceInfo::operator=(const QAudioDeviceInfo &other)
{
d = other.d;
return *this;
}
/*!
Returns whether this QAudioDeviceInfo object holds a device definition.
*/
bool QAudioDeviceInfo::isNull() const
{
return d->info == 0;
}
/*!
Returns human readable name of audio device.
Device names vary depending on platform/audio plugin being used.
They are a unique string identifiers for the audio device.
eg. default, Intel, U0x46d0x9a4
*/
QString QAudioDeviceInfo::deviceName() const
{
return isNull() ? QString() : d->info->deviceName();
}
/*!
Returns true if \a settings are supported by the audio device of this QAudioDeviceInfo.
*/
bool QAudioDeviceInfo::isFormatSupported(const QAudioFormat &settings) const
{
return isNull() ? false : d->info->isFormatSupported(settings);
}
/*!
Returns QAudioFormat of default settings.
These settings are provided by the platform/audio plugin being used.
They also are dependent on the QAudio::Mode being used.
A typical audio system would provide something like:
\list
\o Input settings: 8000Hz mono 8 bit.
\o Output settings: 44100Hz stereo 16 bit little endian.
\endlist
*/
QAudioFormat QAudioDeviceInfo::preferredFormat() const
{
return isNull() ? QAudioFormat() : d->info->preferredFormat();
}
/*!
Returns closest QAudioFormat to \a settings that system audio supports.
These settings are provided by the platform/audio plugin being used.
They also are dependent on the QAudio::Mode being used.
*/
QAudioFormat QAudioDeviceInfo::nearestFormat(const QAudioFormat &settings) const
{
if (isFormatSupported(settings))
return settings;
QAudioFormat nearest = settings;
QList<QString> testCodecs = supportedCodecs();
QList<int> testChannels = supportedChannels();
QList<QAudioFormat::Endian> testByteOrders = supportedByteOrders();
QList<QAudioFormat::SampleType> testSampleTypes;
QList<QAudioFormat::SampleType> sampleTypesAvailable = supportedSampleTypes();
QMap<int,int> testFrequencies;
QList<int> frequenciesAvailable = supportedFrequencies();
QMap<int,int> testSampleSizes;
QList<int> sampleSizesAvailable = supportedSampleSizes();
// Get sorted lists for checking
if (testCodecs.contains(settings.codec())) {
testCodecs.removeAll(settings.codec());
testCodecs.insert(0, settings.codec());
}
testChannels.removeAll(settings.channels());
testChannels.insert(0, settings.channels());
testByteOrders.removeAll(settings.byteOrder());
testByteOrders.insert(0, settings.byteOrder());
if (sampleTypesAvailable.contains(settings.sampleType()))
testSampleTypes.append(settings.sampleType());
if (sampleTypesAvailable.contains(QAudioFormat::SignedInt))
testSampleTypes.append(QAudioFormat::SignedInt);
if (sampleTypesAvailable.contains(QAudioFormat::UnSignedInt))
testSampleTypes.append(QAudioFormat::UnSignedInt);
if (sampleTypesAvailable.contains(QAudioFormat::Float))
testSampleTypes.append(QAudioFormat::Float);
if (sampleSizesAvailable.contains(settings.sampleSize()))
testSampleSizes.insert(0,settings.sampleSize());
sampleSizesAvailable.removeAll(settings.sampleSize());
foreach (int size, sampleSizesAvailable) {
int larger = (size > settings.sampleSize()) ? size : settings.sampleSize();
int smaller = (size > settings.sampleSize()) ? settings.sampleSize() : size;
bool isMultiple = ( 0 == (larger % smaller));
int diff = larger - smaller;
testSampleSizes.insert((isMultiple ? diff : diff+100000), size);
}
if (frequenciesAvailable.contains(settings.frequency()))
testFrequencies.insert(0,settings.frequency());
frequenciesAvailable.removeAll(settings.frequency());
foreach (int frequency, frequenciesAvailable) {
int larger = (frequency > settings.frequency()) ? frequency : settings.frequency();
int smaller = (frequency > settings.frequency()) ? settings.frequency() : frequency;
bool isMultiple = ( 0 == (larger % smaller));
int diff = larger - smaller;
testFrequencies.insert((isMultiple ? diff : diff+100000), frequency);
}
// Try to find nearest
foreach (QString codec, testCodecs) {
nearest.setCodec(codec);
foreach (QAudioFormat::Endian order, testByteOrders) {
nearest.setByteOrder(order);
foreach (QAudioFormat::SampleType sample, testSampleTypes) {
nearest.setSampleType(sample);
QMapIterator<int, int> sz(testSampleSizes);
while (sz.hasNext()) {
sz.next();
nearest.setSampleSize(sz.value());
foreach (int channel, testChannels) {
nearest.setChannels(channel);
QMapIterator<int, int> i(testFrequencies);
while (i.hasNext()) {
i.next();
nearest.setFrequency(i.value());
if (isFormatSupported(nearest))
return nearest;
}
}
}
}
}
}
//Fallback
return preferredFormat();
}
/*!
Returns a list of supported codecs.
All platform and plugin implementations should provide support for:
"audio/pcm" - Linear PCM
For writing plugins to support additional codecs refer to:
http://www.iana.org/assignments/media-types/audio/
*/
QStringList QAudioDeviceInfo::supportedCodecs() const
{
return isNull() ? QStringList() : d->info->supportedCodecs();
}
/*!
Returns a list of supported sample rates.
\since 4.7
*/
QList<int> QAudioDeviceInfo::supportedSampleRates() const
{
return supportedFrequencies();
}
/*!
\obsolete
Use supportedSampleRates() instead.
*/
QList<int> QAudioDeviceInfo::supportedFrequencies() const
{
return isNull() ? QList<int>() : d->info->supportedSampleRates();
}
/*!
Returns a list of supported channel counts.
\since 4.7
*/
QList<int> QAudioDeviceInfo::supportedChannelCounts() const
{
return supportedChannels();
}
/*!
\obsolete
Use supportedChannelCount() instead.
*/
QList<int> QAudioDeviceInfo::supportedChannels() const
{
return isNull() ? QList<int>() : d->info->supportedChannelCounts();
}
/*!
Returns a list of supported sample sizes.
*/
QList<int> QAudioDeviceInfo::supportedSampleSizes() const
{
return isNull() ? QList<int>() : d->info->supportedSampleSizes();
}
/*!
Returns a list of supported byte orders.
*/
QList<QAudioFormat::Endian> QAudioDeviceInfo::supportedByteOrders() const
{
return isNull() ? QList<QAudioFormat::Endian>() : d->info->supportedByteOrders();
}
/*!
Returns a list of supported sample types.
*/
QList<QAudioFormat::SampleType> QAudioDeviceInfo::supportedSampleTypes() const
{
return isNull() ? QList<QAudioFormat::SampleType>() : d->info->supportedSampleTypes();
}
/*!
Returns the name of the default input audio device.
All platform and audio plugin implementations provide a default audio device to use.
*/
QAudioDeviceInfo QAudioDeviceInfo::defaultInputDevice()
{
return QAudioDeviceFactory::defaultInputDevice();
}
/*!
Returns the name of the default output audio device.
All platform and audio plugin implementations provide a default audio device to use.
*/
QAudioDeviceInfo QAudioDeviceInfo::defaultOutputDevice()
{
return QAudioDeviceFactory::defaultOutputDevice();
}
/*!
Returns a list of audio devices that support \a mode.
*/
QList<QAudioDeviceInfo> QAudioDeviceInfo::availableDevices(QAudio::Mode mode)
{
return QAudioDeviceFactory::availableDevices(mode);
}
/*!
\internal
*/
QAudioDeviceInfo::QAudioDeviceInfo(const QString &realm, const QByteArray &handle, QAudio::Mode mode):
d(new QAudioDeviceInfoPrivate(realm, handle, mode))
{
}
/*!
\internal
*/
QString QAudioDeviceInfo::realm() const
{
return d->realm;
}
/*!
\internal
*/
QByteArray QAudioDeviceInfo::handle() const
{
return d->handle;
}
/*!
\internal
*/
QAudio::Mode QAudioDeviceInfo::mode() const
{
return d->mode;
}
QT_END_NAMESPACE