mirror of
https://github.com/saitohirga/WSJT-X.git
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0875a12cad
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/map65@2464 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
404 lines
11 KiB
C++
404 lines
11 KiB
C++
#include "soundin.h"
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#include <stdexcept>
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#define NFFT 32768
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#define FRAMES_PER_BUFFER 1024
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extern "C" {
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#include <portaudio.h>
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extern struct {
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double d8[2*60*96000]; //This is "common/datcom/..." in fortran
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float ss[4*322*NFFT];
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float savg[4*NFFT];
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double fcenter;
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int nutc;
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int idphi; //Phase correction for Y pol'n, degrees
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int mousedf; //User-selected DF
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int mousefqso; //User-selected QSO freq (kHz)
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int nagain; //1 ==> decode only at fQSO +/- Tol
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int ndepth; //How much hinted decoding to do?
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int ndiskdat; //1 ==> data read from *.tf2 or *.iq file
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int neme; //Hinted decoding tries only for EME calls
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int newdat; //1 ==> new data, must do long FFT
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int nfa; //Low decode limit (kHz)
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int nfb; //High decode limit (kHz)
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int nfcal; //Frequency correction, for calibration (Hz)
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int nfshift; //Shift of displayed center freq (kHz)
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int mcall3; //1 ==> CALL3.TXT has been modified
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int ntimeout; //Max for timeouts in Messages and BandMap
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int ntol; //+/- decoding range around fQSO (Hz)
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int nxant; //1 ==> add 45 deg to measured pol angle
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int map65RxLog; //Flags to control log files
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int nfsample; //Input sample rate
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int nxpol; //1 if using xpol antennas, 0 otherwise
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int mode65; //JT65 sub-mode: A=1, B=2, C=4
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char mycall[12];
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char mygrid[6];
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char hiscall[12];
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char hisgrid[6];
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char datetime[20];
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} datcom_;
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}
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typedef struct
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{
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int kin; //Parameters sent to/from the portaudio callback function
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int nrx;
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bool bzero;
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bool iqswap;
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bool b10db;
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} paUserData;
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//--------------------------------------------------------------- a2dCallback
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extern "C" int a2dCallback( const void *inputBuffer, void *outputBuffer,
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unsigned long framesToProcess,
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const PaStreamCallbackTimeInfo* timeInfo,
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PaStreamCallbackFlags statusFlags,
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void *userData )
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// This routine called by the PortAudio engine when samples are available.
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// It may be called at interrupt level, so don't do anything
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// that could mess up the system like calling malloc() or free().
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{
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paUserData *udata=(paUserData*)userData;
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(void) outputBuffer; //Prevent unused variable warnings.
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(void) timeInfo;
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(void) userData;
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int nbytes,i,j;
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float d4[4*FRAMES_PER_BUFFER];
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float d4a[4*FRAMES_PER_BUFFER];
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float tmp;
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float fac;
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if( (statusFlags&paInputOverflow) != 0) {
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qDebug() << "Input Overflow";
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}
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if(udata->bzero) { //Start of a new minute
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udata->kin=0; //Reset buffer pointer
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udata->bzero=false;
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}
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nbytes=udata->nrx*8*framesToProcess; //Bytes per frame
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memcpy(d4,inputBuffer,nbytes); //Copy all samples to d4
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fac=32767.0;
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if(udata->b10db) fac=103618.35;
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if(udata->nrx==2) {
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for(i=0; i<4*int(framesToProcess); i++) { //Negate odd-numbered frames
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d4[i]=fac*d4[i];
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j=i/4;
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if((j%2)==1) d4[i]=-d4[i];
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}
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if(!udata->iqswap) {
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for(i=0; i<int(framesToProcess); i++) {
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j=4*i;
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tmp=d4[j];
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d4[j]=d4[j+1];
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d4[j+1]=tmp;
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tmp=d4[j+2];
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d4[j+2]=d4[j+3];
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d4[j+3]=tmp;
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}
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}
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memcpy(&datcom_.d8[2*udata->kin],d4,nbytes); //Copy from d4 to dd()
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} else {
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int k=0;
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for(i=0; i<2*int(framesToProcess); i+=2) { //Negate odd-numbered frames
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j=i/2;
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if(j%2==0) {
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d4a[k++]=fac*d4[i];
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d4a[k++]=fac*d4[i+1];
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} else {
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d4a[k++]=-fac*d4[i];
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d4a[k++]=-fac*d4[i+1];
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}
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d4a[k++]=0.0;
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d4a[k++]=0.0;
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}
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if(!udata->iqswap) {
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for(i=0; i<int(framesToProcess); i++) {
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j=4*i;
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tmp=d4a[j];
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d4a[j]=d4a[j+1];
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d4a[j+1]=tmp;
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}
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}
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memcpy(&datcom_.d8[2*udata->kin],d4a,2*nbytes); //Copy from d4a to dd()
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}
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udata->kin += framesToProcess;
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return paContinue;
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}
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void SoundInThread::run() //SoundInThread::run()
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{
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quitExecution = false;
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if (m_net) {
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// qDebug() << "Start inputUDP()";
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inputUDP();
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// qDebug() << "Finished inputUDP()";
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return;
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}
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//---------------------------------------------------- Soundcard Setup
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// qDebug() << "Start souncard input";
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PaError paerr;
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PaStreamParameters inParam;
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PaStream *inStream;
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paUserData udata;
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udata.kin=0; //Buffer pointer
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udata.bzero=false; //Flag to request reset of kin
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udata.nrx=m_nrx; //Number of polarizations
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udata.iqswap=m_IQswap;
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udata.b10db=m_10db;
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inParam.device=m_nDevIn; //### Input Device Number ###
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inParam.channelCount=2*m_nrx; //Number of analog channels
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inParam.sampleFormat=paFloat32; //Get floats from Portaudio
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inParam.suggestedLatency=0.05;
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inParam.hostApiSpecificStreamInfo=NULL;
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paerr=Pa_IsFormatSupported(&inParam,NULL,96000.0);
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if(paerr<0) {
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emit error("PortAudio says requested soundcard format not supported.");
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// return;
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}
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paerr=Pa_OpenStream(&inStream, //Input stream
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&inParam, //Input parameters
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NULL, //No output parameters
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96000.0, //Sample rate
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FRAMES_PER_BUFFER, //Frames per buffer
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// paClipOff+paDitherOff, //No clipping or dithering
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paClipOff, //No clipping
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a2dCallback, //Input callbeck routine
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&udata); //userdata
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paerr=Pa_StartStream(inStream);
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if(paerr<0) {
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emit error("Failed to start audio input stream.");
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return;
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}
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// const PaStreamInfo* p=Pa_GetStreamInfo(inStream);
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bool qe = quitExecution;
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int n60z=99;
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int k=0;
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int nsec;
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int n60;
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int nBusy=0;
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int nhsym0=0;
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//---------------------------------------------- Soundcard input loop
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while (!qe) {
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qe = quitExecution;
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if (qe) break;
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qint64 ms = QDateTime::currentMSecsSinceEpoch() % 86400000;
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nsec = ms/1000; // Time according to this computer
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n60 = nsec % 60;
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// Reset buffer pointer and symbol number at start of minute
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if(n60 < n60z or !m_monitoring) {
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nhsym0=0;
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udata.bzero=true;
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}
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k=udata.kin;
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udata.iqswap=m_IQswap;
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udata.b10db=m_10db;
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if(m_monitoring) {
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if(m_bForceCenterFreq) {
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datcom_.fcenter=m_dForceCenterFreq;\
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} else {
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datcom_.fcenter=144.125;
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}
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m_hsym=(k-2048)*11025.0/(2048.0*m_rate);
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if(m_hsym != nhsym0) {
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if(m_dataSinkBusy) {
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nBusy++;
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} else {
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m_dataSinkBusy=true;
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emit readyForFFT(k); //Signal to compute new FFTs
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}
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nhsym0=m_hsym;
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}
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}
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msleep(100);
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n60z=n60;
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}
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Pa_StopStream(inStream);
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Pa_CloseStream(inStream);
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}
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void SoundInThread::setSwapIQ(bool b)
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{
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m_IQswap=b;
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}
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void SoundInThread::set10db(bool b)
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{
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m_10db=b;
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}
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void SoundInThread::setPort(int n) //setPort()
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{
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if (isRunning()) return;
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this->m_udpPort=n;
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}
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void SoundInThread::setInputDevice(int n) //setInputDevice()
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{
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if (isRunning()) return;
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this->m_nDevIn=n;
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}
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void SoundInThread::setRate(double rate) //setRate()
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{
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if (isRunning()) return;
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this->m_rate = rate;
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}
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void SoundInThread::setBufSize(unsigned n) //setBufSize()
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{
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if (isRunning()) return;
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this->bufSize = n;
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}
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void SoundInThread::setFadd(double x)
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{
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m_fAdd=x;
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}
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void SoundInThread::quit() //quit()
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{
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quitExecution = true;
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}
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void SoundInThread::setNetwork(bool b) //setNetwork()
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{
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m_net = b;
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}
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void SoundInThread::setMonitoring(bool b) //setMonitoring()
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{
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m_monitoring = b;
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}
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void SoundInThread::setForceCenterFreqBool(bool b)
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{
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m_bForceCenterFreq=b;
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}
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void SoundInThread::setForceCenterFreqMHz(double d)
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{
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m_dForceCenterFreq=d;
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}
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void SoundInThread::setNrx(int n) //setNrx()
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{
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m_nrx = n;
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}
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int SoundInThread::nrx()
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{
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return m_nrx;
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}
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int SoundInThread::mhsym()
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{
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return m_hsym;
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}
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//--------------------------------------------------------------- inputUDP()
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void SoundInThread::inputUDP()
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{
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udpSocket = new QUdpSocket();
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if(!udpSocket->bind(m_udpPort,QUdpSocket::ShareAddress) )
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{
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emit error(tr("UDP Socket bind failed."));
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return;
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}
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// Set this socket's total buffer space for received UDP packets
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int v=141600;
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::setsockopt(udpSocket->socketDescriptor(), SOL_SOCKET, SO_RCVBUF,
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(char *)&v, sizeof(v));
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bool qe = quitExecution;
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struct linradBuffer {
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double cfreq;
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int msec;
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float userfreq;
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int iptr;
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quint16 iblk;
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qint8 nrx;
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char iusb;
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double d8[174];
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} b;
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int n60z=99;
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int k=0;
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int nsec;
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int n60;
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int nhsym0=0;
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int iz=174;
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int nBusy=0;
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// Main loop for input of UDP packets over the network:
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while (!qe) {
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qe = quitExecution;
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if (qe) break;
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if (!udpSocket->hasPendingDatagrams()) {
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msleep(2); // Sleep if no packet available
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} else {
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int nBytesRead = udpSocket->readDatagram((char *)&b,1416);
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if (nBytesRead != 1416) qDebug() << "UDP Read Error:" << nBytesRead;
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qint64 ms = QDateTime::currentMSecsSinceEpoch() % 86400000;
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nsec = ms/1000; // Time according to this computer
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n60 = nsec % 60;
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// Reset buffer pointer and symbol number at start of minute
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if(n60 < n60z) {
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k=0;
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nhsym0=0;
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}
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n60z=n60;
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if(m_monitoring) {
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m_nrx=b.nrx;
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if(m_nrx == +1) iz=348; //One RF channel, i*2 data
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if(m_nrx == -1 or m_nrx == +2) iz=174; //One Rf channel, r*4 data
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// or 2 RF channels, i*2 data
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if(m_nrx == -2) iz=87; // Two RF channels, r*4 data
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// If buffer will not overflow, move data into datcom_
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if ((k+iz) <= 60*96000) {
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int nsam=-1;
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recvpkt_(&nsam, &b.iblk, &b.nrx, &k, b.d8, b.d8, b.d8);
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if(m_bForceCenterFreq) {
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datcom_.fcenter=m_dForceCenterFreq;
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} else {
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datcom_.fcenter=b.cfreq + m_fAdd;
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}
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}
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m_hsym=(k-2048)*11025.0/(2048.0*m_rate);
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if(m_hsym != nhsym0) {
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if(m_dataSinkBusy) {
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nBusy++;
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} else {
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m_dataSinkBusy=true;
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emit readyForFFT(k); //Signal to compute new FFTs
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}
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nhsym0=m_hsym;
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}
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}
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}
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}
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delete udpSocket;
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}
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