---

CSCNoiseMatrixConditions Class Reference

#include <CalibMuon/CSCCalibration/interface/CSCNoiseMatrixConditions.h>

Inheritance diagram for CSCNoiseMatrixConditions:

List of all members.

Public Types
typedef const CSCNoiseMatrix *	ReturnType
Public Member Functions
	CSCNoiseMatrixConditions (const edm::ParameterSet &)
ReturnType	produceNoiseMatrix (const CSCNoiseMatrixRcd &)
	~CSCNoiseMatrixConditions ()
Static Public Member Functions
static CSCNoiseMatrix *	prefillNoiseMatrix ()
Private Member Functions
void	setIntervalFor (const edm::eventsetup::EventSetupRecordKey &, const edm::IOVSyncValue &, edm::ValidityInterval &)
Private Attributes
CSCNoiseMatrix *	cnMatrix

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Detailed Description

Definition at line 19 of file CSCNoiseMatrixConditions.h.

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Member Typedef Documentation

typedef const CSCNoiseMatrix* CSCNoiseMatrixConditions::ReturnType

Definition at line 27 of file CSCNoiseMatrixConditions.h.

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Constructor & Destructor Documentation

CSCNoiseMatrixConditions::CSCNoiseMatrixConditions

(

const edm::ParameterSet &

iConfig

)

Definition at line 407 of file CSCNoiseMatrixConditions.cc.

References cnMatrix, prefillNoiseMatrix(), produceNoiseMatrix(), and edm::ESProducer::setWhatProduced().

{
  //the following line is needed to tell the framework what
  // data is being produced
  cnMatrix = prefillNoiseMatrix();
  // added by Zhen (changed since 1_2_0)
  setWhatProduced(this,&CSCNoiseMatrixConditions::produceNoiseMatrix);
  findingRecord<CSCNoiseMatrixRcd>();
  //now do what ever other initialization is needed
}

CSCNoiseMatrixConditions::~CSCNoiseMatrixConditions

(

)

Definition at line 419 of file CSCNoiseMatrixConditions.cc.

References cnMatrix.

{
 
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)
  delete cnMatrix;
}

---

Member Function Documentation

CSCNoiseMatrix * CSCNoiseMatrixConditions::prefillNoiseMatrix

(

)

[static]

Definition at line 5 of file CSCNoiseMatrixConditions.cc.

References TestMuL1L2Filter_cff::cerr, detId, lat::endl(), cmsRelvalreport::exit, in, CSCNoiseMatrix::matrix, CSCDetId::maxChamberId(), CSCDetId::maxEndcapId(), CSCDetId::maxLayerId(), CSCDetId::maxRingId(), CSCDetId::maxStationId(), CSCDetId::minChamberId(), CSCDetId::minEndcapId(), CSCDetId::minLayerId(), CSCDetId::minRingId(), and CSCDetId::minStationId().

Referenced by CSCNoiseMatrixConditions().

                                                             {
  
  int old_chamber_id,old_strip,new_chamber_id,new_strip;
  float old_elm33,old_elm34, old_elm44, old_elm35, old_elm45, old_elm55;
  float old_elm46, old_elm56, old_elm66, old_elm57, old_elm67, old_elm77;
  std::vector<int> old_cham_id;
  std::vector<int> old_strips;
  std::vector<float> old_elem33;
  std::vector<float> old_elem34;
  std::vector<float> old_elem44;
  std::vector<float> old_elem45;
  std::vector<float> old_elem35;
  std::vector<float> old_elem55;
  std::vector<float> old_elem46;
  std::vector<float> old_elem56;
  std::vector<float> old_elem66;
  std::vector<float> old_elem57;
  std::vector<float> old_elem67;
  std::vector<float> old_elem77;


  float new_elm33,new_elm34, new_elm44, new_elm35, new_elm45, new_elm55;
  float  new_elm46, new_elm56, new_elm66, new_elm57, new_elm67, new_elm77;
  std::vector<int> new_cham_id;
  std::vector<int> new_strips;
  std::vector<float> new_elem33;
  std::vector<float> new_elem34;
  std::vector<float> new_elem44;
  std::vector<float> new_elem45;
  std::vector<float> new_elem35;
  std::vector<float> new_elem55;
  std::vector<float> new_elem46;
  std::vector<float> new_elem56;
  std::vector<float> new_elem66;
  std::vector<float> new_elem57;
  std::vector<float> new_elem67;
  std::vector<float> new_elem77;

  const CSCDetId& detId = CSCDetId();
  CSCNoiseMatrix * cnmatrix = new CSCNoiseMatrix();
  
  int max_istrip,id_layer,max_ring,max_cham;
  unsigned int old_nrlines=0;
  unsigned int new_nrlines=0;

  std::ifstream olddata; 
  olddata.open("old_matrix.dat",std::ios::in); 
  if(!olddata) {
    std::cerr <<"Error: old_matrix.dat -> no such file!"<< std::endl;
    exit(1);
  }
  
  while (!olddata.eof() ) { 
    olddata >> old_chamber_id >> old_strip >> old_elm33 >> old_elm34 >> old_elm44 >> old_elm35 >> old_elm45 >> old_elm55 >> old_elm46 >> old_elm56 >> old_elm66 >> old_elm57 >> old_elm67 >> old_elm77; 
    old_cham_id.push_back(old_chamber_id);
    old_strips.push_back(old_strip);
    old_elem33.push_back(old_elm33);
    old_elem34.push_back(old_elm34);
    old_elem44.push_back(old_elm44);
    old_elem35.push_back(old_elm35);
    old_elem45.push_back(old_elm45);
    old_elem55.push_back(old_elm55);
    old_elem46.push_back(old_elm46);
    old_elem56.push_back(old_elm56);
    old_elem66.push_back(old_elm66);
    old_elem57.push_back(old_elm57);
    old_elem67.push_back(old_elm67);
    old_elem77.push_back(old_elm77);

    old_nrlines++;
  }
  olddata.close();

  std::ifstream newdata;
  newdata.open("new_matrix.txt",std::ios::in); 
  if(!newdata) {
    std::cerr <<"Error: new_matrix.txt -> no such file!"<< std::endl;
    exit(1);
  }
  
  while (!newdata.eof() ) { 
    newdata >> new_chamber_id >> new_strip >> new_elm33 >> new_elm34 >> new_elm44 >> new_elm35 >> new_elm45 >> new_elm55 >> new_elm46 >> new_elm56 >> new_elm66 >> new_elm57 >> new_elm67 >> new_elm77 ; 
    new_cham_id.push_back(new_chamber_id);
    new_strips.push_back(new_strip);
    new_elem33.push_back(new_elm33);
    new_elem34.push_back(new_elm34);
    new_elem44.push_back(new_elm44);
    new_elem35.push_back(new_elm35);
    new_elem45.push_back(new_elm45);
    new_elem55.push_back(new_elm55);
    new_elem46.push_back(new_elm46);
    new_elem56.push_back(new_elm56);
    new_elem66.push_back(new_elm66);
    new_elem57.push_back(new_elm57);
    new_elem67.push_back(new_elm67);
    new_elem77.push_back(new_elm77); 
    new_nrlines++;
  }
  newdata.close();



  //endcap=1 to 2,station=1 to 4, ring=1 to 4,chamber=1 to 36,layer=1 to 6 
  
  for(int iendcap=detId.minEndcapId(); iendcap<=detId.maxEndcapId(); iendcap++){
    for(int istation=detId.minStationId() ; istation<=detId.maxStationId(); istation++){
      max_ring=detId.maxRingId();
      //station 4 ring 4 not there(36 chambers*2 missing)
      //3 rings max this way of counting (ME1a & b)
      if(istation==1)    max_ring=3;
      if(istation==2)    max_ring=2;
      if(istation==3)    max_ring=2;
      if(istation==4)    max_ring=1;
        
      for(int iring=detId.minRingId(); iring<=max_ring; iring++){
        max_istrip=80;
        max_cham=detId.maxChamberId(); 
        if(istation==1 && iring==1)    max_cham=36;
        if(istation==1 && iring==2)    max_cham=36;
        if(istation==1 && iring==3)    max_cham=36;
        if(istation==2 && iring==1)    max_cham=18;
        if(istation==2 && iring==2)    max_cham=36;
        if(istation==3 && iring==1)    max_cham=18;
        if(istation==3 && iring==2)    max_cham=36;
        if(istation==4 && iring==1)    max_cham=18;
        
        for(int ichamber=detId.minChamberId(); ichamber<=max_cham; ichamber++){
          for(int ilayer=detId.minLayerId(); ilayer<=detId.maxLayerId(); ilayer++){
            //station 1 ring 3 has 64 strips per layer instead of 80 
            if(istation==1 && iring==3)   max_istrip=64;

            std::vector<CSCNoiseMatrix::Item> itemvector;
            itemvector.resize(max_istrip);
            id_layer = 100000*iendcap + 10000*istation + 1000*iring + 10*ichamber + ilayer;
            
            for(int istrip=0;istrip<max_istrip;istrip++){
              
              if(istation==1 && iring==1){
                itemvector[istrip].elem33 = 7.86675;
                itemvector[istrip].elem34 = 2.07075;
                itemvector[istrip].elem44 = 6.93875;
                itemvector[istrip].elem35 = 1.42525;
                itemvector[istrip].elem45 = 2.51025;
                itemvector[istrip].elem55 = 7.93975;
                itemvector[istrip].elem46 = 0.94725;
                itemvector[istrip].elem56 = 2.39275;
                itemvector[istrip].elem66 = 6.46475;
                itemvector[istrip].elem57 = 1.86325;
                itemvector[istrip].elem67 = 2.08025;
                itemvector[istrip].elem77 = 6.67975;
                cnmatrix->matrix[id_layer]=itemvector;
              }

              if(istation==1 && iring==2){
                itemvector[istrip].elem33 = 9.118;
                itemvector[istrip].elem34 = 3.884;
                itemvector[istrip].elem44 = 7.771;
                itemvector[istrip].elem35 = 1.8225;
                itemvector[istrip].elem45 = 3.7505;
                itemvector[istrip].elem55 = 8.597;
                itemvector[istrip].elem46 = 1.651;
                itemvector[istrip].elem56 = 2.5225;
                itemvector[istrip].elem66 = 6.583;
                itemvector[istrip].elem57 = 1.5055;
                itemvector[istrip].elem67 = 2.733;
                itemvector[istrip].elem77 = 6.988;
                cnmatrix->matrix[id_layer]=itemvector;
              }

              if(istation==1 && iring==3){
                itemvector[istrip].elem33 = 9.5245;
                itemvector[istrip].elem34 = 3.2415;
                itemvector[istrip].elem44 = 7.6265;
                itemvector[istrip].elem35 = 1.7225;
                itemvector[istrip].elem45 = 3.6075;
                itemvector[istrip].elem55 = 8.7275;
                itemvector[istrip].elem46 = 1.663;
                itemvector[istrip].elem56 = 2.592;
                itemvector[istrip].elem66 = 7.5685;
                itemvector[istrip].elem57 = 1.7905;
                itemvector[istrip].elem67 = 2.409;
                itemvector[istrip].elem77 = 7.1495;
                cnmatrix->matrix[id_layer]=itemvector;
              }

              if(istation==2 && iring==1){
                itemvector[istrip].elem33 = 9.06825;
                itemvector[istrip].elem34 = 3.32025;
                itemvector[istrip].elem44 = 7.52925;
                itemvector[istrip].elem35 = 3.66125;
                itemvector[istrip].elem45 = 3.39125;
                itemvector[istrip].elem55 = 9.97625;
                itemvector[istrip].elem46 = 1.32725;
                itemvector[istrip].elem56 = 3.99025;
                itemvector[istrip].elem66 = 8.10125;
                itemvector[istrip].elem57 = 2.56456;
                itemvector[istrip].elem67 = 2.96625;
                itemvector[istrip].elem77 = 7.30925;
                cnmatrix->matrix[id_layer]=itemvector;
              } 

              if(istation==2 &&iring==2){
                itemvector[istrip].elem33 = 16.7442;
                itemvector[istrip].elem34 = 7.96925;
                itemvector[istrip].elem44 = 14.1643;
                itemvector[istrip].elem35 = 4.67975;
                itemvector[istrip].elem45 = 8.44075;
                itemvector[istrip].elem55 = 17.2243;
                itemvector[istrip].elem46 = 3.68575;
                itemvector[istrip].elem56 = 7.48825;
                itemvector[istrip].elem66 = 14.4902;
                itemvector[istrip].elem57 = 4.4482;
                itemvector[istrip].elem67 = 6.47875;
                itemvector[istrip].elem77 = 14.6733;
                cnmatrix->matrix[id_layer]=itemvector;
              } 

              if(istation==3 && iring==1){
                itemvector[istrip].elem33 = 9.3495;
                itemvector[istrip].elem34 = 3.529;
                itemvector[istrip].elem44 = 7.8715;
                itemvector[istrip].elem35 = 3.8155;
                itemvector[istrip].elem45 = 3.858;
                itemvector[istrip].elem55 = 10.8205;
                itemvector[istrip].elem46 = 1.8585;
                itemvector[istrip].elem56 = 4.445;
                itemvector[istrip].elem66 = 8.0175;
                itemvector[istrip].elem57 = 3.29479;
                itemvector[istrip].elem67 = 3.625;
                itemvector[istrip].elem77 = 8.3895;
                cnmatrix->matrix[id_layer]=itemvector;
              } 
        
              if(istation==3 && iring==2){
                itemvector[istrip].elem33 = 13.6193;
                itemvector[istrip].elem34 = 5.91025;
                itemvector[istrip].elem44 = 11.3842;
                itemvector[istrip].elem35 = 3.31775;
                itemvector[istrip].elem45 = 5.69775;
                itemvector[istrip].elem55 = 11.6652;
                itemvector[istrip].elem46 = 2.46175;
                itemvector[istrip].elem56 = 4.48325;
                itemvector[istrip].elem66 = 9.95725;
                itemvector[istrip].elem57 = 2.10561;
                itemvector[istrip].elem67 = 4.04625;
                itemvector[istrip].elem77 = 9.51625;
                cnmatrix->matrix[id_layer]=itemvector;
              } 

              if(istation==4 && iring==1){
                itemvector[istrip].elem33 = 10.0;
                itemvector[istrip].elem34 = 4.0;
                itemvector[istrip].elem44 = 10.0;
                itemvector[istrip].elem35 = 3.0;
                itemvector[istrip].elem45 = 8.0;
                itemvector[istrip].elem55 = 10.0;
                itemvector[istrip].elem46 = 2.0;
                itemvector[istrip].elem56 = 5.0;
                itemvector[istrip].elem66 = 10.0;
                itemvector[istrip].elem57 = 3.0;
                itemvector[istrip].elem67 = 4.0;
                itemvector[istrip].elem77 = 10.0;
                cnmatrix->matrix[id_layer]=itemvector;
              }
            }
          }
        }
      }
    }
  }

  //overwrite fakes with old values from DB
  int istrip = 0;
  std::vector<CSCNoiseMatrix::Item> itemvector;
  itemvector.resize(80); 

  for(unsigned int mystrip=0; mystrip<old_nrlines-1; mystrip++){
    if(old_strips[mystrip]==0) istrip = 0;
    itemvector[istrip].elem33 = old_elem33[mystrip];
    itemvector[istrip].elem34 = old_elem34[mystrip]; 
    itemvector[istrip].elem44 = old_elem44[mystrip];
    itemvector[istrip].elem35 = old_elem35[mystrip];
    itemvector[istrip].elem45 = old_elem45[mystrip];
    itemvector[istrip].elem55 = old_elem55[mystrip];
    itemvector[istrip].elem46 = old_elem46[mystrip];
    itemvector[istrip].elem56 = old_elem56[mystrip];
    itemvector[istrip].elem66 = old_elem66[mystrip];
    itemvector[istrip].elem57 = old_elem57[mystrip];
    itemvector[istrip].elem67 = old_elem67[mystrip];
    itemvector[istrip].elem77 = old_elem77[mystrip];
    cnmatrix->matrix[old_cham_id[mystrip]]=itemvector;
    istrip++;
  }  
  
  
  itemvector.resize(64);
  for(unsigned int mystrip=0; mystrip<old_nrlines-1; mystrip++){
    if(old_strips[mystrip]==0) istrip = 0;
    if(old_cham_id[mystrip] >= 113000 && old_cham_id[mystrip] <= 113999){
      itemvector[istrip].elem33 = old_elem33[mystrip];
      itemvector[istrip].elem34 = old_elem34[mystrip]; 
      itemvector[istrip].elem44 = old_elem44[mystrip];
      itemvector[istrip].elem35 = old_elem35[mystrip];
      itemvector[istrip].elem45 = old_elem45[mystrip];
      itemvector[istrip].elem55 = old_elem55[mystrip];
      itemvector[istrip].elem46 = old_elem46[mystrip];
      itemvector[istrip].elem56 = old_elem56[mystrip];
      itemvector[istrip].elem66 = old_elem66[mystrip];
      itemvector[istrip].elem57 = old_elem57[mystrip];
      itemvector[istrip].elem67 = old_elem67[mystrip];
      itemvector[istrip].elem77 = old_elem77[mystrip];
      cnmatrix->matrix[old_cham_id[mystrip]]=itemvector;
      istrip++;
    }
  } 
  
  itemvector.resize(64);
  for(unsigned int mystrip=0; mystrip<old_nrlines-1; mystrip++){
    if(old_strips[mystrip]==0) istrip = 0;
    if(old_cham_id[mystrip] >= 213000 && old_cham_id[mystrip] <= 213999){
      itemvector[istrip].elem33 = old_elem33[mystrip];
      itemvector[istrip].elem34 = old_elem34[mystrip]; 
      itemvector[istrip].elem44 = old_elem44[mystrip];
      itemvector[istrip].elem35 = old_elem35[mystrip];
      itemvector[istrip].elem45 = old_elem45[mystrip];
      itemvector[istrip].elem55 = old_elem55[mystrip];
      itemvector[istrip].elem46 = old_elem46[mystrip];
      itemvector[istrip].elem56 = old_elem56[mystrip];
      itemvector[istrip].elem66 = old_elem66[mystrip];
      itemvector[istrip].elem57 = old_elem57[mystrip];
      itemvector[istrip].elem67 = old_elem67[mystrip];
      itemvector[istrip].elem77 = old_elem77[mystrip];
      cnmatrix->matrix[old_cham_id[mystrip]]=itemvector;
      istrip++;
    }
  }   
  
  //overwrite old values with ones from new runs
  itemvector.resize(80);
  for(unsigned int mystrip=0; mystrip<new_nrlines-1; mystrip++){
    if(new_strips[mystrip]==0) istrip = 0;
    itemvector[istrip].elem33 = new_elem33[mystrip];
    itemvector[istrip].elem34 = new_elem34[mystrip]; 
    itemvector[istrip].elem44 = new_elem44[mystrip];
    itemvector[istrip].elem35 = new_elem35[mystrip];
    itemvector[istrip].elem45 = new_elem45[mystrip];
    itemvector[istrip].elem55 = new_elem55[mystrip];
    itemvector[istrip].elem46 = new_elem46[mystrip];
    itemvector[istrip].elem56 = new_elem56[mystrip];
    itemvector[istrip].elem66 = new_elem66[mystrip];
    itemvector[istrip].elem57 = new_elem57[mystrip];
    itemvector[istrip].elem67 = new_elem67[mystrip];
    itemvector[istrip].elem77 = new_elem77[mystrip];
    cnmatrix->matrix[new_cham_id[mystrip]]=itemvector;
    istrip++;
  }
    
  itemvector.resize(64);
  for(unsigned int mystrip=0; mystrip<new_nrlines-1; mystrip++){
    if(new_strips[mystrip]==0) istrip = 0;
    if(new_cham_id[mystrip] >= 113000 && new_cham_id[mystrip] <= 113999){
      itemvector[istrip].elem33 = new_elem33[mystrip];
      itemvector[istrip].elem34 = new_elem34[mystrip]; 
      itemvector[istrip].elem44 = new_elem44[mystrip];
      itemvector[istrip].elem35 = new_elem35[mystrip];
      itemvector[istrip].elem45 = new_elem45[mystrip];
      itemvector[istrip].elem55 = new_elem55[mystrip];
      itemvector[istrip].elem46 = new_elem46[mystrip];
      itemvector[istrip].elem56 = new_elem56[mystrip];
      itemvector[istrip].elem66 = new_elem66[mystrip];
      itemvector[istrip].elem57 = new_elem57[mystrip];
      itemvector[istrip].elem67 = new_elem67[mystrip];
      itemvector[istrip].elem77 = new_elem77[mystrip];
      cnmatrix->matrix[new_cham_id[mystrip]]=itemvector;
      istrip++;
    }
  } 
  
  itemvector.resize(64);
  for(unsigned int mystrip=0; mystrip<new_nrlines-1; mystrip++){
    if(new_strips[mystrip]==0) istrip = 0;
    if(new_cham_id[mystrip] >= 213000 && new_cham_id[mystrip] <= 213999){
      itemvector[istrip].elem33 = new_elem33[mystrip];
      itemvector[istrip].elem34 = new_elem34[mystrip]; 
      itemvector[istrip].elem44 = new_elem44[mystrip];
      itemvector[istrip].elem35 = new_elem35[mystrip];
      itemvector[istrip].elem45 = new_elem45[mystrip];
      itemvector[istrip].elem55 = new_elem55[mystrip];
      itemvector[istrip].elem46 = new_elem46[mystrip];
      itemvector[istrip].elem56 = new_elem56[mystrip];
      itemvector[istrip].elem66 = new_elem66[mystrip];
      itemvector[istrip].elem57 = new_elem57[mystrip];
      itemvector[istrip].elem67 = new_elem67[mystrip];
      itemvector[istrip].elem77 = new_elem77[mystrip];
      cnmatrix->matrix[new_cham_id[mystrip]]=itemvector;
      istrip++;
    }
  } 
  return cnmatrix;
  
}

CSCNoiseMatrixConditions::ReturnType CSCNoiseMatrixConditions::produceNoiseMatrix

(

const CSCNoiseMatrixRcd &

iRecord

)

Definition at line 434 of file CSCNoiseMatrixConditions.cc.

References cnMatrix.

Referenced by CSCNoiseMatrixConditions().

{
    // Added by Zhen, need a new object so to not be deleted at exit
    CSCNoiseMatrix* mydata=new CSCNoiseMatrix( *cnMatrix );
    
    return mydata;

}

void CSCNoiseMatrixConditions::setIntervalFor	(	const edm::eventsetup::EventSetupRecordKey &	,
		const edm::IOVSyncValue &	,
		edm::ValidityInterval &	oValidity
	)			[private, virtual]

Implements edm::EventSetupRecordIntervalFinder.

Definition at line 443 of file CSCNoiseMatrixConditions.cc.

References edm::IOVSyncValue::beginOfTime(), and edm::IOVSyncValue::endOfTime().

 {
 oValidity = edm::ValidityInterval(edm::IOVSyncValue::beginOfTime(),edm::IOVSyncValue::endOfTime());
 
 }

---

Member Data Documentation

CSCNoiseMatrix* CSCNoiseMatrixConditions::cnMatrix [private]

Definition at line 34 of file CSCNoiseMatrixConditions.h.

Referenced by CSCNoiseMatrixConditions(), produceNoiseMatrix(), and ~CSCNoiseMatrixConditions().

---

The documentation for this class was generated from the following files:

• CalibMuon/CSCCalibration/interface/CSCNoiseMatrixConditions.h
• CalibMuon/CSCCalibration/src/CSCNoiseMatrixConditions.cc

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