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LibreVNA/Software/PC_Application/Generator/signalgenwidget.cpp

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Refactoring: splitting mode logic into different classes
2020-09-13 20:44:45 +08:00
#include "signalgenwidget.h"
app: sort header list
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automatic driver installation on Windows using WCID, changed PID to avoid collision
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#include "ui_signalgenwidget.h"
Mode switch to signal generator (GUI stubs only)
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Partial virtual device wrapper
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SignalgeneratorWidget::SignalgeneratorWidget(VirtualDevice *dev, QWidget *parent) :
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QWidget(parent),
split device info and status protocol messages
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ui(new Ui::SignalgeneratorWidget),
dev(dev)
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{
ui->setupUi(this);
ui->frequency->setUnit("Hz");
ui->frequency->setPrefixes(" kMG");
SignalGen - more precision digits; ui panel mod.
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ui->frequency->setPrecision(6); // show enough digits
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Sweep function added
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ui->span->setUnit("Hz");
ui->span->setPrefixes(" kMG");
ui->span->setPrecision(6); // show enough digits
minor adjustments to Qt layout
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ui->span->setValue(0);
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ui->current->setUnit("Hz");
ui->current->setPrefixes(" kMG");
ui->current->setPrecision(6); // show enough digits
ui->dwell->setUnit("s");
ui->dwell->setPrefixes(" m");
ui->dwell->setPrecision(6); // show enough digits
minor adjustments to Qt layout
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ui->dwell->setValue(1);
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m_timerId = startTimer(1000);
minor adjustments to Qt layout
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ui->steps->setValue(100);
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ui->steps->setPrefixes(" k");
ui->steps->setPrecision(0);
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connect(ui->frequency, &SIUnitEdit::valueChanged, [=](double newval) {
Partial virtual device wrapper
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if(newval < VirtualDevice::getInfo(dev).Limits.minFreq) {
newval = VirtualDevice::getInfo(dev).Limits.minFreq;
} else if (newval > VirtualDevice::getInfo(dev).Limits.maxFreq) {
newval = VirtualDevice::getInfo(dev).Limits.maxFreq;
Mode switch to signal generator (GUI stubs only)
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}
ui->frequency->setValueQuiet(newval);
Added bound checking
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if (newval < ui->span->value()/2)
ui->span->setValueQuiet(newval/2);
Partial virtual device wrapper
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if (newval + ui->span->value()/2 > VirtualDevice::getInfo(dev).Limits.maxFreq)
ui->span->setValueQuiet((VirtualDevice::getInfo(dev).Limits.maxFreq - newval)*2);
Added bound checking
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newval = ui->frequency->value() - ui->span->value()/2;
ui->current->setValueQuiet(newval);
Refactoring: splitting mode logic into different classes
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emit SettingsChanged();
Mode switch to signal generator (GUI stubs only)
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});
Sweep function added
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connect(ui->span, &SIUnitEdit::valueChanged, [=](double newval) {
if(newval < 0 ) {
newval = 0;
Partial virtual device wrapper
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} else if (newval > VirtualDevice::getInfo(dev).Limits.maxFreq - VirtualDevice::getInfo(dev).Limits.minFreq) {
newval = VirtualDevice::getInfo(dev).Limits.maxFreq - VirtualDevice::getInfo(dev).Limits.minFreq;
Sweep function added
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}
ui->span->setValueQuiet(newval);
double newF = ui->frequency->value() - ui->span->value()/2;
if (newF < 0) {
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ui->frequency->setValueQuiet(ui->span->value()/2);
Sweep function added
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}
Added bound checking
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newF = ui->frequency->value() + ui->span->value()/2;
Partial virtual device wrapper
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if (newF > VirtualDevice::getInfo(dev).Limits.maxFreq) {
ui->frequency->setValueQuiet(VirtualDevice::getInfo(dev).Limits.maxFreq - ui->span->value()/2);
minor adjustments to Qt layout
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}
Added bound checking
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newval = ui->frequency->value() - ui->span->value()/2;
Sweep function added
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emit SettingsChanged();
});
connect(ui->current, &SIUnitEdit::valueChanged, [=](double newval) {
if(newval < 0 ) {
newval = 0;
Partial virtual device wrapper
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} else if (newval > VirtualDevice::getInfo(dev).Limits.maxFreq - VirtualDevice::getInfo(dev).Limits.minFreq) {
newval = VirtualDevice::getInfo(dev).Limits.maxFreq - VirtualDevice::getInfo(dev).Limits.minFreq;
Sweep function added
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}
ui->current->setValueQuiet(newval);
emit SettingsChanged();
});
connect(ui->dwell, &SIUnitEdit::valueChanged, [=](double newval) {
minor adjustments to Qt layout
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if(newval < 0.01 ) {
newval = 0.01;
Sweep function added
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} else if (newval > 60) {
newval = 60;
}
ui->dwell->setValueQuiet(newval);
m_timerId = startTimer(newval*1000);
emit SettingsChanged();
});
Refactoring: splitting mode logic into different classes
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connect(ui->levelSpin, qOverload<double>(&QDoubleSpinBox::valueChanged), this, &SignalgeneratorWidget::setLevel);
Mode switch to signal generator (GUI stubs only)
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connect(ui->levelSlider, &QSlider::valueChanged, [=](int value) {
setLevel((double) value / 100.0);
});
Implementation of some SCPI commands via TCP
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connect(ui->EnablePort1, &QCheckBox::toggled, [=](){
Mode switch to signal generator (GUI stubs only)
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if(ui->EnablePort1->isChecked() && ui->EnablePort2->isChecked()) {
ui->EnablePort2->setCheckState(Qt::CheckState::Unchecked);
}
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emit SettingsChanged();
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});
Implementation of some SCPI commands via TCP
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connect(ui->EnablePort2, &QCheckBox::toggled, [=](){
Mode switch to signal generator (GUI stubs only)
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if(ui->EnablePort1->isChecked() && ui->EnablePort2->isChecked()) {
ui->EnablePort1->setCheckState(Qt::CheckState::Unchecked);
}
Refactoring: splitting mode logic into different classes
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emit SettingsChanged();
Mode switch to signal generator (GUI stubs only)
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});
minor adjustments to Qt layout
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connect(ui->EnabledSweep, &QCheckBox::toggled, [=](bool enabled){
ui->current->setEnabled(enabled);
if(enabled) {
Sweep function added
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double newF = ui->frequency->value() - ui->span->value()/2;
if (newF < 0) {
ui->frequency->setValueQuiet(ui->frequency->value() - newF);
newF = 0;
}
ui->current->setValueQuiet(newF);
} else {
}
emit SettingsChanged();
});
Mode switch to signal generator (GUI stubs only)
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}
Sweep function added
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Refactoring: splitting mode logic into different classes
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SignalgeneratorWidget::~SignalgeneratorWidget()
Mode switch to signal generator (GUI stubs only)
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{
delete ui;
}
Sweep function added
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void SignalgeneratorWidget::timerEvent(QTimerEvent *event)
{
if (event->timerId() == m_timerId) {
if (ui->EnabledSweep->isChecked()) {
double newF = ui->current->value() + ui->span->value()/ui->steps->value();
if (newF > ui->frequency->value() + ui->span->value()/2)
newF = ui->frequency->value() - ui->span->value()/2;
ui->current->setValueQuiet(newF);
SettingsChanged();
}
}
}
Partial virtual device wrapper
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VirtualDevice::SGSettings SignalgeneratorWidget::getDeviceStatus()
Refactoring: splitting mode logic into different classes
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{
Partial virtual device wrapper
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VirtualDevice::SGSettings s = {};
Sweep function added
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if (ui->EnabledSweep->isChecked())
Partial virtual device wrapper
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s.freq = ui->current->value();
Sweep function added
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else
Partial virtual device wrapper
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s.freq = ui->frequency->value();
s.dBm = ui->levelSpin->value();
Working generator mode
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if(ui->EnablePort1->isChecked()) {
Partial virtual device wrapper
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s.port = 1;
Working generator mode
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} else if(ui->EnablePort2->isChecked()) {
Partial virtual device wrapper
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s.port = 2;
Working generator mode
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} else {
Partial virtual device wrapper
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s.port = 0;
Working generator mode
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}
Refactoring: splitting mode logic into different classes
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return s;
}
Include mode/sweep/acquisition settings in setup files
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nlohmann::json SignalgeneratorWidget::toJSON()
{
nlohmann::json j;
j["frequency"] = ui->frequency->value();
j["power"] = ui->levelSpin->value();
if(ui->EnablePort1->isChecked()) {
j["port"] = 1;
} else if(ui->EnablePort2->isChecked()) {
j["port"] = 2;
} else {
j["port"] = 0;
}
nlohmann::json sweep;
sweep["span"] = ui->span->value();
sweep["steps"] = ui->steps->value();
sweep["dwell"] = ui->dwell->value();
sweep["enabled"] = ui->EnabledSweep->isChecked();
j["sweep"] = sweep;
return j;
}
void SignalgeneratorWidget::fromJSON(nlohmann::json j)
{
setFrequency(j.value("frequency", ui->frequency->value()));
setLevel(j.value("power", ui->levelSpin->value()));
setPort(j.value("port", 0));
if(j.contains("sweep")) {
auto sweep = j["sweep"];
// extract sweep settings, keeping current values as default
ui->span->setValue(sweep.value("span", ui->span->value()));
ui->steps->setValue(sweep.value("steps", ui->steps->value()));
ui->dwell->setValue(sweep.value("dwell", ui->dwell->value()));
ui->EnabledSweep->setChecked(sweep.value("enabled", false));
} else {
ui->EnabledSweep->setChecked(false);
}
}
Refactoring: splitting mode logic into different classes
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void SignalgeneratorWidget::setLevel(double level)
Mode switch to signal generator (GUI stubs only)
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{
// TODO constrain to frequency dependent levels
ui->levelSpin->blockSignals(true);
ui->levelSlider->blockSignals(true);
ui->levelSpin->setValue(level);
ui->levelSlider->setValue(level * 100.0);
ui->levelSpin->blockSignals(false);
ui->levelSlider->blockSignals(false);
SettingsChanged();
}
Remember/set default values for signal generator/spectrum analyzer
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void SignalgeneratorWidget::setFrequency(double frequency)
{
ui->frequency->setValue(frequency);
}
Implementation of some SCPI commands via TCP
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void SignalgeneratorWidget::setPort(int port)
{
if(port < 0 || port > 2) {
return;
}
switch(port) {
case 0:
ui->EnablePort1->setChecked(false);
ui->EnablePort2->setChecked(false);
break;
case 1:
ui->EnablePort1->setChecked(true);
ui->EnablePort2->setChecked(false);
break;
case 2:
ui->EnablePort1->setChecked(false);
ui->EnablePort2->setChecked(true);
break;
}
}
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