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WSJT-X/astro.cpp
Bill Somerville 94cec5bdc1 IARU region specific working frequencies 
Working  frequencies can  be for  all regions  or for  individual IARU
regions. This allows each mode band  tuple to have one or more working
frequencies which  can include local  ones only offered when  the user
configures their IARU region.

Change  working  frequency  default   suggestions  to  better  fit  in
FT8. General  rule is FT8  is at JT65 -2kHz  except where that  is not
possible e.g. where  that would fall into a segment  not allocated for
narrow band data modes. For tight  bands like top band sqeeze existing
JT65 and JT allocations to allow space for FT8.

NOTE: this change changes the WSPR frequency on 80m to allow access to
JA stations that currently have no allocation where it was placed.

ALSO NOTE: the JT65 and JT9 frequencies for 80m move down 6 kHz, again
to  accommodate region  3  users. Other  appliactions  not within  our
control should be asked to move in step when 1.8.0 is released.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@7810 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2017-07-07 23:11:41 +00:00

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#include "astro.h"
#include <stdio.h>
#include <QApplication>
#include <QFile>
#include <QTextStream>
#include <QSettings>
#include <QDateTime>
#include <QDir>
#include <QDebug>
#include "commons.h"
#include "MessageBox.hpp"
#include "Configuration.hpp"
#include "SettingsGroup.hpp"
#include "qt_helpers.hpp"
#include "ui_astro.h"
#include "moc_astro.cpp"
extern "C" {
void astrosub_(int* nyear, int* month, int* nday, double* uth, double* freqMoon,
const char* mygrid, const char* hisgrid, double* azsun,
double* elsun, double* azmoon, double* elmoon, double* azmoondx,
double* elmoondx, int* ntsky, int* ndop, int* ndop00,
double* ramoon, double* decmoon, double* dgrd, double* poloffset,
double* xnr, double* techo, double* width1, double* width2,
bool* bTx, const char* AzElFileName, const char* jpleph,
int len1, int len2, int len3, int len4);
}
Astro::Astro(QSettings * settings, Configuration const * configuration, QWidget * parent)
: QDialog {parent, Qt::WindowTitleHint}
, settings_ {settings}
, configuration_ {configuration}
, ui_ {new Ui::Astro}
, m_DopplerMethod {0}
{
ui_->setupUi (this);
setWindowTitle (QApplication::applicationName () + " - " + tr ("Astronomical Data"));
setStyleSheet ("QWidget {background: white;}");
connect (ui_->cbDopplerTracking, &QAbstractButton::toggled, ui_->doppler_widget, &QWidget::setVisible);
read_settings ();
ui_->text_label->clear ();
}
Astro::~Astro ()
{
ui_->cbDopplerTracking->setChecked (false);
Q_EMIT tracking_update ();
if (isVisible ()) write_settings ();
}
void Astro::closeEvent (QCloseEvent * e)
{
write_settings ();
QWidget::closeEvent (e);
}
void Astro::read_settings ()
{
SettingsGroup g (settings_, "Astro");
ui_->doppler_widget->setVisible (ui_->cbDopplerTracking->isChecked ());
m_DopplerMethod=settings_->value("DopplerMethod",0).toInt();
switch (m_DopplerMethod)
{
case 0: ui_->rbNoDoppler->setChecked (true); break;
case 1: ui_->rbFullTrack->setChecked (true); break;
case 2: ui_->rbConstFreqOnMoon->setChecked (true); break;
case 3: ui_->rbRxOnly->setChecked (true); break;
}
move (settings_->value ("window/pos", pos ()).toPoint ());
}
void Astro::write_settings ()
{
SettingsGroup g (settings_, "Astro");
//settings_->setValue ("DopplerTracking", ui_->cbDopplerTracking->isChecked ());
settings_->setValue ("DopplerMethod",m_DopplerMethod);
settings_->setValue ("window/pos", pos ());
}
auto Astro::astroUpdate(QDateTime const& t, QString const& mygrid, QString const& hisgrid, Frequency freq,
bool dx_is_self, bool bTx, bool no_tx_QSY, int TR_period) -> Correction
{
Frequency freq_moon {freq};
double azsun,elsun,azmoon,elmoon,azmoondx,elmoondx;
double ramoon,decmoon,dgrd,poloffset,xnr,techo,width1,width2;
int ntsky;
QString date {t.date().toString("yyyy MMM dd").trimmed ()};
QString utc {t.time().toString().trimmed ()};
int nyear {t.date().year()};
int month {t.date().month()};
int nday {t.date().day()};
int nhr {t.time().hour()};
int nmin {t.time().minute()};
double sec {t.time().second() + 0.001*t.time().msec()};
double uth {nhr + nmin/60.0 + sec/3600.0};
if(freq_moon < 1) freq_moon = 144000000;
int nfreq {static_cast<int> (freq_moon / 1000000u)};
double freq8 {static_cast<double> (freq_moon)};
auto const& AzElFileName = QDir::toNativeSeparators (configuration_->azel_directory ().absoluteFilePath ("azel.dat"));
auto const& jpleph = configuration_->data_dir ().absoluteFilePath ("JPLEPH");
int ndop;
int ndop00;
QString mygrid_padded {(mygrid + " ").left (6)};
QString hisgrid_padded {(hisgrid + " ").left (6)};
astrosub_(&nyear, &month, &nday, &uth, &freq8, mygrid_padded.toLatin1().constData(),
hisgrid_padded.toLatin1().constData(), &azsun, &elsun, &azmoon, &elmoon,
&azmoondx, &elmoondx, &ntsky, &ndop, &ndop00, &ramoon, &decmoon,
&dgrd, &poloffset, &xnr, &techo, &width1, &width2, &bTx,
AzElFileName.toLatin1().constData(), jpleph.toLatin1().constData(), 6, 6,
AzElFileName.length(), jpleph.length());
if(hisgrid_padded==" ") {
azmoondx=0.0;
elmoondx=0.0;
ndop=0;
width2=0.0;
}
QString message;
{
QTextStream out {&message};
out << " " << date << "\n"
"UTC: " << utc << "\n"
<< fixed
<< qSetFieldWidth (6)
<< qSetRealNumberPrecision (1)
<< "Az: " << azmoon << "\n"
"El: " << elmoon << "\n"
"SelfDop:" << ndop00 << "\n"
"Width: " << int(width1) << "\n"
<< qSetRealNumberPrecision (2)
<< "Delay: " << techo << "\n"
<< qSetRealNumberPrecision (1)
<< "DxAz: " << azmoondx << "\n"
"DxEl: " << elmoondx << "\n"
"DxDop: " << ndop << "\n"
"DxWid: " << int(width2) << "\n"
"Dec: " << decmoon << "\n"
"SunAz: " << azsun << "\n"
"SunEl: " << elsun << "\n"
"Freq: " << nfreq << "\n";
if(nfreq>=50) { //Suppress data not relevant below VHF
out << "Tsky: " << ntsky << "\n"
"Dpol: " << poloffset << "\n"
"MNR: " << xnr << "\n"
"Dgrd: " << dgrd;
}
}
ui_->text_label->setText(message);
Correction correction;
if (ui_->cbDopplerTracking->isChecked ()) {
switch (m_DopplerMethod)
{
case 1: // All Doppler correction done here; DX station stays at nominal dial frequency.
case 3: // Both stations do full correction on Rx and none on Tx
correction.rx = dx_is_self ? ndop00 : ndop;
break;
case 2:
// Doppler correction to constant frequency on Moon
correction.rx = ndop00 / 2;
break;
}
if (3 != m_DopplerMethod) correction.tx = -correction.rx;
if(dx_is_self && m_DopplerMethod == 1) correction.rx = 0;
if (no_tx_QSY && 3 != m_DopplerMethod && 0 != m_DopplerMethod)
{
// calculate a single correction for transmit half way through
// the period as a compromise for rigs that can't CAT QSY
// while transmitting
//
// use a base time of (secs-since-epoch + 2) so as to be sure
// we do the next period if we calculate just before it starts
auto sec_since_epoch = t.toMSecsSinceEpoch () / 1000 + 2;
auto target_sec = sec_since_epoch - sec_since_epoch % TR_period + TR_period / 2;
auto target_date_time = QDateTime::fromMSecsSinceEpoch (target_sec * 1000);
QString date {target_date_time.date().toString("yyyy MMM dd").trimmed ()};
QString utc {target_date_time.time().toString().trimmed ()};
int nyear {target_date_time.date().year()};
int month {target_date_time.date().month()};
int nday {target_date_time.date().day()};
int nhr {target_date_time.time().hour()};
int nmin {target_date_time.time().minute()};
double sec {target_date_time.time().second() + 0.001*target_date_time.time().msec()};
double uth {nhr + nmin/60.0 + sec/3600.0};
astrosub_(&nyear, &month, &nday, &uth, &freq8, mygrid_padded.toLatin1().constData(),
hisgrid_padded.toLatin1().constData(), &azsun, &elsun, &azmoon, &elmoon,
&azmoondx, &elmoondx, &ntsky, &ndop, &ndop00, &ramoon, &decmoon,
&dgrd, &poloffset, &xnr, &techo, &width1, &width2, &bTx,
"", jpleph.toLatin1().constData(), 6, 6,
0, jpleph.length());
FrequencyDelta offset {0};
switch (m_DopplerMethod)
{
case 1:
// All Doppler correction done here; DX station stays at nominal dial frequency.
offset = dx_is_self ? ndop00 : ndop;
break;
case 2:
// Doppler correction to constant frequency on Moon
offset = ndop00 / 2;
break;
}
correction.tx = -offset;
}
}
return correction;
}
void Astro::check_split ()
{
if (doppler_tracking () && !configuration_->split_mode ())
{
MessageBox::warning_message (this, tr ("Doppler Tracking Error"),
tr ("Split operating is required for Doppler tracking"),
tr ("Go to \"Menu->File->Settings->Radio\" to enable split operation"));
ui_->rbNoDoppler->click ();
}
}
void Astro::on_rbFullTrack_clicked()
{
m_DopplerMethod = 1;
check_split ();
Q_EMIT tracking_update ();
}
void Astro::on_rbRxOnly_clicked()
{
m_DopplerMethod = 3;
check_split ();
Q_EMIT tracking_update ();
}
void Astro::on_rbConstFreqOnMoon_clicked()
{
m_DopplerMethod = 2;
check_split ();
Q_EMIT tracking_update ();
}
void Astro::on_rbNoDoppler_clicked()
{
m_DopplerMethod = 0;
Q_EMIT tracking_update ();
}
bool Astro::doppler_tracking () const
{
return ui_->cbDopplerTracking->isChecked () && m_DopplerMethod;
}
void Astro::on_cbDopplerTracking_toggled(bool)
{
check_split ();
Q_EMIT tracking_update ();
}
void Astro::nominal_frequency (Frequency rx, Frequency tx)
{
ui_->sked_frequency_label->setText (Radio::pretty_frequency_MHz_string (rx));
ui_->sked_tx_frequency_label->setText (Radio::pretty_frequency_MHz_string (tx));
}
void Astro::hideEvent (QHideEvent * e)
{
Q_EMIT tracking_update ();
QWidget::hideEvent (e);
}
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