CMS 3D CMS Logo

EcalSignalGenerator.h
Go to the documentation of this file.
1 #ifndef EcalSimAlgos_EcalSignalGenerator_h
2 #define EcalSimAlgos_EcalSignalGenerator_h
3 
33 
38 #include <iostream>
39 #include <memory>
40 
41 namespace edm {
42  class ModuleCallingContext;
43 }
44 
45 template<class ECALDIGITIZERTRAITS>
47 {
48 public:
49  typedef typename ECALDIGITIZERTRAITS::Digi DIGI;
50  typedef typename ECALDIGITIZERTRAITS::DigiCollection COLLECTION;
51 
53 
54  EcalSignalGenerator(const edm::InputTag & inputTag, const edm::EDGetTokenT<COLLECTION> &t, const double EBs25notCont, const double EEs25notCont, const double peToABarrel, const double peToAEndcap)
56  theEvent(nullptr),
57  theEventPrincipal(nullptr),
58  theInputTag(inputTag),
59  tok_(t)
60  {
61  EcalMGPAGainRatio * defaultRatios = new EcalMGPAGainRatio();
62  theDefaultGains[2] = defaultRatios->gain6Over1() ;
63  theDefaultGains[1] = theDefaultGains[2]*(defaultRatios->gain12Over6()) ;
64  m_EBs25notCont = EBs25notCont;
65  m_EEs25notCont = EEs25notCont;
66  m_peToABarrel = peToABarrel;
67  m_peToAEndcap = peToAEndcap;
68 
69  }
70 
71  ~EcalSignalGenerator() override {}
72 
73 
74  void initializeEvent(const edm::Event * event, const edm::EventSetup * eventSetup)
75  {
76  theEvent = event;
77  eventSetup->get<EcalGainRatiosRcd>().get(grHandle); // find the gains
78  // Ecal Intercalibration Constants
79  eventSetup->get<EcalIntercalibConstantsMCRcd>().get( pIcal ) ;
80  ical = pIcal.product();
81  // adc to GeV
82  eventSetup->get<EcalADCToGeVConstantRcd>().get(pAgc);
83  agc = pAgc.product();
84 
85  m_maxEneEB = (agc->getEBValue())*theDefaultGains[1]*MAXADC*m_EBs25notCont ;
86  m_maxEneEE = (agc->getEEValue())*theDefaultGains[1]*MAXADC*m_EEs25notCont ;
87 
88  //ES
89  eventSetup->get<ESGainRcd>(). get( hesgain ) ;
90  eventSetup->get<ESMIPToGeVConstantRcd>(). get( hesMIPToGeV ) ;
91  eventSetup->get<ESIntercalibConstantsRcd>().get( hesMIPs ) ;
92 
93  esgain = hesgain.product() ;
94  esmips = hesMIPs.product() ;
95  esMipToGeV = hesMIPToGeV.product() ;
96  if( 1.1 > esgain->getESGain() ) ESgain = 1;
97  else ESgain = 2;
98  if( ESgain ==1 ) ESMIPToGeV = esMipToGeV->getESValueLow();
99  else ESMIPToGeV = esMipToGeV->getESValueHigh();
100  }
101 
103  void initializeEvent(const edm::EventPrincipal * eventPrincipal, const edm::EventSetup * eventSetup)
104  {
105  theEventPrincipal = eventPrincipal;
106  eventSetup->get<EcalGainRatiosRcd>().get(grHandle); // find the gains
107  // Ecal Intercalibration Constants
108  eventSetup->get<EcalIntercalibConstantsMCRcd>().get( pIcal ) ;
109  ical = pIcal.product();
110  // adc to GeV
111  eventSetup->get<EcalADCToGeVConstantRcd>().get(pAgc);
112  agc = pAgc.product();
113  m_maxEneEB = (agc->getEBValue())*theDefaultGains[1]*MAXADC*m_EBs25notCont ;
114  m_maxEneEE = (agc->getEEValue())*theDefaultGains[1]*MAXADC*m_EEs25notCont ;
115 
116  //ES
117  eventSetup->get<ESGainRcd>(). get( hesgain ) ;
118  eventSetup->get<ESMIPToGeVConstantRcd>(). get( hesMIPToGeV ) ;
119  eventSetup->get<ESIntercalibConstantsRcd>().get( hesMIPs ) ;
120 
121  esgain = hesgain.product() ;
122  esmips = hesMIPs.product() ;
123  esMipToGeV = hesMIPToGeV.product() ;
124  if( 1.1 > esgain->getESGain() ) ESgain = 1;
125  else ESgain = 2;
126  if( ESgain ==1 ) ESMIPToGeV = esMipToGeV->getESValueLow();
127  else ESMIPToGeV = esMipToGeV->getESValueHigh();
128  }
129 
130  virtual void fill(edm::ModuleCallingContext const* mcc)
131  {
132 
133  theNoiseSignals.clear();
135  const COLLECTION * digis = nullptr;
136  // try accessing by whatever is set, Event or EventPrincipal
137  if(theEvent)
138  {
139  if( theEvent->getByToken(tok_, pDigis) ) {
140  digis = pDigis.product(); // get a ptr to the product
141  }
142  else
143  {
144  throw cms::Exception("EcalSignalGenerator") << "Cannot find input data " << theInputTag;
145  }
146  }
147  else if(theEventPrincipal)
148  {
149  std::shared_ptr<edm::Wrapper<COLLECTION> const> digisPTR =
150  edm::getProductByTag<COLLECTION>(*theEventPrincipal, theInputTag, mcc );
151  if(digisPTR) {
152  digis = digisPTR->product();
153  }
154  }
155  else
156  {
157  throw cms::Exception("EcalSignalGenerator") << "No Event or EventPrincipal was set";
158  }
159 
160  if (digis)
161  {
162  // loop over digis, adding these to the existing maps
163  for(typename COLLECTION::const_iterator it = digis->begin();
164  it != digis->end(); ++it)
165  {
166  // need to convert to something useful
167  if(validDigi(*it)){
168  theNoiseSignals.push_back(samplesInPE(*it));
169  }
170  }
171  }
172  //else { std::cout << " NO digis for this input: " << theInputTag << std::endl;}
173  }
174 
175 private:
176 
177  bool validDigi(const DIGI & digi)
178  {
179  int DigiSum = 0;
180  for(int id = 0; id<digi.size(); id++) {
181  if(digi[id].adc() > 0) ++DigiSum;
182  }
183  return(DigiSum>0);
184  }
185 
186  void fillNoiseSignals() override {}
187  void fillNoiseSignals(CLHEP::HepRandomEngine*) override {}
188 
189  // much of this stolen from EcalSimAlgos/EcalCoder
190 
191  enum { NBITS = 12 , // number of available bits
192  MAXADC = 4095 , // 2^12 -1, adc max range
193  ADCGAINSWITCH = 4079 , // adc gain switch
194  NGAINS = 3 }; // number of electronic gains
195 
196  CaloSamples samplesInPE(const DIGI & digi); // have to define this separately for ES
197 
198  const std::vector<float> GetGainRatios(const DetId& detid) {
199 
200  std::vector<float> gainRatios(4);
201  // get gain ratios
202  EcalMGPAGainRatio theRatio= (*grHandle)[detid];
203 
204  gainRatios[0] = 0.;
205  gainRatios[3] = 1.;
206  gainRatios[2] = theRatio.gain6Over1();
207  gainRatios[1] = theRatio.gain6Over1() * theRatio.gain12Over6();
208 
209  return gainRatios;
210  }
211 
212 
213  double fullScaleEnergy( const DetId & detId ) const
214  {
215  return detId.subdetId() == EcalBarrel ? m_maxEneEB : m_maxEneEE ;
216  }
217 
218 
219  double peToAConversion( const DetId & detId ) const
220  {
221  return detId.subdetId() == EcalBarrel ? m_peToABarrel : m_peToAEndcap ;
222  }
223 
224 
228 
232 
236 
240 
241  const ESGain* esgain;
244  int ESgain ;
245  double ESMIPToGeV;
246 
249 
252 
253  double m_maxEneEB ; // max attainable energy in the ecal barrel
254  double m_maxEneEE ; // max attainable energy in the ecal endcap
255 
258 
259  double theDefaultGains[NGAINS];
260 
261 };
262 
266 
267 #endif
268 
int adc(sample_type sample)
get the ADC sample (12 bits)
const edm::Event * theEvent
these fields are set in initializeEvent()
EcalSignalGenerator< EBDigitizerTraits > EBSignalGenerator
ECALDIGITIZERTRAITS::DigiCollection COLLECTION
edm::ESHandle< ESMIPToGeVConstant > hesMIPToGeV
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
virtual void fill(edm::ModuleCallingContext const *mcc)
Definition: ESGain.h:7
void fillNoiseSignals(CLHEP::HepRandomEngine *) override
const std::vector< float > GetGainRatios(const DetId &detid)
edm::EDGetTokenT< COLLECTION > tok_
const_iterator begin() const
double fullScaleEnergy(const DetId &detId) const
#define nullptr
std::tuple< unsigned int, int, int, DigiType, int, int, int, float > Digi
Definition: GenericDigi.h:30
int size() const
Definition: EcalDataFrame.h:26
edm::ESHandle< ESIntercalibConstants > hesMIPs
edm::ESHandle< ESGain > hesgain
EcalSignalGenerator(const edm::InputTag &inputTag, const edm::EDGetTokenT< COLLECTION > &t, const double EBs25notCont, const double EEs25notCont, const double peToABarrel, const double peToAEndcap)
bool validDigi(const DIGI &digi)
const EcalIntercalibConstantsMC * ical
edm::ESHandle< EcalADCToGeVConstant > pAgc
void initializeEvent(const edm::Event *event, const edm::EventSetup *eventSetup)
float gain6Over1() const
const EcalADCToGeVConstant * agc
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
void initializeEvent(const edm::EventPrincipal *eventPrincipal, const edm::EventSetup *eventSetup)
some users use EventPrincipals, not Events. We support both
EcalSignalGenerator< ESDigitizerTraits > ESSignalGenerator
void fillNoiseSignals() override
Definition: DetId.h:18
edm::ESHandle< EcalGainRatios > grHandle
const edm::EventPrincipal * theEventPrincipal
T const * product() const
Definition: Handle.h:81
const T & get() const
Definition: EventSetup.h:59
edm::InputTag theInputTag
these come from the ParameterSet
ECALDIGITIZERTRAITS::Digi DIGI
float gain12Over6() const
const_iterator end() const
double peToAConversion(const DetId &detId) const
HLT enums.
edm::ESHandle< EcalIntercalibConstantsMC > pIcal
EcalSignalGenerator< EEDigitizerTraits > EESignalGenerator
const ESIntercalibConstants * esmips
Definition: event.py:1
const ESMIPToGeVConstant * esMipToGeV