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#ifndef PA_WIN_WASAPI_H
#define PA_WIN_WASAPI_H
/*
* $Id: $
* PortAudio Portable Real-Time Audio Library
* WASAPI specific extensions
*
* Copyright (c) 1999-2018 Ross Bencina and Phil Burk
* Copyright (c) 2006-2010 David Viens
* Copyright (c) 2010-2018 Dmitry Kostjuchenko
*
* 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.
*
* 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.
*/
/*
* The text above constitutes the entire PortAudio license; however,
* the PortAudio community also makes the following non-binding requests:
*
* Any person wishing to distribute modifications to the Software is
* requested to send the modifications to the original developer so that
* they can be incorporated into the canonical version. It is also
* requested that these non-binding requests be included along with the
* license above.
*/
/** @file
@ingroup public_header
@brief WASAPI-specific PortAudio API extension header file.
*/
#include "portaudio.h"
#include "pa_win_waveformat.h"
#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */
/* Stream setup flags. */
typedef enum PaWasapiFlags
{
/* put WASAPI into exclusive mode */
paWinWasapiExclusive = (1 << 0),
/* allow to skip internal PA processing completely */
paWinWasapiRedirectHostProcessor = (1 << 1),
/* assign custom channel mask */
paWinWasapiUseChannelMask = (1 << 2),
/* select non-Event driven method of data read/write
Note: WASAPI Event driven core is capable of 2ms latency!!!, but Polling
method can only provide 15-20ms latency. */
paWinWasapiPolling = (1 << 3),
/* force custom thread priority setting, must be used if PaWasapiStreamInfo::threadPriority
is set to a custom value */
paWinWasapiThreadPriority = (1 << 4),
/* force explicit sample format and do not allow PA to select suitable working format, API will
fail if provided sample format is not supported by audio hardware in Exclusive mode
or system mixer in Shared mode */
paWinWasapiExplicitSampleFormat = (1 << 5),
/* allow API to insert system-level channel matrix mixer and sample rate converter to allow
playback formats that do not match the current configured system settings.
this is in particular required for streams not matching the system mixer sample rate.
only applies in Shared mode. */
paWinWasapiAutoConvert = (1 << 6)
}
PaWasapiFlags;
#define paWinWasapiExclusive (paWinWasapiExclusive)
#define paWinWasapiRedirectHostProcessor (paWinWasapiRedirectHostProcessor)
#define paWinWasapiUseChannelMask (paWinWasapiUseChannelMask)
#define paWinWasapiPolling (paWinWasapiPolling)
#define paWinWasapiThreadPriority (paWinWasapiThreadPriority)
#define paWinWasapiExplicitSampleFormat (paWinWasapiExplicitSampleFormat)
#define paWinWasapiAutoConvert (paWinWasapiAutoConvert)
/* Stream state.
@note Multiple states can be united into a bitmask.
@see PaWasapiStreamStateCallback, PaWasapi_SetStreamStateHandler
*/
typedef enum PaWasapiStreamState
{
/* state change was caused by the error:
Example:
1) If thread execution stopped due to AUDCLNT_E_RESOURCES_INVALIDATED then state
value will contain paWasapiStreamStateError|paWasapiStreamStateThreadStop.
*/
paWasapiStreamStateError = (1 << 0),
/* processing thread is preparing to start execution */
paWasapiStreamStateThreadPrepare = (1 << 1),
/* processing thread started execution (enters its loop) */
paWasapiStreamStateThreadStart = (1 << 2),
/* processing thread stopped execution */
paWasapiStreamStateThreadStop = (1 << 3)
}
PaWasapiStreamState;
#define paWasapiStreamStateError (paWasapiStreamStateError)
#define paWasapiStreamStateThreadPrepare (paWasapiStreamStateThreadPrepare)
#define paWasapiStreamStateThreadStart (paWasapiStreamStateThreadStart)
#define paWasapiStreamStateThreadStop (paWasapiStreamStateThreadStop)
/* Host processor.
Allows to skip internal PA processing completely. paWinWasapiRedirectHostProcessor flag
must be set to the PaWasapiStreamInfo::flags member in order to have host processor
redirected to this callback.
Use with caution! inputFrames and outputFrames depend solely on final device setup.
To query max values of inputFrames/outputFrames use PaWasapi_GetFramesPerHostBuffer.
*/
typedef void (*PaWasapiHostProcessorCallback) (void *inputBuffer, long inputFrames,
void *outputBuffer, long outputFrames, void *userData);
/* Stream state handler.
@param pStream Pointer to PaStream object.
@param stateFlags State flags, a collection of values from PaWasapiStreamState enum.
@param errorId Error id provided by system API (HRESULT).
@param userData Pointer to user data.
@see PaWasapiStreamState
*/
typedef void (*PaWasapiStreamStateCallback) (PaStream *pStream, unsigned int stateFlags,
unsigned int errorId, void *pUserData);
/* Device role. */
typedef enum PaWasapiDeviceRole
{
eRoleRemoteNetworkDevice = 0,
eRoleSpeakers,
eRoleLineLevel,
eRoleHeadphones,
eRoleMicrophone,
eRoleHeadset,
eRoleHandset,
eRoleUnknownDigitalPassthrough,
eRoleSPDIF,
eRoleHDMI,
eRoleUnknownFormFactor
}
PaWasapiDeviceRole;
/* Jack connection type. */
typedef enum PaWasapiJackConnectionType
{
eJackConnTypeUnknown,
eJackConnType3Point5mm,
eJackConnTypeQuarter,
eJackConnTypeAtapiInternal,
eJackConnTypeRCA,
eJackConnTypeOptical,
eJackConnTypeOtherDigital,
eJackConnTypeOtherAnalog,
eJackConnTypeMultichannelAnalogDIN,
eJackConnTypeXlrProfessional,
eJackConnTypeRJ11Modem,
eJackConnTypeCombination
}
PaWasapiJackConnectionType;
/* Jack geometric location. */
typedef enum PaWasapiJackGeoLocation
{
eJackGeoLocUnk = 0,
eJackGeoLocRear = 0x1, /* matches EPcxGeoLocation::eGeoLocRear */
eJackGeoLocFront,
eJackGeoLocLeft,
eJackGeoLocRight,
eJackGeoLocTop,
eJackGeoLocBottom,
eJackGeoLocRearPanel,
eJackGeoLocRiser,
eJackGeoLocInsideMobileLid,
eJackGeoLocDrivebay,
eJackGeoLocHDMI,
eJackGeoLocOutsideMobileLid,
eJackGeoLocATAPI,
eJackGeoLocReserved5,
eJackGeoLocReserved6,
}
PaWasapiJackGeoLocation;
/* Jack general location. */
typedef enum PaWasapiJackGenLocation
{
eJackGenLocPrimaryBox = 0,
eJackGenLocInternal,
eJackGenLocSeparate,
eJackGenLocOther
}
PaWasapiJackGenLocation;
/* Jack's type of port. */
typedef enum PaWasapiJackPortConnection
{
eJackPortConnJack = 0,
eJackPortConnIntegratedDevice,
eJackPortConnBothIntegratedAndJack,
eJackPortConnUnknown
}
PaWasapiJackPortConnection;
/* Thread priority. */
typedef enum PaWasapiThreadPriority
{
eThreadPriorityNone = 0,
eThreadPriorityAudio, //!< Default for Shared mode.
eThreadPriorityCapture,
eThreadPriorityDistribution,
eThreadPriorityGames,
eThreadPriorityPlayback,
eThreadPriorityProAudio, //!< Default for Exclusive mode.
eThreadPriorityWindowManager
}
PaWasapiThreadPriority;
/* Stream descriptor. */
typedef struct PaWasapiJackDescription
{
unsigned long channelMapping;
unsigned long color; /* derived from macro: #define RGB(r,g,b) ((COLORREF)(((BYTE)(r)|((WORD)((BYTE)(g))<<8))|(((DWORD)(BYTE)(b))<<16))) */
PaWasapiJackConnectionType connectionType;
PaWasapiJackGeoLocation geoLocation;
PaWasapiJackGenLocation genLocation;
PaWasapiJackPortConnection portConnection;
unsigned int isConnected;
}
PaWasapiJackDescription;
/** Stream category.
Note:
- values are equal to WASAPI AUDIO_STREAM_CATEGORY enum
- supported since Windows 8.0, noop on earlier versions
- values 1,2 are deprecated on Windows 10 and not included into enumeration
@version Available as of 19.6.0
*/
typedef enum PaWasapiStreamCategory
{
eAudioCategoryOther = 0,
eAudioCategoryCommunications = 3,
eAudioCategoryAlerts = 4,
eAudioCategorySoundEffects = 5,
eAudioCategoryGameEffects = 6,
eAudioCategoryGameMedia = 7,
eAudioCategoryGameChat = 8,
eAudioCategorySpeech = 9,
eAudioCategoryMovie = 10,
eAudioCategoryMedia = 11
}
PaWasapiStreamCategory;
/** Stream option.
Note:
- values are equal to WASAPI AUDCLNT_STREAMOPTIONS enum
- supported since Windows 8.1, noop on earlier versions
@version Available as of 19.6.0
*/
typedef enum PaWasapiStreamOption
{
eStreamOptionNone = 0, //!< default
eStreamOptionRaw = 1, //!< bypass WASAPI Audio Engine DSP effects, supported since Windows 8.1
eStreamOptionMatchFormat = 2 //!< force WASAPI Audio Engine into a stream format, supported since Windows 10
}
PaWasapiStreamOption;
/* Stream descriptor. */
typedef struct PaWasapiStreamInfo
{
unsigned long size; /**< sizeof(PaWasapiStreamInfo) */
PaHostApiTypeId hostApiType; /**< paWASAPI */
unsigned long version; /**< 1 */
unsigned long flags; /**< collection of PaWasapiFlags */
/** Support for WAVEFORMATEXTENSIBLE channel masks. If flags contains
paWinWasapiUseChannelMask this allows you to specify which speakers
to address in a multichannel stream. Constants for channelMask
are specified in pa_win_waveformat.h. Will be used only if
paWinWasapiUseChannelMask flag is specified.
*/
PaWinWaveFormatChannelMask channelMask;
/** Delivers raw data to callback obtained from GetBuffer() methods skipping
internal PortAudio processing inventory completely. userData parameter will
be the same that was passed to Pa_OpenStream method. Will be used only if
paWinWasapiRedirectHostProcessor flag is specified.
*/
PaWasapiHostProcessorCallback hostProcessorOutput;
PaWasapiHostProcessorCallback hostProcessorInput;
/** Specifies thread priority explicitly. Will be used only if paWinWasapiThreadPriority flag
is specified.
Please note, if Input/Output streams are opened simultaneously (Full-Duplex mode)
you shall specify same value for threadPriority or othervise one of the values will be used
to setup thread priority.
*/
PaWasapiThreadPriority threadPriority;
/** Stream category.
@see PaWasapiStreamCategory
@version Available as of 19.6.0
*/
PaWasapiStreamCategory streamCategory;
/** Stream option.
@see PaWasapiStreamOption
@version Available as of 19.6.0
*/
PaWasapiStreamOption streamOption;
}
PaWasapiStreamInfo;
/** Returns pointer to WASAPI's IAudioClient object of the stream.
@param pStream Pointer to PaStream object.
@param pAudioClient Pointer to pointer of IAudioClient.
@param bOutput TRUE (1) for output stream, FALSE (0) for input stream.
@return Error code indicating success or failure.
*/
PaError PaWasapi_GetAudioClient( PaStream *pStream, void **pAudioClient, int bOutput );
/** Update device list.
This function is available if PA_WASAPI_MAX_CONST_DEVICE_COUNT is defined during compile time
with maximum constant WASAPI device count (recommended value - 32).
If PA_WASAPI_MAX_CONST_DEVICE_COUNT is set to 0 (or not defined) during compile time the implementation
will not define PaWasapi_UpdateDeviceList() and thus updating device list can only be possible by calling
Pa_Terminate() and then Pa_Initialize().
@return Error code indicating success or failure.
*/
PaError PaWasapi_UpdateDeviceList();
/** Get current audio format of the device assigned to the opened stream.
Format is represented by PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure.
Use this function to reconfirm format if PA's processor is overridden and
paWinWasapiRedirectHostProcessor flag is specified.
@param pStream Pointer to PaStream object.
@param pFormat Pointer to PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure.
@param formatSize Size of PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure in bytes.
@param bOutput TRUE (1) for output stream, FALSE (0) for input stream.
@return Non-negative value indicating the number of bytes copied into format descriptor
or, a PaErrorCode (which is always negative) if PortAudio is not initialized
or an error is encountered.
*/
int PaWasapi_GetDeviceCurrentFormat( PaStream *pStream, void *pFormat, unsigned int formatSize, int bOutput );
/** Get default audio format for the device in Shared Mode.
Format is represented by PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure and obtained
by getting the device property with a PKEY_AudioEngine_DeviceFormat key.
@param pFormat Pointer to PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure.
@param formatSize Size of PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure in bytes.
@param device Device index.
@return Non-negative value indicating the number of bytes copied into format descriptor
or, a PaErrorCode (which is always negative) if PortAudio is not initialized
or an error is encountered.
*/
int PaWasapi_GetDeviceDefaultFormat( void *pFormat, unsigned int formatSize, PaDeviceIndex device );
/** Get mix audio format for the device in Shared Mode.
Format is represented by PaWinWaveFormat or WAVEFORMATEXTENSIBLE structureand obtained by
IAudioClient::GetMixFormat.
@param pFormat Pointer to PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure.
@param formatSize Size of PaWinWaveFormat or WAVEFORMATEXTENSIBLE structure in bytes.
@param device Device index.
@return Non-negative value indicating the number of bytes copied into format descriptor
or, a PaErrorCode (which is always negative) if PortAudio is not initialized
or an error is encountered.
*/
int PaWasapi_GetDeviceMixFormat( void *pFormat, unsigned int formatSize, PaDeviceIndex device );
/** Get device role (PaWasapiDeviceRole enum).
@param device Device index.
@return Non-negative value indicating device role or, a PaErrorCode (which is always negative)
if PortAudio is not initialized or an error is encountered.
*/
int/*PaWasapiDeviceRole*/ PaWasapi_GetDeviceRole( PaDeviceIndex device );
/** Get device IMMDevice pointer.
@param device Device index.
@param pAudioClient Pointer to pointer of IMMDevice.
@return Error code indicating success or failure.
*/
PaError PaWasapi_GetIMMDevice( PaDeviceIndex device, void **pIMMDevice );
/** Get device loopback state:
0 - Not loopback,
1 - Loopback,
negative - PaErrorCode.
@param device Device index.
@return Non-negative value indicating loopback state or, a PaErrorCode (which is always negative)
if PortAudio is not initialized or an error is encountered.
*/
int PaWasapi_IsLoopback( PaDeviceIndex device );
/** Boost thread priority of calling thread (MMCSS).
Use it for Blocking Interface only inside the thread which makes calls to Pa_WriteStream/Pa_ReadStream.
@param pTask Handle to pointer to priority task. Must be used with PaWasapi_RevertThreadPriority
method to revert thread priority to initial state.
@param priorityClass Id of thread priority of PaWasapiThreadPriority type. Specifying
eThreadPriorityNone does nothing.
@return Error code indicating success or failure.
@see PaWasapi_RevertThreadPriority
*/
PaError PaWasapi_ThreadPriorityBoost( void **pTask, PaWasapiThreadPriority priorityClass );
/** Boost thread priority of calling thread (MMCSS).
Use it for Blocking Interface only inside the thread which makes calls to Pa_WriteStream/Pa_ReadStream.
@param pTask Task handle obtained by PaWasapi_BoostThreadPriority method.
@return Error code indicating success or failure.
@see PaWasapi_BoostThreadPriority
*/
PaError PaWasapi_ThreadPriorityRevert( void *pTask );
/** Get number of frames per host buffer.
It is max value of frames of WASAPI buffer which can be locked for operations.
Use this method as helper to find out max values of inputFrames/outputFrames
of PaWasapiHostProcessorCallback.
@param pStream Pointer to PaStream object.
@param pInput Pointer to variable to receive number of input frames. Can be NULL.
@param pOutput Pointer to variable to receive number of output frames. Can be NULL.
@return Error code indicating success or failure.
@see PaWasapiHostProcessorCallback
*/
PaError PaWasapi_GetFramesPerHostBuffer( PaStream *pStream, unsigned int *pInput, unsigned int *pOutput );
/** Get number of jacks associated with a WASAPI device.
Use this method to determine if there are any jacks associated with the provided WASAPI device.
Not all audio devices will support this capability. This is valid for both input and output devices.
@note Not available on UWP platform.
@param device Device index.
@param pJackCount Pointer to variable to receive number of jacks.
@return Error code indicating success or failure.
@see PaWasapi_GetJackDescription
*/
PaError PaWasapi_GetJackCount( PaDeviceIndex device, int *pJackCount );
/** Get the jack description associated with a WASAPI device and jack number.
Before this function is called, use PaWasapi_GetJackCount to determine the
number of jacks associated with device. If jcount is greater than zero, then
each jack from 0 to jcount can be queried with this function to get the jack
description.
@note Not available on UWP platform.
@param device Device index.
@param jackIndex Jack index.
@param pJackDescription Pointer to PaWasapiJackDescription.
@return Error code indicating success or failure.
@see PaWasapi_GetJackCount
*/
PaError PaWasapi_GetJackDescription( PaDeviceIndex device, int jackIndex, PaWasapiJackDescription *pJackDescription );
/** Set stream state handler.
@param pStream Pointer to PaStream object.
@param fnStateHandler Pointer to state handling function.
@param pUserData Pointer to user data.
@return Error code indicating success or failure.
*/
PaError PaWasapi_SetStreamStateHandler( PaStream *pStream, PaWasapiStreamStateCallback fnStateHandler, void *pUserData );
/** Set default device Id.
By default implementation will use the DEVINTERFACE_AUDIO_RENDER and
DEVINTERFACE_AUDIO_CAPTURE Ids if device Id is not provided explicitly. These default Ids
will not allow to use Exclusive mode on UWP/WinRT platform and thus you must provide
device Id explicitly via this API before calling the Pa_OpenStream().
Device Ids on UWP platform are obtainable via:
Windows::Media::Devices::MediaDevice::GetDefaultAudioRenderId() or
Windows::Media::Devices::MediaDevice::GetDefaultAudioCaptureId() API.
After the call completes, memory referenced by pointers can be freed, as implementation keeps its own copy.
Call this function before calling Pa_IsFormatSupported() when Exclusive mode is requested.
See an example in the IMPORTANT notes.
@note UWP/WinRT platform only.
@param pId Device Id, pointer to the 16-bit Unicode string (WCHAR). If NULL then device Id
will be reset to the default, e.g. DEVINTERFACE_AUDIO_RENDER or DEVINTERFACE_AUDIO_CAPTURE.
@param bOutput TRUE (1) for output (render), FALSE (0) for input (capture).
@return Error code indicating success or failure. Will return paIncompatibleStreamHostApi if library is not compiled
for UWP/WinRT platform. If Id is longer than PA_WASAPI_DEVICE_ID_LEN characters paBufferTooBig will
be returned.
*/
PaError PaWasapiWinrt_SetDefaultDeviceId( const unsigned short *pId, int bOutput );
/** Populate the device list.
By default the implementation will rely on DEVINTERFACE_AUDIO_RENDER and DEVINTERFACE_AUDIO_CAPTURE as
default devices. If device Id is provided by PaWasapiWinrt_SetDefaultDeviceId() then those
device Ids will be used as default and only devices for the device list.
By populating the device list you can provide an additional available audio devices of the system to PA
which are obtainable by:
Windows::Devices::Enumeration::DeviceInformation::FindAllAsync(selector) where selector is obtainable by
Windows::Media::Devices::MediaDevice::GetAudioRenderSelector() or
Windows::Media::Devices::MediaDevice::GetAudioCaptureSelector() API.
After the call completes, memory referenced by pointers can be freed, as implementation keeps its own copy.
You must call PaWasapi_UpdateDeviceList() to update the internal device list of the implementation after
calling this function.
See an example in the IMPORTANT notes.
@note UWP/WinRT platform only.
@param pId Array of device Ids, pointer to the array of pointers of 16-bit Unicode string (WCHAR). If NULL
and count is also 0 then device Ids will be reset to the default. Required.
@param pName Array of device Names, pointer to the array of pointers of 16-bit Unicode string (WCHAR). Optional.
@param pRole Array of device Roles, see PaWasapiDeviceRole and PaWasapi_GetDeviceRole() for more details. Optional.
@param count Number of devices, the number of array elements (pId, pName, pRole). Maximum count of devices
is limited by PA_WASAPI_DEVICE_MAX_COUNT.
@param bOutput TRUE (1) for output (render), FALSE (0) for input (capture).
@return Error code indicating success or failure. Will return paIncompatibleStreamHostApi if library is not compiled
for UWP/WinRT platform. If Id is longer than PA_WASAPI_DEVICE_ID_LEN characters paBufferTooBig will
be returned. If Name is longer than PA_WASAPI_DEVICE_NAME_LEN characters paBufferTooBig will
be returned.
*/
PaError PaWasapiWinrt_PopulateDeviceList( const unsigned short **pId, const unsigned short **pName,
const PaWasapiDeviceRole *pRole, unsigned int count, int bOutput );
/*
IMPORTANT:
WASAPI is implemented for Callback and Blocking interfaces. It supports Shared and Exclusive
share modes.
Exclusive Mode:
Exclusive mode allows to deliver audio data directly to hardware bypassing
software mixing.
Exclusive mode is specified by 'paWinWasapiExclusive' flag.
Callback Interface:
Provides best audio quality with low latency. Callback interface is implemented in
two versions:
1) Event-Driven:
This is the most powerful WASAPI implementation which provides glitch-free
audio at around 3ms latency in Exclusive mode. Lowest possible latency for this mode is
3 ms for HD Audio class audio chips. For the Shared mode latency can not be
lower than 20 ms.
2) Poll-Driven:
Polling is another 2-nd method to operate with WASAPI. It is less efficient than Event-Driven
and provides latency at around 10-13ms. Polling must be used to overcome a system bug
under Windows Vista x64 when application is WOW64(32-bit) and Event-Driven method simply
times out (event handle is never signalled on buffer completion). Please note, such WOW64 bug
does not exist in Vista x86 or Windows 7.
Polling can be setup by specifying 'paWinWasapiPolling' flag. Our WASAPI implementation detects
WOW64 bug and sets 'paWinWasapiPolling' automatically.
Thread priority:
Normally thread priority is set automatically and does not require modification. Although
if user wants some tweaking thread priority can be modified by setting 'paWinWasapiThreadPriority'
flag and specifying 'PaWasapiStreamInfo::threadPriority' with value from PaWasapiThreadPriority
enum.
Blocking Interface:
Blocking interface is implemented but due to above described Poll-Driven method can not
deliver lowest possible latency. Specifying too low latency in Shared mode will result in
distorted audio although Exclusive mode adds stability.
8.24 format:
If paCustomFormat is specified as sample format then the implementation will understand it
as valid 24-bits inside 32-bit container (e.g. wBitsPerSample = 32, Samples.wValidBitsPerSample = 24).
By using paCustomFormat there will be small optimization when samples are be copied
with Copy_24_To_24 by PA processor instead of conversion from packed 3-byte (24-bit) data
with Int24_To_Int32.
Pa_IsFormatSupported:
To check format with correct Share Mode (Exclusive/Shared) you must supply PaWasapiStreamInfo
with flags paWinWasapiExclusive set through member of PaStreamParameters::hostApiSpecificStreamInfo
structure.
If paWinWasapiExplicitSampleFormat flag is provided then implementation will not try to select
suitable close format and will return an error instead of paFormatIsSupported. By specifying
paWinWasapiExplicitSampleFormat flag it is possible to find out what sample formats are
supported by Exclusive or Shared modes.
Pa_OpenStream:
To set desired Share Mode (Exclusive/Shared) you must supply
PaWasapiStreamInfo with flags paWinWasapiExclusive set through member of
PaStreamParameters::hostApiSpecificStreamInfo structure.
Coding style for parameters and structure members of the public API:
1) bXXX - boolean, [1 (TRUE), 0 (FALSE)]
2) pXXX - pointer
3) fnXXX - pointer to function
4) structure members are never prefixed with a type distinguisher
UWP/WinRT:
This platform has number of limitations which do not allow to enumerate audio devices without
an additional external help. Enumeration is possible though from C++/CX, check the related API
Windows::Devices::Enumeration::DeviceInformation::FindAllAsync().
The main limitation is an absence of the device enumeration from inside the PA's implementation.
This problem can be solved by using the following functions:
PaWasapiWinrt_SetDefaultDeviceId() - to set default input/output device,
PaWasapiWinrt_PopulateDeviceList() - to populate device list with devices.
Here is an example of populating the device list which can also be updated dynamically depending on
whether device was removed from or added to the system:
----------------
std::vector<const UINT16 *> ids, names;
std::vector<PaWasapiDeviceRole> role;
ids.resize(count);
names.resize(count);
role.resize(count);
for (UINT32 i = 0; i < count; ++i)
{
ids[i] = (const UINT16 *)device_ids[i].c_str();
names[i] = (const UINT16 *)device_names[i].c_str();
role[i] = eRoleUnknownFormFactor;
}
PaWasapiWinrt_SetDefaultDeviceId((const UINT16 *)default_device_id.c_str(), !capture);
PaWasapiWinrt_PopulateDeviceList(ids.data(), names.data(), role.data(), count, !capture);
PaWasapi_UpdateDeviceList();
----------------
*/
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* PA_WIN_WASAPI_H */
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