#include <HcalHotCellClient.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) |
HcalHotCellClient (std::string myname) | |
HcalHotCellClient () | |
Constructors. | |
HcalHotCellClient (std::string myname, const edm::ParameterSet &ps) | |
void | setup (void) |
bool | test_enabled (void) |
void | updateChannelStatus (std::map< HcalDetId, unsigned int > &myqual) |
~HcalHotCellClient () | |
Destructor. | |
Private Attributes | |
int | nevts_ |
Definition at line 8 of file HcalHotCellClient.h.
HcalHotCellClient::HcalHotCellClient | ( | ) | [inline] |
Constructors.
Definition at line 13 of file HcalHotCellClient.h.
References HcalBaseDQClient::name_.
{name_="";};
HcalHotCellClient::HcalHotCellClient | ( | std::string | myname | ) |
Definition at line 20 of file HcalHotCellClient.cc.
References HcalBaseDQClient::name_.
{ name_=myname; }
HcalHotCellClient::HcalHotCellClient | ( | std::string | myname, |
const edm::ParameterSet & | ps | ||
) |
Definition at line 25 of file HcalHotCellClient.cc.
References HcalBaseDQClient::badChannelStatusMask_, HcalBaseDQClient::cloneME_, HcalBaseDQClient::debug_, HcalBaseDQClient::enableCleanup_, edm::ParameterSet::getUntrackedParameter(), HcalChannelStatus::HcalCellHot, HcalBaseDQClient::minerrorrate_, HcalBaseDQClient::minevents_, HcalBaseDQClient::name_, HcalBaseDQClient::Online_, HcalBaseDQClient::prefixME_, HcalBaseDQClient::ProblemCells, HcalBaseDQClient::ProblemCellsByDepth, 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>("HotCellFolder","HotCellMonitor_Hcal/"); // HotCellMonitor_Hcal if (subdir_.size()>0 && subdir_.substr(subdir_.size()-1,subdir_.size())!="/") subdir_.append("/"); subdir_=prefixME_+subdir_; validHtmlOutput_ = ps.getUntrackedParameter<bool>("HotCell_validHtmlOutput",true); cloneME_ = ps.getUntrackedParameter<bool>("cloneME", true); badChannelStatusMask_ = ps.getUntrackedParameter<int>("HotCell_BadChannelStatusMask", ps.getUntrackedParameter<int>("BadChannelStatusMask", (1<<HcalChannelStatus::HcalCellHot))); // identify channel status values to mask // badChannelStatusMask_ = ps.getUntrackedParameter<int>("HotCell_BadChannelStatusMask", (1<<1)); // identify channel status values to mask minerrorrate_ = ps.getUntrackedParameter<double>("HotCell_minerrorrate", ps.getUntrackedParameter<double>("minerrorrate",0.25)); minevents_ = ps.getUntrackedParameter<int>("HotCell_minevents", ps.getUntrackedParameter<int>("minevents",100)); Online_ = ps.getUntrackedParameter<bool>("online",false); ProblemCellsByDepth=0; ProblemCells=0; }
HcalHotCellClient::~HcalHotCellClient | ( | ) |
Destructor.
void HcalHotCellClient::analyze | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 55 of file HcalHotCellClient.cc.
References calculateProblems(), gather_cfg::cout, and HcalBaseDQClient::debug_.
Referenced by endRun().
{ if (debug_>2) std::cout <<"\tHcalHotCellClient::analyze()"<<std::endl; calculateProblems(); }
void HcalHotCellClient::beginJob | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 218 of file HcalHotCellClient.cc.
References gather_cfg::cout, HcalBaseDQClient::debug_, HcalBaseDQClient::dqmStore_, cppFunctionSkipper::operator, and DQMStore::showDirStructure().
{ dqmStore_ = edm::Service<DQMStore>().operator->(); if (debug_>0) { std::cout <<"<HcalHotCellClient::beginJob()> Displaying dqmStore directory structure:"<<std::endl; dqmStore_->showDirStructure(); } }
void HcalHotCellClient::beginRun | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 230 of file HcalHotCellClient.cc.
References DQMStore::book2D(), gather_cfg::cout, HcalBaseDQClient::debug_, EtaPhiHists::depth, HcalBaseDQClient::dqmStore_, HcalBaseDQClient::enoughevents_, MonitorElement::getName(), i, nevts_, HcalBaseDQClient::ProblemCells, HcalBaseDQClient::ProblemCellsByDepth, HcalBaseDQClient::problemnames_, DQMStore::setCurrentFolder(), EtaPhiHists::setup(), and HcalBaseDQClient::subdir_.
{ enoughevents_=false; if (!dqmStore_) { if (debug_>0) std::cout <<"<HcalHotCellClient::beginRun> dqmStore does not exist!"<<std::endl; return; } dqmStore_->setCurrentFolder(subdir_); problemnames_.clear(); ProblemCells=dqmStore_->book2D(" ProblemHotCells", " Problem Hot Cell 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_hotcells"); ProblemCellsByDepth=new EtaPhiHists(); ProblemCellsByDepth->setup(dqmStore_," Problem Hot Cell Rate"); for (unsigned int i=0; i<ProblemCellsByDepth->depth.size();++i) problemnames_.push_back(ProblemCellsByDepth->depth[i]->getName()); nevts_=0; }
void HcalHotCellClient::calculateProblems | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 61 of file HcalHotCellClient.cc.
References HcalBaseDQClient::badstatusmap, HcalObjRepresent::CalcIeta(), HcalBaseDQClient::cloneME_, gather_cfg::cout, HcalBaseDQClient::debug_, EtaPhiHists::depth, HcalBaseDQClient::dqmStore_, HcalBaseDQClient::enoughevents_, eta(), MonitorElement::Fill(), HcalObjRepresent::FillUnphysicalHEHFBins(), DQMStore::get(), MonitorElement::getBinContent(), MonitorElement::getTH2F(), HcalBarrel, HcalEmpty, HcalEndcap, HcalEtaPhiHistNames(), HcalForward, HcalOuter, i, isHB(), isHE(), isHF(), isHO(), max(), min, HcalBaseDQClient::minerrorrate_, HcalBaseDQClient::minevents_, HcalBaseDQClient::name(), phi, HcalBaseDQClient::ProblemCells, HcalBaseDQClient::ProblemCellsByDepth, MonitorElement::Reset(), alignCSCRings::s, MonitorElement::setBinContent(), and HcalBaseDQClient::subdir_.
Referenced by analyze().
{ if (debug_>2) std::cout <<"\t\tHcalHotCellClient::calculateProblems()"<<std::endl; if(!dqmStore_) return; double totalevents=0; int etabins=0, phibins=0, zside=0; double problemvalue=0; // Clear away old problems if (ProblemCells!=0) { ProblemCells->Reset(); (ProblemCells->getTH2F())->SetMaximum(1.05); (ProblemCells->getTH2F())->SetMinimum(0.); } for (unsigned int d=0;ProblemCellsByDepth!=0 && d<ProblemCellsByDepth->depth.size();++d) { if (ProblemCellsByDepth->depth[d]!=0) { ProblemCellsByDepth->depth[d]->Reset(); (ProblemCellsByDepth->depth[d]->getTH2F())->SetMaximum(1.05); (ProblemCellsByDepth->depth[d]->getTH2F())->SetMinimum(0.); } } // Get histograms that are used in testing TH2F* HotAboveThresholdByDepth[4]; TH2F* HotAlwaysAboveThresholdByDepth[4]; TH2F* HotAboveETThresholdByDepth[4]; TH2F* HotAlwaysAboveETThresholdByDepth[4]; TH2F* HotNeighborsByDepth[4]; std::vector<std::string> name = HcalEtaPhiHistNames(); bool neighbortest=false; MonitorElement* me; for (int i=0;i<4;++i) { // Assume histograms aren't found by default HotAboveThresholdByDepth[i]=0; HotAlwaysAboveThresholdByDepth[i]=0; HotAboveETThresholdByDepth[i]=0; HotAlwaysAboveETThresholdByDepth[i]=0; HotNeighborsByDepth[i]=0; std::string s=subdir_+"hot_rechit_above_threshold/"+name[i]+"Hot Cells Above ET Threshold"; me=dqmStore_->get(s.c_str()); if (me!=0)HotAboveETThresholdByDepth[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HotAboveETThresholdByDepth[i], debug_); s=subdir_+"hot_rechit_always_above_threshold/"+name[i]+"Hot Cells Persistently Above ET Threshold"; me=dqmStore_->get(s.c_str()); if (me!=0)HotAlwaysAboveETThresholdByDepth[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HotAlwaysAboveETThresholdByDepth[i], debug_); s=subdir_+"hot_rechit_above_threshold/"+name[i]+"Hot Cells Above Energy Threshold"; me=dqmStore_->get(s.c_str()); if (me!=0)HotAboveThresholdByDepth[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HotAboveThresholdByDepth[i], debug_); s=subdir_+"hot_rechit_always_above_threshold/"+name[i]+"Hot Cells Persistently Above Energy Threshold"; me=dqmStore_->get(s.c_str()); if (me!=0)HotAlwaysAboveThresholdByDepth[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HotAlwaysAboveThresholdByDepth[i], debug_); s=subdir_+"hot_neighbortest/"+name[i]+"Hot Cells Failing Neighbor Test"; me=dqmStore_->get(s.c_str()); if (me!=0)HotNeighborsByDepth[i]=HcalUtilsClient::getHisto<TH2F*>(me, cloneME_, HotNeighborsByDepth[i], debug_); s=subdir_+"hot_neighbortest/NeighborTestEnabled"; me=dqmStore_->get(s.c_str()); if (me!=0 && me->getIntValue()==1) neighbortest=true; } // Because we're clearing and re-forming the problem cell histogram here, we don't need to do any cute // setting of the underflow bin to 0, and we can plot results as a raw rate between 0-1. for (unsigned int d=0;ProblemCellsByDepth!=0 && d<ProblemCellsByDepth->depth.size();++d) { if (ProblemCellsByDepth->depth[d]==0) continue; if (HotAboveETThresholdByDepth[d]) totalevents = std::max(totalevents, HotAboveETThresholdByDepth[d]->GetBinContent(0)); else if (HotAlwaysAboveETThresholdByDepth[d]) totalevents = std::max(totalevents, HotAlwaysAboveETThresholdByDepth[d]->GetBinContent(0)); else if (HotAboveThresholdByDepth[d]) totalevents = std::max(totalevents, HotAboveThresholdByDepth[d]->GetBinContent(0)); else if (HotAlwaysAboveThresholdByDepth[d]) totalevents = std::max(totalevents, HotAlwaysAboveThresholdByDepth[d]->GetBinContent(0)); else if (neighbortest==true && HotNeighborsByDepth[d]) totalevents = std::max(totalevents, HotNeighborsByDepth[d]->GetBinContent(0)); else if (debug_>0) std::cout <<"<HcalHotCellClient::calculateProblems> No evaluation histograms found; no valid hot tests enabled?" << std::endl; if (totalevents==0 || totalevents<minevents_) continue; enoughevents_=true; // kind of a hack here etabins=(ProblemCellsByDepth->depth[d]->getTH2F())->GetNbinsX(); phibins=(ProblemCellsByDepth->depth[d]->getTH2F())->GetNbinsY(); problemvalue=0; for (int eta=0;eta<etabins;++eta) { int ieta=CalcIeta(eta,d+1); if (ieta==-9999) continue; for (int phi=0;phi<phibins;++phi) { problemvalue=0; // problem fraction sums over all three tests // If cell is never-present in all runs, then problemvalue = event if (HotAboveETThresholdByDepth[d]!=0) problemvalue+=HotAboveETThresholdByDepth[d]->GetBinContent(eta+1,phi+1); if (HotAboveThresholdByDepth[d]!=0) problemvalue+=HotAboveThresholdByDepth[d]->GetBinContent(eta+1,phi+1); if (HotAlwaysAboveThresholdByDepth[d]!=0) problemvalue+=HotAlwaysAboveThresholdByDepth[d]->GetBinContent(eta+1,phi+1); if (neighbortest==true && HotNeighborsByDepth[d]!=0) problemvalue+=HotNeighborsByDepth[d]->GetBinContent(eta+1,phi+1); if (problemvalue==0) continue; problemvalue/=totalevents; // problem value is a rate; should be between 0 and 1 problemvalue = std::min(1.,problemvalue); zside=0; if (isHF(eta,d+1)) // shift ieta by 1 for HF ieta<0 ? zside = -1 : zside = 1; // For problem cells that exceed our allowed rate, // set the values to -1 if the cells are already marked in the status database if (problemvalue>minerrorrate_) { HcalSubdetector subdet=HcalEmpty; if (isHB(eta,d+1))subdet=HcalBarrel; else if (isHE(eta,d+1)) subdet=HcalEndcap; else if (isHF(eta,d+1)) subdet=HcalForward; else if (isHO(eta,d+1)) subdet=HcalOuter; HcalDetId hcalid(subdet, ieta, phi+1, (int)(d+1)); if (badstatusmap.find(hcalid)!=badstatusmap.end()) problemvalue=999; } ProblemCellsByDepth->depth[d]->setBinContent(eta+1,phi+1,problemvalue); if (ProblemCells!=0) ProblemCells->Fill(ieta+zside,phi+1,problemvalue); } // loop on phi } // loop on eta } // loop on depth if (ProblemCells==0) { if (debug_>0) std::cout <<"<HcalHotCellClient::analyze> ProblemCells histogram does not exist!"<<std::endl; return; } // Normalization of ProblemCell plot, in the case where there are errors in multiple depths etabins=(ProblemCells->getTH2F())->GetNbinsX(); phibins=(ProblemCells->getTH2F())->GetNbinsY(); for (int eta=0;eta<etabins;++eta) { for (int phi=0;phi<phibins;++phi) { if (ProblemCells->getBinContent(eta+1,phi+1)>1. && ProblemCells->getBinContent(eta+1,phi+1)<999) ProblemCells->setBinContent(eta+1,phi+1,1.); } } FillUnphysicalHEHFBins(*ProblemCellsByDepth); FillUnphysicalHEHFBins(ProblemCells); return; }
void HcalHotCellClient::cleanup | ( | void | ) | [virtual] |
void HcalHotCellClient::endJob | ( | void | ) | [virtual] |
void HcalHotCellClient::endRun | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 256 of file HcalHotCellClient.cc.
References analyze().
{analyze();}
bool HcalHotCellClient::hasErrors_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 261 of file HcalHotCellClient.cc.
References HcalObjRepresent::CalcIeta(), gather_cfg::cout, HcalBaseDQClient::debug_, EtaPhiHists::depth, MonitorElement::getTH2F(), HcalBaseDQClient::minerrorrate_, HcalBaseDQClient::ProblemCells, and HcalBaseDQClient::ProblemCellsByDepth.
{ if (!ProblemCells) { if (debug_>1) std::cout <<"<HcalHotCellClient::hasErrors_Temp> ProblemCells histogram does not exist!"<<std::endl; return false; } int problemcount=0; int ieta=-9999; for (int depth=0;depth<4; ++depth) { int etabins = (ProblemCells->getTH2F())->GetNbinsX(); int phibins = (ProblemCells->getTH2F())->GetNbinsY(); for (int hist_eta=0;hist_eta<etabins;++hist_eta) { for (int hist_phi=0; hist_phi<phibins;++hist_phi) { ieta=CalcIeta(hist_eta,depth+1); if (ieta==-9999) continue; if (ProblemCellsByDepth->depth[depth]==0) continue; if (ProblemCellsByDepth->depth[depth]->getBinContent(hist_eta,hist_phi)>minerrorrate_) ++problemcount; } // for (int hist_phi=1;...) } // for (int hist_eta=1;...) } // for (int depth=0;...) if (problemcount>0) return true; return false; }
bool HcalHotCellClient::hasOther_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 294 of file HcalHotCellClient.cc.
{return false;}
bool HcalHotCellClient::hasWarnings_Temp | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 293 of file HcalHotCellClient.cc.
{return false;}
void HcalHotCellClient::setup | ( | void | ) | [virtual] |
bool HcalHotCellClient::test_enabled | ( | void | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 295 of file HcalHotCellClient.cc.
{return true;}
void HcalHotCellClient::updateChannelStatus | ( | std::map< HcalDetId, unsigned int > & | myqual | ) | [virtual] |
Reimplemented from HcalBaseDQClient.
Definition at line 298 of file HcalHotCellClient.cc.
References HcalObjRepresent::CalcIeta(), gather_cfg::cout, HcalBaseDQClient::debug_, EtaPhiHists::depth, HcalBarrel, HcalChannelStatus::HcalCellHot, HcalEndcap, HcalForward, HcalOuter, isHB(), isHE(), isHF(), HcalBaseDQClient::minerrorrate_, HcalBaseDQClient::minevents_, nevts_, HcalBaseDQClient::ProblemCellsByDepth, and validDetId().
{ // This gets called by HcalMonitorClient if (nevts_<minevents_) return; // not enough events to make judgment; don't create new status file float binval; int ieta=0; int iphi=0; int etabins=0; int phibins=0; int subdet=0; if (debug_>1) { std::cout <<"<HcalHotCellClient> Summary of Hot Cells in Run: "<<std::endl; std::cout <<"(Error rate must be >= "<<minerrorrate_*100.<<"% )"<<std::endl; } for (int d=0;d<4;++d) { etabins=(ProblemCellsByDepth->depth[d]->getTH2F())->GetNbinsX(); phibins=(ProblemCellsByDepth->depth[d]->getTH2F())->GetNbinsY(); for (int hist_eta=0;hist_eta<etabins;++hist_eta) { ieta=CalcIeta(hist_eta,d+1); if (ieta==-9999) continue; for (int hist_phi=0;hist_phi<phibins;++hist_phi) { iphi=hist_phi+1; // ProblemCells have already been normalized binval=ProblemCellsByDepth->depth[d]->getBinContent(hist_eta+1,hist_phi+1); // Set subdetector labels for output if (d<2) { if (isHB(hist_eta,d+1)) subdet=HcalBarrel; else if (isHE(hist_eta,d+1)) subdet=HcalEndcap; else if (isHF(hist_eta,d+1)) subdet=HcalForward; } else if (d==2) subdet=HcalEndcap; else if (d==3) subdet=HcalOuter; // Set correct depth label HcalDetId myid((HcalSubdetector)(subdet), ieta, iphi, d+1); // Need this to keep from flagging non-existent HE/HF cells if (!validDetId((HcalSubdetector)(subdet), ieta, iphi, d+1)) continue; int hotcell=0; if (binval>minerrorrate_) hotcell=1; if (hotcell==1 && debug_>0) std::cout <<"Hot Cell : subdetector = "<<subdet<<" (eta,phi,depth) = ("<<ieta<<", "<<iphi<<", "<<d+1<<"): "<<binval*100.<<"%"<<std::endl; // DetID not found in quality list; add it. (This shouldn't happen!) if (myqual.find(myid)==myqual.end()) { myqual[myid]=(hotcell<<HcalChannelStatus::HcalCellHot); // } else { int mask=(1<<HcalChannelStatus::HcalCellHot); // hot cell found; 'or' the hot cell mask with existing ID if (hotcell==1) myqual[myid] |=mask; // cell is not found, 'and' the inverse of the mask with the existing ID. // Does this work correctly? I think so, but need to verify. // Also, do we want to allow the client to turn off hot cell masks, or only add them? else myqual[myid] &=~mask; } } // for (int hist_phi=1;hist_phi<=phibins;++hist_phi) } // for (int hist_eta=1;hist_eta<=etabins;++hist_eta) } // for (int d=0;d<4;++d) } //void HcalHotCellClient::updateChannelStatus
int HcalHotCellClient::nevts_ [private] |
Definition at line 36 of file HcalHotCellClient.h.
Referenced by beginRun(), and updateChannelStatus().