mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-15 16:42:12 -05:00
4a32b0bef6
Some rigs either do not honour some CAT commands while transmitting or interpret them incorrectly. To deal with this a settings option to allow TX frequency changes while transmitting has been added with a default value of off. Any UI actions that directly or indirectly change the TX frequency are guarded according to this new option. As well as this band changes and use of the +2kHz check box are disabled and guarded respectively in transmit mode. Mode changes via the menu are now disabled while transmitting. When TX frequency changes are allowed; frequency changes are correctly implemented while in tune mode. Double clicking decodes while transmitting now correctly regenerate and change the message sent on the fly. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@4349 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
297 lines
8.6 KiB
C++
297 lines
8.6 KiB
C++
#include "Modulator.hpp"
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#include <limits>
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#include <qmath.h>
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#include <QDateTime>
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#include <QDebug>
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#include "mainwindow.h"
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#include "moc_Modulator.cpp"
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extern float gran(); // Noise generator (for tests only)
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#define RAMP_INCREMENT 64 // MUST be an integral factor of 2^16
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#if defined (WSJT_SOFT_KEYING)
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# define SOFT_KEYING WSJT_SOFT_KEYING
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#else
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# define SOFT_KEYING 1
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#endif
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double const Modulator::m_twoPi = 2.0 * 3.141592653589793238462;
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// float wpm=20.0;
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// unsigned m_nspd=1.2*48000.0/wpm;
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// m_nspd=3072; //18.75 WPM
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unsigned const Modulator::m_nspd = 2048 + 512; // 22.5 WPM
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Modulator::Modulator (unsigned frameRate, unsigned periodLengthInSeconds, QObject * parent)
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: AudioDevice {parent}
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, m_stream {nullptr}
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, m_quickClose {false}
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, m_phi {0.0}
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, m_toneSpacing {0.0}
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, m_fSpread {0.0}
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, m_frameRate {frameRate}
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, m_period {periodLengthInSeconds}
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, m_state {Idle}
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, m_tuning {false}
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, m_cwLevel {false}
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{
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qsrand (QDateTime::currentMSecsSinceEpoch()); // Initialize random
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// seed
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}
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void Modulator::start (unsigned symbolsLength, double framesPerSymbol, unsigned frequency, double toneSpacing, SoundOutput * stream, Channel channel, bool synchronize, double dBSNR)
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{
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Q_ASSERT (stream);
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// Time according to this computer which becomes our base time
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qint64 ms0 = QDateTime::currentMSecsSinceEpoch() % 86400000;
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// qDebug () << "Modulator: Using soft keying for CW is " << SOFT_KEYING;;
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if (m_state != Idle)
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{
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stop ();
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}
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m_quickClose = false;
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m_symbolsLength = symbolsLength;
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m_isym0 = std::numeric_limits<unsigned>::max (); // Arbitrary big
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// number
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m_frequency0 = 0.;
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m_addNoise = dBSNR < 0.;
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m_nsps = framesPerSymbol;
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m_frequency = frequency;
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m_amp = std::numeric_limits<qint16>::max ();
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m_toneSpacing = toneSpacing;
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// noise generator parameters
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if (m_addNoise) {
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m_snr = qPow (10.0, 0.05 * (dBSNR - 6.0));
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m_fac = 3000.0;
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if (m_snr > 1.0) m_fac = 3000.0 / m_snr;
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}
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unsigned mstr = ms0 % (1000 * m_period); // ms in period
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m_ic = (mstr / 1000) * m_frameRate; // we start exactly N seconds
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// into period where N is the next whole second
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m_silentFrames = 0;
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// calculate number of silent frames to send
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if (synchronize && !m_tuning) {
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m_silentFrames = m_ic + m_frameRate - (mstr * m_frameRate / 1000);
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}
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// qDebug () << "Modulator: starting at " << m_ic / m_frameRate << " sec, sending " << m_silentFrames << " silent frames";
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initialize (QIODevice::ReadOnly, channel);
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Q_EMIT stateChanged ((m_state = (synchronize && m_silentFrames) ?
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Synchronizing : Active));
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m_stream = stream;
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if (m_stream)
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{
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m_stream->restart (this);
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}
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}
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void Modulator::tune (bool newState)
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{
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m_tuning = newState;
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if (!m_tuning)
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{
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stop (true);
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}
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}
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void Modulator::stop (bool quick)
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{
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m_quickClose = quick;
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close ();
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}
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void Modulator::close ()
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{
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if (m_stream)
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{
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if (m_quickClose)
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{
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m_stream->reset ();
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}
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else
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{
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m_stream->stop ();
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}
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}
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if (m_state != Idle)
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{
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Q_EMIT stateChanged ((m_state = Idle));
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}
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AudioDevice::close ();
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}
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qint64 Modulator::readData (char * data, qint64 maxSize)
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{
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static int j0=-1;
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static double toneFrequency0;
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double toneFrequency;
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if(maxSize==0) return 0;
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Q_ASSERT (!(maxSize % qint64 (bytesPerFrame ()))); // no torn frames
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Q_ASSERT (isOpen ());
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qint64 numFrames (maxSize / bytesPerFrame ());
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qint16 * samples (reinterpret_cast<qint16 *> (data));
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qint16 * end (samples + numFrames * (bytesPerFrame () / sizeof (qint16)));
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qint64 framesGenerated (0);
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// qDebug () << "Modulator: " << numFrames << " requested, m_ic = " << m_ic << ", tune mode is " << m_tuning;
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// qDebug() << "C" << maxSize << numFrames << bytesPerFrame();
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switch (m_state)
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{
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case Synchronizing:
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{
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if (m_silentFrames) { // send silence up to first second
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framesGenerated = qMin (m_silentFrames, numFrames);
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for ( ; samples != end; samples = load (0, samples)) { // silence
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}
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m_silentFrames -= framesGenerated;
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return framesGenerated * bytesPerFrame ();
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}
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Q_EMIT stateChanged ((m_state = Active));
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m_cwLevel = false;
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m_ramp = 0; // prepare for CW wave shaping
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}
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// fall through
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case Active:
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{
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unsigned isym (m_tuning ? 0 : m_ic / (4.0 * m_nsps)); // Actual fsample=48000
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if (isym >= m_symbolsLength && icw[0] > 0) { // start CW condition
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// Output the CW ID
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m_dphi = m_twoPi * m_frequency / m_frameRate;
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unsigned const ic0 = m_symbolsLength * 4 * m_nsps;
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unsigned j (0);
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while (samples != end) {
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j = (m_ic - ic0) / m_nspd + 1; // symbol of this sample
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bool level {bool (icw[j])};
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m_phi += m_dphi;
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if (m_phi > m_twoPi) m_phi -= m_twoPi;
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qint16 sample ((SOFT_KEYING ? qAbs (m_ramp - 1) :
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(m_ramp ? 32767 : 0)) * qSin (m_phi));
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if (int (j) <= icw[0] && j < NUM_CW_SYMBOLS) // stop condition
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{
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samples = load (postProcessSample (sample), samples);
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++framesGenerated;
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++m_ic;
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}
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else
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{
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Q_EMIT stateChanged ((m_state = Idle));
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return framesGenerated * bytesPerFrame ();
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}
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// adjust ramp
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if ((m_ramp != 0 && m_ramp != std::numeric_limits<qint16>::min ()) || level != m_cwLevel)
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{
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// either ramp has terminated at max/min or direction
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// has changed
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m_ramp += RAMP_INCREMENT; // ramp
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}
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// if (m_cwLevel != level)
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// {
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// qDebug () << "@m_ic:" << m_ic << "icw[" << j << "] =" << icw[j] << "@" << framesGenerated << "in numFrames:" << numFrames;
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// }
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m_cwLevel = level;
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}
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return framesGenerated * bytesPerFrame ();
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}
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double const baud (12000.0 / m_nsps);
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// fade out parameters (no fade out for tuning)
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unsigned const i0 = m_tuning ? 999 * m_nsps :
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(m_symbolsLength - 0.017) * 4.0 * m_nsps;
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unsigned const i1 = m_tuning ? 999 * m_nsps :
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m_symbolsLength * 4.0 * m_nsps;
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for (unsigned i = 0; i < numFrames && m_ic <= i1; ++i) {
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isym = m_tuning ? 0 : m_ic / (4.0 * m_nsps); //Actual fsample=48000
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if (isym != m_isym0 || m_frequency != m_frequency0) {
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// qDebug () << "@m_ic:" << m_ic << "itone[" << isym << "] =" << itone[isym] << "@" << i << "in numFrames:" << numFrames;
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if(m_toneSpacing==0.0) {
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toneFrequency0=m_frequency + itone[isym]*baud;
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} else {
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toneFrequency0=m_frequency + itone[isym]*m_toneSpacing;
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}
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m_dphi = m_twoPi * toneFrequency0 / m_frameRate;
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m_isym0 = isym;
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m_frequency0 = m_frequency;
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}
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int j=m_ic/480;
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if(m_fSpread>0.0 and j!=j0) {
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float x1=(float)rand()/RAND_MAX;
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float x2=(float)rand()/RAND_MAX;
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toneFrequency = toneFrequency0 + 0.5*m_fSpread*(x1+x2-1.0);
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m_dphi = m_twoPi * toneFrequency / m_frameRate;
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j0=j;
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}
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m_phi += m_dphi;
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if (m_phi > m_twoPi) m_phi -= m_twoPi;
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if (m_ic > i0) m_amp = 0.98 * m_amp;
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if (m_ic > i1) m_amp = 0.0;
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samples = load (postProcessSample (m_amp * qSin (m_phi)), samples);
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++framesGenerated;
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++m_ic;
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}
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if (m_amp == 0.0) { // TODO G4WJS: compare double with zero might not be wise
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if (icw[0] == 0) {
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// no CW ID to send
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Q_EMIT stateChanged ((m_state = Idle));
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return framesGenerated * bytesPerFrame ();
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}
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m_phi = 0.0;
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}
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// done for this chunk - continue on next call
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return framesGenerated * bytesPerFrame ();
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}
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// fall through
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case Idle:
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break;
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}
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Q_ASSERT (Idle == m_state);
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return 0;
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}
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qint16 Modulator::postProcessSample (qint16 sample) const
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{
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if (m_addNoise) { // Test frame, we'll add noise
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qint32 s = m_fac * (gran () + sample * m_snr / 32768.0);
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if (s > std::numeric_limits<qint16>::max ()) {
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s = std::numeric_limits<qint16>::max ();
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}
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if (s < std::numeric_limits<qint16>::min ()) {
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s = std::numeric_limits<qint16>::min ();
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}
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sample = s;
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}
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return sample;
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}
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