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00001 #include "DQM/HcalMonitorTasks/interface/HcalDeadCellMonitor.h"
00002 #include "FWCore/Framework/interface/LuminosityBlock.h"
00003 
00004 HcalDeadCellMonitor::HcalDeadCellMonitor(const edm::ParameterSet& ps)
00005 {
00006   Online_                = ps.getUntrackedParameter<bool>("online",false);
00007   mergeRuns_             = ps.getUntrackedParameter<bool>("mergeRuns",false);
00008   enableCleanup_         = ps.getUntrackedParameter<bool>("enableCleanup",false);
00009   debug_                 = ps.getUntrackedParameter<int>("debug",0);
00010   makeDiagnostics_       = ps.getUntrackedParameter<bool>("makeDiagnostics",false);
00011   prefixME_              = ps.getUntrackedParameter<std::string>("subSystemFolder","Hcal/");
00012   if (prefixME_.substr(prefixME_.size()-1,prefixME_.size())!="/")
00013     prefixME_.append("/");
00014   subdir_                = ps.getUntrackedParameter<std::string>("TaskFolder","DeadCellMonitor_Hcal"); // DeadCellMonitor_Hcal
00015   if (subdir_.size()>0 && subdir_.substr(subdir_.size()-1,subdir_.size())!="/")
00016     subdir_.append("/");
00017   subdir_=prefixME_+subdir_;
00018   AllowedCalibTypes_     = ps.getUntrackedParameter<std::vector<int> > ("AllowedCalibTypes");
00019   skipOutOfOrderLS_      = ps.getUntrackedParameter<bool>("skipOutOfOrderLS",true);
00020   NLumiBlocks_           = ps.getUntrackedParameter<int>("NLumiBlocks",4000);
00021 
00022   badChannelStatusMask_   = ps.getUntrackedParameter<int>("BadChannelStatusMask",
00023                                                           ps.getUntrackedParameter<int>("BadChannelStatusMask",
00024                                                                                         (1<<HcalChannelStatus::HcalCellDead)));  // identify channel status values to mask
00025   // DeadCell-specific parameters
00026 
00027   // Collection type info
00028   digiLabel_             =ps.getUntrackedParameter<edm::InputTag>("digiLabel");
00029   hbheRechitLabel_       = ps.getUntrackedParameter<edm::InputTag>("hbheRechitLabel");
00030   hoRechitLabel_         = ps.getUntrackedParameter<edm::InputTag>("hoRechitLabel");
00031   hfRechitLabel_         = ps.getUntrackedParameter<edm::InputTag>("hfRechitLabel");
00032 
00033   // minimum number of events required for lumi section-based dead cell checks
00034   minDeadEventCount_    = ps.getUntrackedParameter<int>("minDeadEventCount",1000);
00035   excludeHORing2_       = ps.getUntrackedParameter<bool>("excludeHORing2",false);
00036   excludeHO1P02_        = ps.getUntrackedParameter<bool>("excludeHO1P02",false);
00037 
00038   // Set which dead cell checks will be performed
00039   /* Dead cells can be defined in the following ways:
00040      1)  never present digi -- digi is never present in run
00041      2)  digis -- digi is absent for one or more lumi section 
00042      3)  never present rechit -- rechit > threshold energy never present (NOT redundant, since it requires not just that a rechit be present, but that it be above threshold as well.  )
00043      4)  rechits -- rechit is present, but rechit energy below threshold for one or more lumi sections
00044 
00045      Of these tests, never-present digis are always checked.
00046      Occasional digis are checked only if deadmon_test_digis_ is true,
00047      and both rechit tests are made only if deadmon_test_rechits_ is true
00048   */
00049   
00050   deadmon_test_digis_              = ps.getUntrackedParameter<bool>("test_digis",true);
00051   deadmon_test_rechits_            = ps.getUntrackedParameter<bool>("test_rechits",false);
00052 
00053   // rechit energy test -- cell must be below threshold value for a number of consecutive events to be considered dead
00054   energyThreshold_       = ps.getUntrackedParameter<double>("MissingRechitEnergyThreshold",0);
00055   HBenergyThreshold_     = ps.getUntrackedParameter<double>("HB_energyThreshold",energyThreshold_);
00056   HEenergyThreshold_     = ps.getUntrackedParameter<double>("HE_energyThreshold",energyThreshold_);
00057   HOenergyThreshold_     = ps.getUntrackedParameter<double>("HO_energyThreshold",energyThreshold_);
00058   HFenergyThreshold_     = ps.getUntrackedParameter<double>("HF_energyThreshold",energyThreshold_);
00059 
00060   HcalLogicalMapGenerator gen;
00061   logicalMap_=new HcalLogicalMap(gen.createMap());
00062 } //constructor
00063 
00064 HcalDeadCellMonitor::~HcalDeadCellMonitor()
00065 {
00066   if (logicalMap_ == 0) delete logicalMap_;
00067 } //destructor
00068 
00069 
00070 /* ------------------------------------ */ 
00071 
00072 void HcalDeadCellMonitor::setup()
00073 {
00074   HcalBaseDQMonitor::setup();
00075   zeroCounters(1); // make sure arrays are set up
00076   if (debug_>0)
00077     std::cout <<"<HcalDeadCellMonitor::setup>  Setting up histograms"<<std::endl;
00078 
00079   if (!dbe_) return;
00080 
00081   dbe_->setCurrentFolder(subdir_);
00082   MonitorElement* excludeHO2=dbe_->bookInt("ExcludeHOring2");
00083   // Fill with 0 if ring is not to be excluded; fill with 1 if it is to be excluded
00084   if (excludeHO2) excludeHO2->Fill(excludeHORing2_==true ? 1 : 0);
00085 
00086   Nevents = dbe_->book1D("NumberOfDeadCellEvents","Number of Events Seen by DeadCellMonitor",2,0,2);
00087   Nevents->setBinLabel(1,"allEvents");
00088   Nevents->setBinLabel(2,"lumiCheck");
00089  // 1D plots count number of bad cells vs. luminosity block
00090   ProblemsVsLB=dbe_->bookProfile("TotalDeadCells_HCAL_vs_LS",
00091                                   "Total Number of Dead Hcal Cells (excluding known problems) vs LS;Lumi Section;Dead Cells", 
00092                                   NLumiBlocks_,0.5,NLumiBlocks_+0.5,
00093                                   100,0,10000);
00094   ProblemsVsLB_HB=dbe_->bookProfile("TotalDeadCells_HB_vs_LS",
00095                                      "Total Number of Dead HB Cells (excluding known problems) vs LS;Lumi Section;Dead Cells",
00096                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,
00097                                      100,0,10000);
00098   ProblemsVsLB_HE=dbe_->bookProfile("TotalDeadCells_HE_vs_LS",
00099                                      "Total Number of Dead HE Cells (excluding known problems) vs LS;Lumi Section;Dead Cells",
00100                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00101   ProblemsVsLB_HO=dbe_->bookProfile("TotalDeadCells_HO_vs_LS",
00102                                      "Total Number of Dead HO Cells (excluding known problems) vs LS;Lumi Section;Dead Cells",
00103                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00104   ProblemsVsLB_HF=dbe_->bookProfile("TotalDeadCells_HF_vs_LS",
00105                                      "Total Number of Dead HF Cells (excluding known problems) vs LS;Lumi Section;Dead Cells",
00106                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00107   ProblemsVsLB_HBHEHF=dbe_->bookProfile("TotalDeadCells_HBHEHF_vs_LS",
00108                                      "Total Number of Dead HBHEHF Cells (excluding known problems) vs LS;Lumi Section;Dead Cells",
00109                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00110   
00111   (ProblemsVsLB->getTProfile())->SetMarkerStyle(20);
00112   (ProblemsVsLB_HB->getTProfile())->SetMarkerStyle(20);
00113   (ProblemsVsLB_HE->getTProfile())->SetMarkerStyle(20);
00114   (ProblemsVsLB_HO->getTProfile())->SetMarkerStyle(20);
00115   (ProblemsVsLB_HF->getTProfile())->SetMarkerStyle(20);
00116   (ProblemsVsLB_HBHEHF->getTProfile())->SetMarkerStyle(20);
00117 
00118   RBX_loss_VS_LB=dbe_->book2D("RBX_loss_VS_LB",
00119                               "RBX loss vs LS; Lumi Section; Index of lost RBX", 
00120                               NLumiBlocks_,0.5,NLumiBlocks_+0.5,132,0,132);
00121 
00122   ProblemsInLastNLB_HBHEHF_alarm=dbe_->book1D("ProblemsInLastNLB_HBHEHF_alarm",
00123                                               "Total Number of Dead HBHEHF Cells in last 10 LS. Last bin contains OverFlow",
00124                                               100,0,100);
00125 
00126 
00127   dbe_->setCurrentFolder(subdir_+"dead_cell_parameters");
00128   MonitorElement* me=dbe_->bookInt("Test_NeverPresent_Digis");
00129   me->Fill(1);
00130   me=dbe_->bookInt("Test_DigiMissing_Periodic_Lumi_Check");
00131   if (deadmon_test_digis_)
00132     me->Fill(1);
00133   else 
00134     me->Fill(0);
00135   me=dbe_->bookInt("Min_Events_Required_Periodic_Lumi_Check");
00136   me->Fill(minDeadEventCount_);
00137   me=dbe_->bookInt("Test_NeverPresent_RecHits");
00138   deadmon_test_rechits_>0 ? me->Fill(1) : me->Fill(0);
00139   me=dbe_->bookFloat("HBMinimumRecHitEnergy");
00140   me->Fill(HBenergyThreshold_);
00141   me=dbe_->bookFloat("HEMinimumRecHitEnergy");
00142   me->Fill(HEenergyThreshold_);
00143   me=dbe_->bookFloat("HOMinimumRecHitEnergy");
00144   me->Fill(HOenergyThreshold_);
00145   me=dbe_->bookFloat("HFMinimumRecHitEnergy");
00146   me->Fill(HFenergyThreshold_);
00147   me=dbe_->bookInt("Test_RecHitsMissing_Periodic_Lumi_Check");
00148   deadmon_test_rechits_>0 ? me->Fill(1) : me->Fill(0);
00149 
00150   // ProblemCells plots are in HcalDeadCellClient!
00151       
00152   // Set up plots for each failure mode of dead cells
00153   std::stringstream units; // We'll need to set the titles individually, rather than passing units to SetupEtaPhiHists (since this also would affect the name of the histograms)
00154   std::stringstream name;
00155 
00156   // Never-present test will always be called, by definition of dead cell
00157 
00158   dbe_->setCurrentFolder(subdir_+"dead_digi_never_present");
00159   SetupEtaPhiHists(DigiPresentByDepth,
00160                    "Digi Present At Least Once","");
00161   // 1D plots count number of bad cells
00162   NumberOfNeverPresentDigis=dbe_->bookProfile("Problem_NeverPresentDigis_HCAL_vs_LS",
00163                                                "Total Number of Never-Present Hcal Cells vs LS;Lumi Section;Dead Cells",
00164                                                NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00165       
00166   NumberOfNeverPresentDigisHB=dbe_->bookProfile("Problem_NeverPresentDigis_HB_vs_LS",
00167                                                  "Total Number of Never-Present HB Cells vs LS;Lumi Section;Dead Cells",
00168                                                  NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00169       
00170   NumberOfNeverPresentDigisHE=dbe_->bookProfile("Problem_NeverPresentDigis_HE_vs_LS",
00171                                                  "Total Number of Never-Present HE Cells vs LS;Lumi Section;Dead Cells",
00172                                                  NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00173       
00174   NumberOfNeverPresentDigisHO=dbe_->bookProfile("Problem_NeverPresentDigis_HO_vs_LS",
00175                                                  "Total Number of Never-Present HO Cells vs LS;Lumi Section;Dead Cells",
00176                                                  NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00177       
00178   NumberOfNeverPresentDigisHF=dbe_->bookProfile("Problem_NeverPresentDigis_HF_vs_LS",
00179                                                  "Total Number of Never-Present HF Cells vs LS;Lumi Section;Dead Cells",
00180                                                  NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00181   (NumberOfNeverPresentDigis->getTProfile())->SetMarkerStyle(20);
00182   (NumberOfNeverPresentDigisHB->getTProfile())->SetMarkerStyle(20);
00183   (NumberOfNeverPresentDigisHE->getTProfile())->SetMarkerStyle(20);
00184   (NumberOfNeverPresentDigisHO->getTProfile())->SetMarkerStyle(20);
00185   (NumberOfNeverPresentDigisHF->getTProfile())->SetMarkerStyle(20);
00186 
00187   FillUnphysicalHEHFBins(DigiPresentByDepth);
00188 
00189   if (deadmon_test_digis_)
00190     {
00191       dbe_->setCurrentFolder(subdir_+"dead_digi_often_missing");
00192       //units<<"("<<deadmon_checkNevents_<<" consec. events)";
00193       name<<"Dead Cells with No Digis";
00194       SetupEtaPhiHists(RecentMissingDigisByDepth,
00195                        name.str(),
00196                        "");
00197       name.str("");
00198       name<<"HB HE HF Depth 1 Dead Cells with No Digis for at least 1 Full Luminosity Block"; 
00199       RecentMissingDigisByDepth.depth[0]->setTitle(name.str().c_str());
00200 
00201       name.str("");
00202       name<<"HB HE HF Depth 2 Dead Cells with No Digis for at least 1 Full Luminosity Block";
00203       RecentMissingDigisByDepth.depth[1]->setTitle(name.str().c_str());
00204 
00205       name.str("");
00206       name<<"HE Depth 3 Dead Cells with No Digis for at least 1 Full Luminosity Block";
00207       RecentMissingDigisByDepth.depth[2]->setTitle(name.str().c_str());
00208 
00209       name.str("");
00210       name<<"HO Depth 4 Dead Cells with No Digis for at least 1 Full Luminosity Block";
00211       RecentMissingDigisByDepth.depth[3]->setTitle(name.str().c_str());
00212       name.str("");
00213 
00214       // 1D plots count number of bad cells
00215       name<<"Total Number of Hcal Digis Unoccupied for at least 1 Full Luminosity Block"; 
00216       NumberOfRecentMissingDigis=dbe_->bookProfile("Problem_RecentMissingDigis_HCAL_vs_LS",
00217                                                     name.str(),
00218                                                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00219       name.str("");
00220       name<<"Total Number of HB Digis Unoccupied for at least 1 Full LS vs LS;Lumi Section; Dead Cells";
00221       NumberOfRecentMissingDigisHB=dbe_->bookProfile("Problem_RecentMissingDigis_HB_vs_LS",
00222                                                       name.str(),
00223                                                       NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00224       name.str("");
00225       name<<"Total Number of HE Digis Unoccupied for at least 1 Full LS vs LS;Lumi Section; Dead Cells";
00226       NumberOfRecentMissingDigisHE=dbe_->bookProfile("Problem_RecentMissingDigis_HE_vs_LS",
00227                                                       name.str(),
00228                                                       NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00229       name.str("");
00230       name<<"Total Number of HO Digis Unoccupied for at least 1 Full LS vs LS;Lumi Section; Dead Cells";
00231       NumberOfRecentMissingDigisHO=dbe_->bookProfile("Problem_RecentMissingDigis_HO_vs_LS",
00232                                                       name.str(),
00233                                                       NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00234       name.str("");
00235       name<<"Total Number of HF Digis Unoccupied for at least 1 Full LS vs LS;Lumi Section; Dead Cells";
00236       NumberOfRecentMissingDigisHF=dbe_->bookProfile("Problem_RecentMissingDigis_HF_vs_LS",
00237                                                       name.str(),
00238                                                       NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00239       (NumberOfRecentMissingDigis->getTProfile())->SetMarkerStyle(20);
00240       (NumberOfRecentMissingDigisHB->getTProfile())->SetMarkerStyle(20);
00241       (NumberOfRecentMissingDigisHE->getTProfile())->SetMarkerStyle(20);
00242       (NumberOfRecentMissingDigisHO->getTProfile())->SetMarkerStyle(20);
00243       (NumberOfRecentMissingDigisHF->getTProfile())->SetMarkerStyle(20);
00244 
00245     }
00246       
00247   if (deadmon_test_rechits_)
00248     {
00249       // test 1:  energy never above threshold
00250       dbe_->setCurrentFolder(subdir_+"dead_rechit_neverpresent");
00251       SetupEtaPhiHists(RecHitPresentByDepth,"RecHit Above Threshold At Least Once","");
00252       // set more descriptive titles for threshold plots
00253       units.str("");
00254       units<<"Cells Above Energy Threshold At Least Once: Depth 1 -- HB >="<<HBenergyThreshold_<<" GeV, HE >= "<<HEenergyThreshold_<<", HF >="<<HFenergyThreshold_<<" GeV";
00255       RecHitPresentByDepth.depth[0]->setTitle(units.str().c_str());
00256       units.str("");
00257       units<<"Cells Above Energy Threshold At Least Once: Depth 2 -- HB >="<<HBenergyThreshold_<<" GeV, HE >= "<<HEenergyThreshold_<<", HF >="<<HFenergyThreshold_<<" GeV";
00258       RecHitPresentByDepth.depth[1]->setTitle(units.str().c_str());
00259       units.str("");
00260       units<<"Cells Above Energy Threshold At Least Once: Depth 3 -- HE >="<<HEenergyThreshold_<<" GeV";
00261       RecHitPresentByDepth.depth[2]->setTitle(units.str().c_str());
00262       units.str("");
00263       units<<"Cells Above Energy Threshold At Least Once: Depth 4 -- HO >="<<HOenergyThreshold_<<" GeV";
00264       RecHitPresentByDepth.depth[3]->setTitle(units.str().c_str());
00265       units.str("");
00266 
00267       // 1D plots count number of bad cells
00268       NumberOfNeverPresentRecHits=dbe_->bookProfile("Problem_RecHitsNeverPresent_HCAL_vs_LS",
00269                                                      "Total Number of Hcal Rechits with Low Energy;Lumi Section;Dead Cells",
00270                                                      NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00271       name.str("");
00272       name<<"Total Number of HB RecHits with Energy Never >= "<<HBenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00273       NumberOfNeverPresentRecHitsHB=dbe_->bookProfile("Problem_RecHitsNeverPresent_HB_vs_LS",
00274                                                        name.str(),
00275                                                        NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00276       name.str("");
00277       name<<"Total Number of HE RecHits with Energy Never >= "<<HEenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00278       NumberOfNeverPresentRecHitsHE=dbe_->bookProfile("Problem_RecHitsNeverPresent_HE_vs_LS",
00279                                                        name.str(),
00280                                                        NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00281       name.str("");
00282       name<<"Total Number of HO RecHits with Energy Never >= "<<HOenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00283       NumberOfNeverPresentRecHitsHO=dbe_->bookProfile("Problem_RecHitsNeverPresent_HO_vs_LS",
00284                                                        name.str(),
00285                                                        NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00286       name.str("");
00287       name<<"Total Number of HF RecHits with Energy Never >= "<<HFenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00288       NumberOfNeverPresentRecHitsHF=dbe_->bookProfile("Problem_RecHitsNeverPresent_HF_vs_LS",
00289                                                        name.str(),
00290                                                        NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00291       (NumberOfNeverPresentRecHits->getTProfile())->SetMarkerStyle(20);
00292       (NumberOfNeverPresentRecHitsHB->getTProfile())->SetMarkerStyle(20);
00293       (NumberOfNeverPresentRecHitsHE->getTProfile())->SetMarkerStyle(20);
00294       (NumberOfNeverPresentRecHitsHO->getTProfile())->SetMarkerStyle(20);
00295       (NumberOfNeverPresentRecHitsHF->getTProfile())->SetMarkerStyle(20);
00296  
00297       dbe_->setCurrentFolder(subdir_+"dead_rechit_often_missing");
00298       SetupEtaPhiHists(RecentMissingRecHitsByDepth,"RecHits Failing Energy Threshold Test","");
00299       // set more descriptive titles for threshold plots
00300       units.str("");
00301       units<<"RecHits with Consistent Low Energy Depth 1 -- HB <"<<HBenergyThreshold_<<" GeV, HE < "<<HEenergyThreshold_<<", HF <"<<HFenergyThreshold_<<" GeV";
00302       RecentMissingRecHitsByDepth.depth[0]->setTitle(units.str().c_str());
00303       units.str("");
00304       units<<"RecHits with Consistent Low Energy Depth 2 -- HB <"<<HBenergyThreshold_<<" GeV, HE < "<<HEenergyThreshold_<<", HF <"<<HFenergyThreshold_<<" GeV";
00305       RecentMissingRecHitsByDepth.depth[1]->setTitle(units.str().c_str());
00306       units.str("");
00307       units<<"RecHits with Consistent Low Energy Depth 3 -- HE <"<<HEenergyThreshold_<<" GeV";
00308       RecentMissingRecHitsByDepth.depth[2]->setTitle(units.str().c_str());
00309       units.str("");
00310       units<<"RecHits with Consistent Low Energy Depth 4 -- HO <"<<HOenergyThreshold_<<" GeV";
00311       RecentMissingRecHitsByDepth.depth[3]->setTitle(units.str().c_str());
00312       units.str("");
00313 
00314 
00315       // 1D plots count number of bad cells
00316       name.str("");
00317       name<<"Total Number of Hcal RecHits with Consistent Low Energy;Lumi Section;Dead Cells";
00318       NumberOfRecentMissingRecHits=dbe_->bookProfile("Problem_BelowEnergyRecHits_HCAL_vs_LS",
00319                                                       name.str(),
00320                                                       NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00321       name.str("");
00322       name<<"Total Number of HB RecHits with Consistent Low Energy < "<<HBenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00323       NumberOfRecentMissingRecHitsHB=dbe_->bookProfile("Problem_BelowEnergyRecHits_HB_vs_LS",
00324                                                         name.str(),
00325                                                         NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00326       name.str("");
00327       name<<"Total Number of HE RecHits with Consistent Low Energy < "<<HEenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00328       NumberOfRecentMissingRecHitsHE=dbe_->bookProfile("Problem_BelowEnergyRecHits_HE_vs_LS",
00329                                                         name.str(),
00330                                                         NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00331       name.str("");
00332       name<<"Total Number of HO RecHits with Consistent Low Energy < "<<HOenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00333       NumberOfRecentMissingRecHitsHO=dbe_->bookProfile("Problem_BelowEnergyRecHits_HO_vs_LS",
00334                                                         name.str(),
00335                                                         NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00336       name.str("");
00337       name<<"Total Number of HF RecHits with Consistent Low Energy < "<<HFenergyThreshold_<<" GeV;Lumi Section;Dead Cells";
00338       NumberOfRecentMissingRecHitsHF=dbe_->bookProfile("Problem_BelowEnergyRecHits_HF_vs_LS",
00339                                                         name.str(),
00340                                                         NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
00341       (NumberOfRecentMissingRecHits->getTProfile())->SetMarkerStyle(20);
00342       (NumberOfRecentMissingRecHitsHB->getTProfile())->SetMarkerStyle(20);
00343       (NumberOfRecentMissingRecHitsHE->getTProfile())->SetMarkerStyle(20);
00344       (NumberOfRecentMissingRecHitsHO->getTProfile())->SetMarkerStyle(20);
00345       (NumberOfRecentMissingRecHitsHF->getTProfile())->SetMarkerStyle(20);
00346 
00347     } // if (deadmon_test_rechits)
00348 
00349 
00350   if (makeDiagnostics_)
00351     {
00352       dbe_->setCurrentFolder(subdir_+"DiagnosticPlots");
00353       HBDeadVsEvent=dbe_->book1D("HBDeadVsEvent","HB Total Dead Cells Vs Event", NLumiBlocks_/10,-0.5,NLumiBlocks_-0.5);
00354       HEDeadVsEvent=dbe_->book1D("HEDeadVsEvent","HE Total Dead Cells Vs Event", NLumiBlocks_/10,-0.5,NLumiBlocks_-0.5);
00355       HODeadVsEvent=dbe_->book1D("HODeadVsEvent","HO Total Dead Cells Vs Event", NLumiBlocks_/10,-0.5,NLumiBlocks_-0.5);
00356       HFDeadVsEvent=dbe_->book1D("HFDeadVsEvent","HF Total Dead Cells Vs Event", NLumiBlocks_/10,-0.5,NLumiBlocks_-0.5);
00357     }
00358 
00359   this->reset();
00360   return;
00361 
00362 } // void HcalDeadCellMonitor::setup(...)
00363 
00364 void HcalDeadCellMonitor::beginRun(const edm::Run& run, const edm::EventSetup& c)
00365 {
00366   if (debug_>1) std::cout <<"HcalDeadCellMonitor::beginRun"<<std::endl;
00367   HcalBaseDQMonitor::beginRun(run,c);
00368 
00369   if (tevt_==0) this->setup(); // set up histograms if they have not been created before
00370   if (mergeRuns_==false)
00371     this->reset();
00372 
00373   // Get known dead cells for this run
00374   KnownBadCells_.clear();
00375   if (badChannelStatusMask_>0)
00376     {
00377       edm::ESHandle<HcalChannelQuality> p;
00378       c.get<HcalChannelQualityRcd>().get(p);
00379       HcalChannelQuality* chanquality= new HcalChannelQuality(*p.product());
00380       std::vector<DetId> mydetids = chanquality->getAllChannels();
00381       for (std::vector<DetId>::const_iterator i = mydetids.begin();
00382            i!=mydetids.end();
00383            ++i)
00384         {
00385           if (i->det()!=DetId::Hcal) continue; // not an hcal cell
00386           HcalDetId id=HcalDetId(*i);
00387           int status=(chanquality->getValues(id))->getValue();
00388           if ((status & badChannelStatusMask_))
00389             {
00390               KnownBadCells_[id.rawId()]=status;
00391             }
00392         } 
00393       delete chanquality;
00394     } // if (badChannelStatusMask_>0)
00395   return;
00396 } //void HcalDeadCellMonitor::beginRun(...)
00397 
00398 void HcalDeadCellMonitor::reset()
00399 {
00400   if (debug_>1) std::cout <<"HcalDeadCellMonitor::reset()"<<std::endl;
00401   HcalBaseDQMonitor::reset();
00402   zeroCounters();
00403   deadevt_=0;
00404   is_RBX_loss_ = 0;
00405   alarmer_counter_ = 0;
00406   hbhedcsON = true; hfdcsON = true;
00407   ProblemsVsLB->Reset(); ProblemsVsLB_HB->Reset(); ProblemsVsLB_HE->Reset(); ProblemsVsLB_HO->Reset(); ProblemsVsLB_HF->Reset(); ProblemsVsLB_HBHEHF->Reset();
00408   RBX_loss_VS_LB->Reset();
00409   ProblemsInLastNLB_HBHEHF_alarm->Reset();
00410   NumberOfNeverPresentDigis->Reset(); NumberOfNeverPresentDigisHB->Reset(); NumberOfNeverPresentDigisHE->Reset(); NumberOfNeverPresentDigisHO->Reset(); NumberOfNeverPresentDigisHF->Reset();
00411 
00412   for (unsigned int depth=0;depth<DigiPresentByDepth.depth.size();++depth)
00413     DigiPresentByDepth.depth[depth]->Reset();
00414   
00415   // Mark HORing2 channels as present  (fill with a 2, rather than a 1, to distinguish between this setting and actual presence)
00416   if (excludeHORing2_==true && DigiPresentByDepth.depth.size()>3)
00417     {
00418       for (int ieta=11;ieta<=15;++ieta)
00419         for (int iphi=1;iphi<=72;++iphi)
00420           {
00421             // Don't fill ring2 SiPMs, since they will still be active even if the rest of HO is excluded.
00422             if (isSiPM(ieta,iphi,4)==false)
00423               DigiPresentByDepth.depth[3]->Fill(ieta,iphi,2);
00424             //std::cout <<" FILLING ("<<-1*ieta<<", "<<iphi<<") with '2'"<<std::endl;
00425             DigiPresentByDepth.depth[3]->Fill(-1*ieta,iphi,2);
00426           }
00427     }
00428   FillUnphysicalHEHFBins(DigiPresentByDepth);
00429 
00430 
00431   if (deadmon_test_digis_)
00432     {
00433       NumberOfRecentMissingDigis->Reset(); NumberOfRecentMissingDigisHB->Reset(); NumberOfRecentMissingDigisHE->Reset(); NumberOfRecentMissingDigisHO->Reset(); NumberOfRecentMissingDigisHF->Reset();
00434       RecentMissingDigisByDepth.Reset();
00435     }
00436   if (deadmon_test_rechits_)
00437     {
00438       NumberOfRecentMissingRecHits->Reset();
00439       NumberOfRecentMissingRecHitsHB->Reset();
00440       NumberOfRecentMissingRecHitsHE->Reset();
00441       NumberOfRecentMissingRecHitsHO->Reset(); 
00442       NumberOfRecentMissingRecHitsHF->Reset();
00443       NumberOfNeverPresentRecHits->Reset(); 
00444       NumberOfNeverPresentRecHitsHB->Reset(); 
00445       NumberOfNeverPresentRecHitsHE->Reset(); 
00446       NumberOfNeverPresentRecHitsHO->Reset(); 
00447       NumberOfNeverPresentRecHitsHF->Reset();
00448       RecentMissingRecHitsByDepth.Reset();
00449       RecHitPresentByDepth.Reset();
00450       
00451       // Mark HORing2 channels as present  (fill with a 2, rather than a 1, to distinguish between this setting and actual presence)
00452       if (excludeHORing2_==true && RecHitPresentByDepth.depth.size()>3)
00453         {
00454           for (int ieta=11;ieta<=15;++ieta)
00455             for (int iphi=1;iphi<=72;++iphi)
00456               {
00457                 RecHitPresentByDepth.depth[3]->Fill(ieta,iphi,2);
00458                 RecHitPresentByDepth.depth[3]->Fill(-1*ieta,iphi,2);
00459               }
00460         }
00461       FillUnphysicalHEHFBins(RecHitPresentByDepth);
00462     }
00463 
00464   Nevents->Reset();
00465 }  // reset function is empty for now
00466 
00467 /* ------------------------------------------------------------------------- */
00468 
00469 
00470 void HcalDeadCellMonitor::cleanup()
00471 {
00472   if (!enableCleanup_) return;
00473   if (dbe_)
00474     {
00475       dbe_->setCurrentFolder(subdir_);
00476       dbe_->removeContents();
00477       dbe_->setCurrentFolder(subdir_+"dead_digi_never_present");
00478       dbe_->removeContents();
00479       dbe_->setCurrentFolder(subdir_+"dead_digi_often_missing");
00480       dbe_->removeContents();
00481       dbe_->setCurrentFolder(subdir_+"dead_rechit_neverpresent");
00482       dbe_->removeContents();
00483       dbe_->setCurrentFolder(subdir_+"dead_rechit_often_missing");
00484       dbe_->removeContents();
00485       dbe_->setCurrentFolder(subdir_+"dead_cell_parameters");
00486       dbe_->removeContents();
00487       dbe_->setCurrentFolder(subdir_+"LSvalues");
00488       dbe_->removeContents();
00489     }
00490   return;
00491 } // void HcalDeadCellMonitor::cleanup()
00492 
00493 /* ------------------------------------------------------------------------- */
00494 
00495 void HcalDeadCellMonitor::endLuminosityBlock(const edm::LuminosityBlock& lumiSeg,
00496                                              const edm::EventSetup& c)
00497 {
00498   // skip old lumi sections
00499   if (this->LumiInOrder(lumiSeg.luminosityBlock())==false) return;
00500 
00501   // Reset current LS histogram
00502   if (ProblemsCurrentLB)
00503       ProblemsCurrentLB->Reset();
00504 
00505   ProblemsInLastNLB_HBHEHF_alarm->Reset();
00506 
00507   //increase the number of LS counting, for alarmer. Only make alarms for HBHE
00508   if(hbhedcsON == true && hfdcsON == true && HBpresent_ == 1 && HEpresent_ == 1 && HFpresent_ == 1)
00509     ++alarmer_counter_;
00510   else 
00511     alarmer_counter_ = 0;
00512 
00513   // Here is where we determine whether or not to process an event
00514   // Not enough events
00515   // there are less than minDeadEventCount_ in this LS, but RBXloss is found
00516   
00517   if (deadevt_>=10 && deadevt_<minDeadEventCount_ && is_RBX_loss_==1)
00518     {
00519       fillNevents_problemCells();
00520       fillNevents_recentrechits();
00521             
00522       endLumiProcessed_=true;
00523       is_RBX_loss_=0;
00524 
00525       for (unsigned int i=0;i<132;++i)
00526         rbxlost[i] = 0;
00527 
00528       if (ProblemsCurrentLB)
00529         {
00530           ProblemsCurrentLB->setBinContent(0,0, levt_);  // underflow bin contains number of events
00531           ProblemsCurrentLB->setBinContent(1,1, NumBadHB*levt_);
00532           ProblemsCurrentLB->setBinContent(2,1, NumBadHE*levt_);
00533           ProblemsCurrentLB->setBinContent(3,1, NumBadHO*levt_);
00534           ProblemsCurrentLB->setBinContent(4,1, NumBadHF*levt_);
00535           ProblemsCurrentLB->setBinContent(5,1, NumBadHO0*levt_);
00536           ProblemsCurrentLB->setBinContent(6,1, NumBadHO12*levt_);
00537           ProblemsCurrentLB->setBinContent(7,1, NumBadHFLUMI*levt_);
00538         }
00539     }
00540 
00541   if (deadevt_<minDeadEventCount_) // perform normal tasks, since no RBX loss is detected in this lumisections
00542       return;
00543     
00544   endLumiProcessed_=true;
00545   // fillNevents_problemCells checks for never-present cells
00546   fillNevents_problemCells();
00547   fillNevents_recentdigis();
00548   fillNevents_recentrechits();
00549 
00550   if (ProblemsCurrentLB)
00551     {
00552       ProblemsCurrentLB->setBinContent(0,0, levt_);  // underflow bin contains number of events
00553       ProblemsCurrentLB->setBinContent(1,1, NumBadHB*levt_);
00554       ProblemsCurrentLB->setBinContent(2,1, NumBadHE*levt_);
00555       ProblemsCurrentLB->setBinContent(3,1, NumBadHO*levt_);
00556       ProblemsCurrentLB->setBinContent(4,1, NumBadHF*levt_);
00557       ProblemsCurrentLB->setBinContent(5,1, NumBadHO0*levt_);
00558       ProblemsCurrentLB->setBinContent(6,1, NumBadHO12*levt_);
00559       ProblemsCurrentLB->setBinContent(7,1, NumBadHFLUMI*levt_);
00560     }
00561   zeroCounters();
00562   deadevt_=0;
00563   is_RBX_loss_=0;
00564 
00565   return;
00566 } //endLuminosityBlock()
00567 
00568 void HcalDeadCellMonitor::endRun(const edm::Run& run, const edm::EventSetup& c)
00569 {
00570   // Always carry out overall occupancy test at endRun, regardless minimum number of events?  
00571   // Or should we require an absolute lower bound?
00572   // We can always run this test; we'll use the summary client to implement a lower bound before calculating reportSummary values
00573   if (endLumiProcessed_==false) fillNevents_problemCells(); // always check for never-present cells
00574   return;
00575 }
00576 
00577 void HcalDeadCellMonitor::endJob()
00578 {
00579   if (debug_>0) std::cout <<"HcalDeadCellMonitor::endJob()"<<std::endl;
00580   if (enableCleanup_) cleanup(); // when do we force cleanup?
00581 }
00582 
00583 void HcalDeadCellMonitor::analyze(edm::Event const&e, edm::EventSetup const&s)
00584 {
00585   if (!IsAllowedCalibType()) return;
00586   endLumiProcessed_=false;
00587   Nevents->Fill(0,1); // count all events of allowed calibration type, even if their lumi block is not in the right order
00588   if (LumiInOrder(e.luminosityBlock())==false) return;
00589   // try to get rechits and digis
00590   edm::Handle<HBHEDigiCollection> hbhe_digi;
00591   edm::Handle<HODigiCollection> ho_digi;
00592   edm::Handle<HFDigiCollection> hf_digi;
00593 
00594   edm::Handle<HBHERecHitCollection> hbhe_rechit;
00595   edm::Handle<HORecHitCollection> ho_rechit;
00596   edm::Handle<HFRecHitCollection> hf_rechit;
00597  
00599   // check if detectors whether they were ON
00600   edm::Handle<DcsStatusCollection> dcsStatus;
00601   e.getByLabel("scalersRawToDigi", dcsStatus);
00602   
00603   if (dcsStatus.isValid() && dcsStatus->size() != 0) 
00604     {      
00605       if ((*dcsStatus)[0].ready(DcsStatus::HBHEa) &&
00606           (*dcsStatus)[0].ready(DcsStatus::HBHEb) &&   
00607           (*dcsStatus)[0].ready(DcsStatus::HBHEc))
00608         {       
00609           hbhedcsON = true;
00610           if (debug_) std::cout << "hbhe on" << std::endl;
00611         } 
00612       else hbhedcsON = false;
00613 
00614       if ((*dcsStatus)[0].ready(DcsStatus::HF))
00615         {
00616           hfdcsON = true;
00617           if (debug_) std::cout << "hf on" << std::endl;
00618         } 
00619       else hfdcsON = false;
00620     }
00622 
00623   if (!(e.getByLabel(digiLabel_,hbhe_digi)))
00624     {
00625       edm::LogWarning("HcalDeadCellMonitor")<< digiLabel_<<" hbhe_digi not available";
00626       return;
00627     }
00628   if (!(e.getByLabel(digiLabel_,ho_digi)))
00629     {
00630       edm::LogWarning("HcalDeadCellMonitor")<< digiLabel_<<" ho_digi not available";
00631       return;
00632     }
00633   if (!(e.getByLabel(digiLabel_,hf_digi)))
00634     {
00635       edm::LogWarning("HcalDeadCellMonitor")<< digiLabel_<<" hf_digi not available";
00636       return;
00637     }
00638 
00639   if (!(e.getByLabel(hbheRechitLabel_,hbhe_rechit)))
00640     {
00641       edm::LogWarning("HcalDeadCellMonitor")<< hbheRechitLabel_<<" hbhe_rechit not available";
00642       return;
00643     }
00644 
00645   if (!(e.getByLabel(hfRechitLabel_,hf_rechit)))
00646     {
00647       edm::LogWarning("HcalDeadCellMonitor")<< hfRechitLabel_<<" hf_rechit not available";
00648       return;
00649     }
00650   if (!(e.getByLabel(hoRechitLabel_,ho_rechit)))
00651     {
00652       edm::LogWarning("HcalDeadCellMonitor")<< hoRechitLabel_<<" ho_rechit not available";
00653       return;
00654     }
00655   if (debug_>1) std::cout <<"\t<HcalDeadCellMonitor::analyze>  Processing good event! event # = "<<ievt_<<std::endl;
00656   // Good event found; increment counter (via base class analyze method)
00657   // This also runs the allowed calibration /lumi in order tests again;  remove?
00658   HcalBaseDQMonitor::analyze(e,s);
00659   
00660   ++deadevt_; //increment local counter
00661   
00662   processEvent(*hbhe_rechit, *ho_rechit, *hf_rechit, *hbhe_digi, *ho_digi, *hf_digi);
00663       
00664   // check for presence of an RBX data loss
00665   if(levt_>10 && tevt_ % 10 == 0 ) //levt_ counts events perLS, but excludes 
00666     {                              //"wrong", calibration-type events. Compare with tevt_ instead...            
00667       for(int i=71; i<132; i++)
00668         {
00669           //These RBXs in HO are excluded, set to 1 to ignore
00670           if(i >= 72 && i < 85)
00671             occupancy_RBX[i] = 1;
00672           if(i >=85 && i <= 95 && i%2==0)
00673             occupancy_RBX[i] = 1;
00674           if(i >=108 && i <= 119 && i%2==0)
00675             occupancy_RBX[i] = 1;
00676           if(i >=120 && i <= 131)
00677             occupancy_RBX[i] = 1;
00678 
00679           if(i==117 || i==131) // HO SiPMs have much less hits, 10 events not enough. 
00680             occupancy_RBX[i] = 1;  // Also no RBX loss for SiPMs, so ignore for now.
00681         }
00682       
00683       // RBX loss detected
00684       for (unsigned int i=0;i<132;++i)
00685         if(occupancy_RBX[i] == 0) 
00686           {
00687             is_RBX_loss_ = 1;
00688             rbxlost[i] = 1;
00689           }
00690       
00691       // no RBX loss, reset the counters
00692       if (is_RBX_loss_ == 0)
00693         for (unsigned int i=0;i<132;++i)
00694           occupancy_RBX[i] = 0;
00695     }
00696 
00697   // if RBX is lost any time during the LS, don't allow the counters to increment
00698   if(is_RBX_loss_ == 1)
00699     for (unsigned int i=0;i<132;++i)
00700       if(rbxlost[i]==1) occupancy_RBX[i] = 0;
00701 
00702 } // void HcalDeadCellMonitor::analyze(...)
00703 
00704 /* --------------------------------------- */
00705 
00706 
00707 void HcalDeadCellMonitor::processEvent(const HBHERecHitCollection& hbHits,
00708                                        const HORecHitCollection&   hoHits,
00709                                        const HFRecHitCollection&   hfHits,
00710                                        const HBHEDigiCollection&   hbhedigi,
00711                                        const HODigiCollection&     hodigi,
00712                                        const HFDigiCollection&     hfdigi)
00713 {
00714   if (debug_>1) std::cout <<"<HcalDeadCellMonitor::processEvent> Processing event..."<<std::endl;
00715 
00716   // Do Digi-Based dead cell searches 
00717   
00718   // Make sure histograms update
00719   for (unsigned int i=0;i<DigiPresentByDepth.depth.size();++i)
00720     DigiPresentByDepth.depth[i]->update();
00721 
00722   NumberOfNeverPresentDigis->update();;
00723   NumberOfNeverPresentDigisHB->update();
00724   NumberOfNeverPresentDigisHE->update();
00725   NumberOfNeverPresentDigisHO->update();
00726   NumberOfNeverPresentDigisHF->update();
00727 
00728   if (deadmon_test_digis_)
00729     {
00730       
00731       for (unsigned int i=0;i<RecentMissingDigisByDepth.depth.size();++i)
00732         RecentMissingDigisByDepth.depth[i]->update();
00733 
00734       NumberOfRecentMissingDigis->update();
00735       NumberOfRecentMissingDigisHB->update();
00736       NumberOfRecentMissingDigisHE->update();
00737       NumberOfRecentMissingDigisHO->update();
00738       NumberOfRecentMissingDigisHF->update();
00739     }
00740   
00741   for (HBHEDigiCollection::const_iterator j=hbhedigi.begin();
00742        j!=hbhedigi.end(); ++j)
00743     {
00744       const HBHEDataFrame digi = (const HBHEDataFrame)(*j);
00745       processEvent_HBHEdigi(digi);
00746     }
00747     
00748   for (HODigiCollection::const_iterator j=hodigi.begin();
00749        j!=hodigi.end(); ++j)
00750     {
00751       const HODataFrame digi = (const HODataFrame)(*j);
00752       process_Digi(digi);
00753     }
00754   for (HFDigiCollection::const_iterator j=hfdigi.begin();
00755        j!=hfdigi.end(); ++j)
00756     {
00757       const HFDataFrame digi = (const HFDataFrame)(*j);  
00758       process_Digi(digi);
00759     }
00760   FillUnphysicalHEHFBins(DigiPresentByDepth);
00761   
00762   // Search for "dead" cells below a certain energy
00763   if (deadmon_test_rechits_) 
00764     {
00765       // Normalization Fill
00766       for (unsigned int i=0;i<RecentMissingRecHitsByDepth.depth.size();++i)
00767         RecentMissingRecHitsByDepth.depth[i]->update();
00768 
00769       NumberOfRecentMissingRecHits->update();
00770       NumberOfRecentMissingRecHitsHB->update();
00771       NumberOfRecentMissingRecHitsHE->update();
00772       NumberOfRecentMissingRecHitsHO->update();
00773       NumberOfRecentMissingRecHitsHF->update();
00774 
00775       for (HBHERecHitCollection::const_iterator j=hbHits.begin();
00776            j!=hbHits.end(); ++j)
00777         process_RecHit(j);
00778       
00779       for (HORecHitCollection::const_iterator k=hoHits.begin();
00780            k!=hoHits.end(); ++k)
00781         process_RecHit(k);
00782       
00783       for (HFRecHitCollection::const_iterator j=hfHits.begin();
00784            j!=hfHits.end(); ++j)
00785         process_RecHit(j);
00786         
00787     } // if (deadmon_test_rechits)
00788 
00789   if (!makeDiagnostics_) return;
00790   if (tevt_>=NLumiBlocks_) return;
00791   // Diagnostic plots -- add number of missing channels vs event number
00792   int hbpresent=0;
00793   int hepresent=0;
00794   int hopresent=0;
00795   int hfpresent=0;
00796   int ieta=0;
00797   for (int d=0;d<4;++d)
00798     {
00799       for (int phi=0;phi<72;++phi)
00800         {
00801           for (int eta=0;eta<85;++eta)
00802             {
00803               if (!present_digi[eta][phi][d]) continue;
00804               if (d==3) ++hopresent;
00805               else if (d==2) ++hepresent;
00806               else if (d==1)
00807                 {
00808                   ieta=binmapd2[eta];
00809                   //if (abs(ieta)>29) continue;
00810                   if (abs(ieta)>29) ++hfpresent;
00811                   else if (abs(ieta)<17) ++hbpresent; //depths 15&16
00812                   else ++hepresent;
00813                 }
00814               else if (d==0)
00815                 {
00816                   ieta=eta-42;
00817                   if (abs(ieta)>29) ++hfpresent;
00818                   else if (abs(ieta)<17) ++hbpresent;
00819                   else ++hepresent;
00820                 }
00821             }
00822         }
00823     } // for (int d=0;d<4;++d)
00824   HBDeadVsEvent->Fill(tevt_,2592-hbpresent);
00825   HEDeadVsEvent->Fill(tevt_,2592-hepresent);
00826   HODeadVsEvent->Fill(tevt_,2160-hopresent);
00827   HFDeadVsEvent->Fill(tevt_,1728-hfpresent);
00828   return;
00829 } // void HcalDeadCellMonitor::processEvent(...)
00830 
00831 /************************************/
00832 
00833 
00834 // Digi-based dead cell checks
00835 
00836 void HcalDeadCellMonitor::processEvent_HBHEdigi(const HBHEDataFrame digi)
00837 {
00838   // Simply check whether a digi is present.  If so, increment occupancy counter.
00839   process_Digi(digi);
00840   return;
00841 } //void HcalDeadCellMonitor::processEvent_HBHEdigi(HBHEDigiCollection::const_iterator j)
00842 
00843 template<class DIGI> 
00844 void HcalDeadCellMonitor::process_Digi(DIGI& digi)
00845 {
00846   // Remove the validate check when we figure out how to access bad digis in digi monitor
00847   //if (!digi.validate()) return; // digi must be good to be counted
00848   int ieta=digi.id().ieta();
00849   int iphi=digi.id().iphi();
00850   int depth=digi.id().depth();
00851 
00852   // Fill occupancy counter
00853   ++recentoccupancy_digi[CalcEtaBin(digi.id().subdet(),ieta,depth)][iphi-1][depth-1];
00854 
00855   // If previously-missing digi found, change boolean status and fill histogram
00856   if (present_digi[CalcEtaBin(digi.id().subdet(),ieta,depth)][iphi-1][depth-1]==false)
00857     {
00858       if (DigiPresentByDepth.depth[depth-1])
00859         {
00860           DigiPresentByDepth.depth[depth-1]->setBinContent(CalcEtaBin(digi.id().subdet(),ieta,depth)+1,iphi,1);
00861         }
00862       present_digi[CalcEtaBin(digi.id().subdet(),ieta,depth)][iphi-1][depth-1]=true;
00863     }
00864   return;
00865 }
00866 
00867 //RecHit-based dead cell checks
00868 
00869 template<class RECHIT>
00870 void HcalDeadCellMonitor::process_RecHit(RECHIT& rechit)
00871 {
00872   float en = rechit->energy();
00873   HcalDetId id(rechit->detid().rawId());
00874   int ieta = id.ieta();
00875   int iphi = id.iphi();
00876   int depth = id.depth();
00877   
00878   if (id.subdet()==HcalBarrel)
00879     {
00880       if (en>=HBenergyThreshold_)
00881         {
00882           ++recentoccupancy_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1];
00883           present_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1]=true;
00884           if (RecHitPresentByDepth.depth[depth-1])
00885             RecHitPresentByDepth.depth[depth-1]->setBinContent(CalcEtaBin(id.subdet(),ieta,depth)+1,iphi,1);
00886         }      
00888       // RBX index, HB RBX indices are 0-35
00889       int RBXindex = logicalMap_->getHcalFrontEndId(rechit->detid()).rbxIndex();
00890 
00891       occupancy_RBX[RBXindex]++;
00893     }
00894   else if (id.subdet()==HcalEndcap)
00895     {
00896       if (en>=HEenergyThreshold_)
00897         {
00898         ++recentoccupancy_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1];
00899         present_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1]=true;
00900         if (RecHitPresentByDepth.depth[depth-1])
00901           RecHitPresentByDepth.depth[depth-1]->setBinContent(CalcEtaBin(id.subdet(),ieta,depth)+1,iphi,1);
00902         }
00904       // RBX index, HE RBX indices are 36-71
00905       int RBXindex = logicalMap_->getHcalFrontEndId(rechit->detid()).rbxIndex();
00906       
00907       occupancy_RBX[RBXindex]++;
00909     }
00910   else if (id.subdet()==HcalForward)
00911     {
00912       if (en>=HFenergyThreshold_)
00913         {
00914           ++recentoccupancy_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1];
00915         
00916           present_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1]=true;
00917           if (RecHitPresentByDepth.depth[depth-1])
00918             RecHitPresentByDepth.depth[depth-1]->setBinContent(CalcEtaBin(id.subdet(),ieta,depth)+1,iphi,1);
00919         }
00920     }
00921   else if (id.subdet()==HcalOuter)
00922     {
00923       if (en>=HOenergyThreshold_)
00924         {
00925           ++recentoccupancy_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1];
00926           present_rechit[CalcEtaBin(id.subdet(),ieta,depth)][iphi-1][depth-1]=true;
00927           if (RecHitPresentByDepth.depth[depth-1])
00928             RecHitPresentByDepth.depth[depth-1]->setBinContent(CalcEtaBin(id.subdet(),ieta,depth)+1,iphi,1); 
00929         }
00931       // RBX index, HO RBX indices are 85-95 (odd), 96-107 (all), 108-119 (odd), 120-130 (EXCL), 131
00932       int RBXindex = logicalMap_->getHcalFrontEndId(rechit->detid()).rbxIndex();
00933 
00934       occupancy_RBX[RBXindex]++;
00936     }
00937 }
00938 
00939 void HcalDeadCellMonitor::fillNevents_recentdigis()
00940 {
00941   // Fill Histograms showing digi cells with no occupancy for the past few lumiblocks
00942   if (!deadmon_test_digis_) return; // extra protection here against calling histograms than don't exist
00943 
00944 
00945   if (deadevt_ < minDeadEventCount_) return; // not enough entries to make a determination for this LS
00946 
00947   if (debug_>0)
00948     std::cout <<"<HcalDeadCellMonitor::fillNevents_recentdigis> CHECKING FOR RECENT MISSING DIGIS   evtcount = "<<deadevt_<<std::endl;
00949 
00950   int ieta=0;
00951   int iphi=0;
00952 
00953   int etabins=0;
00954   int phibins=0;
00955 
00957   if (deadevt_ >= 10 && deadevt_<minDeadEventCount_) // maybe not enough events to run the standard test
00958     if( is_RBX_loss_ == 1 )                          // but enough to detect RBX loss
00959       for (unsigned int depth=0;depth<RecentMissingDigisByDepth.depth.size();++depth)
00960         {
00961           RecentMissingDigisByDepth.depth[depth]->setBinContent(0,0,ievt_);
00962           etabins=RecentMissingDigisByDepth.depth[depth]->getNbinsX();
00963           phibins=RecentMissingDigisByDepth.depth[depth]->getNbinsY();      
00964           for (int eta=0;eta<etabins;++eta)
00965             for (int phi=0;phi<phibins;++phi)
00966               {
00967                 iphi=phi+1;
00968                 for (int subdet=1;subdet<=4;++subdet)
00969                   {
00970                     ieta=CalcIeta((HcalSubdetector)subdet,eta,depth+1);
00971                     if (ieta==-9999) continue;
00972                     if (!validDetId((HcalSubdetector)subdet, ieta, iphi, depth+1))
00973                       continue;
00974                     // now check which dead cell tests failed; increment counter if any failed
00975                     HcalDetId TempID((HcalSubdetector)subdet, ieta, iphi, (int)depth+1);
00976                     
00977                     int index = logicalMap_->getHcalFrontEndId(TempID).rbxIndex();
00978                     if(subdet==HcalForward) continue;
00979                     
00980                     if(occupancy_RBX[index]==0)
00981                       {
00982                         recentoccupancy_digi[eta][phi][depth] = 0;
00983                         RecentMissingDigisByDepth.depth[depth]->Fill(ieta,iphi,deadevt_);
00984                       }
00985                   }
00986               }
00987         }
00989 
00990   for (unsigned int depth=0;depth<RecentMissingDigisByDepth.depth.size();++depth)
00991     { 
00992       RecentMissingDigisByDepth.depth[depth]->setBinContent(0,0,ievt_);
00993       etabins=RecentMissingDigisByDepth.depth[depth]->getNbinsX();
00994       phibins=RecentMissingDigisByDepth.depth[depth]->getNbinsY();
00995       for (int eta=0;eta<etabins;++eta)
00996         {
00997           for (int subdet=1;subdet<=4;++subdet)
00998             {
00999               ieta=CalcIeta((HcalSubdetector)subdet,eta,depth+1);
01000               if (ieta==-9999) continue;
01001               for (int phi=0;phi<phibins;++phi)
01002                 {
01003                   iphi=phi+1;
01004                   
01005                   if (!validDetId((HcalSubdetector)subdet, ieta, iphi, depth+1))
01006                     continue;
01007                   
01008                   // Ignore subdetectors that weren't in run?
01009                   /*
01010                   if ((subdet==HcalBarrel && !HBpresent_) || 
01011                       (subdet==HcalEndcap &&!HEpresent_)  ||
01012                       (subdet==HcalOuter &&!HOpresent_)  || 
01013                       (subdet==HcalForward &&!HFpresent_))   continue;
01014                   */
01015                   int zside=0;
01016                   if (subdet==HcalForward) // shift HcalForward ieta
01017                     ieta<0 ? zside=-1 : zside=+1;
01018                   
01019                   if (recentoccupancy_digi[eta][phi][depth]==0)
01020                     {
01021                       if (debug_>0)
01022                         {
01023                           std::cout <<"DEAD CELL; NO RECENT OCCUPANCY: subdet = "<<subdet<<", ieta = "<<ieta<<", iphi = "<<iphi<<" depth = "<<depth+1<<std::endl;
01024                           std::cout <<"\t RAW COORDINATES:  eta = "<<eta<< " phi = "<<phi<<" depth = "<<depth<<std::endl;
01025                           std::cout <<"\t Present? "<<present_digi[eta][phi][depth]<<std::endl;
01026                         }
01027                       
01028                       // Don't fill HORing2 if boolean enabled
01029                       if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01030                         continue;
01031 
01032                       // no digi was found for the N events; Fill cell as bad for all N events (N = checkN);
01033                       if (RecentMissingDigisByDepth.depth[depth]) RecentMissingDigisByDepth.depth[depth]->Fill(ieta+zside,iphi,deadevt_);
01034                     }
01035                 } // for (int subdet=1;subdet<=4;++subdet)
01036             } // for (int phi=0;...)
01037         } // for (int eta=0;...)
01038     } //for (int depth=1;...)
01039   FillUnphysicalHEHFBins(RecentMissingDigisByDepth);
01040 
01041   return;
01042 
01043 } // void HcalDeadCellMonitor::fillNevents_recentdigis()
01044 
01045 
01046 
01047 /* ----------------------------------- */
01048 
01049 void HcalDeadCellMonitor::fillNevents_recentrechits()
01050 {
01051   // Fill Histograms showing unoccupied rechits, or rec hits with low energy
01052 
01053   // This test is a bit pointless, unless the energy threshold is greater than the ZS threshold.
01054   // If we require that cells are always < thresh to be flagged by this test, and if 
01055   // thresh < ZS, then we will never catch any cells, since they'll show up as dead in the
01056   // neverpresent/occupancy test plots first.
01057   // Only exception is if something strange is going on between ZS ADC value an RecHit energy?
01058 
01059   if (!deadmon_test_rechits_) return;
01060   FillUnphysicalHEHFBins(RecHitPresentByDepth);  
01061 
01062   if (debug_>0)
01063     std::cout <<"<HcalDeadCellMonitor::fillNevents_energy> BELOW-ENERGY-THRESHOLD PLOTS"<<std::endl;
01064 
01065   int ieta=0;
01066   int iphi=0;
01067   
01068   int etabins=0;
01069   int phibins=0;
01070 
01072   if (deadevt_ >= 10 && deadevt_<minDeadEventCount_) // maybe not enough events to run the standard test
01073     if( is_RBX_loss_ == 1 )                          // but enough to detect RBX loss
01074       for (unsigned int depth=0;depth<RecentMissingRecHitsByDepth.depth.size();++depth)
01075         {
01076           RecentMissingRecHitsByDepth.depth[depth]->setBinContent(0,0,ievt_);
01077           etabins=RecentMissingRecHitsByDepth.depth[depth]->getNbinsX();
01078           phibins=RecentMissingRecHitsByDepth.depth[depth]->getNbinsY();      
01079           for (int eta=0;eta<etabins;++eta)
01080             for (int phi=0;phi<phibins;++phi)
01081               {
01082                 iphi=phi+1;
01083                 for (int subdet=1;subdet<=4;++subdet)
01084                   {
01085                     ieta=CalcIeta((HcalSubdetector)subdet,eta,depth+1);
01086                     if (ieta==-9999) continue;
01087                     if (!validDetId((HcalSubdetector)subdet, ieta, iphi, depth+1))
01088                       continue;
01089                     // now check which dead cell tests failed; increment counter if any failed
01090                     HcalDetId TempID((HcalSubdetector)subdet, ieta, iphi, (int)depth+1);
01091                     
01092                     int index = logicalMap_->getHcalFrontEndId(TempID).rbxIndex();
01093                     if(subdet==HcalForward) continue;
01094                     
01095                     if(occupancy_RBX[index]==0)
01096                       {
01097                         recentoccupancy_rechit[eta][phi][depth] = 0;
01098                         RecentMissingRecHitsByDepth.depth[depth]->Fill(ieta,iphi,deadevt_);
01099                       }
01100                   }
01101               }
01102         }
01104 
01105   if (deadevt_ < minDeadEventCount_) return; // not enough entries to make a determination for this LS
01106 
01107   for (unsigned int depth=0;depth<RecentMissingRecHitsByDepth.depth.size();++depth)
01108     { 
01109       RecentMissingRecHitsByDepth.depth[depth]->setBinContent(0,0,ievt_);
01110       etabins=RecentMissingRecHitsByDepth.depth[depth]->getNbinsX();
01111       phibins=RecentMissingRecHitsByDepth.depth[depth]->getNbinsY();
01112       for (int eta=0;eta<etabins;++eta)
01113         {
01114           for (int subdet=1;subdet<=4;++subdet)
01115             {
01116               ieta=CalcIeta((HcalSubdetector)subdet,eta,depth+1);
01117               if (ieta==-9999) continue;
01118               for (int phi=0;phi<phibins;++phi)
01119                 {
01120                   iphi=phi+1;
01121                   if (!validDetId((HcalSubdetector)subdet, ieta, iphi, depth+1))
01122                     continue;
01123                   
01124                   if (recentoccupancy_rechit[eta][phi][depth]>0) continue; // cell exceeded energy at least once, so it's not dead
01125                                   
01126                   // Ignore subdetectors that weren't in run?
01127                   /*
01128                   if ((subdet==HcalBarrel && !HBpresent_) || 
01129                       (subdet==HcalEndcap &&!HEpresent_)  ||
01130                       (subdet==HcalOuter &&!HOpresent_)  ||
01131                       (subdet==HcalForward &&!HFpresent_))   continue;
01132                   */
01133 
01134                   int zside=0;
01135                   if (subdet==HcalForward) // shift HcalForward ieta
01136                     {
01137                       ieta<0 ? zside=-1 : zside=+1;
01138                     }
01139                   
01140                   if (debug_>2) 
01141                     std::cout <<"DEAD CELL; BELOW ENERGY THRESHOLD; subdet = "<<subdet<<" ieta = "<<ieta<<", phi = "<<iphi<<" depth = "<<depth+1<<std::endl;
01142                   if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01143                     continue;
01144           
01145                   if (RecentMissingRecHitsByDepth.depth[depth]) RecentMissingRecHitsByDepth.depth[depth]->Fill(ieta+zside,iphi,deadevt_);
01146                 } // loop on phi bins
01147             } // for (unsigned int depth=1;depth<=4;++depth)
01148         } // // loop on subdetectors
01149     } // for (int eta=0;...)
01150   
01151   FillUnphysicalHEHFBins(RecentMissingRecHitsByDepth);
01152 
01153   return;
01154 } // void HcalDeadCellMonitor::fillNevents_recentrechits()
01155 
01156 
01157 void HcalDeadCellMonitor::fillNevents_problemCells()
01158 {
01159   //fillNevents_problemCells now only performs checks of never-present cells
01160 
01161   if (debug_>0)
01162     std::cout <<"<HcalDeadCellMonitor::fillNevents_problemCells> FILLING PROBLEM CELL PLOTS"<<std::endl;
01163 
01164   int ieta=0;
01165   int iphi=0;
01166 
01167   // Count problem cells in each subdetector
01168 
01169   NumBadHB=0;
01170   NumBadHE=0;
01171   NumBadHO=0;
01172   NumBadHF=0;
01173   NumBadHFLUMI=0;
01174   NumBadHO0=0;
01175   NumBadHO12=0;
01176   NumBadHO1P02=0;
01177   
01178   int knownBadHB=0;
01179   int knownBadHE=0;
01180   int knownBadHF=0;
01181   int knownBadHO=0;
01182   int knownBadHFLUMI=0;
01183   int knownBadHO0=0;
01184   int knownBadHO12=0;
01185 
01186 
01187   unsigned int neverpresentHB=0;
01188   unsigned int neverpresentHE=0;
01189   unsigned int neverpresentHO=0;
01190   unsigned int neverpresentHF=0;
01191   
01192   unsigned int unoccupiedHB=0;
01193   unsigned int unoccupiedHE=0;
01194   unsigned int unoccupiedHO=0;
01195   unsigned int unoccupiedHF=0;
01196     
01197   unsigned int belowenergyHB=0;
01198   unsigned int belowenergyHE=0;
01199   unsigned int belowenergyHO=0;
01200   unsigned int belowenergyHF=0;
01201   
01202   unsigned int energyneverpresentHB=0;
01203   unsigned int energyneverpresentHE=0;
01204   unsigned int energyneverpresentHO=0;
01205   unsigned int energyneverpresentHF=0;
01206 
01207   if (deadevt_>=minDeadEventCount_)
01208     Nevents->Fill(1,deadevt_);
01209 
01210   int etabins=0;
01211   int phibins=0;
01212 
01213   // Store values for number of bad channels in each lumi section, for plots of ProblemsVsLS.
01214   // This is different than the NumBadHB, etc. values, which must included even known bad channels 
01215   // in order to calculate reportSummaryByLS values correctly.
01216 
01218   //Check for RBX data loss
01219   unsigned int RBX_loss_HB=0;
01220   unsigned int RBX_loss_HE=0;
01221   unsigned int RBX_loss_HO=0;
01222 
01223   unsigned int counter_HB = 0;
01224   unsigned int counter_HE = 0;
01225   unsigned int counter_HO = 0;
01226 
01227   for(int i=0; i<132; i++)
01228     {
01229       if(occupancy_RBX[i]==0 && is_RBX_loss_ == 1)
01230         {
01231           if(i<=35)            //HB
01232             { counter_HB ++ ; RBX_loss_HB = 72*(counter_HB); }
01233           if(i>=36 && i<=71)   //HE
01234             { counter_HE ++ ; RBX_loss_HE = 72*(counter_HE); }
01235           if(i>=72 && i<=132)   //HO
01236             { counter_HO ++ ; RBX_loss_HO = 72*(counter_HO); }
01237           
01238           if(excludeHO1P02_==true && i==109) NumBadHO1P02 = 72; // exclude HO1P02
01239         }
01240             
01241       if(occupancy_RBX[i]>0)
01242         RBX_loss_VS_LB->Fill(currentLS, i, 0);
01243       if(occupancy_RBX[i]==0 && is_RBX_loss_ == 1)
01244         RBX_loss_VS_LB->Fill(currentLS, i, 1);
01245     }  
01246   
01247   if (deadevt_ >= 10 && deadevt_<minDeadEventCount_) // maybe not enough events to run the standard test
01248     if( is_RBX_loss_ == 1 )                          // but enough to detect RBX loss
01249       { 
01250         NumBadHB+=RBX_loss_HB;
01251         NumBadHE+=RBX_loss_HE;
01252         NumBadHO+=RBX_loss_HO;
01253 
01254         belowenergyHB+=RBX_loss_HB;
01255         belowenergyHE+=RBX_loss_HE;
01256         belowenergyHO+=RBX_loss_HO;
01257 
01258         unoccupiedHB+=RBX_loss_HB;
01259         unoccupiedHE+=RBX_loss_HE;
01260         unoccupiedHO+=RBX_loss_HO;
01261       }
01263 
01264   for (unsigned int depth=0;depth<DigiPresentByDepth.depth.size();++depth)
01265     {
01266       DigiPresentByDepth.depth[depth]->setBinContent(0,0,ievt_); 
01267       etabins=DigiPresentByDepth.depth[depth]->getNbinsX();
01268       phibins=DigiPresentByDepth.depth[depth]->getNbinsY();
01269       for (int eta=0;eta<etabins;++eta)
01270         {
01271           for (int phi=0;phi<phibins;++phi)
01272             {
01273               iphi=phi+1;
01274               for (int subdet=1;subdet<=4;++subdet)
01275                 {
01276                   ieta=CalcIeta((HcalSubdetector)subdet,eta,depth+1);
01277                   if (ieta==-9999) continue;
01278                   if (!validDetId((HcalSubdetector)subdet, ieta, iphi, depth+1))
01279                     continue;
01280                   // Ignore subdetectors that weren't in run?
01281                   /*
01282                   if ((subdet==HcalBarrel && !HBpresent_) || 
01283                       (subdet==HcalEndcap &&!HEpresent_)  ||
01284                       (subdet==HcalOuter &&!HOpresent_)  ||
01285                       (subdet==HcalForward &&!HFpresent_))   continue;
01286                   */
01287                   
01288                   /*
01289                   if ((!checkHB_ && subdet==HcalBarrel) ||
01290                       (!checkHE_ && subdet==HcalEndcap) ||
01291                       (!checkHO_ && subdet==HcalOuter) ||
01292                       (!checkHF_ && subdet==HcalForward))  continue;
01293                   */
01294 
01295                   // now check which dead cell tests failed; increment counter if any failed
01296                   if ((present_digi[eta][phi][depth]==0) ||
01297                       (deadmon_test_digis_ && recentoccupancy_digi[eta][phi][depth]==0 && (deadevt_>=minDeadEventCount_)) ||
01298                       (deadmon_test_rechits_ && recentoccupancy_rechit[eta][phi][depth]==0  && (deadevt_>=minDeadEventCount_))
01299                       )
01300                     {
01301                       HcalDetId TempID((HcalSubdetector)subdet, ieta, iphi, (int)depth+1);
01302                       if (subdet==HcalBarrel)      
01303                         { 
01304                           ++NumBadHB;
01305                           if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end())
01306                             ++knownBadHB;
01307                         }
01308                       else if (subdet==HcalEndcap) 
01309                         {
01310                           ++NumBadHE;
01311                           if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end())
01312                             ++knownBadHE;
01313                         }
01314 
01315                       else if (subdet==HcalOuter)  
01316                         {
01317                           ++NumBadHO;
01318                           if (abs(ieta)<5) ++NumBadHO0;
01319                           else ++NumBadHO12;
01320                           // Don't include HORing2 if boolean set; subtract away those counters
01321                           if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01322                             {
01323                               --NumBadHO;
01324                               --NumBadHO12;
01325                             }                     
01326                           // Don't include HO1P02 if boolean set, RBX does not repsond well to resets,; subtract away those counters
01327                           if (excludeHO1P02_==true && ( (ieta>4 && ieta<10) && (iphi<=10 || iphi>70) ) )
01328                             ++NumBadHO1P02;
01329 
01330                           if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end())
01331                             {
01332                               ++knownBadHO;
01333                               if (abs(ieta)<5) ++knownBadHO0;
01334                               else ++knownBadHO12;
01335                               // Don't include HORing2 if boolean set; subtract away those counters
01336                               if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01337                                 {
01338                                   --knownBadHO;
01339                                   --knownBadHO12;
01340                                 }
01341                             }
01342                         }
01343                       else if (subdet==HcalForward)
01344                         {
01345                           ++NumBadHF;
01346                           if (depth==1 && (abs(ieta)==33 || abs(ieta)==34))
01347                             ++NumBadHFLUMI;
01348                           else if (depth==2 && (abs(ieta)==35 || abs(ieta)==36))
01349                             ++NumBadHFLUMI;
01350                           if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end())
01351                             {
01352                               ++knownBadHF;
01353                               if (depth==1 && (abs(ieta)==33 || abs(ieta)==34))
01354                                 ++knownBadHFLUMI;
01355                               else if (depth==2 && (abs(ieta)==35 || abs(ieta)==36))
01356                                 ++knownBadHFLUMI;
01357                             }
01358                         }
01359                     }
01360                   if (present_digi[eta][phi][depth]==0 )
01361                     {
01362                       if (subdet==HcalBarrel) ++neverpresentHB;
01363                       else if (subdet==HcalEndcap) ++neverpresentHE;
01364                       else if (subdet==HcalOuter) 
01365                         {
01366                           ++neverpresentHO;
01367                           if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01368                             --neverpresentHO;
01369                         }
01370                       else if (subdet==HcalForward) ++neverpresentHF;
01371                     }
01372                   // Count recent unoccupied digis if the total events in this lumi section is > minEvents_
01373                   if (deadmon_test_digis_ && recentoccupancy_digi[eta][phi][depth]==0 && deadevt_>=minDeadEventCount_)
01374                     {
01375                       HcalDetId TempID((HcalSubdetector)subdet, ieta, iphi, (int)depth+1);
01376                       if (subdet==HcalBarrel) ++unoccupiedHB;
01377                       else if (subdet==HcalEndcap) ++unoccupiedHE;
01378                       else if (subdet==HcalOuter) 
01379                         {
01380                           ++unoccupiedHO;
01381                           if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01382                             --unoccupiedHO;
01383                           if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end() && abs(ieta)<=10)
01384                             --unoccupiedHO;
01385                         }
01386                       else if (subdet==HcalForward) ++unoccupiedHF;
01387                     }
01388                   // Look at rechit checks
01389                   if (deadmon_test_rechits_)
01390                     {
01391                       if (present_rechit[eta][phi][depth]==0)
01392                         {
01393                           if (subdet==HcalBarrel) ++energyneverpresentHB;
01394                           else if (subdet==HcalEndcap) ++energyneverpresentHE;
01395                           else if (subdet==HcalOuter) 
01396                             {
01397                               ++energyneverpresentHO;
01398                               if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01399                                 --energyneverpresentHO; 
01400                             }
01401                           else if (subdet==HcalForward) ++energyneverpresentHF;
01402                         }
01403                       if (recentoccupancy_rechit[eta][phi][depth]==0 && deadevt_>=minDeadEventCount_)
01404                         {
01405                           HcalDetId TempID((HcalSubdetector)subdet, ieta, iphi, (int)depth+1);
01406                           if (subdet==HcalBarrel) ++belowenergyHB;
01407                           else if (subdet==HcalEndcap) ++belowenergyHE;
01408                           else if (subdet==HcalOuter) 
01409                             {
01410                               ++belowenergyHO;
01411                               if (excludeHORing2_==true && abs(ieta)>10 && isSiPM(ieta,iphi,depth+1)==false)
01412                                 --belowenergyHO;
01413                               if (KnownBadCells_.find(TempID.rawId())!=KnownBadCells_.end() && abs(ieta)<=10)
01414                                 --belowenergyHO;
01415                             }
01416                           else if (subdet==HcalForward) ++belowenergyHF;
01417                         }
01418                     }
01419                 } // subdet loop
01420             } // phi loop
01421         } //eta loop
01422     } // depth loop
01423 
01424   // Fill with number of problem cells found on this pass
01425   NumberOfNeverPresentDigisHB->Fill(currentLS,neverpresentHB);
01426   NumberOfNeverPresentDigisHE->Fill(currentLS,neverpresentHE);
01427   NumberOfNeverPresentDigisHO->Fill(currentLS,neverpresentHO);
01428   NumberOfNeverPresentDigisHF->Fill(currentLS,neverpresentHF);
01429   NumberOfNeverPresentDigis->Fill(currentLS,neverpresentHB+neverpresentHE+neverpresentHO+neverpresentHF);
01430 
01431   if (deadevt_>=minDeadEventCount_ && is_RBX_loss_ == 1 )
01432     {
01433       if( NumBadHB<RBX_loss_HB )
01434         NumBadHB+=RBX_loss_HB;
01435       if( NumBadHE<RBX_loss_HE )
01436         NumBadHE+=RBX_loss_HE;
01437       if( NumBadHO<RBX_loss_HO )
01438         NumBadHO+=RBX_loss_HO;
01439 
01440       if( belowenergyHB<RBX_loss_HB )
01441         belowenergyHB+=RBX_loss_HB;
01442       if( belowenergyHE<RBX_loss_HE )
01443         belowenergyHE+=RBX_loss_HE;
01444       if( belowenergyHO<RBX_loss_HO )
01445         belowenergyHO+=RBX_loss_HO;
01446 
01447       if( unoccupiedHB<RBX_loss_HB )
01448         unoccupiedHB+=RBX_loss_HB;
01449       if( unoccupiedHE<RBX_loss_HE )
01450         unoccupiedHE+=RBX_loss_HE;
01451       if( unoccupiedHO<RBX_loss_HO )
01452         unoccupiedHO+=RBX_loss_HO;
01453 
01454       is_RBX_loss_ = 0;
01455     }
01456 
01457   ProblemsVsLB_HB->Fill(currentLS,NumBadHB-knownBadHB+0.0001); // add a small offset, so that the histograms reset when no errors follow
01458   ProblemsVsLB_HE->Fill(currentLS,NumBadHE-knownBadHE+0.0001); // problematic LSs
01459   ProblemsVsLB_HO->Fill(currentLS,NumBadHO-knownBadHO+0.0001);
01460   ProblemsVsLB_HF->Fill(currentLS,NumBadHF-knownBadHF+0.0001);
01461   ProblemsVsLB_HBHEHF->Fill(currentLS,NumBadHB+NumBadHE+NumBadHF-knownBadHB-knownBadHE-knownBadHF+0.0001);
01462   ProblemsVsLB->Fill(currentLS,NumBadHB+NumBadHE+NumBadHO+NumBadHF-knownBadHB-knownBadHE-knownBadHO-knownBadHF+0.0001);
01463   
01464   if(excludeHO1P02_==true)
01465     ProblemsVsLB_HO->Fill(0, NumBadHO1P02);
01466 
01467   if( NumBadHB+NumBadHE+NumBadHF-knownBadHB-knownBadHE-knownBadHF < 50 )    
01468     alarmer_counter_ = 0;
01469     
01470   if( alarmer_counter_ >= 10 )
01471     ProblemsInLastNLB_HBHEHF_alarm->Fill( std::min(int(NumBadHB+NumBadHE+NumBadHF-knownBadHB-knownBadHE-knownBadHF), 99) );
01472 
01473   // if (deadevt_<minDeadEventCount_)
01474   //   return;
01475     
01476   if (deadmon_test_digis_)
01477     {
01478       NumberOfRecentMissingDigisHB->Fill(currentLS,unoccupiedHB);
01479       NumberOfRecentMissingDigisHE->Fill(currentLS,unoccupiedHE);
01480       NumberOfRecentMissingDigisHO->Fill(currentLS,unoccupiedHO);
01481       NumberOfRecentMissingDigisHF->Fill(currentLS,unoccupiedHF);
01482       NumberOfRecentMissingDigis->Fill(currentLS,unoccupiedHB+unoccupiedHE+unoccupiedHO+unoccupiedHF);
01483     }
01484 
01485   if (deadmon_test_rechits_)
01486     {
01487       NumberOfNeverPresentRecHitsHB->Fill(currentLS,energyneverpresentHB);
01488       NumberOfNeverPresentRecHitsHE->Fill(currentLS,energyneverpresentHE);
01489       NumberOfNeverPresentRecHitsHO->Fill(currentLS,energyneverpresentHO);
01490       NumberOfNeverPresentRecHitsHF->Fill(currentLS,energyneverpresentHF);
01491       NumberOfNeverPresentRecHits->Fill(currentLS,energyneverpresentHB+energyneverpresentHE+energyneverpresentHO+energyneverpresentHF);
01492       
01493       NumberOfRecentMissingRecHitsHB->Fill(currentLS,belowenergyHB);
01494       NumberOfRecentMissingRecHitsHE->Fill(currentLS,belowenergyHE);
01495       NumberOfRecentMissingRecHitsHO->Fill(currentLS,belowenergyHO);
01496       NumberOfRecentMissingRecHitsHF->Fill(currentLS,belowenergyHF);
01497       NumberOfRecentMissingRecHits->Fill(currentLS,belowenergyHB+belowenergyHE+belowenergyHO+belowenergyHF);
01498     }
01499 
01500   return;
01501 } // void HcalDeadCellMonitor::fillNevents_problemCells(void)
01502 
01503 
01504 void HcalDeadCellMonitor::zeroCounters(bool resetpresent)
01505 {
01506 
01507   // zero all counters
01508 
01509   // 2D histogram counters
01510   for (unsigned int i=0;i<85;++i)
01511     {
01512       for (unsigned int j=0;j<72;++j)
01513         {
01514           for (unsigned int k=0;k<4;++k)
01515             {
01516               if (resetpresent) present_digi[i][j][k]=false; // keeps track of whether digi was ever present
01517               if (resetpresent) present_rechit[i][j][k]=false;
01518               recentoccupancy_digi[i][j][k]=0; // counts occupancy in last (checkNevents) events
01519               recentoccupancy_rechit[i][j][k]=0; // counts instances of cell above threshold energy in last (checkNevents)
01520             }
01521         }
01522     }
01523 
01524   for (unsigned int i=0;i<132;++i)
01525     {
01526       occupancy_RBX[i] = 0;
01527       rbxlost[i] = 0;
01528     }
01529 
01530   return;
01531 } // void HcalDeadCellMonitor::zeroCounters(bool resetpresent)
01532 
01533 DEFINE_FWK_MODULE(HcalDeadCellMonitor);