Labrador/Desktop_Interface/mainwindow.cpp

2575 lines
93 KiB
C++

#include "mainwindow.h"
#include "uartstyledecoder.h"
#include "daqform.h"
#include <QDesktopServices>
#include "espospinbox.h"
#include <algorithm>
#define DO_QUOTE(X) #X
#define QUOTE(X) DO_QUOTE(X)
#ifndef GIT_HASH_SHORT
#define GIT_HASH_SHORT 0000000
#endif
namespace
{
constexpr uint32_t MAX_CONSOLE_BLOCK_COUNT = 512;
constexpr char kDocumentationUrl[] = "https://github.com/EspoTek/Labrador/wiki";
constexpr char kPinoutUrl[] = "https://github.com/EspoTek/Labrador/wiki/Pinout";
constexpr char kAboutString[] = "<h4>EspoTek Labrador</h4>"
"Continuous Release<br>"\
"Git hash: <a href='https://github.com/EspoTek/Labrador/commits/" QUOTE(GIT_HASH_SHORT) "'>" QUOTE(GIT_HASH_SHORT) "</a><br>"\
"Website: <a href='http://espotek.com'>https://espotek.com</a><br>"\
"Contact email: <a href='mailto:admin@espotek.com'>admin@espotek.com</a>";
constexpr char kOrganisationName[] = "EspoTek";
constexpr char kApplicationName[] = "Labrador";
}
MainWindow::MainWindow(QWidget *parent) :
QMainWindow(parent),
ui(new Ui::MainWindow)
{
defaultPalette = qApp->palette();
defaultStyleName = qApp->style()->objectName();
QCoreApplication::setOrganizationName(kOrganisationName);
QCoreApplication::setApplicationName(kApplicationName);
ui->setupUi(this);
calibrationMessages = new QMessageBox();
ui->psuDisplay->display("4.00");
ui->bufferDisplay->refreshImage();
ui->waveformSelect_CH1->readWaveformList();
ui->waveformSelect_CH2->readWaveformList();
labelPsu();
ui->psuDisplay->display("4.50");
ui->controller_iso->setDriver(new _PLATFORM_DEPENDENT_USB_OBJECT());
ui->controller_iso->setAxes(ui->scopeAxes);
ui->timeBaseSlider->setMaximum(10*log10(MAX_WINDOW_SIZE));
//ui->controller_iso->driver->setBufferPtr(ui->bufferDisplay);
ui->cursorStatsLabel->hide();
initialisePlot();
menuSetup();
readSettingsFile();
ui->voltageInfoMaxDisplay_CH1->display(5312);
ui->voltageInfoMinDisplay_CH1->display(0.01);
ui->voltageInfoMeanDisplay_CH1->display(0.02);
ui->voltageInfoRmsDisplay_CH1->display(6.00);
connectDisplaySignals();
ui->controller_iso->internalBuffer375_CH1->m_console1 = ui->console1;
ui->controller_iso->internalBuffer375_CH1->m_console2 = ui->console2;
ui->controller_iso->internalBuffer375_CH2->m_console1 = ui->console1;
ui->controller_iso->internalBuffer375_CH2->m_console2 = ui->console2;
initShortcuts();
ui->debugButton1->setVisible(0);
ui->debugButton2->setVisible(0);
ui->debugButton3->setVisible(0);
ui->debugConsole->setVisible(0);
// // Set the consoles to be resizeable
// for (const auto & console : {ui->console1, ui->console2})
// {
// console->setWindowFlags(Qt::SubWindow);
// QSizeGrip* sizeGrip = new QSizeGrip(console);
// QGridLayout* layout = new QGridLayout(console);
// layout->addWidget(sizeGrip, 0,0,1,1,Qt::AlignBottom | Qt::AlignLeft);
// }
for (const auto & console : {ui->console1, ui->console2})
{
QFont font("Monospace");
font.setStyleHint(QFont::Monospace);
console->setFont(font);
}
#ifndef PLATFORM_ANDROID
ui->kickstartIsoButton->setVisible(0);
ui->console1->setVisible(0);
ui->console2->setVisible(0);
#endif
ui->timeBaseSlider->setVisible(0);
//ui->pausedLabel_CH2->setVisible(0);
ui->filterLabel_CH1->setVisible(0);
ui->filterLabel_CH2->setVisible(0);
//Reset the device to ensure Labrador_libusbk gets handle!!
#ifdef PLATFORM_WINDOWS
//ui->controller_iso->driver->usbSendControl(0x40, 0xa7, 0, 0, 0, NULL);
//reinitUsb();
ui->controller_iso->driver->killOnConnect = true;
#endif
#ifdef PLATFORM_LINUX
reinitUsb();
#endif
#ifdef PLATFORM_MAC
reinitUsb();
#endif
#ifdef PLATFORM_ANDROID
ui->actionAutomatically_Enable_Cursors->setVisible(false);
//hide second pause label
ui->pausedLabel_CH2->setVisible(false);
//Capture pinches
ui->scopeAxes->grabGesture(Qt::PinchGesture);
ui->scopeAxes->installEventFilter(this);
//Mutually exclude pinches/cursors
connect(ui->scaleHoriCheck, SIGNAL(clicked(bool)),
this, SLOT(horiScaleEvent(bool)));
connect(ui->scaleVertCheck, SIGNAL(clicked(bool)),
this, SLOT(vertScaleEvent(bool)));
//Screen Rotation. Thanks, Hamlet. https://forum.qt.io/topic/66240/how-to-detect-rotate-on-android
screenPtr = QGuiApplication::primaryScreen();
connect(screenPtr, SIGNAL(orientationChanged(Qt::ScreenOrientation)),
this, SLOT(screenRotateEvent(Qt::ScreenOrientation)));
screenPtr->setOrientationUpdateMask(
Qt::PortraitOrientation
| Qt::LandscapeOrientation
| Qt::InvertedPortraitOrientation
| Qt::InvertedLandscapeOrientation);
//Hide the PSU page
ui->stackedWidget->removeWidget(ui->page_5);
//Reconnect the other objects.
//ui->controller_iso->driver->setBufferPtr(ui->bufferDisplay);
connect(ui->debugButton1, SIGNAL(clicked()), ui->controller_iso->driver, SLOT(avrDebug()));
connect(ui->psuSlider, SIGNAL(voltageChanged(double)), ui->controller_iso->driver, SLOT(setPsu(double)));
connect(ui->controller_iso, SIGNAL(setGain(double)), ui->controller_iso->driver, SLOT(setGain(double)));
connect(ui->controller_fg, &functionGenControl::functionGenToUpdate, ui->controller_iso->driver, &genericUsbDriver::setFunctionGen);
connect(ui->bufferDisplay, SIGNAL(modeChange(int)), ui->controller_iso->driver, SLOT(setDeviceMode(int)));
connect(ui->bufferDisplay, &bufferControl::modeChange, this, [this](){
// Force a trigger refresh
ui->controller_iso->setTriggerLevel(ui->triggerLevelValue->value());
});
connect(ui->bufferDisplay, SIGNAL(updateDig(int)), ui->controller_iso->driver, SLOT(newDig(int)));
//Set the settings again!
connect(ui->controller_iso->driver, SIGNAL(gainBuffers(double)), ui->controller_iso, SLOT(gainBuffers(double)));
connect(ui->controller_iso->driver, SIGNAL(disableWindow(bool)), this, SLOT(setEnabled(bool)));
connect(ui->controller_iso->driver, SIGNAL(sendClearBuffer(bool,bool,bool)), ui->controller_iso, SLOT(clearBuffers(bool,bool,bool)));
//connect(ui->controller_iso->driver, SIGNAL(startIsoTimer()), ui->controller_iso, SLOT(startTimer()));
connect(ui->controller_iso->driver, SIGNAL(setVisible_CH2(bool)), ui->controller_iso, SLOT(setVisible_CH2(bool)));
//connect(ui->controller_iso->driver, SIGNAL(enableMMTimer()), ui->controller_iso, SLOT(enableMM()));
connect(ui->controller_iso->driver, SIGNAL(checkXY(bool)), ui->xyDisplayLabel, SLOT(setChecked(bool)));
connect(ui->controller_iso->driver, SIGNAL(disableWindow(bool)), ui->deviceConnected, SLOT(connectedStatusChanged(bool)));
connect(ui->controller_iso->driver, SIGNAL(upTick()), ui->controller_iso, SLOT(timerTick()));
connect(ui->controller_iso->driver, SIGNAL(connectedStatus(bool)), ui->deviceConnected, SLOT(connectedStatusChanged(bool)));
connect(ui->controller_iso->driver, SIGNAL(signalFirmwareFlash(void)), ui->deviceConnected, SLOT(flashingFirmware(void)));
ui->serialDecodingModeSelect_CH1->setVisible(false);
ui->serialDecodingModeSelect_CH2->setVisible(false);
QTimer::singleShot(30, this, SLOT(dpiAutoScaling()));
ui->androidMenuButton->setVisible(false);
ui->menuAndroid_Special->menuAction()->setVisible(false);
#endif
connect(ui->controller_iso->driver, SIGNAL(killMe()), this, SLOT(reinitUsb()));
ui->console1->setMaximumBlockCount(MAX_CONSOLE_BLOCK_COUNT);
ui->console2->setMaximumBlockCount(MAX_CONSOLE_BLOCK_COUNT);
//ui->frequencyValue_CH2->setValue(369);
//ui->amplitudeValue_CH2->setValue(2);
ui->controller_iso->doNotTouchGraph = false;
#ifndef PLATFORM_ANDROID
ui->multimeterRLabel->setVisible(false);
ui->multimeterRComboBox->setVisible(false);
#endif
connect(ui->controller_iso, SIGNAL(multimeterREnabled(int)), this, SLOT(rSourceIndexChanged(int)));
connect(ui->controller_iso, SIGNAL(multimeterRMS(double)), ui->multimeterRmsDisplay, SLOT(display(double)));
connect(ui->controller_iso, SIGNAL(sendMultimeterLabel4(QString)), ui->multimeterRmsLabel, SLOT(setText(QString)));
connect(ui->controller_iso, SIGNAL(sendVRMS_CH1(double)), ui->voltageInfoRmsDisplay_CH1, SLOT(display(double)));
connect(ui->controller_iso, SIGNAL(sendVRMS_CH2(double)), ui->voltageInfoRmsDisplay_CH2, SLOT(display(double)));
connect(ui->controller_iso, SIGNAL(mainWindowPleaseDisableSerial(int)), this, SLOT(serialEmergencyDisable(int)));
connect(ui->controller_iso->driver, SIGNAL(signalFirmwareFlash(void)), ui->deviceConnected, SLOT(flashingFirmware(void)));
connect(ui->controller_iso->internalBuffer375_CH1, SIGNAL(fileIOinternalDisable()), this, SLOT(fileLimitReached_CH1()));
connect(ui->controller_iso->internalBuffer750, SIGNAL(fileIOinternalDisable()), this, SLOT(fileLimitReached_CH1()));
connect(ui->controller_iso->internalBuffer375_CH2, SIGNAL(fileIOinternalDisable()), this, SLOT(fileLimitReached_CH2()));
connect(ui->controller_iso, SIGNAL(showRealtimeButton(bool)), ui->realTimeButton, SLOT(setVisible(bool)));
connect(ui->realTimeButton, SIGNAL(pressed()), ui->controller_iso, SLOT(disableFileMode()));
connect(ui->pausedLabeL_CH1, SIGNAL(toggled(bool)), this, SLOT(paused(bool)));
connect(ui->pausedLabel_CH2, SIGNAL(toggled(bool)), this, SLOT(paused(bool)));
connect(ui->pause_LA, SIGNAL(toggled(bool)), this, SLOT(paused(bool)));
connect(ui->multimeterPauseCheckBox, SIGNAL(toggled(bool)), this, SLOT(paused(bool)));
#ifndef PLATFORM_ANDROID
connect(ui->hideCH1Box, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(hideCH1(bool)));
connect(ui->hideCH2Box, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(hideCH2(bool)));
connect(ui->actionHexDisplay, &QAction::toggled, ui->controller_iso, &isoDriver::setHexDisplay_CH1);
connect(ui->actionHexDisplay_2, &QAction::toggled, ui->controller_iso, &isoDriver::setHexDisplay_CH2);
ui->hideCH1Box->setVisible(false);
ui->hideCH2Box->setVisible(false);
#endif
ui->realTimeButton->setVisible(false);
if ((QApplication::desktop()->availableGeometry().width() < 1520) || (QApplication::desktop()->geometry().height() < 800))
{
qDebug() << "Low resolution detected:" << QApplication::desktop()->availableGeometry().width() << "x" << QApplication::desktop()->availableGeometry().height();
this->setMinimumSize(1280, 700);
this->resize(1280, 700);
}
else
{
this->setMinimumSize(1520, 800);
this->resize(1520, 800);
}
#ifndef PLATFORM_ANDROID
connect(ui->offsetSpinBox_CH1, SIGNAL(valueChanged(double)), ui->controller_iso, SLOT(offsetChanged_CH1(double)));
connect(ui->offsetSpinBox_CH2, SIGNAL(valueChanged(double)), ui->controller_iso, SLOT(offsetChanged_CH2(double)));
connect(ui->attenuationComboBox_CH1, SIGNAL(currentIndexChanged(int)), ui->controller_iso, SLOT(attenuationChanged_CH1(int)));
connect(ui->attenuationComboBox_CH2, SIGNAL(currentIndexChanged(int)), ui->controller_iso, SLOT(attenuationChanged_CH2(int)));
#endif
connect(ui->controller_iso, &isoDriver::enableCursorGroup, this, &MainWindow::cursorGroupEnabled);
spectrumMinXSpinbox = new QSpinBox();
spectrumMaxXSpinbox = new QSpinBox();
spectrumLayoutWidget = new QWidget();
QHBoxLayout* spectrumLayout = new QHBoxLayout(spectrumLayoutWidget);
QLabel* spectrumMinFreqLabel = new QLabel("Min Frequency (Hz)");
QLabel* spectrumMaxFreqLabel = new QLabel("Max Frequency (Hz)");
QSpacerItem* spacer = new QSpacerItem(20, 40, QSizePolicy::Expanding, QSizePolicy::Minimum);
spectrumLayoutWidget->setLayout(spectrumLayout);
spectrumMinXSpinbox->setMinimum(0);
spectrumMinXSpinbox->setMaximum(187500);
spectrumMaxXSpinbox->setMinimum(0);
spectrumMaxXSpinbox->setMaximum(187500);
spectrumMaxXSpinbox->setValue(187500);
spectrumLayout->addItem(spacer);
spectrumLayout->addWidget(spectrumMinFreqLabel);
spectrumLayout->addWidget(spectrumMinXSpinbox);
spectrumLayout->addItem(spacer);
spectrumLayout->addWidget(spectrumMaxFreqLabel);
spectrumLayout->addWidget(spectrumMaxXSpinbox);
spectrumLayout->addItem(spacer);
connect(spectrumMinXSpinbox, QOverload<int>::of(&QSpinBox::valueChanged), ui->controller_iso, &isoDriver::setMinSpectrum);
connect(spectrumMaxXSpinbox, QOverload<int>::of(&QSpinBox::valueChanged), ui->controller_iso, &isoDriver::setMaxSpectrum);
connect(spectrumMinXSpinbox, QOverload<int>::of(&QSpinBox::valueChanged), spectrumMaxXSpinbox, &QSpinBox::setMinimum);
connect(spectrumMaxXSpinbox, QOverload<int>::of(&QSpinBox::valueChanged), spectrumMinXSpinbox, &QSpinBox::setMaximum);
ui->verticalLayout->addWidget(spectrumLayoutWidget);
spectrumLayoutWidget->setVisible(false);
}
MainWindow::~MainWindow()
{
// delete ui;
}
void MainWindow::initialisePlot()
{
QCPCurve *xyCurve = new QCPCurve(ui->scopeAxes->xAxis, ui->scopeAxes->yAxis);
xyCurve->setPen(QPen(Qt::yellow, 1));
ui->scopeAxes->addPlottable(xyCurve);
ui->scopeAxes->addGraph();
ui->scopeAxes->addGraph();
ui->scopeAxes->addGraph();
ui->scopeAxes->addGraph();
ui->scopeAxes->addGraph();
ui->scopeAxes->addGraph();
#if QCP_VER == 1
textLabel = new QCPItemText(ui->scopeAxes);
ui->scopeAxes->addItem(textLabel);
textLabel->setPositionAlignment(Qt::AlignTop|Qt::AlignRight);
textLabel->position->setType(QCPItemPosition::ptAxisRectRatio);
textLabel->position->setCoords(0.99, 0); // place position at center/top of axis rect
textLabel->setText("Cursor Label Here");
textLabel->setFont(QFont("Courier New", 16));
textLabel->setColor(Qt::white);
textLabel->setPen(QPen(Qt::white));
textLabel->setBrush(QBrush(Qt::black));
QCPItemText* triggerFrequencyLabel = new QCPItemText(ui->scopeAxes);
ui->scopeAxes->addItem(triggerFrequencyLabel);
triggerFrequencyLabel->setPositionAlignment(Qt::AlignBottom|Qt::AlignHCenter);
triggerFrequencyLabel->position->setType(QCPItemPosition::ptAxisRectRatio);
triggerFrequencyLabel->position->setCoords(0.5, 0.98);
triggerFrequencyLabel->setText("Default Trigger Frequency Text");
triggerFrequencyLabel->setFont(QFont("Courier New", 16));
triggerFrequencyLabel->setColor(Qt::white);
triggerFrequencyLabel->setPen(QPen(Qt::white));
triggerFrequencyLabel->setBrush(QBrush(Qt::black));
textLabel->setVisible(false);
triggerFrequencyLabel->setVisible(false);
ui->controller_iso->cursorTextPtr = textLabel;
ui->controller_iso->triggerFrequencyLabel = triggerFrequencyLabel;
ui->scopeAxes->yAxis->setAutoTickCount(9);
ui->scopeAxes->xAxis->setAutoTickCount(9);
#endif
#if QCP_VER == 2
ui->scopeAxes->setOpenGl(true);
QSharedPointer<QCPAxisTicker> xTicker(new QCPAxisTicker);
xTicker->setTickCount(9);
ui->scopeAxes->xAxis->setTicker(xTicker);
QSharedPointer<QCPAxisTicker> yTicker(new QCPAxisTicker);
yTicker->setTickCount(9);
ui->scopeAxes->yAxis->setTicker(yTicker);
#endif
QPen *dashPen = new QPen(Qt::white, 2);
dashPen->setStyle(Qt::DashLine);
ui->scopeAxes->graph(0)->setPen(QPen(Qt::yellow, 1));
ui->scopeAxes->graph(1)->setPen(QPen(Qt::cyan, 1));
ui->scopeAxes->graph(2)->setPen(QPen(Qt::white, 2));
ui->scopeAxes->graph(3)->setPen(*(dashPen));
ui->scopeAxes->graph(4)->setPen(QPen(Qt::white, 2));
ui->scopeAxes->graph(5)->setPen(*(dashPen));
ui->scopeAxes->xAxis->setBasePen(QPen(Qt::white, 1));
ui->scopeAxes->yAxis->setBasePen(QPen(Qt::white, 1));
ui->scopeAxes->xAxis->setTickPen(QPen(Qt::white, 1));
ui->scopeAxes->yAxis->setTickPen(QPen(Qt::white, 1));
ui->scopeAxes->xAxis->setSubTickPen(QPen(Qt::white, 1));
ui->scopeAxes->yAxis->setSubTickPen(QPen(Qt::white, 1));
ui->scopeAxes->xAxis->setTickLength(6);
ui->scopeAxes->yAxis->setTickLength(6);
ui->scopeAxes->xAxis->setSubTickLength(4);
ui->scopeAxes->yAxis->setSubTickLength(4);
ui->scopeAxes->xAxis->setTickLabelColor(Qt::white);
ui->scopeAxes->yAxis->setTickLabelColor(Qt::white);
ui->scopeAxes->setBackground(Qt::black);
ui->scopeAxes->replot();
}
void MainWindow::labelPsu(){
char tempString[4];
int tempInt = ui->psuSlider->maximum();
int tempCounter = 0;
while(tempInt>90){
sprintf(tempString, "%dV", tempInt/20);
ui->psuSlider->setTickLabel(tempString, tempCounter);
tempInt -= 20;
tempCounter++;
}
ui->psuSlider->setTickLabel("4.5V", 11);
}
void MainWindow::resizeEvent(QResizeEvent *event){
//ui->scopeAxes->yAxis->setAutoTickCount((ui->scopeAxes->height() + TICK_SEPARATION / 2) / TICK_SEPARATION);
//ui->scopeAxes->xAxis->setAutoTickCount((ui->scopeAxes->width() + TICK_SEPARATION / 2) / TICK_SEPARATION);
//ui->scopeAxes->resize(ui->scopeAxes->height(), ui->scopeAxes->height());
//qDebug() << ui->scopeAxes->yAxis->autoTickCount() << ui->scopeAxes->xAxis->autoTickCount();
if(forceSquare)
{
int tempHeight = ui->scopeAxes->height();
int tempWidth = ui->scopeAxes->width();
int newDims = (tempHeight > tempWidth) ? tempWidth : tempHeight;
ui->scopeAxes->resize(newDims, newDims);
if(tempWidth > tempHeight){
ui->scopeAxes->move(tempWidth-tempHeight, ui->scopeAxes->y());
}else{
ui->scopeAxes->move(ui->scopeAxes->x(), ui->scopeAxes->y() + (tempHeight - tempWidth) / 2);
}
}
// This prevents the multimeter LCD labels from being differently-sized
QRect mmGeometry = ui->gridLayout->geometry();
int spacing = ui->gridLayout->spacing();
int mmHeight = mmGeometry.height();
mmGeometry.setHeight(mmHeight - ((mmHeight - (3 * spacing)) % 4));
ui->gridLayout->setGeometry(mmGeometry);
}
void MainWindow::menuSetup(){
gainGroup = new QActionGroup(this);
gainGroup->addAction(ui->actionGainAuto);
gainGroup->addAction(ui->actionGain0_5);
gainGroup->addAction(ui->actionGain1);
gainGroup->addAction(ui->actionGain2);
gainGroup->addAction(ui->actionGain4);
gainGroup->addAction(ui->actionGain8);
gainGroup->addAction(ui->actionGain16);
gainGroup->addAction(ui->actionGain32);
gainGroup->addAction(ui->actionGain64);
ui->actionGainAuto->setChecked(true);
rangeGroupV = new QActionGroup(this);
rangeGroupV->addAction(ui->actionAutoV);
rangeGroupV->addAction(ui->actionMV);
rangeGroupV->addAction(ui->actionV);
rangeGroupI = new QActionGroup(this);
rangeGroupI->addAction(ui->actionAutoI);
rangeGroupI->addAction(ui->actionMA);
rangeGroupI->addAction(ui->actionA);
rangeGroupR = new QActionGroup(this);
rangeGroupR->addAction(ui->actionAutoR);
rangeGroupR->addAction(ui->actionKOhm);
rangeGroupR->addAction(ui->actionOhm);
rangeGroupC = new QActionGroup(this);
rangeGroupC->addAction(ui->actionAutoC);
rangeGroupC->addAction(ui->actionNF);
rangeGroupC->addAction(ui->action_F);
fpsGroup = new QActionGroup(this);
fpsGroup->addAction(ui->action60FPS);
fpsGroup->addAction(ui->action30FPS);
fpsGroup->addAction(ui->action20FPS);
fpsGroup->addAction(ui->action15FPS);
fpsGroup->addAction(ui->action10FPS);
fpsGroup->addAction(ui->action5FPS);
serialProtocolGroup = new QActionGroup(this);
#ifndef PLATFORM_ANDROID
serialProtocolGroup->addAction(ui->actionSerial);
serialProtocolGroup->addAction(ui->actionI2C);
#endif
connect(ui->actionAutoV, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setAutoMultimeterV(bool)));
connect(ui->actionV, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceVolts(bool)));
connect(ui->actionMV, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceMillivolts(bool)));
connect(ui->actionAutoI, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setAutoMultimeterI(bool)));
connect(ui->actionA, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceAmps(bool)));
connect(ui->actionMA, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceMilliamps(bool)));
connect(ui->actionAutoR, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setAutoMultimeterR(bool)));
connect(ui->actionOhm, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceOhms(bool)));
connect(ui->actionKOhm, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceKiloOhms(bool)));
connect(ui->actionAutoC, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setAutoMultimeterC(bool)));
connect(ui->actionNF, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceNFarads(bool)));
connect(ui->action_F, SIGNAL(toggled(bool)), ui->controller_iso, SLOT(setForceUFarads(bool)));
uartBaudGroup_CH1 = new QActionGroup(this);
uartBaudGroup_CH1->addAction(ui->action300);
uartBaudGroup_CH1->addAction(ui->action600);
uartBaudGroup_CH1->addAction(ui->action1200);
uartBaudGroup_CH1->addAction(ui->action2400);
uartBaudGroup_CH1->addAction(ui->action4800);
uartBaudGroup_CH1->addAction(ui->action9600);
uartBaudGroup_CH1->addAction(ui->action14400);
uartBaudGroup_CH1->addAction(ui->action19200);
uartBaudGroup_CH1->addAction(ui->action28800);
uartBaudGroup_CH1->addAction(ui->action38400);
uartBaudGroup_CH1->addAction(ui->action57600);
uartBaudGroup_CH1->addAction(ui->action115200);
ui->action9600->setChecked(true);
uartBaudGroup_CH2 = new QActionGroup(this);
uartBaudGroup_CH2->addAction(ui->action300_2);
uartBaudGroup_CH2->addAction(ui->action600_2);
uartBaudGroup_CH2->addAction(ui->action1200_2);
uartBaudGroup_CH2->addAction(ui->action2400_2);
uartBaudGroup_CH2->addAction(ui->action4800_2);
uartBaudGroup_CH2->addAction(ui->action9600_2);
uartBaudGroup_CH2->addAction(ui->action14400_2);
uartBaudGroup_CH2->addAction(ui->action19200_2);
uartBaudGroup_CH2->addAction(ui->action28800_2);
uartBaudGroup_CH2->addAction(ui->action38400_2);
uartBaudGroup_CH2->addAction(ui->action57600_2);
uartBaudGroup_CH2->addAction(ui->action115200_2);
ui->action9600_2->setChecked(true);
uartParityGroup_CH1 = new QActionGroup(this);
uartParityGroup_CH1->addAction(ui->actionNone);
#ifndef PLATFORM_ANDROID
uartParityGroup_CH1->addAction(ui->actionEven);
uartParityGroup_CH1->addAction(ui->actionOdd);
#endif
ui->actionNone->setChecked(true);
uartParityGroup_CH2 = new QActionGroup(this);
uartParityGroup_CH2->addAction(ui->actionNone_2);
#ifndef PLATFORM_ANDROID
uartParityGroup_CH2->addAction(ui->actionEven_2);
uartParityGroup_CH2->addAction(ui->actionOdd_2);
ui->actionNone_2->setChecked(true);
#endif
connectionTypeGroup = new QActionGroup(this);
connectionTypeGroup->addAction(ui->actionLo_bw);
connectionTypeGroup->addAction(ui->actionSingle_ep_msync);
connectionTypeGroup->addAction(ui->actionSingle_ep_async);
ui->actionLo_bw->setChecked(true);
expected_variant = 1; //for default Lo_bw mode;
ui->actionLo_bw->setVisible(false);
ui->actionSingle_ep_msync->setVisible(false);
ui->actionSingle_ep_async->setVisible(false);
ui->menuConnection_Type->menuAction()->setVisible(false);
//Hide unsupported option!!!
ui->menuFrame_rate->menuAction()->setVisible(false);
}
void MainWindow::on_actionGain0_5_triggered()
{
ui->controller_iso->driver->setGain(0.5);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain1_triggered()
{
ui->controller_iso->driver->setGain(1);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain2_triggered()
{
ui->controller_iso->driver->setGain(2);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain4_triggered()
{
ui->controller_iso->driver->setGain(4);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain8_triggered()
{
ui->controller_iso->driver->setGain(8);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain16_triggered()
{
ui->controller_iso->driver->setGain(16);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain32_triggered()
{
ui->controller_iso->driver->setGain(32);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGain64_triggered()
{
ui->controller_iso->driver->setGain(64);
ui->controller_iso->setAutoGain(0);
}
void MainWindow::on_actionGainAuto_triggered()
{
ui->controller_iso->setAutoGain(1);
}
void MainWindow::on_actionCursor_Stats_triggered(bool checked)
{
ui->controller_iso->cursorStatsEnabled = checked;
}
void MainWindow::connectDisplaySignals(){
connect(ui->actionMax, SIGNAL(toggled(bool)), ui->voltageInfoMaxLabel_CH1, SLOT(setVisible(bool)));
connect(ui->actionMax, SIGNAL(toggled(bool)), ui->voltageInfoMaxDisplay_CH1, SLOT(setVisible(bool)));
connect(ui->actionMin, SIGNAL(toggled(bool)), ui->voltageInfoMinLabel_CH1, SLOT(setVisible(bool)));
connect(ui->actionMin, SIGNAL(toggled(bool)), ui->voltageInfoMinDisplay_CH1, SLOT(setVisible(bool)));
connect(ui->actionMean, SIGNAL(toggled(bool)), ui->VoltageInfoMeanLabel_CH1, SLOT(setVisible(bool)));
connect(ui->actionMean, SIGNAL(toggled(bool)), ui->voltageInfoMeanDisplay_CH1, SLOT(setVisible(bool)));
connect(ui->actionRMS, SIGNAL(toggled(bool)), ui->voltageInfoRmsLabel_CH1, SLOT(setVisible(bool)));
connect(ui->actionRMS, SIGNAL(toggled(bool)), ui->voltageInfoRmsDisplay_CH1, SLOT(setVisible(bool)));
ui->voltageInfoMaxLabel_CH1->setVisible(0);
ui->voltageInfoMaxDisplay_CH1->setVisible(0);
ui->voltageInfoMinLabel_CH1->setVisible(0);
ui->voltageInfoMinDisplay_CH1->setVisible(0);
ui->VoltageInfoMeanLabel_CH1->setVisible(0);
ui->voltageInfoMeanDisplay_CH1->setVisible(0);
ui->voltageInfoRmsLabel_CH1->setVisible(0);
ui->voltageInfoRmsDisplay_CH1->setVisible(0);
connect(ui->actionMax_2, SIGNAL(toggled(bool)), ui->voltageInfoMaxLabel_CH2, SLOT(setVisible(bool)));
connect(ui->actionMax_2, SIGNAL(toggled(bool)), ui->voltageInfoMaxDisplay_CH2, SLOT(setVisible(bool)));
connect(ui->actionMin_2, SIGNAL(toggled(bool)), ui->voltageInfoMinLabel_CH2, SLOT(setVisible(bool)));
connect(ui->actionMin_2, SIGNAL(toggled(bool)), ui->voltageInfoMinDisplay_CH2, SLOT(setVisible(bool)));
connect(ui->actionMean_2, SIGNAL(toggled(bool)), ui->VoltageInfoMeanLabel_CH2, SLOT(setVisible(bool)));
connect(ui->actionMean_2, SIGNAL(toggled(bool)), ui->voltageInfoMeanDisplay_CH2, SLOT(setVisible(bool)));
connect(ui->actionRMS_2, SIGNAL(toggled(bool)), ui->voltageInfoRmsLabel_CH2, SLOT(setVisible(bool)));
connect(ui->actionRMS_2, SIGNAL(toggled(bool)), ui->voltageInfoRmsDisplay_CH2, SLOT(setVisible(bool)));
ui->voltageInfoMaxLabel_CH2->setVisible(0);
ui->voltageInfoMaxDisplay_CH2->setVisible(0);
ui->voltageInfoMinLabel_CH2->setVisible(0);
ui->voltageInfoMinDisplay_CH2->setVisible(0);
ui->VoltageInfoMeanLabel_CH2->setVisible(0);
ui->voltageInfoMeanDisplay_CH2->setVisible(0);
ui->voltageInfoRmsLabel_CH2->setVisible(0);
ui->voltageInfoRmsDisplay_CH2->setVisible(0);
}
void MainWindow::on_action300_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 300;
}
}
void MainWindow::on_action600_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 600;
}
}
void MainWindow::on_action1200_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 1200;
}
}
void MainWindow::on_action2400_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 2400;
}
}
void MainWindow::on_action4800_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 4800;
}
}
void MainWindow::on_action9600_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 9600;
}
}
void MainWindow::on_action14400_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 14400;
}
}
void MainWindow::on_action19200_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 19200;
}
}
void MainWindow::on_action28800_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 28800;
}
}
void MainWindow::on_action38400_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 38400;
}
}
void MainWindow::on_action57600_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 57600;
}
}
void MainWindow::on_action115200_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH1 = 115200;
}
}
void MainWindow::on_action300_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 300;
}
}
void MainWindow::on_action600_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 600;
}
}
void MainWindow::on_action1200_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 1200;
}
}
void MainWindow::on_action2400_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 2400;
}
}
void MainWindow::on_action4800_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 4800;
}
}
void MainWindow::on_action9600_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 9600;
}
}
void MainWindow::on_action14400_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 14400;
}
}
void MainWindow::on_action19200_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 19200;
}
}
void MainWindow::on_action28800_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 28800;
}
}
void MainWindow::on_action38400_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 38400;
}
}
void MainWindow::on_action57600_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 57600;
}
}
void MainWindow::on_action115200_2_toggled(bool arg1)
{
if(arg1){
ui->controller_iso->baudRate_CH2 = 115200;
}
}
void MainWindow::cycleBaudRate_CH1(){
QAction *currentAction = uartBaudGroup_CH1->checkedAction();
qDebug() << currentAction;
if(currentAction==ui->action300){
ui->action600->setChecked(true);
return;
}
if(currentAction==ui->action600){
ui->action1200->setChecked(true);
return;
}
if(currentAction==ui->action1200){
ui->action2400->setChecked(true);
return;
}
if(currentAction==ui->action2400){
ui->action4800->setChecked(true);
return;
}
if(currentAction==ui->action4800){
ui->action9600->setChecked(true);
return;
}
if(currentAction==ui->action9600){
ui->action14400->setChecked(true);
return;
}
if(currentAction==ui->action14400){
ui->action19200->setChecked(true);
return;
}
if(currentAction==ui->action19200){
ui->action28800->setChecked(true);
return;
}
if(currentAction==ui->action28800){
ui->action38400->setChecked(true);
return;
}
if(currentAction==ui->action38400){
ui->action57600->setChecked(true);
return;
}
if(currentAction==ui->action57600){
ui->action115200->setChecked(true);
return;
}
if(currentAction==ui->action115200){
ui->action300->setChecked(true);
return;
}
qFatal("Invalid state in MainWindow::cycleBaudRate_CH1()");
}
void MainWindow::cycleBaudRateBackwards_CH1(){
QAction *currentAction = uartBaudGroup_CH1->checkedAction();
qDebug() << currentAction;
if(currentAction==ui->action1200){
ui->action600->setChecked(true);
return;
}
if(currentAction==ui->action2400){
ui->action1200->setChecked(true);
return;
}
if(currentAction==ui->action4800){
ui->action2400->setChecked(true);
return;
}
if(currentAction==ui->action9600){
ui->action4800->setChecked(true);
return;
}
if(currentAction==ui->action14400){
ui->action9600->setChecked(true);
return;
}
if(currentAction==ui->action19200){
ui->action14400->setChecked(true);
return;
}
if(currentAction==ui->action28800){
ui->action19200->setChecked(true);
return;
}
if(currentAction==ui->action38400){
ui->action28800->setChecked(true);
return;
}
if(currentAction==ui->action57600){
ui->action38400->setChecked(true);
return;
}
if(currentAction==ui->action115200){
ui->action57600->setChecked(true);
return;
}
if(currentAction==ui->action300){
ui->action115200->setChecked(true);
return;
}
if(currentAction==ui->action600){
ui->action300->setChecked(true);
return;
}
qFatal("Invalid state in MainWindow::cycleBaudRateBackwards_CH1()");
}
void MainWindow::cycleBaudRate_CH2(){
QAction *currentAction = uartBaudGroup_CH2->checkedAction();
qDebug() << currentAction;
if(currentAction==ui->action300_2){
ui->action600_2->setChecked(true);
return;
}
if(currentAction==ui->action600_2){
ui->action1200_2->setChecked(true);
return;
}
if(currentAction==ui->action1200_2){
ui->action2400_2->setChecked(true);
return;
}
if(currentAction==ui->action2400_2){
ui->action4800_2->setChecked(true);
return;
}
if(currentAction==ui->action4800_2){
ui->action9600_2->setChecked(true);
return;
}
if(currentAction==ui->action9600_2){
ui->action14400_2->setChecked(true);
return;
}
if(currentAction==ui->action14400_2){
ui->action19200_2->setChecked(true);
return;
}
if(currentAction==ui->action19200_2){
ui->action28800_2->setChecked(true);
return;
}
if(currentAction==ui->action28800_2){
ui->action38400_2->setChecked(true);
return;
}
if(currentAction==ui->action38400_2){
ui->action57600_2->setChecked(true);
return;
}
if(currentAction==ui->action57600_2){
ui->action115200_2->setChecked(true);
return;
}
if(currentAction==ui->action115200_2){
ui->action300_2->setChecked(true);
return;
}
qFatal("Invalid state in MainWindow::cycleBaudRate_CH2()");
}
void MainWindow::cycleBaudRateBackwards_CH2(){
QAction *currentAction = uartBaudGroup_CH2->checkedAction();
qDebug() << currentAction;
if(currentAction==ui->action1200_2){
ui->action600_2->setChecked(true);
return;
}
if(currentAction==ui->action2400_2){
ui->action1200_2->setChecked(true);
return;
}
if(currentAction==ui->action4800_2){
ui->action2400_2->setChecked(true);
return;
}
if(currentAction==ui->action9600_2){
ui->action4800_2->setChecked(true);
return;
}
if(currentAction==ui->action14400_2){
ui->action9600_2->setChecked(true);
return;
}
if(currentAction==ui->action19200_2){
ui->action14400_2->setChecked(true);
return;
}
if(currentAction==ui->action28800_2){
ui->action19200_2->setChecked(true);
return;
}
if(currentAction==ui->action38400_2){
ui->action28800_2->setChecked(true);
return;
}
if(currentAction==ui->action57600_2){
ui->action38400_2->setChecked(true);
return;
}
if(currentAction==ui->action115200_2){
ui->action57600_2->setChecked(true);
return;
}
if(currentAction==ui->action300_2){
ui->action115200_2->setChecked(true);
return;
}
if(currentAction==ui->action600_2){
ui->action300_2->setChecked(true);
return;
}
qFatal("Invalid state in MainWindow::cycleBaudRateBackwards_CH2()");
}
void MainWindow::initShortcuts(){
shortcut_cycleBaudRate_CH1 = new QShortcut(QKeySequence("Ctrl+B"), ui->menuBar);
shortcut_cycleBaudRateBackwards_CH1 = new QShortcut(QKeySequence("Ctrl+Shift+B"), ui->menuBar);
shortcut_cycleBaudRate_CH2 = new QShortcut(QKeySequence("Ctrl+Alt+B"), ui->menuBar);
shortcut_cycleBaudRateBackwards_CH2 = new QShortcut(QKeySequence("Ctrl+Shift+Alt+B"), ui->menuBar);
shortcut_snapScopeToCursors = new QShortcut(QKeySequence("Z"), ui->menuBar);
shortcut_manualRange = new QShortcut(QKeySequence("M"), ui->menuBar);
shortcut_snapshot_CH1 = new QShortcut(QKeySequence("c"), this);
shortcut_snapshot_CH2 = new QShortcut(QKeySequence("v"), this);
shortcut_ArrowUp = new QShortcut(QKeySequence("Up"), ui->menuBar);
shortcut_ArrowDown = new QShortcut(QKeySequence("Down"), ui->menuBar);
shortcut_CtrlArrowUp = new QShortcut(QKeySequence("Ctrl+Up"), ui->menuBar);
shortcut_CtrlArrowDown = new QShortcut(QKeySequence("Ctrl+Down"), ui->menuBar);
shortcut_w = new QShortcut(QKeySequence("w"), ui->menuBar);
shortcut_s = new QShortcut(QKeySequence("s"), ui->menuBar);
shortcut_ctrlW = new QShortcut(QKeySequence("Ctrl+w"), ui->menuBar);
shortcut_ctrlS = new QShortcut(QKeySequence("Ctrl+s"), ui->menuBar);
shortcut_a = new QShortcut(QKeySequence("a"), this);
shortcut_d = new QShortcut(QKeySequence("d"), this);
shortcut_ArrowLeft = new QShortcut(QKeySequence("Left"), this);
shortcut_ArrowRight = new QShortcut(QKeySequence("Right"), this);
shortcut_CtrlArrowLeft = new QShortcut(QKeySequence("Ctrl+Left"), this);
shortcut_CtrlArrowRight = new QShortcut(QKeySequence("Ctrl+Right"), this);
shortcut_Debug = new QShortcut(QKeySequence("Home"), this);
shortcut_Esc = new QShortcut(QKeySequence("Esc"), this);
connect(shortcut_cycleBaudRate_CH1, SIGNAL(activated()), this, SLOT(cycleBaudRate_CH1()));
connect(shortcut_cycleBaudRateBackwards_CH1, SIGNAL(activated()), this, SLOT(cycleBaudRateBackwards_CH1()));
connect(shortcut_cycleBaudRate_CH2, SIGNAL(activated()), this, SLOT(cycleBaudRate_CH2()));
connect(shortcut_cycleBaudRateBackwards_CH2, SIGNAL(activated()), this, SLOT(cycleBaudRateBackwards_CH2()));
connect(shortcut_snapshot_CH1, SIGNAL(activated()), this, SLOT(on_actionSnapshot_CH1_triggered()));
connect(shortcut_snapshot_CH2, SIGNAL(activated()), this, SLOT(on_actionSnapshot_CH2_triggered()));
connect(shortcut_ArrowUp, SIGNAL(activated()), this, SLOT(arrowUpTriggered()));
connect(shortcut_ArrowDown, SIGNAL(activated()), this, SLOT(arrowDownTriggered()));
connect(shortcut_CtrlArrowUp, SIGNAL(activated()), this, SLOT(ctrlArrowUpTriggered()));
connect(shortcut_CtrlArrowDown, SIGNAL(activated()), this, SLOT(ctrlArrowDownTriggered()));
connect(shortcut_w, SIGNAL(activated()), this, SLOT(arrowUpTriggered()));
connect(shortcut_s, SIGNAL(activated()), this, SLOT(arrowDownTriggered()));
connect(shortcut_ctrlW, SIGNAL(activated()), this, SLOT(ctrlArrowUpTriggered()));
connect(shortcut_ctrlS, SIGNAL(activated()), this, SLOT(ctrlArrowDownTriggered()));
connect(shortcut_a, SIGNAL(activated()), this, SLOT(cycleDelayLeft()));
connect(shortcut_d, SIGNAL(activated()), this, SLOT(cycleDelayRight()));
connect(shortcut_ArrowLeft, SIGNAL(activated()), this, SLOT(cycleDelayLeft()));
connect(shortcut_ArrowRight, SIGNAL(activated()), this, SLOT(cycleDelayRight()));
connect(shortcut_CtrlArrowLeft, SIGNAL(activated()), this, SLOT(cycleDelayLeft_large()));
connect(shortcut_CtrlArrowRight, SIGNAL(activated()), this, SLOT(cycleDelayRight_large()));
connect(shortcut_snapScopeToCursors, SIGNAL(activated()), this, SLOT(on_actionSnap_to_Cursors_triggered()));
connect(shortcut_manualRange, SIGNAL(activated()), this, SLOT(on_actionEnter_Manually_triggered()));
connect(shortcut_Debug, SIGNAL(activated()), this, SLOT(enableLabradorDebugging()));
connect(shortcut_Esc, SIGNAL(activated()), this, SLOT(reinitUsb()));
}
void MainWindow::timeBaseNeedsChanging(bool positive){
int tempVal = ui->timeBaseSlider->value();
tempVal += positive ? 1 : -1;
ui->timeBaseSlider->setValue(tempVal);
}
void MainWindow::on_actionForce_Square_triggered(bool checked)
{
forceSquare = checked;
//Force redraw!
int tempHeight = this->height();
int tempWidth = this->width();
this->resize(tempWidth+1, tempHeight+1);
this->resize(tempWidth, tempHeight);
}
void MainWindow::arrowUpTriggered(){
qDebug() << "Boy UP!";
if(!(ui->scopeAxes->underMouse())) return;
QPoint point = ui->scopeAxes->mapFromGlobal(QCursor::pos());
wheelEmu = new QWheelEvent(point, 120, 0, 0, Qt::Vertical);
ui->controller_iso->setVoltageRange(wheelEmu);
}
void MainWindow::arrowDownTriggered(){
qDebug() << "Boy DOWN!";
if(!(ui->scopeAxes->underMouse())) return;
QPoint point = ui->scopeAxes->mapFromGlobal(QCursor::pos());
wheelEmu = new QWheelEvent(point, -120, 0, 0, Qt::Vertical);
ui->controller_iso->setVoltageRange(wheelEmu);
}
void MainWindow::ctrlArrowUpTriggered(){
qDebug() << "Boy (ctrl) UP!";
if(!(ui->scopeAxes->underMouse())) return;
QPoint point = ui->scopeAxes->mapFromGlobal(QCursor::pos());
wheelEmu = new QWheelEvent(point, 120, 0, Qt::ControlModifier, Qt::Vertical);
ui->controller_iso->setVoltageRange(wheelEmu);
}
void MainWindow::ctrlArrowDownTriggered(){
qDebug() << "Boy (ctrl) DOWN!";
if(!(ui->scopeAxes->underMouse())) return;
QPoint point = ui->scopeAxes->mapFromGlobal(QCursor::pos());
wheelEmu = new QWheelEvent(point, -120, 0, Qt::ControlModifier, Qt::Vertical);
ui->controller_iso->setVoltageRange(wheelEmu);
}
void MainWindow::cycleDelayRight(){
qDebug() << "RIGHT";
ui->controller_iso->display.delay -= ui->controller_iso->display.window/10;
if(ui->controller_iso->display.delay < 0) ui->controller_iso->display.delay = 0;
ui->controller_iso->delayUpdated(ui->controller_iso->display.delay);
}
void MainWindow::cycleDelayLeft(){
qDebug() << "LEFT";
double mws = ui->controller_iso->fileModeEnabled ? ui->controller_iso->daq_maxWindowSize : ((double)MAX_WINDOW_SIZE);
ui->controller_iso->display.delay += ui->controller_iso->display.window/10;
if(ui->controller_iso->display.delay > (mws - ui->controller_iso->display.window)) ui->controller_iso->display.delay = (mws - ui->controller_iso->display.window);
ui->controller_iso->delayUpdated(ui->controller_iso->display.delay);
}
void MainWindow::cycleDelayRight_large(){
qDebug() << "RIGHT";
ui->controller_iso->display.delay -= ui->controller_iso->display.window/2;
if(ui->controller_iso->display.delay < 0) ui->controller_iso->display.delay = 0;
ui->controller_iso->delayUpdated(ui->controller_iso->display.delay);
}
void MainWindow::cycleDelayLeft_large(){
qDebug() << "LEFT";
double mws = ui->controller_iso->fileModeEnabled ? ui->controller_iso->daq_maxWindowSize : ((double)MAX_WINDOW_SIZE);
ui->controller_iso->display.delay += ui->controller_iso->display.window/2;
if(ui->controller_iso->display.delay > (mws - ui->controller_iso->display.window)) ui->controller_iso->display.delay = (mws - ui->controller_iso->display.window);
ui->controller_iso->delayUpdated(ui->controller_iso->display.delay);
}
void MainWindow::enableLabradorDebugging(bool enabled){
qDebug() << "DEBUG MODE ACTIVE";
ui->debugButton1->setVisible(enabled);
ui->debugButton2->setVisible(enabled);
ui->debugButton3->setVisible(enabled);
#ifndef PLATFORM_ANDROID
ui->kickstartIsoButton->setVisible(enabled);
#endif
ui->debugConsole->setVisible(enabled);
if (enabled)
{
new Q_DebugStream(std::cout, ui->debugConsole); //Redirect Console output to QTextEdit
Q_DebugStream::registerQDebugMessageHandler(); //Redirect qDebug() output to QTextEdit
qDebug() << "DEBUG MODE ACTIVE";
}
}
void MainWindow::on_actionAutomatically_Enable_Cursors_toggled(bool enabled)
{
ui->makeCursorsNicer->setTurnedOn(enabled);
}
void MainWindow::on_action60FPS_toggled(bool enabled)
{
if(enabled){
TIMER_PERIOD = 17;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_action30FPS_toggled(bool enabled)
{
if(enabled){
TIMER_PERIOD = 33;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_action20FPS_toggled(bool enabled)
{
if(enabled){
TIMER_PERIOD = 40;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_action15FPS_toggled(bool enabled)
{
if(enabled){
TIMER_PERIOD = 67;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_action10FPS_toggled(bool enabled)
{
if(enabled){
TIMER_PERIOD = 100;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_action5FPS_toggled(bool enabled)
{
qDebug() << "5FPS";
if(enabled){
qDebug() << "5FPS is enabled!";
TIMER_PERIOD = 200;
ui->controller_iso->startTimer();
}
}
void MainWindow::on_actionAuto_Lock_toggled(bool arg1)
{
ui->lockPsuCheckBox->enableTimer(arg1);
ui->lockPsuCheckBox->timer->start(ui->lockPsuCheckBox->timerLength);
}
void MainWindow::on_actionSnap_to_Cursors_triggered()
{
double xLeft, xRight, yBot, yTop;
yTop = std::max(ui->controller_iso->display.y1, ui->controller_iso->display.y0);
yBot = std::min(ui->controller_iso->display.y1, ui->controller_iso->display.y0);
xRight = std::max(ui->controller_iso->display.x1, ui->controller_iso->display.x0);
xLeft = std::min(ui->controller_iso->display.x1, ui->controller_iso->display.x0);
if((yBot-yTop) != 0){
ui->controller_iso->display.topRange = yTop;
ui->controller_iso->display.botRange = yBot;
}
if((xLeft - xRight) != 0){
ui->controller_iso->display.delay = - xRight;
ui->controller_iso->display.window = xRight - xLeft;
}
}
void MainWindow::on_actionEnter_Manually_triggered()
{
ui->controller_iso->display.delay = 0;
scopeRangeEnterDialog dialog(this, ui->controller_iso->display.topRange, ui->controller_iso->display.botRange, ui->controller_iso->display.window, ui->controller_iso->display.delay);
dialog.setModal(true);
connect(&dialog, SIGNAL(yTopUpdated(double)), ui->controller_iso, SLOT(setTopRange(double)));
connect(&dialog, SIGNAL(yBotUpdated(double)), ui->controller_iso, SLOT(setBotRange(double)));
connect(&dialog, SIGNAL(windowUpdated(double)), ui->controller_iso, SLOT(setTimeWindow(double)));
connect(&dialog, SIGNAL(delayUpdated(double)), ui->controller_iso, SLOT(setDelay(double)));
dialog.exec();
}
void MainWindow::helloWorld(){
qDebug() << "Hello World!";
}
#define QSETTINGS_DEFAULT_RETURN 42069
void MainWindow::readSettingsFile(){
settings = new QSettings();
int connectionType = settings->value("ConnectionType", QSETTINGS_DEFAULT_RETURN).toInt();
double calibrate_vref_ch1 = settings->value("CalibrateVrefCH1", 1.65).toDouble();
double calibrate_vref_ch2 = settings->value("CalibrateVrefCH2", 1.65).toDouble();
double calibrate_gain_ch1 = settings->value("CalibrateGainCH1", R4/(R3+R4)).toDouble();
double calibrate_gain_ch2 = settings->value("CalibrateGainCH2", R4/(R3+R4)).toDouble();
psu_voltage_calibration_offset = settings->value("CalibratePsu", 0).toDouble();
#ifndef PLATFORM_ANDROID
if (settings->value("ShowRangeDialog").toBool())
{
qDebug() << "ShowRangeDialog setting true";
ui->actionShow_Range_Dialog_on_Main_Page->setChecked(true);
on_actionShow_Range_Dialog_on_Main_Page_triggered(true);
}
if(settings->value("DarkModeEnabled").toBool())
{
ui->actionDark_Mode->setChecked(true);
setDarkMode(true);
}
#endif
daq_num_to_average = settings->value("daq_defaultAverage", 1).toInt();
daq_max_file_size = settings->value("daq_defaultFileSize", 2048000000).toULongLong();
//Change connection Type
switch(connectionType){
case 0:
ui->actionLo_bw->setChecked(true);
on_actionLo_bw_triggered();
break;
case 1:
ui->actionSingle_ep_msync->setChecked(true);
on_actionSingle_ep_msync_triggered();
break;
case 2:
ui->actionSingle_ep_async->setChecked(true);
on_actionSingle_ep_async_triggered();
break;
}
//Fill in calibration data
ui->controller_iso->ch1_ref = 3.3 - calibrate_vref_ch1;
ui->controller_iso->ch2_ref = 3.3 - calibrate_vref_ch2;
ui->controller_iso->frontendGain_CH1 = calibrate_gain_ch1;
ui->controller_iso->frontendGain_CH2 = calibrate_gain_ch2;
ui->controller_iso->internalBuffer375_CH1->m_voltage_ref = 3.3 - calibrate_vref_ch1;
ui->controller_iso->internalBuffer750->m_voltage_ref = 3.3 - calibrate_vref_ch1;
ui->controller_iso->internalBuffer375_CH2->m_voltage_ref = 3.3 - calibrate_vref_ch2;
ui->controller_iso->internalBuffer375_CH1->m_frontendGain = calibrate_gain_ch1;
ui->controller_iso->internalBuffer750->m_frontendGain = calibrate_gain_ch1;
ui->controller_iso->internalBuffer375_CH2->m_frontendGain = calibrate_gain_ch2;
if(!dt_AlreadyAskedAboutCalibration && ((calibrate_vref_ch1 == 1.65) || (calibrate_vref_ch2 == 1.65) || (calibrate_gain_ch1 == R4/(R3+R4)) || (calibrate_gain_ch2 == R4/(R3+R4)))){
//Prompt user to calibrate if no calibration data found.
QApplication::processEvents();
calibrationMessages->setStandardButtons(QMessageBox::Yes|QMessageBox::No);
calibrationMessages->setText("No calibration data detected!\nWould you like to run calibration once connected?");
dt_userWantsToCalibrate = calibrationMessages->exec();
qDebug() << "dt_userWantsToCalibrate" << dt_userWantsToCalibrate;
dt_AlreadyAskedAboutCalibration = true;
}
}
void MainWindow::reinitUsb(void){
ui->controller_iso->doNotTouchGraph = true;
ui->controller_iso->driver->saveState(&reinitdeviceMode, &reinitScopeGain, &reinitCurrentPsuVoltage, &reinitDigitalPinState);
#ifdef PLATFORM_WINDOWS
reinitUsbStage2();
#else
if(!(ui->controller_iso->driver->connected)){
reinitUsbStage2();
} else{
ui->controller_iso->driver->shutdownProcedure();
QTimer::singleShot(1000, this, SLOT(reinitUsbStage2()));
}
#endif
qDebug() << "ReinitUsb Stage 1 complete";
}
void MainWindow::reinitUsbStage2(void){
qDebug() << "ReinitUsb entering stage 2";
delete(ui->controller_iso->driver);
qDebug() << "Reinitialising USB driver!";
ui->controller_iso->driver = new _PLATFORM_DEPENDENT_USB_OBJECT();
//Reconnect the other objects.
//ui->controller_iso->driver->setBufferPtr(ui->bufferDisplay);
connect(ui->debugButton1, SIGNAL(clicked()), ui->controller_iso->driver, SLOT(avrDebug()));
connect(ui->debugButton3, SIGNAL(clicked()), ui->controller_iso->driver, SLOT(bootloaderJump()));
connect(ui->psuSlider, SIGNAL(voltageChanged(double)), ui->controller_iso->driver, SLOT(setPsu(double)));
connect(ui->controller_iso, SIGNAL(setGain(double)), ui->controller_iso->driver, SLOT(setGain(double)));
connect(ui->controller_fg, &functionGenControl::functionGenToUpdate, ui->controller_iso->driver, &genericUsbDriver::setFunctionGen);
connect(ui->bufferDisplay, SIGNAL(modeChange(int)), ui->controller_iso->driver, SLOT(setDeviceMode(int)));
connect(ui->bufferDisplay, &bufferControl::modeChange, this, [this](){
// Force a trigger refresh
ui->controller_iso->setTriggerLevel(ui->triggerLevelValue->value());
});
connect(ui->bufferDisplay, SIGNAL(updateDig(int)), ui->controller_iso->driver, SLOT(newDig(int)));
//Set the settings again!
connect(ui->controller_iso->driver, SIGNAL(gainBuffers(double)), ui->controller_iso, SLOT(gainBuffers(double)));
connect(ui->controller_iso->driver, SIGNAL(disableWindow(bool)), this, SLOT(setEnabled(bool)));
connect(ui->controller_iso->driver, SIGNAL(sendClearBuffer(bool,bool,bool)), ui->controller_iso, SLOT(clearBuffers(bool,bool,bool)));
//connect(ui->controller_iso->driver, SIGNAL(startIsoTimer()), ui->controller_iso, SLOT(startTimer()));
connect(ui->controller_iso->driver, SIGNAL(setVisible_CH2(bool)), ui->controller_iso, SLOT(setVisible_CH2(bool)));
//connect(ui->controller_iso->driver, SIGNAL(enableMMTimer()), ui->controller_iso, SLOT(enableMM()));
connect(ui->controller_iso->driver, SIGNAL(checkXY(bool)), ui->xyDisplayLabel, SLOT(setChecked(bool)));
connect(ui->controller_iso->driver, SIGNAL(disableWindow(bool)), ui->deviceConnected, SLOT(connectedStatusChanged(bool)));
connect(ui->controller_iso->driver, SIGNAL(upTick()), ui->controller_iso, SLOT(timerTick()));
connect(ui->controller_iso->driver, SIGNAL(killMe()), this, SLOT(reinitUsb()));
connect(ui->controller_iso->driver, SIGNAL(connectedStatus(bool)), ui->deviceConnected, SLOT(connectedStatusChanged(bool)));
connect(ui->controller_iso->driver, SIGNAL(signalFirmwareFlash(void)), ui->deviceConnected, SLOT(flashingFirmware(void)));
connect(ui->controller_iso->driver, SIGNAL(initialConnectComplete()), this, SLOT(resetUsbState()));
ui->controller_iso->driver->setGain(reinitScopeGain);
ui->controller_iso->driver->psu_offset = psu_voltage_calibration_offset;
readSettingsFile();
ui->controller_iso->driver->calibrateOnConnect = (dt_userWantsToCalibrate == 16384); //Yes/No are 16384/65536 for some reason. I think 0/1 are reserved for OK/Cancel.
connect(ui->controller_iso->driver, SIGNAL(calibrateMe()), this, SLOT(on_actionCalibrate_triggered()));
qDebug() << "ReinitUsbStage2 is returning";
}
void MainWindow::resetUsbState(void){
using functionGen::ChannelID;
//ui->controller_iso->driver->setDeviceMode(deviceMode);
//ui->controller_iso->driver->setPsu(currentPsuVoltage);
ui->psuSlider->poke();
//ui->controller_iso->driver->newDig(digitalPinState);
ui->bufferDisplay->poke();
ui->controller_iso->driver->setFunctionGen(ChannelID::CH1, ui->controller_fg->getChannelController(ChannelID::CH1));
ui->controller_iso->driver->setFunctionGen(ChannelID::CH2, ui->controller_fg->getChannelController(ChannelID::CH2));
ui->controller_iso->clearBuffers(1,1,1);
ui->controller_iso->doNotTouchGraph = false;
}
#ifdef PLATFORM_ANDROID
//Should be called "High Resolution mode". This function has been comandeered for Android devices with 1080p or higher resolutions.
void MainWindow::on_actionOld_Person_Mode_triggered(bool checked)
{
//Scope Page
ui->scopeGroup_CH1->setFlat(true);
ui->scopeGroup_CH2->setFlat(true);
ui->triggerGroup->setFlat(true);
ui->cursorGroup->setFlat(true);
//Signal Gen Page
ui->signalGenGroup_CH1->setFlat(true);
ui->signalGenGroup_CH2->setFlat(true);
//Multimeter Page
ui->multimeterGroup->setFlat(true);
//Logic Analyzer Page
ui->digitalOutputGroup->setFlat(true);
ui->busSifferGroup_CH1->setFlat(true);
ui->busSnifferGroup_CH2->setFlat(true);
ui->serialDecodingCheck_CH1->setFlat(true);
ui->serialDecodingCheck_CH2->setFlat(true);
for (int i=1;i<100;i++){
qDebug() << "High Resolution Mode" << checked;
}
if(checked){
//Embiggen the fonts
QFont font_scope1 = ui->scopeGroup_CH1->font();
font_scope1.setPointSize(16);
font_scope1.setBold(true);
ui->scopeGroup_CH1->setFont(font_scope1);
QFont font_scope2 = ui->scopeGroup_CH2->font();
font_scope2.setPointSize(16);
font_scope2.setBold(true);
ui->scopeGroup_CH2->setFont(font_scope2);
QFont font_scope_trigger = ui->triggerGroup->font();
font_scope_trigger.setPointSize(16);
font_scope_trigger.setBold(true);
ui->triggerGroup->setFont(font_scope_trigger);
QFont font_cursor_scaling = ui->cursorGroup->font();
font_cursor_scaling.setPointSize(16);
font_cursor_scaling.setBold(true);
ui->cursorGroup->setFont(font_cursor_scaling);
QFont font_scope_pause = ui->pausedLabeL_CH1->font();
font_scope_pause.setPointSize(16);
font_scope_pause.setBold(true);
ui->pausedLabeL_CH1->setFont(font_scope_pause);
QFont font_sg1 = ui->signalGenGroup_CH1->font();
font_sg1.setPointSize(16);
font_sg1.setBold(true);
ui->signalGenGroup_CH1->setFont(font_sg1);
QFont font_sg2 = ui->signalGenGroup_CH2->font();
font_sg2.setPointSize(16);
font_sg2.setBold(true);
ui->signalGenGroup_CH2->setFont(font_sg2);
QFont font_3 = ui->page_3->font();
font_3.setPointSize(16);
font_3.setBold(true);
ui->page_3->setFont(font_3);
QFont font_4 = ui->page_4->font();
font_4.setPointSize(16);
font_4.setBold(true);
ui->page_4->setFont(font_4);
QFont font_5 = ui->page_5->font();
font_5.setPointSize(16);
font_5.setBold(true);
ui->page_5->setFont(font_5);
QFont font_realtime = ui->realTimeButton->font();
font_realtime.setPointSize(16);
font_realtime.setBold(true);
ui->realTimeButton->setFont(font_realtime);
QFont font_android_menu = ui->androidMenuButton->font();
font_android_menu.setPointSize(16);
font_android_menu.setBold(true);
ui->androidMenuButton->setFont(font_android_menu);
//Embiggen the serial consoles.
ui->console1->setMinimumHeight(128);
ui->console1->setMaximumHeight(256);
ui->console2->setMinimumHeight(128);
ui->console2->setMaximumHeight(256);
//Increase the size of the swiped stack
ui->stackedWidget->setMaximumHeight(720);
ui->stackedWidget->setMinimumHeight(480);
//Grow Pause buttons
ui->pausedLabeL_CH1->setMaximumHeight(80);
ui->pausedLabel_CH2->setMaximumHeight(80);
ui->pause_LA->setMaximumHeight(80);
ui->multimeterPauseCheckBox->setMaximumHeight(80);
//Show the "single shot" button
ui->singleShotCheckBox->setVisible(true);
}else{
//Shrink the fonts
QFont font_scope1 = ui->scopeGroup_CH1->font();
font_scope1.setPointSize(11);
font_scope1.setBold(true);
ui->scopeGroup_CH1->setFont(font_scope1);
QFont font_scope2 = ui->scopeGroup_CH2->font();
font_scope2.setPointSize(11);
font_scope2.setBold(true);
ui->scopeGroup_CH2->setFont(font_scope2);
QFont font_scope_trigger = ui->triggerGroup->font();
font_scope_trigger.setPointSize(11);
font_scope_trigger.setBold(true);
ui->triggerGroup->setFont(font_scope_trigger);
QFont font_cursor_scaling = ui->cursorGroup->font();
font_cursor_scaling.setPointSize(11);
font_cursor_scaling.setBold(true);
ui->cursorGroup->setFont(font_cursor_scaling);
QFont font_scope_pause = ui->pausedLabeL_CH1->font();
font_scope_pause.setPointSize(11);
font_scope_pause.setBold(true);
ui->pausedLabeL_CH1->setFont(font_scope_pause);
QFont font_sg1 = ui->signalGenGroup_CH1->font();
font_sg1.setPointSize(11);
font_sg1.setBold(true);
ui->signalGenGroup_CH1->setFont(font_sg1);
QFont font_sg2 = ui->signalGenGroup_CH2->font();
font_sg2.setPointSize(11);
font_sg2.setBold(true);
ui->signalGenGroup_CH2->setFont(font_sg2);
QFont font_3 = ui->page_3->font();
font_3.setPointSize(11);
font_3.setBold(true);
ui->page_3->setFont(font_3);
QFont font_4 = ui->page_4->font();
font_4.setPointSize(11);
font_4.setBold(true);
ui->page_4->setFont(font_4);
QFont font_5 = ui->page_5->font();
font_5.setPointSize(11);
font_5.setBold(true);
ui->page_5->setFont(font_5);
QFont font_realtime = ui->realTimeButton->font();
font_realtime.setPointSize(11);
font_realtime.setBold(true);
ui->realTimeButton->setFont(font_realtime);
QFont font_android_menu = ui->androidMenuButton->font();
font_android_menu.setPointSize(11);
font_android_menu.setBold(true);
ui->androidMenuButton->setFont(font_android_menu);
//Shrink the serial consoles.
ui->console1->setMinimumHeight(0);
ui->console1->setMaximumHeight(96);
ui->console2->setMinimumHeight(0);
ui->console2->setMaximumHeight(96);
//Increase the size of the swiped stack
ui->stackedWidget->setMaximumHeight(480);
ui->stackedWidget->setMinimumHeight(400);
//Shrink Pause buttons
ui->pausedLabeL_CH1->setMaximumHeight(40);
ui->pausedLabel_CH2->setMaximumHeight(40);
ui->pause_LA->setMaximumHeight(40);
ui->multimeterPauseCheckBox->setMaximumHeight(40);
//Hide the "single shot" button
ui->singleShotCheckBox->setVisible(false);
}
return;
}
void MainWindow::screenRotateEvent(Qt::ScreenOrientation orientation)
{
qDebug() << "Orientation:" << orientation;
QWidget *oldCentralWidget = centralWidget();
QLayout *oldLayout = oldCentralWidget->layout();
oldLayout->removeWidget(ui->scopeAxes);
oldLayout->removeWidget(ui->stackedWidget);
oldLayout->removeWidget(ui->deviceConnected);
QLayout *newLayout;
if((orientation == Qt::LandscapeOrientation) || (orientation == Qt::InvertedLandscapeOrientation)){
newLayout = new QHBoxLayout(this);
ui->stackedWidget->setVisible(0);
} else {
newLayout = new QVBoxLayout(this);
ui->stackedWidget->setVisible(1);
}
newLayout->addWidget(ui->scopeAxes);
newLayout->addWidget(ui->stackedWidget);
newLayout->addWidget(ui->deviceConnected);
newLayout->setContentsMargins(0,0,0,0);
newLayout->setSpacing(0);
QWidget* newCentralWidget = new QWidget();
newCentralWidget->setLayout(newLayout);
setCentralWidget(newCentralWidget);
delete(oldCentralWidget);
}
bool MainWindow::eventFilter(QObject *obj, QEvent *event){
//qDebug() << event;
if(event->type() == QEvent::Gesture){
qDebug() << "gesture!!";
return gestureFilter(static_cast<QGestureEvent*>(event));
} else {
return false;
}
//return QMainWindow::eventFilter(obj, event);
}
bool MainWindow::gestureFilter(QGestureEvent *event){
QGesture *capturedGesture = event->gesture(Qt::PinchGesture);
if(capturedGesture->gestureType() == Qt::PinchGesture){
qDebug() << "pinch!";
QPinchGesture *pinchGesture = static_cast<QPinchGesture *>(capturedGesture);
qDebug() << "Last Centre Point" << pinchGesture->lastCenterPoint();
qDebug() << "Last Scale Factor" << pinchGesture->lastScaleFactor();
qDebug() << "Start Centre Point" << pinchGesture->startCenterPoint();
qDebug() << "Total Scale Factor" << pinchGesture->totalScaleFactor();
qDebug() << "Angle" << pinchGesture->rotationAngle();
qreal totalScaleFactor = pinchGesture->totalScaleFactor();
bool embiggen;
if(totalScaleFactor >= ANDROID_SCALE_INSENSITIVITY){
embiggen = true;
pinchGesture->setTotalScaleFactor(totalScaleFactor/ANDROID_SCALE_INSENSITIVITY);
} else if(totalScaleFactor < (1/ANDROID_SCALE_INSENSITIVITY)){
embiggen = false;
pinchGesture->setTotalScaleFactor(totalScaleFactor*ANDROID_SCALE_INSENSITIVITY);
} else {
return true;
}
QPoint point = pinchGesture->centerPoint().toPoint();
qDebug() << point;
if(scalingInTimeAxis){
wheelEmu = new QWheelEvent(point, (embiggen ? 120 : -120), 0, Qt::ControlModifier, Qt::Vertical);
} else{
wheelEmu = new QWheelEvent(point, (embiggen ? 120 : -120), 0, 0, Qt::Vertical);
}
ui->controller_iso->setVoltageRange(wheelEmu);
return true;
} else {
return false;
}
}
void MainWindow::horiScaleEvent(bool enabled){
if(enabled){
ui->scaleHoriCheck->setChecked(true);
}
qDebug() << "Hori Scale";
scalingInTimeAxis = true;
ui->scaleVertCheck->setChecked(false);
}
void MainWindow::vertScaleEvent(bool enabled){
if(enabled){
ui->scaleVertCheck->setChecked(true);
}
qDebug() << "Vert Scale";
scalingInTimeAxis = false;
ui->scaleHoriCheck->setChecked(false);
}
#endif
void MainWindow::on_actionCalibrate_triggered()
{
//Must be mode 4
//Must be DC coupled
//Voltage must be disconnected
caibrateStage = 0;
if(!ui->controller_iso->driver->connected){
calibrationMessages->setStandardButtons(QMessageBox::Ok);
calibrationMessages->setText("You need to connect the board before calibrating it!");
calibrationMessages->exec();
return;
}
if(ui->controller_iso->driver->deviceMode!=4){
calibrationMessages->setStandardButtons(QMessageBox::Ok|QMessageBox::Cancel);
calibrationMessages->setText("The calibration sequence requires all devices to be turned off, except for the oscilloscope CH1 and CH2. Is it OK for me to change your workspace?");
int choice = calibrationMessages->exec();
calibrationMessages->setStandardButtons(QMessageBox::Ok);
if(choice == QMessageBox::Ok){
qDebug() << "Changing workspace...";
ui->psuSlider->setValue(0);
ui->busSifferGroup_CH1->setChecked(false);
ui->busSnifferGroup_CH2->setChecked(false);
ui->multimeterGroup->setChecked(false);
ui->triggerGroup->setChecked(false);
ui->scopeGroup_CH1->setChecked(true);
ui->scopeGroup_CH2->setChecked(true);
ui->pausedLabeL_CH1->setChecked(false);
ui->pausedLabel_CH2->setChecked(false);
ui->doubleSampleLabel->setChecked(false);
ui->acCoupledLabel_CH1->setChecked(false);
ui->acCoupledLabel_CH2->setChecked(false);
ui->pause_LA->setChecked(false);
ui->multimeterPauseCheckBox->setChecked(false);
}
else{
return;
}
}
//Throw out old calibration data in case of bad cali
ui->controller_iso->ch1_ref = 1.65;
ui->controller_iso->ch2_ref = 1.65;
ui->controller_iso->frontendGain_CH1 = (R4/(R3+R4));
ui->controller_iso->frontendGain_CH2 = (R4/(R3+R4));
ui->controller_iso->internalBuffer375_CH1->m_voltage_ref = 1.65;
ui->controller_iso->internalBuffer750->m_voltage_ref = 1.65;
ui->controller_iso->internalBuffer375_CH2->m_voltage_ref = 1.65;
ui->controller_iso->internalBuffer375_CH1->m_frontendGain = R4/(R3+R4);
ui->controller_iso->internalBuffer750->m_frontendGain = R4/(R3+R4);
ui->controller_iso->internalBuffer375_CH2->m_frontendGain = R4/(R3+R4);
settings->setValue("CalibrateVrefCH1", 1.65);
settings->setValue("CalibrateVrefCH2", 1.65);
settings->setValue("CalibrateGainCH1", R4/(R3+R4));
settings->setValue("CalibrateGainCH2", R4/(R3+R4));
qDebug() << "Calibration routine beginning!";
calibrationMessages->setText("Please disconnect all wires from your Labrador board then press OK to continue.");
calibrationMessages->exec();
ui->controller_iso->clearBuffers(1,1,1);
QTimer::singleShot(1200, this, SLOT(calibrateStage2()));
}
void MainWindow::calibrateStage2(){
double vref_CH1 = ui->controller_iso->meanVoltageLast(1, 1, 128);
double vref_CH2 = ui->controller_iso->meanVoltageLast(1, 2, 128);
qDebug() << "VRef (CH1) = " << vref_CH1;
qDebug() << "VRef (CH2) = " << vref_CH2;
if((vref_CH1 > 2.1) | (vref_CH1 < 1.1) | (vref_CH2 > 2.1) | (vref_CH2 < 1.1)){
calibrationMessages->setText("Calibration has been abandoned due to out-of-range values. Both channels should show approximately 1.6V. Please disconnect all wires from your Labrador board and try again.");
calibrationMessages->exec();
return;
}
ui->controller_iso->ch1_ref = 3.3 - vref_CH1;
ui->controller_iso->ch2_ref = 3.3 - vref_CH2;
ui->controller_iso->internalBuffer375_CH1->m_voltage_ref = 3.3 - vref_CH1;
ui->controller_iso->internalBuffer750->m_voltage_ref = 3.3 - vref_CH1;
ui->controller_iso->internalBuffer375_CH2->m_voltage_ref = 3.3 - vref_CH2;
settings->setValue("CalibrateVrefCH1", vref_CH1);
settings->setValue("CalibrateVrefCH2", vref_CH2);
calibrationMessages->setText("Please connect both oscilloscope channels to the outer shield of the USB connector then press OK to continue.");
calibrationMessages->exec();
ui->controller_iso->clearBuffers(1,1,1);
QTimer::singleShot(1200, this, SLOT(calibrateStage3()));
}
void MainWindow::calibrateStage3(){
double vMeasured_CH1 = ui->controller_iso->meanVoltageLast(1, 1, 128);
double vMeasured_CH2 = ui->controller_iso->meanVoltageLast(1, 2, 128);
qDebug() << "VMeasured (CH1) = " << vMeasured_CH1;
qDebug() << "VMeasured (CH2) = " << vMeasured_CH2;
if((vMeasured_CH1 > 0.3) | (vMeasured_CH1 < -0.3) | (vMeasured_CH2 > 0.3) | (vMeasured_CH2 < -0.3)){
calibrationMessages->setText("Calibration has been abandoned due to out-of-range values. Both channels should show approximately 0V. Please try again.");
calibrationMessages->exec();
return;
}
double vref_CH1 = ui->controller_iso->ch1_ref;
double vref_CH2 = ui->controller_iso->ch2_ref;
//G^ <= G
qDebug() << "Old gain (CH1) = " << ui->controller_iso->frontendGain_CH1;
ui->controller_iso->frontendGain_CH1 = (vref_CH1 - vMeasured_CH1)*(ui->controller_iso->frontendGain_CH1)/vref_CH1;
ui->controller_iso->frontendGain_CH2 = (vref_CH2 - vMeasured_CH2)*(ui->controller_iso->frontendGain_CH2)/vref_CH2;
qDebug() << "New gain (CH1) = " << ui->controller_iso->frontendGain_CH1;
ui->controller_iso->internalBuffer375_CH1->m_frontendGain = (vref_CH1 - vMeasured_CH1)*(ui->controller_iso->frontendGain_CH1)/vref_CH1;
ui->controller_iso->internalBuffer750->m_frontendGain = (vref_CH1 - vMeasured_CH1)*(ui->controller_iso->frontendGain_CH1)/vref_CH1;
ui->controller_iso->internalBuffer375_CH2->m_frontendGain = (vref_CH2 - vMeasured_CH2)*(ui->controller_iso->frontendGain_CH2)/vref_CH2;
settings->setValue("CalibrateGainCH1", ui->controller_iso->frontendGain_CH1);
settings->setValue("CalibrateGainCH2", ui->controller_iso->frontendGain_CH2);
calibrationMessages->setText("Oscilloscope Calibration complete.");
calibrationMessages->exec();
if (dt_userWantsToCalibrate)
on_actionCalibrate_2_triggered();
}
void MainWindow::rSourceIndexChanged(int newSource){
if(newSource == 0){
#ifndef PLATFORM_ANDROID
ui->multimeterRLabel->setVisible(true);
ui->multimeterRComboBox->setVisible(true);
#endif
ui->signalGenGroup_CH2->setEnabled(false);
ui->psuGroup->setEnabled(true);
ui->waveformSelect_CH2->setCurrentText("DC");
ui->dcOffsetValue_CH2->setValue(0);
ui->amplitudeValue_CH2->setValue(3);
}
if(newSource == 1){
#ifndef PLATFORM_ANDROID
ui->multimeterRLabel->setVisible(true);
ui->multimeterRComboBox->setVisible(true);
#endif
ui->psuGroup->setEnabled(false);
ui->signalGenGroup_CH2->setEnabled(true);
ui->psuSlider->setValue(100);
}
if(newSource == 254){
ui->signalGenGroup_CH2->setEnabled(false);
ui->psuGroup->setEnabled(true);
#ifndef PLATFORM_ANDROID
ui->multimeterRLabel->setVisible(false);
ui->multimeterRComboBox->setVisible(false);
#endif
ui->waveformSelect_CH2->setCurrentText("Square");
ui->frequencyValue_CH2->setValue(4);
ui->dcOffsetValue_CH2->setValue(0);
ui->amplitudeValue_CH2->setValue(3);
}
if(newSource == 255){
ui->signalGenGroup_CH2->setEnabled(true);
ui->psuGroup->setEnabled(true);
#ifndef PLATFORM_ANDROID
ui->multimeterRLabel->setVisible(false);
ui->multimeterRComboBox->setVisible(false);
#endif
}
}
void MainWindow::multimeterStateChange(bool enabled){
if(enabled){
int cIdx = ui->multimeterModeSelect->currentIndex();
ui->controller_iso->setMultimeterType(cIdx);
} else rSourceIndexChanged(255);
}
void MainWindow::on_actionLo_bw_triggered()
{
expected_variant = 1;
settings->setValue("ConnectionType", 0);
if(ui->controller_iso->driver->connected) reinitUsb();
}
void MainWindow::on_actionSingle_ep_msync_triggered()
{
expected_variant = 2;
settings->setValue("ConnectionType", 1);
if(ui->controller_iso->driver->connected) reinitUsb();
}
void MainWindow::on_actionSingle_ep_async_triggered()
{
expected_variant = 2;
settings->setValue("ConnectionType", 2);
if(ui->controller_iso->driver->connected) reinitUsb();
}
void MainWindow::showFileDialog(QString *fileName){
QFileDialog dialog;
dialog.setDefaultSuffix("csv");
dialog.setAcceptMode(QFileDialog::AcceptSave);
dialog.setDirectory(QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation));
dialog.setFileMode(QFileDialog::AnyFile);
dialog.setNameFilter("CSV files (*.csv);;All Files (*)");
int retVal = dialog.exec();
if(!retVal){
return; //User did not select a file!
}
QStringList tempList = dialog.selectedFiles();
QString temp = tempList.first();
*(fileName) = temp;
}
void MainWindow::openFileDialog(QString *fileName){
QFileDialog dialog;
dialog.setDefaultSuffix("csv");
dialog.setAcceptMode(QFileDialog::AcceptOpen);
dialog.setDirectory(QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation));
dialog.setFileMode(QFileDialog::ExistingFile);
dialog.setNameFilter("CSV files (*.csv);;All Files (*)");
int retVal = dialog.exec();
if(!retVal){
return; //User did not select a file!
}
QStringList tempList = dialog.selectedFiles();
QString temp = tempList.first();
*(fileName) = temp;
}
void MainWindow::on_actionExportImage_triggered()
{
qDebug() << "on_actionExportImage_triggered()";
QFileDialog dialog;
dialog.setDefaultSuffix("pdf");
dialog.setAcceptMode(QFileDialog::AcceptSave);
dialog.setDirectory(QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation));
dialog.setFileMode(QFileDialog::AnyFile);
dialog.setNameFilter("PDF files (*.pdf);;JPEG files (*.jpg);;PNG files (*.png);;BMP files (*.bmp)");
int retVal = dialog.exec();
if(!retVal){
return; //User did not select a file!
}
QStringList tempList = dialog.selectedFiles();
qDebug() << tempList.first();
// Avoiding an if () cascade
switch (dialog.nameFilters().indexOf( dialog.selectedNameFilter() ) )
{
case 0:
ui->scopeAxes->savePdf(tempList.first());
break;
case 1:
ui->scopeAxes->saveJpg(tempList.first());
break;
case 2:
ui->scopeAxes->savePng(tempList.first());
break;
case 3:
ui->scopeAxes->saveBmp(tempList.first());
break;
default:
qDebug() << "Wrong file type for exporting image to";
}
}
void MainWindow::on_actionSnapshot_CH1_triggered()
{
qDebug() << "on_actionSnapshot_CH1_triggered()";
QString fileName;
showFileDialog(&fileName);
qDebug() << fileName;
int len = fileName.length();
if(len==0) return; //User cancelled
ui->controller_iso->takeSnapshot(&fileName, 1);
}
void MainWindow::on_actionSnapshot_CH2_triggered()
{
qDebug() << "on_actionSnapshot_CH2_triggered()";
QString fileName;
showFileDialog(&fileName);
qDebug() << fileName;
int len = fileName.length();
if(len==0) return; //User cancelled
ui->controller_iso->takeSnapshot(&fileName, 2);
}
void MainWindow::on_actionRecord_CH1_triggered(bool checked)
{
qDebug() << "on_actionRecord_CH1_triggered(bool checked)";
qDebug() << daq_max_file_size;
if(!checked){
if(ui->controller_iso->driver->deviceMode!=6){
ui->controller_iso->internalBuffer375_CH1->disableFileIO();
delete(output375_CH1);
} else {
ui->controller_iso->internalBuffer750->disableFileIO();
delete(output750);
}
ui->bufferDisplay->scopeDsrDisableOverride = false;
ui->bufferDisplay->poke();
return;
}
QString fileName;
showFileDialog(&fileName);
qDebug() << fileName;
int len = fileName.length();
#ifndef PLATFORM_ANDROID
if(len==0){
ui->actionRecord_CH1->setChecked(false);
return; //User cancelled
}
#endif
if(ui->controller_iso->driver->deviceMode!=6){
output375_CH1 = new QFile(fileName);
ui->controller_iso->internalBuffer375_CH1->enableFileIO(output375_CH1, daq_num_to_average, daq_max_file_size);
} else {
output750 = new QFile(fileName);
ui->controller_iso->internalBuffer750->enableFileIO(output750, daq_num_to_average, daq_max_file_size);
}
ui->bufferDisplay->scopeDsrDisableOverride = true;
ui->bufferDisplay->poke();
}
void MainWindow::on_actionRecord_CH2_triggered(bool checked)
{
qDebug() << "on_actionRecord_CH2_triggered(bool checked)";
if(!checked){
ui->controller_iso->internalBuffer375_CH2->disableFileIO();
delete(output375_CH2);
return;
}
QString fileName;
showFileDialog(&fileName);
qDebug() << fileName;
int len = fileName.length();
#ifndef PLATFORM_ANDROID
if(len==0){
ui->actionRecord_CH2->setChecked(false);
return; //User cancelled
}
#endif
output375_CH2 = new QFile(fileName);
ui->controller_iso->internalBuffer375_CH2->enableFileIO(output375_CH2, daq_num_to_average, daq_max_file_size);
if((checked) && (ui->controller_iso->driver->deviceMode != 4))
QMessageBox::warning(nullptr, "Warning", "CH2 is disabled. The DAQ will NOT RECORD any data from from CH2 until it has been enabled!");
}
//Disable the serial, without wiping everything!
void MainWindow::serialEmergencyDisable(int channel){
qDebug("MainWindow acknowledges disconnect from channel %d", channel);
if(channel==1){
//Disable the serial as if the user turned it off manually.
ui->serialDecodingCheck_CH1->setChecked(false);
//Bring back the lost text.
ui->console1->setVisible(true);
//Warn the user that the wire has been disconnected.
QApplication::beep();
ui->console1->appendPlainText("\n\n***Error:UART is not connected***\n***Serial Decoding has been disabled***");
//Scroll to end of console.
QTextCursor c = ui->console1->textCursor();
c.movePosition(QTextCursor::End);
ui->console1->setTextCursor(c);
}
else{
//Disable the serial as if the user turned it off manually.
ui->serialDecodingCheck_CH2->setChecked(false);
//Bring back the lost text.
ui->console2->setVisible(true);
//Warn the user that the wire has been disconnected.
QApplication::beep();
ui->console2->appendPlainText("\n\n***Error:UART is not connected***\n***Serial Decoding has been disabled***");
//Scroll to end of console.
QTextCursor c = ui->console2->textCursor();
c.movePosition(QTextCursor::End);
ui->console2->setTextCursor(c);
}
}
void MainWindow::on_actionFirmware_Recovery_triggered()
{
qDebug() << "on_actionFirmware_Recovery_triggered";
ui->controller_iso->driver->manualFirmwareRecovery();
}
void MainWindow::on_actionDAQ_Settings_triggered()
{
qDebug() << "on_actionDAQ_Settings_triggered()";
daqForm df(this, daq_num_to_average, daq_max_file_size);
df.setModal(true);
connect(&df, SIGNAL(updatedAveraging(int)), this, SLOT(daq_updatedAveraging(int)));
connect(&df, SIGNAL(updatedMaxFileSize(qulonglong)), this, SLOT(daq_updatedMaxFileSize(qulonglong)));
connect(&df, SIGNAL(saveButtonPressed()), this, SLOT(daq_saveButtonPressed()));
df.exec();
}
void MainWindow::fileLimitReached_CH1(void){
ui->actionRecord_CH1->setChecked(false);
QMessageBox recordingStoppedMessageBox;
char recordingStoppedMessage[256];
sprintf(recordingStoppedMessage, "Maximum file size limit of %uMB reached. Data Acquisition Stopped.", daq_max_file_size/1000000);
recordingStoppedMessageBox.setText(recordingStoppedMessage);
recordingStoppedMessageBox.exec();
}
void MainWindow::fileLimitReached_CH2(void){
ui->actionRecord_CH2->setChecked(false);
QMessageBox recordingStoppedMessageBox;
char recordingStoppedMessage[256];
sprintf(recordingStoppedMessage, "Maximum file size limit of %uMB reached. Data Acquisition Stopped.", daq_max_file_size/1000000);
recordingStoppedMessageBox.setText(recordingStoppedMessage);
recordingStoppedMessageBox.exec();
}
void MainWindow::daq_updatedAveraging(int newVal){
qDebug() << "MainWindow::daq_updatedAveraging" << newVal;
daq_num_to_average = newVal;
}
void MainWindow::daq_updatedMaxFileSize(qulonglong newVal){
qDebug() << "MainWindow::daq_updatedMaxFileSize" << newVal;
daq_max_file_size = newVal;
}
void MainWindow::daq_saveButtonPressed(){
qDebug() << "MainWindow::daq_saveButtonPressed";
settings->setValue("daq_defaultAverage", daq_num_to_average);
settings->setValue("daq_defaultFileSize", daq_max_file_size);
}
void MainWindow::on_actionAbout_triggered()
{
QMessageBox aboutDialog(this);
aboutDialog.setWindowTitle("About EspoTek Labrador");
aboutDialog.setTextFormat(Qt::RichText);
aboutDialog.setText(kAboutString);
aboutDialog.exec();
}
void MainWindow::on_actionOpen_DAQ_File_triggered()
{
qDebug() << "on_actionOpen_DAQ_File_triggered";
//Prompt user for file name
QString fileName;
openFileDialog(&fileName);
qDebug() << fileName;
int len = fileName.length();
if(len==0) return; //User cancelled
QFile *inputFile = new QFile(fileName);
ui->controller_iso->loadFileBuffer(inputFile);
}
#ifdef PLATFORM_ANDROID
void MainWindow::dpiAutoScaling(){
this->update();
this->updateGeometry();
this->repaint();
QSize size = this->size();
int numPixels = size.height() * size.width();
for(int i=0;i<100;i++){
qDebug() << size.height();
qDebug() << size.width();
qDebug() << numPixels;
}
if(numPixels > (1280 * 720 * 1.5)){
on_actionOld_Person_Mode_triggered(true);
} else on_actionOld_Person_Mode_triggered(false);
}
void MainWindow::on_androidMenuButton_clicked()
{
//ui->menuBar->actions();
ui->menuBar->show();
dpiAutoScaling();
}
#endif
void MainWindow::on_actionQuit_triggered()
{
QApplication::quit();
}
void MainWindow::on_kickstartIsoButton_clicked()
{
ui->controller_iso->driver->kickstartIso();
}
void MainWindow::on_actionCalibrate_2_triggered()
{
qDebug() << "Calibrating PSU!";
if (!ui->controller_iso->driver->connected) {
calibrationMessages->setStandardButtons(QMessageBox::Ok);
calibrationMessages->setText("You need to connect the board before calibrating it!");
calibrationMessages->exec();
return;
}
//Abort if Scope is uncalibrated
if ((ui->controller_iso->ch1_ref == 1.65) && (ui->controller_iso->ch2_ref == 1.65) && (ui->controller_iso->frontendGain_CH1 == R4/(R3+R4)) && (ui->controller_iso->frontendGain_CH2 == R4/(R3+R4)))\
{
calibrationMessages->setStandardButtons(QMessageBox::Ok);
calibrationMessages->setText("You need to calibrate the oscilloscope before the power supply!");
calibrationMessages->exec();
return;
}
calibrationMessages->setStandardButtons(QMessageBox::Ok|QMessageBox::Cancel);
calibrationMessages->setText("Power Supply calibration requires me to control your power supply temporarily. \n\nTO PREVENT BLUE SMOKE DAMAGE, DISCONNECT ANY CIRCUIT ATTACHED TO YOUR POWER SUPPLY NOW.");
if (calibrationMessages->exec() == QMessageBox::Cancel) {
return;
}
qDebug() << "Beginning PSU calibration!";
//Must be mode 0
//Must be DC coupled
//CH1 must be shorted to PSU out
//Gain must be 1x
qDebug() << "Changing workspace...";
ui->psuSlider->setValue(0);
ui->busSifferGroup_CH1->setChecked(false);
ui->busSnifferGroup_CH2->setChecked(false);
ui->multimeterGroup->setChecked(false);
ui->triggerGroup->setChecked(false);
ui->scopeGroup_CH1->setChecked(true);
ui->scopeGroup_CH2->setChecked(false);
ui->pausedLabeL_CH1->setChecked(false);
ui->pausedLabel_CH2->setChecked(false);
ui->doubleSampleLabel->setChecked(false);
ui->acCoupledLabel_CH1->setChecked(false);
ui->acCoupledLabel_CH2->setChecked(false);
ui->pause_LA->setChecked(false);
ui->multimeterPauseCheckBox->setChecked(false);
ui->controller_iso->setAutoGain(false);
ui->controller_iso->setGain(4);
//Remove the offset before setting it again; don't want them to stack!
ui->controller_iso->driver->psu_offset = 0;
qDebug() << "PSU Calibration routine beginning!";
calibrationMessages->setStandardButtons(QMessageBox::Ok);
calibrationMessages->setText("Please connect your Labrador's Oscilloscope CH1 (DC) pin to the Power Supply Output (positive) then press OK to continue.");
calibrationMessages->exec();
ui->controller_iso->driver->setPsu(5);
ui->controller_iso->clearBuffers(1,1,1);
QTimer::singleShot(1800, this, SLOT(calibrate_psu_stage2()));
}
void MainWindow::calibrate_psu_stage2()
{
PSU5 = ui->controller_iso->meanVoltageLast(1, 1, 128);
qDebug() << "PSU5 =" << PSU5;
if((PSU5 > 6) | (PSU5 < 4) ){
ui->controller_iso->driver->setPsu(4.5);
ui->psuSlider->setValue(0);
ui->controller_iso->clearBuffers(1,1,1);
ui->controller_iso->setAutoGain(true);
ui->controller_iso->autoGain();
calibrationMessages->setText("Calibration has been abandoned due to out-of-range values. The oscilloscope should show approximately 5V. Please check all wires on your Labrador board and try again.");
calibrationMessages->exec();
return;
}
ui->controller_iso->setGain(1);
ui->controller_iso->driver->setPsu(10);
ui->controller_iso->clearBuffers(1,1,1);
QTimer::singleShot(1800, this, SLOT(calibrate_psu_stage3()));
}
void MainWindow::calibrate_psu_stage3()
{
PSU10 = ui->controller_iso->meanVoltageLast(1, 1, 128);
qDebug() << "PSU10 =" << PSU10;
ui->controller_iso->driver->setPsu(4.5);
ui->psuSlider->setValue(0);
ui->controller_iso->clearBuffers(1,1,1);
ui->controller_iso->setAutoGain(true);
ui->controller_iso->autoGain();
if((PSU10 > 11) | (PSU10 < 9) ){
calibrationMessages->setText("Calibration has been abandoned due to out-of-range values. The oscilloscope should show approximately 10V. Please check all wires on your Labrador board and try again.");
calibrationMessages->exec();
return;
}
psu_voltage_calibration_offset = ((PSU5 - 5) + (PSU10 - 10)) / 2.0;
settings->setValue("CalibratePsu", psu_voltage_calibration_offset);
ui->controller_iso->driver->psu_offset = psu_voltage_calibration_offset;
calibrationMessages->setStandardButtons(QMessageBox::Ok);
calibrationMessages->setText("PSU calibration complete.");
calibrationMessages->exec();
qDebug() << "PSU Calibration complete! Offset =" << psu_voltage_calibration_offset;
}
void MainWindow::on_actionSerial_triggered(bool checked)
{
ui->controller_iso->setSerialType(0);
}
void MainWindow::on_actionI2C_triggered(bool checked)
{
ui->controller_iso->setSerialType(1);
}
void MainWindow::on_actionShow_Range_Dialog_on_Main_Page_triggered(bool checked)
{
#ifndef PLATFORM_ANDROID
if (scopeRangeSwitch == nullptr)
{
scopeRangeSwitch = new scopeRangeEnterDialog(nullptr, false, ui->controller_iso->display.topRange, ui->controller_iso->display.botRange, ui->controller_iso->display.window, ui->controller_iso->display.delay);
scopeRangeSwitch->setWindowFlags(Qt::Widget);
ui->verticalLayout_5->insertWidget(2, scopeRangeSwitch);
connect(scopeRangeSwitch, SIGNAL(yTopUpdated(double)), ui->controller_iso, SLOT(setTopRange(double)));
connect(scopeRangeSwitch, SIGNAL(yBotUpdated(double)), ui->controller_iso, SLOT(setBotRange(double)));
connect(scopeRangeSwitch, SIGNAL(windowUpdated(double)), ui->controller_iso, SLOT(setTimeWindow(double)));
connect(scopeRangeSwitch, SIGNAL(delayUpdated(double)), ui->controller_iso, SLOT(setDelay(double)));
connect(ui->controller_iso, SIGNAL(topRangeUpdated(double)), scopeRangeSwitch, SLOT(yTopChanged(double)));
connect(ui->controller_iso, SIGNAL(botRangeUpdated(double)), scopeRangeSwitch, SLOT(yBotChanged(double)));
connect(ui->controller_iso, SIGNAL(timeWindowUpdated(double)), scopeRangeSwitch, SLOT(windowChanged(double)));
connect(ui->controller_iso, SIGNAL(delayUpdated(double)), scopeRangeSwitch, SLOT(delayChanged(double)));
}
qDebug() << "on_actionShow_Range_Dialog_on_Main_Page_triggered" << checked;
settings->setValue("ShowRangeDialog", checked);
scopeRangeSwitch->setVisible(checked);
#endif
}
void MainWindow::paused(bool enabled)
{
#ifndef PLATFORM_ANDROID
qDebug() << "MainWindow::paused(" << enabled << ")";
ui->hideCH1Box->setVisible(enabled);
ui->hideCH2Box->setVisible(enabled);
if (! enabled)
{
ui->hideCH1Box->setChecked(false);
ui->hideCH2Box->setChecked(false);
}
#endif
}
void MainWindow::on_actionNone_triggered()
{
ui->controller_iso->parity_CH1 = UartParity::None;
}
void MainWindow::on_actionEven_triggered()
{
ui->controller_iso->parity_CH1 = UartParity::Even;
}
void MainWindow::on_actionOdd_triggered()
{
ui->controller_iso->parity_CH1 = UartParity::Odd;
}
void MainWindow::on_actionNone_2_triggered()
{
ui->controller_iso->parity_CH2 = UartParity::None;
}
void MainWindow::on_actionEven_2_triggered()
{
ui->controller_iso->parity_CH2 = UartParity::Even;
}
void MainWindow::on_actionOdd_2_triggered()
{
ui->controller_iso->parity_CH2 = UartParity::Odd;
}
void MainWindow::on_actionDocumentation_triggered()
{
QDesktopServices::openUrl(QUrl(kDocumentationUrl, QUrl::TolerantMode));
}
void MainWindow::on_actionPinout_triggered()
{
QDesktopServices::openUrl(QUrl(kPinoutUrl, QUrl::TolerantMode));
}
void MainWindow::cursorGroupEnabled(bool enabled)
{
static bool cursorStatsEnabledState;
static bool makeCursorsNicerState;
if (enabled)
{
ui->controller_iso->cursorStatsEnabled = cursorStatsEnabledState;
ui->makeCursorsNicer->setTurnedOn(makeCursorsNicerState);
ui->cursorGroup->setEnabled(true);
}
else
{
cursorStatsEnabledState = ui->controller_iso->cursorStatsEnabled;
makeCursorsNicerState = ui->makeCursorsNicer->turnedOn();
ui->controller_iso->cursorStatsEnabled = false;
ui->makeCursorsNicer->setTurnedOn(false);
ui->cursorGroup->setEnabled(false);
}
}
void MainWindow::on_actionHide_Widget_Oscilloscope_triggered(bool checked)
{
ui->scopeGroup_CH1->setVisible(!checked);
ui->scopeGroup_CH2->setVisible(!checked);
ui->cursorGroup->setVisible(!checked);
ui->triggerGroup->setVisible(!checked);
}
void MainWindow::on_actionHide_Widget_SignalGen_triggered(bool checked)
{
ui->signalGenGroup_CH1->setVisible(!checked);
ui->signalGenGroup_CH2->setVisible(!checked);
}
void MainWindow::on_actionHide_Widget_Multimeter_triggered(bool checked)
{
ui->multimeterGroup->setVisible(!checked);
}
void MainWindow::on_actionHide_Widget_PowerSupply_triggered(bool checked)
{
ui->psuGroup->setVisible(!checked);
}
void MainWindow::on_actionHide_Widget_LogicAnalyzer_triggered(bool checked)
{
ui->busSifferGroup_CH1->setVisible(!checked);
ui->busSnifferGroup_CH2->setVisible(!checked);
ui->digitalOutputGroup->setVisible(!checked);
}
// Thanks Medo
// https://www.medo64.com/2020/08/dark-mode-for-qt-application/
void MainWindow::setDarkMode(bool dark)
{
if(dark)
{
qApp->setStyle(QStyleFactory::create("Fusion"));
QPalette newPalette;
newPalette.setColor(QPalette::Window, QColor( 37, 37, 37));
newPalette.setColor(QPalette::WindowText, QColor( 212, 212, 212));
newPalette.setColor(QPalette::Base, QColor( 60, 60, 60));
newPalette.setColor(QPalette::AlternateBase, QColor( 45, 45, 45));
newPalette.setColor(QPalette::Link, QColor( 0, 160, 255));
newPalette.setColor(QPalette::LinkVisited, QColor( 60, 127, 255));
//newPalette.setColor(QPalette::PlaceholderText, QColor(127, 127, 127));
newPalette.setColor(QPalette::Text, QColor(212, 212, 212));
newPalette.setColor(QPalette::Button, QColor( 45, 45, 45));
newPalette.setColor(QPalette::ButtonText, QColor(212, 212, 212));
newPalette.setColor(QPalette::BrightText, QColor(240, 240, 240));
newPalette.setColor(QPalette::Highlight, QColor( 38, 79, 120));
newPalette.setColor(QPalette::HighlightedText, QColor(240, 240, 240));
newPalette.setColor(QPalette::Light, QColor( 60, 60, 60));
newPalette.setColor(QPalette::Midlight, QColor( 52, 52, 52));
newPalette.setColor(QPalette::Dark, QColor( 30, 30, 30) );
newPalette.setColor(QPalette::Mid, QColor( 37, 37, 37));
newPalette.setColor(QPalette::Shadow, QColor( 0, 0, 0));
newPalette.setColor(QPalette::Disabled, QPalette::Text, QColor(127, 127, 127));
qApp->setPalette(newPalette);
}
else
{
qApp->setStyle(defaultStyleName);
qApp->setPalette(defaultPalette);
}
QSettings settings;
settings.setValue("DarkModeEnabled", dark);
}
void MainWindow::on_actionDark_Mode_triggered(bool checked)
{
setDarkMode(checked);
}
void MainWindow::on_actionShow_Debug_Console_triggered(bool checked)
{
enableLabradorDebugging(checked);
}
void MainWindow::on_actionFrequency_Spectrum_triggered(bool checked)
{
ui->controller_iso->spectrum = checked;
spectrumLayoutWidget->setVisible(checked);
if (checked == true)
MAX_WINDOW_SIZE = 1<<17;
else
MAX_WINDOW_SIZE = 10;
}