/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_6_2_5/src/HLTrigger/HLTfilters/src/HLTDoublet.cc

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#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "HLTrigger/HLTfilters/interface/HLTDoublet.h"

#include "DataFormats/Common/interface/Handle.h"

#include "DataFormats/Common/interface/Ref.h"
#include "DataFormats/HLTReco/interface/TriggerFilterObjectWithRefs.h"

#include "DataFormats/Candidate/interface/Particle.h"

#include "FWCore/MessageLogger/interface/MessageLogger.h"

#include<cmath>

//
// constructors and destructor
//
template<typename T1, typename T2>
HLTDoublet<T1,T2>::HLTDoublet(const edm::ParameterSet& iConfig) : HLTFilter(iConfig), 
  originTag1_(iConfig.template getParameter<edm::InputTag>("originTag1")),
  originTag2_(iConfig.template getParameter<edm::InputTag>("originTag2")),
  inputTag1_(iConfig.template getParameter<edm::InputTag>("inputTag1")),
  inputTag2_(iConfig.template getParameter<edm::InputTag>("inputTag2")),
  triggerType1_(iConfig.template getParameter<int>("triggerType1")),
  triggerType2_(iConfig.template getParameter<int>("triggerType2")),
  min_Dphi_ (iConfig.template getParameter<double>("MinDphi")),
  max_Dphi_ (iConfig.template getParameter<double>("MaxDphi")),
  min_Deta_ (iConfig.template getParameter<double>("MinDeta")),
  max_Deta_ (iConfig.template getParameter<double>("MaxDeta")),
  min_Minv_ (iConfig.template getParameter<double>("MinMinv")),
  max_Minv_ (iConfig.template getParameter<double>("MaxMinv")),
  min_DelR_ (iConfig.template getParameter<double>("MinDelR")),
  max_DelR_ (iConfig.template getParameter<double>("MaxDelR")),
  min_Pt_   (iConfig.template getParameter<double>("MinPt")),
  max_Pt_   (iConfig.template getParameter<double>("MaxPt")),
  min_N_    (iConfig.template getParameter<int>("MinN")),
  label_    (iConfig.getParameter<std::string>("@module_label")),
  coll1_(),
  coll2_()
{

   // same collections to be compared?
   same_ = (inputTag1_.encode()==inputTag2_.encode());

   cutdphi_ = (min_Dphi_ <= max_Dphi_); // cut active?
   cutdeta_ = (min_Deta_ <= max_Deta_); // cut active?
   cutminv_ = (min_Minv_ <= max_Minv_); // cut active?
   cutdelr_ = (min_DelR_ <= max_DelR_); // cut active?
   cutpt_   = (min_Pt_   <= max_Pt_  ); // cut active?

   LogDebug("") << "InputTags and cuts : " 
                << inputTag1_.encode() << " " << inputTag2_.encode()
                << triggerType1_ << " " << triggerType2_
                << " Dphi [" << min_Dphi_ << " " << max_Dphi_ << "]"
                << " Deta [" << min_Deta_ << " " << max_Deta_ << "]"
                << " Minv [" << min_Minv_ << " " << max_Minv_ << "]"
                << " DelR [" << min_DelR_ << " " << max_DelR_ << "]"
                << " Pt   [" << min_Pt_   << " " << max_Pt_   << "]"
                << " MinN =" << min_N_
                << " same/dphi/deta/minv/delr/pt "
                << same_
                << cutdphi_ << cutdeta_ << cutminv_ << cutdelr_ << cutpt_;
}

template<typename T1, typename T2>
HLTDoublet<T1,T2>::~HLTDoublet()
{
}
template<typename T1, typename T2>
void
HLTDoublet<T1,T2>::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
  edm::ParameterSetDescription desc;
  makeHLTFilterDescription(desc);
  desc.add<edm::InputTag>("originTag1",edm::InputTag("hltOriginal1"));
  desc.add<edm::InputTag>("originTag2",edm::InputTag("hltOriginal2"));
  desc.add<edm::InputTag>("inputTag1",edm::InputTag("hltFiltered1"));
  desc.add<edm::InputTag>("inputTag2",edm::InputTag("hltFiltered22"));
  desc.add<int>("triggerType1",0);
  desc.add<int>("triggerType2",0);
  desc.add<double>("MinDphi",+1.0);
  desc.add<double>("MaxDphi",-1.0);
  desc.add<double>("MinDeta",+1.0);
  desc.add<double>("MaxDeta",-1.0);
  desc.add<double>("MinMinv",+1.0);
  desc.add<double>("MaxMinv",-1.0);
  desc.add<double>("MinDelR",+1.0);
  desc.add<double>("MaxDelR",-1.0);
  desc.add<double>("MinPt"  ,+1.0);
  desc.add<double>("MaxPt"  ,-1.0);
  desc.add<int>("MinN",1);
  descriptions.add(std::string("hlt")+std::string(typeid(HLTDoublet<T1,T2>).name()),desc);
}

//
// member functions
//

// ------------ method called to produce the data  ------------
template<typename T1, typename T2>
bool
HLTDoublet<T1,T2>::hltFilter(edm::Event& iEvent, const edm::EventSetup& iSetup, trigger::TriggerFilterObjectWithRefs & filterproduct)
{
   using namespace std;
   using namespace edm;
   using namespace reco;
   using namespace trigger;

   // All HLT filters must create and fill an HLT filter object,
   // recording any reconstructed physics objects satisfying (or not)
   // this HLT filter, and place it in the Event.

   bool accept(false);

   LogVerbatim("HLTDoublet") << " XXX " << label_ << " 0 " << std::endl;

   // get hold of pre-filtered object collections
   Handle<TriggerFilterObjectWithRefs> coll1,coll2;
   if (iEvent.getByLabel (inputTag1_,coll1) && iEvent.getByLabel (inputTag2_,coll2)) {
     coll1_.clear();
     coll1->getObjects(triggerType1_,coll1_);
     const size_type n1(coll1_.size());
     coll2_.clear();
     coll2->getObjects(triggerType2_,coll2_);
     const size_type n2(coll2_.size());

     if (saveTags()) {
       InputTag tagOld;
       filterproduct.addCollectionTag(originTag1_);
       LogVerbatim("HLTDoublet") << " XXX " << label_ << " 1a " << originTag1_.encode() << std::endl;
       tagOld=InputTag();
       for (size_type i1=0; i1!=n1; ++i1) {
         const ProductID pid(coll1_[i1].id());
         const string&    label(iEvent.getProvenance(pid).moduleLabel());
         const string& instance(iEvent.getProvenance(pid).productInstanceName());
         const string&  process(iEvent.getProvenance(pid).processName());
         InputTag tagNew(InputTag(label,instance,process));
         if (tagOld.encode()!=tagNew.encode()) {
           filterproduct.addCollectionTag(tagNew);
           tagOld=tagNew;
           LogVerbatim("HLTDoublet") << " XXX " << label_ << " 1b " << tagNew.encode() << std::endl;
         }
       }
       filterproduct.addCollectionTag(originTag2_);
       LogVerbatim("HLTDoublet") << " XXX " << label_ << " 2a " << originTag2_.encode() << std::endl;
       tagOld=InputTag();
       for (size_type i2=0; i2!=n2; ++i2) {
         const ProductID pid(coll2_[i2].id());
         const string&    label(iEvent.getProvenance(pid).moduleLabel());
         const string& instance(iEvent.getProvenance(pid).productInstanceName());
         const string&  process(iEvent.getProvenance(pid).processName());
         InputTag tagNew(InputTag(label,instance,process));
         if (tagOld.encode()!=tagNew.encode()) {
           filterproduct.addCollectionTag(tagNew);
           tagOld=tagNew;
           LogVerbatim("HLTDoublet") << " XXX " << label_ << " 2b " << tagNew.encode() << std::endl;
         }
       }
     }

     int n(0);
     T1Ref r1;
     T2Ref r2;
     Particle::LorentzVector p1,p2,p;
     for (unsigned int i1=0; i1!=n1; i1++) {
       r1=coll1_[i1];
       p1=r1->p4();
       unsigned int I(0);
       if (same_) {I=i1+1;}
       for (unsigned int i2=I; i2!=n2; i2++) {
         r2=coll2_[i2];
         p2=r2->p4();

         double Dphi(std::abs(p1.phi()-p2.phi()));
         if (Dphi>M_PI) Dphi=2.0*M_PI-Dphi;
         
         double Deta(std::abs(p1.eta()-p2.eta()));
         
         p=p1+p2;
         double Minv(std::abs(p.mass()));
         double Pt(p.pt());

         double DelR(sqrt(Dphi*Dphi+Deta*Deta));
         
         if ( ( (!cutdphi_) || ((min_Dphi_<=Dphi) && (Dphi<=max_Dphi_)) ) &&
              ( (!cutdeta_) || ((min_Deta_<=Deta) && (Deta<=max_Deta_)) ) &&
              ( (!cutminv_) || ((min_Minv_<=Minv) && (Minv<=max_Minv_)) ) &&
              ( (!cutdelr_) || ((min_DelR_<=DelR) && (DelR<=max_DelR_)) ) &&
              ( (!cutpt_  ) || ((min_Pt_  <=Pt  ) && (Pt  <=max_Pt_  )) ) ) {
           n++;
           filterproduct.addObject(triggerType1_,r1);
           filterproduct.addObject(triggerType2_,r2);
         }
         
       }
     }
     // filter decision
     accept = (n>=min_N_);
   }

   return accept;
}