Qt 5 Audio replaces PortAudio.

Currently only Qt5 or above is known to work with this code. It may be
possible to backport it to Qt4 if required.

Audio output goes back to a separate thread to try and minimize
stutters in streaming on Windows particularly.

A crash on Linux due to mishandling of stereo audio output has been
fixed and both left and right channels are now correctly synthesised
with identical contents.

Rigs are enumerated directly from hamlib API rather than running a sub
process reading output of rigctl -l. This was initially done to get
rid of some GUI thread blocking in the configuration dialog, but is
generally a better way of doing it anyway.

Some refactoring in MainWindow to accomodate the audio streaming,
modulation and detecting classes.

Exit handling for application refactored to use signals rather than
brute force event loop exit. This was required to get correct thread
shutdown semantics.

The GUI update timer is now stopped during application shutdown which
is necessary to stop crashes when shutting down gracefully with
signals and window close() calls.

There is an outstanding issue with Linux audio streams; the QAudio
Input/Output classes create a new stream name each time a stream is
started. This doesn't play well with PulseAudio utilities such as
pavucontrol to set stream volume as settings are lost every tx
period. I have tried to keep a single stream for all output but there
are problems restarting it that haven't been resolved yet.

The QtCreator project file has been rearranged a little because it
passes all the object files to the linker rather than using an archive
library. Since the GNU linker is single pass; the object files need to
be in a logical order with definitions appearing afer references to
them. This was required to avoid a linking error.

The lib/Makefile.linux has been enhanced to use the fortran compiler
to locate the correct version of the Fortran library to use. This is
necessary on the latest Linux distros because the unversioned symlink
to compiler support libraries is no longer provided. This only an
issue with mixed programming language links where the linker driver
for one language has to link support libraraies for another language.


git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@3532 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
Bill Somerville 2013-08-07 23:09:13 +00:00
parent e89164fce5
commit e602def8b1
15 changed files with 752 additions and 597 deletions

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@ -1,93 +1,95 @@
#include "Detector.hpp"
#include <algorithm>
#include <QDateTime>
#include <QDebug>
#include "commons.h"
Detector::Detector (unsigned frameRate, unsigned periodLengthInSeconds, unsigned bytesPerSignal, QObject * parent)
: QIODevice (parent)
, m_frameRate (frameRate)
, m_period (periodLengthInSeconds)
, m_bytesPerSignal (bytesPerSignal)
, m_monitoring (false)
, m_starting (false)
{
clear ();
}
bool Detector::reset ()
{
clear ();
return QIODevice::reset ();
}
void Detector::clear ()
{
// set index to roughly where we are in time (1s resolution)
jt9com_.kin = secondInPeriod () * m_frameRate;
// fill buffer with zeros
std::fill (jt9com_.d2, jt9com_.d2 + sizeof (jt9com_.d2) / sizeof (jt9com_.d2[0]), 0);
}
qint64 Detector::writeData (char const * data, qint64 maxSize)
{
Q_ASSERT (!(maxSize % sizeof (jt9com_.d2[0]))); // no torn frames
Q_ASSERT (!(reinterpret_cast<size_t> (data) % __alignof__ (frame_t))); // data is aligned as frame_t would be
frame_t const * frames (reinterpret_cast<frame_t const *> (data));
qint64 framesAcceptable (sizeof (jt9com_.d2) / sizeof (jt9com_.d2[0]) - jt9com_.kin);
qint64 framesAccepted (std::min (maxSize / sizeof (jt9com_.d2[0]), framesAcceptable));
if (framesAccepted < maxSize / sizeof (jt9com_.d2[0]))
{
qDebug () << "dropped " << maxSize / sizeof (jt9com_.d2[0]) - framesAccepted << " frames of data on the floor!\n";
}
std::copy (frames, frames + framesAccepted, &jt9com_.d2[jt9com_.kin]);
unsigned lastSignalIndex (jt9com_.kin * sizeof (jt9com_.d2[0]) / m_bytesPerSignal);
jt9com_.kin += framesAccepted;
unsigned currentSignalIndex (jt9com_.kin * sizeof (jt9com_.d2[0]) / m_bytesPerSignal);
if (currentSignalIndex != lastSignalIndex && m_monitoring)
{
Q_EMIT bytesWritten (currentSignalIndex * m_bytesPerSignal);
}
if (!secondInPeriod ())
{
if (!m_starting)
{
// next samples will be in new period so wrap around to
// start of buffer
//
// we don't bother calling reset () since we expect to fill
// the whole buffer and don't need to waste cycles zeroing
jt9com_.kin = 0;
m_starting = true;
}
}
else if (m_starting)
{
m_starting = false;
}
return maxSize; // we drop any data past the end of
// the buffer on the floor until the
// next period starts
}
unsigned Detector::secondInPeriod () const
{
// we take the time of the data as the following assuming no latency
// delivering it to us (not true but close enough for us)
qint64 now (QDateTime::currentMSecsSinceEpoch ());
unsigned secondInToday ((now % 86400000LL) / 1000);
return secondInToday % m_period;
}
#include "Detector.hpp"
#include <QDateTime>
#include <QtAlgorithms>
#include <QDebug>
#include "commons.h"
Detector::Detector (unsigned frameRate, unsigned periodLengthInSeconds, unsigned bytesPerSignal, QObject * parent)
: QIODevice (parent)
, m_frameRate (frameRate)
, m_period (periodLengthInSeconds)
, m_bytesPerSignal (bytesPerSignal)
, m_monitoring (false)
, m_starting (false)
{
clear ();
}
bool Detector::reset ()
{
clear ();
return QIODevice::reset ();
}
void Detector::clear ()
{
// set index to roughly where we are in time (1ms resolution)
// qint64 now (QDateTime::currentMSecsSinceEpoch ());
// unsigned msInPeriod ((now % 86400000LL) % (m_period * 1000));
// jt9com_.kin = qMin ((msInPeriod * m_frameRate) / 1000, static_cast<unsigned> (sizeof (jt9com_.d2) / sizeof (jt9com_.d2[0])));
jt9com_.kin = 0;
// fill buffer with zeros
qFill (jt9com_.d2, jt9com_.d2 + sizeof (jt9com_.d2) / sizeof (jt9com_.d2[0]), 0);
}
qint64 Detector::writeData (char const * 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 const * frames (reinterpret_cast<frame_t const *> (data));
qint64 framesAcceptable (sizeof (jt9com_.d2) / sizeof (jt9com_.d2[0]) - jt9com_.kin);
qint64 framesAccepted (qMin (static_cast<qint64> (maxSize / sizeof (jt9com_.d2[0])), framesAcceptable));
if (framesAccepted < static_cast<qint64> (maxSize / sizeof (jt9com_.d2[0])))
{
qDebug () << "dropped " << maxSize / sizeof (jt9com_.d2[0]) - framesAccepted << " frames of data on the floor!";
}
qCopy (frames, frames + framesAccepted, &jt9com_.d2[jt9com_.kin]);
unsigned lastSignalIndex (jt9com_.kin * sizeof (jt9com_.d2[0]) / m_bytesPerSignal);
jt9com_.kin += framesAccepted;
unsigned currentSignalIndex (jt9com_.kin * sizeof (jt9com_.d2[0]) / m_bytesPerSignal);
if (currentSignalIndex != lastSignalIndex && m_monitoring)
{
Q_EMIT bytesWritten (currentSignalIndex * m_bytesPerSignal);
}
if (!secondInPeriod ())
{
if (!m_starting)
{
// next samples will be in new period so wrap around to
// start of buffer
//
// we don't bother calling reset () since we expect to fill
// the whole buffer and don't need to waste cycles zeroing
jt9com_.kin = 0;
m_starting = true;
}
}
else if (m_starting)
{
m_starting = false;
}
return maxSize; // we drop any data past the end of
// the buffer on the floor until the
// next period starts
}
unsigned Detector::secondInPeriod () const
{
// we take the time of the data as the following assuming no latency
// delivering it to us (not true but close enough for us)
qint64 now (QDateTime::currentMSecsSinceEpoch ());
unsigned secondInToday ((now % 86400000LL) / 1000);
return secondInToday % m_period;
}

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@ -1,67 +1,67 @@
#ifndef DETECTOR_HPP__
#define DETECTOR_HPP__
#include <inttypes.h>
#include <QIODevice>
//
// output device that distributes data in predefined chunks via a signal
//
// the underlying device for this abstraction is just the buffer that
// stores samples throughout a receiving period
//
class Detector : public QIODevice
{
Q_OBJECT;
Q_PROPERTY (bool monitoring READ isMonitoring WRITE setMonitoring);
private:
Q_DISABLE_COPY (Detector);
public:
//
// if the data buffer were not global storage and fixed size then we
// might want maximum size passed as constructor arguments
//
Detector (unsigned frameRate, unsigned periodLengthInSeconds, unsigned bytesPerSignal, QObject * parent = 0);
bool open ()
{
// we only support data consumption and want it as fast as possible
return QIODevice::open (QIODevice::WriteOnly | QIODevice::Unbuffered);
}
bool isSequential () const
{
return true;
}
bool isMonitoring () const {return m_monitoring;}
void setMonitoring (bool newState) {m_monitoring = newState;}
bool reset ();
protected:
qint64 readData (char * /* data */, qint64 /* maxSize */)
{
return -1; // we don't produce data
}
qint64 writeData (char const * data, qint64 maxSize);
private:
typedef int16_t frame_t;
void clear (); // discard buffer contents
unsigned secondInPeriod () const;
unsigned m_frameRate;
unsigned m_period;
unsigned m_bytesPerSignal;
bool m_monitoring;
bool m_starting;
};
#endif
#ifndef DETECTOR_HPP__
#define DETECTOR_HPP__
#include <stdint.h>
#include <QIODevice>
//
// output device that distributes data in predefined chunks via a signal
//
// the underlying device for this abstraction is just the buffer that
// stores samples throughout a receiving period
//
class Detector : public QIODevice
{
Q_OBJECT;
Q_PROPERTY (bool monitoring READ isMonitoring WRITE setMonitoring);
private:
Q_DISABLE_COPY (Detector);
public:
//
// if the data buffer were not global storage and fixed size then we
// might want maximum size passed as constructor arguments
//
Detector (unsigned frameRate, unsigned periodLengthInSeconds, unsigned bytesPerSignal, QObject * parent = 0);
bool open ()
{
// we only support data consumption and want it as fast as possible
return QIODevice::open (QIODevice::WriteOnly | QIODevice::Unbuffered);
}
bool isSequential () const
{
return true;
}
bool isMonitoring () const {return m_monitoring;}
void setMonitoring (bool newState) {m_monitoring = newState;}
bool reset ();
protected:
qint64 readData (char * /* data */, qint64 /* maxSize */)
{
return -1; // we don't produce data
}
qint64 writeData (char const * data, qint64 maxSize);
private:
typedef qint16 frame_t;
void clear (); // discard buffer contents
unsigned secondInPeriod () const;
unsigned m_frameRate;
unsigned m_period;
unsigned m_bytesPerSignal;
bool m_monitoring;
bool m_starting;
};
#endif

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@ -1,195 +1,262 @@
#include "Modulator.hpp"
#include <cstdlib>
#include <cmath>
#include <algorithm>
#include <limits>
#include <QDateTime>
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_state (Idle)
, m_phi (0.)
, m_ic (0)
, m_isym0 (std::numeric_limits<unsigned>::max ()) // ensure we set up first symbol tone
{
}
bool Modulator::open (std::vector<int> const * symbols, std::vector<int> const * cw, double framesPerSymbol, unsigned frequency, double dBSNR)
{
m_symbols.reset (symbols); // take over ownership (cannot throw)
m_cw.reset (cw); // take over ownership (cannot throw)
m_addNoise = dBSNR < 0.;
m_nsps = framesPerSymbol;
m_frequency = frequency;
m_amp = std::numeric_limits<frame_t>::max ();
m_state = Idle;
// noise generator parameters
if (m_addNoise)
{
m_snr = std::pow (10.0, 0.05 * (dBSNR - 6.0));
m_fac = 3000.0;
if (m_snr > 1.0)
{
m_fac = 3000.0 / m_snr;
}
}
return QIODevice::open (QIODevice::ReadOnly);
}
qint64 Modulator::readData (char * data, qint64 maxSize)
{
frame_t * frames (reinterpret_cast<frame_t *> (data));
unsigned numFrames (maxSize / sizeof (frame_t));
switch (m_state)
{
case Idle:
{
// Time according to this computer
qint64 ms = QDateTime::currentMSecsSinceEpoch() % 86400000;
unsigned mstr = ms % (1000 * m_period);
if (mstr < 1000) // send silence up to first second
{
std::fill (frames, frames + numFrames, 0); // silence
return numFrames * sizeof (frame_t);
}
m_ic = (mstr - 1000) * 48;
std::srand (mstr); // Initialize random seed
m_state = Active;
}
// fall through
case Active:
{
unsigned isym (m_tuning ? 0 : m_ic / (4.0 * m_nsps)); // Actual fsample=48000
if (isym >= m_symbols->size () && (*m_cw)[0] > 0)
{
// Output the CW ID
m_dphi = m_twoPi * m_frequency / m_frameRate;
unsigned const ic0 = m_symbols->size () * 4 * m_nsps;
unsigned j (0);
for (unsigned i = 0; i < numFrames; ++i)
{
m_phi += m_dphi;
if (m_phi > m_twoPi)
{
m_phi -= m_twoPi;
}
frame_t frame = std::numeric_limits<frame_t>::max () * std::sin (m_phi);
j = (m_ic - ic0) / m_nspd + 1;
if (!(*m_cw)[j])
{
frame = 0;
}
frame = postProcessFrame (frame);
*frames++ = frame; //left
++m_ic;
}
if (j > static_cast<unsigned> ((*m_cw)[0]))
{
m_state = Done;
}
return numFrames * 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_symbols->size () - 0.017) * 4.0 * m_nsps;
unsigned const i1 = m_tuning ? 999 * m_nsps : m_symbols->size () * 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 + (*m_symbols)[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 (m_amp * std::sin (m_phi));
frame = postProcessFrame (frame);
*frames++ = frame; //left
++m_ic;
}
if (m_amp == 0.0) // TODO G4WJS: compare double with zero might not be wise
{
if ((*m_cw)[0] == 0)
{
// no CW ID to send
m_state = Done;
return numFrames * sizeof (frame_t);
}
m_phi = 0.0;
}
// done for this chunk - continue on next call
return numFrames * sizeof (frame_t);
}
case Done:
break;
}
Q_ASSERT (m_state == Done);
return 0;
}
Modulator::frame_t Modulator::postProcessFrame (frame_t frame) const
{
if (m_muted) // silent frame
{
return 0;
}
if (m_addNoise)
{
int i4 = m_fac * (gran () + frame * m_snr / 32768.0);
if (i4 > std::numeric_limits<frame_t>::max ())
{
i4 = std::numeric_limits<frame_t>::max ();
}
if (i4 < std::numeric_limits<frame_t>::min ())
{
i4 = std::numeric_limits<frame_t>::min ();
}
frame = i4;
}
return frame;
}
#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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@ -1,10 +1,13 @@
#ifndef MODULATOR_HPP__
#define MODULATOR_HPP__
#include <vector>
#include <QIODevice>
#include <QScopedPointer>
#ifdef UNIX
# define NUM_CHANNELS 2
#else
# define NUM_CHANNELS 1
#endif
//
// Input device that generates PCM audio frames that encode a message
@ -27,6 +30,12 @@ private:
public:
Modulator (unsigned frameRate, unsigned periodLengthInSeconds, QObject * parent = 0);
bool open () {return QIODevice::open (QIODevice::ReadOnly | QIODevice::Unbuffered);}
Q_SLOT void send (unsigned symbolsLength, double framesPerSymbol, unsigned frequency, bool synchronize = true, double dBSNR = 99.);
Q_SLOT void stop () {Q_EMIT stateChanged ((m_state = Idle));}
bool isTuning () const {return m_tuning;}
Q_SLOT void tune (bool newState = true) {m_tuning = newState;}
@ -36,12 +45,11 @@ public:
unsigned frequency () const {return m_frequency;}
Q_SLOT void setFrequency (unsigned newFrequency) {m_frequency = newFrequency;}
bool open (std::vector<int> const * symbols, std::vector<int> const * cw, double framesPerSymbol, unsigned frequency, double dBSNR = 99.);
enum ModulatorState {Synchronizing, Active, Idle};
Q_SIGNAL void stateChanged (ModulatorState);
bool isActive () const {return m_state != Idle;}
bool isSequential () const
{
return true;
}
bool isSequential () const {return true;}
protected:
qint64 readData (char * data, qint64 maxSize);
@ -51,12 +59,14 @@ protected:
}
private:
typedef short frame_t;
typedef struct
{
qint16 channel[NUM_CHANNELS];
} frame_t;
frame_t postProcessFrame (frame_t frame) const;
QScopedPointer<std::vector<int> const> m_symbols;
QScopedPointer<std::vector<int> const> m_cw;
unsigned m_symbolsLength;
static double const m_twoPi;
static unsigned const m_nspd; // CW ID WPM factor
@ -64,11 +74,13 @@ private:
int m_frameRate;
int m_period;
double m_nsps;
double m_frequency;
double volatile m_frequency;
double m_snr;
enum {Idle, Active, Done} m_state;
bool m_tuning;
bool m_muted;
qint64 m_silentFrames;
qint64 m_framesSent;
ModulatorState volatile m_state;
bool volatile m_tuning;
bool volatile m_muted;
bool m_addNoise;
double m_phi;
double m_dphi;

View File

@ -1,8 +1,10 @@
#include "devsetup.h"
#include <QDebug>
#include <QSettings>
#include <QAudioDeviceInfo>
#include <QAudioInput>
#include <QMap>
#define MAXDEVICES 100
@ -40,7 +42,7 @@ void DevSetup::initDlg()
settings.endGroup();
//
// loaad combo boxes with setup choices
// load combo boxes with setup choices
//
{
int currentIndex = -1;
@ -78,16 +80,7 @@ void DevSetup::initDlg()
ui.comboBoxSndOut->setCurrentIndex (currentIndex != -1 ? currentIndex : defaultIndex);
}
connect(&p4, SIGNAL(readyReadStandardOutput()),
this, SLOT(p4ReadFromStdout()));
connect(&p4, SIGNAL(readyReadStandardError()),
this, SLOT(p4ReadFromStderr()));
connect(&p4, SIGNAL(error(QProcess::ProcessError)),
this, SLOT(p4Error()));
p4.start("rigctl -l");
p4.waitForFinished(1000);
ui.rigComboBox->addItem(" 9998 Commander");
ui.rigComboBox->addItem(" 9999 Ham Radio Deluxe");
enumerateRigs ();
QPalette pal(ui.myCallEntry->palette());
if(m_myCall=="") {
@ -111,7 +104,6 @@ void DevSetup::initDlg()
enableWidgets();
ui.rigComboBox->setCurrentIndex(m_rigIndex);
ui.catPortComboBox->setCurrentIndex(m_catPortIndex);
ui.serialRateComboBox->setCurrentIndex(m_serialRateIndex);
ui.dataBitsComboBox->setCurrentIndex(m_dataBitsIndex);
@ -338,34 +330,6 @@ void DevSetup::reject()
QDialog::reject();
}
void DevSetup::p4ReadFromStdout() //p4readFromStdout
{
while(p4.canReadLine()) {
QString t(p4.readLine());
QString t1,t2,t3;
if(t.mid(0,6)!=" Rig #") {
t1=t.mid(0,6);
t2=t.mid(8,22).trimmed();
t3=t.mid(31,23).trimmed();
t=t1 + " " + t2 + " " + t3;
ui.rigComboBox->addItem(t);
}
}
}
void DevSetup::p4ReadFromStderr() //p4readFromStderr
{
QByteArray t=p4.readAllStandardError();
if(t.length()>0) {
msgBox(t);
}
}
void DevSetup::p4Error() //p4rror
{
msgBox("Error running 'rigctl -l'.");
}
void DevSetup::msgBox(QString t) //msgBox
{
msgBox0.setText(t);
@ -465,9 +429,7 @@ void DevSetup::on_stopBitsComboBox_activated(int index)
void DevSetup::on_rigComboBox_activated(int index)
{
m_rigIndex=index;
QString t=ui.rigComboBox->itemText(index);
m_rig=t.mid(0,7).toInt();
m_rig = ui.rigComboBox->itemData (index).toInt ();
enableWidgets();
}
@ -653,3 +615,36 @@ void DevSetup::on_cbXIT_toggled(bool checked)
m_bXIT=checked;
if(m_bSplit and m_bXIT) ui.cbSplit->setChecked(false);
}
typedef QMap<QString, int> RigList;
int rigCallback (rig_caps const * caps, void * cbData)
{
RigList * rigs = reinterpret_cast<RigList *> (cbData);
QString key (QString::fromLatin1 (caps->mfg_name).trimmed ()
+ ' '+ QString::fromLatin1 (caps->model_name).trimmed ()
// + ' '+ QString::fromLatin1 (caps->version).trimmed ()
// + " (" + QString::fromLatin1 (rig_strstatus (caps->status)).trimmed () + ')'
);
(*rigs)[key] = caps->rig_model;
return 1; // keep them coming
}
void DevSetup::enumerateRigs ()
{
RigList rigs;
rig_load_all_backends ();
rig_list_foreach (rigCallback, &rigs);
for (RigList::const_iterator r = rigs.cbegin (); r != rigs.cend (); ++r)
{
ui.rigComboBox->addItem (r.key (), r.value ());
}
ui.rigComboBox->addItem ("DX Lab Suite Commander", 9998);
ui.rigComboBox->addItem ("Ham Radio Deluxe", 9999);
ui.rigComboBox->setCurrentIndex (ui.rigComboBox->findData (m_rig));
}

View File

@ -8,8 +8,12 @@
#include <QMessageBox>
#include <QAudioDeviceInfo>
#include <hamlib/rig.h>
#include "rigclass.h"
int rigCallback (rig_caps const *, void *);
class DevSetup : public QDialog
{
Q_OBJECT
@ -67,15 +71,11 @@ public:
QStringList m_antDescription; // per band antenna description
QStringList m_bandDescription; // per band description
QProcess p4;
QMessageBox msgBox0;
public slots:
void accept();
void reject();
void p4ReadFromStdout();
void p4ReadFromStderr();
void p4Error();
private slots:
void on_myCallEntry_editingFinished();
@ -105,12 +105,15 @@ private slots:
void on_cbXIT_toggled(bool checked);
private:
void enumerateRigs ();
Rig* rig;
void msgBox(QString t);
void setEnableAntennaDescriptions(bool enable);
void enableWidgets();
void openRig();
Ui::DialogSndCard ui;
friend int rigCallback (rig_caps const *, void *);
};
extern int ptt(int nport, int ntx, int* iptt, int* nopen);

View File

@ -6,14 +6,14 @@
<rect>
<x>0</x>
<y>0</y>
<width>570</width>
<height>465</height>
<width>571</width>
<height>440</height>
</rect>
</property>
<property name="maximumSize">
<size>
<width>588</width>
<height>557</height>
<height>522</height>
</size>
</property>
<property name="sizeIncrement">
@ -1136,51 +1136,6 @@
</property>
</spacer>
</item>
<item>
<layout class="QHBoxLayout" name="horizontalLayout_13">
<item>
<spacer name="horizontalSpacer_15">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
<property name="sizeType">
<enum>QSizePolicy::Fixed</enum>
</property>
<property name="sizeHint" stdset="0">
<size>
<width>96</width>
<height>20</height>
</size>
</property>
</spacer>
</item>
<item>
<widget class="QLabel" name="label_26">
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Preferred">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
<property name="minimumSize">
<size>
<width>90</width>
<height>0</height>
</size>
</property>
<property name="maximumSize">
<size>
<width>16777215</width>
<height>16777215</height>
</size>
</property>
<property name="text">
<string>Dev Ch API Name</string>
</property>
</widget>
</item>
</layout>
</item>
<item>
<layout class="QVBoxLayout" name="verticalLayout_6">
<item>
@ -1852,8 +1807,8 @@
<rect>
<x>0</x>
<y>0</y>
<width>308</width>
<height>505</height>
<width>510</width>
<height>449</height>
</rect>
</property>
<layout class="QHBoxLayout" name="horizontalLayout_14">

View File

@ -1,13 +1,13 @@
# Set paths
EXE_DIR = ../../wsjtx_install
INCPATH = -I'/usr/include/qt4' -I'/usr/include/qt4/QtCore'
INCPATH = -I/usr/include/qt5 -I/usr/include/qt5/QtCore
CC = gcc
CXX = g++
FC = gfortran
FFLAGS = -O2 -fbounds-check -Wall -Wno-conversion -fno-second-underscore
CFLAGS = -I. -fbounds-check -mno-stack-arg-probe
FFLAGS = -O2 -fbounds-check -Wall -Wno-conversion -fno-second-underscore -fPIE
CFLAGS = -I. -fbounds-check -mno-stack-arg-probe -fPIE
# Default rules
%.o: %.c
@ -49,17 +49,17 @@ libjt9.a: $(OBJS1)
OBJS2 = jt9.o jt9a.o jt9b.o jt9c.o
jt9: $(OBJS2) libjt9.a
$(CXX) -o jt9 $(OBJS2) libjt9.a -lfftw3f -lgfortran -lQtCore
$(CXX) -o jt9 $(OBJS2) -L. -ljt9 -lQt5Core -lfftw3f `$(FC) -print-file-name=libgfortran.so`
mkdir -p $(EXE_DIR)
cp jt9 $(EXE_DIR)
OBJS3 = jt9sim.o
jt9sim: $(OBJS3) libjt9.a
$(FC) -o jt9sim $(OBJS3) libjt9.a
$(FC) -o jt9sim $(OBJS3) -L. -ljt9
OBJS4 = jt9code.o
jt9code: $(OBJS4) libjt9.a
$(FC) -o jt9code $(OBJS4) libjt9.a
$(FC) -o jt9code $(OBJS4) -L. -ljt9
sync9.o: sync9.f90 jt9sync.f90
$(FC) $(FFLAGS) -c sync9.f90
@ -80,7 +80,7 @@ redsync.o: redsync.f90 jt9sync.f90
$(FC) $(FFLAGS) -c redsync.f90
ipcomm.o: ipcomm.cpp
$(CXX) -c $(INCPATH) ipcomm.cpp
$(CXX) -c $(INCPATH) -fPIE ipcomm.cpp
sec_midn.o: sec_midn.f90
$(FC) -c -fno-second-underscore sec_midn.f90

View File

@ -4,6 +4,7 @@
#include <QtGui>
#endif
#include <QApplication>
#include <QObject>
#include "mainwindow.h"
@ -52,5 +53,7 @@ int main(int argc, char *argv[])
// Multiple instances: Call MainWindow() with the UUID key
MainWindow w(&mem_jt9, &my_key, fontSize2, fontWeight2);
w.show();
QObject::connect (&a, SIGNAL (lastWindowClosed()), &a, SLOT (quit()));
return a.exec();
}

View File

@ -2,9 +2,10 @@
#include "mainwindow.h"
#include "ui_mainwindow.h"
#include <vector>
#include <QScopedPointer>
#include <QThread>
#include <QColorDialog>
#include "soundout.h"
#include "devsetup.h"
#include "plotter.h"
#include "about.h"
@ -18,11 +19,6 @@
#include <QtConcurrent/QtConcurrentRun>
#endif
#define NUM_JT65_SYMBOLS 126
#define NUM_JT9_SYMBOLS 85
#define NUM_CW_SYMBOLS 250
#define TX_SAMPLE_RATE 48000
int itone[NUM_JT65_SYMBOLS]; //Audio tones for all Tx symbols
int icw[NUM_CW_SYMBOLS]; //Dits for CW ID
@ -51,13 +47,44 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
QWidget *parent) :
QMainWindow(parent),
ui(new Ui::MainWindow),
m_audioInputDevice (QAudioDeviceInfo::defaultInputDevice ()), // start with default
m_detector (RX_SAMPLE_RATE, NTMAX / 2, 6912 / 2 * sizeof (jt9com_.d2[0]), this),
m_audioInputDevice (QAudioDeviceInfo::defaultInputDevice ()), // start with default
m_modulator (TX_SAMPLE_RATE, NTMAX / 2),
m_audioOutputDevice (QAudioDeviceInfo::defaultOutputDevice ()), // start with default
m_modulator (TX_SAMPLE_RATE, NTMAX / 2, this)
m_soundOutput (&m_modulator)
{
ui->setupUi(this);
m_detector.open ();
m_modulator.open ();
connect (this, &MainWindow::finished, this, &MainWindow::close);
// start sound out thread and hook up slots & signals for shutdown management
m_soundOutput.moveToThread (&m_soundOutputThread);
connect (this, &MainWindow::finished, &m_soundOutputThread, &QThread::quit); // quit thread event loop
connect (&m_soundOutputThread, &QThread::finished, &m_soundOutputThread, &QThread::deleteLater); // disposal
// hook up sound output stream slots & signals
connect (this, &MainWindow::startAudioOutputStream, &m_soundOutput, &SoundOutput::startStream);
connect (this, &MainWindow::stopAudioOutputStream, &m_soundOutput, &SoundOutput::stopStream);
connect (&m_soundOutput, &SoundOutput::error, this, &MainWindow::showSoundOutError);
// connect (&m_soundOutput, &SoundOutput::status, this, &MainWindow::showStatusMessage);
// hook up Modulator slots
connect (this, &MainWindow::muteAudioOutput, &m_modulator, &Modulator::mute);
connect (this, &MainWindow::transmitFrequency, &m_modulator, &Modulator::setFrequency);
connect (this, &MainWindow::endTransmitMessage, &m_modulator, &Modulator::stop);
connect (this, &MainWindow::tune, &m_modulator, &Modulator::tune);
connect (
this
, SIGNAL (sendMessage (unsigned, double, unsigned, bool, double))
, &m_modulator
, SLOT (send (unsigned, double, unsigned, bool, double))
);
// start the sound output thread
m_soundOutputThread.start (QThread::HighPriority);
on_EraseButton_clicked();
QActionGroup* modeGroup = new QActionGroup(this);
@ -93,11 +120,7 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
connect(&m_detector, &Detector::bytesWritten, this, &MainWindow::dataSink);
connect(&m_soundInput, SIGNAL(error(QString)), this,
SLOT(showSoundInError(QString)));
connect(&m_soundOutput, SIGNAL(error(QString)), this,
SLOT(showSoundOutError(QString)));
connect(&m_soundInput, SIGNAL(status(QString)), this,
SLOT(showStatusMessage(QString)));
// connect(&m_soundOutput, SIGNAL(status(QString)), this,
// connect(&m_soundInput, SIGNAL(status(QString)), this,
// SLOT(showStatusMessage(QString)));
createStatusBar();
@ -135,9 +158,9 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
font.setWeight(75);
ui->readFreq->setFont(font);
QTimer *guiTimer = new QTimer(this);
connect(guiTimer, SIGNAL(timeout()), this, SLOT(guiUpdate()));
guiTimer->start(100); //Don't change the 100 ms!
connect(&m_guiTimer, SIGNAL(timeout()), this, SLOT(guiUpdate()));
m_guiTimer.start(100); //Don't change the 100 ms!
ptt0Timer = new QTimer(this);
ptt0Timer->setSingleShot(true);
connect(ptt0Timer, SIGNAL(timeout()), this, SLOT(stopTx2()));
@ -161,7 +184,7 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
m_auto=false;
m_waterfallAvg = 1;
m_txFirst=false;
m_modulator.mute(false);
Q_EMIT muteAudioOutput (false);
m_btxMute=false;
m_btxok=false;
m_restart=false;
@ -317,8 +340,8 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
connect(watcher2, SIGNAL(finished()),this,SLOT(diskWriteFinished()));
m_soundInput.start(m_audioInputDevice, RX_SAMPLE_RATE / 10, &m_detector);
m_modulator.setFrequency(m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
m_modulator.tune(false);
Q_EMIT transmitFrequency (m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
Q_EMIT muteAudioOutput (false);
m_monitoring=!m_monitorStartOFF; // Start with Monitoring ON/OFF
m_detector.setMonitoring(m_monitoring);
m_diskData=false;
@ -366,13 +389,10 @@ MainWindow::MainWindow(QSharedMemory *shdmem, QString *thekey, \
MainWindow::~MainWindow()
{
writeSettings();
m_soundOutput.stop();
m_modulator.close();
if(!m_decoderBusy) {
QFile lockFile(m_appDir + "/.lock");
lockFile.remove();
}
m_detector.close ();
delete ui;
}
@ -497,7 +517,7 @@ void MainWindow::readSettings()
//
// retrieve audio input device
//
QString savedName = settings.value( "SoundInName", "default").toString();
QString savedName = settings.value( "SoundInName").toString();
QList<QAudioDeviceInfo> audioInputDevices (QAudioDeviceInfo::availableDevices (QAudio::AudioInput)); // available audio input devices
for (QList<QAudioDeviceInfo>::const_iterator p = audioInputDevices.begin (); p != audioInputDevices.end (); ++p)
{
@ -512,7 +532,7 @@ void MainWindow::readSettings()
//
// retrieve audio output device
//
QString savedName = settings.value("SoundOutName", "default").toString();
QString savedName = settings.value("SoundOutName").toString();
QList<QAudioDeviceInfo> audioOutputDevices (QAudioDeviceInfo::availableDevices (QAudio::AudioOutput)); // available audio output devices
for (QList<QAudioDeviceInfo>::const_iterator p = audioOutputDevices.begin (); p != audioOutputDevices.end (); ++p)
{
@ -535,7 +555,7 @@ void MainWindow::readSettings()
ui->RxFreqSpinBox->setValue(m_rxFreq);
m_txFreq=settings.value("TxFreq",1500).toInt();
ui->TxFreqSpinBox->setValue(m_txFreq);
m_modulator.setFrequency(m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
Q_EMIT transmitFrequency (m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
m_saveDecoded=ui->actionSave_decoded->isChecked();
m_saveAll=ui->actionSave_all->isChecked();
m_ndepth=settings.value("NDepth",3).toInt();
@ -811,6 +831,7 @@ void MainWindow::on_monitorButton_clicked() //Monitor
{
m_monitoring=true;
m_detector.setMonitoring(true);
m_soundInput.start(m_audioInputDevice, RX_SAMPLE_RATE / 10, &m_detector);
m_diskData=false;
}
@ -827,7 +848,7 @@ void MainWindow::on_autoButton_clicked() //Auto
ui->autoButton->setStyleSheet(m_pbAutoOn_style);
} else {
m_btxok=false;
m_modulator.mute();
Q_EMIT muteAudioOutput ();
ui->autoButton->setStyleSheet("");
on_monitorButton_clicked();
m_repeatMsg=0;
@ -1031,6 +1052,7 @@ void MainWindow::closeEvent(QCloseEvent*)
void MainWindow::OnExit()
{
m_guiTimer.stop ();
g_pWideGraph->saveSettings();
if(m_fname != "") killFile();
m_killAll=true;
@ -1042,13 +1064,16 @@ void MainWindow::OnExit()
bool b=proc_jt9.waitForFinished(1000);
if(!b) proc_jt9.kill();
quitFile.remove();
qApp->exit(0); // Exit the event loop
Q_EMIT finished ();
m_soundOutputThread.wait ();
}
void MainWindow::on_stopButton_clicked() //stopButton
{
m_monitoring=false;
m_detector.setMonitoring(m_monitoring);
m_soundInput.stop ();
m_loopall=false;
}
@ -1082,6 +1107,7 @@ void MainWindow::on_actionWide_Waterfall_triggered() //Display Waterfalls
SLOT(setXIT(int)));
// connect(g_pWideGraph, SIGNAL(dialFreqChanged(double)),this,
// SLOT(dialFreqChanged2(double)));
connect (this, &MainWindow::finished, g_pWideGraph, &WideGraph::close);
}
g_pWideGraph->show();
}
@ -1621,7 +1647,7 @@ void MainWindow::guiUpdate()
}
if(!bTxTime || m_btxMute) {
m_btxok=false;
m_modulator.mute();
Q_EMIT muteAudioOutput ();
}
}
@ -1719,8 +1745,9 @@ void MainWindow::guiUpdate()
signalMeter->setValue(0);
m_monitoring=false;
m_detector.setMonitoring(false);
m_soundInput.stop ();
m_btxok=true;
m_modulator.mute(false);
Q_EMIT muteAudioOutput (false);
m_transmitting=true;
ui->pbTxMode->setEnabled(false);
if(!m_tune) {
@ -1839,7 +1866,7 @@ void MainWindow::displayTxMsg(QString t)
void MainWindow::startTx2()
{
if(!m_soundOutput.isRunning()) {
if (!m_modulator.isActive ()) {
QString t=ui->tx6->text();
double snr=t.mid(1,5).toDouble();
if(snr>0.0 or snr < -50.0) snr=99.0;
@ -1847,8 +1874,9 @@ void MainWindow::startTx2()
signalMeter->setValue(0);
m_monitoring=false;
m_detector.setMonitoring(false);
m_soundInput.stop ();
m_btxok=true;
m_modulator.mute(false);
Q_EMIT muteAudioOutput (false);
m_transmitting=true;
ui->pbTxMode->setEnabled(false);
}
@ -1856,8 +1884,8 @@ void MainWindow::startTx2()
void MainWindow::stopTx()
{
m_soundOutput.stop();
m_modulator.close ();
Q_EMIT endTransmitMessage ();
Q_EMIT stopAudioOutputStream ();
m_transmitting=false;
ui->pbTxMode->setEnabled(true);
g_iptt=0;
@ -1865,6 +1893,7 @@ void MainWindow::stopTx()
lab1->setText("");
ptt0Timer->start(200); //Sequencer delay
m_monitoring=true;
m_soundInput.start(m_audioInputDevice, RX_SAMPLE_RATE / 10, &m_detector);
m_detector.setMonitoring(true);
}
@ -2381,7 +2410,7 @@ void MainWindow::on_tx6_editingFinished() //tx6 edited
// double snr=t.mid(1,5).toDouble();
// if(snr>0.0 or snr < -50.0) snr=99.0;
// m_soundOutput.setTxSNR(snr);
// m_modulator.setTxSNR(snr);
}
void MainWindow::on_dxCallEntry_textChanged(const QString &t) //dxCall changed
@ -2525,7 +2554,7 @@ void MainWindow::on_TxFreqSpinBox_valueChanged(int n)
m_txFreq=n;
if(g_pWideGraph!=NULL) g_pWideGraph->setTxFreq(n);
if(m_lockTxFreq) ui->RxFreqSpinBox->setValue(n);
m_modulator.setFrequency(m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
Q_EMIT transmitFrequency (m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
}
void MainWindow::on_RxFreqSpinBox_valueChanged(int n)
@ -2848,7 +2877,7 @@ void MainWindow::on_tuneButton_clicked()
} else {
m_tune=true;
m_sent73=false;
m_modulator.tune();
Q_EMIT tune ();
m_repeatMsg=0;
ui->tuneButton->setStyleSheet(m_pbTune_style);
}
@ -2858,11 +2887,11 @@ void MainWindow::on_stopTxButton_clicked() //Stop Tx
{
if(m_tune) {
m_tune=false;
m_modulator.tune(m_tune);
Q_EMIT tune (m_tune);
}
if(m_auto) on_autoButton_clicked();
m_btxok=false;
m_modulator.mute();
Q_EMIT muteAudioOutput ();
m_repeatMsg=0;
ui->tuneButton->setStyleSheet("");
}
@ -2999,7 +3028,7 @@ void MainWindow::setXIT(int n)
ret=rig->setSplitFreq(MHz(m_dialFreq)+m_XIT,RIG_VFO_B);
}
}
m_modulator.setFrequency(m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
Q_EMIT transmitFrequency (m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0));
}
void MainWindow::setFreq4(int rxFreq, int txFreq)
@ -3055,19 +3084,13 @@ void MainWindow::pollRigFreq()
void MainWindow::transmit (double snr)
{
QScopedPointer<std::vector<int> > cw (new std::vector<int> (NUM_CW_SYMBOLS));
cw->assign (icw, icw + NUM_CW_SYMBOLS); // load data
if (m_modeTx == "JT65")
{
QScopedPointer<std::vector<int> > symbols (new std::vector<int> (NUM_JT65_SYMBOLS));
symbols->assign (itone, itone + NUM_JT65_SYMBOLS); // load data
m_modulator.open (symbols.take (), cw.take (), 4096.0 * 12000.0 / 11025.0, m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0), snr);
Q_EMIT sendMessage (NUM_JT65_SYMBOLS, 4096.0 * 12000.0 / 11025.0, m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0), true, snr);
}
else
{
QScopedPointer<std::vector<int> > symbols (new std::vector<int> (NUM_JT65_SYMBOLS));
symbols->assign (itone, itone + NUM_JT9_SYMBOLS); // load data
m_modulator.open (symbols.take (), cw.take (), m_nsps, m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0), snr);
Q_EMIT sendMessage (NUM_JT9_SYMBOLS, m_nsps, m_txFreq - (m_bSplit || m_bXIT ? m_XIT : 0), true, snr);
}
m_soundOutput.start(m_audioOutputDevice, &m_modulator);
Q_EMIT startAudioOutputStream (m_audioOutputDevice);
}

View File

@ -5,6 +5,7 @@
#else
#include <QtGui>
#endif
#include <QThread>
#include <QTimer>
#include <QDateTime>
#include <QList>
@ -24,6 +25,15 @@
#include "PSKReporter.h"
#endif
#define NUM_JT65_SYMBOLS 126
#define NUM_JT9_SYMBOLS 85
#define NUM_CW_SYMBOLS 250
#define TX_SAMPLE_RATE 48000
extern int itone[NUM_JT65_SYMBOLS]; //Audio tones for all Tx symbols
extern int icw[NUM_CW_SYMBOLS]; //Dits for CW ID
//--------------------------------------------------------------- MainWindow
namespace Ui {
class MainWindow;
@ -166,6 +176,16 @@ private slots:
void on_actionTx2QSO_triggered(bool checked);
void on_cbPlus2kHz_toggled(bool checked);
private:
Q_SIGNAL void startAudioOutputStream (QAudioDeviceInfo);
Q_SIGNAL void stopAudioOutputStream ();
Q_SIGNAL void finished ();
Q_SIGNAL void muteAudioOutput (bool = true);
Q_SIGNAL void transmitFrequency (unsigned);
Q_SIGNAL void endTransmitMessage ();
Q_SIGNAL void tune (bool = true);
Q_SIGNAL void sendMessage (unsigned symbolsLength, double framesPerSymbol, unsigned frequency, bool synchronize = true, double dBSNR = 99.);
private:
Ui::MainWindow *ui;
@ -190,10 +210,16 @@ private:
qint32 m_nutc0;
qint32 m_nrx;
qint32 m_hsym;
QAudioDeviceInfo m_audioInputDevice;
Detector m_detector;
QAudioDeviceInfo m_audioOutputDevice;
QAudioDeviceInfo m_audioInputDevice;
SoundInput m_soundInput;
Modulator m_modulator;
QAudioDeviceInfo m_audioOutputDevice;
SoundOutput m_soundOutput;
QThread m_soundOutputThread;
qint32 m_TRperiod;
qint32 m_nsps;
qint32 m_hsymStop;
@ -299,6 +325,7 @@ private:
QProcess proc_jt9;
QTimer m_guiTimer;
QTimer* ptt1Timer; //StartTx delay
QTimer* ptt0Timer; //StopTx delay
QTimer* logQSOTimer;
@ -344,8 +371,6 @@ private:
QDateTime m_dateTimeQSO;
SoundInput m_soundInput; //Instantiate the audio objects
SoundOutput m_soundOutput;
QSharedMemory *mem_jt9;
// Multiple instances:
QString *mykey_jt9;

View File

@ -74,7 +74,7 @@ bool SoundInput::start(QAudioDeviceInfo const& device, int framesPerBuffer, QIOD
m_stream->start (sink);
qDebug () << "audio input buffer size = " << m_stream->bufferSize () << " bytes\n";
qDebug () << "audio input buffer size = " << m_stream->bufferSize () << " bytes";
return audioError () ? false : true;
}
@ -84,29 +84,29 @@ void SoundInput::handleStateChanged (QAudio::State newState) const
switch (newState)
{
case QAudio::IdleState:
qDebug () << "SoundInput idle\n";
qDebug () << "SoundInput idle";
Q_EMIT status (tr ("Idle"));
break;
case QAudio::ActiveState:
qDebug () << "SoundInput active\n";
qDebug () << "SoundInput active";
Q_EMIT status (tr ("Receiving"));
break;
case QAudio::SuspendedState:
qDebug () << "SoundInput suspended\n";
qDebug () << "SoundInput suspended";
Q_EMIT status (tr ("Suspended"));
break;
case QAudio::StoppedState:
if (audioError ())
{
qDebug () << "SoundInput error\n";
qDebug () << "SoundInput error";
Q_EMIT status (tr ("Error"));
}
else
{
qDebug () << "SoundInput stopped\n";
qDebug () << "SoundInput stopped";
Q_EMIT status (tr ("Stopped"));
}
break;

View File

@ -5,6 +5,12 @@
#include <QAudioOutput>
#include <QDebug>
#if defined (WIN32)
# define MS_BUFFERED 1000
#else
# define MS_BUFFERED 2000
#endif
bool SoundOutput::audioError () const
{
bool result (true);
@ -38,56 +44,119 @@ bool SoundOutput::audioError () const
return result;
}
bool SoundOutput::start(QAudioDeviceInfo const& device, QIODevice * source)
SoundOutput::SoundOutput (QIODevice * source)
: m_source (source)
, m_active (false)
, m_currentDevice (QAudioDeviceInfo::defaultOutputDevice ())
{
Q_ASSERT (source);
stop();
QAudioFormat format (device.preferredFormat());
format.setChannelCount (1);
format.setCodec ("audio/pcm");
format.setSampleRate (48000);
format.setSampleType (QAudioFormat::SignedInt);
format.setSampleSize (16);
if (!format.isValid ())
{
Q_EMIT error (tr ("Requested output audio format is not valid."));
return false;
}
if (!device.isFormatSupported (format))
{
Q_EMIT error (tr ("Requested output audio format is not supported on device."));
return false;
}
m_stream.reset (new QAudioOutput (device, format, this));
if (audioError ())
{
return false;
}
connect (m_stream.data(), &QAudioOutput::stateChanged, this, &SoundOutput::handleStateChanged);
m_stream->setBufferSize(48000);
m_stream->start (source);
if (audioError ()) // start the input stream
{
return false;
}
m_active = true;
return true;
}
void SoundOutput::handleStateChanged (QAudio::State newState) const
void SoundOutput::startStream (QAudioDeviceInfo const& device)
{
if (!m_stream || device != m_currentDevice)
{
QAudioFormat format (device.preferredFormat ());
#ifdef UNIX
format.setChannelCount (2);
#else
format.setChannelCount (1);
#endif
format.setCodec ("audio/pcm");
format.setSampleRate (48000);
format.setSampleType (QAudioFormat::SignedInt);
format.setSampleSize (16);
if (!format.isValid ())
{
Q_EMIT error (tr ("Requested output audio format is not valid."));
}
if (!device.isFormatSupported (format))
{
Q_EMIT error (tr ("Requested output audio format is not supported on device."));
}
m_stream.reset (new QAudioOutput (device, format, this));
audioError ();
connect (m_stream.data(), &QAudioOutput::stateChanged, this, &SoundOutput::handleStateChanged);
m_currentDevice = device;
}
//
// This buffer size is critical since we are running in the GUI
// thread. If it is too short; high activity levels on the GUI can
// starve the audio buffer. On the other hand the Windows
// implementation seems to take the length of the buffer in time to
// stop the audio stream even if reset() is used.
//
// 1 seconds seems a reasonable compromise except for Windows
// where things are probably broken.
//
// we have to set this before every start on the stream because the
// Windows implementation seems to forget the buffer size after a
// stop.
m_stream->setBufferSize (m_stream->format ().bytesForDuration (MS_BUFFERED * 1000));
m_stream->start (m_source);
audioError ();
qDebug () << "audio output buffer size = " << m_stream->bufferSize () << " bytes";
}
void SoundOutput::suspend ()
{
if (m_stream && QAudio::ActiveState == m_stream->state ())
{
m_stream->suspend ();
audioError ();
}
}
void SoundOutput::resume ()
{
if (m_stream && QAudio::SuspendedState == m_stream->state ())
{
m_stream->resume ();
audioError ();
}
}
void SoundOutput::stopStream ()
{
if (m_stream)
{
m_stream->stop ();
audioError ();
}
}
void SoundOutput::handleStateChanged (QAudio::State newState)
{
switch (newState)
{
case QAudio::IdleState: Q_EMIT status (tr ("Idle")); break;
case QAudio::ActiveState: Q_EMIT status (tr ("Sending")); break;
case QAudio::SuspendedState: Q_EMIT status (tr ("Suspended")); break;
case QAudio::IdleState:
qDebug () << "SoundOutput: entered Idle state";
Q_EMIT status (tr ("Idle"));
m_active = false;
break;
case QAudio::ActiveState:
qDebug () << "SoundOutput: entered Active state";
m_active = true;
Q_EMIT status (tr ("Sending"));
break;
case QAudio::SuspendedState:
qDebug () << "SoundOutput: entered Suspended state";
m_active = true;
Q_EMIT status (tr ("Suspended"));
break;
case QAudio::StoppedState:
qDebug () << "SoundOutput: entered Stopped state";
m_active = false;
if (audioError ())
{
Q_EMIT status (tr ("Error"));
@ -100,13 +169,10 @@ void SoundOutput::handleStateChanged (QAudio::State newState) const
}
}
void SoundOutput::stop()
SoundOutput::~SoundOutput ()
{
m_stream.reset ();
m_active = false;
}
SoundOutput::~SoundOutput()
{
stop ();
if (m_stream)
{
m_stream->stop ();
}
}

View File

@ -4,8 +4,9 @@
#include <QObject>
#include <QString>
#include <QAudioOutput>
#include <QAudioDeviceInfo>
#include "Modulator.hpp"
class QAudioDeviceInfo;
class QAudioDeviceInfo;
@ -21,32 +22,33 @@ class SoundOutput : public QObject
Q_DISABLE_COPY (SoundOutput);
public:
SoundOutput ()
: m_active(false)
{
}
SoundOutput (QIODevice * source);
~SoundOutput ();
bool isRunning() const {return m_active;}
public Q_SLOTS:
bool start(QAudioDeviceInfo const& device, QIODevice * source);
void stop();
public Q_SLOTS:
void startStream (QAudioDeviceInfo const& device);
void suspend ();
void resume ();
void stopStream ();
Q_SIGNALS:
Q_SIGNALS:
void error (QString message) const;
void status (QString message) const;
private:
bool audioError () const;
private Q_SLOTS:
void handleStateChanged (QAudio::State) const;
private Q_SLOTS:
void handleStateChanged (QAudio::State);
private:
QScopedPointer<QAudioOutput> m_stream;
bool m_active;
QIODevice * m_source;
bool volatile m_active;
QAudioDeviceInfo m_currentDevice;
};
#endif

View File

@ -14,7 +14,6 @@ TARGET = wsjtx
DESTDIR = ../wsjtx_install
VERSION = 1.2
TEMPLATE = app
#DEFINES = QT4
DEFINES = QT5
win32 {
@ -82,9 +81,9 @@ FORMS += mainwindow.ui about.ui devsetup.ui widegraph.ui \
RC_FILE = wsjtx.rc
unix {
LIBS += ../wsjtx/lib/libjt9.a
LIBS += -L lib -ljt9
LIBS += -lhamlib
LIBS += -lgfortran -lfftw3f
LIBS += -lfftw3f `$$F90 -print-file-name=libgfortran.so`
}
win32 {
@ -99,3 +98,6 @@ LIBS += libwsock32
LIBS += C:/MinGW/lib/libf95.a
}
RESOURCES += \
wsjtx.qrc