#include <MuonAnalyzer.h>

Public Member Functions
void	FillPlots (const edm::Event &, const edm::EventSetup &)

void	InitializePlots (DQMStore *, const std::string)

	MuonAnalyzerSBSM (const edm::InputTag &, const edm::InputTag &, edm::ConsumesCollector &&iC)

virtual	~MuonAnalyzerSBSM ()

Private Member Functions
bool	find (const std::vector< int > &, int)

Private Attributes
MonitorElement *	hAssocRecoMuonEta_1_ByMuon

MonitorElement *	hAssocRecoMuonEta_2_ByMuon

MonitorElement *	hAssocRecoMuonEta_3_ByMuon

MonitorElement *	hAssocRecoMuonPt_1_ByMuon

MonitorElement *	hAssocRecoMuonPt_2_ByMuon

MonitorElement *	hAssocRecoMuonPt_3_ByMuon

MonitorElement *	hLeadAssocRecoMuonEta_1_ByEvent

MonitorElement *	hLeadAssocRecoMuonEta_2_ByEvent

MonitorElement *	hLeadAssocRecoMuonEta_3_ByEvent

MonitorElement *	hLeadAssocRecoMuonPt_1_ByEvent

MonitorElement *	hLeadAssocRecoMuonPt_2_ByEvent

MonitorElement *	hLeadAssocRecoMuonPt_3_ByEvent

MonitorElement *	hLeadRecoMuonEta_1_ByEvent

MonitorElement *	hLeadRecoMuonEta_2_ByEvent

MonitorElement *	hLeadRecoMuonEta_3_ByEvent

MonitorElement *	hLeadRecoMuonPt_1_ByEvent

MonitorElement *	hLeadRecoMuonPt_2_ByEvent

MonitorElement *	hLeadRecoMuonPt_3_ByEvent

MonitorElement *	hRecoMuonEta_1_ByMuon

MonitorElement *	hRecoMuonEta_2_ByMuon

MonitorElement *	hRecoMuonEta_3_ByMuon

MonitorElement *	hRecoMuonPt_1_ByMuon

MonitorElement *	hRecoMuonPt_2_ByMuon

MonitorElement *	hRecoMuonPt_3_ByMuon

reco::MuonCollection	Muons

edm::EDGetTokenT < reco::MuonCollection >	muonTag_

edm::EDGetTokenT < trigger::TriggerEvent >	triggerTag_

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 36 of file MuonAnalyzer.h.

Constructor & Destructor Documentation

MuonAnalyzerSBSM::MuonAnalyzerSBSM	(	const edm::InputTag &	triggerTag_v,
		const edm::InputTag &	muonTag_v,
		edm::ConsumesCollector &&	iC
	)

Definition at line 36 of file MuonAnalyzer.cc.

 {
   triggerTag_ = iC.consumes<trigger::TriggerEvent>(edm::InputTag(triggerTag_v));
   muonTag_    = iC.consumes<reco::MuonCollection>(edm::InputTag(muonTag_v));
 }

virtual MuonAnalyzerSBSM::~MuonAnalyzerSBSM ( )

inlinevirtual

Definition at line 40 of file MuonAnalyzer.h.

40 {};

Member Function Documentation

void MuonAnalyzerSBSM::FillPlots	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)

Definition at line 58 of file MuonAnalyzer.cc.

References funct::abs(), trigger::TriggerObject::eta(), spr::find(), edm::Event::getByToken(), i, edm::HandleBase::isValid(), j, trigger::TriggerObject::phi(), funct::pow(), RecoTauCleanerPlugins::pt, trigger::TriggerObject::pt(), and mathSSE::sqrt().

Referenced by TriggerValidator::analyze().

 {
    Handle<reco::MuonCollection> theMuonCollectionHandle;
    iEvent.getByToken(muonTag_, theMuonCollectionHandle);
    Muons = *theMuonCollectionHandle;
    
    //Find reco muon with highest Pt, fill histos with lead reco muon pt and eta
    int indexOfLeadRecoMuon=-1;
    double LeadRecoMuonPt=-1, LeadRecoMuonEta=-1, LeadRecoMuonPhi=-1;
    for(size_t i=0; i<Muons.size(); ++i)
        if(Muons[i].pt() > LeadRecoMuonPt)
      {
        indexOfLeadRecoMuon = i;
        LeadRecoMuonPt = Muons[i].pt();
        LeadRecoMuonEta = Muons[i].eta();
        LeadRecoMuonPhi = Muons[i].phi();
      }
    //hLeadMuonPt->Fill(Pt);
    //hLeadMuonEta->Fill(Eta);
 
    //Creating histograms of L3 Muons
    Handle<TriggerEvent> theTriggerCollectionHandle;
    iEvent.getByToken(triggerTag_,theTriggerCollectionHandle);
    trigger::size_type firstMuon=-1, lastMuon=-2;
    int indexOfCollection=-1, idOfLeadMuon=-1, indexOfFilter=-1;
    double LeadL3MuonPt=-1; // , LeadL3MuonEta=-1, LeadL3MuonPhi=-1; // UNUSED
    vector<int> idsOfFilteredMuons;
    bool LeadRecoMuonAssociation=false;
    const string L3MuonCollection = "hltL3MuonCandidates::HLT";
    const string TriggerFilter = "hltSingleMu9L3Filtered9::HLT";
    const TriggerObjectCollection& TOC(theTriggerCollectionHandle->getObjects());
    if(theTriggerCollectionHandle.isValid())
      {
        for(int i=0; i<theTriggerCollectionHandle->sizeCollections(); ++i)
      {
        if(L3MuonCollection.compare(theTriggerCollectionHandle->collectionTag(i).encode())==0)
          {
            indexOfCollection = i;
            break;
          }
      }
        for(int i=0; i<theTriggerCollectionHandle->sizeFilters(); ++i)
      {
        if(TriggerFilter.compare(theTriggerCollectionHandle->filterTag(i).encode())==0)
          {
            indexOfFilter=i;
            //idsOfFilteredMuons = new int[theTriggerCollectionHandle->filterKeys(i).size()];
            const Keys& KEYS(theTriggerCollectionHandle->filterKeys(i));
            for(size_t j=0; j<KEYS.size(); ++j)
          idsOfFilteredMuons.push_back(KEYS[j]);
            break;
          }
      }
        if(indexOfCollection!=-1 && indexOfFilter!=-1)
      {
        if(indexOfCollection==0)
          firstMuon = 0;
        else
          firstMuon = theTriggerCollectionHandle->collectionKey(indexOfCollection-1);
        lastMuon = theTriggerCollectionHandle->collectionKey(indexOfCollection)-1;     
        for(int i=firstMuon; i<=lastMuon; ++i)
          {
            const TriggerObject& TO(TOC[i]);
          if(TO.pt()>LeadL3MuonPt && find(idsOfFilteredMuons,i))
          {
            LeadL3MuonPt = TO.pt();
            idOfLeadMuon = i;
          }
          if(indexOfLeadRecoMuon!=-1 && find(idsOfFilteredMuons,i) && sqrt(std::pow(LeadRecoMuonEta-TO.eta(),2)+std::pow(LeadRecoMuonPhi-TO.phi(),2))<=0.5)
            LeadRecoMuonAssociation=true;
          }
        const TriggerObject& TO(TOC[idOfLeadMuon]);
        //hL3LeadMuonPt->Fill(L3LeadMuonPt);
        //hL3LeadMuonEta->Fill(TO.eta());
        //hL3LeadMuonPhi->Fill(TO.phi());
        //hL3LeadMuonMass->Fill(TO.mass());
        //hNumberL3Muons->Fill(lastMuon-firstMuon+1);
        LeadL3MuonPt = TO.pt();
        //      LeadL3MuonEta = TO.eta(); // UNUSED
        //      LeadL3MuonPhi = TO.phi(); // UNUSED
      }
        //else
        //hNumberL3Muons->Fill(0);
      }
    //else
    //hNumberL3Muons->Fill(0);
 
    //Fill the histos
    if(indexOfLeadRecoMuon!=-1)
      {
        if(std::abs(LeadRecoMuonEta)<=1.2)
      hLeadRecoMuonPt_1_ByEvent->Fill(LeadRecoMuonPt);
        else if(std::abs(LeadRecoMuonEta)>1.2 && std::abs(LeadRecoMuonEta)<=2.1)
      hLeadRecoMuonPt_2_ByEvent->Fill(LeadRecoMuonPt);
        else if(std::abs(LeadRecoMuonEta)>2.1)
      hLeadRecoMuonPt_3_ByEvent->Fill(LeadRecoMuonPt);
        if(LeadRecoMuonPt>=0)
      hLeadRecoMuonEta_1_ByEvent->Fill(LeadRecoMuonEta);
        if(LeadRecoMuonPt>=10)
      hLeadRecoMuonEta_2_ByEvent->Fill(LeadRecoMuonEta);
        if(LeadRecoMuonPt>=20)
      hLeadRecoMuonEta_3_ByEvent->Fill(LeadRecoMuonEta);
      }
    if(LeadRecoMuonAssociation)
      {
        if(std::abs(LeadRecoMuonEta)<=1.2)
      hLeadAssocRecoMuonPt_1_ByEvent->Fill(LeadRecoMuonPt);
        else if(std::abs(LeadRecoMuonEta)>1.2 && std::abs(LeadRecoMuonEta)<=2.1)
      hLeadAssocRecoMuonPt_2_ByEvent->Fill(LeadRecoMuonPt);
        else if(std::abs(LeadRecoMuonEta)>2.1)
      hLeadAssocRecoMuonPt_3_ByEvent->Fill(LeadRecoMuonPt);
        if(LeadRecoMuonPt>=0)
      hLeadAssocRecoMuonEta_1_ByEvent->Fill(LeadRecoMuonEta);
        if(LeadRecoMuonPt>=10)
      hLeadAssocRecoMuonEta_2_ByEvent->Fill(LeadRecoMuonEta);
        if(LeadRecoMuonPt>=20)
      hLeadAssocRecoMuonEta_3_ByEvent->Fill(LeadRecoMuonEta);
      }
 
    //Muon by muon
 
    if(Muons.size()!=0)
      {
        for(size_t i=0; i<Muons.size(); ++i)
      {
        double RecoMuonPt=Muons[i].pt(), RecoMuonEta=Muons[i].eta();
        if(std::abs(RecoMuonEta)<=1.2)
          hRecoMuonPt_1_ByMuon->Fill(RecoMuonPt);
        else if(std::abs(RecoMuonEta)>1.2 && std::abs(RecoMuonEta)<=2.1)
          hRecoMuonPt_2_ByMuon->Fill(RecoMuonPt);
        else if(std::abs(RecoMuonEta)>2.1)
          hRecoMuonPt_3_ByMuon->Fill(RecoMuonPt);
        if(RecoMuonPt>=0)
          hRecoMuonEta_1_ByMuon->Fill(RecoMuonEta);
        if(RecoMuonPt>=10)
          hRecoMuonEta_2_ByMuon->Fill(RecoMuonEta);
        if(RecoMuonPt>=20)
          hRecoMuonEta_3_ByMuon->Fill(RecoMuonEta);
 
        if(lastMuon-firstMuon+1 > 0)
          {
            for(int j=firstMuon; j<=lastMuon; ++j)
          {
            const TriggerObject& TO(TOC[j]);
            if(find(idsOfFilteredMuons,j) && sqrt(std::pow(TO.eta()-Muons[i].eta(), 2)+std::pow(TO.phi()-Muons[i].phi(), 2)) <= 0.5)
              {
                RecoMuonPt=Muons[i].pt();
                RecoMuonEta=Muons[i].eta();
                if(std::abs(RecoMuonEta)<=1.2)
              hAssocRecoMuonPt_1_ByMuon->Fill(RecoMuonPt);
                else if(std::abs(RecoMuonEta)>1.2 && std::abs(RecoMuonEta)<=2.1)
              hAssocRecoMuonPt_2_ByMuon->Fill(RecoMuonPt);
                else if(std::abs(RecoMuonEta)>2.1)
              hAssocRecoMuonPt_3_ByMuon->Fill(RecoMuonPt);
                if(RecoMuonPt>=0)
              hAssocRecoMuonEta_1_ByMuon->Fill(RecoMuonEta);
                if(RecoMuonPt>=10)
              hAssocRecoMuonEta_2_ByMuon->Fill(RecoMuonEta);
                if(RecoMuonPt>=20)
              hAssocRecoMuonEta_3_ByMuon->Fill(RecoMuonEta);
 
                break; 
              }
          }
          }
      }
      }
 
    //Another approach to Muon by Muon, comparing order in pt
 
 
 
    /*for(size_t i=0; i<Muons.size(); ++i)
      {
        for(int j=0; j<lastMuon-firstMuon+1; ++j)
      {
        const TriggerObject& TO(TOC[j]);
        cout<<(sqrt(std::pow(TO.eta()-Muons[i].eta(),2)+std::pow(TO.phi()-Muons[i].phi(),2))<=0.5)<<'\t';
      }
        cout<<endl;
        }*/
    
 
 }

bool MuonAnalyzerSBSM::find	(	const std::vector< int > &	vec,
		int	element
	)

private

Definition at line 42 of file MuonAnalyzer.cc.

References i.

 {
   for(size_t i=0; i<vec.size(); ++i)
     {
       if(vec[i]==element)
     return true;
     }
   return false;
 }

void MuonAnalyzerSBSM::InitializePlots	(	DQMStore *	,
		const std::string
	)

Definition at line 246 of file MuonAnalyzer.cc.

References DQMStore::book1D(), and DQMStore::setCurrentFolder().

Referenced by TriggerValidator::beginRun().

 {
    //now do what ever initialization is needed
   int pt_bins=100, eta_bins=100;
   double pt_floor=0., pt_ceiling = 200., eta_floor=-3.5, eta_ceiling=3.5;
 
   dbe_->setCurrentFolder(subDir + "/By_Event");
   hLeadRecoMuonPt_1_ByEvent = dbe_->book1D("LeadRecoMuonPt_1_ByEvent" , "Lead Reco Muon P_{t}, |Eta|<1.2, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadRecoMuonEta_1_ByEvent= dbe_->book1D("LeadRecoMuonEta_1_ByEvent", "Lead Reco Muon Eta, P_{t}>0, By Event", eta_bins, eta_floor,eta_ceiling);
   hLeadRecoMuonPt_2_ByEvent = dbe_->book1D("LeadRecoMuonPt_2_ByEvent" , "Lead Reco Muon P_{t}, 1.2<|Eta|<2.1, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadRecoMuonEta_2_ByEvent= dbe_->book1D("LeadRecoMuonEta_2_ByEvent", "Lead Reco Muon Eta, P_{t}>10, By Event", eta_bins, eta_floor,eta_ceiling);
   hLeadRecoMuonPt_3_ByEvent = dbe_->book1D("LeadRecoMuonPt_3_ByEvent" , "Lead Reco Muon P_{t}, |Eta|>2.1, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadRecoMuonEta_3_ByEvent= dbe_->book1D("LeadRecoMuonEta_3_ByEvent", "Lead Reco Muon Eta, P_{t}>20, By Event", eta_bins, eta_floor,eta_ceiling);
   hLeadAssocRecoMuonPt_1_ByEvent = dbe_->book1D("LeadAssocRecoMuonPt_1_ByEvent" , "Lead Assoc Reco Muon P_{t}, |Eta|<1.2, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadAssocRecoMuonEta_1_ByEvent= dbe_->book1D("LeadAssocRecoMuonEta_1_ByEvent", "Lead Assoc Muon Eta, P_{t}>0, By Event", eta_bins, eta_floor,eta_ceiling);
   hLeadAssocRecoMuonPt_2_ByEvent = dbe_->book1D("LeadAssocRecoMuonPt_2_ByEvent" , "Lead Assoc Reco Muon P_{t}, 1.2<|Eta|<2.1, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadAssocRecoMuonEta_2_ByEvent= dbe_->book1D("LeadAssocRecoMuonEta_2_ByEvent", "Lead Assoc Muon Eta, P_{t}>10, By Event", eta_bins, eta_floor,eta_ceiling);
   hLeadAssocRecoMuonPt_3_ByEvent = dbe_->book1D("LeadAssocRecoMuonPt_3_ByEvent" , "Lead Assoc Reco Muon P_{t}, |Eta|>2.1, By Event", pt_bins, pt_floor, pt_ceiling);
   hLeadAssocRecoMuonEta_3_ByEvent= dbe_->book1D("LeadAssocRecoMuonEta_3_ByEvent", "Lead Assoc Muon Eta, P_{t}>20, By Event", eta_bins, eta_floor,eta_ceiling);
 
   dbe_->setCurrentFolder(subDir + "/By_Muon");
   hRecoMuonPt_1_ByMuon = dbe_->book1D("RecoMuonPt_1_ByMuon" , "Reco Muon P_{t}, |Eta|<1.2, By Muon", pt_bins, pt_floor, pt_ceiling);
   hRecoMuonEta_1_ByMuon= dbe_->book1D("RecoMuonEta_1_ByMuon", "Reco Muon Eta, P_{t}>0, By Muon", eta_bins, eta_floor,eta_ceiling);
   hRecoMuonPt_2_ByMuon = dbe_->book1D("RecoMuonPt_2_ByMuon" , "Reco Muon P_{t}, 1.2<|Eta|<2.1, By Muon", pt_bins, pt_floor, pt_ceiling);
   hRecoMuonEta_2_ByMuon= dbe_->book1D("RecoMuonEta_2_ByMuon", "Reco Muon Eta, P_{t}>10, By Muon", eta_bins, eta_floor,eta_ceiling);
   hRecoMuonPt_3_ByMuon = dbe_->book1D("RecoMuonPt_3_ByMuon" , "Reco Muon P_{t}, |Eta|>2.1, By Muon", pt_bins, pt_floor, pt_ceiling);
   hRecoMuonEta_3_ByMuon= dbe_->book1D("RecoMuonEta_3_ByMuon", "Reco Muon Eta, P_{t}>20, By Muon", eta_bins, eta_floor,eta_ceiling);
   hAssocRecoMuonPt_1_ByMuon = dbe_->book1D("AssocRecoMuonPt_1_ByMuon" , "Assoc Reco Muon P_{t}, |Eta|<1.2, By Muon", pt_bins, pt_floor, pt_ceiling);
   hAssocRecoMuonEta_1_ByMuon= dbe_->book1D("AssocRecoMuonEta_1_ByMuon", "Assoc Muon Eta, P_{t}>0, By Muon", eta_bins, eta_floor,eta_ceiling);
   hAssocRecoMuonPt_2_ByMuon = dbe_->book1D("AssocRecoMuonPt_2_ByMuon" , "Assoc Reco Muon P_{t}, 1.2<|Eta|<2.1, By Muon", pt_bins, pt_floor, pt_ceiling);
   hAssocRecoMuonEta_2_ByMuon= dbe_->book1D("AssocRecoMuonEta_2_ByMuon", "Assoc Muon Eta, P_{t}>10, By Muon", eta_bins, eta_floor,eta_ceiling);
   hAssocRecoMuonPt_3_ByMuon = dbe_->book1D("AssocRecoMuonPt_3_ByMuon" , "Assoc Reco Muon P_{t}, |Eta|>2.1, By Muon", pt_bins, pt_floor, pt_ceiling);
   hAssocRecoMuonEta_3_ByMuon= dbe_->book1D("AssocRecoMuonEta_3_ByMuon", "Assoc Muon Eta, P_{t}>20, By Muon", eta_bins, eta_floor,eta_ceiling);
 }

Member Data Documentation

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonEta_1_ByMuon

private

Definition at line 69 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonEta_2_ByMuon

private

Definition at line 71 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonEta_3_ByMuon

private

Definition at line 73 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonPt_1_ByMuon

private

Definition at line 68 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonPt_2_ByMuon

private

Definition at line 70 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hAssocRecoMuonPt_3_ByMuon

private

Definition at line 72 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonEta_1_ByEvent

private

Definition at line 55 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonEta_2_ByEvent

private

Definition at line 57 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonEta_3_ByEvent

private

Definition at line 59 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonPt_1_ByEvent

private

Definition at line 54 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonPt_2_ByEvent

private

Definition at line 56 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadAssocRecoMuonPt_3_ByEvent

private

Definition at line 58 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonEta_1_ByEvent

private

Definition at line 48 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonEta_2_ByEvent

private

Definition at line 50 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonEta_3_ByEvent

private

Definition at line 52 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonPt_1_ByEvent

private

Definition at line 47 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonPt_2_ByEvent

private

Definition at line 49 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hLeadRecoMuonPt_3_ByEvent

private

Definition at line 51 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonEta_1_ByMuon

private

Definition at line 62 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonEta_2_ByMuon

private

Definition at line 64 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonEta_3_ByMuon

private

Definition at line 66 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonPt_1_ByMuon

private

Definition at line 61 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonPt_2_ByMuon

private

Definition at line 63 of file MuonAnalyzer.h.

MonitorElement* MuonAnalyzerSBSM::hRecoMuonPt_3_ByMuon

private

Definition at line 65 of file MuonAnalyzer.h.

reco::MuonCollection MuonAnalyzerSBSM::Muons

private

Definition at line 75 of file MuonAnalyzer.h.

edm::EDGetTokenT<reco::MuonCollection> MuonAnalyzerSBSM::muonTag_

private

Definition at line 77 of file MuonAnalyzer.h.

edm::EDGetTokenT<trigger::TriggerEvent> MuonAnalyzerSBSM::triggerTag_

private

Definition at line 76 of file MuonAnalyzer.h.

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation