QAudioBuffer Class
The QAudioBuffer class represents a collection of audio samples with a specific format and sample rate. More...
Header: | #include <QAudioBuffer> |
CMake: | find_package(Qt6 REQUIRED COMPONENTS Multimedia) target_link_libraries(mytarget PRIVATE Qt6::Multimedia) |
qmake: | QT += multimedia |
Public Types
Public Functions
QAudioBuffer() | |
QAudioBuffer(const QByteArray &data, const QAudioFormat &format, qint64 startTime = -1) | |
QAudioBuffer(int numFrames, const QAudioFormat &format, qint64 startTime = -1) | |
QAudioBuffer(const QAudioBuffer &other) | |
QAudioBuffer(QAudioBuffer &&other) | |
~QAudioBuffer() | |
qsizetype | byteCount() const |
const T * | constData() const |
T * | data() |
const T * | data() const |
void | detach() |
qint64 | duration() const |
QAudioFormat | format() const |
qsizetype | frameCount() const |
bool | isValid() const |
qsizetype | sampleCount() const |
qint64 | startTime() const |
void | swap(QAudioBuffer &other) |
QAudioBuffer & | operator=(QAudioBuffer &&other) |
QAudioBuffer & | operator=(const QAudioBuffer &other) |
Detailed Description
QAudioBuffer is used by the QAudioDecoder class to hand decoded audio data over to the application. An audio buffer contains data in a certain QAudioFormat that can be queried using format(). It is also tagged with timing and duration information.
To access the data stored inside the buffer, use the data() or constData() methods.
Audio buffers are explicitly shared, in most cases, you should call detach() before modifying the data.
Member Type Documentation
QAudioBuffer::F32M
This is a predefined specialization for a 32 bit float mono sample.
QAudioBuffer::F32S
This is a predifined specialization for a 32 bit float stereo sample.
QAudioBuffer::S16M
This is a predefined specialization for a signed 16 bit mono sample. i
QAudioBuffer::S16S
This is a predefined specialization for a signed stereo 16 bit sample. Each channel is a signed short.
QAudioBuffer::S32M
This is a predefined specialization for a signed 32 bit mono sample.
QAudioBuffer::S32S
This is a predifined specialization for a siged 32 bit stereo sample.
QAudioBuffer::U8M
This is a predefined specialization for an unsigned 8 bit mono sample.
QAudioBuffer::U8S
This is a predifined specialization for an unsiged 8 bit stereo sample.
Member Function Documentation
[noexcept]
QAudioBuffer::QAudioBuffer()
Create a new, empty, invalid buffer.
QAudioBuffer::QAudioBuffer(const QByteArray &data, const QAudioFormat &format, qint64 startTime = -1)
Creates a new audio buffer from the supplied data, in the given format. The format will determine how the number and sizes of the samples are interpreted from the data.
If the supplied data is not an integer multiple of the calculated frame size, the excess data will not be used.
This audio buffer will copy the contents of data.
startTime (in microseconds) indicates when this buffer starts in the stream. If this buffer is not part of a stream, set it to -1.
QAudioBuffer::QAudioBuffer(int numFrames, const QAudioFormat &format, qint64 startTime = -1)
Creates a new audio buffer with space for numFrames frames of the given format. The individual samples will be initialized to the default for the format.
startTime (in microseconds) indicates when this buffer starts in the stream. If this buffer is not part of a stream, set it to -1.
[noexcept]
QAudioBuffer::QAudioBuffer(const QAudioBuffer &other)
Creates a new audio buffer from other. Audio buffers are explicitly shared, you should call detach() on the buffer to make a copy that can then be modified.
[noexcept]
QAudioBuffer::QAudioBuffer(QAudioBuffer &&other)
Constructs a QAudioBuffer by moving from other.
[noexcept]
QAudioBuffer::~QAudioBuffer()
Destroys this audio buffer.
[noexcept]
qsizetype QAudioBuffer::byteCount() const
Returns the size of this buffer, in bytes.
template <typename T> const T *QAudioBuffer::constData() const
Returns a pointer to this buffer's data. You can only read it.
This method is preferred over the const version of data() to prevent unnecessary copying.
Note that there is no checking done on the format of the audio buffer - this is simply a convenience function.
// With a 16bit sample buffer: const quint16 *data = buffer->constData<quint16>();
template <typename T> T *QAudioBuffer::data()
Returns a pointer to this buffer's data. You can modify the data through the returned pointer.
Since QAudioBuffer objects are explicitly shared, you should usually call detach() before modifying the data through this function.
Note that there is no checking done on the format of the audio buffer - this is simply a convenience function.
// With a 16bit sample buffer: quint16 *data = buffer->data<quint16>(); // May cause deep copy
template <typename T> const T *QAudioBuffer::data() const
Returns a pointer to this buffer's data. You can only read it.
You should use the constData() function rather than this to prevent accidental deep copying.
Note that there is no checking done on the format of the audio buffer - this is simply a convenience function.
// With a 16bit sample const buffer: const quint16 *data = buffer->data<quint16>();
void QAudioBuffer::detach()
Detaches this audio buffers from other copies that might share data with it.
[noexcept]
qint64 QAudioBuffer::duration() const
Returns the duration of audio in this buffer, in microseconds.
This depends on the format(), and the frameCount().
[noexcept]
QAudioFormat QAudioBuffer::format() const
Returns the format of this buffer.
Several properties of this format influence how the duration() or byteCount() are calculated from the frameCount().
[noexcept]
qsizetype QAudioBuffer::frameCount() const
Returns the number of complete audio frames in this buffer.
An audio frame is an interleaved set of one sample per channel for the same instant in time.
[noexcept]
bool QAudioBuffer::isValid() const
Returns true if this is a valid buffer. A valid buffer has more than zero frames in it and a valid format.
[noexcept]
qsizetype QAudioBuffer::sampleCount() const
Returns the number of samples in this buffer.
If the format of this buffer has multiple channels, then this count includes all channels. This means that a stereo buffer with 1000 samples in total will have 500 left samples and 500 right samples (interleaved), and this function will return 1000.
See also frameCount().
[noexcept]
qint64 QAudioBuffer::startTime() const
Returns the time in a stream that this buffer starts at (in microseconds).
If this buffer is not part of a stream, this will return -1.
[noexcept]
void QAudioBuffer::swap(QAudioBuffer &other)
Swaps the audio buffer with other.
[noexcept]
QAudioBuffer &QAudioBuffer::operator=(QAudioBuffer &&other)
Moves other into this QAudioBuffer.
QAudioBuffer &QAudioBuffer::operator=(const QAudioBuffer &other)
Assigns the other buffer to this.