void ofApp::setup(){
setupTcpServer();
setupArrays();
setupSound();
setupChannels();
for (int i = 0; i < channels.size(); i++) {
channel *channel = channels[i];
movingFrameBoard *mfb = new movingFrameBoard(&channel->mFbo);
movingFrameBoards.push_back(mfb);
chessBoard1 *cb1 = new chessBoard1(&channel->mFbo);
chessBoard1s.push_back(cb1);
testBoard *tb = new testBoard(&channel->mFbo);
testBoards.push_back(tb);
oneColorBoard *ocb = new oneColorBoard(&channel->mFbo);
oneColorBoards.push_back(ocb);
chessBoard2 *cb2 = new chessBoard2(&channel->mFbo);
chessBoard2s.push_back(cb2);
}
}
audioSink::audioSink (int16_t latency,
QComboBox *s,
RingBuffer<int16_t> *b): audioBase (b) {
int32_t i;
this -> latency = latency;
this -> streamSelector = s;
this -> CardRate = 48000;
this -> latency = latency;
_O_Buffer = new RingBuffer<float>(2 * 32768);
portAudio = false;
writerRunning = false;
if (Pa_Initialize () != paNoError) {
fprintf (stderr, "Initializing Pa for output failed\n");
return;
}
portAudio = true;
qDebug ("Hostapis: %d\n", Pa_GetHostApiCount ());
for (i = 0; i < Pa_GetHostApiCount (); i ++)
qDebug ("Api %d is %s\n", i, Pa_GetHostApiInfo (i) -> name);
numofDevices = Pa_GetDeviceCount ();
outTable = new int16_t [numofDevices + 1];
for (i = 0; i < numofDevices; i ++)
outTable [i] = -1;
ostream = NULL;
setupChannels (streamSelector);
connect (streamSelector, SIGNAL (activated (int)),
this, SLOT (set_streamSelector (int)));
streamSelector -> show ();
selectDefaultDevice ();
}
void ofApp::setup(){
ofSetDataPathRoot("../Resources/data/");
setupTcp();
setupSound();
setupChannels();
setupBoards();
}
CoreServer::Result CoreServer::initialize()
{
Result r;
// Only core0 needs to start other coreservers
if (m_info.coreId != 0)
return setupChannels();
if ((r = loadKernel()) != Success)
return r;
if ((r = discover()) != Success)
return r;
if ((r = setupChannels()) != Success)
return r;
return bootAll();
}
void StPCMBuffer::resize(const size_t theSizeMin,
const bool theToReduce) {
if(mySizeBytes >= theSizeMin
&& !theToReduce) {
return; // do not reduce buffer
}
mySizeBytes = theSizeMin;
stMemZero(myPlanes, sizeof(myPlanes));
stMemFreeAligned(myBuffer);
myBuffer = stMemAllocAligned<uint8_t*>(mySizeBytes, 16);
stMemZero(myBuffer, mySizeBytes);
setupChannels(myChMap, myPlanesNb);
}
/*
* The class is the sink for the data generated
* Note that for DAB, we always take 48000 as outputrate
* The only parameter is the combobox for selection (which
* we fill first)
*/
audioSink::audioSink (QComboBox *s) {
int32_t i;
this -> streamSelector = s;
_O_Buffer = new RingBuffer<float>(16 * 32768);
portAudio = false;
writerRunning = false;
if (Pa_Initialize () != paNoError) {
fprintf (stderr, "Initializing Pa for output failed\n");
return;
}
portAudio = true;
qDebug ("Hostapis: %d\n", Pa_GetHostApiCount ());
for (i = 0; i < Pa_GetHostApiCount (); i ++)
qDebug ("Api %d is %s\n", i, Pa_GetHostApiInfo (i) -> name);
numofDevices = Pa_GetDeviceCount ();
outTable = new int16_t [numofDevices + 1];
for (i = 0; i < numofDevices; i ++)
outTable [i] = -1;
ostream = NULL;
setupChannels (streamSelector);
connect (streamSelector, SIGNAL (activated (int)),
this, SLOT (set_streamSelector (int)));
streamSelector -> show ();
ostream = NULL;
dumpFile = NULL;
//
// data may enter with different samplerates, all data
// is mapped onto a rate of 48000
f_16000 = new LowPassFIR (5, 16000, 48000);
f_24000 = new LowPassFIR (5, 24000, 48000);
f_32000 = new LowPassFIR (5, 32000, 96000);
}
