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BetaCalculatorRPC Class Reference

#include <BetaCalculatorRPC.h>

Public Member Functions

void addInfoToCandidate (susybsm::HSCParticle &candidate, const edm::Event &iEvent, const edm::EventSetup &iSetup)
 
void algo (const std::vector< susybsm::RPCHit4D > &HSCPRPCRecHits)
 
float beta ()
 
 BetaCalculatorRPC (const edm::ParameterSet &iConfig, edm::ConsumesCollector &&iC)
 

Private Member Functions

float dist (float phi1, float phi2)
 
float dist3 (float phi1, float phi2, float phi3)
 
float etarange (float eta1, float eta2, float eta3)
 

Private Attributes

float betavalue
 
float etavalue
 
bool foundvalue
 
float phivalue
 
edm::EDGetTokenT
< RPCRecHitCollection
rpcRecHitsToken
 

Detailed Description

Definition at line 30 of file BetaCalculatorRPC.h.

Constructor & Destructor Documentation

BetaCalculatorRPC::BetaCalculatorRPC ( const edm::ParameterSet iConfig,
edm::ConsumesCollector &&  iC 
)

Definition at line 6 of file BetaCalculatorRPC.cc.

References edm::ParameterSet::getParameter().

6  {
7 
9 
10 }
EDGetTokenT< ProductType > consumes(edm::InputTag const &tag)
T getParameter(std::string const &) const
edm::EDGetTokenT< RPCRecHitCollection > rpcRecHitsToken

Member Function Documentation

void BetaCalculatorRPC::addInfoToCandidate ( susybsm::HSCParticle candidate,
const edm::Event iEvent,
const edm::EventSetup iSetup 
)

Definition at line 116 of file BetaCalculatorRPC.cc.

References susybsm::RPCBetaMeasurement::beta, beta, susybsm::RPCHit4D::bx, edm::EventSetup::get(), edm::Event::getByToken(), susybsm::RPCHit4D::gp, susybsm::HSCParticle::hasMuonRef(), susybsm::RPCHit4D::id, susybsm::RPCBetaMeasurement::isCandidate, edm::Ref< C, T, F >::isNonnull(), DetId::Muon, susybsm::HSCParticle::muonRef(), point, query::result, MuonSubdetId::RPC, RPCDetId, susybsm::HSCParticle::setRpc(), findQualityFiles::size, python.multivaluedict::sort(), dqm_diff::start, and GeomDet::surface().

116  {
118  iSetup.get<MuonGeometryRecord>().get(rpcGeo);
119 
121  iEvent.getByToken(rpcRecHitsToken,rpcHits);
122 
123  // here we do basically as in RPCHSCPCANDIDATE.cc, but just for the hits on the muon of interest
125  std::vector<RPCHit4D> hits;
126  // so, loop on the RPC hits of the muon
128  reco::Track track;
129 
130  if( candidate.hasMuonRef() && candidate.muonRef()->combinedMuon() .isNonnull()){
131  start = candidate.muonRef()->combinedMuon()->recHitsBegin();
132  stop = candidate.muonRef()->combinedMuon()->recHitsEnd();
133  }else if(candidate.hasMuonRef() && candidate.muonRef()->standAloneMuon().isNonnull()){ track=*(candidate.muonRef()->standAloneMuon());
134  start = candidate.muonRef()->standAloneMuon()->recHitsBegin();
135  stop = candidate.muonRef()->standAloneMuon()->recHitsEnd();
136  }else return;
137 /*
138  if(candidate.hasMuonCombinedTrack()) {
139  start = candidate.combinedTrack().recHitsBegin();
140  stop = candidate.combinedTrack().recHitsEnd();
141  } else if(candidate.hasMuonStaTrack()) {
142  start = candidate.staTrack().recHitsBegin();
143  stop = candidate.staTrack().recHitsEnd();
144  } else return;
145 */
146 
147  for(trackingRecHit_iterator recHit = start; recHit != stop; ++recHit) {
148  if ( (*recHit)->geographicalId().subdetId() != MuonSubdetId::RPC ) continue;
149  if ( (*recHit)->geographicalId().det() != DetId::Muon ) continue;
150  if (!(*recHit)->isValid()) continue; //Is Valid?
151 
152  RPCDetId rollId = (RPCDetId)(*recHit)->geographicalId();
153 
154  typedef std::pair<RPCRecHitCollection::const_iterator, RPCRecHitCollection::const_iterator> rangeRecHits;
155  rangeRecHits recHitCollection = rpcHits->get(rollId);
157  int size = 0;
158  int clusterS=0;
159 
160  for(recHitC = recHitCollection.first; recHitC != recHitCollection.second ; recHitC++) {
161  clusterS=(*recHitC).clusterSize();
162 // RPCDetId rollId = (RPCDetId)(*recHitC).geographicalId();
163 // std::cout<<"\t \t \t \t"<<rollId<<" bx "<<(*recHitC).BunchX()<<std::endl;
164  size++;
165  }
166  if(size>1) continue; //Is the only RecHit in this roll.?
167  if(clusterS>4) continue; //Is the Cluster Size 5 or bigger?
168 
169  LocalPoint recHitPos=(*recHit)->localPosition();
170  const RPCRoll* rollasociated = rpcGeo->roll(rollId);
171  const BoundPlane & RPCSurface = rollasociated->surface();
172 
173  RPCHit4D ThisHit;
174  ThisHit.bx = ((RPCRecHit*)(&(**recHit)))->BunchX();
175  ThisHit.gp = RPCSurface.toGlobal(recHitPos);
176  ThisHit.id = (RPCDetId)(*recHit)->geographicalId().rawId();
177  hits.push_back(ThisHit);
178  }
179  // here we go on with the RPC procedure
180  std::sort(hits.begin(), hits.end());
181  int lastbx=-7;
182  bool increasing = true;
183  bool outOfTime = false;
184  for(std::vector<RPCHit4D>::iterator point = hits.begin(); point < hits.end(); ++point) {
185  outOfTime |= (point->bx!=0); //condition 1: at least one measurement must have BX!=0
186  increasing &= (point->bx>=lastbx); //condition 2: BX must increase when going inside-out.
187  lastbx = point->bx;
188  }
189  result.isCandidate = (outOfTime&&increasing);
190 
191  //result.beta = 1; // here we should get some pattern-based estimate
192  algo(hits);
193  result.beta = beta();
194  candidate.setRpc(result);
195 }
tuple start
Check for commandline option errors.
Definition: dqm_diff.py:58
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:250
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:446
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:40
GlobalPoint gp
Definition: HSCParticle.h:28
tuple result
Definition: query.py:137
reco::MuonRef muonRef() const
Definition: HSCParticle.h:74
edm::EDGetTokenT< RPCRecHitCollection > rpcRecHitsToken
const T & get() const
Definition: EventSetup.h:55
static const int RPC
Definition: MuonSubdetId.h:14
void setRpc(const RPCBetaMeasurement &data)
Definition: HSCParticle.h:67
void algo(const std::vector< susybsm::RPCHit4D > &HSCPRPCRecHits)
bool hasMuonRef() const
Definition: HSCParticle.h:55
tuple size
Write out results.
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
TrackingRecHitCollection::base::const_iterator trackingRecHit_iterator
iterator over a vector of reference to TrackingRecHit in the same collection
void BetaCalculatorRPC::algo ( const std::vector< susybsm::RPCHit4D > &  HSCPRPCRecHits)

Definition at line 12 of file BetaCalculatorRPC.cc.

References configurableAnalysis::Candidate, point, and python.multivaluedict::sort().

12  {
13  std::vector<susybsm::RPCHit4D> HSCPRPCRecHits = uHSCPRPCRecHits;
14  int lastbx=-7;
15  bool outOfTime = false;
16  bool increasing = true;
17  bool anydifferentzero = true;
18  bool anydifferentone = true;
19 
20  //std::cout<<"Inside BetaCalculatorRPC \t \t Preliminar loop on the RPCHit4D!!!"<<std::endl;
21 
22  std::sort(HSCPRPCRecHits.begin(), HSCPRPCRecHits.end()); //Organizing them
23 
24  for(std::vector<susybsm::RPCHit4D>::iterator point = HSCPRPCRecHits.begin(); point < HSCPRPCRecHits.end(); ++point) {
25  outOfTime |= (point->bx!=0); //condition 1: at least one measurement must have BX!=0
26  increasing &= (point->bx>=lastbx); //condition 2: BX must be increase when going inside-out.
27  anydifferentzero &= (!point->bx==0); //to check one knee withoutzeros
28  anydifferentone &= (!point->bx==1); //to check one knee withoutones
29  lastbx = point->bx;
30  //float r=point->gp.mag();
31  //std::cout<<"Inside BetaCalculatorRPC \t \t r="<<r<<" phi="<<point->gp.phi()<<" eta="<<point->gp.eta()<<" bx="<<point->bx<<" outOfTime"<<outOfTime<<" increasing"<<increasing<<" anydifferentzero"<<anydifferentzero<<std::endl;
32  }
33 
34  bool Candidate = (outOfTime&&increasing);
35 
36  // here we should get some pattern-based estimate
37 
38  //Counting knees
39 
40  float delay=12.5;
41  lastbx=-7; //already declared for the preliminar loop
42  int knees=0;
43  float maginknee = 0;
44  float maginfirstknee = 0;
45  for(std::vector<susybsm::RPCHit4D>::iterator point = HSCPRPCRecHits.begin(); point < HSCPRPCRecHits.end(); ++point) {
46  if(lastbx==-7){
47  maginfirstknee = point->gp.mag();
48  }else if((lastbx!=point->bx)){
49  //std::cout<<"Inside BetaCalculatorRPC \t \t \t one knee between"<<lastbx<<point->bx<<std::endl;
50  maginknee=point->gp.mag();
51  knees++;
52  }
53  lastbx=point->bx;
54  }
55 
56  if(knees==0){
57  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t knees="<<knees<<std::endl;
58  betavalue=maginfirstknee/(25.-delay+maginfirstknee/30.)/30.;
59  }else if(knees==1){
60  float betavalue1=0;
61  float betavalue2=0;
62  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t knees="<<knees<<std::endl;
63  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t anydifferentzero="<<anydifferentzero<<" anydifferentone="<<anydifferentone<<std::endl;
64  if(!anydifferentzero){
65  betavalue=maginknee/(25-delay+maginknee/30.)/30.;
66  }else if(!anydifferentone){//i.e non zeros and no ones
67  betavalue=maginknee/(50-delay+maginknee/30.)/30.;
68  }else{
69  betavalue1=maginknee/(25-delay+maginknee/30.)/30.;
70  float dr =(maginknee-maginfirstknee);
71  betavalue2 = dr/(25.-delay+dr/30.);
72  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t \t not zero neither ones betavalue1="<<betavalue1<<" betavalue2="<<betavalue2<<std::endl;
73  betavalue = (betavalue1 + betavalue2)*0.5;
74  }
75  }else if(knees==2){
76  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t knees="<<knees<<std::endl;
77  knees=0;
78  float betavalue1=0;
79  float betavalue2=0;
80  lastbx=-7;
81  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t looping again on the RPCRecHits4D="<<knees<<std::endl;
82  for(std::vector<susybsm::RPCHit4D>::iterator point = HSCPRPCRecHits.begin(); point < HSCPRPCRecHits.end(); ++point) {
83  if(lastbx==-7){
84  maginfirstknee = point->gp.mag();
85  }else if((lastbx!=point->bx)){
86  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t \t one knee between"<<lastbx<<point->bx<<std::endl;
87  knees++;
88  if(knees==2){
89  float maginsecondknee=point->gp.mag();
90  betavalue1=maginknee/(25-delay+maginknee/30.)/30.;
91  float dr =(maginknee-maginsecondknee);
92  betavalue2 = dr/(25.+dr/30.);
93  //std::cout<<"Inside BetaCalculatorRPC \t \t \t \t \t betavalue1="<<betavalue1<<" betavalue2="<<betavalue2<<std::endl;
94  }
95  }
96  lastbx=point->bx;
97  }
98  betavalue = (betavalue1 + betavalue2)*0.5;
99  }
100 
101  if(Candidate){
102  //std::cout<<"Inside BetaCalculatorRPC \t \t \t yes! We found an HSCPs let's try to estimate beta"<<std::endl;
103  }else{
104  //std::cout<<"Inside BetaCalculatorRPC \t \t \t seems that there is no RPC HSCP Candidate in the set of RPC4DHit"<<std::endl;
105  betavalue = 1.;
106  }
107 
108  if(HSCPRPCRecHits.size()==0){
109  //std::cout<<"Inside BetaCalculatorRPC \t WARINNG EMPTY RPC4DRecHits CONTAINER!!!"<<std::endl;
110  betavalue = 1.;
111  }
112 }
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
float BetaCalculatorRPC::beta ( )
inline

Definition at line 35 of file BetaCalculatorRPC.h.

References betavalue.

35 {return betavalue;}
float BetaCalculatorRPC::dist ( float  phi1,
float  phi2 
)
private
float BetaCalculatorRPC::dist3 ( float  phi1,
float  phi2,
float  phi3 
)
private
float BetaCalculatorRPC::etarange ( float  eta1,
float  eta2,
float  eta3 
)
private

Member Data Documentation

float BetaCalculatorRPC::betavalue
private

Definition at line 41 of file BetaCalculatorRPC.h.

Referenced by beta().

float BetaCalculatorRPC::etavalue
private

Definition at line 40 of file BetaCalculatorRPC.h.

bool BetaCalculatorRPC::foundvalue
private

Definition at line 38 of file BetaCalculatorRPC.h.

float BetaCalculatorRPC::phivalue
private

Definition at line 39 of file BetaCalculatorRPC.h.

edm::EDGetTokenT<RPCRecHitCollection> BetaCalculatorRPC::rpcRecHitsToken
private

Definition at line 47 of file BetaCalculatorRPC.h.