#include <HcalDetDiagLEDClient.h>
Public Member Functions | |
void | analyze (void) |
void | beginJob (void) |
void | beginRun (void) |
void | calculateProblems (void) |
void | cleanup (void) |
void | endJob (void) |
void | endRun (void) |
bool | hasErrors_Temp (void) |
bool | hasOther_Temp (void) |
bool | hasWarnings_Temp (void) |
HcalDetDiagLEDClient () | |
Constructors. | |
HcalDetDiagLEDClient (std::string myname) | |
HcalDetDiagLEDClient (std::string myname, const edm::ParameterSet &ps) | |
void | htmlOutput (std::string) |
void | setup (void) |
bool | test_enabled (void) |
void | updateChannelStatus (std::map< HcalDetId, unsigned int > &myqual) |
bool | validHtmlOutput () |
~HcalDetDiagLEDClient () | |
Destructor. | |
Private Member Functions | |
double | get_channel_status (std::string subdet, int eta, int phi, int depth, int type) |
double | get_energy (std::string subdet, int eta, int phi, int depth, int type) |
Private Attributes | |
TH2F * | ChannelsLEDEnergy [4] |
TH2F * | ChannelsLEDEnergyRef [4] |
TH2F * | ChannelStatusLEDMean [4] |
TH2F * | ChannelStatusLEDRMS [4] |
TH2F * | ChannelStatusMissingChannels [4] |
TH2F * | ChannelStatusTimeMean [4] |
TH2F * | ChannelStatusTimeRMS [4] |
TH2F * | ChannelStatusUnstableChannels [4] |
TH2F * | ChannelStatusUnstableLEDsignal [4] |
int | nevts_ |
int | status |
Definition at line 8 of file HcalDetDiagLEDClient.h.
HcalDetDiagLEDClient::HcalDetDiagLEDClient | ( | ) | [inline] |
Constructors.
Definition at line 13 of file HcalDetDiagLEDClient.h.
References HcalBaseDQClient::name_.
{name_="";};
HcalDetDiagLEDClient::HcalDetDiagLEDClient | ( | std::string | myname | ) |
Definition at line 22 of file HcalDetDiagLEDClient.cc.
References HcalBaseDQClient::name_, HcalBaseDQClient::needLogicalMap_, and status.
{ name_=myname; status=0; needLogicalMap_=true; }
HcalDetDiagLEDClient::HcalDetDiagLEDClient | ( | std::string | myname, |
const edm::ParameterSet & | ps | ||
) |
Definition at line 27 of file HcalDetDiagLEDClient.cc.
References HcalBaseDQClient::badChannelStatusMask_, HcalBaseDQClient::cloneME_, HcalBaseDQClient::debug_, HcalBaseDQClient::enableCleanup_, edm::ParameterSet::getUntrackedParameter(), HcalChannelStatus::HcalCellDead, HcalBaseDQClient::name_, HcalBaseDQClient::needLogicalMap_, HcalBaseDQClient::prefixME_, AlCaHLTBitMon_QueryRunRegistry::string, HcalBaseDQClient::subdir_, and HcalBaseDQClient::validHtmlOutput_.
{ name_=myname; enableCleanup_ = ps.getUntrackedParameter<bool>("enableCleanup",false); debug_ = ps.getUntrackedParameter<int>("debug",0); prefixME_ = ps.getUntrackedParameter<std::string>("subSystemFolder","Hcal/"); if (prefixME_.substr(prefixME_.size()-1,prefixME_.size())!="/") prefixME_.append("/"); subdir_ = ps.getUntrackedParameter<std::string>("DetDiagLEDFolder","DetDiagLEDMonitor_Hcal/"); if (subdir_.size()>0 && subdir_.substr(subdir_.size()-1,subdir_.size())!="/") subdir_.append("/"); subdir_=prefixME_+subdir_; validHtmlOutput_ = ps.getUntrackedParameter<bool>("DetDiagLED_validHtmlOutput",true); cloneME_ = ps.getUntrackedParameter<bool>("cloneME", true); badChannelStatusMask_ = ps.getUntrackedParameter<int>("DetDiagLED_BadChannelStatusMask", ps.getUntrackedParameter<int>("BadChannelStatusMask",(1<<HcalChannelStatus::HcalCellDead))); needLogicalMap_=true; }
HcalDetDiagLEDClient::~HcalDetDiagLEDClient | ( | ) |
void HcalDetDiagLEDClient::analyze | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 46 of file HcalDetDiagLEDClient.cc.
References calculateProblems(), gather_cfg::cout, and HcalBaseDQClient::debug_.
Referenced by endRun().
{ if (debug_>2) std::cout <<"\tHcalDetDiagLEDClient::analyze()"<<std::endl; calculateProblems(); }
void HcalDetDiagLEDClient::beginJob | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 59 of file HcalDetDiagLEDClient.cc.
References gather_cfg::cout, HcalBaseDQClient::debug_, HcalBaseDQClient::dqmStore_, cppFunctionSkipper::operator, and DQMStore::showDirStructure().
{ dqmStore_ = edm::Service<DQMStore>().operator->(); if (debug_>0){ std::cout <<"<HcalDetDiagLEDClient::beginJob()> Displaying dqmStore directory structure:"<<std::endl; dqmStore_->showDirStructure(); } }
void HcalDetDiagLEDClient::beginRun | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 68 of file HcalDetDiagLEDClient.cc.
References DQMStore::book2D(), gather_cfg::cout, HcalBaseDQClient::debug_, EtaPhiHists::depth, HcalBaseDQClient::dqmStore_, MonitorElement::getName(), i, nevts_, HcalBaseDQClient::ProblemCells, HcalBaseDQClient::ProblemCellsByDepth, HcalBaseDQClient::problemnames_, DQMStore::setCurrentFolder(), EtaPhiHists::setup(), and HcalBaseDQClient::subdir_.
{ if (!dqmStore_) { if (debug_>0) std::cout <<"<HcalDetDiagLEDClient::beginRun> dqmStore does not exist!"<<std::endl; return; } dqmStore_->setCurrentFolder(subdir_); problemnames_.clear(); // Put the appropriate name of your problem summary here ProblemCells=dqmStore_->book2D(" ProblemDetDiagLED", " Problem DetDiagLED Rate for all HCAL;ieta;iphi", 85,-42.5,42.5, 72,0.5,72.5); problemnames_.push_back(ProblemCells->getName()); if (debug_>1) std::cout << "Tried to create ProblemCells Monitor Element in directory "<<subdir_<<" \t Failed? "<<(ProblemCells==0)<<std::endl; dqmStore_->setCurrentFolder(subdir_+"problem_DetDiagLED"); ProblemCellsByDepth = new EtaPhiHists(); ProblemCellsByDepth->setup(dqmStore_," Problem DetDiagLED Rate"); for (unsigned int i=0; i<ProblemCellsByDepth->depth.size();++i) problemnames_.push_back(ProblemCellsByDepth->depth[i]->getName()); nevts_=0; }
void HcalDetDiagLEDClient::calculateProblems | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 51 of file HcalDetDiagLEDClient.cc.
Referenced by analyze().
{}
void HcalDetDiagLEDClient::cleanup | ( | void | ) | [virtual] |
void HcalDetDiagLEDClient::endJob | ( | void | ) | [virtual] |
void HcalDetDiagLEDClient::endRun | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 92 of file HcalDetDiagLEDClient.cc.
References analyze().
{analyze();}
double HcalDetDiagLEDClient::get_channel_status | ( | std::string | subdet, |
int | eta, | ||
int | phi, | ||
int | depth, | ||
int | type | ||
) | [private] |
Definition at line 188 of file HcalDetDiagLEDClient.cc.
References CalcEtaBin(), ChannelStatusLEDMean, ChannelStatusLEDRMS, ChannelStatusMissingChannels, ChannelStatusTimeMean, ChannelStatusTimeRMS, ChannelStatusUnstableChannels, ChannelStatusUnstableLEDsignal, HcalBarrel, HcalEndcap, HcalForward, and HcalOuter.
Referenced by htmlOutput().
{ int subdetval=-1; if (subdet.compare("HB")==0) subdetval=(int)HcalBarrel; else if (subdet.compare("HE")==0) subdetval=(int)HcalEndcap; else if (subdet.compare("HO")==0) subdetval=(int)HcalOuter; else if (subdet.compare("HF")==0) subdetval=(int)HcalForward; else return -1.0; int ietabin=CalcEtaBin(subdetval, eta, depth)+1; if(type==1) return ChannelStatusMissingChannels[depth-1]->GetBinContent(ietabin,phi); if(type==2) return ChannelStatusUnstableChannels[depth-1]->GetBinContent(ietabin,phi); if(type==3) return ChannelStatusUnstableLEDsignal[depth-1]->GetBinContent(ietabin,phi); if(type==4) return ChannelStatusLEDMean[depth-1]->GetBinContent(ietabin,phi); if(type==5) return ChannelStatusLEDRMS[depth-1]->GetBinContent(ietabin,phi); if(type==6) return ChannelStatusTimeMean[depth-1]->GetBinContent(ietabin,phi); if(type==7) return ChannelStatusTimeRMS[depth-1]->GetBinContent(ietabin,phi); return -1.0; }
double HcalDetDiagLEDClient::get_energy | ( | std::string | subdet, |
int | eta, | ||
int | phi, | ||
int | depth, | ||
int | type | ||
) | [private] |
Definition at line 205 of file HcalDetDiagLEDClient.cc.
References CalcEtaBin(), ChannelsLEDEnergy, ChannelsLEDEnergyRef, HcalBarrel, HcalEndcap, HcalForward, and HcalOuter.
{ int subdetval=-1; if (subdet.compare("HB")==0) subdetval=(int)HcalBarrel; else if (subdet.compare("HE")==0) subdetval=(int)HcalEndcap; else if (subdet.compare("HO")==0) subdetval=(int)HcalOuter; else if (subdet.compare("HF")==0) subdetval=(int)HcalForward; else return -1.0; int ietabin=CalcEtaBin(subdetval, eta, depth)+1; if(type==1) return ChannelsLEDEnergy[depth-1]->GetBinContent(ietabin,phi); if(type==2) return ChannelsLEDEnergyRef[depth-1]->GetBinContent(ietabin,phi); return -1.0; }
bool HcalDetDiagLEDClient::hasErrors_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 96 of file HcalDetDiagLEDClient.cc.
References status.
{ if(status&2) return true; return false; }
bool HcalDetDiagLEDClient::hasOther_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 104 of file HcalDetDiagLEDClient.cc.
{return false;}
bool HcalDetDiagLEDClient::hasWarnings_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 100 of file HcalDetDiagLEDClient.cc.
References status.
{ if(status&1) return true; return false; }
void HcalDetDiagLEDClient::htmlOutput | ( | std::string | htmlDir | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 217 of file HcalDetDiagLEDClient.cc.
References HcalBaseDQClient::badstatusmap, timingPdfMaker::can, ChannelsLEDEnergy, ChannelsLEDEnergyRef, ChannelStatusLEDMean, ChannelStatusLEDRMS, ChannelStatusMissingChannels, ChannelStatusTimeMean, ChannelStatusTimeRMS, ChannelStatusUnstableChannels, ChannelStatusUnstableLEDsignal, HcalBaseDQClient::cloneME_, comment, gather_cfg::cout, HcalBaseDQClient::debug_, cond::rpcobgas::detid, HcalBaseDQClient::dqmStore_, eta, HcalLogicalMap::generateHcalElectronicsMap(), DQMStore::get(), get_channel_status(), HcalLogicalMap::getHcalFrontEndId(), HcalBarrel, HcalEmpty, HcalEndcap, HcalEtaPhiHistNames(), HcalForward, HcalOuter, i, HcalBaseDQClient::logicalMap_, HcalElectronicsMap::lookup(), combine::missing, HcalBaseDQClient::name(), HcalBaseDQClient::name_, EdgesToViz::outfile, phi, printTableHeader(), printTableLine(), printTableTail(), alignCSCRings::s, SD, sd, status, AlCaHLTBitMon_QueryRunRegistry::string, HcalBaseDQClient::subdir_, Services_cff::Timing, and MonitorElement::valueString().
{ MonitorElement* me; int MissingCnt=0; int UnstableCnt=0; int UnstableLEDCnt=0; int BadTimingCnt=0; int HBP[7]={0,0,0,0,0,0,0},newHBP[7]={0,0,0,0,0,0,0}; int HBM[7]={0,0,0,0,0,0,0},newHBM[7]={0,0,0,0,0,0,0}; int HEP[7]={0,0,0,0,0,0,0},newHEP[7]={0,0,0,0,0,0,0}; int HEM[7]={0,0,0,0,0,0,0},newHEM[7]={0,0,0,0,0,0,0}; int HFP[7]={0,0,0,0,0,0,0},newHFP[7]={0,0,0,0,0,0,0}; int HFM[7]={0,0,0,0,0,0,0},newHFM[7]={0,0,0,0,0,0,0}; int HO[7] ={0,0,0,0,0,0,0},newHO[7] ={0,0,0,0,0,0,0}; std::string subdet[4]={"HB","HE","HO","HF"}; if (debug_>0) std::cout << "<HcalDetDiagLEDClient::htmlOutput> Preparing html output ..." << std::endl; if(!dqmStore_) return; HcalElectronicsMap emap=logicalMap_->generateHcalElectronicsMap(); std::vector<std::string> name = HcalEtaPhiHistNames(); for(int i=0;i<4;++i){ ChannelsLEDEnergy[i]=ChannelsLEDEnergyRef[i]=ChannelStatusMissingChannels[i]=ChannelStatusUnstableChannels[i]=0; ChannelStatusUnstableLEDsignal[i]=ChannelStatusLEDMean[i]=ChannelStatusLEDRMS[i]=ChannelStatusTimeMean[i]=0; ChannelStatusTimeRMS[i]=0; std::string s; s=subdir_+"channel status/"+name[i]+" Missing Channels"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusMissingChannels[i]=HcalUtilsClient::getHisto<TH2F*>(me,cloneME_,ChannelStatusMissingChannels[i],debug_); else return; s=subdir_+"channel status/"+name[i]+" Unstable Channels"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusUnstableChannels[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusUnstableChannels[i], debug_); else return; s=subdir_+"channel status/"+name[i]+" Unstable LED"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusUnstableLEDsignal[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusUnstableLEDsignal[i], debug_); else return; s=subdir_+"channel status/"+name[i]+" LED Mean"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusLEDMean[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusLEDMean[i], debug_); else return; s=subdir_+"channel status/"+name[i]+" LED RMS"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusLEDRMS[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusLEDRMS[i], debug_); else return; s=subdir_+"channel status/"+name[i]+" Time Mean"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusTimeMean[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusTimeMean[i], debug_); else return; s=subdir_+"channel status/"+name[i]+" Time RMS"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelStatusTimeRMS[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelStatusTimeRMS[i], debug_); else return; s=subdir_+"Summary Plots/"+name[i]+" Channel LED Energy"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelsLEDEnergy[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelsLEDEnergy[i], debug_); else return; s=subdir_+"Summary Plots/"+name[i]+" Channel LED Energy Reference"; me=dqmStore_->get(s.c_str()); if (me!=0) ChannelsLEDEnergyRef[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, ChannelsLEDEnergyRef[i], debug_); else return; } // check how many problems we have: for(int sd=0;sd<4;sd++){ int feta=0,teta=0,fdepth=0,tdepth=0; if(sd==0){ feta=-16; teta=16 ;fdepth=1; tdepth=2; } if(sd==1){ feta=-29; teta=29 ;fdepth=1; tdepth=3; } if(sd==2){ feta=-15; teta=15 ;fdepth=4; tdepth=4; } if(sd==3){ feta=-42; teta=42 ;fdepth=1; tdepth=2; } for(int phi=1;phi<=72;phi++) for(int depth=fdepth;depth<=tdepth;depth++) for(int eta=feta;eta<=teta;eta++){ if(sd==3 && eta>-29 && eta<29) continue; double problem[7]={0,0,0,0,0,0,0}; for(int i=0;i<6;i++){ problem[i] =get_channel_status(subdet[sd],eta,phi,depth,i+1); if(problem[i]!=0){ HcalSubdetector SD=HcalEmpty; if(sd==0)SD=HcalBarrel; else if(sd==1) SD=HcalEndcap; else if(sd==2) SD=HcalOuter; else if(sd==3) SD=HcalForward; HcalDetId hcalid(SD, eta, phi, depth); if(sd==0){ if(eta>0){ HBP[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHBP[i]++; }else{ HBM[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHBM[i]++; }} if(sd==1){ if(eta>0){ HEP[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHEP[i]++; }else{ HEM[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHEM[i]++; }} if(sd==2){ HO[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHO[i]++; } if(sd==3){ if(eta>0){ HFP[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHFP[i]++; }else{ HFM[i]++; if(badstatusmap.find(hcalid)==badstatusmap.end())newHFM[i]++; }} } } } } // missing channels list ofstream Missing; Missing.open((htmlDir + "Missing.html").c_str()); printTableHeader(Missing,"Missing Channels list"); // Bad timing channels list ofstream BadTiming; BadTiming.open((htmlDir + "BadTiming.html").c_str()); printTableHeader(BadTiming,"Bad Timing Channels list"); // unstable channels list ofstream Unstable; Unstable.open((htmlDir + "Unstable.html").c_str()); printTableHeader(Unstable,"Low LED signal Channels list"); // unstable LED signal list ofstream BadLED; BadLED.open((htmlDir + "UnstableLED.html").c_str()); printTableHeader(BadLED,"Unstable LED signal channels list"); for(int sd=0;sd<4;sd++){ int cnt=0; if(sd==0 && ((HBM[0]+HBP[0])==0 || (HBM[0]+HBP[0])==(1296*2))) continue; if(sd==1 && ((HEM[0]+HEP[0])==0 || (HEM[0]+HEP[0])==(1296*2))) continue; if(sd==2 && ((HO[0])==0 || HO[0]==2160)) continue; if(sd==3 && ((HFM[0]+HFP[0])==0 || (HFM[0]+HFP[0])==(864*2))) continue; Missing << "<tr><td align=\"center\"><h3>"<< subdet[sd] <<"</h3></td></tr>" << std::endl; int feta=0,teta=0,fdepth=0,tdepth=0; if(sd==0){ feta=-16; teta=16 ;fdepth=1; tdepth=2; if(HBM[0]==1296) feta=0; if(HBP[0]==1296) teta=0;} if(sd==1){ feta=-29; teta=29 ;fdepth=1; tdepth=3; if(HEM[0]==1296) feta=0; if(HEP[0]==1296) teta=0;} if(sd==2){ feta=-15; teta=15 ;fdepth=4; tdepth=4; if(HO[0] ==2160) {feta=0; teta=0; }} if(sd==3){ feta=-42; teta=42 ;fdepth=1; tdepth=2; if(HFM[0]==864) feta=0; if(HFP[0]==864) teta=0; } for(int phi=1;phi<=72;phi++) for(int depth=fdepth;depth<=tdepth;depth++) for(int eta=feta;eta<=teta;eta++){ if(sd==3 && eta>-29 && eta<29) continue; double missing =get_channel_status(subdet[sd],eta,phi,depth,1); if(missing>0){ HcalDetId *detid=0; if(sd==0) detid=new HcalDetId(HcalBarrel,eta,phi,depth); if(sd==1) detid=new HcalDetId(HcalEndcap,eta,phi,depth); if(sd==2) detid=new HcalDetId(HcalOuter,eta,phi,depth); if(sd==3) detid=new HcalDetId(HcalForward,eta,phi,depth); HcalFrontEndId lmap_entry=logicalMap_->getHcalFrontEndId(*detid); HcalElectronicsId emap_entry=emap.lookup(*detid); std::string s=" "; if(badstatusmap.find(*detid)!=badstatusmap.end()){ s="Known problem"; } printTableLine(Missing,cnt++,*detid,lmap_entry,emap_entry,s); MissingCnt++; delete detid; } } } for(int sd=0;sd<4;sd++){ int cnt=0; if(sd==0 && (HBM[5]+HBP[5])==0) continue; if(sd==1 && (HEM[5]+HEP[5])==0) continue; if(sd==2 && (HO[5])==0) continue; if(sd==3 && (HFM[5]+HFP[5])==0) continue; BadTiming << "<tr><td align=\"center\"><h3>"<< subdet[sd] <<"</h3></td></tr>" << std::endl; int feta=0,teta=0,fdepth=0,tdepth=0; if(sd==0){ feta=-16; teta=16 ;fdepth=1; tdepth=2; if(HBM[0]==1296) feta=0; if(HBP[0]==1296) teta=0;} if(sd==1){ feta=-29; teta=29 ;fdepth=1; tdepth=3; if(HEM[0]==1296) feta=0; if(HEP[0]==1296) teta=0;} if(sd==2){ feta=-15; teta=15 ;fdepth=4; tdepth=4; if(HO[0] ==2160) {feta=0; teta=0; }} if(sd==3){ feta=-42; teta=42 ;fdepth=1; tdepth=2; if(HFM[0]==864) feta=0; if(HFP[0]==864) teta=0; } for(int phi=1;phi<=72;phi++) for(int depth=fdepth;depth<=tdepth;depth++) for(int eta=feta;eta<=teta;eta++){ if(sd==3 && eta>-29 && eta<29) continue; double badtiming =get_channel_status(subdet[sd],eta,phi,depth,6); if(badtiming!=0){ try{ char comment[100]; sprintf(comment,"Time-mean=%.1f\n",badtiming); HcalDetId *detid=0; if(sd==0) detid=new HcalDetId(HcalBarrel,eta,phi,depth); if(sd==1) detid=new HcalDetId(HcalEndcap,eta,phi,depth); if(sd==2) detid=new HcalDetId(HcalOuter,eta,phi,depth); if(sd==3) detid=new HcalDetId(HcalForward,eta,phi,depth); HcalFrontEndId lmap_entry=logicalMap_->getHcalFrontEndId(*detid); HcalElectronicsId emap_entry=emap.lookup(*detid); printTableLine(BadTiming,cnt++,*detid,lmap_entry,emap_entry,comment); BadTimingCnt++; delete detid; }catch(cms::Exception &){ continue;} } } } for(int sd=0;sd<4;sd++){ int cnt=0; if(sd==0 && (HBM[1]+HBP[1])==0) continue; if(sd==1 && (HEM[1]+HEP[1])==0) continue; if(sd==2 && (HO[1])==0) continue; if(sd==3 && (HFM[1]+HFP[1])==0) continue; Unstable << "<tr><td align=\"center\"><h3>"<< subdet[sd] <<"</h3></td></tr>" << std::endl; int feta=0,teta=0,fdepth=0,tdepth=0; if(sd==0){ feta=-16; teta=16 ;fdepth=1; tdepth=2;} if(sd==1){ feta=-29; teta=29 ;fdepth=1; tdepth=3;} if(sd==2){ feta=-15; teta=15 ;fdepth=4; tdepth=4;} if(sd==3){ feta=-42; teta=42 ;fdepth=1; tdepth=2;} for(int phi=1;phi<=72;phi++) for(int depth=fdepth;depth<=tdepth;depth++) for(int eta=feta;eta<=teta;eta++){ if(sd==3 && eta>-29 && eta<29) continue; double unstable =get_channel_status(subdet[sd],eta,phi,depth,2); if(unstable>0){ try{ char comment[100]; sprintf(comment,"%.3f%%\n",(1.0-unstable)*100.0); HcalDetId *detid=0; if(sd==0) detid=new HcalDetId(HcalBarrel,eta,phi,depth); if(sd==1) detid=new HcalDetId(HcalEndcap,eta,phi,depth); if(sd==2) detid=new HcalDetId(HcalOuter,eta,phi,depth); if(sd==3) detid=new HcalDetId(HcalForward,eta,phi,depth); HcalFrontEndId lmap_entry=logicalMap_->getHcalFrontEndId(*detid); HcalElectronicsId emap_entry=emap.lookup(*detid); printTableLine(Unstable,cnt++,*detid,lmap_entry,emap_entry,comment); UnstableCnt++; delete detid; }catch(cms::Exception &){ continue;} } } } for(int sd=0;sd<4;sd++){ int cnt=0; if(sd==0 && (HBM[2]+HBP[2])==0) continue; if(sd==1 && (HEM[2]+HEP[2])==0) continue; if(sd==2 && (HO[2])==0) continue; if(sd==3 && (HFM[2]+HFP[2])==0) continue; BadLED << "<tr><td align=\"center\"><h3>"<< subdet[sd] <<"</h3></td></tr>" << std::endl; int feta=0,teta=0,fdepth=0,tdepth=0; if(sd==0){ feta=-16; teta=16 ;fdepth=1; tdepth=2;} if(sd==1){ feta=-29; teta=29 ;fdepth=1; tdepth=3;} if(sd==2){ feta=-15; teta=15 ;fdepth=4; tdepth=4;} if(sd==3){ feta=-42; teta=42 ;fdepth=1; tdepth=2;} for(int phi=1;phi<=72;phi++) for(int depth=fdepth;depth<=tdepth;depth++) for(int eta=feta;eta<=teta;eta++){ if(sd==3 && eta>-29 && eta<29) continue; double badled =get_channel_status(subdet[sd],eta,phi,depth,3); if(badled>0){ try{ char comment[100]; sprintf(comment,"%.3f%%\n",(badled)*100.0); HcalDetId *detid=0; if(sd==0) detid=new HcalDetId(HcalBarrel,eta,phi,depth); if(sd==1) detid=new HcalDetId(HcalEndcap,eta,phi,depth); if(sd==2) detid=new HcalDetId(HcalOuter,eta,phi,depth); if(sd==3) detid=new HcalDetId(HcalForward,eta,phi,depth); HcalFrontEndId lmap_entry=logicalMap_->getHcalFrontEndId(*detid); HcalElectronicsId emap_entry=emap.lookup(*detid); std::string s=" "; if(badstatusmap.find(*detid)!=badstatusmap.end()){ s="Known problem"; } printTableLine(BadLED,cnt++,*detid,lmap_entry,emap_entry,s); UnstableLEDCnt++; delete detid; }catch(cms::Exception &){ continue;} } } } printTableTail(Missing); Missing.close(); printTableTail(BadTiming); BadTiming.close(); printTableTail(Unstable); Unstable.close(); printTableTail(BadLED); BadLED.close(); int ievt_ = -1,runNo=-1; std::string ref_run; std::string s=subdir_+"HcalDetDiagLEDMonitor Event Number"; me = dqmStore_->get(s.c_str()); if ( me ) { s = me->valueString(); sscanf((s.substr(2,s.length()-2)).c_str(), "%d", &ievt_); } s=subdir_+"HcalDetDiagLEDMonitor Run Number"; me = dqmStore_->get(s.c_str()); if ( me ) { s = me->valueString(); sscanf((s.substr(2,s.length()-2)).c_str(), "%d", &runNo); } s=subdir_+"HcalDetDiagLEDMonitor Reference Run"; me = dqmStore_->get(s.c_str()); if(me) { std::string s=me->valueString(); char str[200]; sscanf((s.substr(2,s.length()-2)).c_str(), "%s", str); ref_run=str; } TH1F *Energy=0,*Timing=0,*EnergyHF=0,*TimingHF=0,*EnergyRMS=0,*TimingRMS=0,*EnergyRMSHF=0,*TimingRMSHF=0; TH2F *Time2Dhbhehf=0,*Time2Dho=0,*Energy2Dhbhehf=0,*Energy2Dho=0; TH2F *HBPphi=0,*HBMphi=0,*HEPphi=0,*HEMphi=0,*HFPphi=0,*HFMphi=0,*HO0phi=0,*HO1Pphi=0,*HO2Pphi=0,*HO1Mphi=0,*HO2Mphi=0; s=subdir_+"Summary Plots/HBHEHO LED Energy Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) Energy=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, Energy, debug_); else return; s=subdir_+"Summary Plots/HBHEHO LED Timing Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) Timing=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, Timing, debug_); else return; s=subdir_+"Summary Plots/HBHEHO LED Energy RMS_div_Energy Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) EnergyRMS=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, EnergyRMS, debug_); else return; s=subdir_+"Summary Plots/HBHEHO LED Timing RMS Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) TimingRMS=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, TimingRMS, debug_); else return; s=subdir_+"Summary Plots/HF LED Energy Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) EnergyHF=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, EnergyHF, debug_); else return; s=subdir_+"Summary Plots/HF LED Timing Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) TimingHF=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, TimingHF, debug_); else return; s=subdir_+"Summary Plots/HF LED Energy RMS_div_Energy Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) EnergyRMSHF=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, EnergyRMSHF, debug_); else return; s=subdir_+"Summary Plots/HF LED Timing RMS Distribution"; me=dqmStore_->get(s.c_str()); if(me!=0) TimingRMSHF=HcalUtilsClient::getHisto<TH1F*>(me, cloneME_, TimingRMSHF, debug_); else return; s=subdir_+"Summary Plots/LED Timing HBHEHF"; me=dqmStore_->get(s.c_str()); if(me!=0) Time2Dhbhehf=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, Time2Dhbhehf, debug_); else return; s=subdir_+"Summary Plots/LED Timing HO"; me=dqmStore_->get(s.c_str()); if(me!=0) Time2Dho=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, Time2Dho, debug_); else return; s=subdir_+"Summary Plots/LED Energy HBHEHF"; me=dqmStore_->get(s.c_str()); if(me!=0) Energy2Dhbhehf=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, Energy2Dhbhehf, debug_); else return; s=subdir_+"Summary Plots/LED Energy HO"; me=dqmStore_->get(s.c_str()); if(me!=0) Energy2Dho=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, Energy2Dho, debug_); else return; s=subdir_+"Summary Plots/HBP Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HBPphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HBPphi, debug_); else return; s=subdir_+"Summary Plots/HBM Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HBMphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HBMphi, debug_); else return; s=subdir_+"Summary Plots/HEP Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HEPphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HEPphi, debug_); else return; s=subdir_+"Summary Plots/HEM Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HEMphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HEMphi, debug_); else return; s=subdir_+"Summary Plots/HFP Average over RM LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HFPphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HFPphi, debug_); else return; s=subdir_+"Summary Plots/HFM Average over RM LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HFMphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HFMphi, debug_); else return; s=subdir_+"Summary Plots/HO0 Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HO0phi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HO0phi, debug_); else return; s=subdir_+"Summary Plots/HO1P Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HO1Pphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HO1Pphi, debug_); else return; s=subdir_+"Summary Plots/HO2P Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HO2Pphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HO2Pphi, debug_); else return; s=subdir_+"Summary Plots/HO1M Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HO1Mphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HO1Mphi, debug_); else return; s=subdir_+"Summary Plots/HO2M Average over HPD LED Ref"; me=dqmStore_->get(s.c_str()); if(me!=0) HO2Mphi=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HO2Mphi, debug_); else return; gROOT->SetBatch(true); gStyle->SetCanvasColor(0); gStyle->SetPadColor(0); gStyle->SetOptStat(111110); gStyle->SetPalette(1); TCanvas *can=new TCanvas("HcalDetDiagLEDClient","HcalDetDiagLEDClient",0,0,500,350); can->SetGridy(); can->SetGridx(); can->cd(); ofstream htmlFile; std::string outfile=htmlDir+name_+".html"; htmlFile.open(outfile.c_str()); // html page header htmlFile << "<!DOCTYPE html PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\"> " << std::endl; htmlFile << "<html> " << std::endl; htmlFile << "<head> " << std::endl; htmlFile << " <meta content=\"text/html; charset=ISO-8859-1\" " << std::endl; htmlFile << " https-equiv=\"content-type\"> " << std::endl; htmlFile << " <title>Detector Diagnostics LED Monitor</title> " << std::endl; htmlFile << "</head> " << std::endl; htmlFile << "<style type=\"text/css\"> td { font-weight: bold } </style>" << std::endl; htmlFile << "<style type=\"text/css\">"<< std::endl; htmlFile << " td.s0 { font-family: arial, arial ce, helvetica; font-weight: bold; background-color: #FF7700; text-align: center;}"<< std::endl; htmlFile << " td.s1 { font-family: arial, arial ce, helvetica; font-weight: bold; background-color: #FFC169; text-align: center;}"<< std::endl; htmlFile << " td.s2 { font-family: arial, arial ce, helvetica; background-color: red; }"<< std::endl; htmlFile << " td.s3 { font-family: arial, arial ce, helvetica; background-color: yellow; }"<< std::endl; htmlFile << " td.s4 { font-family: arial, arial ce, helvetica; background-color: green; }"<< std::endl; htmlFile << " td.s5 { font-family: arial, arial ce, helvetica; background-color: silver; }"<< std::endl; std::string state[4]={"<td class=\"s2\" align=\"center\">", "<td class=\"s3\" align=\"center\">", "<td class=\"s4\" align=\"center\">", "<td class=\"s5\" align=\"center\">"}; htmlFile << "</style>"<< std::endl; htmlFile << "<body> " << std::endl; htmlFile << "<br> " << std::endl; htmlFile << "<h2>Run: " << std::endl; htmlFile << " <span " << std::endl; htmlFile << " style=\"color: rgb(0, 0, 153);\">" << runNo << "</span></h2>" << std::endl; htmlFile << "<h2>Monitoring task: <span " << std::endl; htmlFile << " style=\"color: rgb(0, 0, 153);\">Detector Diagnostics LED Monitor</span></h2> " << std::endl; htmlFile << "<h2>Events processed: <span " << std::endl; htmlFile << " style=\"color: rgb(0, 0, 153);\">" << ievt_ << "</span></h2>" << std::endl; htmlFile << "<hr>" << std::endl; htmlFile << "<table width=100% border=1>" << std::endl; htmlFile << "<tr>" << std::endl; htmlFile << "<td class=\"s0\" width=15% align=\"center\">SebDet</td>" << std::endl; htmlFile << "<td class=\"s0\" width=17% align=\"center\">Missing</td>" << std::endl; htmlFile << "<td class=\"s0\" width=17% align=\"center\">Unstable</td>" << std::endl; htmlFile << "<td class=\"s0\" width=17% align=\"center\">low/no LED signal</td>" << std::endl; htmlFile << "<td class=\"s0\" width=17% align=\"center\">Bad Timing</td>" << std::endl; htmlFile << "<td class=\"s0\" width=17% align=\"center\">Bad LED signal</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; int ind1=0,ind2=0,ind3=0,ind4=0,ind5=0; htmlFile << "<td class=\"s1\" align=\"center\">HB+</td>" << std::endl; ind1=3; if(newHBP[0]==0) ind1=2; if(newHBP[0]>0 && newHBP[0]<=12) ind1=1; if(newHBP[0]>=12 && HBP[0]<1296) ind1=0; ind2=3; if(newHBP[1]==0) ind2=2; if(newHBP[1]>0) ind2=1; if(newHBP[1]>21) ind2=0; ind3=3; if(newHBP[2]==0) ind3=2; if(newHBP[2]>0) ind3=1; if(newHBP[2]>21) ind3=0; ind4=3; if((newHBP[3]+newHBP[4])==0) ind4=2; if((newHBP[3]+newHBP[4])>0) ind4=1; if((newHBP[3]+newHBP[4])>21) ind4=0; ind5=3; if((newHBP[5]+newHBP[6])==0) ind5=2; if((newHBP[5]+newHBP[6])>0) ind5=1; if((newHBP[5]+newHBP[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1) status|=1; htmlFile << state[ind1] << HBP[0] <<" (1296)</td>" << std::endl; htmlFile << state[ind2] << HBP[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HBP[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HBP[5]+HBP[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HBP[3]+HBP[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HB-</td>" << std::endl; ind1=3; if(newHBM[0]==0) ind1=2; if(newHBM[0]>0 && newHBM[0]<=12) ind1=1; if(newHBM[0]>=12 && HBM[0]<1296) ind1=0; ind2=3; if(newHBM[1]==0) ind2=2; if(newHBM[1]>0) ind2=1; if(newHBM[1]>21) ind2=0; ind3=3; if(newHBM[2]==0) ind3=2; if(newHBM[2]>0) ind3=1; if(newHBM[2]>21) ind3=0; ind4=3; if((newHBM[3]+newHBM[4])==0) ind4=2; if((newHBM[3]+newHBM[4])>0) ind4=1; if((newHBM[3]+newHBM[4])>21) ind4=0; ind5=3; if((newHBM[5]+newHBM[6])==0) ind5=2; if((newHBM[5]+newHBM[6])>0) ind5=1; if((newHBM[5]+newHBM[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HBM[0] <<" (1296)</td>" << std::endl; htmlFile << state[ind2] << HBM[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HBM[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HBM[5]+HBM[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HBM[3]+HBM[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HE+</td>" << std::endl; ind1=3; if(newHEP[0]==0) ind1=2; if(newHEP[0]>0 && newHEP[0]<=12) ind1=1; if(newHEP[0]>=12 && HEP[0]<1296) ind1=0; ind2=3; if(newHEP[1]==0) ind2=2; if(newHEP[1]>0) ind2=1; if(newHEP[1]>21) ind2=0; ind3=3; if(newHEP[2]==0) ind3=2; if(newHEP[2]>0) ind3=1; if(newHEP[2]>21) ind3=0; ind4=3; if((newHEP[3]+newHEP[4])==0) ind4=2; if((newHEP[3]+newHEP[4])>0) ind4=1; if((newHEP[3]+newHEP[4])>21) ind4=0; ind5=3; if((newHEP[5]+newHEP[6])==0) ind5=2; if((newHEP[5]+newHEP[6])>0) ind5=1; if((newHEP[5]+newHEP[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HEP[0] <<" (1296)</td>" << std::endl; htmlFile << state[ind2] << HEP[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HEP[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HEP[5]+HEP[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HEP[3]+HEP[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HE-</td>" << std::endl; ind1=3; if(newHEM[0]==0) ind1=2; if(newHEM[0]>0 && newHEM[0]<=12) ind1=1; if(newHEM[0]>=12 && HEM[0]<1296) ind1=0; ind2=3; if(newHEM[1]==0) ind2=2; if(newHEM[1]>0) ind2=1; if(newHEM[1]>21) ind2=0; ind3=3; if(newHEM[2]==0) ind3=2; if(newHEM[2]>0) ind3=1; if(newHEM[2]>21) ind3=0; ind4=3; if((newHEM[3]+newHEM[4])==0) ind4=2; if((newHEM[3]+newHEM[4])>0) ind4=1; if((newHEM[3]+newHEM[4])>21) ind4=0; ind5=3; if((newHEM[5]+newHEM[6])==0) ind5=2; if((newHEM[5]+newHEM[6])>0) ind5=1; if((newHEM[5]+newHEM[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HEM[0] <<" (1296)</td>" << std::endl; htmlFile << state[ind2] << HEM[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HEM[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HEM[5]+HEM[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HEM[3]+HEM[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HF+</td>" << std::endl; ind1=3; if(newHFP[0]==0) ind1=2; if(newHFP[0]>0 && newHFP[0]<=12) ind1=1; if(newHFP[0]>=12 && HFP[0]<864) ind1=0; ind2=3; if(newHFP[1]==0) ind2=2; if(newHFP[1]>0) ind2=1; if(newHFP[1]>21) ind2=0; ind3=3; if(newHFP[2]==0) ind3=2; if(newHFP[2]>0) ind3=1; if(newHFP[2]>21) ind3=0; ind4=3; if((newHFP[3]+newHFP[4])==0) ind4=2; if((newHFP[3]+newHFP[4])>0) ind4=1; if((newHFP[3]+newHFP[4])>21) ind4=0; ind5=3; if((newHFP[5]+newHFP[6])==0) ind5=2; if((newHFP[5]+newHFP[6])>0) ind5=1; if((newHFP[5]+newHFP[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HFP[0] <<" (864)</td>" << std::endl; htmlFile << state[ind2] << HFP[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HFP[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HFP[5]+HFP[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HFP[3]+HFP[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HF-</td>" << std::endl; ind1=3; if(newHFM[0]==0) ind1=2; if(newHFM[0]>0 && newHFM[0]<=12) ind1=1; if(newHFM[0]>=12 && HFM[0]<864) ind1=0; ind2=3; if(newHFM[1]==0) ind2=2; if(newHFM[1]>0) ind2=1; if(newHFM[1]>21) ind2=0; ind3=3; if(newHFM[2]==0) ind3=2; if(newHFM[2]>0) ind3=1; if(newHFM[2]>21) ind3=0; ind4=3; if((HFM[3]+HFM[4])==0) ind4=2; if((HFM[3]+HFM[4])>0) ind4=1; if((HFM[3]+HFM[4])>21) ind4=0; ind5=3; if((HFM[5]+HFM[6])==0) ind5=2; if((HFM[5]+HFM[6])>0) ind5=1; if((HFM[5]+HFM[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HFM[0] <<" (864)</td>" << std::endl; htmlFile << state[ind2] << HFM[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HFM[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HFM[5]+HFM[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HFM[3]+HFM[4] <<"</td>" << std::endl; htmlFile << "</tr><tr>" << std::endl; htmlFile << "<td class=\"s1\" align=\"center\">HO</td>" << std::endl; ind1=3; if(newHO[0]==0) ind1=2; if(newHO[0]>0 && newHO[0]<=12) ind1=1; if(newHO[0]>=12 && HO[0]<2160) ind1=0; ind2=3; if(newHO[1]==0) ind2=2; if(newHO[1]>0) ind2=1; if(newHO[1]>21) ind2=0; ind3=3; if(newHO[2]==0) ind3=2; if(newHO[2]>0) ind3=1; if(newHO[2]>21) ind3=0; ind4=3; if((newHO[3]+newHO[4])==0) ind4=2; if((newHO[3]+newHO[4])>0) ind4=1; if((newHO[3]+newHO[4])>21) ind4=0; ind5=3; if((newHO[5]+newHO[6])==0) ind5=2; if((newHO[5]+newHO[6])>0) ind5=1; if((newHO[5]+newHO[6])>21) ind5=0; if(ind1==3) ind2=ind3=ind4=ind5=3; if(ind1==0 || ind2==0 || ind3==0 || ind4==0) status|=2; else if(ind1==1 || ind2==1 || ind3==1 || ind4==1)status|=1; htmlFile << state[ind1] << HO[0] <<" (2160)</td>" << std::endl; htmlFile << state[ind2] << HO[1] <<"</td>" << std::endl; htmlFile << state[ind3] << HO[2] <<"</td>" << std::endl; htmlFile << state[ind5] << HO[5]+HO[6] <<"</td>" << std::endl; htmlFile << state[ind4] << HO[3]+HO[4] <<"</td>" << std::endl; htmlFile << "</tr></table>" << std::endl; htmlFile << "<hr>" << std::endl; if((MissingCnt+UnstableCnt+UnstableLEDCnt+BadTimingCnt)>0){ htmlFile << "<table width=100% border=1><tr>" << std::endl; if(MissingCnt>0) htmlFile << "<td><a href=\"" << "Missing.html" <<"\">list of missing channels</a></td>"; if(UnstableCnt>0) htmlFile << "<td><a href=\"" << "Unstable.html" <<"\">list of unstable channels</a></td>"; if(UnstableLEDCnt>0)htmlFile << "<td><a href=\"" << "UnstableLED.html" <<"\">list of low LED signal channels</a></td>"; if(BadTimingCnt>0)htmlFile << "<td><a href=\"" << "BadTiming.html" <<"\">list of Bad Timing channels</a></td>"; htmlFile << "</tr></table>" << std::endl; } htmlFile << "<h2 align=\"center\">Summary LED plots</h2>" << std::endl; htmlFile << "<table width=100% border=0><tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; Time2Dhbhehf->SetMaximum(6); Time2Dho->SetMaximum(6); Time2Dhbhehf->SetNdivisions(36,"Y"); Time2Dho->SetNdivisions(36,"Y"); Time2Dhbhehf->SetStats(0); Time2Dho->SetStats(0); Time2Dhbhehf->Draw("COLZ"); can->SaveAs((htmlDir + "led_timing_hbhehf.gif").c_str()); Time2Dho->Draw("COLZ"); can->SaveAs((htmlDir + "led_timing_ho.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_timing_hbhehf.gif\" alt=\"led timing distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_timing_ho.gif\" alt=\"led timing distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; Energy2Dhbhehf->SetStats(0); Energy2Dho->SetStats(0); Energy2Dhbhehf->SetNdivisions(36,"Y"); Energy2Dho->SetNdivisions(36,"Y"); Energy2Dhbhehf->Draw("COLZ"); can->SaveAs((htmlDir + "led_energy_hbhehf.gif").c_str()); Energy2Dho->Draw("COLZ"); can->SaveAs((htmlDir + "led_energy_ho.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_energy_hbhehf.gif\" alt=\"led energy distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_energy_ho.gif\" alt=\"led energy distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; can->SetGridy(false); htmlFile << "<tr align=\"left\">" << std::endl; Energy->Draw(); can->SaveAs((htmlDir + "led_energy_distribution.gif").c_str()); EnergyRMS->Draw(); can->SaveAs((htmlDir + "led_energy_rms_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_energy_distribution.gif\" alt=\"led energy distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_energy_rms_distribution.gif\" alt=\"led energy rms distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; Timing->Draw(); can->SaveAs((htmlDir + "led_timing_distribution.gif").c_str()); TimingRMS->Draw(); can->SaveAs((htmlDir + "led_timing_rms_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_timing_distribution.gif\" alt=\"led timing distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_timing_rms_distribution.gif\" alt=\"led timing rms distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; EnergyHF->Draw(); can->SaveAs((htmlDir + "led_energyhf_distribution.gif").c_str()); EnergyRMSHF->Draw(); can->SaveAs((htmlDir + "led_energyhf_rms_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_energyhf_distribution.gif\" alt=\"hf led energy distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_energyhf_rms_distribution.gif\" alt=\"hf led energy rms distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; TimingHF->Draw(); can->SaveAs((htmlDir + "led_timinghf_distribution.gif").c_str()); TimingRMSHF->Draw(); can->SaveAs((htmlDir + "led_timinghf_rms_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_timinghf_distribution.gif\" alt=\"hf led timing distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_timinghf_rms_distribution.gif\" alt=\"hf led timing rms distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "</table>" << std::endl; htmlFile << "<h2 align=\"center\">Stability LED plots (Reference run "<<ref_run<<")</h2>" << std::endl; htmlFile << "<table width=100% border=0><tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HBPphi->GetXaxis()->SetNdivisions(418,kFALSE); HBMphi->GetXaxis()->SetNdivisions(418,kFALSE); HEPphi->GetXaxis()->SetNdivisions(418,kFALSE); HEMphi->GetXaxis()->SetNdivisions(418,kFALSE); HBPphi->SetMarkerColor(kRed); HBPphi->SetMarkerStyle(23); HBPphi->SetXTitle("HPD Index = RBX*4+RM"); HBMphi->SetMarkerColor(kRed); HBMphi->SetMarkerStyle(23); HBMphi->SetXTitle("HPD Index = RBX*4+RM"); HBPphi->Draw(); can->SaveAs((htmlDir + "led_hbp_distribution.gif").c_str()); HBMphi->Draw(); can->SaveAs((htmlDir + "led_hbm_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_hbp_distribution.gif\" alt=\"led hbp distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_hbm_distribution.gif\" alt=\"led hbm distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HEPphi->SetMarkerColor(kRed); HEPphi->SetMarkerStyle(23); HEPphi->SetXTitle("HPD Index = RBX*4+RM"); HEMphi->SetMarkerColor(kRed); HEMphi->SetMarkerStyle(23); HEMphi->SetXTitle("HPD Index = RBX*4+RM"); HEPphi->Draw(); can->SaveAs((htmlDir + "led_hep_distribution.gif").c_str()); HEMphi->Draw(); can->SaveAs((htmlDir + "led_hem_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_hep_distribution.gif\" alt=\"led hep distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_hem_distribution.gif\" alt=\"led hem distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HFPphi->SetMarkerColor(kRed); HFPphi->SetMarkerStyle(23); HFPphi->SetXTitle("RM Index = RoBox*3+RM"); HFMphi->SetMarkerColor(kRed); HFMphi->SetMarkerStyle(23); HFPphi->GetXaxis()->SetNdivisions(312,kFALSE); HFMphi->GetXaxis()->SetNdivisions(312,kFALSE); HFMphi->SetXTitle("RM Index = RoBox*3+RM"); HFPphi->Draw(); can->SaveAs((htmlDir + "led_hfp_distribution.gif").c_str()); HFMphi->Draw(); can->SaveAs((htmlDir + "led_hfm_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_hfp_distribution.gif\" alt=\"led hfp distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_hfm_distribution.gif\" alt=\"led hfm distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HO1Pphi->SetMarkerColor(kRed); HO1Pphi->SetMarkerStyle(23); HO1Pphi->SetXTitle("HPD Index = RBX*4+RM"); HO1Mphi->SetMarkerColor(kRed); HO1Mphi->SetMarkerStyle(23); HO1Mphi->GetXaxis()->SetNdivisions(412,kFALSE); HO1Pphi->GetXaxis()->SetNdivisions(412,kFALSE); HO1Mphi->SetXTitle("HPD Index = RBX*4+RM"); HO1Pphi->Draw(); can->SaveAs((htmlDir + "led_ho1p_distribution.gif").c_str()); HO1Mphi->Draw(); can->SaveAs((htmlDir + "led_ho1m_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_ho1p_distribution.gif\" alt=\"led ho1p distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_ho1m_distribution.gif\" alt=\"led ho1m distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HO2Pphi->SetMarkerColor(kRed); HO2Pphi->SetMarkerStyle(23); HO2Pphi->SetXTitle("HPD Index = RBX*4+RM"); HO2Mphi->SetMarkerColor(kRed); HO2Mphi->SetMarkerStyle(23); HO2Mphi->GetXaxis()->SetNdivisions(412,kFALSE); HO2Pphi->GetXaxis()->SetNdivisions(412,kFALSE); HO2Mphi->SetXTitle("HPD Index = RBX*4+RM"); HO2Pphi->Draw(); can->SaveAs((htmlDir + "led_ho2p_distribution.gif").c_str()); HO2Mphi->Draw(); can->SaveAs((htmlDir + "led_ho2m_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_ho2p_distribution.gif\" alt=\"led ho2p distribution\"> </td>" << std::endl; htmlFile << "<td align=\"center\"><img src=\"led_ho2m_distribution.gif\" alt=\"led ho2m distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "<tr align=\"left\">" << std::endl; HO0phi->SetMarkerColor(kRed); HO0phi->SetMarkerStyle(23); HO0phi->SetXTitle("HPD Index = RBX*4+RM"); HO0phi->GetXaxis()->SetNdivisions(412,kFALSE); HO0phi->Draw(); can->SaveAs((htmlDir + "led_ho0_distribution.gif").c_str()); htmlFile << "<td align=\"center\"><img src=\"led_ho0_distribution.gif\" alt=\"led ho0 distribution\"> </td>" << std::endl; htmlFile << "</tr>" << std::endl; htmlFile << "</table>" << std::endl; htmlFile << "</body> " << std::endl; htmlFile << "</html> " << std::endl; htmlFile.close(); can->Close(); }
void HcalDetDiagLEDClient::setup | ( | void | ) | [virtual] |
bool HcalDetDiagLEDClient::test_enabled | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 105 of file HcalDetDiagLEDClient.cc.
{return true;}
void HcalDetDiagLEDClient::updateChannelStatus | ( | std::map< HcalDetId, unsigned int > & | myqual | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 52 of file HcalDetDiagLEDClient.cc.
{ // This gets called by HcalMonitorClient // trigger primitives don't yet contribute to channel status (though they could...) // see dead or hot cell code for an example }
bool HcalDetDiagLEDClient::validHtmlOutput | ( | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 107 of file HcalDetDiagLEDClient.cc.
References HcalBaseDQClient::dqmStore_, DQMStore::get(), n, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, HcalBaseDQClient::subdir_, and MonitorElement::valueString().
{ std::string s=subdir_+"HcalDetDiagLEDMonitor Event Number"; MonitorElement *me = dqmStore_->get(s.c_str()); int n=0; if ( me ) { s = me->valueString(); sscanf((s.substr(2,s.length()-2)).c_str(), "%d", &n); } if(n<100) return false; return true; }
TH2F* HcalDetDiagLEDClient::ChannelsLEDEnergy[4] [private] |
Definition at line 40 of file HcalDetDiagLEDClient.h.
Referenced by get_energy(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelsLEDEnergyRef[4] [private] |
Definition at line 41 of file HcalDetDiagLEDClient.h.
Referenced by get_energy(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusLEDMean[4] [private] |
Definition at line 45 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusLEDRMS[4] [private] |
Definition at line 46 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusMissingChannels[4] [private] |
Definition at line 42 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusTimeMean[4] [private] |
Definition at line 47 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusTimeRMS[4] [private] |
Definition at line 48 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusUnstableChannels[4] [private] |
Definition at line 43 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
TH2F* HcalDetDiagLEDClient::ChannelStatusUnstableLEDsignal[4] [private] |
Definition at line 44 of file HcalDetDiagLEDClient.h.
Referenced by get_channel_status(), and htmlOutput().
int HcalDetDiagLEDClient::nevts_ [private] |
Definition at line 38 of file HcalDetDiagLEDClient.h.
Referenced by beginRun().
int HcalDetDiagLEDClient::status [private] |
Definition at line 39 of file HcalDetDiagLEDClient.h.
Referenced by hasErrors_Temp(), hasWarnings_Temp(), HcalDetDiagLEDClient(), and htmlOutput().