wfview/wfmain.cpp

5335 wiersze
170 KiB
C++

#include "wfmain.h"
#include "ui_wfmain.h"
#include "commhandler.h"
#include "rigidentities.h"
#include "logcategories.h"
// This code is copyright 2017-2020 Elliott H. Liggett
// All rights reserved
wfmain::wfmain(const QString serialPortCL, const QString hostCL, const QString settingsFile, QWidget *parent ) :
QMainWindow(parent),
ui(new Ui::wfmain)
{
QGuiApplication::setApplicationDisplayName("wfview");
QGuiApplication::setApplicationName(QString("wfview"));
setWindowIcon(QIcon( QString(":resources/wfview.png")));
ui->setupUi(this);
setWindowTitle(QString("wfview"));
this->serialPortCL = serialPortCL;
this->hostCL = hostCL;
cal = new calibrationWindow();
rpt = new repeaterSetup();
sat = new satelliteSetup();
trxadj = new transceiverAdjustments();
srv = new udpServerSetup();
abtBox = new aboutbox();
connect(this, SIGNAL(sendServerConfig(SERVERCONFIG)), srv, SLOT(receiveServerConfig(SERVERCONFIG)));
connect(srv, SIGNAL(serverConfig(SERVERCONFIG, bool)), this, SLOT(serverConfigRequested(SERVERCONFIG, bool)));
qRegisterMetaType<udpPreferences>(); // Needs to be registered early.
qRegisterMetaType<rigCapabilities>();
qRegisterMetaType<duplexMode>();
qRegisterMetaType<rptAccessTxRx>();
qRegisterMetaType<rigInput>();
qRegisterMetaType<meterKind>();
qRegisterMetaType<spectrumMode>();
qRegisterMetaType<freqt>();
qRegisterMetaType<mode_info>();
qRegisterMetaType<audioPacket>();
qRegisterMetaType <audioSetup>();
qRegisterMetaType <timekind>();
qRegisterMetaType <datekind>();
haveRigCaps = false;
setupKeyShortcuts();
setupMainUI();
setSerialDevicesUI();
setAudioDevicesUI();
setDefaultColors();
setDefPrefs();
getSettingsFilePath(settingsFile);
setupPlots();
loadSettings(); // Look for saved preferences
setTuningSteps(); // TODO: Combine into preferences
setUIToPrefs();
setServerToPrefs();
setInitialTiming();
openRig();
rigConnections();
if (serverConfig.enabled && udp != Q_NULLPTR) {
// Server
connect(rig, SIGNAL(haveAudioData(audioPacket)), udp, SLOT(receiveAudioData(audioPacket)));
connect(rig, SIGNAL(haveDataForServer(QByteArray)), udp, SLOT(dataForServer(QByteArray)));
connect(udp, SIGNAL(haveDataFromServer(QByteArray)), rig, SLOT(dataFromServer(QByteArray)));
}
amTransmitting = false;
connect(ui->txPowerSlider, &QSlider::sliderMoved,
[&](int value) {
QToolTip::showText(QCursor::pos(), QString("%1").arg(value*100/255), nullptr);
});
}
wfmain::~wfmain()
{
rigThread->quit();
rigThread->wait();
if (serverThread != Q_NULLPTR) {
serverThread->quit();
serverThread->wait();
}
if (rigCtl != Q_NULLPTR) {
delete rigCtl;
}
delete rpt;
delete ui;
delete settings;
}
void wfmain::closeEvent(QCloseEvent *event)
{
// Are you sure?
if (!prefs.confirmExit) {
QApplication::exit();
}
QCheckBox *cb = new QCheckBox("Don't ask me again");
QMessageBox msgbox;
msgbox.setText("Are you sure you wish to exit?\n");
msgbox.setIcon(QMessageBox::Icon::Question);
QAbstractButton *yesButton = msgbox.addButton(QMessageBox::Yes);
msgbox.addButton(QMessageBox::No);
msgbox.setDefaultButton(QMessageBox::Yes);
msgbox.setCheckBox(cb);
QObject::connect(cb, &QCheckBox::stateChanged, [this](int state){
if (static_cast<Qt::CheckState>(state) == Qt::CheckState::Checked) {
prefs.confirmExit=false;
} else {
prefs.confirmExit=true;
}
settings->beginGroup("Interface");
settings->setValue("ConfirmExit", this->prefs.confirmExit);
settings->endGroup();
settings->sync();
});
msgbox.exec();
if (msgbox.clickedButton() == yesButton) {
QApplication::exit();
} else {
event->ignore();
}
}
void wfmain::openRig()
{
// This function is intended to handle opening a connection to the rig.
// the connection can be either serial or network,
// and this function is also responsible for initiating the search for a rig model and capabilities.
// Any errors, such as unable to open connection or unable to open port, are to be reported to the user.
//TODO: if(hasRunPreviously)
//TODO: if(useNetwork){...
// } else {
// if (prefs.fileWasNotFound) {
// showRigSettings(); // rig setting dialog box for network/serial, CIV, hostname, port, baud rate, serial device, etc
// TODO: How do we know if the setting was loaded?
// TODO: Use these if they are found
if(!serialPortCL.isEmpty())
{
qDebug(logSystem()) << "Serial port specified by user: " << serialPortCL;
} else {
qDebug(logSystem()) << "Serial port not specified. ";
}
if(!hostCL.isEmpty())
{
qDebug(logSystem()) << "Remote host name specified by user: " << hostCL;
}
makeRig();
if (prefs.enableLAN)
{
ui->lanEnableBtn->setChecked(true);
usingLAN = true;
// We need to setup the tx/rx audio:
emit sendCommSetup(prefs.radioCIVAddr, udpPrefs, rxSetup, txSetup, prefs.virtualSerialPort);
} else {
ui->serialEnableBtn->setChecked(true);
if( (prefs.serialPortRadio.toLower() == QString("auto")) && (serialPortCL.isEmpty()))
{
findSerialPort();
} else {
if(serialPortCL.isEmpty())
{
serialPortRig = prefs.serialPortRadio;
} else {
serialPortRig = serialPortCL;
}
}
usingLAN = false;
emit sendCommSetup(prefs.radioCIVAddr, serialPortRig, prefs.serialPortBaud,prefs.virtualSerialPort);
ui->statusBar->showMessage(QString("Connecting to rig using serial port ").append(serialPortRig), 1000);
}
}
void wfmain::rigConnections()
{
connect(this, SIGNAL(setCIVAddr(unsigned char)), rig, SLOT(setCIVAddr(unsigned char)));
connect(this, SIGNAL(sendPowerOn()), rig, SLOT(powerOn()));
connect(this, SIGNAL(sendPowerOff()), rig, SLOT(powerOff()));
connect(rig, SIGNAL(haveFrequency(freqt)), this, SLOT(receiveFreq(freqt)));
connect(this, SIGNAL(getFrequency()), rig, SLOT(getFrequency()));
connect(this, SIGNAL(getMode()), rig, SLOT(getMode()));
connect(this, SIGNAL(getDataMode()), rig, SLOT(getDataMode()));
connect(this, SIGNAL(setDataMode(bool, unsigned char)), rig, SLOT(setDataMode(bool, unsigned char)));
connect(this, SIGNAL(getBandStackReg(char,char)), rig, SLOT(getBandStackReg(char,char)));
connect(rig, SIGNAL(havePTTStatus(bool)), this, SLOT(receivePTTstatus(bool)));
connect(this, SIGNAL(setPTT(bool)), rig, SLOT(setPTT(bool)));
connect(this, SIGNAL(getPTT()), rig, SLOT(getPTT()));
connect(rig, SIGNAL(haveBandStackReg(freqt,char,char,bool)), this, SLOT(receiveBandStackReg(freqt,char,char,bool)));
connect(this, SIGNAL(setRitEnable(bool)), rig, SLOT(setRitEnable(bool)));
connect(this, SIGNAL(setRitValue(int)), rig, SLOT(setRitValue(int)));
connect(rig, SIGNAL(haveRitEnabled(bool)), this, SLOT(receiveRITStatus(bool)));
connect(rig, SIGNAL(haveRitFrequency(int)), this, SLOT(receiveRITValue(int)));
connect(this, SIGNAL(getRitEnabled()), rig, SLOT(getRitEnabled()));
connect(this, SIGNAL(getRitValue()), rig, SLOT(getRitValue()));
connect(this, SIGNAL(getDebug()), rig, SLOT(getDebug()));
connect(this, SIGNAL(spectOutputDisable()), rig, SLOT(disableSpectOutput()));
connect(this, SIGNAL(spectOutputEnable()), rig, SLOT(enableSpectOutput()));
connect(this, SIGNAL(scopeDisplayDisable()), rig, SLOT(disableSpectrumDisplay()));
connect(this, SIGNAL(scopeDisplayEnable()), rig, SLOT(enableSpectrumDisplay()));
connect(rig, SIGNAL(haveMode(unsigned char, unsigned char)), this, SLOT(receiveMode(unsigned char, unsigned char)));
connect(rig, SIGNAL(haveDataMode(bool)), this, SLOT(receiveDataModeStatus(bool)));
connect(rpt, SIGNAL(getDuplexMode()), rig, SLOT(getDuplexMode()));
connect(rpt, SIGNAL(setDuplexMode(duplexMode)), rig, SLOT(setDuplexMode(duplexMode)));
connect(rig, SIGNAL(haveDuplexMode(duplexMode)), rpt, SLOT(receiveDuplexMode(duplexMode)));
connect(rpt, SIGNAL(getTone()), rig, SLOT(getTone()));
connect(rpt, SIGNAL(getTSQL()), rig, SLOT(getTSQL()));
connect(rpt, SIGNAL(getDTCS()), rig, SLOT(getDTCS()));
connect(rpt, SIGNAL(setTone(quint16)), rig, SLOT(setTone(quint16)));
connect(rpt, SIGNAL(setTSQL(quint16)), rig, SLOT(setTSQL(quint16)));
connect(rpt, SIGNAL(setDTCS(quint16,bool,bool)), rig, SLOT(setDTCS(quint16,bool,bool)));
connect(rpt, SIGNAL(getRptAccessMode()), rig, SLOT(getRptAccessMode()));
connect(rpt, SIGNAL(setRptAccessMode(rptAccessTxRx)), rig, SLOT(setRptAccessMode(rptAccessTxRx)));
connect(rig, SIGNAL(haveTone(quint16)), rpt, SLOT(handleTone(quint16)));
connect(rig, SIGNAL(haveTSQL(quint16)), rpt, SLOT(handleTSQL(quint16)));
connect(rig, SIGNAL(haveDTCS(quint16,bool,bool)), rpt, SLOT(handleDTCS(quint16,bool,bool)));
connect(rig, SIGNAL(haveRptAccessMode(rptAccessTxRx)), rpt, SLOT(handleRptAccessMode(rptAccessTxRx)));
connect(this, SIGNAL(getDuplexMode()), rig, SLOT(getDuplexMode()));
connect(this, SIGNAL(getTone()), rig, SLOT(getTone()));
connect(this, SIGNAL(getTSQL()), rig, SLOT(getTSQL()));
connect(this, SIGNAL(getRptAccessMode()), rig, SLOT(getRptAccessMode()));
//connect(this, SIGNAL(setDuplexMode(duplexMode)), rig, SLOT(setDuplexMode(duplexMode)));
//connect(rig, SIGNAL(haveDuplexMode(duplexMode)), this, SLOT(receiveDuplexMode(duplexMode)));
connect(this, SIGNAL(getModInput(bool)), rig, SLOT(getModInput(bool)));
connect(rig, SIGNAL(haveModInput(rigInput,bool)), this, SLOT(receiveModInput(rigInput, bool)));
connect(this, SIGNAL(setModInput(rigInput, bool)), rig, SLOT(setModInput(rigInput,bool)));
connect(rig, SIGNAL(haveSpectrumData(QByteArray, double, double)), this, SLOT(receiveSpectrumData(QByteArray, double, double)));
connect(rig, SIGNAL(haveSpectrumMode(spectrumMode)), this, SLOT(receiveSpectrumMode(spectrumMode)));
connect(this, SIGNAL(setScopeMode(spectrumMode)), rig, SLOT(setSpectrumMode(spectrumMode)));
connect(this, SIGNAL(getScopeMode()), rig, SLOT(getScopeMode()));
connect(this, SIGNAL(setFrequency(freqt)), rig, SLOT(setFrequency(freqt)));
connect(this, SIGNAL(setScopeEdge(char)), rig, SLOT(setScopeEdge(char)));
connect(this, SIGNAL(setScopeSpan(char)), rig, SLOT(setScopeSpan(char)));
//connect(this, SIGNAL(getScopeMode()), rig, SLOT(getScopeMode()));
connect(this, SIGNAL(getScopeEdge()), rig, SLOT(getScopeEdge()));
connect(this, SIGNAL(getScopeSpan()), rig, SLOT(getScopeSpan()));
connect(rig, SIGNAL(haveScopeSpan(freqt,bool)), this, SLOT(receiveSpectrumSpan(freqt,bool)));
connect(this, SIGNAL(setScopeFixedEdge(double,double,unsigned char)), rig, SLOT(setSpectrumBounds(double,double,unsigned char)));
connect(this, SIGNAL(setMode(unsigned char, unsigned char)), rig, SLOT(setMode(unsigned char, unsigned char)));
connect(this, SIGNAL(setMode(mode_info)), rig, SLOT(setMode(mode_info)));
// Levels (read and write)
// Levels: Query:
connect(this, SIGNAL(getLevels()), rig, SLOT(getLevels()));
connect(this, SIGNAL(getRfGain()), rig, SLOT(getRfGain()));
connect(this, SIGNAL(getAfGain()), rig, SLOT(getAfGain()));
connect(this, SIGNAL(getSql()), rig, SLOT(getSql()));
connect(this, SIGNAL(getTxPower()), rig, SLOT(getTxLevel()));
connect(this, SIGNAL(getMicGain()), rig, SLOT(getMicGain()));
connect(this, SIGNAL(getSpectrumRefLevel()), rig, SLOT(getSpectrumRefLevel()));
connect(this, SIGNAL(getModInputLevel(rigInput)), rig, SLOT(getModInputLevel(rigInput)));
// Levels: Set:
connect(this, SIGNAL(setRfGain(unsigned char)), rig, SLOT(setRfGain(unsigned char)));
connect(this, SIGNAL(setAfGain(unsigned char)), rig, SLOT(setAfGain(unsigned char)));
connect(this, SIGNAL(setSql(unsigned char)), rig, SLOT(setSquelch(unsigned char)));
connect(this, SIGNAL(setTxPower(unsigned char)), rig, SLOT(setTxPower(unsigned char)));
connect(this, SIGNAL(setMicGain(unsigned char)), rig, SLOT(setMicGain(unsigned char)));
connect(this, SIGNAL(setMonitorLevel(unsigned char)), rig, SLOT(setMonitorLevel(unsigned char)));
connect(this, SIGNAL(setVoxGain(unsigned char)), rig, SLOT(setVoxGain(unsigned char)));
connect(this, SIGNAL(setAntiVoxGain(unsigned char)), rig, SLOT(setAntiVoxGain(unsigned char)));
connect(this, SIGNAL(setSpectrumRefLevel(int)), rig, SLOT(setSpectrumRefLevel(int)));
connect(this, SIGNAL(setModLevel(rigInput, unsigned char)), rig, SLOT(setModInputLevel(rigInput, unsigned char)));
// Levels: handle return on query:
connect(rig, SIGNAL(haveRfGain(unsigned char)), this, SLOT(receiveRfGain(unsigned char)));
connect(rig, SIGNAL(haveAfGain(unsigned char)), this, SLOT(receiveAfGain(unsigned char)));
connect(rig, SIGNAL(haveSql(unsigned char)), this, SLOT(receiveSql(unsigned char)));
connect(rig, SIGNAL(haveTxPower(unsigned char)), this, SLOT(receiveTxPower(unsigned char)));
connect(rig, SIGNAL(haveMicGain(unsigned char)), this, SLOT(receiveMicGain(unsigned char)));
connect(rig, SIGNAL(haveSpectrumRefLevel(int)), this, SLOT(receiveSpectrumRefLevel(int)));
connect(rig, SIGNAL(haveACCGain(unsigned char,unsigned char)), this, SLOT(receiveACCGain(unsigned char,unsigned char)));
connect(rig, SIGNAL(haveUSBGain(unsigned char)), this, SLOT(receiveUSBGain(unsigned char)));
connect(rig, SIGNAL(haveLANGain(unsigned char)), this, SLOT(receiveLANGain(unsigned char)));
//Metering:
connect(this, SIGNAL(getMeters(meterKind)), rig, SLOT(getMeters(meterKind)));
connect(rig, SIGNAL(haveMeter(meterKind,unsigned char)), this, SLOT(receiveMeter(meterKind,unsigned char)));
// Rig and ATU info:
connect(this, SIGNAL(startATU()), rig, SLOT(startATU()));
connect(this, SIGNAL(setATU(bool)), rig, SLOT(setATU(bool)));
connect(this, SIGNAL(getATUStatus()), rig, SLOT(getATUStatus()));
connect(this, SIGNAL(getRigID()), rig, SLOT(getRigID()));
connect(rig, SIGNAL(haveATUStatus(unsigned char)), this, SLOT(receiveATUStatus(unsigned char)));
connect(rig, SIGNAL(haveRigID(rigCapabilities)), this, SLOT(receiveRigID(rigCapabilities)));
connect(this, SIGNAL(setAttenuator(unsigned char)), rig, SLOT(setAttenuator(unsigned char)));
connect(this, SIGNAL(setPreamp(unsigned char)), rig, SLOT(setPreamp(unsigned char)));
connect(this, SIGNAL(setAntenna(unsigned char, bool)), rig, SLOT(setAntenna(unsigned char, bool)));
connect(this, SIGNAL(getPreamp()), rig, SLOT(getPreamp()));
connect(rig, SIGNAL(havePreamp(unsigned char)), this, SLOT(receivePreamp(unsigned char)));
connect(this, SIGNAL(getAttenuator()), rig, SLOT(getAttenuator()));
connect(rig, SIGNAL(haveAttenuator(unsigned char)), this, SLOT(receiveAttenuator(unsigned char)));
connect(this, SIGNAL(getAntenna()), rig, SLOT(getAntenna()));
connect(rig, SIGNAL(haveAntenna(unsigned char,bool)), this, SLOT(receiveAntennaSel(unsigned char,bool)));
// Speech (emitted from rig speaker)
connect(this, SIGNAL(sayAll()), rig, SLOT(sayAll()));
connect(this, SIGNAL(sayFrequency()), rig, SLOT(sayFrequency()));
connect(this, SIGNAL(sayMode()), rig, SLOT(sayMode()));
// calibration window:
connect(cal, SIGNAL(requestRefAdjustCourse()), rig, SLOT(getRefAdjustCourse()));
connect(cal, SIGNAL(requestRefAdjustFine()), rig, SLOT(getRefAdjustFine()));
connect(rig, SIGNAL(haveRefAdjustCourse(unsigned char)), cal, SLOT(handleRefAdjustCourse(unsigned char)));
connect(rig, SIGNAL(haveRefAdjustFine(unsigned char)), cal, SLOT(handleRefAdjustFine(unsigned char)));
connect(cal, SIGNAL(setRefAdjustCourse(unsigned char)), rig, SLOT(setRefAdjustCourse(unsigned char)));
connect(cal, SIGNAL(setRefAdjustFine(unsigned char)), rig, SLOT(setRefAdjustFine(unsigned char)));
// Date and Time:
connect(this, SIGNAL(setTime(timekind)), rig, SLOT(setTime(timekind)));
connect(this, SIGNAL(setDate(datekind)), rig, SLOT(setDate(datekind)));
connect(this, SIGNAL(setUTCOffset(timekind)), rig, SLOT(setUTCOffset(timekind)));
}
//void wfmain::removeRigConnections()
//{
//}
void wfmain::makeRig()
{
if (rigThread == Q_NULLPTR)
{
rig = new rigCommander();
rigThread = new QThread(this);
// Thread:
rig->moveToThread(rigThread);
connect(rigThread, SIGNAL(started()), rig, SLOT(process()));
connect(rigThread, SIGNAL(finished()), rig, SLOT(deleteLater()));
rigThread->start();
// Rig status and Errors:
connect(rig, SIGNAL(haveSerialPortError(QString, QString)), this, SLOT(receiveSerialPortError(QString, QString)));
connect(rig, SIGNAL(haveStatusUpdate(QString)), this, SLOT(receiveStatusUpdate(QString)));
// Rig comm setup:
connect(this, SIGNAL(sendCommSetup(unsigned char, udpPreferences, audioSetup, audioSetup, QString)), rig, SLOT(commSetup(unsigned char, udpPreferences, audioSetup, audioSetup, QString)));
connect(this, SIGNAL(sendCommSetup(unsigned char, QString, quint32,QString)), rig, SLOT(commSetup(unsigned char, QString, quint32,QString)));
connect(rig, SIGNAL(haveBaudRate(quint32)), this, SLOT(receiveBaudRate(quint32)));
connect(this, SIGNAL(sendCloseComm()), rig, SLOT(closeComm()));
connect(this, SIGNAL(sendChangeLatency(quint16)), rig, SLOT(changeLatency(quint16)));
connect(this, SIGNAL(getRigCIV()), rig, SLOT(findRigs()));
connect(rig, SIGNAL(discoveredRigID(rigCapabilities)), this, SLOT(receiveFoundRigID(rigCapabilities)));
connect(rig, SIGNAL(commReady()), this, SLOT(receiveCommReady()));
if (rigCtl != Q_NULLPTR) {
connect(rig, SIGNAL(stateInfo(rigStateStruct*)), rigCtl, SLOT(receiveStateInfo(rigStateStruct*)));
connect(this, SIGNAL(requestRigState()), rig, SLOT(sendState()));
connect(rigCtl, SIGNAL(setFrequency(freqt)), rig, SLOT(setFrequency(freqt)));
connect(rigCtl, SIGNAL(setMode(unsigned char, unsigned char)), rig, SLOT(setMode(unsigned char, unsigned char)));
connect(rigCtl, SIGNAL(setDataMode(bool, unsigned char)), rig, SLOT(setDataMode(bool, unsigned char)));
connect(rigCtl, SIGNAL(setPTT(bool)), rig, SLOT(setPTT(bool)));
connect(rigCtl, SIGNAL(sendPowerOn()), rig, SLOT(powerOn()));
connect(rigCtl, SIGNAL(sendPowerOff()), rig, SLOT(powerOff()));
connect(rigCtl, SIGNAL(setAttenuator(unsigned char)), rig, SLOT(setAttenuator(unsigned char)));
connect(rigCtl, SIGNAL(setPreamp(unsigned char)), rig, SLOT(setPreamp(unsigned char)));
connect(rigCtl, SIGNAL(setDuplexMode(duplexMode)), rig, SLOT(setDuplexMode(duplexMode)));
// Levels: Set:
connect(rigCtl, SIGNAL(setRfGain(unsigned char)), rig, SLOT(setRfGain(unsigned char)));
connect(rigCtl, SIGNAL(setAfGain(unsigned char)), rig, SLOT(setAfGain(unsigned char)));
connect(rigCtl, SIGNAL(setSql(unsigned char)), rig, SLOT(setSquelch(unsigned char)));
connect(rigCtl, SIGNAL(setTxPower(unsigned char)), rig, SLOT(setTxPower(unsigned char)));
connect(rigCtl, SIGNAL(setMicGain(unsigned char)), rig, SLOT(setMicGain(unsigned char)));
connect(rigCtl, SIGNAL(setMonitorLevel(unsigned char)), rig, SLOT(setMonitorLevel(unsigned char)));
connect(rigCtl, SIGNAL(setVoxGain(unsigned char)), rig, SLOT(setVoxGain(unsigned char)));
connect(rigCtl, SIGNAL(setAntiVoxGain(unsigned char)), rig, SLOT(setAntiVoxGain(unsigned char)));
connect(rigCtl, SIGNAL(setSpectrumRefLevel(int)), rig, SLOT(setSpectrumRefLevel(int)));
}
}
}
void wfmain::removeRig()
{
if (rigThread != Q_NULLPTR)
{
if (rigCtl != Q_NULLPTR) {
rigCtl->disconnect();
}
rigThread->disconnect();
rig->disconnect();
delete rigThread;
delete rig;
rig = Q_NULLPTR;
}
}
void wfmain::findSerialPort()
{
// Find the ICOM radio connected, or, if none, fall back to OS default.
// qInfo(logSystem()) << "Searching for serial port...";
QDirIterator it73("/dev/serial/by-id", QStringList() << "*IC-7300*", QDir::Files, QDirIterator::Subdirectories);
QDirIterator it97("/dev/serial", QStringList() << "*IC-9700*A*", QDir::Files, QDirIterator::Subdirectories);
QDirIterator it785x("/dev/serial", QStringList() << "*IC-785*A*", QDir::Files, QDirIterator::Subdirectories);
QDirIterator it705("/dev/serial", QStringList() << "*IC-705*A", QDir::Files, QDirIterator::Subdirectories);
QDirIterator it7610("/dev/serial", QStringList() << "*IC-7610*A", QDir::Files, QDirIterator::Subdirectories);
QDirIterator itR8600("/dev/serial", QStringList() << "*IC-R8600*A", QDir::Files, QDirIterator::Subdirectories);
if(!it73.filePath().isEmpty())
{
// IC-7300
serialPortRig = it73.filePath(); // first
} else if(!it97.filePath().isEmpty())
{
// IC-9700
serialPortRig = it97.filePath();
} else if(!it785x.filePath().isEmpty())
{
// IC-785x
serialPortRig = it785x.filePath();
} else if(!it705.filePath().isEmpty())
{
// IC-705
serialPortRig = it705.filePath();
} else if(!it7610.filePath().isEmpty())
{
// IC-7610
serialPortRig = it7610.filePath();
} else if(!itR8600.filePath().isEmpty())
{
// IC-R8600
serialPortRig = itR8600.filePath();
} else {
//fall back:
qInfo(logSystem()) << "Could not find Icom serial port. Falling back to OS default. Use --port to specify, or modify preferences.";
#ifdef Q_OS_MAC
serialPortRig = QString("/dev/tty.SLAB_USBtoUART");
#endif
#ifdef Q_OS_LINUX
serialPortRig = QString("/dev/ttyUSB0");
#endif
#ifdef Q_OS_WIN
serialPortRig = QString("COM1");
#endif
}
}
void wfmain::receiveCommReady()
{
qInfo(logSystem()) << "Received CommReady!! ";
if(!usingLAN)
{
// usingLAN gets set when we emit the sendCommSetup signal.
// If we're not using the LAN, then we're on serial, and
// we already know the baud rate and can calculate the timing parameters.
calculateTimingParameters();
}
if(prefs.radioCIVAddr == 0)
{
// tell rigCommander to broadcast a request for all rig IDs.
// qInfo(logSystem()) << "Beginning search from wfview for rigCIV (auto-detection broadcast)";
ui->statusBar->showMessage(QString("Searching CI-V bus for connected radios."), 1000);
emit getRigCIV();
issueDelayedCommand(cmdGetRigCIV);
delayedCommand->start();
} else {
// don't bother, they told us the CIV they want, stick with it.
// We still query the rigID to find the model, but at least we know the CIV.
qInfo(logSystem()) << "Skipping automatic CIV, using user-supplied value of " << prefs.radioCIVAddr;
showStatusBarText(QString("Using user-supplied radio CI-V address of 0x%1").arg(prefs.radioCIVAddr, 2, 16));
emit getRigID();
getInitialRigState();
}
}
void wfmain::receiveFoundRigID(rigCapabilities rigCaps)
{
// Entry point for unknown rig being identified at the start of the program.
//now we know what the rig ID is:
//qInfo(logSystem()) << "In wfview, we now have a reply to our request for rig identity sent to CIV BROADCAST.";
if(rig->usingLAN())
{
usingLAN = true;
} else {
usingLAN = false;
}
receiveRigID(rigCaps);
getInitialRigState();
return;
}
void wfmain::receiveSerialPortError(QString port, QString errorText)
{
qInfo(logSystem()) << "wfmain: received serial port error for port: " << port << " with message: " << errorText;
ui->statusBar->showMessage(QString("ERROR: using port ").append(port).append(": ").append(errorText), 10000);
// TODO: Dialog box, exit, etc
}
void wfmain::receiveStatusUpdate(QString text)
{
this->rigStatus->setText(text);
}
void wfmain::setupPlots()
{
// Line 290--
spectrumDrawLock = true;
plot = ui->plot; // rename it waterfall.
wf = ui->waterfall;
freqIndicatorLine = new QCPItemLine(plot);
freqIndicatorLine->setAntialiased(true);
freqIndicatorLine->setPen(QPen(Qt::blue));
//
ui->plot->addGraph(); // primary
ui->plot->addGraph(0, 0); // secondary, peaks, same axis as first?
ui->waterfall->addGraph();
colorMap = new QCPColorMap(wf->xAxis, wf->yAxis);
colorMapData = NULL;
#if QCUSTOMPLOT_VERSION < 0x020001
wf->addPlottable(colorMap);
#endif
colorScale = new QCPColorScale(wf);
ui->tabWidget->setCurrentIndex(0);
QColor color(20+200/4.0*1,70*(1.6-1/4.0), 150, 150);
plot->graph(1)->setLineStyle(QCPGraph::lsLine);
plot->graph(1)->setPen(QPen(color.lighter(200)));
plot->graph(1)->setBrush(QBrush(color));
freqIndicatorLine->start->setCoords(0.5,0);
freqIndicatorLine->end->setCoords(0.5,160);
// Plot user interaction
connect(plot, SIGNAL(mouseDoubleClick(QMouseEvent*)), this, SLOT(handlePlotDoubleClick(QMouseEvent*)));
connect(wf, SIGNAL(mouseDoubleClick(QMouseEvent*)), this, SLOT(handleWFDoubleClick(QMouseEvent*)));
connect(plot, SIGNAL(mousePress(QMouseEvent*)), this, SLOT(handlePlotClick(QMouseEvent*)));
connect(wf, SIGNAL(mousePress(QMouseEvent*)), this, SLOT(handleWFClick(QMouseEvent*)));
connect(wf, SIGNAL(mouseWheel(QWheelEvent*)), this, SLOT(handleWFScroll(QWheelEvent*)));
connect(plot, SIGNAL(mouseWheel(QWheelEvent*)), this, SLOT(handlePlotScroll(QWheelEvent*)));
spectrumDrawLock = false;
}
void wfmain::setupMainUI()
{
ui->bandStkLastUsedBtn->setVisible(false);
ui->bandStkVoiceBtn->setVisible(false);
ui->bandStkDataBtn->setVisible(false);
ui->bandStkCWBtn->setVisible(false);
ui->baudRateCombo->insertItem(0, QString("115200"), 115200);
ui->baudRateCombo->insertItem(1, QString("57600"), 57600);
ui->baudRateCombo->insertItem(2, QString("38400"), 38400);
ui->baudRateCombo->insertItem(3, QString("28800"), 28800);
ui->baudRateCombo->insertItem(4, QString("19200"), 19200);
ui->baudRateCombo->insertItem(5, QString("9600"), 9600);
ui->baudRateCombo->insertItem(6, QString("4800"), 4800);
ui->baudRateCombo->insertItem(7, QString("2400"), 2400);
ui->baudRateCombo->insertItem(8, QString("1200"), 1200);
ui->baudRateCombo->insertItem(9, QString("300"), 300);
ui->spectrumModeCombo->addItem("Center", (spectrumMode)spectModeCenter);
ui->spectrumModeCombo->addItem("Fixed", (spectrumMode)spectModeFixed);
ui->spectrumModeCombo->addItem("Scroll-C", (spectrumMode)spectModeScrollC);
ui->spectrumModeCombo->addItem("Scroll-F", (spectrumMode)spectModeScrollF);
ui->modeSelectCombo->addItem("LSB", 0x00);
ui->modeSelectCombo->addItem("USB", 0x01);
ui->modeSelectCombo->addItem("FM", 0x05);
ui->modeSelectCombo->addItem("AM", 0x02);
ui->modeSelectCombo->addItem("CW", 0x03);
ui->modeSelectCombo->addItem("CW-R", 0x07);
ui->modeSelectCombo->addItem("RTTY", 0x04);
ui->modeSelectCombo->addItem("RTTY-R", 0x08);
ui->modeFilterCombo->addItem("1", 1);
ui->modeFilterCombo->addItem("2", 2);
ui->modeFilterCombo->addItem("3", 3);
ui->modeFilterCombo->addItem("Setup...", 99);
ui->tuningStepCombo->blockSignals(true);
ui->tuningStepCombo->addItem("1 Hz", (unsigned int) 1);
ui->tuningStepCombo->addItem("10 Hz", (unsigned int) 10);
ui->tuningStepCombo->addItem("100 Hz", (unsigned int) 100);
ui->tuningStepCombo->addItem("1 kHz", (unsigned int) 1000);
ui->tuningStepCombo->addItem("2.5 kHz", (unsigned int) 2500);
ui->tuningStepCombo->addItem("5 kHz", (unsigned int) 5000);
ui->tuningStepCombo->addItem("6.125 kHz", (unsigned int) 6125); // PMR
ui->tuningStepCombo->addItem("8.333 kHz", (unsigned int) 8333); // airband stepsize
ui->tuningStepCombo->addItem("9 kHz", (unsigned int) 9000); // European medium wave stepsize
ui->tuningStepCombo->addItem("10 kHz", (unsigned int) 10000);
ui->tuningStepCombo->addItem("12.5 kHz", (unsigned int) 12500);
ui->tuningStepCombo->addItem("100 kHz", (unsigned int) 100000);
ui->tuningStepCombo->addItem("250 kHz", (unsigned int) 250000);
ui->tuningStepCombo->addItem("1 MHz", (unsigned int) 1000000); //for 23 cm and HF
ui->tuningStepCombo->setCurrentIndex(2);
ui->tuningStepCombo->blockSignals(false);
ui->wfthemeCombo->addItem("Jet", QCPColorGradient::gpJet);
ui->wfthemeCombo->addItem("Cold", QCPColorGradient::gpCold);
ui->wfthemeCombo->addItem("Hot", QCPColorGradient::gpHot);
ui->wfthemeCombo->addItem("Thermal", QCPColorGradient::gpThermal);
ui->wfthemeCombo->addItem("Night", QCPColorGradient::gpNight);
ui->wfthemeCombo->addItem("Ion", QCPColorGradient::gpIon);
ui->wfthemeCombo->addItem("Gray", QCPColorGradient::gpGrayscale);
ui->wfthemeCombo->addItem("Geography", QCPColorGradient::gpGeography);
ui->wfthemeCombo->addItem("Hues", QCPColorGradient::gpHues);
ui->wfthemeCombo->addItem("Polar", QCPColorGradient::gpPolar);
ui->wfthemeCombo->addItem("Spectrum", QCPColorGradient::gpSpectrum);
ui->wfthemeCombo->addItem("Candy", QCPColorGradient::gpCandy);
ui->meter2selectionCombo->addItem("None", meterNone);
ui->meter2selectionCombo->addItem("SWR", meterSWR);
ui->meter2selectionCombo->addItem("ALC", meterALC);
ui->meter2selectionCombo->addItem("Compression", meterComp);
ui->meter2selectionCombo->addItem("Voltage", meterVoltage);
ui->meter2selectionCombo->addItem("Current", meterCurrent);
ui->meter2selectionCombo->addItem("Center", meterCenter);
ui->meter2Widget->hide();
#ifdef QT_DEBUG
// Experimental feature:
ui->meter2selectionCombo->show();
ui->secondaryMeterSelectionLabel->show();
#else
ui->meter2selectionCombo->hide();
ui->secondaryMeterSelectionLabel->hide();
#endif
// Future ideas:
//ui->meter2selectionCombo->addItem("Transmit Audio", meterTxMod);
//ui->meter2selectionCombo->addItem("Receive Audio", meterRxAudio);
//ui->meter2selectionCombo->addItem("Latency", meterLatency);
spans << "2.5k" << "5.0k" << "10k" << "25k";
spans << "50k" << "100k" << "250k" << "500k";
ui->scopeBWCombo->insertItems(0, spans);
edges << "1" << "2" << "3" << "4";
ui->scopeEdgeCombo->insertItems(0, edges);
ui->splitter->setHandleWidth(5);
// Set scroll wheel response (tick interval)
// and set arrow key response (single step)
ui->rfGainSlider->setTickInterval(100);
ui->rfGainSlider->setSingleStep(10);
ui->afGainSlider->setTickInterval(100);
ui->afGainSlider->setSingleStep(10);
ui->sqlSlider->setTickInterval(100);
ui->sqlSlider->setSingleStep(10);
ui->txPowerSlider->setTickInterval(100);
ui->txPowerSlider->setSingleStep(10);
ui->micGainSlider->setTickInterval(100);
ui->micGainSlider->setSingleStep(10);
ui->scopeRefLevelSlider->setTickInterval(50);
ui->scopeRefLevelSlider->setSingleStep(20);
ui->freqMhzLineEdit->setValidator( new QDoubleValidator(0, 100, 6, this));
ui->controlPortTxt->setValidator(new QIntValidator(this));
qDebug(logSystem()) << "Running with debugging options enabled.";
#ifdef QT_DEBUG
ui->debugBtn->setVisible(true);
ui->satOpsBtn->setVisible(true);
#else
ui->debugBtn->setVisible(false);
ui->satOpsBtn->setVisible(false);
#endif
rigStatus = new QLabel(this);
ui->statusBar->addPermanentWidget(rigStatus);
ui->statusBar->showMessage("Connecting to rig...", 1000);
pttLed = new QLedLabel(this);
ui->statusBar->addPermanentWidget(pttLed);
pttLed->setState(QLedLabel::State::StateOk);
connectedLed = new QLedLabel(this);
ui->statusBar->addPermanentWidget(connectedLed);
rigName = new QLabel(this);
ui->statusBar->addPermanentWidget(rigName);
rigName->setText("NONE");
rigName->setFixedWidth(50);
freq.MHzDouble = 0.0;
freq.Hz = 0;
oldFreqDialVal = ui->freqDial->value();
ui->tuneLockChk->setChecked(false);
freqLock = false;
connect(ui->tabWidget, SIGNAL(currentChanged(int)), this, SLOT(updateSizes(int)));
connect(
ui->txPowerSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderPercent("Tx Power", newValue);}
);
connect(
ui->rfGainSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderPercent("RF Gain", newValue);}
);
connect(
ui->afGainSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderPercent("AF Gain", newValue);}
);
connect(
ui->micGainSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderPercent("TX Audio Gain", newValue);}
);
connect(
ui->sqlSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderPercent("Squelch", newValue);}
);
// -200 0 +200.. take log?
connect(
ui->scopeRefLevelSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderRaw("Scope Ref Level", newValue);}
);
connect(
ui->wfLengthSlider, &QSlider::valueChanged,
[=](const int &newValue) { statusFromSliderRaw("Waterfall Length", newValue);}
);
}
void wfmain::updateSizes(int tabIndex)
{
if(!haveRigCaps)
return;
// This function does nothing unless you are using a rig without spectrum.
// This is a hack. It is not great, but it seems to work ok.
if(!rigCaps.hasSpectrum)
{
// Set "ignore" size policy for non-selected tabs:
for(int i=0;i<ui->tabWidget->count();i++)
if((i!=tabIndex) && tabIndex != 0)
ui->tabWidget->widget(i)->setSizePolicy(QSizePolicy::Ignored, QSizePolicy::Ignored); // allows size to be any size that fits the tab bar
if(tabIndex==0 && !rigCaps.hasSpectrum)
{
ui->tabWidget->widget(0)->setSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum);
ui->tabWidget->widget(0)->setMaximumSize(ui->tabWidget->widget(0)->minimumSizeHint());
ui->tabWidget->widget(0)->adjustSize(); // tab
this->setSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum);
this->setMaximumSize(QSize(929, 270));
this->setMinimumSize(QSize(929, 270));
resize(minimumSize());
adjustSize(); // main window
adjustSize();
} else if(tabIndex==0 && rigCaps.hasSpectrum) {
// At main tab (0) and we have spectrum:
ui->tabWidget->widget(0)->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding);
resize(minimumSizeHint());
adjustSize(); // Without this call, the window retains the size of the previous tab.
} else {
// At some other tab, with or without spectrum:
ui->tabWidget->widget(tabIndex)->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding);
this->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred);
this->setMinimumSize(QSize(994, 455)); // not large enough for settings tab
this->setMaximumSize(QSize(65535,65535));
}
} else {
ui->tabWidget->widget(tabIndex)->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding);
ui->tabWidget->widget(tabIndex)->setMaximumSize(65535,65535);
//ui->tabWidget->widget(0)->setMinimumSize();
}
}
void wfmain::getSettingsFilePath(QString settingsFile)
{
if (settingsFile.isNull()) {
settings = new QSettings();
}
else
{
QString file = settingsFile;
QFile info(settingsFile);
QString path="";
if (!QFileInfo(info).isAbsolute())
{
path = QStandardPaths::writableLocation(QStandardPaths::AppDataLocation);
if (path.isEmpty())
{
path = QDir::homePath();
}
path = path + "/";
file = info.fileName();
}
qInfo(logSystem()) << "Loading settings from:" << path + file;
settings = new QSettings(path + file, QSettings::Format::IniFormat);
}
}
void wfmain::setInitialTiming()
{
loopTickCounter = 0;
delayedCmdIntervalLAN_ms = 70; // interval for regular delayed commands, including initial rig/UI state queries
delayedCmdIntervalSerial_ms = 100; // interval for regular delayed commands, including initial rig/UI state queries
delayedCmdStartupInterval_ms = 250; // interval for rigID polling
delayedCommand = new QTimer(this);
delayedCommand->setInterval(delayedCmdStartupInterval_ms); // 250ms until we find rig civ and id, then 100ms.
delayedCommand->setSingleShot(false);
connect(delayedCommand, SIGNAL(timeout()), this, SLOT(sendRadioCommandLoop()));
// TODO: Remove this:
// periodicPollingTimer = new QTimer(this);
// periodicPollingTimer->setInterval(10);
// periodicPollingTimer->setSingleShot(false);
//connect(periodicPollingTimer, SIGNAL(timeout()), this, SLOT(sendRadioCommandLoop()));
pttTimer = new QTimer(this);
pttTimer->setInterval(180*1000); // 3 minute max transmit time in ms
pttTimer->setSingleShot(true);
connect(pttTimer, SIGNAL(timeout()), this, SLOT(handlePttLimit()));
timeSync = new QTimer(this);
connect(timeSync, SIGNAL(timeout()), this, SLOT(setRadioTimeDateSend()));
waitingToSetTimeDate = false;
lastFreqCmdTime_ms = QDateTime::currentMSecsSinceEpoch() - 5000; // 5 seconds ago
}
void wfmain::setServerToPrefs()
{
// Start server if enabled in config
if (serverConfig.enabled) {
serverConfig.lan = prefs.enableLAN;
udp = new udpServer(serverConfig,rxSetup,txSetup);
serverThread = new QThread(this);
udp->moveToThread(serverThread);
connect(this, SIGNAL(initServer()), udp, SLOT(init()));
connect(serverThread, SIGNAL(finished()), udp, SLOT(deleteLater()));
if (!prefs.enableLAN && udp != Q_NULLPTR) {
connect(udp, SIGNAL(haveNetworkStatus(QString)), this, SLOT(receiveStatusUpdate(QString)));
}
serverThread->start();
emit initServer();
connect(this, SIGNAL(sendRigCaps(rigCapabilities)), udp, SLOT(receiveRigCaps(rigCapabilities)));
}
}
void wfmain::setUIToPrefs()
{
ui->fullScreenChk->setChecked(prefs.useFullScreen);
on_fullScreenChk_clicked(prefs.useFullScreen);
ui->useDarkThemeChk->setChecked(prefs.useDarkMode);
on_useDarkThemeChk_clicked(prefs.useDarkMode);
ui->useSystemThemeChk->setChecked(prefs.useSystemTheme);
on_useSystemThemeChk_clicked(prefs.useSystemTheme);
ui->drawPeakChk->setChecked(prefs.drawPeaks);
on_drawPeakChk_clicked(prefs.drawPeaks);
drawPeaks = prefs.drawPeaks;
ui->wfAntiAliasChk->setChecked(prefs.wfAntiAlias);
on_wfAntiAliasChk_clicked(prefs.wfAntiAlias);
ui->wfInterpolateChk->setChecked(prefs.wfInterpolate);
on_wfInterpolateChk_clicked(prefs.wfInterpolate);
ui->wfLengthSlider->setValue(prefs.wflength);
prepareWf(prefs.wflength);
ui->wfthemeCombo->setCurrentIndex(ui->wfthemeCombo->findData(prefs.wftheme));
colorMap->setGradient(static_cast<QCPColorGradient::GradientPreset>(prefs.wftheme));
}
void wfmain::setAudioDevicesUI()
{
#if defined(RTAUDIO)
#if defined(Q_OS_LINUX)
RtAudio* audio = new RtAudio(RtAudio::Api::LINUX_ALSA);
#elif defined(Q_OS_WIN)
RtAudio* audio = new RtAudio(RtAudio::Api::WINDOWS_WASAPI);
#elif defined(Q_OS_MACX)
RtAudio* audio = new RtAudio(RtAudio::Api::MACOSX_CORE);
#endif
// Enumerate audio devices, need to do before settings are loaded.
std::map<int, std::string> apiMap;
apiMap[RtAudio::MACOSX_CORE] = "OS-X Core Audio";
apiMap[RtAudio::WINDOWS_ASIO] = "Windows ASIO";
apiMap[RtAudio::WINDOWS_DS] = "Windows DirectSound";
apiMap[RtAudio::WINDOWS_WASAPI] = "Windows WASAPI";
apiMap[RtAudio::UNIX_JACK] = "Jack Client";
apiMap[RtAudio::LINUX_ALSA] = "Linux ALSA";
apiMap[RtAudio::LINUX_PULSE] = "Linux PulseAudio";
apiMap[RtAudio::LINUX_OSS] = "Linux OSS";
apiMap[RtAudio::RTAUDIO_DUMMY] = "RtAudio Dummy";
std::vector< RtAudio::Api > apis;
RtAudio::getCompiledApi(apis);
qInfo(logAudio()) << "RtAudio Version " << QString::fromStdString(RtAudio::getVersion());
qInfo(logAudio()) << "Compiled APIs:";
for (unsigned int i = 0; i < apis.size(); i++) {
qInfo(logAudio()) << " " << QString::fromStdString(apiMap[apis[i]]);
}
RtAudio::DeviceInfo info;
qInfo(logAudio()) << "Current API: " << QString::fromStdString(apiMap[audio->getCurrentApi()]);
unsigned int devices = audio->getDeviceCount();
qInfo(logAudio()) << "Found " << devices << " audio device(s) *=default";
for (unsigned int i = 1; i < devices; i++) {
info = audio->getDeviceInfo(i);
if (info.outputChannels > 0) {
qInfo(logAudio()) << (info.isDefaultOutput ? "*" : " ") << "(" << i << ") Output Device : " << QString::fromStdString(info.name);
ui->audioOutputCombo->addItem(QString::fromStdString(info.name), i);
}
if (info.inputChannels > 0) {
qInfo(logAudio()) << (info.isDefaultInput ? "*" : " ") << "(" << i << ") Input Device : " << QString::fromStdString(info.name);
ui->audioInputCombo->addItem(QString::fromStdString(info.name), i);
}
}
delete audio;
#elif defined(PORTAUDIO)
// Use PortAudio device enumeration
#else
// If no external library is configured, use QTMultimedia
// Enumerate audio devices, need to do before settings are loaded.
const auto audioOutputs = QAudioDeviceInfo::availableDevices(QAudio::AudioOutput);
for (const QAudioDeviceInfo& deviceInfo : audioOutputs) {
ui->audioOutputCombo->addItem(deviceInfo.deviceName(), QVariant::fromValue(deviceInfo));
}
const auto audioInputs = QAudioDeviceInfo::availableDevices(QAudio::AudioInput);
for (const QAudioDeviceInfo& deviceInfo : audioInputs) {
ui->audioInputCombo->addItem(deviceInfo.deviceName(), QVariant::fromValue(deviceInfo));
}
// Set these to default audio devices initially.
rxSetup.port = QAudioDeviceInfo::defaultOutputDevice();
txSetup.port = QAudioDeviceInfo::defaultInputDevice();
#endif
}
void wfmain::setSerialDevicesUI()
{
ui->serialDeviceListCombo->blockSignals(true);
ui->serialDeviceListCombo->addItem("Auto", 0);
int i = 0;
foreach(const QSerialPortInfo & serialPortInfo, QSerialPortInfo::availablePorts())
{
portList.append(serialPortInfo.portName());
#if defined(Q_OS_LINUX) || defined(Q_OS_MAC)
ui->serialDeviceListCombo->addItem(QString("/dev/")+serialPortInfo.portName(), i++);
#else
ui->serialDeviceListCombo->addItem(serialPortInfo.portName(), i++);
#endif
}
#if defined(Q_OS_LINUX) || defined(Q_OS_MAC)
ui->serialDeviceListCombo->addItem("Manual...", 256);
#endif
ui->serialDeviceListCombo->blockSignals(false);
ui->vspCombo->blockSignals(true);
#ifdef Q_OS_WIN
ui->vspCombo->addItem(QString("None"), i++);
foreach(const QSerialPortInfo & serialPortInfo, QSerialPortInfo::availablePorts())
{
ui->vspCombo->addItem(serialPortInfo.portName());
}
#else
// Provide reasonable names for the symbolic link to the pty device
#ifdef Q_OS_MAC
QString vspName = QStandardPaths::standardLocations(QStandardPaths::DownloadLocation)[0] + "/rig-pty";
#else
QString vspName=QDir::homePath()+"/rig-pty";
#endif
for (i=1;i<8;i++) {
ui->vspCombo->addItem(vspName + QString::number(i));
if (QFile::exists(vspName+QString::number(i))) {
auto * model = qobject_cast<QStandardItemModel*>(ui->vspCombo->model());
auto *item = model->item(ui->vspCombo->count()-1);
item->setEnabled(false);
}
}
ui->vspCombo->addItem(vspName+QString::number(i));
ui->vspCombo->addItem(QString("None"), i++);
#endif
ui->vspCombo->setEditable(true);
ui->vspCombo->blockSignals(false);
}
void wfmain::setupKeyShortcuts()
{
keyF1 = new QShortcut(this);
keyF1->setKey(Qt::Key_F1);
connect(keyF1, SIGNAL(activated()), this, SLOT(shortcutF1()));
keyF2 = new QShortcut(this);
keyF2->setKey(Qt::Key_F2);
connect(keyF2, SIGNAL(activated()), this, SLOT(shortcutF2()));
keyF3 = new QShortcut(this);
keyF3->setKey(Qt::Key_F3);
connect(keyF3, SIGNAL(activated()), this, SLOT(shortcutF3()));
keyF4 = new QShortcut(this);
keyF4->setKey(Qt::Key_F4);
connect(keyF4, SIGNAL(activated()), this, SLOT(shortcutF4()));
keyF5 = new QShortcut(this);
keyF5->setKey(Qt::Key_F5);
connect(keyF5, SIGNAL(activated()), this, SLOT(shortcutF5()));
keyF6 = new QShortcut(this);
keyF6->setKey(Qt::Key_F6);
connect(keyF6, SIGNAL(activated()), this, SLOT(shortcutF6()));
keyF7 = new QShortcut(this);
keyF7->setKey(Qt::Key_F7);
connect(keyF7, SIGNAL(activated()), this, SLOT(shortcutF7()));
keyF8 = new QShortcut(this);
keyF8->setKey(Qt::Key_F8);
connect(keyF8, SIGNAL(activated()), this, SLOT(shortcutF8()));
keyF9 = new QShortcut(this);
keyF9->setKey(Qt::Key_F9);
connect(keyF9, SIGNAL(activated()), this, SLOT(shortcutF9()));
keyF10 = new QShortcut(this);
keyF10->setKey(Qt::Key_F10);
connect(keyF10, SIGNAL(activated()), this, SLOT(shortcutF10()));
keyF11 = new QShortcut(this);
keyF11->setKey(Qt::Key_F11);
connect(keyF11, SIGNAL(activated()), this, SLOT(shortcutF11()));
keyF12 = new QShortcut(this);
keyF12->setKey(Qt::Key_F12);
connect(keyF12, SIGNAL(activated()), this, SLOT(shortcutF12()));
keyControlT = new QShortcut(this);
keyControlT->setKey(Qt::CTRL + Qt::Key_T);
connect(keyControlT, SIGNAL(activated()), this, SLOT(shortcutControlT()));
keyControlR = new QShortcut(this);
keyControlR->setKey(Qt::CTRL + Qt::Key_R);
connect(keyControlR, SIGNAL(activated()), this, SLOT(shortcutControlR()));
keyControlI = new QShortcut(this);
keyControlI->setKey(Qt::CTRL + Qt::Key_I);
connect(keyControlI, SIGNAL(activated()), this, SLOT(shortcutControlI()));
keyControlU = new QShortcut(this);
keyControlU->setKey(Qt::CTRL + Qt::Key_U);
connect(keyControlU, SIGNAL(activated()), this, SLOT(shortcutControlU()));
keyStar = new QShortcut(this);
keyStar->setKey(Qt::Key_Asterisk);
connect(keyStar, SIGNAL(activated()), this, SLOT(shortcutStar()));
keySlash = new QShortcut(this);
keySlash->setKey(Qt::Key_Slash);
connect(keySlash, SIGNAL(activated()), this, SLOT(shortcutSlash()));
keyMinus = new QShortcut(this);
keyMinus->setKey(Qt::Key_Minus);
connect(keyMinus, SIGNAL(activated()), this, SLOT(shortcutMinus()));
keyPlus = new QShortcut(this);
keyPlus->setKey(Qt::Key_Plus);
connect(keyPlus, SIGNAL(activated()), this, SLOT(shortcutPlus()));
keyShiftMinus = new QShortcut(this);
keyShiftMinus->setKey(Qt::SHIFT + Qt::Key_Minus);
connect(keyShiftMinus, SIGNAL(activated()), this, SLOT(shortcutShiftMinus()));
keyShiftPlus = new QShortcut(this);
keyShiftPlus->setKey(Qt::SHIFT + Qt::Key_Plus);
connect(keyShiftPlus, SIGNAL(activated()), this, SLOT(shortcutShiftPlus()));
keyControlMinus = new QShortcut(this);
keyControlMinus->setKey(Qt::CTRL + Qt::Key_Minus);
connect(keyControlMinus, SIGNAL(activated()), this, SLOT(shortcutControlMinus()));
keyControlPlus = new QShortcut(this);
keyControlPlus->setKey(Qt::CTRL + Qt::Key_Plus);
connect(keyControlPlus, SIGNAL(activated()), this, SLOT(shortcutControlPlus()));
keyQuit = new QShortcut(this);
keyQuit->setKey(Qt::CTRL + Qt::Key_Q);
connect(keyQuit, SIGNAL(activated()), this, SLOT(on_exitBtn_clicked()));
keyPageUp = new QShortcut(this);
keyPageUp->setKey(Qt::Key_PageUp);
connect(keyPageUp, SIGNAL(activated()), this, SLOT(shortcutPageUp()));
keyPageDown = new QShortcut(this);
keyPageDown->setKey(Qt::Key_PageDown);
connect(keyPageDown, SIGNAL(activated()), this, SLOT(shortcutPageDown()));
keyF = new QShortcut(this);
keyF->setKey(Qt::Key_F);
connect(keyF, SIGNAL(activated()), this, SLOT(shortcutF()));
keyM = new QShortcut(this);
keyM->setKey(Qt::Key_M);
connect(keyM, SIGNAL(activated()), this, SLOT(shortcutM()));
keyDebug = new QShortcut(this);
keyDebug->setKey(Qt::CTRL + Qt::SHIFT + Qt::Key_D);
connect(keyDebug, SIGNAL(activated()), this, SLOT(on_debugBtn_clicked()));
}
void wfmain::setDefPrefs()
{
defPrefs.useFullScreen = false;
defPrefs.useDarkMode = true;
defPrefs.useSystemTheme = false;
defPrefs.drawPeaks = true;
defPrefs.wfAntiAlias = false;
defPrefs.wfInterpolate = true;
defPrefs.stylesheetPath = QString("qdarkstyle/style.qss");
defPrefs.radioCIVAddr = 0x00; // previously was 0x94 for 7300.
defPrefs.serialPortRadio = QString("auto");
defPrefs.serialPortBaud = 115200;
defPrefs.enablePTT = false;
defPrefs.niceTS = true;
defPrefs.enableRigCtlD = false;
defPrefs.rigCtlPort = 4533;
defPrefs.virtualSerialPort = QString("none");
defPrefs.localAFgain = 255;
defPrefs.wflength = 160;
defPrefs.wftheme = static_cast<int>(QCPColorGradient::gpJet);
defPrefs.confirmExit = true;
defPrefs.confirmPowerOff = true;
udpDefPrefs.ipAddress = QString("");
udpDefPrefs.controlLANPort = 50001;
udpDefPrefs.serialLANPort = 50002;
udpDefPrefs.audioLANPort = 50003;
udpDefPrefs.username = QString("");
udpDefPrefs.password = QString("");
udpDefPrefs.clientName = QHostInfo::localHostName();
}
void wfmain::loadSettings()
{
qInfo(logSystem()) << "Loading settings from " << settings->fileName();
// Basic things to load:
// UI: (full screen, dark theme, draw peaks, colors, etc)
settings->beginGroup("Interface");
prefs.useFullScreen = settings->value("UseFullScreen", defPrefs.useFullScreen).toBool();
prefs.useDarkMode = settings->value("UseDarkMode", defPrefs.useDarkMode).toBool();
prefs.useSystemTheme = settings->value("UseSystemTheme", defPrefs.useSystemTheme).toBool();
prefs.wftheme = settings->value("WFTheme", defPrefs.wftheme).toInt();
prefs.drawPeaks = settings->value("DrawPeaks", defPrefs.drawPeaks).toBool();
prefs.wfAntiAlias = settings->value("WFAntiAlias", defPrefs.wfAntiAlias).toBool();
prefs.wfInterpolate = settings->value("WFInterpolate", defPrefs.wfInterpolate).toBool();
prefs.wflength = (unsigned int) settings->value("WFLength", defPrefs.wflength).toInt();
prefs.stylesheetPath = settings->value("StylesheetPath", defPrefs.stylesheetPath).toString();
ui->splitter->restoreState(settings->value("splitter").toByteArray());
restoreGeometry(settings->value("windowGeometry").toByteArray());
restoreState(settings->value("windowState").toByteArray());
setWindowState(Qt::WindowActive); // Works around QT bug to returns window+keyboard focus.
prefs.confirmExit = settings->value("ConfirmExit", defPrefs.confirmExit).toBool();
prefs.confirmPowerOff = settings->value("ConfirmPowerOff", defPrefs.confirmPowerOff).toBool();
settings->endGroup();
// Load color schemes:
// Per this bug: https://forum.qt.io/topic/24725/solved-qvariant-will-drop-alpha-value-when-save-qcolor/5
// the alpha channel is dropped when converting raw qvariant of QColor. Therefore, we are storing as unsigned int and converting back.
settings->beginGroup("DarkColors");
prefs.colorScheme.Dark_PlotBackground = QColor::fromRgba(settings->value("Dark_PlotBackground", defaultColors.Dark_PlotBackground.rgba()).toUInt());
prefs.colorScheme.Dark_PlotAxisPen = QColor::fromRgba(settings->value("Dark_PlotAxisPen", defaultColors.Dark_PlotAxisPen.rgba()).toUInt());
prefs.colorScheme.Dark_PlotLegendTextColor = QColor::fromRgba(settings->value("Dark_PlotLegendTextColor", defaultColors.Dark_PlotLegendTextColor.rgba()).toUInt());
prefs.colorScheme.Dark_PlotLegendBorderPen = QColor::fromRgba(settings->value("Dark_PlotLegendBorderPen", defaultColors.Dark_PlotLegendBorderPen.rgba()).toUInt());
prefs.colorScheme.Dark_PlotLegendBrush = QColor::fromRgba(settings->value("Dark_PlotLegendBrush", defaultColors.Dark_PlotLegendBrush.rgba()).toUInt());
prefs.colorScheme.Dark_PlotTickLabel = QColor::fromRgba(settings->value("Dark_PlotTickLabel", defaultColors.Dark_PlotTickLabel.rgba()).toUInt());
prefs.colorScheme.Dark_PlotBasePen = QColor::fromRgba(settings->value("Dark_PlotBasePen", defaultColors.Dark_PlotBasePen.rgba()).toUInt());
prefs.colorScheme.Dark_PlotTickPen = QColor::fromRgba(settings->value("Dark_PlotTickPen", defaultColors.Dark_PlotTickPen.rgba()).toUInt());
prefs.colorScheme.Dark_PeakPlotLine = QColor::fromRgba(settings->value("Dark_PeakPlotLine", defaultColors.Dark_PeakPlotLine.rgba()).toUInt());
prefs.colorScheme.Dark_TuningLine = QColor::fromRgba(settings->value("Dark_TuningLine", defaultColors.Dark_TuningLine.rgba()).toUInt());
settings->endGroup();
settings->beginGroup("LightColors");
prefs.colorScheme.Light_PlotBackground = QColor::fromRgba(settings->value("Light_PlotBackground", defaultColors.Light_PlotBackground.rgba()).toUInt());
prefs.colorScheme.Light_PlotAxisPen = QColor::fromRgba(settings->value("Light_PlotAxisPen", defaultColors.Light_PlotAxisPen.rgba()).toUInt());
prefs.colorScheme.Light_PlotLegendTextColor = QColor::fromRgba(settings->value("Light_PlotLegendTextColo", defaultColors.Light_PlotLegendTextColor.rgba()).toUInt());
prefs.colorScheme.Light_PlotLegendBorderPen = QColor::fromRgba(settings->value("Light_PlotLegendBorderPen", defaultColors.Light_PlotLegendBorderPen.rgba()).toUInt());
prefs.colorScheme.Light_PlotLegendBrush = QColor::fromRgba(settings->value("Light_PlotLegendBrush", defaultColors.Light_PlotLegendBrush.rgba()).toUInt());
prefs.colorScheme.Light_PlotTickLabel = QColor::fromRgba(settings->value("Light_PlotTickLabel", defaultColors.Light_PlotTickLabel.rgba()).toUInt());
prefs.colorScheme.Light_PlotBasePen = QColor::fromRgba(settings->value("Light_PlotBasePen", defaultColors.Light_PlotBasePen.rgba()).toUInt());
prefs.colorScheme.Light_PlotTickPen = QColor::fromRgba(settings->value("Light_PlotTickPen", defaultColors.Light_PlotTickPen.rgba()).toUInt());
prefs.colorScheme.Light_PeakPlotLine = QColor::fromRgba(settings->value("Light_PeakPlotLine", defaultColors.Light_PeakPlotLine.rgba()).toUInt());
prefs.colorScheme.Light_TuningLine = QColor::fromRgba(settings->value("Light_TuningLine", defaultColors.Light_TuningLine.rgba()).toUInt());
settings->endGroup();
// Radio and Comms: C-IV addr, port to use
settings->beginGroup("Radio");
prefs.radioCIVAddr = (unsigned char) settings->value("RigCIVuInt", defPrefs.radioCIVAddr).toInt();
if(prefs.radioCIVAddr!=0)
{
ui->rigCIVManualAddrChk->setChecked(true);
ui->rigCIVaddrHexLine->blockSignals(true);
ui->rigCIVaddrHexLine->setText(QString("%1").arg(prefs.radioCIVAddr, 2, 16));
ui->rigCIVaddrHexLine->setEnabled(true);
ui->rigCIVaddrHexLine->blockSignals(false);
} else {
ui->rigCIVManualAddrChk->setChecked(false);
ui->rigCIVaddrHexLine->setEnabled(false);
}
prefs.serialPortRadio = settings->value("SerialPortRadio", defPrefs.serialPortRadio).toString();
int serialIndex = ui->serialDeviceListCombo->findText(prefs.serialPortRadio);
if (serialIndex != -1) {
ui->serialDeviceListCombo->setCurrentIndex(serialIndex);
}
prefs.serialPortBaud = (quint32) settings->value("SerialPortBaud", defPrefs.serialPortBaud).toInt();
ui->baudRateCombo->blockSignals(true);
ui->baudRateCombo->setCurrentIndex( ui->baudRateCombo->findData(prefs.serialPortBaud) );
ui->baudRateCombo->blockSignals(false);
if (prefs.serialPortBaud > 0)
{
serverConfig.baudRate = prefs.serialPortBaud;
}
prefs.virtualSerialPort = settings->value("VirtualSerialPort", defPrefs.virtualSerialPort).toString();
int vspIndex = ui->vspCombo->findText(prefs.virtualSerialPort);
if (vspIndex != -1) {
ui->vspCombo->setCurrentIndex(vspIndex);
}
else
{
ui->vspCombo->addItem(prefs.virtualSerialPort);
ui->vspCombo->setCurrentIndex(ui->vspCombo->count()-1);
}
prefs.localAFgain = (unsigned char) settings->value("localAFgain", defPrefs.localAFgain).toUInt();
rxSetup.localAFgain = prefs.localAFgain;
settings->endGroup();
// Misc. user settings (enable PTT, draw peaks, etc)
settings->beginGroup("Controls");
prefs.enablePTT = settings->value("EnablePTT", defPrefs.enablePTT).toBool();
ui->pttEnableChk->setChecked(prefs.enablePTT);
prefs.niceTS = settings->value("NiceTS", defPrefs.niceTS).toBool();
settings->endGroup();
settings->beginGroup("LAN");
prefs.enableLAN = settings->value("EnableLAN", defPrefs.enableLAN).toBool();
if(prefs.enableLAN)
{
ui->baudRateCombo->setEnabled(false);
ui->serialDeviceListCombo->setEnabled(false);
//ui->udpServerSetupBtn->setEnabled(false);
} else {
ui->baudRateCombo->setEnabled(true);
ui->serialDeviceListCombo->setEnabled(true);
//ui->udpServerSetupBtn->setEnabled(true);
}
ui->lanEnableBtn->setChecked(prefs.enableLAN);
ui->connectBtn->setEnabled(true);
prefs.enableRigCtlD = settings->value("EnableRigCtlD", defPrefs.enableRigCtlD).toBool();
ui->enableRigctldChk->setChecked(prefs.enableRigCtlD);
prefs.rigCtlPort = settings->value("RigCtlPort", defPrefs.rigCtlPort).toInt();
ui->rigctldPortTxt->setText(QString("%1").arg(prefs.rigCtlPort));
// Call the function to start rigctld if enabled.
on_enableRigctldChk_clicked(prefs.enableRigCtlD);
udpPrefs.ipAddress = settings->value("IPAddress", udpDefPrefs.ipAddress).toString();
ui->ipAddressTxt->setEnabled(ui->lanEnableBtn->isChecked());
ui->ipAddressTxt->setText(udpPrefs.ipAddress);
udpPrefs.controlLANPort = settings->value("ControlLANPort", udpDefPrefs.controlLANPort).toInt();
ui->controlPortTxt->setEnabled(ui->lanEnableBtn->isChecked());
ui->controlPortTxt->setText(QString("%1").arg(udpPrefs.controlLANPort));
udpPrefs.username = settings->value("Username", udpDefPrefs.username).toString();
ui->usernameTxt->setEnabled(ui->lanEnableBtn->isChecked());
ui->usernameTxt->setText(QString("%1").arg(udpPrefs.username));
udpPrefs.password = settings->value("Password", udpDefPrefs.password).toString();
ui->passwordTxt->setEnabled(ui->lanEnableBtn->isChecked());
ui->passwordTxt->setText(QString("%1").arg(udpPrefs.password));
rxSetup.isinput = false;
txSetup.isinput = true;
rxSetup.latency = settings->value("AudioRXLatency", "150").toInt();
ui->rxLatencySlider->setEnabled(ui->lanEnableBtn->isChecked());
ui->rxLatencySlider->setValue(rxSetup.latency);
ui->rxLatencySlider->setTracking(false); // Stop it sending value on every change.
txSetup.latency = settings->value("AudioTXLatency", "150").toInt();
ui->txLatencySlider->setEnabled(ui->lanEnableBtn->isChecked());
ui->txLatencySlider->setValue(txSetup.latency);
ui->txLatencySlider->setTracking(false); // Stop it sending value on every change.
ui->audioSampleRateCombo->blockSignals(true);
rxSetup.samplerate = settings->value("AudioRXSampleRate", "48000").toInt();
txSetup.samplerate = rxSetup.samplerate;
ui->audioSampleRateCombo->setEnabled(ui->lanEnableBtn->isChecked());
int audioSampleRateIndex = ui->audioSampleRateCombo->findText(QString::number(rxSetup.samplerate));
if (audioSampleRateIndex != -1) {
ui->audioSampleRateCombo->setCurrentIndex(audioSampleRateIndex);
}
ui->audioSampleRateCombo->blockSignals(false);
// Add codec combobox items here so that we can add userdata!
ui->audioRXCodecCombo->addItem("LPCM 1ch 16bit", 4);
ui->audioRXCodecCombo->addItem("LPCM 1ch 8bit", 2);
ui->audioRXCodecCombo->addItem("uLaw 1ch 8bit", 1);
ui->audioRXCodecCombo->addItem("LPCM 2ch 16bit", 16);
ui->audioRXCodecCombo->addItem("uLaw 2ch 8bit", 32);
ui->audioRXCodecCombo->addItem("PCM 2ch 8bit", 8);
ui->audioRXCodecCombo->addItem("Opus 1ch", 64);
ui->audioRXCodecCombo->addItem("Opus 2ch", 128);
ui->audioRXCodecCombo->blockSignals(true);
rxSetup.codec = settings->value("AudioRXCodec", "4").toInt();
ui->audioRXCodecCombo->setEnabled(ui->lanEnableBtn->isChecked());
for (int f = 0; f < ui->audioRXCodecCombo->count(); f++)
if (ui->audioRXCodecCombo->itemData(f).toInt() == rxSetup.codec)
ui->audioRXCodecCombo->setCurrentIndex(f);
ui->audioRXCodecCombo->blockSignals(false);
ui->audioTXCodecCombo->addItem("LPCM 1ch 16bit", 4);
ui->audioTXCodecCombo->addItem("LPCM 1ch 8bit", 2);
ui->audioTXCodecCombo->addItem("uLaw 1ch 8bit", 1);
ui->audioTXCodecCombo->addItem("Opus 1ch", 64);
ui->audioRXCodecCombo->blockSignals(true);
txSetup.codec = settings->value("AudioTXCodec", "4").toInt();
ui->audioTXCodecCombo->setEnabled(ui->lanEnableBtn->isChecked());
for (int f = 0; f < ui->audioTXCodecCombo->count(); f++)
if (ui->audioTXCodecCombo->itemData(f).toInt() == txSetup.codec)
ui->audioTXCodecCombo->setCurrentIndex(f);
ui->audioRXCodecCombo->blockSignals(false);
ui->audioOutputCombo->blockSignals(true);
rxSetup.name = settings->value("AudioOutput", "").toString();
qInfo(logGui()) << "Got Audio Output: " << rxSetup.name;
int audioOutputIndex = ui->audioOutputCombo->findText(rxSetup.name);
if (audioOutputIndex != -1) {
ui->audioOutputCombo->setCurrentIndex(audioOutputIndex);
#if defined(RTAUDIO)
rxSetup.port = ui->audioOutputCombo->itemData(audioOutputIndex).toInt();
#elif defined(PORTAUDIO)
#else
QVariant v = ui->audioOutputCombo->currentData();
rxSetup.port = v.value<QAudioDeviceInfo>();
#endif
}
ui->audioOutputCombo->blockSignals(false);
ui->audioInputCombo->blockSignals(true);
txSetup.name = settings->value("AudioInput", "").toString();
qInfo(logGui()) << "Got Audio Input: " << txSetup.name;
int audioInputIndex = ui->audioInputCombo->findText(txSetup.name);
if (audioInputIndex != -1) {
ui->audioInputCombo->setCurrentIndex(audioInputIndex);
#if defined(RTAUDIO)
txSetup.port = ui->audioInputCombo->itemData(audioInputIndex).toInt();
#elif defined(PORTAUDIO)
#else
QVariant v = ui->audioInputCombo->currentData();
txSetup.port = v.value<QAudioDeviceInfo>();
#endif
}
ui->audioInputCombo->blockSignals(false);
rxSetup.resampleQuality = settings->value("ResampleQuality", "4").toInt();
txSetup.resampleQuality = rxSetup.resampleQuality;
udpPrefs.clientName = settings->value("ClientName", udpDefPrefs.clientName).toString();
settings->endGroup();
settings->beginGroup("Server");
serverConfig.enabled = settings->value("ServerEnabled", false).toBool();
serverConfig.controlPort = settings->value("ServerControlPort", 50001).toInt();
serverConfig.civPort = settings->value("ServerCivPort", 50002).toInt();
serverConfig.audioPort = settings->value("ServerAudioPort", 50003).toInt();
int numUsers = settings->value("ServerNumUsers", 2).toInt();
serverConfig.users.clear();
for (int f = 0; f < numUsers; f++)
{
SERVERUSER user;
user.username = settings->value("ServerUsername_" + QString::number(f), "").toString();
user.password = settings->value("ServerPassword_" + QString::number(f), "").toString();
user.userType = settings->value("ServerUserType_" + QString::number(f), 0).toInt();
serverConfig.users.append(user);
}
settings->endGroup();
// Memory channels
settings->beginGroup("Memory");
int size = settings->beginReadArray("Channel");
int chan = 0;
double freq;
unsigned char mode;
bool isSet;
// Annoying: QSettings will write the array to the
// preference file starting the array at 1 and ending at 100.
// Thus, we are writing the channel number each time.
// It is also annoying that they get written with their array
// numbers in alphabetical order without zero padding.
// Also annoying that the preference groups are not written in
// the order they are specified here.
for(int i=0; i < size; i++)
{
settings->setArrayIndex(i);
chan = settings->value("chan", 0).toInt();
freq = settings->value("freq", 12.345).toDouble();
mode = settings->value("mode", 0).toInt();
isSet = settings->value("isSet", false).toBool();
if(isSet)
{
mem.setPreset(chan, freq, (mode_kind)mode);
}
}
settings->endArray();
settings->endGroup();
emit sendServerConfig(serverConfig);
}
void wfmain::saveSettings()
{
qInfo(logSystem()) << "Saving settings to " << settings->fileName();
// Basic things to load:
// UI: (full screen, dark theme, draw peaks, colors, etc)
settings->beginGroup("Interface");
settings->setValue("UseFullScreen", prefs.useFullScreen);
settings->setValue("UseSystemTheme", prefs.useSystemTheme);
settings->setValue("UseDarkMode", prefs.useDarkMode);
settings->setValue("DrawPeaks", prefs.drawPeaks);
settings->setValue("WFAntiAlias", prefs.wfAntiAlias);
settings->setValue("WFInterpolate", prefs.wfInterpolate);
settings->setValue("WFTheme", prefs.wftheme);
settings->setValue("StylesheetPath", prefs.stylesheetPath);
settings->setValue("splitter", ui->splitter->saveState());
settings->setValue("windowGeometry", saveGeometry());
settings->setValue("windowState", saveState());
settings->setValue("WFLength", prefs.wflength);
settings->setValue("ConfirmExit", prefs.confirmExit);
settings->setValue("ConfirmPowerOff", prefs.confirmPowerOff);
settings->endGroup();
// Radio and Comms: C-IV addr, port to use
settings->beginGroup("Radio");
settings->setValue("RigCIVuInt", prefs.radioCIVAddr);
settings->setValue("SerialPortRadio", prefs.serialPortRadio);
settings->setValue("SerialPortBaud", prefs.serialPortBaud);
settings->setValue("VirtualSerialPort", prefs.virtualSerialPort);
settings->setValue("localAFgain", prefs.localAFgain);
settings->endGroup();
// Misc. user settings (enable PTT, draw peaks, etc)
settings->beginGroup("Controls");
settings->setValue("EnablePTT", prefs.enablePTT);
settings->setValue("NiceTS", prefs.niceTS);
settings->endGroup();
settings->beginGroup("LAN");
settings->setValue("EnableLAN", prefs.enableLAN);
settings->setValue("EnableRigCtlD", prefs.enableRigCtlD);
settings->setValue("RigCtlPort", prefs.rigCtlPort);
settings->setValue("IPAddress", udpPrefs.ipAddress);
settings->setValue("ControlLANPort", udpPrefs.controlLANPort);
settings->setValue("SerialLANPort", udpPrefs.serialLANPort);
settings->setValue("AudioLANPort", udpPrefs.audioLANPort);
settings->setValue("Username", udpPrefs.username);
settings->setValue("Password", udpPrefs.password);
settings->setValue("AudioRXLatency", rxSetup.latency);
settings->setValue("AudioTXLatency", txSetup.latency);
settings->setValue("AudioRXSampleRate", rxSetup.samplerate);
settings->setValue("AudioRXCodec", rxSetup.codec);
settings->setValue("AudioTXSampleRate", txSetup.samplerate);
settings->setValue("AudioTXCodec", txSetup.codec);
settings->setValue("AudioOutput", rxSetup.name);
settings->setValue("AudioInput", txSetup.name);
settings->setValue("ResampleQuality", rxSetup.resampleQuality);
settings->setValue("ClientName", udpPrefs.clientName);
settings->endGroup();
// Memory channels
settings->beginGroup("Memory");
settings->beginWriteArray("Channel", (int)mem.getNumPresets());
preset_kind temp;
for(int i=0; i < (int)mem.getNumPresets(); i++)
{
temp = mem.getPreset((int)i);
settings->setArrayIndex(i);
settings->setValue("chan", i);
settings->setValue("freq", temp.frequency);
settings->setValue("mode", temp.mode);
settings->setValue("isSet", temp.isSet);
}
settings->endArray();
settings->endGroup();
// Note: X and Y get the same colors. See setPlotTheme() function
settings->beginGroup("DarkColors");
settings->setValue("Dark_PlotBackground", prefs.colorScheme.Dark_PlotBackground.rgba());
settings->setValue("Dark_PlotAxisPen", prefs.colorScheme.Dark_PlotAxisPen.rgba());
settings->setValue("Dark_PlotLegendTextColor", prefs.colorScheme.Dark_PlotLegendTextColor.rgba());
settings->setValue("Dark_PlotLegendBorderPen", prefs.colorScheme.Dark_PlotLegendBorderPen.rgba());
settings->setValue("Dark_PlotLegendBrush", prefs.colorScheme.Dark_PlotLegendBrush.rgba());
settings->setValue("Dark_PlotTickLabel", prefs.colorScheme.Dark_PlotTickLabel.rgba());
settings->setValue("Dark_PlotBasePen", prefs.colorScheme.Dark_PlotBasePen.rgba());
settings->setValue("Dark_PlotTickPen", prefs.colorScheme.Dark_PlotTickPen.rgba());
settings->setValue("Dark_PeakPlotLine", prefs.colorScheme.Dark_PeakPlotLine.rgba());
settings->setValue("Dark_TuningLine", prefs.colorScheme.Dark_TuningLine.rgba());
settings->endGroup();
settings->beginGroup("LightColors");
settings->setValue("Light_PlotBackground", prefs.colorScheme.Light_PlotBackground.rgba());
settings->setValue("Light_PlotAxisPen", prefs.colorScheme.Light_PlotAxisPen.rgba());
settings->setValue("Light_PlotLegendTextColor", prefs.colorScheme.Light_PlotLegendTextColor.rgba());
settings->setValue("Light_PlotLegendBorderPen", prefs.colorScheme.Light_PlotLegendBorderPen.rgba());
settings->setValue("Light_PlotLegendBrush", prefs.colorScheme.Light_PlotLegendBrush.rgba());
settings->setValue("Light_PlotTickLabel", prefs.colorScheme.Light_PlotTickLabel.rgba());
settings->setValue("Light_PlotBasePen", prefs.colorScheme.Light_PlotBasePen.rgba());
settings->setValue("Light_PlotTickPen", prefs.colorScheme.Light_PlotTickPen.rgba());
settings->setValue("Light_PeakPlotLine", prefs.colorScheme.Light_PeakPlotLine.rgba());
settings->setValue("Light_TuningLine", prefs.colorScheme.Light_TuningLine.rgba());
settings->endGroup();
// This is a reference to see how the preference file is encoded.
settings->beginGroup("StandardColors");
settings->setValue("white", QColor(Qt::white).rgba());
settings->setValue("black", QColor(Qt::black).rgba());
settings->setValue("red_opaque", QColor(Qt::red).rgba());
settings->setValue("red_translucent", QColor(255,0,0,128).rgba());
settings->setValue("green_opaque", QColor(Qt::green).rgba());
settings->setValue("green_translucent", QColor(0,255,0,128).rgba());
settings->setValue("blue_opaque", QColor(Qt::blue).rgba());
settings->setValue("blue_translucent", QColor(0,0,255,128).rgba());
settings->setValue("cyan", QColor(Qt::cyan).rgba());
settings->setValue("magenta", QColor(Qt::magenta).rgba());
settings->setValue("yellow", QColor(Qt::yellow).rgba());
settings->endGroup();
settings->beginGroup("Server");
settings->setValue("ServerEnabled", serverConfig.enabled);
settings->setValue("ServerControlPort", serverConfig.controlPort);
settings->setValue("ServerCivPort", serverConfig.civPort);
settings->setValue("ServerAudioPort", serverConfig.audioPort);
settings->setValue("ServerNumUsers", serverConfig.users.count());
for (int f = 0; f < serverConfig.users.count(); f++)
{
settings->setValue("ServerUsername_" + QString::number(f), serverConfig.users[f].username);
settings->setValue("ServerPassword_" + QString::number(f), serverConfig.users[f].password);
settings->setValue("ServerUserType_" + QString::number(f), serverConfig.users[f].userType);
}
settings->endGroup();
settings->sync(); // Automatic, not needed (supposedly)
}
void wfmain::showHideSpectrum(bool show)
{
if(show)
{
wf->show();
plot->show();
} else {
wf->hide();
plot->hide();
}
// Controls:
ui->spectrumGroupBox->setVisible(show);
ui->spectrumModeCombo->setVisible(show);
ui->scopeBWCombo->setVisible(show);
ui->scopeEdgeCombo->setVisible(show);
ui->scopeEnableWFBtn->setVisible(show);
ui->scopeRefLevelSlider->setEnabled(show);
ui->wfLengthSlider->setEnabled(show);
ui->wfthemeCombo->setVisible(show);
ui->toFixedBtn->setVisible(show);
ui->clearPeakBtn->setVisible(show);
// And the labels:
ui->specEdgeLabel->setVisible(show);
ui->specModeLabel->setVisible(show);
ui->specSpanLabel->setVisible(show);
ui->specThemeLabel->setVisible(show);
// And the layout for space:
ui->specControlsHorizLayout->setEnabled(show);
ui->splitter->setVisible(show);
ui->plot->setVisible(show);
ui->waterfall->setVisible(show);
ui->spectrumGroupBox->setEnabled(show);
// Window resize:
updateSizes(ui->tabWidget->currentIndex());
}
void wfmain::prepareWf()
{
prepareWf(160);
}
void wfmain::prepareWf(unsigned int wfLength)
{
// All this code gets moved in from the constructor of wfmain.
if(haveRigCaps)
{
showHideSpectrum(rigCaps.hasSpectrum);
if(!rigCaps.hasSpectrum)
{
return;
}
// TODO: Lock the function that draws on the spectrum while we are updating.
spectrumDrawLock = true;
spectWidth = rigCaps.spectLenMax;
wfLengthMax = 1024;
this->wfLength = wfLength; // fixed for now, time-length of waterfall
// Initialize before use!
QByteArray empty((int)spectWidth, '\x01');
spectrumPeaks = QByteArray( (int)spectWidth, '\x01' );
//wfimage.resize(wfLengthMax);
if((unsigned int)wfimage.size() < wfLengthMax)
{
unsigned int i=0;
unsigned int oldSize = wfimage.size();
for(i=oldSize; i<(wfLengthMax); i++)
{
wfimage.append(empty);
}
} else {
// Keep wfimage, do not trim, no performance impact.
//wfimage.remove(wfLength, wfimage.size()-wfLength);
}
wfimage.squeeze();
//colorMap->clearData();
colorMap->data()->clear();
colorMap->data()->setValueRange(QCPRange(0, wfLength-1));
colorMap->data()->setKeyRange(QCPRange(0, spectWidth-1));
colorMap->setDataRange(QCPRange(0, rigCaps.spectAmpMax));
colorMap->setGradient(static_cast<QCPColorGradient::GradientPreset>(ui->wfthemeCombo->currentData().toInt()));
if(colorMapData == Q_NULLPTR)
{
colorMapData = new QCPColorMapData(spectWidth, wfLength, QCPRange(0, spectWidth-1), QCPRange(0, wfLength-1));
} else {
//delete colorMapData; // TODO: Figure out why it crashes if we delete first.
colorMapData = new QCPColorMapData(spectWidth, wfLength, QCPRange(0, spectWidth-1), QCPRange(0, wfLength-1));
}
colorMap->setData(colorMapData);
wf->yAxis->setRangeReversed(true);
wf->xAxis->setVisible(false);
spectrumDrawLock = false;
} else {
qInfo(logSystem()) << "Cannot prepare WF view without rigCaps. Waiting on this.";
return;
}
}
// Key shortcuts (hotkeys)
void wfmain::shortcutF11()
{
if(onFullscreen)
{
this->showNormal();
onFullscreen = false;
} else {
this->showFullScreen();
onFullscreen = true;
}
ui->fullScreenChk->setChecked(onFullscreen);
}
void wfmain::shortcutF1()
{
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::shortcutF2()
{
ui->tabWidget->setCurrentIndex(1);
}
void wfmain::shortcutF3()
{
ui->tabWidget->setCurrentIndex(2);
ui->freqMhzLineEdit->clear();
ui->freqMhzLineEdit->setFocus();
}
void wfmain::shortcutF4()
{
ui->tabWidget->setCurrentIndex(3);
}
// Mode switch keys:
void wfmain::shortcutF5()
{
// LSB
changeMode(modeLSB, false);
}
void wfmain::shortcutF6()
{
// USB
changeMode(modeUSB, false);
}
void wfmain::shortcutF7()
{
// AM
changeMode(modeAM, false);
}
void wfmain::shortcutF8()
{
// CW
changeMode(modeCW, false);
}
void wfmain::shortcutF9()
{
// USB-D
changeMode(modeUSB, true);
}
void wfmain::shortcutF10()
{
// FM
changeMode(modeFM, false);
}
void wfmain::shortcutF12()
{
// Speak current frequency and mode from the radio
showStatusBarText("Sending speech command to radio.");
emit sayAll();
}
void wfmain::shortcutControlT()
{
// Transmit
qInfo(logSystem()) << "Activated Control-T shortcut";
showStatusBarText(QString("Transmitting. Press Control-R to receive."));
ui->pttOnBtn->click();
}
void wfmain::shortcutControlR()
{
// Receive
issueCmdUniquePriority(cmdSetPTT, false);
pttTimer->stop();
}
void wfmain::shortcutControlI()
{
// Enable ATU
ui->tuneEnableChk->click();
}
void wfmain::shortcutControlU()
{
// Run ATU tuning cycle
ui->tuneNowBtn->click();
}
void wfmain::shortcutStar()
{
// Jump to frequency tab from Asterisk key on keypad
ui->tabWidget->setCurrentIndex(2);
ui->freqMhzLineEdit->clear();
ui->freqMhzLineEdit->setFocus();
}
void wfmain::shortcutSlash()
{
// Cycle through available modes
ui->modeSelectCombo->setCurrentIndex( (ui->modeSelectCombo->currentIndex()+1) % ui->modeSelectCombo->count() );
on_modeSelectCombo_activated( ui->modeSelectCombo->currentIndex() );
}
void wfmain::setTuningSteps()
{
// TODO: interact with preferences, tuning step drop down box, and current operating mode
// Units are MHz:
tsPlusControl = 0.010f;
tsPlus = 0.001f;
tsPlusShift = 0.0001f;
tsPage = 1.0f;
tsPageShift = 0.5f; // TODO, unbind this keystroke from the dial
tsWfScroll = 0.0001f; // modified by tuning step selector
tsKnobMHz = 0.0001f; // modified by tuning step selector
// Units are in Hz:
tsPlusControlHz = 10000;
tsPlusHz = 1000;
tsPlusShiftHz = 100;
tsPageHz = 1000000;
tsPageShiftHz = 500000; // TODO, unbind this keystroke from the dial
tsWfScrollHz = 100; // modified by tuning step selector
tsKnobHz = 100; // modified by tuning step selector
}
void wfmain::on_tuningStepCombo_currentIndexChanged(int index)
{
tsWfScroll = (float)ui->tuningStepCombo->itemData(index).toUInt() / 1000000.0;
tsKnobMHz = (float)ui->tuningStepCombo->itemData(index).toUInt() / 1000000.0;
tsWfScrollHz = ui->tuningStepCombo->itemData(index).toUInt();
tsKnobHz = ui->tuningStepCombo->itemData(index).toUInt();
}
quint64 wfmain::roundFrequency(quint64 frequency, unsigned int tsHz)
{
quint64 rounded = 0;
if(ui->tuningFloorZerosChk->isChecked())
{
rounded = ((frequency % tsHz) > tsHz/2) ? frequency + tsHz - frequency%tsHz : frequency - frequency%tsHz;
return rounded;
} else {
return frequency;
}
}
quint64 wfmain::roundFrequencyWithStep(quint64 frequency, int steps, unsigned int tsHz)
{
quint64 rounded = 0;
if(steps > 0)
{
frequency = frequency + (quint64)(steps*tsHz);
} else {
frequency = frequency - std::min((quint64)(abs(steps)*tsHz), frequency);
}
if(ui->tuningFloorZerosChk->isChecked())
{
rounded = ((frequency % tsHz) > tsHz/2) ? frequency + tsHz - frequency%tsHz : frequency - frequency%tsHz;
return rounded;
} else {
return frequency;
}
}
void wfmain::shortcutMinus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, -1, tsPlusHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutPlus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, 1, tsPlusHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutShiftMinus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, -1, tsPlusShiftHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutShiftPlus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, 1, tsPlusShiftHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutControlMinus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, -1, tsPlusControlHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutControlPlus()
{
if(freqLock) return;
freqt f;
f.Hz = roundFrequencyWithStep(freq.Hz, 1, tsPlusControlHz);
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutPageUp()
{
if(freqLock) return;
freqt f;
f.Hz = freq.Hz + tsPageHz;
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutPageDown()
{
if(freqLock) return;
freqt f;
f.Hz = freq.Hz - tsPageHz;
f.MHzDouble = f.Hz / (double)1E6;
setUIFreq();
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::shortcutF()
{
showStatusBarText("Sending speech command (frequency) to radio.");
emit sayFrequency();
}
void wfmain::shortcutM()
{
showStatusBarText("Sending speech command (mode) to radio.");
emit sayMode();
}
void wfmain::setUIFreq(double frequency)
{
ui->freqLabel->setText(QString("%1").arg(frequency, 0, 'f'));
}
void wfmain::setUIFreq()
{
// Call this function, without arguments, if you know that the
// freqMhz variable is already set correctly.
setUIFreq(freq.MHzDouble);
}
void wfmain:: getInitialRigState()
{
// Initial list of queries to the radio.
// These are made when the program starts up
// and are used to adjust the UI to match the radio settings
// the polling interval is set at 200ms. Faster is possible but slower
// computers will glitch occassionally.
issueDelayedCommand(cmdGetFreq);
issueDelayedCommand(cmdGetMode);
issueDelayedCommand(cmdNone);
issueDelayedCommand(cmdGetFreq);
issueDelayedCommand(cmdGetMode);
// From left to right in the UI:
issueDelayedCommand(cmdGetDataMode);
issueDelayedCommand(cmdGetModInput);
issueDelayedCommand(cmdGetModDataInput);
issueDelayedCommand(cmdGetRxGain);
issueDelayedCommand(cmdGetAfGain);
issueDelayedCommand(cmdGetSql);
issueDelayedCommand(cmdGetTxPower);
issueDelayedCommand(cmdGetCurrentModLevel); // level for currently selected mod sources
issueDelayedCommand(cmdGetSpectrumRefLevel);
issueDelayedCommand(cmdGetDuplexMode);
if(rigCaps.hasSpectrum)
{
issueDelayedCommand(cmdDispEnable);
issueDelayedCommand(cmdSpecOn);
}
issueDelayedCommand(cmdGetModInput);
issueDelayedCommand(cmdGetModDataInput);
if(rigCaps.hasCTCSS)
{
issueDelayedCommand(cmdGetTone);
issueDelayedCommand(cmdGetTSQL);
}
if(rigCaps.hasDTCS)
{
issueDelayedCommand(cmdGetDTCS);
}
issueDelayedCommand(cmdGetRptAccessMode);
if(rigCaps.hasAntennaSel)
{
issueDelayedCommand(cmdGetAntenna);
}
if(rigCaps.hasAttenuator)
{
issueDelayedCommand(cmdGetAttenuator);
}
if(rigCaps.hasPreamp)
{
issueDelayedCommand(cmdGetPreamp);
}
issueDelayedCommand(cmdGetRitEnabled);
issueDelayedCommand(cmdGetRitValue);
if(rigCaps.hasSpectrum)
{
issueDelayedCommand(cmdGetSpectrumMode);
issueDelayedCommand(cmdGetSpectrumSpan);
}
issueDelayedCommand(cmdNone);
issueDelayedCommand(cmdStartRegularPolling);
if(rigCaps.hasATU)
{
issueDelayedCommand(cmdGetATUStatus);
}
delayedCommand->start();
}
void wfmain::showStatusBarText(QString text)
{
ui->statusBar->showMessage(text, 5000);
}
void wfmain::on_useDarkThemeChk_clicked(bool checked)
{
//setAppTheme(checked);
setPlotTheme(wf, checked);
setPlotTheme(plot, checked);
prefs.useDarkMode = checked;
}
void wfmain::on_useSystemThemeChk_clicked(bool checked)
{
setAppTheme(!checked);
prefs.useSystemTheme = checked;
}
void wfmain::setAppTheme(bool isCustom)
{
if(isCustom)
{
#ifndef Q_OS_LINUX
QFile f(":"+prefs.stylesheetPath); // built-in resource
#else
QFile f(PREFIX "/share/wfview/" + prefs.stylesheetPath);
#endif
if (!f.exists())
{
printf("Unable to set stylesheet, file not found\n");
printf("Tried to load: [%s]\n", f.fileName().toStdString().c_str() );
}
else
{
f.open(QFile::ReadOnly | QFile::Text);
QTextStream ts(&f);
qApp->setStyleSheet(ts.readAll());
}
} else {
qApp->setStyleSheet("");
}
}
void wfmain::setDefaultColors()
{
defaultColors.Dark_PlotBackground = QColor(0,0,0,255);
defaultColors.Dark_PlotAxisPen = QColor(75,75,75,255);
defaultColors.Dark_PlotLegendTextColor = QColor(255,255,255,255);
defaultColors.Dark_PlotLegendBorderPen = QColor(255,255,255,255);
defaultColors.Dark_PlotLegendBrush = QColor(0,0,0,200);
defaultColors.Dark_PlotTickLabel = QColor(Qt::white);
defaultColors.Dark_PlotBasePen = QColor(Qt::white);
defaultColors.Dark_PlotTickPen = QColor(Qt::white);
defaultColors.Dark_PeakPlotLine = QColor(Qt::yellow);
defaultColors.Dark_TuningLine = QColor(Qt::cyan);
defaultColors.Light_PlotBackground = QColor(255,255,255,255);
defaultColors.Light_PlotAxisPen = QColor(200,200,200,255);
defaultColors.Light_PlotLegendTextColor = QColor(0,0,0,255);
defaultColors.Light_PlotLegendBorderPen = QColor(0,0,0,255);
defaultColors.Light_PlotLegendBrush = QColor(255,255,255,200);
defaultColors.Light_PlotTickLabel = QColor(Qt::black);
defaultColors.Light_PlotBasePen = QColor(Qt::black);
defaultColors.Light_PlotTickPen = QColor(Qt::black);
defaultColors.Light_PeakPlotLine = QColor(Qt::blue);
defaultColors.Light_TuningLine = QColor(Qt::blue);
}
void wfmain::setPlotTheme(QCustomPlot *plot, bool isDark)
{
if(isDark)
{
plot->setBackground(prefs.colorScheme.Dark_PlotBackground);
//plot->setBackground(QColor(0,0,0,255));
plot->xAxis->grid()->setPen(prefs.colorScheme.Dark_PlotAxisPen);
plot->yAxis->grid()->setPen(prefs.colorScheme.Dark_PlotAxisPen);
plot->legend->setTextColor(prefs.colorScheme.Dark_PlotLegendTextColor);
plot->legend->setBorderPen(prefs.colorScheme.Dark_PlotLegendBorderPen);
plot->legend->setBrush(prefs.colorScheme.Dark_PlotLegendBrush);
plot->xAxis->setTickLabelColor(prefs.colorScheme.Dark_PlotTickLabel);
plot->xAxis->setLabelColor(prefs.colorScheme.Dark_PlotTickLabel);
plot->yAxis->setTickLabelColor(prefs.colorScheme.Dark_PlotTickLabel);
plot->yAxis->setLabelColor(prefs.colorScheme.Dark_PlotTickLabel);
plot->xAxis->setBasePen(prefs.colorScheme.Dark_PlotBasePen);
plot->xAxis->setTickPen(prefs.colorScheme.Dark_PlotTickPen);
plot->yAxis->setBasePen(prefs.colorScheme.Dark_PlotBasePen);
plot->yAxis->setTickPen(prefs.colorScheme.Dark_PlotTickPen);
plot->graph(0)->setPen(prefs.colorScheme.Dark_PeakPlotLine);
freqIndicatorLine->setPen(prefs.colorScheme.Dark_TuningLine);
} else {
//color = ui->groupBox->palette().color(QPalette::Button);
plot->setBackground(prefs.colorScheme.Light_PlotBackground);
plot->xAxis->grid()->setPen(prefs.colorScheme.Light_PlotAxisPen);
plot->yAxis->grid()->setPen(prefs.colorScheme.Light_PlotAxisPen);
plot->legend->setTextColor(prefs.colorScheme.Light_PlotLegendTextColor);
plot->legend->setBorderPen(prefs.colorScheme.Light_PlotLegendBorderPen);
plot->legend->setBrush(prefs.colorScheme.Light_PlotLegendBrush);
plot->xAxis->setTickLabelColor(prefs.colorScheme.Light_PlotTickLabel);
plot->xAxis->setLabelColor(prefs.colorScheme.Light_PlotTickLabel);
plot->yAxis->setTickLabelColor(prefs.colorScheme.Light_PlotTickLabel);
plot->yAxis->setLabelColor(prefs.colorScheme.Light_PlotTickLabel);
plot->xAxis->setBasePen(prefs.colorScheme.Light_PlotBasePen);
plot->xAxis->setTickPen(prefs.colorScheme.Light_PlotTickPen);
plot->yAxis->setBasePen(prefs.colorScheme.Light_PlotBasePen);
plot->yAxis->setTickPen(prefs.colorScheme.Light_PlotTickLabel);
plot->graph(0)->setPen(prefs.colorScheme.Light_PeakPlotLine);
freqIndicatorLine->setPen(prefs.colorScheme.Light_TuningLine);
}
}
void wfmain::doCmd(commandtype cmddata)
{
cmds cmd = cmddata.cmd;
std::shared_ptr<void> data = cmddata.data;
// This switch is for commands with parameters.
// the "default" for non-parameter commands is to call doCmd(cmd).
switch (cmd)
{
case cmdSetFreq:
{
lastFreqCmdTime_ms = QDateTime::currentMSecsSinceEpoch();
freqt f = (*std::static_pointer_cast<freqt>(data));
emit setFrequency(f);
break;
}
case cmdSetMode:
{
mode_info m = (*std::static_pointer_cast<mode_info>(data));
emit setMode(m);
break;
}
case cmdSetTxPower:
{
unsigned char txpower = (*std::static_pointer_cast<unsigned char>(data));
emit setTxPower(txpower);
break;
}
case cmdSetMicGain:
{
unsigned char micgain = (*std::static_pointer_cast<unsigned char>(data));
emit setTxPower(micgain);
break;
}
case cmdSetRxRfGain:
{
unsigned char rfgain = (*std::static_pointer_cast<unsigned char>(data));
emit setRfGain(rfgain);
break;
}
case cmdSetModLevel:
{
unsigned char modlevel = (*std::static_pointer_cast<unsigned char>(data));
rigInput currentIn;
if(usingDataMode)
{
currentIn = currentModDataSrc;
} else {
currentIn = currentModSrc;
}
emit setModLevel(currentIn, modlevel);
break;
}
case cmdSetAfGain:
{
unsigned char afgain = (*std::static_pointer_cast<unsigned char>(data));
emit setAfGain(afgain);
break;
}
case cmdSetSql:
{
unsigned char sqlLevel = (*std::static_pointer_cast<unsigned char>(data));
emit setSql(sqlLevel);
break;
}
case cmdSetPTT:
{
bool pttrequest = (*std::static_pointer_cast<bool>(data));
emit setPTT(pttrequest);
if(pttrequest)
{
ui->meterSPoWidget->setMeterType(meterPower);
} else {
ui->meterSPoWidget->setMeterType(meterS);
}
break;
}
case cmdSetATU:
{
bool atuOn = (*std::static_pointer_cast<bool>(data));
emit setATU(atuOn);
break;
}
case cmdSetUTCOffset:
{
timekind u = (*std::static_pointer_cast<timekind>(data));
emit setUTCOffset(u);
break;
}
case cmdSetTime:
{
timekind t = (*std::static_pointer_cast<timekind>(data));
emit setTime(t);
break;
}
case cmdSetDate:
{
datekind d = (*std::static_pointer_cast<datekind>(data));
emit setDate(d);
break;
}
default:
doCmd(cmd);
break;
}
}
void wfmain::doCmd(cmds cmd)
{
// Use this function to take action upon a command.
switch(cmd)
{
case cmdNone:
//qInfo(logSystem()) << "NOOP";
break;
case cmdGetRigID:
emit getRigID();
break;
case cmdGetRigCIV:
// if(!know rig civ already)
if(!haveRigCaps)
{
emit getRigCIV();
issueDelayedCommand(cmdGetRigCIV); // This way, we stay here until we get an answer.
}
break;
case cmdGetFreq:
emit getFrequency();
break;
case cmdGetMode:
emit getMode();
break;
case cmdGetDataMode:
if(rigCaps.hasDataModes)
emit getDataMode();
break;
case cmdSetModeFilter:
emit setMode(setModeVal, setFilterVal);
break;
case cmdSetDataModeOff:
emit setDataMode(false, (unsigned char)ui->modeFilterCombo->currentData().toInt());
break;
case cmdSetDataModeOn:
emit setDataMode(true, (unsigned char)ui->modeFilterCombo->currentData().toInt());
break;
case cmdGetRitEnabled:
emit getRitEnabled();
break;
case cmdGetRitValue:
emit getRitValue();
break;
case cmdGetModInput:
emit getModInput(false);
break;
case cmdGetModDataInput:
emit getModInput(true);
break;
case cmdGetCurrentModLevel:
// TODO: Add delay between these queries
emit getModInputLevel(currentModSrc);
emit getModInputLevel(currentModDataSrc);
break;
case cmdGetDuplexMode:
emit getDuplexMode();
break;
case cmdGetTone:
emit getTone();
break;
case cmdGetTSQL:
emit getTSQL();
break;
case cmdGetDTCS:
emit getDTCS();
break;
case cmdGetRptAccessMode:
emit getRptAccessMode();
break;
case cmdDispEnable:
emit scopeDisplayEnable();
break;
case cmdDispDisable:
emit scopeDisplayDisable();
break;
case cmdGetSpectrumMode:
emit getScopeMode();
break;
case cmdGetSpectrumSpan:
emit getScopeSpan();
break;
case cmdSpecOn:
emit spectOutputEnable();
break;
case cmdSpecOff:
emit spectOutputDisable();
break;
case cmdGetRxGain:
emit getRfGain();
break;
case cmdGetAfGain:
emit getAfGain();
break;
case cmdGetSql:
emit getSql();
break;
case cmdGetTxPower:
emit getTxPower();
break;
case cmdGetMicGain:
emit getMicGain();
break;
case cmdGetSpectrumRefLevel:
emit getSpectrumRefLevel();
break;
case cmdGetATUStatus:
emit getATUStatus();
break;
case cmdStartATU:
emit startATU();
break;
case cmdGetAttenuator:
emit getAttenuator();
break;
case cmdGetPreamp:
emit getPreamp();
break;
case cmdGetAntenna:
emit getAntenna();
break;
case cmdScopeCenterMode:
emit setScopeMode(spectModeCenter);
break;
case cmdScopeFixedMode:
emit setScopeMode(spectModeFixed);
break;
case cmdGetPTT:
if(rigCaps.hasPTTCommand)
{
emit getPTT();
}
break;
case cmdGetTxRxMeter:
if(amTransmitting)
emit getMeters(meterPower);
else
emit getMeters(meterS);
break;
case cmdGetSMeter:
if(!amTransmitting)
emit getMeters(meterS);
break;
case cmdGetCenterMeter:
if(!amTransmitting)
emit getMeters(meterCenter);
break;
case cmdGetPowerMeter:
if(amTransmitting)
emit getMeters(meterPower);
break;
case cmdGetSWRMeter:
if(amTransmitting)
emit getMeters(meterSWR);
break;
case cmdGetIdMeter:
emit getMeters(meterCurrent);
break;
case cmdGetVdMeter:
emit getMeters(meterVoltage);
break;
case cmdGetALCMeter:
if(amTransmitting)
emit getMeters(meterALC);
break;
case cmdGetCompMeter:
if(amTransmitting)
emit getMeters(meterComp);
break;
case cmdStartRegularPolling:
runPeriodicCommands = true;
break;
case cmdStopRegularPolling:
runPeriodicCommands = false;
break;
case cmdQueNormalSpeed:
if(usingLAN)
{
delayedCommand->setInterval(delayedCmdIntervalLAN_ms);
} else {
delayedCommand->setInterval(delayedCmdIntervalSerial_ms);
}
break;
default:
qInfo(logSystem()) << __PRETTY_FUNCTION__ << "WARNING: Command fell through of type: " << (unsigned int)cmd;
break;
}
}
void wfmain::sendRadioCommandLoop()
{
// Called by the periodicPollingTimer, see setInitialTiming()
if(!(loopTickCounter % 2))
{
// if ther's a command waiting, run it.
if(!delayedCmdQue.empty())
{
commandtype cmddata = delayedCmdQue.front();
delayedCmdQue.pop_front();
doCmd(cmddata);
} else if(!(loopTickCounter % 10))
{
// pick from useful queries to make now and then
if(haveRigCaps && !slowPollCmdQueue.empty())
{
int nCmds = slowPollCmdQueue.size();
cmds sCmd = slowPollCmdQueue[(slowCmdNum++)%nCmds];
doCmd(sCmd);
}
}
} else {
// odd-number ticks:
// s-meter or other metering
if(haveRigCaps && !periodicCmdQueue.empty())
{
int nCmds = periodicCmdQueue.size();
cmds pcmd = periodicCmdQueue[ (pCmdNum++)%nCmds ];
doCmd(pcmd);
}
}
loopTickCounter++;
}
void wfmain::issueDelayedCommand(cmds cmd)
{
// Append to end of command queue
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = NULL;
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueDelayedCommandPriority(cmds cmd)
{
// Places the new command at the top of the queue
// Use only when needed.
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = NULL;
delayedCmdQue.push_front(cmddata);
}
void wfmain::issueDelayedCommandUnique(cmds cmd)
{
// Use this function to insert commands where
// multiple (redundant) commands don't make sense.
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = NULL;
// The following is both expensive and not that great,
// since it does not check if the arguments are the same.
bool found = false;
for(unsigned int i=0; i < delayedCmdQue.size(); i++)
{
if(delayedCmdQue.at(i).cmd == cmd)
{
found = true;
break;
}
}
if(!found)
{
delayedCmdQue.push_front(cmddata);
}
// if( std::find(delayedCmdQue.begin(), delayedCmdQue.end(), cmddata ) == delayedCmdQue.end())
// {
// delayedCmdQue.push_front(cmddata);
// }
}
void wfmain::issueCmd(cmds cmd, mode_info m)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<mode_info>(new mode_info(m));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmd(cmds cmd, freqt f)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<freqt>(new freqt(f));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmd(cmds cmd, timekind t)
{
qDebug(logSystem()) << "Issuing timekind command with data: " << t.hours << " hours, " << t.minutes << " minutes, " << t.isMinus << " isMinus";
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<timekind>(new timekind(t));
delayedCmdQue.push_front(cmddata);
}
void wfmain::issueCmd(cmds cmd, datekind d)
{
qDebug(logSystem()) << "Issuing datekind command with data: " << d.day << " day, " << d.month << " month, " << d.year << " year.";
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<datekind>(new datekind(d));
delayedCmdQue.push_front(cmddata);
}
void wfmain::issueCmd(cmds cmd, int i)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<int>(new int(i));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmd(cmds cmd, char c)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<char>(new char(c));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmd(cmds cmd, bool b)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<bool>(new bool(b));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmd(cmds cmd, unsigned char c)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<unsigned char>(new unsigned char(c));
delayedCmdQue.push_back(cmddata);
}
void wfmain::issueCmdUniquePriority(cmds cmd, bool b)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<bool>(new bool(b));
delayedCmdQue.push_front(cmddata);
removeSimilarCommand(cmd);
}
void wfmain::issueCmdUniquePriority(cmds cmd, unsigned char c)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<unsigned char>(new unsigned char(c));
delayedCmdQue.push_front(cmddata);
removeSimilarCommand(cmd);
}
void wfmain::issueCmdUniquePriority(cmds cmd, char c)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<char>(new char(c));
delayedCmdQue.push_front(cmddata);
removeSimilarCommand(cmd);
}
void wfmain::issueCmdUniquePriority(cmds cmd, freqt f)
{
commandtype cmddata;
cmddata.cmd = cmd;
cmddata.data = std::shared_ptr<freqt>(new freqt(f));
delayedCmdQue.push_front(cmddata);
removeSimilarCommand(cmd);
}
void wfmain::removeSimilarCommand(cmds cmd)
{
// pop anything out that is of the same kind of command:
// pop anything out that is of the same kind of command:
// Start at 1 since we put one in at zero that we want to keep.
for(unsigned int i=1; i < delayedCmdQue.size(); i++)
{
if(delayedCmdQue.at(i).cmd == cmd)
{
//delayedCmdQue[i].cmd = cmdNone;
delayedCmdQue.erase(delayedCmdQue.begin()+i);
// i -= 1;
}
}
}
void wfmain::receiveRigID(rigCapabilities rigCaps)
{
// Note: We intentionally request rigID several times
// because without rigID, we can't do anything with the waterfall.
if(haveRigCaps)
{
return;
} else {
showStatusBarText(QString("Found radio at address 0x%1 of name %2 and model ID %3.").arg(rigCaps.civ,2,16).arg(rigCaps.modelName).arg(rigCaps.modelID));
qDebug(logSystem()) << "Rig name: " << rigCaps.modelName;
qDebug(logSystem()) << "Has LAN capabilities: " << rigCaps.hasLan;
qDebug(logSystem()) << "Rig ID received into wfmain: spectLenMax: " << rigCaps.spectLenMax;
qDebug(logSystem()) << "Rig ID received into wfmain: spectAmpMax: " << rigCaps.spectAmpMax;
qDebug(logSystem()) << "Rig ID received into wfmain: spectSeqMax: " << rigCaps.spectSeqMax;
qDebug(logSystem()) << "Rig ID received into wfmain: hasSpectrum: " << rigCaps.hasSpectrum;
this->rigCaps = rigCaps;
rigName->setText(rigCaps.modelName);
setWindowTitle(rigCaps.modelName);
this->spectWidth = rigCaps.spectLenMax; // used once haveRigCaps is true.
haveRigCaps = true;
// Added so that server receives rig capabilities.
emit sendRigCaps(rigCaps);
rpt->setRig(rigCaps);
// Set the mode combo box up:
ui->modeSelectCombo->blockSignals(true);
ui->modeSelectCombo->clear();
for(unsigned int i=0; i < rigCaps.modes.size(); i++)
{
ui->modeSelectCombo->addItem(rigCaps.modes.at(i).name,
rigCaps.modes.at(i).reg);
}
ui->modeSelectCombo->blockSignals(false);
if(rigCaps.model == model9700)
{
ui->satOpsBtn->setDisabled(false);
ui->adjRefBtn->setDisabled(false);
} else {
ui->satOpsBtn->setDisabled(true);
ui->adjRefBtn->setDisabled(true);
}
QString inName;
// Clear input combos before adding known inputs.
ui->modInputCombo->clear();
ui->modInputDataCombo->clear();
for(int i=0; i < rigCaps.inputs.length(); i++)
{
switch(rigCaps.inputs.at(i))
{
case inputMic:
inName = "Mic";
break;
case inputLAN:
inName = "LAN";
break;
case inputUSB:
inName = "USB";
break;
case inputACC:
inName = "ACC";
break;
case inputACCA:
inName = "ACCA";
break;
case inputACCB:
inName = "ACCB";
break;
default:
inName = "Unknown";
break;
}
ui->modInputCombo->addItem(inName, rigCaps.inputs.at(i));
ui->modInputDataCombo->addItem(inName, rigCaps.inputs.at(i));
}
if(rigCaps.inputs.length() == 0)
{
ui->modInputCombo->addItem("None", inputNone);
ui->modInputDataCombo->addItem("None", inputNone);
}
ui->attSelCombo->clear();
if(rigCaps.hasAttenuator)
{
ui->attSelCombo->setDisabled(false);
for(unsigned int i=0; i < rigCaps.attenuators.size(); i++)
{
inName = (i==0)?QString("0dB"):QString("-%1 dB").arg(rigCaps.attenuators.at(i), 0, 16);
ui->attSelCombo->addItem(inName, rigCaps.attenuators.at(i));
}
} else {
ui->attSelCombo->setDisabled(true);
}
ui->preampSelCombo->clear();
if(rigCaps.hasPreamp)
{
ui->preampSelCombo->setDisabled(false);
for(unsigned int i=0; i < rigCaps.preamps.size(); i++)
{
inName = (i==0)?QString("Disabled"):QString("Pre #%1").arg(rigCaps.preamps.at(i), 0, 16);
ui->preampSelCombo->addItem(inName, rigCaps.preamps.at(i));
}
} else {
ui->preampSelCombo->setDisabled(true);
}
ui->antennaSelCombo->clear();
if(rigCaps.hasAntennaSel)
{
ui->antennaSelCombo->setDisabled(false);
for(unsigned int i=0; i < rigCaps.antennas.size(); i++)
{
inName = QString("%1").arg(rigCaps.antennas.at(i)+1, 0, 16); // adding 1 to have the combobox start with ant 1 insted of 0
ui->antennaSelCombo->addItem(inName, rigCaps.antennas.at(i));
}
} else {
ui->antennaSelCombo->setDisabled(true);
}
ui->rxAntennaCheck->setEnabled(rigCaps.hasRXAntenna);
ui->rxAntennaCheck->setChecked(false);
ui->scopeBWCombo->blockSignals(true);
ui->scopeBWCombo->clear();
if(rigCaps.hasSpectrum)
{
ui->scopeBWCombo->setHidden(false);
for(unsigned int i=0; i < rigCaps.scopeCenterSpans.size(); i++)
{
ui->scopeBWCombo->addItem(rigCaps.scopeCenterSpans.at(i).name, (int)rigCaps.scopeCenterSpans.at(i).cstype);
}
} else {
ui->scopeBWCombo->setHidden(true);
}
ui->scopeBWCombo->blockSignals(false);
setBandButtons();
ui->tuneEnableChk->setEnabled(rigCaps.hasATU);
ui->tuneNowBtn->setEnabled(rigCaps.hasATU);
ui->connectBtn->setText("Disconnect"); // We must be connected now.
prepareWf(ui->wfLengthSlider->value());
if(usingLAN)
{
ui->afGainSlider->setValue(prefs.localAFgain);
}
// Adding these here because clearly at this point we have valid
// rig comms. In the future, we should establish comms and then
// do all the initial grabs. For now, this hack of adding them here and there:
issueDelayedCommand(cmdGetFreq);
issueDelayedCommand(cmdGetMode);
// recalculate command timing now that we know the rig better:
calculateTimingParameters();
initPeriodicCommands();
}
}
void wfmain::initPeriodicCommands()
{
// This function places periodic polling commands into a queue.
// The commands are run using a timer,
// and the timer is started by the delayed command cmdStartPeriodicTimer.
insertPeriodicCommand(cmdGetTxRxMeter, 128);
insertSlowPeriodicCommand(cmdGetFreq, 128);
insertSlowPeriodicCommand(cmdGetMode, 128);
insertSlowPeriodicCommand(cmdGetPTT, 128);
insertSlowPeriodicCommand(cmdGetTxPower, 128);
insertSlowPeriodicCommand(cmdGetRxGain, 128);
insertSlowPeriodicCommand(cmdGetAttenuator, 128);
insertSlowPeriodicCommand(cmdGetPTT, 128);
insertSlowPeriodicCommand(cmdGetPreamp, 128);
if (rigCaps.hasRXAntenna) {
insertSlowPeriodicCommand(cmdGetAntenna, 128);
}
}
void wfmain::insertPeriodicCommand(cmds cmd, unsigned char priority)
{
// TODO: meaningful priority
// These commands get run at the fastest pace possible
// Typically just metering.
if(priority < 10)
{
periodicCmdQueue.push_front(cmd);
} else {
periodicCmdQueue.push_back(cmd);
}
}
void wfmain::insertPeriodicCommandUnique(cmds cmd)
{
// Use this function to insert a non-duplicate command
// into the fast periodic polling queue, typically
// meter commands where high refresh rates are desirable.
removePeriodicCommand(cmd);
periodicCmdQueue.push_front(cmd);
}
void wfmain::removePeriodicCommand(cmds cmd)
{
while(true)
{
auto it = std::find(this->periodicCmdQueue.begin(), this->periodicCmdQueue.end(), cmd);
if(it != periodicCmdQueue.end())
{
periodicCmdQueue.erase(it);
} else {
break;
}
}
}
void wfmain::insertSlowPeriodicCommand(cmds cmd, unsigned char priority)
{
// TODO: meaningful priority
// These commands are run every 20 "ticks" of the primary radio command loop
// Basically 20 times less often than the standard peridic command
if(priority < 10)
{
slowPollCmdQueue.push_front(cmd);
} else {
slowPollCmdQueue.push_back(cmd);
}
}
void wfmain::receiveFreq(freqt freqStruct)
{
qint64 tnow_ms = QDateTime::currentMSecsSinceEpoch();
if(tnow_ms - lastFreqCmdTime_ms > delayedCommand->interval() * 2)
{
ui->freqLabel->setText(QString("%1").arg(freqStruct.MHzDouble, 0, 'f'));
freq = freqStruct;
} else {
qDebug(logSystem()) << "Rejecting stale frequency: " << freqStruct.Hz << " Hz, delta time ms = " << tnow_ms - lastFreqCmdTime_ms\
<< ", tnow_ms " << tnow_ms << ", last: " << lastFreqCmdTime_ms;
}
}
void wfmain::receivePTTstatus(bool pttOn)
{
// This is the only place where amTransmitting and the transmit button text should be changed:
//qInfo(logSystem()) << "PTT status: " << pttOn;
if (pttOn && !amTransmitting)
{
pttLed->setState(QLedLabel::State::StateError);
}
else if (!pttOn && amTransmitting)
{
pttLed->setState(QLedLabel::State::StateOk);
}
amTransmitting = pttOn;
changeTxBtn();
}
void wfmain::changeTxBtn()
{
if(amTransmitting)
{
ui->transmitBtn->setText("Receive");
} else {
ui->transmitBtn->setText("Transmit");
}
}
void wfmain::receiveSpectrumData(QByteArray spectrum, double startFreq, double endFreq)
{
if(!haveRigCaps)
{
qDebug(logSystem()) << "Spectrum received, but RigID incomplete.";
return;
}
if((startFreq != oldLowerFreq) || (endFreq != oldUpperFreq))
{
// If the frequency changed and we were drawing peaks, now is the time to clearn them
if(drawPeaks)
{
// TODO: create non-button function to do this
// This will break if the button is ever moved or renamed.
on_clearPeakBtn_clicked();
}
}
oldLowerFreq = startFreq;
oldUpperFreq = endFreq;
//qInfo(logSystem()) << "start: " << startFreq << " end: " << endFreq;
quint16 specLen = spectrum.length();
//qInfo(logSystem()) << "Spectrum data received at UI! Length: " << specLen;
//if( (specLen != 475) || (specLen!=689) )
if( specLen != rigCaps.spectLenMax )
{
qDebug(logSystem()) << "-------------------------------------------";
qDebug(logSystem()) << "------ Unusual spectrum received, length: " << specLen;
qDebug(logSystem()) << "------ Expected spectrum length: " << rigCaps.spectLenMax;
qDebug(logSystem()) << "------ This should happen once at most. ";
return; // safe. Using these unusual length things is a problem.
}
QVector <double> x(spectWidth), y(spectWidth), y2(spectWidth);
for(int i=0; i < spectWidth; i++)
{
x[i] = (i * (endFreq-startFreq)/spectWidth) + startFreq;
}
for(int i=0; i<specLen; i++)
{
//x[i] = (i * (endFreq-startFreq)/specLen) + startFreq;
y[i] = (unsigned char)spectrum.at(i);
if(drawPeaks)
{
if((unsigned char)spectrum.at(i) > (unsigned char)spectrumPeaks.at(i))
{
spectrumPeaks[i] = spectrum.at(i);
}
y2[i] = (unsigned char)spectrumPeaks.at(i);
}
}
if(!spectrumDrawLock)
{
//ui->qcp->addGraph();
plot->graph(0)->setData(x,y);
if((freq.MHzDouble < endFreq) && (freq.MHzDouble > startFreq))
{
freqIndicatorLine->start->setCoords(freq.MHzDouble,0);
freqIndicatorLine->end->setCoords(freq.MHzDouble,160);
}
if(drawPeaks)
{
plot->graph(1)->setData(x,y2); // peaks
}
plot->yAxis->setRange(0, rigCaps.spectAmpMax+1);
plot->xAxis->setRange(startFreq, endFreq);
plot->replot();
if(specLen == spectWidth)
{
wfimage.prepend(spectrum);
wfimage.resize(wfLengthMax);
wfimage.squeeze();
// Waterfall:
for(int row = 0; row < wfLength; row++)
{
for(int col = 0; col < spectWidth; col++)
{
colorMap->data()->setCell( col, row, wfimage.at(row).at(col));
}
}
wf->yAxis->setRange(0,wfLength - 1);
wf->xAxis->setRange(0, spectWidth-1);
wf->replot();
}
}
}
void wfmain::receiveSpectrumMode(spectrumMode spectMode)
{
for(int i=0; i < ui->spectrumModeCombo->count(); i++)
{
if(static_cast<spectrumMode>(ui->spectrumModeCombo->itemData(i).toInt()) == spectMode)
{
ui->spectrumModeCombo->blockSignals(true);
ui->spectrumModeCombo->setCurrentIndex(i);
ui->spectrumModeCombo->blockSignals(false);
}
}
}
void wfmain::handlePlotDoubleClick(QMouseEvent *me)
{
double x;
freqt freqGo;
//double y;
//double px;
if(!freqLock)
{
//y = plot->yAxis->pixelToCoord(me->pos().y());
x = plot->xAxis->pixelToCoord(me->pos().x());
freqGo.Hz = x*1E6;
freqGo.Hz = roundFrequency(freqGo.Hz, tsWfScrollHz);
freqGo.MHzDouble = (float)freqGo.Hz / 1E6;
//emit setFrequency(freq);
issueCmd(cmdSetFreq, freqGo);
freq = freqGo;
setUIFreq();
//issueDelayedCommand(cmdGetFreq);
showStatusBarText(QString("Going to %1 MHz").arg(x));
}
}
void wfmain::handleWFDoubleClick(QMouseEvent *me)
{
double x;
freqt freqGo;
//double y;
//x = wf->xAxis->pixelToCoord(me->pos().x());
//y = wf->yAxis->pixelToCoord(me->pos().y());
// cheap trick until I figure out how the axis works on the WF:
if(!freqLock)
{
x = plot->xAxis->pixelToCoord(me->pos().x());
freqGo.Hz = x*1E6;
freqGo.Hz = roundFrequency(freqGo.Hz, tsWfScrollHz);
freqGo.MHzDouble = (float)freqGo.Hz / 1E6;
//emit setFrequency(freq);
issueCmd(cmdSetFreq, freqGo);
freq = freqGo;
setUIFreq();
showStatusBarText(QString("Going to %1 MHz").arg(x));
}
}
void wfmain::handlePlotClick(QMouseEvent *me)
{
double x = plot->xAxis->pixelToCoord(me->pos().x());
showStatusBarText(QString("Selected %1 MHz").arg(x));
}
void wfmain::handleWFClick(QMouseEvent *me)
{
double x = plot->xAxis->pixelToCoord(me->pos().x());
showStatusBarText(QString("Selected %1 MHz").arg(x));
}
void wfmain::handleWFScroll(QWheelEvent *we)
{
// The wheel event is typically
// .y() and is +/- 120.
// We will click the dial once for every 120 received.
//QPoint delta = we->angleDelta();
if(freqLock)
return;
freqt f;
f.Hz = 0;
f.MHzDouble = 0;
int clicks = we->angleDelta().y() / 120;
if(!clicks)
return;
unsigned int stepsHz = tsWfScrollHz;
Qt::KeyboardModifiers key= we->modifiers();
if ((key == Qt::ShiftModifier) && (stepsHz !=1))
{
stepsHz /= 10;
} else if (key == Qt::ControlModifier)
{
stepsHz *= 10;
}
f.Hz = roundFrequencyWithStep(freq.Hz, clicks, stepsHz);
f.MHzDouble = f.Hz / (double)1E6;
freq = f;
//emit setFrequency(f);
issueCmdUniquePriority(cmdSetFreq, f);
ui->freqLabel->setText(QString("%1").arg(f.MHzDouble, 0, 'f'));
//issueDelayedCommandUnique(cmdGetFreq);
}
void wfmain::handlePlotScroll(QWheelEvent *we)
{
handleWFScroll(we);
}
void wfmain::on_scopeEnableWFBtn_clicked(bool checked)
{
if(checked)
{
emit spectOutputEnable();
} else {
emit spectOutputDisable();
}
}
void wfmain::receiveMode(unsigned char mode, unsigned char filter)
{
//qInfo(logSystem()) << __func__ << "Received mode " << mode << " current mode: " << currentModeIndex;
bool found=false;
if(mode < 0x23)
{
for(int i=0; i < ui->modeSelectCombo->count(); i++)
{
if(ui->modeSelectCombo->itemData(i).toInt() == mode)
{
ui->modeSelectCombo->blockSignals(true);
ui->modeSelectCombo->setCurrentIndex(i);
ui->modeSelectCombo->blockSignals(false);
found = true;
}
}
currentModeIndex = mode;
} else {
qInfo(logSystem()) << __func__ << "Invalid mode " << mode << " received. ";
}
if(!found)
{
qInfo(logSystem()) << __func__ << "Received mode " << mode << " but could not match to any index within the modeSelectCombo. ";
}
if( (filter) && (filter < 4)){
ui->modeFilterCombo->blockSignals(true);
ui->modeFilterCombo->setCurrentIndex(filter-1);
ui->modeFilterCombo->blockSignals(false);
}
(void)filter;
// Note: we need to know if the DATA mode is active to reach mode-D
// some kind of queued query:
if(rigCaps.hasDataModes)
issueDelayedCommand(cmdGetDataMode);
}
void wfmain::receiveDataModeStatus(bool dataEnabled)
{
ui->dataModeBtn->blockSignals(true);
ui->dataModeBtn->setChecked(dataEnabled);
ui->dataModeBtn->blockSignals(false);
usingDataMode = dataEnabled;
}
void wfmain::on_clearPeakBtn_clicked()
{
if(haveRigCaps)
{
spectrumPeaks = QByteArray( (int)spectWidth, '\x01' );
}
return;
}
void wfmain::on_drawPeakChk_clicked(bool checked)
{
if(checked)
{
on_clearPeakBtn_clicked(); // clear
drawPeaks = true;
} else {
drawPeaks = false;
#if QCUSTOMPLOT_VERSION >= 0x020000
plot->graph(1)->data()->clear();
#else
plot->graph(1)->clearData();
#endif
}
prefs.drawPeaks = checked;
}
void wfmain::on_fullScreenChk_clicked(bool checked)
{
if(checked)
{
this->showFullScreen();
onFullscreen = true;
} else {
this->showNormal();
onFullscreen = false;
}
prefs.useFullScreen = checked;
}
void wfmain::on_goFreqBtn_clicked()
{
freqt f;
bool ok = false;
double freqDbl = 0;
int KHz = 0;
if(ui->freqMhzLineEdit->text().contains("."))
{
freqDbl = ui->freqMhzLineEdit->text().toDouble(&ok);
if(ok)
{
f.Hz = freqDbl*1E6;
issueCmd(cmdSetFreq, f);
}
} else {
KHz = ui->freqMhzLineEdit->text().toInt(&ok);
if(ok)
{
f.Hz = KHz*1E3;
issueCmd(cmdSetFreq, f);
}
}
if(ok)
{
f.MHzDouble = (float)f.Hz / 1E6;
freq = f;
setUIFreq();
}
ui->freqMhzLineEdit->selectAll();
freqTextSelected = true;
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::checkFreqSel()
{
if(freqTextSelected)
{
freqTextSelected = false;
ui->freqMhzLineEdit->clear();
}
}
void wfmain::on_f0btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("0"));
}
void wfmain::on_f1btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("1"));
}
void wfmain::on_f2btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("2"));
}
void wfmain::on_f3btn_clicked()
{
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("3"));
}
void wfmain::on_f4btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("4"));
}
void wfmain::on_f5btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("5"));
}
void wfmain::on_f6btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("6"));
}
void wfmain::on_f7btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("7"));
}
void wfmain::on_f8btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("8"));
}
void wfmain::on_f9btn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("9"));
}
void wfmain::on_fDotbtn_clicked()
{
checkFreqSel();
ui->freqMhzLineEdit->setText(ui->freqMhzLineEdit->text().append("."));
}
void wfmain::on_fBackbtn_clicked()
{
QString currentFreq = ui->freqMhzLineEdit->text();
currentFreq.chop(1);
ui->freqMhzLineEdit->setText(currentFreq);
}
void wfmain::on_fCEbtn_clicked()
{
ui->freqMhzLineEdit->clear();
freqTextSelected = false;
}
void wfmain::on_spectrumModeCombo_currentIndexChanged(int index)
{
emit setScopeMode(static_cast<spectrumMode>(ui->spectrumModeCombo->itemData(index).toInt()));
}
void wfmain::on_fEnterBtn_clicked()
{
// TODO: do not jump to main tab on enter, only on return
// or something.
// Maybe this should be an option in settings->
on_goFreqBtn_clicked();
}
void wfmain::on_scopeBWCombo_currentIndexChanged(int index)
{
emit setScopeSpan((char)index);
}
void wfmain::on_scopeEdgeCombo_currentIndexChanged(int index)
{
emit setScopeEdge((char)index+1);
}
void wfmain::changeMode(mode_kind mode)
{
bool dataOn = false;
if(((unsigned char) mode >> 4) == 0x08)
{
dataOn = true;
mode = (mode_kind)((int)mode & 0x0f);
}
changeMode(mode, dataOn);
}
void wfmain::changeMode(mode_kind mode, bool dataOn)
{
int filter = ui->modeFilterCombo->currentData().toInt();
emit setMode((unsigned char)mode, (unsigned char)filter);
currentMode = mode;
if(dataOn)
{
issueDelayedCommand(cmdSetDataModeOn);
ui->dataModeBtn->blockSignals(true);
ui->dataModeBtn->setChecked(true);
ui->dataModeBtn->blockSignals(false);
} else {
issueDelayedCommand(cmdSetDataModeOff);
ui->dataModeBtn->blockSignals(true);
ui->dataModeBtn->setChecked(false);
ui->dataModeBtn->blockSignals(false);
}
issueDelayedCommand(cmdGetMode);
}
void wfmain::on_modeSelectCombo_activated(int index)
{
// The "acticvated" signal means the user initiated a mode change.
// This function is not called if code initated the change.
mode_info mode;
unsigned char newMode = static_cast<unsigned char>(ui->modeSelectCombo->itemData(index).toUInt());
currentModeIndex = newMode;
mode.reg = newMode;
int filterSelection = ui->modeFilterCombo->currentData().toInt();
if(filterSelection == 99)
{
// oops, we forgot to reset the combo box
return;
} else {
//qInfo(logSystem()) << __func__ << " at index " << index << " has newMode: " << newMode;
currentMode = (mode_kind)newMode;
mode.filter = filterSelection;
mode.name = ui->modeSelectCombo->currentText(); // for debug
for(unsigned int i=0; i < rigCaps.modes.size(); i++)
{
if(rigCaps.modes.at(i).reg == newMode)
{
mode.mk = rigCaps.modes.at(i).mk;
break;
}
}
issueCmd(cmdSetMode, mode);
currentModeInfo = mode;
//emit setMode(newMode, filterSelection);
}
}
void wfmain::on_freqDial_valueChanged(int value)
{
int maxVal = ui->freqDial->maximum();
freqt f;
f.Hz = 0;
f.MHzDouble = 0;
volatile int delta = 0;
int directPath = 0;
int crossingPath = 0;
int distToMaxNew = 0;
int distToMaxOld = 0;
if(freqLock)
{
ui->freqDial->blockSignals(true);
ui->freqDial->setValue(oldFreqDialVal);
ui->freqDial->blockSignals(false);
return;
}
if(value == 0)
{
distToMaxNew = 0;
} else {
distToMaxNew = maxVal - value;
}
if(oldFreqDialVal != 0)
{
distToMaxOld = maxVal - oldFreqDialVal;
} else {
distToMaxOld = 0;
}
directPath = abs(value - oldFreqDialVal);
if(value < maxVal / 2)
{
crossingPath = value + distToMaxOld;
} else {
crossingPath = distToMaxNew + oldFreqDialVal;
}
if(directPath > crossingPath)
{
// use crossing path, it is shorter
delta = crossingPath;
// now calculate the direction:
if( value > oldFreqDialVal)
{
// CW
delta = delta;
} else {
// CCW
delta *= -1;
}
} else {
// use direct path
// crossing path is larger than direct path, use direct path
//delta = directPath;
// now calculate the direction
delta = value - oldFreqDialVal;
}
// With the number of steps and direction of steps established,
// we can now adjust the frequeny:
f.Hz = roundFrequencyWithStep(freq.Hz, delta, tsKnobHz);
f.MHzDouble = f.Hz / (double)1E6;
if(f.Hz > 0)
{
freq = f;
oldFreqDialVal = value;
ui->freqLabel->setText(QString("%1").arg(f.MHzDouble, 0, 'f'));
//emit setFrequency(f);
issueCmdUniquePriority(cmdSetFreq, f);
} else {
ui->freqDial->blockSignals(true);
ui->freqDial->setValue(oldFreqDialVal);
ui->freqDial->blockSignals(false);
return;
}
}
void wfmain::receiveBandStackReg(freqt freqGo, char mode, char filter, bool dataOn)
{
// read the band stack and apply by sending out commands
qInfo(logSystem()) << __func__ << "BSR received into main: Freq: " << freqGo.Hz << ", mode: " << (unsigned int)mode << ", filter: " << (unsigned int)filter << ", data mode: " << dataOn;
//emit setFrequency(freq);
issueCmd(cmdSetFreq, freqGo);
setModeVal = (unsigned char) mode;
setFilterVal = (unsigned char) filter;
issueDelayedCommand(cmdSetModeFilter);
freq = freqGo;
setUIFreq();
if(dataOn)
{
issueDelayedCommand(cmdSetDataModeOn);
} else {
issueDelayedCommand(cmdSetDataModeOff);
}
//issueDelayedCommand(cmdGetFreq);
//issueDelayedCommand(cmdGetMode);
ui->tabWidget->setCurrentIndex(0);
receiveMode((unsigned char) mode, (unsigned char) filter); // update UI
}
void wfmain::bandStackBtnClick()
{
bandStkRegCode = ui->bandStkPopdown->currentIndex() + 1;
waitingForBandStackRtn = true; // so that when the return is parsed we jump to this frequency/mode info
emit getBandStackReg(bandStkBand, bandStkRegCode);
}
void wfmain::on_band23cmbtn_clicked()
{
bandStkBand = rigCaps.bsr[band23cm]; // 23cm
bandStackBtnClick();
}
void wfmain::on_band70cmbtn_clicked()
{
bandStkBand = rigCaps.bsr[band70cm]; // 70cm
bandStackBtnClick();
}
void wfmain::on_band2mbtn_clicked()
{
bandStkBand = rigCaps.bsr[band2m]; // 2m
bandStackBtnClick();
}
void wfmain::on_bandAirbtn_clicked()
{
bandStkBand = rigCaps.bsr[bandAir]; // VHF Aircraft
bandStackBtnClick();
}
void wfmain::on_bandWFMbtn_clicked()
{
bandStkBand = rigCaps.bsr[bandWFM]; // Broadcast FM
bandStackBtnClick();
}
void wfmain::on_band4mbtn_clicked()
{
// There isn't a BSR for this one:
freqt f;
if((currentMode == modeAM) || (currentMode == modeFM))
{
f.Hz = (70.260) * 1E6;
} else {
f.Hz = (70.200) * 1E6;
}
issueCmd(cmdSetFreq, f);
//emit setFrequency(f);
issueDelayedCommandUnique(cmdGetFreq);
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::on_band6mbtn_clicked()
{
bandStkBand = 0x10; // 6 meters
bandStackBtnClick();
}
void wfmain::on_band10mbtn_clicked()
{
bandStkBand = 0x09; // 10 meters
bandStackBtnClick();
}
void wfmain::on_band12mbtn_clicked()
{
bandStkBand = 0x08; // 12 meters
bandStackBtnClick();
}
void wfmain::on_band15mbtn_clicked()
{
bandStkBand = 0x07; // 15 meters
bandStackBtnClick();
}
void wfmain::on_band17mbtn_clicked()
{
bandStkBand = 0x06; // 17 meters
bandStackBtnClick();
}
void wfmain::on_band20mbtn_clicked()
{
bandStkBand = 0x05; // 20 meters
bandStackBtnClick();
}
void wfmain::on_band30mbtn_clicked()
{
bandStkBand = 0x04; // 30 meters
bandStackBtnClick();
}
void wfmain::on_band40mbtn_clicked()
{
bandStkBand = 0x03; // 40 meters
bandStackBtnClick();
}
void wfmain::on_band60mbtn_clicked()
{
// This one is tricky. There isn't a band stack register on the
// 7300 for 60 meters, so we just drop to the middle of the band:
// Channel 1: 5330.5 kHz
// Channel 2: 5346.5 kHz
// Channel 3: 5357.0 kHz
// Channel 4: 5371.5 kHz
// Channel 5: 5403.5 kHz
// Really not sure what the best strategy here is, don't want to
// clutter the UI with 60M channel buttons...
freqt f;
f.Hz = (5.3305) * 1E6;
issueCmd(cmdSetFreq, f);
//emit setFrequency(f);
issueDelayedCommandUnique(cmdGetFreq);
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::on_band80mbtn_clicked()
{
bandStkBand = 0x02; // 80 meters
bandStackBtnClick();
}
void wfmain::on_band160mbtn_clicked()
{
bandStkBand = 0x01; // 160 meters
bandStackBtnClick();
}
void wfmain::on_band630mbtn_clicked()
{
freqt f;
f.Hz = 475 * 1E3;
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::on_band2200mbtn_clicked()
{
freqt f;
f.Hz = 136 * 1E3;
//emit setFrequency(f);
issueCmd(cmdSetFreq, f);
issueDelayedCommandUnique(cmdGetFreq);
ui->tabWidget->setCurrentIndex(0);
}
void wfmain::on_bandGenbtn_clicked()
{
// "GENE" general coverage frequency outside the ham bands
// which does probably include any 60 meter frequencies used.
bandStkBand = rigCaps.bsr[bandGen]; // GEN
bandStackBtnClick();
}
void wfmain::on_aboutBtn_clicked()
{
abtBox->show();
}
void wfmain::on_fStoBtn_clicked()
{
// sequence:
// type frequency
// press Enter or Go
// change mode if desired
// type in index number 0 through 99
// press STO
bool ok;
int preset_number = ui->freqMhzLineEdit->text().toInt(&ok);
if(ok && (preset_number >= 0) && (preset_number < 100))
{
// TODO: keep an enum around with the current mode
mem.setPreset(preset_number, freq.MHzDouble, (mode_kind)ui->modeSelectCombo->currentData().toInt() );
showStatusBarText( QString("Storing frequency %1 to memory location %2").arg( freq.MHzDouble ).arg(preset_number) );
} else {
showStatusBarText(QString("Could not store preset to %1. Valid preset numbers are 0 to 99").arg(preset_number));
}
}
void wfmain::on_fRclBtn_clicked()
{
// Sequence:
// type memory location 0 through 99
// press RCL
// Program recalls data stored in vector at position specified
// drop contents into text box, press go button
// add delayed command for mode and data mode
preset_kind temp;
bool ok;
QString freqString;
int preset_number = ui->freqMhzLineEdit->text().toInt(&ok);
if(ok && (preset_number >= 0) && (preset_number < 100))
{
temp = mem.getPreset(preset_number);
// TODO: change to int hz
// TODO: store filter setting as well.
freqString = QString("%1").arg(temp.frequency);
ui->freqMhzLineEdit->setText( freqString );
ui->goFreqBtn->click();
setModeVal = temp.mode;
setFilterVal = ui->modeFilterCombo->currentIndex()+1; // TODO, add to memory
issueDelayedCommand(cmdSetModeFilter);
issueDelayedCommand(cmdGetMode);
} else {
qInfo(logSystem()) << "Could not recall preset. Valid presets are 0 through 99.";
}
}
void wfmain::on_rfGainSlider_valueChanged(int value)
{
issueCmdUniquePriority(cmdSetRxRfGain, (unsigned char) value);
}
void wfmain::on_afGainSlider_valueChanged(int value)
{
issueCmdUniquePriority(cmdSetAfGain, (unsigned char)value);
if(usingLAN)
{
rxSetup.localAFgain = (unsigned char)(value);
prefs.localAFgain = (unsigned char)(value);
}
}
void wfmain::receiveRfGain(unsigned char level)
{
// qInfo(logSystem()) << "Receive RF level of" << (int)level << " = " << 100*level/255.0 << "%";
ui->rfGainSlider->blockSignals(true);
ui->rfGainSlider->setValue(level);
ui->rfGainSlider->blockSignals(false);
}
void wfmain::receiveAfGain(unsigned char level)
{
// qInfo(logSystem()) << "Receive AF level of" << (int)level << " = " << 100*level/255.0 << "%";
ui->afGainSlider->blockSignals(true);
ui->afGainSlider->setValue(level);
ui->afGainSlider->blockSignals(false);
}
void wfmain::receiveSql(unsigned char level)
{
ui->sqlSlider->setValue(level);
}
void wfmain::on_tuneNowBtn_clicked()
{
issueDelayedCommand(cmdStartATU);
showStatusBarText("Starting ATU tuning cycle...");
issueDelayedCommand(cmdGetATUStatus);
}
void wfmain::on_tuneEnableChk_clicked(bool checked)
{
issueCmd(cmdSetATU, checked);
if(checked)
{
showStatusBarText("Turning on ATU");
} else {
showStatusBarText("Turning off ATU");
}
}
void wfmain::on_exitBtn_clicked()
{
// Are you sure?
QApplication::exit();
}
void wfmain::on_pttOnBtn_clicked()
{
// is it enabled?
if(!ui->pttEnableChk->isChecked())
{
showStatusBarText("PTT is disabled, not sending command. Change under Settings tab.");
return;
}
// Are we already PTT? Not a big deal, just send again anyway.
showStatusBarText("Sending PTT ON command. Use Control-R to receive.");
issueCmdUniquePriority(cmdSetPTT, true);
// send PTT
// Start 3 minute timer
pttTimer->start();
issueDelayedCommand(cmdGetPTT);
}
void wfmain::on_pttOffBtn_clicked()
{
// Send the PTT OFF command (more than once?)
showStatusBarText("Sending PTT OFF command");
issueCmdUniquePriority(cmdSetPTT, false);
// Stop the 3 min timer
pttTimer->stop();
issueDelayedCommand(cmdGetPTT);
}
void wfmain::handlePttLimit()
{
// transmission time exceeded!
showStatusBarText("Transmit timeout at 3 minutes. Sending PTT OFF command now.");
issueCmdUniquePriority(cmdSetPTT, false);
issueDelayedCommand(cmdGetPTT);
}
void wfmain::on_saveSettingsBtn_clicked()
{
saveSettings(); // save memory, UI, and radio settings
}
void wfmain::receiveATUStatus(unsigned char atustatus)
{
// qInfo(logSystem()) << "Received ATU status update: " << (unsigned int) atustatus;
switch(atustatus)
{
case 0x00:
// ATU not active
ui->tuneEnableChk->blockSignals(true);
ui->tuneEnableChk->setChecked(false);
ui->tuneEnableChk->blockSignals(false);
showStatusBarText("ATU not enabled.");
break;
case 0x01:
// ATU enabled
ui->tuneEnableChk->blockSignals(true);
ui->tuneEnableChk->setChecked(true);
ui->tuneEnableChk->blockSignals(false);
showStatusBarText("ATU enabled.");
break;
case 0x02:
// ATU tuning in-progress.
// Add command queue to check again and update status bar
// qInfo(logSystem()) << "Received ATU status update that *tuning* is taking place";
showStatusBarText("ATU is Tuning...");
issueDelayedCommand(cmdGetATUStatus); // Sometimes the first hit seems to be missed.
issueDelayedCommand(cmdGetATUStatus);
break;
default:
qInfo(logSystem()) << "Did not understand ATU status: " << (unsigned int) atustatus;
break;
}
}
void wfmain::on_pttEnableChk_clicked(bool checked)
{
prefs.enablePTT = checked;
}
void wfmain::on_serialEnableBtn_clicked(bool checked)
{
prefs.enableLAN = !checked;
ui->serialDeviceListCombo->setEnabled(checked);
ui->connectBtn->setEnabled(true);
ui->ipAddressTxt->setEnabled(!checked);
ui->controlPortTxt->setEnabled(!checked);
ui->usernameTxt->setEnabled(!checked);
ui->passwordTxt->setEnabled(!checked);
ui->audioRXCodecCombo->setEnabled(!checked);
ui->audioTXCodecCombo->setEnabled(!checked);
ui->audioSampleRateCombo->setEnabled(!checked);
ui->rxLatencySlider->setEnabled(!checked);
ui->txLatencySlider->setEnabled(!checked);
ui->rxLatencyValue->setEnabled(!checked);
ui->txLatencyValue->setEnabled(!checked);
ui->baudRateCombo->setEnabled(checked);
ui->serialDeviceListCombo->setEnabled(checked);
//ui->udpServerSetupBtn->setEnabled(true);
}
void wfmain::on_lanEnableBtn_clicked(bool checked)
{
prefs.enableLAN = checked;
ui->connectBtn->setEnabled(true);
ui->ipAddressTxt->setEnabled(checked);
ui->controlPortTxt->setEnabled(checked);
ui->usernameTxt->setEnabled(checked);
ui->passwordTxt->setEnabled(checked);
ui->baudRateCombo->setEnabled(!checked);
ui->serialDeviceListCombo->setEnabled(!checked);
//ui->udpServerSetupBtn->setEnabled(false);
if(checked)
{
showStatusBarText("After filling in values, press Save Settings.");
}
}
void wfmain::on_ipAddressTxt_textChanged(QString text)
{
udpPrefs.ipAddress = text;
}
void wfmain::on_controlPortTxt_textChanged(QString text)
{
udpPrefs.controlLANPort = text.toUInt();
}
void wfmain::on_usernameTxt_textChanged(QString text)
{
udpPrefs.username = text;
}
void wfmain::on_passwordTxt_textChanged(QString text)
{
udpPrefs.password = text;
}
void wfmain::on_audioOutputCombo_currentIndexChanged(int value)
{
#if defined(RTAUDIO)
rxSetup.port = ui->audioOutputCombo->itemData(value).toInt();
#elif defined(PORTAUDIO)
#else
QVariant v = ui->audioOutputCombo->itemData(value);
rxSetup.port = v.value<QAudioDeviceInfo>();
#endif
rxSetup.name = ui->audioOutputCombo->itemText(value);
qDebug(logGui()) << "Changed default audio output to:" << rxSetup.name;
}
void wfmain::on_audioInputCombo_currentIndexChanged(int value)
{
#if defined(RTAUDIO)
txSetup.port = ui->audioInputCombo->itemData(value).toInt();
#elif defined(PORTAUDIO)
#else
QVariant v = ui->audioInputCombo->itemData(value);
txSetup.port = v.value<QAudioDeviceInfo>();
#endif
txSetup.name = ui->audioInputCombo->itemText(value);
qDebug(logGui()) << "Changed default audio input to:" << txSetup.name;
}
void wfmain::on_audioSampleRateCombo_currentIndexChanged(QString text)
{
//udpPrefs.audioRXSampleRate = text.toInt();
//udpPrefs.audioTXSampleRate = text.toInt();
rxSetup.samplerate = text.toInt();
txSetup.samplerate = text.toInt();
}
void wfmain::on_audioRXCodecCombo_currentIndexChanged(int value)
{
rxSetup.codec = ui->audioRXCodecCombo->itemData(value).toInt();
}
void wfmain::on_audioTXCodecCombo_currentIndexChanged(int value)
{
txSetup.codec = ui->audioTXCodecCombo->itemData(value).toInt();
}
void wfmain::on_rxLatencySlider_valueChanged(int value)
{
rxSetup.latency = value;
ui->rxLatencyValue->setText(QString::number(value));
emit sendChangeLatency(value);
}
void wfmain::on_txLatencySlider_valueChanged(int value)
{
txSetup.latency = value;
ui->txLatencyValue->setText(QString::number(value));
}
void wfmain::on_vspCombo_currentIndexChanged(int value)
{
Q_UNUSED(value);
prefs.virtualSerialPort = ui->vspCombo->currentText();
}
void wfmain::on_toFixedBtn_clicked()
{
emit setScopeFixedEdge(oldLowerFreq, oldUpperFreq, ui->scopeEdgeCombo->currentIndex()+1);
emit setScopeEdge(ui->scopeEdgeCombo->currentIndex()+1);
issueDelayedCommand(cmdScopeFixedMode);
}
void wfmain::on_connectBtn_clicked()
{
this->rigStatus->setText(""); // Clear status
if (haveRigCaps) {
emit sendCloseComm();
ui->connectBtn->setText("Connect");
haveRigCaps = false;
rigName->setText("NONE");
}
else
{
emit sendCloseComm(); // Just in case there is a failed connection open.
openRig();
}
}
void wfmain::on_udpServerSetupBtn_clicked()
{
srv->show();
}
void wfmain::on_sqlSlider_valueChanged(int value)
{
issueCmd(cmdSetSql, (unsigned char)value);
//emit setSql((unsigned char)value);
}
void wfmain::on_modeFilterCombo_activated(int index)
{
int filterSelection = ui->modeFilterCombo->itemData(index).toInt();
if(filterSelection == 99)
{
// TODO:
// Bump the filter selected back to F1, F2, or F3
// possibly track the filter in the class. Would make this easier.
// filterSetup.show();
//
} else {
unsigned char newMode = static_cast<unsigned char>(ui->modeSelectCombo->currentData().toUInt());
currentModeIndex = newMode; // we track this for other functions
if(ui->dataModeBtn->isChecked())
{
emit setDataMode(true, (unsigned char)filterSelection);
} else {
emit setMode(newMode, (unsigned char)filterSelection);
}
}
}
void wfmain::on_dataModeBtn_toggled(bool checked)
{
emit setDataMode(checked, (unsigned char)ui->modeFilterCombo->currentData().toInt());
usingDataMode = checked;
if(usingDataMode)
{
changeModLabelAndSlider(currentModDataSrc);
} else {
changeModLabelAndSlider(currentModSrc);
}
}
void wfmain::on_transmitBtn_clicked()
{
if(!amTransmitting)
{
// Currently receiving
if(!ui->pttEnableChk->isChecked())
{
showStatusBarText("PTT is disabled, not sending command. Change under Settings tab.");
return;
}
// Are we already PTT? Not a big deal, just send again anyway.
showStatusBarText("Sending PTT ON command. Use Control-R to receive.");
issueCmdUniquePriority(cmdSetPTT, true);
// send PTT
// Start 3 minute timer
pttTimer->start();
issueDelayedCommand(cmdGetPTT);
//changeTxBtn();
} else {
// Currently transmitting
issueCmdUniquePriority(cmdSetPTT, false);
pttTimer->stop();
issueDelayedCommand(cmdGetPTT);
}
}
void wfmain::on_adjRefBtn_clicked()
{
cal->show();
}
void wfmain::on_satOpsBtn_clicked()
{
sat->show();
}
void wfmain::setRadioTimeDatePrep()
{
if(!waitingToSetTimeDate)
{
// 1: Find the current time and date
QDateTime now = QDateTime::currentDateTime();
now.setTime(QTime::currentTime());
int second = now.time().second();
// 2: Find how many mseconds until next minute
int msecdelay = QTime::currentTime().msecsTo( QTime::currentTime().addSecs(60-second) );
// 3: Compute time and date at one minute later
QDateTime setpoint = now.addMSecs(msecdelay); // at HMS or posibly HMS + some ms. Never under though.
// 4: Prepare data structs for the time at one minute later
timesetpoint.hours = (unsigned char)setpoint.time().hour();
timesetpoint.minutes = (unsigned char)setpoint.time().minute();
datesetpoint.day = (unsigned char)setpoint.date().day();
datesetpoint.month = (unsigned char)setpoint.date().month();
datesetpoint.year = (uint16_t)setpoint.date().year();
unsigned int utcOffsetSeconds = (unsigned int)abs(setpoint.offsetFromUtc());
bool isMinus = setpoint.offsetFromUtc() < 0;
utcsetting.hours = utcOffsetSeconds / 60 / 60;
utcsetting.minutes = (utcOffsetSeconds - (utcsetting.hours*60*60) ) / 60;
utcsetting.isMinus = isMinus;
timeSync->setInterval(msecdelay);
timeSync->setSingleShot(true);
// 5: start one-shot timer for the delta computed in #2.
timeSync->start();
waitingToSetTimeDate = true;
showStatusBarText(QString("Setting time, date, and UTC offset for radio in %1 seconds.").arg(msecdelay/1000));
}
}
void wfmain::setRadioTimeDateSend()
{
// Issue priority commands for UTC offset, date, and time
// UTC offset must come first, otherwise the radio may "help" and correct for any changes.
showStatusBarText(QString("Setting time, date, and UTC offset for radio now."));
issueCmd(cmdSetTime, timesetpoint);
issueCmd(cmdSetDate, datesetpoint);
issueCmd(cmdSetUTCOffset, utcsetting);
waitingToSetTimeDate = false;
}
void wfmain::changeSliderQuietly(QSlider *slider, int value)
{
slider->blockSignals(true);
slider->setValue(value);
slider->blockSignals(false);
}
void wfmain::statusFromSliderRaw(QString name, int rawValue)
{
showStatusBarText(name + QString(": %1").arg(rawValue));
}
void wfmain::statusFromSliderPercent(QString name, int rawValue)
{
showStatusBarText(name + QString(": %1%").arg((int)(100*rawValue/255.0)));
}
void wfmain::receiveTxPower(unsigned char power)
{
changeSliderQuietly(ui->txPowerSlider, power);
}
void wfmain::receiveMicGain(unsigned char gain)
{
processModLevel(inputMic, gain);
}
void wfmain::processModLevel(rigInput source, unsigned char level)
{
rigInput currentIn;
if(usingDataMode)
{
currentIn = currentModDataSrc;
} else {
currentIn = currentModSrc;
}
switch(source)
{
case inputMic:
micGain = level;
break;
case inputACC:
accGain = level;
break;
case inputACCA:
accAGain = level;
break;
case inputACCB:
accBGain = level;
break;
case inputUSB:
usbGain = level;
break;
case inputLAN:
lanGain = level;
break;
default:
break;
}
if(currentIn == source)
{
changeSliderQuietly(ui->micGainSlider, level);
}
}
void wfmain::receiveModInput(rigInput input, bool dataOn)
{
QComboBox *box;
QString inputName;
bool found;
bool foundCurrent = false;
if(dataOn)
{
box = ui->modInputDataCombo;
currentModDataSrc = input;
if(usingDataMode)
foundCurrent = true;
} else {
box = ui->modInputCombo;
currentModSrc = input;
if(!usingDataMode)
foundCurrent = true;
}
for(int i=0; i < box->count(); i++)
{
if(box->itemData(i).toInt() == (int)input)
{
box->blockSignals(true);
box->setCurrentIndex(i);
box->blockSignals(false);
found = true;
}
}
if(foundCurrent)
{
changeModLabel(input);
}
if(!found)
qInfo(logSystem()) << "Could not find modulation input: " << (int)input;
}
void wfmain::receiveACCGain(unsigned char level, unsigned char ab)
{
if(ab==1)
{
processModLevel(inputACCB, level);
} else {
if(rigCaps.model == model7850)
{
processModLevel(inputACCA, level);
} else {
processModLevel(inputACC, level);
}
}
}
void wfmain::receiveUSBGain(unsigned char level)
{
processModLevel(inputUSB, level);
}
void wfmain::receiveLANGain(unsigned char level)
{
processModLevel(inputLAN, level);
}
void wfmain::receiveMeter(meterKind inMeter, unsigned char level)
{
switch(inMeter)
{
case meterS:
ui->meterSPoWidget->setMeterType(meterS);
ui->meterSPoWidget->setLevel(level);
ui->meterSPoWidget->repaint();
break;
case meterPower:
ui->meterSPoWidget->setMeterType(meterPower);
ui->meterSPoWidget->setLevel(level);
ui->meterSPoWidget->update();
break;
default:
if(ui->meter2Widget->getMeterType() == inMeter)
{
ui->meter2Widget->setLevel(level);
}
break;
}
}
void wfmain::receiveCompLevel(unsigned char compLevel)
{
(void)compLevel;
}
void wfmain::receiveMonitorGain(unsigned char monitorGain)
{
(void)monitorGain;
}
void wfmain::receiveVoxGain(unsigned char voxGain)
{
(void)voxGain;
}
void wfmain::receiveAntiVoxGain(unsigned char antiVoxGain)
{
(void)antiVoxGain;
}
void wfmain::on_txPowerSlider_valueChanged(int value)
{
issueCmdUniquePriority(cmdSetTxPower, (unsigned char)value);
//emit setTxPower(value);
}
void wfmain::on_micGainSlider_valueChanged(int value)
{
processChangingCurrentModLevel((unsigned char) value);
}
void wfmain::on_scopeRefLevelSlider_valueChanged(int value)
{
value = (value/5) * 5; // rounded to "nearest 5"
emit setSpectrumRefLevel(value);
}
void wfmain::receiveSpectrumRefLevel(int level)
{
changeSliderQuietly(ui->scopeRefLevelSlider, level);
}
// Slot to send/receive server config.
// If store is true then write to config otherwise send current config by signal
void wfmain::serverConfigRequested(SERVERCONFIG conf, bool store)
{
if (!store) {
emit sendServerConfig(serverConfig);
}
else {
// Store config in file!
qInfo(logSystem()) << "Storing server config";
serverConfig = conf;
}
}
void wfmain::on_modInputCombo_activated(int index)
{
emit setModInput( (rigInput)ui->modInputCombo->currentData().toInt(), false );
currentModSrc = (rigInput)ui->modInputCombo->currentData().toInt();
issueDelayedCommand(cmdGetCurrentModLevel);
if(!usingDataMode)
{
changeModLabel(currentModSrc);
}
(void)index;
}
void wfmain::on_modInputDataCombo_activated(int index)
{
emit setModInput( (rigInput)ui->modInputDataCombo->currentData().toInt(), true );
currentModDataSrc = (rigInput)ui->modInputDataCombo->currentData().toInt();
issueDelayedCommand(cmdGetCurrentModLevel);
if(usingDataMode)
{
changeModLabel(currentModDataSrc);
}
(void)index;
}
void wfmain::changeModLabelAndSlider(rigInput source)
{
changeModLabel(source, true);
}
void wfmain::changeModLabel(rigInput input)
{
changeModLabel(input, false);
}
void wfmain::changeModLabel(rigInput input, bool updateLevel)
{
QString inputName;
unsigned char gain = 0;
switch(input)
{
case inputMic:
inputName = "Mic";
gain = micGain;
break;
case inputACC:
inputName = "ACC";
gain = accGain;
break;
case inputACCA:
inputName = "ACCA";
gain = accAGain;
break;
case inputACCB:
inputName = "ACCB";
gain = accBGain;
break;
case inputUSB:
inputName = "USB";
gain = usbGain;
break;
case inputLAN:
inputName = "LAN";
gain = lanGain;
break;
default:
inputName = "UNK";
gain=0;
break;
}
ui->modSliderLbl->setText(inputName);
if(updateLevel)
{
changeSliderQuietly(ui->micGainSlider, gain);
}
}
void wfmain::processChangingCurrentModLevel(unsigned char level)
{
// slider moved, so find the current mod and issue the level set command.
issueCmd(cmdSetModLevel, level);
}
void wfmain::on_tuneLockChk_clicked(bool checked)
{
freqLock = checked;
}
void wfmain::on_serialDeviceListCombo_activated(const QString &arg1)
{
QString manualPort;
bool ok;
if(arg1==QString("Manual..."))
{
manualPort = QInputDialog::getText(this, tr("Manual port assignment"),
tr("Enter serial port assignment:"),
QLineEdit::Normal,
tr("/dev/device"), &ok);
if(manualPort.isEmpty() || !ok)
{
ui->serialDeviceListCombo->blockSignals(true);
ui->serialDeviceListCombo->setCurrentIndex(0);
ui->serialDeviceListCombo->blockSignals(false);
return;
} else {
prefs.serialPortRadio = manualPort;
showStatusBarText("Setting preferences to use manually-assigned serial port: " + manualPort);
ui->serialEnableBtn->setChecked(true);
return;
}
}
if(arg1==QString("Auto"))
{
prefs.serialPortRadio = "auto";
showStatusBarText("Setting preferences to automatically find rig serial port.");
ui->serialEnableBtn->setChecked(true);
return;
}
prefs.serialPortRadio = arg1;
showStatusBarText("Setting preferences to use manually-assigned serial port: " + arg1);
ui->serialEnableBtn->setChecked(true);
}
void wfmain::on_rptSetupBtn_clicked()
{
rpt->show();
}
void wfmain::on_attSelCombo_activated(int index)
{
unsigned char att = (unsigned char)ui->attSelCombo->itemData(index).toInt();
emit setAttenuator(att);
issueDelayedCommand(cmdGetPreamp);
}
void wfmain::on_preampSelCombo_activated(int index)
{
unsigned char pre = (unsigned char)ui->preampSelCombo->itemData(index).toInt();
emit setPreamp(pre);
issueDelayedCommand(cmdGetAttenuator);
}
void wfmain::on_antennaSelCombo_activated(int index)
{
unsigned char ant = (unsigned char)ui->antennaSelCombo->itemData(index).toInt();
emit setAntenna(ant,ui->rxAntennaCheck->isChecked());
}
void wfmain::on_rxAntennaCheck_clicked(bool value)
{
unsigned char ant = (unsigned char)ui->antennaSelCombo->itemData(ui->antennaSelCombo->currentIndex()).toInt();
emit setAntenna(ant, value);
}
void wfmain::on_wfthemeCombo_activated(int index)
{
colorMap->setGradient(static_cast<QCPColorGradient::GradientPreset>(ui->wfthemeCombo->itemData(index).toInt()));
prefs.wftheme = ui->wfthemeCombo->itemData(index).toInt();
}
void wfmain::receivePreamp(unsigned char pre)
{
int preindex = ui->preampSelCombo->findData(pre);
ui->preampSelCombo->setCurrentIndex(preindex);
}
void wfmain::receiveAttenuator(unsigned char att)
{
int attindex = ui->attSelCombo->findData(att);
ui->attSelCombo->setCurrentIndex(attindex);
}
void wfmain::receiveAntennaSel(unsigned char ant, bool rx)
{
ui->antennaSelCombo->setCurrentIndex(ant);
ui->rxAntennaCheck->setChecked(rx);
}
void wfmain::receiveSpectrumSpan(freqt freqspan, bool isSub)
{
if(!isSub)
{
switch((int)(freqspan.MHzDouble * 1000000.0))
{
case(2500):
ui->scopeBWCombo->setCurrentIndex(0);
break;
case(5000):
ui->scopeBWCombo->setCurrentIndex(1);
break;
case(10000):
ui->scopeBWCombo->setCurrentIndex(2);
break;
case(25000):
ui->scopeBWCombo->setCurrentIndex(3);
break;
case(50000):
ui->scopeBWCombo->setCurrentIndex(4);
break;
case(100000):
ui->scopeBWCombo->setCurrentIndex(5);
break;
case(250000):
ui->scopeBWCombo->setCurrentIndex(6);
break;
case(500000):
ui->scopeBWCombo->setCurrentIndex(7);
break;
case(1000000):
ui->scopeBWCombo->setCurrentIndex(8);
break;
case(2500000):
ui->scopeBWCombo->setCurrentIndex(9);
break;
default:
qInfo(logSystem()) << __func__ << "Could not match: " << freqspan.MHzDouble << " to anything like: " << (int)(freqspan.MHzDouble*1E6);
break;
}
}
}
void wfmain::calculateTimingParameters()
{
// Function for calculating polling parameters.
// Requires that we know the "baud rate" of the actual
// radio connection.
// baud on the serial port reflects the actual rig connection,
// even if a client-server connection is being used.
// Computed time for a 10 byte message, with a safety factor of 2.
if (prefs.serialPortBaud == 0)
{
prefs.serialPortBaud = 9600;
qInfo(logSystem()) << "WARNING: baud rate received was zero. Assuming 9600 baud, performance may suffer.";
}
unsigned int usPerByte = 9600*1000 / prefs.serialPortBaud;
unsigned int msMinTiming=usPerByte * 10*2/1000;
if(msMinTiming < 25)
msMinTiming = 25;
if(haveRigCaps && rigCaps.hasFDcomms)
{
delayedCommand->setInterval( msMinTiming); // 20 byte message
} else {
delayedCommand->setInterval( msMinTiming * 3); // 20 byte message
}
qInfo(logSystem()) << "Delay command interval timing: " << delayedCommand->interval() << "ms";
// Normal:
delayedCmdIntervalLAN_ms = delayedCommand->interval();
delayedCmdIntervalSerial_ms = delayedCommand->interval();
// startup initial state:
delayedCmdStartupInterval_ms = delayedCommand->interval() * 3;
}
void wfmain::receiveBaudRate(quint32 baud)
{
qInfo() << "Received serial port baud rate from remote server:" << baud;
prefs.serialPortBaud = baud;
calculateTimingParameters();
}
void wfmain::on_rigPowerOnBtn_clicked()
{
powerRigOn();
}
void wfmain::on_rigPowerOffBtn_clicked()
{
// Are you sure?
if (!prefs.confirmPowerOff) {
powerRigOff();
return;
}
QCheckBox* cb = new QCheckBox("Don't ask me again");
QMessageBox msgbox;
msgbox.setWindowTitle("Power");
msgbox.setText("Power down the radio?\n");
msgbox.setIcon(QMessageBox::Icon::Question);
QAbstractButton* yesButton = msgbox.addButton(QMessageBox::Yes);
msgbox.addButton(QMessageBox::No);
msgbox.setDefaultButton(QMessageBox::Yes);
msgbox.setCheckBox(cb);
QObject::connect(cb, &QCheckBox::stateChanged, [this](int state) {
if (static_cast<Qt::CheckState>(state) == Qt::CheckState::Checked) {
prefs.confirmPowerOff = false;
}
else {
prefs.confirmPowerOff = true;
}
settings->beginGroup("Interface");
settings->setValue("ConfirmPowerOff", this->prefs.confirmPowerOff);
settings->endGroup();
settings->sync();
});
msgbox.exec();
if (msgbox.clickedButton() == yesButton) {
powerRigOff();
}
}
void wfmain::powerRigOn()
{
emit sendPowerOn();
delayedCommand->setInterval(3000); // 3 seconds
if(ui->scopeEnableWFBtn->isChecked())
{
issueDelayedCommand(cmdDispEnable);
issueDelayedCommand(cmdQueNormalSpeed);
issueDelayedCommand(cmdSpecOn);
issueDelayedCommand(cmdStartRegularPolling); // s-meter, etc
} else {
issueDelayedCommand(cmdQueNormalSpeed);
issueDelayedCommand(cmdStartRegularPolling); // s-meter, etc
}
delayedCommand->start();
}
void wfmain::powerRigOff()
{
delayedCommand->stop();
delayedCmdQue.clear();
emit sendPowerOff();
}
void wfmain::on_ritTuneDial_valueChanged(int value)
{
emit setRitValue(value);
}
void wfmain::on_ritEnableChk_clicked(bool checked)
{
emit setRitEnable(checked);
}
void wfmain::receiveRITStatus(bool ritEnabled)
{
ui->ritEnableChk->blockSignals(true);
ui->ritEnableChk->setChecked(ritEnabled);
ui->ritEnableChk->blockSignals(false);
}
void wfmain::receiveRITValue(int ritValHz)
{
if((ritValHz > -500) && (ritValHz < 500))
{
ui->ritTuneDial->blockSignals(true);
ui->ritTuneDial->setValue(ritValHz);
ui->ritTuneDial->blockSignals(false);
} else {
qInfo(logSystem()) << "Warning: out of range RIT value received: " << ritValHz << " Hz";
}
}
void wfmain::showButton(QPushButton *btn)
{
btn->setHidden(false);
}
void wfmain::hideButton(QPushButton *btn)
{
btn->setHidden(true);
}
void wfmain::setBandButtons()
{
// Turn off each button first:
hideButton(ui->band23cmbtn);
hideButton(ui->band70cmbtn);
hideButton(ui->band2mbtn);
hideButton(ui->bandAirbtn);
hideButton(ui->bandWFMbtn);
hideButton(ui->band4mbtn);
hideButton(ui->band6mbtn);
hideButton(ui->band10mbtn);
hideButton(ui->band12mbtn);
hideButton(ui->band15mbtn);
hideButton(ui->band17mbtn);
hideButton(ui->band20mbtn);
hideButton(ui->band30mbtn);
hideButton(ui->band40mbtn);
hideButton(ui->band60mbtn);
hideButton(ui->band80mbtn);
hideButton(ui->band160mbtn);
hideButton(ui->band630mbtn);
hideButton(ui->band2200mbtn);
hideButton(ui->bandGenbtn);
bandType bandSel;
//for (auto band = rigCaps.bands.begin(); band != rigCaps.bands.end(); ++band) // no worky
for(unsigned int i=0; i < rigCaps.bands.size(); i++)
{
bandSel = rigCaps.bands.at(i);
switch(bandSel)
{
case(band23cm):
showButton(ui->band23cmbtn);
break;
case(band70cm):
showButton(ui->band70cmbtn);
break;
case(band2m):
showButton(ui->band2mbtn);
break;
case(bandAir):
showButton(ui->bandAirbtn);
break;
case(bandWFM):
showButton(ui->bandWFMbtn);
break;
case(band4m):
showButton(ui->band4mbtn);
break;
case(band6m):
showButton(ui->band6mbtn);
break;
case(band10m):
showButton(ui->band10mbtn);
break;
case(band12m):
showButton(ui->band12mbtn);
break;
case(band15m):
showButton(ui->band15mbtn);
break;
case(band17m):
showButton(ui->band17mbtn);
break;
case(band20m):
showButton(ui->band20mbtn);
break;
case(band30m):
showButton(ui->band30mbtn);
break;
case(band40m):
showButton(ui->band40mbtn);
break;
case(band60m):
showButton(ui->band60mbtn);
break;
case(band80m):
showButton(ui->band80mbtn);
break;
case(band160m):
showButton(ui->band160mbtn);
break;
case(band630m):
showButton(ui->band630mbtn);
break;
case(band2200m):
showButton(ui->band2200mbtn);
break;
case(bandGen):
showButton(ui->bandGenbtn);
break;
default:
break;
}
}
}
void wfmain::on_rigCIVManualAddrChk_clicked(bool checked)
{
if(checked)
{
ui->rigCIVaddrHexLine->setEnabled(true);
ui->rigCIVaddrHexLine->setText(QString("%1").arg(prefs.radioCIVAddr, 2, 16));
} else {
ui->rigCIVaddrHexLine->setText("auto");
ui->rigCIVaddrHexLine->setEnabled(false);
prefs.radioCIVAddr = 0; // auto
showStatusBarText("Setting radio CI-V address to: 'auto'. Make sure CI-V Transceive is enabled on the radio.");
}
}
void wfmain::on_rigCIVaddrHexLine_editingFinished()
{
bool okconvert=false;
unsigned char propCIVAddr = (unsigned char) ui->rigCIVaddrHexLine->text().toUInt(&okconvert, 16);
if(okconvert && (propCIVAddr < 0xe0) && (propCIVAddr != 0))
{
prefs.radioCIVAddr = propCIVAddr;
emit setCIVAddr(propCIVAddr);
showStatusBarText(QString("Setting radio CI-V address to: 0x%1. Press Save Settings to retain.").arg(propCIVAddr, 2, 16));
} else {
showStatusBarText(QString("Could not use provided CI-V address. Address must be < 0xE0"));
}
}
void wfmain::on_baudRateCombo_activated(int index)
{
bool ok = false;
quint32 baud = ui->baudRateCombo->currentData().toUInt(&ok);
if(ok)
{
prefs.serialPortBaud = baud;
serverConfig.baudRate = baud;
showStatusBarText(QString("Changed baud rate to %1 bps. Press Save Settings to retain.").arg(baud));
}
(void)index;
}
void wfmain::on_wfLengthSlider_valueChanged(int value)
{
prefs.wflength = (unsigned int)(value);
prepareWf(value);
}
void wfmain::on_pollingBtn_clicked()
{
bool ok;
int timing = 0;
timing = QInputDialog::getInt(this, "wfview Radio Polling Setup", "Poll Timing Interval (ms)", delayedCommand->interval(), 1, 200, 1, &ok );
if(ok && timing)
{
delayedCommand->setInterval( timing );
qInfo(logSystem()) << "User changed radio polling interval to " << timing << "ms.";
showStatusBarText("User changed radio polling interval to " + QString("%1").arg(timing) + "ms.");
}
}
void wfmain::on_wfAntiAliasChk_clicked(bool checked)
{
colorMap->setAntialiased(checked);
prefs.wfAntiAlias = checked;
}
void wfmain::on_wfInterpolateChk_clicked(bool checked)
{
colorMap->setInterpolate(checked);
prefs.wfInterpolate = checked;
}
wfmain::cmds wfmain::meterKindToMeterCommand(meterKind m)
{
cmds c;
switch(m)
{
case meterNone:
c = cmdNone;
break;
case meterS:
c = cmdGetSMeter;
break;
case meterCenter:
c = cmdGetCenterMeter;
break;
case meterPower:
c = cmdGetPowerMeter;
break;
case meterSWR:
c = cmdGetSWRMeter;
break;
case meterALC:
c = cmdGetALCMeter;
break;
case meterComp:
c = cmdGetCompMeter;
break;
case meterCurrent:
c = cmdGetIdMeter;
break;
case meterVoltage:
c = cmdGetVdMeter;
break;
default:
c = cmdNone;
break;
}
return c;
}
void wfmain::on_meter2selectionCombo_activated(int index)
{
meterKind newMeterType;
meterKind oldMeterType;
newMeterType = static_cast<meterKind>(ui->meter2selectionCombo->currentData().toInt());
oldMeterType = ui->meter2Widget->getMeterType();
if(newMeterType == oldMeterType)
return;
cmds newCmd = meterKindToMeterCommand(newMeterType);
cmds oldCmd = meterKindToMeterCommand(oldMeterType);
removePeriodicCommand(oldCmd);
if(newMeterType==meterNone)
{
ui->meter2Widget->hide();
} else {
ui->meter2Widget->show();
ui->meter2Widget->setMeterType(newMeterType);
insertPeriodicCommandUnique(newCmd);
}
(void)index;
}
void wfmain::on_enableRigctldChk_clicked(bool checked)
{
if (rigCtl != Q_NULLPTR)
{
rigCtl->disconnect();
delete rigCtl;
rigCtl = Q_NULLPTR;
}
if (checked) {
// Start rigctld
rigCtl = new rigCtlD(this);
rigCtl->startServer(prefs.rigCtlPort);
connect(this, SIGNAL(sendRigCaps(rigCapabilities)), rigCtl, SLOT(receiveRigCaps(rigCapabilities)));
if (rig != Q_NULLPTR) {
// We are already connected to a rig.
connect(rig, SIGNAL(stateInfo(rigStateStruct*)), rigCtl, SLOT(receiveStateInfo(rigStateStruct*)));
connect(rigCtl, SIGNAL(setFrequency(freqt)), rig, SLOT(setFrequency(freqt)));
connect(rigCtl, SIGNAL(setMode(unsigned char, unsigned char)), rig, SLOT(setMode(unsigned char, unsigned char)));
connect(rigCtl, SIGNAL(setDataMode(bool, unsigned char)), rig, SLOT(setDataMode(bool, unsigned char)));
connect(rigCtl, SIGNAL(setPTT(bool)), rig, SLOT(setPTT(bool)));
connect(rigCtl, SIGNAL(sendPowerOn()), rig, SLOT(powerOn()));
connect(rigCtl, SIGNAL(sendPowerOff()), rig, SLOT(powerOff()));
connect(rigCtl, SIGNAL(setAttenuator(unsigned char)), rig, SLOT(setAttenuator(unsigned char)));
connect(rigCtl, SIGNAL(setPreamp(unsigned char)), rig, SLOT(setPreamp(unsigned char)));
connect(rigCtl, SIGNAL(setDuplexMode(duplexMode)), rig, SLOT(setDuplexMode(duplexMode)));
// Levels: Set:
connect(rigCtl, SIGNAL(setRfGain(unsigned char)), rig, SLOT(setRfGain(unsigned char)));
connect(rigCtl, SIGNAL(setAfGain(unsigned char)), rig, SLOT(setAfGain(unsigned char)));
connect(rigCtl, SIGNAL(setSql(unsigned char)), rig, SLOT(setSquelch(unsigned char)));
connect(rigCtl, SIGNAL(setTxPower(unsigned char)), rig, SLOT(setTxPower(unsigned char)));
connect(rigCtl, SIGNAL(setMicGain(unsigned char)), rig, SLOT(setMicGain(unsigned char)));
connect(rigCtl, SIGNAL(setMonitorLevel(unsigned char)), rig, SLOT(setMonitorLevel(unsigned char)));
connect(rigCtl, SIGNAL(setVoxGain(unsigned char)), rig, SLOT(setVoxGain(unsigned char)));
connect(rigCtl, SIGNAL(setAntiVoxGain(unsigned char)), rig, SLOT(setAntiVoxGain(unsigned char)));
connect(rigCtl, SIGNAL(setSpectrumRefLevel(int)), rig, SLOT(setSpectrumRefLevel(int)));
emit sendRigCaps(rigCaps);
emit requestRigState();
}
}
prefs.enableRigCtlD = checked;
}
void wfmain::on_rigctldPortTxt_editingFinished()
{
bool okconvert = false;
unsigned int port = ui->rigctldPortTxt->text().toUInt(&okconvert);
if (okconvert)
{
prefs.rigCtlPort = port;
}
}
// --- DEBUG FUNCTION ---
void wfmain::on_debugBtn_clicked()
{
qInfo(logSystem()) << "Debug button pressed.";
//trxadj->show();
//setRadioTimeDatePrep();
//wf->setInteraction(QCP::iRangeZoom, true);
//wf->setInteraction(QCP::iRangeDrag, true);
}