#include "Scope.h" #include #include #include #include #include #include QVector Scope::TrapezoidFilter(QVector data, int baseLineEndS, int riseTimeS, int flatTopS, float decayTime_ns){ DebugPrint("%s", "Scope"); QVector trapezoid; trapezoid.clear(); ///find baseline; double baseline = 0; for( int i = 0; i < baseLineEndS; i++){ baseline += data[i].y(); } baseline = baseline*1./baseLineEndS; int length = data.size(); double pn = 0.; double sn = 0.; for( int i = 0; i < length ; i++){ double dlk = data[i].y() - baseline; if( i - riseTimeS >= 0 ) dlk -= data[i - riseTimeS].y() - baseline; if( i - flatTopS - riseTimeS >= 0 ) dlk -= data[i - flatTopS - riseTimeS].y() - baseline; if( i - flatTopS - 2*riseTimeS >= 0) dlk += data[i - flatTopS - 2*riseTimeS].y() - baseline; if( i == 0 ){ pn = dlk; sn = pn + dlk*decayTime_ns; }else{ pn = pn + dlk; sn = sn + pn + dlk*decayTime_ns; } trapezoid.append(QPointF(data[i].x(), sn / decayTime_ns / riseTimeS)); } return trapezoid; } Scope::Scope(Digitizer ** digi, unsigned int nDigi, ReadDataThread ** readDataThread, QMainWindow * parent) : QMainWindow(parent){ DebugPrint("%s", "Scope"); this->digi = digi; this->nDigi = nDigi; this->readDataThread = readDataThread; setWindowTitle("Scope"); setGeometry(0, 0, 1000, 800); setWindowFlags( this->windowFlags() & ~Qt::WindowCloseButtonHint ); enableSignalSlot = false; isACQStarted = false; plot = new RChart(); for( int i = 0; i < MaxNumberOfTrace; i++) { dataTrace[i] = new QLineSeries(); dataTrace[i]->setName("Trace " + QString::number(i)); for(int j = 0; j < 100; j ++) dataTrace[i]->append(40*j, QRandomGenerator::global()->bounded(8000) - 4000); plot->addSeries(dataTrace[i]); } dataTrace[0]->setPen(QPen(Qt::red, 2)); dataTrace[1]->setPen(QPen(Qt::blue, 2)); dataTrace[2]->setPen(QPen(Qt::darkYellow, 1)); dataTrace[3]->setPen(QPen(Qt::darkGreen, 1)); dataTrace[4]->setPen(QPen(Qt::darkMagenta, 1)); plot->setAnimationDuration(1); // msec plot->setAnimationOptions(QChart::NoAnimation); plot->createDefaultAxes(); /// this must be after addSeries(); /// this must be after createDefaultAxes(); QValueAxis * yaxis = qobject_cast (plot->axes(Qt::Vertical).first()); QValueAxis * xaxis = qobject_cast (plot->axes(Qt::Horizontal).first()); yaxis->setTickCount(7); yaxis->setTickInterval((0x1FFF)/4); yaxis->setRange(-(0x3FFF), 0x3FFF); yaxis->setLabelFormat("%.0f"); xaxis->setRange(0, 4000); xaxis->setTickCount(11); xaxis->setLabelFormat("%.0f"); xaxis->setTitleText("Time [ns]"); updateTraceThread = new TimingThread(); updateTraceThread->SetWaitTimeinSec(ScopeUpdateMiliSec / 1000.); connect(updateTraceThread, &TimingThread::timeUp, this, &Scope::UpdateScope); updateScalarThread = new TimingThread(); updateScalarThread->SetWaitTimeinSec(2); connect(updateScalarThread, &TimingThread::timeUp, this, [=](){ emit UpdateScaler(); }); NullThePointers(); //*================================== UI int rowID = -1; QWidget * layoutWidget = new QWidget(this); setCentralWidget(layoutWidget); QGridLayout * layout = new QGridLayout(layoutWidget); layoutWidget->setLayout(layout); //================ Board & Ch selection rowID ++; cbScopeDigi = new RComboBox(this); cbScopeCh = new RComboBox(this); layout->addWidget(cbScopeDigi, rowID, 0); layout->addWidget(cbScopeCh, rowID, 1); for(unsigned int i = 0; i < nDigi; i++){ cbScopeDigi->addItem("Digi-" + QString::number(digi[i]->GetSerialNumber()), i); } ID = 0; cbScopeDigi->setCurrentIndex(0); for( int i = 0; i < digi[0]->GetNumInputCh(); i++) cbScopeCh->addItem("Ch-" + QString::number(i)); tick2ns = digi[ID]->GetTick2ns(); factor = digi[ID]->IsDualTrace_PHA() ? 2 : 1; connect(cbScopeDigi, &RComboBox::currentIndexChanged, this, [=](int index){ if( !enableSignalSlot ) return; bool saveACQStartStatus = isACQStarted; if( isACQStarted) StopScope(); ID = index; tick2ns = digi[ID]->GetTick2ns(); factor = digi[ID]->IsDualTrace_PHA() ? 2 : 1; enableSignalSlot = false; //---setup cbScopeCh cbScopeCh->clear(); for( int i = 0; i < digi[ID]->GetNumInputCh(); i++) cbScopeCh->addItem("Ch-" + QString::number(i)); //---Setup SettingGroup CleanUpSettingsGroupBox(); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ) SetUpPanel_PHA(); if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) SetUpPanel_PSD(); if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE ) SetUpPanel_QDC(); ReadSettingsFromBoard(); if( saveACQStartStatus )StartScope(); }); connect(cbScopeCh, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; bool saveACQStartStatus = isACQStarted; if( isACQStarted) StopScope(); ReadSettingsFromBoard(); if( saveACQStartStatus )StartScope(); }); bnReadSettingsFromBoard = new QPushButton("Refresh Settings", this); layout->addWidget(bnReadSettingsFromBoard, rowID, 2); connect(bnReadSettingsFromBoard, &QPushButton::clicked, this, &Scope::ReadSettingsFromBoard); QPushButton * bnClearMemory = new QPushButton("Clear Memory", this); layout->addWidget(bnClearMemory, rowID, 3); connect(bnClearMemory, &QPushButton::clicked, this, [=](){ digiMTX[ID].lock(); digi[ID]->GetData()->ClearData(); digiMTX[ID].unlock(); }); QPushButton * bnClearBuffer = new QPushButton("Clear Buffer/FIFO", this); layout->addWidget(bnClearBuffer, rowID, 4); connect(bnClearBuffer, &QPushButton::clicked, this, [=](){ digi[ID]->WriteRegister(DPP::SoftwareClear_W, 1);}); QLabel * lbRun = new QLabel("Run Status : ", this); lbRun->setAlignment(Qt::AlignCenter | Qt::AlignRight); layout->addWidget(lbRun, rowID, 5); runStatus = new QPushButton("", this); runStatus->setEnabled(false); runStatus->setFixedSize(QSize(20,20)); layout->addWidget(runStatus, rowID, 6); //================ Trace settings rowID ++; { settingGroup = new QGroupBox("Trace Settings",this); layout->addWidget(settingGroup, rowID, 0, 1, 7); settingLayout = new QGridLayout(settingGroup); settingLayout->setSpacing(0); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ) SetUpPanel_PHA(); if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) SetUpPanel_PSD(); if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE ) SetUpPanel_QDC(); } //================ Plot view rowID ++; plotView = new RChartView(plot, this); layout->addWidget(plotView, rowID, 0, 1, 7); //================ Key binding rowID ++; QLabel * lbhints = new QLabel("Type 'r' to restore view, '+/-' Zoom in/out, arrow key to pan.", this); layout->addWidget(lbhints, rowID, 0, 1, 4); QLabel * lbinfo = new QLabel("Trace updates every " + QString::number(updateTraceThread->GetWaitTimeinSec()) + " sec.", this); lbinfo->setAlignment(Qt::AlignRight); layout->addWidget(lbinfo, rowID, 6); rowID ++; //TODO =========== Trace step QLabel * lbinfo2 = new QLabel("Maximum time range is " + QString::number(MaxDisplayTraceTimeLength) + " ns due to processing speed.", this); layout->addWidget(lbinfo2, rowID, 0, 1, 5); //================ close button rowID ++; bnScopeStart = new QPushButton("Start", this); layout->addWidget(bnScopeStart, rowID, 0); connect(bnScopeStart, &QPushButton::clicked, this, [=](){this->StartScope();}); chkSoleRun = new QCheckBox("Only this channel", this); layout->addWidget(chkSoleRun, rowID, 1); bnScopeStop = new QPushButton("Stop", this); layout->addWidget(bnScopeStop, rowID, 2); connect(bnScopeStop, &QPushButton::clicked, this, &Scope::StopScope); QLabel * lbTriggerRate = new QLabel("Trigger Rate [Hz] : ", this); lbTriggerRate->setAlignment(Qt::AlignCenter | Qt::AlignRight); layout->addWidget(lbTriggerRate, rowID, 3); leTriggerRate = new QLineEdit(this); leTriggerRate->setAlignment(Qt::AlignRight); leTriggerRate->setReadOnly(true); layout->addWidget(leTriggerRate, rowID, 4); QPushButton * bnClose = new QPushButton("Close", this); layout->addWidget(bnClose, rowID, 6); connect(bnClose, &QPushButton::clicked, this, &Scope::close); layout->setColumnStretch(0, 1); layout->setColumnStretch(1, 1); layout->setColumnStretch(2, 1); layout->setColumnStretch(3, 1); layout->setColumnStretch(4, 1); layout->setColumnStretch(5, 1); bnScopeStart->setEnabled(true); bnScopeStart->setStyleSheet("background-color: green;"); bnScopeStop->setEnabled(false); bnScopeStop->setStyleSheet(""); UpdatePanelFromMomeory(); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ) { QValueAxis * yaxis = qobject_cast (plot->axes(Qt::Vertical).first()); yaxis->setRange(-(0x1FFF), 0x1FFF); } if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) { QValueAxis * yaxis = qobject_cast (plot->axes(Qt::Vertical).first()); yaxis->setRange(0, 0x3FFF); } if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE ) { QValueAxis * yaxis = qobject_cast (plot->axes(Qt::Vertical).first()); yaxis->setRange(0, 0xFFF); } enableSignalSlot = true; } Scope::~Scope(){ DebugPrint("%s", "Scope"); updateTraceThread->Stop(); updateTraceThread->quit(); updateTraceThread->wait(); delete updateTraceThread; updateScalarThread->Stop(); updateScalarThread->quit(); updateScalarThread->wait(); delete updateScalarThread; for( int i = 0; i < MaxNumberOfTrace; i++) delete dataTrace[i]; delete plot; } void Scope::NullThePointers(){ DebugPrint("%s", "Scope"); sbReordLength = nullptr; sbPreTrigger = nullptr; sbDCOffset = nullptr; cbDynamicRange = nullptr; cbPolarity = nullptr; /// PHA sbInputRiseTime = nullptr; sbTriggerHoldOff = nullptr; sbThreshold = nullptr; cbSmoothingFactor = nullptr; sbTrapRiseTime = nullptr; sbTrapFlatTop = nullptr; sbDecayTime = nullptr; sbPeakingTime = nullptr; sbPeakHoldOff = nullptr; cbPeakAvg = nullptr; cbBaselineAvg = nullptr; cbAnaProbe1 = nullptr; cbAnaProbe2 = nullptr; cbDigiProbe1 = nullptr; cbDigiProbe2 = nullptr; /// PSD sbShortGate = nullptr; sbLongGate = nullptr; sbGateOffset = nullptr; } //*======================================================= //*======================================================= void Scope::StartScope(){ DebugPrint("%s", "Scope"); if( !digi ) return; //TODO set other channel to be no trace; emit UpdateOtherPanels(); if( chkSoleRun->isChecked() ){ int ID = cbScopeDigi->currentIndex(); int ch = cbScopeCh->currentIndex(); //save present settings, channleMap, trigger condition traceOn[ID] = digi[ID]->IsRecordTrace(); digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::RecordTrace, 1, -1); if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_PHA_CODE ){ dppAlg = digi[ID]->GetSettingFromMemory(DPP::DPPAlgorithmControl, ch); dppAlg2 = digi[ID]->GetSettingFromMemory(DPP::PHA::DPPAlgorithmControl2_G, ch); chMask = digi[ID]->GetSettingFromMemory(DPP::RegChannelEnableMask); digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PHA::TriggerMode, 0, ch); digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PHA::DisableSelfTrigger, 0, ch); digi[ID]->SetBits(DPP::PHA::DPPAlgorithmControl2_G, DPP::PHA::Bit_DPPAlgorithmControl2::LocalShapeTriggerMode, 0, ch); digi[ID]->SetBits(DPP::PHA::DPPAlgorithmControl2_G, DPP::PHA::Bit_DPPAlgorithmControl2::LocalTrigValidMode, 0, ch); } if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_PSD_CODE ){ dppAlg = digi[ID]->GetSettingFromMemory(DPP::DPPAlgorithmControl, ch); dppAlg2 = digi[ID]->GetSettingFromMemory(DPP::PSD::DPPAlgorithmControl2_G, ch); chMask = digi[ID]->GetSettingFromMemory(DPP::RegChannelEnableMask); //TODO =============== } if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_QDC_CODE ){ dppAlg = digi[ID]->GetSettingFromMemory(DPP::QDC::DPPAlgorithmControl, ch); chMask = digi[ID]->GetSettingFromMemory(DPP::RegChannelEnableMask); //TODO =============== } digi[ID]->WriteRegister(DPP::RegChannelEnableMask, (1 << ch)); //=========== start digi[ID]->WriteRegister(DPP::SoftwareClear_W, 1); readDataThread[ID]->SetScopeMode(true); readDataThread[ID]->SetSaveData(false); digi[ID]->StartACQ(); readDataThread[ID]->start(); }else{ for( int iDigi = (int)nDigi-1 ; iDigi >= 0; iDigi --){ traceOn[iDigi] = digi[iDigi]->IsRecordTrace(); //remember setting SendLogMsg("Digi-" + QString::number(digi[iDigi]->GetSerialNumber()) + " is starting ACQ." ); digi[iDigi]->WriteRegister(DPP::SoftwareClear_W, 1); digi[iDigi]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::RecordTrace, 1, -1); //AggPerRead[iDigi] = digi[iDigi]->GetSettingFromMemory(DPP::MaxAggregatePerBlockTransfer); //SendLogMsg("Set Agg/Read to 1 for scope, it was " + QString::number(AggPerRead[iDigi]) + "."); //digi[iDigi]->WriteRegister(DPP::MaxAggregatePerBlockTransfer, 1); readDataThread[iDigi]->SetScopeMode(true); readDataThread[iDigi]->SetSaveData(false); digi[iDigi]->StartACQ(); // printf("----- readDataThread running ? %d.\n", readDataThread[iDigi]->isRunning()); // if( readDataThread[iDigi]->isRunning() ){ // readDataThread[iDigi]->quit(); // readDataThread[iDigi]->wait(); // } readDataThread[iDigi]->start(); // printf("----- readDataThread running ? %d.\n", readDataThread[iDigi]->isRunning()); } } updateTraceThread->start(); updateScalarThread->start(); bnScopeStart->setEnabled(false); bnScopeStart->setStyleSheet(""); bnScopeStop->setEnabled(true); bnScopeStop->setStyleSheet("background-color: red;"); chkSoleRun->setEnabled(false); EnableControl(false); TellACQOnOff(true); isACQStarted = true; } void Scope::StopScope(){ DebugPrint("%s", "Scope"); if( !digi ) return; // printf("------ Scope::%s \n", __func__); updateTraceThread->Stop(); updateTraceThread->quit(); updateTraceThread->exit(); updateScalarThread->Stop(); updateScalarThread->quit(); updateScalarThread->exit(); if( chkSoleRun->isChecked() ){ int ID = cbScopeDigi->currentIndex(); if( readDataThread[ID]->isRunning() ){ readDataThread[ID]->Stop(); readDataThread[ID]->quit(); readDataThread[ID]->wait(); readDataThread[ID]->SetScopeMode(false); } digiMTX[ID].lock(); digi[ID]->StopACQ(); digi[ID]->ReadACQStatus(); digiMTX[ID].unlock(); //restore setting digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::RecordTrace, traceOn[ID], -1); //TODO ============= }else{ for( unsigned int iDigi = 0; iDigi < nDigi; iDigi ++){ if( readDataThread[iDigi]->isRunning() ){ readDataThread[iDigi]->Stop(); readDataThread[iDigi]->quit(); readDataThread[iDigi]->wait(); readDataThread[iDigi]->SetScopeMode(false); } digiMTX[iDigi].lock(); digi[iDigi]->StopACQ(); digi[iDigi]->ReadACQStatus(); //digi[iDigi]->GetData()->PrintAllData(); digiMTX[iDigi].unlock(); digi[iDigi]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::RecordTrace, traceOn[iDigi], -1); //digi[iDigi]->WriteRegister(DPP::MaxAggregatePerBlockTransfer, AggPerRead[iDigi]); } } emit UpdateOtherPanels(); bnScopeStart->setEnabled(true); bnScopeStart->setStyleSheet("background-color: green;"); bnScopeStop->setEnabled(false); bnScopeStop->setStyleSheet(""); chkSoleRun->setEnabled(true); runStatus->setStyleSheet(""); EnableControl(true); TellACQOnOff(false); isACQStarted = false; // printf("----- end of %s\n", __func__); } void Scope::UpdateScope(){ DebugPrint("%s", "Scope"); if( !digi ) return; int ch = cbScopeCh->currentIndex(); if( digi[ID]->GetInputChannelOnOff(ch) == false) return; //printf("### %d %d \n", ch, digi[ID]->GetData()->DataIndex[ch]); uint32_t acqStatus = digi[ID]->GetACQStatusFromMemory(); if( ( acqStatus >> 2 ) & 0x1 ){ runStatus->setStyleSheet("background-color : green;"); }else{ runStatus->setStyleSheet(""); } factor = digi[ID]->IsDualTrace_PHA() ? 2 : 1; Data * data = digi[ID]->GetData(); int index = data->GetDataIndex(ch); int traceLength = data->Waveform1[ch][index].size(); if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) traceLength = data->DigiWaveform1[ch][index].size(); if( index < 0 || data->TriggerRate[ch] == 0){ leTriggerRate->setStyleSheet("font-weight : bold; color : red;"); leTriggerRate->setText("No Trigger"); }else{ leTriggerRate->setStyleSheet(""); leTriggerRate->setText(QString::number(data->TriggerRate[ch])); } if( traceLength * tick2ns * factor > MaxDisplayTraceTimeLength) traceLength = MaxDisplayTraceTimeLength / tick2ns/ factor; //printf("--- %s| %d, %d, %d | %ld(%d) | %d, %d | %d\n", __func__, ch, data->GetLoopIndex(ch), index, data->Waveform1[ch][index].size(), traceLength, factor, tick2ns, traceLength * tick2ns * factor ); if( index > 0 ){ QVector points[5]; if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ) { if( dataTrace[4]->count() > 0 ) dataTrace[4]->clear(); for( int i = 0; i < traceLength ; i++ ) { points[0].append(QPointF(tick2ns * i * factor, (data->Waveform1[ch][index])[i])); if( i < (int) data->Waveform2[ch][index].size() ) points[1].append(QPointF(tick2ns * i * factor, (data->Waveform2[ch][index])[i])); if( i < (int) data->DigiWaveform1[ch][index].size() ) points[2].append(QPointF(tick2ns * i * factor, (data->DigiWaveform1[ch][index])[i] * 1000)); if( i < (int) data->DigiWaveform2[ch][index].size() ) points[3].append(QPointF(tick2ns * i * factor, (data->DigiWaveform2[ch][index])[i] * 1000 + 500)); } dataTrace[0]->replace(points[0]); dataTrace[1]->replace(points[1]); dataTrace[2]->replace(points[2]); dataTrace[3]->replace(points[3]); } if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) { if( dataTrace[4]->count() > 0 ) dataTrace[4]->clear(); for( int i = 0; i < traceLength ; i++ ) { points[0].append(QPointF(tick2ns * i * factor, (data->Waveform1[ch][index])[i])); if( i < (int) data->Waveform2[ch][index].size() ) points[1].append(QPointF(tick2ns * i * factor, (data->Waveform2[ch][index])[i])); if( i < (int) data->DigiWaveform1[ch][index].size() ) points[2].append(QPointF(tick2ns * i * factor, (data->DigiWaveform1[ch][index])[i] * 1000)); if( i < (int) data->DigiWaveform2[ch][index].size() ) points[3].append(QPointF(tick2ns * i * factor, (data->DigiWaveform2[ch][index])[i] * 1000 + 500)); } dataTrace[0]->replace(points[0]); dataTrace[1]->replace(points[1]); dataTrace[2]->replace(points[2]); dataTrace[3]->replace(points[3]); } if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE ) { for( int i = 0; i < traceLength ; i++ ) { points[0].append(QPointF(tick2ns * i, (data->Waveform1[ch][index])[i])); if( i < (int) data->DigiWaveform1[ch][index].size() ) points[1].append(QPointF(tick2ns * i, (data->DigiWaveform1[ch][index])[i] * 1000)); if( i < (int) data->DigiWaveform2[ch][index].size() ) points[2].append(QPointF(tick2ns * i, (data->DigiWaveform2[ch][index])[i] * 1000 + 500)); if( i < (int) data->DigiWaveform3[ch][index].size() ) points[3].append(QPointF(tick2ns * i, (data->DigiWaveform3[ch][index])[i] * 1000 + 1000)); if( i < (int) data->DigiWaveform4[ch][index].size() ) points[4].append(QPointF(tick2ns * i, (data->DigiWaveform4[ch][index])[i] * 1000 + 1500)); } dataTrace[0]->replace(points[0]); dataTrace[1]->replace(points[1]); dataTrace[2]->replace(points[2]); dataTrace[3]->replace(points[3]); dataTrace[4]->replace(points[4]); } } //data->ClearTriggerRate(); //digiMTX[ID].unlock(); // if( data->TriggerRate[ch] == 0 ){ // dataTrace[0]->clear(); // dataTrace[1]->clear(); // dataTrace[2]->clear(); // dataTrace[3]->clear(); // dataTrace[4]->clear(); // } plot->axes(Qt::Horizontal).first()->setRange(0, tick2ns * traceLength * factor); QCoreApplication::processEvents(); } //*======================================================= //*======================================================= void Scope::SetUpComboBoxSimple(RComboBox * &cb, QString str, int row, int col){ DebugPrint("%s", "Scope"); QLabel * lb = new QLabel(str, settingGroup); lb->setAlignment(Qt::AlignRight | Qt::AlignCenter); settingLayout->addWidget(lb, row, col); cb = new RComboBox(settingGroup); settingLayout->addWidget(cb, row, col + 1); } void Scope::SetUpComboBox(RComboBox * &cb, QString str, int row, int col, const Reg para){ DebugPrint("%s", "Scope"); SetUpComboBoxSimple(cb, str, row, col); for( int i = 0; i < (int) para.GetComboList().size(); i++){ cb->addItem(QString::fromStdString(para.GetComboList()[i].first), para.GetComboList()[i].second); } connect(cb, &RComboBox::currentIndexChanged, this , [=](){ if( ! enableSignalSlot ) return; int ch = cbScopeCh->currentIndex(); int value = cb->currentData().toInt(); if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_QDC_CODE ) { int grp = ch/8; // convert ch to grp digiMTX[ID].lock(); digi[ID]->WriteRegister(para, value, grp); digiMTX[ID].unlock(); }else{ digiMTX[ID].lock(); digi[ID]->WriteRegister(para, value, ch); digiMTX[ID].unlock(); } QString msg; msg = QString::fromStdString(para.GetName()) ; msg += "|DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + ",CH:" + (ch == -1 ? "All" : QString::number(ch)); msg += " = " + cb->currentText(); if( digi[ID]->GetErrorCode() == CAEN_DGTZ_Success ){ SendLogMsg(msg + " | OK."); cb->setStyleSheet(""); emit UpdateOtherPanels(); }else{ SendLogMsg(msg + " | Fail."); cb->setStyleSheet("color:red;"); } }); } void Scope::SetUpSpinBox(RSpinBox * &sb, QString str, int row, int col, const Reg para){ DebugPrint("%s", "Scope"); QLabel * lb = new QLabel(str, settingGroup); lb->setAlignment(Qt::AlignRight | Qt::AlignCenter); settingLayout->addWidget(lb, row, col); sb = new RSpinBox(settingGroup); if( para.GetPartialStep() != 0 ){ sb->setMinimum(0); sb->setMaximum(para.GetMaxBit() * para.GetPartialStep() * tick2ns); if( para.GetPartialStep() > 0 ) sb->setSingleStep(para.GetPartialStep() * tick2ns); if( para.GetPartialStep() == -1 ) sb->setSingleStep(1); } settingLayout->addWidget(sb, row, col + 1); connect(sb, &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; sb->setStyleSheet("color:blue"); }); connect(sb, &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; if( sb->decimals() == 0 && sb->singleStep() != 1) { double step = sb->singleStep(); double value = sb->value(); sb->setValue( (std::round(value/step)*step)); } int ch = cbScopeCh->currentIndex(); //if( chkSetAllChannel->isChecked() ) ch = -1; QString msg; msg = QString::fromStdString(para.GetName()) + "|DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + ",CH:" + (ch == -1 ? "All" : QString::number(ch)); msg += " = " + QString::number(sb->value()); uint32_t value = sb->value() / tick2ns / abs(para.GetPartialStep()); //todo NEED TO CHECK // if( para == DPP::RecordLength_G){ // int factor = digi[ID]->IsDualTrace_PHA() ? 2 : 1; // value = value * factor; // } if( para == DPP::ChannelDCOffset || para == DPP::QDC::DCOffset){ value = uint16_t((1.0 - sb->value()/100.) * 0xFFFF); } if( para == DPP::PHA::TriggerThreshold ){ value = sb->value(); } msg += " | 0x" + QString::number(value, 16); if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_QDC_CODE ){ int grp = ch/8; // convert ch to grp digiMTX[ID].lock(); digi[ID]->WriteRegister(para, value, grp); digiMTX[ID].unlock(); }else{ digiMTX[ID].lock(); digi[ID]->WriteRegister(para, value, ch); digiMTX[ID].unlock(); } if( digi[ID]->GetErrorCode() == CAEN_DGTZ_Success ){ SendLogMsg(msg + " | OK."); sb->setStyleSheet(""); emit UpdateOtherPanels(); }else{ SendLogMsg(msg + " | Fail."); sb->setStyleSheet("color:red;"); } }); } void Scope::CleanUpSettingsGroupBox(){ DebugPrint("%s", "Scope"); QList labelChildren1 = settingGroup->findChildren(); for( int i = 0; i < labelChildren1.size(); i++) delete labelChildren1[i]; QList labelChildren2 = settingGroup->findChildren(); for( int i = 0; i < labelChildren2.size(); i++) delete labelChildren2[i]; QList labelChildren3 = settingGroup->findChildren(); for( int i = 0; i < labelChildren3.size(); i++) delete labelChildren3[i]; NullThePointers(); } void Scope::SetUpPanel_PHA(){ printf("--- %s \n", __func__); enableSignalSlot = false; int rowID = 0; SetUpSpinBox(sbReordLength, "Record Length [ns] ", rowID, 0, DPP::RecordLength_G); SetUpSpinBox(sbPreTrigger, "Pre Trigger [ns] ", rowID, 2, DPP::PreTrigger); SetUpSpinBox(sbDCOffset, "DC offset [%] ", rowID, 4, DPP::ChannelDCOffset); sbDCOffset->setDecimals(2); SetUpComboBox(cbDynamicRange, "Dynamic Range ", rowID, 6, DPP::InputDynamicRange); rowID ++; //============================================================= SetUpSpinBox(sbInputRiseTime, "Input Rise Time [ns] ", rowID, 0, DPP::PHA::InputRiseTime); SetUpSpinBox(sbThreshold, "Threshold [LSB] ", rowID, 2, DPP::PHA::TriggerThreshold); SetUpSpinBox(sbTriggerHoldOff,"Trigger HoldOff [ns] ", rowID, 4, DPP::PHA::TriggerHoldOffWidth); SetUpComboBox(cbSmoothingFactor, "Smooth Factor ", rowID, 6, DPP::PHA::RCCR2SmoothingFactor); rowID ++; //============================================================= SetUpSpinBox(sbTrapRiseTime, "Trap. Rise Time [ns] ", rowID, 0, DPP::PHA::TrapezoidRiseTime); SetUpSpinBox(sbTrapFlatTop, "Trap. FlatTop [ns] ", rowID, 2, DPP::PHA::TrapezoidFlatTop); SetUpSpinBox(sbDecayTime, "Decay Time [ns] ", rowID, 4, DPP::PHA::DecayTime); SetUpSpinBox(sbPeakingTime, "Peaking Time [ns] ", rowID, 6, DPP::PHA::PeakingTime); rowID ++; //============================================================= SetUpComboBoxSimple(cbPolarity, "Polarity ", rowID, 0); cbPolarity->addItem("Positive", 0); cbPolarity->addItem("Negative", 1); connect(cbPolarity, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PHA::Polarity, cbPolarity->currentData().toInt(), cbScopeCh->currentIndex()); }); SetUpComboBoxSimple(cbBaselineAvg, "Baseline Avg. ", rowID, 2); cbBaselineAvg->addItem("Not evaluated", 0); cbBaselineAvg->addItem("16 sample", 1); cbBaselineAvg->addItem("64 sample", 2); cbBaselineAvg->addItem("256 sample", 3); cbBaselineAvg->addItem("1024 sample", 4); cbBaselineAvg->addItem("4096 sample", 5); cbBaselineAvg->addItem("16384 sample", 6); connect(cbBaselineAvg, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PHA::BaselineAvg, cbBaselineAvg->currentData().toInt(), cbScopeCh->currentIndex()); }); SetUpComboBoxSimple(cbPeakAvg, "Peak Avg. ", rowID, 4); cbPeakAvg->addItem("1 sample", 0); cbPeakAvg->addItem("4 sample", 1); cbPeakAvg->addItem("16 sample", 2); cbPeakAvg->addItem("64 sample", 3); connect(cbPeakAvg, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PHA::PeakMean, cbPeakAvg->currentData().toInt(), cbScopeCh->currentIndex()); }); SetUpSpinBox(sbPeakHoldOff, "Peak HoldOff [ns] ", rowID, 6, DPP::PHA::PeakHoldOff); rowID ++; //============================================================= SetUpComboBoxSimple(cbAnaProbe1, "Ana. Probe 1 ", rowID, 0); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListAnaProbe1_PHA.size(); i++){ cbAnaProbe1->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListAnaProbe1_PHA[i].first), DPP::Bit_BoardConfig::ListAnaProbe1_PHA[i].second); } connect(cbAnaProbe1, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::AnalogProbe1, cbAnaProbe1->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[0]->setName(cbAnaProbe1->currentText()); }); SetUpComboBoxSimple(cbAnaProbe2, "Ana. Probe 2 ", rowID, 2); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListAnaProbe2_PHA.size(); i++){ cbAnaProbe2->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListAnaProbe2_PHA[i].first), DPP::Bit_BoardConfig::ListAnaProbe2_PHA[i].second); } connect(cbAnaProbe2, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::AnalogProbe2, cbAnaProbe2->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[1]->setName(cbAnaProbe2->currentText()); }); SetUpComboBoxSimple(cbDigiProbe1, "Digi. Probe 1 ", rowID, 4); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListDigiProbe1_PHA.size(); i++){ cbDigiProbe1->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListDigiProbe1_PHA[i].first), DPP::Bit_BoardConfig::ListDigiProbe1_PHA[i].second); } connect(cbDigiProbe1, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::DigiProbel1_PHA, cbDigiProbe1->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[2]->setName(cbDigiProbe1->currentText()); }); SetUpComboBoxSimple(cbDigiProbe2, "Digi. Probe 2 ", rowID, 6); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListDigiProbe2_PHA.size(); i++){ cbDigiProbe2->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListDigiProbe2_PHA[i].first), DPP::Bit_BoardConfig::ListDigiProbe2_PHA[i].second); } dataTrace[3]->setName(cbDigiProbe2->currentText()); cbDigiProbe2->setEnabled(false); dataTrace[4]->setVisible(false); enableSignalSlot = true; } void Scope::SetUpPanel_PSD(){ enableSignalSlot = false; printf("==== %s \n", __func__); int rowID = 0; SetUpSpinBox(sbReordLength, "Record Length [ns] ", rowID, 0, DPP::RecordLength_G); SetUpSpinBox(sbPreTrigger, "Pre Trigger [ns] ", rowID, 2, DPP::PreTrigger); SetUpSpinBox(sbDCOffset, "DC offset [%] ", rowID, 4, DPP::ChannelDCOffset); sbDCOffset->setDecimals(2); SetUpComboBox(cbDynamicRange, "Dynamic Range ", rowID, 6, DPP::InputDynamicRange); rowID ++; //============================================================= SetUpComboBoxSimple(cbPolarity, "Polarity ", rowID, 0); cbPolarity->addItem("Positive", 0); cbPolarity->addItem("Negative", 1); connect(cbPolarity, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::DPPAlgorithmControl, DPP::Bit_DPPAlgorithmControl_PSD::Polarity, cbPolarity->currentData().toInt(), cbScopeCh->currentIndex()); }); SetUpSpinBox(sbShortGate, "Short Gate [ns] ", rowID, 2, DPP::PSD::ShortGateWidth); SetUpSpinBox(sbLongGate, "Long Gate [ns] ", rowID, 4, DPP::PSD::LongGateWidth); SetUpSpinBox(sbGateOffset, "Gate Offset [ns] ", rowID, 6, DPP::PSD::GateOffset); rowID ++; //============================================================= SetUpSpinBox(sbThreshold, "Threshold [LSB] ", rowID, 0, DPP::PSD::TriggerThreshold); SetUpComboBoxSimple(cbAnaProbe1, "Ana. Probe ", rowID, 2); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListAnaProbe_PSD.size(); i++){ cbAnaProbe1->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListAnaProbe_PSD[i].first), DPP::Bit_BoardConfig::ListAnaProbe_PSD[i].second); } connect(cbAnaProbe1, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::AnalogProbe1, cbAnaProbe1->currentData().toInt(), cbScopeCh->currentIndex()); //dataTrace[0]->setName(cbAnaProbe1->currentText()); switch( cbAnaProbe1->currentIndex() ){ case 0 : dataTrace[0]->setName("input"); dataTrace[1]->setName("N/A"); break; case 1 : dataTrace[0]->setName("CFD"); dataTrace[1]->setName("N/A"); break; case 2 : dataTrace[0]->setName("baseline"); dataTrace[1]->setName("input"); break; case 3 : dataTrace[0]->setName("baseline"); dataTrace[1]->setName("CFD"); break; case 4 : dataTrace[0]->setName("CFD"); dataTrace[1]->setName("input"); break; } }); SetUpComboBoxSimple(cbDigiProbe1, "Digi. Probe 1 ", rowID, 4); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListDigiProbe1_PSD.size(); i++){ cbDigiProbe1->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListDigiProbe1_PSD[i].first), DPP::Bit_BoardConfig::ListDigiProbe1_PSD[i].second); } connect(cbDigiProbe1, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::DigiProbel1_PSD, cbDigiProbe1->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[2]->setName(cbDigiProbe1->currentText()); }); SetUpComboBoxSimple(cbDigiProbe2, "Digi. Probe 2 ", rowID, 6); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListDigiProbe2_PSD.size(); i++){ cbDigiProbe2->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListDigiProbe2_PSD[i].first), DPP::Bit_BoardConfig::ListDigiProbe2_PSD[i].second); } connect(cbDigiProbe2, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::DigiProbel1_PSD, cbDigiProbe1->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[3]->setName(cbDigiProbe2->currentText()); }); dataTrace[4]->setVisible(false); enableSignalSlot = true; } void Scope::SetUpPanel_QDC() { enableSignalSlot = false; printf("==== %s \n", __func__); int rowID = 0; SetUpSpinBox(sbReordLength, "Record Length [ns] ", rowID, 0, DPP::QDC::RecordLength_W); SetUpSpinBox(sbPreTrigger, "Pre Trigger [ns] ", rowID, 2, DPP::QDC::PreTrigger); SetUpSpinBox(sbDCOffset, "DC offset [%] ", rowID, 4, DPP::QDC::DCOffset); sbDCOffset->setDecimals(2); SetUpComboBoxSimple(cbPolarity, "Polarity ", rowID, 6); cbPolarity->addItem("Positive", 0); cbPolarity->addItem("Negative", 1); connect(cbPolarity, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::QDC::DPPAlgorithmControl, DPP::QDC::Bit_DPPAlgorithmControl::Polarity, cbPolarity->currentData().toInt(), cbScopeCh->currentIndex()/8); }); rowID ++; //============================================================= SetUpSpinBox(sbShortGate, "Gate Width [ns] ", rowID, 0, DPP::QDC::GateWidth); SetUpSpinBox(sbGateOffset, "Gate Offset [ns] ", rowID, 2, DPP::QDC::GateOffset); QLabel * lb = new QLabel("Threshold [LSB] ", settingGroup); lb->setAlignment(Qt::AlignRight | Qt::AlignCenter); settingLayout->addWidget(lb, rowID, 4); sbThreshold = new RSpinBox(settingGroup); settingLayout->addWidget(sbThreshold, rowID, 5); sbThreshold->setMinimum(0); sbThreshold->setMaximum(0xFFF); sbThreshold->setSingleStep(1); connect(sbThreshold, &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; sbThreshold->setStyleSheet("color : blue;"); }); connect(sbThreshold, &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; uint32_t value = sbThreshold->value(); sbThreshold->setStyleSheet(""); int ch = cbScopeCh->currentIndex(); int grp = ch/8; int subCh = ch%8; Reg para = DPP::QDC::TriggerThreshold_sub0; digiMTX[ID].lock(); switch(subCh){ case 0: para = DPP::QDC::TriggerThreshold_sub0; break; case 1: para = DPP::QDC::TriggerThreshold_sub1; break; case 2: para = DPP::QDC::TriggerThreshold_sub2; break; case 3: para = DPP::QDC::TriggerThreshold_sub3; break; case 4: para = DPP::QDC::TriggerThreshold_sub4; break; case 5: para = DPP::QDC::TriggerThreshold_sub5; break; case 6: para = DPP::QDC::TriggerThreshold_sub6; break; case 7: para = DPP::QDC::TriggerThreshold_sub7; break; } digiMTX[ID].unlock(); QString msg; msg = QString::fromStdString(para.GetName()) + "|DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + ",CH:" + (ch == -1 ? "All" : QString::number(ch)); msg += " = " + QString::number(sbThreshold->value()); msg += " | 0x" + QString::number(value, 16); digi[ID]->WriteRegister(para, value, grp); if( digi[ID]->GetErrorCode() == CAEN_DGTZ_Success ){ SendLogMsg(msg + " | OK."); sbThreshold->setStyleSheet(""); emit UpdateOtherPanels(); }else{ SendLogMsg(msg + " | Fail."); sbThreshold->setStyleSheet("color:red;"); } }); rowID ++; //============================================================= SetUpComboBoxSimple(cbAnaProbe1, "Ana. Probe ", rowID, 0); for( int i = 0; i < (int) DPP::Bit_BoardConfig::ListAnaProbe_QDC.size(); i++){ cbAnaProbe1->addItem(QString::fromStdString(DPP::Bit_BoardConfig::ListAnaProbe_QDC[i].first), DPP::Bit_BoardConfig::ListAnaProbe_QDC[i].second); } connect(cbAnaProbe1, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; digi[ID]->SetBits(DPP::BoardConfiguration, DPP::Bit_BoardConfig::AnalogProbe1, cbAnaProbe1->currentData().toInt(), cbScopeCh->currentIndex()); dataTrace[0]->setName(cbAnaProbe1->currentText()); }); dataTrace[1]->setVisible(true); dataTrace[1]->setName("Gate"); dataTrace[2]->setVisible(true); dataTrace[2]->setName("Trigger"); dataTrace[3]->setVisible(true); dataTrace[3]->setName("Trigger HoldOff"); dataTrace[4]->setVisible(true); dataTrace[4]->setName("OverThreshold"); enableSignalSlot = true; } void Scope::EnableControl(bool enable){ DebugPrint("%s", "Scope"); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ){ sbReordLength->setEnabled(enable); sbPreTrigger->setEnabled(enable); sbDCOffset->setEnabled(enable); cbDynamicRange->setEnabled(enable); sbInputRiseTime->setEnabled(enable); //sbThreshold->setEnabled(enable); sbTriggerHoldOff->setEnabled(enable); cbSmoothingFactor->setEnabled(enable); sbTrapRiseTime->setEnabled(enable); sbTrapFlatTop->setEnabled(enable); sbDecayTime->setEnabled(enable); sbPeakingTime->setEnabled(enable); cbPolarity->setEnabled(enable); cbBaselineAvg->setEnabled(enable); cbPeakAvg->setEnabled(enable); sbPeakHoldOff->setEnabled(enable); }else{ settingGroup->setEnabled(enable); } } //*======================================================= //*======================================================= void Scope::UpdateComobox(RComboBox * &cb, const Reg para){ DebugPrint("%s", "Scope"); int ch = cbScopeCh->currentIndex(); enableSignalSlot = false; int haha = -99; if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_QDC_CODE ){ haha = digi[ID]->GetSettingFromMemory(para, ch/8); }else{ haha = digi[ID]->GetSettingFromMemory(para, ch); } for( int i = 0; i < cb->count(); i++){ int kaka = cb->itemData(i).toInt(); if( kaka == haha ){ cb->setCurrentIndex(i); break; } } //enableSignalSlot = true; } void Scope::UpdateSpinBox(RSpinBox * &sb, const Reg para){ DebugPrint("%s", "Scope"); int ch = cbScopeCh->currentIndex(); if( digi[ID]->GetDPPType() == DPPTypeCode::DPP_QDC_CODE ) ch = ch /8; enableSignalSlot = false; unsigned int haha = digi[ID]->GetSettingFromMemory(para, ch); if( para.GetPartialStep() > 0 ) sb->setValue(haha * para.GetPartialStep() * tick2ns); if( para.GetPartialStep() == -1 ) sb->setValue(haha); //enableSignalSlot = true; } void Scope::UpdatePanelFromMomeory(){ enableSignalSlot = false; printf("==== Scope::%s \n", __func__); int ch = cbScopeCh->currentIndex(); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ) UpdatePanel_PHA(); if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE ) UpdatePanel_PSD(); if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE ) UpdatePanel_QDC(); settingGroup->setEnabled(digi[ID]->GetInputChannelOnOff(ch)); } void Scope::UpdatePanel_PHA(){ enableSignalSlot = false; printf("==== %s \n", __func__); int ch = cbScopeCh->currentIndex(); uint32_t DPPAlg = digi[ID]->GetSettingFromMemory(DPP::DPPAlgorithmControl, ch); if( Digitizer::ExtractBits(DPPAlg, DPP::Bit_DPPAlgorithmControl_PHA::Polarity) ){ cbPolarity->setCurrentIndex(1); }else{ cbPolarity->setCurrentIndex(0); } unsigned int haha = digi[ID]->GetSettingFromMemory(DPP::RecordLength_G, ch); sbReordLength->setValue(haha * DPP::RecordLength_G.GetPartialStep() * tick2ns); haha = digi[ID]->GetSettingFromMemory(DPP::ChannelDCOffset, ch); sbDCOffset->setValue((1.0 - haha * 1.0 / 0xFFFF) * 100 ); UpdateComobox(cbDynamicRange, DPP::InputDynamicRange); UpdateSpinBox(sbPreTrigger, DPP::PreTrigger); UpdateSpinBox(sbInputRiseTime, DPP::PHA::InputRiseTime); UpdateSpinBox(sbThreshold, DPP::PHA::TriggerThreshold); UpdateSpinBox(sbTriggerHoldOff, DPP::PHA::TriggerHoldOffWidth); UpdateSpinBox(sbTrapRiseTime, DPP::PHA::TrapezoidRiseTime); UpdateSpinBox(sbTrapFlatTop, DPP::PHA::TrapezoidFlatTop); UpdateSpinBox(sbDecayTime, DPP::PHA::DecayTime); UpdateSpinBox(sbPeakingTime, DPP::PHA::PeakingTime); UpdateComobox(cbSmoothingFactor, DPP::PHA::RCCR2SmoothingFactor); int temp = Digitizer::ExtractBits(DPPAlg, DPP::Bit_DPPAlgorithmControl_PHA::BaselineAvg); for(int i = 0; i < cbBaselineAvg->count(); i++){ if( cbBaselineAvg->itemData(i).toInt() == temp) { cbBaselineAvg->setCurrentIndex(i); break; } } temp = Digitizer::ExtractBits(DPPAlg, DPP::Bit_DPPAlgorithmControl_PHA::PeakMean); for(int i = 0; i < cbPeakAvg->count(); i++){ if( cbPeakAvg->itemData(i).toInt() == temp) { cbPeakAvg->setCurrentIndex(i); break; } } uint32_t BdCfg = digi[ID]->GetSettingFromMemory(DPP::BoardConfiguration); temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::AnalogProbe1); for(int i = 0; i < cbAnaProbe1->count(); i++){ if( cbAnaProbe1->itemData(i).toInt() == temp) { cbAnaProbe1->setCurrentIndex(i); dataTrace[0]->setName(cbAnaProbe1->currentText()); break; } } temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::AnalogProbe2); for(int i = 0; i < cbAnaProbe2->count(); i++){ if( cbAnaProbe2->itemData(i).toInt() == temp) { cbAnaProbe2->setCurrentIndex(i); dataTrace[1]->setName(cbAnaProbe2->currentText()); break; } } temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::DigiProbel1_PHA); for(int i = 0; i < cbDigiProbe1->count(); i++){ if( cbDigiProbe1->itemData(i).toInt() == temp) { cbDigiProbe1->setCurrentIndex(i); dataTrace[2]->setName(cbDigiProbe1->currentText()); break; } } enableSignalSlot = true; } void Scope::UpdatePanel_PSD(){ enableSignalSlot = false; printf("==== %s \n", __func__); int ch = cbScopeCh->currentIndex(); uint32_t DPPAlg = digi[ID]->GetSettingFromMemory(DPP::DPPAlgorithmControl, ch); if( Digitizer::ExtractBits(DPPAlg, DPP::Bit_DPPAlgorithmControl_PSD::Polarity) ){ cbPolarity->setCurrentIndex(1); }else{ cbPolarity->setCurrentIndex(0); } unsigned int haha = digi[ID]->GetSettingFromMemory(DPP::RecordLength_G, ch); sbReordLength->setValue(haha * DPP::RecordLength_G.GetPartialStep() * tick2ns); haha = digi[ID]->GetSettingFromMemory(DPP::ChannelDCOffset, ch); sbDCOffset->setValue((1.0 - haha * 1.0 / 0xFFFF) * 100 ); UpdateComobox(cbDynamicRange, DPP::InputDynamicRange); UpdateSpinBox(sbPreTrigger, DPP::PreTrigger); UpdateSpinBox(sbShortGate, DPP::PSD::ShortGateWidth); UpdateSpinBox(sbLongGate, DPP::PSD::LongGateWidth); UpdateSpinBox(sbGateOffset, DPP::PSD::GateOffset); uint32_t BdCfg = digi[ID]->GetSettingFromMemory(DPP::BoardConfiguration, ch); int temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::AnalogProbe1); for( int i = 0; i < cbAnaProbe1->count(); i++){ if( cbAnaProbe1->itemData(i).toInt() == temp ) { cbAnaProbe1->setCurrentIndex(i); dataTrace[0]->setName(cbAnaProbe1->currentText()); break; } } temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::DigiProbel1_PSD); for( int i = 0; i < cbDigiProbe1->count(); i++){ if( cbDigiProbe1->itemData(i).toInt() == temp ) { cbDigiProbe1->setCurrentIndex(i); dataTrace[2]->setName(cbDigiProbe1->currentText()); break; } } temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::DigiProbel2_PSD); for( int i = 0; i < cbDigiProbe2->count(); i++){ if( cbDigiProbe2->itemData(i).toInt() == temp ) { cbDigiProbe2->setCurrentIndex(i); dataTrace[3]->setName(cbDigiProbe2->currentText()); break; } } enableSignalSlot = true; } void Scope::UpdatePanel_QDC(){ enableSignalSlot = false; printf("==== %s \n", __func__); int ch = cbScopeCh->currentIndex(); int grp = ch/8; uint32_t DPPAlg = digi[ID]->GetSettingFromMemory(DPP::QDC::DPPAlgorithmControl, grp); if( Digitizer::ExtractBits(DPPAlg, DPP::QDC::Bit_DPPAlgorithmControl::Polarity) ){ cbPolarity->setCurrentIndex(1); }else{ cbPolarity->setCurrentIndex(0); } uint32_t haha = digi[ID]->GetSettingFromMemory(DPP::QDC::DCOffset, grp); sbDCOffset->setValue((1.0 - haha * 1.0 / 0xFFFF) * 100 ); //UpdateSpinBox(sbReordLength, DPP::QDC::RecordLength); sbReordLength->setValue(digi[ID]->ReadQDCRecordLength() * 8 * 16); UpdateSpinBox(sbPreTrigger, DPP::QDC::PreTrigger); UpdateSpinBox(sbShortGate, DPP::QDC::GateWidth); UpdateSpinBox(sbGateOffset, DPP::QDC::GateOffset); int subCh = ch%8; uint32_t threshold = 0 ; switch( subCh ){ case 0 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub0, grp); break; case 1 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub1, grp); break; case 2 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub2, grp); break; case 3 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub3, grp); break; case 4 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub4, grp); break; case 5 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub5, grp); break; case 6 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub6, grp); break; case 7 : threshold = digi[ID]->GetSettingFromMemory(DPP::QDC::TriggerThreshold_sub7, grp); break; } sbThreshold->setValue(threshold); uint32_t BdCfg = digi[ID]->GetSettingFromMemory(DPP::BoardConfiguration, 0); int temp = Digitizer::ExtractBits(BdCfg, DPP::Bit_BoardConfig::AnalogProbe1); for( int i = 0; i < cbAnaProbe1->count(); i++){ if( cbAnaProbe1->itemData(i).toInt() == temp ) { cbAnaProbe1->setCurrentIndex(i); dataTrace[0]->setName(cbAnaProbe1->currentText()); break; } } enableSignalSlot = true; } void Scope::ReadSettingsFromBoard(){ DebugPrint("%s", "Scope"); digi[ID]->ReadRegister(DPP::BoardConfiguration); if( digi[ID]->GetDPPType() == V1730_DPP_PHA_CODE ){ int ch = cbScopeCh->currentIndex(); digi[ID]->ReadRegister(DPP::RecordLength_G, ch); digi[ID]->ReadRegister(DPP::PreTrigger, ch); digi[ID]->ReadRegister(DPP::ChannelDCOffset, ch); digi[ID]->ReadRegister(DPP::InputDynamicRange, ch); digi[ID]->ReadRegister(DPP::BoardConfiguration, ch); digi[ID]->ReadRegister(DPP::DPPAlgorithmControl, ch); digi[ID]->ReadRegister(DPP::PHA::InputRiseTime, ch); digi[ID]->ReadRegister(DPP::PHA::TriggerThreshold, ch); digi[ID]->ReadRegister(DPP::PHA::TriggerHoldOffWidth, ch); digi[ID]->ReadRegister(DPP::PHA::TrapezoidRiseTime, ch); digi[ID]->ReadRegister(DPP::PHA::TrapezoidFlatTop, ch); digi[ID]->ReadRegister(DPP::PHA::DecayTime, ch); digi[ID]->ReadRegister(DPP::PHA::PeakingTime, ch); } if( digi[ID]->GetDPPType() == V1730_DPP_PSD_CODE){ int ch = cbScopeCh->currentIndex(); digi[ID]->ReadRegister(DPP::RecordLength_G, ch); digi[ID]->ReadRegister(DPP::PreTrigger, ch); digi[ID]->ReadRegister(DPP::ChannelDCOffset, ch); digi[ID]->ReadRegister(DPP::InputDynamicRange, ch); digi[ID]->ReadRegister(DPP::BoardConfiguration, ch); digi[ID]->ReadRegister(DPP::DPPAlgorithmControl, ch); digi[ID]->ReadRegister(DPP::PSD::ShortGateWidth); digi[ID]->ReadRegister(DPP::PSD::LongGateWidth); digi[ID]->ReadRegister(DPP::PSD::GateOffset); } if( digi[ID]->GetDPPType() == V1740_DPP_QDC_CODE){ int ch = cbScopeCh->currentIndex(); int grp = ch/8; //digi[ID]->ReadRegister(DPP::QDC::RecordLength, grp); digi[ID]->ReadQDCRecordLength(); digi[ID]->ReadRegister(DPP::QDC::PreTrigger, grp); digi[ID]->ReadRegister(DPP::QDC::DCOffset, grp); digi[ID]->ReadRegister(DPP::QDC::DPPAlgorithmControl, grp); digi[ID]->ReadRegister(DPP::QDC::GateOffset, grp); digi[ID]->ReadRegister(DPP::QDC::GateWidth, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub0, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub1, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub2, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub3, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub4, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub5, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub6, grp); digi[ID]->ReadRegister(DPP::QDC::TriggerThreshold_sub7, grp); } UpdatePanelFromMomeory(); }