#include <LMap.h>
Classes | |
class | EMapRow |
Public Member Functions | |
EMap () | |
EMap (std::string filename) | |
EMap (const HcalElectronicsMap *map) | |
std::vector< EMap::EMapRow > & | get_map (void) |
int | read_map (std::string filename) |
~EMap () | |
Protected Attributes | |
std::vector< EMapRow > | map |
EMap::EMap | ( | std::string | filename | ) | [inline] |
EMap::EMap | ( | const HcalElectronicsMap * | map | ) |
Definition at line 171 of file LMap.cc.
References HcalElectronicsMap::allElectronicsIdPrecision(), HcalElectronicsMap::allElectronicsIdTrigger(), benchmark_cfg::cerr, EMap::EMapRow::crate, EMap::EMapRow::dcc, EMap::EMapRow::fiber, EMap::EMapRow::fiberchan, HcalAssistant::getSubdetectorString(), HcalAssistant::getZDCSectionString(), HcalGenericDetId::HcalGenBarrel, HcalGenericDetId::HcalGenEndcap, HcalGenericDetId::HcalGenForward, HcalGenericDetId::HcalGenOuter, HcalGenericDetId::HcalGenZDC, EMap::EMapRow::idepth, EMap::EMapRow::ieta, EMap::EMapRow::iphi, HcalElectronicsMap::lookup(), HcalElectronicsMap::lookupTrigger(), EMap::EMapRow::rawId, EMap::EMapRow::slot, EMap::EMapRow::spigot, EMap::EMapRow::subdet, EMap::EMapRow::topbottom, EMap::EMapRow::zdc_channel, EMap::EMapRow::zdc_section, and EMap::EMapRow::zdc_zside.
{ if (emap){ HcalAssistant _ass; // //_____ precision channels __________________________________________ // std::vector <HcalElectronicsId> v_eId = emap->allElectronicsIdPrecision(); for (std::vector <HcalElectronicsId>::const_iterator eId=v_eId.begin(); eId!=v_eId.end(); eId++){ EMapRow row; //row.rawId = eId->rawId(); row.crate = eId->readoutVMECrateId(); row.slot = eId->htrSlot(); row.dcc = eId->dccid(); row.spigot = eId->spigot(); row.fiber = eId->fiberIndex(); row.fiberchan = eId->fiberChanId(); if (eId->htrTopBottom()==1) row.topbottom = "t"; else row.topbottom = "b"; // HcalGenericDetId _gid( emap->lookup(*eId) ); if ( !(_gid.null()) && (_gid.genericSubdet()==HcalGenericDetId::HcalGenBarrel || _gid.genericSubdet()==HcalGenericDetId::HcalGenEndcap || _gid.genericSubdet()==HcalGenericDetId::HcalGenForward || _gid.genericSubdet()==HcalGenericDetId::HcalGenOuter ) ){ HcalDetId _id( emap->lookup(*eId) ); row.rawId = _id.rawId(); row.ieta = _id.ieta(); row.iphi = _id.iphi(); row.idepth = _id.depth(); row.subdet = _ass.getSubdetectorString(_id.subdet()); // fill the map map.push_back(row); } // ZDC channels else if ( !(_gid.null()) && _gid.genericSubdet()==HcalGenericDetId::HcalGenZDC ){ HcalZDCDetId _id( emap->lookup(*eId) ); row.zdc_channel = _id.channel(); row.zdc_section = _ass.getZDCSectionString(_id.section()); row.idepth = _id.depth(); row.zdc_zside = _id.zside(); // fill the map map.push_back(row); } } // //_____ trigger channels __________________________________________ // v_eId = emap->allElectronicsIdTrigger(); for (std::vector <HcalElectronicsId>::const_iterator eId=v_eId.begin(); eId!=v_eId.end(); eId++){ EMapRow row; //row.rawId = eId->rawId(); row.crate = eId->readoutVMECrateId(); row.slot = eId->htrSlot(); row.dcc = eId->dccid(); row.spigot = eId->spigot(); row.fiber = eId->slbSiteNumber(); row.fiberchan = eId->slbChannelIndex(); if (eId->htrTopBottom()==1) row.topbottom = "t"; else row.topbottom = "b"; // HcalTrigTowerDetId _id( emap->lookupTrigger(*eId) ); if ( !(_id.null()) ){ row.rawId = _id.rawId(); row.ieta = _id.ieta(); row.iphi = _id.iphi(); row.idepth = _id.depth(); row.subdet = _ass.getSubdetectorString(_id.subdet()); // fill the map map.push_back(row); } } } else{ std::cerr << "Pointer to HcalElectronicsMap is 0!!!" << std::endl; } }
std::vector< EMap::EMapRow > & EMap::get_map | ( | void | ) |
Definition at line 304 of file LMap.cc.
References python::multivaluedict::map().
Referenced by HcalLutManager::getCompressionLutXmlFromAsciiMaster(), HcalLutManager::getCompressionLutXmlFromCoder(), HcalLutManager::getLinearizationLutXmlFromAsciiMasterEmap(), HcalLutManager::getLinearizationLutXmlFromCoderEmap(), HcalLutManager::getZdcLutXml(), HcalLutManager::test_emap(), and HcalLutManager::test_xml_access().
{ return map; }
int EMap::read_map | ( | std::string | filename | ) |
Definition at line 258 of file LMap.cc.
References prof2calltree::count, gather_cfg::cout, EMap::EMapRow::crate, EMap::EMapRow::dcc, EMap::EMapRow::fiber, EMap::EMapRow::fiberchan, EMap::EMapRow::idepth, EMap::EMapRow::ieta, recoMuon::in, EMap::EMapRow::iphi, beamvalidation::lines, EMap::EMapRow::rawId, EMap::EMapRow::slot, and EMap::EMapRow::spigot.
Referenced by EMap().
{ RooGKCounter lines; std::string _row; ifstream inFile( filename . c_str(), std::ios::in ); if (!inFile){ std::cout << "Unable to open file with the electronic map: " << filename << std::endl; } else{ std::cout << "File with the electronic map opened successfully: " << filename << std::endl; } while ( getline( inFile, _row ) > 0 ){ EMapRow aRow; char fpga[32]; char subdet[32]; int _read; const char * _format = "%d %d %d %s %d %d %d %d %s %d %d %d"; _read = sscanf( _row . c_str(), _format, &(aRow.rawId), &(aRow.crate), &(aRow.slot), fpga, &(aRow.dcc), &(aRow.spigot),&(aRow.fiber),&(aRow.fiberchan), subdet, &(aRow.ieta), &(aRow.iphi), &(aRow.idepth) ); if ( _read >= 12 ){ lines . count(); aRow . subdet .append( subdet ); aRow . topbottom .append( fpga ); map . push_back( aRow ); //std::cout << "DEBUG: " << _row << std::endl; //std::cout << "DEBUG: " << aRow.ieta << std::endl; } } inFile.close(); std::cout << "EMap: " << lines . getCount() << " lines read" << std::endl; return 0; }