#include #include #include #include struct buffering_async_sync_test { obs_source_t *source; os_event_t *stop_signal; pthread_t thread; bool initialized; bool buffer_audio; }; #define CYCLE_COUNT 7 static const double aud_rates[CYCLE_COUNT] = { 220.00/48000.0, /* A */ 233.08/48000.0, /* A# */ 246.94/48000.0, /* B */ 261.63/48000.0, /* C */ 277.18/48000.0, /* C# */ 293.67/48000.0, /* D */ 311.13/48000.0, /* D# */ }; #define MAKE_COL_CHAN(x, y) (((0xFF / 7) * x) << (y * 8)) #define MAKE_GRAYSCALE(x) \ (MAKE_COL_CHAN(x, 0) | \ MAKE_COL_CHAN(x, 1) | \ MAKE_COL_CHAN(x, 2)) static const uint32_t vid_colors[CYCLE_COUNT] = { 0xFF000000, 0xFF000000 + MAKE_GRAYSCALE(1), 0xFF000000 + MAKE_GRAYSCALE(2), 0xFF000000 + MAKE_GRAYSCALE(3), 0xFF000000 + MAKE_GRAYSCALE(4), 0xFF000000 + MAKE_GRAYSCALE(5), 0xFF000000 + MAKE_GRAYSCALE(6), }; #ifndef M_PI #define M_PI 3.1415926535897932384626433832795 #endif #define M_PI_X2 M_PI*2 static const char *bast_getname(void *unused) { UNUSED_PARAMETER(unused); return "Audio Buffering Sync Test (Async Video/Audio Source)"; } static void bast_destroy(void *data) { struct buffering_async_sync_test *bast = data; if (bast->initialized) { os_event_signal(bast->stop_signal); pthread_join(bast->thread, NULL); } os_event_destroy(bast->stop_signal); bfree(bast); } static inline void fill_texture(uint32_t *pixels, uint32_t color) { size_t x, y; for (y = 0; y < 20; y++) { for (x = 0; x < 20; x++) { pixels[y*20 + x] = color; } } } static void *video_thread(void *data) { struct buffering_async_sync_test *bast = data; uint32_t sample_rate = audio_output_get_sample_rate(obs_get_audio()); uint32_t *pixels = bmalloc(20 * 20 * sizeof(uint32_t)); float *samples = bmalloc(sample_rate * sizeof(float)); uint64_t cur_time = os_gettime_ns(); int cur_vid_pos = 0; int cur_aud_pos = 0; double cos_val = 0.0; uint64_t start_time = cur_time; bool audio_buffering_enabled = false; struct obs_source_frame frame = { .data = {[0] = (uint8_t*)pixels}, .linesize = {[0] = 20*4}, .width = 20, .height = 20, .format = VIDEO_FORMAT_BGRX }; struct obs_source_audio audio = { .speakers = SPEAKERS_MONO, .data = {[0] = (uint8_t*)samples}, .samples_per_sec = sample_rate, .frames = sample_rate / 4, .format = AUDIO_FORMAT_FLOAT }; while (os_event_try(bast->stop_signal) == EAGAIN) { fill_texture(pixels, vid_colors[cur_vid_pos]); if (!audio_buffering_enabled && bast->buffer_audio) { audio_buffering_enabled = true; blog(LOG_DEBUG, "okay, buffering audio: now"); /* 1 second = 4 cycles when running at * 250ms per cycle */ cur_aud_pos -= 4; if (cur_aud_pos < 0) cur_aud_pos += CYCLE_COUNT; } /* should cause approximately 750 milliseconds of audio * buffering */ frame.timestamp = cur_time - start_time; audio.timestamp = cur_time - start_time - (audio_buffering_enabled ? 1000000000 : 0); const double rate = aud_rates[cur_aud_pos]; for (size_t i = 0; i < sample_rate / 4; i++) { cos_val += rate * M_PI_X2; if (cos_val > M_PI_X2) cos_val -= M_PI_X2; samples[i] = (float)(cos(cos_val) * 0.5); } obs_source_output_video(bast->source, &frame); obs_source_output_audio(bast->source, &audio); os_sleepto_ns(cur_time += 250000000); if (++cur_vid_pos == CYCLE_COUNT) cur_vid_pos = 0; if (++cur_aud_pos == CYCLE_COUNT) cur_aud_pos = 0; } bfree(pixels); bfree(samples); return NULL; } static void bast_buffer_audio(void *data, obs_hotkey_id id, obs_hotkey_t *hotkey, bool pressed) { struct buffering_async_sync_test *bast = data; UNUSED_PARAMETER(id); UNUSED_PARAMETER(hotkey); if (pressed) bast->buffer_audio = true; } static void *bast_create(obs_data_t *settings, obs_source_t *source) { struct buffering_async_sync_test *bast = bzalloc(sizeof(*bast)); bast->source = source; if (os_event_init(&bast->stop_signal, OS_EVENT_TYPE_MANUAL) != 0) { bast_destroy(bast); return NULL; } if (pthread_create(&bast->thread, NULL, video_thread, bast) != 0) { bast_destroy(bast); return NULL; } obs_hotkey_register_source(source, "AudioBufferingSyncTest.Buffer", "Buffer Audio", bast_buffer_audio, bast); bast->initialized = true; UNUSED_PARAMETER(settings); UNUSED_PARAMETER(source); return bast; } struct obs_source_info buffering_async_sync_test = { .id = "buffering_async_sync_test", .type = OBS_SOURCE_TYPE_INPUT, .output_flags = OBS_SOURCE_ASYNC_VIDEO | OBS_SOURCE_AUDIO, .get_name = bast_getname, .create = bast_create, .destroy = bast_destroy, };