From 9c0e19a3be2288db79e2502e5fa450c3e20a668d Mon Sep 17 00:00:00 2001 From: Guenter Geiger Date: Fri, 9 May 2003 16:04:00 +0000 Subject: This commit was generated by cvs2svn to compensate for changes in r610, which included commits to RCS files with non-trunk default branches. svn path=/trunk/; revision=611 --- pd/portaudio/pa_win_ds/pa_win_ds.c | 1441 ++++++++++++++++++++++++++++++++++++ 1 file changed, 1441 insertions(+) create mode 100644 pd/portaudio/pa_win_ds/pa_win_ds.c (limited to 'pd/portaudio/pa_win_ds/pa_win_ds.c') diff --git a/pd/portaudio/pa_win_ds/pa_win_ds.c b/pd/portaudio/pa_win_ds/pa_win_ds.c new file mode 100644 index 00000000..b23a407e --- /dev/null +++ b/pd/portaudio/pa_win_ds/pa_win_ds.c @@ -0,0 +1,1441 @@ +/* + * $Id: pa_win_ds.c,v 1.1.2.29 2002/12/03 06:30:40 rossbencina Exp $ + * Portable Audio I/O Library DirectSound implementation + * + * Based on the Open Source API proposed by Ross Bencina + * Copyright (c) 1999-2002 Ross Bencina, Phil Burk + * + * 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. + */ + +/** @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 audit handling of DirectSound result codes - in many cases we could convert a HRESULT into + a native portaudio error code. Standard DirectSound result codes are documented at msdn. + + @todo implement IsFormatSupported + + @todo implement PaDeviceInfo.defaultSampleRate; +*/ + +#include +#include /* strlen() */ + +#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 "dsound_wrapper.h" + +/* TODO +O- fix "patest_stop.c" +O- Handle buffer underflow, overflow, etc. +*/ + +#define PRINT(x) { printf x; fflush(stdout); } +#define ERR_RPT(x) PRINT(x) +#define DBUG(x) /* PRINT(x) */ +#define DBUGX(x) /* PRINT(x) */ + +#define PA_USE_HIGH_LATENCY (0) +#if PA_USE_HIGH_LATENCY +#define PA_WIN_9X_LATENCY (500) +#define PA_WIN_NT_LATENCY (600) +#else +#define PA_WIN_9X_LATENCY (140) +#define PA_WIN_NT_LATENCY (280) +#endif + +#define PA_WIN_WDM_LATENCY (120) + +#define SECONDS_PER_MSEC (0.001) +#define MSEC_PER_SECOND (1000) + +/* prototypes for functions declared in this file */ + +PaError PaWinDs_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 ); + + +/* FIXME: should convert hr to a string */ +#define PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ) \ + PaUtil_SetLastHostErrorInfo( paDirectSound, hr, "DirectSound error" ) + +/************************************************* DX Prototypes **********/ +static BOOL CALLBACK Pa_EnumOutputProc(LPGUID lpGUID, + LPCTSTR lpszDesc, + LPCTSTR lpszDrvName, + LPVOID lpContext ); +static BOOL CALLBACK Pa_CountDevProc(LPGUID lpGUID, + LPCTSTR lpszDesc, + LPCTSTR lpszDrvName, + LPVOID lpContext ); + +/************************************************************************************/ +/********************** Structures **************************************************/ +/************************************************************************************/ +/* PaWinDsHostApiRepresentation - host api datastructure specific to this implementation */ + +typedef struct PaWinDsDeviceInfo +{ + GUID GUID; + GUID *lpGUID; + double sampleRates[3]; +} PaWinDsDeviceInfo; + +typedef struct +{ + PaUtilHostApiRepresentation inheritedHostApiRep; + PaUtilStreamInterface callbackStreamInterface; + PaUtilStreamInterface blockingStreamInterface; + + PaUtilAllocationGroup *allocations; + + /* implementation specific data goes here */ + PaWinDsDeviceInfo *winDsDeviceInfos; + PaError enumerationError; + +} PaWinDsHostApiRepresentation; + +/* PaWinDsStream - a stream data structure specifically for this implementation */ + +typedef struct PaWinDsStream +{ + PaUtilStreamRepresentation streamRepresentation; + PaUtilCpuLoadMeasurer cpuLoadMeasurer; + PaUtilBufferProcessor bufferProcessor; + +/* DirectSound specific data. */ + DSoundWrapper directSoundWrapper; + MMRESULT timerID; + BOOL ifInsideCallback; /* Test for reentrancy. */ + int framesPerDSBuffer; + double framesWritten; + double secondsPerHostByte; /* Used to optimize latency calculation for outTime */ + +/* FIXME - move all below to PaUtilStreamRepresentation */ + volatile int isStarted; + volatile int isActive; + volatile int stopProcessing; /* stop thread once existing buffers have been returned */ + volatile int abortProcessing; /* stop thread immediately */ +} PaWinDsStream; + + +/************************************************************************************ +** Just count devices so we know how much memory to allocate. +*/ +static BOOL CALLBACK Pa_CountDevProc(LPGUID lpGUID, + LPCTSTR lpszDesc, + LPCTSTR lpszDrvName, + LPVOID lpContext ) +{ + int *counterPtr = (int *)lpContext; + *counterPtr += 1; + return TRUE; +} + +/************************************************************************************ +** Extract capabilities info from each device. +*/ +static BOOL CALLBACK Pa_EnumOutputProc(LPGUID lpGUID, + LPCTSTR lpszDesc, + LPCTSTR lpszDrvName, + LPVOID lpContext ) +{ + HRESULT hr; + DSCAPS caps; + LPDIRECTSOUND lpDirectSound; + PaWinDsHostApiRepresentation *winDsHostApi = (PaWinDsHostApiRepresentation *) lpContext; + PaUtilHostApiRepresentation *hostApi = &winDsHostApi->inheritedHostApiRep; + int index = hostApi->info.deviceCount; + PaDeviceInfo *deviceInfo = hostApi->deviceInfos[index]; + PaWinDsDeviceInfo *winDsDeviceInfo = &winDsHostApi->winDsDeviceInfos[index]; + int deviceOK = TRUE; + + /* Copy GUID to static array. Set pointer. */ + if( lpGUID == NULL ) + { + winDsDeviceInfo->lpGUID = NULL; + } + else + { + winDsDeviceInfo->lpGUID = &winDsDeviceInfo->GUID; + memcpy( &winDsDeviceInfo->GUID, lpGUID, sizeof(GUID) ); + } + + + /********** Output ******************************/ + + /* Create interfaces for each object. */ + hr = dswDSoundEntryPoints.DirectSoundCreate( lpGUID, &lpDirectSound, NULL ); + if( hr != DS_OK ) + { + deviceInfo->maxOutputChannels = 0; + DBUG(("Cannot create dsound for %s. Result = 0x%x\n", lpszDesc, hr )); + deviceOK = FALSE; + } + else + { + /* Query device characteristics. */ + caps.dwSize = sizeof(caps); + IDirectSound_GetCaps( lpDirectSound, &caps ); + +#ifndef PA_NO_WMME + if( caps.dwFlags & DSCAPS_EMULDRIVER ) + { + /* If WMME supported, then reject Emulated drivers because they are lousy. */ + deviceOK = FALSE; + } +#endif + + if( deviceOK ) + { + /* Mono or stereo device? */ + deviceInfo->maxOutputChannels = ( caps.dwFlags & DSCAPS_PRIMARYSTEREO ) ? 2 : 1; + + deviceInfo->defaultSampleRate = 0.; /* @todo IMPLEMENT ME */ + + /* Get sample rates. */ + /* + winDsDeviceInfo->sampleRates[0] = (double) caps.dwMinSecondarySampleRate; + winDsDeviceInfo->sampleRates[1] = (double) caps.dwMaxSecondarySampleRate; + if( caps.dwFlags & DSCAPS_CONTINUOUSRATE ) deviceInfo->numSampleRates = -1; + else if( caps.dwMinSecondarySampleRate == caps.dwMaxSecondarySampleRate ) + { + if( caps.dwMinSecondarySampleRate == 0 ) + { + // + // On my Thinkpad 380Z, DirectSoundV6 returns min-max=0 !! + // But it supports continuous sampling. + // So fake range of rates, and hope it really supports it. + // + winDsDeviceInfo->sampleRates[0] = 11025.0f; + winDsDeviceInfo->sampleRates[1] = 48000.0f; + deviceInfo->numSampleRates = -1; // continuous range + + DBUG(("PA - Reported rates both zero. Setting to fake values for device #%d\n", sDeviceIndex )); + } + else + { + deviceInfo->numSampleRates = 1; + } + } + else if( (caps.dwMinSecondarySampleRate < 1000.0) && (caps.dwMaxSecondarySampleRate > 50000.0) ) + { + // The EWS88MT drivers lie, lie, lie. The say they only support two rates, 100 & 100000. + // But we know that they really support a range of rates! + // So when we see a ridiculous set of rates, assume it is a range. + // + deviceInfo->numSampleRates = -1; + DBUG(("PA - Sample rate range used instead of two odd values for device #%d\n", sDeviceIndex )); + } + else deviceInfo->numSampleRates = 2; + */ + } + + IDirectSound_Release( lpDirectSound ); + } + + if( deviceOK ) + { + if( lpGUID == NULL ) hostApi->info.defaultOutputDevice = index; + + /* Allocate room for descriptive name. */ + if( lpszDesc != NULL ) + { + char *deviceName; + int len = strlen(lpszDesc); + deviceName = (char*)PaUtil_GroupAllocateMemory( winDsHostApi->allocations, len + 1 ); + if( !deviceName ) + { + winDsHostApi->enumerationError = paInsufficientMemory; + return FALSE; + } + memcpy( (void *) deviceName, lpszDesc, len+1 ); + deviceInfo->name = deviceName; + } + + hostApi->info.deviceCount++; + } + + return( TRUE ); +} + + +/************************************************************************************ +** Extract capabilities info from each device. +*/ +static BOOL CALLBACK Pa_EnumInputProc(LPGUID lpGUID, + LPCTSTR lpszDesc, + LPCTSTR lpszDrvName, + LPVOID lpContext ) +{ + HRESULT hr; + DSCCAPS caps; + LPDIRECTSOUNDCAPTURE lpDirectSoundCapture; + PaWinDsHostApiRepresentation *winDsHostApi = (PaWinDsHostApiRepresentation *) lpContext; + PaUtilHostApiRepresentation *hostApi = &winDsHostApi->inheritedHostApiRep; + int index = hostApi->info.deviceCount; + PaDeviceInfo *deviceInfo = hostApi->deviceInfos[index]; + PaWinDsDeviceInfo *winDsDeviceInfo = &winDsHostApi->winDsDeviceInfos[index]; + int deviceOK = TRUE; + + /* Copy GUID to static array. Set pointer. */ + if( lpGUID == NULL ) + { + winDsDeviceInfo->lpGUID = NULL; + } + else + { + winDsDeviceInfo->lpGUID = &winDsDeviceInfo->GUID; + memcpy( &winDsDeviceInfo->GUID, lpGUID, sizeof(GUID) ); + } + + /********** Input ******************************/ + + hr = dswDSoundEntryPoints.DirectSoundCaptureCreate( lpGUID, &lpDirectSoundCapture, NULL ); + if( hr != DS_OK ) + { + deviceInfo->maxInputChannels = 0; + DBUG(("Cannot create Capture for %s. Result = 0x%x\n", lpszDesc, hr )); + deviceOK = FALSE; + } + else + { + /* Query device characteristics. */ + caps.dwSize = sizeof(caps); + IDirectSoundCapture_GetCaps( lpDirectSoundCapture, &caps ); + + /* printf("caps.dwFormats = 0x%x\n", caps.dwFormats ); */ + deviceInfo->maxInputChannels = caps.dwChannels; + /* Determine sample rates from flags. */ + /* + if( caps.dwChannels == 2 ) + { + int index = 0; + if( caps.dwFormats & WAVE_FORMAT_1S16) winDsDeviceInfo->sampleRates[index++] = 11025.0; + if( caps.dwFormats & WAVE_FORMAT_2S16) winDsDeviceInfo->sampleRates[index++] = 22050.0; + if( caps.dwFormats & WAVE_FORMAT_4S16) winDsDeviceInfo->sampleRates[index++] = 44100.0; + deviceInfo->numSampleRates = index; + } + else if( caps.dwChannels == 1 ) + { + int index = 0; + if( caps.dwFormats & WAVE_FORMAT_1M16) winDsDeviceInfo->sampleRates[index++] = 11025.0; + if( caps.dwFormats & WAVE_FORMAT_2M16) winDsDeviceInfo->sampleRates[index++] = 22050.0; + if( caps.dwFormats & WAVE_FORMAT_4M16) winDsDeviceInfo->sampleRates[index++] = 44100.0; + deviceInfo->numSampleRates = index; + } + else + { + deviceInfo->numSampleRates = 0; + deviceOK = FALSE; + } + */ + IDirectSoundCapture_Release( lpDirectSoundCapture ); + } + + if( deviceOK ) + { + /* Allocate room for descriptive name. */ + if( lpszDesc != NULL ) + { + char *deviceName; + int len = strlen(lpszDesc); + deviceName = (char*)PaUtil_GroupAllocateMemory( winDsHostApi->allocations, len + 1 ); + if( !deviceName ) + { + winDsHostApi->enumerationError = paInsufficientMemory; + return FALSE; + } + memcpy( (void *) deviceName, lpszDesc, len+1 ); + deviceInfo->name = deviceName; + } + + if( lpGUID == NULL ) hostApi->info.defaultInputDevice = index; + + hostApi->info.deviceCount++; + } + + return TRUE; +} + + +/***********************************************************************************/ +PaError PaWinDs_Initialize( PaUtilHostApiRepresentation **hostApi, PaHostApiIndex hostApiIndex ) +{ + PaError result = paNoError; + int i, deviceCount; + PaWinDsHostApiRepresentation *winDsHostApi; + PaDeviceInfo *deviceInfoArray; + + DSW_InitializeDSoundEntryPoints(); + + winDsHostApi = (PaWinDsHostApiRepresentation*)PaUtil_AllocateMemory( sizeof(PaWinDsHostApiRepresentation) ); + if( !winDsHostApi ) + { + result = paInsufficientMemory; + goto error; + } + + winDsHostApi->allocations = PaUtil_CreateAllocationGroup(); + if( !winDsHostApi->allocations ) + { + result = paInsufficientMemory; + goto error; + } + + *hostApi = &winDsHostApi->inheritedHostApiRep; + (*hostApi)->info.structVersion = 1; + (*hostApi)->info.type = paDirectSound; + (*hostApi)->info.name = "Windows DirectSound"; + + (*hostApi)->info.deviceCount = 0; + (*hostApi)->info.defaultInputDevice = paNoDevice; + (*hostApi)->info.defaultOutputDevice = paNoDevice; + + deviceCount = 0; +/* DSound - enumerate devices to count them. */ + dswDSoundEntryPoints.DirectSoundEnumerate( (LPDSENUMCALLBACK)Pa_CountDevProc, &deviceCount ); + dswDSoundEntryPoints.DirectSoundCaptureEnumerate( (LPDSENUMCALLBACK)Pa_CountDevProc, &deviceCount ); + + if( deviceCount > 0 ) + { + /* allocate array for pointers to PaDeviceInfo structs */ + (*hostApi)->deviceInfos = (PaDeviceInfo**)PaUtil_GroupAllocateMemory( + winDsHostApi->allocations, sizeof(PaDeviceInfo*) * deviceCount ); + if( !(*hostApi)->deviceInfos ) + { + result = paInsufficientMemory; + goto error; + } + + /* allocate all PaDeviceInfo structs in a contiguous block */ + deviceInfoArray = (PaDeviceInfo*)PaUtil_GroupAllocateMemory( + winDsHostApi->allocations, sizeof(PaDeviceInfo) * deviceCount ); + if( !deviceInfoArray ) + { + result = paInsufficientMemory; + goto error; + } + + /* allocate all DSound specific info structs in a contiguous block */ + winDsHostApi->winDsDeviceInfos = (PaWinDsDeviceInfo*)PaUtil_GroupAllocateMemory( + winDsHostApi->allocations, sizeof(PaWinDsDeviceInfo) * deviceCount ); + if( !winDsHostApi->winDsDeviceInfos ) + { + result = paInsufficientMemory; + goto error; + } + + for( i=0; i < deviceCount; ++i ) + { + PaDeviceInfo *deviceInfo = &deviceInfoArray[i]; + deviceInfo->structVersion = 2; + deviceInfo->hostApi = hostApiIndex; + deviceInfo->name = 0; + + deviceInfo->defaultLowInputLatency = 0.; /* @todo IMPLEMENT ME */ + deviceInfo->defaultLowOutputLatency = 0.; /* @todo IMPLEMENT ME */ + deviceInfo->defaultHighInputLatency = 0.; /* @todo IMPLEMENT ME */ + deviceInfo->defaultHighOutputLatency = 0.; /* @todo IMPLEMENT ME */ + + (*hostApi)->deviceInfos[i] = deviceInfo; + } + + /* DSound - Enumerate again to fill in structures. */ + winDsHostApi->enumerationError = 0; + dswDSoundEntryPoints.DirectSoundEnumerate( (LPDSENUMCALLBACK)Pa_EnumOutputProc, (void *)winDsHostApi ); + if( winDsHostApi->enumerationError != paNoError ) return winDsHostApi->enumerationError; + + winDsHostApi->enumerationError = 0; + dswDSoundEntryPoints.DirectSoundCaptureEnumerate( (LPDSENUMCALLBACK)Pa_EnumInputProc, (void *)winDsHostApi ); + if( winDsHostApi->enumerationError != paNoError ) return winDsHostApi->enumerationError; + } + + (*hostApi)->Terminate = Terminate; + (*hostApi)->OpenStream = OpenStream; + (*hostApi)->IsFormatSupported = IsFormatSupported; + + PaUtil_InitializeStreamInterface( &winDsHostApi->callbackStreamInterface, CloseStream, StartStream, + StopStream, AbortStream, IsStreamStopped, IsStreamActive, + GetStreamTime, GetStreamCpuLoad, + PaUtil_DummyReadWrite, PaUtil_DummyReadWrite, PaUtil_DummyGetAvailable, PaUtil_DummyGetAvailable ); + + PaUtil_InitializeStreamInterface( &winDsHostApi->blockingStreamInterface, CloseStream, StartStream, + StopStream, AbortStream, IsStreamStopped, IsStreamActive, + GetStreamTime, PaUtil_DummyGetCpuLoad, + ReadStream, WriteStream, GetStreamReadAvailable, GetStreamWriteAvailable ); + + return result; + +error: + if( winDsHostApi ) + { + if( winDsHostApi->allocations ) + { + PaUtil_FreeAllAllocations( winDsHostApi->allocations ); + PaUtil_DestroyAllocationGroup( winDsHostApi->allocations ); + } + + PaUtil_FreeMemory( winDsHostApi ); + } + return result; +} + + +/***********************************************************************************/ +static void Terminate( struct PaUtilHostApiRepresentation *hostApi ) +{ + PaWinDsHostApiRepresentation *winDsHostApi = (PaWinDsHostApiRepresentation*)hostApi; + + /* + IMPLEMENT ME: + - clean up any resourced not handled by the allocation group + */ + + if( winDsHostApi->allocations ) + { + PaUtil_FreeAllAllocations( winDsHostApi->allocations ); + PaUtil_DestroyAllocationGroup( winDsHostApi->allocations ); + } + + PaUtil_FreeMemory( winDsHostApi ); + + DSW_TerminateDSoundEntryPoints(); +} + + +/* Set minimal latency based on whether NT or Win95. + * NT has higher latency. + */ +static int PaWinDS_GetMinSystemLatency( void ) +{ + int minLatencyMsec; + /* Set minimal latency based on whether NT or other OS. + * NT has higher latency. + */ + OSVERSIONINFO osvi; + osvi.dwOSVersionInfoSize = sizeof( osvi ); + GetVersionEx( &osvi ); + DBUG(("PA - PlatformId = 0x%x\n", osvi.dwPlatformId )); + DBUG(("PA - MajorVersion = 0x%x\n", osvi.dwMajorVersion )); + DBUG(("PA - MinorVersion = 0x%x\n", osvi.dwMinorVersion )); + /* Check for NT */ + if( (osvi.dwMajorVersion == 4) && (osvi.dwPlatformId == 2) ) + { + minLatencyMsec = PA_WIN_NT_LATENCY; + } + else if(osvi.dwMajorVersion >= 5) + { + minLatencyMsec = PA_WIN_WDM_LATENCY; + } + else + { + minLatencyMsec = PA_WIN_9X_LATENCY; + } + return minLatencyMsec; +} + +/***********************************************************************************/ +static PaError IsFormatSupported( struct PaUtilHostApiRepresentation *hostApi, + const PaStreamParameters *inputParameters, + const PaStreamParameters *outputParameters, + double sampleRate ) +{ + int inputChannelCount, outputChannelCount; + PaSampleFormat inputSampleFormat, outputSampleFormat; + + if( inputParameters ) + { + inputChannelCount = 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 inputChannelCount */ + if( inputChannelCount > hostApi->deviceInfos[ inputParameters->device ]->maxInputChannels ) + return paInvalidChannelCount; + + /* validate inputStreamInfo */ + if( inputParameters->hostApiSpecificStreamInfo ) + return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */ + } + else + { + inputChannelCount = 0; + } + + if( outputParameters ) + { + outputChannelCount = 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 inputChannelCount */ + if( outputChannelCount > hostApi->deviceInfos[ outputParameters->device ]->maxOutputChannels ) + return paInvalidChannelCount; + + /* validate outputStreamInfo */ + if( outputParameters->hostApiSpecificStreamInfo ) + return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */ + } + else + { + outputChannelCount = 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; +} + + +/************************************************************************* +** Determine minimum number of buffers required for this host based +** on minimum latency. Latency can be optionally set by user by setting +** an environment variable. For example, to set latency to 200 msec, put: +** +** set PA_MIN_LATENCY_MSEC=200 +** +** in the AUTOEXEC.BAT file and reboot. +** If the environment variable is not set, then the latency will be determined +** based on the OS. Windows NT has higher latency than Win95. +*/ +#define PA_LATENCY_ENV_NAME ("PA_MIN_LATENCY_MSEC") +#define PA_ENV_BUF_SIZE (32) + +static int PaWinDs_GetMinLatencyFrames( double sampleRate ) +{ + char envbuf[PA_ENV_BUF_SIZE]; + DWORD hresult; + int minLatencyMsec = 0; + + /* Let user determine minimal latency by setting environment variable. */ + hresult = GetEnvironmentVariable( PA_LATENCY_ENV_NAME, envbuf, PA_ENV_BUF_SIZE ); + if( (hresult > 0) && (hresult < PA_ENV_BUF_SIZE) ) + { + minLatencyMsec = atoi( envbuf ); + } + else + { + minLatencyMsec = PaWinDS_GetMinSystemLatency(); +#if PA_USE_HIGH_LATENCY + PRINT(("PA - Minimum Latency set to %d msec!\n", minLatencyMsec )); +#endif + + } + + return (int) (minLatencyMsec * sampleRate * SECONDS_PER_MSEC); +} + +/***********************************************************************************/ +/* 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; + PaWinDsHostApiRepresentation *winDsHostApi = (PaWinDsHostApiRepresentation*)hostApi; + PaWinDsStream *stream = 0; + int inputChannelCount, outputChannelCount; + PaSampleFormat inputSampleFormat, outputSampleFormat; + PaSampleFormat hostInputSampleFormat, hostOutputSampleFormat; + unsigned long suggestedInputLatencyFrames, suggestedOutputLatencyFrames; + + if( inputParameters ) + { + inputChannelCount = inputParameters->channelCount; + inputSampleFormat = inputParameters->sampleFormat; + suggestedInputLatencyFrames = inputParameters->suggestedLatency * sampleRate; + + /* IDEA: the following 3 checks could be performed by default by pa_front + unless some flag indicated otherwise */ + + /* unless alternate device specification is supported, reject the use of + paUseHostApiSpecificDeviceSpecification */ + if( inputParameters->device == paUseHostApiSpecificDeviceSpecification ) + return paInvalidDevice; + + /* check that input device can support inputChannelCount */ + if( inputChannelCount > hostApi->deviceInfos[ inputParameters->device ]->maxInputChannels ) + return paInvalidChannelCount; + + /* validate hostApiSpecificStreamInfo */ + if( inputParameters->hostApiSpecificStreamInfo ) + return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */ + } + else + { + inputChannelCount = 0; + suggestedInputLatencyFrames = 0; + } + + + if( outputParameters ) + { + outputChannelCount = outputParameters->channelCount; + outputSampleFormat = outputParameters->sampleFormat; + suggestedOutputLatencyFrames = outputParameters->suggestedLatency * sampleRate; + + /* unless alternate device specification is supported, reject the use of + paUseHostApiSpecificDeviceSpecification */ + if( outputParameters->device == paUseHostApiSpecificDeviceSpecification ) + return paInvalidDevice; + + /* check that output device can support inputChannelCount */ + if( outputChannelCount > hostApi->deviceInfos[ outputParameters->device ]->maxOutputChannels ) + return paInvalidChannelCount; + + /* validate hostApiSpecificStreamInfo */ + if( outputParameters->hostApiSpecificStreamInfo ) + return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */ + } + else + { + outputChannelCount = 0; + suggestedOutputLatencyFrames = 0; + } + + + /* + IMPLEMENT ME: + + ( the following two checks are taken care of by PaUtil_InitializeBufferProcessor() ) + + - 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 + + - alter sampleRate to a close allowable rate if possible / necessary + + - validate suggestedInputLatency and suggestedOutputLatency parameters, + use default values where necessary + */ + + + /* validate platform specific flags */ + if( (streamFlags & paPlatformSpecificFlags) != 0 ) + return paInvalidFlag; /* unexpected platform specific flag */ + + + stream = (PaWinDsStream*)PaUtil_AllocateMemory( sizeof(PaWinDsStream) ); + if( !stream ) + { + result = paInsufficientMemory; + goto error; + } + + if( streamCallback ) + { + PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation, + &winDsHostApi->callbackStreamInterface, streamCallback, userData ); + } + else + { + PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation, + &winDsHostApi->blockingStreamInterface, streamCallback, userData ); + } + + stream->streamRepresentation.streamInfo.inputLatency = 0.; /* FIXME: not initialised anywhere else */ + stream->streamRepresentation.streamInfo.outputLatency = 0.; + stream->streamRepresentation.streamInfo.sampleRate = sampleRate; + + + PaUtil_InitializeCpuLoadMeasurer( &stream->cpuLoadMeasurer, sampleRate ); + + + if( inputParameters ) + { + /* IMPLEMENT ME - establish which host formats are available */ + hostInputSampleFormat = + PaUtil_SelectClosestAvailableFormat( paInt16 /* native formats */, inputParameters->sampleFormat ); + } + + if( outputParameters ) + { + /* IMPLEMENT ME - establish which host formats are available */ + hostOutputSampleFormat = + PaUtil_SelectClosestAvailableFormat( paInt16 /* native formats */, outputParameters->sampleFormat ); + } + + result = PaUtil_InitializeBufferProcessor( &stream->bufferProcessor, + inputChannelCount, inputSampleFormat, hostInputSampleFormat, + outputChannelCount, outputSampleFormat, hostOutputSampleFormat, + sampleRate, streamFlags, framesPerBuffer, + framesPerBuffer, /* ignored in paUtilVariableHostBufferSizePartialUsageAllowed mode. */ + /* This next mode is required because DS can split the host buffer when it wraps around. */ + paUtilVariableHostBufferSizePartialUsageAllowed, + streamCallback, userData ); + if( result != paNoError ) + goto error; + +/* DirectSound specific initialization */ + { + HRESULT hr; + int bytesPerDirectSoundBuffer; + DSoundWrapper *dsw; + int userLatencyFrames; + int minLatencyFrames; + + stream->timerID = 0; + dsw = &stream->directSoundWrapper; + DSW_Init( dsw ); + + /* Get system minimum latency. */ + minLatencyFrames = PaWinDs_GetMinLatencyFrames( sampleRate ); + + /* Let user override latency by passing latency parameter. */ + userLatencyFrames = (suggestedInputLatencyFrames > suggestedOutputLatencyFrames) + ? suggestedInputLatencyFrames + : suggestedOutputLatencyFrames; + if( userLatencyFrames > 0 ) minLatencyFrames = userLatencyFrames; + + /* Calculate stream->framesPerDSBuffer depending on framesPerBuffer */ + if( framesPerBuffer == paFramesPerBufferUnspecified ) + { + /* App support variable framesPerBuffer */ + stream->framesPerDSBuffer = minLatencyFrames; + + stream->streamRepresentation.streamInfo.outputLatency = (double)(minLatencyFrames - 1) / sampleRate; + } + else + { + /* Round up to number of buffers needed to guarantee that latency. */ + int numUserBuffers = (minLatencyFrames + framesPerBuffer - 1) / framesPerBuffer; + if( numUserBuffers < 1 ) numUserBuffers = 1; + numUserBuffers += 1; /* So we have latency worth of buffers ahead of current buffer. */ + stream->framesPerDSBuffer = framesPerBuffer * numUserBuffers; + + stream->streamRepresentation.streamInfo.outputLatency = (double)(framesPerBuffer * (numUserBuffers-1)) / sampleRate; + } + + { + /* @todo REVIEW: this calculation seems incorrect to me - rossb. */ + int msecLatency = (int) ((stream->framesPerDSBuffer * MSEC_PER_SECOND) / sampleRate); + PRINT(("PortAudio on DirectSound - Latency = %d frames, %d msec\n", stream->framesPerDSBuffer, msecLatency )); + } + + + /* ------------------ OUTPUT */ + if( outputParameters ) + { + PaDeviceInfo *deviceInfo = hostApi->deviceInfos[ outputParameters->device ]; + DBUG(("PaHost_OpenStream: deviceID = 0x%x\n", outputDevice)); + + bytesPerDirectSoundBuffer = stream->framesPerDSBuffer * outputParameters->channelCount * sizeof(short); + if( bytesPerDirectSoundBuffer < DSBSIZE_MIN ) + { + result = paBufferTooSmall; + goto error; + } + else if( bytesPerDirectSoundBuffer > DSBSIZE_MAX ) + { + result = paBufferTooBig; + goto error; + } + + + hr = dswDSoundEntryPoints.DirectSoundCreate( winDsHostApi->winDsDeviceInfos[outputParameters->device].lpGUID, + &dsw->dsw_pDirectSound, NULL ); + if( hr != DS_OK ) + { + ERR_RPT(("PortAudio: DirectSoundCreate() failed!\n")); + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + hr = DSW_InitOutputBuffer( dsw, + (unsigned long) (sampleRate + 0.5), + outputParameters->channelCount, bytesPerDirectSoundBuffer ); + DBUG(("DSW_InitOutputBuffer() returns %x\n", hr)); + if( hr != DS_OK ) + { + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + /* Calculate value used in latency calculation to avoid real-time divides. */ + stream->secondsPerHostByte = 1.0 / + (stream->bufferProcessor.bytesPerHostOutputSample * + outputChannelCount * sampleRate); + } + + /* ------------------ INPUT */ + if( inputParameters ) + { + PaDeviceInfo *deviceInfo = hostApi->deviceInfos[ inputParameters->device ]; + + bytesPerDirectSoundBuffer = stream->framesPerDSBuffer * inputParameters->channelCount * sizeof(short); + if( bytesPerDirectSoundBuffer < DSBSIZE_MIN ) + { + result = paBufferTooSmall; + goto error; + } + else if( bytesPerDirectSoundBuffer > DSBSIZE_MAX ) + { + result = paBufferTooBig; + goto error; + } + + hr = dswDSoundEntryPoints.DirectSoundCaptureCreate( winDsHostApi->winDsDeviceInfos[inputParameters->device].lpGUID, + &dsw->dsw_pDirectSoundCapture, NULL ); + if( hr != DS_OK ) + { + ERR_RPT(("PortAudio: DirectSoundCaptureCreate() failed!\n")); + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + hr = DSW_InitInputBuffer( dsw, + (unsigned long) (sampleRate + 0.5), + inputParameters->channelCount, bytesPerDirectSoundBuffer ); + DBUG(("DSW_InitInputBuffer() returns %x\n", hr)); + if( hr != DS_OK ) + { + ERR_RPT(("PortAudio: DSW_InitInputBuffer() returns %x\n", hr)); + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + } + + } + + *s = (PaStream*)stream; + + return result; + +error: + if( stream ) + PaUtil_FreeMemory( stream ); + + return result; +} + + +/***********************************************************************************/ +static PaError Pa_TimeSlice( PaWinDsStream *stream ) +{ + PaError result = 0; /* FIXME: this should be declared int and this function should also return that type (same as stream callback return type)*/ + DSoundWrapper *dsw; + long numFrames = 0; + long bytesEmpty = 0; + long bytesFilled = 0; + long bytesToXfer = 0; + long framesToXfer = 0; + long numInFramesReady = 0; + long numOutFramesReady = 0; + long bytesProcessed; + HRESULT hresult; + double outputLatency = 0; + PaStreamCallbackTimeInfo timeInfo = {0,0,0}; /* @todo implement inputBufferAdcTime */ +/* Input */ + LPBYTE lpInBuf1 = NULL; + LPBYTE lpInBuf2 = NULL; + DWORD dwInSize1 = 0; + DWORD dwInSize2 = 0; +/* Output */ + LPBYTE lpOutBuf1 = NULL; + LPBYTE lpOutBuf2 = NULL; + DWORD dwOutSize1 = 0; + DWORD dwOutSize2 = 0; + + dsw = &stream->directSoundWrapper; + + /* How much input data is available? */ + if( stream->bufferProcessor.inputChannelCount > 0 ) + { + DSW_QueryInputFilled( dsw, &bytesFilled ); + framesToXfer = numInFramesReady = bytesFilled / dsw->dsw_BytesPerInputFrame; + outputLatency = ((double)bytesFilled) * stream->secondsPerHostByte; + } + + /* How much output room is available? */ + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + DSW_QueryOutputSpace( dsw, &bytesEmpty ); + framesToXfer = numOutFramesReady = bytesEmpty / dsw->dsw_BytesPerOutputFrame; + } + + if( (numInFramesReady > 0) && (numOutFramesReady > 0) ) + { + framesToXfer = (numOutFramesReady < numInFramesReady) ? numOutFramesReady : numInFramesReady; + } + + if( framesToXfer > 0 ) + { + + PaUtil_BeginCpuLoadMeasurement( &stream->cpuLoadMeasurer ); + + /* The outputBufferDacTime parameter should indicates the time at which + the first sample of the output buffer is heard at the DACs. */ + timeInfo.currentTime = PaUtil_GetTime(); + timeInfo.outputBufferDacTime = timeInfo.currentTime + outputLatency; + + + PaUtil_BeginBufferProcessing( &stream->bufferProcessor, &timeInfo ); + + /* Input */ + if( stream->bufferProcessor.inputChannelCount > 0 ) + { + bytesToXfer = framesToXfer * dsw->dsw_BytesPerInputFrame; + hresult = IDirectSoundCaptureBuffer_Lock ( dsw->dsw_InputBuffer, + dsw->dsw_ReadOffset, bytesToXfer, + (void **) &lpInBuf1, &dwInSize1, + (void **) &lpInBuf2, &dwInSize2, 0); + if (hresult != DS_OK) + { + ERR_RPT(("DirectSound IDirectSoundCaptureBuffer_Lock failed, hresult = 0x%x\n",hresult)); + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hresult ); + goto error2; + } + + numFrames = dwInSize1 / dsw->dsw_BytesPerInputFrame; + PaUtil_SetInputFrameCount( &stream->bufferProcessor, numFrames ); + PaUtil_SetInterleavedInputChannels( &stream->bufferProcessor, 0, lpInBuf1, 0 ); + /* Is input split into two regions. */ + if( dwInSize2 > 0 ) + { + numFrames = dwInSize2 / dsw->dsw_BytesPerInputFrame; + PaUtil_Set2ndInputFrameCount( &stream->bufferProcessor, numFrames ); + PaUtil_Set2ndInterleavedInputChannels( &stream->bufferProcessor, 0, lpInBuf2, 0 ); + } + } + + /* Output */ + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + bytesToXfer = framesToXfer * dsw->dsw_BytesPerOutputFrame; + hresult = IDirectSoundBuffer_Lock ( dsw->dsw_OutputBuffer, + dsw->dsw_WriteOffset, bytesToXfer, + (void **) &lpOutBuf1, &dwOutSize1, + (void **) &lpOutBuf2, &dwOutSize2, 0); + if (hresult != DS_OK) + { + ERR_RPT(("DirectSound IDirectSoundBuffer_Lock failed, hresult = 0x%x\n",hresult)); + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hresult ); + goto error1; + } + + numFrames = dwOutSize1 / dsw->dsw_BytesPerOutputFrame; + PaUtil_SetOutputFrameCount( &stream->bufferProcessor, numFrames ); + PaUtil_SetInterleavedOutputChannels( &stream->bufferProcessor, 0, lpOutBuf1, 0 ); + + /* Is output split into two regions. */ + if( dwOutSize2 > 0 ) + { + numFrames = dwOutSize2 / dsw->dsw_BytesPerOutputFrame; + PaUtil_Set2ndOutputFrameCount( &stream->bufferProcessor, numFrames ); + PaUtil_Set2ndInterleavedOutputChannels( &stream->bufferProcessor, 0, lpOutBuf2, 0 ); + } + } + + numFrames = PaUtil_EndBufferProcessing( &stream->bufferProcessor, &result ); + stream->framesWritten += numFrames; + + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + /* Update our buffer offset and unlock sound buffer */ + bytesProcessed = numFrames * dsw->dsw_BytesPerOutputFrame; + dsw->dsw_WriteOffset = (dsw->dsw_WriteOffset + bytesProcessed) % dsw->dsw_OutputSize; + IDirectSoundBuffer_Unlock( dsw->dsw_OutputBuffer, lpOutBuf1, dwOutSize1, lpOutBuf2, dwOutSize2); + dsw->dsw_FramesWritten += numFrames; + } + +error1: + if( stream->bufferProcessor.inputChannelCount > 0 ) + { + /* Update our buffer offset and unlock sound buffer */ + bytesProcessed = numFrames * dsw->dsw_BytesPerInputFrame; + dsw->dsw_ReadOffset = (dsw->dsw_ReadOffset + bytesProcessed) % dsw->dsw_InputSize; + IDirectSoundCaptureBuffer_Unlock( dsw->dsw_InputBuffer, lpInBuf1, dwInSize1, lpInBuf2, dwInSize2); + } +error2: + + PaUtil_EndCpuLoadMeasurement( &stream->cpuLoadMeasurer, numFrames ); + + } + + return result; +} +/*******************************************************************/ +static void CALLBACK Pa_TimerCallback(UINT uID, UINT uMsg, DWORD dwUser, DWORD dw1, DWORD dw2) +{ + PaWinDsStream *stream; + + stream = (PaWinDsStream *) dwUser; + if( stream == NULL ) return; + + if( stream->isActive ) + { + if( stream->abortProcessing ) + { + stream->isActive = 0; + } + else if( stream->stopProcessing ) + { + DSoundWrapper *dsw = &stream->directSoundWrapper; + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + DSW_ZeroEmptySpace( dsw ); + /* clear isActive when all sound played */ + if( dsw->dsw_FramesPlayed >= stream->framesWritten ) + { + stream->isActive = 0; + } + } + else + { + stream->isActive = 0; + } + } + else + { + if( Pa_TimeSlice( stream ) != 0) /* Call time slice independant of timing method. */ + { + /* FIXME implement handling of paComplete and paAbort if possible */ + stream->stopProcessing = 1; + } + } + + if( !stream->isActive ){ + if( stream->streamRepresentation.streamFinishedCallback != 0 ) + stream->streamRepresentation.streamFinishedCallback( stream->streamRepresentation.userData ); + } + } +} + +/*********************************************************************************** + 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; + PaWinDsStream *stream = (PaWinDsStream*)s; + + DSW_Term( &stream->directSoundWrapper ); + + PaUtil_TerminateBufferProcessor( &stream->bufferProcessor ); + PaUtil_TerminateStreamRepresentation( &stream->streamRepresentation ); + PaUtil_FreeMemory( stream ); + + return result; +} + +/***********************************************************************************/ +static PaError StartStream( PaStream *s ) +{ + PaError result = paNoError; + PaWinDsStream *stream = (PaWinDsStream*)s; + HRESULT hr; + + if( stream->bufferProcessor.inputChannelCount > 0 ) + { + hr = DSW_StartInput( &stream->directSoundWrapper ); + DBUG(("StartStream: DSW_StartInput returned = 0x%X.\n", hr)); + if( hr != DS_OK ) + { + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + } + + stream->framesWritten = 0; + + stream->abortProcessing = 0; + stream->stopProcessing = 0; + stream->isActive = 1; + + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + /* Give user callback a chance to pre-fill buffer. REVIEW - i thought we weren't pre-filling, rb. */ + result = Pa_TimeSlice( stream ); + if( result != paNoError ) return result; // FIXME - what if finished? + + hr = DSW_StartOutput( &stream->directSoundWrapper ); + DBUG(("PaHost_StartOutput: DSW_StartOutput returned = 0x%X.\n", hr)); + if( hr != DS_OK ) + { + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + } + + + /* Create timer that will wake us up so we can fill the DSound buffer. */ + { + int resolution; + int framesPerWakeup = stream->framesPerDSBuffer / 4; + int msecPerWakeup = MSEC_PER_SECOND * framesPerWakeup / (int) stream->streamRepresentation.streamInfo.sampleRate; + if( msecPerWakeup < 10 ) msecPerWakeup = 10; + else if( msecPerWakeup > 100 ) msecPerWakeup = 100; + resolution = msecPerWakeup/4; + stream->timerID = timeSetEvent( msecPerWakeup, resolution, (LPTIMECALLBACK) Pa_TimerCallback, + (DWORD) stream, TIME_PERIODIC ); + } + if( stream->timerID == 0 ) + { + stream->isActive = 0; + result = paUnanticipatedHostError; + PA_DS_SET_LAST_DIRECTSOUND_ERROR( hr ); + goto error; + } + + stream->isStarted = TRUE; + +error: + return result; +} + + +/***********************************************************************************/ +static PaError StopStream( PaStream *s ) +{ + PaError result = paNoError; + PaWinDsStream *stream = (PaWinDsStream*)s; + HRESULT hr; + int timeoutMsec; + + stream->stopProcessing = 1; + /* Set timeout at 20% beyond maximum time we might wait. */ + timeoutMsec = (int) (1200.0 * stream->framesPerDSBuffer / stream->streamRepresentation.streamInfo.sampleRate); + while( stream->isActive && (timeoutMsec > 0) ) + { + Sleep(10); + timeoutMsec -= 10; + } + if( stream->timerID != 0 ) + { + timeKillEvent(stream->timerID); /* Stop callback timer. */ + stream->timerID = 0; + } + + + if( stream->bufferProcessor.outputChannelCount > 0 ) + { + hr = DSW_StopOutput( &stream->directSoundWrapper ); + } + + if( stream->bufferProcessor.inputChannelCount > 0 ) + { + hr = DSW_StopInput( &stream->directSoundWrapper ); + } + + stream->isStarted = FALSE; + + return result; +} + + +/***********************************************************************************/ +static PaError AbortStream( PaStream *s ) +{ + PaError result = paNoError; + PaWinDsStream *stream = (PaWinDsStream*)s; + + stream->abortProcessing = 1; + return StopStream( s ); +} + + +/***********************************************************************************/ +static PaError IsStreamStopped( PaStream *s ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + return !stream->isStarted; +} + + +/***********************************************************************************/ +static PaError IsStreamActive( PaStream *s ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + return stream->isActive; +} + +/***********************************************************************************/ +static PaTime GetStreamTime( PaStream *s ) +{ +/* + new behavior for GetStreamTime is to return a stream based seconds clock + used for the outTime parameter to the callback. + FIXME: delete this comment when the other unnecessary related code has + been cleaned from this file. + + PaWinDsStream *stream = (PaWinDsStream*)s; + DSoundWrapper *dsw; + dsw = &stream->directSoundWrapper; + return dsw->dsw_FramesPlayed; +*/ + return PaUtil_GetTime(); +} + + +/***********************************************************************************/ +static double GetStreamCpuLoad( PaStream* s ) +{ + PaWinDsStream *stream = (PaWinDsStream*)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 ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + /* IMPLEMENT ME, see portaudio.h for required behavior*/ + + return paNoError; +} + + +/***********************************************************************************/ +static PaError WriteStream( PaStream* s, + void *buffer, + unsigned long frames ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + /* IMPLEMENT ME, see portaudio.h for required behavior*/ + + return paNoError; +} + + +/***********************************************************************************/ +static signed long GetStreamReadAvailable( PaStream* s ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + /* IMPLEMENT ME, see portaudio.h for required behavior*/ + + return 0; +} + + +/***********************************************************************************/ +static signed long GetStreamWriteAvailable( PaStream* s ) +{ + PaWinDsStream *stream = (PaWinDsStream*)s; + + /* IMPLEMENT ME, see portaudio.h for required behavior*/ + + return 0; +} + + + -- cgit v1.2.1