#include <HDRShower.h>
Public Member Functions | |
bool | computeShower () |
float | getR () |
HDRShower (const RandomEngine *engine, HDShowerParametrization *myParam, EcalHitMaker *myGrid, HcalHitMaker *myHcalHitMaker, int onECAL, double epart) | |
void | setFuncParam () |
bool | setHit (float espot, float theta) |
void | thetaFunction (int nthetaStep) |
virtual | ~HDRShower () |
Private Attributes | |
float | decal |
float | depthECAL |
float | depthGAP |
double | depthStart |
double | e |
float | EcalShift |
float | EgridTable [NEnergyScan] |
float | eHDspot |
std::vector< float > | elastspot |
float | EsCut |
double | lambdaEM |
double | lambdaHD |
float | maxDepth |
int | nthetaStep |
int | onEcal |
bool | qstatus |
const RandomEngine * | random |
float | rpdf [R_range] |
EcalHitMaker * | theGrid |
HcalHitMaker * | theHcalHitMaker |
HDShowerParametrization * | theParam |
float | Theta1amp [NEnergyScan] |
float | Theta1ampSig [NEnergyScan] |
float | Theta1Lambda [NEnergyScan] |
float | Theta1LambdaSig [NEnergyScan] |
float | ThetaLam21 [NEnergyScan] |
float | ThetaLam21Sig [NEnergyScan] |
std::vector< int > | thetaSpots |
float | thetaStep |
double | x0EM |
double | x0HD |
Definition at line 22 of file HDRShower.h.
HDRShower::HDRShower | ( | const RandomEngine * | engine, |
HDShowerParametrization * | myParam, | ||
EcalHitMaker * | myGrid, | ||
HcalHitMaker * | myHcalHitMaker, | ||
int | onECAL, | ||
double | epart | ||
) |
Definition at line 23 of file HDRShower.cc.
References e, EcalShift, eHDspot, EsCut, nthetaStep, and setFuncParam().
: theParam(myParam), theGrid(myGrid), theHcalHitMaker(myHcalHitMaker), onEcal(onECAL), e(epart), random(engine) { eHDspot = 0.2; EsCut = 0.050; EcalShift = 0.12; nthetaStep = 10; if(e < 0) e = 0.; setFuncParam(); }
virtual HDRShower::~HDRShower | ( | ) | [inline, virtual] |
Definition at line 33 of file HDRShower.h.
{;}
bool HDRShower::computeShower | ( | ) |
Definition at line 46 of file HDRShower.cc.
References decal, depthECAL, depthGAP, depthStart, e, EcalHitMaker::ecalHcalGapTotalL0(), EcalShift, EcalHitMaker::ecalTotalL0(), eHDspot, elastspot, RandomEngine::flatShoot(), EcalHitMaker::getPads(), EcalHitMaker::hcalTotalL0(), i, j, funct::log(), M_PI, maxDepth, nthetaStep, onEcal, qstatus, random, setHit(), theGrid, theta(), thetaFunction(), thetaSpots, and thetaStep.
Referenced by CalorimetryManager::HDShowerSimulation().
{ if(onEcal) { depthECAL = theGrid->ecalTotalL0(); // ECAL depth segment depthGAP = theGrid->ecalHcalGapTotalL0(); // GAP depth segment } else depthECAL = depthGAP = 0; float depthHCAL = theGrid->hcalTotalL0(); // HCAL depth segment // maxDepth = depthECAL + depthGAP + depthHCAL - 1.0; maxDepth = depthECAL + depthHCAL - 0.5; depthStart = log(1./random->flatShoot()); // starting point lambda unts if( depthStart > maxDepth ) { depthStart = maxDepth * random->flatShoot(); if( depthStart < 0.) depthStart = 0.; } if( depthStart < EcalShift) depthStart = EcalShift; decal = (depthECAL + depthStart)*0.5; qstatus = false; if(decal < depthECAL) { qstatus = theGrid->getPads(decal); // if(!qstatus) // cout<<" depth rejected by getQuads(decal="<<decal<<") status="<<qstatus // <<" depthECAL="<<depthECAL<<endl; } thetaStep = 0.5*M_PI/nthetaStep; thetaFunction(nthetaStep); int maxLoops = 10000; float esum = e; for(int itheta = 0; itheta < nthetaStep; itheta++) { float theta, es; for(int i=0; i<=thetaSpots[itheta]; i++) { if(i == thetaSpots[itheta]) es = elastspot[itheta]; else es = eHDspot; float loops = 0; for(int j=0; j<maxLoops; j++) { theta = (itheta+random->flatShoot())*thetaStep; if( setHit(es, theta) ) break; loops++; } esum -= es; // to check only } } return(true); }
float HDRShower::getR | ( | ) |
Definition at line 127 of file HDRShower.cc.
References RandomEngine::flatShoot(), i, lambdaHD, L1TEmulatorMonitor_cff::p, csvReporter::r, R_range, random, and rpdf.
Referenced by setHit().
void HDRShower::setFuncParam | ( | ) |
Definition at line 195 of file HDRShower.cc.
References debug, e, HDShowerParametrization::ecalProperties(), EgridTable, funct::exp(), HDShowerParametrization::hcalProperties(), i, HCALProperties::interactionLength(), ECALProperties::interactionLength(), lambdaEM, lambdafit, lambdaHD, funct::log(), LogDebug, NEnergyScan, onEcal, funct::pow(), csvReporter::r, R_range, HCALProperties::radLenIncm(), rpdf, theParam, Theta1amp, Theta1ampSig, Theta1Lambda, Theta1LambdaSig, ThetaLam21, ThetaLam21Sig, ExpressReco_HICollisions_FallBack::x, and x0HD.
Referenced by HDRShower().
{ lambdaHD = theParam->hcalProperties()->interactionLength(); x0HD = theParam->hcalProperties()->radLenIncm(); if(onEcal) lambdaEM = theParam->ecalProperties()->interactionLength(); else lambdaEM = lambdaHD; if(debug) LogDebug("FastCalorimetry") <<"setFuncParam-> lambdaEM="<<lambdaEM<<" lambdaHD="<<lambdaHD<<endl; float _EgridTable[NEnergyScan] = { 10, 20, 30, 50, 100, 300, 500 }; float _Theta1amp[NEnergyScan] = { 1.57, 2.05, 2.27, 2.52, 2.66, 2.76, 2.76}; float _Theta1ampSig[NEnergyScan]={2.40, 1.50, 1.25, 1.0, 0.8, 0.52, 0.52}; float _Theta1Lambda[NEnergyScan] = { 0.086, 0.092, 0.88, 0.80, 0.0713, 0.0536, 0.0536 }; float _Theta1LambdaSig[NEnergyScan] = { 0.038, 0.037, 0.027,0.03, 0.023, 0.018, 0.018 }; float _ThetaLam21[NEnergyScan] = { 2.8, 2.44, 2.6, 2.77, 3.16, 3.56, 3.56 }; float _ThetaLam21Sig[NEnergyScan]={ 1.8, 0.97, 0.87, 0.77, 0.7, 0.49, 0.49 }; for(int i=0; i<NEnergyScan; i++) { EgridTable[i] = _EgridTable[i]; Theta1amp[i] = _Theta1amp[i]; Theta1ampSig[i] = _Theta1ampSig[i]; Theta1Lambda[i] = _Theta1Lambda[i]; Theta1LambdaSig[i] = _Theta1LambdaSig[i]; ThetaLam21[i] = _ThetaLam21[i]; ThetaLam21Sig[i]= _ThetaLam21Sig[i]; } #define lambdafit 15.05 float R_alfa = -0.0993 + 0.1114*log(e); float R_p = 0.589191 + 0.0463392 *log(e); float R_beta_lam=(0.54134 -0.00011148*e)/4.0*lambdafit;//was fitted in 4cmbin float LamOverX0 = lambdaHD/x0HD; // 10.52 // int R_range = 100; // 7 lambda // rpdf.erase(rpdf.begin(),rpdf.end()); rpdf[0] = 0.; for(int i=1; i<R_range; i++) { float x = (float(i))/lambdaHD; float r = pow(x,R_alfa)* (R_p*exp(-R_beta_lam*x) + (1-R_p)*exp(-LamOverX0*R_beta_lam*x)); rpdf[i] = r; // rpdf.push_back(r); } for(int i=1; i<R_range; i++) rpdf[i] += rpdf[i-1]; for(int i=0; i<R_range; i++) rpdf[i] /= rpdf[R_range -1]; }
bool HDRShower::setHit | ( | float | espot, |
float | theta | ||
) |
Definition at line 98 of file HDRShower.cc.
References EcalHitMaker::addHit(), HcalHitMaker::addHit(), funct::cos(), depthECAL, depthGAP, depthStart, RandomEngine::flatShoot(), getR(), M_PI, maxDepth, onEcal, phi, qstatus, random, query::result, HcalHitMaker::setDepth(), HcalHitMaker::setSpotEnergy(), EcalHitMaker::setSpotEnergy(), funct::sin(), theGrid, and theHcalHitMaker.
Referenced by computeShower().
{ float phi = 2.*M_PI*random->flatShoot(); // temporary: 1st approximation float rshower = getR(); // temporary: 1st approximation float d = depthStart + rshower*cos(theta); if(d + depthGAP > maxDepth) return(false); // Commented (F.B) to remove a warning. Not used anywhere ? // bool inHcal = !onEcal || d>depthECAL || !qstatus; bool result = 0; if( !onEcal || d>depthECAL || !qstatus) { // in HCAL (HF or HB, HE) d += depthGAP; bool setHDdepth = theHcalHitMaker->setDepth(d); if( setHDdepth) { theHcalHitMaker->setSpotEnergy(espot); result = theHcalHitMaker->addHit(rshower*sin(theta),phi,0); } else LogWarning("FastCalorimetry") <<" setHit in HCAL failed d="<<d <<" maxDepth="<<maxDepth<<" onEcal'"<<onEcal<<endl; } else { // bool status = theGrid->getQuads(d); theGrid->setSpotEnergy(espot); result = theGrid->addHit(rshower*sin(theta),phi,0); } return(result); }
void HDRShower::thetaFunction | ( | int | nthetaStep | ) |
Definition at line 138 of file HDRShower.cc.
References a, trackerHits::c, e, EgridTable, eHDspot, elastspot, EsCut, funct::exp(), RandomEngine::flatShoot(), RandomEngine::gaussShoot(), i, gen::k, n, NEnergyScan, nthetaStep, L1TEmulatorMonitor_cff::p, random, theta(), Theta1amp, Theta1ampSig, Theta1Lambda, Theta1LambdaSig, ThetaLam21, ThetaLam21Sig, thetaSpots, and thetaStep.
Referenced by computeShower().
{ int i = 0; while( EgridTable[i]<e && i<NEnergyScan) { i++; } float amean, asig, lambda1, lambda1sig,lam21,lam21sig; amean = Theta1amp[i]; asig = Theta1ampSig[i]; lambda1 = Theta1Lambda[i]; lambda1sig = Theta1LambdaSig[i]; lam21 = ThetaLam21[i]; lam21sig = ThetaLam21Sig[i]; if(i==0) i=1; //extrapolation to the left float c = (e-EgridTable[i-1])/(EgridTable[i]-EgridTable[i-1]); amean += (Theta1amp[i]-Theta1amp[i-1]) * c; asig += (Theta1ampSig[i]-Theta1ampSig[i-1]) * c; lambda1 +=(Theta1Lambda[i]-Theta1Lambda[i-1]) * c; lambda1sig += (Theta1LambdaSig[i]-Theta1LambdaSig[i-1]) * c; lam21 += (ThetaLam21[i]-ThetaLam21[i-1]) * c; lam21sig += (ThetaLam21Sig[i]-ThetaLam21Sig[i-1]) * c; float a = exp(amean + asig*random->gaussShoot()); float L1 = lambda1 + lambda1sig*random->gaussShoot(); if(L1 < 0.02) L1 = 0.02; float L2 = L1*(lam21 + lam21sig*random->gaussShoot()); vector<double> pdf; pdf.erase(pdf.begin(),pdf.end()); thetaSpots.erase(thetaSpots.begin(),thetaSpots.end()); elastspot.erase(elastspot.begin(),elastspot.end()); double sum = 0; for(int it=0; it<nthetaStep; it++) { float theta = it*thetaStep; float p = a*exp(L1*theta) + exp(L2*theta); sum += p; pdf.push_back(p); } float ntot = e/eHDspot; float esum=0; for(int i=0; i<nthetaStep; i++) { float fn = ntot*pdf[i]/sum; thetaSpots.push_back(int(fn)); elastspot.push_back((fn - int(fn))*eHDspot); } for(int i=0; i<nthetaStep; i++) if(elastspot[i] <EsCut) { esum += elastspot[i]; elastspot[i] = 0; } float en = esum/EsCut; int n = int(en); en = esum - n*EsCut; for(int i=0; i<=n; i++) { int k = int(nthetaStep*random->flatShoot()); if(k<0 || k>nthetaStep-1) k = k%nthetaStep; if(i == n) elastspot[k] += en; else elastspot[k] += EsCut; } }
float HDRShower::decal [private] |
Definition at line 66 of file HDRShower.h.
Referenced by computeShower().
float HDRShower::depthECAL [private] |
Definition at line 61 of file HDRShower.h.
Referenced by computeShower(), and setHit().
float HDRShower::depthGAP [private] |
Definition at line 61 of file HDRShower.h.
Referenced by computeShower(), and setHit().
double HDRShower::depthStart [private] |
Definition at line 54 of file HDRShower.h.
Referenced by computeShower(), and setHit().
double HDRShower::e [private] |
Definition at line 47 of file HDRShower.h.
Referenced by computeShower(), HDRShower(), setFuncParam(), and thetaFunction().
float HDRShower::EcalShift [private] |
Definition at line 57 of file HDRShower.h.
Referenced by computeShower(), and HDRShower().
float HDRShower::EgridTable[NEnergyScan] [private] |
Definition at line 68 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::eHDspot [private] |
Definition at line 55 of file HDRShower.h.
Referenced by computeShower(), HDRShower(), and thetaFunction().
std::vector<float> HDRShower::elastspot [private] |
Definition at line 63 of file HDRShower.h.
Referenced by computeShower(), and thetaFunction().
float HDRShower::EsCut [private] |
Definition at line 56 of file HDRShower.h.
Referenced by HDRShower(), and thetaFunction().
double HDRShower::lambdaEM [private] |
Definition at line 53 of file HDRShower.h.
Referenced by setFuncParam().
double HDRShower::lambdaHD [private] |
Definition at line 53 of file HDRShower.h.
Referenced by getR(), and setFuncParam().
float HDRShower::maxDepth [private] |
Definition at line 61 of file HDRShower.h.
Referenced by computeShower(), and setHit().
int HDRShower::nthetaStep [private] |
Definition at line 58 of file HDRShower.h.
Referenced by computeShower(), HDRShower(), and thetaFunction().
int HDRShower::onEcal [private] |
Definition at line 46 of file HDRShower.h.
Referenced by computeShower(), setFuncParam(), and setHit().
bool HDRShower::qstatus [private] |
Definition at line 65 of file HDRShower.h.
Referenced by computeShower(), and setHit().
const RandomEngine* HDRShower::random [private] |
Definition at line 77 of file HDRShower.h.
Referenced by computeShower(), getR(), setHit(), and thetaFunction().
float HDRShower::rpdf[R_range] [private] |
Definition at line 64 of file HDRShower.h.
Referenced by getR(), and setFuncParam().
EcalHitMaker* HDRShower::theGrid [private] |
Definition at line 44 of file HDRShower.h.
Referenced by computeShower(), and setHit().
HcalHitMaker* HDRShower::theHcalHitMaker [private] |
Definition at line 45 of file HDRShower.h.
Referenced by setHit().
HDShowerParametrization* HDRShower::theParam [private] |
Definition at line 43 of file HDRShower.h.
Referenced by setFuncParam().
float HDRShower::Theta1amp[NEnergyScan] [private] |
Definition at line 69 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::Theta1ampSig[NEnergyScan] [private] |
Definition at line 70 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::Theta1Lambda[NEnergyScan] [private] |
Definition at line 71 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::Theta1LambdaSig[NEnergyScan] [private] |
Definition at line 72 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::ThetaLam21[NEnergyScan] [private] |
Definition at line 73 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
float HDRShower::ThetaLam21Sig[NEnergyScan] [private] |
Definition at line 74 of file HDRShower.h.
Referenced by setFuncParam(), and thetaFunction().
std::vector<int> HDRShower::thetaSpots [private] |
Definition at line 62 of file HDRShower.h.
Referenced by computeShower(), and thetaFunction().
float HDRShower::thetaStep [private] |
Definition at line 60 of file HDRShower.h.
Referenced by computeShower(), and thetaFunction().
double HDRShower::x0EM [private] |
Definition at line 53 of file HDRShower.h.
double HDRShower::x0HD [private] |
Definition at line 53 of file HDRShower.h.
Referenced by setFuncParam().