#include <DTEfficiencyTask.h>
Public Member Functions | |
void | analyze (const edm::Event &event, const edm::EventSetup &setup) |
void | beginJob () |
BeginJob. | |
void | beginLuminosityBlock (edm::LuminosityBlock const &lumiSeg, edm::EventSetup const &context) |
To reset the MEs. | |
DTEfficiencyTask (const edm::ParameterSet &pset) | |
Constructor. | |
void | endJob () |
Endjob. | |
virtual | ~DTEfficiencyTask () |
Destructor. | |
Private Member Functions | |
void | bookHistos (DTLayerId lId, int fisrtWire, int lastWire) |
void | fillHistos (DTLayerId lId, int firstWire, int lastWire, int missingWire, bool UnassHit) |
void | fillHistos (DTLayerId lId, int firstWire, int lastWire, int numWire) |
Private Attributes | |
bool | debug |
std::map< DTLayerId, std::vector< MonitorElement * > > | histosPerL |
edm::ParameterSet | parameters |
DQMStore * | theDbe |
std::string | theRecHitLabel |
std::string | theRecHits4DLabel |
DQM Analysis of 4D DT segments, it produces plots about:
Definition at line 31 of file DTEfficiencyTask.h.
DTEfficiencyTask::DTEfficiencyTask | ( | const edm::ParameterSet & | pset | ) |
Constructor.
Definition at line 43 of file DTEfficiencyTask.cc.
References debug, edm::ParameterSet::getUntrackedParameter(), cmsCodeRules::cppFunctionSkipper::operator, and Parameters::parameters.
{ debug = pset.getUntrackedParameter<bool>("debug",false); // Get the DQM needed services theDbe = edm::Service<DQMStore>().operator->(); theDbe->setCurrentFolder("DT/DTEfficiencyTask"); parameters = pset; }
DTEfficiencyTask::~DTEfficiencyTask | ( | ) | [virtual] |
void DTEfficiencyTask::analyze | ( | const edm::Event & | event, |
const edm::EventSetup & | setup | ||
) | [virtual] |
Implements edm::EDAnalyzer.
Definition at line 89 of file DTEfficiencyTask.cc.
References filterCSVwithJSON::copy, funct::cos(), gather_cfg::cout, debug, edm::EventSetup::get(), i, DTChamber::layer(), DTWireId::layerId(), DTRangeMapAccessor::layersBySuperLayer(), DTRecSegment2D::specificRecHits(), DTSuperLayerId::superlayer(), DTLayerId::superlayerId(), DTChamber::superLayers(), PV3DBase< T, PVType, FrameType >::theta(), GeomDet::toGlobal(), GeomDet::toLocal(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().
{ if(debug) cout << "[DTEfficiencyTask] Analyze #Run: " << event.id().run() << " #Event: " << event.id().event() << endl; // Get the 4D segment collection from the event edm::Handle<DTRecSegment4DCollection> all4DSegments; event.getByLabel(theRecHits4DLabel, all4DSegments); // Get the rechit collection from the event Handle<DTRecHitCollection> dtRecHits; event.getByLabel(theRecHitLabel, dtRecHits); // Get the DT Geometry ESHandle<DTGeometry> dtGeom; setup.get<MuonGeometryRecord>().get(dtGeom); // Loop over all chambers containing a segment DTRecSegment4DCollection::id_iterator chamberId; for (chamberId = all4DSegments->id_begin(); chamberId != all4DSegments->id_end(); ++chamberId) { // Get the chamber const DTChamber* chamber = dtGeom->chamber(*chamberId); // Get all 1D RecHits to be used for searches of hits not associated to segments and map them by wire const vector<const DTSuperLayer*> SLayers = chamber->superLayers(); map<DTWireId, int> wireAnd1DRecHits; for(vector<const DTSuperLayer*>::const_iterator superlayer = SLayers.begin(); superlayer != SLayers.end(); superlayer++) { DTRecHitCollection::range range = dtRecHits->get(DTRangeMapAccessor::layersBySuperLayer((*superlayer)->id())); // Loop over the rechits of this ChamberId for (DTRecHitCollection::const_iterator rechit = range.first; rechit!=range.second; ++rechit){ wireAnd1DRecHits[(*rechit).wireId()] = (*rechit).wireId().wire(); } } // Get the 4D segment range for the corresponding ChamerId DTRecSegment4DCollection::range range = all4DSegments->get(*chamberId); int nsegm = distance(range.first, range.second); if(debug) cout << " Chamber: " << *chamberId << " has " << nsegm << " 4D segments" << endl; // Loop over the rechits of this ChamerId for (DTRecSegment4DCollection::const_iterator segment4D = range.first; segment4D!=range.second; ++segment4D) { if(debug) cout << " == RecSegment dimension: " << (*segment4D).dimension() << endl; // If Statio != 4 skip RecHits with dimension != 4 // For the Station 4 consider 2D RecHits if((*chamberId).station() != 4 && (*segment4D).dimension() != 4) { if(debug) cout << "[DTEfficiencyTask]***Warning: RecSegment dimension is not 4 but " << (*segment4D).dimension() << ", skipping!" << endl; continue; } else if((*chamberId).station() == 4 && (*segment4D).dimension() != 2) { if(debug) cout << "[DTEfficiencyTask]***Warning: RecSegment dimension is not 2 but " << (*segment4D).dimension() << ", skipping!" << endl; continue; } vector<DTRecHit1D> recHits1D; bool rPhi = false; bool rZ = false; // Get 1D RecHits and select only events with 7 or 8 hits in phi and 3 or 4 hits in theta (if any) const DTChamberRecSegment2D* phiSeg = (*segment4D).phiSegment(); vector<DTRecHit1D> phiRecHits = phiSeg->specificRecHits(); rPhi = true; if(phiRecHits.size() < 7 || phiRecHits.size() > 8 ) { if(debug) cout << "[DTEfficiencyTask] Phi segments has: " << phiRecHits.size() << " hits, skipping" << endl; // FIXME: info output continue; } copy(phiRecHits.begin(), phiRecHits.end(), back_inserter(recHits1D)); const DTSLRecSegment2D* zSeg = 0; if((*segment4D).dimension() == 4) { rZ = true; zSeg = (*segment4D).zSegment(); vector<DTRecHit1D> zRecHits = zSeg->specificRecHits(); if(zRecHits.size() < 3 || zRecHits.size() > 4 ) { if(debug) cout << "[DTEfficiencyTask] Theta segments has: " << zRecHits.size() << " hits, skipping" << endl; // FIXME: info output continue; } copy(zRecHits.begin(), zRecHits.end(), back_inserter(recHits1D)); } // Skip the segment if it has more than 1 hit on the same layer vector<DTWireId> wireMap; for(vector<DTRecHit1D>::const_iterator recHit1D = recHits1D.begin(); recHit1D != recHits1D.end(); recHit1D++) { wireMap.push_back((*recHit1D).wireId()); } bool hitsOnSameLayer = false; for(vector<DTWireId>::const_iterator channelId = wireMap.begin(); channelId != wireMap.end(); channelId++) { vector<DTWireId>::const_iterator next = channelId; next++; for(vector<DTWireId>::const_iterator ite = next; ite != wireMap.end(); ite++) { if((*channelId).layerId() == (*ite).layerId()) { hitsOnSameLayer = true; } } } if(hitsOnSameLayer) { if(debug) cout << "[DTEfficiencyTask] This RecHit has 2 hits on the same layer, skipping!" << endl; continue; } // Select 2D segments with angle smaller than 45 deg LocalVector phiDirectionInChamber = (*phiSeg).localDirection(); if(rPhi && fabs(phiDirectionInChamber.x()/phiDirectionInChamber.z()) > 1) { if(debug) { cout << " RPhi segment has angle > 45 deg, skipping! " << endl; cout << " Theta = " << phiDirectionInChamber.theta() << endl; } continue; } if(rZ) { LocalVector zDirectionInChamber = (*zSeg).localDirection(); if(fabs(zDirectionInChamber.y()/zDirectionInChamber.z()) > 1) { if(debug){ cout << " RZ segment has angle > 45 deg, skipping! " << endl; cout << " Theta = " << zDirectionInChamber.theta() << endl; } continue; } } // Skip if the 4D segment has only 10 hits if(recHits1D.size() == 10) { if(debug) cout << "[DTEfficiencyTask] 4D Segment with only 10 hits, skipping!" << endl; continue; } // Analyse the case of 11 recHits for MB1,MB2,MB3 and of 7 recHits for MB4 if((rPhi && recHits1D.size() == 7) || (rZ && recHits1D.size() == 11)) { if(debug) { if(rPhi && recHits1D.size() == 7) cout << "[DTEfficiencyTask] MB4 Segment with only 7 hits!" << endl; if(rZ && recHits1D.size() == 11) cout << "[DTEfficiencyTask] 4D Segment with only 11 hits!" << endl; } // Find the layer without RecHits ---------------------------------------- const vector<const DTSuperLayer*> SupLayers = chamber->superLayers(); map<DTLayerId, bool> layerMap; map<DTWireId, float> wireAndPosInChamberAtLayerZ; // Loop over layers and wires to fill a map for(vector<const DTSuperLayer*>::const_iterator superlayer = SupLayers.begin(); superlayer != SupLayers.end(); superlayer++) { const vector<const DTLayer*> Layers = (*superlayer)->layers(); for(vector<const DTLayer*>::const_iterator layer = Layers.begin(); layer != Layers.end(); layer++) { layerMap.insert(make_pair((*layer)->id(), false)); const int firstWire = dtGeom->layer((*layer)->id())->specificTopology().firstChannel(); const int lastWire = dtGeom->layer((*layer)->id())->specificTopology().lastChannel(); for(int i=firstWire; i <= lastWire; i++) { DTWireId wireId((*layer)->id(), i); float wireX = (*layer)->specificTopology().wirePosition(wireId.wire()); LocalPoint wirePosInLay(wireX,0,0); GlobalPoint wirePosGlob = (*layer)->toGlobal(wirePosInLay); LocalPoint wirePosInChamber = chamber->toLocal(wirePosGlob); if((*superlayer)->id().superlayer() == 1 || (*superlayer)->id().superlayer() == 3) { wireAndPosInChamberAtLayerZ.insert(make_pair(wireId, wirePosInChamber.x())); } else { wireAndPosInChamberAtLayerZ.insert(make_pair(wireId, wirePosInChamber.y())); } } } } // Loop over segment 1D RecHit map<DTLayerId, int> NumWireMap; for(vector<DTRecHit1D>::const_iterator recHit = recHits1D.begin(); recHit != recHits1D.end(); recHit++) { layerMap[(*recHit).wireId().layerId()]= true; NumWireMap[(*recHit).wireId().layerId()]= (*recHit).wireId().wire(); } DTLayerId missLayerId; //Loop over the map and find the layer without hits for(map<DTLayerId, bool>::const_iterator iter = layerMap.begin(); iter != layerMap.end(); iter++) { if(!(*iter).second) missLayerId = (*iter).first; } if(debug) cout << "[DTEfficiencyTask] Layer without recHits is: " << missLayerId << endl; // ------------------------------------------------------- const DTLayer* missLayer = chamber->layer(missLayerId); LocalPoint missLayerPosInChamber = chamber->toLocal(missLayer->toGlobal(LocalPoint(0,0,0))); // Segment position at Wire z in chamber local frame LocalPoint segPosAtZLayer = (*segment4D).localPosition() + (*segment4D).localDirection()*missLayerPosInChamber.z()/cos((*segment4D).localDirection().theta()); DTWireId missWireId; // Find the id of the cell without hit --------------------------------------------------- for(map<DTWireId, float>::const_iterator wireAndPos = wireAndPosInChamberAtLayerZ.begin(); wireAndPos != wireAndPosInChamberAtLayerZ.end(); wireAndPos++) { DTWireId wireId = (*wireAndPos).first; if(wireId.layerId() == missLayerId) { if(missLayerId.superlayerId().superlayer() == 1 || missLayerId.superlayerId().superlayer() == 3 ) { if(fabs(segPosAtZLayer.x() - (*wireAndPos).second) < 2.1) missWireId = wireId; } else { if(fabs(segPosAtZLayer.y() - (*wireAndPos).second) < 2.1) missWireId = wireId; } } } if(debug) cout << "[DTEfficiencyTask] Cell without hit is: " << missWireId << endl; // ---------------------------------------------------------- bool foundUnAssRechit = false; // Look for unassociated hits in this cell if(wireAnd1DRecHits.find(missWireId) != wireAnd1DRecHits.end()) { if(debug) cout << "[DTEfficiencyTask] Unassociated Hit found!" << endl; foundUnAssRechit = true; } for(map<DTLayerId, bool>::const_iterator iter = layerMap.begin(); iter != layerMap.end(); iter++) { if((*iter).second) fillHistos((*iter).first, dtGeom->layer((*iter).first)->specificTopology().firstChannel(), dtGeom->layer((*iter).first)->specificTopology().lastChannel(), NumWireMap[(*iter).first]); else fillHistos((*iter).first, dtGeom->layer((*iter).first)->specificTopology().firstChannel(), dtGeom->layer((*iter).first)->specificTopology().lastChannel(), missWireId.wire(), foundUnAssRechit); } } // End of the loop for segment with 7 or 11 recHits if((rPhi && recHits1D.size() == 8) || (rZ && recHits1D.size() == 12)) { map<DTLayerId, int> NumWireMap; DTLayerId LayerID; for(vector<DTRecHit1D>::const_iterator recHit = recHits1D.begin(); recHit != recHits1D.end(); recHit++) { LayerID = (*recHit).wireId().layerId(); NumWireMap[LayerID]= (*recHit).wireId().wire(); } for(map<DTLayerId, int>::const_iterator iter = NumWireMap.begin(); iter != NumWireMap.end(); iter++) { fillHistos((*iter).first, dtGeom->layer((*iter).first)->specificTopology().firstChannel(), dtGeom->layer((*iter).first)->specificTopology().lastChannel(), NumWireMap[(*iter).first]); } } } // End of loop over the 4D segments inside a sigle chamber } // End of loop over all tha chamber with at least a 4D segment in the event }
void DTEfficiencyTask::beginJob | ( | void | ) | [virtual] |
BeginJob.
Reimplemented from edm::EDAnalyzer.
Definition at line 59 of file DTEfficiencyTask.cc.
References Parameters::parameters.
{ // the name of the 4D rec hits collection theRecHits4DLabel = parameters.getParameter<string>("recHits4DLabel"); // the name of the rechits collection theRecHitLabel = parameters.getParameter<string>("recHitLabel"); }
void DTEfficiencyTask::beginLuminosityBlock | ( | edm::LuminosityBlock const & | lumiSeg, |
edm::EventSetup const & | context | ||
) | [virtual] |
To reset the MEs.
Reimplemented from edm::EDAnalyzer.
Definition at line 67 of file DTEfficiencyTask.cc.
References timingPdfMaker::histo, i, edm::LuminosityBlockBase::id(), edm::LuminosityBlockID::luminosityBlock(), Parameters::parameters, and findQualityFiles::size.
{ if(lumiSeg.id().luminosityBlock()%parameters.getUntrackedParameter<int>("ResetCycle", 3) == 0) { for(map<DTLayerId, vector<MonitorElement*> > ::const_iterator histo = histosPerL.begin(); histo != histosPerL.end(); histo++) { int size = (*histo).second.size(); for(int i=0; i<size; i++){ (*histo).second[i]->Reset(); } } } }
void DTEfficiencyTask::bookHistos | ( | DTLayerId | lId, |
int | fisrtWire, | ||
int | lastWire | ||
) | [private] |
Definition at line 379 of file DTEfficiencyTask.cc.
References DTSuperLayerId::chamberId(), gather_cfg::cout, debug, mergeVDriftHistosByStation::histos, DTLayerId::layer(), DTChamberId::sector(), relativeConstraints::station, DTChamberId::station(), DTSuperLayerId::superlayer(), DTLayerId::superlayerId(), and DTChamberId::wheel().
{ if(debug) cout << " Booking histos for L: " << lId << endl; // Compose the chamber name stringstream wheel; wheel << lId.superlayerId().chamberId().wheel(); stringstream station; station << lId.superlayerId().chamberId().station(); stringstream sector; sector << lId.superlayerId().chamberId().sector(); stringstream superLayer; superLayer << lId.superlayerId().superlayer(); stringstream layer; layer << lId.layer(); string lHistoName = "_W" + wheel.str() + "_St" + station.str() + "_Sec" + sector.str() + "_SL" + superLayer.str()+ "_L" + layer.str(); theDbe->setCurrentFolder("DT/DTEfficiencyTask/Wheel" + wheel.str() + "/Station" + station.str() + "/Sector" + sector.str() + "/SuperLayer" +superLayer.str()); // Create the monitor elements vector<MonitorElement *> histos; // histo for hits associated to the 4D reconstructed segment histos.push_back(theDbe->book1D("hEffOccupancy"+lHistoName, "4D segments recHits occupancy",lastWire-firstWire+1, firstWire-0.5, lastWire+0.5)); // histo for hits not associated to the segment histos.push_back(theDbe->book1D("hEffUnassOccupancy"+lHistoName, "4D segments recHits and Hits not associated occupancy",lastWire-firstWire+1, firstWire-0.5, lastWire+0.5)); // histo for cells associated to the 4D reconstructed segment histos.push_back(theDbe->book1D("hRecSegmOccupancy"+lHistoName, "4D segments cells occupancy",lastWire-firstWire+1, firstWire-0.5, lastWire+0.5)); histosPerL[lId] = histos; }
void DTEfficiencyTask::endJob | ( | void | ) | [virtual] |
void DTEfficiencyTask::fillHistos | ( | DTLayerId | lId, |
int | firstWire, | ||
int | lastWire, | ||
int | missingWire, | ||
bool | UnassHit | ||
) | [private] |
Definition at line 428 of file DTEfficiencyTask.cc.
References bookHistos(), and mergeVDriftHistosByStation::histos.
{ if(histosPerL.find(lId) == histosPerL.end()){ bookHistos(lId, firstWire, lastWire); } vector<MonitorElement *> histos = histosPerL[lId]; if(unassHit) histos[1]->Fill(missingWire); histos[2]->Fill(missingWire); }
void DTEfficiencyTask::fillHistos | ( | DTLayerId | lId, |
int | firstWire, | ||
int | lastWire, | ||
int | numWire | ||
) | [private] |
Definition at line 415 of file DTEfficiencyTask.cc.
References bookHistos(), and mergeVDriftHistosByStation::histos.
{ if(histosPerL.find(lId) == histosPerL.end()){ bookHistos(lId, firstWire, lastWire); } vector<MonitorElement *> histos = histosPerL[lId]; histos[0]->Fill(numWire); histos[1]->Fill(numWire); histos[2]->Fill(numWire); }
bool DTEfficiencyTask::debug [private] |
Definition at line 58 of file DTEfficiencyTask.h.
std::map<DTLayerId, std::vector<MonitorElement*> > DTEfficiencyTask::histosPerL [private] |
Definition at line 75 of file DTEfficiencyTask.h.
Definition at line 66 of file DTEfficiencyTask.h.
DQMStore* DTEfficiencyTask::theDbe [private] |
Definition at line 55 of file DTEfficiencyTask.h.
std::string DTEfficiencyTask::theRecHitLabel [private] |
Definition at line 64 of file DTEfficiencyTask.h.
std::string DTEfficiencyTask::theRecHits4DLabel [private] |
Definition at line 61 of file DTEfficiencyTask.h.