#include "MainWindow.h" #include #include #include #include "src/Dim.h" #include "DockWindow.h" #include "HtmlDelegate.h" #include "CheckBoxDelegate.h" using namespace std; void MainWindow::MakeLEDs(QPushButton **arr, QGridLayout *lay, const char *slot) const { arr[0]->setToolTip("Crate 0, Board 0, Index 0"); for (int i=1; i<40; i++) { QPushButton *b = new QPushButton(static_cast(arr[0]->parent())); b->setEnabled(arr[0]->isEnabled()); b->setSizePolicy(arr[0]->sizePolicy()); b->setMaximumSize(arr[0]->maximumSize()); b->setIcon(arr[0]->icon()); b->setIconSize(arr[0]->iconSize()); b->setCheckable(arr[0]->isCheckable()); b->setFlat(arr[0]->isFlat()); ostringstream str; str << "Crate " << i/10 << ", Board " << i%10 << ", Index " << i; b->setToolTip(str.str().c_str()); lay->addWidget(b, i/10+1, i%10+1, 1, 1); arr[i] = b; } const QString name = arr[0]->objectName(); for (int i=0; i<40; i++) { arr[i]->setObjectName(name+QString::number(i)); QObject::connect(arr[i], SIGNAL(clicked()), this, slot); } } MainWindow::MainWindow(QWidget *p) : QMainWindow(p) { // setupUi MUST be called before the DimNetwork is initilized // In this way it can be ensured that nothing from the // DimNetwork arrives before all graphical elements are // initialized. This is a simple but very powerfull trick. setupUi(this); // Now here we can do further setup which should be done // before the gui is finally displayed. fDimCmdServers->setItemDelegate(new CheckBoxDelegate); fDimCmdCommands->setItemDelegate(new CheckBoxDelegate); fDimCmdDescription->setItemDelegate(new HtmlDelegate); fDimSvcServers->setItemDelegate(new CheckBoxDelegate); fDimSvcServices->setItemDelegate(new CheckBoxDelegate); fDimSvcDescription->setItemDelegate(new HtmlDelegate); // Set a default string to be displayed in a the status bar at startup fStatusBar->showMessage(PACKAGE_STRING" | "PACKAGE_URL" | report bugs to <"PACKAGE_BUGREPORT">"); // Initialize the 40 FTU Leds as a copy of the prototype LED fFtuLED[0] = fFtuLEDPrototype; MakeLEDs(fFtuLED, fFtuLedLayout, SLOT(slot_fFtuLED_clicked())); // Initialize the 40 FAD Leds as a copy of the prototype LED fFadLED[0] = fFadLEDPrototype; MakeLEDs(fFadLED, fFadLedLayout, SLOT(slot_fFadLED_clicked())); // Initialize a timer to update the displayed UTC time QTimer *timer = new QTimer(this); connect(timer, SIGNAL(timeout()), this, SLOT(slot_TimeUpdate())); timer->start(100); } void MainWindow::slot_TimeUpdate() { // Used toUTC to support also older Qt versions // toTime_t() always returns the datetime converted to UTC // dateTime() unfortunately returns our UTC always as LocalTime QDateTime now = QDateTime::currentDateTime().toUTC(); now.setTimeSpec(Qt::LocalTime); if (now.toTime_t()==fUTC->dateTime().toTime_t()) return; fUTC->setDateTime(now); } void MainWindow::SelectTab(const QString &name) { for (int i=0; icount(); i++) if (fTabWidget->tabText(i)==name) { fTabWidget->setCurrentIndex(i); break; } } void MainWindow::on_fCommentInsertRow_clicked() { if (fTableComments->model()) fTableComments->model()->insertRow(fTableComments->model()->rowCount()); } void MainWindow::on_fNoutof4Val_valueChanged(int val) { const uint32_t v[2] = { -1, val }; if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_N_OUT_OF_4", v); } void MainWindow::on_fRatesMin_valueChanged(int min) { fRatesCanv->SetMin(min); } void MainWindow::on_fRatesMax_valueChanged(int max) { fRatesCanv->SetMax(max); } void MainWindow::on_fShutdown_clicked() { Dim::SendCommand("DIS_DNS/KILL_SERVERS"); } void MainWindow::on_fShutdownAll_clicked() { Dim::SendCommand("DIS_DNS/KILL_SERVERS"); Dim::SendCommand("DIS_DNS/EXIT", int(1)); } void MainWindow::on_fTabWidget_tabCloseRequested(int which) { // To get the correct size we have to switch to this tab // An alternative would be to take the size of the current tab fTabWidget->setCurrentIndex(which); QWidget *w = fTabWidget->currentWidget(); //fTabWidget->widget(which); if (!w) { cout << "Weird... the tab requested to be closed doesn't exist!" << endl; return; } QDockWidget *d = w->findChild(); if (!d) { cout << "Sorry, tab requested to be closed contains no QDockWidget!" << endl; return; } new DockWindow(d, fTabWidget->tabText(which)); fTabWidget->removeTab(which); if (fTabWidget->count()==1) fTabWidget->setTabsClosable(false); } void MainWindow::on_fMcpStartRun_clicked() { struct Value { uint64_t time; uint64_t nevts; char type[]; }; const int idx1 = fMcpRunType->currentIndex(); const int idx2 = fMcpTime->currentIndex(); const int idx3 = fMcpNumEvents->currentIndex(); const int64_t v2 = fMcpTime->itemData(idx2).toInt(); const int64_t v3 = fMcpNumEvents->itemData(idx3).toInt(); const QString rt = fMcpRunType->itemData(idx1).toString(); const size_t len = sizeof(Value)+rt.length()+1; char *buf = new char[len]; Value *val = reinterpret_cast(buf); val->time = v2; val->nevts = v3; strcpy(val->type, rt.toStdString().c_str()); Dim::SendCommand("MCP/START", buf, len); delete [] buf; } void MainWindow::on_fMcpStopRun_clicked() { Dim::SendCommand("MCP/STOP"); } void MainWindow::on_fMcpReset_clicked() { Dim::SendCommand("MCP/RESET"); } void MainWindow::on_fLoggerStart_clicked() { Dim::SendCommand("DATA_LOGGER/START_RUN_LOGGING"); } void MainWindow::on_fLoggerStop_clicked() { Dim::SendCommand("DATA_LOGGER/STOP_RUN_LOGGING"); } void MainWindow::on_fFtmStartRun_clicked() { Dim::SendCommand("FTM_CONTROL/START_TRIGGER"); } void MainWindow::on_fFtmStopRun_clicked() { Dim::SendCommand("FTM_CONTROL/STOP_TRIGGER"); } /* void MainWindow::on_fFadStartRun_clicked() { Dim::SendCommand("FAD_CONTROL/START_RUN"); } void MainWindow::on_fFadStopRun_clicked() { Dim::SendCommand("FAD_CONTROL/STOP_RUN"); } */ void MainWindow::on_fFadDrsOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_DRS", uint8_t(true)); } void MainWindow::on_fFadDrsOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_DRS", uint8_t(false)); } void MainWindow::on_fFadDwriteOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_DWRITE", uint8_t(true)); } void MainWindow::on_fFadDwriteOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_DWRITE", uint8_t(false)); } void MainWindow::on_fFadSingleTrigger_clicked() { Dim::SendCommand("FAD_CONTROL/SEND_SINGLE_TRIGGER"); } void MainWindow::on_fFadTriggerLineOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_TRIGGER_LINE", uint8_t(true)); } void MainWindow::on_fFadTriggerLineOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_TRIGGER_LINE", uint8_t(false)); } void MainWindow::on_fFadContTriggerOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_CONTINOUS_TRIGGER", uint8_t(true)); } void MainWindow::on_fFadContTriggerOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_CONTINOUS_TRIGGER", uint8_t(false)); } void MainWindow::on_fFadBusyOnOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_BUSY_ON", uint8_t(true)); } void MainWindow::on_fFadBusyOnOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_BUSY_ON", uint8_t(false)); } void MainWindow::on_fFadBusyOffOn_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_BUSY_OFF", uint8_t(true)); } void MainWindow::on_fFadBusyOffOff_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_BUSY_OFF", uint8_t(false)); } void MainWindow::on_fFadSocket0_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_COMMAND_SOCKET_MODE", uint8_t(true)); } void MainWindow::on_fFadSocket17_clicked() { Dim::SendCommand("FAD_CONTROL/ENABLE_COMMAND_SOCKET_MODE", uint8_t(false)); } void MainWindow::on_fFadResetTriggerId_clicked() { Dim::SendCommand("FAD_CONTROL/RESET_EVENT_COUNTER"); } void MainWindow::FadSetFileFormat(uint16_t fmt) { Dim::SendCommand("FAD_CONTROL/SET_FILE_FORMAT", fmt); } void MainWindow::on_fFadStart_clicked() { Dim::SendCommand("FAD_CONTROL/START"); } void MainWindow::on_fFadStop_clicked() { Dim::SendCommand("FAD_CONTROL/STOP"); } void MainWindow::on_fFadAbort_clicked() { Dim::SendCommand("FAD_CONTROL/ABORT"); } void MainWindow::on_fFadSoftReset_clicked() { Dim::SendCommand("FAD_CONTROL/SOFT_RESET"); } void MainWindow::on_fFadHardReset_clicked() { Dim::SendCommand("FAD_CONTROL/HARD_RESET"); } void MainWindow::slot_fFadLED_clicked() { for (int32_t i=0; i<40; i++) if (sender()==fFadLED[i]) { Dim::SendCommand("FAD_CONTROL/TOGGLE", i); break; } } void MainWindow::on_fFadPrescalerCmd_valueChanged(int val) { Dim::SendCommand("FAD_CONTROL/SET_TRIGGER_RATE", uint32_t(val)); } void MainWindow::on_fFadRunNumberCmd_valueChanged(int val) { Dim::SendCommand("FAD_CONTROL/SET_RUN_NUMBER", uint64_t(val)); } void MainWindow::on_fFadRoiCmd_valueChanged(int) { const int32_t vals1[2] = { -1, fFadRoiCmd->value() }; Dim::SendCommand("FAD_CONTROL/SET_REGION_OF_INTEREST", vals1); for (int ch=8; ch<36; ch+=9) { const int32_t vals2[2] = { ch, fFadRoiCh9Cmd->value() }; Dim::SendCommand("FAD_CONTROL/SET_REGION_OF_INTEREST", vals2); } } void MainWindow::FadDacCmd_valueChanged(uint16_t val, uint16_t idx) { const uint32_t cmd[2] = { idx, val }; Dim::SendCommand("FAD_CONTROL/SET_DAC_VALUE", cmd); } void MainWindow::on_fDrsCalibStart_clicked() { Dim::SendCommand("FAD_CONTROL/START_DRS_CALIBRATION"); } void MainWindow::on_fDrsCalibReset_clicked() { Dim::SendCommand("FAD_CONTROL/RESET_SECONDARY_DRS_BASELINE"); } void MainWindow::SetTriggerSequence() { const uint16_t d[3] = { uint16_t(fTriggerSeqPed->value()), uint16_t(fTriggerSeqLPext->value()), uint16_t(fTriggerSeqLPint->value()) }; if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TRIGGER_SEQUENCE", d); } /* void MainWindow::on_fEnableTrigger_clicked(bool b) { Dim::SendCommand("FTM_CONTROL/ENABLE_TRIGGER", b); } void MainWindow::on_fEnableExt1_clicked(bool b) { Dim::SendCommand("FTM_CONTROL/ENABLE_EXT1", b); } void MainWindow::on_fEnableExt2_clicked(bool b) { Dim::SendCommand("FTM_CONTROL/ENABLE_EXT2", b); } void MainWindow::on_fEnableVeto_clicked(bool b) { Dim::SendCommand("FTM_CONTROL/ENABLE_VETO", b); } */ void MainWindow::on_fPhysicsCoincidence_valueChanged(int v) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TRIGGER_MULTIPLICITY", v); } void MainWindow::on_fPhysicsWindow_valueChanged(int v) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TRIGGER_WINDOW", v/4-2); } void MainWindow::on_fCalibCoincidence_valueChanged(int v) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_CALIBRATION_MULTIPLICITY", v); } void MainWindow::on_fCalibWindow_valueChanged(int v) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_CALIBRATION_WINDOW", v/4-2); } void MainWindow::on_fTriggerInterval_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TRIGGER_INTERVAL", val); } void MainWindow::on_fTriggerDelay_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TRIGGER_DELAY", val/4-2); } void MainWindow::on_fTimeMarkerDelay_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_TIME_MARKER_DELAY", val/4-2); } void MainWindow::on_fDeadTime_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_DEAD_TIME", val/4-2); } void MainWindow::on_fPrescalingVal_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_PRESCALING", val); } void MainWindow::on_fPixelEnableAll_clicked() { Dim::SendCommand("FTM_CONTROL/ENABLE_PIXEL", int16_t(-1)); } void MainWindow::on_fPixelDisableAll_clicked() { Dim::SendCommand("FTM_CONTROL/DISABLE_PIXEL", int16_t(-1)); } void MainWindow::on_fEnableTrigger_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_TRIGGER", b==Qt::Checked); } void MainWindow::on_fEnableExt1_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_EXT1", b==Qt::Checked); } void MainWindow::on_fEnableExt2_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_EXT2", b==Qt::Checked); } void MainWindow::on_fEnableClockCond_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_CLOCK_CONDITIONER", b==Qt::Checked); } void MainWindow::on_fEnableVeto_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_VETO", b==Qt::Checked); } void MainWindow::on_fClockCondFreq_activated(int idx) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_CLOCK_FREQUENCY", fClockCondFreq->itemData(idx).toInt()); } void MainWindow::slot_fFtuLED_clicked() { for (int32_t i=0; i<40; i++) if (sender()==fFtuLED[i]) { Dim::SendCommand("FTM_CONTROL/TOGGLE_FTU", i); break; } } void MainWindow::on_fFtuPing_toggled(bool checked) { if (checked) Dim::SendCommand("FTM_CONTROL/PING"); } void MainWindow::on_fFtuAllOn_clicked() { static const struct Data { int32_t id; char on; } __attribute__((__packed__)) d = { -1, 1 }; Dim::SendCommand("FTM_CONTROL/ENABLE_FTU", &d, sizeof(d)); } void MainWindow::on_fFtuAllOff_clicked() { static const struct Data { int32_t id; char on; } __attribute__((__packed__)) d = { -1, 0 }; Dim::SendCommand("FTM_CONTROL/ENABLE_FTU", &d, sizeof(d)); } void MainWindow::on_fLpIntIntensity_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_INTENSITY_LPINT", uint16_t(val)); } void MainWindow::on_fLpExtIntensity_valueChanged(int val) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_INTENSITY_LPEXT", uint16_t(val)); } void MainWindow::on_fLpIntGroup1_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_GROUP1_LPINT", uint8_t(b)); } void MainWindow::on_fLpExtGroup1_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_GROUP1_LPEXT", uint8_t(b)); } void MainWindow::on_fLpIntGroup2_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_GROUP2_LPINT", uint8_t(b)); } void MainWindow::on_fLpExtGroup2_stateChanged(int b) { if (!fInHandler) Dim::SendCommand("FTM_CONTROL/ENABLE_GROUP2_LPEXT", uint8_t(b)); } void MainWindow::on_fFeedbackDevMin_valueChanged(int min) { fFeedbackDevCam->SetMin(min); fFeedbackDevCam->updateCamera(); } void MainWindow::on_fFeedbackDevMax_valueChanged(int max) { fFeedbackDevCam->SetMax(max); fFeedbackDevCam->updateCamera(); } void MainWindow::on_fFeedbackCmdMin_valueChanged(int min) { fFeedbackCmdCam->SetMin(min); fFeedbackCmdCam->updateCamera(); } void MainWindow::on_fFeedbackCmdMax_valueChanged(int max) { fFeedbackCmdCam->SetMax(max); fFeedbackCmdCam->updateCamera(); } void MainWindow::on_fFeedbackTempStart_clicked() { Dim::SendCommand("FEEDBACK/START_TEMP_CONTROL", (float)fFeedbackTempOffset->value()); } void MainWindow::on_fFeedbackOutputEnable_clicked() { Dim::SendCommand("FEEDBACK/ENABLE_OUTPUT", uint8_t(1)); } void MainWindow::on_fFeedbackOutputDisable_clicked() { Dim::SendCommand("FEEDBACK/ENABLE_OUTPUT", uint8_t(0)); } void MainWindow::on_fFeedbackStop_clicked() { Dim::SendCommand("FEEDBACK/STOP"); } void MainWindow::on_fFeedbackCalibrate_clicked() { Dim::SendCommand("FEEDBACK/CALIBRATE_CURRENTS"); } void MainWindow::on_fBiasVoltDac_valueChanged(int val) { fBiasVolt->setValue(val*90./4096); } void MainWindow::on_fBiasOffsetDac_valueChanged(int val) { fBiasOffsetVolt->setValue(val*90./4096); } /* void MainWindow::on_fBiasRequestStatus_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/REQUEST_STATUS"); } */ void MainWindow::on_fBiasApplyReference_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_GLOBAL_GAPD_REFERENCE_VOLTAGE"); } void MainWindow::on_fBiasApplyReferenceCh_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_CHANNEL_GAPD_REFERENCE_VOLTAGE", uint16_t(fBiasHvBoard->value()*32+fBiasHvChannel->value())); } void MainWindow::on_fBiasSetToZero_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_ZERO_VOLTAGE"); } void MainWindow::on_fBiasReset_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/RESET_OVER_CURRENT_STATUS"); } void MainWindow::on_fBiasAddOffset_clicked() { if (fInHandler) return; if (fBiasOffsetDac->value()<0) Dim::SendCommand("BIAS_CONTROL/DECREASE_GLOBAL_DAC", uint16_t(-fBiasOffsetDac->value())); else Dim::SendCommand("BIAS_CONTROL/INCREASE_GLOBAL_DAC", uint16_t(fBiasOffsetDac->value())); } void MainWindow::on_fBiasApplyOffset_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_GAPD_REFERENCE_OFFSET", float(fBiasOffsetDac->value()*90./4096)); } void MainWindow::on_fBiasApply_clicked() { const uint16_t cmd[2] = { uint16_t(fBiasHvBoard->value()*32+fBiasHvChannel->value()), uint16_t(fBiasVoltDac->value()) }; if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_CHANNEL_DAC", cmd); } void MainWindow::on_fBiasApplyGlobal_clicked() { if (!fInHandler) Dim::SendCommand("BIAS_CONTROL/SET_GLOBAL_DAC", uint16_t(fBiasVoltDac->value())); } void MainWindow::on_fBiasVoltMin_valueChanged(int min) { fBiasCamV->SetMin(min); fBiasCamV->updateCamera(); } void MainWindow::on_fBiasVoltMax_valueChanged(int max) { fBiasCamV->SetMax(max); fBiasCamV->updateCamera(); } void MainWindow::on_fBiasCurrentMin_valueChanged(int min) { fBiasCamA->SetMin(min); fBiasCamA->updateCamera(); } void MainWindow::on_fBiasCurrentMax_valueChanged(int max) { fBiasCamA->SetMax(max); fBiasCamA->updateCamera(); } void MainWindow::on_fChatSend_clicked() { const string msg = fChatMessage->text().toStdString(); if (Dim::SendCommand("CHAT/MSG", msg.c_str(), msg.length()+1)) fChatMessage->clear(); } void MainWindow::on_fStatusLoggerLed_clicked() { SelectTab("Logger"); } void MainWindow::on_fStatusChatLed_clicked() { SelectTab("Chat"); } void MainWindow::on_fStatusFTMLed_clicked() { SelectTab("Trigger"); } void MainWindow::on_fStatusFTULed_clicked() { SelectTab("FTUs"); } void MainWindow::on_fStatusFADLed_clicked() { SelectTab("FAD"); }