#ifndef FACT_FactGui #define FACT_FactGui #include "MainWindow.h" #include #include #include #include #include #include "CheckBoxDelegate.h" #include "src/Dim.h" #include "src/Converter.h" #include "src/Configuration.h" #include "src/HeadersFTM.h" #include "src/HeadersFAD.h" #include "src/HeadersBIAS.h" #include "src/DimNetwork.h" #include "src/tools.h" #include "src/FAD.h" #include "src/PixelMap.h" #include "TROOT.h" #include "TSystem.h" #include "TGraph.h" #include "TH2.h" #include "TBox.h" #include "TStyle.h" #include "TMarker.h" #include "TColor.h" #include "QCameraWidget.h" using namespace std; // ######################################################################### /* class Camera : public TObject { typedef pair Position; typedef vector Positions; Positions fGeom; void CreatePalette() { double ss[5] = {0.00, 0.25, 0.50, 0.75, 1.00}; double rr[5] = {0.15, 0.00, 0.00, 1.00, 0.85}; double gg[5] = {0.15, 0.00, 1.00, 0.00, 0.85}; double bb[5] = {0.15, 1.00, 0.00, 0.00, 0.85}; const Int_t nn = 1440; Int_t idx = TColor::CreateGradientColorTable(5, ss, rr, gg, bb, nn); for (int i=0; i 395.75) continue; fGeom.push_back(make_pair(yy, xx-0.5)); } } } } valarray fData; vector fBold; vector fEnable; int fWhite; int64_t fMin; int64_t fMax; public: Camera() : fData(1440), fBold(1440), fEnable(1440), fWhite(-1), fMin(-1), fMax(-1) { CreatePalette(); CreateGeometry(); for (int i=0; i<1440; i++) { fData[i] = i; fBold[i]=false; fEnable[i]=true; } } void Reset() { fBold.assign(1440, false); } void SetBold(int idx) { fBold[idx]=true; } void SetWhite(int idx) { fWhite=idx; } void SetEnable(int idx, bool b) { fEnable[idx]=b; } void Toggle(int idx) { fEnable[idx]=!fEnable[idx]; } double GetData(int idx) const { return fData[idx]; } void SetMin(int64_t min) { fMin=min; } void SetMax(int64_t max) { fMax=max; } const char *GetName() const { return "Camera"; } vector fPalette; void Paint(const Position &p) { static const Double_t fgCos60 = 0.5; // TMath::Cos(60/TMath::RadToDeg()); static const Double_t fgSin60 = sqrt(3.)/2; // TMath::Sin(60/TMath::RadToDeg()); static const Double_t fgDy[6] = { fgCos60, 0., -fgCos60, -fgCos60, 0., fgCos60 }; static const Double_t fgDx[6] = { fgSin60/3, fgSin60*2/3, fgSin60/3, -fgSin60/3, -fgSin60*2/3, -fgSin60/3 }; // // calculate the positions of the pixel corners // static Double_t x[7], y[7]; for (Int_t i=0; i<7; i++) { x[i] = p.first + fgDx[i%6]; y[i] = p.second + fgDy[i%6]; } gPad->PaintFillArea(6, x, y); gPad->PaintPolyLine(7, x, y); } int GetCol(double dmin, double val, double dmax, bool enable) { if (!enable) return kWhite; if (valdmax) return kRed+4;//kWhite; const double min = dmin; const double scale = dmax==dmin ? 1 : dmax-dmin; const int col = (val-min)/scale*(fPalette.size()-1); return gStyle->GetColorPalette(col); } void Paint(Option_t *) { gStyle->SetPalette(fPalette.size(), fPalette.data()); const double r = double(gPad->GetWw())/gPad->GetWh(); const double max = 20.5; // 20.5 rings in x and y if (r>1) gPad->Range(-r*max, -max, r*max, max); else gPad->Range(-max, -max/r, max, max/r); Double_t x1, x2, y1, y2; gPad->GetRange(x1, x2, y1, y2); double dmin = fData[0]; double dmax = fData[0]; for (unsigned int i=0; idmax) dmax = fData[i]; if (fData[i]=0) dmin = fMin; if (fMax>=0) dmax = fMax; // const double min = dmin; // const double scale = dmax==dmin ? 1 : dmax-dmin; TAttFill fill(0, 1001); TAttLine line; int cnt=0; for (Positions::iterator p=fGeom.begin(); p!=fGeom.end(); p++, cnt++) { if (fBold[cnt]) continue; const int col = GetCol(dmin, fData[cnt], dmax, fEnable[cnt]); fill.SetFillColor(col); fill.Modify(); Paint(*p); } line.SetLineWidth(2); line.Modify(); cnt = 0; for (Positions::iterator p=fGeom.begin(); p!=fGeom.end(); p++, cnt++) { if (!fBold[cnt]) continue; const int col = GetCol(dmin, fData[cnt], dmax, fEnable[cnt]); fill.SetFillColor(col); fill.Modify(); Paint(*p); } TMarker m(0,0,kStar); m.DrawMarker(0, 0); if (fWhite<0) return; const Position &p = fGeom[fWhite]; line.SetLineColor(kWhite); line.Modify(); const int col = GetCol(dmin, fData[fWhite], dmax, fEnable[fWhite]); fill.SetFillColor(col); fill.Modify(); Paint(p); } int GetIdx(float px, float py) const { static const double sqrt3 = sqrt(3); int idx = 0; for (Positions::const_iterator p=fGeom.begin(); p!=fGeom.end(); p++, idx++) { const Double_t dy = py - p->second; if (fabs(dy)>0.5) continue; const Double_t dx = px - p->first; if (TMath::Abs(dy + dx*sqrt3) > 1) continue; if (TMath::Abs(dy - dx*sqrt3) > 1) continue; return idx; } return -1; } char *GetObjectInfo(Int_t px, Int_t py) const { static stringstream stream; static string str; const float x = gPad->AbsPixeltoX(px); const float y = gPad->AbsPixeltoY(py); const int idx = GetIdx(x, y); stream.seekp(0); if (idx>=0) { stream << "Pixel=" << idx << " Data=" << fData[idx] << '\0'; } str = stream.str(); return const_cast(str.c_str()); } Int_t DistancetoPrimitive(Int_t px, Int_t py) { const float x = gPad->AbsPixeltoX(px); const float y = gPad->AbsPixeltoY(py); return GetIdx(x, y)>=0 ? 0 : 99999; } void SetData(const valarray &data) { fData = data; } void SetData(const float *data) { for (int i=0; i<1440; i++) fData[i] = data[i]; } }; */ // ######################################################################### class FactGui : public MainWindow, public DimNetwork { private: class FunctionEvent : public QEvent { public: boost::function fFunction; FunctionEvent(const boost::function &f) : QEvent((QEvent::Type)QEvent::registerEventType()), fFunction(f) { } bool Exec() { fFunction(*this); return true; } }; valarray fFtuStatus; PixelMap fPixelMap; //vector fPixelMapHW; // Software -> Hardware vector fPatchMapHW; // Software -> Hardware vector fPatchHW; // Maps the software(!) pixel id to the hardware(!) patch id bool fInChoosePatchTH; // FIXME. Find a better solution bool fInChooseBiasHv; // FIXME. Find a better solution bool fInChooseBiasCam; // FIXME. Find a better solution DimStampedInfo fDimDNS; DimStampedInfo fDimLoggerStats; DimStampedInfo fDimLoggerFilenameNight; DimStampedInfo fDimLoggerFilenameRun; DimStampedInfo fDimLoggerNumSubs; DimStampedInfo fDimFtmPassport; DimStampedInfo fDimFtmTriggerRates; DimStampedInfo fDimFtmError; DimStampedInfo fDimFtmFtuList; DimStampedInfo fDimFtmStaticData; DimStampedInfo fDimFtmDynamicData; DimStampedInfo fDimFtmCounter; DimStampedInfo fDimFadWriteStats; DimStampedInfo fDimFadStartRun; DimStampedInfo fDimFadRuns; DimStampedInfo fDimFadEvents; DimStampedInfo fDimFadRawData; DimStampedInfo fDimFadEventData; DimStampedInfo fDimFadConnections; DimStampedInfo fDimFadFwVersion; DimStampedInfo fDimFadRunNumber; DimStampedInfo fDimFadDNA; DimStampedInfo fDimFadTemperature; DimStampedInfo fDimFadPrescaler; DimStampedInfo fDimFadRefClock; DimStampedInfo fDimFadRoi; DimStampedInfo fDimFadDac; DimStampedInfo fDimFadDrsCalibration; DimStampedInfo fDimFadStatus; DimStampedInfo fDimFadStatistics1; DimStampedInfo fDimFadStatistics2; DimStampedInfo fDimFscTemp; DimStampedInfo fDimFscVolt; DimStampedInfo fDimFscCurrent; DimStampedInfo fDimFscHumidity; DimStampedInfo fDimBiasVolt; DimStampedInfo fDimBiasCurrent; map fServices; // ========================== LED Colors ================================ enum LedColor_t { kLedRed, kLedGreen, kLedYellow, kLedOrange, kLedGray, kLedWarnBorder, kLedWarn, kLedWarnTriangleBorder, kLedWarnTriangle, kLedInProgress, }; void SetLedColor(QPushButton *button, LedColor_t col, const Time &t) { switch (col) { case kLedRed: button->setIcon(QIcon(":/Resources/icons/red circle 1.png")); break; case kLedGreen: button->setIcon(QIcon(":/Resources/icons/green circle 1.png")); break; case kLedYellow: button->setIcon(QIcon(":/Resources/icons/yellow circle 1.png")); break; case kLedOrange: button->setIcon(QIcon(":/Resources/icons/orange circle 1.png")); break; case kLedGray: button->setIcon(QIcon(":/Resources/icons/gray circle 1.png")); break; case kLedWarnBorder: button->setIcon(QIcon(":/Resources/icons/warning 1.png")); break; case kLedWarn: button->setIcon(QIcon(":/Resources/icons/warning 2.png")); break; case kLedWarnTriangle: button->setIcon(QIcon(":/Resources/icons/warning 3.png")); break; case kLedWarnTriangleBorder: button->setIcon(QIcon(":/Resources/icons/warning 4.png")); break; case kLedInProgress: button->setIcon(QIcon(":/Resources/icons/in progress.png")); break; } //button->setToolTip("Last change: "+QDateTime::currentDateTimeUtc().toString()+" UTC"); button->setToolTip(("Last change: "+t.GetAsStr()+" (UTC)").c_str()); } // ===================== Services and Commands ========================== QStandardItem *AddServiceItem(const std::string &server, const std::string &service, bool iscmd) { QListView *servers = iscmd ? fDimCmdServers : fDimSvcServers; QListView *services = iscmd ? fDimCmdCommands : fDimSvcServices; QListView *description = iscmd ? fDimCmdDescription : fDimSvcDescription; QStandardItemModel *m = dynamic_cast(servers->model()); if (!m) { m = new QStandardItemModel(this); servers->setModel(m); services->setModel(m); description->setModel(m); } QList l = m->findItems(server.c_str()); if (l.size()>1) { cout << "hae" << endl; return 0; } QStandardItem *col = l.size()==0 ? NULL : l[0]; if (!col) { col = new QStandardItem(server.c_str()); m->appendRow(col); if (!services->rootIndex().isValid()) { services->setRootIndex(col->index()); servers->setCurrentIndex(col->index()); } } QStandardItem *item = 0; for (int i=0; irowCount(); i++) { QStandardItem *coli = col->child(i); if (coli->text().toStdString()==service) return coli; } item = new QStandardItem(service.c_str()); col->appendRow(item); col->sortChildren(0); if (!description->rootIndex().isValid()) { description->setRootIndex(item->index()); services->setCurrentIndex(item->index()); } if (!iscmd) item->setCheckable(true); return item; } void AddDescription(QStandardItem *item, const vector &vec) { if (!item) return; if (vec.size()==0) return; item->setToolTip(vec[0].comment.c_str()); const string str = Description::GetHtmlDescription(vec); QStandardItem *desc = new QStandardItem(str.c_str()); desc->setSelectable(false); item->setChild(0, 0, desc); } void AddServer(const std::string &s) { DimNetwork::AddServer(s); QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleAddServer, this, s))); } void AddService(const std::string &server, const std::string &service, const std::string &fmt, bool iscmd) { QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleAddService, this, server, service, fmt, iscmd))); } void RemoveService(std::string server, std::string service, bool iscmd) { UnsubscribeService(server+'/'+service, true); QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleRemoveService, this, server, service, iscmd))); } void RemoveAllServices(const std::string &server) { UnsubscribeAllServices(server); QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleRemoveAllServices, this, server))); } void AddDescription(const std::string &server, const std::string &service, const vector &vec) { QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleAddDescription, this, server, service, vec))); } // ====================================================================== void handleAddServer(const std::string &server) { const State s = GetState(server, GetCurrentState(server)); handleStateChanged(Time(), server, s); } void handleAddService(const std::string &server, const std::string &service, const std::string &/*fmt*/, bool iscmd) { QStandardItem *item = AddServiceItem(server, service, iscmd); const vector v = GetDescription(server, service); AddDescription(item, v); } void handleRemoveService(const std::string &server, const std::string &service, bool iscmd) { QListView *servers = iscmd ? fDimCmdServers : fDimSvcServers; QStandardItemModel *m = dynamic_cast(servers->model()); if (!m) return; QList l = m->findItems(server.c_str()); if (l.size()!=1) return; for (int i=0; irowCount(); i++) { QStandardItem *row = l[0]->child(i); if (row->text().toStdString()==service) { l[0]->removeRow(row->index().row()); return; } } } void handleRemoveAllServices(const std::string &server) { handleStateChanged(Time(), server, State(-2, "Offline", "No connection via DIM.")); QStandardItemModel *m = 0; if ((m=dynamic_cast(fDimCmdServers->model()))) { QList l = m->findItems(server.c_str()); if (l.size()==1) m->removeRow(l[0]->index().row()); } if ((m = dynamic_cast(fDimSvcServers->model()))) { QList l = m->findItems(server.c_str()); if (l.size()==1) m->removeRow(l[0]->index().row()); } } void handleAddDescription(const std::string &server, const std::string &service, const vector &vec) { const bool iscmd = IsCommand(server, service)==true; QStandardItem *item = AddServiceItem(server, service, iscmd); AddDescription(item, vec); } // ====================================================================== void SubscribeService(const string &service) { if (fServices.find(service)!=fServices.end()) { cerr << "ERROR - We are already subscribed to " << service << endl; return; } fServices[service] = new DimStampedInfo(service.c_str(), (void*)NULL, 0, this); } void UnsubscribeService(const string &service, bool allow_unsubscribed=false) { const map::iterator i=fServices.find(service); if (i==fServices.end()) { if (!allow_unsubscribed) cerr << "ERROR - We are not subscribed to " << service << endl; return; } delete i->second; fServices.erase(i); } void UnsubscribeAllServices(const string &server) { for (map::iterator i=fServices.begin(); i!=fServices.end(); i++) if (i->first.substr(0, server.length()+1)==server+'/') { delete i->second; fServices.erase(i); } } // ====================================================================== struct DimData { const int qos; const string name; const string format; const vector data; const Time time; Time extract(DimInfo *inf) const { // Must be called in exactly this order! const int tsec = inf->getTimestamp(); const int tms = inf->getTimestampMillisecs(); return Time(tsec, tms*1000); } // DimInfo *info; // this is ONLY for a fast check of the type of the DimData!! DimData(DimInfo *inf) : qos(inf->getQuality()), name(inf->getName()), format(inf->getFormat()), data(inf->getString(), inf->getString()+inf->getSize()), time(extract(inf))/*, info(inf)*/ { } template T get(uint32_t offset=0) const { return *reinterpret_cast(data.data()+offset); } template const T *ptr(uint32_t offset=0) const { return reinterpret_cast(data.data()+offset); } template const T &ref(uint32_t offset=0) const { return *reinterpret_cast(data.data()+offset); } // vector vec(int b) const { return vector(data.begin()+b, data.end()); } // string str(unsigned int b) const { return b>=data.size()?string():string(data.data()+b, data.size()-b); } const char *c_str() const { return (char*)data.data(); } /* vector any() const { const Converter conv(format); conv.Print(); return conv.GetAny(data.data(), data.size()); }*/ size_t size() const { return data.size(); } }; // ======================= DNS ========================================== void handleDimDNS(const DimData &d) { const int version = d.size()!=4 ? 0 : d.get(); ostringstream str; str << "V" << version/100 << 'r' << version%100; ostringstream dns; dns << (version==0?"No connection":"Connection"); dns << " to DIM DNS (" << getenv("DIM_DNS_NODE") << ")"; dns << (version==0?".":" established."); fStatusDNSLabel->setText(version==0?"Offline":str.str().c_str()); fStatusDNSLabel->setToolTip(dns.str().c_str()); SetLedColor(fStatusDNSLed, version==0 ? kLedRed : kLedGreen, Time()); } // ======================= Logger ======================================= void handleLoggerStats(const DimData &d) { const bool connected = d.size()!=0; fLoggerET->setEnabled(connected); fLoggerRate->setEnabled(connected); fLoggerWritten->setEnabled(connected); fLoggerFreeSpace->setEnabled(connected); fLoggerSpaceLeft->setEnabled(connected); if (!connected) return; const uint64_t *vals = d.ptr(); const size_t space = vals[0]; const size_t written = vals[1]; const size_t rate = float(vals[2])/vals[3]; fLoggerFreeSpace->setSuffix(" MB"); fLoggerFreeSpace->setDecimals(0); fLoggerFreeSpace->setValue(space*1e-6); if (space> 1000000) // > 1GB { fLoggerFreeSpace->setSuffix(" GB"); fLoggerFreeSpace->setDecimals(2); fLoggerFreeSpace->setValue(space*1e-9); } if (space>= 3000000) // >= 3GB { fLoggerFreeSpace->setSuffix(" GB"); fLoggerFreeSpace->setDecimals(1); fLoggerFreeSpace->setValue(space*1e-9); } if (space>=100000000) // >= 100GB { fLoggerFreeSpace->setSuffix(" GB"); fLoggerFreeSpace->setDecimals(0); fLoggerFreeSpace->setValue(space*1e-9); } fLoggerET->setTime(QTime().addSecs(rate>0?space/rate:0)); fLoggerRate->setValue(rate*1e-3); // kB/s fLoggerWritten->setValue(written*1e-6); fLoggerRate->setSuffix(" kB/s"); fLoggerRate->setDecimals(2); fLoggerRate->setValue(rate); if (rate> 2) // > 2kB/s { fLoggerRate->setSuffix(" kB/s"); fLoggerRate->setDecimals(1); fLoggerRate->setValue(rate); } if (rate>=100) // >100kB/s { fLoggerRate->setSuffix(" kB/s"); fLoggerRate->setDecimals(0); fLoggerRate->setValue(rate); } if (rate>=1000) // >100kB/s { fLoggerRate->setSuffix(" MB/s"); fLoggerRate->setDecimals(2); fLoggerRate->setValue(rate*1e-3); } if (rate>=10000) // >1MB/s { fLoggerRate->setSuffix(" MB/s"); fLoggerRate->setDecimals(1); fLoggerRate->setValue(rate*1e-3); } if (rate>=100000) // >10MB/s { fLoggerRate->setSuffix(" MB/s"); fLoggerRate->setDecimals(0); fLoggerRate->setValue(rate*1e-3); } if (space/1000000>static_cast(fLoggerSpaceLeft->maximum())) fLoggerSpaceLeft->setValue(fLoggerSpaceLeft->maximum()); // GB else fLoggerSpaceLeft->setValue(space/1000000); // MB } void handleLoggerFilenameNight(const DimData &d) { const bool connected = d.size()!=0; fLoggerFilenameNight->setEnabled(connected); if (!connected) return; fLoggerFilenameNight->setText(d.c_str()+4); const uint32_t files = d.get(); SetLedColor(fLoggerLedLog, files&1 ? kLedGreen : kLedGray, d.time); SetLedColor(fLoggerLedRep, files&2 ? kLedGreen : kLedGray, d.time); SetLedColor(fLoggerLedFits, files&4 ? kLedGreen : kLedGray, d.time); } void handleLoggerFilenameRun(const DimData &d) { const bool connected = d.size()!=0; fLoggerFilenameRun->setEnabled(connected); if (!connected) return; fLoggerFilenameRun->setText(d.c_str()+4); const uint32_t files = d.get(); SetLedColor(fLoggerLedLog, files&1 ? kLedGreen : kLedGray, d.time); SetLedColor(fLoggerLedRep, files&2 ? kLedGreen : kLedGray, d.time); SetLedColor(fLoggerLedFits, files&4 ? kLedGreen : kLedGray, d.time); } void handleLoggerNumSubs(const DimData &d) { const bool connected = d.size()!=0; fLoggerSubscriptions->setEnabled(connected); fLoggerOpenFiles->setEnabled(connected); if (!connected) return; const uint32_t *vals = d.ptr(); fLoggerSubscriptions->setValue(vals[0]); fLoggerOpenFiles->setValue(vals[1]); } // ===================== All ============================================ bool CheckSize(const DimData &d, size_t sz, bool print=true) const { if (d.size()==0) return false; if (d.size()!=sz) { if (print) cerr << "Size mismatch in " << d.name << ": Found=" << d.size() << " Expected=" << sz << endl; return false; } return true; } // ===================== FAD ============================================ void handleFadWriteStats(const DimData &d) { const bool connected = d.size()!=0; fEvtBuilderET->setEnabled(connected); fEvtBuilderRate->setEnabled(connected); fEvtBuilderWritten->setEnabled(connected); fEvtBuilderFreeSpace->setEnabled(connected); fEvtBuilderSpaceLeft->setEnabled(connected); if (!connected) return; const uint64_t *vals = d.ptr(); const size_t space = vals[0]; const size_t written = vals[1]; const size_t rate = float(vals[2])/vals[3]; fEvtBuilderFreeSpace->setSuffix(" MB"); fEvtBuilderFreeSpace->setDecimals(0); fEvtBuilderFreeSpace->setValue(space*1e-6); if (space> 1000000) // > 1GB { fEvtBuilderFreeSpace->setSuffix(" GB"); fEvtBuilderFreeSpace->setDecimals(2); fEvtBuilderFreeSpace->setValue(space*1e-9); } if (space>= 3000000) // >= 3GB { fEvtBuilderFreeSpace->setSuffix(" GB"); fEvtBuilderFreeSpace->setDecimals(1); fEvtBuilderFreeSpace->setValue(space*1e-9); } if (space>=100000000) // >= 100GB { fEvtBuilderFreeSpace->setSuffix(" GB"); fEvtBuilderFreeSpace->setDecimals(0); fEvtBuilderFreeSpace->setValue(space*1e-9); } fEvtBuilderET->setTime(QTime().addSecs(rate>0?space/rate:0)); fEvtBuilderRate->setValue(rate*1e-3); // kB/s fEvtBuilderWritten->setValue(written*1e-6); fEvtBuilderRate->setSuffix(" kB/s"); fEvtBuilderRate->setDecimals(2); fEvtBuilderRate->setValue(rate); if (rate> 2) // > 2kB/s { fEvtBuilderRate->setSuffix(" kB/s"); fEvtBuilderRate->setDecimals(1); fEvtBuilderRate->setValue(rate); } if (rate>=100) // >100kB/s { fEvtBuilderRate->setSuffix(" kB/s"); fEvtBuilderRate->setDecimals(0); fEvtBuilderRate->setValue(rate); } if (rate>=1000) // >100kB/s { fEvtBuilderRate->setSuffix(" MB/s"); fEvtBuilderRate->setDecimals(2); fEvtBuilderRate->setValue(rate*1e-3); } if (rate>=10000) // >1MB/s { fEvtBuilderRate->setSuffix(" MB/s"); fEvtBuilderRate->setDecimals(1); fEvtBuilderRate->setValue(rate*1e-3); } if (rate>=100000) // >10MB/s { fEvtBuilderRate->setSuffix(" MB/s"); fEvtBuilderRate->setDecimals(0); fEvtBuilderRate->setValue(rate*1e-3); } if (space/1000000>static_cast(fEvtBuilderSpaceLeft->maximum())) fEvtBuilderSpaceLeft->setValue(fEvtBuilderSpaceLeft->maximum()); // GB else fEvtBuilderSpaceLeft->setValue(space/1000000); // MB } void handleFadRuns(const DimData &d) { if (d.size()==0) return; if (d.size()<20) { cerr << "Size mismatch in " << d.name << ": Found=" << d.size() << " Expected>=20" << endl; return; } const uint32_t *ptr = d.ptr(); fEvtBldOpenFiles->setValue(ptr[0]); fEvtBldOpenStreams->setValue(ptr[0]); fEvtBldRunNumberMin->setValue(ptr[1]); fEvtBldRunNumberMax->setValue(ptr[2]); fEvtBldLastOpened->setValue(ptr[3]); fEvtBldLastClosed->setValue(ptr[4]); if (d.size()>=20) fEvtBldFilename->setText(d.ptr(20)); if (ptr[0]==0) fEvtBldFilename->setText(""); } void handleFadStartRun(const DimData &d) { if (!CheckSize(d, 16)) return; const int64_t *runs = d.ptr(); fFadRunNoCur->setValue(runs[0]); fFadRunNoNext->setValue(runs[1]); fFadRunNoCur->setEnabled(runs[0]>=0); } void handleFadEvents(const DimData &d) { if (!CheckSize(d, 16)) return; const uint32_t *ptr = d.ptr(); fEvtsSuccessCurRun->setValue(ptr[0]); fEvtsSuccessTotal->setValue(ptr[1]); fEvtBldEventId->setValue(ptr[2]); fFadEvtCounter->setValue(ptr[2]); fEvtBldTriggerId->setValue(ptr[3]); } void handleFadTemperature(const DimData &d) { if (d.size()==0) { fFadTempMin->setEnabled(false); fFadTempMax->setEnabled(false); SetLedColor(fFadLedTemp, kLedGray, d.time); return; } if (!CheckSize(d, 82*sizeof(float))) return; const float *ptr = d.ptr(); fFadTempMin->setEnabled(true); fFadTempMax->setEnabled(true); fFadTempMin->setValue(ptr[0]); fFadTempMax->setValue(ptr[41]); handleFadToolTip(d.time, fFadTempMin, ptr+1); handleFadToolTip(d.time, fFadTempMax, ptr+42); } void handleFadRefClock(const DimData &d) { if (d.size()==0) { fFadRefClockMin->setEnabled(false); fFadRefClockMax->setEnabled(false); SetLedColor(fFadLedRefClock, kLedGray, d.time); return; } if (!CheckSize(d, 42*sizeof(uint32_t))) return; const uint32_t *ptr = d.ptr(); fFadRefClockMin->setEnabled(true); fFadRefClockMax->setEnabled(true); fFadRefClockMin->setValue(ptr[40]*2.048); fFadRefClockMax->setValue(ptr[41]*2.048); const int64_t diff = int64_t(ptr[41]) - int64_t(ptr[40]); SetLedColor(fFadLedRefClock, abs(diff)>3?kLedRed:kLedGreen, d.time); handleFadToolTip(d.time, fFadLedRefClock, ptr); } void handleFadRoi(const DimData &d) { if (d.size()==0) { fFadRoi->setEnabled(false); fFadRoiCh9->setEnabled(false); SetLedColor(fFadLedRoi, kLedGray, d.time); return; } if (!CheckSize(d, 2*sizeof(uint16_t))) return; const uint16_t *ptr = d.ptr(); fFadRoi->setEnabled(true); fFadRoiCh9->setEnabled(true); fFadRoi->setValue(ptr[0]); fFadRoiCh9->setValue(ptr[1]); SetLedColor(fFadLedRoi, kLedGray, d.time); } void handleDac(QPushButton *led, QSpinBox *box, const DimData &d, int idx) { if (d.size()==0) { box->setEnabled(false); SetLedColor(led, kLedGray, d.time); return; } const uint16_t *ptr = d.ptr()+idx*42; box->setEnabled(true); box->setValue(ptr[40]==ptr[41]?ptr[40]:0); SetLedColor(led, ptr[40]==ptr[41]?kLedGreen:kLedOrange, d.time); handleFadToolTip(d.time, led, ptr); } void handleFadDac(const DimData &d) { if (!CheckSize(d, 8*42*sizeof(uint16_t)) && !d.size()==0) return; handleDac(fFadLedDac0, fFadDac0, d, 0); handleDac(fFadLedDac1, fFadDac1, d, 1); handleDac(fFadLedDac2, fFadDac2, d, 2); handleDac(fFadLedDac3, fFadDac3, d, 3); handleDac(fFadLedDac4, fFadDac4, d, 4); handleDac(fFadLedDac5, fFadDac5, d, 5); handleDac(fFadLedDac6, fFadDac6, d, 6); handleDac(fFadLedDac7, fFadDac7, d, 7); } EVENT *fEventData; void DrawHorizontal(TH1 *hf, double xmax, TH1 &h, double scale) { for (Int_t i=1;i<=h.GetNbinsX();i++) { if (h.GetBinContent(i)<0.5 || h.GetBinContent(i)>h.GetEntries()-0.5) continue; TBox * box=new TBox(xmax, h.GetBinLowEdge(i), xmax+h.GetBinContent(i)*scale, h.GetBinLowEdge(i+1)); box->SetFillStyle(0); box->SetLineColor(h.GetLineColor()); box->SetLineStyle(kSolid); box->SetBit(kCannotPick|kNoContextMenu); //box->Draw(); hf->GetListOfFunctions()->Add(box); } } void DisplayEventData() { if (!fEventData) return; #ifdef HAVE_ROOT TCanvas *c = fAdcDataCanv->GetCanvas(); TH1 *hf = dynamic_cast(c->FindObject("Frame")); TH1 *h = dynamic_cast(c->FindObject("EventData")); TH1 *d0 = dynamic_cast(c->FindObject("DrsCalib0")); TH1 *d1 = dynamic_cast(c->FindObject("DrsCalib1")); TH1 *d2 = dynamic_cast(c->FindObject("DrsCalib2")); const int roi = fAdcPhysical->isChecked() ? 1024 : (fEventData->Roi>0 ? fEventData->Roi : 1); if ((hf && hf->GetNbinsX()!=roi) || (dynamic_cast(h) && !fAdcPersistent->isChecked()) || (!dynamic_cast(h) && fAdcPersistent->isChecked())) { delete hf; delete h; delete d0; delete d1; delete d2; d0 = 0; d1 = 0; d2 = 0; hf = 0; } c->cd(); if (!hf) { hf = new TH1F("Frame", "", roi, -0.5, roi-0.5); hf->SetDirectory(0); hf->SetBit(kCanDelete); hf->SetStats(kFALSE); hf->SetYTitle("Voltage [mV]"); hf->GetXaxis()->CenterTitle(); hf->GetYaxis()->CenterTitle(); hf->SetMinimum(-1250); hf->SetMaximum(2150); if (!fAdcPersistent->isChecked()) h = new TH1F("EventData", "", roi, -0.5, roi-0.5); else { h = new TH2F("EventData", "", roi, -0.5, roi-0.5, 6751, -2350.5*2000/4096, 4400.5*2000/4096); h->SetContour(50); gStyle->SetPalette(1, 0); } h->SetDirectory(0); h->SetBit(kCanDelete); h->SetMarkerStyle(kFullDotMedium); h->SetMarkerColor(kBlue); hf->Draw(""); if (dynamic_cast(h)) h->Draw("col same"); } if (d0 && !(fDrsCalibBaselineOn->isChecked() && fDrsCalibBaseline->value()>0)) { delete d0; d0 = 0; } if (d1 && !(fDrsCalibGainOn->isChecked() && fDrsCalibGain->value()>0)) { delete d1; d1 = 0; } if (d2 && !(fDrsCalibTrgOffsetOn->isChecked() && fDrsCalibTrgOffset->value()>0)) { delete d2; d2 = 0; } if (!d0 && fDrsCalibBaselineOn->isChecked() && fDrsCalibBaseline->value()>0) { d0 = new TH1F("DrsCalib0", "", roi, -0.5, roi-0.5); d0->SetDirectory(0); d0->SetBit(kCanDelete); d0->SetMarkerStyle(kFullDotSmall); d0->SetMarkerColor(kRed); d0->SetLineColor(kRed); d0->Draw("PEX0same"); } if (!d1 && fDrsCalibGainOn->isChecked() && fDrsCalibGain->value()>0) { d1 = new TH1F("DrsCalib1", "", roi, -0.5, roi-0.5); d1->SetDirectory(0); d1->SetBit(kCanDelete); d1->SetMarkerStyle(kFullDotSmall); d1->SetMarkerColor(kMagenta); d1->SetLineColor(kMagenta); d1->Draw("PEX0same"); } if (!d2 && fDrsCalibTrgOffsetOn->isChecked() && fDrsCalibTrgOffset->value()>0) { d2 = new TH1F("DrsCalib2", "", roi, -0.5, roi-0.5); d2->SetDirectory(0); d2->SetBit(kCanDelete); d2->SetMarkerStyle(kFullDotSmall); d2->SetMarkerColor(kGreen); d2->SetLineColor(kGreen); d2->Draw("PEX0same"); } if (!dynamic_cast(h) && !c->GetListOfPrimitives()->FindObject(h)) h->Draw("PLsame"); // ----------------------------------------------------------- const uint32_t p = fAdcChannel->value() + fAdcChip->value() * 9+ fAdcBoard->value() * 36+ fAdcCrate->value() *360; ostringstream str; str << "CBPX = " << fAdcCrate->value() << '|' << fAdcBoard->value() << '|' << fAdcChip->value() << '|' << fAdcChannel->value() << " (" << p << ")"; str << " EventNum = " << fEventData->EventNum; str << " TriggerNum = " << fEventData->TriggerNum; str << " TriggerType = " << fEventData->TriggerType; str << " BoardTime = " << fEventData->BoardTime[fAdcBoard->value()+fAdcCrate->value()*10]; str << " (" << Time(fEventData->PCTime, fEventData->PCUsec) << ")"; hf->SetTitle(str.str().c_str()); str.str(""); str << "ADC Pipeline (start cell: " << fEventData->StartPix[p] << ")"; hf->SetXTitle(str.str().c_str()); // ----------------------------------------------------------- const int16_t start = fEventData->StartPix[p]; fDrsCalibBaseline->setEnabled(fDrsCalibBaseline->value()>0); fDrsCalibGain->setEnabled(fDrsCalibGain->value()>0); fDrsCalibTrgOffset->setEnabled(fDrsCalibTrgOffset->value()>0); if (d0)//fDrsCalibBaseline->value()==0 || start<0) d0->Reset(); if (d1)//fDrsCalibGain->value()==0 || start<0) d1->Reset(); if (d2)//fDrsCalibTrgOffset->value()==0 || start<0) d2->Reset(); if (!dynamic_cast(h)) h->Reset(); if (d0) d0->SetEntries(0); if (d1) d1->SetEntries(0); if (d2) d2->SetEntries(0); for (int i=0; iRoi; i++) { // FIXME: physcial: i -> (i+start)%1024 // FIXME: logical: i -> i const int ii = fAdcPhysical->isChecked() ? (i+start)%1024 : i; //if (dynamic_cast(h)) h->Fill(ii, reinterpret_cast(fEventData->Adc_Data)[p*fEventData->Roi+i]); //else // h->SetBinContent(i+1, reinterpret_cast(fEventData->Adc_Data)[p*fEventData->Roi+i]); if (start<0) continue; if (d0) { d0->SetBinContent(ii+1, fDrsCalibration[1440*1024*0 + p*1024+(start+i)%1024]); d0->SetBinError(ii+1, fDrsCalibration[1440*1024*1 + p*1024+(start+i)%1024]); } if (d1) { d1->SetBinContent(ii+1, fDrsCalibration[1440*1024*2 + p*1024+(start+i)%1024]); d1->SetBinError(ii+1, fDrsCalibration[1440*1024*3 + p*1024+(start+i)%1024]); } if (d2) { d2->SetBinContent(ii+1, fDrsCalibration[1440*1024*4 + p*1024 + i]); d2->SetBinError(ii+1, fDrsCalibration[1440*1024*5 + p*1024 + i]); } } // ----------------------------------------------------------- if (fAdcDynamicScale->isEnabled() && fAdcDynamicScale->isChecked()) { h->SetMinimum(); h->SetMaximum(); hf->SetMinimum(h->GetMinimum()); hf->SetMaximum(h->GetMaximum()); } if (fAdcManualScale->isEnabled() && fAdcManualScale->isChecked()) { if (h->GetMinimumStored()==-1111) { h->SetMinimum(-1150);//-1026); hf->SetMinimum(-1150);//-1026); } if (h->GetMaximumStored()==-1111) { h->SetMaximum(2150);//1025); hf->SetMaximum(2150);//1025); } } if (fAdcAutoScale->isEnabled() && fAdcAutoScale->isChecked()) { h->SetMinimum(); h->SetMaximum(); if (h->GetMinimum()GetMinimum()) hf->SetMinimum(h->GetMinimum()); if (h->GetMaximum()>hf->GetMaximum()) hf->SetMaximum(h->GetMaximum()); } if (dynamic_cast(h)) { h->SetMinimum(); h->SetMaximum(); } // ----------------------------------------------------------- const int imin = ceil(hf->GetMinimum()); const int imax = floor(hf->GetMaximum()); TH1S hd("", "", imax-imin+1, imin-0.5, imax+0.5); hd.SetDirectory(0); TH1S h0("", "", imax-imin+1, imin-0.5, imax+0.5); h0.SetDirectory(0); TH1S h1("", "", imax-imin+1, imin-0.5, imax+0.5); h1.SetDirectory(0); TH1S h2("", "", imax-imin+1, imin-0.5, imax+0.5); h2.SetDirectory(0); hd.SetLineColor(h->GetLineColor()); if (d0) h0.SetLineColor(d0->GetLineColor()); if (d1) h1.SetLineColor(d1->GetLineColor()); if (d2) h2.SetLineColor(d2->GetLineColor()); for (int i=0; iRoi; i++) { if (!dynamic_cast(h)) hd.Fill(h->GetBinContent(i+1)); if (d0) h0.Fill(d0->GetBinContent(i+1)); if (d1) h1.Fill(d1->GetBinContent(i+1)); if (d2) h2.Fill(d2->GetBinContent(i+1)); } double mm = hd.GetMaximum(hd.GetEntries()); if (h0.GetMaximum(h0.GetEntries())>mm) mm = h0.GetMaximum(); if (h1.GetMaximum(h1.GetEntries())>mm) mm = h1.GetMaximum(); if (h2.GetMaximum(h2.GetEntries())>mm) mm = h2.GetMaximum(); TIter Next(hf->GetListOfFunctions()); TObject *obj = 0; while ((obj=Next())) if (dynamic_cast(obj)) delete hf->GetListOfFunctions()->Remove(obj); const double l = h->GetBinLowEdge(h->GetXaxis()->GetLast()+1); const double m = c->GetX2(); const double scale = 0.9*(m-l)/mm; c->cd(); DrawHorizontal(hf, l, h2, scale); DrawHorizontal(hf, l, h1, scale); DrawHorizontal(hf, l, h0, scale); DrawHorizontal(hf, l, hd, scale); // ----------------------------------------------------------- c->Modified(); c->Update(); #endif } void handleFadRawData(const DimData &d) { if (d.size()==0) return; if (fAdcStop->isChecked()) return; const EVENT &dat = d.ref(); if (d.size()=" << sizeof(EVENT) << endl; return; } if (d.size()!=sizeof(EVENT)+dat.Roi*4*1440) { cerr << "Size mismatch in " << d.name << ": Found=" << d.size() << " Expected=" << dat.Roi*4*1440+sizeof(EVENT) << " [roi=" << dat.Roi << "]" << endl; return; } delete fEventData; fEventData = reinterpret_cast(new char[d.size()]); memcpy(fEventData, d.ptr(), d.size()); DisplayEventData(); } void handleFadEventData(const DimData &d) { if (!CheckSize(d, 4*1440*sizeof(float))) return; const float *ptr = d.ptr(); valarray arr1(1440); valarray arr2(1440); valarray arr3(1440); valarray arr4(1440); for (vector::const_iterator it=fPixelMap.begin(); it!=fPixelMap.end(); it++) { arr1[it->index] = ptr[0*1440+it->hw()]; arr2[it->index] = ptr[1*1440+it->hw()]; arr3[it->index] = ptr[2*1440+it->hw()]; arr4[it->index] = ptr[3*1440+it->hw()]; } fEventCanv1->SetData(arr1); fEventCanv2->SetData(arr2); fEventCanv3->SetData(arr3); fEventCanv4->SetData(arr4); } vector fDrsCalibration; void handleFadDrsCalibration(const DimData &d) { if (d.size()==0) { fDrsCalibBaseline->setValue(0); fDrsCalibGain->setValue(0); fDrsCalibTrgOffset->setValue(0); fDrsCalibration.assign(1024*1440*6, 0); DisplayEventData(); return; } if (!CheckSize(d, 1024*1440*6*sizeof(float)+3*sizeof(uint32_t))) // Do WHAT? return; const uint32_t *run = d.ptr(); fDrsCalibBaseline->setValue(run[0]); fDrsCalibGain->setValue(run[1]); fDrsCalibTrgOffset->setValue(run[2]); const float *dat = d.ptr(sizeof(uint32_t)*3); fDrsCalibration.assign(dat, dat+1024*1440*6); DisplayEventData(); } // vector fFadConnections; void handleFadConnections(const DimData &d) { if (!CheckSize(d, 41)) { fStatusEventBuilderLabel->setText("Offline"); fStatusEventBuilderLabel->setToolTip("FADs or fadctrl seems to be offline."); fEvtBldWidget->setEnabled(false); SetLedColor(fStatusEventBuilderLed, kLedGray, d.time); return; } const uint8_t *ptr = d.ptr(); for (int i=0; i<40; i++) { const uint8_t stat1 = ptr[i]&3; const uint8_t stat2 = ptr[i]>>3; if (stat1==0 && stat2==0) { SetLedColor(fFadLED[i], kLedGray, d.time); continue; } if (stat1==2 && stat2==8) { SetLedColor(fFadLED[i], kLedGreen, d.time); continue; } if (stat1==1 && stat2==1) SetLedColor(fFadLED[i], kLedRed, d.time); else SetLedColor(fFadLED[i], kLedOrange, d.time); } const bool runs = ptr[40]!=0; fStatusEventBuilderLabel->setText(runs?"Running":"Not running"); fStatusEventBuilderLabel->setToolTip(runs?"Event builder thread running.":"Event builder thread stopped."); fEvtBldWidget->setEnabled(runs); SetLedColor(fStatusEventBuilderLed, runs?kLedGreen:kLedRed, d.time); // fFadConnections.assign(ptr, ptr+40); } template void handleFadToolTip(const Time &time, QWidget *w, T *ptr) { ostringstream tip; tip << ""; for (int b=0; b<10; b++) tip << ""; tip << ""; for (int c=0; c<4; c++) { tip << ""; for (int b=0; b<10; b++) tip << ""; tip << ""; } tip << "
" << time.GetAsStr() << " (UTC)
" << b << "
" << c << "" << ptr[c*10+b] << "
"; w->setToolTip(tip.str().c_str()); } template void handleFadMinMax(const DimData &d, QPushButton *led, S *wmin, S *wmax=0) { if (!CheckSize(d, 42*sizeof(T))) return; const T *ptr = d.ptr(); const T min = ptr[40]; const T max = ptr[41]; if (max==0 && min>max) SetLedColor(led, kLedGray, d.time); else SetLedColor(led, min==max?kLedGreen: kLedOrange, d.time); if (!wmax && max!=min) wmin->setValue(0); else wmin->setValue(min); if (wmax) wmax->setValue(max); handleFadToolTip(d.time, led, ptr); } void handleFadFwVersion(const DimData &d) { handleFadMinMax(d, fFadLedFwVersion, fFadFwVersion); } void handleFadRunNumber(const DimData &d) { handleFadMinMax(d, fFadLedRunNumber, fFadRunNumber); } void handleFadPrescaler(const DimData &d) { handleFadMinMax(d, fFadLedPrescaler, fFadPrescaler); } void handleFadDNA(const DimData &d) { if (!CheckSize(d, 40*sizeof(uint64_t))) return; const uint64_t *ptr = d.ptr(); ostringstream tip; tip << ""; tip << ""; for (int i=0; i<40; i++) { tip << dec; tip << ""; tip << ""; tip << ""; tip << hex; tip << ""; tip << ""; } tip << "
CrateBoardDNA
" << i/10 << ":" << i%10 << ":0x" << setfill('0') << setw(16) << ptr[i] << "
"; fFadDNA->setText(tip.str().c_str()); } void SetFadLed(QPushButton *led, const DimData &d, uint16_t bitmask, bool invert=false) { if (d.size()==0) { SetLedColor(led, kLedGray, d.time); return; } const bool quality = d.ptr()[0]&bitmask; const bool value = d.ptr()[1]&bitmask; const uint16_t *ptr = d.ptr()+2; SetLedColor(led, quality?kLedOrange:(value^invert?kLedGreen:kLedRed), d.time); ostringstream tip; tip << ""; for (int b=0; b<10; b++) tip << ""; tip << ""; /* tip << "" << hex; tip << ""; tip << ""; tip << ""; */ for (int c=0; c<4; c++) { tip << "" << hex; for (int b=0; b<10; b++) { tip << ""; } tip << ""; } tip << "
" << d.time.GetAsStr() << " (UTC)
" << b << "
" << d.ptr()[0] << " " << (d.ptr()[0]&bitmask) << "" << d.ptr()[1] << " " << (d.ptr()[1]&bitmask) << "
" << dec << c << "" << (ptr[c*10+b]&bitmask) << "
"; led->setToolTip(tip.str().c_str()); } void handleFadStatus(const DimData &d) { if (d.size()!=0 && !CheckSize(d, 42*sizeof(uint16_t))) return; SetFadLed(fFadLedDrsEnabled, d, FAD::EventHeader::kDenable); SetFadLed(fFadLedDrsWrite, d, FAD::EventHeader::kDwrite); SetFadLed(fFadLedDcmLocked, d, FAD::EventHeader::kDcmLocked); SetFadLed(fFadLedDcmReady, d, FAD::EventHeader::kDcmReady); SetFadLed(fFadLedSpiSclk, d, FAD::EventHeader::kSpiSclk); SetFadLed(fFadLedRefClockTooLow, d, FAD::EventHeader::kRefClkTooLow, true); SetFadLed(fFadLedBusyOn, d, FAD::EventHeader::kBusyOn); SetFadLed(fFadLedBusyOff, d, FAD::EventHeader::kBusyOff); SetFadLed(fFadLedTriggerLine, d, FAD::EventHeader::kTriggerLine); SetFadLed(fFadLedContTrigger, d, FAD::EventHeader::kContTrigger); SetFadLed(fFadLedSocket, d, FAD::EventHeader::kSock17); SetFadLed(fFadLedPllLock, d, 0xf000); } void handleFadStatistics1(const DimData &d) { if (!CheckSize(d, sizeof(GUI_STAT))) return; const GUI_STAT &stat = d.ref(); /* //info about status of the main threads int32_t readStat ; //read thread int32_t procStat ; //processing thread(s) int32_t writStat ; //write thread */ fFadBufferMax->setValue(stat.totMem/1000000); fFadBuffer->setMaximum(stat.totMem/100); fFadBuffer->setValue((stat.maxMem>stat.totMem?stat.totMem:stat.maxMem)/100); // Max mem used in last second uint32_t sum = 0; int32_t min = 0x7fffff; int32_t max = 0; int cnt = 0; int err = 0; for (int i=0; i<40; i++) { if (stat.numConn[i]!=7) continue; cnt++; sum += stat.rateBytes[i]; err += stat.errConn[i]; if (stat.rateBytes[i]max) max = stat.rateBytes[i]; } fFadEvtConn->setValue(cnt); fFadEvtConnErr->setValue(err); fFadEvtBufNew->setValue(stat.bufNew); // Incomplete in buffer fFadEvtBufEvt->setValue(stat.bufEvt); // Complete in buffer fFadEvtBufMax->setValue(stat.maxEvt); // Complete in buffer fFadEvtWrite->setValue(stat.evtWrite-stat.evtSkip-stat.evtErr); fFadEvtSkip->setValue(stat.evtSkip); fFadEvtErr->setValue(stat.evtErr); if (stat.deltaT==0) return; fFadEthernetRateMin->setValue(min/stat.deltaT); fFadEthernetRateMax->setValue(max/stat.deltaT); fFadEthernetRateTot->setValue(sum/stat.deltaT); fFadEthernetRateAvg->setValue(cnt==0 ? 0 : sum/cnt/stat.deltaT); fFadEvtRateNew->setValue(1000*stat.rateNew/stat.deltaT); fFadEvtRateWrite->setValue(1000*stat.rateWrite/stat.deltaT); fFadTransmission->setValue(fFadEvtRateNew->value()); fFadEthernet->setValue(fFadEthernetRateTot->value()); fFadWriteRate->setValue(fFadEvtRateWrite->value()); } void handleFadStatistics2(const DimData &d) { if (!CheckSize(d, sizeof(EVT_STAT))) return; //const EVT_STAT &stat = d.ref(); /* //some info about what happened since start of program (or last 'reset') uint32_t reset ; //#if increased, reset all counters uint32_t numRead[MAX_SOCK] ; //how often succesfull read from N sockets per loop uint64_t gotByte[NBOARDS] ; //#Bytes read per Board uint32_t gotErr[NBOARDS] ; //#Communication Errors per Board uint32_t evtGet; //#new Start of Events read uint32_t evtTot; //#complete Events read uint32_t evtErr; //#Events with Errors uint32_t evtSkp; //#Events incomplete (timeout) uint32_t procTot; //#Events processed uint32_t procErr; //#Events showed problem in processing uint32_t procTrg; //#Events accepted by SW trigger uint32_t procSkp; //#Events rejected by SW trigger uint32_t feedTot; //#Events used for feedBack system uint32_t feedErr; //#Events rejected by feedBack uint32_t wrtTot; //#Events written to disk uint32_t wrtErr; //#Events with write-error uint32_t runOpen; //#Runs opened uint32_t runClose; //#Runs closed uint32_t runErr; //#Runs with open/close errors //info about current connection status uint8_t numConn[NBOARDS] ; //#Sockets succesfully open per board */ } // ===================== FTM ============================================ void UpdateTriggerRate(const FTM::DimTriggerRates &sdata) { #ifdef HAVE_ROOT TCanvas *c = fFtmRateCanv->GetCanvas(); TH1 *h = (TH1*)c->FindObject("TimeFrame"); if (sdata.fTriggerRate<0) { fGraphFtmRate.Set(0); const double tm = Time().RootTime(); h->SetBins(1, tm, tm+60); h->GetXaxis()->SetTimeFormat("%M'%S\""); h->GetXaxis()->SetTitle("Time"); c->Modified(); c->Update(); return; } const double t1 = h->GetXaxis()->GetXmax(); const double t0 = h->GetXaxis()->GetXmin(); const double now = t0+sdata.fTimeStamp/1000000.; h->SetBins(h->GetNbinsX()+1, t0, now+1); fGraphFtmRate.SetPoint(fGraphFtmRate.GetN(), now, sdata.fTriggerRate); if (t1-t0>60) { h->GetXaxis()->SetTimeFormat("%Hh%M'"); h->GetXaxis()->SetTitle("Time"); } h->SetMinimum(0); c->Modified(); c->Update(); #endif } void UpdateRatesCam(const FTM::DimTriggerRates &sdata) { if (fThresholdIdx->value()>=0) { const int isw = fThresholdIdx->value(); const int ihw = fPatchMapHW[isw]; fPatchRate->setValue(sdata.fPatchRate[ihw]); } valarray dat(0., 1440); // fPatch converts from software id to software patch id for (int i=0; i<1440; i++) { const int ihw = fPatchHW[i]; // const int isw = fPatch[i]; // const int ihw = fPatchMapHW[isw]; dat[i] = sdata.fPatchRate[ihw]; fRatesCanv->SetEnable(ihw, fFtuStatus[ihw/4]); } fRatesCanv->SetData(dat); } int64_t fTimeStamp0; void UpdateRatesGraphs(const FTM::DimTriggerRates &sdata) { #ifdef HAVE_ROOT if (fTimeStamp0<0) { fTimeStamp0 = sdata.fTimeStamp; return; } TCanvas *c = fFtmRateCanv->GetCanvas(); TH1 *h = (TH1*)c->FindObject("TimeFrame"); const double tdiff = sdata.fTimeStamp-fTimeStamp0; fTimeStamp0 = sdata.fTimeStamp; if (tdiff<0) { for (int i=0; i<160; i++) fGraphPatchRate[i].Set(0); for (int i=0; i<40; i++) fGraphBoardRate[i].Set(0); return; } //const double t1 = h->GetXaxis()->GetXmax(); const double t0 = h->GetXaxis()->GetXmin(); for (int i=0; i<160; i++) if (fFtuStatus[i/4]>0) fGraphPatchRate[i].SetPoint(fGraphPatchRate[i].GetN(), t0+sdata.fTimeStamp/1000000., sdata.fPatchRate[i]); for (int i=0; i<40; i++) if (fFtuStatus[i]>0) fGraphBoardRate[i].SetPoint(fGraphBoardRate[i].GetN(), t0+sdata.fTimeStamp/1000000., sdata.fBoardRate[i]); c->Modified(); c->Update(); #endif } void handleFtmTriggerRates(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimTriggerRates))) return; const FTM::DimTriggerRates &sdata = d.ref(); fFtmTime->setText(QString::number(sdata.fTimeStamp/1000000., 'f', 6)+ " s"); fTriggerCounter->setText(QString::number(sdata.fTriggerCounter)); if (sdata.fTimeStamp>0) fTriggerCounterRate->setValue(1000000.*sdata.fTriggerCounter/sdata.fTimeStamp); else fTriggerCounterRate->setValue(0); // ---------------------------------------------- fOnTime->setText(QString::number(sdata.fOnTimeCounter/1000000., 'f', 6)+" s"); if (sdata.fTimeStamp>0) fOnTimeRel->setValue(100.*sdata.fOnTimeCounter/sdata.fTimeStamp); else fOnTimeRel->setValue(0); // ---------------------------------------------- UpdateTriggerRate(sdata); UpdateRatesGraphs(sdata); UpdateRatesCam(sdata); } void handleFtmCounter(const DimData &d) { if (!CheckSize(d, sizeof(uint32_t)*6)) return; const uint32_t *sdata = d.ptr(); fFtmCounterH->setValue(sdata[0]); fFtmCounterS->setValue(sdata[1]); fFtmCounterD->setValue(sdata[2]); fFtmCounterF->setValue(sdata[3]); fFtmCounterE->setValue(sdata[4]); fFtmCounterR->setValue(sdata[5]); } void handleFtmDynamicData(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimDynamicData))) return; const FTM::DimDynamicData &sdata = d.ref(); fFtmTemp0->setValue(sdata.fTempSensor[0]*0.1); fFtmTemp1->setValue(sdata.fTempSensor[1]*0.1); fFtmTemp2->setValue(sdata.fTempSensor[2]*0.1); fFtmTemp3->setValue(sdata.fTempSensor[3]*0.1); SetLedColor(fClockCondLed, sdata.fState&FTM::kFtmLocked ? kLedGreen : kLedRed, d.time); } void DisplayRates() { #ifdef HAVE_ROOT TCanvas *c = fFtmRateCanv->GetCanvas(); while (c->FindObject("PatchRate")) c->GetListOfPrimitives()->Remove(c->FindObject("PatchRate")); while (c->FindObject("BoardRate")) c->GetListOfPrimitives()->Remove(c->FindObject("BoardRate")); c->cd(); if (fRatePatch1->value()>=0) { fGraphPatchRate[fRatePatch1->value()].SetLineColor(kRed); fGraphPatchRate[fRatePatch1->value()].SetMarkerColor(kRed); fGraphPatchRate[fRatePatch1->value()].Draw("PL"); } if (fRatePatch2->value()>=0) { fGraphPatchRate[fRatePatch2->value()].SetLineColor(kGreen); fGraphPatchRate[fRatePatch2->value()].SetMarkerColor(kGreen); fGraphPatchRate[fRatePatch2->value()].Draw("PL"); } if (fRateBoard1->value()>=0) { fGraphBoardRate[fRateBoard1->value()].SetLineColor(kMagenta); fGraphBoardRate[fRateBoard1->value()].SetMarkerColor(kMagenta); fGraphBoardRate[fRateBoard1->value()].Draw("PL"); } if (fRateBoard2->value()>=0) { fGraphBoardRate[fRateBoard2->value()].SetLineColor(kCyan); fGraphBoardRate[fRateBoard2->value()].SetMarkerColor(kCyan); fGraphBoardRate[fRateBoard2->value()].Draw("PL"); } #endif } FTM::DimStaticData fFtmStaticData; void SetFtuLed(int idx, int counter, const Time &t) { if (counter==0 || counter>3) counter = 3; if (counter<0) counter = 0; const LedColor_t col[4] = { kLedGray, kLedGreen, kLedOrange, kLedRed }; SetLedColor(fFtuLED[idx], col[counter], t); fFtuStatus[idx] = counter; } void SetFtuStatusLed(const Time &t) { const int max = fFtuStatus.max(); switch (max) { case 0: SetLedColor(fStatusFTULed, kLedGray, t); fStatusFTULabel->setText("All disabled"); fStatusFTULabel->setToolTip("All FTUs are disabled"); break; case 1: SetLedColor(fStatusFTULed, kLedGreen, t); fStatusFTULabel->setToolTip("Communication with FTU is smooth."); fStatusFTULabel->setText("ok"); break; case 2: SetLedColor(fStatusFTULed, kLedOrange, t); fStatusFTULabel->setText("Warning"); fStatusFTULabel->setToolTip("At least one FTU didn't answer immediately"); break; case 3: SetLedColor(fStatusFTULed, kLedRed, t); fStatusFTULabel->setToolTip("At least one FTU didn't answer!"); fStatusFTULabel->setText("ERROR"); break; } const int cnt = count(&fFtuStatus[0], &fFtuStatus[40], 0); fFtuAllOn->setEnabled(cnt!=0); fFtuAllOff->setEnabled(cnt!=40); } void handleFtmStaticData(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimStaticData))) return; const FTM::DimStaticData &sdata = d.ref(); fTriggerInterval->setValue(sdata.fTriggerInterval); fPhysicsCoincidence->setValue(sdata.fMultiplicityPhysics); fCalibCoincidence->setValue(sdata.fMultiplicityCalib); fPhysicsWindow->setValue(sdata.fWindowPhysics); fCalibWindow->setValue(sdata.fWindowCalib); fTriggerDelay->setValue(sdata.fDelayTrigger); fTimeMarkerDelay->setValue(sdata.fDelayTimeMarker); fDeadTime->setValue(sdata.fDeadTime); fClockCondR0->setValue(sdata.fClockConditioner[0]); fClockCondR1->setValue(sdata.fClockConditioner[1]); fClockCondR8->setValue(sdata.fClockConditioner[2]); fClockCondR9->setValue(sdata.fClockConditioner[3]); fClockCondR11->setValue(sdata.fClockConditioner[4]); fClockCondR13->setValue(sdata.fClockConditioner[5]); fClockCondR14->setValue(sdata.fClockConditioner[6]); fClockCondR15->setValue(sdata.fClockConditioner[7]); const uint32_t R0 = sdata.fClockConditioner[0]; const uint32_t R14 = sdata.fClockConditioner[6]; const uint32_t R15 = sdata.fClockConditioner[7]; const uint32_t Ndiv = (R15&0x1ffff00)<<2; const uint32_t Rdiv = (R14&0x007ff00)>>8; const uint32_t Cdiv = (R0 &0x000ff00)>>8; double freq = 40.*Ndiv/(Rdiv*Cdiv); fClockCondFreqRes->setValue(freq); //fClockCondFreq->setEditText(""); fClockCondFreq->setCurrentIndex(0); fTriggerSeqPed->setValue(sdata.fTriggerSeqPed); fTriggerSeqLPint->setValue(sdata.fTriggerSeqLPint); fTriggerSeqLPext->setValue(sdata.fTriggerSeqLPext); fLpIntIntensity->setValue(sdata.fIntensityLPint); fLpExtIntensity->setValue(sdata.fIntensityLPext); fLpIntGroup1->setChecked(sdata.HasLPintG1()); fLpIntGroup2->setChecked(sdata.HasLPintG2()); fLpExtGroup1->setChecked(sdata.HasLPextG1()); fLpExtGroup2->setChecked(sdata.HasLPextG2()); fEnableTrigger->setChecked(sdata.HasTrigger()); fEnableVeto->setChecked(sdata.HasVeto()); fEnableExt1->setChecked(sdata.HasExt1()); fEnableExt2->setChecked(sdata.HasExt2()); fEnableClockCond->setChecked(sdata.HasClockConditioner()); for (int i=0; i<40; i++) { if (!sdata.IsActive(i)) SetFtuLed(i, -1, d.time); else { if (fFtuStatus[i]==0) SetFtuLed(i, 1, d.time); } fFtuLED[i]->setChecked(false); } SetFtuStatusLed(d.time); for (vector::const_iterator it=fPixelMap.begin(); it!=fPixelMap.end(); it++) fRatesCanv->SetEnable(it->index, sdata.IsEnabled(it->hw())); const PixelMapEntry &entry = fPixelMap.index(fPixelIdx->value()); fPixelEnable->setChecked(sdata.IsEnabled(entry.index)); if (fThresholdIdx->value()>=0) { const int isw = fThresholdIdx->value(); const int ihw = fPatchMapHW[isw]; fThresholdVal->setValue(sdata.fThreshold[ihw]); } fPrescalingVal->setValue(sdata.fPrescaling[0]); fFtmStaticData = sdata; } void handleFtmPassport(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimPassport))) return; const FTM::DimPassport &sdata = d.ref(); stringstream str1, str2; str1 << hex << "0x" << setfill('0') << setw(16) << sdata.fBoardId; str2 << sdata.fFirmwareId; fFtmBoardId->setText(str1.str().c_str()); fFtmFirmwareId->setText(str2.str().c_str()); } void handleFtmFtuList(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimFtuList))) return; fFtuPing->setChecked(false); const FTM::DimFtuList &sdata = d.ref(); stringstream str; str << "" << setfill('0'); str << ""; for (int i=0; i<40; i++) { str << ""; str << ""; str << ""; str << ""; str << ""; str << ""; str << ""; } str << "
NumAddrDNA
" << dec << i << hex << ":0x" << setw(2) << (int)sdata.fAddr[i] << ":0x" << setw(16) << sdata.fDNA[i] << "
"; fFtuDNA->setText(str.str().c_str()); fFtuAnswersTotal->setValue(sdata.fNumBoards); fFtuAnswersCrate0->setValue(sdata.fNumBoardsCrate[0]); fFtuAnswersCrate1->setValue(sdata.fNumBoardsCrate[1]); fFtuAnswersCrate2->setValue(sdata.fNumBoardsCrate[2]); fFtuAnswersCrate3->setValue(sdata.fNumBoardsCrate[3]); for (int i=0; i<40; i++) SetFtuLed(i, sdata.IsActive(i) ? sdata.fPing[i] : -1, d.time); SetFtuStatusLed(d.time); } void handleFtmError(const DimData &d) { if (!CheckSize(d, sizeof(FTM::DimError))) return; const FTM::DimError &sdata = d.ref(); SetFtuLed(sdata.fError.fDestAddress, sdata.fError.fNumCalls, d.time); SetFtuStatusLed(d.time); // FIXME: Write to special window! //Out() << "Error:" << endl; //Out() << sdata.fError << endl; } // ========================== FSC ======================================= void SetFscValue(QDoubleSpinBox *box, const DimData &d, int idx, bool enable) { box->setEnabled(enable); if (!enable) { box->setToolTip(d.time.GetAsStr().c_str()); return; } ostringstream str; str << d.time << " -- " << d.get() << "s"; box->setToolTip(str.str().c_str()); box->setValue(d.get(idx*4+4)); } void handleFscTemp(const DimData &d) { const bool enable = d.size()>0 && CheckSize(d, 60*sizeof(float)); QDoubleSpinBox *boxes[] = { fTempCam00, fTempCam01, fTempCam10, fTempCam11, fTempCam12, fTempCam13, fTempCam14, fTempCam20, fTempCam21, fTempCam22, fTempCam23, fTempCam24, fTempCam25, fTempCam30, fTempCam31, fTempCam32, fTempCam33, fTempCam34, fTempCam40, fTempCam41, fTempCam42, fTempCam43, fTempCam44, fTempCam45, fTempCam50, fTempCam51, fTempCam52, fTempCam53, fTempCam54, fTempCam60, fTempCam61, fTempCrate00, fTempCrate01, fTempCrate10, fTempCrate11, fTempCrate20, fTempCrate21, fTempCrate30, fTempCrate31, fTempPS00, fTempPS01, fTempPS10, fTempPS11, fTempPS20, fTempPS21, fTempPS30, fTempPS31, fTempAux0a, fTempAux0b, fTempAux1a, fTempAux1b, fTempBackpanel0a, fTempBackpanel0b, fTempBackpanel1a, fTempBackpanel1b, fTempSwitchbox0a, fTempSwitchbox0b, fTempSwitchbox1a, fTempSwitchbox1b, }; for (int i=0; i<59; i++) SetFscValue(boxes[i], d, i, enable); if (!enable) return; const float *ptr = d.ptr(); double avg = 0; int num = 0; for (int i=1; i<32; i++) if (ptr[i]!=0) { avg += ptr[i]; num ++; } fTempCamAvg->setValue(num?avg/num:0); } void handleFscVolt(const DimData &d) { const bool enable = d.size()>0 && CheckSize(d, 31*sizeof(float)); QDoubleSpinBox *boxes[] = { fVoltFad00, fVoltFad10, fVoltFad20, fVoltFad30, fVoltFad01, fVoltFad11, fVoltFad21, fVoltFad31, fVoltFad02, fVoltFad12, fVoltFad22, fVoltFad32, fVoltFPA00, fVoltFPA10, fVoltFPA20, fVoltFPA30, fVoltFPA01, fVoltFPA11, fVoltFPA21, fVoltFPA31, fVoltFPA02, fVoltFPA12, fVoltFPA22, fVoltFPA32, fVoltETH0, fVoltETH1, fVoltFTM0, fVoltFTM1, fVoltFFC, fVoltFLP, }; for (int i=0; i<30; i++) SetFscValue(boxes[i], d, i, enable); } void handleFscCurrent(const DimData &d) { const bool enable = d.size()>0 && CheckSize(d, 31*sizeof(float)); QDoubleSpinBox *boxes[] = { fAmpFad00, fAmpFad10, fAmpFad20, fAmpFad30, fAmpFad01, fAmpFad11, fAmpFad21, fAmpFad31, fAmpFad02, fAmpFad12, fAmpFad22, fAmpFad32, fAmpFPA00, fAmpFPA10, fAmpFPA20, fAmpFPA30, fAmpFPA01, fAmpFPA11, fAmpFPA21, fAmpFPA31, fAmpFPA02, fAmpFPA12, fAmpFPA22, fAmpFPA32, fAmpETH0, fAmpETH1, fAmpFTM0, fAmpFTM1, fAmpFFC, fAmpFLP, }; for (int i=0; i<30; i++) SetFscValue(boxes[i], d, i, enable); } void handleFscHumidity(const DimData &d) { const bool enable = d.size()>0 && CheckSize(d, 5*sizeof(float)); SetFscValue(fHumidity1, d, 0, enable); SetFscValue(fHumidity2, d, 1, enable); SetFscValue(fHumidity3, d, 2, enable); SetFscValue(fHumidity4, d, 3, enable); } // ========================== FSC ======================================= vector fVecBiasVolt; vector fVecBiasCurrent; void handleBiasVolt(const DimData &d) { if (!CheckSize(d, 2*416*sizeof(int16_t))) return; const int16_t *ptr = d.ptr(); fVecBiasVolt.assign(ptr, ptr+2*416); on_fBiasDispRefVolt_stateChanged(); UpdateBiasValues(); } void handleBiasCurrent(const DimData &d) { if (!CheckSize(d, 416*sizeof(int16_t))) return; const int16_t *ptr = d.ptr(); fVecBiasCurrent.assign(ptr, ptr+416); valarray dat(0., 1440); // fPatch converts from software id to software patch id for (int i=0; i<1440; i++) { const PixelMapEntry &entry = fPixelMap.index(i); // FIXME: Display Overcurrent dat[i] = abs(ptr[entry.hv()])*5000./4096; fBiasCamA->SetEnable(i, uint16_t(ptr[entry.hv()])!=0x8000); fBiasCamA->highlightPixel(i, ptr[entry.hv()]<0); } fBiasCamA->SetData(dat); fBiasCamA->updateGL(); UpdateBiasValues(); } // ====================== MessageImp ==================================== bool fChatOnline; void handleStateChanged(const Time &time, const std::string &server, const State &s) { // FIXME: Prefix tooltip with time if (server=="FTM_CONTROL") { // FIXME: Enable FTU page!!! fStatusFTMLabel->setText(s.name.c_str()); fStatusFTMLabel->setToolTip(s.comment.c_str()); bool enable = false; if (s.indexsetEnabled(enable); fFtuGroupEnable->setEnabled(enable); fRatesControls->setEnabled(enable); fFtuWidget->setEnabled(s.index>FTM::StateMachine::kDisconnected); if (s.index>=FTM::StateMachine::kConnected) SetFtuStatusLed(time); else { SetLedColor(fStatusFTULed, kLedGray, time); fStatusFTULabel->setText("Offline"); fStatusFTULabel->setToolTip("FTM is not online."); } } if (server=="FAD_CONTROL") { fStatusFADLabel->setText(s.name.c_str()); fStatusFADLabel->setToolTip(s.comment.c_str()); bool enable = false; if (s.indexsetText("Offline"); fStatusEventBuilderLabel->setToolTip("No connection to fadctrl."); fEvtBldWidget->setEnabled(false); SetLedColor(fStatusEventBuilderLed, kLedGray, time); */ } if (s.index==FAD::kOffline) // Dim connection / FTM disconnected SetLedColor(fStatusFADLed, kLedRed, time); if (s.index==FAD::kDisconnected) // Dim connection / FTM disconnected SetLedColor(fStatusFADLed, kLedOrange, time); if (s.index==FAD::kConnecting) // Dim connection / FTM disconnected { SetLedColor(fStatusFADLed, kLedYellow, time); // FIXME FIXME FIXME: The LEDs are not displayed when disabled! enable = true; } if (s.index>=FAD::kConnected) // Dim connection / FTM connected { SetLedColor(fStatusFADLed, kLedGreen, time); enable = true; } fFadWidget->setEnabled(enable); } if (server=="FSC_CONTROL") { fStatusFSCLabel->setText(s.name.c_str()); fStatusFSCLabel->setToolTip(s.comment.c_str()); bool enable = false; if (s.index<1) // No Dim connection SetLedColor(fStatusFSCLed, kLedGray, time); if (s.index==1) // Dim connection / FTM disconnected SetLedColor(fStatusFSCLed, kLedRed, time); if (s.index>=2) // Dim connection / FTM disconnected { SetLedColor(fStatusFSCLed, kLedGreen, time); enable = true; } fAuxWidget->setEnabled(enable); } if (server=="BIAS_CONTROL") { fStatusBiasLabel->setText(s.name.c_str()); fStatusBiasLabel->setToolTip(s.comment.c_str()); if (s.index<1) // No Dim connection SetLedColor(fStatusBiasLed, kLedGray, time); if (s.index==BIAS::kDisconnected) // Dim connection / FTM disconnected SetLedColor(fStatusBiasLed, kLedRed, time); if (s.index==BIAS::kConnecting || s.index==BIAS::kInitializing) // Connecting / Initializing SetLedColor(fStatusBiasLed, kLedOrange, time); if (s.index==BIAS::kConnected) // Connected SetLedColor(fStatusBiasLed, kLedYellow, time); if (s.index==BIAS::kRamping) // Ramping SetLedColor(fStatusBiasLed, kLedInProgress, time); if (s.index==BIAS::kOverCurrent) // Over current SetLedColor(fStatusBiasLed, kLedWarnBorder, time); if (s.index==BIAS::kAtReference) // At reference SetLedColor(fStatusBiasLed, kLedGreen, time); if (s.index==BIAS::kExpertMode) // ExpertMode SetLedColor(fStatusBiasLed, kLedWarnTriangleBorder, time); fBiasWidget->setEnabled(s.index>=3); } if (server=="DATA_LOGGER") { fStatusLoggerLabel->setText(s.name.c_str()); fStatusLoggerLabel->setToolTip(s.comment.c_str()); bool enable = true; if (s.index<=30) // Ready/Waiting SetLedColor(fStatusLoggerLed, kLedYellow, time); if (s.index<-1) // Offline { SetLedColor(fStatusLoggerLed, kLedGray, time); enable = false; } if (s.index>=0x100) // Error SetLedColor(fStatusLoggerLed, kLedRed, time); if (s.index==40) // Logging SetLedColor(fStatusLoggerLed, kLedGreen, time); fLoggerWidget->setEnabled(enable); } if (server=="CHAT") { fStatusChatLabel->setText(s.name.c_str()); fChatOnline = s.index==0; SetLedColor(fStatusChatLed, fChatOnline ? kLedGreen : kLedGray, time); fChatSend->setEnabled(fChatOnline); fChatMessage->setEnabled(fChatOnline); } if (server=="SCHEDULER") { fStatusSchedulerLabel->setText(s.name.c_str()); SetLedColor(fStatusSchedulerLed, s.index>=0 ? kLedGreen : kLedRed, time); } } void on_fTabWidget_currentChanged(int which) { if (fTabWidget->tabText(which)=="Chat") fTabWidget->setTabIcon(which, QIcon()); } void handleWrite(const Time &time, const string &text, int qos) { stringstream out; if (text.substr(0, 6)=="CHAT: ") { if (qos==MessageImp::kDebug) return; out << "["; out << time.GetAsStr("%H:%M:%S"); out << "] " << text.substr(6); fChatText->append(out.str().c_str()); if (fTabWidget->tabText(fTabWidget->currentIndex())=="Chat") return; static int num = 0; if (num++<2) return; for (int i=0; icount(); i++) if (fTabWidget->tabText(i)=="Chat") { fTabWidget->setTabIcon(i, QIcon(":/Resources/icons/warning 3.png")); break; } return; } out << ""; out << time.GetAsStr("%H:%M:%S.%f").substr(0,12); out << " - " << text << ""; fLogText->append(out.str().c_str()); if (qos>=kWarn && qos!=kDebug) fTextEdit->append(out.str().c_str()); } void IndicateStateChange(const Time &time, const std::string &server) { const State s = GetState(server, GetCurrentState(server)); QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleStateChanged, this, time, server, s))); } int Write(const Time &time, const string &txt, int qos) { QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleWrite, this, time, txt, qos))); return 0; } // ====================== Dim infoHandler================================ void handleDimService(const string &txt) { fDimSvcText->append(txt.c_str()); } void infoHandlerService(DimInfo &info) { const string fmt = string(info.getFormat()).empty() ? "C" : info.getFormat(); stringstream dummy; const Converter conv(dummy, fmt, false); const Time tm(info.getTimestamp(), info.getTimestampMillisecs()*1000); stringstream out; out << "["; out << tm.GetAsStr("%H:%M:%S.%f").substr(0,12); out << "] " << info.getName() << " - "; bool iserr = true; if (!conv) { out << "Compilation of format string '" << fmt << "' failed!"; } else { try { const string dat = conv.GetString(info.getData(), info.getSize()); out << dat; iserr = false; } catch (const runtime_error &e) { out << "Conversion to string failed!
" << e.what() << "
"; } } // srand(hash()(string(info.getName()))); // int bg = rand()&0xffffff; int bg = hash()(string(info.getName())); // allow only light colors bg = ~(bg&0x1f1f1f)&0xffffff; if (iserr) bg = 0xffffff; stringstream bgcol; bgcol << hex << setfill('0') << setw(6) << bg; const string col = iserr ? "red" : "black"; const string str = "
"+out.str()+"
"; QApplication::postEvent(this, new FunctionEvent(boost::bind(&FactGui::handleDimService, this, str))); } void CallInfoHandler(void (FactGui::*handler)(const DimData&), const DimData &d) { fInHandler = true; (this->*handler)(d); fInHandler = false; } /* void CallInfoHandler(const boost::function &func) { // This ensures that newly received values are not sent back to the emitter // because changing the value emits the valueChanged signal (or similar) fInHandler = true; func(); fInHandler = false; }*/ void PostInfoHandler(void (FactGui::*handler)(const DimData&)) { //const boost::function f = boost::bind(handler, this, DimData(getInfo())); FunctionEvent *evt = new FunctionEvent(boost::bind(&FactGui::CallInfoHandler, this, handler, DimData(getInfo()))); // FunctionEvent *evt = new FunctionEvent(boost::bind(&FactGui::CallInfoHandler, this, f)); // FunctionEvent *evt = new FunctionEvent(boost::bind(handler, this, DimData(getInfo())))); QApplication::postEvent(this, evt); } void infoHandler() { // Initialize the time-stamp (what a weird workaround...) if (getInfo()) getInfo()->getTimestamp(); if (getInfo()==&fDimDNS) return PostInfoHandler(&FactGui::handleDimDNS); #ifdef DEBUG_DIM cout << "HandleDimInfo " << getInfo()->getName() << endl; #endif if (getInfo()==&fDimLoggerStats) return PostInfoHandler(&FactGui::handleLoggerStats); // if (getInfo()==&fDimFadFiles) // return PostInfoHandler(&FactGui::handleFadFiles); if (getInfo()==&fDimFadWriteStats) return PostInfoHandler(&FactGui::handleFadWriteStats); if (getInfo()==&fDimFadConnections) return PostInfoHandler(&FactGui::handleFadConnections); if (getInfo()==&fDimFadFwVersion) return PostInfoHandler(&FactGui::handleFadFwVersion); if (getInfo()==&fDimFadRunNumber) return PostInfoHandler(&FactGui::handleFadRunNumber); if (getInfo()==&fDimFadDNA) return PostInfoHandler(&FactGui::handleFadDNA); if (getInfo()==&fDimFadTemperature) return PostInfoHandler(&FactGui::handleFadTemperature); if (getInfo()==&fDimFadRefClock) return PostInfoHandler(&FactGui::handleFadRefClock); if (getInfo()==&fDimFadRoi) return PostInfoHandler(&FactGui::handleFadRoi); if (getInfo()==&fDimFadDac) return PostInfoHandler(&FactGui::handleFadDac); if (getInfo()==&fDimFadDrsCalibration) return PostInfoHandler(&FactGui::handleFadDrsCalibration); if (getInfo()==&fDimFadPrescaler) return PostInfoHandler(&FactGui::handleFadPrescaler); if (getInfo()==&fDimFadStatus) return PostInfoHandler(&FactGui::handleFadStatus); if (getInfo()==&fDimFadStatistics1) return PostInfoHandler(&FactGui::handleFadStatistics1); if (getInfo()==&fDimFadStatistics2) return PostInfoHandler(&FactGui::handleFadStatistics2); if (getInfo()==&fDimFadEvents) return PostInfoHandler(&FactGui::handleFadEvents); if (getInfo()==&fDimFadRuns) return PostInfoHandler(&FactGui::handleFadRuns); if (getInfo()==&fDimFadStartRun) return PostInfoHandler(&FactGui::handleFadStartRun); if (getInfo()==&fDimFadRawData) return PostInfoHandler(&FactGui::handleFadRawData); if (getInfo()==&fDimFadEventData) return PostInfoHandler(&FactGui::handleFadEventData); /* if (getInfo()==&fDimFadSetup) return PostInfoHandler(&FactGui::handleFadSetup); */ if (getInfo()==&fDimLoggerFilenameNight) return PostInfoHandler(&FactGui::handleLoggerFilenameNight); if (getInfo()==&fDimLoggerNumSubs) return PostInfoHandler(&FactGui::handleLoggerNumSubs); if (getInfo()==&fDimLoggerFilenameRun) return PostInfoHandler(&FactGui::handleLoggerFilenameRun); if (getInfo()==&fDimFtmTriggerRates) return PostInfoHandler(&FactGui::handleFtmTriggerRates); if (getInfo()==&fDimFtmCounter) return PostInfoHandler(&FactGui::handleFtmCounter); if (getInfo()==&fDimFtmDynamicData) return PostInfoHandler(&FactGui::handleFtmDynamicData); if (getInfo()==&fDimFtmPassport) return PostInfoHandler(&FactGui::handleFtmPassport); if (getInfo()==&fDimFtmFtuList) return PostInfoHandler(&FactGui::handleFtmFtuList); if (getInfo()==&fDimFtmStaticData) return PostInfoHandler(&FactGui::handleFtmStaticData); if (getInfo()==&fDimFtmError) return PostInfoHandler(&FactGui::handleFtmError); if (getInfo()==&fDimFscTemp) return PostInfoHandler(&FactGui::handleFscTemp); if (getInfo()==&fDimFscVolt) return PostInfoHandler(&FactGui::handleFscVolt); if (getInfo()==&fDimFscCurrent) return PostInfoHandler(&FactGui::handleFscCurrent); if (getInfo()==&fDimFscHumidity) return PostInfoHandler(&FactGui::handleFscHumidity); if (getInfo()==&fDimBiasVolt) return PostInfoHandler(&FactGui::handleBiasVolt); if (getInfo()==&fDimBiasCurrent) return PostInfoHandler(&FactGui::handleBiasCurrent); // if (getInfo()==&fDimFadFiles) // return PostInfoHandler(&FactGui::handleFadFiles); for (map::iterator i=fServices.begin(); i!=fServices.end(); i++) if (i->second==getInfo()) { infoHandlerService(*i->second); return; } DimNetwork::infoHandler(); } // ====================================================================== bool event(QEvent *evt) { if (dynamic_cast(evt)) return static_cast(evt)->Exec(); if (dynamic_cast(evt)) { const QStandardItem &item = static_cast(evt)->item; const QStandardItem *par = item.parent(); if (par) { const QString server = par->text(); const QString service = item.text(); const string s = (server+'/'+service).toStdString(); if (item.checkState()==Qt::Checked) SubscribeService(s); else UnsubscribeService(s); } } return MainWindow::event(evt); // unrecognized } void on_fDimCmdSend_clicked() { const QString server = fDimCmdServers->currentIndex().data().toString(); const QString command = fDimCmdCommands->currentIndex().data().toString(); const QString arguments = fDimCmdLineEdit->displayText(); // FIXME: Sending a command exactly when the info Handler changes // the list it might lead to confusion. try { SendDimCommand(server.toStdString(), command.toStdString()+" "+arguments.toStdString()); fTextEdit->append("Command '"+server+'/'+command+"' successfully emitted."); fDimCmdLineEdit->clear(); } catch (const runtime_error &e) { stringstream txt; txt << e.what(); string buffer; while (getline(txt, buffer, '\n')) fTextEdit->append(("
"+buffer+"
").c_str()); } } #ifdef HAVE_ROOT void slot_RootEventProcessed(TObject *obj, unsigned int evt, TCanvas *canv) { // kMousePressEvent // TCanvas processed QEvent mousePressEvent // kMouseMoveEvent // TCanvas processed QEvent mouseMoveEvent // kMouseReleaseEvent // TCanvas processed QEvent mouseReleaseEvent // kMouseDoubleClickEvent // TCanvas processed QEvent mouseDoubleClickEvent // kKeyPressEvent // TCanvas processed QEvent keyPressEvent // kEnterEvent // TCanvas processed QEvent enterEvent // kLeaveEvent // TCanvas processed QEvent leaveEvent if (dynamic_cast(obj)) return; TQtWidget *tipped = static_cast(sender()); if (evt==11/*kMouseReleaseEvent*/) return; if (evt==61/*kMouseDoubleClickEvent*/) return; if (obj) { // Find the object which will get picked by the GetObjectInfo // due to buffer overflows in many root-versions // in TH1 and TProfile we have to work around and implement // our own GetObjectInfo which make everything a bit more // complicated. canv->cd(); #if ROOT_VERSION_CODE > ROOT_VERSION(5,22,00) const char *objectInfo = obj->GetObjectInfo(tipped->GetEventX(),tipped->GetEventY()); #else const char *objectInfo = dynamic_cast(obj) ? "" : obj->GetObjectInfo(tipped->GetEventX(),tipped->GetEventY()); #endif QString tipText; tipText += obj->GetName(); tipText += " ["; tipText += obj->ClassName(); tipText += "]: "; tipText += objectInfo; fStatusBar->showMessage(tipText, 3000); } gSystem->DispatchOneEvent(kFALSE); //gSystem->ProcessEvents(); //QWhatsThis::display(tipText) } void slot_RootUpdate() { gSystem->DispatchOneEvent(kFALSE); //gSystem->ProcessEvents(); QTimer::singleShot(10, this, SLOT(slot_RootUpdate())); } #endif void ChoosePatchThreshold(Camera &cam, int isw) { cam.Reset(); fThresholdIdx->setValue(isw); const int ihw = isw<0 ? 0 : fPatchMapHW[isw]; fPatchRate->setEnabled(isw>=0); fThresholdCrate->setEnabled(isw>=0); fThresholdBoard->setEnabled(isw>=0); fThresholdPatch->setEnabled(isw>=0); if (isw<0) return; const int patch = ihw%4; const int board = (ihw/4)%10; const int crate = (ihw/4)/10; fInChoosePatchTH = true; fThresholdCrate->setValue(crate); fThresholdBoard->setValue(board); fThresholdPatch->setValue(patch); fInChoosePatchTH = false; fThresholdVal->setValue(fFtmStaticData.fThreshold[ihw]); fPatchRate->setValue(cam.GetData(isw)); // Loop over the software idx of all pixels // for (unsigned int i=0; i<1440; i++) // if (fPatchHW[i]==ihw) // cam.SetBold(i); } /* void ChoosePatchBias(Camera &cam, int isw) { cam.Reset(); fBiasChannel->setValue(isw); const int ihw = isw<0 ? 0 : fPatchMapHW[isw]; fBiasCurrent->setEnabled(isw>=0); fBiasCrate->setEnabled(isw>=0); fBiasBoard->setEnabled(isw>=0); fBiasPatch->setEnabled(isw>=0); if (isw<0) return; const int patch = ihw%4; const int board = (ihw/4)%10; const int crate = (ihw/4)/10; fInChoosePatchBias = true; fBiasCrate->setValue(crate); fBiasBoard->setValue(board); fBiasPatch->setValue(patch); fInChoosePatchBias = false; if (fVecBias.size()>0) { // FIXME: Mapping fBiasVoltDac->setValue(fVecBias[ihw]); fBiasVolt->setValue(fVecBias[ihw]*90./4096); } fBiasCurrent->setValue(cam.GetData(isw)); // Loop over the software idx of all pixels for (unsigned int i=0; i<1440; i++) if (fPatchHW[i]==ihw) cam.SetBold(i); }*/ void slot_ChoosePixelThreshold(int isw) { fPixelIdx->setValue(isw); const PixelMapEntry &entry = fPixelMap.index(isw); fPixelEnable->setChecked(fFtmStaticData.IsEnabled(entry.hw())); } void slot_CameraDoubleClick(int isw) { fPixelIdx->setValue(isw); const PixelMapEntry &entry = fPixelMap.index(isw); Dim::SendCommand("FTM_CONTROL/TOGGLE_PIXEL", uint16_t(entry.hw())); } void slot_CameraMouseMove(int isw) { const PixelMapEntry &entry = fPixelMap.index(isw); const int ihw = entry.hw(); const int idx = fPatchHW[isw]; int ii = 0; for (; ii<160;ii++) if (idx ==fPatchMapHW[ii]) break; const int patch = idx%4; const int board = (idx/4)%10; const int crate = (idx/4)/10; QString tipText; tipText += fRatesCanv->GetName(); ostringstream str; str << " || Pixel=" << isw << " (hw=" << ihw << ") || Patch=" << ii << " (hw=" << fPatchMapHW[idx] << "; Crate=" << crate << " Board=" << board << " Patch=" << patch << ")"; tipText += str.str().c_str(); fStatusBar->showMessage(tipText, 3000); } void on_fThresholdIdx_valueChanged(int isw) { // fRatesCanv->SetBold(isw); // fRatesCanv->updateGL(); } void UpdateThresholdIdx() { if (fInChoosePatchTH) return; const int crate = fThresholdCrate->value(); const int board = fThresholdBoard->value(); const int patch = fThresholdPatch->value(); const int ihw = patch + board*4 + crate*40; int isw = 0; for (; isw<160; isw++) if (ihw==fPatchMapHW[isw]) break; on_fThresholdIdx_valueChanged(isw); } void on_fPixelIdx_valueChanged(int isw) { int ii = 0; for (; ii<160; ii++) if (fPatchHW[isw]==fPatchMapHW[ii]) break; fRatesCanv->SetWhite(isw); ChoosePatchThreshold(*fRatesCanv, ii); const PixelMapEntry &entry = fPixelMap.index(isw); fPixelEnable->setChecked(fFtmStaticData.IsEnabled(entry.hw())); } // ------------------- Bias display --------------------- void UpdateBiasValues() { const int b = fBiasHvBoard->value(); const int c = fBiasHvChannel->value(); const int ihw = b*32+c; if (fVecBiasVolt.size()>0) { fBiasVoltCur->setValue(fVecBiasVolt[ihw]*90./4096); fBiasVoltRef->setValue(fVecBiasVolt[ihw+416]*90./4096); SetLedColor(fBiasNominalLed, fVecBiasVolt[ihw]==fVecBiasVolt[ihw+416]?kLedGreen:kLedRed, Time()); } if (fVecBiasCurrent.size()>0) { fBiasCurrent->setValue(abs(fVecBiasCurrent[ihw])*5000./4096); SetLedColor(fBiasOverCurrentLed, fVecBiasCurrent[ihw]<0?kLedRed:kLedGreen, Time()); } } void UpdateBiasCam(const PixelMapEntry &entry) { fInChooseBiasCam = true; fBiasCamCrate->setValue(entry.crate()); fBiasCamBoard->setValue(entry.board()); fBiasCamPatch->setValue(entry.patch()); fBiasCamPixel->setValue(entry.pixel()); fInChooseBiasCam = false; } void BiasHvChannelChanged() { if (fInChooseBiasHv) return; const int b = fBiasHvBoard->value(); const int ch = fBiasHvChannel->value(); // FIXME: Mark corresponding patch in camera const PixelMapEntry &entry = fPixelMap.hv(b, ch); fBiasCamV->SetWhite(entry.index); fBiasCamA->SetWhite(entry.index); fBiasCamV->updateGL(); fBiasCamA->updateGL(); UpdateBiasCam(entry); UpdateBiasValues(); } void UpdateBiasHv(const PixelMapEntry &entry) { fInChooseBiasHv = true; fBiasHvBoard->setValue(entry.hv_board); fBiasHvChannel->setValue(entry.hv_channel); fInChooseBiasHv = false; } void BiasCamChannelChanged() { if (fInChooseBiasCam) return; const int crate = fBiasCamCrate->value(); const int board = fBiasCamBoard->value(); const int patch = fBiasCamPatch->value(); const int pixel = fBiasCamPixel->value(); // FIXME: Display corresponding patches const PixelMapEntry &entry = fPixelMap.cbpx(crate, board, patch, pixel); fBiasCamV->SetWhite(entry.index); fBiasCamA->SetWhite(entry.index); fBiasCamV->updateGL(); fBiasCamA->updateGL(); UpdateBiasHv(entry); UpdateBiasValues(); } void slot_ChooseBiasChannel(int isw) { const PixelMapEntry &entry = fPixelMap.index(isw); UpdateBiasHv(entry); UpdateBiasCam(entry); UpdateBiasValues(); } void on_fBiasDispRefVolt_stateChanged(int = 0) { // FIXME: Display patches for which ref==cur valarray dat(0., 1440); int offset = 0; if (!fBiasDispRefVolt->isChecked()) fBiasCamV->setTitle("Applied BIAS voltage"); else { fBiasCamV->setTitle("Reference BIAS voltage"); offset = 416; } if (fVecBiasVolt.size()>0) { for (int i=0; i<1440; i++) { const PixelMapEntry &entry = fPixelMap.index(i); dat[i] = fVecBiasVolt[entry.hv()+offset]*90./4096; fBiasCamV->highlightPixel(i, fVecBiasVolt[entry.hv()]==fVecBiasVolt[entry.hv()+416]); } fBiasCamV->SetData(dat); } fBiasCamV->updateGL(); } // ------------------------------------------------------ void on_fPixelEnable_stateChanged(int b) { if (fInHandler) return; const PixelMapEntry &entry = fPixelMap.index(fPixelIdx->value()); Dim::SendCommand(b==Qt::Unchecked ? "FTM_CONTROL/DISABLE_PIXEL" : "FTM_CONTROL/ENABLE_PIXEL", uint16_t(entry.hw())); } void on_fPixelDisableOthers_clicked() { const PixelMapEntry &entry = fPixelMap.index(fPixelIdx->value()); Dim::SendCommand("FTM_CONTROL/DISABLE_ALL_PIXELS_EXCEPT", uint16_t(entry.hw())); } void on_fThresholdDisableOthers_clicked() { const int16_t isw = fThresholdIdx->value(); const int16_t ihw = isw<0 ? -1 : fPatchMapHW[isw]; Dim::SendCommand("FTM_CONTROL/DISABLE_ALL_PATCHES_EXCEPT", ihw); } void on_fThresholdVal_valueChanged(int v) { fThresholdVolt->setValue(2500./4095*v); const int32_t isw = fThresholdIdx->value(); const int32_t ihw = isw<0 ? -1 : fPatchMapHW[isw]; const int32_t d[2] = { ihw, v }; if (!fInHandler) Dim::SendCommand("FTM_CONTROL/SET_THRESHOLD", d); } TGraph fGraphFtmTemp[4]; TGraph fGraphFtmRate; TGraph fGraphPatchRate[160]; TGraph fGraphBoardRate[40]; #ifdef HAVE_ROOT TH1 *DrawTimeFrame(const char *ytitle) { const double tm = Time().RootTime(); TH1F *h=new TH1F("TimeFrame", "", 1, tm, tm+60);//Time().RootTime()-1./24/60/60, Time().RootTime()); h->SetDirectory(0); h->SetBit(kCanDelete); h->SetStats(kFALSE); // h.SetMinimum(0); // h.SetMaximum(1); h->SetXTitle("Time"); h->SetYTitle(ytitle); h->GetXaxis()->CenterTitle(); h->GetYaxis()->CenterTitle(); h->GetXaxis()->SetTimeDisplay(true); h->GetXaxis()->SetTimeFormat("%Mh%S'"); h->GetXaxis()->SetLabelSize(0.025); h->GetYaxis()->SetLabelSize(0.025); h->GetYaxis()->SetTitleOffset(1.2); // h.GetYaxis()->SetTitleSize(1.2); h->Draw(); return h; } #endif pair Split(const string &str) const { const size_t p = str.find_first_of('|'); if (p==string::npos) return make_pair(str, ""); return make_pair(str.substr(0, p), str.substr(p+1)); } public: FactGui(Configuration &conf) : fFtuStatus(40), /*fPixelMapHW(1440),*/ fPatchMapHW(160), fPatchHW(1440), fInChoosePatchTH(false), fInChooseBiasHv(false), fInChooseBiasCam(false), fDimDNS("DIS_DNS/VERSION_NUMBER", 1, int(0), this), //- fDimLoggerStats ("DATA_LOGGER/STATS", (void*)NULL, 0, this), fDimLoggerFilenameNight("DATA_LOGGER/FILENAME_NIGHTLY", (void*)NULL, 0, this), fDimLoggerFilenameRun ("DATA_LOGGER/FILENAME_RUN", (void*)NULL, 0, this), fDimLoggerNumSubs ("DATA_LOGGER/NUM_SUBS", (void*)NULL, 0, this), //- fDimFtmPassport ("FTM_CONTROL/PASSPORT", (void*)NULL, 0, this), fDimFtmTriggerRates ("FTM_CONTROL/TRIGGER_RATES", (void*)NULL, 0, this), fDimFtmError ("FTM_CONTROL/ERROR", (void*)NULL, 0, this), fDimFtmFtuList ("FTM_CONTROL/FTU_LIST", (void*)NULL, 0, this), fDimFtmStaticData ("FTM_CONTROL/STATIC_DATA", (void*)NULL, 0, this), fDimFtmDynamicData ("FTM_CONTROL/DYNAMIC_DATA", (void*)NULL, 0, this), fDimFtmCounter ("FTM_CONTROL/COUNTER", (void*)NULL, 0, this), //- fDimFadWriteStats ("FAD_CONTROL/STATS", (void*)NULL, 0, this), fDimFadStartRun ("FAD_CONTROL/START_RUN", (void*)NULL, 0, this), fDimFadRuns ("FAD_CONTROL/RUNS", (void*)NULL, 0, this), fDimFadEvents ("FAD_CONTROL/EVENTS", (void*)NULL, 0, this), fDimFadRawData ("FAD_CONTROL/RAW_DATA", (void*)NULL, 0, this), fDimFadEventData ("FAD_CONTROL/EVENT_DATA", (void*)NULL, 0, this), fDimFadConnections ("FAD_CONTROL/CONNECTIONS", (void*)NULL, 0, this), fDimFadFwVersion ("FAD_CONTROL/FIRMWARE_VERSION", (void*)NULL, 0, this), fDimFadRunNumber ("FAD_CONTROL/RUN_NUMBER", (void*)NULL, 0, this), fDimFadDNA ("FAD_CONTROL/DNA", (void*)NULL, 0, this), fDimFadTemperature ("FAD_CONTROL/TEMPERATURE", (void*)NULL, 0, this), fDimFadPrescaler ("FAD_CONTROL/PRESCALER", (void*)NULL, 0, this), fDimFadRefClock ("FAD_CONTROL/REFERENCE_CLOCK", (void*)NULL, 0, this), fDimFadRoi ("FAD_CONTROL/REGION_OF_INTEREST", (void*)NULL, 0, this), fDimFadDac ("FAD_CONTROL/DAC", (void*)NULL, 0, this), fDimFadDrsCalibration ("FAD_CONTROL/DRS_CALIBRATION", (void*)NULL, 0, this), fDimFadStatus ("FAD_CONTROL/STATUS", (void*)NULL, 0, this), fDimFadStatistics1 ("FAD_CONTROL/STATISTICS1", (void*)NULL, 0, this), fDimFadStatistics2 ("FAD_CONTROL/STATISTICS2", (void*)NULL, 0, this), //- fDimFscTemp ("FSC_CONTROL/TEMPERATURE", (void*)NULL, 0, this), fDimFscVolt ("FSC_CONTROL/VOLTAGE", (void*)NULL, 0, this), fDimFscCurrent ("FSC_CONTROL/CURRENT", (void*)NULL, 0, this), fDimFscHumidity ("FSC_CONTROL/HUMIDITY", (void*)NULL, 0, this), //- fDimBiasVolt ("BIAS_CONTROL/VOLTAGE", (void*)NULL, 0, this), fDimBiasCurrent ("BIAS_CONTROL/CURRENT", (void*)NULL, 0, this), //- fEventData(0), fDrsCalibration(1440*1024*6), fTimeStamp0(0) { fClockCondFreq->addItem("--- Hz", QVariant(-1)); fClockCondFreq->addItem("800 MHz", QVariant(800)); fClockCondFreq->addItem("1 GHz", QVariant(1000)); fClockCondFreq->addItem("2 GHz", QVariant(2000)); fClockCondFreq->addItem("3 GHz", QVariant(3000)); fClockCondFreq->addItem("4 GHz", QVariant(4000)); fClockCondFreq->addItem("5 GHz", QVariant(5000)); cout << "-- run counter ---" << endl; fMcpNumEvents->addItem("unlimited", QVariant(0)); const vector runcount = conf.Vec("run-count"); for (vector::const_iterator it=runcount.begin(); it!=runcount.end(); it++) { cout << *it << endl; ostringstream str; str << *it; fMcpNumEvents->addItem(str.str().c_str(), QVariant(*it)); } cout << "-- run times ---" << endl; fMcpTime->addItem("unlimited", QVariant(0)); const vector runtime = conf.Vec("run-time"); for (vector::const_iterator it=runtime.begin(); it!=runtime.end(); it++) { const pair p = Split(*it); cout << *it << "|" << p.second << "|" << p.first << "|" << endl; fMcpTime->addItem(p.second.c_str(), QVariant(stoi(p.first))); } cout << "-- run types ---" << endl; const vector runtype = conf.Vec("run-type"); for (vector::const_iterator it=runtype.begin(); it!=runtype.end(); it++) { const pair p = Split(*it); cout << *it << "|" << p.second << "|" << p.first << "|" << endl; fMcpRunType->addItem(p.second.c_str(), QVariant(p.first.c_str())); } fTriggerWidget->setEnabled(false); fFtuWidget->setEnabled(false); fFtuGroupEnable->setEnabled(false); fRatesControls->setEnabled(false); fFadWidget->setEnabled(false); fEvtBldWidget->setEnabled(false); fLoggerWidget->setEnabled(false); fBiasWidget->setEnabled(false); fChatSend->setEnabled(false); fChatMessage->setEnabled(false); DimClient::sendCommand("CHAT/MSG", "GUI online."); // + MessageDimRX // -------------------------------------------------------------------------- if (!fPixelMap.Read("FACTmapV5.txt")) { cerr << "ERROR - Problems reading FACTmapV5.txt" << endl; exit(-1); } /* ifstream fin0("FACTmapV5.txt"); int l = 0; string buf; while (getline(fin0, buf, '\n')) { if (l>1439) break; buf = Tools::Trim(buf); if (buf[0]=='#') continue; stringstream str(buf); int idummy; float fdummy; PixelMapEntry entry; str >> entry.index; str >> entry.cbpx; str >> idummy; str >> idummy; str >> entry.gapd; str >> fdummy; str >> entry.hv_board; str >> entry.hv_channel; str >> fdummy; str >> fdummy; str >> fdummy; fPixelMap[l++] = entry; } if (l!=1440) { cerr << "ERROR - Problems reading FACTmapV5.txt" << endl; exit(-1); } */ // -------------------------------------------------------------------------- ifstream fin1("Trigger-Patches.txt"); string buf; int l = 0; while (getline(fin1, buf, '\n')) { buf = Tools::Trim(buf); if (buf[0]=='#') continue; stringstream str(buf); for (int i=0; i<9; i++) { unsigned int n; str >> n; if (n>=fPatchHW.size()) continue; fPatchHW[n] = l; } l++; } if (l!=160) cerr << "WARNING - Problems reading Trigger-Patches.txt" << endl; // -------------------------------------------------------------------------- /* ifstream fin2("MasterList-v3.txt"); l = 0; while (getline(fin2, buf, '\n')) { buf = Tools::Trim(buf); if (buf[0]=='#') continue; unsigned int softid, hardid, dummy; stringstream str(buf); str >> softid; str >> dummy; str >> hardid; if (softid>=fPixelMapHW.size()) continue; fPixelMapHW[softid] = hardid; l++; } if (l!=1440) cerr << "WARNING - Problems reading MasterList-v3.txt" << endl; */ // -------------------------------------------------------------------------- ifstream fin3("PatchList.txt"); l = 0; while (getline(fin3, buf, '\n')) { buf = Tools::Trim(buf); if (buf[0]=='#') continue; unsigned int softid, hardid; stringstream str(buf); str >> softid; str >> hardid; if (softid>=fPatchMapHW.size()) continue; fPatchMapHW[softid] = hardid-1; l++; } if (l!=160) cerr << "WARNING - Problems reading PatchList.txt" << endl; // -------------------------------------------------------------------------- #ifdef HAVE_ROOT fGraphFtmRate.SetLineColor(kBlue); fGraphFtmRate.SetMarkerColor(kBlue); fGraphFtmRate.SetMarkerStyle(kFullDotMedium); for (int i=0; i<160; i++) { fGraphPatchRate[i].SetName("PatchRate"); //fGraphPatchRate[i].SetLineColor(kBlue); //fGraphPatchRate[i].SetMarkerColor(kBlue); fGraphPatchRate[i].SetMarkerStyle(kFullDotMedium); } for (int i=0; i<40; i++) { fGraphBoardRate[i].SetName("BoardRate"); //fGraphBoardRate[i].SetLineColor(kBlue); //fGraphBoardRate[i].SetMarkerColor(kBlue); fGraphBoardRate[i].SetMarkerStyle(kFullDotMedium); } /* TCanvas *c = fFtmTempCanv->GetCanvas(); c->SetBit(TCanvas::kNoContextMenu); c->SetBorderMode(0); c->SetFrameBorderMode(0); c->SetFillColor(kWhite); c->SetRightMargin(0.03); c->SetTopMargin(0.03); c->cd(); */ //CreateTimeFrame("Temperature / �C"); fGraphFtmTemp[0].SetMarkerStyle(kFullDotSmall); fGraphFtmTemp[1].SetMarkerStyle(kFullDotSmall); fGraphFtmTemp[2].SetMarkerStyle(kFullDotSmall); fGraphFtmTemp[3].SetMarkerStyle(kFullDotSmall); fGraphFtmTemp[1].SetLineColor(kBlue); fGraphFtmTemp[2].SetLineColor(kRed); fGraphFtmTemp[3].SetLineColor(kGreen); fGraphFtmTemp[1].SetMarkerColor(kBlue); fGraphFtmTemp[2].SetMarkerColor(kRed); fGraphFtmTemp[3].SetMarkerColor(kGreen); //fGraphFtmTemp[0].Draw("LP"); //fGraphFtmTemp[1].Draw("LP"); //fGraphFtmTemp[2].Draw("LP"); //fGraphFtmTemp[3].Draw("LP"); // -------------------------------------------------------------------------- TCanvas *c = fFtmRateCanv->GetCanvas(); //c->SetBit(TCanvas::kNoContextMenu); c->SetBorderMode(0); c->SetFrameBorderMode(0); c->SetFillColor(kWhite); c->SetRightMargin(0.03); c->SetTopMargin(0.03); c->SetGrid(); c->cd(); TH1 *hf = DrawTimeFrame("Trigger rate [Hz]"); hf->GetYaxis()->SetRangeUser(0, 1010); fGraphFtmRate.SetMarkerStyle(kFullDotSmall); fGraphFtmRate.Draw("LP"); // -------------------------------------------------------------------------- fBiasCamV->SetMin(fBiasVoltMin->value()); fBiasCamV->SetMax(fBiasVoltMax->value()); fBiasCamV->updateGL(); fBiasCamA->SetMin(fBiasCurrentMin->value()); fBiasCamA->SetMax(fBiasCurrentMax->value()); fBiasCamA->updateGL(); // -------------------------------------------------------------------------- fRatesCanv->SetMin(fRatesMin->value()); fRatesCanv->SetMax(fRatesMax->value()); fRatesCanv->updateGL(); on_fPixelIdx_valueChanged(0); // -------------------------------------------------------------------------- c = fAdcDataCanv->GetCanvas(); //c->SetBit(TCanvas::kNoContextMenu); c->SetBorderMode(0); c->SetFrameBorderMode(0); c->SetFillColor(kWhite); c->SetRightMargin(0.10); c->SetGrid(); c->cd(); // Create histogram? // -------------------------------------------------------------------------- fRatesCanv->setTitle("Patch rates"); fRatesCanv->setUnits("Hz"); fBiasCamA->setTitle("BIAS current"); fBiasCamA->setUnits("uA"); fBiasCamV->setTitle("Applied BIAS voltage"); fBiasCamV->setUnits("V"); fEventCanv1->setTitle("Average (all slices)"); fEventCanv2->setTitle("RMS (all slices)"); fEventCanv3->setTitle("Maximum (all slices)"); fEventCanv4->setTitle("Position of maximum (all slices)"); fEventCanv1->setUnits("mV"); fEventCanv2->setUnits("mV"); fEventCanv3->setUnits("mV"); fEventCanv4->setUnits("slice"); // -------------------------------------------------------------------------- QTimer::singleShot(1000, this, SLOT(slot_RootUpdate())); //widget->setMouseTracking(true); //widget->EnableSignalEvents(kMouseMoveEvent); fFtmRateCanv->setMouseTracking(true); fFtmRateCanv->EnableSignalEvents(kMouseMoveEvent); fAdcDataCanv->setMouseTracking(true); fAdcDataCanv->EnableSignalEvents(kMouseMoveEvent); fRatesCanv->setMouseTracking(true); connect(fRatesCanv, SIGNAL(signalPixelMoveOver(int)), this, SLOT(slot_CameraMouseMove(int))); connect(fEventCanv1, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_CameraMouseMove(int))); connect(fEventCanv2, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_CameraMouseMove(int))); connect(fEventCanv3, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_CameraMouseMove(int))); connect(fEventCanv4, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_CameraMouseMove(int))); connect(fRatesCanv, SIGNAL(signalPixelDoubleClick(int)), this, SLOT(slot_CameraDoubleClick(int))); connect(fRatesCanv, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_ChoosePixelThreshold(int))); connect(fBiasCamV, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_ChooseBiasChannel(int))); connect(fBiasCamA, SIGNAL(signalCurrentPixel(int)), this, SLOT(slot_ChooseBiasChannel(int))); connect(fFtmRateCanv, SIGNAL( RootEventProcessed(TObject*, unsigned int, TCanvas*)), this, SLOT (slot_RootEventProcessed(TObject*, unsigned int, TCanvas*))); connect(fAdcDataCanv, SIGNAL( RootEventProcessed(TObject*, unsigned int, TCanvas*)), this, SLOT (slot_RootEventProcessed(TObject*, unsigned int, TCanvas*))); #endif } ~FactGui() { // Unsubscribe all services for (map::iterator i=fServices.begin(); i!=fServices.end(); i++) delete i->second; delete fEventData; } }; #endif