#include struct AudioAO : Audio { ~AudioAO() { term(); } int driver_id; ao_sample_format driver_format; ao_device* audio_device = nullptr; struct { unsigned frequency = 22050; } settings; auto cap(const string& name) -> bool { if(name == Audio::Frequency) return true; return false; } auto get(const string& name) -> any { if(name == Audio::Frequency) return settings.frequency; return {}; } auto set(const string& name, const any& value) -> bool { if(name == Audio::Frequency && value.is()) { settings.frequency = value.get(); if(audio_device) init(); return true; } return false; } auto sample(uint16_t l_sample, uint16_t r_sample) -> void { uint32_t samp = (l_sample << 0) + (r_sample << 16); ao_play(audio_device, (char*)&samp, 4); //This may need to be byte swapped for Big Endian } auto clear() -> void { } auto init() -> bool { ao_initialize(); driver_id = ao_default_driver_id(); //ao_driver_id((const char*)driver) if(driver_id < 0) return false; driver_format.bits = 16; driver_format.channels = 2; driver_format.rate = settings.frequency; driver_format.byte_format = AO_FMT_LITTLE; ao_option* options = nullptr; ao_info *di = ao_driver_info(driver_id); if(!di) return false; if(!strcmp(di->short_name, "alsa")) { ao_append_option(&options, "buffer_time", "100000"); //100ms latency (default was 500ms) } audio_device = ao_open_live(driver_id, &driver_format, options); if(!audio_device) return false; return true; } auto term() -> void { if(audio_device) { ao_close(audio_device); audio_device = nullptr; } ao_shutdown(); } };