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|
/*
* $Id: pa_asio.cpp,v 1.7.2.30 2002/12/03 06:30:39 rossbencina Exp $
* Portable Audio I/O Library for ASIO Drivers
*
* Author: Stephane Letz
* Based on the Open Source API proposed by Ross Bencina
* Copyright (c) 2000-2002 Stephane Letz, Phil Burk, Ross Bencina
*
* 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
* requested to send the modifications to the original developer so that
* they can be incorporated into the canonical version.
*
* 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.
*/
/* Modification History
08-03-01 First version : Stephane Letz
08-06-01 Tweaks for PC, use C++, buffer allocation, Float32 to Int32 conversion : Phil Burk
08-20-01 More conversion, PA_StreamTime, Pa_GetHostError : Stephane Letz
08-21-01 PaUInt8 bug correction, implementation of ASIOSTFloat32LSB and ASIOSTFloat32MSB native formats : Stephane Letz
08-24-01 MAX_INT32_FP hack, another Uint8 fix : Stephane and Phil
08-27-01 Implementation of hostBufferSize < userBufferSize case, better management of the ouput buffer when
the stream is stopped : Stephane Letz
08-28-01 Check the stream pointer for null in bufferSwitchTimeInfo, correct bug in bufferSwitchTimeInfo when
the stream is stopped : Stephane Letz
10-12-01 Correct the PaHost_CalcNumHostBuffers function: computes FramesPerHostBuffer to be the lowest that
respect requested FramesPerUserBuffer and userBuffersPerHostBuffer : Stephane Letz
10-26-01 Management of hostBufferSize and userBufferSize of any size : Stephane Letz
10-27-01 Improve calculus of hostBufferSize to be multiple or divisor of userBufferSize if possible : Stephane and Phil
10-29-01 Change MAX_INT32_FP to (2147483520.0f) to prevent roundup to 0x80000000 : Phil Burk
10-31-01 Clear the ouput buffer and user buffers in PaHost_StartOutput, correct bug in GetFirstMultiple : Stephane Letz
11-06-01 Rename functions : Stephane Letz
11-08-01 New Pa_ASIO_Adaptor_Init function to init Callback adpatation variables, cleanup of Pa_ASIO_Callback_Input: Stephane Letz
11-29-01 Break apart device loading to debug random failure in Pa_ASIO_QueryDeviceInfo ; Phil Burk
01-03-02 Desallocate all resources in PaHost_Term for cases where Pa_CloseStream is not called properly : Stephane Letz
02-01-02 Cleanup, test of multiple-stream opening : Stephane Letz
19-02-02 New Pa_ASIO_loadDriver that calls CoInitialize on each thread on Windows : Stephane Letz
09-04-02 Correct error code management in PaHost_Term, removes various compiler warning : Stephane Letz
12-04-02 Add Mac includes for <Devices.h> and <Timer.h> : Phil Burk
13-04-02 Removes another compiler warning : Stephane Letz
30-04-02 Pa_ASIO_QueryDeviceInfo bug correction, memory allocation checking, better error handling : D Viens, P Burk, S Letz
12-06-02 Rehashed into new multi-api infrastructure, added support for all ASIO sample formats : Ross Bencina
18-06-02 Added pa_asio.h, PaAsio_GetAvailableLatencyValues() : Ross B.
21-06-02 Added SelectHostBufferSize() which selects host buffer size based on user latency parameters : Ross Bencina
** NOTE maintanance history is now stored in CVS **
*/
/** @file
@todo implement underflow/overflow streamCallback statusFlags, paNeverDropInput.
@todo implement host api specific extension to set i/o buffer sizes in frames
@todo implement initialisation of PaDeviceInfo default*Latency fields (currently set to 0.)
@todo implement ReadStream, WriteStream, GetStreamReadAvailable, GetStreamWriteAvailable
@todo implement IsFormatSupported
@todo work out how to implement stream stoppage from callback and
implement IsStreamActive properly
@todo rigorously check asio return codes and convert to pa error codes
@todo Different channels of a multichannel stream can have different sample
formats, but we assume that all are the same as the first channel for now.
Fixing this will require the block processor to maintain per-channel
conversion functions - could get nasty.
@todo investigate whether the asio processNow flag needs to be honoured
@todo handle asioMessages() callbacks in a useful way, or at least document
what cases we don't handle.
@todo miscellaneous other FIXMEs
@todo implement the following somewhere:
if( stream->streamRepresentation.streamFinishedCallback != 0 )
stream->streamRepresentation.streamFinishedCallback( stream->streamRepresentation.userData );
*/
#include <stdio.h>
#include <assert.h>
#include <string.h>
//#include <values.h>
#include "portaudio.h"
#include "pa_asio.h"
#include "pa_util.h"
#include "pa_allocation.h"
#include "pa_hostapi.h"
#include "pa_stream.h"
#include "pa_cpuload.h"
#include "pa_process.h"
#include "asiosys.h"
#include "asio.h"
#include "asiodrivers.h"
/*
#if MAC
#include <Devices.h>
#include <Timer.h>
#include <Math64.h>
#else
*/
/*
#include <math.h>
#include <windows.h>
#include <mmsystem.h>
*/
/*
#endif
*/
/* external references */
extern AsioDrivers* asioDrivers ;
bool loadAsioDriver(char *name);
/* We are trying to be compatible with CARBON but this has not been thoroughly tested. */
/* not tested at all since new code was introduced. */
#define CARBON_COMPATIBLE (0)
/* prototypes for functions declared in this file */
extern "C" PaError PaAsio_Initialize( PaUtilHostApiRepresentation **hostApi, PaHostApiIndex hostApiIndex );
static void Terminate( struct PaUtilHostApiRepresentation *hostApi );
static PaError OpenStream( struct PaUtilHostApiRepresentation *hostApi,
PaStream** s,
const PaStreamParameters *inputParameters,
const PaStreamParameters *outputParameters,
double sampleRate,
unsigned long framesPerBuffer,
PaStreamFlags streamFlags,
PaStreamCallback *streamCallback,
void *userData );
static PaError IsFormatSupported( struct PaUtilHostApiRepresentation *hostApi,
const PaStreamParameters *inputParameters,
const PaStreamParameters *outputParameters,
double sampleRate );
static PaError CloseStream( PaStream* stream );
static PaError StartStream( PaStream *stream );
static PaError StopStream( PaStream *stream );
static PaError AbortStream( PaStream *stream );
static PaError IsStreamStopped( PaStream *s );
static PaError IsStreamActive( PaStream *stream );
static PaTime GetStreamTime( PaStream *stream );
static double GetStreamCpuLoad( PaStream* stream );
static PaError ReadStream( PaStream* stream, void *buffer, unsigned long frames );
static PaError WriteStream( PaStream* stream, void *buffer, unsigned long frames );
static signed long GetStreamReadAvailable( PaStream* stream );
static signed long GetStreamWriteAvailable( PaStream* stream );
/* our ASIO callback functions */
static void bufferSwitch(long index, ASIOBool processNow);
static ASIOTime *bufferSwitchTimeInfo(ASIOTime *timeInfo, long index, ASIOBool processNow);
static void sampleRateChanged(ASIOSampleRate sRate);
static long asioMessages(long selector, long value, void* message, double* opt);
static ASIOCallbacks asioCallbacks_ =
{ bufferSwitch, sampleRateChanged, asioMessages, bufferSwitchTimeInfo };
#define PA_ASIO_SET_LAST_HOST_ERROR( errorCode, errorText ) \
PaUtil_SetLastHostErrorInfo( paASIO, errorCode, errorText )
static const char* PaAsio_GetAsioErrorText( ASIOError asioError )
{
const char *result;
switch( asioError ){
case ASE_OK:
case ASE_SUCCESS: result = "Success"; break;
case ASE_NotPresent: result = "Hardware input or output is not present or available"; break;
case ASE_HWMalfunction: result = "Hardware is malfunctioning"; break;
case ASE_InvalidParameter: result = "Input parameter invalid"; break;
case ASE_InvalidMode: result = "Hardware is in a bad mode or used in a bad mode"; break;
case ASE_SPNotAdvancing: result = "Hardware is not running when sample position is inquired"; break;
case ASE_NoClock: result = "Sample clock or rate cannot be determined or is not present"; break;
case ASE_NoMemory: result = "Not enough memory for completing the request"; break;
default: result = "Unknown ASIO error"; break;
}
return result;
}
#define PA_ASIO_SET_LAST_ASIO_ERROR( asioError ) \
PaUtil_SetLastHostErrorInfo( paASIO, asioError, PaAsio_GetAsioErrorText( asioError ) )
/* PaAsioHostApiRepresentation - host api datastructure specific to this implementation */
typedef struct
{
PaUtilHostApiRepresentation inheritedHostApiRep;
PaUtilStreamInterface callbackStreamInterface;
PaUtilStreamInterface blockingStreamInterface;
PaUtilAllocationGroup *allocations;
/* the ASIO C API only allows one ASIO driver to be open at a time,
so we kee track of whether we have the driver open here, and
use this information to return errors from OpenStream if the
driver is already open.
*/
int driverOpen;
}
PaAsioHostApiRepresentation;
/*
Retrieve <driverCount> driver names from ASIO, returned in a char**
allocated in <group>.
*/
static char **GetAsioDriverNames( PaUtilAllocationGroup *group, long driverCount )
{
char **result = 0;
int i;
result =(char**)PaUtil_GroupAllocateMemory(
group, sizeof(char*) * driverCount );
if( !result )
goto error;
result[0] = (char*)PaUtil_GroupAllocateMemory(
group, 32 * driverCount );
if( !result[0] )
goto error;
for( i=0; i<driverCount; ++i )
result[i] = result[0] + (32 * i);
asioDrivers->getDriverNames( result, driverCount );
error:
return result;
}
static PaSampleFormat AsioSampleTypeToPaNativeSampleFormat(ASIOSampleType type)
{
switch (type) {
case ASIOSTInt16MSB:
case ASIOSTInt16LSB:
return paInt16;
case ASIOSTFloat32MSB:
case ASIOSTFloat32LSB:
case ASIOSTFloat64MSB:
case ASIOSTFloat64LSB:
return paFloat32;
case ASIOSTInt32MSB:
case ASIOSTInt32LSB:
case ASIOSTInt32MSB16:
case ASIOSTInt32LSB16:
case ASIOSTInt32MSB18:
case ASIOSTInt32MSB20:
case ASIOSTInt32MSB24:
case ASIOSTInt32LSB18:
case ASIOSTInt32LSB20:
case ASIOSTInt32LSB24:
return paInt32;
case ASIOSTInt24MSB:
case ASIOSTInt24LSB:
return paInt24;
default:
return paCustomFormat;
}
}
static int BytesPerAsioSample( ASIOSampleType sampleType )
{
switch (sampleType) {
case ASIOSTInt16MSB:
case ASIOSTInt16LSB:
return 2;
case ASIOSTFloat64MSB:
case ASIOSTFloat64LSB:
return 8;
case ASIOSTFloat32MSB:
case ASIOSTFloat32LSB:
case ASIOSTInt32MSB:
case ASIOSTInt32LSB:
case ASIOSTInt32MSB16:
case ASIOSTInt32LSB16:
case ASIOSTInt32MSB18:
case ASIOSTInt32MSB20:
case ASIOSTInt32MSB24:
case ASIOSTInt32LSB18:
case ASIOSTInt32LSB20:
case ASIOSTInt32LSB24:
return 4;
case ASIOSTInt24MSB:
case ASIOSTInt24LSB:
return 3;
default:
return 0;
}
}
static void Swap16( void *buffer, long shift, long count )
{
unsigned short *p = (unsigned short*)buffer;
unsigned short temp;
(void) shift; /* unused parameter */
while( count-- )
{
temp = *p;
*p++ = (unsigned short)((temp<<8) | (temp>>8));
}
}
static void Swap24( void *buffer, long shift, long count )
{
unsigned char *p = (unsigned char*)buffer;
unsigned char temp;
(void) shift; /* unused parameter */
while( count-- )
{
temp = *p;
*p = *(p+2);
*(p+2) = temp;
p += 3;
}
}
#define PA_SWAP32_( x ) ((x>>24) | ((x>>8)&0xFF00) | ((x<<8)&0xFF0000) | (x<<24));
static void Swap32( void *buffer, long shift, long count )
{
unsigned long *p = (unsigned long*)buffer;
unsigned long temp;
(void) shift; /* unused parameter */
while( count-- )
{
temp = *p;
*p++ = PA_SWAP32_( temp);
}
}
static void SwapShiftLeft32( void *buffer, long shift, long count )
{
unsigned long *p = (unsigned long*)buffer;
unsigned long temp;
while( count-- )
{
temp = *p;
temp = PA_SWAP32_( temp);
*p++ = temp << shift;
}
}
static void ShiftRightSwap32( void *buffer, long shift, long count )
{
unsigned long *p = (unsigned long*)buffer;
unsigned long temp;
while( count-- )
{
temp = *p >> shift;
*p++ = PA_SWAP32_( temp);
}
}
static void ShiftLeft32( void *buffer, long shift, long count )
{
unsigned long *p = (unsigned long*)buffer;
unsigned long temp;
while( count-- )
{
temp = *p;
*p++ = temp << shift;
}
}
static void ShiftRight32( void *buffer, long shift, long count )
{
unsigned long *p = (unsigned long*)buffer;
unsigned long temp;
while( count-- )
{
temp = *p;
*p++ = temp >> shift;
}
}
#define PA_SWAP_( x, y ) temp=x; x = y; y = temp;
static void Swap64ConvertFloat64ToFloat32( void *buffer, long shift, long count )
{
double *in = (double*)buffer;
float *out = (float*)buffer;
unsigned char *p;
unsigned char temp;
(void) shift; /* unused parameter */
while( count-- )
{
p = (unsigned char*)in;
PA_SWAP_( p[0], p[7] );
PA_SWAP_( p[1], p[6] );
PA_SWAP_( p[2], p[5] );
PA_SWAP_( p[3], p[4] );
*out++ = (float) (*in++);
}
}
static void ConvertFloat64ToFloat32( void *buffer, long shift, long count )
{
double *in = (double*)buffer;
float *out = (float*)buffer;
(void) shift; /* unused parameter */
while( count-- )
*out++ = (float) (*in++);
}
static void ConvertFloat32ToFloat64Swap64( void *buffer, long shift, long count )
{
float *in = ((float*)buffer) + (count-1);
double *out = ((double*)buffer) + (count-1);
unsigned char *p;
unsigned char temp;
(void) shift; /* unused parameter */
while( count-- )
{
*out = *in--;
p = (unsigned char*)out;
PA_SWAP_( p[0], p[7] );
PA_SWAP_( p[1], p[6] );
PA_SWAP_( p[2], p[5] );
PA_SWAP_( p[3], p[4] );
out--;
}
}
static void ConvertFloat32ToFloat64( void *buffer, long shift, long count )
{
float *in = ((float*)buffer) + (count-1);
double *out = ((double*)buffer) + (count-1);
(void) shift; /* unused parameter */
while( count-- )
*out-- = *in--;
}
#ifdef MAC
#define PA_MSB_IS_NATIVE_
#undef PA_LSB_IS_NATIVE_
#endif
#ifdef WINDOWS
#undef PA_MSB_IS_NATIVE_
#define PA_LSB_IS_NATIVE_
#endif
typedef void PaAsioBufferConverter( void *, long, long );
static void SelectAsioToPaConverter( ASIOSampleType type, PaAsioBufferConverter **converter, long *shift )
{
*shift = 0;
*converter = 0;
switch (type) {
case ASIOSTInt16MSB:
/* dest: paInt16, no conversion necessary, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap16;
#endif
break;
case ASIOSTInt16LSB:
/* dest: paInt16, no conversion necessary, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap16;
#endif
break;
case ASIOSTFloat32MSB:
/* dest: paFloat32, no conversion necessary, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTFloat32LSB:
/* dest: paFloat32, no conversion necessary, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTFloat64MSB:
/* dest: paFloat32, in-place conversion to/from float32, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap64ConvertFloat64ToFloat32;
#else
*converter = ConvertFloat64ToFloat32;
#endif
break;
case ASIOSTFloat64LSB:
/* dest: paFloat32, in-place conversion to/from float32, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap64ConvertFloat64ToFloat32;
#else
*converter = ConvertFloat64ToFloat32;
#endif
break;
case ASIOSTInt32MSB:
/* dest: paInt32, no conversion necessary, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTInt32LSB:
/* dest: paInt32, no conversion necessary, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTInt32MSB16:
/* dest: paInt32, 16 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 16;
break;
case ASIOSTInt32MSB18:
/* dest: paInt32, 14 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 14;
break;
case ASIOSTInt32MSB20:
/* dest: paInt32, 12 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 12;
break;
case ASIOSTInt32MSB24:
/* dest: paInt32, 8 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 8;
break;
case ASIOSTInt32LSB16:
/* dest: paInt32, 16 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 16;
break;
case ASIOSTInt32LSB18:
/* dest: paInt32, 14 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 14;
break;
case ASIOSTInt32LSB20:
/* dest: paInt32, 12 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 12;
break;
case ASIOSTInt32LSB24:
/* dest: paInt32, 8 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = SwapShiftLeft32;
#else
*converter = ShiftLeft32;
#endif
*shift = 8;
break;
case ASIOSTInt24MSB:
/* dest: paInt24, no conversion necessary, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap24;
#endif
break;
case ASIOSTInt24LSB:
/* dest: paInt24, no conversion necessary, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap24;
#endif
break;
}
}
static void SelectPaToAsioConverter( ASIOSampleType type, PaAsioBufferConverter **converter, long *shift )
{
*shift = 0;
*converter = 0;
switch (type) {
case ASIOSTInt16MSB:
/* src: paInt16, no conversion necessary, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap16;
#endif
break;
case ASIOSTInt16LSB:
/* src: paInt16, no conversion necessary, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap16;
#endif
break;
case ASIOSTFloat32MSB:
/* src: paFloat32, no conversion necessary, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTFloat32LSB:
/* src: paFloat32, no conversion necessary, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTFloat64MSB:
/* src: paFloat32, in-place conversion to/from float32, possible byte swap*/
#ifdef PA_LSB_IS_NATIVE_
*converter = ConvertFloat32ToFloat64Swap64;
#else
*converter = ConvertFloat32ToFloat64;
#endif
break;
case ASIOSTFloat64LSB:
/* src: paFloat32, in-place conversion to/from float32, possible byte swap*/
#ifdef PA_MSB_IS_NATIVE_
*converter = ConvertFloat32ToFloat64Swap64;
#else
*converter = ConvertFloat32ToFloat64;
#endif
break;
case ASIOSTInt32MSB:
/* src: paInt32, no conversion necessary, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTInt32LSB:
/* src: paInt32, no conversion necessary, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap32;
#endif
break;
case ASIOSTInt32MSB16:
/* src: paInt32, 16 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 16;
break;
case ASIOSTInt32MSB18:
/* src: paInt32, 14 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 14;
break;
case ASIOSTInt32MSB20:
/* src: paInt32, 12 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 12;
break;
case ASIOSTInt32MSB24:
/* src: paInt32, 8 bit shift, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 8;
break;
case ASIOSTInt32LSB16:
/* src: paInt32, 16 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 16;
break;
case ASIOSTInt32LSB18:
/* src: paInt32, 14 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 14;
break;
case ASIOSTInt32LSB20:
/* src: paInt32, 12 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 12;
break;
case ASIOSTInt32LSB24:
/* src: paInt32, 8 bit shift, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = ShiftRightSwap32;
#else
*converter = ShiftRight32;
#endif
*shift = 8;
break;
case ASIOSTInt24MSB:
/* src: paInt24, no conversion necessary, possible byte swap */
#ifdef PA_LSB_IS_NATIVE_
*converter = Swap24;
#endif
break;
case ASIOSTInt24LSB:
/* src: paInt24, no conversion necessary, possible byte swap */
#ifdef PA_MSB_IS_NATIVE_
*converter = Swap24;
#endif
break;
}
}
typedef struct PaAsioDeviceInfo
{
PaDeviceInfo commonDeviceInfo;
long minBufferSize;
long maxBufferSize;
long preferredBufferSize;
long bufferGranularity;
}
PaAsioDeviceInfo;
PaError PaAsio_GetAvailableLatencyValues( PaDeviceIndex device,
long *minLatency, long *maxLatency, long *preferredLatency, long *granularity )
{
PaError result;
PaUtilHostApiRepresentation *hostApi;
PaDeviceIndex hostApiDevice;
result = PaUtil_GetHostApiRepresentation( &hostApi, paASIO );
if( result == paNoError )
{
result = PaUtil_DeviceIndexToHostApiDeviceIndex( &hostApiDevice, device, hostApi );
if( result == paNoError )
{
PaAsioDeviceInfo *asioDeviceInfo =
(PaAsioDeviceInfo*)hostApi->deviceInfos[hostApiDevice];
*minLatency = asioDeviceInfo->minBufferSize;
*maxLatency = asioDeviceInfo->maxBufferSize;
*preferredLatency = asioDeviceInfo->preferredBufferSize;
*granularity = asioDeviceInfo->bufferGranularity;
}
}
return result;
}
typedef struct PaAsioDriverInfo
{
ASIODriverInfo asioDriverInfo;
long numInputChannels, numOutputChannels;
long bufferMinSize, bufferMaxSize, bufferPreferredSize, bufferGranularity;
bool postOutput;
}
PaAsioDriverInfo;
/*
load the asio driver named by <driverName> and return statistics about
the driver in info. If no error occurred, the driver will remain open
and must be closed by the called by calling ASIOExit() - if an error
is returned the driver will already be closed.
*/
static PaError LoadAsioDriver( const char *driverName, PaAsioDriverInfo *info )
{
PaError result = paNoError;
ASIOError asioError;
int asioIsInitialized = 0;
if( !loadAsioDriver( const_cast<char*>(driverName) ) )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_HOST_ERROR( 0, "Failed to load ASIO driver" );
goto error;
}
if( (asioError = ASIOInit( &info->asioDriverInfo )) != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
goto error;
}
else
{
asioIsInitialized = 1;
}
if( (asioError = ASIOGetChannels(&info->numInputChannels,
&info->numOutputChannels)) != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
goto error;
}
if( (asioError = ASIOGetBufferSize(&info->bufferMinSize,
&info->bufferMaxSize, &info->bufferPreferredSize,
&info->bufferGranularity)) != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
goto error;
}
if( ASIOOutputReady() == ASE_OK )
info->postOutput = true;
else
info->postOutput = false;
return result;
error:
if( asioIsInitialized )
ASIOExit();
return result;
}
#define PA_DEFAULTSAMPLERATESEARCHORDER_COUNT_ 13 /* must be the same number of elements as in the array below */
static ASIOSampleRate defaultSampleRateSearchOrder_[]
= {44100.0, 48000.0, 32000.0, 24000.0, 22050.0, 88200.0, 96000.0,
192000.0, 16000.0, 12000.0, 11025.0, 96000.0, 8000.0 };
PaError PaAsio_Initialize( PaUtilHostApiRepresentation **hostApi, PaHostApiIndex hostApiIndex )
{
PaError result = paNoError;
int i, j, driverCount;
PaAsioHostApiRepresentation *asioHostApi;
PaAsioDeviceInfo *deviceInfoArray;
char **names;
PaAsioDriverInfo paAsioDriverInfo;
ASIOError asioError;
ASIODriverInfo asioDriverInfo;
ASIOChannelInfo asioChannelInfo;
double *sampleRates;
asioHostApi = (PaAsioHostApiRepresentation*)PaUtil_AllocateMemory( sizeof(PaAsioHostApiRepresentation) );
if( !asioHostApi )
{
result = paInsufficientMemory;
goto error;
}
asioHostApi->allocations = PaUtil_CreateAllocationGroup();
if( !asioHostApi->allocations )
{
result = paInsufficientMemory;
goto error;
}
asioHostApi->driverOpen = 0;
*hostApi = &asioHostApi->inheritedHostApiRep;
(*hostApi)->info.structVersion = 1;
(*hostApi)->info.type = paASIO;
(*hostApi)->info.name = "ASIO";
(*hostApi)->info.deviceCount = 0;
#ifdef WINDOWS
CoInitialize(0);
#endif
/* MUST BE CHECKED : to force fragments loading on Mac */
loadAsioDriver( "dummy" );
/* driverCount is the number of installed drivers - not necessarily
the number of installed physical devices. */
#if MAC
driverCount = asioDrivers->getNumFragments();
#elif WINDOWS
driverCount = asioDrivers->asioGetNumDev();
#endif
if( driverCount > 0 )
{
names = GetAsioDriverNames( asioHostApi->allocations, driverCount );
if( !names )
{
result = paInsufficientMemory;
goto error;
}
/* allocate enough space for all drivers, even if some aren't installed */
(*hostApi)->deviceInfos = (PaDeviceInfo**)PaUtil_GroupAllocateMemory(
asioHostApi->allocations, sizeof(PaDeviceInfo*) * driverCount );
if( !(*hostApi)->deviceInfos )
{
result = paInsufficientMemory;
goto error;
}
/* allocate all device info structs in a contiguous block */
deviceInfoArray = (PaAsioDeviceInfo*)PaUtil_GroupAllocateMemory(
asioHostApi->allocations, sizeof(PaAsioDeviceInfo) * driverCount );
if( !deviceInfoArray )
{
result = paInsufficientMemory;
goto error;
}
#if WINDOWS
asioDriverInfo.asioVersion = 2; /* FIXME - is this right? PLB */
asioDriverInfo.sysRef = GetDesktopWindow(); /* FIXME - is this right? PLB */
#elif MAC
/* REVIEW: is anything needed here?? RDB */
#endif
for( i=0; i < driverCount; ++i )
{
/* Attempt to load the asio driver... */
if( LoadAsioDriver( names[i], &paAsioDriverInfo ) == paNoError )
{
PaAsioDeviceInfo *asioDeviceInfo = &deviceInfoArray[ (*hostApi)->info.deviceCount ];
PaDeviceInfo *deviceInfo = &asioDeviceInfo->commonDeviceInfo;
deviceInfo->structVersion = 2;
deviceInfo->hostApi = hostApiIndex;
deviceInfo->name = names[i];
deviceInfo->maxInputChannels = paAsioDriverInfo.numInputChannels;
deviceInfo->maxOutputChannels = paAsioDriverInfo.numOutputChannels;
PA_DEBUG(("PaAsio_Initialize: inputChannels = %d\n", inputChannels ));
PA_DEBUG(("PaAsio_Initialize: outputChannels = %d\n", outputChannels ));
deviceInfo->defaultLowInputLatency = 0.; /* @todo IMPLEMENT ME */
deviceInfo->defaultLowOutputLatency = 0.; /* @todo IMPLEMENT ME */
deviceInfo->defaultHighInputLatency = 0.; /* @todo IMPLEMENT ME */
deviceInfo->defaultHighOutputLatency = 0.; /* @todo IMPLEMENT ME */
deviceInfo->defaultSampleRate = 0.;
for( int j=0; j < PA_DEFAULTSAMPLERATESEARCHORDER_COUNT_; ++j )
{
ASIOError asioError = ASIOCanSampleRate( defaultSampleRateSearchOrder_[j] );
if( asioError != ASE_NoClock && asioError != ASE_NotPresent ){
deviceInfo->defaultSampleRate = defaultSampleRateSearchOrder_[j];
break;
}
}
asioDeviceInfo->minBufferSize = paAsioDriverInfo.bufferMinSize;
asioDeviceInfo->maxBufferSize = paAsioDriverInfo.bufferMaxSize;
asioDeviceInfo->preferredBufferSize = paAsioDriverInfo.bufferPreferredSize;
asioDeviceInfo->bufferGranularity = paAsioDriverInfo.bufferGranularity;
/* We assume that all channels have the same SampleType, so check the first, FIXME, probably shouldn't assume that */
asioChannelInfo.channel = 0;
asioChannelInfo.isInput = 1;
ASIOGetChannelInfo( &asioChannelInfo ); /* FIXME, check return code */
/* unload the driver */
ASIOExit();
(*hostApi)->deviceInfos[ (*hostApi)->info.deviceCount ] = deviceInfo;
++(*hostApi)->info.deviceCount;
}
}
}
if( (*hostApi)->info.deviceCount > 0 )
{
(*hostApi)->info.defaultInputDevice = 0;
(*hostApi)->info.defaultOutputDevice = 0;
}
else
{
(*hostApi)->info.defaultInputDevice = paNoDevice;
(*hostApi)->info.defaultOutputDevice = paNoDevice;
}
(*hostApi)->Terminate = Terminate;
(*hostApi)->OpenStream = OpenStream;
(*hostApi)->IsFormatSupported = IsFormatSupported;
PaUtil_InitializeStreamInterface( &asioHostApi->callbackStreamInterface, CloseStream, StartStream,
StopStream, AbortStream, IsStreamStopped, IsStreamActive,
GetStreamTime, GetStreamCpuLoad,
PaUtil_DummyReadWrite, PaUtil_DummyReadWrite, PaUtil_DummyGetAvailable, PaUtil_DummyGetAvailable );
PaUtil_InitializeStreamInterface( &asioHostApi->blockingStreamInterface, CloseStream, StartStream,
StopStream, AbortStream, IsStreamStopped, IsStreamActive,
GetStreamTime, PaUtil_DummyGetCpuLoad,
ReadStream, WriteStream, GetStreamReadAvailable, GetStreamWriteAvailable );
return result;
error:
if( asioHostApi )
{
if( asioHostApi->allocations )
{
PaUtil_FreeAllAllocations( asioHostApi->allocations );
PaUtil_DestroyAllocationGroup( asioHostApi->allocations );
}
PaUtil_FreeMemory( asioHostApi );
}
return result;
}
static void Terminate( struct PaUtilHostApiRepresentation *hostApi )
{
PaAsioHostApiRepresentation *asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
/*
IMPLEMENT ME:
- clean up any resources not handled by the allocation group
*/
if( asioHostApi->allocations )
{
PaUtil_FreeAllAllocations( asioHostApi->allocations );
PaUtil_DestroyAllocationGroup( asioHostApi->allocations );
}
PaUtil_FreeMemory( asioHostApi );
}
static PaError IsFormatSupported( struct PaUtilHostApiRepresentation *hostApi,
const PaStreamParameters *inputParameters,
const PaStreamParameters *outputParameters,
double sampleRate )
{
int numInputChannels, numOutputChannels;
PaSampleFormat inputSampleFormat, outputSampleFormat;
if( inputParameters )
{
numInputChannels = inputParameters->channelCount;
inputSampleFormat = inputParameters->sampleFormat;
/* unless alternate device specification is supported, reject the use of
paUseHostApiSpecificDeviceSpecification */
if( inputParameters->device == paUseHostApiSpecificDeviceSpecification )
return paInvalidDevice;
/* check that input device can support numInputChannels */
if( numInputChannels > hostApi->deviceInfos[ inputParameters->device ]->maxInputChannels )
return paInvalidChannelCount;
/* validate inputStreamInfo */
if( inputParameters->hostApiSpecificStreamInfo )
return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
}
else
{
numInputChannels = 0;
}
if( outputParameters )
{
numOutputChannels = outputParameters->channelCount;
outputSampleFormat = outputParameters->sampleFormat;
/* unless alternate device specification is supported, reject the use of
paUseHostApiSpecificDeviceSpecification */
if( outputParameters->device == paUseHostApiSpecificDeviceSpecification )
return paInvalidDevice;
/* check that output device can support numInputChannels */
if( numOutputChannels > hostApi->deviceInfos[ outputParameters->device ]->maxOutputChannels )
return paInvalidChannelCount;
/* validate outputStreamInfo */
if( outputParameters->hostApiSpecificStreamInfo )
return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
}
else
{
numOutputChannels = 0;
}
/*
IMPLEMENT ME:
- check that input device can support inputSampleFormat, or that
we have the capability to convert from outputSampleFormat to
a native format
- check that output device can support outputSampleFormat, or that
we have the capability to convert from outputSampleFormat to
a native format
- if a full duplex stream is requested, check that the combination
of input and output parameters is supported
- check that the device supports sampleRate
*/
return paFormatIsSupported;
}
/* PaAsioStream - a stream data structure specifically for this implementation */
typedef struct PaAsioStream
{
PaUtilStreamRepresentation streamRepresentation;
PaUtilCpuLoadMeasurer cpuLoadMeasurer;
PaUtilBufferProcessor bufferProcessor;
PaAsioHostApiRepresentation *asioHostApi;
unsigned long framesPerHostCallback;
/* ASIO driver info - these may not be needed for the life of the stream,
but store them here until we work out how format conversion is going
to work. */
ASIOBufferInfo *asioBufferInfos;
ASIOChannelInfo *asioChannelInfos;
long inputLatency, outputLatency; // actual latencies returned by asio
long numInputChannels, numOutputChannels;
bool postOutput;
void **bufferPtrs; /* this is carved up for inputBufferPtrs and outputBufferPtrs */
void **inputBufferPtrs[2];
void **outputBufferPtrs[2];
PaAsioBufferConverter *inputBufferConverter;
long inputShift;
PaAsioBufferConverter *outputBufferConverter;
long outputShift;
volatile int stopProcessing; /* stop thread once existing buffers have been returned */
volatile int abortProcessing; /* stop thread immediately */
}
PaAsioStream;
static PaAsioStream *theAsioStream = 0; /* due to ASIO sdk limitations there can be only one stream */
static void ZeroOutputBuffers( PaAsioStream *stream, long index )
{
int i;
for( i=0; i < stream->numOutputChannels; ++i )
{
void *buffer = stream->asioBufferInfos[ i + stream->numInputChannels ].buffers[index];
int bytesPerSample = BytesPerAsioSample( stream->asioChannelInfos[ i + stream->numInputChannels ].type );
memset( buffer, 0, stream->framesPerHostCallback * bytesPerSample );
}
}
static unsigned long SelectHostBufferSize( unsigned long suggestedLatencyFrames,
PaAsioDriverInfo *driverInfo )
{
unsigned long result;
if( suggestedLatencyFrames == 0 )
{
result = driverInfo->bufferPreferredSize;
}
else{
if( suggestedLatencyFrames <= (unsigned long)driverInfo->bufferMinSize )
{
result = driverInfo->bufferMinSize;
}
else if( suggestedLatencyFrames >= (unsigned long)driverInfo->bufferMaxSize )
{
result = driverInfo->bufferMaxSize;
}
else
{
if( driverInfo->bufferGranularity == -1 )
{
/* power-of-two */
result = 2;
while( result < suggestedLatencyFrames )
result *= result;
if( result < (unsigned long)driverInfo->bufferMinSize )
result = driverInfo->bufferMinSize;
if( result > (unsigned long)driverInfo->bufferMaxSize )
result = driverInfo->bufferMaxSize;
}
else if( driverInfo->bufferGranularity == 0 )
{
result = driverInfo->bufferPreferredSize;
}
else
{
/* modulo granularity */
result = suggestedLatencyFrames +
(driverInfo->bufferGranularity -
(suggestedLatencyFrames % driverInfo->bufferGranularity));
if( result > (unsigned long)driverInfo->bufferMaxSize )
result = driverInfo->bufferMaxSize;
}
}
}
return result;
}
/* see pa_hostapi.h for a list of validity guarantees made about OpenStream parameters */
static PaError OpenStream( struct PaUtilHostApiRepresentation *hostApi,
PaStream** s,
const PaStreamParameters *inputParameters,
const PaStreamParameters *outputParameters,
double sampleRate,
unsigned long framesPerBuffer,
PaStreamFlags streamFlags,
PaStreamCallback *streamCallback,
void *userData )
{
PaError result = paNoError;
PaAsioHostApiRepresentation *asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
PaAsioStream *stream = 0;
unsigned long framesPerHostBuffer;
int numInputChannels, numOutputChannels;
PaSampleFormat inputSampleFormat, outputSampleFormat;
PaSampleFormat hostInputSampleFormat, hostOutputSampleFormat;
unsigned long suggestedInputLatencyFrames;
unsigned long suggestedOutputLatencyFrames;
const char *driverName;
ASIOError asioError;
int asioIsInitialized = 0;
int asioBuffersCreated = 0;
PaAsioDriverInfo driverInfo;
int i;
/* unless we move to using lower level ASIO calls, we can only have
one device open at a time */
if( asioHostApi->driverOpen )
return paDeviceUnavailable;
if( inputParameters )
{
numInputChannels = inputParameters->channelCount;
inputSampleFormat = inputParameters->sampleFormat;
suggestedInputLatencyFrames = inputParameters->suggestedLatency * sampleRate;
driverName = asioHostApi->inheritedHostApiRep.deviceInfos[ inputParameters->device ]->name;
/* unless alternate device specification is supported, reject the use of
paUseHostApiSpecificDeviceSpecification */
if( inputParameters->device == paUseHostApiSpecificDeviceSpecification )
return paInvalidDevice;
/* validate hostApiSpecificStreamInfo */
if( inputParameters->hostApiSpecificStreamInfo )
return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
}
else
{
numInputChannels = 0;
suggestedInputLatencyFrames = 0;
}
if( outputParameters )
{
numOutputChannels = outputParameters->channelCount;
outputSampleFormat = outputParameters->sampleFormat;
suggestedOutputLatencyFrames = outputParameters->suggestedLatency;
driverName = asioHostApi->inheritedHostApiRep.deviceInfos[ outputParameters->device ]->name;
/* unless alternate device specification is supported, reject the use of
paUseHostApiSpecificDeviceSpecification */
if( outputParameters->device == paUseHostApiSpecificDeviceSpecification )
return paInvalidDevice;
/* validate hostApiSpecificStreamInfo */
if( outputParameters->hostApiSpecificStreamInfo )
return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
}
else
{
numOutputChannels = 0;
suggestedOutputLatencyFrames = 0;
}
if( inputParameters && outputParameters )
{
/* full duplex ASIO stream must use the same device for input and output */
if( inputParameters->device != outputParameters->device )
return paBadIODeviceCombination;
}
/* NOTE: we load the driver and use its current settings
rather than the ones in our device info structure which may be stale */
result = LoadAsioDriver( driverName, &driverInfo );
if( result == paNoError )
asioIsInitialized = 1;
else
goto error;
/* check that input device can support numInputChannels */
if( numInputChannels > 0 )
{
if( numInputChannels > driverInfo.numInputChannels )
{
result = paInvalidChannelCount;
goto error;
}
}
/* check that output device can support numOutputChannels */
if( numOutputChannels )
{
if( numOutputChannels > driverInfo.numOutputChannels )
{
result = paInvalidChannelCount;
goto error;
}
}
/* Set sample rate */
if( ASIOSetSampleRate( sampleRate ) != ASE_OK )
{
result = paInvalidSampleRate;
goto error;
}
framesPerHostBuffer = SelectHostBufferSize(
(( suggestedInputLatencyFrames > suggestedOutputLatencyFrames )
? suggestedInputLatencyFrames : suggestedOutputLatencyFrames),
&driverInfo );
/*
IMPLEMENT ME:
- if a full duplex stream is requested, check that the combination
of input and output parameters is supported
*/
/* validate platform specific flags */
if( (streamFlags & paPlatformSpecificFlags) != 0 )
return paInvalidFlag; /* unexpected platform specific flag */
stream = (PaAsioStream*)PaUtil_AllocateMemory( sizeof(PaAsioStream) );
if( !stream )
{
result = paInsufficientMemory;
goto error;
}
stream->asioBufferInfos = 0; /* for deallocation in error */
stream->asioChannelInfos = 0; /* for deallocation in error */
stream->bufferPtrs = 0; /* for deallocation in error */
if( streamCallback )
{
PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation,
&asioHostApi->callbackStreamInterface, streamCallback, userData );
}
else
{
PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation,
&asioHostApi->blockingStreamInterface, streamCallback, userData );
}
PaUtil_InitializeCpuLoadMeasurer( &stream->cpuLoadMeasurer, sampleRate );
stream->asioBufferInfos = (ASIOBufferInfo*)PaUtil_AllocateMemory(
sizeof(ASIOBufferInfo) * (numInputChannels + numOutputChannels) );
if( !stream->asioBufferInfos )
{
result = paInsufficientMemory;
goto error;
}
for( i=0; i < numInputChannels; ++i )
{
ASIOBufferInfo *info = &stream->asioBufferInfos[i];
info->isInput = ASIOTrue;
info->channelNum = i;
info->buffers[0] = info->buffers[1] = 0;
}
for( i=0; i < numOutputChannels; ++i ){
ASIOBufferInfo *info = &stream->asioBufferInfos[numInputChannels+i];
info->isInput = ASIOFalse;
info->channelNum = i;
info->buffers[0] = info->buffers[1] = 0;
}
asioError = ASIOCreateBuffers( stream->asioBufferInfos, numInputChannels+numOutputChannels,
framesPerHostBuffer, &asioCallbacks_ );
if( asioError != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
goto error;
}
asioBuffersCreated = 1;
stream->asioChannelInfos = (ASIOChannelInfo*)PaUtil_AllocateMemory(
sizeof(ASIOChannelInfo) * (numInputChannels + numOutputChannels) );
if( !stream->asioChannelInfos )
{
result = paInsufficientMemory;
goto error;
}
for( i=0; i < numInputChannels + numOutputChannels; ++i )
{
stream->asioChannelInfos[i].channel = stream->asioBufferInfos[i].channelNum;
stream->asioChannelInfos[i].isInput = stream->asioBufferInfos[i].isInput;
asioError = ASIOGetChannelInfo( &stream->asioChannelInfos[i] );
if( asioError != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
goto error;
}
}
stream->bufferPtrs = (void**)PaUtil_AllocateMemory(
2 * sizeof(void*) * (numInputChannels + numOutputChannels) );
if( !stream->bufferPtrs )
{
result = paInsufficientMemory;
goto error;
}
if( numInputChannels > 0 )
{
stream->inputBufferPtrs[0] = stream-> bufferPtrs;
stream->inputBufferPtrs[1] = &stream->bufferPtrs[numInputChannels];
for( i=0; i<numInputChannels; ++i )
{
stream->inputBufferPtrs[0][i] = stream->asioBufferInfos[i].buffers[0];
stream->inputBufferPtrs[1][i] = stream->asioBufferInfos[i].buffers[1];
}
}
else
{
stream->inputBufferPtrs[0] = 0;
stream->inputBufferPtrs[1] = 0;
}
if( numOutputChannels > 0 )
{
stream->outputBufferPtrs[0] = &stream->bufferPtrs[numInputChannels*2];
stream->outputBufferPtrs[1] = &stream->bufferPtrs[numInputChannels*2 + numOutputChannels];
for( i=0; i<numOutputChannels; ++i )
{
stream->outputBufferPtrs[0][i] = stream->asioBufferInfos[numInputChannels+i].buffers[0];
stream->outputBufferPtrs[1][i] = stream->asioBufferInfos[numInputChannels+i].buffers[1];
}
}
else
{
stream->outputBufferPtrs[0] = 0;
stream->outputBufferPtrs[1] = 0;
}
ASIOGetLatencies( &stream->inputLatency, &stream->outputLatency );
stream->streamRepresentation.streamInfo.inputLatency = (double)stream->inputLatency / sampleRate; // seconds
stream->streamRepresentation.streamInfo.outputLatency = (double)stream->outputLatency / sampleRate; // seconds
stream->streamRepresentation.streamInfo.sampleRate = sampleRate;
PA_DEBUG(("PaAsio : InputLatency = %ld latency = %ld msec \n",
stream->inputLatency,
(long)((stream->inputLatency*1000)/ sampleRate)));
PA_DEBUG(("PaAsio : OuputLatency = %ld latency = %ld msec \n",
stream->outputLatency,
(long)((stream->outputLatency*1000)/ sampleRate)));
if( numInputChannels > 0 )
{
/* FIXME: assume all channels use the same type for now */
ASIOSampleType inputType = stream->asioChannelInfos[0].type;
hostInputSampleFormat = AsioSampleTypeToPaNativeSampleFormat( inputType );
SelectAsioToPaConverter( inputType, &stream->inputBufferConverter, &stream->inputShift );
}
else
{
stream->inputBufferConverter = 0;
}
if( numOutputChannels > 0 )
{
/* FIXME: assume all channels use the same type for now */
ASIOSampleType outputType = stream->asioChannelInfos[numInputChannels].type;
hostOutputSampleFormat = AsioSampleTypeToPaNativeSampleFormat( outputType );
SelectPaToAsioConverter( outputType, &stream->outputBufferConverter, &stream->outputShift );
}
else
{
stream->outputBufferConverter = 0;
}
result = PaUtil_InitializeBufferProcessor( &stream->bufferProcessor,
numInputChannels, inputSampleFormat, hostInputSampleFormat,
numOutputChannels, outputSampleFormat, hostOutputSampleFormat,
sampleRate, streamFlags, framesPerBuffer,
framesPerHostBuffer, paUtilFixedHostBufferSize,
streamCallback, userData );
if( result != paNoError )
goto error;
stream->asioHostApi = asioHostApi;
stream->framesPerHostCallback = framesPerHostBuffer;
stream->numInputChannels = numInputChannels;
stream->numOutputChannels = numOutputChannels;
stream->postOutput = driverInfo.postOutput;
asioHostApi->driverOpen = 1;
*s = (PaStream*)stream;
return result;
error:
if( stream )
{
if( stream->asioBufferInfos )
PaUtil_FreeMemory( stream->asioBufferInfos );
if( stream->asioChannelInfos )
PaUtil_FreeMemory( stream->asioChannelInfos );
if( stream->bufferPtrs )
PaUtil_FreeMemory( stream->bufferPtrs );
PaUtil_FreeMemory( stream );
}
if( asioBuffersCreated )
ASIODisposeBuffers();
if( asioIsInitialized )
ASIOExit();
return result;
}
/*
When CloseStream() is called, the multi-api layer ensures that
the stream has already been stopped or aborted.
*/
static PaError CloseStream( PaStream* s )
{
PaError result = paNoError;
PaAsioStream *stream = (PaAsioStream*)s;
/*
IMPLEMENT ME:
- additional stream closing + cleanup
*/
PaUtil_TerminateBufferProcessor( &stream->bufferProcessor );
PaUtil_TerminateStreamRepresentation( &stream->streamRepresentation );
stream->asioHostApi->driverOpen = 0;
PaUtil_FreeMemory( stream->asioBufferInfos );
PaUtil_FreeMemory( stream->asioChannelInfos );
PaUtil_FreeMemory( stream->bufferPtrs );
PaUtil_FreeMemory( stream );
ASIODisposeBuffers();
ASIOExit();
return result;
}
static void bufferSwitch(long index, ASIOBool processNow)
{
//TAKEN FROM THE ASIO SDK
// the actual processing callback.
// Beware that this is normally in a seperate thread, hence be sure that
// you take care about thread synchronization. This is omitted here for
// simplicity.
// as this is a "back door" into the bufferSwitchTimeInfo a timeInfo needs
// to be created though it will only set the timeInfo.samplePosition and
// timeInfo.systemTime fields and the according flags
ASIOTime timeInfo;
memset( &timeInfo, 0, sizeof (timeInfo) );
// get the time stamp of the buffer, not necessary if no
// synchronization to other media is required
if( ASIOGetSamplePosition(&timeInfo.timeInfo.samplePosition, &timeInfo.timeInfo.systemTime) == ASE_OK)
timeInfo.timeInfo.flags = kSystemTimeValid | kSamplePositionValid;
// Call the real callback
bufferSwitchTimeInfo( &timeInfo, index, processNow );
}
// conversion from 64 bit ASIOSample/ASIOTimeStamp to double float
#if NATIVE_INT64
#define ASIO64toDouble(a) (a)
#else
const double twoRaisedTo32 = 4294967296.;
#define ASIO64toDouble(a) ((a).lo + (a).hi * twoRaisedTo32)
#endif
static ASIOTime *bufferSwitchTimeInfo( ASIOTime *timeInfo, long index, ASIOBool processNow )
{
// the actual processing callback.
// Beware that this is normally in a seperate thread, hence be sure that
// you take care about thread synchronization. This is omitted here for simplicity.
(void) processNow; /* unused parameter: FIXME: the sdk implies that we shouldn't process now if this parameter is false */
#if 0
// store the timeInfo for later use
asioDriverInfo.tInfo = *timeInfo;
// get the time stamp of the buffer, not necessary if no
// synchronization to other media is required
if (timeInfo->timeInfo.flags & kSystemTimeValid)
asioDriverInfo.nanoSeconds = ASIO64toDouble(timeInfo->timeInfo.systemTime);
else
asioDriverInfo.nanoSeconds = 0;
if (timeInfo->timeInfo.flags & kSamplePositionValid)
asioDriverInfo.samples = ASIO64toDouble(timeInfo->timeInfo.samplePosition);
else
asioDriverInfo.samples = 0;
if (timeInfo->timeCode.flags & kTcValid)
asioDriverInfo.tcSamples = ASIO64toDouble(timeInfo->timeCode.timeCodeSamples);
else
asioDriverInfo.tcSamples = 0;
// get the system reference time
asioDriverInfo.sysRefTime = get_sys_reference_time();
#endif
#if 0
// a few debug messages for the Windows device driver developer
// tells you the time when driver got its interrupt and the delay until the app receives
// the event notification.
static double last_samples = 0;
char tmp[128];
sprintf (tmp, "diff: %d / %d ms / %d ms / %d samples \n", asioDriverInfo.sysRefTime - (long)(asioDriverInfo.nanoSeconds / 1000000.0), asioDriverInfo.sysRefTime, (long)(asioDriverInfo.nanoSeconds / 1000000.0), (long)(asioDriverInfo.samples - last_samples));
OutputDebugString (tmp);
last_samples = asioDriverInfo.samples;
#endif
// Keep sample position
// FIXME: asioDriverInfo.pahsc_NumFramesDone = timeInfo->timeInfo.samplePosition.lo;
if( theAsioStream->stopProcessing || theAsioStream->abortProcessing ) {
ZeroOutputBuffers( theAsioStream, index );
// Finally if the driver supports the ASIOOutputReady() optimization,
// do it here, all data are in place
if( theAsioStream->postOutput )
ASIOOutputReady();
}
else
{
int i;
PaUtil_BeginCpuLoadMeasurement( &theAsioStream->cpuLoadMeasurer );
PaStreamCallbackTimeInfo paTimeInfo;
// asio systemTime is supposed to be measured according to the same
// clock as timeGetTime
paTimeInfo.currentTime = (ASIO64toDouble( timeInfo->timeInfo.systemTime ) * .000000001);
paTimeInfo.inputBufferAdcTime = paTimeInfo.currentTime - theAsioStream->streamRepresentation.streamInfo.inputLatency;
paTimeInfo.outputBufferDacTime = paTimeInfo.currentTime + theAsioStream->streamRepresentation.streamInfo.outputLatency;
if( theAsioStream->inputBufferConverter )
{
for( i=0; i<theAsioStream->numInputChannels; i++ )
{
theAsioStream->inputBufferConverter( theAsioStream->inputBufferPtrs[index][i],
theAsioStream->inputShift, theAsioStream->framesPerHostCallback );
}
}
PaUtil_BeginBufferProcessing( &theAsioStream->bufferProcessor, &paTimeInfo );
PaUtil_SetInputFrameCount( &theAsioStream->bufferProcessor, 0 /* default to host buffer size */ );
for( i=0; i<theAsioStream->numInputChannels; ++i )
PaUtil_SetNonInterleavedInputChannel( &theAsioStream->bufferProcessor, i, theAsioStream->inputBufferPtrs[index][i] );
PaUtil_SetOutputFrameCount( &theAsioStream->bufferProcessor, 0 /* default to host buffer size */ );
for( i=0; i<theAsioStream->numOutputChannels; ++i )
PaUtil_SetNonInterleavedOutputChannel( &theAsioStream->bufferProcessor, i, theAsioStream->outputBufferPtrs[index][i] );
int callbackResult;
unsigned long framesProcessed = PaUtil_EndBufferProcessing( &theAsioStream->bufferProcessor, &callbackResult );
if( theAsioStream->outputBufferConverter )
{
for( i=0; i<theAsioStream->numOutputChannels; i++ )
{
theAsioStream->outputBufferConverter( theAsioStream->outputBufferPtrs[index][i],
theAsioStream->outputShift, theAsioStream->framesPerHostCallback );
}
}
PaUtil_EndCpuLoadMeasurement( &theAsioStream->cpuLoadMeasurer, framesProcessed );
// Finally if the driver supports the ASIOOutputReady() optimization,
// do it here, all data are in place
if( theAsioStream->postOutput )
ASIOOutputReady();
if( callbackResult == paContinue )
{
/* nothing special to do */
}
else if( callbackResult == paAbort )
{
/* IMPLEMENT ME - finish playback immediately */
}
else
{
/* User callback has asked us to stop with paComplete or other non-zero value */
/* IMPLEMENT ME - finish playback once currently queued audio has completed */
}
}
return 0L;
}
static void sampleRateChanged(ASIOSampleRate sRate)
{
// TAKEN FROM THE ASIO SDK
// do whatever you need to do if the sample rate changed
// usually this only happens during external sync.
// Audio processing is not stopped by the driver, actual sample rate
// might not have even changed, maybe only the sample rate status of an
// AES/EBU or S/PDIF digital input at the audio device.
// You might have to update time/sample related conversion routines, etc.
(void) sRate; /* unused parameter */
}
static long asioMessages(long selector, long value, void* message, double* opt)
{
// TAKEN FROM THE ASIO SDK
// currently the parameters "value", "message" and "opt" are not used.
long ret = 0;
(void) message; /* unused parameters */
(void) opt;
switch(selector)
{
case kAsioSelectorSupported:
if(value == kAsioResetRequest
|| value == kAsioEngineVersion
|| value == kAsioResyncRequest
|| value == kAsioLatenciesChanged
// the following three were added for ASIO 2.0, you don't necessarily have to support them
|| value == kAsioSupportsTimeInfo
|| value == kAsioSupportsTimeCode
|| value == kAsioSupportsInputMonitor)
ret = 1L;
break;
case kAsioBufferSizeChange:
//printf("kAsioBufferSizeChange \n");
break;
case kAsioResetRequest:
// defer the task and perform the reset of the driver during the next "safe" situation
// You cannot reset the driver right now, as this code is called from the driver.
// Reset the driver is done by completely destruct is. I.e. ASIOStop(), ASIODisposeBuffers(), Destruction
// Afterwards you initialize the driver again.
/*FIXME: commented the next line out */
//asioDriverInfo.stopped; // In this sample the processing will just stop
ret = 1L;
break;
case kAsioResyncRequest:
// This informs the application, that the driver encountered some non fatal data loss.
// It is used for synchronization purposes of different media.
// Added mainly to work around the Win16Mutex problems in Windows 95/98 with the
// Windows Multimedia system, which could loose data because the Mutex was hold too long
// by another thread.
// However a driver can issue it in other situations, too.
ret = 1L;
break;
case kAsioLatenciesChanged:
// This will inform the host application that the drivers were latencies changed.
// Beware, it this does not mean that the buffer sizes have changed!
// You might need to update internal delay data.
ret = 1L;
//printf("kAsioLatenciesChanged \n");
break;
case kAsioEngineVersion:
// return the supported ASIO version of the host application
// If a host applications does not implement this selector, ASIO 1.0 is assumed
// by the driver
ret = 2L;
break;
case kAsioSupportsTimeInfo:
// informs the driver wether the asioCallbacks.bufferSwitchTimeInfo() callback
// is supported.
// For compatibility with ASIO 1.0 drivers the host application should always support
// the "old" bufferSwitch method, too.
ret = 1;
break;
case kAsioSupportsTimeCode:
// informs the driver wether application is interested in time code info.
// If an application does not need to know about time code, the driver has less work
// to do.
ret = 0;
break;
}
return ret;
}
static PaError StartStream( PaStream *s )
{
PaError result = paNoError;
PaAsioStream *stream = (PaAsioStream*)s;
ASIOError asioError;
if( stream->numOutputChannels > 0 )
{
ZeroOutputBuffers( stream, 0 );
ZeroOutputBuffers( stream, 1 );
}
stream->stopProcessing = 0;
stream->abortProcessing = 0;
theAsioStream = stream;
asioError = ASIOStart();
if( asioError != ASE_OK )
{
theAsioStream = 0;
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
}
return result;
}
static PaError StopStream( PaStream *s )
{
PaError result = paNoError;
PaAsioStream *stream = (PaAsioStream*)s;
ASIOError asioError;
stream->stopProcessing = 1;
stream->abortProcessing = 1;
asioError = ASIOStop();
if( asioError != ASE_OK )
{
result = paUnanticipatedHostError;
PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
}
theAsioStream = 0;
return result;
}
static PaError AbortStream( PaStream *s )
{
/* ASIO doesn't provide Abort behavior, so just stop instead */
return StopStream( s );
}
static PaError IsStreamStopped( PaStream *s )
{
//PaAsioStream *stream = (PaAsioStream*)s;
(void) s; /* unused parameter */
return theAsioStream == 0;
}
static PaError IsStreamActive( PaStream *s )
{
//PaAsioStream *stream = (PaAsioStream*)s;
(void) s; /* unused parameter */
return theAsioStream != 0; /* FIXME: currently there is no way to stop the stream from the callback */
}
static PaTime GetStreamTime( PaStream *s )
{
(void) s; /* unused parameter */
return (double)timeGetTime() * .001;
}
static double GetStreamCpuLoad( PaStream* s )
{
PaAsioStream *stream = (PaAsioStream*)s;
return PaUtil_GetCpuLoad( &stream->cpuLoadMeasurer );
}
/*
As separate stream interfaces are used for blocking and callback
streams, the following functions can be guaranteed to only be called
for blocking streams.
*/
static PaError ReadStream( PaStream* s,
void *buffer,
unsigned long frames )
{
PaAsioStream *stream = (PaAsioStream*)s;
/* IMPLEMENT ME, see portaudio.h for required behavior*/
(void) stream; /* unused parameters */
(void) buffer;
(void) frames;
return paNoError;
}
static PaError WriteStream( PaStream* s,
void *buffer,
unsigned long frames )
{
PaAsioStream *stream = (PaAsioStream*)s;
/* IMPLEMENT ME, see portaudio.h for required behavior*/
(void) stream; /* unused parameters */
(void) buffer;
(void) frames;
return paNoError;
}
static signed long GetStreamReadAvailable( PaStream* s )
{
PaAsioStream *stream = (PaAsioStream*)s;
/* IMPLEMENT ME, see portaudio.h for required behavior*/
(void) stream; /* unused parameter */
return 0;
}
static signed long GetStreamWriteAvailable( PaStream* s )
{
PaAsioStream *stream = (PaAsioStream*)s;
/* IMPLEMENT ME, see portaudio.h for required behavior*/
(void) stream; /* unused parameter */
return 0;
}
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