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HcalNumberingFromDDD Class Reference

#include <HcalNumberingFromDDD.h>

List of all members.

Classes

struct  HcalID

Public Member Functions

HcalCellType::HcalCell cell (int det, int zside, int depth, int etaR, int iphi, bool corr=true) const
std::vector< double > getEtaTable () const
std::vector< HcalCellTypeHcalCellTypes () const
std::vector< HcalCellTypeHcalCellTypes (HcalSubdetector) const
 HcalNumberingFromDDD (std::string &name, const DDCompactView &cpv)
unsigned int numberOfCells (HcalSubdetector) const
void printTile ()
HcalID unitID (double eta, double phi, int depth=1, int lay=-1) const
HcalID unitID (int det, int zside, int depth, int etaR, int phi, int lay=-1) const
HcalID unitID (int det, double etaR, double phi, int depth, int lay=-1) const
HcalID unitID (int det, const CLHEP::Hep3Vector &pos, int depth, int lay=-1) const
 ~HcalNumberingFromDDD ()

Private Member Functions

double deltaEta (int det, int eta, int depth) const
unsigned find (int element, std::vector< int > &array) const
std::vector< double > getDDDArray (const std::string &, const DDsvalues_type &, int &) const
double getEta (double r, double z) const
double getEta (int det, int etaR, int zside, int depth=1) const
double getEtaHO (double &etaR, double &x, double &y, double &z) const
double getGain (HcalSubdetector subdet, int depth) const
int getShift (HcalSubdetector subdet, int depth) const
void initialize (std::string &name, const DDCompactView &cpv)
void loadGeometry (const DDFilteredView &)
void loadSpecPars (const DDFilteredView &)
void tileHB (int eta, int depth)
void tileHE (int eta, int depth)
int unitPhi (int det, int etaR) const

Private Attributes

std::vector< int > depth1
std::vector< int > depth2
std::vector< int > depth3
double dlShort
std::vector< double > drHB
std::vector< double > dx1e
std::vector< double > dx2e
std::vector< double > dyxb
std::vector< double > dyxe
std::vector< double > dzHE
double dzVcal
std::vector< double > dzxb
double etaHO [4]
std::vector< int > etaMax
std::vector< int > etaMin
std::vector< double > etaTable
std::vector< double > gainHB
std::vector< double > gainHE
std::vector< double > gainHF
std::vector< int > layb
std::vector< int > laye
int nDepth
int nEta
int nmodHB
int nmodHE
std::vector< int > nOff
int nPhi
int nR
int nzHB
int nzHE
std::vector< double > phibin
std::vector< double > phioff
std::vector< double > rHB
std::vector< double > rhoxb
std::vector< double > rhoxe
double rminHO
std::vector< double > rTable
std::vector< int > shiftHB
std::vector< int > shiftHE
std::vector< int > shiftHF
std::vector< double > zHE
std::vector< double > zho
double zVcal
std::vector< double > zxb
std::vector< double > zxe

Detailed Description

Definition at line 20 of file HcalNumberingFromDDD.h.


Constructor & Destructor Documentation

HcalNumberingFromDDD::HcalNumberingFromDDD ( std::string &  name,
const DDCompactView cpv 
)

Definition at line 21 of file HcalNumberingFromDDD.cc.

References initialize().

                                                                      {
  edm::LogInfo("HCalGeom") << "Creating HcalNumberingFromDDD";
  initialize(name, cpv);
}
HcalNumberingFromDDD::~HcalNumberingFromDDD ( )

Definition at line 27 of file HcalNumberingFromDDD.cc.

                                            {
  edm::LogInfo("HCalGeom") << "Deleting HcalNumberingFromDDD";
}

Member Function Documentation

HcalCellType::HcalCell HcalNumberingFromDDD::cell ( int  det,
int  zside,
int  depth,
int  etaR,
int  iphi,
bool  corr = true 
) const

Definition at line 210 of file HcalNumberingFromDDD.cc.

References deltaEta(), depth1, depth2, depth3, HcalCellType::HcalCell::deta, HcalCellType::HcalCell::dphi, drHB, HcalCellType::HcalCell::drz, dzHE, HcalCellType::HcalCell::eta, eta(), etaMax, etaMin, HcalCellType::HcalCell::flagrz, getEta(), HcalBarrel, HcalEndcap, HcalForward, HcalOuter, LogDebug, nEta, nOff, nR, convertSQLiteXML::ok, HcalCellType::HcalCell::ok, phi, HcalCellType::HcalCell::phi, phibin, phioff, rHB, rTable, HcalCellType::HcalCell::rz, tmp, and zHE.

Referenced by HcalCellTypes(), and HcalTestAnalysis::update().

                                                                             {

  int idet = det;
  double etaMn = etaMin[0];
  double etaMx = etaMax[0];
  if (idet==static_cast<int>(HcalEndcap)) {
    etaMn = etaMin[1]; etaMx = etaMax[1];
  } else if (idet==static_cast<int>(HcalForward)) {
    etaMn = etaMin[2]; etaMx = etaMax[2];
  }
  if (corr) {
    if (etaR >= nOff[2] && depth == 3 && idet == static_cast<int>(HcalBarrel))
      idet = static_cast<int>(HcalEndcap);
  }
  double eta = 0, deta = 0, phi = 0, dphi = 0, rz = 0, drz = 0;
  bool   ok = false, flagrz = true;
  if ((idet==static_cast<int>(HcalBarrel)||idet==static_cast<int>(HcalEndcap)||
       idet==static_cast<int>(HcalOuter)||idet==static_cast<int>(HcalForward))
      && etaR >=etaMn && etaR <= etaMx)
    ok = true;
  if (idet == static_cast<int>(HcalEndcap)) {
    if      (depth < 3 && etaR <= etaMin[1]) ok = false;
    else if (depth > 2 && etaR == nOff[1])   ok = false;
  }
  if (ok) {
    int maxlay = (int)(rHB.size());
    if (idet == static_cast<int>(HcalEndcap)) maxlay = (int)(zHE.size());
    eta  = getEta(idet, etaR, zside, depth);
    deta = deltaEta(idet, etaR, depth);
    double fibin, fioff;
    if      (idet == static_cast<int>(HcalBarrel)||
             idet == static_cast<int>(HcalOuter)) {
      fioff = phioff[0];
      fibin = phibin[etaR-1];
    } else if (idet == static_cast<int>(HcalEndcap)) {
      fioff = phioff[1];
      fibin = phibin[etaR-1];
    } else {
      fioff = phioff[2];
      fibin = phibin[nEta+etaR-etaMin[2]-1];
      if  (etaR > etaMax[2]-2 ) fioff += 0.5*fibin; 
    }
    phi  = fioff + (iphi - 0.5)*fibin;
    dphi = 0.5*fibin;
    if (idet == static_cast<int>(HcalForward)) {
      int ir = nR + etaMin[2] - etaR - 1;
      if (ir > 0 && ir < nR) {
        rz     = 0.5*(rTable[ir]+rTable[ir-1]);
        drz    = 0.5*(rTable[ir]-rTable[ir-1]);
      } else {
        ok     = false;
#ifdef DebugLog
        LogDebug("HCalGeom") << "HcalNumberingFromDDD: wrong eta " << etaR 
                             << " ("  << ir << "/" << nR << ") Detector "
                             << idet;
#endif
      }
      if (depth != 1 && depth != 2) {
        ok     = false;
#ifdef DebugLog
        LogDebug("HCalGeom") << "HcalNumberingFromDDD: wrong depth " << depth
                             << " in Detector " << idet;
#endif
      }
    } else if (etaR <= nEta) {
      int depth0 = depth1[etaR-1];
      int kphi   = iphi + int((phioff[3]+0.1)/fibin);
      kphi       = (kphi-1)%4 + 1;
      if (etaR == nOff[0] && (kphi == 2 || kphi == 3)) depth0--;
      int laymin, laymax;
      if (depth == 1) {
        laymin = 1;
        if (idet==static_cast<int>(HcalEndcap)) laymin = 2;
        laymax = depth0;
        if (nOff.size() > 12) {
          if (etaR == nOff[6]) {
            laymin = nOff[7];
            laymax = nOff[8];
          } else if (etaR == nOff[9]) {
            laymin = nOff[10];
          }
        }
      } else if (depth == 2) {
        laymin = depth0+1;
        laymax = depth2[etaR-1];
        if (etaR==etaMax[0] && idet==static_cast<int>(HcalBarrel) &&
            nOff.size()>3) laymax = nOff[3];
        if (nOff.size() > 12) {
          if (etaR == nOff[9]) laymax = nOff[11];
          if (etaR == nOff[6]) laymax = nOff[12];
        }
      } else  if (depth == 3) {
        laymin = depth2[etaR-1]+1;
        laymax = depth3[etaR-1];
        if (etaR<=etaMin[1] && idet==static_cast<int>(HcalEndcap)) {
          if (nOff.size() > 4) laymin = nOff[4];
          if (nOff.size() > 5) laymax = nOff[5];
        }
      } else {
        laymin = depth3[etaR-1]+1;
        laymax = maxlay;
      }
      if (idet == static_cast<int>(HcalOuter) && nOff.size() > 13) {
        if (etaR > nOff[13] && laymin <= laymax) laymin = laymax;
      }
      double d1=0, d2=0;
      if (laymin <= maxlay && laymax <= maxlay && laymin <= laymax) {
        if (idet == static_cast<int>(HcalEndcap)) {
          flagrz = false;
          if (depth == 1 || laymin <= 1) d1 = zHE[laymin-1] - dzHE[laymin-1];
          else                           d1 = zHE[laymin-2] + dzHE[laymin-2];
          d2     = zHE[laymax-1] + dzHE[laymax-1];
        } else {
          if (idet == static_cast<int>(HcalOuter) ||
              depth == 1 || laymin <=1) d1 = rHB[laymin-1] - drHB[laymin-1];
          else                          d1 = rHB[laymin-2] + drHB[laymin-1];
          d2     = rHB[laymax-1] + drHB[laymax-1];
        }
        rz     = 0.5*(d2+d1);
        drz    = 0.5*(d2-d1);
      } else {
        ok = false;
#ifdef DebugLog
        LogDebug("HCalGeom") << "HcalNumberingFromDDD: wrong depth " << depth
                             << " (Layer minimum " << laymin << " maximum " 
                             << laymax << " maxLay " << maxlay << ")";
#endif
      }
    } else {
      ok = false;
#ifdef DebugLog
      LogDebug("HCalGeom") << "HcalNumberingFromDDD: wrong eta " << etaR
                           << "/" << nEta << " Detector " << idet;
#endif
    }
  } else {
    ok = false;
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: wrong eta " << etaR 
                         << " det " << idet;
#endif
  }
  HcalCellType::HcalCell tmp(ok,eta,deta,phi,dphi,rz,drz,flagrz);

#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: det/side/depth/etaR/phi "
                       << det  << "/" << zside << "/" << depth << "/" << etaR
                       << "/" << iphi << " Cell Flag " << tmp.ok << " " 
                       << tmp.eta << " " << tmp.deta << " phi " << tmp.phi 
                       << " " << tmp.dphi << " r(z) " << tmp.rz  << " " 
                       << tmp.drz << " " << tmp.flagrz;
#endif
  return tmp;
}
double HcalNumberingFromDDD::deltaEta ( int  det,
int  eta,
int  depth 
) const [private]

Definition at line 571 of file HcalNumberingFromDDD.cc.

References dlShort, etaHO, etaMin, etaTable, getEta(), HcalForward, HcalOuter, LogDebug, nEta, nOff, nR, rTable, tmp, z, and zVcal.

Referenced by cell().

                                                                        {

  double tmp = 0;
  if (det == static_cast<int>(HcalForward)) {
    int ir = nR + etaMin[2] - etaR - 1;
    if (ir > 0 && ir < nR) {
      double z = zVcal;
      if (depth != 1) z += dlShort;
      tmp = 0.5*(getEta(rTable[ir-1],z)-getEta(rTable[ir],z));
    }
  } else {
    if (etaR > 0 && etaR < nEta) {
      if (etaR == nOff[1]-1 && depth > 2) {
        tmp = 0.5*(etaTable[etaR+1]-etaTable[etaR-1]);
      } else if (det == static_cast<int>(HcalOuter) && nOff.size() > 13) {
        if (etaR == nOff[13]) {
          tmp = 0.5*(etaHO[0]-etaTable[etaR-1]);
        } else if (etaR == nOff[13]+1) {
          tmp = 0.5*(etaTable[etaR]-etaHO[1]);
        } else if (etaR == nOff[14]) {
          tmp = 0.5*(etaHO[2]-etaTable[etaR-1]);
        } else if (etaR == nOff[14]+1) {
          tmp = 0.5*(etaTable[etaR]-etaHO[3]);
        } else {
          tmp = 0.5*(etaTable[etaR]-etaTable[etaR-1]);
        }
      } else {
        tmp = 0.5*(etaTable[etaR]-etaTable[etaR-1]);
      }
    } 
  }
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::deltaEta " << etaR << " " 
                       << depth << " ==> " << tmp;
#endif
  return tmp;
}
unsigned int HcalNumberingFromDDD::find ( int  element,
std::vector< int > &  array 
) const [private]

Definition at line 1193 of file HcalNumberingFromDDD.cc.

References i.

Referenced by loadGeometry().

                                                                     {

  unsigned int id = array.size();
  for (unsigned int i = 0; i < array.size(); i++) {
    if (element == array[i]) {
      id = i;
      break;
    }
  }
  return id;
}
std::vector< double > HcalNumberingFromDDD::getDDDArray ( const std::string &  str,
const DDsvalues_type sv,
int &  nmin 
) const [private]

Definition at line 1121 of file HcalNumberingFromDDD.cc.

References DDfetch(), DDValue::doubles(), Exception, LogDebug, and relativeConstraints::value.

Referenced by loadSpecPars().

                                                                        {
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD:getDDDArray called for " 
                       << str << " with nMin "  << nmin;
#endif
  DDValue value(str);
  if (DDfetch(&sv,value)) {
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: " << value;
#endif
    const std::vector<double> & fvec = value.doubles();
    int nval = fvec.size();
    if (nmin > 0) {
      if (nval < nmin) {
        edm::LogError("HCalGeom") << "HcalNumberingFromDDD : # of " << str 
                                  << " bins " << nval << " < " << nmin 
                                  << " ==> illegal";
        throw cms::Exception("DDException") << "HcalNumberingFromDDD: cannot get array " << str;
      }
    } else {
      if (nval < 2) {
        edm::LogError("HCalGeom") << "HcalNumberingFromDDD : # of " << str
                                  << " bins " << nval << " < 2 ==> illegal"
                                  << " (nmin=" << nmin << ")";
        throw cms::Exception("DDException") << "HcalNumberingFromDDD: cannot get array " << str;
      }
    }
    nmin = nval;
    return fvec;
  } else {
    edm::LogError("HCalGeom") << "HcalNumberingFromDDD: cannot get array "
                              << str;
    throw cms::Exception("DDException") << "HcalNumberingFromDDD: cannot get array " << str;
  }
}
double HcalNumberingFromDDD::getEta ( int  det,
int  etaR,
int  zside,
int  depth = 1 
) const [private]

Definition at line 520 of file HcalNumberingFromDDD.cc.

References dlShort, etaHO, etaMin, etaTable, HcalForward, HcalOuter, LogDebug, nEta, nOff, nR, rTable, tmp, z, and zVcal.

Referenced by cell(), deltaEta(), and loadGeometry().

                                                     {

  double tmp = 0;
  if (det == static_cast<int>(HcalForward)) {
    int ir = nR + etaMin[2] - etaR - 1;
    if (ir > 0 && ir < nR) {
      double z = zVcal;
      if (depth != 1) z += dlShort;
      tmp = 0.5*(getEta(rTable[ir-1],z)+getEta(rTable[ir],z));
    }
  } else {
    if (etaR > 0 && etaR < nEta) {
      if (etaR == nOff[1]-1 && depth > 2) {
        tmp = 0.5*(etaTable[etaR+1]+etaTable[etaR-1]);
      } else if (det == static_cast<int>(HcalOuter) && nOff.size() > 13) {
        if (etaR == nOff[13]) {
          tmp = 0.5*(etaHO[0]+etaTable[etaR-1]);
        } else if (etaR == nOff[13]+1) {
          tmp = 0.5*(etaTable[etaR]+etaHO[1]);
        } else if (etaR == nOff[14]) {
          tmp = 0.5*(etaHO[2]+etaTable[etaR-1]);
        } else if (etaR == nOff[14]+1) {
          tmp = 0.5*(etaTable[etaR]+etaHO[3]);
        } else {
          tmp = 0.5*(etaTable[etaR]+etaTable[etaR-1]);
        }
      } else {
        tmp = 0.5*(etaTable[etaR]+etaTable[etaR-1]);
      }
    }
  } 
  if (zside == 0) tmp = -tmp;
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::getEta " << etaR << " " 
                       << zside << " " << depth << " ==> " << tmp;
#endif
  return tmp;
}
double HcalNumberingFromDDD::getEta ( double  r,
double  z 
) const [private]

Definition at line 560 of file HcalNumberingFromDDD.cc.

References create_public_lumi_plots::log, LogDebug, funct::tan(), and tmp.

                                                            {

  double tmp = 0;
  if (z != 0) tmp = -log(tan(0.5*atan(r/z)));
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::getEta " << r << " " << z 
                       << " ==> " << tmp;
#endif
  return tmp;
}
double HcalNumberingFromDDD::getEtaHO ( double &  etaR,
double &  x,
double &  y,
double &  z 
) const [private]

Definition at line 1311 of file HcalNumberingFromDDD.cc.

References eta(), etaTable, alignCSCRings::r, rminHO, mathSSE::sqrt(), and zho.

Referenced by unitID().

                                                       {

  double eta  = fabs(etaR);
  double r    = std::sqrt(x*x+y*y);
  if (r > rminHO) {
    double zz = fabs(z);
    if (zz > zho[3]) {
      if (eta <= etaTable[10]) eta = etaTable[10]+0.001;
    } else if (zz > zho[1]) {
      if (eta <=  etaTable[4]) eta = etaTable[4]+0.001;
    }
  }
  eta = (z >= 0. ? eta : -eta);
  //  std::cout << "R " << r << " Z " << z << " eta " << etaR << ":" << eta <<"\n";
  //  if (eta != etaR) std::cout << "**** Check *****\n";
  return eta;
}
std::vector< double > HcalNumberingFromDDD::getEtaTable ( ) const

Definition at line 367 of file HcalNumberingFromDDD.cc.

References etaTable, and tmp.

                                                          {

  std::vector<double> tmp = etaTable;
  return tmp;
}
double HcalNumberingFromDDD::getGain ( HcalSubdetector  subdet,
int  depth 
) const [private]

Definition at line 1176 of file HcalNumberingFromDDD.cc.

References gainHB, gainHE, gainHF, HcalEndcap, and HcalForward.

Referenced by HcalCellTypes().

                                                                            {

  double gain;
  switch(subdet) {
  case HcalEndcap:
    gain = gainHE[depth-1];
    break;
  case HcalForward:
    gain = gainHF[depth-1];
    break;
  default:
    gain = gainHB[depth-1];
    break;
  }
  return gain;
}
int HcalNumberingFromDDD::getShift ( HcalSubdetector  subdet,
int  depth 
) const [private]

Definition at line 1159 of file HcalNumberingFromDDD.cc.

References HcalEndcap, HcalForward, edm::shift, shiftHB, shiftHE, and shiftHF.

Referenced by HcalCellTypes().

                                                                          {

  int shift;
  switch(subdet) {
  case HcalEndcap:
    shift = shiftHE[depth-1];
    break;
  case HcalForward:
    shift = shiftHF[depth-1];
    break;
  default:
    shift = shiftHB[depth-1];
    break;
  }
  return shift;
}
std::vector< HcalCellType > HcalNumberingFromDDD::HcalCellTypes ( HcalSubdetector  subdet) const

Definition at line 431 of file HcalNumberingFromDDD.cc.

References cell(), dlShort, dmax, dmin, dzVcal, eta(), etaMax, etaMin, getGain(), getShift(), HcalEndcap, HcalForward, HcalOuter, nmodHB, nmodHE, nOff, nzHB, nzHE, HcalCellType::HcalCell::ok, phi, HcalCellType::setMissingPhi(), edm::shift, unitPhi(), and create_public_lumi_plots::units.

                                                                                        {

  std::vector<HcalCellType> cellTypes;
  if (subdet == HcalForward) {
    if (dzVcal < 0) return cellTypes;
  }

  int    dmin, dmax, indx, nz, nmod;
  double hsize = 0;
  switch(subdet) {
  case HcalEndcap:
    dmin = 1; dmax = 3; indx = 1; nz = nzHE; nmod = nmodHE;
    break;
  case HcalForward:
    dmin = 1; dmax = 2; indx = 2; nz = 2; nmod = 18; 
    break;
  case HcalOuter:
    dmin = 4; dmax = 4; indx = 0; nz = nzHB; nmod = nmodHB;
    break;
  default:
    dmin = 1; dmax = 3; indx = 0; nz = nzHB; nmod = nmodHB;
    break;
  }

  int phi = 1, zside  = 1;
  bool cor = false;

  // Get the Cells 
  int subdet0 = static_cast<int>(subdet);
  for (int depth=dmin; depth<=dmax; depth++) {
    int    shift = getShift(subdet, depth);
    double gain  = getGain (subdet, depth);
    if (subdet == HcalForward) {
      if (depth == 1) hsize = dzVcal;
      else            hsize = dzVcal-0.5*dlShort;
    }
    for (int eta=etaMin[indx]; eta<= etaMax[indx]; eta++) {
      HcalCellType::HcalCell temp1 = cell(subdet0,zside,depth,eta,phi,cor);
      if (temp1.ok) {
        int units = unitPhi (subdet0, eta);
        HcalCellType temp2(subdet, eta, phi, depth, temp1,
                                         shift, gain, nz, nmod, hsize, units);
        if (subdet == HcalOuter && nOff.size() > 17) {
          if (eta == nOff[15]) {
            std::vector<int> missPlus, missMinus;
            int kk = 18;
            for (int miss=0; miss<nOff[16]; miss++) {
              missPlus.push_back(nOff[kk]);
              kk++;
            }
            for (int miss=0; miss<nOff[17]; miss++) {
              missMinus.push_back(nOff[kk]);
              kk++;
            }
            temp2.setMissingPhi(missPlus, missMinus);
          }
        }
        cellTypes.push_back(temp2);
      }
    }
  }
  return cellTypes;
}
std::vector< HcalCellType > HcalNumberingFromDDD::HcalCellTypes ( ) const

Definition at line 391 of file HcalNumberingFromDDD.cc.

References HcalBarrel, HcalEndcap, HcalForward, HcalOuter, i, and LogDebug.

Referenced by HcalDDDGeometryLoader::fill(), initialize(), and numberOfCells().

                                                                 {

  std::vector<HcalCellType> cellTypes =HcalCellTypes(HcalBarrel);
#ifdef DebugLog
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD: " << cellTypes.size()
                        << " cells of type HCal Barrel";
  for (unsigned int i=0; i<cellTypes.size(); i++)
    LogDebug ("HCalGeom") << "Cell " << i << " " << cellTypes[i];
#endif

  std::vector<HcalCellType> hoCells   =HcalCellTypes(HcalOuter);
#ifdef DebugLog
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD: " << hoCells.size()
                        << " cells of type HCal Outer";
  for (unsigned int i=0; i<hoCells.size(); i++)
    LogDebug ("HCalGeom") << "Cell " << i << " " << hoCells[i];
#endif
  cellTypes.insert(cellTypes.end(), hoCells.begin(), hoCells.end());

  std::vector<HcalCellType> heCells   =HcalCellTypes(HcalEndcap);
#ifdef DebugLog
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD: " << heCells.size()
                        << " cells of type HCal Endcap";
  for (unsigned int i=0; i<heCells.size(); i++)
    LogDebug ("HCalGeom") << "Cell " << i << " " << heCells[i];
#endif
  cellTypes.insert(cellTypes.end(), heCells.begin(), heCells.end());

  std::vector<HcalCellType> hfCells   =HcalCellTypes(HcalForward);
#ifdef DebugLog
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD: " << hfCells.size()
                        << " cells of type HCal Forward";
  for (unsigned int i=0; i<hfCells.size(); i++)
    LogDebug ("HCalGeom") << "Cell " << i << " " << hfCells[i];
#endif
  cellTypes.insert(cellTypes.end(), hfCells.begin(), hfCells.end());

  return cellTypes;
}
void HcalNumberingFromDDD::initialize ( std::string &  name,
const DDCompactView cpv 
) [private]

Definition at line 609 of file HcalNumberingFromDDD.cc.

References DDFilteredView::addFilter(), DDSpecificsFilter::equals, Exception, alcazmumu_cfi::filter, DDFilteredView::firstChild(), HcalCellTypes(), i, loadGeometry(), loadSpecPars(), LogDebug, mergeVDriftHistosByStation::name, convertSQLiteXML::ok, DDSpecificsFilter::setCriteria(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by HcalNumberingFromDDD().

                                                                 {

  std::string attribute = "ReadOutName";
  edm::LogInfo("HCalGeom") << "HcalNumberingFromDDD: Initailise for " << name 
                           << " as " << attribute;

  DDSpecificsFilter filter;
  DDValue           ddv(attribute,name,0);
  filter.setCriteria(ddv,DDSpecificsFilter::equals);
  DDFilteredView fv(cpv);
  fv.addFilter(filter);
  bool ok = fv.firstChild();

  if (ok) {
    //Load the SpecPars
    loadSpecPars(fv);

    //Load the Geometry parameters
    loadGeometry(fv);
  } else {
    edm::LogError("HCalGeom") << "HcalNumberingFromDDD: cannot get filtered "
                              << " view for " << attribute << " matching "
                              << name;
    throw cms::Exception("DDException") << "HcalNumberingFromDDD: cannot match " << attribute << " to " << name;
  }

#ifdef DebugLog
  std::vector<HcalCellType> cellTypes = HcalCellTypes();
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD: " << cellTypes.size()
                        << " cells of type HCal (All)";
  for (unsigned int i=0; i<cellTypes.size(); i++)
    LogDebug ("HCalGeom") << "Cell " << i << " " << cellTypes[i];
#endif
}
void HcalNumberingFromDDD::loadGeometry ( const DDFilteredView _fv) [private]

Definition at line 817 of file HcalNumberingFromDDD.cc.

References abs, filterCSVwithJSON::copy, DDFilteredView::copyNumbers(), funct::cos(), gather_cfg::cout, ddcons, ddpolycone_rrz, ddtubs, drHB, dx1e, dx2e, dyxb, dyxe, dzHE, dzVcal, dzxb, etaHO, etaTable, find(), newFWLiteAna::found, getEta(), DDBox::halfX(), DDBox::halfY(), DDTrap::halfZ(), DDBox::halfZ(), i, cuy::ib, j, gen::k, layb, laye, LogDebug, DDFilteredView::logicalPart(), min, DDBase< N, C >::name(), DDFilteredView::next(), nmodHB, nmodHE, nzHB, nzHE, DDSolid::parameters(), printTile(), rHB, rhoxb, rhoxe, DDTubs::rIn(), rminHO, DDTubs::rOut(), DDSolid::shape(), DDLogicalPart::solid(), lumiQTWidget::t, funct::tan(), tmp, DDFilteredView::translation(), DDTrap::x1(), DDTrap::x2(), DDTrap::x3(), DDTrap::x4(), DDTrap::y1(), DDTrap::y2(), DDTubs::zhalf(), zHE, zho, zxb, and zxe.

Referenced by initialize().

                                                                 {

  DDFilteredView fv = _fv;
  bool dodet=true, hf=false;
  std::vector<double> rb(20,0.0), ze(20,0.0), thkb(20,-1.0), thke(20,-1.0);
  std::vector<int>    ib(20,0),   ie(20,0);
  std::vector<int>    izb, phib, ize, phie, izf, phif;
  std::vector<double> rxb;
  rhoxb.clear(); zxb.clear(); dyxb.clear(); dzxb.clear();
  layb.clear(); laye.clear();
  zxe.clear(); rhoxe.clear(); dyxe.clear(); dx1e.clear(); dx2e.clear();
  double zf = 0;
  dzVcal = -1.;

  while (dodet) {
    DDTranslation    t    = fv.translation();
    std::vector<int> copy = fv.copyNumbers();
    const DDSolid & sol  = fv.logicalPart().solid();
    int idet = 0, lay = -1;
    int nsiz = (int)(copy.size());
    if (nsiz>0) lay  = copy[nsiz-1]/10;
    if (nsiz>1) idet = copy[nsiz-2]/1000;
    double dx=0, dy=0, dz=0, dx1=0, dx2=0;
    if (sol.shape() == 1) {
      const DDBox & box = static_cast<DDBox>(fv.logicalPart().solid());
      dx = box.halfX();
      dy = box.halfY();
      dz = box.halfZ();
    } else if (sol.shape() == 3) {
      const DDTrap & trp = static_cast<DDTrap>(fv.logicalPart().solid());
      dx1= trp.x1();
      dx2= trp.x2();
      dx = 0.25*(trp.x1()+trp.x2()+trp.x3()+trp.x4());
      dy = 0.5*(trp.y1()+trp.y2());
      dz = trp.halfZ();
    } else if (sol.shape() == 2) {
      const DDTubs & tub = static_cast<DDTubs>(fv.logicalPart().solid());
      dx = tub.rIn();
      dy = tub.rOut();
      dz = tub.zhalf();
    }
    if (idet == 3) {
      // HB
#ifdef DebugLog
      LogDebug("HCalGeom") << "HB " << sol.name() << " Shape " << sol.shape()
                           << " Layer " << lay << " R " << t.Rho();
#endif
      if (lay >=0 && lay < 20) {
        ib[lay]++;
        rb[lay] += t.Rho();
        if (thkb[lay] <= 0) {
          if (lay < 17) thkb[lay] = dx;
          else          thkb[lay] = std::min(dx,dy);
        }
        if (lay < 17) {
          bool found = false;
          for (unsigned int k=0; k<rxb.size(); k++) {
            if (std::abs(rxb[k]-t.Rho()) < 0.01) {
              found = true;
              break;
            }
          }
          if (!found) {
            rxb.push_back(t.Rho());
            rhoxb.push_back(t.Rho()*std::cos(t.phi()));
            zxb.push_back(std::abs(t.z()));
            dyxb.push_back(2.*dy);
            dzxb.push_back(2.*dz);
            layb.push_back(lay);
          }
        }
      }
      if (lay == 2) {
        int iz = copy[nsiz-5];
        int fi = copy[nsiz-4];
        unsigned int it1 = find(iz, izb);
        if (it1 == izb.size())  izb.push_back(iz);
        unsigned int it2 = find(fi, phib);
        if (it2 == phib.size()) phib.push_back(fi);
      }
      if (lay == 18) {
        int ifi=-1, ich=-1;
        if (nsiz>2) ifi = copy[nsiz-3];
        if (nsiz>3) ich = copy[nsiz-4];
        double z1 = std::abs((t.z()) + dz);
        double z2 = std::abs((t.z()) - dz);
        if (std::abs(z1-z2) < 0.01) z1 = 0;
        if (ifi == 1 && ich == 4) {
          if (z1 > z2) {
            double tmp = z1;
            z1 = z2;
            z2 = tmp;
          }
          bool sok = true;
          for (unsigned int kk=0; kk<zho.size(); kk++) {
            if (std::abs(z2-zho[kk]) < 0.01) {
              sok = false;
              break;
            }   else if (z2 < zho[kk]) {
              zho.resize(zho.size()+2);
              for (unsigned int kz=zho.size()-1; kz>kk+1; kz=kz-2) {
                zho[kz]   = zho[kz-2];
                zho[kz-1] = zho[kz-3];
              }
              zho[kk+1] = z2;
              zho[kk]   = z1;
              sok = false;
              break;
            }
          }
          if (sok) {
            zho.push_back(z1);
            zho.push_back(z2);
          }
#ifdef DebugLog
          LogDebug("HCalGeom") << "Detector " << idet << " Lay " << lay << " fi " << ifi << " " << ich << " z " << z1 << " " << z2;
#endif
        }
      }
    } else if (idet == 4) {
      // HE
#ifdef DebugLog
      LogDebug("HCalGeom") << "HE " << sol.name() << " Shape " << sol.shape()
                           << " Layer " << lay << " Z " << t.z();
#endif
      if (lay >=0 && lay < 20) {
        ie[lay]++;
        ze[lay] += std::abs(t.z());
        if (thke[lay] <= 0) thke[lay] = dz;
        bool found = false;
        for (unsigned int k=0; k<zxe.size(); k++) {
          if (std::abs(zxe[k]-std::abs(t.z())) < 0.01) {
            found = true;
            break;
          }
        }
        if (!found) {
          zxe.push_back(std::abs(t.z()));
          rhoxe.push_back(t.Rho()*std::cos(t.phi()));
          dyxe.push_back(dy*std::cos(t.phi()));
          dx1 -= 0.5*(t.rho()-dy)*std::cos(t.phi())*std::tan(10*CLHEP::deg);
          dx2 -= 0.5*(t.rho()+dy)*std::cos(t.phi())*std::tan(10*CLHEP::deg);
          dx1e.push_back(-dx1);
          dx2e.push_back(-dx2);
          laye.push_back(lay);
        }
      }
      if (copy[nsiz-1] == 21) {
        int iz = copy[nsiz-7];
        int fi = copy[nsiz-5];
        unsigned int it1 = find(iz, ize);
        if (it1 == ize.size())  ize.push_back(iz);
        unsigned int it2 = find(fi, phie);
        if (it2 == phie.size()) phie.push_back(fi);
      }
    } else if (idet == 5) {
      // HF
      if (!hf) {
        const std::vector<double> & paras = sol.parameters();
#ifdef DebugLog
        LogDebug("HCalGeom") << "HF " << sol.name() << " Shape " << sol.shape()
                             << " Z " << t.z() << " with " << paras.size()
                             << " Parameters";
        for (unsigned j=0; j<paras.size(); j++)
          LogDebug("HCalGeom") << "HF Parameter[" << j << "] = " << paras[j];
#endif
        zf  = fabs(t.z());
        if (sol.shape() == ddpolycone_rrz) {
          int nz  = (int)(paras.size())-3;
          zf     += paras[3];
          dzVcal  = 0.5*(paras[nz]-paras[3]);
          hf      = true;
        } else if (sol.shape() == ddtubs || sol.shape() == ddcons) {
          dzVcal  = paras[0];
          zf     -= paras[0];
          hf      = true;
        }
      }
#ifdef DebugLog
    } else {
      LogDebug("HCalGeom") << "Unknown Detector " << idet << " for " 
                           << sol.name() << " Shape " << sol.shape() << " R " 
                           << t.Rho() << " Z " << t.z();
#endif
    }
    dodet = fv.next();
  }

  int ibmx = 0, iemx = 0;
  for (int i = 0; i < 20; i++) {
    if (ib[i]>0) {
      rb[i] /= (double)(ib[i]);
      ibmx   = i+1;
    }
    if (ie[i]>0) {
      ze[i] /= (double)(ie[i]);
      iemx   = i+1;
    }
#ifdef DebugLog
    LogDebug("HCalGeom") << "Index " << i << " Barrel " << ib[i] << " "
                         << rb[i] << " Endcap " << ie[i] << " " << ze[i];
#endif
  }
  for (int i = 4; i >= 0; i--) {
    if (ib[i] == 0) {rb[i] = rb[i+1]; thkb[i] = thkb[i+1];}
    if (ie[i] == 0) {ze[i] = ze[i+1]; thke[i] = thke[i+1];}
#ifdef DebugLog
    if (ib[i] == 0 || ie[i] == 0)
      LogDebug("HCalGeom") << "Index " << i << " Barrel " << ib[i] << " "
                           << rb[i] << " Endcap " << ie[i] << " " << ze[i];
#endif
  }

#ifdef DebugLog
  for (unsigned int k=0; k<layb.size(); ++k)
    std::cout << "HB: " << layb[k] << " R " << rxb[k] << " " << rhoxb[k] << " Z " << zxb[k] << " DY " << dyxb[k] << " DZ " << dzxb[k] << "\n";
  for (unsigned int k=0; k<laye.size(); ++k) 
    std::cout << "HE: " << laye[k] << " R " << rhoxe[k] << " Z " << zxe[k] << " X1|X2 " << dx1e[k] << "|" << dx2e[k] << " DY " << dyxe[k] << "\n";

  printTile();
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: Maximum Layer for HB " 
                       << ibmx << " for HE " << iemx << " Z for HF " << zf 
                       << " extent " << dzVcal;
#endif

  if (ibmx > 0) {
    rHB.resize(ibmx);
    drHB.resize(ibmx);
    for (int i=0; i<ibmx; i++) {
      rHB[i]  = rb[i];
      drHB[i] = thkb[i];
#ifdef DebugLog
      LogDebug("HCalGeom") << "HcalNumberingFromDDD: rHB[" << i << "] = "
                           << rHB[i] << " drHB[" << i << "] = " << drHB[i];
#endif
    }
  }
  if (iemx > 0) {
    zHE.resize(iemx);
    dzHE.resize(iemx);
    for (int i=0; i<iemx; i++) {
      zHE[i]  = ze[i];
      dzHE[i] = thke[i];
#ifdef DebugLog
      LogDebug("HCalGeom") << "HcalNumberingFromDDD: zHE[" << i << "] = "
                           << zHE[i] << " dzHE[" << i << "] = " << dzHE[i];
#endif
    }
  }

  nzHB   = (int)(izb.size());
  nmodHB = (int)(phib.size());
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::loadGeometry: " << nzHB
                       << " barrel half-sectors";
  for (int i=0; i<nzHB; i++)
    LogDebug("HCalGeom") << "Section " << i << " Copy number " << izb[i];
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::loadGeometry: " << nmodHB
                       << " barrel modules";
  for (int i=0; i<nmodHB; i++)
    LogDebug("HCalGeom") << "Module " << i << " Copy number " << phib[i];
#endif

  nzHE   = (int)(ize.size());
  nmodHE = (int)(phie.size());
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::loadGeometry: " << nzHE
                       << " endcap half-sectors";
  for (int i=0; i<nzHE; i++)
    LogDebug("HCalGeom") << "Section " << i << " Copy number " << ize[i];
  LogDebug("HCalGeom") << "HcalNumberingFromDDD::loadGeometry: " << nmodHE
                       << " endcap modules";
  for (int i=0; i<nmodHE; i++)
    LogDebug("HCalGeom") << "Module " << i << " Copy number " << phie[i];
#endif

#ifdef DebugLog
  LogDebug("HCalGeom") << "HO has Z of size " << zho.size();
  for (unsigned int kk=0; kk<zho.size(); kk++)
    LogDebug("HCalGeom") << "ZHO[" << kk << "] = " << zho[kk];
#endif
  if (ibmx > 17 && zho.size() > 4) {
    rminHO   = rHB[17]-100.0;
    etaHO[0] = getEta(0.5*(rHB[17]+rHB[18]), zho[1]);
    etaHO[1] = getEta(rHB[18]+drHB[18], zho[2]);
    etaHO[2] = getEta(rHB[18]-drHB[18], zho[3]);
    etaHO[3] = getEta(rHB[18]+drHB[18], zho[4]);
  } else {
    rminHO   =-1.0;
    etaHO[0] = etaTable[4];
    etaHO[1] = etaTable[4];
    etaHO[2] = etaTable[10];
    etaHO[3] = etaTable[10];
  }
#ifdef DebugLog
  LogDebug("HCalGeom") << "HO Eta boundaries " << etaHO[0] << " " << etaHO[1]
                       << " " << etaHO[2] << " " << etaHO[3];
  std::cout << "HO Parameters " << rminHO << " " << zho.size();
  for (int i=0; i<4; ++i) std::cout << " eta[" << i << "] = " << etaHO[i];
  for (unsigned int i=0; i<zho.size(); ++i) std::cout << " zho[" << i << "] = " << zho[i];
  std::cout << std::endl;
#endif
}
void HcalNumberingFromDDD::loadSpecPars ( const DDFilteredView fv) [private]

Definition at line 645 of file HcalNumberingFromDDD.cc.

References depth1, depth2, depth3, dlShort, etaMax, etaMin, etaTable, gainHB, gainHE, gainHF, getDDDArray(), i, LogDebug, DDFilteredView::mergedSpecifics(), nDepth, nEta, nOff, nPhi, nR, phibin, phioff, rTable, shiftHB, shiftHE, shiftHF, and zVcal.

Referenced by initialize().

                                                                {

  DDsvalues_type sv(fv.mergedSpecifics());

  // Phi Offset
  int i, nphi=4;
  std::vector<double> tmp1 = getDDDArray("phioff",sv,nphi);
  phioff.resize(tmp1.size());
  for (i=0; i<nphi; i++) {
    phioff[i] = tmp1[i];
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: phioff[" << i << "] = "
                         << phioff[i]/CLHEP::deg;
#endif
  }

  //Eta table
  nEta     = -1;
  std::vector<double> tmp2 = getDDDArray("etaTable",sv,nEta);
  etaTable.resize(tmp2.size());
  for (i=0; i<nEta; i++) {
    etaTable[i] = tmp2[i];
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: etaTable[" << i << "] = "
                         << etaTable[i];
#endif
  }

  //R table
  nR     = -1;
  std::vector<double> tmp3 = getDDDArray("rTable",sv,nR);
  rTable.resize(tmp3.size());
  for (i=0; i<nR; i++) {
    rTable[i] = tmp3[i];
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: rTable[" << i << "] = "
                         << rTable[i]/CLHEP::cm;
#endif
  }

  //Phi bins
  nPhi   = nEta + nR - 2;
  std::vector<double> tmp4 = getDDDArray("phibin",sv,nPhi);
  phibin.resize(tmp4.size());
  for (i=0; i<nPhi; i++) {
    phibin[i] = tmp4[i];
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: phibin[" << i << "] = "
                         << phibin[i]/CLHEP::deg;
#endif
  }

  //Layer boundaries for depths 1, 2, 3, 4
  nDepth            = nEta - 1;
  std::vector<double> d1 = getDDDArray("depth1",sv,nDepth);
  nDepth            = nEta - 1;
  std::vector<double> d2 = getDDDArray("depth2",sv,nDepth);
  nDepth            = nEta - 1;
  std::vector<double> d3 = getDDDArray("depth3",sv,nDepth);
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: " << nDepth << " Depths";
#endif
  depth1.resize(nDepth);
  depth2.resize(nDepth);
  depth3.resize(nDepth);
  for (i=0; i<nDepth; i++) {
    depth1[i] = static_cast<int>(d1[i]);
    depth2[i] = static_cast<int>(d2[i]);
    depth3[i] = static_cast<int>(d3[i]);
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: depth1[" << i << "] = " 
                         << depth1[i] << " depth2[" << i << "]  = "<< depth2[i]
                         << " depth3[" << i << "] = " << depth3[i];
#endif
  }

  // Minimum and maximum eta boundaries
  int ndx  = 3;
  std::vector<double>  tmp5 = getDDDArray("etaMin",sv,ndx);
  std::vector<double>  tmp6 = getDDDArray("etaMax",sv,ndx);
  etaMin.resize(ndx);
  etaMax.resize(ndx);
  for (i=0; i<ndx; i++) {
    etaMin[i] = static_cast<int>(tmp5[i]);
    etaMax[i] = static_cast<int>(tmp6[i]);
  }
  etaMin[0] = 1;
  etaMax[1] = nEta-1;
  etaMax[2] = etaMin[2]+nR-2;
#ifdef DebugLog
  for (i=0; i<ndx; i++) 
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: etaMin[" << i << "] = "
                         << etaMin[i] << " etaMax[" << i << "] = "<< etaMax[i];
#endif

  // Geometry parameters for HF
  int ngpar = 7;
  std::vector<double> gpar = getDDDArray("gparHF",sv,ngpar);
  dlShort = gpar[0];
  zVcal   = gpar[4];
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: dlShort " << dlShort
                       << " zVcal " << zVcal;
#endif

  // nOff
  int noff = 3;
  std::vector<double>  nvec = getDDDArray("noff",sv,noff);
  nOff.resize(noff);
  for (i=0; i<noff; i++) {
    nOff[i] = static_cast<int>(nvec[i]);
#ifdef DebugLog
    LogDebug("HCalGeom") << "HcalNumberingFromDDD: nOff[" << i << "] = " 
                         << nOff[i];
#endif
  }

  //Gains and Shifts for HB depths
  ndx                  = 4;
  gainHB               = getDDDArray("HBGains",sv,ndx);
  std::vector<double>  tmp7 = getDDDArray("HBShift",sv,ndx);
  shiftHB.resize(ndx);
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD:: Gain factor and Shift for "
                       << "HB depth layers:";
#endif
  for (i=0; i<ndx; i++) {
    shiftHB[i] = static_cast<int>(tmp7[i]);
#ifdef DebugLog
    LogDebug("HCalGeom") <<"HcalNumberingFromDDD:: gainHB[" <<  i << "] = " 
                         << gainHB[i] << " shiftHB[" << i << "] = " 
                         << shiftHB[i];
#endif
  }

  //Gains and Shifts for HB depths
  ndx                  = 4;
  gainHE               = getDDDArray("HEGains",sv,ndx);
  std::vector<double>  tmp8 = getDDDArray("HEShift",sv,ndx);
  shiftHE.resize(ndx);
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD:: Gain factor and Shift for "
                       << "HE depth layers:";
#endif
  for (i=0; i<ndx; i++) {
    shiftHE[i] = static_cast<int>(tmp8[i]);
#ifdef DebugLog
    LogDebug("HCalGeom") <<"HcalNumberingFromDDD:: gainHE[" <<  i << "] = " 
                         << gainHE[i] << " shiftHE[" << i << "] = " 
                         << shiftHE[i];
#endif
  }

  //Gains and Shifts for HF depths
  ndx                  = 4;
  gainHF               = getDDDArray("HFGains",sv,ndx);
  std::vector<double>  tmp9 = getDDDArray("HFShift",sv,ndx);
  shiftHF.resize(ndx);
#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD:: Gain factor and Shift for "
                       << "HF depth layers:";
#endif
  for (i=0; i<ndx; i++) {
    shiftHF[i] = static_cast<int>(tmp9[i]);
#ifdef DebugLog
    LogDebug("HCalGeom") <<"HcalNumberingFromDDD:: gainHF[" <<  i << "] = " 
                         << gainHF[i] << " shiftHF[" << i << "] = " 
                         << shiftHF[i];
#endif
  }
}
unsigned int HcalNumberingFromDDD::numberOfCells ( HcalSubdetector  subdet) const

Definition at line 373 of file HcalNumberingFromDDD.cc.

References HcalCellTypes(), i, and LogDebug.

Referenced by HcalDDDGeometryLoader::load().

                                                                            {

  unsigned int num = 0;
  std::vector<HcalCellType> cellTypes = HcalCellTypes(subdet);
  for (unsigned int i=0; i<cellTypes.size(); i++) {
    num += (unsigned int)(cellTypes[i].nPhiBins());
    if (cellTypes[i].nHalves() > 1) 
      num += (unsigned int)(cellTypes[i].nPhiBins());
    num -= (unsigned int)(cellTypes[i].nPhiMissingBins());
  }
#ifdef DebugLog
  LogDebug ("HCalGeom") << "HcalNumberingFromDDD:numberOfCells " 
                        << cellTypes.size()  << " " << num 
                        << " for subdetector " << subdet;
#endif
  return num;
}
void HcalNumberingFromDDD::printTile ( )

Definition at line 495 of file HcalNumberingFromDDD.cc.

References gather_cfg::cout, depth1, depth2, dmax, dmin, eta(), etaMax, etaMin, tileHB(), and tileHE().

Referenced by loadGeometry().

                                     {
 
  std::cout << "Tile Information for HB:\n" << "========================\n\n";
  for (int eta=etaMin[0]; eta<= etaMax[0]; eta++) {
    int dmax = 1;
    if (depth1[eta-1] < 17) dmax = 2;
    for (int depth=1; depth<=dmax; depth++) 
      tileHB(eta, depth);
  }

  std::cout << "\nTile Information for HE:\n" <<"========================\n\n";
  for (int eta=etaMin[1]; eta<= etaMax[1]; eta++) {
    int dmin=1, dmax=3;
    if (eta == etaMin[1]) {
      dmin = 3;
    } else if (depth1[eta-1] > 18) {
      dmax = 1;
    } else if (depth2[eta-1] > 18) {
      dmax = 2;
    }
    for (int depth=dmin; depth<=dmax; depth++)
      tileHE(eta, depth);
  }
}
void HcalNumberingFromDDD::tileHB ( int  eta,
int  depth 
) [private]

Definition at line 1218 of file HcalNumberingFromDDD.cc.

References funct::cos(), gather_cfg::cout, depth1, depth2, dyxb, dzxb, eta(), etaTable, create_public_lumi_plots::exp, gen::k, layb, min, rhoxb, funct::sin(), SiStripMonitorClusterAlca_cfi::zmax, and SiStripMonitorClusterAlca_cfi::zmin.

Referenced by printTile().

                                                    {

  double etaL   = etaTable[eta-1];
  double thetaL = 2.*atan(exp(-etaL));
  double etaH   = etaTable[eta];
  double thetaH = 2.*atan(exp(-etaH));
  int    layL=0, layH=0;
  if (depth == 1) {
    layH = depth1[eta-1];
  } else {
    layL = depth1[eta-1];
    layH = depth2[eta-1];
  }
  std::cout << "\ntileHB:: eta|depth " << eta << "|" << depth << " theta " << thetaH/CLHEP::deg << ":" << thetaL/CLHEP::deg << " Layer " << layL << ":" << layH-1 << "\n";
  for (int lay=layL; lay<layH; ++lay) {
    std::vector<double> area(2,0);
    int kk=0;
    for (unsigned int k=0; k<layb.size(); ++k) {
      if (lay == layb[k]) {
        double zmin = rhoxb[k]*std::cos(thetaL)/std::sin(thetaL);
        double zmax = rhoxb[k]*std::cos(thetaH)/std::sin(thetaH);
        double dz   = (std::min(zmax,dzxb[k]) - zmin);
        if (dz > 0) {
          area[kk] = dz*dyxb[k];
          kk++;
        }
      }
    }
    if (area[0] > 0) std::cout << std::setw(2) << lay << " Area " << std::setw(8) << area[0] << " " << std::setw(8) << area[1] << "\n";
  }
}
void HcalNumberingFromDDD::tileHE ( int  eta,
int  depth 
) [private]

Definition at line 1250 of file HcalNumberingFromDDD.cc.

References gather_cfg::cout, depth1, depth2, depth3, dx1e, dyxe, eta(), etaTable, create_public_lumi_plots::exp, gen::k, laye, max(), min, phibin, rhoxe, funct::tan(), and zxe.

Referenced by printTile().

                                                    {

  double etaL   = etaTable[eta-1];
  double thetaL = 2.*atan(exp(-etaL));
  double etaH   = etaTable[eta];
  double thetaH = 2.*atan(exp(-etaH));
  int    layL=0, layH=0;
  if (eta == 16) {
    layH = depth3[eta-1];
  } else if (depth == 1) {
    layH = depth1[eta-1];
  } else if (depth == 2) {
    layL = depth1[eta-1];
    layH = depth2[eta-1];
  } else {
    layL = depth2[eta-1];
    layH = depth3[eta-1];
  }
  double phib  = phibin[eta-1];
  int nphi = 2;
  if (phib > 6*CLHEP::deg) nphi = 1;
  std::cout << "\ntileHE:: Eta/depth " << eta << "|" << depth << " theta " << thetaH/CLHEP::deg << ":" << thetaL/CLHEP::deg << " Layer " << layL << ":" << layH-1 << " phi " << nphi << "\n";
  for (int lay=layL; lay<layH; ++lay) {
    std::vector<double> area(4,0);
    int kk=0;
    for (unsigned int k=0; k<laye.size(); ++k) {
      if (lay == laye[k]) {
        double rmin = zxe[k]*std::tan(thetaH);
        double rmax = zxe[k]*std::tan(thetaL);
        if ((lay != 0 || eta == 18) && 
            (lay != 1 || (eta == 18 && rhoxe[k]-dyxe[k] > 1000) || (eta != 18 && rhoxe[k]-dyxe[k] < 1000)) &&
            rmin+30 < rhoxe[k]+dyxe[k] && rmax > rhoxe[k]-dyxe[k]) {
          rmin = std::max(rmin,rhoxe[k]-dyxe[k]);
          rmax = std::min(rmax,rhoxe[k]+dyxe[k]);
          double dx1 = rmin*std::tan(phib);
          double dx2 = rmax*std::tan(phib);
          double ar1=0, ar2=0;
          if (nphi == 1) {
            ar1 = 0.5*(rmax-rmin)*(dx1+dx2-4.*dx1e[k]);
          } else {
            ar1 = 0.5*(rmax-rmin)*(dx1+dx2-2.*dx1e[k]);
            ar2 = 0.5*(rmax-rmin)*((rmax+rmin)*tan(10.*CLHEP::deg)-4*dx1e[k])-ar1;
          }
          area[kk] = ar1;
          area[kk+2] = ar2;
          kk++;
        }
      }
    }
    if (area[0] > 0 && area[1] > 0) {
      int lay0 = lay-1;
      if (eta == 18) lay0++;
      if (nphi == 1) {
        std::cout << std::setw(2) << lay0 << " Area " << std::setw(8) << area[0] << " " << std::setw(8) << area[1] << "\n";
      } else {
        std::cout << std::setw(2) << lay0 << " Area " << std::setw(8) << area[0] << " " << std::setw(8) << area[1] << ":" << std::setw(8) << area[2] << " " << std::setw(8) << area[3] << "\n";
      }
    }
  }
}
HcalNumberingFromDDD::HcalID HcalNumberingFromDDD::unitID ( int  det,
double  etaR,
double  phi,
int  depth,
int  lay = -1 
) const

Definition at line 102 of file HcalNumberingFromDDD.cc.

References etaHO, etaMax, etaMin, etaTable, HcalBarrel, HcalForward, i, LogDebug, nEta, nOff, nR, phibin, phioff, rTable, tmp, and unitID().

                                                                         {

  int ieta=0;
  double fioff, fibin;
  double hetaR = fabs(etaR);

  //First eta index
  if (det == static_cast<int>(HcalForward)) { // Forward HCal
    fioff   = phioff[2];
    ieta    = etaMax[2];
    for (int i = nR-1; i > 0; i--)
      if (hetaR < rTable[i]) ieta = etaMin[2] + nR - i - 1;
    fibin   = phibin[nEta+ieta-etaMin[2]-1];
    if  (ieta > etaMax[2]-2 ) {   // HF double-phi  
      fioff += 0.5*fibin;
    }
  } else { // Barrel or Endcap
    ieta  = 1;
    for (int i = 0; i < nEta-1; i++)
      if (hetaR > etaTable[i]) ieta = i + 1;
    if (det == static_cast<int>(HcalBarrel)) {
      fioff   = phioff[0];
      if (ieta > etaMax[0])  ieta = etaMax[0];
      if (lay == 18 && nOff.size() > 13) {
        if (hetaR > etaHO[1] && ieta == nOff[13]) ieta++;
      }
    } else {
      fioff   = phioff[1];
      if (ieta <= etaMin[1]) ieta = etaMin[1];
    }
    fibin = phibin[ieta-1];
  }

  int    nphi  = int((CLHEP::twopi+0.1*fibin)/fibin);
  int    zside = etaR>0 ? 1: 0;
  double hphi  = phi+fioff;
  if (hphi < 0)    hphi += CLHEP::twopi;
  int    iphi  = int(hphi/fibin) + 1;
  if (iphi > nphi) iphi = 1;

#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: etaR = " << etaR << " : "
                       << zside << "/" << ieta << " phi " << hphi << " : "
                       << iphi;
#endif
  HcalNumberingFromDDD::HcalID tmp = unitID(det,zside,depth,ieta,iphi,lay);
  return tmp;

}
HcalNumberingFromDDD::HcalID HcalNumberingFromDDD::unitID ( double  eta,
double  phi,
int  depth = 1,
int  lay = -1 
) const

Definition at line 73 of file HcalNumberingFromDDD.cc.

References eta(), etaMax, etaMin, etaTable, create_public_lumi_plots::exp, HcalBarrel, HcalEndcap, HcalForward, i, nEta, funct::tan(), theta(), tmp, unitID(), and zVcal.

                                                                         {

  int    ieta = 0;
  double heta = fabs(eta);
  for (int i = 0; i < nEta; i++)
    if (heta > etaTable[i]) ieta = i + 1;
  int    hsubdet=0;
  double etaR;
  if (ieta <= etaMin[1]) {
    if ((ieta <= etaMin[1] && depth==3) || ieta > etaMax[0]) {
      hsubdet = static_cast<int>(HcalEndcap);
    } else {
      hsubdet = static_cast<int>(HcalBarrel);
    }
    etaR    = eta;
  } else {
    hsubdet = static_cast<int>(HcalForward);
    double theta = 2.*atan(exp(-heta));
    double hR    = zVcal*tan(theta);
    etaR    = (eta >= 0. ? hR : -hR);
  }

  HcalNumberingFromDDD::HcalID tmp = unitID(hsubdet,etaR,fi,depth,lay);
  return tmp;
}
HcalNumberingFromDDD::HcalID HcalNumberingFromDDD::unitID ( int  det,
int  zside,
int  depth,
int  etaR,
int  phi,
int  lay = -1 
) const

Definition at line 156 of file HcalNumberingFromDDD.cc.

References HcalNumberingFromDDD::HcalID::depth, depth1, depth2, depth3, etaMin, HcalNumberingFromDDD::HcalID::etaR, HcalBarrel, HcalEndcap, HcalForward, HcalOuter, HcalNumberingFromDDD::HcalID::lay, LogDebug, nOff, HcalNumberingFromDDD::HcalID::phi, phi, phibin, phioff, HcalNumberingFromDDD::HcalID::subdet, tmp, unitPhi(), create_public_lumi_plots::units, and HcalNumberingFromDDD::HcalID::zside.

                                                                         {

  //Modify the depth index
  if (det == static_cast<int>(HcalForward)) { // Forward HCal
  } else {
    if (lay >= 0) {
      double fibin = phibin[etaR-1];
      int   depth0 = depth1[etaR-1];
      int   kphi   = phi + int((phioff[3]+0.1)/fibin);
      kphi         = (kphi-1)%4 + 1;
      if (etaR == nOff[0] && (kphi == 2 || kphi == 3)) depth0--;
      if (lay <= depth2[etaR-1]) {
        if (lay <= depth0) depth = 1;
        else               depth = 2;
      } else if (lay <= depth3[etaR-1]) {
        depth = 3;
      } else               depth = 4;
    } else if (det == static_cast<int>(HcalBarrel)) {
      if (depth==3) depth = 2;
    }
    if (det != static_cast<int>(HcalBarrel)) {
      if (etaR <= etaMin[1]) depth = 3;
    }
  }
  if (etaR == nOff[1] && depth > 2 && det == static_cast<int>(HcalEndcap))
    etaR = nOff[1]-1;
  if (det == static_cast<int>(HcalBarrel) && depth == 4) {
    det = static_cast<int>(HcalOuter);
  }

  int units     = unitPhi(det, etaR);
  int iphi_skip = phi;
  if      (units==2) iphi_skip  = (phi-1)*2+1;
  else if (units==4) iphi_skip  = (phi-1)*4-1;
  if (iphi_skip < 0) iphi_skip += 72;

#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: phi units=" <<  units  
                       <<  "  iphi_skip=" << iphi_skip; 
#endif
  HcalNumberingFromDDD::HcalID tmp(det,zside,depth,etaR,phi,iphi_skip,lay);

#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: det = " << det << " " 
                       << tmp.subdet << " zside = " << tmp.zside << " depth = "
                       << tmp.depth << " eta/R = " << tmp.etaR << " phi = " 
                       << tmp.phi << " layer = " << tmp.lay;
#endif
  return tmp;
}
HcalNumberingFromDDD::HcalID HcalNumberingFromDDD::unitID ( int  det,
const CLHEP::Hep3Vector &  pos,
int  depth,
int  lay = -1 
) const

Definition at line 31 of file HcalNumberingFromDDD.cc.

References getEtaHO(), HcalBarrel, HcalEndcap, HcalForward, create_public_lumi_plots::log, LogDebug, max(), min, funct::sin(), mathSSE::sqrt(), funct::tan(), tmp, and zho.

Referenced by SimG4HcalValidation::fill(), HcalTestAnalysis::fill(), HCalSD::getHitFibreBundle(), HCalSD::getHitPMT(), HCalSD::layerWeight(), HcalTestAnalysis::qieAnalysis(), HCalSD::setDetUnitId(), and unitID().

                                                                         {


  double hx  = point.x();
  double hy  = point.y();
  double hz  = point.z();
  double hR  = sqrt(hx*hx+hy*hy+hz*hz);
  double htheta = (hR == 0. ? 0. : acos(std::max(std::min(hz/hR,1.0),-1.0)));
  double hsintheta = sin(htheta);
  double hphi = (hR*hsintheta == 0. ? 0. :atan2(hy,hx));
  double heta = (fabs(hsintheta) == 1.? 0. : -log(fabs(tan(htheta/2.))) );

  int    hsubdet=0;
  double etaR;

  //First eta index
  if (det == 5) { // Forward HCal
    hsubdet = static_cast<int>(HcalForward);
    hR      = sqrt(hx*hx+hy*hy);
    etaR    = (heta >= 0. ? hR : -hR);
  } else { // Barrel or Endcap
    etaR    = heta;
    if (det == 3) {
      hsubdet = static_cast<int>(HcalBarrel);
      if (zho.size() > 4) etaR = getEtaHO(heta,hx,hy,hz);
    } else {
      hsubdet = static_cast<int>(HcalEndcap);
    }
  }

#ifdef DebugLog
  LogDebug("HCalGeom") << "HcalNumberingFromDDD: point = " << point << " det "
                       << hsubdet << " eta/R " << etaR << " phi " << hphi;
#endif
  HcalNumberingFromDDD::HcalID tmp = unitID(hsubdet,etaR,hphi,depth,lay);
  return tmp;

}
int HcalNumberingFromDDD::unitPhi ( int  det,
int  etaR 
) const [private]

Definition at line 1206 of file HcalNumberingFromDDD.cc.

References etaMin, HcalForward, M_PI, nEta, phibin, and create_public_lumi_plots::units.

Referenced by HcalCellTypes(), and unitID().

                                                         {

  const double fiveDegInRad = 2*M_PI/72;
  int units=0;
  if (det == static_cast<int>(HcalForward))
    units=int(phibin[nEta+etaR-etaMin[2]-1]/fiveDegInRad+0.5);
  else 
    units=int(phibin[etaR-1]/fiveDegInRad+0.5);

  return units;
}

Member Data Documentation

std::vector<int> HcalNumberingFromDDD::depth1 [private]

Definition at line 76 of file HcalNumberingFromDDD.h.

Referenced by cell(), loadSpecPars(), printTile(), tileHB(), tileHE(), and unitID().

std::vector<int> HcalNumberingFromDDD::depth2 [private]

Definition at line 77 of file HcalNumberingFromDDD.h.

Referenced by cell(), loadSpecPars(), printTile(), tileHB(), tileHE(), and unitID().

std::vector<int> HcalNumberingFromDDD::depth3 [private]

Definition at line 78 of file HcalNumberingFromDDD.h.

Referenced by cell(), loadSpecPars(), tileHE(), and unitID().

Definition at line 88 of file HcalNumberingFromDDD.h.

Referenced by deltaEta(), getEta(), HcalCellTypes(), and loadSpecPars().

std::vector<double> HcalNumberingFromDDD::drHB [private]

Definition at line 90 of file HcalNumberingFromDDD.h.

Referenced by cell(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::dx1e [private]

Definition at line 98 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHE().

std::vector<double> HcalNumberingFromDDD::dx2e [private]

Definition at line 98 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry().

std::vector<double> HcalNumberingFromDDD::dyxb [private]

Definition at line 96 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHB().

std::vector<double> HcalNumberingFromDDD::dyxe [private]

Definition at line 98 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHE().

std::vector<double> HcalNumberingFromDDD::dzHE [private]

Definition at line 91 of file HcalNumberingFromDDD.h.

Referenced by cell(), and loadGeometry().

double HcalNumberingFromDDD::dzVcal [private]

Definition at line 87 of file HcalNumberingFromDDD.h.

Referenced by HcalCellTypes(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::dzxb [private]

Definition at line 96 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHB().

double HcalNumberingFromDDD::etaHO[4] [private]

Definition at line 95 of file HcalNumberingFromDDD.h.

Referenced by deltaEta(), getEta(), loadGeometry(), and unitID().

std::vector<int> HcalNumberingFromDDD::etaMax [private]

Definition at line 73 of file HcalNumberingFromDDD.h.

Referenced by cell(), HcalCellTypes(), loadSpecPars(), printTile(), and unitID().

std::vector<int> HcalNumberingFromDDD::etaMin [private]
std::vector<double> HcalNumberingFromDDD::etaTable [private]
std::vector<double> HcalNumberingFromDDD::gainHB [private]

Definition at line 80 of file HcalNumberingFromDDD.h.

Referenced by getGain(), and loadSpecPars().

std::vector<double> HcalNumberingFromDDD::gainHE [private]

Definition at line 82 of file HcalNumberingFromDDD.h.

Referenced by getGain(), and loadSpecPars().

std::vector<double> HcalNumberingFromDDD::gainHF [private]

Definition at line 84 of file HcalNumberingFromDDD.h.

Referenced by getGain(), and loadSpecPars().

std::vector<int> HcalNumberingFromDDD::layb [private]

Definition at line 97 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHB().

std::vector<int> HcalNumberingFromDDD::laye [private]

Definition at line 97 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHE().

Definition at line 79 of file HcalNumberingFromDDD.h.

Referenced by loadSpecPars().

Definition at line 69 of file HcalNumberingFromDDD.h.

Referenced by cell(), deltaEta(), getEta(), loadSpecPars(), unitID(), and unitPhi().

Definition at line 93 of file HcalNumberingFromDDD.h.

Referenced by HcalCellTypes(), and loadGeometry().

Definition at line 94 of file HcalNumberingFromDDD.h.

Referenced by HcalCellTypes(), and loadGeometry().

std::vector<int> HcalNumberingFromDDD::nOff [private]

Definition at line 89 of file HcalNumberingFromDDD.h.

Referenced by cell(), deltaEta(), getEta(), HcalCellTypes(), loadSpecPars(), and unitID().

Definition at line 75 of file HcalNumberingFromDDD.h.

Referenced by loadSpecPars().

int HcalNumberingFromDDD::nR [private]

Definition at line 71 of file HcalNumberingFromDDD.h.

Referenced by cell(), deltaEta(), getEta(), loadSpecPars(), and unitID().

Definition at line 93 of file HcalNumberingFromDDD.h.

Referenced by HcalCellTypes(), and loadGeometry().

Definition at line 94 of file HcalNumberingFromDDD.h.

Referenced by HcalCellTypes(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::phibin [private]

Definition at line 74 of file HcalNumberingFromDDD.h.

Referenced by cell(), loadSpecPars(), tileHE(), unitID(), and unitPhi().

std::vector<double> HcalNumberingFromDDD::phioff [private]

Definition at line 67 of file HcalNumberingFromDDD.h.

Referenced by cell(), loadSpecPars(), and unitID().

std::vector<double> HcalNumberingFromDDD::rHB [private]

Definition at line 90 of file HcalNumberingFromDDD.h.

Referenced by cell(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::rhoxb [private]

Definition at line 96 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHB().

std::vector<double> HcalNumberingFromDDD::rhoxe [private]

Definition at line 98 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHE().

double HcalNumberingFromDDD::rminHO [private]

Definition at line 95 of file HcalNumberingFromDDD.h.

Referenced by getEtaHO(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::rTable [private]

Definition at line 70 of file HcalNumberingFromDDD.h.

Referenced by cell(), deltaEta(), getEta(), loadSpecPars(), and unitID().

std::vector<int> HcalNumberingFromDDD::shiftHB [private]

Definition at line 81 of file HcalNumberingFromDDD.h.

Referenced by getShift(), and loadSpecPars().

std::vector<int> HcalNumberingFromDDD::shiftHE [private]

Definition at line 83 of file HcalNumberingFromDDD.h.

Referenced by getShift(), and loadSpecPars().

std::vector<int> HcalNumberingFromDDD::shiftHF [private]

Definition at line 85 of file HcalNumberingFromDDD.h.

Referenced by getShift(), and loadSpecPars().

std::vector<double> HcalNumberingFromDDD::zHE [private]

Definition at line 91 of file HcalNumberingFromDDD.h.

Referenced by cell(), and loadGeometry().

std::vector<double> HcalNumberingFromDDD::zho [private]

Definition at line 92 of file HcalNumberingFromDDD.h.

Referenced by getEtaHO(), loadGeometry(), and unitID().

double HcalNumberingFromDDD::zVcal [private]

Definition at line 86 of file HcalNumberingFromDDD.h.

Referenced by deltaEta(), getEta(), loadSpecPars(), and unitID().

std::vector<double> HcalNumberingFromDDD::zxb [private]

Definition at line 96 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry().

std::vector<double> HcalNumberingFromDDD::zxe [private]

Definition at line 98 of file HcalNumberingFromDDD.h.

Referenced by loadGeometry(), and tileHE().