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/data/refman/pasoursint/CMSSW_5_3_3/src/DQM/HcalMonitorTasks/interface/HcalDetDiagTimingMonitor.h

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00001 #ifndef DQM_HCALMONITORTASKS_HCALDETDIAGTIMINGMONITOR_H
00002 #define DQM_HCALMONITORTASKS_HCALDETDIAGTIMINGMONITOR_H
00003 
00004 // user include files
00005 #include "FWCore/Framework/interface/Frameworkfwd.h"
00006 #include "FWCore/Framework/interface/Event.h"
00007 #include "FWCore/Framework/interface/MakerMacros.h"
00008 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00009 
00010 #include "DQMServices/Core/interface/DQMStore.h"
00011 #include "DQMServices/Core/interface/MonitorElement.h"
00012 #include "DQM/HcalMonitorTasks/interface/HcalBaseDQMonitor.h"
00013 
00014 #include "CalibFormats/HcalObjects/interface/HcalDbService.h"
00015 #include "CalibFormats/HcalObjects/interface/HcalDbRecord.h"
00016 
00017 
00025 class HcalDetDiagTimingMonitor:public HcalBaseDQMonitor {
00026 public:
00027   HcalDetDiagTimingMonitor(const edm::ParameterSet& ps); 
00028   ~HcalDetDiagTimingMonitor(); 
00029 
00030   double GetTime(double *data,int n){
00031         int MaxI=-100; double Time=0,SumT=0,MaxT=-10;
00032         for(int j=0;j<n;++j) if(MaxT<data[j]){ MaxT=data[j]; MaxI=j; }
00033         if(MaxI>=0){
00034            Time=MaxI*data[MaxI];
00035            SumT=data[MaxI];
00036            if(MaxI>0){ Time+=(MaxI-1)*data[MaxI-1]; SumT+=data[MaxI-1]; }
00037            if(MaxI<(n-1)){ Time+=(MaxI+1)*data[MaxI+1]; SumT+=data[MaxI+1]; }
00038            Time=Time/SumT;
00039         }
00040         return Time;
00041   }
00042   bool isSignal(double *data,int n){
00043         int Imax=-1; double max=-100;
00044         for(int i=0;i<n;i++) if(data[i]>max){max=data[i]; Imax=i;}
00045         if(Imax==0 && Imax==(n-1)) return false;
00046         float sum=data[Imax-1]+data[Imax+1];
00047         if(data[Imax]>5.5 && sum>(data[Imax]*0.25)) return true;
00048         return false;
00049   }
00052   void set_hbhe(int eta,int phi,int depth,int cap,float val){
00053        HBHE[eta+50][phi][depth][cap]+=val;
00054        nHBHE[eta+50][phi][depth][cap]+=1.0;
00055   }   
00056   void set_ho(int eta,int phi,int depth,int cap,float val){
00057        HO[eta+50][phi][depth][cap]+=val;
00058        nHO[eta+50][phi][depth][cap]+=1.0;
00059   }   
00060   void set_hf(int eta,int phi,int depth,int cap,float val){
00061        HF[eta+50][phi][depth][cap]+=val;
00062        nHF[eta+50][phi][depth][cap]+=1.0;
00063   }
00064   double get_ped_hbhe(int eta,int phi,int depth,int cup){
00065       if(nHBHE[eta+50][phi][depth][cup]<10) return 2.5; 
00066       if(nHBHE[eta+50][phi][depth][cup]!=0){
00067          double ped=HBHE[eta+50][phi][depth][cup]/nHBHE[eta+50][phi][depth][cup];
00068          if(ped>1.5 && ped<4.5) return ped;
00069       } 
00070       return 9999; 
00071   }   
00072   double get_ped_ho(int eta,int phi,int depth,int cup){
00073       if(nHO[eta+50][phi][depth][cup]<10) return 2.5; 
00074       if(nHO[eta+50][phi][depth][cup]!=0){
00075          double ped=HO[eta+50][phi][depth][cup]/nHO[eta+50][phi][depth][cup];
00076          if(ped>1.5 && ped<4.5) return ped;
00077       }
00078       return 9999; 
00079   }   
00080   double get_ped_hf(int eta,int phi,int depth,int cup){
00081       if(nHF[eta+50][phi][depth][cup]<10) return 2.5; 
00082       if(nHF[eta+50][phi][depth][cup]!=0){
00083          double ped=HF[eta+50][phi][depth][cup]/nHF[eta+50][phi][depth][cup];
00084          if(ped>1.5 && ped<4.5) return ped;
00085       }
00086       return 9999; 
00087   }   
00088   double HBHE[100][73][5][4];
00089   double nHBHE[100][73][5][4];
00090   double HO[100][73][5][4];
00091   double nHO[100][73][5][4];   
00092   double HF[100][73][5][4];
00093   double nHF[100][73][5][4];
00096 //   noise/crazy channels masking
00097   double occHBHE[100][73][5]; 
00098   double occHO  [100][73][5]; 
00099   double occHF  [100][73][5]; 
00100   double occSum;
00103   void setup();
00104   void beginRun(const edm::Run& run, const edm::EventSetup& c);
00105   void analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup);
00106   void done();
00107   void reset();
00108   void cleanup(); 
00109   
00110 private:
00111   edm::InputTag inputLabelDigi_;
00112   edm::InputTag L1ADataLabel_;
00113   edm::InputTag FEDRawDataCollection_;
00114   
00115   int  GCTTriggerBit1_;
00116   int  GCTTriggerBit2_;
00117   int  GCTTriggerBit3_;
00118   int  GCTTriggerBit4_;
00119   int  GCTTriggerBit5_; 
00120   bool CosmicsCorr_; 
00121   
00122   MonitorElement *HBTimeDT; 
00123   MonitorElement *HBTimeRPC; 
00124   MonitorElement *HBTimeGCT; 
00125   MonitorElement *HBTimeHO; 
00126   MonitorElement *HOTimeDT; 
00127   MonitorElement *HOTimeRPC; 
00128   MonitorElement *HOTimeGCT; 
00129   MonitorElement *HOTimeHO; 
00130   MonitorElement *HETimeCSCp; 
00131   MonitorElement *HETimeCSCm;
00132   MonitorElement *HETimeRPCp; 
00133   MonitorElement *HETimeRPCm;
00134   MonitorElement *HFTimeCSCp; 
00135   MonitorElement *HFTimeCSCm;
00136   MonitorElement *Summary;  
00137   
00138   void CheckTiming();
00139 };
00140 
00141 #endif