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WSJT-X
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WSJT-X/Modulator.cpp

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#include "Modulator.hpp"
#include <limits>
#include <qmath.h>
#include <QDateTime>
#include <QDebug>
#include "mainwindow.h"
extern float gran(); // Noise generator (for tests only)
double const Modulator::m_twoPi = 2.0 * 3.141592653589793238462;
// float wpm=20.0;
// unsigned m_nspd=1.2*48000.0/wpm;
// m_nspd=3072; //18.75 WPM
unsigned const Modulator::m_nspd = 2048 + 512; // 22.5 WPM
Modulator::Modulator (unsigned frameRate, unsigned periodLengthInSeconds, QObject * parent)
: QIODevice (parent)
, m_frameRate (frameRate)
, m_period (periodLengthInSeconds)
, m_framesSent (0)
, m_state (Idle)
, m_tuning (false)
, m_muted (false)
, m_phi (0.)
{
qsrand (QDateTime::currentMSecsSinceEpoch()); // Initialize random seed
}
void Modulator::send (unsigned symbolsLength, double framesPerSymbol, unsigned frequency, bool synchronize, double dBSNR)
{
// Time according to this computer which becomes our base time
qint64 ms0 = QDateTime::currentMSecsSinceEpoch() % 86400000;
m_symbolsLength = symbolsLength;
m_framesSent = 0;
m_isym0 = std::numeric_limits<unsigned>::max (); // ensure we set up first symbol tone
m_addNoise = dBSNR < 0.;
m_nsps = framesPerSymbol;
m_frequency = frequency;
m_amp = std::numeric_limits<qint16>::max ();
// noise generator parameters
if (m_addNoise)
{
m_snr = qPow (10.0, 0.05 * (dBSNR - 6.0));
m_fac = 3000.0;
if (m_snr > 1.0)
{
m_fac = 3000.0 / m_snr;
}
}
unsigned mstr = ms0 % (1000 * m_period); // ms in period
m_ic = (mstr / 1000) * m_frameRate; // we start exactly N seconds
// into period where N is the
// next whole second
m_silentFrames = 0;
if (synchronize && !m_tuning) // calculate number of silent frames to send
{
m_silentFrames = m_ic + m_frameRate - (mstr * m_frameRate / 1000);
}
// qDebug () << "Modulator: starting at " << m_ic / m_frameRate << " sec, sending " << m_silentFrames << " silent frames";
Q_EMIT stateChanged ((m_state = (synchronize && m_silentFrames) ? Synchronizing : Active));
}
qint64 Modulator::readData (char * data, qint64 maxSize)
{
Q_ASSERT (!(maxSize % static_cast<qint64> (sizeof (frame_t)))); // no torn frames
Q_ASSERT (!(reinterpret_cast<size_t> (data) % __alignof__ (frame_t))); // data is aligned as frame_t would be
frame_t * frames (reinterpret_cast<frame_t *> (data));
qint64 numFrames (maxSize / sizeof (frame_t));
// qDebug () << "Modulator: " << numFrames << " requested, m_ic = " << m_ic << ", tune mode is " << m_tuning;
switch (m_state)
{
case Synchronizing:
{
if (m_silentFrames) // send silence up to first second
{
frame_t frame;
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = 0; // silence
}
numFrames = qMin (m_silentFrames, numFrames);
qFill (frames, frames + numFrames, frame);
m_silentFrames -= numFrames;
return numFrames * sizeof (frame_t);
}
Q_EMIT stateChanged ((m_state = Active));
}
// fall through
case Active:
{
unsigned isym (m_tuning ? 0 : m_ic / (4.0 * m_nsps)); // Actual fsample=48000
if (isym >= m_symbolsLength && icw[0] > 0) // start CW condition
{
// Output the CW ID
m_dphi = m_twoPi * m_frequency / m_frameRate;
unsigned const ic0 = m_symbolsLength * 4 * m_nsps;
unsigned j (0);
qint64 framesGenerated (0);
for (unsigned i = 0; i < numFrames; ++i)
{
m_phi += m_dphi;
if (m_phi > m_twoPi)
{
m_phi -= m_twoPi;
}
frame_t frame;
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = std::numeric_limits<qint16>::max () * qSin (m_phi);
}
j = (m_ic - ic0) / m_nspd + 1;
if (j < NUM_CW_SYMBOLS) // stop condition
{
if (!icw[j])
{
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = 0;
}
}
frame = postProcessFrame (frame);
*frames++ = frame;
++framesGenerated;
++m_ic;
}
}
if (j > static_cast<unsigned> (icw[0]))
{
Q_EMIT stateChanged ((m_state = Idle));
}
m_framesSent += framesGenerated;
return framesGenerated * sizeof (frame_t);
}
double const baud (12000.0 / m_nsps);
// fade out parameters (no fade out for tuning)
unsigned const i0 = m_tuning ? 999 * m_nsps : (m_symbolsLength - 0.017) * 4.0 * m_nsps;
unsigned const i1 = m_tuning ? 999 * m_nsps : m_symbolsLength * 4.0 * m_nsps;
for (unsigned i = 0; i < numFrames; ++i)
{
isym = m_tuning ? 0 : m_ic / (4.0 * m_nsps); //Actual fsample=48000
if (isym != m_isym0)
{
double toneFrequency = m_frequency + itone[isym] * baud;
m_dphi = m_twoPi * toneFrequency / m_frameRate;
m_isym0 = isym;
}
m_phi += m_dphi;
if (m_phi > m_twoPi)
{
m_phi -= m_twoPi;
}
if (m_ic > i0)
{
m_amp = 0.98 * m_amp;
}
if (m_ic > i1)
{
m_amp = 0.0;
}
frame_t frame;
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = m_amp * qSin (m_phi);
}
frame = postProcessFrame (frame);
*frames++ = frame;
++m_ic;
}
if (m_amp == 0.0) // TODO G4WJS: compare double with zero might not be wise
{
if (icw[0] == 0)
{
// no CW ID to send
Q_EMIT stateChanged ((m_state = Idle));
m_framesSent += numFrames;
return numFrames * sizeof (frame_t);
}
m_phi = 0.0;
}
// done for this chunk - continue on next call
m_framesSent += numFrames;
return numFrames * sizeof (frame_t);
}
Q_EMIT stateChanged ((m_state = Idle));
// fall through
case Idle:
break;
}
Q_ASSERT (Idle == m_state);
return 0;
}
Modulator::frame_t Modulator::postProcessFrame (frame_t frame) const
{
if (m_muted) // silent frame
{
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = 0;
}
}
else if (m_addNoise)
{
qint32 f[NUM_CHANNELS];
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
f[c] = m_fac * (gran () + frame.channel[c] * m_snr / 32768.0);
if (f[c] > std::numeric_limits<qint16>::max ())
{
f[c] = std::numeric_limits<qint16>::max ();
}
if (f[c] < std::numeric_limits<qint16>::min ())
{
f[c] = std::numeric_limits<qint16>::min ();
}
}
for (unsigned c = 0; c < NUM_CHANNELS; ++c)
{
frame.channel[c] = f[c];
}
}
return frame;
}
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