d3/d21/HLXMonitor_8cc_source.html

 /*

     Author:  Adam Hunt

     email:   ahunt@princeton.edu

 */

 #include "DQM/HLXMonitor/interface/HLXMonitor.h"

 #include "FWCore/Version/interface/GetReleaseVersion.h"


 // STL Headers


 #include <math.h>

 #include <iomanip>

 #include <TSystem.h>


 using std::cout;

 using std::endl;


 HLXMonitor::HLXMonitor(const edm::ParameterSet& iConfig) {

   NUM_HLX = iConfig.getUntrackedParameter<unsigned int>("numHlx", 36);

   NUM_BUNCHES = iConfig.getUntrackedParameter<unsigned int>("numBunches", 3564);

   MAX_LS = iConfig.getUntrackedParameter<unsigned int>("maximumNumLS", 480);

   listenPort = iConfig.getUntrackedParameter<unsigned int>("SourcePort", 51001);

   OutputFilePrefix =

       iConfig.getUntrackedParameter<std::string>("outputFile", "lumi");

   OutputDir = iConfig.getUntrackedParameter<std::string>("outputDir", "  data");

   SavePeriod = iConfig.getUntrackedParameter<unsigned int>("SavePeriod", 10);

   NBINS = iConfig.getUntrackedParameter<unsigned int>("NBINS",

                                                       297);  // 12 BX per bin

   XMIN = iConfig.getUntrackedParameter<double>("XMIN", 0);

   XMAX = iConfig.getUntrackedParameter<double>("XMAX", 3564);

   Style = iConfig.getUntrackedParameter<std::string>("Style", "BX");

   AquireMode = iConfig.getUntrackedParameter<unsigned int>("AquireMode", 0);

   Accumulate = iConfig.getUntrackedParameter<bool>("Accumulate", true);  // all

   TriggerBX = iConfig.getUntrackedParameter<unsigned int>("TriggerBX", 50);

   MinLSBeforeSave =

       iConfig.getUntrackedParameter<unsigned int>("MinLSBeforeSave", 1);

   reconnTime =

       iConfig.getUntrackedParameter<unsigned int>("ReconnectionTime", 5);

   DistribIP1 = iConfig.getUntrackedParameter<std::string>("PrimaryHLXDAQIP",

                                                           "vmepcs2f17-18");

   DistribIP2 = iConfig.getUntrackedParameter<std::string>("SecondaryHLXDAQIP",

                                                           "vmepcs2f17-19");

   ResetAtNewRun = iConfig.getUntrackedParameter<bool>("NewRun_Reset", true);


   eventInfoFolderHLX_ = iConfig.getUntrackedParameter<std::string>(

       "eventInfoFolderHLX", "EventInfoHLX");

   eventInfoFolder_ = iConfig.getUntrackedParameter<std::string>(

       "eventInfoFolder", "EventInfo");

   subSystemName_ =

       iConfig.getUntrackedParameter<std::string>("subSystemName", "HLX");


   // Set the lumi section counter

   lsBinOld = 0;

   previousSection = 0;

   lumiSectionCount = 0;

   sectionInstantSumEt = 0;

   sectionInstantErrSumEt = 0;

   sectionInstantSumOcc1 = 0;

   sectionInstantErrSumOcc1 = 0;

   sectionInstantSumOcc2 = 0;

   sectionInstantErrSumOcc2 = 0;

   sectionInstantNorm = 0;


   // HLX Config info

   set1BelowIndex = 0;

   set1BetweenIndex = 1;

   set1AboveIndex = 2;

   set2BelowIndex = 3;

   set2BetweenIndex = 4;

   set2AboveIndex = 5;


   runNumLength = 9;

   secNumLength = 8;


   if (NUM_HLX > 36) NUM_HLX = 36;


   if (NUM_BUNCHES > 3564) NUM_BUNCHES = 3564;


   if (XMAX <= XMIN) {

     XMIN = 0;

     if (XMAX <= 0) XMAX = 3564;

   }


   if ((Style.compare("History") == 0) || (NBINS == 0)) {

     NBINS = (unsigned int)(XMAX - XMIN);

   }


   monitorName_ =

       iConfig.getUntrackedParameter<std::string>("monitorName", "HLX");

   // cout << "Monitor name = " << monitorName_ << endl;

   prescaleEvt_ = iConfig.getUntrackedParameter<int>("prescaleEvt", -1);

   // cout << "===>DQM event prescale = " << prescaleEvt_ << " events "<< endl;


   unsigned int HLXHFMapTemp[] = {31, 32, 33, 34, 35, 18,  // s2f07 hf-

                                  13, 14, 15, 16, 17, 0,   // s2f07 hf+

                                  25, 26, 27, 28, 29, 30,  // s2f05 hf-

                                  7,  8,  9,  10, 11, 12,  // s2f05 hf+

                                  19, 20, 21, 22, 23, 24,  // s2f02 hf-

                                  1,  2,  3,  4,  5,  6};  // s2f02 hf+


   currentRunEnded_ = true;

   runNumber_ = 0;

   expectedNibbles_ = 0;


   for (int iHLX = 0; iHLX < 36; ++iHLX) {

     HLXHFMap[iHLX] = HLXHFMapTemp[iHLX];

     // std::cout << "At " << iHLX << " Wedge " << HLXHFMap[iHLX] << std::endl;

     totalNibbles_[iHLX] = 0;

   }


   num4NibblePerLS_ = 16.0;


   connectHLXTCP(); // this was originally done in beginJob()

 }


 HLXMonitor::~HLXMonitor() {

   HLXTCP.Disconnect();

   EndRun();

 }


 // Method called once each job just before starting event loop

 void HLXMonitor::connectHLXTCP() {

   HLXTCP.SetIP(DistribIP1);

   int errorCode = HLXTCP.SetPort(listenPort);

   cout << "SetPort: " << listenPort << " Success: " << errorCode << endl;

   errorCode = HLXTCP.SetMode(AquireMode);

   cout << "AquireMode: " << AquireMode << " Success: " << errorCode << endl;


   while (HLXTCP.IsConnected() == false) {

     HLXTCP.SetIP(DistribIP1);

     if (HLXTCP.Connect() != 1) {

       std::cout << "Failed to connect to " << DistribIP1 << "." << std::endl;

       sleep(1);

       std::cout << "Trying " << DistribIP2 << std::endl;

       HLXTCP.SetIP(DistribIP2);

       if (HLXTCP.Connect() == 1) break;

       std::cout << "Failed to connect to " << DistribIP2 << "." << std::endl;

       std::cout << " Reconnect in " << reconnTime << " seconds." << std::endl;

       sleep(reconnTime);

     }

   }

   if (HLXTCP.IsConnected() == true) {

     std::cout << "Successfully connected." << std::endl;

   }

 }


 // ------------ Setup the monitoring elements ---------------

 void HLXMonitor::bookHistograms(DQMStore::IBooker& iBooker, edm::Run const&,

                                 edm::EventSetup const&) {

   SetupHists(iBooker);

   SetupEventInfo(iBooker);

 }


 void HLXMonitor::SetupHists(DQMStore::IBooker& iBooker) {

   iBooker.setCurrentFolder(monitorName_ + "/HFPlus");


   for (unsigned int iWedge = 0; iWedge < 18 && iWedge < NUM_HLX; ++iWedge) {

     std::ostringstream tempStreamer;

     tempStreamer << std::dec << std::setw(2) << std::setfill('0')

                  << (iWedge + 1);


     std::ostringstream wedgeNum;

     wedgeNum << std::dec << (iWedge % 18) + 1;


     iBooker.setCurrentFolder(monitorName_ + "/HFPlus/Wedge" +

                              tempStreamer.str());


     Set1Below[iWedge] = iBooker.book1D(

         "Set1_Below",

         "HF+ Wedge " + wedgeNum.str() + ": Below Threshold 1 - Set 1", NBINS,

         XMIN, XMAX);

     Set1Between[iWedge] = iBooker.book1D(

         "Set1_Between",

         "HF+ Wedge " + wedgeNum.str() + ": Between Threshold 1 & 2 - Set 1",

         NBINS, XMIN, XMAX);

     Set1Above[iWedge] = iBooker.book1D(

         "Set1_Above",

         "HF+ Wedge " + wedgeNum.str() + ": Above Threshold 2 - Set 1", NBINS,

         XMIN, XMAX);

     Set2Below[iWedge] = iBooker.book1D(

         "Set2_Below",

         "HF+ Wedge " + wedgeNum.str() + ": Below Threshold 1 - Set 2", NBINS,

         XMIN, XMAX);

     Set2Between[iWedge] = iBooker.book1D(

         "Set2_Between",

         "HF+ Wedge " + wedgeNum.str() + ": Between Threshold 1 & 2 - Set 2",

         NBINS, XMIN, XMAX);

     Set2Above[iWedge] = iBooker.book1D(

         "Set2_Above",

         "HF+ Wedge " + wedgeNum.str() + ": Above Threshold 2 - Set 2", NBINS,

         XMIN, XMAX);

     ETSum[iWedge] = iBooker.book1D(

         "ETSum", "HF+ Wedge " + wedgeNum.str() + ": Transverse Energy", NBINS,

         XMIN, XMAX);


     iBooker.tagContents(monitorName_ + "/HFPlus/Wedge" + tempStreamer.str(),

                         iWedge + 1);

   }


   if (NUM_HLX > 17) {

     iBooker.setCurrentFolder(monitorName_ + "/HFMinus");


     for (unsigned int iWedge = 18; iWedge < NUM_HLX; ++iWedge) {

       std::ostringstream tempStreamer;

       tempStreamer << std::dec << std::setw(2) << std::setfill('0')

                    << (iWedge + 1);


       std::ostringstream wedgeNum;

       wedgeNum << std::dec << (iWedge % 18) + 1;


       iBooker.setCurrentFolder(monitorName_ + "/HFMinus/Wedge" +

                                tempStreamer.str());

       Set1Below[iWedge] = iBooker.book1D(

           "Set1_Below",

           "HF- Wedge " + wedgeNum.str() + ": Below Threshold 1 - Set 1", NBINS,

           XMIN, XMAX);

       Set1Between[iWedge] = iBooker.book1D(

           "Set1_Between",

           "HF- Wedge " + wedgeNum.str() + ": Between Threshold 1 & 2 - Set 1",

           NBINS, XMIN, XMAX);

       Set1Above[iWedge] = iBooker.book1D(

           "Set1_Above",

           "HF- Wedge " + wedgeNum.str() + ": Above Threshold 2 - Set 1", NBINS,

           XMIN, XMAX);

       Set2Below[iWedge] = iBooker.book1D(

           "Set2_Below",

           "HF- Wedge " + wedgeNum.str() + ": Below Threshold 1 - Set 2", NBINS,

           XMIN, XMAX);

       Set2Between[iWedge] = iBooker.book1D(

           "Set2_Between",

           "HF- Wedge " + wedgeNum.str() + ": Between Threshold 1 & 2 - Set 2",

           NBINS, XMIN, XMAX);

       Set2Above[iWedge] = iBooker.book1D(

           "Set2_Above",

           "HF- Wedge " + wedgeNum.str() + ": Above Threshold 2 - Set 2", NBINS,

           XMIN, XMAX);

       ETSum[iWedge] = iBooker.book1D(

           "ETSum", "HF- Wedge " + wedgeNum.str() + ": Transverse Energy", NBINS,

           XMIN, XMAX);


       iBooker.tagContents(monitorName_ + "/HFMinus/Wedge" + tempStreamer.str(),

                           iWedge + 1);

     }

   }


   if (!Accumulate) {

     for (unsigned int iWedge = 0; iWedge < NUM_HLX; ++iWedge) {

       Set1Below[iWedge]->setResetMe(true);

       Set1Between[iWedge]->setResetMe(true);

       Set1Above[iWedge]->setResetMe(true);

       Set2Below[iWedge]->setResetMe(true);

       Set2Between[iWedge]->setResetMe(true);

       Set2Above[iWedge]->setResetMe(true);

       ETSum[iWedge]->setResetMe(true);

     }

   }


   if (Style.compare("BX") == 0) {

     OccXAxisTitle = "Bunch Crossing";

     OccYAxisTitle = "Tower Occupancy";

     EtXAxisTitle = "Bunch Crossing";

     EtYAxisTitle = "E_{T} Sum";

   } else if (Style.compare("Distribution") == 0) {

     OccXAxisTitle = "Tower Occupancy";

     OccYAxisTitle = "Count";

     EtXAxisTitle = "E_{T} Sum";

     EtYAxisTitle = "Count";

   }


   for (unsigned int iWedge = 0; iWedge < NUM_HLX; ++iWedge) {

     Set1Below[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set1Below[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     Set1Between[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set1Between[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     Set1Above[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set1Above[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     Set2Below[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set2Below[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     Set2Between[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set2Between[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     Set2Above[iWedge]->setAxisTitle(OccXAxisTitle, 1);

     Set2Above[iWedge]->setAxisTitle(OccYAxisTitle, 2);

     ETSum[iWedge]->setAxisTitle(EtXAxisTitle, 1);

     ETSum[iWedge]->setAxisTitle(EtYAxisTitle, 2);

   }


   // Comparison Histograms


   iBooker.setCurrentFolder(monitorName_ + "/HFCompare");


   std::string CompXTitle = "HF Wedge";

   std::string CompEtSumYTitle = "E_{T} Sum per active tower";

   std::string CompOccYTitle = "Occupancy per active tower";


   HFCompareEtSum =

       iBooker.book1D("HFCompareEtSum", "E_{T} Sum", NUM_HLX, 0, NUM_HLX);

   HFCompareEtSum->setAxisTitle(CompXTitle, 1);

   HFCompareEtSum->setAxisTitle(CompEtSumYTitle, 2);


   HFCompareOccBelowSet1 = iBooker.book1D("HFCompareOccBelowSet1",

                                          "Occupancy Below Threshold 1 - Set 1",

                                          NUM_HLX, 0, NUM_HLX);

   HFCompareOccBelowSet1->setAxisTitle(CompXTitle, 1);

   HFCompareOccBelowSet1->setAxisTitle(CompOccYTitle, 2);


   HFCompareOccBetweenSet1 = iBooker.book1D(

       "HFCompareOccBetweenSet1", "Occupancy Between Threshold 1 & 2 - Set 1",

       NUM_HLX, 0, NUM_HLX);

   HFCompareOccBetweenSet1->setAxisTitle(CompXTitle, 1);

   HFCompareOccBetweenSet1->setAxisTitle(CompOccYTitle, 2);


   HFCompareOccAboveSet1 = iBooker.book1D("HFCompareOccAboveSet1",

                                          "Occupancy Above Threshold 2 - Set 1",

                                          NUM_HLX, 0, NUM_HLX);

   HFCompareOccAboveSet1->setAxisTitle(CompXTitle, 1);

   HFCompareOccAboveSet1->setAxisTitle(CompOccYTitle, 2);


   HFCompareOccBelowSet2 = iBooker.book1D("HFCompareOccBelowSet2",

                                          "Occupancy Below Threshold 1 - Set 2",

                                          NUM_HLX, 0, NUM_HLX);

   HFCompareOccBelowSet2->setAxisTitle(CompXTitle, 1);

   HFCompareOccBelowSet2->setAxisTitle(CompOccYTitle, 2);


   HFCompareOccBetweenSet2 = iBooker.book1D(

       "HFCompareOccBetweenSet2", "Occupancy Between Threshold 1 & 2 - Set 2",

       NUM_HLX, 0, NUM_HLX);

   HFCompareOccBetweenSet2->setAxisTitle(CompXTitle, 1);

   HFCompareOccBetweenSet2->setAxisTitle(CompOccYTitle, 2);


   HFCompareOccAboveSet2 = iBooker.book1D("HFCompareOccAboveSet2",

                                          "Occupancy Above Threshold 2 - Set 2",

                                          NUM_HLX, 0, NUM_HLX);

   HFCompareOccAboveSet2->setAxisTitle(CompXTitle, 1);

   HFCompareOccAboveSet2->setAxisTitle(CompOccYTitle, 2);


   // Average Histograms


   iBooker.setCurrentFolder(monitorName_ + "/Average");


   int OccBins = 10000;  // This does absolutely nothing.

   double OccMin = 0;

   double OccMax = 0;  // If min and max are zero, no bounds on the data are set.


   int EtSumBins = 10000;  // This does absolutely nothing.  The Variable is not

                           // used in the function.

   double EtSumMin = 0;

   double EtSumMax =

       0;  // If min and max are zero, no bounds on the data are set.


   std::string errorOpt = "i";


   std::string AvgXTitle = "HF Wedge";

   std::string AvgEtSumYTitle = "Average E_{T} Sum";

   std::string AvgOccYTitle = "Average Tower Occupancy";


   AvgEtSum = iBooker.bookProfile("AvgEtSum", "Average E_{T} Sum", NUM_HLX, 0,

                                  NUM_HLX, EtSumBins, EtSumMin, EtSumMax);

   AvgEtSum->setAxisTitle(AvgXTitle, 1);

   AvgEtSum->setAxisTitle(AvgEtSumYTitle, 2);


   AvgOccBelowSet1 = iBooker.bookProfile(

       "AvgOccBelowSet1", "Average Occupancy Below Threshold 1 - Set1", NUM_HLX,

       0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccBelowSet1->setAxisTitle(AvgXTitle, 1);

   AvgOccBelowSet1->setAxisTitle(AvgOccYTitle, 2);


   AvgOccBetweenSet1 = iBooker.bookProfile(

       "AvgOccBetweenSet1", "Average Occupancy Between Threhold 1 & 2 - Set1",

       NUM_HLX, 0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccBetweenSet1->setAxisTitle(AvgXTitle, 1);

   AvgOccBetweenSet1->setAxisTitle(AvgOccYTitle, 2);


   AvgOccAboveSet1 = iBooker.bookProfile(

       "AvgOccAboveSet1", "Average Occupancy Above Threshold 2 - Set1", NUM_HLX,

       0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccAboveSet1->setAxisTitle(AvgXTitle, 1);

   AvgOccAboveSet1->setAxisTitle(AvgOccYTitle, 2);


   AvgOccBelowSet2 = iBooker.bookProfile(

       "AvgOccBelowSet2", "Average Occupancy Below Threshold 1 - Set2", NUM_HLX,

       0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccBelowSet2->setAxisTitle(AvgXTitle, 1);

   AvgOccBelowSet2->setAxisTitle(AvgOccYTitle, 2);


   AvgOccBetweenSet2 = iBooker.bookProfile(

       "AvgOccBetweenSet2", "Average Occupancy Between Threshold 1 & 2 - Set2",

       NUM_HLX, 0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccBetweenSet2->setAxisTitle(AvgXTitle, 1);

   AvgOccBetweenSet2->setAxisTitle(AvgOccYTitle, 2);


   AvgOccAboveSet2 = iBooker.bookProfile(

       "AvgOccAboveSet2", "Average Occupancy Above Threshold 2 - Set2", NUM_HLX,

       0, NUM_HLX, OccBins, OccMin, OccMax, errorOpt.c_str());

   AvgOccAboveSet2->setAxisTitle(AvgXTitle, 1);

   AvgOccAboveSet2->setAxisTitle(AvgOccYTitle, 2);


   // Luminosity Histograms

   iBooker.setCurrentFolder(monitorName_ + "/Luminosity");


   std::string LumiXTitle = "Bunch Crossing";

   std::string LumiEtSumYTitle = "Luminosity: E_{T} Sum";

   std::string LumiOccYTitle = "Luminosity: Occupancy";


   LumiAvgEtSum = iBooker.bookProfile("LumiAvgEtSum", "Average Luminosity ",

                                      int(XMAX - XMIN), XMIN, XMAX, EtSumBins,

                                      EtSumMin, EtSumMax);

   LumiAvgEtSum->setAxisTitle(LumiXTitle, 1);

   LumiAvgEtSum->setAxisTitle(LumiEtSumYTitle, 2);


   LumiAvgOccSet1 = iBooker.bookProfile(

       "LumiAvgOccSet1", "Average Luminosity - Set 1", int(XMAX - XMIN), XMIN,

       XMAX, OccBins, OccMax, OccMin);

   LumiAvgOccSet1->setAxisTitle(LumiXTitle, 1);

   LumiAvgOccSet1->setAxisTitle(LumiOccYTitle, 2);


   LumiAvgOccSet2 = iBooker.bookProfile(

       "LumiAvgOccSet2", "Average Luminosity - Set 2", int(XMAX - XMIN), XMIN,

       XMAX, OccBins, OccMax, OccMin);

   LumiAvgOccSet2->setAxisTitle(LumiXTitle, 1);

   LumiAvgOccSet2->setAxisTitle(LumiOccYTitle, 2);


   LumiInstantEtSum =

       iBooker.book1D("LumiInstantEtSum", "Instantaneous Luminosity ",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiInstantEtSum->setAxisTitle(LumiXTitle, 1);

   LumiInstantEtSum->setAxisTitle(LumiEtSumYTitle, 2);


   LumiInstantOccSet1 =

       iBooker.book1D("LumiInstantOccSet1", "Instantaneous Luminosity - Set 1",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiInstantOccSet1->setAxisTitle(LumiXTitle, 1);

   LumiInstantOccSet1->setAxisTitle(LumiOccYTitle, 2);


   LumiInstantOccSet2 =

       iBooker.book1D("LumiInstantOccSet2", "Instantaneous Luminosity - Set 2",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiInstantOccSet2->setAxisTitle(LumiXTitle, 1);

   LumiInstantOccSet2->setAxisTitle(LumiOccYTitle, 2);


   LumiIntegratedEtSum =

       iBooker.book1D("LumiIntegratedEtSum", "Integrated Luminosity ",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiIntegratedEtSum->setAxisTitle(LumiXTitle, 1);

   LumiIntegratedEtSum->setAxisTitle(LumiEtSumYTitle, 2);


   LumiIntegratedOccSet1 =

       iBooker.book1D("LumiIntegratedOccSet1", "Integrated Luminosity - Set 1",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiIntegratedOccSet1->setAxisTitle(LumiXTitle, 1);

   LumiIntegratedOccSet1->setAxisTitle(LumiOccYTitle, 2);


   LumiIntegratedOccSet2 =

       iBooker.book1D("LumiIntegratedOccSet2", "Integrated Luminosity - Set 2",

                      int(XMAX - XMIN), XMIN, XMAX);

   LumiIntegratedOccSet2->setAxisTitle(LumiXTitle, 1);

   LumiIntegratedOccSet2->setAxisTitle(LumiOccYTitle, 2);


   // Sanity check sum histograms

   iBooker.setCurrentFolder(monitorName_ + "/CheckSums");


   std::string sumXTitle = "HF Wedge";

   std::string sumYTitle = "Occupancy Sum (Below+Above+Between)";


   SumAllOccSet1 =

       iBooker.bookProfile("SumAllOccSet1", "Occupancy Check - Set 1", NUM_HLX,

                           0, NUM_HLX, OccBins, OccMax, OccMin);

   SumAllOccSet1->setAxisTitle(sumXTitle, 1);

   SumAllOccSet1->setAxisTitle(sumYTitle, 2);


   SumAllOccSet2 =

       iBooker.bookProfile("SumAllOccSet2", "Occupancy Check - Set 2", NUM_HLX,

                           0, NUM_HLX, OccBins, OccMax, OccMin);

   SumAllOccSet2->setAxisTitle(sumXTitle, 1);

   SumAllOccSet2->setAxisTitle(sumYTitle, 2);


   MissingDQMDataCheck =

       iBooker.book1D("MissingDQMDataCheck", "Missing Data Count", 1, 0, 1);

   MissingDQMDataCheck->setAxisTitle("", 1);

   MissingDQMDataCheck->setAxisTitle("Number Missing Nibbles", 2);


   // Signal & Background monitoring histograms

   iBooker.setCurrentFolder(monitorName_ + "/SigBkgLevels");


   MaxInstLumiBX1 =

       iBooker.book1D("MaxInstLumiBX1", "Max Instantaneous Luminosity BX: 1st",

                      10000, -1e-5, 0.01);

   MaxInstLumiBX1->setAxisTitle("Max Inst. L (10^{30}cm^{-2}s^{-1})", 1);

   MaxInstLumiBX1->setAxisTitle("Entries", 2);

   MaxInstLumiBX2 =

       iBooker.book1D("MaxInstLumiBX2", "Max Instantaneous Luminosity BX: 2nd",

                      10000, -1e-5, 0.01);

   MaxInstLumiBX2->setAxisTitle("Max Inst. L (10^{30}cm^{-2}s^{-1})", 1);

   MaxInstLumiBX2->setAxisTitle("Entries", 2);

   MaxInstLumiBX3 =

       iBooker.book1D("MaxInstLumiBX3", "Max Instantaneous Luminosity BX: 3rd",

                      10000, -1e-5, 0.01);

   MaxInstLumiBX3->setAxisTitle("Max Inst. L (10^{30}cm^{-2}s^{-1})", 1);

   MaxInstLumiBX3->setAxisTitle("Entries", 2);

   MaxInstLumiBX4 =

       iBooker.book1D("MaxInstLumiBX4", "Max Instantaneous Luminosity BX: 4th",

                      10000, -1e-5, 0.01);

   MaxInstLumiBX4->setAxisTitle("Max Inst. L (10^{30}cm^{-2}s^{-1})", 1);

   MaxInstLumiBX4->setAxisTitle("Entries", 2);


   MaxInstLumiBXNum1 = iBooker.book1D("MaxInstLumiBXNum1",

                                      "BX Number of Max: 1st", 3564, 0, 3564);

   MaxInstLumiBXNum1->setAxisTitle("BX", 1);

   MaxInstLumiBXNum1->setAxisTitle("Num Time Max", 2);

   MaxInstLumiBXNum2 = iBooker.book1D("MaxInstLumiBXNum2",

                                      "BX Number of Max: 2nd", 3564, 0, 3564);

   MaxInstLumiBXNum2->setAxisTitle("BX", 1);

   MaxInstLumiBXNum2->setAxisTitle("Num Time Max", 2);

   MaxInstLumiBXNum3 = iBooker.book1D("MaxInstLumiBXNum3",

                                      "BX Number of Max: 3rd", 3564, 0, 3564);

   MaxInstLumiBXNum3->setAxisTitle("BX", 1);

   MaxInstLumiBXNum3->setAxisTitle("Num Time Max", 2);

   MaxInstLumiBXNum4 = iBooker.book1D("MaxInstLumiBXNum4",

                                      "BX Number of Max: 4th", 3564, 0, 3564);

   MaxInstLumiBXNum4->setAxisTitle("BX", 1);

   MaxInstLumiBXNum4->setAxisTitle("Num Time Max", 2);


   // History histograms

   iBooker.setCurrentFolder(monitorName_ + "/HistoryRaw");


   std::string HistXTitle = "Time (LS)";

   std::string RecentHistXTitle = "Time (LS/16)";

   std::string HistEtSumYTitle = "Average E_{T} Sum";

   std::string HistOccYTitle = "Average Occupancy";

   std::string HistLumiYTitle = "Luminosity";

   std::string HistLumiErrorYTitle = "Luminosity Error (%)";

   std::string BXvsTimeXTitle = "Time (LS)";

   std::string BXvsTimeYTitle = "BX";


   // Et Sum histories

   HistAvgEtSumHFP =

       iBooker.bookProfile("HistAvgEtSumHFP", "Average Et Sum: HF+", MAX_LS, 0.5,

                           (double)MAX_LS + 0.5, EtSumBins, EtSumMin, EtSumMax);

   HistAvgEtSumHFP->setAxisTitle(HistXTitle, 1);

   HistAvgEtSumHFP->setAxisTitle(HistEtSumYTitle, 2);


   HistAvgEtSumHFM =

       iBooker.bookProfile("HistAvgEtSumHFM", "Average Et Sum: HF-", MAX_LS, 0.5,

                           (double)MAX_LS + 0.5, EtSumBins, EtSumMin, EtSumMax);

   HistAvgEtSumHFM->setAxisTitle(HistXTitle, 1);

   HistAvgEtSumHFM->setAxisTitle(HistEtSumYTitle, 2);


   // Tower Occupancy Histories

   HistAvgOccBelowSet1HFP = iBooker.bookProfile(

       "HistAvgOccBelowSet1HFP", "Average Occ Set1Below: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBelowSet1HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccBelowSet1HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBelowSet1HFM = iBooker.bookProfile(

       "HistAvgOccBelowSet1HFM", "Average Occ Set1Below: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBelowSet1HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccBelowSet1HFM->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBetweenSet1HFP = iBooker.bookProfile(

       "HistAvgOccBetweenSet1HFP", "Average Occ Set1Between: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBetweenSet1HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccBetweenSet1HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBetweenSet1HFM = iBooker.bookProfile(

       "HistAvgOccBetweenSet1HFM", "Average Occ Set1Between: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBetweenSet1HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccBetweenSet1HFM->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccAboveSet1HFP = iBooker.bookProfile(

       "HistAvgOccAboveSet1HFP", "Average Occ Set1Above: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccAboveSet1HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccAboveSet1HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccAboveSet1HFM = iBooker.bookProfile(

       "HistAvgOccAboveSet1HFM", "Average Occ Set1Above: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccAboveSet1HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccAboveSet1HFM->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBelowSet2HFP = iBooker.bookProfile(

       "HistAvgOccBelowSet2HFP", "Average Occ Set2Below: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBelowSet2HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccBelowSet2HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBelowSet2HFM = iBooker.bookProfile(

       "HistAvgOccBelowSet2HFM", "Average Occ Set2Below: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBelowSet2HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccBelowSet2HFM->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBetweenSet2HFP = iBooker.bookProfile(

       "HistAvgOccBetweenSet2HFP", "Average Occ Set2Between: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBetweenSet2HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccBetweenSet2HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccBetweenSet2HFM = iBooker.bookProfile(

       "HistAvgOccBetweenSet2HFM", "Average Occ Set2Between: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccBetweenSet2HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccBetweenSet2HFM->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccAboveSet2HFP = iBooker.bookProfile(

       "HistAvgOccAboveSet2HFP", "Average Occ Set2Above: HF+", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccAboveSet2HFP->setAxisTitle(HistXTitle, 1);

   HistAvgOccAboveSet2HFP->setAxisTitle(HistOccYTitle, 2);


   HistAvgOccAboveSet2HFM = iBooker.bookProfile(

       "HistAvgOccAboveSet2HFM", "Average Occ Set2Above: HF-", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgOccAboveSet2HFM->setAxisTitle(HistXTitle, 1);

   HistAvgOccAboveSet2HFM->setAxisTitle(HistOccYTitle, 2);


   // Et Sum histories

   BXvsTimeAvgEtSumHFP =

       iBooker.book2D("BXvsTimeAvgEtSumHFP", "Average Et Sum: HF+", MAX_LS, 0.5,

                      (double)MAX_LS + 0.5, NBINS, (double)XMIN, (double)XMAX);

   BXvsTimeAvgEtSumHFP->setAxisTitle(BXvsTimeXTitle, 1);

   BXvsTimeAvgEtSumHFP->setAxisTitle(BXvsTimeYTitle, 2);


   BXvsTimeAvgEtSumHFM =

       iBooker.book2D("BXvsTimeAvgEtSumHFM", "Average Et Sum: HF-", MAX_LS, 0.5,

                      (double)MAX_LS + 0.5, NBINS, (double)XMIN, (double)XMAX);

   BXvsTimeAvgEtSumHFM->setAxisTitle(BXvsTimeXTitle, 1);

   BXvsTimeAvgEtSumHFM->setAxisTitle(BXvsTimeYTitle, 2);


   iBooker.setCurrentFolder(monitorName_ + "/HistoryLumi");


   // Lumi Histories

   HistAvgLumiEtSum = iBooker.bookProfile(

       "HistAvgLumiEtSum", "Average Instant Luminosity: Et Sum", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, EtSumBins, EtSumMin, EtSumMax);

   HistAvgLumiEtSum->setAxisTitle(HistXTitle, 1);

   HistAvgLumiEtSum->setAxisTitle(HistLumiYTitle, 2);


   HistAvgLumiOccSet1 = iBooker.bookProfile(

       "HistAvgLumiOccSet1", "Average Instant Luminosity: Occ Set1", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgLumiOccSet1->setAxisTitle(HistXTitle, 1);

   HistAvgLumiOccSet1->setAxisTitle(HistLumiYTitle, 2);


   HistAvgLumiOccSet2 = iBooker.bookProfile(

       "HistAvgLumiOccSet2", "Average Instant Luminosity: Occ Set2", MAX_LS, 0.5,

       (double)MAX_LS + 0.5, OccBins, OccMin, OccMax);

   HistAvgLumiOccSet2->setAxisTitle(HistXTitle, 1);

   HistAvgLumiOccSet2->setAxisTitle(HistLumiYTitle, 2);


   HistInstantLumiEtSum =

       iBooker.book1D("HistInstantLumiEtSum", "Instant Luminosity: Et Sum",

                      MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistInstantLumiEtSum->setAxisTitle(HistXTitle, 1);

   HistInstantLumiEtSum->setAxisTitle(HistLumiYTitle, 2);


   HistInstantLumiOccSet1 =

       iBooker.book1D("HistInstantLumiOccSet1", "Instant Luminosity: Occ Set1",

                      MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistInstantLumiOccSet1->setAxisTitle(HistXTitle, 1);

   HistInstantLumiOccSet1->setAxisTitle(HistLumiYTitle, 2);


   HistInstantLumiOccSet2 =

       iBooker.book1D("HistInstantLumiOccSet2", "Instant Luminosity: Occ Set2",

                      MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistInstantLumiOccSet2->setAxisTitle(HistXTitle, 1);

   HistInstantLumiOccSet2->setAxisTitle(HistLumiYTitle, 2);


   HistInstantLumiEtSumError =

       iBooker.book1D("HistInstantLumiEtSumError", "Luminosity Error: Et Sum",

                      MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistInstantLumiEtSumError->setAxisTitle(HistXTitle, 1);

   HistInstantLumiEtSumError->setAxisTitle(HistLumiErrorYTitle, 2);


   HistInstantLumiOccSet1Error = iBooker.book1D(

       "HistInstantLumiOccSet1Error", "Luminosity Error: Occ Set1", MAX_LS, 0.5,

       (double)MAX_LS + 0.5);

   HistInstantLumiOccSet1Error->setAxisTitle(HistXTitle, 1);

   HistInstantLumiOccSet1Error->setAxisTitle(HistLumiErrorYTitle, 2);


   HistInstantLumiOccSet2Error = iBooker.book1D(

       "HistInstantLumiOccSet2Error", "Luminosity Error: Occ Set2", MAX_LS, 0.5,

       (double)MAX_LS + 0.5);

   HistInstantLumiOccSet2Error->setAxisTitle(HistXTitle, 1);

   HistInstantLumiOccSet2Error->setAxisTitle(HistLumiErrorYTitle, 2);


   HistIntegratedLumiEtSum =

       iBooker.book1D("HistIntegratedLumiEtSum", "Integrated Luminosity: Et Sum",

                      MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistIntegratedLumiEtSum->setAxisTitle(HistXTitle, 1);

   HistIntegratedLumiEtSum->setAxisTitle(HistLumiYTitle, 2);


   HistIntegratedLumiOccSet1 = iBooker.book1D("HistIntegratedLumiOccSet1",

                                              "Integrated Luminosity: Occ Set1",

                                              MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistIntegratedLumiOccSet1->setAxisTitle(HistXTitle, 1);

   HistIntegratedLumiOccSet1->setAxisTitle(HistLumiYTitle, 2);


   HistIntegratedLumiOccSet2 = iBooker.book1D("HistIntegratedLumiOccSet2",

                                              "Integrated Luminosity: Occ Set2",

                                              MAX_LS, 0.5, (double)MAX_LS + 0.5);

   HistIntegratedLumiOccSet2->setAxisTitle(HistXTitle, 1);

   HistIntegratedLumiOccSet2->setAxisTitle(HistLumiYTitle, 2);


   iBooker.setCurrentFolder(monitorName_ + "/RecentHistoryLumi");


   // Lumi Recent Histories (past 128 short sections)

   RecentInstantLumiEtSum =

       iBooker.book1D("RecentInstantLumiEtSum", "Instant Luminosity: Et Sum",

                      128, 0.5, (double)128 + 0.5);

   RecentInstantLumiEtSum->setAxisTitle(RecentHistXTitle, 1);

   RecentInstantLumiEtSum->setAxisTitle(HistLumiYTitle, 2);


   RecentInstantLumiOccSet1 =

       iBooker.book1D("RecentInstantLumiOccSet1", "Instant Luminosity: Occ Set1",

                      128, 0.5, (double)128 + 0.5);

   RecentInstantLumiOccSet1->setAxisTitle(RecentHistXTitle, 1);

   RecentInstantLumiOccSet1->setAxisTitle(HistLumiYTitle, 2);


   RecentInstantLumiOccSet2 =

       iBooker.book1D("RecentInstantLumiOccSet2", "Instant Luminosity: Occ Set2",

                      128, 0.5, (double)128 + 0.5);

   RecentInstantLumiOccSet2->setAxisTitle(RecentHistXTitle, 1);

   RecentInstantLumiOccSet2->setAxisTitle(HistLumiYTitle, 2);


   RecentIntegratedLumiEtSum = iBooker.book1D("RecentIntegratedLumiEtSum",

                                              "Integrated Luminosity: Et Sum",

                                              128, 0.5, (double)128 + 0.5);

   RecentIntegratedLumiEtSum->setAxisTitle(RecentHistXTitle, 1);

   RecentIntegratedLumiEtSum->setAxisTitle(HistLumiYTitle, 2);


   RecentIntegratedLumiOccSet1 = iBooker.book1D(

       "RecentIntegratedLumiOccSet1", "Integrated Luminosity: Occ Set1", 128,

       0.5, (double)128 + 0.5);

   RecentIntegratedLumiOccSet1->setAxisTitle(RecentHistXTitle, 1);

   RecentIntegratedLumiOccSet1->setAxisTitle(HistLumiYTitle, 2);


   RecentIntegratedLumiOccSet2 = iBooker.book1D(

       "RecentIntegratedLumiOccSet2", "Integrated Luminosity: Occ Set2", 128,

       0.5, (double)128 + 0.5);

   RecentIntegratedLumiOccSet2->setAxisTitle(RecentHistXTitle, 1);

   RecentIntegratedLumiOccSet2->setAxisTitle(HistLumiYTitle, 2);

 }


 void HLXMonitor::SetupEventInfo(DQMStore::IBooker& iBooker) {

   using std::string;


   string currentfolder = subSystemName_ + "/" + eventInfoFolderHLX_;

   // cout << "currentfolder " << currentfolder << endl;


   iBooker.setCurrentFolder(currentfolder);


   pEvent_ = 0;

   evtRateCount_ = 0;

   gettimeofday(&currentTime_, NULL);

   lastAvgTime_ = currentTime_;

   evtRateWindow_ = 0.5;


   // Event specific contents

   runId_ = iBooker.bookInt("iRun");

   lumisecId_ = iBooker.bookInt("iLumiSection");


   eventId_ = iBooker.bookInt("iEvent");

   eventId_->Fill(-1);

   eventTimeStamp_ = iBooker.bookFloat("eventTimeStamp");


   iBooker.setCurrentFolder(currentfolder);

   // Process specific contents

   processTimeStamp_ = iBooker.bookFloat("processTimeStamp");

   processTimeStamp_->Fill(getUTCtime(&currentTime_));

   processLatency_ = iBooker.bookFloat("processLatency");

   processTimeStamp_->Fill(-1);

   processEvents_ = iBooker.bookInt("processedEvents");

   processEvents_->Fill(pEvent_);

   processEventRate_ = iBooker.bookFloat("processEventRate");

   processEventRate_->Fill(-1);

   nUpdates_ = iBooker.bookInt("processUpdates");

   nUpdates_->Fill(-1);


   // Static Contents

   processId_ = iBooker.bookInt("processID");

   processId_->Fill(gSystem->GetPid());

   processStartTimeStamp_ = iBooker.bookFloat("processStartTimeStamp");

   processStartTimeStamp_->Fill(getUTCtime(&currentTime_));

   runStartTimeStamp_ = iBooker.bookFloat("runStartTimeStamp");

   hostName_ = iBooker.bookString("hostName", gSystem->HostName());

   processName_ = iBooker.bookString("processName", subSystemName_);

   workingDir_ = iBooker.bookString("workingDir", gSystem->pwd());

   cmsswVer_ = iBooker.bookString("CMSSW_Version", edm::getReleaseVersion());


   // Go to the standard EventInfo folder (in the case online case where this

   // is different).

   currentfolder = subSystemName_ + "/" + eventInfoFolder_;

   iBooker.setCurrentFolder(currentfolder);


   reportSummary_ = iBooker.bookFloat("reportSummary");

   reportSummaryMap_ = iBooker.book2D("reportSummaryMap", "reportSummaryMap", 18,

                                      0., 18., 2, -1.5, 1.5);


   currentfolder = subSystemName_ + "/" + eventInfoFolderHLX_;

   iBooker.setCurrentFolder(currentfolder);


   TH2F* summaryHist = reportSummaryMap_->getTH2F();

   summaryHist->GetYaxis()->SetBinLabel(1, "HF-");

   summaryHist->GetYaxis()->SetBinLabel(2, "HF+");

   summaryHist->GetXaxis()->SetTitle("Wedge #");


   // Fill the report summary objects with default values, since these will only

   // be filled at the change of run.

   reportSummary_->Fill(1.0);


   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) {

     unsigned int iWedge = HLXHFMap[iHLX] + 1;

     unsigned int iEta = 2;

     if (iWedge >= 19) {

       iEta = 1;

       iWedge -= 18;

     }

     reportSummaryMap_->setBinContent(iWedge, iEta, 1.0);

   }

 }


 // ------------ method called to for each event  ------------

 void HLXMonitor::analyze(const edm::Event& iEvent,

                          const edm::EventSetup& iSetup) {

   using namespace edm;


   while (HLXTCP.IsConnected() == false) {

     HLXTCP.SetIP(DistribIP1);

     if (HLXTCP.Connect() != 1) {

       std::cout << "Failed to connect to " << DistribIP1 << "." << std::endl;

       sleep(1);

       std::cout << "Trying " << DistribIP2 << std::endl;

       HLXTCP.SetIP(DistribIP2);

       if (HLXTCP.Connect() == 1) break;

       std::cout << "Failed to connect to " << DistribIP2 << "." << std::endl;

       std::cout << " Reconnect in " << reconnTime << " seconds." << std::endl;

       sleep(reconnTime);

     }

   }

   if (HLXTCP.IsConnected() == true) {

     std::cout << "Successfully connected." << std::endl;

   }


   if (HLXTCP.ReceiveLumiSection(lumiSection) == 1) {

     // If this is the first time through, set the runNumber ...

     if (runNumber_ != lumiSection.hdr.runNumber) {

       if (!currentRunEnded_ && runNumber_ != 0) {

         EndRun();

       }

       runNumber_ = lumiSection.hdr.runNumber;

       currentRunEnded_ = false;

       // std::cout << "Run number is: " << runNumber_ << std::endl;

       timeval startruntime;

       gettimeofday(&startruntime, NULL);

       runStartTimeStamp_->Fill(getUTCtime(&startruntime));

     }


     // Fill the monitoring histograms

     FillHistograms(lumiSection);

     FillHistoHFCompare(lumiSection);

     FillEventInfo(lumiSection, iEvent);

     FillReportSummary();


     cout << "Run: " << lumiSection.hdr.runNumber

          << " Section: " << lumiSection.hdr.sectionNumber

          << " Orbit: " << lumiSection.hdr.startOrbit << endl;

     cout << "Et Lumi: " << lumiSection.lumiSummary.InstantETLumi << endl;

     cout << "Occ Lumi 1: " << lumiSection.lumiSummary.InstantOccLumi[0] << endl;

     cout << "Occ Lumi 2: " << lumiSection.lumiSummary.InstantOccLumi[1] << endl;

   } else {

     HLXTCP.Disconnect();

     EndRun();

   }

 }


 void HLXMonitor::EndRun() {

   FillReportSummary();


   // Do some things that should be done at the end of the run ...

   expectedNibbles_ = 0;

   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) totalNibbles_[iHLX] = 0;


   std::cout << "** Here in end run **" << std::endl;

   if (ResetAtNewRun) ResetAll();

   runNumber_ = 0;

   currentRunEnded_ = true;

   sectionInstantSumEt = 0;

   sectionInstantErrSumEt = 0;

   sectionInstantSumOcc1 = 0;

   sectionInstantErrSumOcc1 = 0;

   sectionInstantSumOcc2 = 0;

   sectionInstantErrSumOcc2 = 0;

   sectionInstantNorm = 0;

   lsBinOld = 0;

   lumiSectionCount = 0;

   previousSection = 0;

 }


 void HLXMonitor::FillHistograms(const LUMI_SECTION& section) {

   // Check for missing data

   if (previousSection != (section.hdr.sectionNumber - 1)) {

     double weight = (double)(section.hdr.sectionNumber - previousSection - 1);

     // std::cout << "Filling missing data! " << weight << std::endl;

     MissingDQMDataCheck->Fill(0.5, weight);

   }

   previousSection = section.hdr.sectionNumber;


   int lsBin = int(lumiSectionCount / num4NibblePerLS_);

   int lsBinBX = int(lumiSectionCount / num4NibblePerLS_);

   HistAvgLumiEtSum->Fill(lsBin, section.lumiSummary.InstantETLumi);

   HistAvgLumiOccSet1->Fill(lsBin, section.lumiSummary.InstantOccLumi[0]);

   HistAvgLumiOccSet2->Fill(lsBin, section.lumiSummary.InstantOccLumi[1]);


   int fillBin = lumiSectionCount + 1;

   if (fillBin > 128) {

     // If we are already more than 2 LS's in, move everything back by one bin

     // and fill the last bin with the new value.

     for (int iBin = 1; iBin < 128; ++iBin) {

       RecentInstantLumiEtSum->setBinContent(

           iBin, RecentInstantLumiEtSum->getBinContent(iBin + 1));

       RecentInstantLumiOccSet1->setBinContent(

           iBin, RecentInstantLumiOccSet1->getBinContent(iBin + 1));

       RecentInstantLumiOccSet2->setBinContent(

           iBin, RecentInstantLumiOccSet2->getBinContent(iBin + 1));

       RecentIntegratedLumiEtSum->setBinContent(

           iBin, RecentIntegratedLumiEtSum->getBinContent(iBin + 1));

       RecentIntegratedLumiOccSet1->setBinContent(

           iBin, RecentIntegratedLumiOccSet1->getBinContent(iBin + 1));

       RecentIntegratedLumiOccSet2->setBinContent(

           iBin, RecentIntegratedLumiOccSet2->getBinContent(iBin + 1));

     }

     fillBin = 128;

   }


   RecentInstantLumiEtSum->setBinContent(fillBin,

                                         section.lumiSummary.InstantETLumi);

   RecentInstantLumiEtSum->setBinError(fillBin,

                                       section.lumiSummary.InstantETLumiErr);

   RecentInstantLumiOccSet1->setBinContent(

       fillBin, section.lumiSummary.InstantOccLumi[0]);

   RecentInstantLumiOccSet1->setBinError(

       fillBin, section.lumiSummary.InstantOccLumiErr[0]);

   RecentInstantLumiOccSet2->setBinContent(

       fillBin, section.lumiSummary.InstantOccLumi[1]);

   RecentInstantLumiOccSet2->setBinError(

       fillBin, section.lumiSummary.InstantOccLumiErr[1]);


   double recentOldBinContent =

       RecentIntegratedLumiEtSum->getBinContent(fillBin - 1);

   if (fillBin == 1) recentOldBinContent = 0;

   double recentNewBinContent =

       recentOldBinContent + section.lumiSummary.InstantETLumi;

   RecentIntegratedLumiEtSum->setBinContent(fillBin, recentNewBinContent);

   recentOldBinContent = RecentIntegratedLumiOccSet1->getBinContent(fillBin - 1);

   if (fillBin == 1) recentOldBinContent = 0;

   recentNewBinContent =

       recentOldBinContent + section.lumiSummary.InstantOccLumi[0];

   RecentIntegratedLumiOccSet1->setBinContent(fillBin, recentNewBinContent);

   recentOldBinContent = RecentIntegratedLumiOccSet2->getBinContent(fillBin - 1);

   if (fillBin == 1) recentOldBinContent = 0;

   recentNewBinContent =

       recentOldBinContent + section.lumiSummary.InstantOccLumi[0];

   RecentIntegratedLumiOccSet2->setBinContent(fillBin, recentNewBinContent);


   double recentOldBinError =

       RecentIntegratedLumiEtSum->getBinError(fillBin - 1);

   if (fillBin == 1) recentOldBinError = 0;

   double recentNewBinError = sqrt(recentOldBinError * recentOldBinError +

                                   section.lumiSummary.InstantETLumiErr *

                                       section.lumiSummary.InstantETLumiErr);

   RecentIntegratedLumiEtSum->setBinError(fillBin, recentNewBinError);

   recentOldBinError = RecentIntegratedLumiOccSet1->getBinError(fillBin - 1);

   if (fillBin == 1) recentOldBinError = 0;

   recentNewBinError = sqrt(recentOldBinError * recentOldBinError +

                            section.lumiSummary.InstantOccLumiErr[0] *

                                section.lumiSummary.InstantOccLumiErr[0]);

   RecentIntegratedLumiOccSet1->setBinError(fillBin, recentNewBinError);

   recentOldBinError = RecentIntegratedLumiOccSet2->getBinError(fillBin - 1);

   if (fillBin == 1) recentOldBinError = 0;

   recentNewBinError = sqrt(recentOldBinError * recentOldBinError +

                            section.lumiSummary.InstantOccLumiErr[1] *

                                section.lumiSummary.InstantOccLumiErr[1]);

   RecentIntegratedLumiOccSet2->setBinError(fillBin, recentNewBinError);


   if (lsBinOld != lsBin) {

     HistInstantLumiEtSum->setBinContent(lsBin, sectionInstantSumEt);

     HistInstantLumiEtSum->setBinError(lsBin, sqrt(sectionInstantErrSumEt));

     HistInstantLumiOccSet1->setBinContent(lsBin, sectionInstantSumOcc1);

     HistInstantLumiOccSet1->setBinError(lsBin, sqrt(sectionInstantErrSumOcc1));

     HistInstantLumiOccSet2->setBinContent(lsBin, sectionInstantSumOcc2);

     HistInstantLumiOccSet2->setBinError(lsBin, sqrt(sectionInstantErrSumOcc2));


     double etDenom = fabs(sectionInstantSumEt);

     if (etDenom < 1e-10) etDenom = 1e-10;

     double occ1Denom = fabs(sectionInstantSumOcc1);

     if (occ1Denom < 1e-10) occ1Denom = 1e-10;

     double occ2Denom = fabs(sectionInstantSumOcc2);

     if (occ2Denom < 1e-10) occ2Denom = 1e-10;

     double etError = 100.0 * sqrt(sectionInstantErrSumEt) / etDenom;

     double occ1Error = 100.0 * sqrt(sectionInstantErrSumOcc1) / occ1Denom;

     double occ2Error = 100.0 * sqrt(sectionInstantErrSumOcc2) / occ2Denom;

     HistInstantLumiEtSumError->setBinContent(lsBinOld, etError);

     HistInstantLumiOccSet1Error->setBinContent(lsBinOld, occ1Error);

     HistInstantLumiOccSet2Error->setBinContent(lsBinOld, occ2Error);


     double histOldBinContent = HistIntegratedLumiEtSum->getBinContent(lsBinOld);

     if (lsBinOld == 0) histOldBinContent = 0;

     double histNewBinContent = histOldBinContent + sectionInstantSumEt;

     HistIntegratedLumiEtSum->setBinContent(lsBin, histNewBinContent);

     histOldBinContent = HistIntegratedLumiOccSet1->getBinContent(lsBinOld);

     if (lsBinOld == 0) histOldBinContent = 0;

     histNewBinContent = histOldBinContent + sectionInstantSumOcc1;

     HistIntegratedLumiOccSet1->setBinContent(lsBin, histNewBinContent);

     histOldBinContent = HistIntegratedLumiOccSet2->getBinContent(lsBinOld);

     if (lsBinOld == 0) histOldBinContent = 0;

     histNewBinContent = histOldBinContent + sectionInstantSumOcc2;

     HistIntegratedLumiOccSet2->setBinContent(lsBin, histNewBinContent);


     double histOldBinError = HistIntegratedLumiEtSum->getBinError(lsBinOld);

     if (lsBinOld == 0) histOldBinError = 0;

     double histNewBinError =

         sqrt(histOldBinError * histOldBinError + sectionInstantErrSumEt);

     HistIntegratedLumiEtSum->setBinError(lsBin, histNewBinError);

     histOldBinError = HistIntegratedLumiOccSet1->getBinError(lsBinOld);

     if (lsBinOld == 0) histOldBinError = 0;

     histNewBinError =

         sqrt(histOldBinError * histOldBinError + sectionInstantErrSumOcc1);

     HistIntegratedLumiOccSet1->setBinError(lsBin, histNewBinError);

     histOldBinError = HistIntegratedLumiOccSet2->getBinError(lsBinOld);

     if (lsBinOld == 0) histOldBinError = 0;

     histNewBinError =

         sqrt(histOldBinError * histOldBinError + sectionInstantErrSumOcc2);

     HistIntegratedLumiOccSet2->setBinError(lsBin, histNewBinError);


     sectionInstantSumEt = 0;

     sectionInstantErrSumEt = 0;

     sectionInstantSumOcc1 = 0;

     sectionInstantErrSumOcc1 = 0;

     sectionInstantSumOcc2 = 0;

     sectionInstantErrSumOcc2 = 0;

     sectionInstantNorm = 0;

     lsBinOld = lsBin;

   }


   sectionInstantSumEt += section.lumiSummary.InstantETLumi;

   sectionInstantErrSumEt += section.lumiSummary.InstantETLumiErr *

                             section.lumiSummary.InstantETLumiErr;

   sectionInstantSumOcc1 += section.lumiSummary.InstantOccLumi[0];

   sectionInstantErrSumOcc1 += section.lumiSummary.InstantOccLumiErr[0] *

                               section.lumiSummary.InstantOccLumiErr[0];

   sectionInstantSumOcc2 += section.lumiSummary.InstantOccLumi[1];

   sectionInstantErrSumOcc2 += section.lumiSummary.InstantOccLumiErr[1] *

                               section.lumiSummary.InstantOccLumiErr[1];

   ++sectionInstantNorm;


   LumiInstantEtSum->softReset();

   LumiInstantOccSet1->softReset();

   LumiInstantOccSet2->softReset();


   for (int iHLX = 0; iHLX < (int)NUM_HLX; ++iHLX) {

     unsigned int utotal1 = 0;

     unsigned int utotal2 = 0;

     unsigned int iWedge = HLXHFMap[iHLX];

     if (section.occupancy[iHLX].hdr.numNibbles != 0) {

       // Don't include the last one hundred BX in the average.

       for (unsigned int iBX = 0; iBX < NUM_BUNCHES; ++iBX) {

         // Normalize to number of towers

         unsigned int norm[2] = {0, 0};

         norm[0] += section.occupancy[iHLX].data[set1BelowIndex][iBX];

         norm[0] += section.occupancy[iHLX].data[set1BetweenIndex][iBX];

         norm[0] += section.occupancy[iHLX].data[set1AboveIndex][iBX];

         if (norm[0] == 0) norm[0] = 1;

         norm[1] += section.occupancy[iHLX].data[set2BelowIndex][iBX];

         norm[1] += section.occupancy[iHLX].data[set2BetweenIndex][iBX];

         norm[1] += section.occupancy[iHLX].data[set2AboveIndex][iBX];

         if (norm[1] == 0) norm[1] = 1;


         double normEt =

             section.etSum[iHLX].data[iBX] / (double)(norm[0] + norm[1]);

         double normOccSet1Below =

             (double)section.occupancy[iHLX].data[set1BelowIndex][iBX] /

             (double)norm[0];

         double normOccSet1Between =

             (double)section.occupancy[iHLX].data[set1BetweenIndex][iBX] /

             (double)norm[0];

         double normOccSet1Above =

             (double)section.occupancy[iHLX].data[set1AboveIndex][iBX] /

             (double)norm[0];

         double normOccSet2Below =

             (double)section.occupancy[iHLX].data[set2BelowIndex][iBX] /

             (double)norm[1];

         double normOccSet2Between =

             (double)section.occupancy[iHLX].data[set2BetweenIndex][iBX] /

             (double)norm[1];

         double normOccSet2Above =

             (double)section.occupancy[iHLX].data[set2AboveIndex][iBX] /

             (double)norm[1];


         // Averages & check sum

         if (iBX < NUM_BUNCHES - 100) {

           AvgEtSum->Fill(iWedge, normEt);


           AvgOccBelowSet1->Fill(iWedge, normOccSet1Below);

           AvgOccBetweenSet1->Fill(iWedge, normOccSet1Between);

           AvgOccAboveSet1->Fill(iWedge, normOccSet1Above);


           AvgOccBelowSet2->Fill(iWedge, normOccSet2Below);

           AvgOccBetweenSet2->Fill(iWedge, normOccSet2Between);

           AvgOccAboveSet2->Fill(iWedge, normOccSet2Above);


           if (iWedge < 18) {

             HistAvgEtSumHFP->Fill(lsBin, normEt);

             HistAvgOccBelowSet1HFP->Fill(lsBin, normOccSet1Below);

             HistAvgOccBetweenSet1HFP->Fill(lsBin, normOccSet1Between);

             HistAvgOccAboveSet1HFP->Fill(lsBin, normOccSet1Above);

             HistAvgOccBelowSet2HFP->Fill(lsBin, normOccSet2Below);

             HistAvgOccBetweenSet2HFP->Fill(lsBin, normOccSet2Between);

             HistAvgOccAboveSet2HFP->Fill(lsBin, normOccSet2Above);


             if (iBX >= (XMIN - 1) && iBX <= (XMAX - 1))

               BXvsTimeAvgEtSumHFP->Fill(

                   lsBinBX, iBX, normEt / (num4NibblePerLS_ * 18.0 * 12.0));

           } else {

             HistAvgEtSumHFM->Fill(lsBin, normEt);

             HistAvgOccBelowSet1HFM->Fill(lsBin, normOccSet1Below);

             HistAvgOccBetweenSet1HFM->Fill(lsBin, normOccSet1Between);

             HistAvgOccAboveSet1HFM->Fill(lsBin, normOccSet1Above);

             HistAvgOccBelowSet2HFM->Fill(lsBin, normOccSet2Below);

             HistAvgOccBetweenSet2HFM->Fill(lsBin, normOccSet2Between);

             HistAvgOccAboveSet2HFM->Fill(lsBin, normOccSet2Above);


             if (iBX >= (XMIN - 1) && iBX <= (XMAX - 1))

               BXvsTimeAvgEtSumHFM->Fill(

                   lsBinBX, iBX, normEt / (num4NibblePerLS_ * 18.0 * 12.0));

           }


           utotal1 += section.occupancy[iHLX].data[set1BelowIndex][iBX];

           utotal1 += section.occupancy[iHLX].data[set1BetweenIndex][iBX];

           utotal1 += section.occupancy[iHLX].data[set1AboveIndex][iBX];


           utotal2 += section.occupancy[iHLX].data[set2BelowIndex][iBX];

           utotal2 += section.occupancy[iHLX].data[set2BetweenIndex][iBX];

           utotal2 += section.occupancy[iHLX].data[set2AboveIndex][iBX];

         }


         if (Style.compare("BX") == 0) {

           // Get the correct bin ...

           TH1F* Set1BelowHist = Set1Below[iWedge]->getTH1F();

           int iBin = Set1BelowHist->FindBin((float)iBX);


           // Adjust the old bin content to make the new, unnormalize and

           // renormalize

           if (lumiSectionCount > 0) {

             double oldNormOccSet1Below =

                 (Set1Below[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet1Below += oldNormOccSet1Below;

             normOccSet1Below /= (double)(lumiSectionCount + 1);

             double oldNormOccSet2Below =

                 (Set2Below[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet2Below += oldNormOccSet2Below;

             normOccSet2Below /= (double)(lumiSectionCount + 1);


             double oldNormOccSet1Between =

                 (Set1Between[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet1Between += oldNormOccSet1Between;

             normOccSet1Between /= (double)(lumiSectionCount + 1);

             double oldNormOccSet2Between =

                 (Set2Between[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet2Between += oldNormOccSet2Between;

             normOccSet2Between /= (double)(lumiSectionCount + 1);


             double oldNormOccSet1Above =

                 (Set1Above[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet1Above += oldNormOccSet1Above;

             normOccSet1Above /= (double)(lumiSectionCount + 1);

             double oldNormOccSet2Above =

                 (Set2Above[iWedge]->getBinContent(iBin)) *

                 (double)(lumiSectionCount);

             normOccSet2Above += oldNormOccSet2Above;

             normOccSet2Above /= (double)(lumiSectionCount + 1);


             double oldNormEt =

                 ETSum[iWedge]->getBinContent(iBin) * (double)(lumiSectionCount);

             normEt += oldNormEt;

             normEt /= (double)(lumiSectionCount + 1);

           }

           Set1Below[iWedge]->setBinContent(iBin, normOccSet1Below);

           Set1Between[iWedge]->setBinContent(iBin, normOccSet1Between);

           Set1Above[iWedge]->setBinContent(iBin, normOccSet1Above);

           Set2Below[iWedge]->setBinContent(iBin, normOccSet2Below);

           Set2Between[iWedge]->setBinContent(iBin, normOccSet2Between);

           Set2Above[iWedge]->setBinContent(iBin, normOccSet2Above);

           ETSum[iWedge]->setBinContent(iBin, normEt);

         } else if (Style.compare("Dist") == 0) {

           Set1Below[iWedge]->Fill(normOccSet1Below);

           Set1Between[iWedge]->Fill(normOccSet1Between);

           Set1Above[iWedge]->Fill(normOccSet1Above);

           Set2Below[iWedge]->Fill(normOccSet2Below);

           Set2Between[iWedge]->Fill(normOccSet2Between);

           Set2Above[iWedge]->Fill(normOccSet2Above);

           ETSum[iWedge]->Fill(normEt);

         }

       }


       // Get the number of towers per wedge per BX (assuming non-zero numbers)

       double total1 = 0;

       double total2 = 0;

       if ((NUM_BUNCHES - 100) > 0) {

         total1 = (double)utotal1 / (double)(NUM_BUNCHES - 100);

         total2 = (double)utotal2 / (double)(NUM_BUNCHES - 100);

       }

       if (section.hdr.numOrbits > 0) {

         total1 = total1 / (double)section.hdr.numOrbits;

         total2 = total2 / (double)section.hdr.numOrbits;

       }


       SumAllOccSet1->Fill(iWedge, total1);

       SumAllOccSet2->Fill(iWedge, total2);

     }

   }


   double max[4] = {-1000.0, -1000.0, -1000.0, -1000.0};

   int bxmax[4] = {-1, -1, -1, -1};

   for (unsigned int iBX = 0; iBX < NUM_BUNCHES; ++iBX) {

     LumiAvgEtSum->Fill(iBX, section.lumiDetail.ETLumi[iBX]);

     LumiAvgOccSet1->Fill(iBX, section.lumiDetail.OccLumi[0][iBX]);

     LumiAvgOccSet2->Fill(iBX, section.lumiDetail.OccLumi[1][iBX]);


     if (section.lumiDetail.OccLumi[0][iBX] > max[0]) {

       max[3] = max[2];

       bxmax[3] = bxmax[2];

       max[2] = max[1];

       bxmax[2] = bxmax[1];

       max[1] = max[0];

       bxmax[1] = bxmax[0];

       max[0] = section.lumiDetail.OccLumi[0][iBX];

       bxmax[0] = iBX;

     } else if (section.lumiDetail.OccLumi[0][iBX] > max[1]) {

       max[3] = max[2];

       bxmax[3] = bxmax[2];

       max[2] = max[1];

       bxmax[2] = bxmax[1];

       max[1] = section.lumiDetail.OccLumi[0][iBX];

       bxmax[1] = iBX;

     } else if (section.lumiDetail.OccLumi[0][iBX] > max[2]) {

       max[3] = max[2];

       bxmax[3] = bxmax[2];

       max[2] = section.lumiDetail.OccLumi[0][iBX];

       bxmax[2] = iBX;

     } else if (section.lumiDetail.OccLumi[0][iBX] > max[3]) {

       max[3] = section.lumiDetail.OccLumi[0][iBX];

       bxmax[3] = iBX;

     }


     int iBin = iBX - (int)XMIN + 1;

     if (iBin <= int(XMAX - XMIN) && iBin >= 1) {

       LumiInstantEtSum->setBinContent(iBin, section.lumiDetail.ETLumi[iBX]);

       LumiInstantOccSet1->setBinContent(iBin,

                                         section.lumiDetail.OccLumi[0][iBX]);

       LumiInstantOccSet2->setBinContent(iBin,

                                         section.lumiDetail.OccLumi[1][iBX]);

       LumiInstantEtSum->setBinError(iBin, section.lumiDetail.ETLumiErr[iBX]);

       LumiInstantOccSet1->setBinError(iBin,

                                       section.lumiDetail.OccLumiErr[0][iBX]);

       LumiInstantOccSet2->setBinError(iBin,

                                       section.lumiDetail.OccLumiErr[1][iBX]);


       double oldBinContent = LumiIntegratedEtSum->getBinContent(iBin);

       if (lumiSectionCount == 0) oldBinContent = 0;

       double newBinContent = oldBinContent + section.lumiDetail.ETLumi[iBX];

       LumiIntegratedEtSum->setBinContent(iBin, newBinContent);

       oldBinContent = LumiIntegratedOccSet1->getBinContent(iBin);

       if (lumiSectionCount == 0) oldBinContent = 0;

       newBinContent = oldBinContent + section.lumiDetail.OccLumi[0][iBX];

       LumiIntegratedOccSet1->setBinContent(iBin, newBinContent);

       oldBinContent = LumiIntegratedOccSet2->getBinContent(iBin);

       if (lumiSectionCount == 0) oldBinContent = 0;

       newBinContent = oldBinContent + section.lumiDetail.OccLumi[1][iBX];

       LumiIntegratedOccSet2->setBinContent(iBin, newBinContent);


       double oldBinError = LumiIntegratedEtSum->getBinError(iBin);

       if (lumiSectionCount == 0) oldBinError = 0;

       double newBinError = sqrt(oldBinError * oldBinError +

                                 section.lumiDetail.ETLumiErr[iBX] *

                                     section.lumiDetail.ETLumiErr[iBX]);

       LumiIntegratedEtSum->setBinError(iBin, newBinError);

       oldBinError = LumiIntegratedOccSet1->getBinError(iBin);

       if (lumiSectionCount == 0) oldBinError = 0;

       newBinError = sqrt(oldBinError * oldBinError +

                          section.lumiDetail.OccLumiErr[0][iBX] *

                              section.lumiDetail.OccLumiErr[0][iBX]);

       LumiIntegratedOccSet1->setBinError(iBin, newBinError);

       oldBinError = LumiIntegratedOccSet1->getBinError(iBin);

       if (lumiSectionCount == 0) oldBinError = 0;

       newBinError = sqrt(oldBinError * oldBinError +

                          section.lumiDetail.OccLumiErr[1][iBX] *

                              section.lumiDetail.OccLumiErr[1][iBX]);

       LumiIntegratedOccSet2->setBinError(iBin, newBinError);

     }

   }


   // Now fill the maximum hists, but ordered by BX, so that

   // collision BX's or satellite BX's will always appear in the

   // same histogram.

   int flag = 1;

   for (int iM = 0; (iM < 4) && flag; ++iM) {

     flag = 0;

     for (int iN = 0; iN < 3; ++iN) {

       if (bxmax[iN + 1] < bxmax[iN]) {

         int tmp = bxmax[iN];

         bxmax[iN] = bxmax[iN + 1];

         bxmax[iN + 1] = tmp;


         double tmp2 = max[iN];

         max[iN] = max[iN + 1];

         max[iN + 1] = tmp2;

         flag = 1;

       }

     }

   }


   // 0.9e1 = Conversion constant for occ1 at 900GeV COM.

   MaxInstLumiBX1->Fill(max[0] * 0.9e1);

   MaxInstLumiBXNum1->Fill(bxmax[0]);

   MaxInstLumiBX2->Fill(max[1] * 0.9e1);

   MaxInstLumiBXNum2->Fill(bxmax[1]);

   MaxInstLumiBX3->Fill(max[2] * 0.9e1);

   MaxInstLumiBXNum3->Fill(bxmax[2]);

   MaxInstLumiBX4->Fill(max[3] * 0.9e1);

   MaxInstLumiBXNum4->Fill(bxmax[3]);


   TH1F* tmpHist = MaxInstLumiBX1->getTH1F();

   double minX = tmpHist->GetBinLowEdge(1);

   double maxX = tmpHist->GetBinLowEdge(tmpHist->GetNbinsX() + 1);


   int inum4NibblePerLS = (int)num4NibblePerLS_;

   if (lumiSectionCount % inum4NibblePerLS == 0) {

     double mean1 = MaxInstLumiBX1->getMean();

     double rms1 = MaxInstLumiBX1->getRMS();

     if (rms1 > 0 && mean1 - 5 * rms1 > minX && mean1 + 5 * rms1 < maxX)

       MaxInstLumiBX1->setAxisRange(mean1 - 5 * rms1, mean1 + 5 * rms1);


     double mean2 = MaxInstLumiBX2->getMean();

     double rms2 = MaxInstLumiBX2->getRMS();

     if (rms2 > 0 && mean2 - 5 * rms2 > minX && mean2 + 5 * rms2 < maxX)

       MaxInstLumiBX2->setAxisRange(mean2 - 5 * rms2, mean2 + 5 * rms2);


     double mean3 = MaxInstLumiBX3->getMean();

     double rms3 = MaxInstLumiBX3->getRMS();

     if (rms3 > 0 && mean3 - 5 * rms3 > minX && mean3 + 5 * rms3 < maxX)

       MaxInstLumiBX3->setAxisRange(mean3 - 5 * rms3, mean3 + 5 * rms3);


     double mean4 = MaxInstLumiBX4->getMean();

     double rms4 = MaxInstLumiBX4->getRMS();

     if (rms4 > 0 && mean4 - 5 * rms4 > minX && mean4 + 5 * rms4 < maxX)

       MaxInstLumiBX4->setAxisRange(mean4 - 5 * rms4, mean4 + 5 * rms4);

   }


   // Add one to the section count (usually short sections)

   ++lumiSectionCount;

 }


 void HLXMonitor::FillHistoHFCompare(const LUMI_SECTION& section) {

   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) {

     unsigned int iWedge = HLXHFMap[iHLX];


     if (section.occupancy[iHLX].hdr.numNibbles != 0) {

       float nActvTwrsSet1 =

           section.occupancy[iHLX].data[set1AboveIndex][TriggerBX] +

           section.occupancy[iHLX].data[set1BetweenIndex][TriggerBX] +

           section.occupancy[iHLX].data[set1BelowIndex][TriggerBX];


       float nActvTwrsSet2 =

           section.occupancy[iHLX].data[set2AboveIndex][TriggerBX] +

           section.occupancy[iHLX].data[set2BetweenIndex][TriggerBX] +

           section.occupancy[iHLX].data[set2BelowIndex][TriggerBX];


       float total = nActvTwrsSet1 + nActvTwrsSet2;


       if (total > 0) {

         float tempData = section.etSum[iHLX].data[TriggerBX] / total;

         // cout << "Filling HFCompare Et sum " << tempData << endl;

         HFCompareEtSum->Fill(iWedge, tempData);

       }


       if (nActvTwrsSet1 > 0) {

         float tempData =

             (float)section.occupancy[iHLX].data[set1BelowIndex][TriggerBX] /

             nActvTwrsSet1;

         HFCompareOccBelowSet1->Fill(iWedge, tempData);


         tempData =

             (float)section.occupancy[iHLX].data[set1BetweenIndex][TriggerBX] /

             nActvTwrsSet1;

         HFCompareOccBetweenSet1->Fill(iWedge, tempData);


         tempData =

             (float)section.occupancy[iHLX].data[set1AboveIndex][TriggerBX] /

             nActvTwrsSet1;

         HFCompareOccAboveSet1->Fill(iWedge, tempData);

       }


       if (nActvTwrsSet2 > 0) {

         float tempData =

             (float)section.occupancy[iHLX].data[set2BelowIndex][TriggerBX] /

             nActvTwrsSet2;

         HFCompareOccBelowSet2->Fill(iWedge, tempData);


         tempData =

             (float)section.occupancy[iHLX].data[set2BetweenIndex][TriggerBX] /

             nActvTwrsSet2;

         HFCompareOccBetweenSet2->Fill(iWedge, tempData);


         tempData =

             (float)section.occupancy[iHLX].data[set2AboveIndex][TriggerBX] /

             nActvTwrsSet2;

         HFCompareOccAboveSet2->Fill(iWedge, tempData);

       }

     }

   }

 }


 void HLXMonitor::FillEventInfo(const LUMI_SECTION& section,

                                const edm::Event& e) {

   // New run .. set the run number and fill run summaries ...

   // std::cout << "Run number " << runNumber_ << " Section hdr run number "

   //         << section.hdr.runNumber << std::endl;


   runId_->Fill(section.hdr.runNumber);

   lumisecId_->Fill((int)(section.hdr.sectionNumber / num4NibblePerLS_) + 1);


   // Update the total nibbles & the expected number

   expectedNibbles_ += section.hdr.numOrbits / 4096;

   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) {

     unsigned int iWedge = HLXHFMap[iHLX] + 1;

     totalNibbles_[iWedge - 1] += section.occupancy[iHLX].hdr.numNibbles;

   }


   eventId_->Fill(e.id().event());

   eventTimeStamp_->Fill(e.time().value() / (double)0xffffffff);


   pEvent_++;

   evtRateCount_++;

   processEvents_->Fill(pEvent_);


   lastUpdateTime_ = currentTime_;

   gettimeofday(&currentTime_, NULL);

   processTimeStamp_->Fill(getUTCtime(&currentTime_));

   processLatency_->Fill(getUTCtime(&lastUpdateTime_, &currentTime_));


   float time = getUTCtime(&lastAvgTime_, &currentTime_);

   if (time >= (evtRateWindow_ * 60.0)) {

     processEventRate_->Fill((float)evtRateCount_ / time);

     evtRateCount_ = 0;

     lastAvgTime_ = currentTime_;

   }

 }


 void HLXMonitor::FillReportSummary() {

   // Run summary - Loop over the HLX's and fill the map,

   // also calculate the overall quality.

   float overall = 0.0;

   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) {

     unsigned int iWedge = HLXHFMap[iHLX] + 1;

     unsigned int iEta = 2;

     float frac = 0.0;

     if (expectedNibbles_ > 0)

       frac = (float)totalNibbles_[iWedge - 1] / (float)expectedNibbles_;

     if (iWedge >= 19) {

       iEta = 1;

       iWedge -= 18;

     }

     reportSummaryMap_->setBinContent(iWedge, iEta, frac);

     overall += frac;

   }


   overall /= (float)NUM_HLX;

   if (overall > 1.0) overall = 0.0;

   // std::cout << "Filling report summary! Main. " << overall << std::endl;

   reportSummary_->Fill(overall);

 }


 void HLXMonitor::ResetAll() {

   for (unsigned int iHLX = 0; iHLX < NUM_HLX; ++iHLX) {

     Set1Below[iHLX]->softReset();

     Set1Between[iHLX]->softReset();

     Set1Above[iHLX]->softReset();

     Set2Below[iHLX]->softReset();

     Set2Between[iHLX]->softReset();

     Set2Above[iHLX]->softReset();

     ETSum[iHLX]->softReset();

   }


   HFCompareEtSum->softReset();

   HFCompareOccBelowSet1->softReset();

   HFCompareOccBetweenSet1->softReset();

   HFCompareOccAboveSet1->softReset();

   HFCompareOccBelowSet2->softReset();

   HFCompareOccBetweenSet2->softReset();

   HFCompareOccAboveSet2->softReset();


   AvgEtSum->softReset();

   AvgOccBelowSet1->softReset();

   AvgOccBetweenSet1->softReset();

   AvgOccAboveSet1->softReset();

   AvgOccBelowSet2->softReset();

   AvgOccBetweenSet2->softReset();

   AvgOccAboveSet2->softReset();


   // Luminosity Monitoring

   LumiAvgEtSum->softReset();

   LumiAvgOccSet1->softReset();

   LumiAvgOccSet2->softReset();

   LumiInstantEtSum->softReset();

   LumiInstantOccSet1->softReset();

   LumiInstantOccSet2->softReset();

   LumiIntegratedEtSum->softReset();

   LumiIntegratedOccSet1->softReset();

   LumiIntegratedOccSet2->softReset();


   // Sanity Check for Occupancy

   SumAllOccSet1->softReset();

   SumAllOccSet2->softReset();

   MissingDQMDataCheck->softReset();


   MaxInstLumiBX1->softReset();

   MaxInstLumiBX2->softReset();

   MaxInstLumiBX3->softReset();

   MaxInstLumiBX4->softReset();


   MaxInstLumiBXNum1->softReset();

   MaxInstLumiBXNum2->softReset();

   MaxInstLumiBXNum3->softReset();

   MaxInstLumiBXNum4->softReset();


   // History

   lumiSectionCount = 0;

   previousSection = 0;

   HistAvgEtSumHFP->softReset();

   HistAvgEtSumHFM->softReset();


   HistAvgOccBelowSet1HFP->softReset();

   HistAvgOccBelowSet1HFM->softReset();

   HistAvgOccBetweenSet1HFP->softReset();

   HistAvgOccBetweenSet1HFM->softReset();

   HistAvgOccAboveSet1HFP->softReset();

   HistAvgOccAboveSet1HFM->softReset();


   HistAvgOccBelowSet2HFP->softReset();

   HistAvgOccBelowSet2HFM->softReset();

   HistAvgOccBetweenSet2HFP->softReset();

   HistAvgOccBetweenSet2HFM->softReset();

   HistAvgOccAboveSet2HFP->softReset();

   HistAvgOccAboveSet2HFM->softReset();


   HistAvgLumiEtSum->softReset();

   HistAvgLumiOccSet1->softReset();

   HistAvgLumiOccSet2->softReset();

   HistInstantLumiEtSum->softReset();

   HistInstantLumiOccSet1->softReset();

   HistInstantLumiOccSet2->softReset();

   HistInstantLumiEtSumError->softReset();

   HistInstantLumiOccSet1Error->softReset();

   HistInstantLumiOccSet2Error->softReset();

   HistIntegratedLumiEtSum->softReset();

   HistIntegratedLumiOccSet1->softReset();

   HistIntegratedLumiOccSet2->softReset();


   RecentInstantLumiEtSum->softReset();

   RecentInstantLumiOccSet1->softReset();

   RecentInstantLumiOccSet2->softReset();

   RecentIntegratedLumiEtSum->softReset();

   RecentIntegratedLumiOccSet1->softReset();

   RecentIntegratedLumiOccSet2->softReset();


   BXvsTimeAvgEtSumHFP->softReset();

   BXvsTimeAvgEtSumHFM->softReset();

 }


 double HLXMonitor::getUTCtime(timeval* a, timeval* b) {

   double deltaT = (*a).tv_sec * 1000.0 + (*a).tv_usec / 1000.0;

   if (b != NULL) deltaT = (*b).tv_sec * 1000.0 + (*b).tv_usec / 1000.0 - deltaT;

   return deltaT / 1000.0;

 }


 // define this as a plug-in

 DEFINE_FWK_MODULE(HLXMonitor);

math.h

HLXMonitor::sectionInstantSumEt
double sectionInstantSumEt
Definition: HLXMonitor.h:268

HLXMonitor::HistAvgOccBetweenSet1HFP
MonitorElement * HistAvgOccBetweenSet1HFP
Definition: HLXMonitor.h:135

HLXMonitor::HFCompareOccAboveSet1
MonitorElement * HFCompareOccAboveSet1
Definition: HLXMonitor.h:90

edm::EventID::event
EventNumber_t event() const
Definition: EventID.h:41

HLXMonitor::Set2Between
MonitorElement * Set2Between[36]
Definition: HLXMonitor.h:83

HLXMonitor::processLatency_
MonitorElement * processLatency_
The UTC time of the last event.
Definition: HLXMonitor.h:187

edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const

HLXMonitor::HistInstantLumiOccSet1
MonitorElement * HistInstantLumiOccSet1
Definition: HLXMonitor.h:152

HLXMonitor::OutputDir
std::string OutputDir
Definition: HLXMonitor.h:218

HLXMonitor::HFCompareOccAboveSet2
MonitorElement * HFCompareOccAboveSet2
Definition: HLXMonitor.h:93

HLXMonitor::RecentIntegratedLumiOccSet2
MonitorElement * RecentIntegratedLumiOccSet2
Definition: HLXMonitor.h:166

HLXMonitor::MaxInstLumiBX4
MonitorElement * MaxInstLumiBX4
Definition: HLXMonitor.h:123

HLXMonitor::pEvent_
int pEvent_
Definition: HLXMonitor.h:281

HLXMonitor::totalNibbles_
unsigned int totalNibbles_[36]
Definition: HLXMonitor.h:261

HLXMonitor::processTimeStamp_
MonitorElement * processTimeStamp_
The UTC time of the first event processed.
Definition: HLXMonitor.h:186

HLXMonitor::FillReportSummary
void FillReportSummary()
Definition: HLXMonitor.cc:1467

HCAL_HLX::LUMI_SUMMARY::InstantOccLumi
float InstantOccLumi[2]
Definition: LumiRawDataStructures.h:146

HCAL_HLX::LUMI_SUMMARY::InstantOccLumiErr
float InstantOccLumiErr[2]
Definition: LumiRawDataStructures.h:147

HLXMonitor::SetupHists
void SetupHists(DQMStore::IBooker &)
Definition: HLXMonitor.cc:153

HLXMonitor::~HLXMonitor
~HLXMonitor()
Definition: HLXMonitor.cc:115

MonitorElement::setBinContent
void setBinContent(int binx, double content)
set content of bin (1-D)
Definition: MonitorElement.cc:844

HLXMonitor::HLXHFMap
unsigned int HLXHFMap[36]
Definition: HLXMonitor.h:263

HCAL_HLX::TCPReceiver::SetPort
int SetPort(unsigned short int)
Definition: TCPReceiver.cc:182

HLXMonitor::HistAvgLumiOccSet2
MonitorElement * HistAvgLumiOccSet2
Definition: HLXMonitor.h:150

HLXMonitor::secNumLength
unsigned int secNumLength
Definition: HLXMonitor.h:249

HLXMonitor::HistAvgOccBelowSet2HFM
MonitorElement * HistAvgOccBelowSet2HFM
Definition: HLXMonitor.h:140

HCAL_HLX::LUMI_SECTION_HEADER::sectionNumber
uint32_t sectionNumber
Definition: LumiRawDataStructures.h:260

HLXMonitor::EndRun
void EndRun()
Definition: HLXMonitor.cc:879

HLXMonitor::RecentIntegratedLumiEtSum
MonitorElement * RecentIntegratedLumiEtSum
Definition: HLXMonitor.h:164

HLXMonitor::XMAX
double XMAX
Definition: HLXMonitor.h:214

HCAL_HLX::LUMI_SECTION
Definition: LumiRawDataStructures.h:291

HLXMonitor::LumiIntegratedEtSum
MonitorElement * LumiIntegratedEtSum
Definition: HLXMonitor.h:110

HLXMonitor::SumAllOccSet1
MonitorElement * SumAllOccSet1
Definition: HLXMonitor.h:115

HLXMonitor::LumiInstantOccSet2
MonitorElement * LumiInstantOccSet2
Definition: HLXMonitor.h:109

HLXMonitor::AvgOccBetweenSet2
MonitorElement * AvgOccBetweenSet2
Definition: HLXMonitor.h:100

HCAL_HLX::LUMI_DETAIL::OccLumi
float OccLumi[2][4096]
Definition: LumiRawDataStructures.h:163

MonitorElement::setAxisRange
void setAxisRange(double xmin, double xmax, int axis=1)
set x-, y- or z-axis range (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:938

HLXMonitor::prescaleEvt_
int prescaleEvt_
Definition: HLXMonitor.h:229

HLXMonitor::AvgOccBelowSet1
MonitorElement * AvgOccBelowSet1
Definition: HLXMonitor.h:96

HLXMonitor::HistAvgEtSumHFM
MonitorElement * HistAvgEtSumHFM
Definition: HLXMonitor.h:132

DQMStore::IBooker::bookProfile
MonitorElement * bookProfile(Args &&...args)
Definition: DQMStore.h:157

HLXMonitor::AvgOccAboveSet2
MonitorElement * AvgOccAboveSet2
Definition: HLXMonitor.h:101

HLXMonitor::HistAvgEtSumHFP
MonitorElement * HistAvgEtSumHFP
Definition: HLXMonitor.h:131

HLXMonitor::HistAvgOccAboveSet1HFP
MonitorElement * HistAvgOccAboveSet1HFP
Definition: HLXMonitor.h:137

HCAL_HLX::LUMI_SECTION::hdr
LUMI_SECTION_HEADER hdr
Definition: LumiRawDataStructures.h:292

HCAL_HLX::TCPReceiver::Disconnect
int Disconnect()
Definition: TCPReceiver.cc:288

HLXMonitor::LumiInstantEtSum
MonitorElement * LumiInstantEtSum
Definition: HLXMonitor.h:107

DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17

HLXMonitor::analyze
virtual void analyze(const edm::Event &, const edm::EventSetup &)
Definition: HLXMonitor.cc:826

HLXMonitor::OccYAxisTitle
std::string OccYAxisTitle
Definition: HLXMonitor.h:252

HLXMonitor::LumiAvgOccSet2
MonitorElement * LumiAvgOccSet2
Definition: HLXMonitor.h:106

HLXMonitor::cmsswVer_
MonitorElement * cmsswVer_
Current working directory of the job.
Definition: HLXMonitor.h:194

HCAL_HLX::LUMI_SUMMARY::InstantETLumiErr
float InstantETLumiErr
Definition: LumiRawDataStructures.h:142

HCAL_HLX::TCPReceiver::Connect
int Connect()
Definition: TCPReceiver.cc:232

HLXMonitor::HistInstantLumiOccSet2Error
MonitorElement * HistInstantLumiOccSet2Error
Definition: HLXMonitor.h:156

HLXMonitor::NUM_HLX
unsigned int NUM_HLX
Definition: HLXMonitor.h:221

HLXMonitor::processEventRate_
MonitorElement * processEventRate_
Time elapsed since the last event.
Definition: HLXMonitor.h:188

DQMStore::IBooker::bookInt
MonitorElement * bookInt(Args &&...args)
Definition: DQMStore.h:103

HLXMonitor::runNumber_
unsigned int runNumber_
Definition: HLXMonitor.h:259

DQMStore::IBooker::bookString
MonitorElement * bookString(Args &&...args)
Definition: DQMStore.h:97

HLXMonitor::lsBinOld
int lsBinOld
Definition: HLXMonitor.h:267

HLXMonitor::MissingDQMDataCheck
MonitorElement * MissingDQMDataCheck
Definition: HLXMonitor.h:117

HCAL_HLX::OCCUPANCY_SECTION::hdr
LUMI_SECTION_SUB_HEADER hdr
Definition: LumiRawDataStructures.h:282

NULL
#define NULL
Definition: scimark2.h:8

MonitorElement::softReset
void softReset(void)
Definition: MonitorElement.cc:1015

HLXMonitor::HistInstantLumiOccSet2
MonitorElement * HistInstantLumiOccSet2
Definition: HLXMonitor.h:153

HLXMonitor::LumiInstantOccSet1
MonitorElement * LumiInstantOccSet1
Definition: HLXMonitor.h:108

HLXMonitor::HistAvgOccAboveSet1HFM
MonitorElement * HistAvgOccAboveSet1HFM
Definition: HLXMonitor.h:138

HLXMonitor::evtRateWindow_
float evtRateWindow_
Definition: HLXMonitor.h:279

HLXMonitor::OutputFilePrefix
std::string OutputFilePrefix
Definition: HLXMonitor.h:217

HLXMonitor::LumiIntegratedOccSet1
MonitorElement * LumiIntegratedOccSet1
Definition: HLXMonitor.h:111

MonitorElement::getMean
double getMean(int axis=1) const
get mean value of histogram along x, y or z axis (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:700

HLXMonitor::sectionInstantErrSumEt
double sectionInstantErrSumEt
Definition: HLXMonitor.h:269

HLXMonitor::sectionInstantErrSumOcc2
double sectionInstantErrSumOcc2
Definition: HLXMonitor.h:273

HLXMonitor::set2AboveIndex
unsigned int set2AboveIndex
Definition: HLXMonitor.h:240

HLXMonitor::Set1Below
MonitorElement * Set1Below[36]
Definition: HLXMonitor.h:79

HCAL_HLX::TCPReceiver::SetIP
void SetIP(std::string IP)
Definition: TCPReceiver.cc:222

HLXMonitor::evtRateCount_
int evtRateCount_
Definition: HLXMonitor.h:280

AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:255

HLXMonitor::XMIN
double XMIN
Definition: HLXMonitor.h:214

MonitorElement::Fill
void Fill(long long x)
Definition: MonitorElement.h:170

HLXMonitor::EtYAxisTitle
std::string EtYAxisTitle
Definition: HLXMonitor.h:254

pileupDistInMC.total
int total
Definition: pileupDistInMC.py:54

HLXMonitor::eventInfoFolderHLX_
std::string eventInfoFolderHLX_
Definition: HLXMonitor.h:244

HLXMonitor::HistInstantLumiEtSumError
MonitorElement * HistInstantLumiEtSumError
Definition: HLXMonitor.h:154

HLXMonitor::DistribIP2
std::string DistribIP2
Definition: HLXMonitor.h:233

HLXMonitor::eventId_
MonitorElement * eventId_
UTC time of the run start.
Definition: HLXMonitor.h:175

HLXMonitor::listenPort
int listenPort
Definition: HLXMonitor.h:213

HCAL_HLX::LUMI_SECTION::lumiSummary
LUMI_SUMMARY lumiSummary
Definition: LumiRawDataStructures.h:293

HLXMonitor::processId_
MonitorElement * processId_
Number of collector updates (TBD)
Definition: HLXMonitor.h:183

HLXMonitor::MaxInstLumiBX1
MonitorElement * MaxInstLumiBX1
Definition: HLXMonitor.h:120

HLXMonitor::reportSummaryMap_
MonitorElement * reportSummaryMap_
Definition: HLXMonitor.h:203

HLXMonitor::MAX_LS
unsigned int MAX_LS
Definition: HLXMonitor.h:223

HCAL_HLX::LUMI_SECTION::lumiDetail
LUMI_DETAIL lumiDetail
Definition: LumiRawDataStructures.h:294

iEvent
int iEvent
Definition: GenABIO.cc:230

HLXMonitor::HistAvgOccBelowSet1HFP
MonitorElement * HistAvgOccBelowSet1HFP
Definition: HLXMonitor.h:133

HCAL_HLX::LUMI_SECTION_HEADER::runNumber
uint32_t runNumber
Definition: LumiRawDataStructures.h:259

HLXMonitor::HFCompareEtSum
MonitorElement * HFCompareEtSum
Definition: HLXMonitor.h:87

HCAL_HLX::LUMI_DETAIL::ETLumiErr
float ETLumiErr[4096]
Definition: LumiRawDataStructures.h:159

HLXMonitor::runStartTimeStamp_
MonitorElement * runStartTimeStamp_
Definition: HLXMonitor.h:174

HLXMonitor::Set1Between
MonitorElement * Set1Between[36]
Definition: HLXMonitor.h:80

cond::rpcobgas::time
Definition: RPCObGasPyWrapper.cc:61

HLXMonitor::set2BetweenIndex
unsigned int set2BetweenIndex
Definition: HLXMonitor.h:239

HLXMonitor::sectionInstantSumOcc1
double sectionInstantSumOcc1
Definition: HLXMonitor.h:270

HLXMonitor::lastUpdateTime_
timeval lastUpdateTime_
Definition: HLXMonitor.h:277

HLXMonitor::set2BelowIndex
unsigned int set2BelowIndex
Definition: HLXMonitor.h:238

mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:48

HLXMonitor::sectionInstantSumOcc2
double sectionInstantSumOcc2
Definition: HLXMonitor.h:272

HLXMonitor::HistIntegratedLumiOccSet1
MonitorElement * HistIntegratedLumiOccSet1
Definition: HLXMonitor.h:158

HLXMonitor::RecentInstantLumiOccSet1
MonitorElement * RecentInstantLumiOccSet1
Definition: HLXMonitor.h:162

HLXMonitor::HistIntegratedLumiOccSet2
MonitorElement * HistIntegratedLumiOccSet2
Definition: HLXMonitor.h:159

HLXMonitor::BXvsTimeAvgEtSumHFM
MonitorElement * BXvsTimeAvgEtSumHFM
Definition: HLXMonitor.h:146

HLXMonitor::HistAvgOccBetweenSet2HFM
MonitorElement * HistAvgOccBetweenSet2HFM
Definition: HLXMonitor.h:142

HLXMonitor::connectHLXTCP
void connectHLXTCP()
Definition: HLXMonitor.cc:121

DQMStore::IBooker::book1D
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:115

HLXMonitor::AvgOccAboveSet1
MonitorElement * AvgOccAboveSet1
Definition: HLXMonitor.h:98

HLXMonitor::HistInstantLumiOccSet1Error
MonitorElement * HistInstantLumiOccSet1Error
Definition: HLXMonitor.h:155

HLXMonitor::lumiSection
HCAL_HLX::LUMI_SECTION lumiSection
Definition: HLXMonitor.h:256

HLXMonitor::hostName_
MonitorElement * hostName_
of event processed so far
Definition: HLXMonitor.h:191

HLXMonitor::HFCompareOccBelowSet1
MonitorElement * HFCompareOccBelowSet1
Definition: HLXMonitor.h:88

HCAL_HLX::OCCUPANCY_SECTION::data
uint32_t data[6][4096]
Definition: LumiRawDataStructures.h:283

HLXMonitor::NBINS
unsigned int NBINS
Definition: HLXMonitor.h:215

edm::EventSetup
Definition: EventSetup.h:44

HLXMonitor::ETSum
MonitorElement * ETSum[36]
Definition: HLXMonitor.h:85

HCAL_HLX::LUMI_SUMMARY::InstantETLumi
float InstantETLumi
Definition: LumiRawDataStructures.h:141

MonitorElement::setBinError
void setBinError(int binx, double error)
set uncertainty on content of bin (1-D)
Definition: MonitorElement.cc:869

HLXMonitor::ResetAtNewRun
bool ResetAtNewRun
Definition: HLXMonitor.h:242

HLXMonitor::Set2Below
MonitorElement * Set2Below[36]
Definition: HLXMonitor.h:82

HCAL_HLX::LUMI_SECTION_SUB_HEADER::numNibbles
uint32_t numNibbles
Definition: LumiRawDataStructures.h:272

HLXMonitor::MaxInstLumiBXNum2
MonitorElement * MaxInstLumiBXNum2
Definition: HLXMonitor.h:126

HCAL_HLX::LUMI_DETAIL::OccLumiErr
float OccLumiErr[2][4096]
Definition: LumiRawDataStructures.h:164

HLXMonitor::MaxInstLumiBX2
MonitorElement * MaxInstLumiBX2
Definition: HLXMonitor.h:121

HCAL_HLX::LUMI_SECTION_HEADER::startOrbit
uint32_t startOrbit
Definition: LumiRawDataStructures.h:262

HLXMonitor::SumAllOccSet2
MonitorElement * SumAllOccSet2
Definition: HLXMonitor.h:116

HCAL_HLX::TCPReceiver::IsConnected
bool IsConnected()
Definition: TCPReceiver.cc:175

HLXMonitor::monitorName_
std::string monitorName_
Definition: HLXMonitor.h:228

HLXMonitor::AvgEtSum
MonitorElement * AvgEtSum
Definition: HLXMonitor.h:95

HCAL_HLX::LUMI_SECTION_HEADER::numOrbits
uint32_t numOrbits
Definition: LumiRawDataStructures.h:263

HLXMonitor::nUpdates_
MonitorElement * nUpdates_
These MEs are either static or updated upon each analyze() call.
Definition: HLXMonitor.h:182

HCAL_HLX::LUMI_SECTION::etSum
ET_SUM_SECTION etSum[36]
Definition: LumiRawDataStructures.h:296

HLXMonitor::HistAvgOccAboveSet2HFM
MonitorElement * HistAvgOccAboveSet2HFM
Definition: HLXMonitor.h:144

HCAL_HLX::LUMI_SECTION::occupancy
OCCUPANCY_SECTION occupancy[36]
Definition: LumiRawDataStructures.h:297

HLXMonitor::Accumulate
bool Accumulate
Definition: HLXMonitor.h:216

HLXMonitor::LumiAvgEtSum
MonitorElement * LumiAvgEtSum
Definition: HLXMonitor.h:104

HLXMonitor::eventTimeStamp_
MonitorElement * eventTimeStamp_
Definition: HLXMonitor.h:177

HLXMonitor::BXvsTimeAvgEtSumHFP
MonitorElement * BXvsTimeAvgEtSumHFP
Definition: HLXMonitor.h:145

HLXMonitor::HistAvgOccBetweenSet1HFM
MonitorElement * HistAvgOccBetweenSet1HFM
Definition: HLXMonitor.h:136

HLXMonitor::RecentIntegratedLumiOccSet1
MonitorElement * RecentIntegratedLumiOccSet1
Definition: HLXMonitor.h:165

HLXMonitor::TriggerBX
unsigned int TriggerBX
Definition: HLXMonitor.h:225

HLXMonitor::MaxInstLumiBXNum4
MonitorElement * MaxInstLumiBXNum4
Definition: HLXMonitor.h:128

edm::getReleaseVersion
std::string getReleaseVersion()
Definition: GetReleaseVersion.cc:7

HLXMonitor::NUM_BUNCHES
unsigned int NUM_BUNCHES
Definition: HLXMonitor.h:222

HLXMonitor::HistAvgLumiOccSet1
MonitorElement * HistAvgLumiOccSet1
Definition: HLXMonitor.h:149

HLXMonitor::HistAvgOccAboveSet2HFP
MonitorElement * HistAvgOccAboveSet2HFP
Definition: HLXMonitor.h:143

HLXMonitor::MinLSBeforeSave
unsigned int MinLSBeforeSave
Definition: HLXMonitor.h:226

HLXMonitor::HistAvgOccBelowSet1HFM
MonitorElement * HistAvgOccBelowSet1HFM
Definition: HLXMonitor.h:134

HLXMonitor::RecentInstantLumiOccSet2
MonitorElement * RecentInstantLumiOccSet2
Definition: HLXMonitor.h:163

HLXMonitor::Set2Above
MonitorElement * Set2Above[36]
Definition: HLXMonitor.h:84

HLXMonitor::HistAvgLumiEtSum
MonitorElement * HistAvgLumiEtSum
Definition: HLXMonitor.h:148

HLXMonitor::HistIntegratedLumiEtSum
MonitorElement * HistIntegratedLumiEtSum
Definition: HLXMonitor.h:157

DQMStore::IBooker::setCurrentFolder
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:274

DQMStore::IBooker::tagContents
void tagContents(const std::string &, unsigned int)
Definition: DQMStore.cc:290

DQMStore::IBooker::book2D
MonitorElement * book2D(Args &&...args)
Definition: DQMStore.h:133

HLXMonitor::HLXTCP
TCPReceiver HLXTCP
Definition: HLXMonitor.h:77

GetReleaseVersion.h

MonitorElement::getBinError
double getBinError(int binx) const
get uncertainty on content of bin (1-D) - See TH1::GetBinError for details
Definition: MonitorElement.cc:761

HLXMonitor::HistAvgOccBelowSet2HFP
MonitorElement * HistAvgOccBelowSet2HFP
Definition: HLXMonitor.h:139

HLXMonitor::processEvents_
MonitorElement * processEvents_
Definition: HLXMonitor.h:190

HLXMonitor::sectionInstantNorm
double sectionInstantNorm
Definition: HLXMonitor.h:274

HLXMonitor::MaxInstLumiBXNum3
MonitorElement * MaxInstLumiBXNum3
Definition: HLXMonitor.h:127

HLXMonitor::MaxInstLumiBX3
MonitorElement * MaxInstLumiBX3
Definition: HLXMonitor.h:122

MonitorElement::getTH1F
TH1F * getTH1F(void) const
Definition: MonitorElement.cc:1457

MonitorElement::setResetMe
void setResetMe(bool)
Definition: MonitorElement.h:146

HLXMonitor::sectionInstantErrSumOcc1
double sectionInstantErrSumOcc1
Definition: HLXMonitor.h:271

HLXMonitor::previousSection
unsigned int previousSection
Definition: HLXMonitor.h:265

HLXMonitor::subSystemName_
std::string subSystemName_
Definition: HLXMonitor.h:246

HLXMonitor::currentRunEnded_
bool currentRunEnded_
Definition: HLXMonitor.h:258

b
double b
Definition: hdecay.h:120

HLXMonitor::processName_
MonitorElement * processName_
Hostname of the local machine.
Definition: HLXMonitor.h:192

HLXMonitor::FillEventInfo
void FillEventInfo(const LUMI_SECTION &, const edm::Event &e)
Definition: HLXMonitor.cc:1431

cropTnPTrees.frac
tuple frac
Definition: cropTnPTrees.py:17

HLXMonitor::getUTCtime
double getUTCtime(timeval *a, timeval *b=NULL)
Definition: HLXMonitor.cc:1588

HLXMonitor::runNumLength
unsigned int runNumLength
Definition: HLXMonitor.h:248

HLXMonitor::lastAvgTime_
timeval lastAvgTime_
Definition: HLXMonitor.h:277

HCAL_HLX::TCPReceiver::ReceiveLumiSection
int ReceiveLumiSection(HCAL_HLX::LUMI_SECTION &localSection)
Definition: TCPReceiver.cc:88

HLXMonitor::Set1Above
MonitorElement * Set1Above[36]
Definition: HLXMonitor.h:81

HLXMonitor::SavePeriod
int SavePeriod
Definition: HLXMonitor.h:220

HLXMonitor::processStartTimeStamp_
MonitorElement * processStartTimeStamp_
The PID associated with this job.
Definition: HLXMonitor.h:185

alignCSCRings.e
list e
Definition: alignCSCRings.py:90

HCAL_HLX::ET_SUM_SECTION::data
float data[4096]
Definition: LumiRawDataStructures.h:278

HLXMonitor::expectedNibbles_
unsigned int expectedNibbles_
Definition: HLXMonitor.h:260

tmp
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100

bookConverter.max
max
Definition: bookConverter.py:166

HCAL_HLX::TCPReceiver::SetMode
int SetMode(unsigned char)
Definition: TCPReceiver.cc:202

HLXMonitor::MaxInstLumiBXNum1
MonitorElement * MaxInstLumiBXNum1
Definition: HLXMonitor.h:125

HLXMonitor::AvgOccBelowSet2
MonitorElement * AvgOccBelowSet2
Definition: HLXMonitor.h:99

MonitorElement::getBinContent
double getBinContent(int binx) const
get content of bin (1-D)
Definition: MonitorElement.cc:743

edm::EventBase::id
edm::EventID id() const
Definition: EventBase.h:60

HLXMonitor::HLXMonitor
HLXMonitor(const edm::ParameterSet &)
Definition: HLXMonitor.cc:17

MonitorElement::getRMS
double getRMS(int axis=1) const
get RMS of histogram along x, y or z axis (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:713

HLXMonitor::num4NibblePerLS_
double num4NibblePerLS_
Definition: HLXMonitor.h:284

a
double a
Definition: hdecay.h:121

HLXMonitor::bookHistograms
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
Definition: HLXMonitor.cc:147

HCAL_HLX::LUMI_DETAIL::ETLumi
float ETLumi[4096]
Definition: LumiRawDataStructures.h:158

HLXMonitor::OccXAxisTitle
std::string OccXAxisTitle
Definition: HLXMonitor.h:251

HLXMonitor::HistInstantLumiEtSum
MonitorElement * HistInstantLumiEtSum
Definition: HLXMonitor.h:151

HLXMonitor::runId_
MonitorElement * runId_
Definition: HLXMonitor.h:173

HLXMonitor::AquireMode
unsigned int AquireMode
Definition: HLXMonitor.h:224

HLXMonitor::HFCompareOccBetweenSet2
MonitorElement * HFCompareOccBetweenSet2
Definition: HLXMonitor.h:92

HLXMonitor::set1BelowIndex
unsigned int set1BelowIndex
Definition: HLXMonitor.h:235

HLXMonitor::lumiSectionCount
unsigned int lumiSectionCount
Definition: HLXMonitor.h:266

HLXMonitor::eventInfoFolder_
std::string eventInfoFolder_
Definition: HLXMonitor.h:245

edm::ParameterSet
Definition: ParameterSet.h:36

HLXMonitor::LumiIntegratedOccSet2
MonitorElement * LumiIntegratedOccSet2
Definition: HLXMonitor.h:112

HLXMonitor::HFCompareOccBelowSet2
MonitorElement * HFCompareOccBelowSet2
Definition: HLXMonitor.h:91

gather_cfg.cout
tuple cout
Definition: gather_cfg.py:121

HLXMonitor
Definition: HLXMonitor.h:48

HLXMonitor::HFCompareOccBetweenSet1
MonitorElement * HFCompareOccBetweenSet1
Definition: HLXMonitor.h:89

HLXMonitor::FillHistograms
void FillHistograms(const LUMI_SECTION &)
Definition: HLXMonitor.cc:902

HLXMonitor::ResetAll
void ResetAll()
Definition: HLXMonitor.cc:1491

HLXMonitor::currentTime_
timeval currentTime_
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Definition: HLXMonitor.h:97

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Definition: HLXMonitor.h:161

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Definition: Timestamp.h:56

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Definition: HLXMonitor.h:253

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HLXMonitor.h

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