/* * $Id: pa_front.c,v 1.11 2008-12-31 15:38:32 richardash1981 Exp $ * Portable Audio I/O Library Multi-Host API front end * Validate function parameters and manage multiple host APIs. * * Based on the Open Source API proposed by Ross Bencina * Copyright (c) 1999-2008 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. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /* * The text above constitutes the entire PortAudio license; however, * the PortAudio community also makes the following non-binding requests: * * Any person wishing to distribute modifications to the Software is * requested to send the modifications to the original developer so that * they can be incorporated into the canonical version. It is also * requested that these non-binding requests be included along with the * license above. */ /** @file @ingroup common_src @brief Implements PortAudio API functions defined in portaudio.h, checks some errors, delegates platform-specific behavior to host API implementations. Implements the functions defined in the PortAudio API (portaudio.h), validates some parameters and checks for state inconsistencies before forwarding API requests to specific Host API implementations (via the interface declared in pa_hostapi.h), and Streams (via the interface declared in pa_stream.h). This file manages initialization and termination of Host API implementations via initializer functions stored in the paHostApiInitializers global array (usually defined in an os-specific pa_[os]_hostapis.c file). This file maintains a list of all open streams and closes them at Pa_Terminate(). Some utility functions declared in pa_util.h are implemented in this file. All PortAudio API functions can be conditionally compiled with logging code. To compile with logging, define the PA_LOG_API_CALLS precompiler symbol. @todo Consider adding host API specific error text in Pa_GetErrorText() for paUnanticipatedHostError @todo Consider adding a new error code for when (inputParameters == NULL) && (outputParameters == NULL) @todo review whether Pa_CloseStream() should call the interface's CloseStream function if aborting the stream returns an error code. @todo Create new error codes if a NULL buffer pointer, or a zero frame count is passed to Pa_ReadStream or Pa_WriteStream. */ #include #include #include #include /* needed by PA_VALIDATE_ENDIANNESS */ #include "portaudio.h" #include "pa_util.h" #include "pa_endianness.h" #include "pa_types.h" #include "pa_hostapi.h" #include "pa_stream.h" #include "pa_trace.h" /* still usefull?*/ #include "pa_debugprint.h" #define PA_VERSION_ 1899 #define PA_VERSION_TEXT_ "PortAudio V19-devel (built " __DATE__ " " __TIME__ ")" int Pa_GetVersion( void ) { return PA_VERSION_; } const char* Pa_GetVersionText( void ) { return PA_VERSION_TEXT_; } #define PA_LAST_HOST_ERROR_TEXT_LENGTH_ 1024 static char lastHostErrorText_[ PA_LAST_HOST_ERROR_TEXT_LENGTH_ + 1 ] = {0}; static PaHostErrorInfo lastHostErrorInfo_ = { (PaHostApiTypeId)-1, 0, lastHostErrorText_ }; void PaUtil_SetLastHostErrorInfo( PaHostApiTypeId hostApiType, long errorCode, const char *errorText ) { lastHostErrorInfo_.hostApiType = hostApiType; lastHostErrorInfo_.errorCode = errorCode; strncpy( lastHostErrorText_, errorText, PA_LAST_HOST_ERROR_TEXT_LENGTH_ ); } static PaUtilHostApiRepresentation **hostApis_ = 0; static int hostApisCount_ = 0; static int initializationCount_ = 0; static int deviceCount_ = 0; PaUtilStreamRepresentation *firstOpenStream_ = NULL; #define PA_IS_INITIALISED_ (initializationCount_ != 0) static int CountHostApiInitializers( void ) { int result = 0; while( paHostApiInitializers[ result ] != 0 ) ++result; return result; } static void TerminateHostApis( void ) { /* terminate in reverse order from initialization */ PA_DEBUG(("TerminateHostApis in \n")); while( hostApisCount_ > 0 ) { --hostApisCount_; hostApis_[hostApisCount_]->Terminate( hostApis_[hostApisCount_] ); } hostApisCount_ = 0; deviceCount_ = 0; if( hostApis_ != 0 ) PaUtil_FreeMemory( hostApis_ ); hostApis_ = 0; PA_DEBUG(("TerminateHostApis out\n")); } static PaError InitializeHostApis( void ) { PaError result = paNoError; int i, initializerCount, baseDeviceIndex; initializerCount = CountHostApiInitializers(); hostApis_ = (PaUtilHostApiRepresentation**)PaUtil_AllocateMemory( sizeof(PaUtilHostApiRepresentation*) * initializerCount ); if( !hostApis_ ) { result = paInsufficientMemory; goto error; } hostApisCount_ = 0; deviceCount_ = 0; baseDeviceIndex = 0; for( i=0; i< initializerCount; ++i ) { hostApis_[hostApisCount_] = NULL; PA_DEBUG(( "before paHostApiInitializers[%d].\n",i)); result = paHostApiInitializers[i]( &hostApis_[hostApisCount_], hostApisCount_ ); if( result != paNoError ) goto error; PA_DEBUG(( "after paHostApiInitializers[%d].\n",i)); if( hostApis_[hostApisCount_] ) { PaUtilHostApiRepresentation* hostApi = hostApis_[hostApisCount_]; assert( hostApi->info.defaultInputDevice < hostApi->info.deviceCount ); assert( hostApi->info.defaultOutputDevice < hostApi->info.deviceCount ); hostApi->privatePaFrontInfo.baseDeviceIndex = baseDeviceIndex; if( hostApi->info.defaultInputDevice != paNoDevice ) hostApi->info.defaultInputDevice += baseDeviceIndex; if( hostApi->info.defaultOutputDevice != paNoDevice ) hostApi->info.defaultOutputDevice += baseDeviceIndex; baseDeviceIndex += hostApi->info.deviceCount; deviceCount_ += hostApi->info.deviceCount; ++hostApisCount_; } } return result; error: TerminateHostApis(); return result; } /* FindHostApi() finds the index of the host api to which belongs and returns it. if is non-null, the host specific device index is returned in it. returns -1 if is out of range. */ static int FindHostApi( PaDeviceIndex device, int *hostSpecificDeviceIndex ) { int i=0; if( !PA_IS_INITIALISED_ ) return -1; if( device < 0 ) return -1; while( i < hostApisCount_ && device >= hostApis_[i]->info.deviceCount ) { device -= hostApis_[i]->info.deviceCount; ++i; } if( i >= hostApisCount_ ) return -1; if( hostSpecificDeviceIndex ) *hostSpecificDeviceIndex = device; return i; } static void AddOpenStream( PaStream* stream ) { ((PaUtilStreamRepresentation*)stream)->nextOpenStream = firstOpenStream_; firstOpenStream_ = (PaUtilStreamRepresentation*)stream; } static void RemoveOpenStream( PaStream* stream ) { PaUtilStreamRepresentation *previous = NULL; PaUtilStreamRepresentation *current = firstOpenStream_; while( current != NULL ) { if( ((PaStream*)current) == stream ) { if( previous == NULL ) { firstOpenStream_ = current->nextOpenStream; } else { previous->nextOpenStream = current->nextOpenStream; } return; } else { previous = current; current = current->nextOpenStream; } } } static void CloseOpenStreams( void ) { /* we call Pa_CloseStream() here to ensure that the same destruction logic is used for automatically closed streams */ while( firstOpenStream_ != NULL ) Pa_CloseStream( firstOpenStream_ ); } PaError Pa_Initialize( void ) { PaError result; PA_LOGAPI_ENTER( "Pa_Initialize" ); if( PA_IS_INITIALISED_ ) { ++initializationCount_; result = paNoError; } else { PA_VALIDATE_TYPE_SIZES; PA_VALIDATE_ENDIANNESS; PaUtil_InitializeClock(); PaUtil_ResetTraceMessages(); result = InitializeHostApis(); if( result == paNoError ) ++initializationCount_; } PA_LOGAPI_EXIT_PAERROR( "Pa_Initialize", result ); return result; } PaError Pa_Terminate( void ) { PaError result; PA_LOGAPI_ENTER( "Pa_Terminate" ); if( PA_IS_INITIALISED_ ) { if( --initializationCount_ == 0 ) { CloseOpenStreams(); TerminateHostApis(); PaUtil_DumpTraceMessages(); } result = paNoError; } else { result= paNotInitialized; } PA_LOGAPI_EXIT_PAERROR( "Pa_Terminate", result ); return result; } const PaHostErrorInfo* Pa_GetLastHostErrorInfo( void ) { return &lastHostErrorInfo_; } const char *Pa_GetErrorText( PaError errorCode ) { const char *result; switch( errorCode ) { case paNoError: result = "Success"; break; case paNotInitialized: result = "PortAudio not initialized"; break; /** @todo could catenate the last host error text to result in the case of paUnanticipatedHostError */ case paUnanticipatedHostError: result = "Unanticipated host error"; break; case paInvalidChannelCount: result = "Invalid number of channels"; break; case paInvalidSampleRate: result = "Invalid sample rate"; break; case paInvalidDevice: result = "Invalid device"; break; case paInvalidFlag: result = "Invalid flag"; break; case paSampleFormatNotSupported: result = "Sample format not supported"; break; case paBadIODeviceCombination: result = "Illegal combination of I/O devices"; break; case paInsufficientMemory: result = "Insufficient memory"; break; case paBufferTooBig: result = "Buffer too big"; break; case paBufferTooSmall: result = "Buffer too small"; break; case paNullCallback: result = "No callback routine specified"; break; case paBadStreamPtr: result = "Invalid stream pointer"; break; case paTimedOut: result = "Wait timed out"; break; case paInternalError: result = "Internal PortAudio error"; break; case paDeviceUnavailable: result = "Device unavailable"; break; case paIncompatibleHostApiSpecificStreamInfo: result = "Incompatible host API specific stream info"; break; case paStreamIsStopped: result = "Stream is stopped"; break; case paStreamIsNotStopped: result = "Stream is not stopped"; break; case paInputOverflowed: result = "Input overflowed"; break; case paOutputUnderflowed: result = "Output underflowed"; break; case paHostApiNotFound: result = "Host API not found"; break; case paInvalidHostApi: result = "Invalid host API"; break; case paCanNotReadFromACallbackStream: result = "Can't read from a callback stream"; break; case paCanNotWriteToACallbackStream: result = "Can't write to a callback stream"; break; case paCanNotReadFromAnOutputOnlyStream: result = "Can't read from an output only stream"; break; case paCanNotWriteToAnInputOnlyStream: result = "Can't write to an input only stream"; break; case paIncompatibleStreamHostApi: result = "Incompatible stream host API"; break; case paBadBufferPtr: result = "Bad buffer pointer"; break; default: if( errorCode > 0 ) result = "Invalid error code (value greater than zero)"; else result = "Invalid error code"; break; } return result; } PaHostApiIndex Pa_HostApiTypeIdToHostApiIndex( PaHostApiTypeId type ) { PaHostApiIndex result; int i; PA_LOGAPI_ENTER_PARAMS( "Pa_HostApiTypeIdToHostApiIndex" ); PA_LOGAPI(("\tPaHostApiTypeId type: %d\n", type )); if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { result = paHostApiNotFound; for( i=0; i < hostApisCount_; ++i ) { if( hostApis_[i]->info.type == type ) { result = i; break; } } } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_HostApiTypeIdToHostApiIndex", "PaHostApiIndex: %d", result ); return result; } PaError PaUtil_GetHostApiRepresentation( struct PaUtilHostApiRepresentation **hostApi, PaHostApiTypeId type ) { PaError result; int i; if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { result = paHostApiNotFound; for( i=0; i < hostApisCount_; ++i ) { if( hostApis_[i]->info.type == type ) { *hostApi = hostApis_[i]; result = paNoError; break; } } } return result; } PaError PaUtil_DeviceIndexToHostApiDeviceIndex( PaDeviceIndex *hostApiDevice, PaDeviceIndex device, struct PaUtilHostApiRepresentation *hostApi ) { PaError result; PaDeviceIndex x; x = device - hostApi->privatePaFrontInfo.baseDeviceIndex; if( x < 0 || x >= hostApi->info.deviceCount ) { result = paInvalidDevice; } else { *hostApiDevice = x; result = paNoError; } return result; } PaHostApiIndex Pa_GetHostApiCount( void ) { int result; PA_LOGAPI_ENTER( "Pa_GetHostApiCount" ); if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { result = hostApisCount_; } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_GetHostApiCount", "PaHostApiIndex: %d", result ); return result; } PaHostApiIndex Pa_GetDefaultHostApi( void ) { int result; PA_LOGAPI_ENTER( "Pa_GetDefaultHostApi" ); if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { result = paDefaultHostApiIndex; /* internal consistency check: make sure that the default host api index is within range */ if( result < 0 || result >= hostApisCount_ ) { result = paInternalError; } } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_GetDefaultHostApi", "PaHostApiIndex: %d", result ); return result; } const PaHostApiInfo* Pa_GetHostApiInfo( PaHostApiIndex hostApi ) { PaHostApiInfo *info; PA_LOGAPI_ENTER_PARAMS( "Pa_GetHostApiInfo" ); PA_LOGAPI(("\tPaHostApiIndex hostApi: %d\n", hostApi )); if( !PA_IS_INITIALISED_ ) { info = NULL; PA_LOGAPI(("Pa_GetHostApiInfo returned:\n" )); PA_LOGAPI(("\tPaHostApiInfo*: NULL [ PortAudio not initialized ]\n" )); } else if( hostApi < 0 || hostApi >= hostApisCount_ ) { info = NULL; PA_LOGAPI(("Pa_GetHostApiInfo returned:\n" )); PA_LOGAPI(("\tPaHostApiInfo*: NULL [ hostApi out of range ]\n" )); } else { info = &hostApis_[hostApi]->info; PA_LOGAPI(("Pa_GetHostApiInfo returned:\n" )); PA_LOGAPI(("\tPaHostApiInfo*: 0x%p\n", info )); PA_LOGAPI(("\t{\n" )); PA_LOGAPI(("\t\tint structVersion: %d\n", info->structVersion )); PA_LOGAPI(("\t\tPaHostApiTypeId type: %d\n", info->type )); PA_LOGAPI(("\t\tconst char *name: %s\n", info->name )); PA_LOGAPI(("\t}\n" )); } return info; } PaDeviceIndex Pa_HostApiDeviceIndexToDeviceIndex( PaHostApiIndex hostApi, int hostApiDeviceIndex ) { PaDeviceIndex result; PA_LOGAPI_ENTER_PARAMS( "Pa_HostApiDeviceIndexToPaDeviceIndex" ); PA_LOGAPI(("\tPaHostApiIndex hostApi: %d\n", hostApi )); PA_LOGAPI(("\tint hostApiDeviceIndex: %d\n", hostApiDeviceIndex )); if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { if( hostApi < 0 || hostApi >= hostApisCount_ ) { result = paInvalidHostApi; } else { if( hostApiDeviceIndex < 0 || hostApiDeviceIndex >= hostApis_[hostApi]->info.deviceCount ) { result = paInvalidDevice; } else { result = hostApis_[hostApi]->privatePaFrontInfo.baseDeviceIndex + hostApiDeviceIndex; } } } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_HostApiDeviceIndexToPaDeviceIndex", "PaDeviceIndex: %d", result ); return result; } PaDeviceIndex Pa_GetDeviceCount( void ) { PaDeviceIndex result; PA_LOGAPI_ENTER( "Pa_GetDeviceCount" ); if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; } else { result = deviceCount_; } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_GetDeviceCount", "PaDeviceIndex: %d", result ); return result; } PaDeviceIndex Pa_GetDefaultInputDevice( void ) { PaHostApiIndex hostApi; PaDeviceIndex result; PA_LOGAPI_ENTER( "Pa_GetDefaultInputDevice" ); hostApi = Pa_GetDefaultHostApi(); if( hostApi < 0 ) { result = paNoDevice; } else { result = hostApis_[hostApi]->info.defaultInputDevice; } PA_LOGAPI_EXIT_T( "Pa_GetDefaultInputDevice", "PaDeviceIndex: %d", result ); return result; } PaDeviceIndex Pa_GetDefaultOutputDevice( void ) { PaHostApiIndex hostApi; PaDeviceIndex result; PA_LOGAPI_ENTER( "Pa_GetDefaultOutputDevice" ); hostApi = Pa_GetDefaultHostApi(); if( hostApi < 0 ) { result = paNoDevice; } else { result = hostApis_[hostApi]->info.defaultOutputDevice; } PA_LOGAPI_EXIT_T( "Pa_GetDefaultOutputDevice", "PaDeviceIndex: %d", result ); return result; } const PaDeviceInfo* Pa_GetDeviceInfo( PaDeviceIndex device ) { int hostSpecificDeviceIndex; int hostApiIndex = FindHostApi( device, &hostSpecificDeviceIndex ); PaDeviceInfo *result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetDeviceInfo" ); PA_LOGAPI(("\tPaDeviceIndex device: %d\n", device )); if( hostApiIndex < 0 ) { result = NULL; PA_LOGAPI(("Pa_GetDeviceInfo returned:\n" )); PA_LOGAPI(("\tPaDeviceInfo* NULL [ invalid device index ]\n" )); } else { result = hostApis_[hostApiIndex]->deviceInfos[ hostSpecificDeviceIndex ]; PA_LOGAPI(("Pa_GetDeviceInfo returned:\n" )); PA_LOGAPI(("\tPaDeviceInfo*: 0x%p:\n", result )); PA_LOGAPI(("\t{\n" )); PA_LOGAPI(("\t\tint structVersion: %d\n", result->structVersion )); PA_LOGAPI(("\t\tconst char *name: %s\n", result->name )); PA_LOGAPI(("\t\tPaHostApiIndex hostApi: %d\n", result->hostApi )); PA_LOGAPI(("\t\tint maxInputChannels: %d\n", result->maxInputChannels )); PA_LOGAPI(("\t\tint maxOutputChannels: %d\n", result->maxOutputChannels )); PA_LOGAPI(("\t}\n" )); } return result; } /* SampleFormatIsValid() returns 1 if sampleFormat is a sample format defined in portaudio.h, or 0 otherwise. */ static int SampleFormatIsValid( PaSampleFormat format ) { switch( format & ~paNonInterleaved ) { case paFloat32: return 1; case paInt16: return 1; case paInt32: return 1; case paInt24: return 1; case paInt8: return 1; case paUInt8: return 1; case paCustomFormat: return 1; default: return 0; } } /* NOTE: make sure this validation list is kept syncronised with the one in pa_hostapi.h ValidateOpenStreamParameters() checks that parameters to Pa_OpenStream() conform to the expected values as described below. This function is also designed to be used with the proposed Pa_IsFormatSupported() function. There are basically two types of validation that could be performed: Generic conformance validation, and device capability mismatch validation. This function performs only generic conformance validation. Validation that would require knowledge of device capabilities is not performed because of potentially complex relationships between combinations of parameters - for example, even if the sampleRate seems ok, it might not be for a duplex stream - we have no way of checking this in an API-neutral way, so we don't try. On success the function returns PaNoError and fills in hostApi, hostApiInputDeviceID, and hostApiOutputDeviceID fields. On failure the function returns an error code indicating the first encountered parameter error. If ValidateOpenStreamParameters() returns paNoError, the following assertions are guaranteed to be true. - at least one of inputParameters & outputParmeters is valid (not NULL) - if inputParameters & outputParameters are both valid, that inputParameters->device & outputParameters->device both use the same host api PaDeviceIndex inputParameters->device - is within range (0 to Pa_GetDeviceCount-1) Or: - is paUseHostApiSpecificDeviceSpecification and inputParameters->hostApiSpecificStreamInfo is non-NULL and refers to a valid host api int inputParameters->channelCount - if inputParameters->device is not paUseHostApiSpecificDeviceSpecification, channelCount is > 0 - upper bound is NOT validated against device capabilities PaSampleFormat inputParameters->sampleFormat - is one of the sample formats defined in portaudio.h void *inputParameters->hostApiSpecificStreamInfo - if supplied its hostApi field matches the input device's host Api PaDeviceIndex outputParmeters->device - is within range (0 to Pa_GetDeviceCount-1) int outputParmeters->channelCount - if inputDevice is valid, channelCount is > 0 - upper bound is NOT validated against device capabilities PaSampleFormat outputParmeters->sampleFormat - is one of the sample formats defined in portaudio.h void *outputParmeters->hostApiSpecificStreamInfo - if supplied its hostApi field matches the output device's host Api double sampleRate - is not an 'absurd' rate (less than 1000. or greater than 200000.) - sampleRate is NOT validated against device capabilities PaStreamFlags streamFlags - unused platform neutral flags are zero - paNeverDropInput is only used for full-duplex callback streams with variable buffer size (paFramesPerBufferUnspecified) */ static PaError ValidateOpenStreamParameters( const PaStreamParameters *inputParameters, const PaStreamParameters *outputParameters, double sampleRate, unsigned long framesPerBuffer, PaStreamFlags streamFlags, PaStreamCallback *streamCallback, PaUtilHostApiRepresentation **hostApi, PaDeviceIndex *hostApiInputDevice, PaDeviceIndex *hostApiOutputDevice ) { int inputHostApiIndex = -1, /* Surpress uninitialised var warnings: compiler does */ outputHostApiIndex = -1; /* not see that if inputParameters and outputParame- */ /* ters are both nonzero, these indices are set. */ if( (inputParameters == NULL) && (outputParameters == NULL) ) { return paInvalidDevice; /** @todo should be a new error code "invalid device parameters" or something */ } else { if( inputParameters == NULL ) { *hostApiInputDevice = paNoDevice; } else if( inputParameters->device == paUseHostApiSpecificDeviceSpecification ) { if( inputParameters->hostApiSpecificStreamInfo ) { inputHostApiIndex = Pa_HostApiTypeIdToHostApiIndex( ((PaUtilHostApiSpecificStreamInfoHeader*)inputParameters->hostApiSpecificStreamInfo)->hostApiType ); if( inputHostApiIndex != -1 ) { *hostApiInputDevice = paUseHostApiSpecificDeviceSpecification; *hostApi = hostApis_[inputHostApiIndex]; } else { return paInvalidDevice; } } else { return paInvalidDevice; } } else { if( inputParameters->device < 0 || inputParameters->device >= deviceCount_ ) return paInvalidDevice; inputHostApiIndex = FindHostApi( inputParameters->device, hostApiInputDevice ); if( inputHostApiIndex < 0 ) return paInternalError; *hostApi = hostApis_[inputHostApiIndex]; if( inputParameters->channelCount <= 0 ) return paInvalidChannelCount; if( !SampleFormatIsValid( inputParameters->sampleFormat ) ) return paSampleFormatNotSupported; if( inputParameters->hostApiSpecificStreamInfo != NULL ) { if( ((PaUtilHostApiSpecificStreamInfoHeader*)inputParameters->hostApiSpecificStreamInfo)->hostApiType != (*hostApi)->info.type ) return paIncompatibleHostApiSpecificStreamInfo; } } if( outputParameters == NULL ) { *hostApiOutputDevice = paNoDevice; } else if( outputParameters->device == paUseHostApiSpecificDeviceSpecification ) { if( outputParameters->hostApiSpecificStreamInfo ) { outputHostApiIndex = Pa_HostApiTypeIdToHostApiIndex( ((PaUtilHostApiSpecificStreamInfoHeader*)outputParameters->hostApiSpecificStreamInfo)->hostApiType ); if( outputHostApiIndex != -1 ) { *hostApiOutputDevice = paUseHostApiSpecificDeviceSpecification; *hostApi = hostApis_[outputHostApiIndex]; } else { return paInvalidDevice; } } else { return paInvalidDevice; } } else { if( outputParameters->device < 0 || outputParameters->device >= deviceCount_ ) return paInvalidDevice; outputHostApiIndex = FindHostApi( outputParameters->device, hostApiOutputDevice ); if( outputHostApiIndex < 0 ) return paInternalError; *hostApi = hostApis_[outputHostApiIndex]; if( outputParameters->channelCount <= 0 ) return paInvalidChannelCount; if( !SampleFormatIsValid( outputParameters->sampleFormat ) ) return paSampleFormatNotSupported; if( outputParameters->hostApiSpecificStreamInfo != NULL ) { if( ((PaUtilHostApiSpecificStreamInfoHeader*)outputParameters->hostApiSpecificStreamInfo)->hostApiType != (*hostApi)->info.type ) return paIncompatibleHostApiSpecificStreamInfo; } } if( (inputParameters != NULL) && (outputParameters != NULL) ) { /* ensure that both devices use the same API */ if( inputHostApiIndex != outputHostApiIndex ) return paBadIODeviceCombination; } } /* Check for absurd sample rates. */ if( (sampleRate < 1000.0) || (sampleRate > 200000.0) ) return paInvalidSampleRate; if( ((streamFlags & ~paPlatformSpecificFlags) & ~(paClipOff | paDitherOff | paNeverDropInput | paPrimeOutputBuffersUsingStreamCallback ) ) != 0 ) return paInvalidFlag; if( streamFlags & paNeverDropInput ) { /* must be a callback stream */ if( !streamCallback ) return paInvalidFlag; /* must be a full duplex stream */ if( (inputParameters == NULL) || (outputParameters == NULL) ) return paInvalidFlag; /* must use paFramesPerBufferUnspecified */ if( framesPerBuffer != paFramesPerBufferUnspecified ) return paInvalidFlag; } return paNoError; } PaError Pa_IsFormatSupported( const PaStreamParameters *inputParameters, const PaStreamParameters *outputParameters, double sampleRate ) { PaError result; PaUtilHostApiRepresentation *hostApi = 0; PaDeviceIndex hostApiInputDevice = paNoDevice, hostApiOutputDevice = paNoDevice; PaStreamParameters hostApiInputParameters, hostApiOutputParameters; PaStreamParameters *hostApiInputParametersPtr, *hostApiOutputParametersPtr; #ifdef PA_LOG_API_CALLS PA_LOGAPI_ENTER_PARAMS( "Pa_IsFormatSupported" ); if( inputParameters == NULL ){ PA_LOGAPI(("\tPaStreamParameters *inputParameters: NULL\n" )); }else{ PA_LOGAPI(("\tPaStreamParameters *inputParameters: 0x%p\n", inputParameters )); PA_LOGAPI(("\tPaDeviceIndex inputParameters->device: %d\n", inputParameters->device )); PA_LOGAPI(("\tint inputParameters->channelCount: %d\n", inputParameters->channelCount )); PA_LOGAPI(("\tPaSampleFormat inputParameters->sampleFormat: %d\n", inputParameters->sampleFormat )); PA_LOGAPI(("\tPaTime inputParameters->suggestedLatency: %f\n", inputParameters->suggestedLatency )); PA_LOGAPI(("\tvoid *inputParameters->hostApiSpecificStreamInfo: 0x%p\n", inputParameters->hostApiSpecificStreamInfo )); } if( outputParameters == NULL ){ PA_LOGAPI(("\tPaStreamParameters *outputParameters: NULL\n" )); }else{ PA_LOGAPI(("\tPaStreamParameters *outputParameters: 0x%p\n", outputParameters )); PA_LOGAPI(("\tPaDeviceIndex outputParameters->device: %d\n", outputParameters->device )); PA_LOGAPI(("\tint outputParameters->channelCount: %d\n", outputParameters->channelCount )); PA_LOGAPI(("\tPaSampleFormat outputParameters->sampleFormat: %d\n", outputParameters->sampleFormat )); PA_LOGAPI(("\tPaTime outputParameters->suggestedLatency: %f\n", outputParameters->suggestedLatency )); PA_LOGAPI(("\tvoid *outputParameters->hostApiSpecificStreamInfo: 0x%p\n", outputParameters->hostApiSpecificStreamInfo )); } PA_LOGAPI(("\tdouble sampleRate: %g\n", sampleRate )); #endif if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; PA_LOGAPI_EXIT_PAERROR( "Pa_IsFormatSupported", result ); return result; } result = ValidateOpenStreamParameters( inputParameters, outputParameters, sampleRate, 0, paNoFlag, 0, &hostApi, &hostApiInputDevice, &hostApiOutputDevice ); if( result != paNoError ) { PA_LOGAPI_EXIT_PAERROR( "Pa_IsFormatSupported", result ); return result; } if( inputParameters ) { hostApiInputParameters.device = hostApiInputDevice; hostApiInputParameters.channelCount = inputParameters->channelCount; hostApiInputParameters.sampleFormat = inputParameters->sampleFormat; hostApiInputParameters.suggestedLatency = inputParameters->suggestedLatency; hostApiInputParameters.hostApiSpecificStreamInfo = inputParameters->hostApiSpecificStreamInfo; hostApiInputParametersPtr = &hostApiInputParameters; } else { hostApiInputParametersPtr = NULL; } if( outputParameters ) { hostApiOutputParameters.device = hostApiOutputDevice; hostApiOutputParameters.channelCount = outputParameters->channelCount; hostApiOutputParameters.sampleFormat = outputParameters->sampleFormat; hostApiOutputParameters.suggestedLatency = outputParameters->suggestedLatency; hostApiOutputParameters.hostApiSpecificStreamInfo = outputParameters->hostApiSpecificStreamInfo; hostApiOutputParametersPtr = &hostApiOutputParameters; } else { hostApiOutputParametersPtr = NULL; } result = hostApi->IsFormatSupported( hostApi, hostApiInputParametersPtr, hostApiOutputParametersPtr, sampleRate ); #ifdef PA_LOG_API_CALLS PA_LOGAPI(("Pa_OpenStream returned:\n" )); if( result == paFormatIsSupported ) PA_LOGAPI(("\tPaError: 0 [ paFormatIsSupported ]\n" )); else PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); #endif return result; } PaError Pa_OpenStream( PaStream** stream, const PaStreamParameters *inputParameters, const PaStreamParameters *outputParameters, double sampleRate, unsigned long framesPerBuffer, PaStreamFlags streamFlags, PaStreamCallback *streamCallback, void *userData ) { PaError result; PaUtilHostApiRepresentation *hostApi = 0; PaDeviceIndex hostApiInputDevice = paNoDevice, hostApiOutputDevice = paNoDevice; PaStreamParameters hostApiInputParameters, hostApiOutputParameters; PaStreamParameters *hostApiInputParametersPtr, *hostApiOutputParametersPtr; #ifdef PA_LOG_API_CALLS PA_LOGAPI_ENTER_PARAMS( "Pa_OpenStream" ); PA_LOGAPI(("\tPaStream** stream: 0x%p\n", stream )); if( inputParameters == NULL ){ PA_LOGAPI(("\tPaStreamParameters *inputParameters: NULL\n" )); }else{ PA_LOGAPI(("\tPaStreamParameters *inputParameters: 0x%p\n", inputParameters )); PA_LOGAPI(("\tPaDeviceIndex inputParameters->device: %d\n", inputParameters->device )); PA_LOGAPI(("\tint inputParameters->channelCount: %d\n", inputParameters->channelCount )); PA_LOGAPI(("\tPaSampleFormat inputParameters->sampleFormat: %d\n", inputParameters->sampleFormat )); PA_LOGAPI(("\tPaTime inputParameters->suggestedLatency: %f\n", inputParameters->suggestedLatency )); PA_LOGAPI(("\tvoid *inputParameters->hostApiSpecificStreamInfo: 0x%p\n", inputParameters->hostApiSpecificStreamInfo )); } if( outputParameters == NULL ){ PA_LOGAPI(("\tPaStreamParameters *outputParameters: NULL\n" )); }else{ PA_LOGAPI(("\tPaStreamParameters *outputParameters: 0x%p\n", outputParameters )); PA_LOGAPI(("\tPaDeviceIndex outputParameters->device: %d\n", outputParameters->device )); PA_LOGAPI(("\tint outputParameters->channelCount: %d\n", outputParameters->channelCount )); PA_LOGAPI(("\tPaSampleFormat outputParameters->sampleFormat: %d\n", outputParameters->sampleFormat )); PA_LOGAPI(("\tPaTime outputParameters->suggestedLatency: %f\n", outputParameters->suggestedLatency )); PA_LOGAPI(("\tvoid *outputParameters->hostApiSpecificStreamInfo: 0x%p\n", outputParameters->hostApiSpecificStreamInfo )); } PA_LOGAPI(("\tdouble sampleRate: %g\n", sampleRate )); PA_LOGAPI(("\tunsigned long framesPerBuffer: %d\n", framesPerBuffer )); PA_LOGAPI(("\tPaStreamFlags streamFlags: 0x%x\n", streamFlags )); PA_LOGAPI(("\tPaStreamCallback *streamCallback: 0x%p\n", streamCallback )); PA_LOGAPI(("\tvoid *userData: 0x%p\n", userData )); #endif if( !PA_IS_INITIALISED_ ) { result = paNotInitialized; PA_LOGAPI(("Pa_OpenStream returned:\n" )); PA_LOGAPI(("\t*(PaStream** stream): undefined\n" )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); return result; } /* Check for parameter errors. NOTE: make sure this validation list is kept syncronised with the one in pa_hostapi.h */ if( stream == NULL ) { result = paBadStreamPtr; PA_LOGAPI(("Pa_OpenStream returned:\n" )); PA_LOGAPI(("\t*(PaStream** stream): undefined\n" )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); return result; } result = ValidateOpenStreamParameters( inputParameters, outputParameters, sampleRate, framesPerBuffer, streamFlags, streamCallback, &hostApi, &hostApiInputDevice, &hostApiOutputDevice ); if( result != paNoError ) { PA_LOGAPI(("Pa_OpenStream returned:\n" )); PA_LOGAPI(("\t*(PaStream** stream): undefined\n" )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); return result; } if( inputParameters ) { hostApiInputParameters.device = hostApiInputDevice; hostApiInputParameters.channelCount = inputParameters->channelCount; hostApiInputParameters.sampleFormat = inputParameters->sampleFormat; hostApiInputParameters.suggestedLatency = inputParameters->suggestedLatency; hostApiInputParameters.hostApiSpecificStreamInfo = inputParameters->hostApiSpecificStreamInfo; hostApiInputParametersPtr = &hostApiInputParameters; } else { hostApiInputParametersPtr = NULL; } if( outputParameters ) { hostApiOutputParameters.device = hostApiOutputDevice; hostApiOutputParameters.channelCount = outputParameters->channelCount; hostApiOutputParameters.sampleFormat = outputParameters->sampleFormat; hostApiOutputParameters.suggestedLatency = outputParameters->suggestedLatency; hostApiOutputParameters.hostApiSpecificStreamInfo = outputParameters->hostApiSpecificStreamInfo; hostApiOutputParametersPtr = &hostApiOutputParameters; } else { hostApiOutputParametersPtr = NULL; } result = hostApi->OpenStream( hostApi, stream, hostApiInputParametersPtr, hostApiOutputParametersPtr, sampleRate, framesPerBuffer, streamFlags, streamCallback, userData ); if( result == paNoError ) { AddOpenStream( *stream ); PA_STREAM_REP(*stream)->hostApiType = hostApi->info.type; } PA_LOGAPI(("Pa_OpenStream returned:\n" )); PA_LOGAPI(("\t*(PaStream** stream): 0x%p\n", *stream )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); return result; } PaError Pa_OpenDefaultStream( PaStream** stream, int inputChannelCount, int outputChannelCount, PaSampleFormat sampleFormat, double sampleRate, unsigned long framesPerBuffer, PaStreamCallback *streamCallback, void *userData ) { PaError result; PaStreamParameters hostApiInputParameters, hostApiOutputParameters; PaStreamParameters *hostApiInputParametersPtr, *hostApiOutputParametersPtr; PA_LOGAPI_ENTER_PARAMS( "Pa_OpenDefaultStream" ); PA_LOGAPI(("\tPaStream** stream: 0x%p\n", stream )); PA_LOGAPI(("\tint inputChannelCount: %d\n", inputChannelCount )); PA_LOGAPI(("\tint outputChannelCount: %d\n", outputChannelCount )); PA_LOGAPI(("\tPaSampleFormat sampleFormat: %d\n", sampleFormat )); PA_LOGAPI(("\tdouble sampleRate: %g\n", sampleRate )); PA_LOGAPI(("\tunsigned long framesPerBuffer: %d\n", framesPerBuffer )); PA_LOGAPI(("\tPaStreamCallback *streamCallback: 0x%p\n", streamCallback )); PA_LOGAPI(("\tvoid *userData: 0x%p\n", userData )); if( inputChannelCount > 0 ) { hostApiInputParameters.device = Pa_GetDefaultInputDevice(); if( hostApiInputParameters.device == paNoDevice ) return paDeviceUnavailable; hostApiInputParameters.channelCount = inputChannelCount; hostApiInputParameters.sampleFormat = sampleFormat; /* defaultHighInputLatency is used below instead of defaultLowInputLatency because it is more important for the default stream to work reliably than it is for it to work with the lowest latency. */ hostApiInputParameters.suggestedLatency = Pa_GetDeviceInfo( hostApiInputParameters.device )->defaultHighInputLatency; hostApiInputParameters.hostApiSpecificStreamInfo = NULL; hostApiInputParametersPtr = &hostApiInputParameters; } else { hostApiInputParametersPtr = NULL; } if( outputChannelCount > 0 ) { hostApiOutputParameters.device = Pa_GetDefaultOutputDevice(); if( hostApiOutputParameters.device == paNoDevice ) return paDeviceUnavailable; hostApiOutputParameters.channelCount = outputChannelCount; hostApiOutputParameters.sampleFormat = sampleFormat; /* defaultHighOutputLatency is used below instead of defaultLowOutputLatency because it is more important for the default stream to work reliably than it is for it to work with the lowest latency. */ hostApiOutputParameters.suggestedLatency = Pa_GetDeviceInfo( hostApiOutputParameters.device )->defaultHighOutputLatency; hostApiOutputParameters.hostApiSpecificStreamInfo = NULL; hostApiOutputParametersPtr = &hostApiOutputParameters; } else { hostApiOutputParametersPtr = NULL; } result = Pa_OpenStream( stream, hostApiInputParametersPtr, hostApiOutputParametersPtr, sampleRate, framesPerBuffer, paNoFlag, streamCallback, userData ); PA_LOGAPI(("Pa_OpenDefaultStream returned:\n" )); PA_LOGAPI(("\t*(PaStream** stream): 0x%p", *stream )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); return result; } PaError PaUtil_ValidateStreamPointer( PaStream* stream ) { if( !PA_IS_INITIALISED_ ) return paNotInitialized; if( stream == NULL ) return paBadStreamPtr; if( ((PaUtilStreamRepresentation*)stream)->magic != PA_STREAM_MAGIC ) return paBadStreamPtr; return paNoError; } PaError Pa_CloseStream( PaStream* stream ) { PaUtilStreamInterface *interface; PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_CloseStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); /* always remove the open stream from our list, even if this function eventually returns an error. Otherwise CloseOpenStreams() will get stuck in an infinite loop */ RemoveOpenStream( stream ); /* be sure to call this _before_ closing the stream */ if( result == paNoError ) { interface = PA_STREAM_INTERFACE(stream); /* abort the stream if it isn't stopped */ result = interface->IsStopped( stream ); if( result == 1 ) result = paNoError; else if( result == 0 ) result = interface->Abort( stream ); if( result == paNoError ) /** @todo REVIEW: shouldn't we close anyway? */ result = interface->Close( stream ); } PA_LOGAPI_EXIT_PAERROR( "Pa_CloseStream", result ); return result; } PaError Pa_SetStreamFinishedCallback( PaStream *stream, PaStreamFinishedCallback* streamFinishedCallback ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_SetStreamFinishedCallback" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); PA_LOGAPI(("\tPaStreamFinishedCallback* streamFinishedCallback: 0x%p\n", streamFinishedCallback )); if( result == paNoError ) { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = paStreamIsNotStopped ; } if( result == 1 ) { PA_STREAM_REP( stream )->streamFinishedCallback = streamFinishedCallback; result = paNoError; } } PA_LOGAPI_EXIT_PAERROR( "Pa_SetStreamFinishedCallback", result ); return result; } PaError Pa_StartStream( PaStream *stream ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_StartStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = paStreamIsNotStopped ; } else if( result == 1 ) { result = PA_STREAM_INTERFACE(stream)->Start( stream ); } } PA_LOGAPI_EXIT_PAERROR( "Pa_StartStream", result ); return result; } PaError Pa_StopStream( PaStream *stream ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_StopStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = PA_STREAM_INTERFACE(stream)->Stop( stream ); } else if( result == 1 ) { result = paStreamIsStopped; } } PA_LOGAPI_EXIT_PAERROR( "Pa_StopStream", result ); return result; } PaError Pa_AbortStream( PaStream *stream ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_AbortStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = PA_STREAM_INTERFACE(stream)->Abort( stream ); } else if( result == 1 ) { result = paStreamIsStopped; } } PA_LOGAPI_EXIT_PAERROR( "Pa_AbortStream", result ); return result; } PaError Pa_IsStreamStopped( PaStream *stream ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_IsStreamStopped" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); PA_LOGAPI_EXIT_PAERROR( "Pa_IsStreamStopped", result ); return result; } PaError Pa_IsStreamActive( PaStream *stream ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_IsStreamActive" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) result = PA_STREAM_INTERFACE(stream)->IsActive( stream ); PA_LOGAPI_EXIT_PAERROR( "Pa_IsStreamActive", result ); return result; } const PaStreamInfo* Pa_GetStreamInfo( PaStream *stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); const PaStreamInfo *result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetStreamInfo" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( error != paNoError ) { result = 0; PA_LOGAPI(("Pa_GetStreamInfo returned:\n" )); PA_LOGAPI(("\tconst PaStreamInfo*: 0 [PaError error:%d ( %s )]\n", error, Pa_GetErrorText( error ) )); } else { result = &PA_STREAM_REP( stream )->streamInfo; PA_LOGAPI(("Pa_GetStreamInfo returned:\n" )); PA_LOGAPI(("\tconst PaStreamInfo*: 0x%p:\n", result )); PA_LOGAPI(("\t{" )); PA_LOGAPI(("\t\tint structVersion: %d\n", result->structVersion )); PA_LOGAPI(("\t\tPaTime inputLatency: %f\n", result->inputLatency )); PA_LOGAPI(("\t\tPaTime outputLatency: %f\n", result->outputLatency )); PA_LOGAPI(("\t\tdouble sampleRate: %f\n", result->sampleRate )); PA_LOGAPI(("\t}\n" )); } return result; } PaTime Pa_GetStreamTime( PaStream *stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); PaTime result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetStreamTime" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( error != paNoError ) { result = 0; PA_LOGAPI(("Pa_GetStreamTime returned:\n" )); PA_LOGAPI(("\tPaTime: 0 [PaError error:%d ( %s )]\n", result, error, Pa_GetErrorText( error ) )); } else { result = PA_STREAM_INTERFACE(stream)->GetTime( stream ); PA_LOGAPI(("Pa_GetStreamTime returned:\n" )); PA_LOGAPI(("\tPaTime: %g\n", result )); } return result; } double Pa_GetStreamCpuLoad( PaStream* stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); double result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetStreamCpuLoad" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( error != paNoError ) { result = 0.0; PA_LOGAPI(("Pa_GetStreamCpuLoad returned:\n" )); PA_LOGAPI(("\tdouble: 0.0 [PaError error: %d ( %s )]\n", error, Pa_GetErrorText( error ) )); } else { result = PA_STREAM_INTERFACE(stream)->GetCpuLoad( stream ); PA_LOGAPI(("Pa_GetStreamCpuLoad returned:\n" )); PA_LOGAPI(("\tdouble: %g\n", result )); } return result; } PaError Pa_ReadStream( PaStream* stream, void *buffer, unsigned long frames ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_ReadStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) { if( frames == 0 ) { /* XXX: Should we not allow the implementation to signal any overflow condition? */ result = paNoError; } else if( buffer == 0 ) { result = paBadBufferPtr; } else { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = PA_STREAM_INTERFACE(stream)->Read( stream, buffer, frames ); } else if( result == 1 ) { result = paStreamIsStopped; } } } PA_LOGAPI_EXIT_PAERROR( "Pa_ReadStream", result ); return result; } PaError Pa_WriteStream( PaStream* stream, const void *buffer, unsigned long frames ) { PaError result = PaUtil_ValidateStreamPointer( stream ); PA_LOGAPI_ENTER_PARAMS( "Pa_WriteStream" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( result == paNoError ) { if( frames == 0 ) { /* XXX: Should we not allow the implementation to signal any underflow condition? */ result = paNoError; } else if( buffer == 0 ) { result = paBadBufferPtr; } else { result = PA_STREAM_INTERFACE(stream)->IsStopped( stream ); if( result == 0 ) { result = PA_STREAM_INTERFACE(stream)->Write( stream, buffer, frames ); } else if( result == 1 ) { result = paStreamIsStopped; } } } PA_LOGAPI_EXIT_PAERROR( "Pa_WriteStream", result ); return result; } signed long Pa_GetStreamReadAvailable( PaStream* stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); signed long result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetStreamReadAvailable" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( error != paNoError ) { result = 0; PA_LOGAPI(("Pa_GetStreamReadAvailable returned:\n" )); PA_LOGAPI(("\tunsigned long: 0 [ PaError error: %d ( %s ) ]\n", error, Pa_GetErrorText( error ) )); } else { result = PA_STREAM_INTERFACE(stream)->GetReadAvailable( stream ); PA_LOGAPI(("Pa_GetStreamReadAvailable returned:\n" )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); } return result; } signed long Pa_GetStreamWriteAvailable( PaStream* stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); signed long result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetStreamWriteAvailable" ); PA_LOGAPI(("\tPaStream* stream: 0x%p\n", stream )); if( error != paNoError ) { result = 0; PA_LOGAPI(("Pa_GetStreamWriteAvailable returned:\n" )); PA_LOGAPI(("\tunsigned long: 0 [ PaError error: %d ( %s ) ]\n", error, Pa_GetErrorText( error ) )); } else { result = PA_STREAM_INTERFACE(stream)->GetWriteAvailable( stream ); PA_LOGAPI(("Pa_GetStreamWriteAvailable returned:\n" )); PA_LOGAPI(("\tPaError: %d ( %s )\n", result, Pa_GetErrorText( result ) )); } return result; } PaHostApiTypeId Pa_GetStreamHostApiType( PaStream* stream ) { PaError error = PaUtil_ValidateStreamPointer( stream ); PaHostApiTypeId result; #ifdef PA_LOG_API_CALLS PaUtil_DebugPrint("Pa_GetStreamHostApiType called:\n" ); PaUtil_DebugPrint("\tPaStream* stream: 0x%p\n", stream ); #endif if( error == paNoError ) { result = PA_STREAM_REP(stream)->hostApiType; } else { result = (PaHostApiTypeId) error; } #ifdef PA_LOG_API_CALLS PaUtil_DebugPrint("Pa_GetStreamHostApiType returned:\n" ); PaUtil_DebugPrint("\tPaError: %d ( %s )\n\n", result, Pa_GetErrorText( result ) ); #endif return result; } PaError Pa_GetSampleSize( PaSampleFormat format ) { int result; PA_LOGAPI_ENTER_PARAMS( "Pa_GetSampleSize" ); PA_LOGAPI(("\tPaSampleFormat format: %d\n", format )); switch( format & ~paNonInterleaved ) { case paUInt8: case paInt8: result = 1; break; case paInt16: result = 2; break; case paInt24: result = 3; break; case paFloat32: case paInt32: result = 4; break; default: result = paSampleFormatNotSupported; break; } PA_LOGAPI_EXIT_PAERROR_OR_T_RESULT( "Pa_GetSampleSize", "int: %d", result ); return (PaError) result; }