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RtAudio.h
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/************************************************************************/
/*! \class RtAudio
\brief Realtime audio i/o C++ classes.
RtAudio provides a common API (Application Programming Interface)
for realtime audio input/output across Linux (native ALSA, Jack,
and OSS), Macintosh OS X (CoreAudio and Jack), and Windows
(DirectSound, ASIO and WASAPI) operating systems.
RtAudio GitHub site: https://github.com/thestk/rtaudio
RtAudio WWW site: http://www.music.mcgill.ca/~gary/rtaudio/
RtAudio: realtime audio i/o C++ classes
Copyright (c) 2001-2023 Gary P. Scavone
Permission is hereby granted, free of charge, to any person
obtaining a copy of this software and associated documentation files
(the "Software"), to deal in the Software without restriction,
including without limitation the rights to use, copy, modify, merge,
publish, distribute, sublicense, and/or sell copies of the Software,
and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
Any person wishing to distribute modifications to the Software is
asked to send the modifications to the original developer so that
they can be incorporated into the canonical version. This is,
however, not a binding provision of this license.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/************************************************************************/
/*!
\file RtAudio.h
*/
#ifndef __RTAUDIO_H
#define __RTAUDIO_H
#define RTAUDIO_VERSION_MAJOR 6
#define RTAUDIO_VERSION_MINOR 0
#define RTAUDIO_VERSION_PATCH 1
#define RTAUDIO_VERSION_BETA 0
#define RTAUDIO_TOSTRING2(n) #n
#define RTAUDIO_TOSTRING(n) RTAUDIO_TOSTRING2(n)
#if RTAUDIO_VERSION_BETA > 0
#define RTAUDIO_VERSION RTAUDIO_TOSTRING(RTAUDIO_VERSION_MAJOR) \
"." RTAUDIO_TOSTRING(RTAUDIO_VERSION_MINOR) \
"." RTAUDIO_TOSTRING(RTAUDIO_VERSION_PATCH) \
"beta" RTAUDIO_TOSTRING(RTAUDIO_VERSION_BETA)
#else
#define RTAUDIO_VERSION RTAUDIO_TOSTRING(RTAUDIO_VERSION_MAJOR) \
"." RTAUDIO_TOSTRING(RTAUDIO_VERSION_MINOR) \
"." RTAUDIO_TOSTRING(RTAUDIO_VERSION_PATCH)
#endif
#if defined _WIN32 || defined __CYGWIN__
#if defined(RTAUDIO_EXPORT)
#define RTAUDIO_DLL_PUBLIC __declspec(dllexport)
#else
#define RTAUDIO_DLL_PUBLIC
#endif
#else
#if __GNUC__ >= 4
#define RTAUDIO_DLL_PUBLIC __attribute__( (visibility( "default" )) )
#else
#define RTAUDIO_DLL_PUBLIC
#endif
#endif
#include <string>
#include <vector>
#include <iostream>
#include <functional>
/*! \typedef typedef unsigned long RtAudioFormat;
\brief RtAudio data format type.
Support for signed integers and floats. Audio data fed to/from an
RtAudio stream is assumed to ALWAYS be in host byte order. The
internal routines will automatically take care of any necessary
byte-swapping between the host format and the soundcard. Thus,
endian-ness is not a concern in the following format definitions.
Note that there are no range checks for floating-point values that
extend beyond plus/minus 1.0.
- \e RTAUDIO_SINT8: 8-bit signed integer.
- \e RTAUDIO_SINT16: 16-bit signed integer.
- \e RTAUDIO_SINT24: 24-bit signed integer.
- \e RTAUDIO_SINT32: 32-bit signed integer.
- \e RTAUDIO_FLOAT32: Normalized between plus/minus 1.0.
- \e RTAUDIO_FLOAT64: Normalized between plus/minus 1.0.
*/
typedef unsigned long RtAudioFormat;
static const RtAudioFormat RTAUDIO_SINT8 = 0x1; // 8-bit signed integer.
static const RtAudioFormat RTAUDIO_SINT16 = 0x2; // 16-bit signed integer.
static const RtAudioFormat RTAUDIO_SINT24 = 0x4; // 24-bit signed integer.
static const RtAudioFormat RTAUDIO_SINT32 = 0x8; // 32-bit signed integer.
static const RtAudioFormat RTAUDIO_FLOAT32 = 0x10; // Normalized between plus/minus 1.0.
static const RtAudioFormat RTAUDIO_FLOAT64 = 0x20; // Normalized between plus/minus 1.0.
/*! \typedef typedef unsigned long RtAudioStreamFlags;
\brief RtAudio stream option flags.
The following flags can be OR'ed together to allow a client to
make changes to the default stream behavior:
- \e RTAUDIO_NONINTERLEAVED: Use non-interleaved buffers (default = interleaved).
- \e RTAUDIO_MINIMIZE_LATENCY: Attempt to set stream parameters for lowest possible latency.
- \e RTAUDIO_HOG_DEVICE: Attempt grab device for exclusive use.
- \e RTAUDIO_ALSA_USE_DEFAULT: Use the "default" PCM device (ALSA only).
- \e RTAUDIO_JACK_DONT_CONNECT: Do not automatically connect ports (JACK only).
By default, RtAudio streams pass and receive audio data from the
client in an interleaved format. By passing the
RTAUDIO_NONINTERLEAVED flag to the openStream() function, audio
data will instead be presented in non-interleaved buffers. In
this case, each buffer argument in the RtAudioCallback function
will point to a single array of data, with \c nFrames samples for
each channel concatenated back-to-back. For example, the first
sample of data for the second channel would be located at index \c
nFrames (assuming the \c buffer pointer was recast to the correct
data type for the stream).
Certain audio APIs offer a number of parameters that influence the
I/O latency of a stream. By default, RtAudio will attempt to set
these parameters internally for robust (glitch-free) performance
(though some APIs, like Windows DirectSound, make this difficult).
By passing the RTAUDIO_MINIMIZE_LATENCY flag to the openStream()
function, internal stream settings will be influenced in an attempt
to minimize stream latency, though possibly at the expense of stream
performance.
If the RTAUDIO_HOG_DEVICE flag is set, RtAudio will attempt to
open the input and/or output stream device(s) for exclusive use.
Note that this is not possible with all supported audio APIs.
If the RTAUDIO_SCHEDULE_REALTIME flag is set, RtAudio will attempt
to select realtime scheduling (round-robin) for the callback thread.
If the RTAUDIO_ALSA_USE_DEFAULT flag is set, RtAudio will attempt to
open the "default" PCM device when using the ALSA API. Note that this
will override any specified input or output device id.
If the RTAUDIO_JACK_DONT_CONNECT flag is set, RtAudio will not attempt
to automatically connect the ports of the client to the audio device.
*/
typedef unsigned int RtAudioStreamFlags;
static const RtAudioStreamFlags RTAUDIO_NONINTERLEAVED = 0x1; // Use non-interleaved buffers (default = interleaved).
static const RtAudioStreamFlags RTAUDIO_MINIMIZE_LATENCY = 0x2; // Attempt to set stream parameters for lowest possible latency.
static const RtAudioStreamFlags RTAUDIO_HOG_DEVICE = 0x4; // Attempt grab device and prevent use by others.
static const RtAudioStreamFlags RTAUDIO_SCHEDULE_REALTIME = 0x8; // Try to select realtime scheduling for callback thread.
static const RtAudioStreamFlags RTAUDIO_ALSA_USE_DEFAULT = 0x10; // Use the "default" PCM device (ALSA only).
static const RtAudioStreamFlags RTAUDIO_JACK_DONT_CONNECT = 0x20; // Do not automatically connect ports (JACK only).
/*! \typedef typedef unsigned long RtAudioStreamStatus;
\brief RtAudio stream status (over- or underflow) flags.
Notification of a stream over- or underflow is indicated by a
non-zero stream \c status argument in the RtAudioCallback function.
The stream status can be one of the following two options,
depending on whether the stream is open for output and/or input:
- \e RTAUDIO_INPUT_OVERFLOW: Input data was discarded because of an overflow condition at the driver.
- \e RTAUDIO_OUTPUT_UNDERFLOW: The output buffer ran low, likely producing a break in the output sound.
*/
typedef unsigned int RtAudioStreamStatus;
static const RtAudioStreamStatus RTAUDIO_INPUT_OVERFLOW = 0x1; // Input data was discarded because of an overflow condition at the driver.
static const RtAudioStreamStatus RTAUDIO_OUTPUT_UNDERFLOW = 0x2; // The output buffer ran low, likely causing a gap in the output sound.
//! RtAudio callback function prototype.
/*!
All RtAudio clients must create a function of type RtAudioCallback
to read and/or write data from/to the audio stream. When the
underlying audio system is ready for new input or output data, this
function will be invoked.
\param outputBuffer For output (or duplex) streams, the client
should write \c nFrames of audio sample frames into this
buffer. This argument should be recast to the datatype
specified when the stream was opened. For input-only
streams, this argument will be NULL.
\param inputBuffer For input (or duplex) streams, this buffer will
hold \c nFrames of input audio sample frames. This
argument should be recast to the datatype specified when the
stream was opened. For output-only streams, this argument
will be NULL.
\param nFrames The number of sample frames of input or output
data in the buffers. The actual buffer size in bytes is
dependent on the data type and number of channels in use.
\param streamTime The number of seconds that have elapsed since the
stream was started.
\param status If non-zero, this argument indicates a data overflow
or underflow condition for the stream. The particular
condition can be determined by comparison with the
RtAudioStreamStatus flags.
\param userData A pointer to optional data provided by the client
when opening the stream (default = NULL).
\return
To continue normal stream operation, the RtAudioCallback function
should return a value of zero. To stop the stream and drain the
output buffer, the function should return a value of one. To abort
the stream immediately, the client should return a value of two.
*/
typedef int (*RtAudioCallback)( void *outputBuffer, void *inputBuffer,
unsigned int nFrames,
double streamTime,
RtAudioStreamStatus status,
void *userData );
enum RtAudioErrorType {
RTAUDIO_NO_ERROR = 0, /*!< No error. */
RTAUDIO_WARNING, /*!< A non-critical error. */
RTAUDIO_UNKNOWN_ERROR, /*!< An unspecified error type. */
RTAUDIO_NO_DEVICES_FOUND, /*!< No devices found on system. */
RTAUDIO_INVALID_DEVICE, /*!< An invalid device ID was specified. */
RTAUDIO_DEVICE_DISCONNECT, /*!< A device in use was disconnected. */
RTAUDIO_MEMORY_ERROR, /*!< An error occurred during memory allocation. */
RTAUDIO_INVALID_PARAMETER, /*!< An invalid parameter was specified to a function. */
RTAUDIO_INVALID_USE, /*!< The function was called incorrectly. */
RTAUDIO_DRIVER_ERROR, /*!< A system driver error occurred. */
RTAUDIO_SYSTEM_ERROR, /*!< A system error occurred. */
RTAUDIO_THREAD_ERROR /*!< A thread error occurred. */
};
//! RtAudio error callback function prototype.
/*!
\param type Type of error.
\param errorText Error description.
*/
typedef std::function<void(RtAudioErrorType type,
const std::string &errorText )>
RtAudioErrorCallback;
// **************************************************************** //
//
// RtAudio class declaration.
//
// RtAudio is a "controller" used to select an available audio i/o
// interface. It presents a common API for the user to call but all
// functionality is implemented by the class RtApi and its
// subclasses. RtAudio creates an instance of an RtApi subclass
// based on the user's API choice. If no choice is made, RtAudio
// attempts to make a "logical" API selection.
//
// **************************************************************** //
class RtApi;
class RTAUDIO_DLL_PUBLIC RtAudio
{
public:
//! Audio API specifier arguments.
enum Api {
UNSPECIFIED, /*!< Search for a working compiled API. */
MACOSX_CORE, /*!< Macintosh OS-X Core Audio API. */
LINUX_ALSA, /*!< The Advanced Linux Sound Architecture API. */
UNIX_JACK, /*!< The Jack Low-Latency Audio Server API. */
LINUX_PULSE, /*!< The Linux PulseAudio API. */
LINUX_OSS, /*!< The Linux Open Sound System API. */
WINDOWS_ASIO, /*!< The Steinberg Audio Stream I/O API. */
WINDOWS_WASAPI, /*!< The Microsoft WASAPI API. */
WINDOWS_DS, /*!< The Microsoft DirectSound API. */
RTAUDIO_DUMMY, /*!< A compilable but non-functional API. */
NUM_APIS /*!< Number of values in this enum. */
};
//! The public device information structure for returning queried values.
struct DeviceInfo {
unsigned int ID{}; /*!< Device ID used to specify a device to RtAudio. */
std::string name; /*!< Character string device name. */
unsigned int outputChannels{}; /*!< Maximum output channels supported by device. */
unsigned int inputChannels{}; /*!< Maximum input channels supported by device. */
unsigned int duplexChannels{}; /*!< Maximum simultaneous input/output channels supported by device. */
bool isDefaultOutput{false}; /*!< true if this is the default output device. */
bool isDefaultInput{false}; /*!< true if this is the default input device. */
std::vector<unsigned int> sampleRates; /*!< Supported sample rates (queried from list of standard rates). */
unsigned int currentSampleRate{}; /*!< Current sample rate, system sample rate as currently configured. */
unsigned int preferredSampleRate{}; /*!< Preferred sample rate, e.g. for WASAPI the system sample rate. */
RtAudioFormat nativeFormats{}; /*!< Bit mask of supported data formats. */
};
//! The structure for specifying input or output stream parameters.
struct StreamParameters {
//std::string deviceName{}; /*!< Device name from device list. */
unsigned int deviceId{}; /*!< Device id as provided by getDeviceIds(). */
unsigned int nChannels{}; /*!< Number of channels. */
unsigned int firstChannel{}; /*!< First channel index on device (default = 0). */
};
//! The structure for specifying stream options.
/*!
The following flags can be OR'ed together to allow a client to
make changes to the default stream behavior:
- \e RTAUDIO_NONINTERLEAVED: Use non-interleaved buffers (default = interleaved).
- \e RTAUDIO_MINIMIZE_LATENCY: Attempt to set stream parameters for lowest possible latency.
- \e RTAUDIO_HOG_DEVICE: Attempt grab device for exclusive use.
- \e RTAUDIO_SCHEDULE_REALTIME: Attempt to select realtime scheduling for callback thread.
- \e RTAUDIO_ALSA_USE_DEFAULT: Use the "default" PCM device (ALSA only).
By default, RtAudio streams pass and receive audio data from the
client in an interleaved format. By passing the
RTAUDIO_NONINTERLEAVED flag to the openStream() function, audio
data will instead be presented in non-interleaved buffers. In
this case, each buffer argument in the RtAudioCallback function
will point to a single array of data, with \c nFrames samples for
each channel concatenated back-to-back. For example, the first
sample of data for the second channel would be located at index \c
nFrames (assuming the \c buffer pointer was recast to the correct
data type for the stream).
Certain audio APIs offer a number of parameters that influence the
I/O latency of a stream. By default, RtAudio will attempt to set
these parameters internally for robust (glitch-free) performance
(though some APIs, like Windows DirectSound, make this difficult).
By passing the RTAUDIO_MINIMIZE_LATENCY flag to the openStream()
function, internal stream settings will be influenced in an attempt
to minimize stream latency, though possibly at the expense of stream
performance.
If the RTAUDIO_HOG_DEVICE flag is set, RtAudio will attempt to
open the input and/or output stream device(s) for exclusive use.
Note that this is not possible with all supported audio APIs.
If the RTAUDIO_SCHEDULE_REALTIME flag is set, RtAudio will attempt
to select realtime scheduling (round-robin) for the callback thread.
The \c priority parameter will only be used if the RTAUDIO_SCHEDULE_REALTIME
flag is set. It defines the thread's realtime priority.
If the RTAUDIO_ALSA_USE_DEFAULT flag is set, RtAudio will attempt to
open the "default" PCM device when using the ALSA API. Note that this
will override any specified input or output device id.
The \c numberOfBuffers parameter can be used to control stream
latency in the Windows DirectSound, Linux OSS, and Linux Alsa APIs
only. A value of two is usually the smallest allowed. Larger
numbers can potentially result in more robust stream performance,
though likely at the cost of stream latency. The value set by the
user is replaced during execution of the RtAudio::openStream()
function by the value actually used by the system.
The \c streamName parameter can be used to set the client name
when using the Jack API or the application name when using the
Pulse API. By default, the Jack client name is set to RtApiJack.
However, if you wish to create multiple instances of RtAudio with
Jack, each instance must have a unique client name. The default
Pulse application name is set to "RtAudio."
*/
struct StreamOptions {
RtAudioStreamFlags flags{}; /*!< A bit-mask of stream flags (RTAUDIO_NONINTERLEAVED, RTAUDIO_MINIMIZE_LATENCY, RTAUDIO_HOG_DEVICE, RTAUDIO_ALSA_USE_DEFAULT). */
unsigned int numberOfBuffers{}; /*!< Number of stream buffers. */
std::string streamName; /*!< A stream name (currently used only in Jack). */
int priority{}; /*!< Scheduling priority of callback thread (only used with flag RTAUDIO_SCHEDULE_REALTIME). */
};
//! A static function to determine the current RtAudio version.
static std::string getVersion( void );
//! A static function to determine the available compiled audio APIs.
/*!
The values returned in the std::vector can be compared against
the enumerated list values. Note that there can be more than one
API compiled for certain operating systems.
*/
static void getCompiledApi( std::vector<RtAudio::Api> &apis );
//! Return the name of a specified compiled audio API.
/*!
This obtains a short lower-case name used for identification purposes.
This value is guaranteed to remain identical across library versions.
If the API is unknown, this function will return the empty string.
*/
static std::string getApiName( RtAudio::Api api );
//! Return the display name of a specified compiled audio API.
/*!
This obtains a long name used for display purposes.
If the API is unknown, this function will return the empty string.
*/
static std::string getApiDisplayName( RtAudio::Api api );
//! Return the compiled audio API having the given name.
/*!
A case insensitive comparison will check the specified name
against the list of compiled APIs, and return the one that
matches. On failure, the function returns UNSPECIFIED.
*/
static RtAudio::Api getCompiledApiByName( const std::string &name );
//! Return the compiled audio API having the given display name.
/*!
A case sensitive comparison will check the specified display name
against the list of compiled APIs, and return the one that
matches. On failure, the function returns UNSPECIFIED.
*/
static RtAudio::Api getCompiledApiByDisplayName( const std::string &name );
//! The class constructor.
/*!
The constructor attempts to create an RtApi instance.
If an API argument is specified but that API has not been
compiled, a warning is issued and an instance of an available API
is created. If no compiled API is found, the routine will abort
(though this should be impossible because RtDummy is the default
if no API-specific preprocessor definition is provided to the
compiler). If no API argument is specified and multiple API
support has been compiled, the default order of use is JACK, ALSA,
OSS (Linux systems) and ASIO, DS (Windows systems).
An optional errorCallback function can be specified to
subsequently receive warning and error messages.
*/
RtAudio( RtAudio::Api api=UNSPECIFIED, RtAudioErrorCallback&& errorCallback=0 );
//! The destructor.
/*!
If a stream is running or open, it will be stopped and closed
automatically.
*/
~RtAudio();
//! Returns the audio API specifier for the current instance of RtAudio.
RtAudio::Api getCurrentApi( void );
//! A public function that queries for the number of audio devices available.
/*!
This function performs a system query of available devices each
time it is called, thus supporting devices (dis)connected \e after
instantiation. If a system error occurs during processing, a
warning will be issued.
*/
unsigned int getDeviceCount( void );
//! A public function that returns a vector of audio device IDs.
/*!
The ID values returned by this function are used internally by
RtAudio to identify a given device. The values themselves are
arbitrary and do not correspond to device IDs used by the
underlying API (nor are they index values). This function performs
a system query of available devices each time it is called, thus
supporting devices (dis)connected \e after instantiation. If no
devices are available, the vector size will be zero. If a system
error occurs during processing, a warning will be issued.
*/
std::vector<unsigned int> getDeviceIds( void );
//! A public function that returns a vector of audio device names.
/*!
This function performs a system query of available devices each
time it is called, thus supporting devices (dis)connected \e after
instantiation. If no devices are available, the vector size will
be zero. If a system error occurs during processing, a warning
will be issued.
*/
std::vector<std::string> getDeviceNames( void );
//! Return an RtAudio::DeviceInfo structure for a specified device ID.
/*!
Any device ID returned by getDeviceIds() is valid, unless it has
been removed between the call to getDevceIds() and this
function. If an invalid argument is provided, an
RTAUDIO_INVALID_USE will be passed to the user-provided
errorCallback function (or otherwise printed to stderr) and all
members of the returned RtAudio::DeviceInfo structure will be
initialized to default, invalid values (ID = 0, empty name, ...).
If the specified device is the current default input or output
device, the corresponding "isDefault" member will have a value of
"true".
*/
RtAudio::DeviceInfo getDeviceInfo( unsigned int deviceId );
//! A function that returns the ID of the default output device.
/*!
If the underlying audio API does not provide a "default device",
the first probed output device ID will be returned. If no devices
are available, the return value will be 0 (which is an invalid
device identifier).
*/
unsigned int getDefaultOutputDevice( void );
//! A function that returns the ID of the default input device.
/*!
If the underlying audio API does not provide a "default device",
the first probed input device ID will be returned. If no devices
are available, the return value will be 0 (which is an invalid
device identifier).
*/
unsigned int getDefaultInputDevice( void );
//! A public function for opening a stream with the specified parameters.
/*!
An RTAUDIO_SYSTEM_ERROR is returned if a stream cannot be
opened with the specified parameters or an error occurs during
processing. An RTAUDIO_INVALID_USE is returned if a stream
is already open or any invalid stream parameters are specified.
\param outputParameters Specifies output stream parameters to use
when opening a stream, including a device ID, number of channels,
and starting channel number. For input-only streams, this
argument should be NULL. The device ID is a value returned by
getDeviceIds().
\param inputParameters Specifies input stream parameters to use
when opening a stream, including a device ID, number of channels,
and starting channel number. For output-only streams, this
argument should be NULL. The device ID is a value returned by
getDeviceIds().
\param format An RtAudioFormat specifying the desired sample data format.
\param sampleRate The desired sample rate (sample frames per second).
\param bufferFrames A pointer to a value indicating the desired
internal buffer size in sample frames. The actual value
used by the device is returned via the same pointer. A
value of zero can be specified, in which case the lowest
allowable value is determined.
\param callback A client-defined function that will be invoked
when input data is available and/or output data is needed.
\param userData An optional pointer to data that can be accessed
from within the callback function.
\param options An optional pointer to a structure containing various
global stream options, including a list of OR'ed RtAudioStreamFlags
and a suggested number of stream buffers that can be used to
control stream latency. More buffers typically result in more
robust performance, though at a cost of greater latency. If a
value of zero is specified, a system-specific median value is
chosen. If the RTAUDIO_MINIMIZE_LATENCY flag bit is set, the
lowest allowable value is used. The actual value used is
returned via the structure argument. The parameter is API dependent.
*/
RtAudioErrorType openStream( RtAudio::StreamParameters *outputParameters,
RtAudio::StreamParameters *inputParameters,
RtAudioFormat format, unsigned int sampleRate,
unsigned int *bufferFrames, RtAudioCallback callback,
void *userData = NULL, RtAudio::StreamOptions *options = NULL );
//! A function that closes a stream and frees any associated stream memory.
/*!
If a stream is not open, an RTAUDIO_WARNING will be passed to the
user-provided errorCallback function (or otherwise printed to
stderr).
*/
void closeStream( void );
//! A function that starts a stream.
/*!
An RTAUDIO_SYSTEM_ERROR is returned if an error occurs during
processing. An RTAUDIO_WARNING is returned if a stream is not open
or is already running.
*/
RtAudioErrorType startStream( void );
//! Stop a stream, allowing any samples remaining in the output queue to be played.
/*!
An RTAUDIO_SYSTEM_ERROR is returned if an error occurs during
processing. An RTAUDIO_WARNING is returned if a stream is not
open or is already stopped.
*/
RtAudioErrorType stopStream( void );
//! Stop a stream, discarding any samples remaining in the input/output queue.
/*!
An RTAUDIO_SYSTEM_ERROR is returned if an error occurs during
processing. An RTAUDIO_WARNING is returned if a stream is not
open or is already stopped.
*/
RtAudioErrorType abortStream( void );
//! Retrieve the error message corresponding to the last error or warning condition.
/*!
This function can be used to get a detailed error message when a
non-zero RtAudioErrorType is returned by a function. This is the
same message sent to the user-provided errorCallback function.
*/
const std::string getErrorText( void );
//! Returns true if a stream is open and false if not.
bool isStreamOpen( void ) const;
//! Returns true if the stream is running and false if it is stopped or not open.
bool isStreamRunning( void ) const;
//! Returns the number of seconds of processed data since the stream was started.
/*!
The stream time is calculated from the number of sample frames
processed by the underlying audio system, which will increment by
units of the audio buffer size. It is not an absolute running
time. If a stream is not open, the returned value may not be
valid.
*/
double getStreamTime( void );
//! Set the stream time to a time in seconds greater than or equal to 0.0.
void setStreamTime( double time );
//! Returns the internal stream latency in sample frames.
/*!
The stream latency refers to delay in audio input and/or output
caused by internal buffering by the audio system and/or hardware.
For duplex streams, the returned value will represent the sum of
the input and output latencies. If a stream is not open, the
returned value will be invalid. If the API does not report
latency, the return value will be zero.
*/
long getStreamLatency( void );
//! Returns actual sample rate in use by the (open) stream.
/*!
On some systems, the sample rate used may be slightly different
than that specified in the stream parameters. If a stream is not
open, a value of zero is returned.
*/
unsigned int getStreamSampleRate( void );
//! Set a client-defined function that will be invoked when an error or warning occurs.
void setErrorCallback( RtAudioErrorCallback errorCallback );
//! Specify whether warning messages should be output or not.
/*!
The default behaviour is for warning messages to be output,
either to a client-defined error callback function (if specified)
or to stderr.
*/
void showWarnings( bool value = true );
protected:
void openRtApi( RtAudio::Api api );
RtApi *rtapi_;
};
// Operating system dependent thread functionality.
#if defined(_MSC_VER)
#ifndef NOMINMAX
#define NOMINMAX
#endif
#include <windows.h>
#include <process.h>
#include <stdint.h>
typedef uintptr_t ThreadHandle;
typedef CRITICAL_SECTION StreamMutex;
#else
// Using pthread library for various flavors of unix.
#include <pthread.h>
typedef pthread_t ThreadHandle;
typedef pthread_mutex_t StreamMutex;
#endif
// Setup for "dummy" behavior if no apis specified.
#if !(defined(__WINDOWS_DS__) || defined(__WINDOWS_ASIO__) || defined(__WINDOWS_WASAPI__) \
|| defined(__LINUX_ALSA__) || defined(__LINUX_PULSE__) || defined(__UNIX_JACK__) \
|| defined(__LINUX_OSS__) || defined(__MACOSX_CORE__))
#define __RTAUDIO_DUMMY__
#endif
// This global structure type is used to pass callback information
// between the private RtAudio stream structure and global callback
// handling functions.
struct CallbackInfo {
void *object{}; // Used as a "this" pointer.
ThreadHandle thread{};
void *callback{};
void *userData{};
void *apiInfo{}; // void pointer for API specific callback information
bool isRunning{false};
bool doRealtime{false};
int priority{};
bool deviceDisconnected{false};
};
// **************************************************************** //
//
// RtApi class declaration.
//
// Subclasses of RtApi contain all API- and OS-specific code necessary
// to fully implement the RtAudio API.
//
// Note that RtApi is an abstract base class and cannot be
// explicitly instantiated. The class RtAudio will create an
// instance of an RtApi subclass (RtApiOss, RtApiAlsa,
// RtApiJack, RtApiCore, RtApiDs, or RtApiAsio).
//
// **************************************************************** //
#pragma pack(push, 1)
class S24 {
protected:
unsigned char c3[3];
public:
S24() {}
S24& operator = ( const int& i ) {
c3[0] = (unsigned char)(i & 0x000000ff);
c3[1] = (unsigned char)((i & 0x0000ff00) >> 8);
c3[2] = (unsigned char)((i & 0x00ff0000) >> 16);
return *this;
}
S24( const double& d ) { *this = (int) d; }
S24( const float& f ) { *this = (int) f; }
S24( const signed short& s ) { *this = (int) s; }
S24( const char& c ) { *this = (int) c; }
int asInt() {
int i = c3[0] | (c3[1] << 8) | (c3[2] << 16);
if (i & 0x800000) i |= ~0xffffff;
return i;
}
};
#pragma pack(pop)
#if defined( HAVE_GETTIMEOFDAY )
#include <sys/time.h>
#endif
#include <sstream>
class RTAUDIO_DLL_PUBLIC RtApi
{
public:
RtApi();
virtual ~RtApi();
virtual RtAudio::Api getCurrentApi( void ) = 0;
unsigned int getDeviceCount( void );
std::vector<unsigned int> getDeviceIds( void );
std::vector<std::string> getDeviceNames( void );
RtAudio::DeviceInfo getDeviceInfo( unsigned int deviceId );
virtual unsigned int getDefaultInputDevice( void );
virtual unsigned int getDefaultOutputDevice( void );
RtAudioErrorType openStream( RtAudio::StreamParameters *outputParameters,
RtAudio::StreamParameters *inputParameters,
RtAudioFormat format, unsigned int sampleRate,
unsigned int *bufferFrames, RtAudioCallback callback,
void *userData, RtAudio::StreamOptions *options );
virtual void closeStream( void );
virtual RtAudioErrorType startStream( void ) = 0;
virtual RtAudioErrorType stopStream( void ) = 0;
virtual RtAudioErrorType abortStream( void ) = 0;
const std::string getErrorText( void ) const { return errorText_; }
long getStreamLatency( void );
unsigned int getStreamSampleRate( void );
virtual double getStreamTime( void ) const { return stream_.streamTime; }
virtual void setStreamTime( double time );
bool isStreamOpen( void ) const { return stream_.state != STREAM_CLOSED; }
bool isStreamRunning( void ) const { return stream_.state == STREAM_RUNNING; }
void setErrorCallback( RtAudioErrorCallback errorCallback ) { errorCallback_ = errorCallback; }
void showWarnings( bool value ) { showWarnings_ = value; }
protected:
static const unsigned int MAX_SAMPLE_RATES;
static const unsigned int SAMPLE_RATES[];
enum { FAILURE, SUCCESS };
enum StreamState {
STREAM_STOPPED,
STREAM_STOPPING,
STREAM_RUNNING,
STREAM_CLOSED = -50
};
enum StreamMode {
OUTPUT,
INPUT,
DUPLEX,
UNINITIALIZED = -75
};
// A protected structure used for buffer conversion.
struct ConvertInfo {
int channels;
int inJump, outJump;
RtAudioFormat inFormat, outFormat;
std::vector<int> inOffset;
std::vector<int> outOffset;
};
// A protected structure for audio streams.
struct RtApiStream {
unsigned int deviceId[2]; // Playback and record, respectively.
void *apiHandle; // void pointer for API specific stream handle information
StreamMode mode; // OUTPUT, INPUT, or DUPLEX.
StreamState state; // STOPPED, RUNNING, or CLOSED
char *userBuffer[2]; // Playback and record, respectively.
char *deviceBuffer;
bool doConvertBuffer[2]; // Playback and record, respectively.
bool userInterleaved;
bool deviceInterleaved[2]; // Playback and record, respectively.
bool doByteSwap[2]; // Playback and record, respectively.
unsigned int sampleRate;
unsigned int bufferSize;
unsigned int nBuffers;
unsigned int nUserChannels[2]; // Playback and record, respectively.
unsigned int nDeviceChannels[2]; // Playback and record channels, respectively.
unsigned int channelOffset[2]; // Playback and record, respectively.
unsigned long latency[2]; // Playback and record, respectively.
RtAudioFormat userFormat;
RtAudioFormat deviceFormat[2]; // Playback and record, respectively.
StreamMutex mutex;
CallbackInfo callbackInfo;
ConvertInfo convertInfo[2];
double streamTime; // Number of elapsed seconds since the stream started.
#if defined(HAVE_GETTIMEOFDAY)
struct timeval lastTickTimestamp;
#endif
RtApiStream()
:apiHandle(0), deviceBuffer(0) {} // { device[0] = std::string(); device[1] = std::string(); }
};
typedef S24 Int24;
typedef signed short Int16;
typedef signed int Int32;
typedef float Float32;
typedef double Float64;
std::ostringstream errorStream_;
std::string errorText_;
RtAudioErrorCallback errorCallback_;
bool showWarnings_;
std::vector<RtAudio::DeviceInfo> deviceList_;
unsigned int currentDeviceId_;
RtApiStream stream_;
/*!
Protected, api-specific method that attempts to probe all device
capabilities in a system. The function will not re-probe devices
that were previously found and probed. This function MUST be
implemented by all subclasses. If an error is encountered during
the probe, a "warning" message may be reported and the internal
list of devices may be incomplete.
*/
virtual void probeDevices( void );
/*!
Protected, api-specific method that attempts to open a device
with the given parameters. This function MUST be implemented by
all subclasses. If an error is encountered during the probe, a
"warning" message is reported and FAILURE is returned. A
successful probe is indicated by a return value of SUCCESS.
*/
virtual bool probeDeviceOpen( unsigned int deviceId, StreamMode mode, unsigned int channels,
unsigned int firstChannel, unsigned int sampleRate,
RtAudioFormat format, unsigned int *bufferSize,
RtAudio::StreamOptions *options );
//! A protected function used to increment the stream time.
void tickStreamTime( void );
//! Protected common method to clear an RtApiStream structure.
void clearStreamInfo();
//! Protected common error method to allow global control over error handling.
RtAudioErrorType error( RtAudioErrorType type );
/*!
Protected method used to perform format, channel number, and/or interleaving
conversions between the user and device buffers.
*/
void convertBuffer( char *outBuffer, char *inBuffer, ConvertInfo &info );
//! Protected common method used to perform byte-swapping on buffers.
void byteSwapBuffer( char *buffer, unsigned int samples, RtAudioFormat format );
//! Protected common method that returns the number of bytes for a given format.
unsigned int formatBytes( RtAudioFormat format );
//! Protected common method that sets up the parameters for buffer conversion.
void setConvertInfo( StreamMode mode, unsigned int firstChannel );
};
// **************************************************************** //
//
// Inline RtAudio definitions.
//
// **************************************************************** //
inline RtAudio::Api RtAudio :: getCurrentApi( void ) { return rtapi_->getCurrentApi(); }
inline unsigned int RtAudio :: getDeviceCount( void ) { return rtapi_->getDeviceCount(); }
inline RtAudio::DeviceInfo RtAudio :: getDeviceInfo( unsigned int deviceId ) { return rtapi_->getDeviceInfo( deviceId ); }
inline std::vector<unsigned int> RtAudio :: getDeviceIds( void ) { return rtapi_->getDeviceIds(); }
inline std::vector<std::string> RtAudio :: getDeviceNames( void ) { return rtapi_->getDeviceNames(); }
inline unsigned int RtAudio :: getDefaultInputDevice( void ) { return rtapi_->getDefaultInputDevice(); }
inline unsigned int RtAudio :: getDefaultOutputDevice( void ) { return rtapi_->getDefaultOutputDevice(); }
inline void RtAudio :: closeStream( void ) { return rtapi_->closeStream(); }
inline RtAudioErrorType RtAudio :: startStream( void ) { return rtapi_->startStream(); }
inline RtAudioErrorType RtAudio :: stopStream( void ) { return rtapi_->stopStream(); }
inline RtAudioErrorType RtAudio :: abortStream( void ) { return rtapi_->abortStream(); }
inline const std::string RtAudio :: getErrorText( void ) { return rtapi_->getErrorText(); }
inline bool RtAudio :: isStreamOpen( void ) const { return rtapi_->isStreamOpen(); }
inline bool RtAudio :: isStreamRunning( void ) const { return rtapi_->isStreamRunning(); }
inline long RtAudio :: getStreamLatency( void ) { return rtapi_->getStreamLatency(); }
inline unsigned int RtAudio :: getStreamSampleRate( void ) { return rtapi_->getStreamSampleRate(); }
inline double RtAudio :: getStreamTime( void ) { return rtapi_->getStreamTime(); }
inline void RtAudio :: setStreamTime( double time ) { return rtapi_->setStreamTime( time ); }
inline void RtAudio :: setErrorCallback( RtAudioErrorCallback errorCallback ) { rtapi_->setErrorCallback( errorCallback ); }
inline void RtAudio :: showWarnings( bool value ) { rtapi_->showWarnings( value ); }
#endif
// Indentation settings for Vim and Emacs
//
// Local Variables:
// c-basic-offset: 2
// indent-tabs-mode: nil
// End:
//
// vim: et sts=2 sw=2