From e3715fec7794457482f37374ebdf2a5a7d05d7c7 Mon Sep 17 00:00:00 2001 From: Anthony Samms Date: Fri, 24 Oct 2025 11:25:40 -0400 Subject: [PATCH] prune logging messages --- libs/audio/audio.c | 60 +++++++++++++++++++++++----------------------- 1 file changed, 30 insertions(+), 30 deletions(-) diff --git a/libs/audio/audio.c b/libs/audio/audio.c index 95879aa..5ea4dd8 100644 --- a/libs/audio/audio.c +++ b/libs/audio/audio.c @@ -268,11 +268,11 @@ void list_host_apis(void) { PaHostApiIndex hostApiCount = Pa_GetHostApiCount(); if (hostApiCount < 0) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to get host API count: %s", Pa_GetErrorText(hostApiCount)); + TRACELOG(LOG_WARNING, "Failed to get host API count: %s", Pa_GetErrorText(hostApiCount)); return; } - TRACELOG(LOG_INFO, "AUDIO: Available host APIs:"); + TRACELOG(LOG_INFO, "Available host APIs:"); for (PaHostApiIndex i = 0; i < hostApiCount; i++) { const PaHostApiInfo *info = Pa_GetHostApiInfo(i); if (info) { @@ -309,19 +309,19 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon { PaError err = Pa_Initialize(); if (err != paNoError) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to initialize PortAudio: %s", Pa_GetErrorText(err)); + TRACELOG(LOG_WARNING, "Failed to initialize PortAudio: %s", Pa_GetErrorText(err)); return; } if (pthread_mutex_init(&AUDIO.System.lock, NULL) != 0) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to create mutex for mixing"); + TRACELOG(LOG_WARNING, "Failed to create mutex for mixing"); Pa_Terminate(); return; } AUDIO.System.outputParameters.device = get_best_output_device_for_host_api(host_api); if (AUDIO.System.outputParameters.device == paNoDevice) { - TRACELOG(LOG_WARNING, "AUDIO: No usable output device found"); + TRACELOG(LOG_WARNING, "No usable output device found"); pthread_mutex_destroy(&AUDIO.System.lock); Pa_Terminate(); return; @@ -343,7 +343,7 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon &minSize, &maxSize, &preferredSize, &granularity); if (asioErr == paNoError) { - TRACELOG(LOG_INFO, "AUDIO: ASIO buffer size constraints:"); + TRACELOG(LOG_INFO, "ASIO buffer size constraints:"); TRACELOG(LOG_INFO, " > Minimum: %ld samples", minSize); TRACELOG(LOG_INFO, " > Maximum: %ld samples", maxSize); TRACELOG(LOG_INFO, " > Preferred: %ld samples", preferredSize); @@ -357,16 +357,16 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon // Warn if requested buffer size is out of range if (buffer_size > 0 && buffer_size < minSize) { - TRACELOG(LOG_WARNING, "AUDIO: Requested buffer size (%lu) is below ASIO minimum (%ld)", buffer_size, minSize); - TRACELOG(LOG_WARNING, "AUDIO: Driver will use %ld samples instead", minSize); + TRACELOG(LOG_WARNING, "Requested buffer size (%lu) is below ASIO minimum (%ld)", buffer_size, minSize); + TRACELOG(LOG_WARNING, "Driver will use %ld samples instead", minSize); } else if (buffer_size > maxSize) { - TRACELOG(LOG_WARNING, "AUDIO: Requested buffer size (%lu) exceeds ASIO maximum (%ld)", buffer_size, maxSize); - TRACELOG(LOG_WARNING, "AUDIO: Driver will use %ld samples instead", maxSize); + TRACELOG(LOG_WARNING, "Requested buffer size (%lu) exceeds ASIO maximum (%ld)", buffer_size, maxSize); + TRACELOG(LOG_WARNING, "Driver will use %ld samples instead", maxSize); } else if (buffer_size == 0) { - TRACELOG(LOG_INFO, "AUDIO: Buffer size not specified, driver will choose (likely %ld samples)", preferredSize); + TRACELOG(LOG_INFO, "Buffer size not specified, driver will choose (likely %ld samples)", preferredSize); } } else { - TRACELOG(LOG_WARNING, "AUDIO: Failed to query ASIO buffer sizes: %s", Pa_GetErrorText(asioErr)); + TRACELOG(LOG_WARNING, "Failed to query ASIO buffer sizes: %s", Pa_GetErrorText(asioErr)); } } #endif @@ -381,7 +381,7 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon NULL); // User data if (err != paNoError) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to open audio stream: %s", Pa_GetErrorText(err)); + TRACELOG(LOG_WARNING, "Failed to open audio stream: %s", Pa_GetErrorText(err)); pthread_mutex_destroy(&AUDIO.System.lock); Pa_Terminate(); return; @@ -389,7 +389,7 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon err = Pa_StartStream(AUDIO.System.stream); if (err != paNoError) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to start audio stream: %s", Pa_GetErrorText(err)); + TRACELOG(LOG_WARNING, "Failed to start audio stream: %s", Pa_GetErrorText(err)); Pa_CloseStream(AUDIO.System.stream); pthread_mutex_destroy(&AUDIO.System.lock); Pa_Terminate(); @@ -398,7 +398,7 @@ void init_audio_device(PaHostApiIndex host_api, double sample_rate, unsigned lon AUDIO.System.isReady = true; - TRACELOG(LOG_INFO, "AUDIO: Device initialized successfully"); + TRACELOG(LOG_INFO, "Device initialized successfully"); TRACELOG(LOG_INFO, " > Backend: PortAudio | %s", hostApiInfo->name); TRACELOG(LOG_INFO, " > Device: %s", deviceInfo->name); TRACELOG(LOG_INFO, " > Format: %s", "Float32"); @@ -423,12 +423,12 @@ void close_audio_device(void) if (AUDIO.System.isReady) { PaError err = Pa_StopStream(AUDIO.System.stream); if (err != paNoError) { - TRACELOG(LOG_WARNING, "AUDIO: Error stopping stream: %s", Pa_GetErrorText(err)); + TRACELOG(LOG_WARNING, "Error stopping stream: %s", Pa_GetErrorText(err)); } err = Pa_CloseStream(AUDIO.System.stream); if (err != paNoError) { - TRACELOG(LOG_WARNING, "AUDIO: Error closing stream: %s", Pa_GetErrorText(err)); + TRACELOG(LOG_WARNING, "Error closing stream: %s", Pa_GetErrorText(err)); } pthread_mutex_destroy(&AUDIO.System.lock); @@ -439,10 +439,10 @@ void close_audio_device(void) AUDIO.System.pcmBuffer = NULL; AUDIO.System.pcmBufferSize = 0; - TRACELOG(LOG_INFO, "AUDIO: Device closed successfully"); + TRACELOG(LOG_INFO, "Device closed successfully"); } else { - TRACELOG(LOG_WARNING, "AUDIO: Device could not be closed, not currently initialized"); + TRACELOG(LOG_WARNING, "Device could not be closed, not currently initialized"); } } @@ -471,13 +471,13 @@ struct audio_buffer *load_audio_buffer(uint32_t channels, uint32_t size_in_frame struct audio_buffer *buffer = (struct audio_buffer*)calloc(1, sizeof(struct audio_buffer)); if (buffer == NULL) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to allocate memory for buffer"); + TRACELOG(LOG_WARNING, "Failed to allocate memory for buffer"); return NULL; } buffer->data = calloc(size_in_frames*channels*sizeof(float), 1); if (buffer->data == NULL) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to allocate memory for buffer data"); + TRACELOG(LOG_WARNING, "Failed to allocate memory for buffer data"); FREE(buffer); return NULL; } @@ -631,7 +631,7 @@ wave load_wave(const char* filename) { snd_file = sf_open(filename, SFM_READ, &sf_info); if (snd_file == NULL) { - TRACELOG(LOG_ERROR, "AUDIO: Failed to open file '%s'\n", filename); + TRACELOG(LOG_ERROR, "Failed to open file '%s'\n", filename); return wave; } wave.frameCount = (unsigned int)sf_info.frames; @@ -642,7 +642,7 @@ wave load_wave(const char* filename) { size_t total_samples = sf_info.frames * sf_info.channels; wave.data = malloc(total_samples * sizeof(float)); if (wave.data == NULL) { - TRACELOG(LOG_ERROR, "AUDIO: Failed to allocate memory for wave data"); + TRACELOG(LOG_ERROR, "Failed to allocate memory for wave data"); sf_close(snd_file); return wave; } @@ -674,7 +674,7 @@ sound load_sound_from_wave(wave wave) { bool is_resampled = false; if (wave.sampleRate != AUDIO.System.sampleRate) { - TRACELOG(LOG_INFO, "AUDIO: Resampling wave from %d Hz to %f Hz", wave.sampleRate, AUDIO.System.sampleRate); + TRACELOG(LOG_INFO, "Resampling wave from %d Hz to %f Hz", wave.sampleRate, AUDIO.System.sampleRate); SRC_DATA src_data; src_data.data_in = wave.data; @@ -684,14 +684,14 @@ sound load_sound_from_wave(wave wave) { resampled_wave.data = calloc(src_data.output_frames * wave.channels, sizeof(float)); if (resampled_wave.data == NULL) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to allocate memory for resampling"); + TRACELOG(LOG_WARNING, "Failed to allocate memory for resampling"); return sound; } src_data.data_out = resampled_wave.data; int error = src_simple(&src_data, SRC_SINC_BEST_QUALITY, wave.channels); if (error) { - TRACELOG(LOG_WARNING, "AUDIO: Resampling failed: %s", src_strerror(error)); + TRACELOG(LOG_WARNING, "Resampling failed: %s", src_strerror(error)); FREE(resampled_wave.data); return sound; } @@ -887,18 +887,18 @@ music load_music_stream(const char* filename) { if (snd_file != NULL) { music_ctx *ctx = calloc(1, sizeof(music_ctx)); if (ctx == NULL) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to allocate memory for music context"); + TRACELOG(LOG_WARNING, "Failed to allocate memory for music context"); sf_close(snd_file); return music; } ctx->snd_file = snd_file; if (sf_info.samplerate != AUDIO.System.sampleRate) { - TRACELOG(LOG_INFO, "AUDIO: Resampling music from %d Hz to %f Hz", sf_info.samplerate, AUDIO.System.sampleRate); + TRACELOG(LOG_INFO, "Resampling music from %d Hz to %f Hz", sf_info.samplerate, AUDIO.System.sampleRate); int error; ctx->resampler = src_new(SRC_SINC_FASTEST, sf_info.channels, &error); if (ctx->resampler == NULL) { - TRACELOG(LOG_WARNING, "AUDIO: Failed to create resampler: %s", src_strerror(error)); + TRACELOG(LOG_WARNING, "Failed to create resampler: %s", src_strerror(error)); free(ctx); sf_close(snd_file); return music; @@ -1029,7 +1029,7 @@ void update_music_stream(music music) { int error = src_process(ctx->resampler, &src_data); if (error) { - TRACELOG(LOG_WARNING, "AUDIO: Resampling failed: %s", src_strerror(error)); + TRACELOG(LOG_WARNING, "Resampling failed: %s", src_strerror(error)); } frames_written = src_data.output_frames_gen; } else {