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EcalTBDigiProducer.cc
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1 
14 
16  EcalDigiProducer(params, mixMod, iC)
17 {
18  std::string const instance("simEcalUnsuppressedDigis");
19  m_EBdigiFinalTag = params.getParameter<std::string>( "EBdigiFinalCollection" ) ;
20  m_EBdigiTempTag = params.getParameter<std::string>( "EBdigiCollection");
21 
22  mixMod.produces<EBDigiCollection>(instance + m_EBdigiFinalTag) ; // after selective readout
23  mixMod.produces<EcalTBTDCRawInfo>(instance) ;
24 
25  const bool syncPhase ( params.getParameter<bool>("syncPhase") ) ;
26 
27  // possible phase shift for asynchronous trigger (e.g. test-beam)
28 
29  m_doPhaseShift = !syncPhase ;
30  m_thisPhaseShift = 1. ;
31 
32  typedef std::vector< edm::ParameterSet > Parameters;
33  Parameters ranges=params.getParameter<Parameters>( "tdcRanges" ) ;
34  for( Parameters::iterator itRanges = ranges.begin();
35  itRanges != ranges.end(); ++itRanges )
36  {
38  aRange.runRanges.first = itRanges->getParameter<int>("startRun");
39  aRange.runRanges.second = itRanges->getParameter<int>("endRun");
40  aRange.tdcMin = itRanges->getParameter< std::vector<double> >("tdcMin");
41  aRange.tdcMax = itRanges->getParameter< std::vector<double> >("tdcMax");
42  m_tdcRanges.push_back(std::move(aRange));
43  }
44 
46  params.getUntrackedParameter< bool >("use2004OffsetConvention",
47  false ) ;
48 
50  params.getUntrackedParameter<std::string>( "EcalTBInfoLabel" ,
51  "SimEcalTBG4Object" ) ;
52 
53  m_doReadout = params.getParameter<bool>( "doReadout" ) ;
54 
55  m_theTBReadout = new EcalTBReadout( m_ecalTBInfoLabel ) ;
56 
57  m_tunePhaseShift = params.getParameter<double>( "tunePhaseShift" ) ;
58 
59  if( m_doPhaseShift )
60  {
61  iC.consumes<PEcalTBInfo>(edm::InputTag(params.getUntrackedParameter<std::string>("EcalTBInfoLabel","SimEcalTBG4Object")));
62  }
63 }
64 
66 {
67 }
68 
70  std::cout<<"====****Entering EcalTBDigiProducer produce()"<<std::endl ;
71  edm::ESHandle<CaloGeometry> hGeometry ;
72  eventSetup.get<CaloGeometryRecord>().get( hGeometry ) ;
73  const std::vector<DetId>& theBarrelDets (
74  hGeometry->getValidDetIds(DetId::Ecal, EcalBarrel) ) ;
75 
76  m_theTBReadout->setDetIds( theBarrelDets ) ;
77 
78  m_TDCproduct.reset( new EcalTBTDCRawInfo(1) ) ;
79  if( m_doPhaseShift )
80  {
81  edm::Handle<PEcalTBInfo> theEcalTBInfo ;
82  event.getByLabel( m_ecalTBInfoLabel, theEcalTBInfo ) ;
83  m_thisPhaseShift = theEcalTBInfo->phaseShift() ;
84 
85  DetId detId( DetId::Ecal, 1 ) ;
86  setPhaseShift( detId ) ;
87 
88  fillTBTDCRawInfo( *m_TDCproduct ) ; // fill the TDC info in the event
89  }
90  EcalDigiProducer::initializeEvent( event, eventSetup ) ;
91 }
92 
94  m_ebDigis.reset( new EBDigiCollection ) ;
95 
96  EcalDigiProducer::finalizeEvent( event, eventSetup ) ;
97 
98  const EBDigiCollection* barrelResult ( &*m_ebDigis ) ;
99 
100  std::auto_ptr<EBDigiCollection> barrelReadout( new EBDigiCollection() ) ;
101  if( m_doReadout )
102  {
104  m_theTTmap,
105  *barrelResult,
106  *barrelReadout ) ;
107  }
108  else
109  {
110  *barrelReadout = *barrelResult ;
111  }
112 
113  std::cout<< "===**** EcalTBDigiProducer: number of barrel digis = "
114  << barrelReadout->size()<<std::endl ;
115 
116  std::string const instance("simEcalUnsuppressedDigis");
117  event.put(barrelReadout, instance + m_EBdigiFinalTag) ;
118  event.put(m_TDCproduct, instance) ;
119 
120  m_ebDigis.reset(); // release memory
121  m_eeDigis.reset(); // release memory
122 }
123 
124 void
126 {
127  const CaloSimParameters& parameters (
128  EcalDigiProducer::m_ParameterMap->simParameters( detId ) ) ;
129 
130  if ( !parameters.syncPhase() )
131  {
132  const int myDet ( detId.subdetId() ) ;
133 
134  LogDebug("EcalDigi") << "Setting the phase shift "
135  << m_thisPhaseShift
136  << " and the offset "
137  << m_tunePhaseShift
138  << " for the subdetector "
139  << myDet;
140 
141  if( myDet == 1 )
142  {
143  double passPhaseShift ( m_thisPhaseShift + m_tunePhaseShift ) ;
144  if( m_use2004OffsetConvention ) passPhaseShift = 1. - passPhaseShift ;
145  EcalDigiProducer::m_EBResponse->setPhaseShift( passPhaseShift ) ;
146  EcalDigiProducer::m_EEResponse->setPhaseShift( passPhaseShift ) ;
147  }
148  }
149 }
150 
151 void
153 {
154  const unsigned int thisChannel ( 1 ) ;
155 
156  const unsigned int thisCount (
157  (unsigned int)( m_thisPhaseShift*( m_tdcRanges[0].tdcMax[0]
158  - m_tdcRanges[0].tdcMin[0] )
159  + m_tdcRanges[0].tdcMin[0] ) ) ;
160 
161  EcalTBTDCSample theTBTDCSample ( thisChannel, thisCount ) ;
162 
163  const unsigned int sampleIndex ( 0 ) ;
164  theTBTDCRawInfo.setSample( sampleIndex, theTBTDCSample ) ;
165 
166  LogDebug("EcalDigi") << theTBTDCSample << "\n" << theTBTDCRawInfo ;
167 }
168 
169 void
171 {
172  m_ebDigis.reset( new EBDigiCollection ) ;
173  *m_ebDigis = *ebDigiPtr ;
174 }
175 
176 void
178 {
179  std::cout<< "===**** EcalTBDigiProducer: number of endcap digis = "
180  << eeDigiPtr->size()<<std::endl ;
181 }
#define LogDebug(id)
const EcalTrigTowerConstituentsMap m_theTTmap
EDGetTokenT< ProductType > consumes(edm::InputTag const &tag)
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
std::auto_ptr< EBDigiCollection > m_ebDigis
dictionary parameters
Definition: Parameters.py:2
static PFTauRenderPlugin instance
const EcalSimParameterMap * m_ParameterMap
virtual void initializeEvent(edm::Event const &e, edm::EventSetup const &c)
std::vector< EcalTBTDCRecInfoAlgo::EcalTBTDCRanges > m_tdcRanges
Main class for Parameters in different subdetectors.
void fillTBTDCRawInfo(EcalTBTDCRawInfo &theTBTDCRawInfo)
virtual void cacheEBDigis(const EBDigiCollection *ebDigiPtr) const
vector< ParameterSet > Parameters
void setPhaseShift(const DetId &detId)
EBHitResponse * m_EBResponse
void setPhaseShift(double phaseShift)
def move
Definition: eostools.py:508
EcalTBDigiProducer(const edm::ParameterSet &params, edm::one::EDProducerBase &mixMod, edm::ConsumesCollector &iC)
std::string m_EBdigiFinalTag
virtual void initializeEvent(edm::Event const &, edm::EventSetup const &)
virtual void finalizeEvent(edm::Event &, edm::EventSetup const &)
void performReadout(edm::Event &event, const EcalTrigTowerConstituentsMap &theTTmap, const EBDigiCollection &input, EBDigiCollection &output)
master function to be called once per event
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:37
string ranges
Definition: diffTwoXMLs.py:78
void setDetIds(const std::vector< DetId > &detIds)
tell the readout which cells exist
Definition: EcalTBReadout.h:27
Definition: DetId.h:18
std::auto_ptr< EcalTBTDCRawInfo > m_TDCproduct
const T & get() const
Definition: EventSetup.h:55
EcalTBReadout * m_theTBReadout
virtual void finalizeEvent(edm::Event &e, edm::EventSetup const &c)
void setSample(unsigned int i, const EcalTBTDCSample &sam)
std::string m_EBdigiTempTag
tuple cout
Definition: gather_cfg.py:121
volatile std::atomic< bool > shutdown_flag false
std::auto_ptr< EEDigiCollection > m_eeDigis
std::string m_ecalTBInfoLabel
virtual void cacheEEDigis(const EEDigiCollection *eeDigiPtr) const
EEHitResponse * m_EEResponse
bool syncPhase() const
choice of the ADC time alignment (synchronous for LHC, asynchronous for test beams) ...