#include "soundout.h" //#define FRAMES_PER_BUFFER 1024 extern "C" { #include } extern float gran(); //Noise generator (for tests only) extern int itone[85]; //Tx audio tones for 85 symbols extern int icw[250]; //Dits for CW ID extern int outBufSize; extern bool btxok; extern bool btxMute; extern double outputLatency; typedef struct //Parameters sent to or received from callback function { double txsnrdb; int nsps; int ntrperiod; int ntxfreq; int ncall; bool txMute; bool bRestart; bool btune; } paUserData; //--------------------------------------------------------------- d2aCallback extern "C" int d2aCallback(const void *inputBuffer, void *outputBuffer, unsigned long framesToProcess, const PaStreamCallbackTimeInfo* timeInfo, PaStreamCallbackFlags statusFlags, void *userData ) { paUserData *udata=(paUserData*)userData; short *wptr = (short*)outputBuffer; static double twopi=2.0*3.141592653589793238462; static double baud; static double phi=0.0; static double dphi; static double freq; static double snr; static double fac; static double amp; static int ic=0,j=0; static short int i2; int isym,nspd; udata->ncall++; if(udata->bRestart) { // Time according to this computer qint64 ms = QDateTime::currentMSecsSinceEpoch() % 86400000; int mstr = ms % (1000*udata->ntrperiod ); if(mstr<1000) return paContinue; ic=(mstr-1000)*48; udata->bRestart=false; srand(mstr); //Initialize random seed } isym=ic/(4*udata->nsps); //Actual fsample=48000 if(udata->btune) isym=0; //If tuning, send pure tone if(udata->txsnrdb < 0.0) { snr=pow(10.0,0.05*(udata->txsnrdb-6.0)); fac=3000.0; if(snr>1.0) fac=3000.0/snr; } if(isym>=85 and icw[0]>0) { //Output the CW ID freq=udata->ntxfreq; dphi=twopi*freq/48000.0; // float wpm=20.0; // int nspd=1.2*48000.0/wpm; // nspd=3072; //18.75 WPM nspd=2048 + 512; //22.5 WPM int ic0=85*4*udata->nsps; for(uint i=0 ; itwopi) phi -= twopi; i2=32767.0*sin(phi); j=(ic-ic0)/nspd + 1; if(icw[j]==0) i2=0; if(udata->txsnrdb < 0.0) { int i4=fac*(gran() + i2*snr/32768.0); if(i4>32767) i4=32767; if(i4<-32767) i4=-32767; i2=i4; } if(!btxok or btxMute) i2=0; *wptr++ = i2; //left #ifdef unix *wptr++ = i2; //right #endif ic++; } if(j>icw[0]) return paComplete; if(statusFlags==999999 and timeInfo==NULL and inputBuffer==NULL) return paContinue; //Silence compiler warning: return paContinue; } baud=12000.0/udata->nsps; freq=udata->ntxfreq + itone[isym]*baud; dphi=twopi*freq/48000.0; amp=32767.0; int i0=84.983*4.0*udata->nsps; int i1=85*4*udata->nsps; if(udata->btune) { //If tuning, no ramp down i0=999*udata->nsps; i1=i0; } for(uint i=0 ; itwopi) phi -= twopi; if(ic>i0) amp=0.98*amp; if(ic>i1) amp=0.0; i2=amp*sin(phi); if(udata->txsnrdb < 0.0) { int i4=fac*(gran() + i2*snr/32768.0); if(i4>32767) i4=32767; if(i4<-32767) i4=-32767; i2=i4; } if(!btxok or btxMute) i2=0; *wptr++ = i2; //left #ifdef unix *wptr++ = i2; //right #endif ic++; } if(amp==0.0) { if(icw[0]==0) return paComplete; phi=0.0; } return paContinue; } void SoundOutThread::run() { PaError paerr; PaStreamParameters outParam; PaStream *outStream; paUserData udata; quitExecution = false; outParam.device=m_nDevOut; //Output device number outParam.channelCount=1; //Number of analog channels #ifdef unix outParam.channelCount=2; //Number of analog channels #endif outParam.sampleFormat=paInt16; //Send short ints to PortAudio outParam.suggestedLatency=0.05; outParam.hostApiSpecificStreamInfo=NULL; paerr=Pa_IsFormatSupported(NULL,&outParam,48000.0); if(paerr<0) { qDebug() << "PortAudio says requested output format not supported."; qDebug() << paerr << m_nDevOut; return; } udata.txsnrdb=99.0; udata.nsps=m_nsps; udata.ntrperiod=m_TRperiod; udata.ntxfreq=m_txFreq; udata.ncall=0; udata.txMute=m_txMute; udata.bRestart=true; udata.btune=m_tune; paerr=Pa_OpenStream(&outStream, //Output stream NULL, //No input parameters &outParam, //Output parameters 48000.0, //Sample rate outBufSize, //Frames per buffer paClipOff, //No clipping d2aCallback, //output callbeck routine &udata); //userdata paerr=Pa_StartStream(outStream); if(paerr<0) { qDebug() << "Failed to start audio output stream."; return; } const PaStreamInfo* p=Pa_GetStreamInfo(outStream); outputLatency = p->outputLatency; bool qe = quitExecution; qint64 ms0 = QDateTime::currentMSecsSinceEpoch(); //---------------------------------------------- Soundcard output loop while (!qe) { qe = quitExecution; if (qe) break; udata.txsnrdb=m_txsnrdb; udata.nsps=m_nsps; udata.ntrperiod=m_TRperiod; udata.ntxfreq=m_txFreq; udata.txMute=m_txMute; udata.btune=m_tune; m_SamFacOut=1.0; if(udata.ncall>400) { qint64 ms = QDateTime::currentMSecsSinceEpoch(); m_SamFacOut=udata.ncall*outBufSize*1000.0/(48000.0*(ms-ms0-50)); } msleep(100); } Pa_StopStream(outStream); Pa_CloseStream(outStream); } void SoundOutThread::setOutputDevice(int n) //setOutputDevice() { if (isRunning()) return; this->m_nDevOut=n; } void SoundOutThread::setPeriod(int ntrperiod, int nsps) { m_TRperiod=ntrperiod; m_nsps=nsps; } void SoundOutThread::setTxFreq(int n) { m_txFreq=n; } void SoundOutThread::setTxSNR(double snr) { m_txsnrdb=snr; } void SoundOutThread::setTune(bool b) { m_tune=b; } double SoundOutThread::samFacOut() { return m_SamFacOut; }