From f5c4671bfbad96bf346bd7e9a21fc4317b4959df Mon Sep 17 00:00:00 2001 From: Indrajith K L Date: Sat, 3 Dec 2022 17:00:20 +0530 Subject: Adds most of the tools --- v_windows/v/thirdparty/sokol/sokol_audio.h | 2147 ++++++++++++++++++++++++++++ 1 file changed, 2147 insertions(+) create mode 100644 v_windows/v/thirdparty/sokol/sokol_audio.h (limited to 'v_windows/v/thirdparty/sokol/sokol_audio.h') diff --git a/v_windows/v/thirdparty/sokol/sokol_audio.h b/v_windows/v/thirdparty/sokol/sokol_audio.h new file mode 100644 index 0000000..faea817 --- /dev/null +++ b/v_windows/v/thirdparty/sokol/sokol_audio.h @@ -0,0 +1,2147 @@ +#if defined(SOKOL_IMPL) && !defined(SOKOL_AUDIO_IMPL) +#define SOKOL_AUDIO_IMPL +#endif +#ifndef SOKOL_AUDIO_INCLUDED +/* + sokol_audio.h -- cross-platform audio-streaming API + + Project URL: https://github.com/floooh/sokol + + Do this: + #define SOKOL_IMPL or + #define SOKOL_AUDIO_IMPL + before you include this file in *one* C or C++ file to create the + implementation. + + Optionally provide the following defines with your own implementations: + + SOKOL_DUMMY_BACKEND - use a dummy backend + SOKOL_ASSERT(c) - your own assert macro (default: assert(c)) + SOKOL_LOG(msg) - your own logging function (default: puts(msg)) + SOKOL_MALLOC(s) - your own malloc() implementation (default: malloc(s)) + SOKOL_FREE(p) - your own free() implementation (default: free(p)) + SOKOL_AUDIO_API_DECL- public function declaration prefix (default: extern) + SOKOL_API_DECL - same as SOKOL_AUDIO_API_DECL + SOKOL_API_IMPL - public function implementation prefix (default: -) + + SAUDIO_RING_MAX_SLOTS - max number of slots in the push-audio ring buffer (default 1024) + SAUDIO_OSX_USE_SYSTEM_HEADERS - define this to force inclusion of system headers on + macOS instead of using embedded CoreAudio declarations + + If sokol_audio.h is compiled as a DLL, define the following before + including the declaration or implementation: + + SOKOL_DLL + + On Windows, SOKOL_DLL will define SOKOL_AUDIO_API_DECL as __declspec(dllexport) + or __declspec(dllimport) as needed. + + Link with the following libraries: + + - on macOS: AudioToolbox + - on iOS: AudioToolbox, AVFoundation + - on Linux: asound + - on Android: link with OpenSLES + - on Windows with MSVC or Clang toolchain: no action needed, libs are defined in-source via pragma-comment-lib + - on Windows with MINGW/MSYS2 gcc: compile with '-mwin32' and link with -lole32 + + FEATURE OVERVIEW + ================ + You provide a mono- or stereo-stream of 32-bit float samples, which + Sokol Audio feeds into platform-specific audio backends: + + - Windows: WASAPI + - Linux: ALSA + - macOS: CoreAudio + - iOS: CoreAudio+AVAudioSession + - emscripten: WebAudio with ScriptProcessorNode + - Android: OpenSLES + + Sokol Audio will not do any buffer mixing or volume control, if you have + multiple independent input streams of sample data you need to perform the + mixing yourself before forwarding the data to Sokol Audio. + + There are two mutually exclusive ways to provide the sample data: + + 1. Callback model: You provide a callback function, which will be called + when Sokol Audio needs new samples. On all platforms except emscripten, + this function is called from a separate thread. + 2. Push model: Your code pushes small blocks of sample data from your + main loop or a thread you created. The pushed data is stored in + a ring buffer where it is pulled by the backend code when + needed. + + The callback model is preferred because it is the most direct way to + feed sample data into the audio backends and also has less moving parts + (there is no ring buffer between your code and the audio backend). + + Sometimes it is not possible to generate the audio stream directly in a + callback function running in a separate thread, for such cases Sokol Audio + provides the push-model as a convenience. + + SOKOL AUDIO, SOLOUD AND MINIAUDIO + ================================= + The WASAPI, ALSA, OpenSLES and CoreAudio backend code has been taken from the + SoLoud library (with some modifications, so any bugs in there are most + likely my fault). If you need a more fully-featured audio solution, check + out SoLoud, it's excellent: + + https://github.com/jarikomppa/soloud + + Another alternative which feature-wise is somewhere inbetween SoLoud and + sokol-audio might be MiniAudio: + + https://github.com/mackron/miniaudio + + GLOSSARY + ======== + - stream buffer: + The internal audio data buffer, usually provided by the backend API. The + size of the stream buffer defines the base latency, smaller buffers have + lower latency but may cause audio glitches. Bigger buffers reduce or + eliminate glitches, but have a higher base latency. + + - stream callback: + Optional callback function which is called by Sokol Audio when it + needs new samples. On Windows, macOS/iOS and Linux, this is called in + a separate thread, on WebAudio, this is called per-frame in the + browser thread. + + - channel: + A discrete track of audio data, currently 1-channel (mono) and + 2-channel (stereo) is supported and tested. + + - sample: + The magnitude of an audio signal on one channel at a given time. In + Sokol Audio, samples are 32-bit float numbers in the range -1.0 to + +1.0. + + - frame: + The tightly packed set of samples for all channels at a given time. + For mono 1 frame is 1 sample. For stereo, 1 frame is 2 samples. + + - packet: + In Sokol Audio, a small chunk of audio data that is moved from the + main thread to the audio streaming thread in order to decouple the + rate at which the main thread provides new audio data, and the + streaming thread consuming audio data. + + WORKING WITH SOKOL AUDIO + ======================== + First call saudio_setup() with your preferred audio playback options. + In most cases you can stick with the default values, these provide + a good balance between low-latency and glitch-free playback + on all audio backends. + + If you want to use the callback-model, you need to provide a stream + callback function either in saudio_desc.stream_cb or saudio_desc.stream_userdata_cb, + otherwise keep both function pointers zero-initialized. + + Use push model and default playback parameters: + + saudio_setup(&(saudio_desc){0}); + + Use stream callback model and default playback parameters: + + saudio_setup(&(saudio_desc){ + .stream_cb = my_stream_callback + }); + + The standard stream callback doesn't have a user data argument, if you want + that, use the alternative stream_userdata_cb and also set the user_data pointer: + + saudio_setup(&(saudio_desc){ + .stream_userdata_cb = my_stream_callback, + .user_data = &my_data + }); + + The following playback parameters can be provided through the + saudio_desc struct: + + General parameters (both for stream-callback and push-model): + + int sample_rate -- the sample rate in Hz, default: 44100 + int num_channels -- number of channels, default: 1 (mono) + int buffer_frames -- number of frames in streaming buffer, default: 2048 + + The stream callback prototype (either with or without userdata): + + void (*stream_cb)(float* buffer, int num_frames, int num_channels) + void (*stream_userdata_cb)(float* buffer, int num_frames, int num_channels, void* user_data) + Function pointer to the user-provide stream callback. + + Push-model parameters: + + int packet_frames -- number of frames in a packet, default: 128 + int num_packets -- number of packets in ring buffer, default: 64 + + The sample_rate and num_channels parameters are only hints for the audio + backend, it isn't guaranteed that those are the values used for actual + playback. + + To get the actual parameters, call the following functions after + saudio_setup(): + + int saudio_sample_rate(void) + int saudio_channels(void); + + It's unlikely that the number of channels will be different than requested, + but a different sample rate isn't uncommon. + + (NOTE: there's an yet unsolved issue when an audio backend might switch + to a different sample rate when switching output devices, for instance + plugging in a bluetooth headset, this case is currently not handled in + Sokol Audio). + + You can check if audio initialization was successful with + saudio_isvalid(). If backend initialization failed for some reason + (for instance when there's no audio device in the machine), this + will return false. Not checking for success won't do any harm, all + Sokol Audio function will silently fail when called after initialization + has failed, so apart from missing audio output, nothing bad will happen. + + Before your application exits, you should call + + saudio_shutdown(); + + This stops the audio thread (on Linux, Windows and macOS/iOS) and + properly shuts down the audio backend. + + THE STREAM CALLBACK MODEL + ========================= + To use Sokol Audio in stream-callback-mode, provide a callback function + like this in the saudio_desc struct when calling saudio_setup(): + + void stream_cb(float* buffer, int num_frames, int num_channels) { + ... + } + + Or the alternative version with a user-data argument: + + void stream_userdata_cb(float* buffer, int num_frames, int num_channels, void* user_data) { + my_data_t* my_data = (my_data_t*) user_data; + ... + } + + The job of the callback function is to fill the *buffer* with 32-bit + float sample values. + + To output silence, fill the buffer with zeros: + + void stream_cb(float* buffer, int num_frames, int num_channels) { + const int num_samples = num_frames * num_channels; + for (int i = 0; i < num_samples; i++) { + buffer[i] = 0.0f; + } + } + + For stereo output (num_channels == 2), the samples for the left + and right channel are interleaved: + + void stream_cb(float* buffer, int num_frames, int num_channels) { + assert(2 == num_channels); + for (int i = 0; i < num_frames; i++) { + buffer[2*i + 0] = ...; // left channel + buffer[2*i + 1] = ...; // right channel + } + } + + Please keep in mind that the stream callback function is running in a + separate thread, if you need to share data with the main thread you need + to take care yourself to make the access to the shared data thread-safe! + + THE PUSH MODEL + ============== + To use the push-model for providing audio data, simply don't set (keep + zero-initialized) the stream_cb field in the saudio_desc struct when + calling saudio_setup(). + + To provide sample data with the push model, call the saudio_push() + function at regular intervals (for instance once per frame). You can + call the saudio_expect() function to ask Sokol Audio how much room is + in the ring buffer, but if you provide a continuous stream of data + at the right sample rate, saudio_expect() isn't required (it's a simple + way to sync/throttle your sample generation code with the playback + rate though). + + With saudio_push() you may need to maintain your own intermediate sample + buffer, since pushing individual sample values isn't very efficient. + The following example is from the MOD player sample in + sokol-samples (https://github.com/floooh/sokol-samples): + + const int num_frames = saudio_expect(); + if (num_frames > 0) { + const int num_samples = num_frames * saudio_channels(); + read_samples(flt_buf, num_samples); + saudio_push(flt_buf, num_frames); + } + + Another option is to ignore saudio_expect(), and just push samples as they + are generated in small batches. In this case you *need* to generate the + samples at the right sample rate: + + The following example is taken from the Tiny Emulators project + (https://github.com/floooh/chips-test), this is for mono playback, + so (num_samples == num_frames): + + // tick the sound generator + if (ay38910_tick(&sys->psg)) { + // new sample is ready + sys->sample_buffer[sys->sample_pos++] = sys->psg.sample; + if (sys->sample_pos == sys->num_samples) { + // new sample packet is ready + saudio_push(sys->sample_buffer, sys->num_samples); + sys->sample_pos = 0; + } + } + + THE WEBAUDIO BACKEND + ==================== + The WebAudio backend is currently using a ScriptProcessorNode callback to + feed the sample data into WebAudio. ScriptProcessorNode has been + deprecated for a while because it is running from the main thread, with + the default initialization parameters it works 'pretty well' though. + Ultimately Sokol Audio will use Audio Worklets, but this requires a few + more things to fall into place (Audio Worklets implemented everywhere, + SharedArrayBuffers enabled again, and I need to figure out a 'low-cost' + solution in terms of implementation effort, since Audio Worklets are + a lot more complex than ScriptProcessorNode if the audio data needs to come + from the main thread). + + The WebAudio backend is automatically selected when compiling for + emscripten (__EMSCRIPTEN__ define exists). + + https://developers.google.com/web/updates/2017/12/audio-worklet + https://developers.google.com/web/updates/2018/06/audio-worklet-design-pattern + + "Blob URLs": https://www.html5rocks.com/en/tutorials/workers/basics/ + + THE COREAUDIO BACKEND + ===================== + The CoreAudio backend is selected on macOS and iOS (__APPLE__ is defined). + Since the CoreAudio API is implemented in C (not Objective-C) on macOS the + implementation part of Sokol Audio can be included into a C source file. + + However on iOS, Sokol Audio must be compiled as Objective-C due to it's + reliance on the AVAudioSession object. The iOS code path support both + being compiled with or without ARC (Automatic Reference Counting). + + For thread synchronisation, the CoreAudio backend will use the + pthread_mutex_* functions. + + The incoming floating point samples will be directly forwarded to + CoreAudio without further conversion. + + macOS and iOS applications that use Sokol Audio need to link with + the AudioToolbox framework. + + THE WASAPI BACKEND + ================== + The WASAPI backend is automatically selected when compiling on Windows + (_WIN32 is defined). + + For thread synchronisation a Win32 critical section is used. + + WASAPI may use a different size for its own streaming buffer then requested, + so the base latency may be slightly bigger. The current backend implementation + converts the incoming floating point sample values to signed 16-bit + integers. + + The required Windows system DLLs are linked with #pragma comment(lib, ...), + so you shouldn't need to add additional linker libs in the build process + (otherwise this is a bug which should be fixed in sokol_audio.h). + + THE ALSA BACKEND + ================ + The ALSA backend is automatically selected when compiling on Linux + ('linux' is defined). + + For thread synchronisation, the pthread_mutex_* functions are used. + + Samples are directly forwarded to ALSA in 32-bit float format, no + further conversion is taking place. + + You need to link with the 'asound' library, and the + header must be present (usually both are installed with some sort + of ALSA development package). + + LICENSE + ======= + + zlib/libpng license + + Copyright (c) 2018 Andre Weissflog + + This software is provided 'as-is', without any express or implied warranty. + In no event will the authors be held liable for any damages arising from the + use of this software. + + Permission is granted to anyone to use this software for any purpose, + including commercial applications, and to alter it and redistribute it + freely, subject to the following restrictions: + + 1. The origin of this software must not be misrepresented; you must not + claim that you wrote the original software. If you use this software in a + product, an acknowledgment in the product documentation would be + appreciated but is not required. + + 2. Altered source versions must be plainly marked as such, and must not + be misrepresented as being the original software. + + 3. This notice may not be removed or altered from any source + distribution. +*/ +#define SOKOL_AUDIO_INCLUDED (1) +#include +#include + +#if defined(SOKOL_API_DECL) && !defined(SOKOL_AUDIO_API_DECL) +#define SOKOL_AUDIO_API_DECL SOKOL_API_DECL +#endif +#ifndef SOKOL_AUDIO_API_DECL +#if defined(_WIN32) && defined(SOKOL_DLL) && defined(SOKOL_AUDIO_IMPL) +#define SOKOL_AUDIO_API_DECL __declspec(dllexport) +#elif defined(_WIN32) && defined(SOKOL_DLL) +#define SOKOL_AUDIO_API_DECL __declspec(dllimport) +#else +#define SOKOL_AUDIO_API_DECL extern +#endif +#endif + +#ifdef __cplusplus +extern "C" { +#endif + +typedef struct saudio_desc { + int sample_rate; /* requested sample rate */ + int num_channels; /* number of channels, default: 1 (mono) */ + int buffer_frames; /* number of frames in streaming buffer */ + int packet_frames; /* number of frames in a packet */ + int num_packets; /* number of packets in packet queue */ + void (*stream_cb)(float* buffer, int num_frames, int num_channels); /* optional streaming callback (no user data) */ + void (*stream_userdata_cb)(float* buffer, int num_frames, int num_channels, void* user_data); /*... and with user data */ + void* user_data; /* optional user data argument for stream_userdata_cb */ +} saudio_desc; + +/* setup sokol-audio */ +SOKOL_AUDIO_API_DECL void saudio_setup(const saudio_desc* desc); +/* shutdown sokol-audio */ +SOKOL_AUDIO_API_DECL void saudio_shutdown(void); +/* true after setup if audio backend was successfully initialized */ +SOKOL_AUDIO_API_DECL bool saudio_isvalid(void); +/* return the saudio_desc.user_data pointer */ +SOKOL_AUDIO_API_DECL void* saudio_userdata(void); +/* return a copy of the original saudio_desc struct */ +SOKOL_AUDIO_API_DECL saudio_desc saudio_query_desc(void); +/* actual sample rate */ +SOKOL_AUDIO_API_DECL int saudio_sample_rate(void); +/* return actual backend buffer size in number of frames */ +SOKOL_AUDIO_API_DECL int saudio_buffer_frames(void); +/* actual number of channels */ +SOKOL_AUDIO_API_DECL int saudio_channels(void); +/* get current number of frames to fill packet queue */ +SOKOL_AUDIO_API_DECL int saudio_expect(void); +/* push sample frames from main thread, returns number of frames actually pushed */ +SOKOL_AUDIO_API_DECL int saudio_push(const float* frames, int num_frames); + +#ifdef __cplusplus +} /* extern "C" */ + +/* reference-based equivalents for c++ */ +inline void saudio_setup(const saudio_desc& desc) { return saudio_setup(&desc); } + +#endif +#endif // SOKOL_AUDIO_INCLUDED + +/*=== IMPLEMENTATION =========================================================*/ +#ifdef SOKOL_AUDIO_IMPL +#define SOKOL_AUDIO_IMPL_INCLUDED (1) +#include // memset, memcpy +#include // size_t + +#ifndef SOKOL_API_IMPL + #define SOKOL_API_IMPL +#endif +#ifndef SOKOL_DEBUG + #ifndef NDEBUG + #define SOKOL_DEBUG (1) + #endif +#endif +#ifndef SOKOL_ASSERT + #include + #define SOKOL_ASSERT(c) assert(c) +#endif +#ifndef SOKOL_MALLOC + #include + #define SOKOL_MALLOC(s) malloc(s) + #define SOKOL_FREE(p) free(p) +#endif +#ifndef SOKOL_LOG + #ifdef SOKOL_DEBUG + #include + #define SOKOL_LOG(s) { SOKOL_ASSERT(s); puts(s); } + #else + #define SOKOL_LOG(s) + #endif +#endif + +#ifndef _SOKOL_PRIVATE + #if defined(__GNUC__) || defined(__clang__) + #define _SOKOL_PRIVATE __attribute__((unused)) static + #else + #define _SOKOL_PRIVATE static + #endif +#endif + +#ifndef _SOKOL_UNUSED + #define _SOKOL_UNUSED(x) (void)(x) +#endif + +// platform detection defines +#if defined(SOKOL_DUMMY_BACKEND) + // nothing +#elif defined(__APPLE__) + #define _SAUDIO_APPLE (1) + #include + #if defined(TARGET_OS_IPHONE) && TARGET_OS_IPHONE + #define _SAUDIO_IOS (1) + #else + #define _SAUDIO_MACOS (1) + #endif +#elif defined(__EMSCRIPTEN__) + #define _SAUDIO_EMSCRIPTEN +#elif defined(_WIN32) + #define _SAUDIO_WINDOWS (1) + #include + #if (defined(WINAPI_FAMILY_PARTITION) && !WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP)) + #define _SAUDIO_UWP (1) + #else + #define _SAUDIO_WIN32 (1) + #endif +#elif defined(__ANDROID__) + #define _SAUDIO_ANDROID (1) +#elif defined(__linux__) || defined(__unix__) + #define _SAUDIO_LINUX (1) +#else +#error "sokol_audio.h: Unknown platform" +#endif + +// platform-specific headers and definitions +#if defined(SOKOL_DUMMY_BACKEND) + #define _SAUDIO_NOTHREADS (1) +#elif defined(_SAUDIO_WINDOWS) + #define _SAUDIO_WINTHREADS (1) + #ifndef WIN32_LEAN_AND_MEAN + #define WIN32_LEAN_AND_MEAN + #endif + #ifndef NOMINMAX + #define NOMINMAX + #endif + #include + #include + #if defined(_SAUDIO_UWP) + #pragma comment (lib, "WindowsApp") + #else + #pragma comment (lib, "kernel32") + #pragma comment (lib, "ole32") + #endif + #ifndef CINTERFACE + #define CINTERFACE + #endif + #ifndef COBJMACROS + #define COBJMACROS + #endif + #ifndef CONST_VTABLE + #define CONST_VTABLE + #endif + #include + #include + static const IID _saudio_IID_IAudioClient = { 0x1cb9ad4c, 0xdbfa, 0x4c32, { 0xb1, 0x78, 0xc2, 0xf5, 0x68, 0xa7, 0x03, 0xb2 } }; + static const IID _saudio_IID_IMMDeviceEnumerator = { 0xa95664d2, 0x9614, 0x4f35, { 0xa7, 0x46, 0xde, 0x8d, 0xb6, 0x36, 0x17, 0xe6 } }; + static const CLSID _saudio_CLSID_IMMDeviceEnumerator = { 0xbcde0395, 0xe52f, 0x467c, { 0x8e, 0x3d, 0xc4, 0x57, 0x92, 0x91, 0x69, 0x2e } }; + static const IID _saudio_IID_IAudioRenderClient = { 0xf294acfc, 0x3146, 0x4483,{ 0xa7, 0xbf, 0xad, 0xdc, 0xa7, 0xc2, 0x60, 0xe2 } }; + static const IID _saudio_IID_Devinterface_Audio_Render = { 0xe6327cad, 0xdcec, 0x4949, {0xae, 0x8a, 0x99, 0x1e, 0x97, 0x6a, 0x79, 0xd2 } }; + static const IID _saudio_IID_IActivateAudioInterface_Completion_Handler = { 0x94ea2b94, 0xe9cc, 0x49e0, {0xc0, 0xff, 0xee, 0x64, 0xca, 0x8f, 0x5b, 0x90} }; + #if defined(__cplusplus) + #define _SOKOL_AUDIO_WIN32COM_ID(x) (x) + #else + #define _SOKOL_AUDIO_WIN32COM_ID(x) (&x) + #endif + /* fix for Visual Studio 2015 SDKs */ + #ifndef AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM + #define AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM 0x80000000 + #endif + #ifndef AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY + #define AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY 0x08000000 + #endif + #ifdef _MSC_VER + #pragma warning(push) + #pragma warning(disable:4505) /* unreferenced local function has been removed */ + #endif +#elif defined(_SAUDIO_APPLE) + #define _SAUDIO_PTHREADS (1) + #include + #if defined(_SAUDIO_IOS) + // always use system headers on iOS (for now at least) + #if !defined(SAUDIO_OSX_USE_SYSTEM_HEADERS) + #define SAUDIO_OSX_USE_SYSTEM_HEADERS (1) + #endif + #if !defined(__cplusplus) + #if __has_feature(objc_arc) && !__has_feature(objc_arc_fields) + #error "sokol_audio.h on iOS requires __has_feature(objc_arc_field) if ARC is enabled (use a more recent compiler version)" + #endif + #endif + #include + #include + #else + #if defined(SAUDIO_OSX_USE_SYSTEM_HEADERS) + #include + #endif + #endif +#elif defined(_SAUDIO_ANDROID) + #define _SAUDIO_PTHREADS (1) + #include + #include "SLES/OpenSLES_Android.h" +#elif defined(_SAUDIO_LINUX) + #define _SAUDIO_PTHREADS (1) + #include + #define ALSA_PCM_NEW_HW_PARAMS_API + #include +#elif defined(__EMSCRIPTEN__) + #define _SAUDIO_NOTHREADS (1) + #include +#endif + +#define _saudio_def(val, def) (((val) == 0) ? (def) : (val)) +#define _saudio_def_flt(val, def) (((val) == 0.0f) ? (def) : (val)) + +#define _SAUDIO_DEFAULT_SAMPLE_RATE (44100) +#define _SAUDIO_DEFAULT_BUFFER_FRAMES (2048) +#define _SAUDIO_DEFAULT_PACKET_FRAMES (128) +#define _SAUDIO_DEFAULT_NUM_PACKETS ((_SAUDIO_DEFAULT_BUFFER_FRAMES/_SAUDIO_DEFAULT_PACKET_FRAMES)*4) + +#ifndef SAUDIO_RING_MAX_SLOTS +#define SAUDIO_RING_MAX_SLOTS (1024) +#endif + +/*=== MUTEX WRAPPER DECLARATIONS =============================================*/ +#if defined(_SAUDIO_PTHREADS) + +typedef struct { + pthread_mutex_t mutex; +} _saudio_mutex_t; + +#elif defined(_SAUDIO_WINTHREADS) + +typedef struct { + CRITICAL_SECTION critsec; +} _saudio_mutex_t; + +#elif defined(_SAUDIO_NOTHREADS) + +typedef struct { + int dummy_mutex; +} _saudio_mutex_t; + +#endif + +/*=== DUMMY BACKEND DECLARATIONS =============================================*/ +#if defined(SOKOL_DUMMY_BACKEND) + +typedef struct { + int dummy_backend; +} _saudio_backend_t; + +/*=== COREAUDIO BACKEND DECLARATIONS =========================================*/ +#elif defined(_SAUDIO_APPLE) + +#if defined(SAUDIO_OSX_USE_SYSTEM_HEADERS) + +typedef AudioQueueRef _saudio_AudioQueueRef; +typedef AudioQueueBufferRef _saudio_AudioQueueBufferRef; +typedef AudioStreamBasicDescription _saudio_AudioStreamBasicDescription; +typedef OSStatus _saudio_OSStatus; + +#define _saudio_kAudioFormatLinearPCM (kAudioFormatLinearPCM) +#define _saudio_kLinearPCMFormatFlagIsFloat (kLinearPCMFormatFlagIsFloat) +#define _saudio_kAudioFormatFlagIsPacked (kAudioFormatFlagIsPacked) + +#else + +// embedded AudioToolbox declarations +typedef uint32_t _saudio_AudioFormatID; +typedef uint32_t _saudio_AudioFormatFlags; +typedef int32_t _saudio_OSStatus; +typedef uint32_t _saudio_SMPTETimeType; +typedef uint32_t _saudio_SMPTETimeFlags; +typedef uint32_t _saudio_AudioTimeStampFlags; +typedef void* _saudio_CFRunLoopRef; +typedef void* _saudio_CFStringRef; +typedef void* _saudio_AudioQueueRef; + +#define _saudio_kAudioFormatLinearPCM ('lpcm') +#define _saudio_kLinearPCMFormatFlagIsFloat (1U << 0) +#define _saudio_kAudioFormatFlagIsPacked (1U << 3) + +typedef struct _saudio_AudioStreamBasicDescription { + double mSampleRate; + _saudio_AudioFormatID mFormatID; + _saudio_AudioFormatFlags mFormatFlags; + uint32_t mBytesPerPacket; + uint32_t mFramesPerPacket; + uint32_t mBytesPerFrame; + uint32_t mChannelsPerFrame; + uint32_t mBitsPerChannel; + uint32_t mReserved; +} _saudio_AudioStreamBasicDescription; + +typedef struct _saudio_AudioStreamPacketDescription { + int64_t mStartOffset; + uint32_t mVariableFramesInPacket; + uint32_t mDataByteSize; +} _saudio_AudioStreamPacketDescription; + +typedef struct _saudio_SMPTETime { + int16_t mSubframes; + int16_t mSubframeDivisor; + uint32_t mCounter; + _saudio_SMPTETimeType mType; + _saudio_SMPTETimeFlags mFlags; + int16_t mHours; + int16_t mMinutes; + int16_t mSeconds; + int16_t mFrames; +} _saudio_SMPTETime; + +typedef struct _saudio_AudioTimeStamp { + double mSampleTime; + uint64_t mHostTime; + double mRateScalar; + uint64_t mWordClockTime; + _saudio_SMPTETime mSMPTETime; + _saudio_AudioTimeStampFlags mFlags; + uint32_t mReserved; +} _saudio_AudioTimeStamp; + +typedef struct _saudio_AudioQueueBuffer { + const uint32_t mAudioDataBytesCapacity; + void* const mAudioData; + uint32_t mAudioDataByteSize; + void * mUserData; + const uint32_t mPacketDescriptionCapacity; + _saudio_AudioStreamPacketDescription* const mPacketDescriptions; + uint32_t mPacketDescriptionCount; +} _saudio_AudioQueueBuffer; +typedef _saudio_AudioQueueBuffer* _saudio_AudioQueueBufferRef; + +typedef void (*_saudio_AudioQueueOutputCallback)(void* user_data, _saudio_AudioQueueRef inAQ, _saudio_AudioQueueBufferRef inBuffer); + +extern _saudio_OSStatus AudioQueueNewOutput(const _saudio_AudioStreamBasicDescription* inFormat, _saudio_AudioQueueOutputCallback inCallbackProc, void* inUserData, _saudio_CFRunLoopRef inCallbackRunLoop, _saudio_CFStringRef inCallbackRunLoopMode, uint32_t inFlags, _saudio_AudioQueueRef* outAQ); +extern _saudio_OSStatus AudioQueueDispose(_saudio_AudioQueueRef inAQ, bool inImmediate); +extern _saudio_OSStatus AudioQueueAllocateBuffer(_saudio_AudioQueueRef inAQ, uint32_t inBufferByteSize, _saudio_AudioQueueBufferRef* outBuffer); +extern _saudio_OSStatus AudioQueueEnqueueBuffer(_saudio_AudioQueueRef inAQ, _saudio_AudioQueueBufferRef inBuffer, uint32_t inNumPacketDescs, const _saudio_AudioStreamPacketDescription* inPacketDescs); +extern _saudio_OSStatus AudioQueueStart(_saudio_AudioQueueRef inAQ, const _saudio_AudioTimeStamp * inStartTime); +extern _saudio_OSStatus AudioQueueStop(_saudio_AudioQueueRef inAQ, bool inImmediate); +#endif // SAUDIO_OSX_USE_SYSTEM_HEADERS + +typedef struct { + _saudio_AudioQueueRef ca_audio_queue; + #if defined(_SAUDIO_IOS) + id ca_interruption_handler; + #endif +} _saudio_backend_t; + +/*=== ALSA BACKEND DECLARATIONS ==============================================*/ +#elif defined(_SAUDIO_LINUX) + +typedef struct { + snd_pcm_t* device; + float* buffer; + int buffer_byte_size; + int buffer_frames; + pthread_t thread; + bool thread_stop; +} _saudio_backend_t; + +/*=== OpenSLES BACKEND DECLARATIONS ==============================================*/ +#elif defined(_SAUDIO_ANDROID) + +#define SAUDIO_NUM_BUFFERS 2 + +typedef struct { + pthread_mutex_t mutex; + pthread_cond_t cond; + int count; +} _saudio_semaphore_t; + +typedef struct { + SLObjectItf engine_obj; + SLEngineItf engine; + SLObjectItf output_mix_obj; + SLVolumeItf output_mix_vol; + SLDataLocator_OutputMix out_locator; + SLDataSink dst_data_sink; + SLObjectItf player_obj; + SLPlayItf player; + SLVolumeItf player_vol; + SLAndroidSimpleBufferQueueItf player_buffer_queue; + + int16_t* output_buffers[SAUDIO_NUM_BUFFERS]; + float* src_buffer; + int active_buffer; + _saudio_semaphore_t buffer_sem; + pthread_t thread; + volatile int thread_stop; + SLDataLocator_AndroidSimpleBufferQueue in_locator; +} _saudio_backend_t; + +/*=== WASAPI BACKEND DECLARATIONS ============================================*/ +#elif defined(_SAUDIO_WINDOWS) + +typedef struct { + HANDLE thread_handle; + HANDLE buffer_end_event; + bool stop; + UINT32 dst_buffer_frames; + int src_buffer_frames; + int src_buffer_byte_size; + int src_buffer_pos; + float* src_buffer; +} _saudio_wasapi_thread_data_t; + +typedef struct { + #if defined(_SAUDIO_UWP) + LPOLESTR interface_activation_audio_interface_uid_string; + IActivateAudioInterfaceAsyncOperation* interface_activation_operation; + BOOL interface_activation_success; + HANDLE interface_activation_mutex; + #else + IMMDeviceEnumerator* device_enumerator; + IMMDevice* device; + #endif + IAudioClient* audio_client; + IAudioRenderClient* render_client; + int si16_bytes_per_frame; + _saudio_wasapi_thread_data_t thread; +} _saudio_backend_t; + +/*=== WEBAUDIO BACKEND DECLARATIONS ==========================================*/ +#elif defined(_SAUDIO_EMSCRIPTEN) + +typedef struct { + uint8_t* buffer; +} _saudio_backend_t; + +#else +#error "unknown platform" +#endif + +/*=== GENERAL DECLARATIONS ===================================================*/ + +/* a ringbuffer structure */ +typedef struct { + int head; // next slot to write to + int tail; // next slot to read from + int num; // number of slots in queue + int queue[SAUDIO_RING_MAX_SLOTS]; +} _saudio_ring_t; + +/* a packet FIFO structure */ +typedef struct { + bool valid; + int packet_size; /* size of a single packets in bytes(!) */ + int num_packets; /* number of packet in fifo */ + uint8_t* base_ptr; /* packet memory chunk base pointer (dynamically allocated) */ + int cur_packet; /* current write-packet */ + int cur_offset; /* current byte-offset into current write packet */ + _saudio_mutex_t mutex; /* mutex for thread-safe access */ + _saudio_ring_t read_queue; /* buffers with data, ready to be streamed */ + _saudio_ring_t write_queue; /* empty buffers, ready to be pushed to */ +} _saudio_fifo_t; + +/* sokol-audio state */ +typedef struct { + bool valid; + void (*stream_cb)(float* buffer, int num_frames, int num_channels); + void (*stream_userdata_cb)(float* buffer, int num_frames, int num_channels, void* user_data); + void* user_data; + int sample_rate; /* sample rate */ + int buffer_frames; /* number of frames in streaming buffer */ + int bytes_per_frame; /* filled by backend */ + int packet_frames; /* number of frames in a packet */ + int num_packets; /* number of packets in packet queue */ + int num_channels; /* actual number of channels */ + saudio_desc desc; + _saudio_fifo_t fifo; + _saudio_backend_t backend; +} _saudio_state_t; + +static _saudio_state_t _saudio; + +_SOKOL_PRIVATE bool _saudio_has_callback(void) { + return (_saudio.stream_cb || _saudio.stream_userdata_cb); +} + +_SOKOL_PRIVATE void _saudio_stream_callback(float* buffer, int num_frames, int num_channels) { + if (_saudio.stream_cb) { + _saudio.stream_cb(buffer, num_frames, num_channels); + } + else if (_saudio.stream_userdata_cb) { + _saudio.stream_userdata_cb(buffer, num_frames, num_channels, _saudio.user_data); + } +} + +/*=== MUTEX IMPLEMENTATION ===================================================*/ +#if defined(_SAUDIO_NOTHREADS) + +_SOKOL_PRIVATE void _saudio_mutex_init(_saudio_mutex_t* m) { (void)m; } +_SOKOL_PRIVATE void _saudio_mutex_destroy(_saudio_mutex_t* m) { (void)m; } +_SOKOL_PRIVATE void _saudio_mutex_lock(_saudio_mutex_t* m) { (void)m; } +_SOKOL_PRIVATE void _saudio_mutex_unlock(_saudio_mutex_t* m) { (void)m; } + +#elif defined(_SAUDIO_PTHREADS) + +_SOKOL_PRIVATE void _saudio_mutex_init(_saudio_mutex_t* m) { + pthread_mutexattr_t attr; + pthread_mutexattr_init(&attr); + pthread_mutex_init(&m->mutex, &attr); +} + +_SOKOL_PRIVATE void _saudio_mutex_destroy(_saudio_mutex_t* m) { + pthread_mutex_destroy(&m->mutex); +} + +_SOKOL_PRIVATE void _saudio_mutex_lock(_saudio_mutex_t* m) { + pthread_mutex_lock(&m->mutex); +} + +_SOKOL_PRIVATE void _saudio_mutex_unlock(_saudio_mutex_t* m) { + pthread_mutex_unlock(&m->mutex); +} + +#elif defined(_SAUDIO_WINTHREADS) + +_SOKOL_PRIVATE void _saudio_mutex_init(_saudio_mutex_t* m) { + InitializeCriticalSection(&m->critsec); +} + +_SOKOL_PRIVATE void _saudio_mutex_destroy(_saudio_mutex_t* m) { + DeleteCriticalSection(&m->critsec); +} + +_SOKOL_PRIVATE void _saudio_mutex_lock(_saudio_mutex_t* m) { + EnterCriticalSection(&m->critsec); +} + +_SOKOL_PRIVATE void _saudio_mutex_unlock(_saudio_mutex_t* m) { + LeaveCriticalSection(&m->critsec); +} +#else +#error "unknown platform!" +#endif + +/*=== RING-BUFFER QUEUE IMPLEMENTATION =======================================*/ +_SOKOL_PRIVATE int _saudio_ring_idx(_saudio_ring_t* ring, int i) { + return (i % ring->num); +} + +_SOKOL_PRIVATE void _saudio_ring_init(_saudio_ring_t* ring, int num_slots) { + SOKOL_ASSERT((num_slots + 1) <= SAUDIO_RING_MAX_SLOTS); + ring->head = 0; + ring->tail = 0; + /* one slot reserved to detect 'full' vs 'empty' */ + ring->num = num_slots + 1; +} + +_SOKOL_PRIVATE bool _saudio_ring_full(_saudio_ring_t* ring) { + return _saudio_ring_idx(ring, ring->head + 1) == ring->tail; +} + +_SOKOL_PRIVATE bool _saudio_ring_empty(_saudio_ring_t* ring) { + return ring->head == ring->tail; +} + +_SOKOL_PRIVATE int _saudio_ring_count(_saudio_ring_t* ring) { + int count; + if (ring->head >= ring->tail) { + count = ring->head - ring->tail; + } + else { + count = (ring->head + ring->num) - ring->tail; + } + SOKOL_ASSERT(count < ring->num); + return count; +} + +_SOKOL_PRIVATE void _saudio_ring_enqueue(_saudio_ring_t* ring, int val) { + SOKOL_ASSERT(!_saudio_ring_full(ring)); + ring->queue[ring->head] = val; + ring->head = _saudio_ring_idx(ring, ring->head + 1); +} + +_SOKOL_PRIVATE int _saudio_ring_dequeue(_saudio_ring_t* ring) { + SOKOL_ASSERT(!_saudio_ring_empty(ring)); + int val = ring->queue[ring->tail]; + ring->tail = _saudio_ring_idx(ring, ring->tail + 1); + return val; +} + +/*--- a packet fifo for queueing audio data from main thread ----------------*/ +_SOKOL_PRIVATE void _saudio_fifo_init_mutex(_saudio_fifo_t* fifo) { + /* this must be called before initializing both the backend and the fifo itself! */ + _saudio_mutex_init(&fifo->mutex); +} + +_SOKOL_PRIVATE void _saudio_fifo_init(_saudio_fifo_t* fifo, int packet_size, int num_packets) { + /* NOTE: there's a chicken-egg situation during the init phase where the + streaming thread must be started before the fifo is actually initialized, + thus the fifo init must already be protected from access by the fifo_read() func. + */ + _saudio_mutex_lock(&fifo->mutex); + SOKOL_ASSERT((packet_size > 0) && (num_packets > 0)); + fifo->packet_size = packet_size; + fifo->num_packets = num_packets; + fifo->base_ptr = (uint8_t*) SOKOL_MALLOC((size_t)(packet_size * num_packets)); + SOKOL_ASSERT(fifo->base_ptr); + fifo->cur_packet = -1; + fifo->cur_offset = 0; + _saudio_ring_init(&fifo->read_queue, num_packets); + _saudio_ring_init(&fifo->write_queue, num_packets); + for (int i = 0; i < num_packets; i++) { + _saudio_ring_enqueue(&fifo->write_queue, i); + } + SOKOL_ASSERT(_saudio_ring_full(&fifo->write_queue)); + SOKOL_ASSERT(_saudio_ring_count(&fifo->write_queue) == num_packets); + SOKOL_ASSERT(_saudio_ring_empty(&fifo->read_queue)); + SOKOL_ASSERT(_saudio_ring_count(&fifo->read_queue) == 0); + fifo->valid = true; + _saudio_mutex_unlock(&fifo->mutex); +} + +_SOKOL_PRIVATE void _saudio_fifo_shutdown(_saudio_fifo_t* fifo) { + SOKOL_ASSERT(fifo->base_ptr); + SOKOL_FREE(fifo->base_ptr); + fifo->base_ptr = 0; + fifo->valid = false; + _saudio_mutex_destroy(&fifo->mutex); +} + +_SOKOL_PRIVATE int _saudio_fifo_writable_bytes(_saudio_fifo_t* fifo) { + _saudio_mutex_lock(&fifo->mutex); + int num_bytes = (_saudio_ring_count(&fifo->write_queue) * fifo->packet_size); + if (fifo->cur_packet != -1) { + num_bytes += fifo->packet_size - fifo->cur_offset; + } + _saudio_mutex_unlock(&fifo->mutex); + SOKOL_ASSERT((num_bytes >= 0) && (num_bytes <= (fifo->num_packets * fifo->packet_size))); + return num_bytes; +} + +/* write new data to the write queue, this is called from main thread */ +_SOKOL_PRIVATE int _saudio_fifo_write(_saudio_fifo_t* fifo, const uint8_t* ptr, int num_bytes) { + /* returns the number of bytes written, this will be smaller then requested + if the write queue runs full + */ + int all_to_copy = num_bytes; + while (all_to_copy > 0) { + /* need to grab a new packet? */ + if (fifo->cur_packet == -1) { + _saudio_mutex_lock(&fifo->mutex); + if (!_saudio_ring_empty(&fifo->write_queue)) { + fifo->cur_packet = _saudio_ring_dequeue(&fifo->write_queue); + } + _saudio_mutex_unlock(&fifo->mutex); + SOKOL_ASSERT(fifo->cur_offset == 0); + } + /* append data to current write packet */ + if (fifo->cur_packet != -1) { + int to_copy = all_to_copy; + const int max_copy = fifo->packet_size - fifo->cur_offset; + if (to_copy > max_copy) { + to_copy = max_copy; + } + uint8_t* dst = fifo->base_ptr + fifo->cur_packet * fifo->packet_size + fifo->cur_offset; + memcpy(dst, ptr, (size_t)to_copy); + ptr += to_copy; + fifo->cur_offset += to_copy; + all_to_copy -= to_copy; + SOKOL_ASSERT(fifo->cur_offset <= fifo->packet_size); + SOKOL_ASSERT(all_to_copy >= 0); + } + else { + /* early out if we're starving */ + int bytes_copied = num_bytes - all_to_copy; + SOKOL_ASSERT((bytes_copied >= 0) && (bytes_copied < num_bytes)); + return bytes_copied; + } + /* if write packet is full, push to read queue */ + if (fifo->cur_offset == fifo->packet_size) { + _saudio_mutex_lock(&fifo->mutex); + _saudio_ring_enqueue(&fifo->read_queue, fifo->cur_packet); + _saudio_mutex_unlock(&fifo->mutex); + fifo->cur_packet = -1; + fifo->cur_offset = 0; + } + } + SOKOL_ASSERT(all_to_copy == 0); + return num_bytes; +} + +/* read queued data, this is called form the stream callback (maybe separate thread) */ +_SOKOL_PRIVATE int _saudio_fifo_read(_saudio_fifo_t* fifo, uint8_t* ptr, int num_bytes) { + /* NOTE: fifo_read might be called before the fifo is properly initialized */ + _saudio_mutex_lock(&fifo->mutex); + int num_bytes_copied = 0; + if (fifo->valid) { + SOKOL_ASSERT(0 == (num_bytes % fifo->packet_size)); + SOKOL_ASSERT(num_bytes <= (fifo->packet_size * fifo->num_packets)); + const int num_packets_needed = num_bytes / fifo->packet_size; + uint8_t* dst = ptr; + /* either pull a full buffer worth of data, or nothing */ + if (_saudio_ring_count(&fifo->read_queue) >= num_packets_needed) { + for (int i = 0; i < num_packets_needed; i++) { + int packet_index = _saudio_ring_dequeue(&fifo->read_queue); + _saudio_ring_enqueue(&fifo->write_queue, packet_index); + const uint8_t* src = fifo->base_ptr + packet_index * fifo->packet_size; + memcpy(dst, src, (size_t)fifo->packet_size); + dst += fifo->packet_size; + num_bytes_copied += fifo->packet_size; + } + SOKOL_ASSERT(num_bytes == num_bytes_copied); + } + } + _saudio_mutex_unlock(&fifo->mutex); + return num_bytes_copied; +} + +/*=== DUMMY BACKEND IMPLEMENTATION ===========================================*/ +#if defined(SOKOL_DUMMY_BACKEND) +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + _saudio.bytes_per_frame = _saudio.num_channels * (int)sizeof(float); + return true; +}; +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { }; + +/*=== COREAUDIO BACKEND IMPLEMENTATION =======================================*/ +#elif defined(_SAUDIO_APPLE) + +#if defined(_SAUDIO_IOS) +#if __has_feature(objc_arc) +#define _SAUDIO_OBJC_RELEASE(obj) { obj = nil; } +#else +#define _SAUDIO_OBJC_RELEASE(obj) { [obj release]; obj = nil; } +#endif + +@interface _saudio_interruption_handler : NSObject { } +@end + +@implementation _saudio_interruption_handler +-(id)init { + self = [super init]; + AVAudioSession* session = [AVAudioSession sharedInstance]; + [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handle_interruption:) name:AVAudioSessionInterruptionNotification object:session]; + return self; +} + +-(void)dealloc { + [self remove_handler]; + #if !__has_feature(objc_arc) + [super dealloc]; + #endif +} + +-(void)remove_handler { + [[NSNotificationCenter defaultCenter] removeObserver:self name:@"AVAudioSessionInterruptionNotification" object:nil]; +} + +-(void)handle_interruption:(NSNotification*)notification { + AVAudioSession* session = [AVAudioSession sharedInstance]; + SOKOL_ASSERT(session); + NSDictionary* dict = notification.userInfo; + SOKOL_ASSERT(dict); + NSInteger type = [[dict valueForKey:AVAudioSessionInterruptionTypeKey] integerValue]; + switch (type) { + case AVAudioSessionInterruptionTypeBegan: + AudioQueuePause(_saudio.backend.ca_audio_queue); + [session setActive:false error:nil]; + break; + case AVAudioSessionInterruptionTypeEnded: + [session setActive:true error:nil]; + AudioQueueStart(_saudio.backend.ca_audio_queue, NULL); + break; + default: + break; + } +} +@end +#endif // _SAUDIO_IOS + +/* NOTE: the buffer data callback is called on a separate thread! */ +_SOKOL_PRIVATE void _saudio_coreaudio_callback(void* user_data, _saudio_AudioQueueRef queue, _saudio_AudioQueueBufferRef buffer) { + _SOKOL_UNUSED(user_data); + if (_saudio_has_callback()) { + const int num_frames = (int)buffer->mAudioDataByteSize / _saudio.bytes_per_frame; + const int num_channels = _saudio.num_channels; + _saudio_stream_callback((float*)buffer->mAudioData, num_frames, num_channels); + } + else { + uint8_t* ptr = (uint8_t*)buffer->mAudioData; + int num_bytes = (int) buffer->mAudioDataByteSize; + if (0 == _saudio_fifo_read(&_saudio.fifo, ptr, num_bytes)) { + /* not enough read data available, fill the entire buffer with silence */ + memset(ptr, 0, (size_t)num_bytes); + } + } + AudioQueueEnqueueBuffer(queue, buffer, 0, NULL); +} + +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + SOKOL_ASSERT(0 == _saudio.backend.ca_audio_queue); + + #if defined(_SAUDIO_IOS) + /* activate audio session */ + AVAudioSession* session = [AVAudioSession sharedInstance]; + SOKOL_ASSERT(session != nil); + [session setCategory: AVAudioSessionCategoryPlayback withOptions:AVAudioSessionCategoryOptionDefaultToSpeaker error:nil]; + [session setActive:true error:nil]; + + /* create interruption handler */ + _saudio.backend.ca_interruption_handler = [[_saudio_interruption_handler alloc] init]; + #endif // _SAUDIO_IOS + + /* create an audio queue with fp32 samples */ + _saudio_AudioStreamBasicDescription fmt; + memset(&fmt, 0, sizeof(fmt)); + fmt.mSampleRate = (double) _saudio.sample_rate; + fmt.mFormatID = _saudio_kAudioFormatLinearPCM; + fmt.mFormatFlags = _saudio_kLinearPCMFormatFlagIsFloat | _saudio_kAudioFormatFlagIsPacked; + fmt.mFramesPerPacket = 1; + fmt.mChannelsPerFrame = (uint32_t) _saudio.num_channels; + fmt.mBytesPerFrame = (uint32_t)sizeof(float) * (uint32_t)_saudio.num_channels; + fmt.mBytesPerPacket = fmt.mBytesPerFrame; + fmt.mBitsPerChannel = 32; + _saudio_OSStatus res = AudioQueueNewOutput(&fmt, _saudio_coreaudio_callback, 0, NULL, NULL, 0, &_saudio.backend.ca_audio_queue); + SOKOL_ASSERT((res == 0) && _saudio.backend.ca_audio_queue); + + /* create 2 audio buffers */ + for (int i = 0; i < 2; i++) { + _saudio_AudioQueueBufferRef buf = NULL; + const uint32_t buf_byte_size = (uint32_t)_saudio.buffer_frames * fmt.mBytesPerFrame; + res = AudioQueueAllocateBuffer(_saudio.backend.ca_audio_queue, buf_byte_size, &buf); + SOKOL_ASSERT((res == 0) && buf); + buf->mAudioDataByteSize = buf_byte_size; + memset(buf->mAudioData, 0, buf->mAudioDataByteSize); + AudioQueueEnqueueBuffer(_saudio.backend.ca_audio_queue, buf, 0, NULL); + } + + /* init or modify actual playback parameters */ + _saudio.bytes_per_frame = (int)fmt.mBytesPerFrame; + + /* ...and start playback */ + res = AudioQueueStart(_saudio.backend.ca_audio_queue, NULL); + SOKOL_ASSERT(0 == res); + + return true; +} + +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { + AudioQueueStop(_saudio.backend.ca_audio_queue, true); + AudioQueueDispose(_saudio.backend.ca_audio_queue, false); + _saudio.backend.ca_audio_queue = NULL; + #if defined(_SAUDIO_IOS) + /* remove interruption handler */ + if (_saudio.backend.ca_interruption_handler != nil) { + [_saudio.backend.ca_interruption_handler remove_handler]; + _SAUDIO_OBJC_RELEASE(_saudio.backend.ca_interruption_handler); + } + /* deactivate audio session */ + AVAudioSession* session = [AVAudioSession sharedInstance]; + SOKOL_ASSERT(session); + [session setActive:false error:nil];; + #endif // _SAUDIO_IOS +} + +/*=== ALSA BACKEND IMPLEMENTATION ============================================*/ +#elif defined(_SAUDIO_LINUX) + +/* the streaming callback runs in a separate thread */ +_SOKOL_PRIVATE void* _saudio_alsa_cb(void* param) { + _SOKOL_UNUSED(param); + while (!_saudio.backend.thread_stop) { + /* snd_pcm_writei() will be blocking until it needs data */ + int write_res = snd_pcm_writei(_saudio.backend.device, _saudio.backend.buffer, (snd_pcm_uframes_t)_saudio.backend.buffer_frames); + if (write_res < 0) { + /* underrun occurred */ + snd_pcm_prepare(_saudio.backend.device); + } + else { + /* fill the streaming buffer with new data */ + if (_saudio_has_callback()) { + _saudio_stream_callback(_saudio.backend.buffer, _saudio.backend.buffer_frames, _saudio.num_channels); + } + else { + if (0 == _saudio_fifo_read(&_saudio.fifo, (uint8_t*)_saudio.backend.buffer, _saudio.backend.buffer_byte_size)) { + /* not enough read data available, fill the entire buffer with silence */ + memset(_saudio.backend.buffer, 0, (size_t)_saudio.backend.buffer_byte_size); + } + } + } + } + return 0; +} + +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + int dir; uint32_t rate; + int rc = snd_pcm_open(&_saudio.backend.device, "default", SND_PCM_STREAM_PLAYBACK, 0); + if (rc < 0) { + SOKOL_LOG("sokol_audio.h: snd_pcm_open() failed"); + return false; + } + + /* configuration works by restricting the 'configuration space' step + by step, we require all parameters except the sample rate to + match perfectly + */ + snd_pcm_hw_params_t* params = 0; + snd_pcm_hw_params_alloca(¶ms); + snd_pcm_hw_params_any(_saudio.backend.device, params); + snd_pcm_hw_params_set_access(_saudio.backend.device, params, SND_PCM_ACCESS_RW_INTERLEAVED); + if (0 > snd_pcm_hw_params_set_format(_saudio.backend.device, params, SND_PCM_FORMAT_FLOAT_LE)) { + SOKOL_LOG("sokol_audio.h: float samples not supported"); + goto error; + } + if (0 > snd_pcm_hw_params_set_buffer_size(_saudio.backend.device, params, (snd_pcm_uframes_t)_saudio.buffer_frames)) { + SOKOL_LOG("sokol_audio.h: requested buffer size not supported"); + goto error; + } + if (0 > snd_pcm_hw_params_set_channels(_saudio.backend.device, params, (uint32_t)_saudio.num_channels)) { + SOKOL_LOG("sokol_audio.h: requested channel count not supported"); + goto error; + } + /* let ALSA pick a nearby sampling rate */ + rate = (uint32_t) _saudio.sample_rate; + dir = 0; + if (0 > snd_pcm_hw_params_set_rate_near(_saudio.backend.device, params, &rate, &dir)) { + SOKOL_LOG("sokol_audio.h: snd_pcm_hw_params_set_rate_near() failed"); + goto error; + } + if (0 > snd_pcm_hw_params(_saudio.backend.device, params)) { + SOKOL_LOG("sokol_audio.h: snd_pcm_hw_params() failed"); + goto error; + } + + /* read back actual sample rate and channels */ + _saudio.sample_rate = (int)rate; + _saudio.bytes_per_frame = _saudio.num_channels * (int)sizeof(float); + + /* allocate the streaming buffer */ + _saudio.backend.buffer_byte_size = _saudio.buffer_frames * _saudio.bytes_per_frame; + _saudio.backend.buffer_frames = _saudio.buffer_frames; + _saudio.backend.buffer = (float*) SOKOL_MALLOC((size_t)_saudio.backend.buffer_byte_size); + memset(_saudio.backend.buffer, 0, (size_t)_saudio.backend.buffer_byte_size); + + /* create the buffer-streaming start thread */ + if (0 != pthread_create(&_saudio.backend.thread, 0, _saudio_alsa_cb, 0)) { + SOKOL_LOG("sokol_audio.h: pthread_create() failed"); + goto error; + } + + return true; +error: + if (_saudio.backend.device) { + snd_pcm_close(_saudio.backend.device); + _saudio.backend.device = 0; + } + return false; +}; + +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { + SOKOL_ASSERT(_saudio.backend.device); + _saudio.backend.thread_stop = true; + pthread_join(_saudio.backend.thread, 0); + snd_pcm_drain(_saudio.backend.device); + snd_pcm_close(_saudio.backend.device); + SOKOL_FREE(_saudio.backend.buffer); +}; + +/*=== WASAPI BACKEND IMPLEMENTATION ==========================================*/ +#elif defined(_SAUDIO_WINDOWS) + +#if defined(_SAUDIO_UWP) +/* Minimal implementation of an IActivateAudioInterfaceCompletionHandler COM object in plain C. + Meant to be a static singleton (always one reference when add/remove reference) + and implements IUnknown and IActivateAudioInterfaceCompletionHandler when queryinterface'd + + Do not know why but IActivateAudioInterfaceCompletionHandler's GUID is not the one system queries for, + so I'm advertising the one actually requested. +*/ +_SOKOL_PRIVATE HRESULT STDMETHODCALLTYPE _saudio_interface_completion_handler_queryinterface(IActivateAudioInterfaceCompletionHandler* instance, REFIID riid, void** ppvObject) { + if (!ppvObject) { + return E_POINTER; + } + + if (IsEqualIID(riid, _SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_IActivateAudioInterface_Completion_Handler)) || IsEqualIID(riid, _SOKOL_AUDIO_WIN32COM_ID(IID_IUnknown))) + { + *ppvObject = (void*)instance; + return S_OK; + } + + *ppvObject = NULL; + return E_NOINTERFACE; +} + +_SOKOL_PRIVATE ULONG STDMETHODCALLTYPE _saudio_interface_completion_handler_addref_release(IActivateAudioInterfaceCompletionHandler* instance) { + _SOKOL_UNUSED(instance); + return 1; +} + +_SOKOL_PRIVATE HRESULT STDMETHODCALLTYPE _saudio_backend_activate_audio_interface_cb(IActivateAudioInterfaceCompletionHandler* instance, IActivateAudioInterfaceAsyncOperation* activateOperation) { + _SOKOL_UNUSED(instance); + WaitForSingleObject(_saudio.backend.interface_activation_mutex, INFINITE); + _saudio.backend.interface_activation_success = TRUE; + HRESULT activation_result; + if (FAILED(activateOperation->lpVtbl->GetActivateResult(activateOperation, &activation_result, (IUnknown**)(&_saudio.backend.audio_client))) || FAILED(activation_result)) { + _saudio.backend.interface_activation_success = FALSE; + } + + ReleaseMutex(_saudio.backend.interface_activation_mutex); + return S_OK; +} +#endif // _SAUDIO_UWP + +/* fill intermediate buffer with new data and reset buffer_pos */ +_SOKOL_PRIVATE void _saudio_wasapi_fill_buffer(void) { + if (_saudio_has_callback()) { + _saudio_stream_callback(_saudio.backend.thread.src_buffer, _saudio.backend.thread.src_buffer_frames, _saudio.num_channels); + } + else { + if (0 == _saudio_fifo_read(&_saudio.fifo, (uint8_t*)_saudio.backend.thread.src_buffer, _saudio.backend.thread.src_buffer_byte_size)) { + /* not enough read data available, fill the entire buffer with silence */ + memset(_saudio.backend.thread.src_buffer, 0, (size_t)_saudio.backend.thread.src_buffer_byte_size); + } + } +} + +_SOKOL_PRIVATE void _saudio_wasapi_submit_buffer(int num_frames) { + BYTE* wasapi_buffer = 0; + if (FAILED(IAudioRenderClient_GetBuffer(_saudio.backend.render_client, num_frames, &wasapi_buffer))) { + return; + } + SOKOL_ASSERT(wasapi_buffer); + + /* convert float samples to int16_t, refill float buffer if needed */ + const int num_samples = num_frames * _saudio.num_channels; + int16_t* dst = (int16_t*) wasapi_buffer; + int buffer_pos = _saudio.backend.thread.src_buffer_pos; + const int buffer_float_size = _saudio.backend.thread.src_buffer_byte_size / (int)sizeof(float); + float* src = _saudio.backend.thread.src_buffer; + for (int i = 0; i < num_samples; i++) { + if (0 == buffer_pos) { + _saudio_wasapi_fill_buffer(); + } + dst[i] = (int16_t) (src[buffer_pos] * 0x7FFF); + buffer_pos += 1; + if (buffer_pos == buffer_float_size) { + buffer_pos = 0; + } + } + _saudio.backend.thread.src_buffer_pos = buffer_pos; + + IAudioRenderClient_ReleaseBuffer(_saudio.backend.render_client, num_frames, 0); +} + +_SOKOL_PRIVATE DWORD WINAPI _saudio_wasapi_thread_fn(LPVOID param) { + (void)param; + _saudio_wasapi_submit_buffer(_saudio.backend.thread.src_buffer_frames); + IAudioClient_Start(_saudio.backend.audio_client); + while (!_saudio.backend.thread.stop) { + WaitForSingleObject(_saudio.backend.thread.buffer_end_event, INFINITE); + UINT32 padding = 0; + if (FAILED(IAudioClient_GetCurrentPadding(_saudio.backend.audio_client, &padding))) { + continue; + } + SOKOL_ASSERT(_saudio.backend.thread.dst_buffer_frames >= padding); + int num_frames = (int)_saudio.backend.thread.dst_buffer_frames - (int)padding; + if (num_frames > 0) { + _saudio_wasapi_submit_buffer(num_frames); + } + } + return 0; +} + +_SOKOL_PRIVATE void _saudio_wasapi_release(void) { + if (_saudio.backend.thread.src_buffer) { + SOKOL_FREE(_saudio.backend.thread.src_buffer); + _saudio.backend.thread.src_buffer = 0; + } + if (_saudio.backend.render_client) { + IAudioRenderClient_Release(_saudio.backend.render_client); + _saudio.backend.render_client = 0; + } + if (_saudio.backend.audio_client) { + IAudioClient_Release(_saudio.backend.audio_client); + _saudio.backend.audio_client = 0; + } + #if defined(_SAUDIO_UWP) + if (_saudio.backend.interface_activation_audio_interface_uid_string) { + CoTaskMemFree(_saudio.backend.interface_activation_audio_interface_uid_string); + _saudio.backend.interface_activation_audio_interface_uid_string = 0; + } + if (_saudio.backend.interface_activation_operation) { + IActivateAudioInterfaceAsyncOperation_Release(_saudio.backend.interface_activation_operation); + _saudio.backend.interface_activation_operation = 0; + } + #else + if (_saudio.backend.device) { + IMMDevice_Release(_saudio.backend.device); + _saudio.backend.device = 0; + } + if (_saudio.backend.device_enumerator) { + IMMDeviceEnumerator_Release(_saudio.backend.device_enumerator); + _saudio.backend.device_enumerator = 0; + } + #endif + if (0 != _saudio.backend.thread.buffer_end_event) { + CloseHandle(_saudio.backend.thread.buffer_end_event); + _saudio.backend.thread.buffer_end_event = 0; + } +} + +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + REFERENCE_TIME dur; + /* UWP Threads are CoInitialized by default with a different threading model, and this call fails + See https://github.com/Microsoft/cppwinrt/issues/6#issuecomment-253930637 */ + #if defined(_SAUDIO_WIN32) + /* CoInitializeEx could have been called elsewhere already, in which + case the function returns with S_FALSE (thus it does not make much + sense to check the result) + */ + HRESULT hr = CoInitializeEx(0, COINIT_MULTITHREADED); + _SOKOL_UNUSED(hr); + #endif + _saudio.backend.thread.buffer_end_event = CreateEvent(0, FALSE, FALSE, 0); + if (0 == _saudio.backend.thread.buffer_end_event) { + SOKOL_LOG("sokol_audio wasapi: failed to create buffer_end_event"); + goto error; + } + #if defined(_SAUDIO_UWP) + _saudio.backend.interface_activation_mutex = CreateMutexA(NULL, FALSE, "interface_activation_mutex"); + if (_saudio.backend.interface_activation_mutex == NULL) { + SOKOL_LOG("sokol_audio wasapi: failed to create interface activation mutex"); + goto error; + } + if (FAILED(StringFromIID(_SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_Devinterface_Audio_Render), &_saudio.backend.interface_activation_audio_interface_uid_string))) { + SOKOL_LOG("sokol_audio wasapi: failed to get default audio device ID string"); + goto error; + } + + /* static instance of the fake COM object */ + static IActivateAudioInterfaceCompletionHandlerVtbl completion_handler_interface_vtable = { + _saudio_interface_completion_handler_queryinterface, + _saudio_interface_completion_handler_addref_release, + _saudio_interface_completion_handler_addref_release, + _saudio_backend_activate_audio_interface_cb + }; + static IActivateAudioInterfaceCompletionHandler completion_handler_interface = { &completion_handler_interface_vtable }; + + if (FAILED(ActivateAudioInterfaceAsync(_saudio.backend.interface_activation_audio_interface_uid_string, _SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_IAudioClient), NULL, &completion_handler_interface, &_saudio.backend.interface_activation_operation))) { + SOKOL_LOG("sokol_audio wasapi: failed to get default audio device ID string"); + goto error; + } + while (!(_saudio.backend.audio_client)) { + if (WaitForSingleObject(_saudio.backend.interface_activation_mutex, 10) != WAIT_TIMEOUT) { + ReleaseMutex(_saudio.backend.interface_activation_mutex); + } + } + + if (!(_saudio.backend.interface_activation_success)) { + SOKOL_LOG("sokol_audio wasapi: interface activation failed. Unable to get audio client"); + goto error; + } + + #else + if (FAILED(CoCreateInstance(_SOKOL_AUDIO_WIN32COM_ID(_saudio_CLSID_IMMDeviceEnumerator), + 0, CLSCTX_ALL, + _SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_IMMDeviceEnumerator), + (void**)&_saudio.backend.device_enumerator))) + { + SOKOL_LOG("sokol_audio wasapi: failed to create device enumerator"); + goto error; + } + if (FAILED(IMMDeviceEnumerator_GetDefaultAudioEndpoint(_saudio.backend.device_enumerator, + eRender, eConsole, + &_saudio.backend.device))) + { + SOKOL_LOG("sokol_audio wasapi: GetDefaultAudioEndPoint failed"); + goto error; + } + if (FAILED(IMMDevice_Activate(_saudio.backend.device, + _SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_IAudioClient), + CLSCTX_ALL, 0, + (void**)&_saudio.backend.audio_client))) + { + SOKOL_LOG("sokol_audio wasapi: device activate failed"); + goto error; + } + #endif + WAVEFORMATEX fmt; + memset(&fmt, 0, sizeof(fmt)); + fmt.nChannels = (WORD)_saudio.num_channels; + fmt.nSamplesPerSec = (DWORD)_saudio.sample_rate; + fmt.wFormatTag = WAVE_FORMAT_PCM; + fmt.wBitsPerSample = 16; + fmt.nBlockAlign = (fmt.nChannels * fmt.wBitsPerSample) / 8; + fmt.nAvgBytesPerSec = fmt.nSamplesPerSec * fmt.nBlockAlign; + dur = (REFERENCE_TIME) + (((double)_saudio.buffer_frames) / (((double)_saudio.sample_rate) * (1.0/10000000.0))); + if (FAILED(IAudioClient_Initialize(_saudio.backend.audio_client, + AUDCLNT_SHAREMODE_SHARED, + AUDCLNT_STREAMFLAGS_EVENTCALLBACK|AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM|AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY, + dur, 0, &fmt, 0))) + { + SOKOL_LOG("sokol_audio wasapi: audio client initialize failed"); + goto error; + } + if (FAILED(IAudioClient_GetBufferSize(_saudio.backend.audio_client, &_saudio.backend.thread.dst_buffer_frames))) { + SOKOL_LOG("sokol_audio wasapi: audio client get buffer size failed"); + goto error; + } + if (FAILED(IAudioClient_GetService(_saudio.backend.audio_client, + _SOKOL_AUDIO_WIN32COM_ID(_saudio_IID_IAudioRenderClient), + (void**)&_saudio.backend.render_client))) + { + SOKOL_LOG("sokol_audio wasapi: audio client GetService failed"); + goto error; + } + if (FAILED(IAudioClient_SetEventHandle(_saudio.backend.audio_client, _saudio.backend.thread.buffer_end_event))) { + SOKOL_LOG("sokol_audio wasapi: audio client SetEventHandle failed"); + goto error; + } + _saudio.backend.si16_bytes_per_frame = _saudio.num_channels * (int)sizeof(int16_t); + _saudio.bytes_per_frame = _saudio.num_channels * (int)sizeof(float); + _saudio.backend.thread.src_buffer_frames = _saudio.buffer_frames; + _saudio.backend.thread.src_buffer_byte_size = _saudio.backend.thread.src_buffer_frames * _saudio.bytes_per_frame; + + /* allocate an intermediate buffer for sample format conversion */ + _saudio.backend.thread.src_buffer = (float*) SOKOL_MALLOC((size_t)_saudio.backend.thread.src_buffer_byte_size); + SOKOL_ASSERT(_saudio.backend.thread.src_buffer); + + /* create streaming thread */ + _saudio.backend.thread.thread_handle = CreateThread(NULL, 0, _saudio_wasapi_thread_fn, 0, 0, 0); + if (0 == _saudio.backend.thread.thread_handle) { + SOKOL_LOG("sokol_audio wasapi: CreateThread failed"); + goto error; + } + return true; +error: + _saudio_wasapi_release(); + return false; +} + +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { + if (_saudio.backend.thread.thread_handle) { + _saudio.backend.thread.stop = true; + SetEvent(_saudio.backend.thread.buffer_end_event); + WaitForSingleObject(_saudio.backend.thread.thread_handle, INFINITE); + CloseHandle(_saudio.backend.thread.thread_handle); + _saudio.backend.thread.thread_handle = 0; + } + if (_saudio.backend.audio_client) { + IAudioClient_Stop(_saudio.backend.audio_client); + } + _saudio_wasapi_release(); + + #if defined(_SAUDIO_WIN32) + CoUninitialize(); + #endif +} + +/*=== EMSCRIPTEN BACKEND IMPLEMENTATION ======================================*/ +#elif defined(_SAUDIO_EMSCRIPTEN) + +#ifdef __cplusplus +extern "C" { +#endif + +EMSCRIPTEN_KEEPALIVE int _saudio_emsc_pull(int num_frames) { + SOKOL_ASSERT(_saudio.backend.buffer); + if (num_frames == _saudio.buffer_frames) { + if (_saudio_has_callback()) { + _saudio_stream_callback((float*)_saudio.backend.buffer, num_frames, _saudio.num_channels); + } + else { + const int num_bytes = num_frames * _saudio.bytes_per_frame; + if (0 == _saudio_fifo_read(&_saudio.fifo, _saudio.backend.buffer, num_bytes)) { + /* not enough read data available, fill the entire buffer with silence */ + memset(_saudio.backend.buffer, 0, (size_t)num_bytes); + } + } + int res = (int) _saudio.backend.buffer; + return res; + } + else { + return 0; + } +} + +#ifdef __cplusplus +} /* extern "C" */ +#endif + +/* setup the WebAudio context and attach a ScriptProcessorNode */ +EM_JS(int, saudio_js_init, (int sample_rate, int num_channels, int buffer_size), { + Module._saudio_context = null; + Module._saudio_node = null; + if (typeof AudioContext !== 'undefined') { + Module._saudio_context = new AudioContext({ + sampleRate: sample_rate, + latencyHint: 'interactive', + }); + } + else if (typeof webkitAudioContext !== 'undefined') { + Module._saudio_context = new webkitAudioContext({ + sampleRate: sample_rate, + latencyHint: 'interactive', + }); + } + else { + Module._saudio_context = null; + console.log('sokol_audio.h: no WebAudio support'); + } + if (Module._saudio_context) { + console.log('sokol_audio.h: sample rate ', Module._saudio_context.sampleRate); + Module._saudio_node = Module._saudio_context.createScriptProcessor(buffer_size, 0, num_channels); + Module._saudio_node.onaudioprocess = function pump_audio(event) { + var num_frames = event.outputBuffer.length; + var ptr = __saudio_emsc_pull(num_frames); + if (ptr) { + var num_channels = event.outputBuffer.numberOfChannels; + for (var chn = 0; chn < num_channels; chn++) { + var chan = event.outputBuffer.getChannelData(chn); + for (var i = 0; i < num_frames; i++) { + chan[i] = HEAPF32[(ptr>>2) + ((num_channels*i)+chn)] + } + } + } + }; + Module._saudio_node.connect(Module._saudio_context.destination); + + // in some browsers, WebAudio needs to be activated on a user action + var resume_webaudio = function() { + if (Module._saudio_context) { + if (Module._saudio_context.state === 'suspended') { + Module._saudio_context.resume(); + } + } + }; + document.addEventListener('click', resume_webaudio, {once:true}); + document.addEventListener('touchstart', resume_webaudio, {once:true}); + document.addEventListener('keydown', resume_webaudio, {once:true}); + return 1; + } + else { + return 0; + } +}); + +/* shutdown the WebAudioContext and ScriptProcessorNode */ +EM_JS(void, saudio_js_shutdown, (void), { + if (Module._saudio_context !== null) { + if (Module._saudio_node) { + Module._saudio_node.disconnect(); + } + Module._saudio_context.close(); + Module._saudio_context = null; + Module._saudio_node = null; + } +}); + +/* get the actual sample rate back from the WebAudio context */ +EM_JS(int, saudio_js_sample_rate, (void), { + if (Module._saudio_context) { + return Module._saudio_context.sampleRate; + } + else { + return 0; + } +}); + +/* get the actual buffer size in number of frames */ +EM_JS(int, saudio_js_buffer_frames, (void), { + if (Module._saudio_node) { + return Module._saudio_node.bufferSize; + } + else { + return 0; + } +}); + +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + if (saudio_js_init(_saudio.sample_rate, _saudio.num_channels, _saudio.buffer_frames)) { + _saudio.bytes_per_frame = (int)sizeof(float) * _saudio.num_channels; + _saudio.sample_rate = saudio_js_sample_rate(); + _saudio.buffer_frames = saudio_js_buffer_frames(); + const size_t buf_size = (size_t) (_saudio.buffer_frames * _saudio.bytes_per_frame); + _saudio.backend.buffer = (uint8_t*) SOKOL_MALLOC(buf_size); + return true; + } + else { + return false; + } +} + +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { + saudio_js_shutdown(); + if (_saudio.backend.buffer) { + SOKOL_FREE(_saudio.backend.buffer); + _saudio.backend.buffer = 0; + } +} + +/*=== ANDROID BACKEND IMPLEMENTATION ======================================*/ +#elif defined(_SAUDIO_ANDROID) + +#ifdef __cplusplus +extern "C" { +#endif + +_SOKOL_PRIVATE void _saudio_semaphore_init(_saudio_semaphore_t* sem) { + sem->count = 0; + int r = pthread_mutex_init(&sem->mutex, NULL); + SOKOL_ASSERT(r == 0); + + r = pthread_cond_init(&sem->cond, NULL); + SOKOL_ASSERT(r == 0); + + (void)(r); +} + +_SOKOL_PRIVATE void _saudio_semaphore_destroy(_saudio_semaphore_t* sem) +{ + pthread_cond_destroy(&sem->cond); + pthread_mutex_destroy(&sem->mutex); +} + +_SOKOL_PRIVATE void _saudio_semaphore_post(_saudio_semaphore_t* sem, int count) +{ + int r = pthread_mutex_lock(&sem->mutex); + SOKOL_ASSERT(r == 0); + + for (int ii = 0; ii < count; ii++) { + r = pthread_cond_signal(&sem->cond); + SOKOL_ASSERT(r == 0); + } + + sem->count += count; + r = pthread_mutex_unlock(&sem->mutex); + SOKOL_ASSERT(r == 0); + + (void)(r); +} + +_SOKOL_PRIVATE bool _saudio_semaphore_wait(_saudio_semaphore_t* sem) +{ + int r = pthread_mutex_lock(&sem->mutex); + SOKOL_ASSERT(r == 0); + + while (r == 0 && sem->count <= 0) { + r = pthread_cond_wait(&sem->cond, &sem->mutex); + } + + bool ok = (r == 0); + if (ok) { + --sem->count; + } + r = pthread_mutex_unlock(&sem->mutex); + (void)(r); + return ok; +} + +/* fill intermediate buffer with new data and reset buffer_pos */ +_SOKOL_PRIVATE void _saudio_opensles_fill_buffer(void) { + int src_buffer_frames = _saudio.buffer_frames; + if (_saudio_has_callback()) { + _saudio_stream_callback(_saudio.backend.src_buffer, src_buffer_frames, _saudio.num_channels); + } + else { + const int src_buffer_byte_size = src_buffer_frames * _saudio.num_channels * (int)sizeof(float); + if (0 == _saudio_fifo_read(&_saudio.fifo, (uint8_t*)_saudio.backend.src_buffer, src_buffer_byte_size)) { + /* not enough read data available, fill the entire buffer with silence */ + memset(_saudio.backend.src_buffer, 0x0, (size_t)src_buffer_byte_size); + } + } +} + +_SOKOL_PRIVATE void SLAPIENTRY _saudio_opensles_play_cb(SLPlayItf player, void *context, SLuint32 event) { + (void)(context); + (void)(player); + + if (event & SL_PLAYEVENT_HEADATEND) { + _saudio_semaphore_post(&_saudio.backend.buffer_sem, 1); + } +} + +_SOKOL_PRIVATE void* _saudio_opensles_thread_fn(void* param) { + while (!_saudio.backend.thread_stop) { + /* get next output buffer, advance, next buffer. */ + int16_t* out_buffer = _saudio.backend.output_buffers[_saudio.backend.active_buffer]; + _saudio.backend.active_buffer = (_saudio.backend.active_buffer + 1) % SAUDIO_NUM_BUFFERS; + int16_t* next_buffer = _saudio.backend.output_buffers[_saudio.backend.active_buffer]; + + /* queue this buffer */ + const int buffer_size_bytes = _saudio.buffer_frames * _saudio.num_channels * (int)sizeof(short); + (*_saudio.backend.player_buffer_queue)->Enqueue(_saudio.backend.player_buffer_queue, out_buffer, (SLuint32)buffer_size_bytes); + + /* fill the next buffer */ + _saudio_opensles_fill_buffer(); + const int num_samples = _saudio.num_channels * _saudio.buffer_frames; + for (int i = 0; i < num_samples; ++i) { + next_buffer[i] = (int16_t) (_saudio.backend.src_buffer[i] * 0x7FFF); + } + + _saudio_semaphore_wait(&_saudio.backend.buffer_sem); + } + + return 0; +} + +_SOKOL_PRIVATE void _saudio_backend_shutdown(void) { + _saudio.backend.thread_stop = 1; + pthread_join(_saudio.backend.thread, 0); + + if (_saudio.backend.player_obj) { + (*_saudio.backend.player_obj)->Destroy(_saudio.backend.player_obj); + } + + if (_saudio.backend.output_mix_obj) { + (*_saudio.backend.output_mix_obj)->Destroy(_saudio.backend.output_mix_obj); + } + + if (_saudio.backend.engine_obj) { + (*_saudio.backend.engine_obj)->Destroy(_saudio.backend.engine_obj); + } + + for (int i = 0; i < SAUDIO_NUM_BUFFERS; i++) { + SOKOL_FREE(_saudio.backend.output_buffers[i]); + } + SOKOL_FREE(_saudio.backend.src_buffer); +} + +_SOKOL_PRIVATE bool _saudio_backend_init(void) { + _saudio.bytes_per_frame = (int)sizeof(float) * _saudio.num_channels; + + for (int i = 0; i < SAUDIO_NUM_BUFFERS; ++i) { + const int buffer_size_bytes = (int)sizeof(int16_t) * _saudio.num_channels * _saudio.buffer_frames; + _saudio.backend.output_buffers[i] = (int16_t*) SOKOL_MALLOC((size_t)buffer_size_bytes); + SOKOL_ASSERT(_saudio.backend.output_buffers[i]); + memset(_saudio.backend.output_buffers[i], 0x0, (size_t)buffer_size_bytes); + } + + { + const int buffer_size_bytes = _saudio.bytes_per_frame * _saudio.buffer_frames; + _saudio.backend.src_buffer = (float*) SOKOL_MALLOC((size_t)buffer_size_bytes); + SOKOL_ASSERT(_saudio.backend.src_buffer); + memset(_saudio.backend.src_buffer, 0x0, (size_t)buffer_size_bytes); + } + + /* Create engine */ + const SLEngineOption opts[] = { SL_ENGINEOPTION_THREADSAFE, SL_BOOLEAN_TRUE }; + if (slCreateEngine(&_saudio.backend.engine_obj, 1, opts, 0, NULL, NULL ) != SL_RESULT_SUCCESS) { + SOKOL_LOG("sokol_audio opensles: slCreateEngine failed"); + _saudio_backend_shutdown(); + return false; + } + + (*_saudio.backend.engine_obj)->Realize(_saudio.backend.engine_obj, SL_BOOLEAN_FALSE); + if ((*_saudio.backend.engine_obj)->GetInterface(_saudio.backend.engine_obj, SL_IID_ENGINE, &_saudio.backend.engine) != SL_RESULT_SUCCESS) { + SOKOL_LOG("sokol_audio opensles: GetInterface->Engine failed"); + _saudio_backend_shutdown(); + return false; + } + + /* Create output mix. */ + { + const SLInterfaceID ids[] = { SL_IID_VOLUME }; + const SLboolean req[] = { SL_BOOLEAN_FALSE }; + + if( (*_saudio.backend.engine)->CreateOutputMix(_saudio.backend.engine, &_saudio.backend.output_mix_obj, 1, ids, req) != SL_RESULT_SUCCESS) + { + SOKOL_LOG("sokol_audio opensles: CreateOutputMix failed"); + _saudio_backend_shutdown(); + return false; + } + (*_saudio.backend.output_mix_obj)->Realize(_saudio.backend.output_mix_obj, SL_BOOLEAN_FALSE); + + if((*_saudio.backend.output_mix_obj)->GetInterface(_saudio.backend.output_mix_obj, SL_IID_VOLUME, &_saudio.backend.output_mix_vol) != SL_RESULT_SUCCESS) { + SOKOL_LOG("sokol_audio opensles: GetInterface->OutputMixVol failed"); + } + } + + /* android buffer queue */ + _saudio.backend.in_locator.locatorType = SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE; + _saudio.backend.in_locator.numBuffers = SAUDIO_NUM_BUFFERS; + + /* data format */ + SLDataFormat_PCM format; + format.formatType = SL_DATAFORMAT_PCM; + format.numChannels = (SLuint32)_saudio.num_channels; + format.samplesPerSec = (SLuint32) (_saudio.sample_rate * 1000); + format.bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_16; + format.containerSize = 16; + format.endianness = SL_BYTEORDER_LITTLEENDIAN; + + if (_saudio.num_channels == 2) { + format.channelMask = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; + } else { + format.channelMask = SL_SPEAKER_FRONT_CENTER; + } + + SLDataSource src; + src.pLocator = &_saudio.backend.in_locator; + src.pFormat = &format; + + /* Output mix. */ + _saudio.backend.out_locator.locatorType = SL_DATALOCATOR_OUTPUTMIX; + _saudio.backend.out_locator.outputMix = _saudio.backend.output_mix_obj; + + _saudio.backend.dst_data_sink.pLocator = &_saudio.backend.out_locator; + _saudio.backend.dst_data_sink.pFormat = NULL; + + /* setup player */ + { + const SLInterfaceID ids[] = { SL_IID_VOLUME, SL_IID_ANDROIDSIMPLEBUFFERQUEUE }; + const SLboolean req[] = { SL_BOOLEAN_FALSE, SL_BOOLEAN_TRUE }; + + (*_saudio.backend.engine)->CreateAudioPlayer(_saudio.backend.engine, &_saudio.backend.player_obj, &src, &_saudio.backend.dst_data_sink, sizeof(ids) / sizeof(ids[0]), ids, req); + + (*_saudio.backend.player_obj)->Realize(_saudio.backend.player_obj, SL_BOOLEAN_FALSE); + + (*_saudio.backend.player_obj)->GetInterface(_saudio.backend.player_obj, SL_IID_PLAY, &_saudio.backend.player); + (*_saudio.backend.player_obj)->GetInterface(_saudio.backend.player_obj, SL_IID_VOLUME, &_saudio.backend.player_vol); + + (*_saudio.backend.player_obj)->GetInterface(_saudio.backend.player_obj, SL_IID_ANDROIDSIMPLEBUFFERQUEUE, &_saudio.backend.player_buffer_queue); + } + + /* begin */ + { + const int buffer_size_bytes = (int)sizeof(int16_t) * _saudio.num_channels * _saudio.buffer_frames; + (*_saudio.backend.player_buffer_queue)->Enqueue(_saudio.backend.player_buffer_queue, _saudio.backend.output_buffers[0], (SLuint32)buffer_size_bytes); + _saudio.backend.active_buffer = (_saudio.backend.active_buffer + 1) % SAUDIO_NUM_BUFFERS; + + (*_saudio.backend.player)->RegisterCallback(_saudio.backend.player, _saudio_opensles_play_cb, NULL); + (*_saudio.backend.player)->SetCallbackEventsMask(_saudio.backend.player, SL_PLAYEVENT_HEADATEND); + (*_saudio.backend.player)->SetPlayState(_saudio.backend.player, SL_PLAYSTATE_PLAYING); + } + + /* create the buffer-streaming start thread */ + if (0 != pthread_create(&_saudio.backend.thread, 0, _saudio_opensles_thread_fn, 0)) { + _saudio_backend_shutdown(); + return false; + } + + return true; +} + +#ifdef __cplusplus +} /* extern "C" */ +#endif + +#else +#error "unsupported platform" +#endif + +/*=== PUBLIC API FUNCTIONS ===================================================*/ +SOKOL_API_IMPL void saudio_setup(const saudio_desc* desc) { + SOKOL_ASSERT(!_saudio.valid); + SOKOL_ASSERT(desc); + memset(&_saudio, 0, sizeof(_saudio)); + _saudio.desc = *desc; + _saudio.stream_cb = desc->stream_cb; + _saudio.stream_userdata_cb = desc->stream_userdata_cb; + _saudio.user_data = desc->user_data; + _saudio.sample_rate = _saudio_def(_saudio.desc.sample_rate, _SAUDIO_DEFAULT_SAMPLE_RATE); + _saudio.buffer_frames = _saudio_def(_saudio.desc.buffer_frames, _SAUDIO_DEFAULT_BUFFER_FRAMES); + _saudio.packet_frames = _saudio_def(_saudio.desc.packet_frames, _SAUDIO_DEFAULT_PACKET_FRAMES); + _saudio.num_packets = _saudio_def(_saudio.desc.num_packets, _SAUDIO_DEFAULT_NUM_PACKETS); + _saudio.num_channels = _saudio_def(_saudio.desc.num_channels, 1); + _saudio_fifo_init_mutex(&_saudio.fifo); + if (_saudio_backend_init()) { + /* the backend might not support the requested exact buffer size, + make sure the actual buffer size is still a multiple of + the requested packet size + */ + if (0 != (_saudio.buffer_frames % _saudio.packet_frames)) { + SOKOL_LOG("sokol_audio.h: actual backend buffer size isn't multiple of requested packet size"); + _saudio_backend_shutdown(); + return; + } + SOKOL_ASSERT(_saudio.bytes_per_frame > 0); + _saudio_fifo_init(&_saudio.fifo, _saudio.packet_frames * _saudio.bytes_per_frame, _saudio.num_packets); + _saudio.valid = true; + } +} + +SOKOL_API_IMPL void saudio_shutdown(void) { + if (_saudio.valid) { + _saudio_backend_shutdown(); + _saudio_fifo_shutdown(&_saudio.fifo); + _saudio.valid = false; + } +} + +SOKOL_API_IMPL bool saudio_isvalid(void) { + return _saudio.valid; +} + +SOKOL_API_IMPL void* saudio_userdata(void) { + return _saudio.desc.user_data; +} + +SOKOL_API_IMPL saudio_desc saudio_query_desc(void) { + return _saudio.desc; +} + +SOKOL_API_IMPL int saudio_sample_rate(void) { + return _saudio.sample_rate; +} + +SOKOL_API_IMPL int saudio_buffer_frames(void) { + return _saudio.buffer_frames; +} + +SOKOL_API_IMPL int saudio_channels(void) { + return _saudio.num_channels; +} + +SOKOL_API_IMPL int saudio_expect(void) { + if (_saudio.valid) { + const int num_frames = _saudio_fifo_writable_bytes(&_saudio.fifo) / _saudio.bytes_per_frame; + return num_frames; + } + else { + return 0; + } +} + +SOKOL_API_IMPL int saudio_push(const float* frames, int num_frames) { + SOKOL_ASSERT(frames && (num_frames > 0)); + if (_saudio.valid) { + const int num_bytes = num_frames * _saudio.bytes_per_frame; + const int num_written = _saudio_fifo_write(&_saudio.fifo, (const uint8_t*)frames, num_bytes); + return num_written / _saudio.bytes_per_frame; + } + else { + return 0; + } +} + +#undef _saudio_def +#undef _saudio_def_flt + +#if defined(_SAUDIO_WINDOWS) +#ifdef _MSC_VER +#pragma warning(pop) +#endif +#endif + +#endif /* SOKOL_AUDIO_IMPL */ -- cgit v1.2.3