diff --git a/extras/miniaudio_split/miniaudio.c b/extras/miniaudio_split/miniaudio.c index e6595b44..00d1fc1b 100644 --- a/extras/miniaudio_split/miniaudio.c +++ b/extras/miniaudio_split/miniaudio.c @@ -1,6 +1,6 @@ /* Audio playback and capture library. Choice of public domain or MIT-0. See license statements at the end of this file. -miniaudio - v0.10.37 - 2021-07-06 +miniaudio - v0.10.38 - 2021-07-14 David Reid - mackron@gmail.com @@ -1950,8 +1950,6 @@ static ma_result ma_allocation_callbacks_init_copy(ma_allocation_callbacks* pDst Logging **************************************************************************************************************************************************************/ -#if defined(MA_DEBUG_OUTPUT) - MA_API const char* ma_log_level_to_string(ma_uint32 logLevel) { switch (logLevel) @@ -1964,6 +1962,8 @@ MA_API const char* ma_log_level_to_string(ma_uint32 logLevel) } } +#if defined(MA_DEBUG_OUTPUT) + /* Customize this to use a specific tag in __android_log_print() for debug output messages. */ #ifndef MA_ANDROID_LOG_TAG #define MA_ANDROID_LOG_TAG "miniaudio" @@ -2246,7 +2246,9 @@ MA_API ma_result ma_log_postv(ma_log* pLog, ma_uint32 level, const char* pFormat */ #if defined(_MSC_VER) && _MSC_VER >= 1200 /* 1200 = VC6 */ { + ma_result result; int formattedLen; + char* pFormattedMessage = NULL; va_list args2; #if _MSC_VER >= 1800 @@ -2262,32 +2264,30 @@ MA_API ma_result ma_log_postv(ma_log* pLog, ma_uint32 level, const char* pFormat formattedLen = ma_vscprintf(&pLog->allocationCallbacks, pFormat, args2); va_end(args2); - if (formattedLen > 0) { - char* pFormattedMessage = NULL; - - pFormattedMessage = (char*)ma_malloc(formattedLen + 1, &pLog->allocationCallbacks); - if (pFormattedMessage != NULL) { - ma_result result; - - /* We'll get errors on newer versions of Visual Studio if we try to use vsprintf(). */ - #if _MSC_VER >= 1400 /* 1400 = Visual Studio 2005 */ - { - vsprintf_s(pFormattedMessage, formattedLen + 1, pFormat, args); - } - #else - { - vsprintf(pFormattedMessage, pFormat, args); - } - #endif - - result = ma_log_post(pLog, level, pFormattedMessage); - ma_free(pFormattedMessage, &pLog->allocationCallbacks); - - return result; - } - } else { + if (formattedLen <= 0) { return MA_INVALID_OPERATION; } + + pFormattedMessage = (char*)ma_malloc(formattedLen + 1, &pLog->allocationCallbacks); + if (pFormattedMessage == NULL) { + return MA_OUT_OF_MEMORY; + } + + /* We'll get errors on newer versions of Visual Studio if we try to use vsprintf(). */ + #if _MSC_VER >= 1400 /* 1400 = Visual Studio 2005 */ + { + vsprintf_s(pFormattedMessage, formattedLen + 1, pFormat, args); + } + #else + { + vsprintf(pFormattedMessage, pFormat, args); + } + #endif + + result = ma_log_post(pLog, level, pFormattedMessage); + ma_free(pFormattedMessage, &pLog->allocationCallbacks); + + return result; } #else { @@ -15210,6 +15210,7 @@ to check for type safety. We cannot do this when linking at run time because the #define MA_PA_ERR_ACCESS PA_ERR_ACCESS #define MA_PA_ERR_INVALID PA_ERR_INVALID #define MA_PA_ERR_NOENTITY PA_ERR_NOENTITY +#define MA_PA_ERR_NOTSUPPORTED PA_ERR_NOTSUPPORTED #define MA_PA_CHANNELS_MAX PA_CHANNELS_MAX #define MA_PA_RATE_MAX PA_RATE_MAX @@ -15405,12 +15406,14 @@ typedef pa_sink_info_cb_t ma_pa_sink_info_cb_t; typedef pa_source_info_cb_t ma_pa_source_info_cb_t; typedef pa_stream_success_cb_t ma_pa_stream_success_cb_t; typedef pa_stream_request_cb_t ma_pa_stream_request_cb_t; +typedef pa_stream_notify_cb_t ma_pa_stream_notify_cb_t; typedef pa_free_cb_t ma_pa_free_cb_t; #else #define MA_PA_OK 0 #define MA_PA_ERR_ACCESS 1 #define MA_PA_ERR_INVALID 2 #define MA_PA_ERR_NOENTITY 5 +#define MA_PA_ERR_NOTSUPPORTED 19 #define MA_PA_CHANNELS_MAX 32 #define MA_PA_RATE_MAX 384000 @@ -15684,6 +15687,7 @@ typedef void (* ma_pa_sink_info_cb_t) (ma_pa_context* c, const ma_pa_sink_in typedef void (* ma_pa_source_info_cb_t) (ma_pa_context* c, const ma_pa_source_info* i, int eol, void* userdata); typedef void (* ma_pa_stream_success_cb_t)(ma_pa_stream* s, int success, void* userdata); typedef void (* ma_pa_stream_request_cb_t)(ma_pa_stream* s, size_t nbytes, void* userdata); +typedef void (* ma_pa_stream_notify_cb_t) (ma_pa_stream* s, void* userdata); typedef void (* ma_pa_free_cb_t) (void* p); #endif @@ -15735,6 +15739,8 @@ typedef ma_pa_operation* (* ma_pa_stream_set_buffer_attr_proc) ( typedef const char* (* ma_pa_stream_get_device_name_proc) (ma_pa_stream* s); typedef void (* ma_pa_stream_set_write_callback_proc) (ma_pa_stream* s, ma_pa_stream_request_cb_t cb, void* userdata); typedef void (* ma_pa_stream_set_read_callback_proc) (ma_pa_stream* s, ma_pa_stream_request_cb_t cb, void* userdata); +typedef void (* ma_pa_stream_set_suspended_callback_proc) (ma_pa_stream* s, ma_pa_stream_notify_cb_t cb, void* userdata); +typedef int (* ma_pa_stream_is_suspended_proc) (const ma_pa_stream* s); typedef ma_pa_operation* (* ma_pa_stream_flush_proc) (ma_pa_stream* s, ma_pa_stream_success_cb_t cb, void* userdata); typedef ma_pa_operation* (* ma_pa_stream_drain_proc) (ma_pa_stream* s, ma_pa_stream_success_cb_t cb, void* userdata); typedef int (* ma_pa_stream_is_corked_proc) (ma_pa_stream* s); @@ -16607,6 +16613,36 @@ static void ma_device_on_write__pulse(ma_pa_stream* pStream, size_t byteCount, v } } +static void ma_device_on_suspended__pulse(ma_pa_stream* pStream, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + int suspended; + + (void)pStream; + + suspended = ((ma_pa_stream_is_suspended_proc)pDevice->pContext->pulse.pa_stream_is_suspended)(pStream); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. pa_stream_is_suspended() returned %d.\n", suspended); + + if (suspended < 0) { + return; + } + + if (suspended == 1) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. Suspended.\n"); + + /* Locking this behind MA_DEBUG_OUTPUT for the moment while this is still in an experimental state. */ + #if defined(MA_DEBUG_OUTPUT) + { + if (pDevice->onStop) { + pDevice->onStop(pDevice); + } + } + #endif + } else { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. Resumed.\n"); + } +} + static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) { /* @@ -16826,6 +16862,9 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi */ ((ma_pa_stream_set_write_callback_proc)pDevice->pContext->pulse.pa_stream_set_write_callback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_device_on_write__pulse, pDevice); + /* State callback for checking when the device has been corked. */ + ((ma_pa_stream_set_suspended_callback_proc)pDevice->pContext->pulse.pa_stream_set_suspended_callback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_device_on_suspended__pulse, pDevice); + /* Connect after we've got all of our internal state set up. */ streamFlags = MA_PA_STREAM_START_CORKED | MA_PA_STREAM_ADJUST_LATENCY | MA_PA_STREAM_FIX_FORMAT | MA_PA_STREAM_FIX_RATE | MA_PA_STREAM_FIX_CHANNELS; @@ -17146,6 +17185,8 @@ static ma_result ma_context_init__pulse(ma_context* pContext, const ma_context_c pContext->pulse.pa_stream_get_device_name = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_get_device_name"); pContext->pulse.pa_stream_set_write_callback = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_set_write_callback"); pContext->pulse.pa_stream_set_read_callback = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_set_read_callback"); + pContext->pulse.pa_stream_set_suspended_callback = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_set_suspended_callback"); + pContext->pulse.pa_stream_is_suspended = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_is_suspended"); pContext->pulse.pa_stream_flush = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_flush"); pContext->pulse.pa_stream_drain = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_drain"); pContext->pulse.pa_stream_is_corked = (ma_proc)ma_dlsym(pContext, pContext->pulse.pulseSO, "pa_stream_is_corked"); @@ -17206,6 +17247,8 @@ static ma_result ma_context_init__pulse(ma_context* pContext, const ma_context_c ma_pa_stream_get_device_name_proc _pa_stream_get_device_name = pa_stream_get_device_name; ma_pa_stream_set_write_callback_proc _pa_stream_set_write_callback = pa_stream_set_write_callback; ma_pa_stream_set_read_callback_proc _pa_stream_set_read_callback = pa_stream_set_read_callback; + ma_pa_stream_set_suspended_callback_proc _pa_stream_set_suspended_callback = pa_stream_set_suspended_callback; + ma_pa_stream_is_suspended_proc _pa_stream_is_suspended = pa_stream_is_suspended; ma_pa_stream_flush_proc _pa_stream_flush = pa_stream_flush; ma_pa_stream_drain_proc _pa_stream_drain = pa_stream_drain; ma_pa_stream_is_corked_proc _pa_stream_is_corked = pa_stream_is_corked; @@ -17265,6 +17308,8 @@ static ma_result ma_context_init__pulse(ma_context* pContext, const ma_context_c pContext->pulse.pa_stream_get_device_name = (ma_proc)_pa_stream_get_device_name; pContext->pulse.pa_stream_set_write_callback = (ma_proc)_pa_stream_set_write_callback; pContext->pulse.pa_stream_set_read_callback = (ma_proc)_pa_stream_set_read_callback; + pContext->pulse.pa_stream_set_suspended_callback = (ma_proc)_pa_stream_set_suspended_callback; + pContext->pulse.pa_stream_is_suspended = (ma_proc)_pa_stream_is_suspended; pContext->pulse.pa_stream_flush = (ma_proc)_pa_stream_flush; pContext->pulse.pa_stream_drain = (ma_proc)_pa_stream_drain; pContext->pulse.pa_stream_is_corked = (ma_proc)_pa_stream_is_corked; @@ -24901,8 +24946,11 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf SLDataLocator_AndroidSimpleBufferQueue queue; SLresult resultSL; size_t bufferSizeInBytes; - SLInterfaceID itfIDs1[1]; - const SLboolean itfIDsRequired1[] = {SL_BOOLEAN_TRUE}; + SLInterfaceID itfIDs[2]; + const SLboolean itfIDsRequired[] = { + SL_BOOLEAN_TRUE, /* SL_IID_ANDROIDSIMPLEBUFFERQUEUE */ + SL_BOOLEAN_FALSE /* SL_IID_ANDROIDCONFIGURATION */ + }; #endif MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it and then attempted to initialize a new device. */ @@ -24920,7 +24968,8 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf queues). */ #ifdef MA_ANDROID - itfIDs1[0] = (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE; + itfIDs[0] = (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE; + itfIDs[1] = (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDCONFIGURATION; /* No exclusive mode with OpenSL|ES. */ if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || @@ -24956,7 +25005,7 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf sink.pLocator = &queue; sink.pFormat = (SLDataFormat_PCM*)&pcm; - resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, 1, itfIDs1, itfIDsRequired1); + resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); if (resultSL == SL_RESULT_CONTENT_UNSUPPORTED) { /* Unsupported format. Fall back to something safer and try again. If this fails, just abort. */ pcm.formatType = SL_DATAFORMAT_PCM; @@ -24965,7 +25014,7 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf pcm.bitsPerSample = 16; pcm.containerSize = pcm.bitsPerSample; /* Always tightly packed for now. */ pcm.channelMask = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; - resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, 1, itfIDs1, itfIDsRequired1); + resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); } if (resultSL != SL_RESULT_SUCCESS) { @@ -25070,7 +25119,7 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf sink.pLocator = &outmixLocator; sink.pFormat = NULL; - resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, 1, itfIDs1, itfIDsRequired1); + resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); if (resultSL == SL_RESULT_CONTENT_UNSUPPORTED) { /* Unsupported format. Fall back to something safer and try again. If this fails, just abort. */ pcm.formatType = SL_DATAFORMAT_PCM; @@ -25079,7 +25128,7 @@ static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_conf pcm.bitsPerSample = 16; pcm.containerSize = pcm.bitsPerSample; /* Always tightly packed for now. */ pcm.channelMask = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; - resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, 1, itfIDs1, itfIDsRequired1); + resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); } if (resultSL != SL_RESULT_SUCCESS) { @@ -43760,6 +43809,14 @@ static ma_result ma_decoder_init__internal(ma_decoder_read_proc onRead, ma_decod } } + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (pConfig->encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + #ifdef MA_HAS_WAV if (result != MA_SUCCESS) { result = ma_decoder_init_wav__internal(pConfig, pDecoder); @@ -44277,6 +44334,26 @@ MA_API ma_result ma_decoder_init_vfs(ma_vfs* pVFS, const char* pFilePath, const if (result != MA_SUCCESS) { /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + if (result != MA_SUCCESS) { + result = ma_decoder_init_custom__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + #ifdef MA_HAS_WAV if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "wav")) { result = ma_decoder_init_wav__internal(&config, pDecoder); @@ -44463,6 +44540,26 @@ MA_API ma_result ma_decoder_init_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, c if (result != MA_SUCCESS) { /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + if (result != MA_SUCCESS) { + result = ma_decoder_init_custom__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + #ifdef MA_HAS_WAV if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"wav")) { result = ma_decoder_init_wav__internal(&config, pDecoder); diff --git a/extras/miniaudio_split/miniaudio.h b/extras/miniaudio_split/miniaudio.h index ef6e4b92..1c145d5d 100644 --- a/extras/miniaudio_split/miniaudio.h +++ b/extras/miniaudio_split/miniaudio.h @@ -1,6 +1,6 @@ /* Audio playback and capture library. Choice of public domain or MIT-0. See license statements at the end of this file. -miniaudio - v0.10.37 - 2021-07-06 +miniaudio - v0.10.38 - 2021-07-14 David Reid - mackron@gmail.com @@ -20,7 +20,7 @@ extern "C" { #define MA_VERSION_MAJOR 0 #define MA_VERSION_MINOR 10 -#define MA_VERSION_REVISION 37 +#define MA_VERSION_REVISION 38 #define MA_VERSION_STRING MA_XSTRINGIFY(MA_VERSION_MAJOR) "." MA_XSTRINGIFY(MA_VERSION_MINOR) "." MA_XSTRINGIFY(MA_VERSION_REVISION) #if defined(_MSC_VER) && !defined(__clang__) @@ -2384,6 +2384,8 @@ struct ma_context ma_proc pa_stream_get_device_name; ma_proc pa_stream_set_write_callback; ma_proc pa_stream_set_read_callback; + ma_proc pa_stream_set_suspended_callback; + ma_proc pa_stream_is_suspended; ma_proc pa_stream_flush; ma_proc pa_stream_drain; ma_proc pa_stream_is_corked; diff --git a/miniaudio.h b/miniaudio.h index ed247eba..182f4144 100644 --- a/miniaudio.h +++ b/miniaudio.h @@ -1,6 +1,6 @@ /* Audio playback and capture library. Choice of public domain or MIT-0. See license statements at the end of this file. -miniaudio - v0.10.38 - TBD +miniaudio - v0.10.38 - 2021-07-14 David Reid - mackron@gmail.com @@ -69393,7 +69393,7 @@ The following miscellaneous changes have also been made. /* REVISION HISTORY ================ -v0.10.38 - TBD +v0.10.38 - 2021-07-14 - Fix a linking error when MA_DEBUG_OUTPUT is not enabled. - Fix an error where ma_log_postv() does not return a value. - OpenSL: Fix a bug with setting of stream types and recording presets.