#include <SimG4CMS/Forward/interface/CastorNumberingScheme.h>
Public Member Functions | |
CastorNumberingScheme () | |
virtual uint32_t | getUnitID (const G4Step *aStep) const |
virtual | ~CastorNumberingScheme () |
Static Public Member Functions | |
static uint32_t | packIndex (int z, int sector, int zmodule) |
static void | unpackIndex (const uint32_t &idx, int &z, int §or, int &zmodule) |
Private Types | |
typedef G4LogicalVolume * | lvp |
Private Member Functions | |
void | detectorLevel (const G4Step *, int &, int *, lvp *) const |
Private Attributes | |
lvp | lvC3EF |
lvp | lvC3HF |
lvp | lvC4EF |
lvp | lvC4HF |
lvp | lvCAER |
lvp | lvCAES |
lvp | lvCAHR |
lvp | lvCAHS |
lvp | lvCAST |
lvp | lvCEDR |
lvp | lvCEDS |
lvp | lvCHDR |
lvp | lvCHDS |
Description: This class manages the UnitID that labels Castor sensitive volumes
Usage: Used in CastorSD to get unique ID of sensitive detector element
Definition at line 31 of file CastorNumberingScheme.h.
typedef G4LogicalVolume* CastorNumberingScheme::lvp [private] |
Definition at line 58 of file CastorNumberingScheme.h.
CastorNumberingScheme::CastorNumberingScheme | ( | ) |
Definition at line 15 of file CastorNumberingScheme.cc.
References LogDebug, lvC3EF, lvC3HF, lvC4EF, lvC4HF, lvCAER, lvCAES, lvCAHR, lvCAHS, lvCAST, lvCEDR, lvCEDS, lvCHDR, and lvCHDS.
: lvCAST(0),lvCAES(0),lvCEDS(0), lvCAHS(0),lvCHDS(0),lvCAER(0), lvCEDR(0),lvCAHR(0),lvCHDR(0), lvC3EF(0),lvC3HF(0),lvC4EF(0), lvC4HF(0) { edm::LogInfo("ForwardSim") << "Creating CastorNumberingScheme"; const G4LogicalVolumeStore * lvs = G4LogicalVolumeStore::GetInstance(); std::vector<lvp>::const_iterator lvcite; for (lvcite = lvs->begin(); lvcite != lvs->end(); lvcite++) { if (strcmp(((*lvcite)->GetName()).c_str(),"CAST") == 0) lvCAST = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CAES") == 0) lvCAES = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CEDS") == 0) lvCEDS = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CAHS") == 0) lvCAHS = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CHDS") == 0) lvCHDS = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CAER") == 0) lvCAER = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CEDR") == 0) lvCEDR = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CAHR") == 0) lvCAHR = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"CHDR") == 0) lvCHDR = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"C3EF") == 0) lvC3EF = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"C3HF") == 0) lvC3HF = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"C4EF") == 0) lvC4EF = (*lvcite); if (strcmp(((*lvcite)->GetName()).c_str(),"C4HF") == 0) lvC4HF = (*lvcite); } #ifdef debug LogDebug("ForwardSim") << "CastorNumberingScheme:: LogicalVolume pointers\n" << lvCAST << " for CAST; " << lvCAES << " for CAES; " << lvCEDS << " for CEDS; " << lvCAHS << " for CAHS; " << lvCHDS << " for CHDS; " << lvCAER << " for CAER; " << lvCEDR << " for CEDR; " << lvCAHR << " for CAHR; " << lvCHDR << " for CHDR; " << lvC3EF << " for C3EF; " << lvC3HF << " for C3HF; " << lvC4EF << " for C4EF; " << lvC4HF << " for C4HF."; #endif }
CastorNumberingScheme::~CastorNumberingScheme | ( | ) | [virtual] |
Definition at line 50 of file CastorNumberingScheme.cc.
{ edm::LogInfo("ForwardSim") << "Deleting CastorNumberingScheme"; }
void CastorNumberingScheme::detectorLevel | ( | const G4Step * | aStep, |
int & | level, | ||
int * | copyno, | ||
lvp * | lvs | ||
) | const [private] |
Definition at line 176 of file CastorNumberingScheme.cc.
References i, cuy::ii, and testEve_cfg::level.
Referenced by getUnitID().
{ //Get name and copy numbers const G4VTouchable* touch = aStep->GetPreStepPoint()->GetTouchable(); level = 0; if (touch) level = ((touch->GetHistoryDepth())+1); if (level > 0) { for (int ii = 0; ii < level; ii++) { int i = level - ii - 1; lvs[ii] = touch->GetVolume(i)->GetLogicalVolume(); copyno[ii] = touch->GetReplicaNumber(i); } } }
uint32_t CastorNumberingScheme::getUnitID | ( | const G4Step * | aStep | ) | const [virtual] |
Definition at line 54 of file CastorNumberingScheme.cc.
References detectorLevel(), getHLTprescales::index, testEve_cfg::level, LogDebug, lvC3EF, lvC3HF, lvC4EF, lvC4HF, lvCAER, lvCAES, lvCAHR, lvCAHS, lvCAST, lvCEDR, lvCEDS, lvCHDR, lvCHDS, packIndex(), and DetId::rawId().
Referenced by CastorSD::setDetUnitId().
{ uint32_t intindex = 0; uint32_t index=0; int level, copyno[20]; lvp lvs[20]; detectorLevel(aStep, level, copyno, lvs); #ifdef debug LogDebug("ForwardSim") << "CastorNumberingScheme number of levels= " <<level; #endif if (level > 0) { int zside = 0; int sector = 0; int module = 0; // HcalCastorDetId::Section section; for (int ich=0; ich < level; ich++) { if(lvs[ich] == lvCAST) { // Z index +Z = 1 ; -Z = 2 zside = copyno[ich]; } else if(lvs[ich] == lvCAES || lvs[ich] == lvCEDS) { // sector number for dead material 1 - 8 //section = HcalCastorDetId::EM; if (copyno[ich]<5) {sector = 5-copyno[ich] ; }else{sector = 13-copyno[ich] ;} } else if(lvs[ich] == lvCAHS || lvs[ich] == lvCHDS) { // sector number for dead material 1 - 8 if (copyno[ich]<5) {sector = 5-copyno[ich] ; }else{sector = 13-copyno[ich] ;} //section = HcalCastorDetId::HAD; } else if(lvs[ich] == lvCAER || lvs[ich] == lvCEDR) { // zmodule number 1-2 for EM section (2 copies) module = copyno[ich]; } else if(lvs[ich] == lvCAHR || lvs[ich] == lvCHDR) { //zmodule number 3-14 for HAD section (12 copies) module = copyno[ich] + 2; } else if(lvs[ich] == lvC3EF || lvs[ich] == lvC3HF) { // sector number for sensitive material 1 - 16 sector = sector*2 ; } else if(lvs[ich] == lvC4EF || lvs[ich] == lvC4HF) { // sector number for sensitive material 1 - 16 sector = sector*2 -1; } #ifdef debug LogDebug("ForwardSim") << "CastorNumberingScheme " << "ich = " << ich << "copyno" << copyno[ich] << "name = " << lvs[ich]->GetName(); #endif } // use for Castor number 9 // // Z index +Z = 1 ; -Z = 2 // sector number 1 - 16 // zmodule number 1 - 18 // int det = 9; // intindex = packIndex (det, zside, sector, zmodule); //intindex = packIndex (section, zside, sector, module); intindex = packIndex(zside, sector, module); bool true_for_positive_eta = false; if(zside == 1)true_for_positive_eta = true; if(zside == -1)true_for_positive_eta = false; HcalCastorDetId castorId = HcalCastorDetId(true_for_positive_eta, sector, module); index = castorId.rawId(); #ifdef debug LogDebug("ForwardSim") << "CastorNumberingScheme :" <<" zside " << zside << " sector " << sector << " module " << module << " UnitID 0x" << std::hex << intindex << std::dec; #endif } return index; }
uint32_t CastorNumberingScheme::packIndex | ( | int | z, |
int | sector, | ||
int | zmodule | ||
) | [static] |
pack the Unit ID for Castor
Bits 0- 5: zmodule index
Bits 6- 9: sector index
Bits 10-19: unused
Bit 20: +/- z side
Bits 22-27: unused
Bits 28-31: subdetector
(+z=1,-z=2); sector=1..16, zmodule=1..18;
Definition at line 144 of file CastorNumberingScheme.cc.
References customizeTrackingMonitorSeedNumber::idx.
Referenced by CastorShowerLibraryMaker::FillShowerEvent(), and getUnitID().
{ /* uint32_t idx=(section&31)<<28; //bits 28-31 (21-27 are free for now) idx+=((z-1)&1)<<20; //bits 20 (1...2) idx+=(sector&15)<<6; //bits 6-9 (1...16) idx+=(module&63); //bits 0-5 (1...18) return idx; */ uint32_t idx=((z-1)&1)<<8; //bit 8 idx+=(sector&15)<<4; //bits 4-7 (1...16) idx+=(module&15); //bits 0-3 (1...14) return idx; }
void CastorNumberingScheme::unpackIndex | ( | const uint32_t & | idx, |
int & | z, | ||
int & | sector, | ||
int & | zmodule | ||
) | [static] |
Definition at line 162 of file CastorNumberingScheme.cc.
Referenced by CastorShowerLibraryMaker::FillShowerEvent(), CastorTestAnalysis::getCastorBranchData(), and DoCastorAnalysis::update().
lvp CastorNumberingScheme::lvC3EF [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvC3HF [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvC4EF [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvC4HF [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCAER [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCAES [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCAHR [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCAHS [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCAST [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCEDR [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCEDS [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCHDR [private] |
Definition at line 64 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().
lvp CastorNumberingScheme::lvCHDS [private] |
Definition at line 63 of file CastorNumberingScheme.h.
Referenced by CastorNumberingScheme(), and getUnitID().