#include <HcalLogicalMap.h>
Public Member Functions | |
void | checkElectronicsHashIds () |
void | checkHashIds () |
void | checkIdFunctions () |
HcalElectronicsMap | generateHcalElectronicsMap () |
const DetId | getDetId (const HcalElectronicsId &) |
const HcalFrontEndId | getHcalFrontEndId (const DetId &) |
HcalLogicalMap (std::vector< HBHEHFLogicalMapEntry > &, std::vector< HOHXLogicalMapEntry > &, std::vector< CALIBLogicalMapEntry > &, std::vector< ZDCLogicalMapEntry > &, std::vector< HTLogicalMapEntry > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &) | |
void | printMap (unsigned int mapIOV) |
~HcalLogicalMap () | |
Static Public Member Functions | |
static uint32_t | makeEntryNumber (bool, int, int) |
Private Member Functions | |
void | printCalibMap (FILE *calibmapfile) |
void | printHBEFMap (FILE *hbefmapfile) |
void | printHOXMap (FILE *hoxmapfile) |
void | printHTMap (FILE *htmapfile) |
void | printZDCMap (FILE *zdcmapfile) |
Private Attributes | |
std::vector< CALIBLogicalMapEntry > | CALIBEntries_ |
std::vector< uint32_t > | HbHash2Entry_ |
std::vector < HBHEHFLogicalMapEntry > | HBHEHFEntries_ |
std::vector< uint32_t > | HeHash2Entry_ |
std::vector< uint32_t > | HfHash2Entry_ |
std::vector< uint32_t > | HoHash2Entry_ |
std::vector< HOHXLogicalMapEntry > | HOHXEntries_ |
std::vector< HTLogicalMapEntry > | HTEntries_ |
std::vector< uint32_t > | HtHash2Entry_ |
std::vector< uint32_t > | HxCalibHash2Entry_ |
std::vector< uint32_t > | LinearIndex2Entry_ |
unsigned int | mapIOV_ |
std::vector< ZDCLogicalMapEntry > | ZDCEntries_ |
std::vector< uint32_t > | ZdcHash2Entry_ |
Definition at line 10 of file HcalLogicalMap.h.
HcalLogicalMap::HcalLogicalMap | ( | std::vector< HBHEHFLogicalMapEntry > & | HBHEHFEntries, |
std::vector< HOHXLogicalMapEntry > & | HOHXEntries, | ||
std::vector< CALIBLogicalMapEntry > & | CALIBEntries, | ||
std::vector< ZDCLogicalMapEntry > & | ZDCEntries, | ||
std::vector< HTLogicalMapEntry > & | HTEntries, | ||
std::vector< uint32_t > & | LinearIndex2Entry, | ||
std::vector< uint32_t > & | HbHash2Entry, | ||
std::vector< uint32_t > & | HeHash2Entry, | ||
std::vector< uint32_t > & | HfHash2Entry, | ||
std::vector< uint32_t > & | HtHash2Entry, | ||
std::vector< uint32_t > & | HoHash2Entry, | ||
std::vector< uint32_t > & | HxCalibHash2Entry, | ||
std::vector< uint32_t > & | ZdcHash2Entry | ||
) |
Definition at line 16 of file HcalLogicalMap.cc.
References filterCSVwithJSON::copy.
{ HBHEHFEntries_.resize(HBHEHFEntries.size()); HOHXEntries_.resize(HOHXEntries.size()); CALIBEntries_.resize(CALIBEntries.size()); ZDCEntries_.resize(ZDCEntries.size()); HTEntries_.resize(HTEntries.size()); LinearIndex2Entry_.resize(LinearIndex2Entry.size()); HbHash2Entry_.resize(HbHash2Entry.size()); HeHash2Entry_.resize(HeHash2Entry.size()); HfHash2Entry_.resize(HfHash2Entry.size()); HtHash2Entry_.resize(HtHash2Entry.size()); HoHash2Entry_.resize(HoHash2Entry.size()); HxCalibHash2Entry_.resize(HxCalibHash2Entry.size()); ZdcHash2Entry_.resize(ZdcHash2Entry.size()); copy(HBHEHFEntries.begin(),HBHEHFEntries.end(),HBHEHFEntries_.begin()); copy(HOHXEntries.begin(),HOHXEntries.end(),HOHXEntries_.begin()); copy(CALIBEntries.begin(),CALIBEntries.end(),CALIBEntries_.begin()); copy(ZDCEntries.begin(),ZDCEntries.end(),ZDCEntries_.begin()); copy(HTEntries.begin(),HTEntries.end(),HTEntries_.begin()); copy(LinearIndex2Entry.begin(),LinearIndex2Entry.end(),LinearIndex2Entry_.begin()); copy(HbHash2Entry.begin(),HbHash2Entry.end(),HbHash2Entry_.begin()); copy(HeHash2Entry.begin(),HeHash2Entry.end(),HeHash2Entry_.begin()); copy(HfHash2Entry.begin(),HfHash2Entry.end(),HfHash2Entry_.begin()); copy(HtHash2Entry.begin(),HtHash2Entry.end(),HtHash2Entry_.begin()); copy(HoHash2Entry.begin(),HoHash2Entry.end(),HoHash2Entry_.begin()); copy(HxCalibHash2Entry.begin(),HxCalibHash2Entry.end(),HxCalibHash2Entry_.begin()); copy(ZdcHash2Entry.begin(),ZdcHash2Entry.end(),ZdcHash2Entry_.begin()); }
HcalLogicalMap::~HcalLogicalMap | ( | ) |
Definition at line 61 of file HcalLogicalMap.cc.
{ }
void HcalLogicalMap::checkElectronicsHashIds | ( | ) |
Definition at line 475 of file HcalLogicalMap.cc.
References gather_cfg::cout, diffTreeTool::diff, i, and python::multivaluedict::sort().
{ std::vector<int> Electronics_Hashes_; int numfails = 0; int numpass = 0; int numnotdense = 0; cout << "\nRunning the hash checker for electronics Ids..." << endl; for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) { Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex()); } for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) { Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex()); } for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) { Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex()); } for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) { Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex()); } for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) { Electronics_Hashes_.push_back((it->getHcalTrigElectronicsId()).linearIndex()); } sort(Electronics_Hashes_.begin() , Electronics_Hashes_.end()); for(unsigned int i = 0; i<Electronics_Hashes_.size()-1; i++) { int diff = Electronics_Hashes_.at(i+1)-Electronics_Hashes_.at(i); if (diff==0) numfails++; else if (diff>1) numnotdense++; else numpass++; } cout << "Electronics Id linearIndex (pass, collisions, nondense) = (" << numpass << "," << numfails << "," << numnotdense << ")" << endl; }
void HcalLogicalMap::checkHashIds | ( | ) |
Definition at line 373 of file HcalLogicalMap.cc.
References gather_cfg::cout, diffTreeTool::diff, HcalBarrel, HcalEndcap, HcalForward, i, and python::multivaluedict::sort().
{ std::vector<int> HB_Hashes_; // index 0 std::vector<int> HE_Hashes_; // index 1 std::vector<int> HF_Hashes_; // index 2 std::vector<int> HO_Hashes_; // index 3 std::vector<int> CALIBHX_Hashes_;// index 4 std::vector<int> ZDC_Hashes_; // index 5 std::vector<int> HT_Hashes_; // index 6 int numfails[7] = {0,0,0,0,0,0,0}; int numpass[7] = {0,0,0,0,0,0,0}; int numnotdense[7] = {0,0,0,0,0,0,0}; cout << "\nRunning the hash checker for detIds..." << endl; for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) { if (it->getDetId().subdetId()==HcalBarrel) { HB_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } else if (it->getDetId().subdetId()==HcalEndcap) { HE_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } else if (it->getDetId().subdetId()==HcalForward) { HF_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } } for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) { if (HcalGenericDetId(it->getDetId().rawId()).isHcalCalibDetId() ) { CALIBHX_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } else { HO_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } } for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) { CALIBHX_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) { ZDC_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) { HT_Hashes_.push_back(HcalGenericDetId(it->getDetId().rawId()).hashedId(false)); } sort(HB_Hashes_.begin() , HB_Hashes_.end()); sort(HE_Hashes_.begin() , HE_Hashes_.end()); sort(HF_Hashes_.begin() , HF_Hashes_.end()); sort(HO_Hashes_.begin() , HO_Hashes_.end()); sort(CALIBHX_Hashes_.begin(), CALIBHX_Hashes_.end()); sort(ZDC_Hashes_.begin() , ZDC_Hashes_.end()); sort(HT_Hashes_.begin() , HT_Hashes_.end()); for(unsigned int i = 0; i<HB_Hashes_.size()-1; i++) { int diff = HB_Hashes_.at(i+1)-HB_Hashes_.at(i); if (diff==0) numfails[0]++; else if (diff>1) numnotdense[0]++; else numpass[0]++; } for(unsigned int i = 0; i<HE_Hashes_.size()-1; i++) { int diff = HE_Hashes_.at(i+1)-HE_Hashes_.at(i); if (diff==0) numfails[1]++; else if (diff>1) numnotdense[1]++; else numpass[1]++; } for(unsigned int i = 0; i<HF_Hashes_.size()-1; i++) { int diff = HF_Hashes_.at(i+1)-HF_Hashes_.at(i); if (diff==0) numfails[2]++; else if (diff>1) numnotdense[2]++; else numpass[2]++; } for(unsigned int i = 0; i<HO_Hashes_.size()-1; i++) { int diff = HO_Hashes_.at(i+1)-HO_Hashes_.at(i); if (diff==0) numfails[3]++; else if (diff>1) numnotdense[3]++; else numpass[3]++; } for(unsigned int i = 0; i<CALIBHX_Hashes_.size()-1; i++) { int diff = CALIBHX_Hashes_.at(i+1)-CALIBHX_Hashes_.at(i); if (diff==0) numfails[4]++; else if (diff>1) numnotdense[4]++; else numpass[4]++; } for(unsigned int i = 0; i<ZDC_Hashes_.size()-1; i++) { int diff = ZDC_Hashes_.at(i+1)-ZDC_Hashes_.at(i); if (diff==0) numfails[5]++; else if (diff>1) numnotdense[5]++; else numpass[5]++; } for(unsigned int i = 0; i<HT_Hashes_.size()-1; i++) { int diff = HT_Hashes_.at(i+1)-HT_Hashes_.at(i); if (diff==0) numfails[6]++; else if (diff>1) numnotdense[6]++; else numpass[6]++; } cout << "HB HashIds (pass, collisions, non-dense) = (" << numpass[0] << "," << numfails[0] << "," << numnotdense[0] << ")" << endl; cout << "HE HashIds (pass, collisions, non-dense) = (" << numpass[1] << "," << numfails[1] << "," << numnotdense[1] << ")" << endl; cout << "HF HashIds (pass, collisions, non-dense) = (" << numpass[2] << "," << numfails[2] << "," << numnotdense[2] << ")" << endl; cout << "HO HashIds (pass, collisions, non-dense) = (" << numpass[3] << "," << numfails[3] << "," << numnotdense[3] << ")" << endl; cout << "CALIB/HX HashIds (pass, collisions, non-dense) = (" << numpass[4] << "," << numfails[4] << "," << numnotdense[4] << ")" << endl; cout << "ZDC HashIds (pass, collisions, non-dense) = (" << numpass[5] << "," << numfails[5] << "," << numnotdense[5] << ")" << endl; cout << "HT HashIds (pass, collisions, non-dense) = (" << numpass[6] << "," << numfails[6] << "," << numnotdense[6] << ")" << endl; }
void HcalLogicalMap::checkIdFunctions | ( | ) |
Definition at line 297 of file HcalLogicalMap.cc.
References gather_cfg::cout.
{ int HBHEHF_EID_pass=0; int HBHEHF_EID_fail=0; int HOHX_EID_pass=0; int HOHX_EID_fail=0; int CALIB_EID_pass=0; int CALIB_EID_fail=0; int ZDC_EID_pass=0; int ZDC_EID_fail=0; int HBHEHF_FEID_pass=0; int HBHEHF_FEID_fail=0; int HOHX_FEID_pass=0; int HOHX_FEID_fail=0; int CALIB_FEID_pass=0; int CALIB_FEID_fail=0; cout << "\nRunning the id function checker..." << endl; for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) { const HcalElectronicsId heid=it->getHcalElectronicsId(); const DetId did0=it->getDetId(); const DetId did1=getDetId(heid); if (did0==did1) HBHEHF_EID_pass++; else HBHEHF_EID_fail++; const HcalFrontEndId hfeid0=it->getHcalFrontEndId(); const HcalFrontEndId hfeid1=getHcalFrontEndId(did0); if (hfeid0==hfeid1) HBHEHF_FEID_pass++; else HBHEHF_FEID_fail++; } for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) { const HcalElectronicsId heid=it->getHcalElectronicsId(); const DetId did0=it->getDetId(); const DetId did1=getDetId(heid); if (did0==did1) HOHX_EID_pass++; else HOHX_EID_fail++; const HcalFrontEndId hfeid0=it->getHcalFrontEndId(); const HcalFrontEndId hfeid1=getHcalFrontEndId(did0); if (hfeid0==hfeid1) HOHX_FEID_pass++; else HOHX_FEID_fail++; } for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) { const HcalElectronicsId heid=it->getHcalElectronicsId(); const DetId did0=it->getDetId(); const DetId did1=getDetId(heid); if (did0==did1) CALIB_EID_pass++; else CALIB_EID_fail++; const HcalFrontEndId hfeid0=it->getHcalFrontEndId(); const HcalFrontEndId hfeid1=getHcalFrontEndId(did0); if (hfeid0==hfeid1) CALIB_FEID_pass++; else CALIB_FEID_fail++; } for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) { const HcalElectronicsId heid=it->getHcalElectronicsId(); const DetId did0=it->getDetId(); const DetId did1=getDetId(heid); if (did0==did1) ZDC_EID_pass++; else ZDC_EID_fail++; } cout << "Checking detIds from electronics ids..." << endl; cout << "HBHEHF EID (pass,fail) = (" << HBHEHF_EID_pass << "," << HBHEHF_EID_fail << ")" << endl; cout << "HOHX EID (pass,fail) = (" << HOHX_EID_pass << "," << HOHX_EID_fail << ")" << endl; cout << "CALIB EID (pass,fail) = (" << CALIB_EID_pass << "," << CALIB_EID_fail << ")" << endl; cout << "ZDC EID (pass,fail) = (" << ZDC_EID_pass << "," << ZDC_EID_fail << ")" << endl; cout << endl; cout << "Checking frontEndIds from electronics ids..." << endl; cout << "HBHEHF FEID (pass,fail) = (" << HBHEHF_FEID_pass << "," << HBHEHF_FEID_fail << ")" << endl; cout << "HOHX FEID (pass,fail) = (" << HOHX_FEID_pass << "," << HOHX_FEID_fail << ")" << endl; cout << "CALIB FEID (pass,fail) = (" << CALIB_FEID_pass << "," << CALIB_FEID_fail << ")" << endl; }
HcalElectronicsMap HcalLogicalMap::generateHcalElectronicsMap | ( | ) |
Definition at line 155 of file HcalLogicalMap.cc.
References HcalElectronicsMap::mapEId2chId(), HcalElectronicsMap::mapEId2tId(), and HcalElectronicsMap::sort().
Referenced by HcalDetDiagLEDMonitor::setup().
{ HcalElectronicsMap* theemap = new HcalElectronicsMap(); for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) { theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );} for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) { theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );} for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) { theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );} for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) { theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );} for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) { theemap->mapEId2tId( it->getHcalTrigElectronicsId(), it->getDetId() );} theemap->sort(); return *theemap; }
const DetId HcalLogicalMap::getDetId | ( | const HcalElectronicsId & | eid | ) |
Definition at line 251 of file HcalLogicalMap.cc.
References HcalElectronicsId::linearIndex().
{ const uint32_t entry=LinearIndex2Entry_.at(eid.linearIndex()); if ( !(entry&0x1) ) return DetId(0); if ( ((entry>>1)&0x3)==0) return HBHEHFEntries_.at(entry>>3).getDetId(); if ( ((entry>>1)&0x3)==1) return HOHXEntries_.at(entry>>3).getDetId(); if ( ((entry>>1)&0x3)==2) return CALIBEntries_.at(entry>>3).getDetId(); if ( ((entry>>1)&0x3)==3) return ZDCEntries_.at(entry>>3).getDetId(); return DetId(0); }
const HcalFrontEndId HcalLogicalMap::getHcalFrontEndId | ( | const DetId & | did | ) |
Definition at line 262 of file HcalLogicalMap.cc.
References HcalCalibDetId::calibFlavor(), HcalCalibDetId::CalibrationBox, HcalGenericDetId::genericSubdet(), HcalGenericDetId::hashedId(), HcalGenericDetId::HcalGenBarrel, HcalGenericDetId::HcalGenCalibration, HcalGenericDetId::HcalGenEndcap, HcalGenericDetId::HcalGenForward, HcalGenericDetId::HcalGenOuter, and HcalCalibDetId::HOCrosstalk.
Referenced by HcalDetDiagLEDMonitor::fillHistos(), HcalRecHitMonitor::processEvent_rechit(), HBHEStatusBitSetter::SetFlagsFromDigi(), and HBHEStatusBitSetter::SetFlagsFromRecHits().
{ const HcalGenericDetId hgdi(did); const HcalGenericDetId::HcalGenericSubdetector hgsd=hgdi.genericSubdet(); const int hashedId=hgdi.hashedId(false); if (hgsd==HcalGenericDetId::HcalGenBarrel) { const uint32_t entry=HbHash2Entry_.at(hashedId)-1; return HBHEHFEntries_.at(entry).getHcalFrontEndId(); } else if (hgsd==HcalGenericDetId::HcalGenEndcap) { const uint32_t entry=HeHash2Entry_.at(hashedId)-1; return HBHEHFEntries_.at(entry).getHcalFrontEndId(); } else if (hgsd==HcalGenericDetId::HcalGenForward) { const uint32_t entry=HfHash2Entry_.at(hashedId)-1; return HBHEHFEntries_.at(entry).getHcalFrontEndId(); } else if (hgsd==HcalGenericDetId::HcalGenOuter) { const uint32_t entry=HoHash2Entry_.at(hashedId)-1; return HOHXEntries_.at(entry).getHcalFrontEndId(); } else if (hgsd==HcalGenericDetId::HcalGenCalibration) { HcalCalibDetId hcid(did); if (hcid.calibFlavor()==HcalCalibDetId::HOCrosstalk) { const uint32_t entry=HxCalibHash2Entry_.at(hashedId)-1; return HOHXEntries_.at(entry).getHcalFrontEndId(); } else if (hcid.calibFlavor()==HcalCalibDetId::CalibrationBox) { const uint32_t entry=HxCalibHash2Entry_.at(hashedId)-1; return CALIBEntries_.at(entry).getHcalFrontEndId(); } } return HcalFrontEndId(0); }
uint32_t HcalLogicalMap::makeEntryNumber | ( | bool | isvalid, |
int | vectorid, | ||
int | entry | ||
) | [static] |
Definition at line 65 of file HcalLogicalMap.cc.
References submit::answer.
Referenced by HcalLogicalMapGenerator::buildCALIBMap(), HcalLogicalMapGenerator::buildHBEFTMap(), HcalLogicalMapGenerator::buildHOXMap(), and HcalLogicalMapGenerator::buildZDCMap().
void HcalLogicalMap::printCalibMap | ( | FILE * | calibmapfile | ) | [private] |
Definition at line 204 of file HcalLogicalMap.cc.
{ int titlecounter = 0; for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) { titlecounter = titlecounter % 21; if (titlecounter == 0){ fprintf(calibmapfile,"# side eta phi dphi det rbx sector rm_fi "); fprintf(calibmapfile," fi_ch crate htr fpga htr_fi dcc_sl spigo dcc fedid ch_type name\n"); } titlecounter++; fprintf(calibmapfile,"%s",it->printLMapLine()); } }
void HcalLogicalMap::printHBEFMap | ( | FILE * | hbefmapfile | ) | [private] |
Definition at line 174 of file HcalLogicalMap.cc.
{ int titlecounter = 0; for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) { titlecounter = titlecounter % 21; if (titlecounter == 0){ fprintf(hbefmapfile,"# side eta phi dphi depth det rbx wedge rm pixel qie adc"); fprintf(hbefmapfile," rm_fi fi_ch crate htr fpga htr_fi dcc_sl spigo dcc slb slbin slbin2"); fprintf(hbefmapfile," slnam rctcra rctcar rctcon rctnam fedid\n"); } titlecounter++; fprintf(hbefmapfile,"%s",it->printLMapLine()); } }
void HcalLogicalMap::printHOXMap | ( | FILE * | hoxmapfile | ) | [private] |
Definition at line 189 of file HcalLogicalMap.cc.
{ int titlecounter = 0; for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) { titlecounter = titlecounter % 21; if (titlecounter == 0){ fprintf(hoxmapfile,"# side eta phi dphi depth det rbx sector rm pixel qie adc"); fprintf(hoxmapfile," rm_fi fi_ch let_code crate htr fpga htr_fi dcc_sl spigo dcc fedid\n"); } titlecounter++; fprintf(hoxmapfile,"%s",it->printLMapLine()); } }
void HcalLogicalMap::printHTMap | ( | FILE * | htmapfile | ) | [private] |
Definition at line 234 of file HcalLogicalMap.cc.
{ int titlecounter = 0; for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) { titlecounter = titlecounter % 21; if (titlecounter == 0){ fprintf(htmapfile,"# side eta phi dphi depth det wedge crate"); fprintf(htmapfile," htr fpga dcc_sl spigo dcc slb slbin slbin2 nDat "); fprintf(htmapfile," slnam rctcra rctcar rctcon rctnam fedid\n"); } titlecounter++; fprintf(htmapfile,"%s",it->printLMapLine()); } }
void HcalLogicalMap::printMap | ( | unsigned int | mapIOV | ) |
Definition at line 74 of file HcalLogicalMap.cc.
References gather_cfg::cout, BuildWebpage::date, and cond::rpcobgas::time.
{ using namespace std; static FILE* HBEFmap; static FILE* HOXmap; static FILE* CALIBmap; static FILE* ZDCmap; static FILE* HTmap; char tempbuff[30]; stringstream mystream; string HBEFmapstr, HOXmapstr, CALIBmapstr, ZDCmapstr, HTmapstr; string date; string IOVlabel; time_t myTime; time(&myTime); strftime(tempbuff,128,"%d.%b.%Y",localtime(&myTime) ); mystream<<tempbuff; date= mystream.str(); mystream.str(""); if (mapIOV==1) IOVlabel = "A"; else if (mapIOV==2) IOVlabel = "B"; else if (mapIOV==3) IOVlabel = "C"; else IOVlabel = "D"; HBEFmapstr = "./HCALmapHBEF_"+IOVlabel+".txt"; HOXmapstr = "./HCALmapHO_"+IOVlabel+".txt"; CALIBmapstr = "./HCALmapCALIB_"+IOVlabel+".txt"; ZDCmapstr = "./ZDCmap_"+IOVlabel+".txt"; HTmapstr = "./HCALmapHT_"+IOVlabel+".txt"; // HBEFmapstr = "./HCALmapHBEF_"+date+".txt"; // HOXmapstr = "./HCALmapHO_"+date+"_"+IOVlabel+".txt"; // CALIBmapstr = "./HCALmapCALIB_"+date+".txt"; // ZDCmapstr = "./ZDCmap_"+date+".txt"; // HTmapstr = "./HCALmapHT_"+date+".txt"; HBEFmap = fopen(HBEFmapstr.c_str(),"w"); HOXmap = fopen(HOXmapstr.c_str(),"w"); CALIBmap = fopen(CALIBmapstr.c_str(),"w"); ZDCmap = fopen(ZDCmapstr.c_str(),"w"); HTmap = fopen(HTmapstr.c_str(),"w"); /**********************/ if(HBEFmap) { fprintf(HBEFmap,"## file created %s ##\n",date.c_str()); printHBEFMap(HBEFmap); } else cout <<HBEFmapstr<<" not found!"<<endl; if(HOXmap) { fprintf(HOXmap,"## file created %s ##\n",date.c_str()); printHOXMap(HOXmap); } else cout <<HOXmapstr<<" not found!"<<endl; if(CALIBmap) { fprintf(CALIBmap,"## file created %s ##\n",date.c_str()); printCalibMap(CALIBmap); } else cout <<CALIBmapstr<<" not found!"<<endl; if(ZDCmap) { fprintf(ZDCmap,"## file created %s ##\n",date.c_str()); printZDCMap(ZDCmap); } else cout <<ZDCmapstr<<" not found!"<<endl; if(HTmap) { fprintf(HTmap,"## file created %s ##\n",date.c_str()); printHTMap(HTmap); } else cout <<HTmapstr<<" not found!"<<endl; }
void HcalLogicalMap::printZDCMap | ( | FILE * | zdcmapfile | ) | [private] |
Definition at line 219 of file HcalLogicalMap.cc.
{ int titlecounter = 0; for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) { titlecounter = titlecounter % 21; if (titlecounter == 0){ fprintf(zdcmapfile,"# side x y dx depth det det_ch cable rm qie "); fprintf(zdcmapfile," adc rm_fi fi_ch crate htr fpga htr_fi dcc_sl spigo dcc fedid\n"); } titlecounter++; fprintf(zdcmapfile,"%s",it->printLMapLine()); } }
std::vector<CALIBLogicalMapEntry> HcalLogicalMap::CALIBEntries_ [private] |
Definition at line 52 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HbHash2Entry_ [private] |
Definition at line 56 of file HcalLogicalMap.h.
std::vector<HBHEHFLogicalMapEntry> HcalLogicalMap::HBHEHFEntries_ [private] |
Definition at line 50 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HeHash2Entry_ [private] |
Definition at line 57 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HfHash2Entry_ [private] |
Definition at line 58 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HoHash2Entry_ [private] |
Definition at line 60 of file HcalLogicalMap.h.
std::vector<HOHXLogicalMapEntry> HcalLogicalMap::HOHXEntries_ [private] |
Definition at line 51 of file HcalLogicalMap.h.
std::vector<HTLogicalMapEntry> HcalLogicalMap::HTEntries_ [private] |
Definition at line 54 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HtHash2Entry_ [private] |
Definition at line 59 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::HxCalibHash2Entry_ [private] |
Definition at line 61 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::LinearIndex2Entry_ [private] |
Definition at line 55 of file HcalLogicalMap.h.
unsigned int HcalLogicalMap::mapIOV_ [private] |
Definition at line 48 of file HcalLogicalMap.h.
std::vector<ZDCLogicalMapEntry> HcalLogicalMap::ZDCEntries_ [private] |
Definition at line 53 of file HcalLogicalMap.h.
std::vector<uint32_t> HcalLogicalMap::ZdcHash2Entry_ [private] |
Definition at line 62 of file HcalLogicalMap.h.