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#include <EcalElectronicsMapping.h>
Classes | |
| struct | MapItem |
| Wrap a generic EcalTrigTowerDetId to the equivalent one in z+ Quadrant 1 (from 0 < phi < pi/2) More... | |
Public Member Functions | |
| void | assign (const DetId &cell, const EcalElectronicsId &, const EcalTriggerElectronicsId &tower) |
| set the association between a DetId and a tower | |
| int | DCCBoundary (int FED) const |
| std::vector< DetId > | dccConstituents (int dccId) const |
| Get the constituent detids for this dccId. | |
| int | DCCid (const EBDetId &id) const |
| returns the DCC of an EBDetId | |
| int | DCCid (const EcalTrigTowerDetId &id) const |
| returns the DCCid (i.e. the FED) of a Trigger Tower | |
| std::vector< DetId > | dccTowerConstituents (int dccId, int tower) const |
| Get the constituent detids for this dccId. | |
| EcalElectronicsMapping () | |
| std::pair< int, int > | getDCCandSC (EcalScDetId id) const |
| DetId | getDetId (const EcalElectronicsId &id) const |
| Get the detid given an electronicsId. | |
| DetId | getDetId (const EcalTriggerElectronicsId &id) const |
| Get the detid given a trigger electronicsId. | |
| std::vector< EcalScDetId > | getEcalScDetId (int DCCid, int DCC_Channel, bool ignoreSingleCrystal=true) const |
| EcalElectronicsId | getElectronicsId (const DetId &id) const |
| Get the electronics id for this det id. | |
| EcalElectronicsId | getElectronicsId (const EcalTriggerElectronicsId &id) const |
| Get the electronics id given a trigger electronicsId. | |
| int | GetFED (double eta, double phi) const |
| std::vector< int > | GetListofFEDs (const EcalEtaPhiRegion region) const |
| void | GetListofFEDs (const EcalEtaPhiRegion region, std::vector< int > &FEDs) const |
| int | getLMNumber (const DetId &id) const |
| EcalTriggerElectronicsId | getTriggerElectronicsId (const DetId &id) const |
| Get the trigger electronics id for this det id. | |
| EcalTriggerElectronicsId | getTriggerElectronicsId (const EcalElectronicsId &id) const |
| Get the trigger electronics id given an electronicsId. | |
| EcalTrigTowerDetId | getTrigTowerDetId (int TCCid, int iTT) const |
| Builds a EcalTrigTowerDetID from the TCCid & TriggerTower index in TCC. | |
| int | iTT (const EcalTrigTowerDetId &id) const |
| returns the index of a Trigger Tower within its TCC. | |
| std::vector< DetId > | pseudoStripConstituents (int tccId, int tt, int pseudostrip) const |
| Get the constituent detids for this dccId. | |
| bool | rightTower (int tower) const |
| std::vector< DetId > | stripConstituents (int dccId, int tower, int strip) const |
| Get the constituent detids for this dccId. | |
| EcalSubdetector | subdet (int dccid, int mode) const |
| std::vector< DetId > | tccConstituents (int tccId) const |
| Get the constituent detids for this dccId. | |
| int | TCCid (const EBDetId &id) const |
| returns the TCCid of an EBDetId | |
| int | TCCid (const EcalTrigTowerDetId &id) const |
| returns the TCCid of a Trigger Tower | |
| std::vector< DetId > | ttConstituents (int tccId, int tt) const |
| Get the constituent detids for this dccId. | |
| int | zside (int dcctcc, int mode) const |
Static Public Attributes | |
| static const int | DCCID_PHI0_EBM = EcalElectronicsId::DCCID_PHI0_EBM |
| static const int | DCCID_PHI0_EBP = EcalElectronicsId::DCCID_PHI0_EBP |
| static const int | iEEEtaMinInner = 22 |
| static const int | iEEEtaMinOuter = 18 |
| static const int | kCrystalsInPhi = EBDetId::kCrystalsInPhi |
| static const int | kEBTowersInEta = EcalTrigTowerDetId::kEBTowersInEta |
| static const int | kEBTowersInPhi = EcalTrigTowerDetId::kEBTowersInPhi |
| static const int | kEBTowersPerSM = EcalTrigTowerDetId::kEBTowersPerSM |
| static const int | kEETowersInEta = EcalTrigTowerDetId::kEETowersInEta |
| static const int | kEETowersInEtaPerInnerTCC = 7 |
| static const int | kEETowersInEtaPerOuterTCC = 4 |
| static const int | kEETowersInPhiPerQuadrant = EcalTrigTowerDetId::kEETowersInPhiPerQuadrant |
| static const int | kEETowersInPhiPerTCC = 4 |
| static const int | kTCCinPhi = 18 |
| static const int | kTowersInPhi = EBDetId::kTowersInPhi |
| static const int | MAX_DCCID = EcalElectronicsId::MAX_DCCID |
| static const int | MAX_DCCID_EBM = EcalElectronicsId::MAX_DCCID_EBM |
| static const int | MAX_DCCID_EBP = EcalElectronicsId::MAX_DCCID_EBP |
| static const int | MAX_DCCID_EEM = EcalElectronicsId::MAX_DCCID_EEM |
| static const int | MAX_DCCID_EEP = EcalElectronicsId::MAX_DCCID_EEP |
| static const int | MAX_LM = 92 |
| static const int | MAX_TCCID = EcalTriggerElectronicsId::MAX_TCCID |
| static const int | MAX_TCCID_EBM = EcalTriggerElectronicsId::MAX_TCCID_EBM |
| static const int | MAX_TCCID_EBP = EcalTriggerElectronicsId::MAX_TCCID_EBP |
| static const int | MAX_TCCID_EEM = EcalTriggerElectronicsId::MAX_TCCID_EEM |
| static const int | MAX_TCCID_EEP = EcalTriggerElectronicsId::MAX_TCCID_EEP |
| static const int | MIN_DCCID = EcalElectronicsId::MIN_DCCID |
| static const int | MIN_DCCID_EBM = EcalElectronicsId::MIN_DCCID_EBM |
| static const int | MIN_DCCID_EBP = EcalElectronicsId::MIN_DCCID_EBP |
| static const int | MIN_DCCID_EEM = EcalElectronicsId::MIN_DCCID_EEM |
| static const int | MIN_DCCID_EEP = EcalElectronicsId::MIN_DCCID_EEP |
| static const int | MIN_LM_EBM = 1 |
| static const int | MIN_LM_EBP = 37 |
| static const int | MIN_LM_EEM = 73 |
| static const int | MIN_LM_EEP = 83 |
| static const int | MIN_TCCID = EcalTriggerElectronicsId::MIN_TCCID |
| static const int | MIN_TCCID_EBM = EcalTriggerElectronicsId::MIN_TCCID_EBM |
| static const int | MIN_TCCID_EBP = EcalTriggerElectronicsId::MIN_TCCID_EBP |
| static const int | MIN_TCCID_EEM = EcalTriggerElectronicsId::MIN_TCCID_EEM |
| static const int | MIN_TCCID_EEP = EcalTriggerElectronicsId::MIN_TCCID_EEP |
| static const int | TCCID_PHI0_EBM = EcalTriggerElectronicsId::TCCID_PHI0_EBM |
| static const int | TCCID_PHI0_EBP = EcalTriggerElectronicsId::TCCID_PHI0_EBP |
| static const int | TCCID_PHI0_EEM_IN = EcalTriggerElectronicsId::TCCID_PHI0_EEM_IN |
| static const int | TCCID_PHI0_EEM_OUT = EcalTriggerElectronicsId::TCCID_PHI0_EEM_OUT |
| static const int | TCCID_PHI0_EEP_IN = EcalTriggerElectronicsId::TCCID_PHI0_EEP_IN |
| static const int | TCCID_PHI0_EEP_OUT = EcalTriggerElectronicsId::TCCID_PHI0_EEP_OUT |
Private Types | |
| typedef boost::multi_index::multi_index_container < MapItem, boost::multi_index::indexed_by < boost::multi_index::ordered_unique < boost::multi_index::member < MapItem, DetId,&MapItem::cell > >, boost::multi_index::ordered_unique < boost::multi_index::member < MapItem, EcalElectronicsId,&MapItem::elid > >, boost::multi_index::ordered_unique < boost::multi_index::member < MapItem, EcalTriggerElectronicsId,&MapItem::trelid > >, boost::multi_index::ordered_non_unique < boost::multi_index::const_mem_fun < MapItem, int,&MapItem::dccId > >, boost::multi_index::ordered_non_unique < boost::multi_index::composite_key < MapItem, boost::multi_index::const_mem_fun < MapItem, int,&MapItem::dccId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::towerId > > >, boost::multi_index::ordered_non_unique < boost::multi_index::composite_key < MapItem, boost::multi_index::const_mem_fun < MapItem, int,&MapItem::dccId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::towerId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::stripId > > >, boost::multi_index::ordered_non_unique < boost::multi_index::const_mem_fun < MapItem, int,&MapItem::tccId > >, boost::multi_index::ordered_non_unique < boost::multi_index::composite_key < MapItem, boost::multi_index::const_mem_fun < MapItem, int,&MapItem::tccId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::ttId > > >, boost::multi_index::ordered_non_unique < boost::multi_index::composite_key < MapItem, boost::multi_index::const_mem_fun < MapItem, int,&MapItem::tccId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::ttId > , boost::multi_index::const_mem_fun < MapItem, int,&MapItem::pseudoStripId > > > > > | EcalElectronicsMap |
| typedef EcalElectronicsMap::nth_index < 3 >::type | EcalElectronicsMap_by_DccId |
| typedef EcalElectronicsMap::nth_index < 4 >::type | EcalElectronicsMap_by_DccId_and_TowerId |
| typedef EcalElectronicsMap::nth_index < 5 >::type | EcalElectronicsMap_by_DccId_TowerId_and_StripId |
| typedef EcalElectronicsMap::nth_index < 0 >::type | EcalElectronicsMap_by_DetId |
| typedef EcalElectronicsMap::nth_index < 1 >::type | EcalElectronicsMap_by_ElectronicsId |
| typedef EcalElectronicsMap::nth_index < 6 >::type | EcalElectronicsMap_by_TccId |
| typedef EcalElectronicsMap::nth_index < 7 >::type | EcalElectronicsMap_by_TccId_and_TtId |
| typedef EcalElectronicsMap::nth_index < 8 >::type | EcalElectronicsMap_by_TccId_TtId_and_PseudostripId |
| typedef EcalElectronicsMap::nth_index < 2 >::type | EcalElectronicsMap_by_TriggerElectronicsId |
Private Attributes | |
| std::map< int, int > | LaserMonitoringMap_EB |
| std::map< int, int > | LaserMonitoringMap_EE |
| EcalElectronicsMap | m_items |
Static Private Attributes | |
| static const int | DCCMODE = 0 |
| static const int | TCCMODE = 1 |
Definition at line 32 of file EcalElectronicsMapping.h.
typedef boost::multi_index::multi_index_container< MapItem, boost::multi_index::indexed_by< boost::multi_index::ordered_unique< boost::multi_index::member < MapItem,DetId,&MapItem::cell > >, boost::multi_index::ordered_unique< boost::multi_index::member < MapItem,EcalElectronicsId,&MapItem::elid > >, boost::multi_index::ordered_unique< boost::multi_index::member < MapItem,EcalTriggerElectronicsId,&MapItem::trelid > >, boost::multi_index::ordered_non_unique< boost::multi_index::const_mem_fun < MapItem, int, &MapItem::dccId > >, boost::multi_index::ordered_non_unique< boost::multi_index::composite_key< MapItem, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::dccId > , boost::multi_index::const_mem_fun < MapItem, int, &MapItem::towerId > > >, boost::multi_index::ordered_non_unique< boost::multi_index::composite_key< MapItem, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::dccId > , boost::multi_index::const_mem_fun < MapItem, int, &MapItem::towerId >, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::stripId > > >, boost::multi_index::ordered_non_unique< boost::multi_index::const_mem_fun < MapItem, int, &MapItem::tccId > >, boost::multi_index::ordered_non_unique< boost::multi_index::composite_key< MapItem, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::tccId > , boost::multi_index::const_mem_fun < MapItem, int, &MapItem::ttId > > >, boost::multi_index::ordered_non_unique< boost::multi_index::composite_key< MapItem, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::tccId > , boost::multi_index::const_mem_fun < MapItem, int, &MapItem::ttId >, boost::multi_index::const_mem_fun < MapItem, int, &MapItem::pseudoStripId > > > > > EcalElectronicsMapping::EcalElectronicsMap [private] |
Definition at line 274 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<3>::type EcalElectronicsMapping::EcalElectronicsMap_by_DccId [private] |
Definition at line 280 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<4>::type EcalElectronicsMapping::EcalElectronicsMap_by_DccId_and_TowerId [private] |
Definition at line 281 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<5>::type EcalElectronicsMapping::EcalElectronicsMap_by_DccId_TowerId_and_StripId [private] |
Definition at line 282 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<0>::type EcalElectronicsMapping::EcalElectronicsMap_by_DetId [private] |
Definition at line 276 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<1>::type EcalElectronicsMapping::EcalElectronicsMap_by_ElectronicsId [private] |
Definition at line 277 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<6>::type EcalElectronicsMapping::EcalElectronicsMap_by_TccId [private] |
Definition at line 284 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<7>::type EcalElectronicsMapping::EcalElectronicsMap_by_TccId_and_TtId [private] |
Definition at line 285 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<8>::type EcalElectronicsMapping::EcalElectronicsMap_by_TccId_TtId_and_PseudostripId [private] |
Definition at line 286 of file EcalElectronicsMapping.h.
typedef EcalElectronicsMap::nth_index<2>::type EcalElectronicsMapping::EcalElectronicsMap_by_TriggerElectronicsId [private] |
Definition at line 278 of file EcalElectronicsMapping.h.
| EcalElectronicsMapping::EcalElectronicsMapping | ( | ) |
Definition at line 38 of file EcalElectronicsMapping.cc.
{
// Fill the map (Barrel) for the Laser Monitoring readout numbers :
// Each DCC actually corresponds to 2 LMs, ilm and ilm + 1
int ilm = MIN_LM_EBM;
for (int dcc=MIN_DCCID_EBM; dcc <= MAX_DCCID_EBM; dcc++) {
LaserMonitoringMap_EB[dcc] = ilm;
ilm += 2;
}
ilm = MIN_LM_EBP;
for (int dcc=MIN_DCCID_EBP; dcc <= MAX_DCCID_EBP; dcc++) {
LaserMonitoringMap_EB[dcc] = ilm;
ilm += 2;
}
// Fill the map (EndCap) for the Laser Monitoring readout numbers :
// Each DCC corresponds to onr LM, but DCC 8 (LM 80 and 81) and DCC 53 (LM 90 and 91)
ilm = MIN_LM_EEM;
for (int dcc=MIN_DCCID_EEM; dcc <= MAX_DCCID_EEM; dcc++) {
LaserMonitoringMap_EE[dcc] = ilm;
ilm += 1;
if (dcc == 8) ilm += 1;
}
ilm = MIN_LM_EEP;
for (int dcc=MIN_DCCID_EEP; dcc <= MAX_DCCID_EEP; dcc++) {
LaserMonitoringMap_EE[dcc] = ilm;
ilm += 1;
if (dcc == 53) ilm += 1;
}
}
| void EcalElectronicsMapping::assign | ( | const DetId & | cell, |
| const EcalElectronicsId & | elid, | ||
| const EcalTriggerElectronicsId & | tower | ||
| ) |
set the association between a DetId and a tower
Definition at line 792 of file EcalElectronicsMapping.cc.
Referenced by EcalElectronicsMappingBuilder::FillFromDatabase().
{
m_items.insert(MapItem(cell, elid, tower));
}
| int EcalElectronicsMapping::DCCBoundary | ( | int | FED | ) | const |
Definition at line 963 of file EcalElectronicsMapping.cc.
{
if (FED >= MIN_DCCID_EEM && FED <= MAX_DCCID_EEM) return MIN_DCCID_EEM;
if (FED >= MIN_DCCID_EBM && FED <= MAX_DCCID_EBM) return MIN_DCCID_EBM;
if (FED >= MIN_DCCID_EBP && FED <= MAX_DCCID_EBP) return MIN_DCCID_EBP;
if (FED >= MIN_DCCID_EEP && FED <= MAX_DCCID_EEP) return MIN_DCCID_EEP;
return -1;
}
| std::vector< DetId > EcalElectronicsMapping::dccConstituents | ( | int | dccId | ) | const |
Get the constituent detids for this dccId.
Definition at line 579 of file EcalElectronicsMapping.cc.
References cond::rpcobgas::detid, EcalBarrel, EcalEndcap, Exception, i, and findQualityFiles::size.
{
EcalSubdetector sub = subdet(dccId,DCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
for (int tower=1; tower <= kEBTowersPerSM; tower++) {
std::vector<DetId> xtals = dccTowerConstituents(dccId,tower);
int size = xtals.size();
for (int i=0; i < size; i++) {
DetId detid = xtals[i];
items.push_back(detid);
}
}
return items;
}
else if (sub == EcalEndcap) {
EcalElectronicsMap_by_DccId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<3>(m_items).equal_range(dccId);
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
else throw cms::Exception("InvalidDetId") << "Wrong dccId = " << dccId << " in EcalElectronicsMapping::dccConstituents. ";
}
| int EcalElectronicsMapping::DCCid | ( | const EBDetId & | id | ) | const |
returns the DCC of an EBDetId
Definition at line 73 of file EcalElectronicsMapping.cc.
Referenced by EcalTPGParamBuilder::analyze(), HLTAlCa::analyze(), and Numbers::iSM().
{
int dcc = id.ism();
if (id.zside() < 0) {
dcc += DCCID_PHI0_EBM - 19;
}
else {
dcc += DCCID_PHI0_EBP -1;
}
return dcc;
}
| int EcalElectronicsMapping::DCCid | ( | const EcalTrigTowerDetId & | id | ) | const |
returns the DCCid (i.e. the FED) of a Trigger Tower
Definition at line 204 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, Exception, evf::evtn::offset(), and phi.
{
// This is needed for digitoraw. For a given Trigger Tower,
// one needs to know to which FED it gets written.
if ( id.subDet() == EcalBarrel )
{
int phi = id.iphi() +2;
if (phi > 72) phi = phi-72;
int dcc = ( phi - 1 ) / kEBTowersInPhi + 1;
if ( id.zside() < 0 ) dcc += 18; // now id is the SMid
if (id.zside() < 0) {
dcc += DCCID_PHI0_EBM - 19;
}
else {
dcc += DCCID_PHI0_EBP -1;
}
return dcc;
}
else if ( id.subDet() == EcalEndcap)
{ //FIXME : yes I need to improve this part of the code...
int tccid = TCCid(id);
int dcc=0;
int offset = 0;
if (tccid >= 73) {
tccid = tccid-72;
offset = 45;
}
if (tccid == 24 || tccid == 25 || tccid == 6 || tccid == 7) dcc=4;
if (tccid == 26 || tccid == 27 || tccid == 8 || tccid == 9) dcc=5;
if (tccid == 28 || tccid == 29 || tccid == 10 || tccid == 11) dcc=6;
if (tccid == 30 || tccid == 31 || tccid == 12 || tccid == 13) dcc=7;
if (tccid == 32 || tccid == 33 || tccid == 14 || tccid == 15) dcc=8;
if (tccid == 34 || tccid == 35 || tccid == 16 || tccid == 17) dcc=9;
if (tccid == 36 || tccid == 19 || tccid == 18 || tccid == 1) dcc=1;
if (tccid == 20 || tccid == 21 || tccid == 2 || tccid == 3) dcc=2;
if (tccid == 22 || tccid == 23 || tccid == 4 || tccid == 5) dcc=3;
dcc += offset;
return dcc;
}
else {
throw cms::Exception("InvalidDetId") << " Wrong EcalTrigTowerDetId in EcalElectronicsMapping::DCCid.";
return 0;
}
}
| std::vector< DetId > EcalElectronicsMapping::dccTowerConstituents | ( | int | dccId, |
| int | tower | ||
| ) | const |
Get the constituent detids for this dccId.
Definition at line 610 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, EBDetId::ETAPHIMODE, and Exception.
Referenced by EEDcsInfoTask::beginLuminosityBlock(), EEDaqInfoTask::beginLuminosityBlock(), Numbers::crystals(), EEDataCertificationTask::endLuminosityBlock(), EEDataCertificationTask::endRun(), EcalElectronicsMapper::fillMaps(), ecaldqm::fillME(), EEDaqInfoTask::fillMonitorElements(), EEDcsInfoTask::fillMonitorElements(), DCCDataUnpacker::getCCUValue(), ecaldqm::setBinContentME(), ecaldqm::setBinEntriesME(), and ecaldqm::setBinErrorME().
{
EcalSubdetector sub = subdet(dccId,DCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
int iz = zside(dccId, DCCMODE);
int smid = 0;
int iphi = 0;
if (iz < 0) {
smid = dccId + 19 - DCCID_PHI0_EBM;
iphi = (smid - 19) * kCrystalsInPhi;
iphi += 5 * ( (tower-1) % kTowersInPhi );
}
else {
smid = dccId +1 - DCCID_PHI0_EBP;
iphi = (smid - 1) * kCrystalsInPhi;
iphi += 5 * (
kTowersInPhi - ( (tower-1) % kTowersInPhi ) -1
);
}
int ieta = 5 * ((tower-1) / kTowersInPhi) + 1;
for (int ip=1; ip <=5; ip++) {
for (int ie=0; ie <=4; ie++) {
int ieta_xtal = ieta + ie;
int iphi_xtal = iphi + ip;
if (iz < 0) ieta_xtal = -ieta_xtal;
EBDetId ebdetid(ieta_xtal,iphi_xtal,EBDetId::ETAPHIMODE);
items.push_back(ebdetid);
}
}
return items;
}
else if (sub == EcalEndcap) {
EcalElectronicsMap_by_DccId_and_TowerId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<4>(m_items).equal_range(boost::make_tuple(int(dccId), int(tower)));
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
else throw cms::Exception("InvalidDetId") <<
"Wrong dccId = " << dccId << " tower = " << tower << " in EcalElectronicsMapping::dccTowerConstituents.";
}
| std::pair< int, int > EcalElectronicsMapping::getDCCandSC | ( | EcalScDetId | id | ) | const |
Retrieves the DCC channel that reads the crystals constituting an ECAL supercystal (SC). For standard 5x5 complete SCs, there is a one-to-one matching between DCC channel and SC. For partial SCs, the relation from SC to DCC channel is N-to-N. The 3-2-1 partial SC type has 1 crystal read by a DCC channel and the others read by another DCC channel. If the former crystal is ignored for the DCC channel matching, then the SC-to-DCC channel association is simplified to 1-to-N relation. This method uses this prescription and therefore returns a single DCC channel.
| id | SC identifier |
Definition at line 798 of file EcalElectronicsMapping.cc.
References EcalElectronicsId::dccId(), EEDetId::ix(), EcalElectronicsId::towerId(), EEDetId::validDetId(), and EEDetId::XYMODE.
Referenced by EcalSelectiveReadoutValidation::dccCh(), EcalSelectiveReadoutValidation::dccId(), EcalSelectiveReadout::eeRuInterest(), ecaldqm::fillME(), Numbers::iSC(), Numbers::iSM(), EcalSelectiveReadout::printDccChMap(), ecaldqm::setBinContentME(), ecaldqm::setBinEntriesME(), and ecaldqm::setBinErrorME().
{
// pair.first = DCC id
// pair.second = DCC_channel
// For digi2raw, read the SRflags and write the SR block :
// need to find out, for an EcalScDetId, which is the DCC and the DCC_channel
std::pair<int,int> ind;
EEDetId dum;
int ix = id.ix();
int iy = id.iy();
int zside = id.zside();
ix = (ix-1)*5 +1;
iy = (iy-1)*5 +1;
ix = 5 * (ix/5) +1;
iy = 5 * (iy/5) +1;
int ix_c = ix;
int iy_c = iy;
if (! dum.validDetId(ix_c,iy_c,zside) ) {
ix_c = ix +4;
iy_c = iy ;
if ( ! dum.validDetId(ix_c,iy_c,zside) ) {
ix_c = ix +4;
iy_c = iy +4;
if ( ! dum.validDetId(ix_c,iy_c,zside) ) {
ix_c = ix;
iy_c = iy +4;
}
}
}
EEDetId eedetid(ix_c,iy_c,zside,EEDetId::XYMODE);
EcalElectronicsId elid = getElectronicsId(eedetid);
int Dccid = elid.dccId();
int DCC_Channel = elid.towerId();
ind.first = Dccid;
ind.second = DCC_Channel;
return ind;
}
| DetId EcalElectronicsMapping::getDetId | ( | const EcalTriggerElectronicsId & | id | ) | const |
Get the detid given a trigger electronicsId.
Definition at line 523 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, Exception, and spr::find().
{
EcalSubdetector subdet = id.subdet();
if (subdet == EcalBarrel) {
const EcalElectronicsId& elid = getElectronicsId(id);
DetId cell = getDetId(elid);
return cell;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_TriggerElectronicsId::const_iterator it=get<2>(m_items).find(id);
if(it==get<2>(m_items).end())
{ DetId cell(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non valid DetId";
return cell; }
DetId cell = it -> cell;
return cell;
}
else throw cms::Exception("InvalidDetId") << "Wrong EcalTriggerElectronicsId in EcalElectronicsMapping::getDetId." ;
}
| DetId EcalElectronicsMapping::getDetId | ( | const EcalElectronicsId & | id | ) | const |
Get the detid given an electronicsId.
Definition at line 422 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, EBDetId::ETAPHIMODE, Exception, spr::find(), and strip().
Referenced by EcalElectronicsMapper::fillMaps(), DCCDataUnpacker::getChannelValue(), and EcalDetIdToBeRecoveredProducer::produce().
{
EcalSubdetector subdet = id.subdet();
if (subdet == EcalBarrel) {
int dcc = id.dccId();
int tower = id.towerId();
int strip = id.stripId();
int channel = id.xtalId();
int smid = 0;
int iphi = 0;
bool EBPlus = (id.zside() > 0);
bool EBMinus = !EBPlus;
if (id.zside() < 0) {
smid = dcc + 19 - DCCID_PHI0_EBM;
iphi = (smid - 19) * kCrystalsInPhi;
iphi += 5 * ( (tower-1) % kTowersInPhi );
}
else {
smid = dcc +1 - DCCID_PHI0_EBP;
iphi = (smid - 1) * kCrystalsInPhi;
iphi += 5 * (
kTowersInPhi - ( (tower-1) % kTowersInPhi ) -1
);
}
bool RightTower = rightTower(tower);
int ieta = 5 * ((tower-1) / kTowersInPhi) + 1;
if (RightTower) {
ieta += (strip-1);
if (strip%2 == 1) {
if (EBMinus) iphi += (channel-1) +1;
if (EBPlus) iphi += (4 - (channel-1)) +1;
}
else {
if (EBMinus) iphi += (4 - (channel-1)) +1;
if (EBPlus) iphi += (channel-1) +1;
}
}
else {
ieta += 4 - (strip-1);
if (strip%2 == 1) {
if (EBMinus) iphi += (4 - (channel-1)) +1;
if (EBPlus) iphi += (channel-1) +1;
}
else {
if (EBMinus) iphi += (channel-1) +1;
if (EBPlus) iphi += (4 - (channel-1)) +1;
}
}
if (id.zside() < 0) ieta = -ieta;
EBDetId e(ieta,iphi,EBDetId::ETAPHIMODE);
return e;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_ElectronicsId::const_iterator it=get<1>(m_items).find(id);
if(it==(get<1>(m_items).end()))
{ DetId cell(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non DetId";
return cell; }
DetId cell = it -> cell;
return cell;
}
else throw cms::Exception("InvalidDetId") << "Wrong EcalElectronicsId in EcalElectronicsMapping::getDetId." ;
}
| std::vector< EcalScDetId > EcalElectronicsMapping::getEcalScDetId | ( | int | DCCid, |
| int | DCC_Channel, | ||
| bool | ignoreSingleCrystal = true |
||
| ) | const |
builds EcalScDetId's from (DCC, DCC_channel) Most of the time there is only one SC read-out by the DCC channel, but few DCC channels read VPTs coming from two different partial SCs. There are also 4 SCs per endcap whose one crystal is read out by a different DCC channel than the others. In such case, the SC will be assiociated to the DCC channel reading most of the crystals, the DCC channel reading only one crystal being ignored.
| ignoreSingleCrystal. | There are four partial SCs per endcap whose one crystal is read out by a different DCC channel than for the other crystals. If this parameter is true these single crystals will be ignored: if a SC has only one crystal read out by the DCC channel, then the SC will not be included in the returned list. a differentsimplification, SC read out by two different DCC channels |
Definition at line 839 of file EcalElectronicsMapping.cc.
References gather_cfg::cout, debug, i, EEDetId::ix(), EEDetId::iy(), and EEDetId::zside().
Referenced by EEDcsInfoTask::beginLuminosityBlock(), EEDaqInfoTask::beginLuminosityBlock(), EEDataCertificationTask::endLuminosityBlock(), EEDataCertificationTask::endRun(), EcalElectronicsMapper::fillMaps(), EEDaqInfoTask::fillMonitorElements(), EEDcsInfoTask::fillMonitorElements(), Numbers::getEcalScDetId(), and EcalSelectiveReadoutValidation::readOutUnitOf().
{
//Debug output switch:
const bool debug = false;
// For unpacking of ST flags.
//result: SCs readout by the DCC channel DCC_channel of DCC DCCid.
//Vector of 1 or 2 elements: most of the time there is only
//one SC read-out by the DCC channel, but for some channels
//there are 2 partial SCs which were grouped.
std::vector<EcalScDetId> scDetIds;
//There are 4 SCs in each endcap whose one crystal is read out
//by a different DCC channel than the others.
//Number of crystals of the SC read out by the DCC channel:
std::vector<int> nReadoutXtals;
std::vector<DetId> xtals = dccTowerConstituents(DCCid, DCC_Channel);
if(debug){
std::cout << __FILE__ << ":" << __LINE__ << ": " << xtals.size()
<< " crystals read out by channel " << DCC_Channel << " of DCC "
<< DCCid << ": ";
for(size_t i = 0; i < xtals.size(); ++i){
std::cout << EEDetId(xtals[i]) << " ";
}
std::cout << "\n";
}
if (xtals.size() == 0) throw cms::Exception("InvalidDetId") <<
"EcalElectronicsMapping : can not create EcalScDetId for DCC " << DCCid <<
" and DCC_Channel " << DCC_Channel << ".";
for(size_t iXtal = 0; iXtal < xtals.size(); ++iXtal){
EEDetId eedetid = xtals[iXtal];
int ix = eedetid.ix();
int iy = eedetid.iy();
int iz = eedetid.zside();
int ix_SC = (ix-1)/5 + 1;
int iy_SC = (iy-1)/5 + 1;
//Supercrystal (SC) the crystal belongs to:
EcalScDetId scdetid(ix_SC,iy_SC,iz);
size_t iSc = 0;
//look if the SC was already included:
while(iSc < scDetIds.size() && scDetIds[iSc] != scdetid) ++iSc;
if(iSc==scDetIds.size()){//SC not yet included
scDetIds.push_back(scdetid);
nReadoutXtals.push_back(1); //crystal counter of the added SC
} else{//SC already included
++nReadoutXtals[iSc];// counting crystals in the SC
}
}
if(ignoreSingleCrystal){
//For simplification, SC read out by two different DCC channels
//will be associated to the DCC channel reading most of the crystals,
//the other DCC channel which read only one crystal is discarded.
//Discards SC with only one crystal read out by the considered,
//DCC channel:
assert(scDetIds.size()==nReadoutXtals.size());
for(size_t iSc = 0; iSc < scDetIds.size(); /*NOOP*/){
if(nReadoutXtals[iSc]<=1){
if(debug) std::cout << "EcalElectronicsMapping::getEcalScDetId: Ignore SC "
<< scDetIds[iSc] << " whose only one channel is read out by "
"the DCC channel (DCC " << DCCid << ", ch " << DCC_Channel<< ").\n";
scDetIds.erase(scDetIds.begin()+iSc);
nReadoutXtals.erase(nReadoutXtals.begin()+iSc);
} else{
++iSc; //next SC;
}
}
}
return scDetIds;
}
| EcalElectronicsId EcalElectronicsMapping::getElectronicsId | ( | const EcalTriggerElectronicsId & | id | ) | const |
Get the electronics id given a trigger electronicsId.
Definition at line 546 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, Exception, spr::find(), strip(), and EcalElectronicsId::subdet().
{
EcalSubdetector subdet = id.subdet();
if (subdet == EcalBarrel) {
int strip = id.pseudoStripId();
int xtal = id.channelId();
int tower = id.ttId();
int dcc = id.tccId();
if (id.zside() < 0) {
dcc -= TCCID_PHI0_EBM - DCCID_PHI0_EBM;
}
else {
dcc -= TCCID_PHI0_EBP - DCCID_PHI0_EBP;
}
EcalElectronicsId elid(dcc,tower,strip,xtal);
return elid;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_TriggerElectronicsId::const_iterator it=get<2>(m_items).find(id);
if(it==get<2>(m_items).end())
{ EcalElectronicsId elid(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non valid id";
return elid; }
EcalElectronicsId elid = it -> elid;
return elid;
}
else throw cms::Exception("InvalidDetId") << "Wrong EcalTriggerElectronicsId in EcalElectronicsMapping::getElectronicsId.";
}
| EcalElectronicsId EcalElectronicsMapping::getElectronicsId | ( | const DetId & | id | ) | const |
Get the electronics id for this det id.
Definition at line 332 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, Exception, spr::find(), EBDetId::ietaAbs(), EBDetId::iphi(), strip(), and EBDetId::tower().
Referenced by EcalTestPulseAnalyzer::analyze(), EcalTPGParamBuilder::analyze(), EcalURecHitHists::analyze(), EcalPerEvtLaserAnalyzer::analyze(), EcalLaserAnalyzer::analyze(), EcalABAnalyzer::analyze(), EcalCosmicsHists::analyze(), EcalLaserAnalyzer2::analyze(), HLTAlCa::analyze(), EcalDccWeightBuilder::dbId(), EcalSelectiveReadoutValidation::dccCh(), EcalSelectiveReadout::eeRuInterest(), EcalElectronicsMapper::fillMaps(), Numbers::getEcalScDetId(), Numbers::icEE(), Numbers::iSC(), Numbers::iSM(), EEHltTask::iSM(), EBHltTask::iSM(), EcalDisplaysByEvent::makeHistos(), printStatusRecords(), EcalPedOffset::readDACs(), EcalDigiDisplay::readEBDigis(), EcalPedHists::readEBdigis(), EcalDigiDisplay::readEEDigis(), EcalPedHists::readEEdigis(), EcalSelectiveReadoutValidation::readOutUnitOf(), EcalMipGraphs::selectDigi(), EcalDisplaysByEvent::selectDigi(), EcalDisplaysByEvent::selectHits(), and EcalMipGraphs::selectHits().
{
EcalSubdetector subdet = EcalSubdetector(id.subdetId());
if (subdet == EcalBarrel) {
const EBDetId ebdetid = EBDetId(id);
int dcc = DCCid(ebdetid);
bool EBPlus = (zside(dcc,DCCMODE) > 0);
bool EBMinus = !EBPlus;
EcalTrigTowerDetId trigtower = ebdetid.tower();
// int tower = trigtower.iTT();
int tower = iTT(trigtower);
int ieta = EBDetId(id).ietaAbs();
int iphi = EBDetId(id).iphi();
int strip(0);
int channel(0);
bool RightTower = rightTower(tower);
if (RightTower) {
strip = (ieta-1)%5;
if (strip%2 == 0) {
if (EBMinus) channel = (iphi-1) %5;
if (EBPlus) channel = 4 -( (iphi-1) %5 );
}
else {
if (EBMinus) channel = 4 -( (iphi-1) %5 );
if (EBPlus) channel = (iphi-1) %5;
}
}
else {
strip = 4 - ( (ieta-1)%5 );
if (strip%2 == 0) {
if (EBMinus) channel = 4 -( (iphi-1) %5 );
if (EBPlus) channel = (iphi-1) %5;
}
else {
if (EBMinus) channel = (iphi-1) %5;
if (EBPlus) channel = 4 -( (iphi-1) %5 );
}
}
strip += 1;
channel += 1;
EcalElectronicsId elid = EcalElectronicsId(dcc,tower,strip,channel);
return elid;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_DetId::const_iterator it=get<0>(m_items).find(id);
if(it==get<0>(m_items).end())
{ EcalElectronicsId elid(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non valid id";
return elid; }
EcalElectronicsId elid = it -> elid;
return elid;
}
else {
throw cms::Exception("InvalidDetId") <<
" Wrong DetId in EcalElectronicsMapping::getElectronicsId.";
}
}
| int EcalElectronicsMapping::GetFED | ( | double | eta, |
| double | phi | ||
| ) | const |
Definition at line 1112 of file EcalElectronicsMapping.cc.
Referenced by EcalRegionCabling::elementIndex(), HLTAlCa::ListOfFEDS(), and EcalRegionCabling::updateEcalRefGetterWithEtaPhi().
{
// for regional unpacking.
// eta is signed, phi is in degrees.
int DCC_Phi0 = 0;
bool IsBarrel = true;
if (fabs(eta) > 1.479) IsBarrel = false;
bool Positive = (eta > 0);
if (IsBarrel && Positive) DCC_Phi0 = DCCID_PHI0_EBP;
if (IsBarrel && (!Positive)) DCC_Phi0 = DCCID_PHI0_EBM;
if ((!IsBarrel) && Positive) DCC_Phi0 = MIN_DCCID_EEP;
if ((!IsBarrel) && (!Positive)) DCC_Phi0 = MIN_DCCID_EEM;
// phi between 0 and 360 deg :
if (phi < 0) phi += 360;
if (phi > 360.) phi = 360. ;
if (phi < 0) phi = 0. ;
if (IsBarrel) phi = phi - 350;
else phi = phi - 330;
if (phi < 0) phi += 360;
int iphi = -1;
if (IsBarrel) iphi = (int)(phi / 20.);
else iphi = (int)(phi / 40.);
// std::cout << " in GetFED : phi iphi DCC0 " << phi << " " << iphi << " " << DCC_Phi0 << std::endl;
int DCC = iphi + DCC_Phi0;
// std::cout << " eta phi " << eta << " " << " " << phi << " is in FED " << DCC << std::endl;
return DCC;
}
| void EcalElectronicsMapping::GetListofFEDs | ( | const EcalEtaPhiRegion | region, |
| std::vector< int > & | FEDs | ||
| ) | const |
Definition at line 979 of file EcalElectronicsMapping.cc.
References gather_cfg::cout, debug, deltaR(), EcalEtaPhiRegion::etaHigh(), EcalEtaPhiRegion::etaLow(), EcalEtaPhiRegion::phiHigh(), EcalEtaPhiRegion::phiLow(), and pi.
{
// for regional unpacking.
// get list of FEDs corresponding to a region in (eta,phi)
// std::vector<int> FEDs;
double radTodeg = 180. / Geom::pi();
bool debug = false;
double etalow = region.etaLow();
double philow = region.phiLow() * radTodeg;
if (debug) std::cout << " etalow philow " << etalow << " " << philow << std::endl;
int FED_LB = GetFED(etalow,philow); // left, bottom
double phihigh = region.phiHigh() * radTodeg;
if (debug) std::cout << " etalow phihigh " << etalow << " " << phihigh << std::endl;
int FED_LT = GetFED(etalow,phihigh); // left, top
int DCC_BoundaryL = DCCBoundary(FED_LB);
int deltaL = 18;
if (FED_LB < MIN_DCCID_EBM || FED_LB > MAX_DCCID_EBP) deltaL=9;
if (philow < -170 && phihigh > 170) {
FED_LB = DCC_BoundaryL;
FED_LT = DCC_BoundaryL + deltaL -1;
}
if (debug) std::cout << " FED_LB FED_LT " << FED_LB << " " << FED_LT << std::endl;
int iL=FED_LB;
bool dummy = true;
int idx = 0;
while ( dummy ) {
iL = (FED_LB - DCC_BoundaryL + idx ) % deltaL + DCC_BoundaryL;
FEDs.push_back(iL);
if (debug) std::cout << " add fed " << iL << std::endl;
if ( iL == FED_LT) break;
idx ++;
}
double etahigh = region.etaHigh();
int FED_RB = GetFED(etahigh, philow); // right, bottom
if (FED_RB == FED_LB) return;// FEDs;
int FED_RT = GetFED(etahigh, phihigh); // right, top
if (debug) std::cout << "etahigh philow phihigh " << etahigh << " " << philow << " " << phihigh << std::endl;
int DCC_BoundaryR = DCCBoundary(FED_RB);
int deltaR = 18;
if (FED_RB < MIN_DCCID_EBM || FED_RB > MAX_DCCID_EBP) deltaR=9;
if (philow < -170 && phihigh > 170) {
FED_RB = DCC_BoundaryR;
FED_RT = DCC_BoundaryR + deltaR-1;
}
if (debug) std::cout << " FED_RB FED_RT " << FED_RB << " " << FED_RT << std::endl;
int iR=FED_RB;
idx = 0;
while ( dummy ) {
iR = (FED_RB - DCC_BoundaryR + idx) % deltaR + DCC_BoundaryR;
FEDs.push_back(iR);
if (debug) std::cout << " add fed " << iR << std::endl;
if ( iR == FED_RT) break;
idx ++;
}
if (FED_LB >= MIN_DCCID_EBM && FED_LB <= MAX_DCCID_EBM &&
FED_RB >= MIN_DCCID_EEP && FED_RB <= MAX_DCCID_EEP) {
int minR = FED_LB + 18;
int maxR = FED_LT + 18;
int iR = minR;
int idx = 0;
while ( dummy ) {
iR = (minR - MIN_DCCID_EBP + idx) % 18 + MIN_DCCID_EBP;
FEDs.push_back(iR);
if (debug) std::cout << " add fed " << iR << std::endl;
if ( iR == maxR) break;
idx ++;
}
return;// FEDs;
}
if (FED_LB >= MIN_DCCID_EEM && FED_LB <= MAX_DCCID_EEM &&
FED_RB >= MIN_DCCID_EBP && FED_RB <= MAX_DCCID_EBP) {
int minL = FED_RB - 18;
int maxL = FED_RT - 18;
int iL = minL;
int idx = 0;
while ( dummy ) {
iL = (minL - MIN_DCCID_EBM + idx) % 18 + MIN_DCCID_EBM;
FEDs.push_back(iL);
if (debug) std::cout << " add fed " << iL << std::endl;
if (iL == maxL) break;
idx ++;
}
return;// FEDs;
}
if (FED_LB >= MIN_DCCID_EEM && FED_LB <= MAX_DCCID_EEM &&
FED_RB >= MIN_DCCID_EEP && FED_RB <= MAX_DCCID_EEP) {
int minL = (FED_LB-1)*2 + MIN_DCCID_EBM;
if (minL == MIN_DCCID_EBM) minL=MAX_DCCID_EBM;
else minL = minL -1;
int maxL = (FED_LT-1)*2 + MIN_DCCID_EBM;
int iL = minL;
int idx = 0;
while (dummy) {
iL = (minL - MIN_DCCID_EBM + idx) % 18 + MIN_DCCID_EBM;
FEDs.push_back(iL);
if (debug) std::cout << " add fed " << iL << std::endl;
if (iL == maxL) break;
idx ++;
}
int minR = minL + 18;
int maxR = maxL + 18;
int iR = minR;
idx = 0;
while (dummy) {
iR = (minR - MIN_DCCID_EBP + idx) % 18 + MIN_DCCID_EBP;
FEDs.push_back(iR);
if (debug) std::cout << " add fed " << iR << std::endl;
if (iR == maxR) break;
idx ++;
}
}
return;// FEDs;
}
| std::vector< int > EcalElectronicsMapping::GetListofFEDs | ( | const EcalEtaPhiRegion | region | ) | const |
Definition at line 974 of file EcalElectronicsMapping.cc.
References reco_application_2006h2rawdata_ecalLocalReco_cfg::FEDs.
Referenced by HLTAlCa::ListOfFEDS(), and ECALRegFEDSelector::produce().
{
std::vector<int> FEDs;
GetListofFEDs(region, FEDs);
return FEDs;
}
| int EcalElectronicsMapping::getLMNumber | ( | const DetId & | id | ) | const |
Definition at line 1147 of file EcalElectronicsMapping.cc.
References EcalElectronicsId::dccId(), EcalBarrel, EcalEndcap, Exception, EBDetId::ietaSM(), EBDetId::iphiSM(), EEDetId::ix(), and edm::second().
Referenced by EcalCosmicsHists::analyze().
{
// Laser Monitoring readout number.
EcalSubdetector subdet = EcalSubdetector(id.subdetId());
if (subdet == EcalBarrel) {
const EBDetId ebdetid = EBDetId(id);
int dccid = DCCid(ebdetid);
std::map<int, int>::const_iterator it = LaserMonitoringMap_EB.find(dccid);
if (it != LaserMonitoringMap_EB.end() ) {
int ilm = it -> second;
int iETA = ebdetid.ietaSM();
int iPHI = ebdetid.iphiSM();
if (iPHI > 10 && iETA>5) {ilm ++; } ;
return ilm;
}
else throw cms::Exception("InvalidDCCId") << "Wrong DCCId (EB) in EcalElectronicsMapping::getLMNumber.";
}
else if (subdet == EcalEndcap) {
EcalElectronicsId elid = getElectronicsId(id);
int dccid = elid.dccId();
EEDetId eedetid = EEDetId(id);
std::map<int, int>::const_iterator it = LaserMonitoringMap_EE.find(dccid);
if (it != LaserMonitoringMap_EB.end() ) {
int ilm = it -> second;
if (dccid == 8) {
int ix = eedetid.ix();
if (ix > 50) ilm += 1;
}
if (dccid == 53) {
int ix = eedetid.ix();
if (ix > 50) ilm += 1;
}
return ilm;
}
else throw cms::Exception("InvalidDCCId") << "Wrong DCCId (EE) in EcalElectronicsMapping::getLMNumber.";
}
return -1;
}
| EcalTriggerElectronicsId EcalElectronicsMapping::getTriggerElectronicsId | ( | const EcalElectronicsId & | id | ) | const |
Get the trigger electronics id given an electronicsId.
Definition at line 491 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, Exception, spr::find(), strip(), and EcalTriggerElectronicsId::subdet().
{
EcalSubdetector subdet = id.subdet();
if (subdet == EcalBarrel) {
int strip = id.stripId();
int xtal = id.xtalId();
int tower = id.towerId();
int tcc = id.dccId();
if (id.zside() < 0) {
tcc += TCCID_PHI0_EBM - DCCID_PHI0_EBM;
}
else {
tcc += TCCID_PHI0_EBP - DCCID_PHI0_EBP;
}
EcalTriggerElectronicsId trelid(tcc,tower,strip,xtal);
return trelid;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_ElectronicsId::const_iterator it=get<1>(m_items).find(id);
if(it==get<1>(m_items).end())
{ EcalTriggerElectronicsId trelid(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non valid id";
return trelid; }
EcalTriggerElectronicsId trelid = it -> trelid;
return trelid;
}
else throw cms::Exception("InvalidDetId") << "Wrong EcalElectronicsId in EcalElectronicsMapping::getTriggerElectronicsId.";
}
| EcalTriggerElectronicsId EcalElectronicsMapping::getTriggerElectronicsId | ( | const DetId & | id | ) | const |
Get the trigger electronics id for this det id.
Definition at line 397 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, end, Exception, and spr::find().
Referenced by EcalTPGParamBuilder::analyze(), EcalElectronicsMapper::fillMaps(), ecaldqm::fillME(), EcalTrigPrimFunctionalAlgo::findStripNr(), EcalFenixStrip::process(), ecaldqm::setBinContentME(), ecaldqm::setBinEntriesME(), and ecaldqm::setBinErrorME().
{
EcalSubdetector subdet = EcalSubdetector(id.subdetId());
if (subdet == EcalBarrel) {
const EcalElectronicsId& elid = getElectronicsId(id);
EcalTriggerElectronicsId trelid = getTriggerElectronicsId(elid);
return trelid;
}
else if (subdet == EcalEndcap) {
EcalElectronicsMap_by_DetId::const_iterator it=get<0>(m_items).find(id);
if(it==get<0>(m_items).end())
{ EcalTriggerElectronicsId trelid(0);
edm::LogError("EcalElectronicsMapping") << "Ecal mapping was asked non valid trig id";
return trelid; }
EcalTriggerElectronicsId trelid = it -> trelid;
return trelid;
}
else {
throw cms::Exception("InvalidDetId") <<
" Wrong DetId in EcalElectronicsMapping::getTriggerElectronicsId.";
}
}
| EcalTrigTowerDetId EcalElectronicsMapping::getTrigTowerDetId | ( | int | TCCid, |
| int | iTT | ||
| ) | const |
Builds a EcalTrigTowerDetID from the TCCid & TriggerTower index in TCC.
Definition at line 251 of file EcalElectronicsMapping.cc.
References abs, EcalBarrel, EcalEndcap, Exception, SurfaceOrientation::inner, SurfaceOrientation::outer, and EcalTrigTowerDetId::SUBDETIJMODE.
Referenced by EcalElectronicsMapper::fillMaps(), ecaldqm::fillME(), and L1CaloEcalScaleConfigOnlineProd::newObject().
{
// needed for unpacking code.
EcalSubdetector sub = subdet(TCCid, TCCMODE);
int zIndex = zside(TCCid, TCCMODE);
if (sub == EcalBarrel) {
int DCCid =0;
int jtower = iTT-1;
if (zIndex > 0) DCCid = TCCid - TCCID_PHI0_EBP + DCCID_PHI0_EBP;
else DCCid = TCCid - TCCID_PHI0_EBM + DCCID_PHI0_EBM;
int SMid = (zIndex > 0) ? DCCid - 27 : DCCid + 9;
int etaTT = jtower / kTowersInPhi +1; // between 1 and 17
int phiTT;
if (zIndex > 0)
phiTT=(SMid - 1) * kTowersInPhi + (kTowersInPhi -(jtower % kTowersInPhi)) -1;
else
phiTT=(SMid - 19)* kTowersInPhi + jtower % kTowersInPhi;
phiTT ++;
phiTT = phiTT -2;
if (phiTT <= 0) phiTT = 72+phiTT;
EcalTrigTowerDetId tdetid(zIndex, EcalBarrel, etaTT, phiTT,EcalTrigTowerDetId::SUBDETIJMODE);
return tdetid;
}
else if (sub == EcalEndcap) {
bool EEminus = (zIndex <0);
bool EEplus = (zIndex >0);
if ( (!EEminus) && (!EEplus) )
throw cms::Exception("InvalidDetId") <<
"EcalElectronicsMapping: Cannot create EcalTrigTowerDetId object. " ;
int iz = 0;
int tcc = TCCid;
if (tcc < TCCID_PHI0_EEM_OUT+kTCCinPhi) iz = -1;
else if (tcc >= TCCID_PHI0_EEP_OUT) iz = +1;
bool inner = false;
if (iz < 0 && tcc >= TCCID_PHI0_EEM_IN && tcc < TCCID_PHI0_EEM_IN+kTCCinPhi) inner=true;
if (iz > 0 && tcc >= TCCID_PHI0_EEP_IN && tcc < TCCID_PHI0_EEP_IN+kTCCinPhi) inner=true;
bool outer = !inner;
int ieta = (iTT-1) / kEETowersInPhiPerTCC;
int iphi = (iTT-1) % kEETowersInPhiPerTCC;
if (inner) ieta += iEEEtaMinInner;
else ieta += iEEEtaMinOuter;
if (iz < 0) ieta = -ieta;
int TCC_origin = 0;
if (inner && iz < 0) TCC_origin=TCCID_PHI0_EEM_IN;
if (outer && iz < 0) TCC_origin=TCCID_PHI0_EEM_OUT;
if (inner && iz > 0) TCC_origin=TCCID_PHI0_EEP_IN;
if (outer && iz > 0) TCC_origin=TCCID_PHI0_EEP_OUT;
tcc = tcc - TCC_origin;
iphi += kEETowersInPhiPerTCC * tcc;
iphi = (iphi -2 + 4*kEETowersInPhiPerQuadrant) % (4*kEETowersInPhiPerQuadrant) + 1;
int tower_i = abs(ieta);
int tower_j = iphi;
EcalTrigTowerDetId tdetid(zIndex, EcalEndcap, tower_i, tower_j,EcalTrigTowerDetId::SUBDETIJMODE);
return tdetid;
}
else {
throw cms::Exception("InvalidDetId") <<
" Wrong indices in EcalElectronicsMapping::getTrigTowerDetId. TCCid = " << TCCid << " iTT = " << iTT << ".";
}
}
| int EcalElectronicsMapping::iTT | ( | const EcalTrigTowerDetId & | id | ) | const |
returns the index of a Trigger Tower within its TCC.
Definition at line 110 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, Exception, SurfaceOrientation::inner, and phi.
Referenced by EcalTPGParamBuilder::analyze(), and Numbers::crystals().
{
if ( id.subDet() == EcalBarrel )
{
int ie = id.ietaAbs() -1;
int ip;
int phi = id.iphi();
phi += 2;
if (phi > 72) phi = phi-72;
if (id.zside() < 0) {
ip = (( phi -1 ) % kEBTowersInPhi ) + 1;
} else {
ip = kEBTowersInPhi - ((phi -1 ) % kEBTowersInPhi );
}
return (ie * kEBTowersInPhi) + ip;
}
else if ( id.subDet() == EcalEndcap) {
int ie = id.ietaAbs();
bool inner = (ie >= iEEEtaMinInner);
if (inner) {
ie = ie - iEEEtaMinInner;
ie = ie % kEETowersInEtaPerInnerTCC;
}
else {
ie = ie - iEEEtaMinOuter;
ie = ie % kEETowersInEtaPerOuterTCC;
}
int ip = id.iphi();
ip = (ip + 1) % (kEETowersInPhiPerQuadrant*4);
// now iphi between 0 and 71,
// with iphi=0,1,2,3 in 1st Phi sector
ip = ip % kEETowersInPhiPerTCC;
int itt = kEETowersInPhiPerTCC * ie + ip + 1;
return itt;
}
else {
throw cms::Exception("InvalidDetId") << " Wrong EcalTrigTowerDetId in EcalElectronicsMapping::iTT. " ;
return 0;
}
}
| std::vector< DetId > EcalElectronicsMapping::pseudoStripConstituents | ( | int | tccId, |
| int | tt, | ||
| int | pseudostrip | ||
| ) | const |
Get the constituent detids for this dccId.
Definition at line 767 of file EcalElectronicsMapping.cc.
References EcalBarrel.
{
EcalSubdetector sub = subdet(tccId,TCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
int iz = zside(tccId,TCCMODE);
int dccId = tccId;
if (iz > 0) dccId = dccId - TCCID_PHI0_EBP + DCCID_PHI0_EBP;
else dccId = dccId - TCCID_PHI0_EBM + DCCID_PHI0_EBM;
items = stripConstituents(dccId,tt,pseudostrip);
return items;
}
else {
EcalElectronicsMap_by_TccId_TtId_and_PseudostripId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<8>(m_items).equal_range(boost::make_tuple(int(tccId), int(tt), int(pseudostrip)));
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
}
| bool EcalElectronicsMapping::rightTower | ( | int | tower | ) | const |
Definition at line 952 of file EcalElectronicsMapping.cc.
{
// for EB, two types of tower (LVRB top/bottom)
if ((tower>12 && tower<21) || (tower>28 && tower<37) ||
(tower>44 && tower<53) || (tower>60 && tower<69))
return true;
else
return false;
}
| std::vector< DetId > EcalElectronicsMapping::stripConstituents | ( | int | dccId, |
| int | tower, | ||
| int | strip | ||
| ) | const |
Get the constituent detids for this dccId.
Definition at line 660 of file EcalElectronicsMapping.cc.
References EcalBarrel, and EBDetId::ETAPHIMODE.
{
EcalSubdetector sub = subdet(dccId,DCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
int iz = zside(dccId, DCCMODE);
bool RightTower = rightTower(tower);
int smid = 0;
int iphi = 0;
if (iz < 0) {
smid = dccId + 19 - DCCID_PHI0_EBM;
iphi = (smid - 19) * kCrystalsInPhi;
iphi += 5 * ( (tower-1) % kTowersInPhi );
}
else {
smid = dccId +1 - DCCID_PHI0_EBP;
iphi = (smid - 1) * kCrystalsInPhi;
iphi += 5 * (
kTowersInPhi - ( (tower-1) % kTowersInPhi ) -1
);
}
int ieta = 5 * ((tower-1) / kTowersInPhi) + 1;
if (RightTower) {
ieta += (strip-1);
}
else {
ieta += 4 - (strip-1);
}
for (int ip=1; ip <=5; ip++) {
int ieta_xtal = ieta ;
int iphi_xtal = iphi + ip;
if (iz < 0) ieta_xtal = -ieta_xtal;
EBDetId ebdetid(ieta_xtal,iphi_xtal,EBDetId::ETAPHIMODE);
items.push_back(ebdetid);
}
return items;
}
else {
EcalElectronicsMap_by_DccId_TowerId_and_StripId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<5>(m_items).equal_range(boost::make_tuple(int(dccId), int(tower), int(strip)));
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
}
| EcalSubdetector EcalElectronicsMapping::subdet | ( | int | dccid, |
| int | mode | ||
| ) | const |
Definition at line 916 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, and Exception.
{
if (mode == DCCMODE) {
if ( (dcctcc >= MIN_DCCID_EBM && dcctcc <= MAX_DCCID_EBM) ||
(dcctcc >= MIN_DCCID_EBP && dcctcc <= MAX_DCCID_EBP) ) return EcalBarrel;
else return EcalEndcap;
}
else if (mode == TCCMODE) {
if ( (dcctcc >= MIN_TCCID_EBM && dcctcc <= MAX_TCCID_EBM) ||
(dcctcc >= MIN_TCCID_EBP && dcctcc <= MAX_TCCID_EBP) ) return EcalBarrel;
else return EcalEndcap;
}
else throw cms::Exception("InvalidDetId") << " Wrong mode in EcalElectronicsMapping::subdet " << mode << ".";
}
| std::vector< DetId > EcalElectronicsMapping::tccConstituents | ( | int | tccId | ) | const |
Get the constituent detids for this dccId.
Definition at line 714 of file EcalElectronicsMapping.cc.
References EcalBarrel.
Referenced by EcalElectronicsMapper::fillMaps().
{
EcalSubdetector sub = subdet(tccId,TCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
int iz = zside(tccId,TCCMODE);
int dccId = tccId;
if (iz > 0) dccId = dccId - TCCID_PHI0_EBP + DCCID_PHI0_EBP;
else dccId = dccId - TCCID_PHI0_EBM + DCCID_PHI0_EBM;
items = dccConstituents(dccId);
return items;
}
else {
EcalElectronicsMap_by_TccId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<6>(m_items).equal_range(tccId);
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
}
| int EcalElectronicsMapping::TCCid | ( | const EBDetId & | id | ) | const |
returns the TCCid of an EBDetId
Definition at line 91 of file EcalElectronicsMapping.cc.
Referenced by EcalTPGParamBuilder::analyze(), L1TdeECAL::analyze(), and Numbers::crystals().
{
int tcc = id.ism();
if (id.zside() < 0) {
tcc += TCCID_PHI0_EBM - 19;
}
else {
tcc += TCCID_PHI0_EBP -1;
}
return tcc;
}
| int EcalElectronicsMapping::TCCid | ( | const EcalTrigTowerDetId & | id | ) | const |
returns the TCCid of a Trigger Tower
Definition at line 160 of file EcalElectronicsMapping.cc.
References EcalBarrel, EcalEndcap, Exception, SurfaceOrientation::inner, and phi.
{
if ( id.subDet() == EcalBarrel )
{
int phi = id.iphi() +2;
if (phi > 72) phi = phi-72;
int tcc = ( phi - 1 ) / kEBTowersInPhi + 1;
if ( id.zside() < 0 ) tcc += 18; // now id is the SMid
if (id.zside() < 0) {
tcc += TCCID_PHI0_EBM - 19;
}
else {
tcc += TCCID_PHI0_EBP -1;
}
return tcc;
}
else if ( id.subDet() == EcalEndcap )
{
int ie = id.ietaAbs();
bool inner = (ie >= iEEEtaMinInner);
int ip = id.iphi(); // iphi = 1 corresponds to 0 < phi < 5 degrees
ip = (ip + 1) % (kEETowersInPhiPerQuadrant*4);
// now iphi between 0 and 71,
// with iphi=0,1,2,3 in 1st Phi sector
int Phiindex = ip / 4;
if (inner) {
if (id.ieta()> 0) Phiindex += TCCID_PHI0_EEP_IN;
else Phiindex += TCCID_PHI0_EEM_IN;
}
else {
if (id.ieta() > 0) Phiindex += TCCID_PHI0_EEP_OUT;
else Phiindex += TCCID_PHI0_EEM_OUT;
}
return Phiindex;
}
else {
throw cms::Exception("InvalidDetId") << " Wrong EcalTrigTowerDetId in EcalElectronicsMapping::TCCid.";
return 0;
}
}
| std::vector< DetId > EcalElectronicsMapping::ttConstituents | ( | int | tccId, |
| int | tt | ||
| ) | const |
Get the constituent detids for this dccId.
Definition at line 741 of file EcalElectronicsMapping.cc.
References EcalBarrel.
Referenced by Numbers::crystals(), ecaldqm::setBinContentME(), ecaldqm::setBinEntriesME(), and ecaldqm::setBinErrorME().
{
EcalSubdetector sub = subdet(tccId,TCCMODE);
std::vector<DetId> items;
if (sub == EcalBarrel) {
int iz = zside(tccId,TCCMODE);
int dccId = tccId;
if (iz > 0) dccId = dccId - TCCID_PHI0_EBP + DCCID_PHI0_EBP;
else dccId = dccId - TCCID_PHI0_EBM + DCCID_PHI0_EBM;
items = dccTowerConstituents(dccId,tt);
return items;
}
else {
EcalElectronicsMap_by_TccId_and_TtId::const_iterator lb,ub;
boost::tuples::tie(lb,ub)=get<7>(m_items).equal_range(boost::make_tuple(int(tccId), int(tt)));
while (lb != ub) {
DetId cell = lb -> cell;
items.push_back(cell);
++ lb;
}
return items;
}
}
| int EcalElectronicsMapping::zside | ( | int | dcctcc, |
| int | mode | ||
| ) | const |
Definition at line 931 of file EcalElectronicsMapping.cc.
References Exception.
{
if (mode == DCCMODE) {
if (dcctcc >= MIN_DCCID_EBM && dcctcc <= MAX_DCCID_EBM) return -1;
if (dcctcc >= MIN_DCCID_EBP && dcctcc <= MAX_DCCID_EBP) return +1;
if (dcctcc >= MIN_DCCID_EEM && dcctcc <= MAX_DCCID_EEM) return -1;
if (dcctcc >= MIN_DCCID_EEP && dcctcc <= MAX_DCCID_EEP) return +1;
}
else if (mode == TCCMODE) {
if (dcctcc >= MIN_TCCID_EBM && dcctcc <= MAX_TCCID_EBM) return -1;
if (dcctcc >= MIN_TCCID_EBP && dcctcc <= MAX_TCCID_EBP) return +1;
if (dcctcc >= MIN_TCCID_EEM && dcctcc <= MAX_TCCID_EEM) return -1;
if (dcctcc >= MIN_TCCID_EEP && dcctcc <= MAX_TCCID_EEP) return +1;
}
else {
throw cms::Exception("InvalidDetId") << " Wrong mode in EcalElectronicsMapping::zside " << mode << ".";
}
return 0;
}
const int EcalElectronicsMapping::DCCID_PHI0_EBM = EcalElectronicsId::DCCID_PHI0_EBM [static] |
Definition at line 175 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::DCCID_PHI0_EBP = EcalElectronicsId::DCCID_PHI0_EBP [static] |
Definition at line 176 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::DCCMODE = 0 [static, private] |
Definition at line 210 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::iEEEtaMinInner = 22 [static] |
Definition at line 160 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::iEEEtaMinOuter = 18 [static] |
Definition at line 159 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kCrystalsInPhi = EBDetId::kCrystalsInPhi [static] |
Definition at line 145 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEBTowersInEta = EcalTrigTowerDetId::kEBTowersInEta [static] |
Definition at line 152 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEBTowersInPhi = EcalTrigTowerDetId::kEBTowersInPhi [static] |
Definition at line 150 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEBTowersPerSM = EcalTrigTowerDetId::kEBTowersPerSM [static] |
Definition at line 151 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEETowersInEta = EcalTrigTowerDetId::kEETowersInEta [static] |
Definition at line 153 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEETowersInEtaPerInnerTCC = 7 [static] |
Definition at line 157 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEETowersInEtaPerOuterTCC = 4 [static] |
Definition at line 158 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEETowersInPhiPerQuadrant = EcalTrigTowerDetId::kEETowersInPhiPerQuadrant [static] |
Definition at line 154 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kEETowersInPhiPerTCC = 4 [static] |
Definition at line 156 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kTCCinPhi = 18 [static] |
Definition at line 198 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::kTowersInPhi = EBDetId::kTowersInPhi [static] |
Definition at line 146 of file EcalElectronicsMapping.h.
std::map<int, int> EcalElectronicsMapping::LaserMonitoringMap_EB [private] |
Definition at line 297 of file EcalElectronicsMapping.h.
std::map<int, int> EcalElectronicsMapping::LaserMonitoringMap_EE [private] |
Definition at line 298 of file EcalElectronicsMapping.h.
Definition at line 290 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_DCCID = EcalElectronicsId::MAX_DCCID [static] |
Definition at line 164 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_DCCID_EBM = EcalElectronicsId::MAX_DCCID_EBM [static] |
Definition at line 169 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_DCCID_EBP = EcalElectronicsId::MAX_DCCID_EBP [static] |
Definition at line 171 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_DCCID_EEM = EcalElectronicsId::MAX_DCCID_EEM [static] |
Definition at line 167 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_DCCID_EEP = EcalElectronicsId::MAX_DCCID_EEP [static] |
Definition at line 173 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_LM = 92 [static] |
Definition at line 205 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_TCCID = EcalTriggerElectronicsId::MAX_TCCID [static] |
Definition at line 179 of file EcalElectronicsMapping.h.
Referenced by TCCBlockFormatter::DigiToRaw().
const int EcalElectronicsMapping::MAX_TCCID_EBM = EcalTriggerElectronicsId::MAX_TCCID_EBM [static] |
Definition at line 184 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_TCCID_EBP = EcalTriggerElectronicsId::MAX_TCCID_EBP [static] |
Definition at line 186 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_TCCID_EEM = EcalTriggerElectronicsId::MAX_TCCID_EEM [static] |
Definition at line 182 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MAX_TCCID_EEP = EcalTriggerElectronicsId::MAX_TCCID_EEP [static] |
Definition at line 188 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_DCCID = EcalElectronicsId::MIN_DCCID [static] |
Definition at line 165 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_DCCID_EBM = EcalElectronicsId::MIN_DCCID_EBM [static] |
Definition at line 168 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_DCCID_EBP = EcalElectronicsId::MIN_DCCID_EBP [static] |
Definition at line 170 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_DCCID_EEM = EcalElectronicsId::MIN_DCCID_EEM [static] |
Definition at line 166 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_DCCID_EEP = EcalElectronicsId::MIN_DCCID_EEP [static] |
Definition at line 172 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_LM_EBM = 1 [static] |
Definition at line 202 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_LM_EBP = 37 [static] |
Definition at line 203 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_LM_EEM = 73 [static] |
Definition at line 201 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_LM_EEP = 83 [static] |
Definition at line 204 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_TCCID = EcalTriggerElectronicsId::MIN_TCCID [static] |
Definition at line 180 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_TCCID_EBM = EcalTriggerElectronicsId::MIN_TCCID_EBM [static] |
Definition at line 183 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_TCCID_EBP = EcalTriggerElectronicsId::MIN_TCCID_EBP [static] |
Definition at line 185 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_TCCID_EEM = EcalTriggerElectronicsId::MIN_TCCID_EEM [static] |
Definition at line 181 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::MIN_TCCID_EEP = EcalTriggerElectronicsId::MIN_TCCID_EEP [static] |
Definition at line 187 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EBM = EcalTriggerElectronicsId::TCCID_PHI0_EBM [static] |
Definition at line 190 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EBP = EcalTriggerElectronicsId::TCCID_PHI0_EBP [static] |
Definition at line 191 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EEM_IN = EcalTriggerElectronicsId::TCCID_PHI0_EEM_IN [static] |
Definition at line 193 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EEM_OUT = EcalTriggerElectronicsId::TCCID_PHI0_EEM_OUT [static] |
Definition at line 194 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EEP_IN = EcalTriggerElectronicsId::TCCID_PHI0_EEP_IN [static] |
Definition at line 195 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCID_PHI0_EEP_OUT = EcalTriggerElectronicsId::TCCID_PHI0_EEP_OUT [static] |
Definition at line 196 of file EcalElectronicsMapping.h.
const int EcalElectronicsMapping::TCCMODE = 1 [static, private] |
Definition at line 211 of file EcalElectronicsMapping.h.
1.7.3