#include <HcalGeomParameters.h>

Public Member Functions
double	getConstDzHF () const

void	getConstRHO (std::vector< double > &) const

std::vector< int >	getModHalfHBHE (const int type) const

	HcalGeomParameters ()

void	loadGeometry (const DDFilteredView &_fv, HcalParameters &php)

	~HcalGeomParameters ()

Private Member Functions
unsigned	find (int element, std::vector< int > &array) const

double	getEta (double r, double z) const

Private Attributes
double	dlShort

double	dzVcal

double	etaHO [4]

int	nmodHB

int	nmodHE

int	nzHB

int	nzHE

double	rminHO

double	zVcal

Detailed Description

this class extracts some geometry constants from CompactView to be used by Reco Geometry/Topology

Date: 2015/06/25 00:06:50

Author: Sunanda Banerjee, Fermilab sunan.nosp@m.da.b.nosp@m.anerj.nosp@m.ee@c.nosp@m.ern.c.nosp@m.h

Definition at line 26 of file HcalGeomParameters.h.

Constructor & Destructor Documentation

HcalGeomParameters::HcalGeomParameters ( )

Definition at line 20 of file HcalGeomParameters.cc.

References gather_cfg::cout.

                                        {
 #ifdef EDM_ML_DEBUG
   std::cout << "HcalGeomParameters::HcalGeomParameters ( const DDCompactView& cpv ) constructor" << std::endl;
 #endif
 }

HcalGeomParameters::~HcalGeomParameters ( )

Definition at line 26 of file HcalGeomParameters.cc.

References gather_cfg::cout.

                                         { 
 #ifdef EDM_ML_DEBUG
   std::cout << "HcalGeomParameters::destructed!!!" << std::endl;
 #endif
 }

Member Function Documentation

unsigned int HcalGeomParameters::find	(	int	element,
		std::vector< int > &	array
	)		const

private

Definition at line 49 of file HcalGeomParameters.cc.

References mps_fire::i, and triggerObjects_cff::id.

Referenced by getConstDzHF(), and loadGeometry().

                                                    {
   unsigned int id = array.size();
   for (unsigned int i = 0; i < array.size(); i++) {
     if (element == array[i]) {
       id = i;
       break;
     }
   }
   return id;
 }

double HcalGeomParameters::getConstDzHF ( ) const

inline

Definition at line 33 of file HcalGeomParameters.h.

References mps_check::array, dzVcal, find(), getConstRHO(), getEta(), getModHalfHBHE(), loadGeometry(), alignCSCRings::r, and z.

Referenced by HcalParametersFromDD::build().

33 {return dzVcal;}

HcalGeomParameters::dzVcal

double dzVcal

Definition: HcalGeomParameters.h:47

void HcalGeomParameters::getConstRHO ( std::vector< double > & rHO ) const

Definition at line 32 of file HcalGeomParameters.cc.

References etaHO, mps_fire::i, and rminHO.

Referenced by HcalParametersFromDD::build(), and getConstDzHF().

                                                                    {
 
   rHO.emplace_back(rminHO);
   for (double i : etaHO) rHO.emplace_back(i);
 }

double HcalGeomParameters::getEta	(	double	r,
		double	z
	)		const

private

Definition at line 61 of file HcalGeomParameters.cc.

References gather_cfg::cout, cmsBatch::log, funct::tan(), and tmp.

Referenced by getConstDzHF(), and loadGeometry().

                                                           {
 
   double tmp = 0;
   if (z != 0) tmp = -log(tan(0.5*atan(r/z)));
 #ifdef EDM_ML_DEBUG
   std::cout << "HcalGeomParameters::getEta " << r << " " << z  << " ==> " 
         << tmp << std::endl;
 #endif
   return tmp;
 }

std::vector< int > HcalGeomParameters::getModHalfHBHE ( const int type ) const

Definition at line 38 of file HcalGeomParameters.cc.

References nmodHB, nmodHE, nzHB, and nzHE.

Referenced by HcalParametersFromDD::build(), and getConstDzHF().

                                                                       {
 
   std::vector<int> modHalf;
   if (type == 0) {
     modHalf.emplace_back(nmodHB); modHalf.emplace_back(nzHB);
   } else {
     modHalf.emplace_back(nmodHE); modHalf.emplace_back(nzHE);
   }
   return modHalf;
 }

void HcalGeomParameters::loadGeometry	(	const DDFilteredView &	_fv,
		HcalParameters &	php
	)

Definition at line 72 of file HcalGeomParameters.cc.

References funct::abs(), DDTrap::alpha1(), DDTrap::alpha2(), popcon2dropbox::copy(), DDFilteredView::copyNumbers(), funct::cos(), gather_cfg::cout, ddcons, ddpolycone_rrz, ddtubs, HcalParameters::drHB, PVValHelper::dx, HcalParameters::dx1HE, HcalParameters::dx2HE, HcalParameters::dxHB, PVValHelper::dy, HcalParameters::dyHB, HcalParameters::dyHE, PVValHelper::dz, HcalParameters::dzHE, dzVcal, etaHO, find(), runEdmFileComparison::found, getEta(), DDBox::halfX(), DDBox::halfY(), DDTrap::halfZ(), DDBox::halfZ(), photonIsolationHIProducer_cfi::hf, mps_fire::i, cuy::ib, reco::if(), createfilelist::int, gen::k, GetRecoTauVFromDQM_MC_cff::kk, HcalParameters::layHB, HcalParameters::layHE, DDFilteredView::logicalPart(), min(), DDBase< N, C >::name(), DDFilteredView::next(), nmodHB, nmodHE, nzHB, nzHE, DDSolid::parameters(), HcalParameters::rHB, HcalParameters::rhoxHB, HcalParameters::rhoxHE, 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(), HcalParameters::zHE, HcalParameters::zHO, HcalParameters::zxHB, and HcalParameters::zxHE.

Referenced by HcalParametersFromDD::build(), and getConstDzHF().

                                            {
 
   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;
   std::vector<double> rxb;
 #ifdef EDM_ML_DEBUG
   std::vector<double> rminHE(20,0.0), rmaxHE(20,0.0);
 #endif
   php.rhoxHB.clear(); php.zxHB.clear(); php.dyHB.clear(); php.dxHB.clear();
   php.layHB.clear(); php.layHE.clear();
   php.zxHE.clear(); php.rhoxHE.clear(); php.dyHE.clear(); php.dx1HE.clear(); php.dx2HE.clear();
   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;
 #ifdef EDM_ML_DEBUG
     double alp(0);
 #endif
     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();
 #ifdef EDM_ML_DEBUG
       alp= 0.5*(trp.alpha1()+trp.alpha2());
 #endif
     } 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 EDM_ML_DEBUG
       std::cout << "HB " << sol.name() << " Shape " << sol.shape()
         << " Layer " << lay << " R " << t.Rho() << std::endl;
 #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 (double k : rxb) {
         if (std::abs(k-t.Rho()) < 0.01) {
           found = true;
           break;
         }
       }
       if (!found) {
         rxb.emplace_back(t.Rho());
         php.rhoxHB.emplace_back(t.Rho()*std::cos(t.phi()));
         php.zxHB.emplace_back(std::abs(t.z()));
         php.dyHB.emplace_back(2.*dy);
         php.dxHB.emplace_back(2.*dz);
         php.layHB.emplace_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.emplace_back(iz);
     unsigned int it2 = find(fi, phib);
     if (it2 == phib.size()) phib.emplace_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<php.zHO.size(); kk++) {
         if (std::abs(z2-php.zHO[kk]) < 0.01) {
           sok = false;
           break;
         }   else if (z2 < php.zHO[kk]) {
           php.zHO.resize(php.zHO.size()+2);
           for (unsigned int kz=php.zHO.size()-1; kz>kk+1; kz=kz-2) {
         php.zHO[kz]   = php.zHO[kz-2];
         php.zHO[kz-1] = php.zHO[kz-3];
           }
           php.zHO[kk+1] = z2;
           php.zHO[kk]   = z1;
           sok = false;
           break;
         }
       }
       if (sok) {
         php.zHO.emplace_back(z1);
         php.zHO.emplace_back(z2);
       }
 #ifdef EDM_ML_DEBUG
       std::cout << "Detector " << idet << " Lay " << lay << " fi " << ifi 
             << " " << ich << " z " << z1 << " " << z2 << std::endl;
 #endif
     }
       }
     } else if (idet == 4) {
       // HE
 #ifdef EDM_ML_DEBUG
       std::cout << "HE " << sol.name() << " Shape " << sol.shape()
         << " Layer " << lay << " Z " << t.z() << std::endl;
 #endif
       if (lay >=0 && lay < 20) {
     ie[lay]++;
     ze[lay] += std::abs(t.z());
     if (thke[lay] <= 0) thke[lay] = dz;
 #ifdef EDM_ML_DEBUG
     double rinHE  = t.Rho()*cos(alp) - dy;
     double routHE = t.Rho()*cos(alp) + dy;
     rminHE[lay] += rinHE;
     rmaxHE[lay] += routHE;
 #endif
     bool found = false;
     for (double k : php.zxHE) {
       if (std::abs(k-std::abs(t.z())) < 0.01) {
         found = true;
         break;
       }
     }
     if (!found) {
       php.zxHE.emplace_back(std::abs(t.z()));
       php.rhoxHE.emplace_back(t.Rho()*std::cos(t.phi()));
       php.dyHE.emplace_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);
       php.dx1HE.emplace_back(-dx1);
       php.dx2HE.emplace_back(-dx2);
       php.layHE.emplace_back(lay);
     }
       }
       if (copy[nsiz-1] == 21 || copy[nsiz-1] == 71) {
     int iz = copy[nsiz-7];
     int fi = copy[nsiz-5];
     unsigned int it1 = find(iz, ize);
     if (it1 == ize.size())  ize.emplace_back(iz);
     unsigned int it2 = find(fi, phie);
     if (it2 == phie.size()) phie.emplace_back(fi);
       }
     } else if (idet == 5) {
       // HF
       if (!hf) {
     const std::vector<double> & paras = sol.parameters();
 #ifdef EDM_ML_DEBUG
     std::cout << "HF " << sol.name() << " Shape " << sol.shape()
           << " Z " << t.z() << " with " << paras.size()
           << " Parameters" << std::endl;
     for (unsigned j=0; j<paras.size(); j++)
       std::cout << "HF Parameter[" << j << "] = " << paras[j] << std::endl;
 #endif
     if (sol.shape() == ddpolycone_rrz) {
       int nz  = (int)(paras.size())-3;
       dzVcal  = 0.5*(paras[nz]-paras[3]);
       hf      = true;
     } else if (sol.shape() == ddtubs || sol.shape() == ddcons) {
       dzVcal  = paras[0];
       hf      = true;
     }
       }
 #ifdef EDM_ML_DEBUG
     } else {
       std::cout << "Unknown Detector " << idet << " for " << sol.name() 
         << " Shape " << sol.shape() << " R " << t.Rho() << " Z " 
         << t.z() << std::endl;
 #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 EDM_ML_DEBUG
     if (ie[i]> 0) {
       rminHE[i] /= (double)(ie[i]);
       rmaxHE[i] /= (double)(ie[i]);
     }
     std::cout << "Index " << i << " Barrel " << ib[i] << " "
           << rb[i] << " Endcap " << ie[i] << " " << ze[i] << ":"
           << rminHE[i] << ":" << rmaxHE[i] << std::endl;
 #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 EDM_ML_DEBUG
     if (ib[i] == 0 || ie[i] == 0)
       std::cout << "Index " << i << " Barrel " << ib[i] << " "
         << rb[i] << " Endcap " << ie[i] << " " << ze[i] << std::endl;
 #endif
   }
 
 #ifdef EDM_ML_DEBUG
   for (unsigned int k=0; k<php.layHB.size(); ++k)
     std::cout << "HB: " << php.layHB[k] << " R " << rxb[k] << " " << php.rhoxHB[k] << " Z " << php.zxHB[k] << " DY " << php.dyHB[k] << " DZ " << php.dxHB[k] << "\n";
   for (unsigned int k=0; k<php.layHE.size(); ++k) 
     std::cout << "HE: " << php.layHE[k] << " R " << php.rhoxHE[k] << " Z " << php.zxHE[k] << " X1|X2 " << php.dx1HE[k] << "|" << php.dx2HE[k] << " DY " << php.dyHE[k] << "\n";
   std::cout << "HcalGeomParameters: Maximum Layer for HB " << ibmx << " for HE "
         << iemx << " extent " << dzVcal << std::endl;
 #endif
 
   if (ibmx > 0) {
     php.rHB.resize(ibmx);
     php.drHB.resize(ibmx);
     for (int i=0; i<ibmx; i++) {
       php.rHB[i]  = rb[i];
       php.drHB[i] = thkb[i];
 #ifdef EDM_ML_DEBUG
       std::cout << "HcalGeomParameters: php.rHB[" << i << "] = " << php.rHB[i] 
         << " php.drHB[" << i << "] = " << php.drHB[i] << std::endl;
 #endif
     }
   }
   if (iemx > 0) {
     php.zHE.resize(iemx);
     php.dzHE.resize(iemx);
     for (int i=0; i<iemx; i++) {
       php.zHE[i]  = ze[i];
       php.dzHE[i] = thke[i];
 #ifdef EDM_ML_DEBUG
       std::cout << "HcalGeomParameters: php.zHE[" << i << "] = " << php.zHE[i] 
         << " php.dzHE[" << i << "] = " << php.dzHE[i] << std::endl;
 #endif
     }
   }
 
   nzHB   = (int)(izb.size());
   nmodHB = (int)(phib.size());
 #ifdef EDM_ML_DEBUG
   std::cout << "HcalGeomParameters::loadGeometry: " << nzHB
         << " barrel half-sectors" << std::endl;
   for (int i=0; i<nzHB; i++)
     std::cout << "Section " << i << " Copy number " << izb[i] << std::endl;
   std::cout << "HcalGeomParameters::loadGeometry: " << nmodHB
         << " barrel modules" << std::endl;
   for (int i=0; i<nmodHB; i++)
     std::cout << "Module " << i << " Copy number " << phib[i] << std::endl;
 #endif
 
   nzHE   = (int)(ize.size());
   nmodHE = (int)(phie.size());
 #ifdef EDM_ML_DEBUG
   std::cout << "HcalGeomParameters::loadGeometry: " << nzHE
         << " endcap half-sectors" << std::endl;
   for (int i=0; i<nzHE; i++)
     std::cout << "Section " << i << " Copy number " << ize[i] << std::endl;
   std::cout << "HcalGeomParameters::loadGeometry: " << nmodHE
         << " endcap modules" << std::endl;
   for (int i=0; i<nmodHE; i++)
     std::cout << "Module " << i << " Copy number " << phie[i] << std::endl;
 #endif
 
 #ifdef EDM_ML_DEBUG
   std::cout << "HO has Z of size " << php.zHO.size() << std::endl;
   for (unsigned int kk=0; kk<php.zHO.size(); kk++)
     std::cout << "ZHO[" << kk << "] = " << php.zHO[kk] << std::endl;
 #endif
   if (ibmx > 17 && php.zHO.size() > 4) {
     rminHO   = php.rHB[17]-100.0;
     etaHO[0] = getEta(0.5*(php.rHB[17]+php.rHB[18]), php.zHO[1]);
     etaHO[1] = getEta(php.rHB[18]+php.drHB[18], php.zHO[2]);
     etaHO[2] = getEta(php.rHB[18]-php.drHB[18], php.zHO[3]);
     etaHO[3] = getEta(php.rHB[18]+php.drHB[18], php.zHO[4]);
   } else {
     rminHO   =-1.0;
     etaHO[0] = etaHO[1] = etaHO[2] = etaHO[3] = 0;
   }
 #ifdef EDM_ML_DEBUG
   std::cout << "HO Eta boundaries " << etaHO[0] << " " << etaHO[1]
         << " " << etaHO[2] << " " << etaHO[3] << std::endl;
   std::cout << "HO Parameters " << rminHO << " " << php.zHO.size();
   for (int i=0; i<4; ++i) std::cout << " eta[" << i << "] = " << etaHO[i];
   for (unsigned int i=0; i<php.zHO.size(); ++i) std::cout << " zho[" << i << "] = " << php.zHO[i];
   std::cout << std::endl;
 #endif
 }