ES-DE/es-core/src/AudioManager.cpp

266 lines
9.2 KiB
C++

// SPDX-License-Identifier: MIT
//
// EmulationStation Desktop Edition
// AudioManager.cpp
//
// Low-level audio functions (using SDL2).
//
#include "AudioManager.h"
#include "Log.h"
#include "Settings.h"
#include "Sound.h"
#include <SDL2/SDL.h>
std::shared_ptr<AudioManager> AudioManager::sInstance;
std::vector<std::shared_ptr<Sound>> AudioManager::sSoundVector;
SDL_AudioDeviceID AudioManager::sAudioDevice = 0;
SDL_AudioSpec AudioManager::sAudioFormat;
SDL_AudioStream* AudioManager::sConversionStream;
AudioManager::AudioManager()
{
init();
}
AudioManager::~AudioManager()
{
deinit();
}
std::shared_ptr<AudioManager>& AudioManager::getInstance()
{
// Check if an AudioManager instance is already created, if not, create it.
if (sInstance == nullptr)
sInstance = std::shared_ptr<AudioManager>(new AudioManager);
return sInstance;
}
void AudioManager::init()
{
LOG(LogInfo) << "Setting up AudioManager...";
if (SDL_InitSubSystem(SDL_INIT_AUDIO) != 0) {
LOG(LogError) << "Error initializing SDL audio!\n" << SDL_GetError();
return;
}
// Stop playing all Sounds.
for (unsigned int i = 0; i < sSoundVector.size(); i++) {
if (sSoundVector.at(i)->isPlaying())
sSoundVector[i]->stop();
}
SDL_AudioSpec sRequestedAudioFormat;
SDL_memset(&sRequestedAudioFormat, 0, sizeof(sRequestedAudioFormat));
SDL_memset(&sAudioFormat, 0, sizeof(sAudioFormat));
// Set up format and callback. Play 16-bit stereo audio at 44.1Khz.
sRequestedAudioFormat.freq = 44100;
sRequestedAudioFormat.format = AUDIO_F32;
sRequestedAudioFormat.channels = 2;
sRequestedAudioFormat.samples = 1024;
sRequestedAudioFormat.callback = mixAudio;
sRequestedAudioFormat.userdata = nullptr;
for (unsigned int i = 0; i < SDL_GetNumAudioDevices(0); i++) {
LOG(LogDebug) << "Detected playback device '" << SDL_GetAudioDeviceName(i, 0) << "'.";
}
sAudioDevice = SDL_OpenAudioDevice(0, 0, &sRequestedAudioFormat, &sAudioFormat,
SDL_AUDIO_ALLOW_ANY_CHANGE);
if (sAudioDevice == 0) {
LOG(LogError) << "Unable to open audio device: " << SDL_GetError() << std::endl;
return;
}
if (sAudioFormat.freq != sRequestedAudioFormat.freq) {
LOG(LogDebug) << "AudioManager::init(): Requested sampling rate " <<
std::to_string(sRequestedAudioFormat.freq) << " could not be "
"set, obtained " << std::to_string(sAudioFormat.freq) << ".";
}
if (sAudioFormat.format != sRequestedAudioFormat.format) {
LOG(LogDebug) << "AudioManager::init(): Requested format " <<
std::to_string(sRequestedAudioFormat.format) << " could not be "
"set, obtained " << std::to_string(sAudioFormat.format) << ".";
}
if (sAudioFormat.channels != sRequestedAudioFormat.channels) {
LOG(LogDebug) << "AudioManager::init(): Requested channel count " <<
std::to_string(sRequestedAudioFormat.channels) << " could not be "
"set, obtained " << std::to_string(sAudioFormat.channels) << ".";
}
#if defined(_WIN64)
// Beats me why the buffer size is not divided by the channel count on Windows.
if (sAudioFormat.samples != sRequestedAudioFormat.samples) {
#else
if (sAudioFormat.samples != sRequestedAudioFormat.samples / sRequestedAudioFormat.channels) {
#endif
LOG(LogDebug) << "AudioManager::init(): Requested sample buffer size " <<
std::to_string(sRequestedAudioFormat.samples / sRequestedAudioFormat.channels) <<
" could not be set, obtained " << std::to_string(sAudioFormat.samples) << ".";
}
// Just in case someone changed the es_settings.cfg file manually to invalid values.
if (Settings::getInstance()->getInt("SoundVolumeNavigation") > 100)
Settings::getInstance()->setInt("SoundVolumeNavigation", 100);
if (Settings::getInstance()->getInt("SoundVolumeNavigation") < 0)
Settings::getInstance()->setInt("SoundVolumeNavigation", 0);
if (Settings::getInstance()->getInt("SoundVolumeVideos") > 100)
Settings::getInstance()->setInt("SoundVolumeVideos", 100);
if (Settings::getInstance()->getInt("SoundVolumeVideos") < 0)
Settings::getInstance()->setInt("SoundVolumeVideos", 0);
// Used for streaming audio from videos.
sConversionStream = SDL_NewAudioStream(AUDIO_S16, 2, 44100, sAudioFormat.format,
sAudioFormat.channels, sAudioFormat.freq);
if (sConversionStream == nullptr) {
LOG(LogError) << "Failed to create audio conversion stream:";
LOG(LogError) << SDL_GetError();
}
}
void AudioManager::deinit()
{
// Stop all playback.
stop();
SDL_FreeAudioStream(sConversionStream);
SDL_CloseAudio();
SDL_QuitSubSystem(SDL_INIT_AUDIO);
sInstance = nullptr;
}
void AudioManager::mixAudio(void* /*unused*/, Uint8* stream, int len)
{
// Process navigation sounds.
bool stillPlaying = false;
// Initialize the buffer to "silence".
SDL_memset(stream, 0, len);
// Iterate through all our samples.
std::vector<std::shared_ptr<Sound>>::const_iterator soundIt = sSoundVector.cbegin();
while (soundIt != sSoundVector.cend()) {
std::shared_ptr<Sound> sound = *soundIt;
if (sound->isPlaying()) {
// Calculate rest length of current sample.
Uint32 restLength = (sound->getLength() - sound->getPosition());
if (restLength > static_cast<Uint32>(len)) {
// If stream length is smaller than sample length, clip it.
restLength = len;
}
// Mix sample into stream.
SDL_MixAudioFormat(stream, &(sound->getData()[sound->getPosition()]),
sAudioFormat.format, restLength,
Settings::getInstance()->getInt("SoundVolumeNavigation") * 1.28);
if (sound->getPosition() + restLength < sound->getLength()) {
// Sample hasn't ended yet.
stillPlaying = true;
}
// Set new sound position. if this is at or beyond the end of the sample,
// it will stop automatically.
sound->setPosition(sound->getPosition() + restLength);
}
// Advance to next sound.
soundIt++;
}
// Process video stream audio.
int chunkLength = SDL_AudioStreamAvailable(sConversionStream);
if (chunkLength != 0) {
// Initialize the buffer to "silence".
SDL_memset(stream, 0, len);
Uint8* converted;
converted = new Uint8[chunkLength];
int chunkSegment;
// Break down the chunk into segments that do not exceed the buffer size.
while (chunkLength > 0) {
if (chunkLength > len) {
chunkSegment = len;
chunkLength -= len;
}
else {
chunkSegment = chunkLength;
chunkLength = 0;
}
int processedLength = SDL_AudioStreamGet(sConversionStream, converted, chunkSegment);
if (processedLength == -1) {
LOG(LogError) << "Failed to convert sound chunk:";
LOG(LogError) << SDL_GetError();
delete[] converted;
return;
}
// Currently disabled as it generates a lot of debug output.
// LOG(LogDebug) << "AudioManager::mixAudio(): chunkLength / chunkSegment "
// "/ processedLength: " << chunkLength << " / " << chunkSegment <<
// " / " << processedLength;
if (processedLength > 0)
SDL_MixAudioFormat(stream, converted, sAudioFormat.format, processedLength, 128);
}
delete[] converted;
SDL_PauseAudioDevice(sAudioDevice, 1);
}
// We have processed all samples. check if some will still be playing.
if (!stillPlaying) {
// Nothing is playing, pause the audio until Sound::play() wakes us up.
SDL_PauseAudioDevice(sAudioDevice, 1);
}
}
void AudioManager::registerSound(std::shared_ptr<Sound>& sound)
{
sSoundVector.push_back(sound);
}
void AudioManager::unregisterSound(std::shared_ptr<Sound>& sound)
{
for (unsigned int i = 0; i < sSoundVector.size(); i++) {
if (sSoundVector.at(i) == sound) {
sSoundVector[i]->stop();
sSoundVector.erase(sSoundVector.cbegin() + i);
return;
}
}
LOG(LogError) << "AudioManager - tried to unregister a sound that wasn't registered!";
}
void AudioManager::play()
{
// Unpause audio, the mixer will figure out if samples need to be played...
SDL_PauseAudioDevice(sAudioDevice, 0);
}
void AudioManager::stop()
{
// Stop playing all Sounds.
for (unsigned int i = 0; i < sSoundVector.size(); i++) {
if (sSoundVector.at(i) && sSoundVector.at(i)->isPlaying())
sSoundVector[i]->stop();
}
// Pause audio.
SDL_PauseAudioDevice(sAudioDevice, 1);
}
void AudioManager::processStream(const void *samples, unsigned count)
{
if (SDL_AudioStreamPut(sConversionStream, samples, count * sizeof(Uint8)) == -1) {
LOG(LogError) << "Failed to put samples in the conversion stream:";
LOG(LogError) << SDL_GetError();
return;
}
SDL_PauseAudioDevice(sAudioDevice, 0);
}