CMS 3D CMS Logo

Public Member Functions | Private Member Functions | Private Attributes

DTTTrigCalibration Class Reference

#include <DTTTrigCalibration.h>

Inheritance diagram for DTTTrigCalibration:
edm::EDAnalyzer

List of all members.

Public Member Functions

void analyze (const edm::Event &event, const edm::EventSetup &eventSetup)
 Fill the time boxes.
 DTTTrigCalibration (const edm::ParameterSet &pset)
 Constructor.
void endJob ()
 Fit the time box rising edge and write the resulting ttrig to the DB.
virtual ~DTTTrigCalibration ()
 Destructor.

Private Member Functions

void dumpTTrigMap (const DTTtrig *tTrig) const
std::string getOccupancyName (const DTLayerId &slId) const
std::string getTBoxName (const DTSuperLayerId &slId) const
void plotTTrig (const DTTtrig *tTrig) const

Private Attributes

bool checkNoisyChannels
bool debug
std::string digiLabel
bool doSubtractT0
bool findTMeanAndSigma
double kFactor
int maxDigiPerLayer
int maxTDCCounts
TFile * theFile
DTTimeBoxFittertheFitter
std::map< DTSuperLayerId, TH1F * > theHistoMap
std::map< DTLayerId, TH1F * > theOccupancyMap
DTTTrigBaseSynctheSync

Detailed Description

Analyzer class which fills time box plots with SL granularity for t_trig computation, fits the rising edge and write results to DB. The time boxes are written to file.

Date:
2008/12/09 22:44:10
Revision:
1.2
Author:
G. Cerminara - INFN Torino

Definition at line 34 of file DTTTrigCalibration.h.


Constructor & Destructor Documentation

DTTTrigCalibration::DTTTrigCalibration ( const edm::ParameterSet pset)

Constructor.

Definition at line 45 of file DTTTrigCalibration.cc.

References gather_cfg::cout, debug, dtT0WireCalibration_cfg::digiLabel, reco::get(), edm::ParameterSet::getUntrackedParameter(), dtT0WireCalibration_cfg::rootFileName, and interactiveExample::theFile.

                                                                  {
  // Get the debug parameter for verbose output
  debug = pset.getUntrackedParameter<bool>("debug");

  // Get the label to retrieve digis from the event
  digiLabel = pset.getUntrackedParameter<string>("digiLabel");

  // Switch on/off the DB writing
  findTMeanAndSigma = pset.getUntrackedParameter<bool>("fitAndWrite", false);

  // The TDC time-window (ns)
  maxTDCCounts = 5000 * pset.getUntrackedParameter<int>("tdcRescale", 1);
  //The maximum number of digis per layer
  maxDigiPerLayer = pset.getUntrackedParameter<int>("maxDigiPerLayer", 10);

  // The root file which will contain the histos
  string rootFileName = pset.getUntrackedParameter<string>("rootFileName");
  theFile = new TFile(rootFileName.c_str(), "RECREATE");
  theFile->cd();
  theFitter = new DTTimeBoxFitter();
  if(debug)
    theFitter->setVerbosity(1);
  
  double sigmaFit = pset.getUntrackedParameter<double>("sigmaTTrigFit",10.);
  theFitter->setFitSigma(sigmaFit);

  doSubtractT0 = pset.getUntrackedParameter<bool>("doSubtractT0","false");
  // Get the synchronizer
  if(doSubtractT0) {
    theSync = DTTTrigSyncFactory::get()->create(pset.getUntrackedParameter<string>("tTrigMode"),
                                                pset.getUntrackedParameter<ParameterSet>("tTrigModeConfig"));
  } else {
    theSync = 0;
  }

  checkNoisyChannels = pset.getUntrackedParameter<bool>("checkNoisyChannels","false");

  // the kfactor to be uploaded in the ttrig DB
  kFactor =  pset.getUntrackedParameter<double>("kFactor",-0.7);

  if(debug) 
    cout << "[DTTTrigCalibration]Constructor called!" << endl;
}
DTTTrigCalibration::~DTTTrigCalibration ( ) [virtual]

Destructor.

Definition at line 92 of file DTTTrigCalibration.cc.

References gather_cfg::cout, debug, and interactiveExample::theFile.

                                       {
  if(debug) 
    cout << "[DTTTrigCalibration]Destructor called!" << endl;

  //   // Delete all histos
  //   for(map<DTSuperLayerId, TH1F*>::const_iterator slHisto = theHistoMap.begin();
  //       slHisto != theHistoMap.end();
  //       slHisto++) {
  //     delete (*slHisto).second;
  //   }

  theFile->Close();
  delete theFitter;
}

Member Function Documentation

void DTTTrigCalibration::analyze ( const edm::Event event,
const edm::EventSetup eventSetup 
) [virtual]

Fill the time boxes.

Perform the real analysis.

Implements edm::EDAnalyzer.

Definition at line 110 of file DTTTrigCalibration.cc.

References DTLayer::chamber(), DTSuperLayerId::chamberId(), gather_cfg::cout, debug, dtT0WireCalibration_cfg::digiLabel, edm::EventSetup::get(), evf::evtn::offset(), crabStatusFromReport::statusMap, DTLayerId::superlayerId(), and interactiveExample::theFile.

                                                                                        {

  if(debug) 
    cout << "[DTTTrigCalibration] #Event: " << event.id().event() << endl;
  
  // Get the digis from the event
  Handle<DTDigiCollection> digis; 
  event.getByLabel(digiLabel, digis);

  ESHandle<DTStatusFlag> statusMap;
  if(checkNoisyChannels) {
    // Get the map of noisy channels
    eventSetup.get<DTStatusFlagRcd>().get(statusMap);
  }

  if(doSubtractT0)
    theSync->setES(eventSetup);
 
  //The chambers too noisy in this event
  vector<DTChamberId> badChambers;

  // Iterate through all digi collections ordered by LayerId   
  DTDigiCollection::DigiRangeIterator dtLayerIt;
  for (dtLayerIt = digis->begin();
       dtLayerIt != digis->end();
       ++dtLayerIt){
    // Get the iterators over the digis associated with this LayerId
    const DTDigiCollection::Range& digiRange = (*dtLayerIt).second; 
    
    const DTLayerId layerId = (*dtLayerIt).first;
    const DTSuperLayerId slId = layerId.superlayerId();
    const DTChamberId chId = slId.chamberId();
    bool badChamber=false;

    if(debug)
      cout<<"----------- Layer "<<layerId<<" -------------"<<endl;

    //Check if the layer is inside a noisy chamber
    for(vector<DTChamberId>::const_iterator chamber = badChambers.begin(); chamber != badChambers.end(); chamber++){
      if((*chamber) == chId){
        badChamber=true;
        break;
      }
    }
    if(badChamber) continue;

    //Check if the layer has too many digis
    if((digiRange.second - digiRange.first) > maxDigiPerLayer){
      if(debug)
        cout<<"Layer "<<layerId<<"has too many digis ("<<(digiRange.second - digiRange.first)<<")"<<endl;
      badChambers.push_back(chId);
      continue;
    }

    // Get the histo from the map
    TH1F *hTBox = theHistoMap[slId];
    if(hTBox == 0) {
      // Book the histogram
      theFile->cd();
      hTBox = new TH1F(getTBoxName(slId).c_str(), "Time box (ns)", int(0.25*32.0*maxTDCCounts/25.0), 0, maxTDCCounts);
      if(debug)
        cout << "  New Time Box: " << hTBox->GetName() << endl;
      theHistoMap[slId] = hTBox;
    }
    TH1F *hO = theOccupancyMap[layerId];
    if(hO == 0) {
      // Book the histogram
      theFile->cd();
      hO = new TH1F(getOccupancyName(layerId).c_str(), "Occupancy", 100, 0, 100);
      if(debug)
        cout << "  New Time Box: " << hO->GetName() << endl;
      theOccupancyMap[layerId] = hO;
    }

    // Loop over all digis in the given range
    for (DTDigiCollection::const_iterator digi = digiRange.first;
         digi != digiRange.second;
         digi++) {
      const DTWireId wireId(layerId, (*digi).wire());

      // Check for noisy channels and skip them
      if(checkNoisyChannels) {
        bool isNoisy = false;
        bool isFEMasked = false;
        bool isTDCMasked = false;
        bool isTrigMask = false;
        bool isDead = false;
        bool isNohv = false;
        statusMap->cellStatus(wireId, isNoisy, isFEMasked, isTDCMasked, isTrigMask, isDead, isNohv);
        if(isNoisy) {
          if(debug)
            cout << "Wire: " << wireId << " is noisy, skipping!" << endl;
          continue;
        }      
      }
      theFile->cd();
      double offset = 0;
      if(doSubtractT0) {
        const DTLayer* layer = 0;//fake
        const GlobalPoint glPt;//fake
        offset = theSync->offset(layer, wireId, glPt);
      }
      hTBox->Fill((*digi).time()-offset);
      if(debug) {
        cout << "   Filling Time Box:   " << hTBox->GetName() << endl;
        cout << "           offset (ns): " << offset << endl;
        cout << "           time(ns):   " << (*digi).time()-offset<< endl;
      }
      hO->Fill((*digi).wire());
    }
  }
}
void DTTTrigCalibration::dumpTTrigMap ( const DTTtrig tTrig) const [private]

Definition at line 304 of file DTTTrigCalibration.cc.

References DTTtrig::begin(), gather_cfg::cout, and DTTtrig::end().

                                                                {
  static const double convToNs = 25./32.;
  for(DTTtrig::const_iterator ttrig = tTrig->begin();
      ttrig != tTrig->end(); ttrig++) {
    cout << "Wh: " << (*ttrig).first.wheelId
         << " St: " << (*ttrig).first.stationId
         << " Sc: " << (*ttrig).first.sectorId
         << " Sl: " << (*ttrig).first.slId
         << " TTrig mean (ns): " << (*ttrig).second.tTrig * convToNs
         << " TTrig sigma (ns): " << (*ttrig).second.tTrms * convToNs<< endl;
  }
}
void DTTTrigCalibration::endJob ( void  ) [virtual]

Fit the time box rising edge and write the resulting ttrig to the DB.

Reimplemented from edm::EDAnalyzer.

Definition at line 224 of file DTTTrigCalibration.cc.

References gather_cfg::cout, debug, DTTimeUnits::ns, DTTtrig::set(), interactiveExample::theFile, and DTCalibDBUtils::writeToDB().

                                {
  if(debug) 
    cout << "[DTTTrigCalibration]Writing histos to file!" << endl;
  
  // Write all time boxes to file
  theFile->cd();
  for(map<DTSuperLayerId, TH1F*>::const_iterator slHisto = theHistoMap.begin();
      slHisto != theHistoMap.end();
      slHisto++) {
    (*slHisto).second->Write();
  }
  for(map<DTLayerId, TH1F*>::const_iterator slHisto = theOccupancyMap.begin();
      slHisto != theOccupancyMap.end();
      slHisto++) {
    (*slHisto).second->Write();
  }

  if(findTMeanAndSigma) {
      // Create the object to be written to DB
      DTTtrig* tTrig = new DTTtrig();

      // Loop over the map, fit the histos and write the resulting values to the DB
      for(map<DTSuperLayerId, TH1F*>::const_iterator slHisto = theHistoMap.begin();
          slHisto != theHistoMap.end();
          slHisto++) {
        pair<double, double> meanAndSigma = theFitter->fitTimeBox((*slHisto).second);
        tTrig->set((*slHisto).first,
                   meanAndSigma.first,
                   meanAndSigma.second,
                   kFactor,
                   DTTimeUnits::ns);
    
        if(debug) {
          cout << " SL: " << (*slHisto).first
               << " mean = " << meanAndSigma.first
               << " sigma = " << meanAndSigma.second << endl;
        }
      }

      // Print the ttrig map
      dumpTTrigMap(tTrig);
  
      // Plot the tTrig
      plotTTrig(tTrig);

      if(debug) 
        cout << "[DTTTrigCalibration]Writing ttrig object to DB!" << endl;


      // FIXME: to be read from cfg?
      string tTrigRecord = "DTTtrigRcd";
      
      // Write the object to DB
      DTCalibDBUtils::writeToDB(tTrigRecord, tTrig);
    }  

}
string DTTTrigCalibration::getOccupancyName ( const DTLayerId slId) const [private]

Definition at line 294 of file DTTTrigCalibration.cc.

References DTLayerId::layer(), DTChamberId::sector(), DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().

                                                                       {
  string histoName;
  stringstream theStream;
  theStream << "Ch_" << slId.wheel() << "_" << slId.station() << "_" << slId.sector()
            << "_SL" << slId.superlayer() << "_L"<< slId.layer() <<"_Occupancy";
  theStream >> histoName;
  return histoName;
}
string DTTTrigCalibration::getTBoxName ( const DTSuperLayerId slId) const [private]

Definition at line 285 of file DTTTrigCalibration.cc.

References DTChamberId::sector(), DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().

                                                                       {
  string histoName;
  stringstream theStream;
  theStream << "Ch_" << slId.wheel() << "_" << slId.station() << "_" << slId.sector()
            << "_SL" << slId.superlayer() << "_hTimeBox";
  theStream >> histoName;
  return histoName;
}
void DTTTrigCalibration::plotTTrig ( const DTTtrig tTrig) const [private]

Definition at line 318 of file DTTTrigCalibration.cc.

References DTTtrig::begin(), and DTTtrig::end().

                                                             {

  TH1F* tTrig_YB1_Se10 = new TH1F("tTrig_YB1_Se10","tTrig YB1_Se10",15,1,16);
  TH1F* tTrig_YB2_Se10 = new TH1F("tTrig_YB2_Se10","tTrig YB2_Se10",15,1,16);
  TH1F* tTrig_YB2_Se11 = new TH1F("tTrig_YB2_Se11","tTrig YB2_Se11",12,1,13);

  static const double convToNs = 25./32.;
  for(DTTtrig::const_iterator ttrig = tTrig->begin();
      ttrig != tTrig->end(); ttrig++) {

    // avoid to have wired numbers in the plot
    float tTrigValue=0;
    float tTrmsValue=0;
    if ((*ttrig).second.tTrig * convToNs > 0 &&
        (*ttrig).second.tTrig * convToNs < 32000 ) {
      tTrigValue = (*ttrig).second.tTrig * convToNs;
      tTrmsValue = (*ttrig).second.tTrms * convToNs;
    }

    int binx;
    string binLabel;
    stringstream binLabelStream;
    if ((*ttrig).first.sectorId != 14) {
      binx = ((*ttrig).first.stationId-1)*3  + (*ttrig).first.slId;
      binLabelStream << "MB"<<(*ttrig).first.stationId<<"_SL"<<(*ttrig).first.slId;
    }
    else {
      binx = 12  + (*ttrig).first.slId;
      binLabelStream << "MB14_SL"<<(*ttrig).first.slId;
    }
    binLabelStream >> binLabel;

    if ((*ttrig).first.wheelId == 2) {
      if ((*ttrig).first.sectorId == 10 || (*ttrig).first.sectorId == 14) {
        tTrig_YB2_Se10->Fill( binx,tTrigValue);
        tTrig_YB2_Se10->SetBinError( binx, tTrmsValue);
        tTrig_YB2_Se10->GetXaxis()->SetBinLabel(binx,binLabel.c_str());
        tTrig_YB2_Se10->GetYaxis()->SetTitle("ns");
      }
      else {
        tTrig_YB2_Se11->Fill( binx,tTrigValue);
        tTrig_YB2_Se11->SetBinError( binx,tTrmsValue);
        tTrig_YB2_Se11->GetXaxis()->SetBinLabel(binx,binLabel.c_str());
        tTrig_YB2_Se11->GetYaxis()->SetTitle("ns");
      }
    }
    else {
      tTrig_YB1_Se10->Fill( binx,tTrigValue);
      tTrig_YB1_Se10->SetBinError( binx,tTrmsValue);
      tTrig_YB1_Se10->GetXaxis()->SetBinLabel(binx,binLabel.c_str());
      tTrig_YB1_Se10->GetYaxis()->SetTitle("ns");
    }
  }

  tTrig_YB1_Se10->Write();
  tTrig_YB2_Se10->Write();
  tTrig_YB2_Se11->Write();

}

Member Data Documentation

Definition at line 86 of file DTTTrigCalibration.h.

bool DTTTrigCalibration::debug [private]

Definition at line 66 of file DTTTrigCalibration.h.

std::string DTTTrigCalibration::digiLabel [private]

Definition at line 69 of file DTTTrigCalibration.h.

Definition at line 84 of file DTTTrigCalibration.h.

Definition at line 88 of file DTTTrigCalibration.h.

double DTTTrigCalibration::kFactor [private]

Definition at line 90 of file DTTTrigCalibration.h.

Definition at line 74 of file DTTTrigCalibration.h.

Definition at line 72 of file DTTTrigCalibration.h.

TFile* DTTTrigCalibration::theFile [private]

Definition at line 77 of file DTTTrigCalibration.h.

Definition at line 93 of file DTTTrigCalibration.h.

std::map<DTSuperLayerId, TH1F*> DTTTrigCalibration::theHistoMap [private]

Definition at line 80 of file DTTTrigCalibration.h.

std::map<DTLayerId, TH1F*> DTTTrigCalibration::theOccupancyMap [private]

Definition at line 81 of file DTTTrigCalibration.h.

Definition at line 95 of file DTTTrigCalibration.h.