void Sound::play()
{
if (!m_buffer || m_buffer->getSampleCount() == 0)
return;
if (getStatus() == Playing)
stop();
m_channel = 0;
while (m_channel < 24 && ndspChnIsPlaying(m_channel))
m_channel++;
if (m_channel == 24) {
err() << "Sound::play() failed because all channels are in use." << std::endl;
m_channel = -1;
return;
}
setPlayingOffset(m_pauseOffset);
if (m_pauseOffset != Time::Zero)
m_pauseOffset = Time::Zero;
u32 size = sizeof(Int16) * m_buffer->getSampleCount();
ndspChnReset(m_channel);
ndspChnSetInterp(m_channel, NDSP_INTERP_POLYPHASE);
ndspChnSetRate(m_channel, float(m_buffer->getSampleRate()));
ndspChnSetFormat(m_channel, (m_buffer->getChannelCount() == 1) ? NDSP_FORMAT_MONO_PCM16 : NDSP_FORMAT_STEREO_PCM16);
DSP_FlushDataCache((u8*)m_buffer->getSamples(), size);
ndspChnWaveBufAdd(m_channel, &m_ndspWaveBuf);
}
void closeMusic(Music* src){
closeStream = true;
svcSignalEvent(updateStream);
while (closeStream){} // Wait for thread exiting...
svcCloseHandle(updateStream);
// Purging everything
purgeTable(src->blocks);
ndspChnReset(src->ch);
ndspChnWaveBufClear(src->ch);
linearFree(src->audiobuf);
if (src->audiobuf2 != NULL) linearFree(src->audiobuf2);
free(src);
}
static void audioThreadFunc(void *arg) {
Audio::MixerImpl *mixer = (Audio::MixerImpl *)arg;
OSystem_3DS *osys = (OSystem_3DS *)g_system;
int i;
const int channel = 0;
int bufferIndex = 0;
const int bufferCount = 3;
const int bufferSize = 80000; // Can't be too small, based on delayMillis duration
const int sampleRate = mixer->getOutputRate();
int sampleLen = 0;
uint32 lastTime = osys->getMillis(true);
uint32 time = lastTime;
ndspWaveBuf buffers[bufferCount];
for (i = 0; i < bufferCount; ++i) {
memset(&buffers[i], 0, sizeof(ndspWaveBuf));
buffers[i].data_vaddr = linearAlloc(bufferSize);
buffers[i].looping = false;
buffers[i].status = NDSP_WBUF_FREE;
}
ndspChnReset(channel);
ndspChnSetInterp(channel, NDSP_INTERP_LINEAR);
ndspChnSetRate(channel, sampleRate);
ndspChnSetFormat(channel, NDSP_FORMAT_STEREO_PCM16);
while (!osys->exiting) {
osys->delayMillis(100); // Note: Increasing the delay requires a bigger buffer
time = osys->getMillis(true);
sampleLen = (time - lastTime) * 22 * 4; // sampleRate / 1000 * channelCount * sizeof(int16);
lastTime = time;
if (!osys->sleeping && sampleLen > 0) {
bufferIndex++;
bufferIndex %= bufferCount;
ndspWaveBuf *buf = &buffers[bufferIndex];
buf->nsamples = mixer->mixCallback(buf->data_adpcm, sampleLen);
if (buf->nsamples > 0) {
DSP_FlushDataCache(buf->data_vaddr, bufferSize);
ndspChnWaveBufAdd(channel, buf);
}
}
}
for (i = 0; i < bufferCount; ++i)
linearFree(buffers[i].data_pcm8);
}
// startMusic: Plays a song with network streaming feature
void startMusic(Socket* sock, Music* src)
{
closeStream = false;
src->streamLoop = false; // TODO: Add looping feature
songPointer = 0;
netSize = 0;
u32 ch = 0x08;
u32 ch2 = 0x09;
bool non_native_encode = false;
ThreadFunc streamFunction = streamWAV;
u8 tmp_encode;
/*if (src->encoding == CSND_ENCODING_VORBIS){
streamFunction = streamOGG;
tmp_encode = src->encoding;
src->encoding = CSND_ENCODING_PCM16;
non_native_encode = true;
}*/
int raw_format;
if (src->audiotype == 1) raw_format = NDSP_FORMAT_MONO_PCM16;
else raw_format = NDSP_FORMAT_STEREO_PCM16;
ndspChnReset(ch);
ndspChnWaveBufClear(ch);
ndspChnSetInterp(ch, NDSP_INTERP_LINEAR);
ndspChnSetRate(ch, float(src->samplerate));
ndspChnSetFormat(ch, raw_format);
ndspWaveBuf* waveBuf = (ndspWaveBuf*)calloc(1, sizeof(ndspWaveBuf));
createDspBlock(waveBuf, src->bytepersample, src->mem_size, 0, (u32*)src->audiobuf);
src->blocks = NULL;
populatePurgeTable(src, waveBuf);
ndspChnWaveBufAdd(ch, waveBuf);
src->tick = osGetTime();
src->wavebuf = waveBuf;
src->ch = ch;
src->isPlaying = true;
src->lastCheck = ndspChnGetSamplePos(ch);
src->streamLoop = false;
svcCreateEvent(&updateStream,0);
cachePackage* pkg = (cachePackage*)malloc(sizeof(cachePackage));
pkg->client = sock;
pkg->song = src;
svcSignalEvent(updateStream);
threadCreate(streamFunction, pkg, 8192, 0x18, 0, true);
src->isPlaying = true;
}
void streamMusic(void* arg)
{
clearBottomScreen();
debug("play_buffer start\n");
stream_filename* strm_file = static_cast<stream_filename*>(arg);
VGMSTREAM* vgmstream = strm_file->stream;
if (!vgmstream)
return;
int channel = 0;
ndspSetOutputMode(NDSP_OUTPUT_STEREO);
for (int i = 0; i < vgmstream->channels; i++)
{
ndspChnReset(channel + i);
ndspChnSetInterp(channel + i, NDSP_INTERP_LINEAR);
ndspChnSetRate(channel + i, vgmstream->sample_rate / vgmstream->channels);
ndspChnSetFormat(channel + i, NDSP_FORMAT_STEREO_PCM16);
}
std::vector<ndspWaveBuf> waveBufs1(vgmstream->channels);
std::vector<ndspWaveBuf> waveBufs2(vgmstream->channels);
for (auto& waveBuf : waveBufs1)
memset(&waveBuf, 0, sizeof(ndspWaveBuf));
for (auto& waveBuf : waveBufs2)
memset(&waveBuf, 0, sizeof(ndspWaveBuf));
debug("play_buffer signal produce\n");
svcSignalEvent(bufferReadyProduceRequest);
// Wait for 2 buffers to play
debug("play_buffer wait data 1\n");
svcWaitSynchronization(bufferReadyConsumeRequest, U64_MAX);
svcClearEvent(bufferReadyConsumeRequest);
debug("play_buffer signal produce\n");
svcSignalEvent(bufferReadyProduceRequest);
debug("play_buffer wait data 2\n");
svcWaitSynchronization(bufferReadyConsumeRequest, U64_MAX);
svcClearEvent(bufferReadyConsumeRequest);
// Play it
debug("play_buffer play\n");
playSoundChannels(channel, playBuffer1.samples, false, playBuffer1.channels, waveBufs1);
playSoundChannels(channel, playBuffer2.samples, false, playBuffer2.channels, waveBufs2);
stream_buffer* buffer = &playBuffer2;
stream_buffer* playingBuf = &playBuffer1;
std::vector<ndspWaveBuf>* waveBuf = &waveBufs2;
std::vector<ndspWaveBuf>* playingWaveBuf = &waveBufs1;
debug("play_buffer signal produce\n");
svcSignalEvent(bufferReadyProduceRequest);
while (runThreads)
{
if (playingWaveBuf->at(0).status == NDSP_WBUF_DONE) {
debug("play_buffer wait data\n");
// Wait for sound data here
svcWaitSynchronization(bufferReadyConsumeRequest, U64_MAX);
svcClearEvent(bufferReadyConsumeRequest);
// Flip buffers
if (buffer == &playBuffer1)
{
buffer = &playBuffer2;
playingBuf = &playBuffer1;
waveBuf = &waveBufs2;
playingWaveBuf = &waveBufs1;
}
else
{
buffer = &playBuffer1;
playingBuf = &playBuffer2;
waveBuf = &waveBufs1;
playingWaveBuf = &waveBufs2;
}
debug("play_buffer play\n");
playSoundChannels(channel, buffer->samples, false, buffer->channels, *waveBuf);
debug("play_buffer signal produce\n");
svcSignalEvent(bufferReadyProduceRequest);
}
}
for (int i = 0; i < vgmstream->channels; i++)
{
ndspChnWaveBufClear(channel + i);
}
debug("play_buffer done\n");
}
