mmtalaie
/
hardware-api
2
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
12 Commits
2 Branches
26 Tags
3.4 MiB
 
 
Tree: 334bb1b170
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from '334bb1b170'
${ noResults }
hardware-api/mainwindow.cpp

3163 lines
98 KiB
Raw Blame History

#include "mainwindow.h"
#include "ui_mainwindow.h"
QThread* MainWindow::_uiThread;
//using namespace H5;
MainWindow::MainWindow(QWidget *parent)
: QMainWindow(parent)
, ui(new Ui::MainWindow)
{
ui->setupUi(this);
_uiThread = QThread::currentThread();
this->setFixedSize(this->width(),this->height());
_settings = new QSettings("Hasis", "HwTester");
_usd = new UltraSoundDevice();
_timeout = new QTimer;
_bCtrl = new BoardsCtrlMngt (_usd->device);
_healStatus = new HealthStatus;
_supRbValue = new SupervisorRbValue;
_faultStatus = new MpsFaultStatus;
_version = new FpgaCodeVersion;
_vec = new StatusVec;
_emul = new EmulatorProperties;
_colorMap = new QCPColorMap(ui->plot_2->xAxis,ui->plot_2->yAxis);
ui->plot_2->setInteractions(QCP::iRangeZoom|QCP::iRangeDrag);
ui->plot_2->axisRect()->setupFullAxesBox(true);
ui->plot_2->xAxis->setLabel("Line");
ui->plot_2->yAxis->setLabel("Point");
// ui->prg_adcSim->setVisible(false);
// ui->prg_scenarioUpload->setVisible(false);
// ui->prg_txDacUpload->setVisible(false);
// ui->prg_fpgaProgram->setVisible(false);
// ui->prg_adcLoggerFileWr->setVisible(false);
// ui->tb_scenarioFile->setReadOnly(true);
// ui->tb_paramFile->setReadOnly(true);
// ui->tb_txDacFile->setReadOnly(true);
ui->tb_fpgaBit->setReadOnly(true);
// ui->tb_scenarioFile->setText(_settings->value(SCENARIO_FILE_PATH).value<QString>());
// ui->tb_paramFile->setText(_settings->value(PARAM_FILE_PATH).value<QString>());
// ui->tb_txDacFile->setText(_settings->value(TX_DAC_FILE_PATH).value<QString>());
ui->rbtn_reg->setChecked(_settings->value(REG_ACCESS_SEL).value<bool>());
ui->rbtn_offset->setChecked(!_settings->value(REG_ACCESS_SEL).value<bool>());
ui->tb_fpgaBit->setText(_settings->value(FPGA_FILE_PATH).value<QString>());
// connect(this, &MainWindow::updateBlockProgressValue, this, &MainWindow::newBlockProgressValue);
// connect(this, &MainWindow::updateFpgaProgressValue, this, &MainWindow::newFpgaProgressValue);
// connect(this, &MainWindow::updateBlockProgressVisibility, this, &MainWindow::newBlockProgressVisibility);
// connect(this, &MainWindow::updateFpgaProgressVisibility, this, &MainWindow::newFpgaProgressVisibility);
//connect(this, &MainWindow::updateAdcLoggerProgressValue, this, &MainWindow::newAdcLoggerProgressValue);
//connect(this, &MainWindow::updateAdcLoggerProgressVisibility, this, &MainWindow::newAdcLoggerProgressVisibility);
connect(this, &MainWindow::showMessage, this, &MainWindow::newMessage);
connect(_timeout, &QTimer::timeout, this, &MainWindow::timeout);
//////////////////////// DMA Packet Connections //////////////////////////////
connect(&_trx, &TrxBoard::sendFramePacket, this, &MainWindow::getFramePacket);
connect(this, &MainWindow::sendLogCount, this, &MainWindow::catchLogCount);
connect(this, &MainWindow::twoDReady, this, &MainWindow::show2d, Qt::BlockingQueuedConnection);
connect(this, &MainWindow::threeDReady, this, &MainWindow::show3d, Qt::BlockingQueuedConnection);
ui->btn_pllClkSt->setText(ON);
ui->btn_pllClkTps->setText(ON);
ui->btn_hvRegulatorConfig->setText(ENABLE);
ui->btn_pm5RegulatorConfig->setText(ENABLE);
ui->btn_updateRdbackValue->setText(UPDATE);
ui->l_detectedProbe->setText("None");
ui->btn_dmaLogLast->setHidden(true);
// uint32_t offsetdbgCmd[3] = {0x140000*4,0x240000*4,0x340000*4};
// auto value = 0;
// for (auto i=0 ; i<3;i++)
// {
// value = (_usd->readWord(offsetdbgCmd[i], 0)) & 0xC;
// if(value != 0)
// break;
// }
// if(value != 0)
// ui->ch_testMode->setCheckState(Qt::CheckState::Checked);
_dmaLog = false;
_dmaRun = false;
_dmaShow = false;
try
{
_trx.init();
}
catch (SonoException& e)
{
qDebug() << e.what();
}
_timeout->start(1000);
// setReceiverConfiguration();
// setBlendWeight();
// setLineFilter();
// setStbCoeff();
// setFreqLut();
// setDTgc();
// setATgc();
// setLpf();
// setRxBeamformerPrp();
// setPulseProperties();
setAfeConfig();
// setProbeElement();
// setApodization();
}
MainWindow::~MainWindow()
{
delete ui;
delete _settings;
delete _usd;
delete _timeout;
delete _healStatus;
delete _bCtrl;
delete _supRbValue;
delete _faultStatus;
delete _version;
delete _vec;
delete _emul;
}
/*************************************************************************************************/
//void MainWindow::binFileUploader(quint32 bar, quint32 offset, QString path, QProgressBar* prg)
//{
// QFile file(path);
// if (!file.open(QFile::ReadOnly))
// {
// MESSAGE_BOX("Could not open binary file, aborting operation");
// return;
// }
// emit updateBlockProgressVisibility(true, prg);
// emit updateBlockProgressValue(0, prg);
// const auto actualSize = file.size();
// auto readSize = 0;
// while(readSize < actualSize)
// {
// QByteArray chunk = file.read(8);
// auto value = byteArrayTo64LittleEndian(chunk);
// try
// {
// _usd->writeLong(offset + readSize, bar, value);
// auto rdValue = _usd->readLong(offset + readSize, bar);
// if (value != rdValue)
// {
// MESSAGE_BOX("Binary File Write Error");
// file.close();
// return;
// }
// } catch (myexception e)
// {
// MESSAGE_BOX(e.what());
// emit updateBlockProgressVisibility(false, prg);
// file.close();
// return;
// }
// readSize += 8;
// auto percentage = (readSize * 100 / actualSize);
// emit updateBlockProgressValue(percentage, prg);
// }
// //MESSAGE_BOX("Binary file upload finished with success");
// emit updateBlockProgressVisibility(false, prg);
// file.close();
//}
///*************************************************************************************************/
//void MainWindow::binAdcFileUploader(quint32 bar, QString path, QProgressBar* prg)
//{
// QFile file(path);
// if (!file.open(QFile::ReadOnly))
// {
// MESSAGE_BOX("Could not open binary file, aborting operation");
// return;
// }
// emit updateBlockProgressVisibility(true, prg);
// emit updateBlockProgressValue(0, prg);
// const auto actualSize = file.size();
// qint64 readSize = 0;
// quint32 addr = 0;
// quint32 data = 0;
// auto syncNum = 0;
// while((readSize < actualSize) & !_csvReadStopFlag)
// {
// QByteArray chunk = file.read(8);
// auto value = byteArrayTo64LittleEndian(chunk);
// try
// {
// addr = static_cast<quint32>(value >> 32);
// data = static_cast<quint32>(value & 0xFFFFFFFF);
// _usd->writeWord(addr, bar, data);
// if (addr != 3076)
// {
// qDebug() << syncNum << "==> " << addr << "::" << data;
// syncNum +=1;
// }
// } catch (myexception e)
// {
// MESSAGE_BOX(e.what());
// emit updateBlockProgressVisibility(false, prg);
// file.close();
// return;
// }
// readSize += 8;
// auto percentage = (readSize * 100 / actualSize);
// emit updateBlockProgressValue(percentage, prg);
// }
// //MESSAGE_BOX("Binary file upload finished with success");
// emit updateBlockProgressVisibility(false, prg);
// file.close();
//}
///*************************************************************************************************/
//void MainWindow::CsvFileUploader(quint32 bar, QString path, QProgressBar* prg)
//{
// QFile file(path);
// if(!file.open(QFile::ReadOnly))
// {
// MESSAGE_BOX("Could not open param file, aborting operation");
// return;
// }
// emit updateBlockProgressVisibility(true, prg);
// emit updateBlockProgressValue(0, prg);
// QString line;
// auto size = file.size();
// qint64 readSize = 0;
// while((readSize < size) & !_csvReadStopFlag)
// {
// line = file.readLine();
// auto sl = line.split(',');
// auto address = sl[0].toUInt(Q_NULLPTR, 16);
// auto value = sl[1].toUInt(Q_NULLPTR, 16);
// _usd->writeWord(address, bar, value);
// //qDebug() << _usd->readWord(address, bar);
// readSize += static_cast<qint64>(line.length());
// emit updateBlockProgressValue((readSize * 100 / size), prg);
// //delay(1);
// }
// emit updateBlockProgressVisibility(false, prg);
// file.close();
//}
///*************************************************************************************************/
//void MainWindow::CsvFileChecker(quint32 bar, QString pathBase, QString pathTarget, QProgressBar* prg)
//{
// QFile baseFile(pathBase);
// QFile tragetFile(pathTarget);
// if(!baseFile.open(QFile::ReadOnly))
// {
// MESSAGE_BOX("Could not open param file, aborting operation");
// return;
// }
// tragetFile.open(QFile::WriteOnly);
// emit updateBlockProgressVisibility(true, prg);
// emit updateBlockProgressValue(0, prg);
// QString line;
// auto size = baseFile.size();
// qint64 readSize = 0;
// while(readSize < size)
// {
// line = baseFile.readLine();
// auto sl = line.split(',');
// auto address = sl[0].toUInt(Q_NULLPTR, 16);
// auto baseValue = sl[1].toUInt(Q_NULLPTR, 16);
// auto boardValue = _usd->readWord(address, bar);
// auto res = "NOK";
// if (boardValue == baseValue)
// {
// res = "OK";
// }
// auto str = QStringLiteral("%1,%2,%3,%4").arg(address, 8, 16, QLatin1Char('0')).arg(baseValue, 8, 16, QLatin1Char('0'))
// .arg(boardValue, 8, 16, QLatin1Char('0')).arg(res);
// tragetFile.write(str.toStdString().c_str(), str.length());
// tragetFile.write("\r\n", 2);
// readSize += static_cast<qint64>(line.length());
// emit updateBlockProgressValue((readSize * 100 / size), prg);
// //delay(1);
// }
// emit updateBlockProgressVisibility(false, prg);
// baseFile.close();
// tragetFile.close();
//}
///*************************************************************************************************/
//#define NO_AFE_CHANNEL 192
//#define NO_LOGGER_SMPL_COUNT 2048
//void MainWindow::AdcLogCsvFileWriter(QString folderPath, QProgressBar* prg)
//{
// quint32 bar = 0;
// quint32 offset = 0x2000;
// uint32_t offsetDbgTrsfr[3] = {0x140002*4,0x240002*4,0x340002*4};
// uint32_t offsetDbgTrsfrDone[3] = {0x14000A*4,0x24000A*4,0x34000A*4};
// _adcLoggerTrnsDone = false;
// QTime t = QTime::currentTime();
// QString path = folderPath + "/adcLog_" + QString("%1_%2_%3.csv").arg(t.hour()).arg(t.minute()).arg(t.second());
// QFile file(path);
// file.open(QIODevice::WriteOnly);
// emit updateBlockProgressVisibility(true, prg);
// emit updateBlockProgressValue(0, prg);
// auto timeOut = 0;
// quint32 doneFlag = 0;
// quint32 value = 0;
// quint32 fpgaNum = 0;
// offset = 0x4 * 4;
// auto gtSndMd = _usd->readWord(offset, bar);
// qDebug() << "--- SET GT Send Mode :: ADC Raw Logger --- ";
// _usd->writeWord(offset, bar, 0x2); // set GT Send mode (ADC Raw Logger)
// for (auto j = 0; j < 3; j+=1)
// _usd->writeWord(offsetDbgTrsfr[j], bar,0x0);
// for (quint16 i = 0; i < NO_AFE_CHANNEL; i += 1)
// {
// fpgaNum = (i / 64);
// offset = 0x400*4;// set adc logger stop
// value = (fpgaNum << 1);
// _usd->writeWord(offset, bar,value);
// value = value | 0x01;// set adc logger fpgaSel and start
// _usd->writeWord(offset, bar,value);
// _usd->writeWord(offsetDbgTrsfr[fpgaNum], bar,0x0);
// value = i % 64;
// value = static_cast<quint32>(((static_cast<quint32>(0X01))) | ((static_cast<quint32>(value & 0xFF)) << 8));
// _usd->writeWord(offsetDbgTrsfr[fpgaNum], bar,value);
// timeOut = 0;
// doneFlag = 0;
// while (timeOut < 10 && doneFlag == 0 )
// {
// doneFlag = ((_usd->readWord(offsetDbgTrsfrDone[fpgaNum], bar)) & 0x100) >> 8; // wait Until transfer done
// timeOut += 1;
// delay(2);
// }
// if(timeOut == 10)
// {
// qDebug() << "Unable to transfer done";
// //MESSAGE_BOX("Unable to transfer done");
// //return;
// }
// doneFlag = 0;
// timeOut = 0;
// offset = 0x401*4;
// while (timeOut < 10 && doneFlag == 0 )
// {
// doneFlag = (_usd->readWord(offset, bar) & 0x1); // wait until adc logger MemDone Flag true
// timeOut += 1;
// delay(2);
// }
// if(timeOut == 10)
// {
// //MESSAGE_BOX("Unable to reach adc logger memory done");
// qDebug() << "Unable to reach adc logger memory done :: 0x" << _usd->readWord(offset, bar);
// //return;
// }
// _usd->writeWord(offsetDbgTrsfr[fpgaNum], bar,0); // Stop Debug transfer
// offset = 0x2000;
// qint16 val = 0;
// for(auto j = 0; j < NO_LOGGER_SMPL_COUNT; j += 1)
// {
// value = _usd->readWord(offset, bar); // Read Adc logger Bram
// val = static_cast<qint16>(value & 0x3FFF) << 2;
// val = val >> 2;
// auto str = QStringLiteral("%1,").arg(val);
// file.write(str.toStdString().c_str(), str.length());
// offset += 4;
// }
// file.write("\r\n", 2);
// value = (fpgaNum << 1) | 0x00;// set adc logger fpgaSel and Stop
// offset = 0x400*4;
// _usd->writeWord(offset, bar,value);
// emit updateBlockProgressValue(i * 100 / NO_AFE_CHANNEL, prg);
// delay(10);
// }
// offset = 0x400*4;
// _usd->writeWord(offset, bar,0x0);
// qDebug() << "--- SET GT Send Mode :: Previous Mode --- ";
// offset = 0x4 * 4;
// _usd->writeWord(offset, bar, gtSndMd); // set GT Send mode
// emit updateBlockProgressVisibility(false, prg);
// file.close();
// _adcLoggerTrnsDone = true;
//}
///*************************************************************************************************/
//void MainWindow::scenarioFileVerifier(quint32 bar, quint32 offset, QString path)
//{
// QFile file(path);
// if (!file.open(QFile::ReadOnly))
// {
// MESSAGE_BOX("Could not open binary file, aborting operation");
// return;
// }
// emit updateBlockProgressVisibility(true, ui->prg_scenarioUpload);
// emit updateBlockProgressValue(0, ui->prg_scenarioUpload);
// const auto actualSize = file.size();
// auto readSize = 0;
// while(readSize < actualSize)
// {
// QByteArray chunk = file.read(8);
// auto value = byteArrayTo64LittleEndian(chunk);
// try
// {
// auto data = _usd->readLong(offset + readSize, bar);
// if(data != value)
// {
// auto message = QString("Error in data @ offset 0x%1, expected 0x%2 saw 0x%3")
// .arg(QString::number(offset + readSize))
// .arg(QString::number(value, 16))
// .arg(QString::number(data, 16));
// MESSAGE_BOX(message);
// emit updateBlockProgressVisibility(false, ui->prg_scenarioUpload);
// file.close();
// return;
// }
// }
// catch (myexception e)
// {
// MESSAGE_BOX(e.what());
// emit updateBlockProgressVisibility(false, ui->prg_scenarioUpload);
// file.close();
// return;
// }
// readSize += 8;
// auto percentage = (readSize * 100 / actualSize);
// emit updateBlockProgressValue(percentage, ui->prg_scenarioUpload);
// }
// MESSAGE_BOX("Binary verified with success");
// emit updateBlockProgressVisibility(false, ui->prg_scenarioUpload);
// file.close();
//}
/*************************************************************************************************/
void MainWindow::fpgaProgrammer(QString path)
{
try
{
_trx.slaveFpgaProgram(path);
ui->l_programDone->setText("done");
changeLabelTextColor(ui->l_programDone, Qt::green);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
//quint64 MainWindow::byteArrayTo64LittleEndian(QByteArray data)
//{
// quint64 temp = 0;
// temp = ((static_cast<quint64>(data[0])) & 0x00000000000000FF) |
// (((static_cast<quint64>(data[1])) << 8) & 0x000000000000FF00) |
// (((static_cast<quint64>(data[2])) << 16) & 0x0000000000FF0000) |
// (((static_cast<quint64>(data[3])) << 24) & 0x00000000FF000000) |
// (((static_cast<quint64>(data[4])) << 32) & 0x000000FF00000000) |
// (((static_cast<quint64>(data[5])) << 40) & 0x0000FF0000000000) |
// (((static_cast<quint64>(data[6])) << 48) & 0x00FF000000000000) |
// (((static_cast<quint64>(data[7])) << 56) & 0xFF00000000000000);
// return temp;
//}
/*************************************************************************************************/
//quint32 MainWindow::byteArrayTo32LittleEndian(QByteArray data)
//{
// quint32 temp = 0;
// temp = ((static_cast<quint32>(data[0])) & 0x000000FF) |
// (((static_cast<quint32>(data[1])) << 8) & 0x0000FF00) |
// (((static_cast<quint32>(data[2])) << 16) & 0x00FF0000) |
// (((static_cast<quint32>(data[3])) << 24) & 0xFF000000) ;
// return temp;
//}
///*************************************************************************************************/
//quint32 MainWindow::byteArrayTo32BigEndian(QByteArray data)
//{
// quint32 temp = 0;
// temp = (data[3] & 0x000000FF) |
// ((data[2] << 8) & 0x0000FF00) |
// ((data[1] << 16) & 0x00FF0000) |
// ((data[0] << 24) & 0xFF000000);
// return temp;
//}
/*************************************************************************************************/
void MainWindow::timeout()
{
auto pcie_pid = _trx.deviceId();
auto pcie_vid = _trx.vendorId();
auto pcie_id = (pcie_pid << 16)|pcie_vid;
ui->l_PCIeID->setText(QString::number(pcie_id, 16));
delay(10);
bool probeADetected=_bCtrl->getConnectedPrb().at(0);
bool probeBDetected=_bCtrl->getConnectedPrb().at(1);
bool probeCDetected=_bCtrl->getConnectedPrb().at(2);
bool probeDDetected=_bCtrl->getConnectedPrb().at(3);
if(probeDDetected == true){
ui->l_detectedProbe->setText("D");
}
else if (probeCDetected == true) {
ui->l_detectedProbe->setText("C");
}
else if (probeBDetected == true) {
ui->l_detectedProbe->setText("B");
}
else if (probeADetected == true) {
ui->l_detectedProbe->setText("A");
}
else{
ui->l_detectedProbe->setText("None");
}
delay(10);
_trx.getHealthStatus(_healStatus);
delay(10);
/******************* System Monitoring *********************/
float tempSensor = _healStatus->systemTemperature;
ui->l_Temp->setText(QString("%1").arg(static_cast<double>(tempSensor)));
delay(10);
auto adcCh1 = _healStatus->adcMon->mon12Vin;
ui->l_adcCh1->setText(QString("%1").arg(static_cast<double>(adcCh1)));
delay(10);
auto adcCh2 = _healStatus->adcMon->mon5Vin;
ui->l_adcCh2->setText(QString("%1").arg(static_cast<double>(adcCh2)));
delay(10);
auto adcCh3 = _healStatus->adcMon->prbZeroEncoder;
ui->l_adcCh3->setText(QString("%1").arg(static_cast<double>(adcCh3)));
delay(10);
auto adcCh4 = _healStatus->adcMon->prbCtrl3P3V;
ui->l_adcCh4->setText(QString("%1").arg(static_cast<double>(adcCh4)));
delay(10);
auto adcCh5 = _healStatus->adcMon->afeVcntlp;
ui->l_adcCh5->setText(QString("%1").arg(static_cast<double>(adcCh5)));
delay(10);
auto adcCh6 = _healStatus->adcMon->mon3P3V;
ui->l_adcCh6->setText(QString("%1").arg(static_cast<double>(adcCh6)));
delay(10);
auto adcCh7 = _healStatus->adcMon->monAfeA1P8V;
ui->l_adcCh7->setText(QString("%1").arg(static_cast<double>(adcCh7)));
delay(10);
auto adcCh8 = _healStatus->adcMon->monAfeD1P8V;
ui->l_adcCh8->setText(QString("%1").arg(static_cast<double>(adcCh8)));
delay(10);
/******************* Power Good *********************/
auto regAPg = _healStatus->voltsPg->regulatorA;
ui->l_pgRegA->setText(enum2String(regAPg));
delay(10);
auto regBPg = _healStatus->voltsPg->regulatorB;
ui->l_pgRegB->setText(enum2String(regBPg));
delay(10);
auto pg12v = _healStatus->voltsPg->mon12Vin;
ui->l_pg12Vin->setText(enum2String(pg12v));
delay(10);
auto pg5v = _healStatus->voltsPg->mon5Vin;
ui->l_pg5Vin->setText(enum2String(pg5v));
delay(10);
auto Pg3P3 = _healStatus->voltsPg->mon3P3V;
ui->l_pg3P3->setText(enum2String(Pg3P3));
delay(10);
auto pgAvdd = _healStatus->voltsPg->monAfeA1P8V;
ui->l_pg1P8Avdd->setText(enum2String(pgAvdd));
delay(10);
auto pgDvdd = _healStatus->voltsPg->monAfeD1P8V;
ui->l_pg1P8Dvdd->setText(enum2String(pgDvdd));
delay(10);
auto pgPrbCtrl = _healStatus->voltsPg->prbCtrl3P3V;
ui->l_pgPrbCtrl3P3->setText(enum2String(pgPrbCtrl));
delay(10);
/******************* Status Vector *********************/
_trx.getTrxStatus(_vec);
delay(10);
bool pgErr=_vec->pgErr;
ui->l_pg->setText(QVariant(pgErr).toString());
auto color = pgErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_pg, color);
delay(10);
bool mpsErr=_vec->mpsErr;
ui->l_mps->setText(QVariant(mpsErr).toString());
color = mpsErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_mps, color);
delay(10);
bool fanFault=_vec->fanFault;
ui->l_fan->setText(QVariant(fanFault).toString());
color = fanFault ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_fan, color);
delay(10);
bool pulserThd=_vec->pulserThd;
ui->l_pulserThd->setText(QVariant(pulserThd).toString());
color = pulserThd ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_pulserThd, color);
delay(10);
bool scenGtErr=_vec->scenGtErr;
ui->l_scenGt->setText(QVariant(scenGtErr).toString());
color = scenGtErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_scenGt, color);
delay(10);
bool scenPriErr=_vec->scenPriErr;
ui->l_scenPri->setText(QVariant(scenPriErr).toString());
color = scenPriErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_scenPri, color);
delay(10);
bool thermalErr=_vec->thermalErr;
ui->l_thermal->setText(QVariant(thermalErr).toString());
color = thermalErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_thermal, color);
delay(10);
bool scenSramErr=_vec->scenSramErr;
ui->l_scenSram->setText(QVariant(scenSramErr).toString());
color = scenSramErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_scenSram, color);
delay(10);
bool syncFifoErr=_vec->syncFifoErr;
ui->l_syncFifo->setText(QVariant(syncFifoErr).toString());
color = syncFifoErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_syncFifo, color);
delay(10);
bool syncPointErr=_vec->syncPointErr;
ui->l_syncPoint->setText(QVariant(syncPointErr).toString());
color = syncPointErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_syncPoint, color);
delay(10);
bool dintrlvFifoErr=_vec->dintrlvFifoErr;
ui->l_dintrlvFifo->setText(QVariant(dintrlvFifoErr).toString());
color = dintrlvFifoErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_dintrlvFifo, color);
delay(10);
bool dintrlvPointErr=_vec->dintrlvPointErr;
ui->l_dintrlvPoint->setText(QVariant(dintrlvPointErr).toString());
color = dintrlvPointErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_dintrlvPoint, color);
delay(10);
bool sram1ParityErr=_vec->sram1ParityErr;
ui->l_sram1Parity->setText(QVariant(sram1ParityErr).toString());
color = sram1ParityErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_sram1Parity, color);
delay(10);
bool sram2ParityErr=_vec->sram2ParityErr;
ui->l_sram2Parity->setText(QVariant(sram2ParityErr).toString());
color = sram2ParityErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_sram2Parity, color);
delay(10);
bool dmaCtrlTransferErr=_vec->dmaCtrlTransferErr;
ui->l_DmaCtrlTrans->setText(QVariant(dmaCtrlTransferErr).toString());
color = dmaCtrlTransferErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_DmaCtrlTrans, color);
delay(10);
bool emulDmaTransferErr=_vec->emulDmaTransferErr;
ui->l_emulDmaTrans->setText(QVariant(emulDmaTransferErr).toString());
color = emulDmaTransferErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_emulDmaTrans, color);
delay(10);
bool probeDisconnectErr=_vec->probeDisconnectErr;
ui->l_prbDiscon->setText(QVariant(probeDisconnectErr).toString());
color = probeDisconnectErr ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_prbDiscon, color);
delay(10);
bool probeDetChanInterrupt=_vec->probeDetChanInterrupt;
ui->l_prbDetChg->setText(QVariant(probeDetChanInterrupt).toString());
color = probeDetChanInterrupt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_prbDetChg, color);
}
/*************************************************************************************************/
//void MainWindow::scenarioStart()
//{
// auto value = 0x1;
// _usd->writeWord(0x800, 0, value);
// qDebug() << "--- SET GT Send Mode :: BF --- ";
// _usd->writeWord(0x10, 0, 0x1);
// auto bar = 0;
// uint32_t offsetSlvScenCmd[3] = {0x134000*4,0x234000*4,0x334000*4};
// uint32_t offsetDbgCmd[3] = {0x140000*4,0x240000*4,0x340000*4};
// for (auto i=0 ; i<3;i++)
// {
// value = _usd->readWord(offsetSlvScenCmd[i], bar);
// _usd->writeWord(offsetSlvScenCmd[i], bar, value | 0x2);
// }
// for (auto i=0 ; i<3;i++)
// {
// auto value = _usd->readWord(offsetDbgCmd[i], 0);
// value &= 0xFFFFFFF0;
// _usd->writeWord(offsetDbgCmd[i], 0, value);
// }
//}
/*************************************************************************************************/
//void MainWindow::scenarioStop()
//{
// auto value = 0x0;
// _usd->writeWord(0x800, 0, value);
// auto bar = 0;
// uint32_t offsetSlvScenCmd[3] = {0x134000*4,0x234000*4,0x334000*4};
// delay(10);
// for (auto i=0 ; i<3;i++)
// {
// value = _usd->readWord(offsetSlvScenCmd[i], bar);
// _usd->writeWord(offsetSlvScenCmd[i], bar, value & 0x1);
// }
//}
//bool MainWindow::checkTermalShutdown(quint8 value)
//{
// return value == 0x0F;
//}
void MainWindow::changeLabelTextColor(QLabel *label, QColor color)
{
auto palette = label->palette();
palette.setColor(QPalette::Foreground, color);
label->setAutoFillBackground(true);
label->setPalette(palette);
label->update();
}
/*************************************************************************************************/
void MainWindow::on_rbtn_reg_toggled(bool checked)
{
if(checked)
{
_settings->setValue(REG_ACCESS_SEL, true);
ui->l_regIndicator->setText("Register number: (Hex)");
}
}
/*************************************************************************************************/
void MainWindow::on_rbtn_offset_toggled(bool checked)
{
if(checked)
{
_settings->setValue(REG_ACCESS_SEL, false);
ui->l_regIndicator->setText("Register offset: (Hex)");
}
}
/*************************************************************************************************/
void MainWindow::on_btn_readReg_clicked()
{
auto bar = ui->cb_regBarNum->currentText().toUInt();
auto offset = ui->tb_regIndicator->text().toUInt(Q_NULLPTR, 16);
if(offset == 0 && ui->tb_regIndicator->text() != "0")
{
MESSAGE_BOX("Invalid input format for offset");
return;
}
quint64 value = 0;
auto width = ui->cb_regWidth->currentIndex();
switch(width)
{
case 0:
if(ui->rbtn_reg->isChecked())
offset *= 4;
value = _usd->readWord(offset, bar);
ui->lcd_regvalue->setDigitCount(8);
break;
case 1:
if(ui->rbtn_reg->isChecked())
offset *= 8;
value = _usd->readLong(offset, bar);
ui->lcd_regvalue->setDigitCount(16);
break;
}
ui->lcd_regvalue->display(QString::number(value, 16));
}
/*************************************************************************************************/
void MainWindow::on_btn_writeReg_clicked()
{
auto bar = ui->cb_regBarNum->currentText().toUInt();
auto offset = ui->tb_regIndicator->text().toUInt(Q_NULLPTR, 16);
if(offset == 0 && ui->tb_regIndicator->text() != "0")
{
MESSAGE_BOX("Invalid input format for offset");
return;
}
auto value = ui->tb_regValue->text().toULong(Q_NULLPTR, 16);
if(value == 0 && ui->tb_regValue->text() != "0")
{
MESSAGE_BOX("Invalid input format for write value");
return;
}
auto width = ui->cb_regWidth->currentIndex();
switch(width)
{
case 0:
if(ui->rbtn_reg->isChecked())
offset *= 4;
_usd->writeWord(offset, bar, static_cast<quint32>(value));
break;
case 1:
if(ui->rbtn_reg->isChecked())
offset *= 8;
_usd->writeLong(offset, bar, value);
break;
}
}
/*************************************************************************************************/
//void MainWindow::newBlockProgressValue(int percentage, QProgressBar* prg)
//{
// prg->setValue(percentage);
//}
///*************************************************************************************************/
//void MainWindow::newFpgaProgressValue(int percentage)
//{
// ui->prg_fpgaProgram->setValue(percentage);
//}
///*************************************************************************************************/
//void MainWindow::newBlockProgressVisibility(bool show, QProgressBar* prg)
//{
// prg->setVisible(show);
//}
/*************************************************************************************************/
void MainWindow::on_btn_fpgaBrowse_clicked()
{
QFileDialog fileDialog;
fileDialog.setNameFilters({"FPGA program file (*.bit)"});
auto result = fileDialog.exec();
if(result)
{
auto selectedPath = fileDialog.selectedFiles()[0];
ui->tb_fpgaBit->setText(selectedPath);
_settings->setValue(FPGA_FILE_PATH, selectedPath);
}
}
/*************************************************************************************************/
void MainWindow::on_btn_fpgaProgram_clicked()
{
ui->l_programDone->setText("doing");
changeLabelTextColor(ui->l_programDone, Qt::red);
auto path = ui->tb_fpgaBit->text();
QtConcurrent::run(this, &MainWindow::fpgaProgrammer, path);
}
/*************************************************************************************************/
void MainWindow::newMessage(QString message)
{
QMessageBox msgBox;
msgBox.setText(message);
msgBox.exec();
}
///*************************************************************************************************/
//void MainWindow::on_btn_scenarioBrowse_clicked()
//{
// QFileDialog fileDialog;
// fileDialog.setNameFilters({"SRAM binary file (*.bin)"});
// auto result = fileDialog.exec();
// if(result)
// {
// auto selectedPath = fileDialog.selectedFiles()[0];
// ui->tb_scenarioFile->setText(selectedPath);
// _settings->setValue(SCENARIO_FILE_PATH, selectedPath);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_scenarioVerify_clicked()
//{
// auto bar = 1;
// auto offset = 0;
// auto path = ui->tb_scenarioFile->text();
// QFutureWatcher<void> watcher;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// auto future = QtConcurrent::run(this, &MainWindow::scenarioFileVerifier, bar, offset, path);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
//}
///*************************************************************************************************/
//void MainWindow::on_btn_ParamBrowse_clicked()
//{
// QFileDialog fileDialog;
// fileDialog.setNameFilters({"Scenario param file (*.csv)"});
// auto result = fileDialog.exec();
// if(result)
// {
// auto selectedPath = fileDialog.selectedFiles()[0];
// ui->tb_paramFile->setText(selectedPath);
// _settings->setValue(PARAM_FILE_PATH, selectedPath);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_scenarioUpload_clicked()
//{
// uint32_t offsetSlvScenCmd[3] = {0x134000*4,0x234000*4,0x334000*4};
// auto bar = 0;
// auto scenarioBar = 1;
// auto paramBar = 0;
// auto scenarioOffset = 0;
// auto scenarioPath = ui->tb_scenarioFile->text();
// auto paramPath = ui->tb_paramFile->text();
// scenarioStop();
// qDebug() << "--- Clear Scen Register Valid Register --- ";
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetSlvScenCmd[i], bar, 0X0);
// }
// QFutureWatcher<void> watcher;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// auto future = QtConcurrent::run(this, &MainWindow::binFileUploader, scenarioBar, scenarioOffset, scenarioPath, ui->prg_scenarioUpload);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// _csvReadStopFlag = false;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// future = QtConcurrent::run(this, &MainWindow::CsvFileUploader, paramBar, paramPath, ui->prg_scenarioUpload);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// qDebug() << "--- SET Scen Register Valid Register --- ";
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetSlvScenCmd[i], bar, 0X1);
// }
// qDebug() << "--- SET GT Send Mode :: BF --- ";
// _usd->writeWord(0x4*4, bar, 0X1);
// delay(20);
//}
///*************************************************************************************************/
//void MainWindow::on_btn_txDacBrowse_clicked()
//{
// QFileDialog fileDialog;
// fileDialog.setNameFilters({"TxDAC file (*.csv)"});
// auto result = fileDialog.exec();
// if(result)
// {
// auto selectedPath = fileDialog.selectedFiles()[0];
// ui->tb_txDacFile->setText(selectedPath);
// _settings->setValue(TX_DAC_FILE_PATH, selectedPath);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_txDacUpload_clicked()
//{
// auto bar = 0;
// auto offset = 0xE000;
// auto path = ui->tb_txDacFile->text();
// _csvReadStopFlag = false;
// QFutureWatcher<void> watcher;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// auto future = QtConcurrent::run(this, &MainWindow::CsvFileUploader, bar, path, ui->prg_txDacUpload);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
//}
///*************************************************************************************************/
//void MainWindow::on_btn_txDacStartStop_clicked()
//{
// auto bar = 0;
// auto offset = 0x10000;
// auto interval = ui->tb_txDacInterval->text().toUInt(Q_NULLPTR, 16);
// if(interval == 0 && ui->tb_txDacInterval->text() != "0")
// {
// MESSAGE_BOX("Invalid input format for interval");
// return;
// }
// uint32_t value = 0;
// value = ((interval & 0x000000FF) << 8) ;
// auto str = ui->btn_txDacStartStop->text();
// if(str == START)
// {
// _usd->writeWord(offset, bar, value | 0x1);
// ui->btn_txDacStartStop->setText(STOP);
// }
// else
// {
// _usd->writeWord(offset, bar, value);
// ui->btn_txDacStartStop->setText(START);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_txDacOnOff_clicked()
//{
// auto bar = 0;
// auto offset = 0x10004;
// auto str = ui->btn_txDacOnOff->text();
// if(str == ON)
// {
// auto value = 0xf;
// _usd->writeWord(offset, bar, value);
// ui->btn_txDacOnOff->setText(OFF);
// }
// else
// {
// auto value = 0x0;
// _usd->writeWord(offset, bar, value);
// ui->btn_txDacOnOff->setText(ON);
// }
//}
/*************************************************************************************************/
void MainWindow::on_cb_selectedProbe_currentIndexChanged(int index)
{
auto indx = index;
if(indx == 0)
_trx.selectProbe(prbA);
else if(indx == 1)
_trx.selectProbe(prbB);
else if(indx == 2)
_trx.selectProbe(prbC);
else
_trx.selectProbe(prbD);
}
/*************************************************************************************************/
/*void MainWindow::on_btn_pllClkSt_clicked()
{
auto bar = 0;
auto offset = 0x26000;
auto str = ui->btn_pllClkSt->text();
if(str == ON)
{
auto temp = ui->tb_pllClkSt->text().toUInt(Q_NULLPTR, 10);
if(temp == 0 && ui->tb_pllClkSt->text() != "0" || temp < 400 || temp > 2000)
{
MESSAGE_BOX("Invalid input format for PLL CLK ST");
return;
}
float halfPeriod = 50000.0f / temp;
uint roundHalfPeriod = uint(roundf(halfPeriod)) & 0xFF;
float t = roundf(50000.0f / roundHalfPeriod);
ui->tb_pllClkSt->setText(QString::number(t, 'f', 0));
auto value = 0;
value = roundHalfPeriod | 0x00000300;
_usd->writeWord(offset, bar, value );
value = value & 0x000002FF;
_usd->writeWord(offset, bar, value );
ui->btn_pllClkSt->setText(OFF);
}
else
{
auto value = 0;
_usd->writeWord(offset, bar, value);
ui->btn_pllClkSt->setText(ON);
}
}
//void MainWindow::on_btn_pllClkTps_clicked()
//{
// auto bar = 0;
// auto offset = 0x26004;
// auto str = ui->btn_pllClkTps->text();
// if(str == ON)
// {
// auto temp = ui->tb_pllClkTps->text().toUInt(Q_NULLPTR, 10);
// if(temp == 0 && ui->tb_pllClkTps->text() != "0" || temp < 400 || temp > 2000)
// {
// MESSAGE_BOX("Invalid input format for PLL CLK TPS");
// return;
// }
// float halfPeriod = 50000.0f / temp;
// uint roundHalfPeriod = uint(roundf(halfPeriod)) & 0xFF;
// float t = roundf(50000.0f / roundHalfPeriod);
// ui->tb_pllClkTps->setText(QString::number(t, 'f', 0));
// auto value =0;
// value = roundHalfPeriod | 0x00000300;
// _usd->writeWord(offset, bar, value );
// value = value & 0x000002FF;
// _usd->writeWord(offset, bar, value );
// ui->btn_pllClkTps->setText(OFF);
// }
// else
// {
// auto value = 0;
// _usd->writeWord(offset, bar, value);
// ui->btn_pllClkTps->setText(ON);
// }
//}
//&*************************************************************************************************
//void MainWindow::on_btn_mulDacTrig_clicked()
//{
// auto bar = 0;
// auto offset = 0x86018;
// // auto str = ui->btn_mulDacTrig->text();
// //if(str == TRIG_ON)
// //{
// auto temp = ui->tb_mlDac->text().toUInt(Q_NULLPTR, 16);
// _usd->writeWord(offset, bar, temp );
// if (ui->chk_usrMulDac->isChecked())
// {
// _usd->writeWord(offset, bar, temp|0x3000 );
// _usd->writeWord(offset, bar, temp|0x2000 );
// }
//// ui->btn_mulDacTrig->setText(TRIG_OFF);
// //}
// //else
// //{
// // auto value = 0;
// //_usd->writeWord(offset, bar, value);
// // ui->btn_mulDacTrig->setText(TRIG_ON);
// //}
//}
//&*************************************************************************************************
//void MainWindow::on_btn_thsdStateUpdate_clicked()
//{
// auto bar = 0;
// auto offset = 0x43C37C;
// auto thsd_f1_temp = _usd->readWord(offset, bar);
// auto thsd_f1 = thsd_f1_temp & 0x0000000F;
// auto color = checkTermalShutdown(thsd_f1) ? Qt::green : Qt::red;
// changeLabelTextColor(ui->l_thermalShutdownFpga1, color);
// ui->l_thermalShutdownFpga1->setText(QString::number(thsd_f1, 16));
// delay (100);
// auto thsd_f2_temp = _usd->readWord(offset+0x400000, bar);
// auto thsd_f2 = thsd_f2_temp&0x0000000F;
// color = checkTermalShutdown(thsd_f2) ? Qt::green : Qt::red;
// changeLabelTextColor(ui->l_thermalShutdownFpga2, color);
// ui->l_thermalShutdownFpga2->setText(QString::number(thsd_f2, 16));
// delay (100);
// auto thsd_f3_temp = _usd->readWord(offset+0x800000, bar);
// auto thsd_f3 = thsd_f3_temp&0x0000000F;
// color = checkTermalShutdown(thsd_f3) ? Qt::green : Qt::red;
// changeLabelTextColor(ui->l_thermalShutdownFpga3, color);
// ui->l_thermalShutdownFpga3->setText(QString::number(thsd_f3, 16));
//}*/
/********************************************************************/
void MainWindow::delay(int ms)
{
delayTimer.singleShot(ms, &loop, &QEventLoop::quit);
loop.exec();
}
const QString MainWindow::enum2String(ePg state) const
{
QString pg;
pg = (state) ? "good" : "bad";
return pg;
}
/*************************************************************************************************/
/*********************************************DMA*************************************************/
/*************************************************************************************************/
void MainWindow::getFramePacket(QByteArray packet)
{
_mutex.lock();
_dmaBuffer.push_back(packet);
_lastBuffer = packet;
_mutex.unlock();
}
/*************************************************************************************************/
void MainWindow::on_chk_continuousShowing_clicked()
{
if(_dmaRun && ui->chk_continuousShowing->isChecked())
{
QtConcurrent::run(this, &MainWindow::on_btn_dmaShow_clicked);
_dmaShow = true;
}
else
_dmaShow = false;
}
/*************************************************************************************************/
void MainWindow::fillRam(QString path)
{
ui->btn_emulBrowse->setText("Filling RAM...");
_trx.fillRam(path);
ui->btn_emulBrowse->setText("Emulator Browse");
}
/*************************************************************************************************/
void MainWindow::on_btn_scenStart_clicked()
{
try
{
auto str = ui->btn_scenStart->text();
if(str == "Scenario Start")
{
ui->btn_scenStart->setText("Scenario Stop");
ui->btn_emulator->setText("Emulator Start");
ui->btn_dmaLogLast->setVisible(true);
_trx.scenPlayerStart();
_dmaLog = true;
_dmaRun = true; // flag
_dmaBuffer.clear();
QtConcurrent::run(this, &MainWindow::logPcie);
}
else
{
ui->btn_scenStart->setText("Scenario Start");
ui->btn_dmaLogLast->setHidden(true);
_dmaLog = false;
_dmaRun = false;
_trx.scenPlayerStop();
}
}
catch(SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
void MainWindow::on_btn_emulBrowse_clicked()
{
auto name = ui->btn_emulBrowse->text();
QFileDialog fileDialog;
fileDialog.setNameFilters({"*.bin"});
auto result = fileDialog.exec();
if(result)
{
_emulFolder = fileDialog.selectedFiles()[0];
}
if (name == "Emulator Browse")
QtConcurrent::run(this, &MainWindow::fillRam, _emulFolder);
}
/*************************************************************************************************/
void MainWindow::on_btn_emulator_clicked()
{
auto name = ui->btn_emulator->text();
try
{
if (name == "Emulator Start")
{
_emul->transferLength = TRANSFER_LENGTH;
_emul->ramBufAddress = RAM_BUFFER_OFFSET;
_emul->transferRate = TRANSFER_RATE;
_emul->emulOption = functionality;
_emul->emulMode = dynamically;
_trx.emulatorInit(_emul);
ui->btn_emulator->setText("Emulator Stop");
ui->btn_scenStart->setText("Scenario Start");
ui->btn_dmaLogLast->setVisible(true);
_trx.emulatorStart();
_dmaLog = true;
_dmaRun = true;
_dmaBuffer.clear();
QtConcurrent::run(this, &MainWindow::logPcie);
}
else
{
ui->btn_emulator->setText("Emulator Start");
ui->btn_dmaLogLast->setHidden(true);
_dmaLog = false;
_dmaRun = false;
_trx.emulatorStop();
}
}
catch(SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
void MainWindow::on_btn_logBrowse_clicked()
{
QFileDialog dialog;
dialog.setFileMode(QFileDialog::Directory);
dialog.setOption(QFileDialog::ShowDirsOnly);
auto result = dialog.exec();
if(result)
{
_logFolder = dialog.selectedFiles()[0];
}
}
/*************************************************************************************************/
void MainWindow::logPcie()
{
ui->btn_dmaLogLast->setText("Logging...");
_dmaLogCount = 0;
quint32 i(0);
QProgressDialog* progress = new QProgressDialog(this);
progress->show();
while(_dmaLog)
{
if(_dmaBuffer.size() == 0)
{
std::this_thread::sleep_for(std::chrono::milliseconds(3));
continue;
}
QByteArray temp;
_mutex.lock();
temp = _dmaBuffer.front();
_dmaBuffer.pop_front();
_mutex.unlock();
_dmaLogCount +=1;
if (_dmaLogCount == ULTIMATE_LOG_COUNT)
_dmaLog = false;
quint16 batchId = ((static_cast<quint16>(temp[128]))& 0x00FF) |
(((static_cast<quint16>(temp[129])) << 8) & 0xFF00);
quint8 subBatchId = (static_cast<quint8>(temp[130]));
QString path = _logFolder + QString("/batch(%2)_sbatch(%3)_%1.bin").arg(i++).arg(batchId).arg(subBatchId);
QFile file(path);
file.open(QIODevice::WriteOnly);
file.write(temp);
// for(auto j = 0; j < TRANSFER_LENGTH; j += 8)
// {
// auto val = ((static_cast<quint64>(temp[j])) & 0x00000000000000FF) |
// (((static_cast<quint64>(temp[j + 1])) << 8) & 0x000000000000FF00) |
// (((static_cast<quint64>(temp[j + 2])) << 16) & 0x0000000000FF0000) |
// (((static_cast<quint64>(temp[j + 3])) << 24) & 0x00000000FF000000) |
// (((static_cast<quint64>(temp[j + 4])) << 32) & 0x000000FF00000000) |
// (((static_cast<quint64>(temp[j + 5])) << 40) & 0x0000FF0000000000) |
// (((static_cast<quint64>(temp[j + 6])) << 48) & 0x00FF000000000000) |
// (((static_cast<quint64>(temp[j + 7])) << 56) & 0xFF00000000000000);
// auto str = QStringLiteral("%1").arg(val, 16, 16, QLatin1Char('0'));
// file.write(str.toStdString().c_str(), str.length());
// file.write("\r\n", 2);
// }
file.close();
emit sendLogCount(_dmaLogCount, progress);
}
ui->btn_dmaLogLast->setText("InstantLog");
}
void MainWindow::on_btn_dmaLogLast_clicked()
{
if (_dmaRun && (ui->btn_dmaLogLast->text() == "InstantLog"))
{
_dmaBuffer.clear();
_dmaLog = true;
QtConcurrent::run(this, &MainWindow::logPcie);
}
}
/*************************************************************************************************/
void MainWindow::on_btn_dmaShow_clicked()
{
do
{
if(ui->chk_2D_3DPlot->isChecked())
{
if(QThread::currentThread() == _uiThread)
show2d();
else
emit twoDReady();
}
else
{
if(QThread::currentThread() == _uiThread)
show3d();
else
emit threeDReady();
}
std::this_thread::sleep_for(std::chrono::milliseconds(5));
}while (_dmaShow);
}
/*************************************************************************************************/
void MainWindow::show3d()
{
_mutex.lock();
QByteArray temp = _lastBuffer;
_mutex.unlock();
//---------------------------------------------------------------------
//3D Plot
//---------------------------------------------------------------------
ui->plot_2->clearGraphs();
// qDebug() << "//3D Frame Plot //////////////////";
// ui->plot_2->setInteractions(QCP::iRangeZoom|QCP::iRangeDrag);
ui->plot_2->axisRect()->setupFullAxesBox(true);
ui->plot_2->xAxis->setLabel("Line");
ui->plot_2->yAxis->setLabel("Point");
quint16 batchId = ((static_cast<quint16>(temp[128]))& 0x00FF) |
(((static_cast<quint16>(temp[129])) << 8) & 0xFF00);
quint8 subBatchId = (static_cast<quint8>(temp[130]));
quint8 frmType = (static_cast<quint8>(temp[131]));
quint8 cri = (static_cast<quint8>(temp[132]));
quint16 bLine = ((static_cast<quint16>(temp[136]))& 0x00FF) |
(((static_cast<quint16>(temp[137])) << 8) & 0xFF00);
quint16 bPoint = ((static_cast<quint16>(temp[138]))& 0x00FF) |
(((static_cast<quint16>(temp[139])) << 8) & 0xFF00);
quint8 mLine = (static_cast<quint8>(temp[140]));
quint16 mPoint = ((static_cast<quint16>(temp[141]))& 0x00FF) |
(((static_cast<quint16>(temp[142])) << 8) & 0xFF00);
if(bLine > 256)
{
qDebug() << "ERROR :: (B Line)" << bLine;
return;
}
if(bPoint > 8192)
{
qDebug() << "ERROR :: (B Point)" << bPoint;
return;
}
if(frmType != 0)
{
qDebug() << "ERROR :: (Invalid Frame Type)" << frmType;
return;
}
qDebug() << "batchId" << batchId;
qDebug() << "subBatchId" << subBatchId;
qDebug() << "bLine" << bLine;
qDebug() << "bPoint" << bPoint;
qDebug() << "frmType" << frmType;
qDebug() << "cri" << cri;
qDebug() << "mLine" << mLine;
qDebug() << "mPoint" << mPoint;
_colorMap->data()->clear();
_colorMap->data()->setSize(bLine,bPoint);
_colorMap->data()->setRange(QCPRange(1,bLine),QCPRange(1,bPoint));
//double x,y,z;
//int xIndex = 0;
//int yIndex = 0;
quint32 max = 0;
auto indx = 0;
for(auto line = 0; line < bLine; line += 1)
{
for(auto pnt = 0; pnt < bPoint; pnt += 1)
{
indx = (line * bPoint + pnt) * 4 + 160;
auto val = ((static_cast<quint32>(temp[indx])) & 0x000000FF) |
(((static_cast<quint32>(temp[indx + 1])) << 8) & 0x0000FF00) |
(((static_cast<quint32>(temp[indx + 2])) << 16) & 0x00FF0000) |
(((static_cast<quint32>(temp[indx + 3])) << 24) & 0xFF000000);
//xIndex = line;
//yIndex = pnt;
//z = double(val);
//colorMap->data()->cellToCoord(xIndex,yIndex,&x,&y);
if(max<val)
max = val;
_colorMap->data()->setCell(line,pnt,double(val));
}
}
// qDebug() << "indx" << indx;
// qDebug() << "max" << max;
qDebug() << ui->plot_2->plotLayout()->hasElement(0,1);
if(!ui->plot_2->plotLayout()->hasElement(0,1))
{
QCPColorScale *colorScale = new QCPColorScale(ui->plot_2);
ui->plot_2->plotLayout()->addElement(0,1,colorScale);
colorScale->setType(QCPAxis::atRight);
_colorMap->setColorScale(colorScale);
colorScale->axis()->setLabel("Number");
_colorMap->setGradient((QCPColorGradient::gpJet));
//colorMap->rescaleDataRange();
QCPMarginGroup *marginGroup = new QCPMarginGroup(ui->plot_2);
ui->plot_2->axisRect()->setMarginGroup(QCP::msBottom|QCP::msTop,marginGroup);
colorScale->setMarginGroup(QCP::msBottom|QCP::msTop,marginGroup);
}
_colorMap->setGradient((QCPColorGradient::gpJet));
_colorMap->rescaleDataRange();
ui->plot_2->rescaleAxes(true);
ui->plot_2->replot();
}
/*************************************************************************************************/
void MainWindow::show2d()
{
_mutex.lock();
QByteArray temp = _lastBuffer;
_mutex.unlock();
//---------------------------------------------------------------------
//2D Plot
//---------------------------------------------------------------------
ui->plot_2->clearGraphs();
ui->plot_2->clearItems();
ui->plot_2->setInteraction(QCP::iRangeZoom);
ui->plot_2->setInteraction(QCP::iRangeDrag);
ui->plot_2->setInteraction(QCP::iSelectPlottables);
ui->plot_2->setSelectionRectMode(QCP::srmZoom);
QVector<double> x, y;
int i = 0;
for(auto j = 0; j < TRANSFER_LENGTH; j += 8)
{
x.push_back(i++);
auto val = ((static_cast<quint64>(temp[j])) & 0x00000000000000FF) |
(((static_cast<quint64>(temp[j + 1])) << 8) & 0x000000000000FF00) |
(((static_cast<quint64>(temp[j + 2])) << 16) & 0x0000000000FF0000) |
(((static_cast<quint64>(temp[j + 3])) << 24) & 0x00000000FF000000) |
(((static_cast<quint64>(temp[j + 4])) << 32) & 0x000000FF00000000) |
(((static_cast<quint64>(temp[j + 5])) << 40) & 0x0000FF0000000000) |
(((static_cast<quint64>(temp[j + 6])) << 48) & 0x00FF000000000000) |
(((static_cast<quint64>(temp[j + 7])) << 56) & 0xFF00000000000000);
y.push_back(val);
}
ui->plot_2->addGraph();
ui->plot_2->graph(0)->setData(x, y);
//give the axes some labels:
ui->plot_2->xAxis->setLabel("sample no");
ui->plot_2->yAxis->setLabel("sample value");
//set axes ranges, so we see all data:
ui->plot_2->rescaleAxes();
ui->plot_2->replot();
}
/*************************************************************************************************/
void MainWindow::catchLogCount(qint32 counter, QProgressDialog* _progress)
{
_progress->setMinimumSize(300,100);
_progress->setLabelText("Please wait...");
_progress->setWindowTitle("Frame Packets Logging");
_progress->setRange(0, ULTIMATE_LOG_COUNT);
_progress->setModal(true);
try
{
_progress->setValue(counter);
if (_progress->wasCanceled())
{
throw SonoException("Frame Packets Logging is canceled");
}
}
catch(SonoException& e)
{
qDebug() << e.what();
}
}
///*************************************************************************************************/
///********************************************Power************************************************/
///*************************************************************************************************/
//void MainWindow::on_btn_hvRegulatorConfig_clicked()
//{
// auto name=ui->btn_hvRegulatorConfig->text();
// auto freq=ui->tb_hvFreq->text().toFloat(Q_NULLPTR);
// if(name==ENABLE)
// {
//// freq<65.00f ? freq=65.00f : freq=freq;
//// freq>130.00f ? freq=130.00f : freq=freq;
//// pwr.setHVsRegulator(true, true, freq);
//// pwr.setHVsRegulator(true, false, freq);
//// auto real_freq=pwr.getHVsRegulatorFreq();
//// ui->tb_hvFreq->setText(QString("%1").arg(real_freq));
//// ui->btn_hvRegulatorConfig->setText(DISABLE);
// }
// else
// {
//// pwr.setHVsRegulator(false, false, freq);
//// ui->btn_hvRegulatorConfig->setText(ENABLE);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_pm5RegulatorConfig_clicked()
//{
// auto name=ui->btn_pm5RegulatorConfig->text();
// auto freq=ui->tb_pm5Freq->text().toFloat(Q_NULLPTR);
// if(name==ENABLE)
// {
//// freq<280.00f ? freq=280.00f : freq=freq;
//// freq>400.00f ? freq=400.00f : freq=freq;
//// pwr.setPM5vRegulator(true, true, freq);
//// pwr.setPM5vRegulator(true, false, freq);
//// auto real_freq=pwr.getPM5vRegulatorFreq();
//// ui->tb_pm5Freq->setText(QString("%1").arg(real_freq));
//// ui->btn_pm5RegulatorConfig->setText(DISABLE);
// }
// else
// {
//// pwr.setPM5vRegulator(false, false, freq);
//// ui->btn_pm5RegulatorConfig->setText(ENABLE);
// }
//}
///*************************************************************************************************/
//void MainWindow::on_btn_pwrDacsEnable_clicked()
//{
// // bool i2cBusy, i2cDone;
// auto hvaValue=ui->tb_hvaDacValue->text().toFloat(Q_NULLPTR);
// auto hvbValue=ui->tb_hvbDacValue->text().toFloat(Q_NULLPTR);
// auto cwdValue=ui->tb_cwdDacValue->text().toFloat(Q_NULLPTR);
//// if (hvaValue>85) {
//// MESSAGE_BOX("HVA value is greater than determined limits");
//// hvaValue=85.00f;
//// }
//// else if (hvaValue<1.53f){
//// MESSAGE_BOX("HVA value is less than determined limits");
//// hvaValue=1.53f;
//// }
//// if (hvaValue<hvbValue){
//// MESSAGE_BOX("HVA value must be greater or equal than the HVB value");
//// hvbValue=hvaValue;
//// }
//// else if (hvbValue<1.53f){
//// MESSAGE_BOX("HVB value is less than determined limits");
//// hvbValue=1.53f;
//// }
//// if (cwdValue>6.90f) {
//// MESSAGE_BOX("CWD value is greater than determined limits");
//// cwdValue=6.90f;
//// }
//// else if (cwdValue<1.54f){
//// MESSAGE_BOX("CWD value is less than determined limits");
//// cwdValue=1.54f;
//// }
//// auto cwdDacsEnable=pwr.getSetupCmdCwdOnOff();
//// if (cwdDacsEnable){
//// hvbValue=1.53f;
//// hvaValue<10.00f ? hvaValue=10.00f : hvaValue=hvaValue;
//// }
//// i2cBusy=pwr.getI2cBusy();
//// while (i2cBusy==true) {
//// i2cBusy=pwr.getI2cBusy();
//// }
////// delay(100);
//// pwr.setDAcs(true, cwdValue, hvbValue, hvaValue);
//// pwr.setDAcs(false, cwdValue, hvbValue, hvaValue);
//// i2cDone=pwr.getI2cCmdDone();
//// while (i2cDone==false){
//// i2cDone=pwr.getI2cCmdDone();
//// }
//// auto real_HVaValue=pwr.getHVaDAcs();
//// auto real_HVbValue=pwr.getHVbDAcs();
//// auto real_CWdValue=pwr.getCWdDAcs();
//// ui->tb_hvaDacValue->setText(QString::number(real_HVaValue, 'f', 2));
//// ui->tb_hvbDacValue->setText(QString::number(real_HVbValue, 'f', 2));
//// ui->tb_cwdDacValue->setText(QString::number(real_CWdValue, 'f', 2));
//}
void MainWindow::on_btn_setAo_clicked()
{
auto hvaValue=ui->tb_hvaDacValue->text().toFloat(Q_NULLPTR);
auto hvbValue=ui->tb_hvbDacValue->text().toFloat(Q_NULLPTR);
//auto cwdValue=ui->tb_cwdDacValue->text().toFloat(Q_NULLPTR);
try
{
_trx.mpsSetAo(hvaValue, hvbValue);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
void MainWindow::on_chk_mpsInit_clicked()
{
try
{
if (ui->chk_mpsInit->isChecked())
_trx.mpsPwrOn();
else
_trx.mpsPwrOff();
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
void MainWindow::on_btn_supJump_clicked()
{
try
{
_trx.mpsReset(); //jump
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
void MainWindow::on_btn_updateRdbackValue_clicked()
{
try
{
_trx.supervisorRbValue(_supRbValue);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
auto hvapValue=_supRbValue->hvap;
ui->l_hvap->setText(QString::number(static_cast<double>(hvapValue), 'f', 3));
delay(10);
auto hvbpValue=_supRbValue->hvbp;
ui->l_hvbp->setText(QString::number(static_cast<double>(hvbpValue), 'f', 3));
delay(10);
auto cwdpValue=_supRbValue->cwdp;
ui->l_cwdp->setText(QString::number(static_cast<double>(cwdpValue), 'f', 3));
delay(10);
auto curr24vValue=_supRbValue->curr24V;
ui->l_curr24v->setText(QString::number(static_cast<double>(curr24vValue), 'f', 3));
delay(10);
auto p24vValue=_supRbValue->p24V;
ui->l_p24v->setText(QString::number(static_cast<double>(p24vValue), 'f', 3));
delay(10);
auto p12vValue=_supRbValue->p12V;
ui->l_p12v->setText(QString::number(static_cast<double>(p12vValue), 'f', 3));
delay(10);
auto p5vValue=_supRbValue->p5V;
ui->l_p5v->setText(QString::number(static_cast<double>(p5vValue), 'f', 3));
delay(10);
auto m5vValue=_supRbValue->m5V;
ui->l_m5v->setText(QString::number(static_cast<double>(m5vValue), 'f', 3));
delay(10);
auto hvStopValue=_supRbValue->hvStop;
ui->l_hvStop->setText(QString::number(static_cast<double>(hvStopValue), 'f', 3));
delay(10);
auto p4dValue=_supRbValue->p4D;
ui->l_p4d->setText(QString::number(static_cast<double>(p4dValue), 'f', 3));
delay(10);
/********************Faults***********************/
try
{
_trx.mpsFaultStatus(_faultStatus);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
bool hvapFlt=_faultStatus->hvap;
ui->l_hvapFlt->setText(QVariant(hvapFlt).toString());
auto colorHvapFlt = hvapFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_hvapFlt, colorHvapFlt);
delay(10);
bool hvbpFlt=_faultStatus->hvbp;
ui->l_hvbpFlt->setText(QVariant(hvbpFlt).toString());
auto colorHvbpFlt = hvbpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_hvbpFlt, colorHvbpFlt);
delay(10);
bool cwdpFlt=_faultStatus->cwdp;
ui->l_cwdFlt->setText(QVariant(cwdpFlt).toString());
auto colorCwdpFlt = cwdpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_cwdFlt, colorCwdpFlt);
delay(10);
bool cur24vFlt=_faultStatus->curr24V;
ui->l_curr24vFlt->setText(QVariant(cur24vFlt).toString());
auto colorCur24vFlt = cur24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_curr24vFlt, colorCur24vFlt);
delay(10);
bool p24vFlt=_faultStatus->p24v;
ui->l_p24vFlt->setText(QVariant(p24vFlt).toString());
auto colorP24vFlt = p24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_p24vFlt, colorP24vFlt);
delay(10);
bool p12vFlt=_faultStatus->p12v;
ui->l_p12vFlt->setText(QVariant(p12vFlt).toString());
auto colorP12vFlt = p12vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_p12vFlt, colorP12vFlt);
delay(10);
bool p5vFlt=_faultStatus->p5v;
ui->l_p5vFlt->setText(QVariant(p5vFlt).toString());
auto colorP5vFlt = p5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_p5vFlt, colorP5vFlt);
delay(10);
bool m5vFlt=_faultStatus->m5v;
ui->l_m5vFlt->setText(QVariant(m5vFlt).toString());
auto colorM5vFlt = m5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_m5vFlt, colorM5vFlt);
delay(10);
bool hvFlt=_faultStatus->hvError;
ui->l_hvFlt->setText(QVariant(hvFlt).toString());
auto colorHvFlt = hvFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_hvFlt, colorHvFlt);
delay(10);
bool sup4dFlt=_faultStatus->sup4d;
ui->l_p4dFlt->setText(QVariant(sup4dFlt).toString());
auto colorP4dFlt = sup4dFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_p4dFlt, colorP4dFlt);
delay(10);
/******************Faults_Over*********************/
bool ovrHvapFlt=_faultStatus->overHvap;
ui->l_ovrHVapFlt->setText(QVariant(ovrHvapFlt).toString());
auto colorOvrHvapFlt = ovrHvapFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrHVapFlt, colorOvrHvapFlt);
delay(10);
bool ovrHvbpFlt=_faultStatus->overHvbp;
ui->l_ovrHVbpFlt->setText(QVariant(ovrHvbpFlt).toString());
auto colorOvrHvbpFlt = ovrHvbpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrHVbpFlt, colorOvrHvbpFlt);
delay(10);
bool ovrCwdpFlt=_faultStatus->overCwdp;
ui->l_ovrCWdpFlt->setText(QVariant(ovrCwdpFlt).toString());
auto colorOvrCwdpFlt = ovrCwdpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrCWdpFlt, colorOvrCwdpFlt);
delay(10);
bool ovrCur24vFlt=_faultStatus->overCurr24V;
ui->l_ovrCur24vFlt->setText(QVariant(ovrCur24vFlt).toString());
auto colorOvrCur24vFlt = ovrCur24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrCur24vFlt, colorOvrCur24vFlt);
delay(10);
bool ovrP24vFlt=_faultStatus->overP24v;
ui->l_ovrP24vFlt->setText(QVariant(ovrP24vFlt).toString());
auto colorOvrP24vFlt = ovrP24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrP24vFlt, colorOvrP24vFlt);
delay(10);
bool ovrP12vFlt=_faultStatus->overP12v;
ui->l_ovrP12vFlt->setText(QVariant(ovrP12vFlt).toString());
auto colorOvrP12vFlt = ovrP12vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrP12vFlt, colorOvrP12vFlt);
delay(10);
bool ovrP5vFlt=_faultStatus->overP5v;
ui->l_ovrP5vFlt->setText(QVariant(ovrP5vFlt).toString());
auto colorOvrP5vFlt = ovrP5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrP5vFlt, colorOvrP5vFlt);
delay(10);
bool ovrM5vFlt=_faultStatus->overM5v;
ui->l_ovrM5vFlt->setText(QVariant(ovrM5vFlt).toString());
auto colorOvrM5vFlt = ovrM5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrM5vFlt, colorOvrM5vFlt);
delay(10);
bool ovrHvFlt=_faultStatus->overHvError;
ui->l_ovrHvFlt->setText(QVariant(ovrHvFlt).toString());
auto colorOvrHvFlt = ovrHvFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovrHvFlt, colorOvrHvFlt);
delay(10);
bool ovrSup4dFlt=_faultStatus->overSup4d;
ui->l_ovr4dFlt->setText(QVariant(ovrSup4dFlt).toString());
auto colorOvrP4dFlt = ovrSup4dFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_ovr4dFlt, colorOvrP4dFlt);
delay(10);
/******************Faults_Under*********************/
bool udrHvapFlt=_faultStatus->underHvap;
ui->l_udrHVapFlt->setText(QVariant(udrHvapFlt).toString());
auto colorUdrHvapFlt = udrHvapFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrHVapFlt, colorUdrHvapFlt);
delay(10);
bool udrHvbpFlt=_faultStatus->underHvbp;
ui->l_udrHVbpFlt->setText(QVariant(udrHvbpFlt).toString());
auto colorUdrHvbpFlt = udrHvbpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrHVbpFlt, colorUdrHvbpFlt);
delay(10);
bool udrCwdpFlt=_faultStatus->underCwdp;
ui->l_udrCWdpFlt->setText(QVariant(udrCwdpFlt).toString());
auto colorUdrCwdpFlt = udrCwdpFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrCWdpFlt, colorUdrCwdpFlt);
delay(10);
bool udrCur24vFlt=_faultStatus->underCurr24V;
ui->l_udrCurr24vFlt->setText(QVariant(udrCur24vFlt).toString());
auto colorUdrCur24vFlt = udrCur24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrCurr24vFlt, colorUdrCur24vFlt);
delay(10);
bool udrP24vFlt=_faultStatus->underP24v;
ui->l_udrP24vFlt->setText(QVariant(udrP24vFlt).toString());
auto colorUdrP24vFlt = udrP24vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrP24vFlt, colorUdrP24vFlt);
delay(10);
bool udrP12vFlt=_faultStatus->underP12v;
ui->l_udrP12vFlt->setText(QVariant(udrP12vFlt).toString());
auto colorUdrP12vFlt = udrP12vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrP12vFlt, colorUdrP12vFlt);
delay(10);
bool udrP5vFlt=_faultStatus->underP5v;
ui->l_udrP5vFlt->setText(QVariant(udrP5vFlt).toString());
auto colorUdrP5vFlt = udrP5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrP5vFlt, colorUdrP5vFlt);
delay(10);
bool udrM5vFlt=_faultStatus->underM5v;
ui->l_udrM5vFlt->setText(QVariant(udrM5vFlt).toString());
auto colorUdrM5vFlt = udrM5vFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrM5vFlt, colorUdrM5vFlt);
delay(10);
bool udrHvFlt=_faultStatus->underHvError;
ui->l_udrHvFlt->setText(QVariant(udrHvFlt).toString());
auto colorUdrHvFlt = udrHvFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udrHvFlt, colorUdrHvFlt);
delay(10);
bool udrSup4dFlt=_faultStatus->underSup4d;
ui->l_udr4dFlt->setText(QVariant(udrSup4dFlt).toString());
auto colorUdrP4dFlt = udrSup4dFlt ? Qt::red : Qt::green;
changeLabelTextColor(ui->l_udr4dFlt, colorUdrP4dFlt);
delay(10);
}
//void MainWindow::on_chk_usrMulDac_stateChanged(int arg1)
//{
// auto bar = 0;
// auto offset = 0x86018;
// auto value = _usd->readWord(offset, bar);
// if (!ui->chk_usrMulDac->isChecked())
// _usd->writeWord(offset, bar, value&0xFFF);
//}
//void MainWindow::on_btn_afeProg_clicked()
//{
// auto bar = 0;
// uint32_t offsetWr[3] = {0x10F0DA*4,0x20F0DA*4,0x30F0DA*4};
// uint32_t offsetRd[3] = {0x10F0DE*4,0x20F0DE*4,0x30F0DE*4};
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetWr[i], bar, 0xF0);
// _usd->writeWord(offsetWr[i], bar, 0x0F);
// }
// qDebug() << "--- AFE Registers --- ";
// for (int i=0 ; i<3;i++)
// {
// auto value = _usd->readWord(offsetRd[i], bar);
// qDebug() << QString::number(offsetRd[i], 16) << QString::number(value, 16);
// }
// qDebug() << "--- ------------- --- ";
//}
//void MainWindow::on_btn_gtReg_clicked()
//{
// auto result = "OK";
// auto bar = 0;
// uint32_t offsetRd[24] = {0x14008*4,0x114008*4,0x214008*4,0x314008*4,
// 0x1400B*4,0x11400B*4,0x21400B*4,0x31400B*4,
// 0x1400C*4,0x11400C*4,0x21400C*4,0x31400C*4,
// 0x1400D*4,0x11400D*4,0x21400D*4,0x31400D*4,
// 0x14010*4,0x114010*4,0x214010*4,0x314010*4,
// 0x14011*4,0x114011*4,0x214011*4,0x314011*4};
// uint32_t correctVal[24] = {0x0,0xFF43,0xFF43,0xFF43,
// 0x0,0xFFFF,0xFFFF,0xFFFF,
// 0x0,0xF0F,0xF0F,0xF0F,
// 0xFF43,0xF04F,0xFF43,0xFF43,
// 0xFFFF,0xFF00,0xFFFF,0xFFFF,
// 0xF0F,0xF00,0xF0F,0xF0F};
// qDebug() << "--- GT Status Registers --- ";
// for (auto i=0 ; i<20;i++)
// {
// auto value = _usd->readWord(offsetRd[i], bar);
// if (value == correctVal[i])
// result = "OK";
// else
// result = "NOK";
// qDebug() << QString::number(offsetRd[i]/4, 16) << QString::number(value, 16) << result;
// }
// qDebug() << "--- ------------------- --- ";
//}
//void MainWindow::on_btn_browse_clicked()
//{
// QFileDialog dialog;
// dialog.setFileMode(QFileDialog::Directory);
// dialog.setOption(QFileDialog::ShowDirsOnly);
// auto result = dialog.exec();
// if(result)
// {
// //_adcloggerFolder = dialog.selectedFiles()[0];
// ui->tb_adcLoggerPath->setText(dialog.selectedFiles()[0]);
// }
//}
//void MainWindow::on_btn_dbgTransferStrt_clicked()
//{
// ui->btn_dbgTransferStrt->setText("Trans...");
// auto path = ui->tb_adcLoggerPath->text();
// QFutureWatcher<void> watcher;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// auto future = QtConcurrent::run(this, &MainWindow::AdcLogCsvFileWriter, path, ui->prg_adcLoggerFileWr);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// ui->btn_dbgTransferStrt->setText(START);
//}
//void MainWindow::on_btn_adcLoggerStrt_clicked()
//{
// ui->btn_adcLoggerStrt->setText("Log...");
// uint32_t bar = 0;
// uint32_t offsetTrnsfrCmdLen[3] = {0x140001*4,0x240001*4,0x340001*4};
// qDebug() << "--- ADC Logger Start --- ";
// auto temp = ui->tb_dbgSmplCnt->text().toUInt(Q_NULLPTR, 16);
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, 0x1); //reset Logger
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, 0x0); //reset done
// auto value = temp<<8;
// value |= 0x4;
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, value); // Start ADC Logger and set Counter
// }
// QtConcurrent::run(this, &MainWindow::adcLoggerStatusCheck);
//}
//void MainWindow::on_prg_adcLoggerFileWr_valueChanged(int value)
//{
//}
//void MainWindow::adcLoggerStatusCheck()
//{
// uint32_t offsetTrnsStatus[3] = {0x14000A*4,0x24000A*4,0x34000A*4};
// uint32_t offsetTrnsfrCmdLen[3] = {0x140001*4,0x240001*4,0x340001*4};
// _adcLoggerDone = false;
// auto timeOut = 0;
// auto doneFlag = 0;
// while (timeOut < 1000 && doneFlag < 3 )
// {
// for (auto i=0 ; i<3;i++)
// {
// doneFlag += (_usd->readWord(offsetTrnsStatus[i], 0) & 0X1);
// }
// timeOut += 1;
// delay(10);
// }
// for (auto i=0 ; i<3;i++)
// {
// auto value = _usd->readWord(offsetTrnsfrCmdLen[i], 0);
// value &= 0xFFFFFFF0;
// _usd->writeWord(offsetTrnsfrCmdLen[i], 0, value);
// }
// ui->btn_adcLoggerStrt->setText(START);
// _adcLoggerDone = true;
// if(timeOut == 1000)
// {
// MESSAGE_BOX("Logger incomplete");
// return;
// }
// else
// qDebug() << "--- ADC Logger done --- ";
//}
//void MainWindow::on_btn_adcSimBrowse_clicked()
//{
// QFileDialog fileDialog;
// fileDialog.setNameFilters({"ADC Sim Scenario file (*.bin)"});
// auto result = fileDialog.exec();
// if(result)
// {
// auto selectedPath = fileDialog.selectedFiles()[0];
// ui->tb_adcSimPath->setText(selectedPath);
// _settings->setValue(ADC_SIM_FILE_PATH, selectedPath);
// }
//}
//void MainWindow::on_btn_adcSimStart_clicked()
//{
// auto bar = 0;
// //auto offset = 0;
// uint32_t offsetDbgCmd[3] = {0x140000*4,0x240000*4,0x340000*4};
// uint32_t offsetSlvScenCmd[3] = {0x134000*4,0x234000*4,0x334000*4};
// auto startIndex = ui->tb_adcSimStartIndex->text().toUInt(Q_NULLPTR, 16);
// if(startIndex == 0 && ui->tb_adcSimStartIndex->text() != "0")
// {
// MESSAGE_BOX("Invalid input format for start index");
// return;
// }
// auto stopIndex = ui->tb_adcSimStopIndex->text().toUInt(Q_NULLPTR, 16);
// if(stopIndex == 0 && ui->tb_adcSimStopIndex->text() != "0")
// {
// MESSAGE_BOX("Invalid input format for stop index");
// return;
// }
// if((stopIndex < startIndex) || (stopIndex>131071) || (startIndex>131071))
// {
// MESSAGE_BOX("Stop index should be greater than or equal to start index");
// return;
// }
// _usd->writeWord(0x804, bar, startIndex);
// _usd->writeWord(0x808, bar, stopIndex);
// auto value = 0;
// auto str = ui->btn_adcSimStart->text();
// if(str == START)
// {
// qDebug() << "--- SET GT Send Mode :: BF --- ";
// _usd->writeWord(0x10, 0, 0x1);
// _csvReadStopFlag = false;
// ui->btn_adcSimStart->setText(STOP);
// for (auto i=0 ; i<3;i++)
// {
// value = _usd->readWord(offsetDbgCmd[i], 0);
// value |= 0x1;
// _usd->writeWord(offsetDbgCmd[i], 0, value);
// }
// delay(100);
// for (auto i=0 ; i<3;i++)
// {
// value = _usd->readWord(offsetSlvScenCmd[i], bar);
// _usd->writeWord(offsetSlvScenCmd[i], bar, value | 0x2);
// }
// auto path = ui->tb_adcSimPath->text();
// auto future = QtConcurrent::run(this, &MainWindow::binAdcFileUploader, 0, path , ui->prg_adcSim);
// }
// else
// {
// _csvReadStopFlag = true;
// ui->btn_adcSimStart->setText(START);
// _usd->writeWord(0x800, bar, 0);
// for (auto i=0 ; i<3;i++)
// {
// auto value = _usd->readWord(offsetDbgCmd[i], 0);
// value &= 0xFFFFFFF0;
// _usd->writeWord(offsetDbgCmd[i], 0, value);
// }
// delay(100);
// for (auto i=0 ; i<3;i++)
// {
// value = _usd->readWord(offsetSlvScenCmd[i], bar);
// _usd->writeWord(offsetSlvScenCmd[i], bar, value & 0x1);
// }
// //scenarioStop();
// }
//}
//void MainWindow::on_btn_adcLoggerAutoCount_clicked()
//{
// uint32_t bar = 0;
// uint32_t offsetTrnsfrCmdLen[3] = {0x140001*4,0x240001*4,0x340001*4};
// auto logCount = ui->tb_dbgAutoLogCount->text().toUInt();
// if(logCount == 0 && ui->tb_dbgAutoLogCount->text() != "0")
// {
// MESSAGE_BOX("Invalid input format for logCount");
// return;
// }
// ui->btn_adcLoggerAutoCount->setText("Log...");
// uint32_t offsetAfePwrDn[3] = {0x10F0C5*4,0x20F0C5*4,0x30F0C5*4};
// uint32_t offsetAfeLpf[3] = {0x10F0C4*4,0x20F0C4*4,0x30F0C4*4};
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetAfePwrDn[i], bar, 0x0);
// _usd->writeWord(offsetAfeLpf[i], bar, 0x0100);
// }
// qDebug() << "--- AFE Registers --- ";
// delay(1);
// for (auto j = 0 ; j < logCount ; j++)
// {
// qDebug() << "--- ADC Auto Logger Start --- ";
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, 0x1); //reset Logger
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, 0x0); //reset done
// auto value = 1<<8;
// value |= 0x4;
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, value); // Start ADC Logger and set Counter
// value |= 0x8;
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, value); // Set Manual Trig
// value &= 0xF7;
// _usd->writeWord(offsetTrnsfrCmdLen[i], bar, value); // Set Manual Trig
// }
// QtConcurrent::run(this, &MainWindow::adcLoggerStatusCheck);
// delay(10);
// while (!_adcLoggerDone);
// auto path = ui->tb_adcLoggerPath->text();
// QFutureWatcher<void> watcher;
// connect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// auto future = QtConcurrent::run(this, &MainWindow::AdcLogCsvFileWriter, path, ui->prg_adcLoggerFileWr);
// watcher.setFuture(future);
// _dial->exec();
// disconnect(&watcher, &QFutureWatcher<void>::finished, this, &MainWindow::threadFinished);
// ui->btn_dbgTransferStrt->setText(START);
// delay(10);
// while (!_adcLoggerTrnsDone);
// }
// ui->btn_adcLoggerAutoCount->setText(START);
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetAfePwrDn[i], bar, 0x8000);
// }
// qDebug() << "--- AFE Registers Power Down --- ";
//}
//void MainWindow::on_btn_scenRead_clicked()
//{
// auto paramPath = ui->tb_paramFile->text();
// auto paramBar = 0;
// auto boardParamPath = "/home/hasis/Desktop/TrxBoardFile/_log/readBack.csv";
// QtConcurrent::run(this, &MainWindow::CsvFileChecker,paramBar, paramPath , boardParamPath , ui->prg_scenarioUpload);
//}
void MainWindow::on_btn_getFpgaVersion_clicked()
{
_trx.getFpgasCodeVersion(_version);
auto value = _version->masterCode;
ui->l_masterVersion->setText(QStringLiteral("%1").arg(value, 8, 10));
value = _version->slave0Code;
ui->l_slave0Version->setText(QStringLiteral("%1").arg(value, 8, 10));
value = _version->slave1Code;
ui->l_slave1Version->setText(QStringLiteral("%1").arg(value, 8, 10));
value = _version->slave2Code;
ui->l_slave2Version->setText(QStringLiteral("%1").arg(value, 8, 10));
}
//void MainWindow::on_btn_txTrig_clicked()
//{
// auto bar = 0;
// uint32_t offsetAfeAdc2[3] = {0x10F002*4,0x20F002*4,0x30F002*4};
//// qDebug() << "--- SET AFE Ramp Count Mode --- ";
//// for (auto i=0 ; i<3;i++)
//// {
//// _usd->writeWord(offsetAfeAdc2[i], bar, 0x1380);
//// }
// delay(20);
// uint32_t offsetAfePwrDn[3] = {0x10F0C5*4,0x20F0C5*4,0x30F0C5*4};
// //uint32_t offsetAfeLpf[3] = {0x10F0C4*4,0x20F0C4*4,0x30F0C4*4};
// qDebug() << "--- SET AFE Power On Mode --- ";
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetAfePwrDn[i], bar, 0x0);
// //_usd->writeWord(offsetAfeLpf[i], bar, 0x0100);
// }
// delay(100);
// qDebug() << "--- Set TX Trig --- ";
// auto offset = 0x5*4;
// auto value = 0x1;
// _usd->writeWord(offset,bar,value);
// value = 0x5;
// _usd->writeWord(offset,bar,value);
// value = 0x1;
// _usd->writeWord(offset,bar,value);
// delay(100);
// value = 0x0;
// _usd->writeWord(offset,bar,value);
// qDebug() << "--- TX Trig Done--- ";
// delay(10);
//// qDebug() << "--- SET AFE Normal Mode --- ";
//// for (auto i=0 ; i<3;i++)
//// {
//// _usd->writeWord(offsetAfeAdc2[i], bar, 0x1000);
//// }
// qDebug() << "--- SET AFE Power On Mode --- ";
// for (auto i=0 ; i<3;i++)
// {
// _usd->writeWord(offsetAfePwrDn[i], bar, 0x8000);
// //_usd->writeWord(offsetAfeLpf[i], bar, 0x0100);
// }
// delay(1);
// delay(20);
//}
/*************************************************************************************************/
/**************************************** DSP ****************************************************/
/*************************************************************************************************/
void MainWindow::setReceiverConfiguration()
{
// _scenParams.hwRegister.->mla.clear();
// _scenParams->hwRegister->configLut->stb.clear();
// _scenParams->hwRegister->configLut->lpfSel.clear();
// _scenParams->hwRegister->configLut->aTgcSel.clear();
// _scenParams->hwRegister->configLut->focusNo.clear();
// _scenParams->hwRegister->configLut->lineMode.clear();
// _scenParams->hwRegister->configLut->ncoFreqSel.clear();
// _scenParams->hwRegister->configLut->absEn.clear();
// _scenParams->hwRegister->configLut->ddcEn.clear();
// _scenParams->hwRegister->configLut->dpeEn.clear();
// _scenParams->hwRegister->configLut->stbEn.clear();
// _scenParams->hwRegister->configLut->wmfEn.clear();
// _scenParams->hwRegister->configLut->dcCancelerEn.clear();
// _scenParams->hwRegister->configLut->lineFilterEn.clear();
// _scenParams->hwRegister->configLut->subtractFilterEn.clear();
// for (quint8 i = 0; i < 8; i++){
// _scenParams.hwRegister.receiverConfigProps.append();
// _scenParams.hwRegister->configLut->stb.append((i*2) % 3);
// _scenParams.hwRegister->configLut->lpfSel.append((i*3) % 3);
// _scenParams.hwRegister->configLut->aTgcSel.append((i*4) % 3);
// _scenParams.hwRegister->configLut->focusNo.append((i*5) % 3);
// _scenParams.hwRegister->configLut->lineMode.append((i*6) % 15);
// _scenParams.hwRegister->configLut->ncoFreqSel.append((i*7) % 7);
// _scenParams.hwRegister->configLut->absEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->ddcEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->dpeEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->stbEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->wmfEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->dcCancelerEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->lineFilterEn.append((i % 2)!=0);
// _scenParams.hwRegister->configLut->subtractFilterEn.append((i % 2)!=0);
// }
}
void MainWindow::setLineFilter()
{
_lineFilter.clear();
for (auto i = 0; i < 4; i++)
{
_lineFilter.append(i);
}
}
void MainWindow::on_btn_lineFilter_clicked()
{
ui->l_lineFilter->setText("doing");
changeLabelTextColor(ui->l_lineFilter, Qt::red);
_trx.setLineFilterCoefficient(_lineFilter);
ui->l_lineFilter->setText("done");
changeLabelTextColor(ui->l_lineFilter, Qt::green);
}
void MainWindow::setFreqLut()
{
_scenParams.hwRegister.freqLut.clear();
for (quint8 i = 0; i < 8; i++)
{
_scenParams.hwRegister.freqLut.append(i*10);
}
}
void MainWindow::setStbCoeff()
{
_stb.clear();
for (quint8 i = 0; i < 8; i++)
{
_stb.append(i);
}
}
void MainWindow::on_btn_stbCoeff_clicked()
{
ui->l_stbCoeff->setText("doing");
changeLabelTextColor(ui->l_stbCoeff, Qt::red);
_trx.setStbCoefficient(_stb);
ui->l_stbCoeff->setText("done");
changeLabelTextColor(ui->l_stbCoeff, Qt::green);
}
void MainWindow::setATgc()
{
// QVector<quint32> temp;
// _scenParams.hwRegister.atgcLut.clear();
// for (quint8 i = 0; i < 4; i++)
// {
// temp.clear();
// for (quint16 j = 0; j < 256; j++)
// {
// temp.append(j);
// }
// _scenParams.hwRegister.atgcLut.append(temp);
// }
}
void MainWindow::setDTgc()
{
_dTgc.clear();
for (quint16 i = 0; i < 1024; i++)
{
_dTgc.append(i);
}
}
void MainWindow::on_btn_dtgc_clicked()
{
ui->l_dtgc->setText("doing");
changeLabelTextColor(ui->l_dtgc, Qt::red);
_trx.setDtgcLut(_dTgc);
ui->l_dtgc->setText("done");
changeLabelTextColor(ui->l_dtgc, Qt::green);
}
void MainWindow::setBlendWeight()
{
QVector<float> temp;
_scenParams.hwRegister.blendWeight.clear();
for (quint8 i = 0; i < 4; i++)
{
temp.clear();
for (quint16 j = 0; j < 512; j++)
{
temp.append(j);
}
_scenParams.hwRegister.blendWeight.append(temp);
}
}
void MainWindow::setLpf()
{
// QVector<quint32> temp;
// _scenParams->hwRegister->lpfLut.clear();
// for (quint8 i = 0; i < 4; i++)
// {
// temp.clear();
// for (quint8 j = 0; j < 48; j++)
// {
// temp.append(j);
// }
// _scenParams->hwRegister->lpfLut.append(temp);
// }
}
void MainWindow::on_btn_setAtgcMode_clicked()
{
auto aTgcMode = ui->cb_aTgcMode->currentIndex();
auto aTgcValue = ui->tb_aTgcValue->text().toUInt();
if (aTgcMode == 0)
_trx.setAtgcMode(Auto, 0);
else
_trx.setAtgcMode(Manual, static_cast<quint16>(aTgcValue));
}
/*************************************************************************************************/
/**************************************** EEPROM *************************************************/
/*************************************************************************************************/
void MainWindow::on_btn_trxRomWrite_clicked()
{
QByteArray arr;
arr.clear();
QString txtStr = ui->tb_trxRomWrite->toPlainText();
try
{
foreach (auto i, txtStr){
arr.append(i.toLatin1());
}
trxEepromWrite(arr, 0, _bCtrl);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_trxRomIdRead_clicked()
{
try
{
quint32 id = _trx.trxId();
ui->tb_trxRomIdRead->setText(QString::number(id, 16));
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_trxRomInfoRead_clicked()
{
try
{
QString infoStr = _trx.trxInfo();
ui->tb_trxRomInfoRead->setText(infoStr);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_mpsRomWrite_clicked()
{
QByteArray arr;
arr.clear();
QString txtStr = ui->tb_mpsRomWrite->toPlainText();
try
{
foreach (auto i, txtStr){
arr.append(i.toLatin1());
}
mpsEepromWrite(arr, 0, _bCtrl);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_mpsRomIdRead_clicked()
{
try
{
quint32 id = _trx.mpsId();
ui->tb_mpsRomIdRead->setText(QString::number(id, 16));
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_mpsRomInfoRead_clicked()
{
try
{
QString infoStr = _trx.mpsInfo();
ui->tb_mpsRomInfoRead->setText(infoStr);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbCtrlRomWrite_clicked()
{
QByteArray arr;
arr.clear();
QString txtStr = ui->tb_prbCtrlRomWrite->toPlainText();
try
{
foreach (auto i, txtStr){
arr.append(i.toLatin1());
}
prbCtrlEepromWrite(arr, 0, _bCtrl);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbCtrlRomIdRead_clicked()
{
try
{
quint32 id = _trx.prbCtrlId();
ui->tb_prbCtrlRomIdRead->setText(QString::number(id, 16));
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbCtrlRomInfoRead_clicked()
{
try
{
QString infoStr = _trx.prbCtrlInfo();
ui->tb_prbCtrlRomInfoRead->setText(infoStr);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbRomWrite_clicked()
{
QByteArray arr;
arr.clear();
auto sel = ui->cb_prbSelRom->currentIndex();
QString txtStr = ui->tb_prbRomWrite->toPlainText();
try
{
foreach (auto i, txtStr){
arr.append(i.toLatin1());
}
prbEepromWrite(arr, 0, static_cast<quint8>(sel), _bCtrl);
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbRomIdRead_clicked()
{
try
{
auto sel = ui->cb_prbSelRom->currentIndex();
quint32 id = _trx.prbId(static_cast<quint8>(sel));
ui->tb_prbRomIdRead->setText(QString::number(id, 16));
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
void MainWindow::on_btn_prbRomInfoRead_clicked()
{
try
{
auto sel = ui->cb_prbSelRom->currentIndex();
QByteArray arr = _trx.prbInfo(static_cast<quint8>(sel));
ui->tb_prbRomInfoRead->setText(QString(arr));
}
catch (SonoException& e)
{
qDebug() << e.what();
}
}
/*************************************************************************************************/
/************************************** BeamFormer ***********************************************/
/*************************************************************************************************/
void MainWindow::setRxBeamformerPrp()
{
// _scenParams->hwRegister->rxBeamformer->lag.clear();
// _scenParams->hwRegister->rxBeamformer->mla.clear();
// _scenParams->hwRegister->rxBeamformer->apodization.clear();
// for (quint8 i = 0; i < 8; i++){
// _scenParams->hwRegister->rxBeamformer->lag.append(i);
// _scenParams->hwRegister->rxBeamformer->mla.append((i*2) % 7);
// _scenParams->hwRegister->rxBeamformer->apodization.append((i*3) % 3);
// }
}
void MainWindow::setProbeElement()
{
_scenParams.hwRegister.elementXPosition.clear();
_scenParams.hwRegister.elementYPosition.clear();
_scenParams.hwRegister.elementZPosition.clear();
for (quint8 i = 0; i < 192; i++){
_scenParams.hwRegister.elementXPosition.append(i);
_scenParams.hwRegister.elementYPosition.append(i*2);
_scenParams.hwRegister.elementZPosition.append(i*3);
}
}
void MainWindow::setApodization()
{
// QVector<quint32> temp;
// _scenParams->hwRegister->apodization.clear();
// for (quint8 i = 0; i < 4; i++)
// {
// temp.clear();
// for (quint16 j = 0; j < 3057; j++)
// {
// temp.append(j);
// }
// _scenParams->hwRegister->apodization.append(temp);
// }
}
void MainWindow::setPulseProperties()
{
// _scenParams->hwRegister->pulse->halfPeriod.clear();
// _scenParams->hwRegister->pulse->halfCycleNo.clear();
// _scenParams->hwRegister->pulse->startPhase.clear();
// _scenParams->hwRegister->pulse->pulseVoltSel.clear();
// _scenParams->hwRegister->pulse->dampingPulseWidth.clear();
// for (quint8 i = 0; i < 8; i++){
// _scenParams->hwRegister->pulse->halfPeriod.append(i);
// _scenParams->hwRegister->pulse->halfCycleNo.append(i*2);
// _scenParams->hwRegister->pulse->startPhase.append((i % 2)==0);
// _scenParams->hwRegister->pulse->pulseVoltSel.append((i % 2)==0);
// _scenParams->hwRegister->pulse->dampingPulseWidth.append(i*3);
// }
}
//void MainWindow::setAfeProperties()
//{
// _scenParams->afe->lpfProg.clear();
// _scenParams->afe->pgaHpfDis.clear();
// _scenParams->afe->pgaClampDis.clear();
// _scenParams->afe->pgaGain.clear();
// _scenParams->afe->gblActiveTerm.clear();
// _scenParams->afe->actTermEn.clear();
// _scenParams->afe->inputClampLvl.clear();
// _scenParams->afe->lnaHpfDis.clear();
// _scenParams->afe->lnaGainGbl.clear();
// _scenParams->afe->lowNf.clear();
// _scenParams->afe->powModes.clear();
// _scenParams->afe->gblPdwn.clear();
// _scenParams->afe->lnaHpfProg.clear();
// for (quint8 i = 0; i < 8; i++){
// _scenParams->afe->lpfProg.append(i);
// _scenParams->afe->pgaHpfDis.append((i % 2)==0);
// _scenParams->afe->pgaClampDis.append((i % 2)==0);
// _scenParams->afe->pgaGain.append((i % 2)==0);
// _scenParams->afe->gblActiveTerm.append((i*2) % 3);
// _scenParams->afe->actTermEn.append((i % 2)==0);
// _scenParams->afe->inputClampLvl.append((i*3) % 7);
// _scenParams->afe->lnaHpfDis.append((i % 2)==0);
// _scenParams->afe->lnaGainGbl.append((i*4) % 3);
// _scenParams->afe->lowNf.append((i % 2)==0);
// _scenParams->afe->powModes.append((i*5) % 3);
// _scenParams->afe->gblPdwn.append((i % 2)==0);
// _scenParams->afe->lnaHpfProg.append((i*6) % 3);
// }
//}
void MainWindow::on_btn_scenParams_clicked()
{
ui->l_scenParams->setText("doing");
changeLabelTextColor(ui->l_scenParams, Qt::red);
_scenParams.focusTypeNumber = 100;
_scenParams.totalTxShotNumber = 100;
for (int var = 0; var < 100; var++) {
_scenParams.rxBeamFormerNumber.append(5);
}
auto startIndex = ui->tb_startIdx->text().toUInt(Q_NULLPTR, 16);
if(startIndex == 0 && ui->tb_startIdx->text() != "0")
{
MESSAGE_BOX("Invalid input format for start index");
return;
}
auto endIndex = ui->tb_endIdx->text().toUInt(Q_NULLPTR, 16);
if(endIndex == 0 && ui->tb_endIdx->text() != "0")
{
MESSAGE_BOX("Invalid input format for stop index");
return;
}
_scenParams.hwRegister.scenarioStartIndex = startIndex;
_scenParams.hwRegister.scenarioEndIndex = endIndex;
try
{
_trx.setScenario(_scenParams);
}
catch(SonoException& e)
{
qDebug() << e.what();
}
ui->l_scenParams->setText("done");
changeLabelTextColor(ui->l_scenParams, Qt::green);
}
/*************************************************************************************************/
void MainWindow::on_btn_afeRead_clicked()
{
auto sel = ui->cb_afeSlaveSelect->currentIndex();
auto offset = ui->tb_afeRegAddr->text().toUInt(nullptr, 16);
QList<quint32> afeArray;
afeArray.clear();
ui->tb_afeRegsValueArray->clear();
switch (sel)
{
case 0: afeArray = _trx.getAfeReg(slave0, offset); break;
case 1: afeArray = _trx.getAfeReg(slave1, offset); break;
case 2: afeArray = _trx.getAfeReg(slave2, offset); break;
}
for (quint8 i = 0; i < afeArray.size(); i++)
ui->tb_afeRegsValueArray->appendPlainText(QString::number((afeArray.at(i)), 16));
}
/*************************************************************************************************/
void MainWindow::on_btn_afeGblPwrdn_clicked()
{
auto name = ui->btn_afeGblPwrdn->text();
if (name == "Pwrdn Enable")
{
_trx.setAfePwrdnMode(afePwrdnEnable);
ui->btn_afeGblPwrdn->setText("Pwrdn Disable");
}
else
{
_trx.setAfePwrdnMode(afePwrdnDisable);
ui->btn_afeGblPwrdn->setText("Pwrdn Enable");
}
}
/*************************************************************************************************/
void MainWindow::setAfeConfig()
{
_afeConfig.lowNf = lowNfDisable;
_afeConfig.lnaHpf = lnaHpfEnable;
_afeConfig.pgaHpf = pgaHpfEnable;
_afeConfig.lpfProg = LpfProg10MHz;
_afeConfig.pgaGain = pgaGain30db;
_afeConfig.pgaClamp = pgaClampDisable;
_afeConfig.powModes = lowNoise;
_afeConfig.actTermEn = actTermEnable;
_afeConfig.lnaGainGbl = lnaGainGbl24db;
_afeConfig.lnaHpfProg = lnaHpfProg200Khz;
_afeConfig.gblActiveTerm = gblActiveTerm50;
_afeConfig.pgaClampLevel = minus2dbfs;
_afeConfig.activeTermIndRes = actTermIndRes0;
_afeConfig.activeTermIndResEn = actTermIndResDisable;
_afeConfig.inputClampLevel = inputClampLvlAuto;
}
/*************************************************************************************************/
void MainWindow::on_btn_afeConfig_clicked()
{
_trx.setAfeConfig(_afeConfig);
int32_t temp[192];
// char filePath[] = "/home/hasis/Desktop/Develop_HardwareTest/h5_scenario/scenario.h5";
// hid_t H5_hid = H5Fcreate (filePath, H5F_ACC_RDONLY, H5P_DEFAULT, H5P_DEFAULT);
// hid_t H5_open = H5Dopen1(H5_hid, "sramParameters/focusTypeNo");
// status = H5Dread(H5_open, H5T_NATIVE_INT, H5S_ALL, H5S_ALL, H5P_DEFAULT, temp);
// const H5std_string filePath("/home/hasis/Desktop/Develop_HardwareTest/h5_scenario/scenario.h5");
// H5File file(filePath, H5F_ACC_RDONLY);
// //const H5std_string dataset_type("sramParameters/focusTypeNo");
// const H5std_string dataset_type("/registerParameters/elementXPositionsQ");
// DataSet H5_focus = file.openDataSet(dataset_type);
// H5_focus.read(temp, PredType::NATIVE_INT, H5S_ALL, H5S_ALL);
// for(auto var: temp)
// {
// qDebug() << var;
// }
}