#include <EcalGeomPhiSymHelper.h>

Public Member Functions
void	setup (const CaloGeometry geometry, const EcalChannelStatus chstatus, int statusThreshold)

Public Attributes
double	cellArea_ [kEndcWedgesX][kEndcWedgesY]

double	cellPhi_ [kEndcWedgesX][kEndcWedgesY]

GlobalPoint	cellPos_ [kEndcWedgesX][kEndcWedgesY]

int	endcapRing_ [kEndcWedgesX][kEndcWedgesY]

double	etaBoundary_ [kEndcEtaRings+1]

bool	goodCell_barl [kBarlRings][kBarlWedges][kSides]

bool	goodCell_endc [kEndcWedgesX][kEndcWedgesX][kSides]

double	meanCellArea_ [kEndcEtaRings]

int	nBads_barl [kBarlRings]

int	nBads_endc [kEndcEtaRings]

int	nRing_ [kEndcEtaRings]

double	phi_endc_ [kMaxEndciPhi][kEndcEtaRings]

Detailed Description

Definition at line 19 of file EcalGeomPhiSymHelper.h.

Member Function Documentation

◆ setup()

void EcalGeomPhiSymHelper::setup	(	const CaloGeometry *	geometry,
		const EcalChannelStatus *	chstatus,
		int	statusThreshold
	)

Definition at line 18 of file EcalGeomPhiSymHelper.cc.

References funct::abs(), cellArea_, cellPhi_, cellPos_, gather_cfg::cout, DetId::Ecal, EcalBarrel, EcalEndcap, endcapRing_, PVValHelper::eta, PV3DBase< T, PVType, FrameType >::eta(), etaBoundary_, nano_mu_digi_cff::float, CaloSubdetectorGeometry::getGeometry(), goodCell_barl, goodCell_endc, EEDetId::hashedIndex(), mps_fire::i, hcalRecHitTable_cff::ieta, EBDetId::ieta(), EBDetId::iphi(), EEDetId::ix(), EEDetId::iy(), kBarlRings, kEndcEtaRings, kEndcWedgesX, kEndcWedgesY, kMaxEndciPhi, kSides, meanCellArea_, nBads_barl, nBads_endc, nRing_, MillePedeFileConverter_cfg::out, phi, phi_endc_, phimin, relativeConstraints::ring, Validation_hcalonly_cfi::sign, EBDetId::zside(), and EEDetId::zside().

Referenced by o2olib.O2OTool::execute().

                                                                                                                     {
   for (int ieta = 0; ieta < kBarlRings; ieta++)
     nBads_barl[ieta] = 0;
   for (int ring = 0; ring < kEndcEtaRings; ring++)
     nBads_endc[ring] = 0;
 
   for (int ix = 0; ix < kEndcWedgesX; ix++) {
     for (int iy = 0; iy < kEndcWedgesY; iy++) {
       cellPhi_[ix][iy] = 0.;
       cellArea_[ix][iy] = 0.;
       endcapRing_[ix][iy] = -1;
     }
   }
 
   // loop over all barrel crystals
   const std::vector<DetId>& barrelCells = geometry->getValidDetIds(DetId::Ecal, EcalBarrel);
   std::vector<DetId>::const_iterator barrelIt;
 
   for (barrelIt = barrelCells.begin(); barrelIt != barrelCells.end(); barrelIt++) {
     EBDetId eb(*barrelIt);
 
     int sign = eb.zside() > 0 ? 1 : 0;
 
     int chs = (*chStatus)[*barrelIt].getStatusCode() & 0x001F;
     if (chs <= statusThresold)
       goodCell_barl[abs(eb.ieta()) - 1][eb.iphi() - 1][sign] = true;
 
     if (!goodCell_barl[abs(eb.ieta()) - 1][eb.iphi() - 1][sign])
       nBads_barl[abs(eb.ieta()) - 1]++;
   }
 
   const CaloSubdetectorGeometry* endcapGeometry = geometry->getSubdetectorGeometry(DetId::Ecal, EcalEndcap);
 
   for (int ix = 0; ix < kEndcWedgesX; ix++) {
     for (int iy = 0; iy < kEndcWedgesY; iy++) {
       cellPos_[ix][iy] = GlobalPoint(0., 0., 0.);
       cellPhi_[ix][iy] = 0.;
       cellArea_[ix][iy] = 0.;
       endcapRing_[ix][iy] = -1;
     }
   }
 
   const std::vector<DetId>& endcapCells = geometry->getValidDetIds(DetId::Ecal, EcalEndcap);
   std::vector<DetId>::const_iterator endcapIt;
   for (endcapIt = endcapCells.begin(); endcapIt != endcapCells.end(); endcapIt++) {
     auto cellGeometry = endcapGeometry->getGeometry(*endcapIt);
     EEDetId ee(*endcapIt);
     int ix = ee.ix() - 1;
     int iy = ee.iy() - 1;
 
     int sign = ee.zside() > 0 ? 1 : 0;
 
     // store all crystal positions
     cellPos_[ix][iy] = cellGeometry->getPosition();
     cellPhi_[ix][iy] = cellGeometry->getPosition().phi();
 
     // calculate and store eta-phi area for each crystal front face Shoelace formuls
     const CaloCellGeometry::CornersVec& cellCorners(cellGeometry->getCorners());
     cellArea_[ix][iy] = 0.;
 
     for (int i = 0; i < 4; i++) {
       int iplus1 = i == 3 ? 0 : i + 1;
       cellArea_[ix][iy] += cellCorners[i].eta() * float(cellCorners[iplus1].phi()) -
                            cellCorners[iplus1].eta() * float(cellCorners[i].phi());
     }
 
     cellArea_[ix][iy] = fabs(cellArea_[ix][iy]) / 2.;
     /*
     const double deltaPhi =
       (dynamic_cast<const EcalEndcapGeometry*>(endcapGeometry))->deltaPhi(ee);
 
     const double deltaEta =
       (dynamic_cast<const EcalEndcapGeometry*>(endcapGeometry))->deltaEta(ee) ;
 
     cellArea_[ix][iy] = deltaEta*deltaPhi;
 */
     int chs = (*chStatus)[*endcapIt].getStatusCode() & 0x001F;
     if (chs <= statusThresold)
       goodCell_endc[ix][iy][sign] = true;
   }
 
   // get eta boundaries for each endcap ring
   etaBoundary_[0] = 1.479;
   etaBoundary_[39] = 3.;  //It was 4. !!!
   for (int ring = 1; ring < kEndcEtaRings; ring++) {
     double eta_ring_minus1 = cellPos_[ring - 1][50].eta();
     double eta_ring = cellPos_[ring][50].eta();
     etaBoundary_[ring] = (eta_ring + eta_ring_minus1) / 2.;
     std::cout << "Eta ring " << ring << " : " << eta_ring << std::endl;
   }
 
   // determine to which ring each endcap crystal belongs,
   // the number of crystals in each ring,
   // and the mean eta-phi area of the crystals in each ring
 
   for (int ring = 0; ring < kEndcEtaRings; ring++) {
     nRing_[ring] = 0;
     meanCellArea_[ring] = 0.;
     for (int ix = 0; ix < kEndcWedgesX; ix++) {
       for (int iy = 0; iy < kEndcWedgesY; iy++) {
         if (fabs(cellPos_[ix][iy].eta()) > etaBoundary_[ring] &&
             fabs(cellPos_[ix][iy].eta()) < etaBoundary_[ring + 1]) {
           meanCellArea_[ring] += cellArea_[ix][iy];
           endcapRing_[ix][iy] = ring;
           nRing_[ring]++;
 
           for (int sign = 0; sign < kSides; sign++) {
             if (!goodCell_endc[ix][iy][sign])
               nBads_endc[ring]++;
           }  //sign
 
         }  //if
       }    //ix
     }      //iy
 
     meanCellArea_[ring] /= nRing_[ring];
 
   }  //ring
 
   // fill phi_endc[ip][ring] vector
   for (int ring = 0; ring < kEndcEtaRings; ring++) {
     for (int i = 0; i < kMaxEndciPhi; i++)
       phi_endc_[i][ring] = 0.;
 
     float philast = -999.;
     for (int ip = 0; ip < nRing_[ring]; ip++) {
       float phimin = 999.;
       for (int ix = 0; ix < kEndcWedgesX; ix++) {
         for (int iy = 0; iy < kEndcWedgesY; iy++) {
           if (endcapRing_[ix][iy] == ring) {
             if (cellPhi_[ix][iy] < phimin && cellPhi_[ix][iy] > philast) {
               phimin = cellPhi_[ix][iy];
             }  //if edges
           }    //if ring
         }      //iy
       }        //ix
       phi_endc_[ip][ring] = phimin;
       philast = phimin;
     }  //ip
 
   }  //ring
 
   // Print out detid->ring association
   std::fstream eeringsf("endcaprings.dat", std::ios::out);
   for (endcapIt = endcapCells.begin(); endcapIt != endcapCells.end(); endcapIt++) {
     EEDetId eedet(*endcapIt);
     eeringsf << eedet.hashedIndex() << " " << endcapRing_[eedet.ix() - 1][eedet.iy() - 1] << " "
              << cellPhi_[eedet.ix() - 1][eedet.iy() - 1] << " "
              << cellArea_[eedet.ix() - 1][eedet.iy() - 1] / meanCellArea_[endcapRing_[eedet.ix() - 1][eedet.iy() - 1]]
              << std::endl;
   }
 }

Member Data Documentation

◆ cellArea_

double EcalGeomPhiSymHelper::cellArea_[kEndcWedgesX][kEndcWedgesY]

Definition at line 25 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ cellPhi_

double EcalGeomPhiSymHelper::cellPhi_[kEndcWedgesX][kEndcWedgesY]

Definition at line 24 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ cellPos_

GlobalPoint EcalGeomPhiSymHelper::cellPos_[kEndcWedgesX][kEndcWedgesY]

Definition at line 23 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ endcapRing_

int EcalGeomPhiSymHelper::endcapRing_[kEndcWedgesX][kEndcWedgesY]

Definition at line 29 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ etaBoundary_

double EcalGeomPhiSymHelper::etaBoundary_[kEndcEtaRings+1]

Definition at line 28 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ goodCell_barl

bool EcalGeomPhiSymHelper::goodCell_barl[kBarlRings][kBarlWedges][kSides]

Definition at line 33 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ goodCell_endc

bool EcalGeomPhiSymHelper::goodCell_endc[kEndcWedgesX][kEndcWedgesX][kSides]

Definition at line 34 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ meanCellArea_

double EcalGeomPhiSymHelper::meanCellArea_[kEndcEtaRings]

Definition at line 27 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ nBads_barl

int EcalGeomPhiSymHelper::nBads_barl[kBarlRings]

Definition at line 35 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ nBads_endc

int EcalGeomPhiSymHelper::nBads_endc[kEndcEtaRings]

Definition at line 36 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ nRing_

int EcalGeomPhiSymHelper::nRing_[kEndcEtaRings]

Definition at line 30 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

◆ phi_endc_

double EcalGeomPhiSymHelper::phi_endc_[kMaxEndciPhi][kEndcEtaRings]

Definition at line 26 of file EcalGeomPhiSymHelper.h.

Referenced by setup().

Public Member Functions

Public Attributes

Detailed Description

Member Function Documentation

◆ setup()

Member Data Documentation

◆ cellArea_

◆ cellPhi_

◆ cellPos_

◆ endcapRing_

◆ etaBoundary_

◆ goodCell_barl

◆ goodCell_endc

◆ meanCellArea_

◆ nBads_barl

◆ nBads_endc

◆ nRing_

◆ phi_endc_