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SimG4HcalValidation Class Reference

#include <SimG4HcalValidation.h>

Inheritance diagram for SimG4HcalValidation:
SimProducer Observer< const BeginOfJob * > Observer< const BeginOfRun * > Observer< const BeginOfEvent * > Observer< const EndOfEvent * > Observer< const G4Step * > SimWatcher

Public Member Functions

void produce (edm::Event &, const edm::EventSetup &)
 
 SimG4HcalValidation (const edm::ParameterSet &p)
 
virtual ~SimG4HcalValidation ()
 
- Public Member Functions inherited from SimProducer
void registerProducts (edm::ProducerBase &iProd)
 
 SimProducer ()
 
- Public Member Functions inherited from SimWatcher
 SimWatcher ()
 
virtual ~SimWatcher ()
 
- Public Member Functions inherited from Observer< const BeginOfJob * >
 Observer ()
 
void slotForUpdate (const BeginOfJob *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const BeginOfRun * >
 Observer ()
 
void slotForUpdate (const BeginOfRun *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const BeginOfEvent * >
 Observer ()
 
void slotForUpdate (const BeginOfEvent *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const EndOfEvent * >
 Observer ()
 
void slotForUpdate (const EndOfEvent *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const G4Step * >
 Observer ()
 
void slotForUpdate (const G4Step *iT)
 
virtual ~Observer ()
 

Private Member Functions

void clear ()
 
void collectEnergyRdir (const double, const double)
 
void fetchHits (PHcalValidInfoLayer &)
 
void fill (const EndOfEvent *ev)
 
double getHcalScale (std::string, int) const
 
void init ()
 
void jetAnalysis (PHcalValidInfoJets &)
 
void layerAnalysis (PHcalValidInfoLayer &)
 
void nxNAnalysis (PHcalValidInfoNxN &)
 
const SimG4HcalValidationoperator= (const SimG4HcalValidation &)
 
 SimG4HcalValidation (const SimG4HcalValidation &)
 
void update (const BeginOfJob *job)
 This routine will be called when the appropriate signal arrives. More...
 
void update (const BeginOfRun *run)
 This routine will be called when the appropriate signal arrives. More...
 
void update (const BeginOfEvent *evt)
 This routine will be called when the appropriate signal arrives. More...
 
void update (const G4Step *step)
 This routine will be called when the appropriate signal arrives. More...
 
void update (const EndOfEvent *evt)
 This routine will be called when the appropriate signal arrives. More...
 

Private Attributes

bool applySampling
 
double coneSize
 
unsigned int count
 
std::vector< double > dEta
 
std::vector< double > dPhi
 
double edepd [5]
 
double edepEB
 
double edepEE
 
double edepHB
 
double edepHE
 
double edepHO
 
double edepl [20]
 
double een
 
double ehitThreshold
 
double enEcal
 
double enHcal
 
float eta0
 
bool hcalOnly
 
double hen
 
double hhitThreshold
 
std::vector< CaloHithitcache
 
double hoen
 
int infolevel
 
SimG4HcalHitJetFinderjetf
 
float jetThreshold
 
std::string labelJets
 
std::string labelLayer
 
std::string labelNxN
 
std::vector< std::string > names
 
HcalNumberingFromDDDnumberingFromDDD
 
HcalTestNumberingSchemeorg
 
float phi0
 
std::vector< float > scaleHB
 
std::vector< float > scaleHE
 
std::vector< float > scaleHF
 
float timeLowlim
 
float timeUplim
 
double vhitec
 
double vhithc
 

Additional Inherited Members

- Protected Member Functions inherited from SimProducer
template<class T >
void produces ()
 
template<class T >
void produces (const std::string &instanceName)
 

Detailed Description

Definition at line 34 of file SimG4HcalValidation.h.

Constructor & Destructor Documentation

SimG4HcalValidation::SimG4HcalValidation ( const edm::ParameterSet p)

Definition at line 38 of file SimG4HcalValidation.cc.

References applySampling, coneSize, ehitThreshold, eta0, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hcalOnly, hhitThreshold, infolevel, init(), jetThreshold, labelJets, labelLayer, labelNxN, names, phi0, AlCaHLTBitMon_QueryRunRegistry::string, timeLowlim, and timeUplim.

38  :
39  jetf(0), numberingFromDDD(0), org(0) {
40 
41  edm::ParameterSet m_Anal = p.getParameter<edm::ParameterSet>("SimG4HcalValidation");
42  infolevel = m_Anal.getParameter<int>("InfoLevel");
43  hcalOnly = m_Anal.getParameter<bool>("HcalClusterOnly");
44  applySampling = m_Anal.getParameter<bool>("HcalSampling");
45  coneSize = m_Anal.getParameter<double>("ConeSize");
46  ehitThreshold = m_Anal.getParameter<double>("EcalHitThreshold");
47  hhitThreshold = m_Anal.getParameter<double>("HcalHitThreshold");
48  timeLowlim = m_Anal.getParameter<double>("TimeLowLimit");
49  timeUplim = m_Anal.getParameter<double>("TimeUpLimit");
50  jetThreshold = m_Anal.getParameter<double>("JetThreshold");
51  eta0 = m_Anal.getParameter<double>("Eta0");
52  phi0 = m_Anal.getParameter<double>("Phi0");
53  names = m_Anal.getParameter<std::vector<std::string> >("Names");
54  labelLayer = m_Anal.getUntrackedParameter<std::string>("LabelLayerInfo","HcalInfoLayer");
55  labelNxN = m_Anal.getUntrackedParameter<std::string>("LabelNxNInfo","HcalInfoNxN");
56  labelJets = m_Anal.getUntrackedParameter<std::string>("LabelJetsInfo","HcalInfoJets");
57 
58  produces<PHcalValidInfoLayer>(labelLayer);
59  if (infolevel > 0) produces<PHcalValidInfoNxN>(labelNxN);
60  if (infolevel > 1) produces<PHcalValidInfoJets>(labelJets);
61 
62  edm::LogInfo("ValidHcal") << "HcalTestAnalysis:: Initialised as observer of "
63  << "begin/end events and of G4step with Parameter "
64  << "values: \n\tInfoLevel = " << infolevel
65  << "\n\thcalOnly = " << hcalOnly
66  << "\n\tapplySampling = " << applySampling
67  << "\n\tconeSize = " << coneSize
68  << "\n\tehitThreshold = " << ehitThreshold
69  << "\n\thhitThreshold = " << hhitThreshold
70  << "\n\tttimeLowlim = " << timeLowlim
71  << "\n\tttimeUplim = " << timeUplim
72  << "\n\teta0 = " << eta0
73  << "\n\tphi0 = " << phi0
74  << "\nLabels (Layer): " << labelLayer
75  << " (NxN): " << labelNxN << " (Jets): "
76  << labelJets;
77 
78  init();
79 }
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
HcalNumberingFromDDD * numberingFromDDD
std::vector< std::string > names
SimG4HcalHitJetFinder * jetf
HcalTestNumberingScheme * org
SimG4HcalValidation::~SimG4HcalValidation ( )
virtual

Definition at line 81 of file SimG4HcalValidation.cc.

References count, jetf, numberingFromDDD, and org.

81  {
82 
83  edm::LogInfo("ValidHcal") << "\n --------> Total number of selected entries"
84  << " : " << count << "\nPointers:: JettFinder "
85  << jetf << ", Numbering Scheme " << org
86  << " and FromDDD " << numberingFromDDD;
87  if (jetf) {
88  edm::LogInfo("ValidHcal") << "Delete Jetfinder";
89  delete jetf;
90  jetf = 0;
91  }
92  if (numberingFromDDD) {
93  edm::LogInfo("ValidHcal") << "Delete HcalNumberingFromDDD";
94  delete numberingFromDDD;
95  numberingFromDDD = 0;
96  }
97 }
HcalNumberingFromDDD * numberingFromDDD
SimG4HcalHitJetFinder * jetf
HcalTestNumberingScheme * org
SimG4HcalValidation::SimG4HcalValidation ( const SimG4HcalValidation )
private

Member Function Documentation

void SimG4HcalValidation::clear ( void  )
private

Definition at line 741 of file SimG4HcalValidation.cc.

References hitcache.

Referenced by update().

741  {
742  hitcache.erase( hitcache.begin(), hitcache.end());
743 }
std::vector< CaloHit > hitcache
void SimG4HcalValidation::collectEnergyRdir ( const double  eta0,
const double  phi0 
)
private

Definition at line 746 of file SimG4HcalValidation.cc.

References coneSize, alignCSCRings::e, een, eta(), HcalBarrel, hen, hitcache, hoen, jetf, phi, alignCSCRings::r, and SimG4HcalHitJetFinder::rDist().

Referenced by jetAnalysis(), and nxNAnalysis().

747  {
748 
749  std::vector<CaloHit> * hits = &hitcache;
750  std::vector<CaloHit>::iterator hit_itr;
751 
752  double sume = 0., sumh = 0., sumho = 0.;
753 
754  for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
755 
756  double e = hit_itr->e();
757  double eta = hit_itr->eta();
758  double phi = hit_itr->phi();
759 
760  int type = hit_itr->det();
761 
762  double r = jetf->rDist(eta0, phi0, eta, phi);
763  if (r < coneSize) {
764  if (type == 10 || type == 11 || type == 12) {
765  sume += e;
766  } else {
767  sumh += e;
768  if (type == static_cast<int>(HcalBarrel) &&
769  hit_itr->layer() > 17) sumho += e;
770  }
771  }
772  }
773 
774  een = sume;
775  hen = sumh;
776  hoen = sumho;
777 }
type
Definition: HCALResponse.h:21
std::vector< CaloHit > hitcache
T eta() const
SimG4HcalHitJetFinder * jetf
double rDist(const SimG4HcalHitCluster *, const CaloHit *) const
Definition: DDAxes.h:10
void SimG4HcalValidation::fetchHits ( PHcalValidInfoLayer product)
private

Definition at line 663 of file SimG4HcalValidation.cc.

References TauDecayModes::dec, eta(), PHcalValidInfoLayer::fillHits(), watchdog::group, hitcache, i, relval_steps::k2, LogDebug, phi, python.multivaluedict::sort(), edmStreamStallGrapher::t, HcalTestNumbering::unpackHcalIndex(), and ecaldqm::zside().

Referenced by layerAnalysis().

663  {
664 
665  LogDebug("ValidHcal") << "Enter SimG4HcalValidation::fetchHits with "
666  << hitcache.size() << " hits";
667  int nHit = hitcache.size();
668  int hit = 0;
669  int i;
670  std::vector<CaloHit>::iterator itr;
671  std::vector<CaloHit*> lhits(nHit);
672  for (i = 0, itr = hitcache.begin(); itr != hitcache.end(); i++, itr++) {
673  uint32_t unitID=itr->id();
674  int subdet, zside, group, ieta, iphi, lay;
675  HcalTestNumbering::unpackHcalIndex(unitID,subdet,zside,group,
676  ieta,iphi,lay);
677  subdet = itr->det();
678  lay = itr->layer();
679  group = (subdet&15)<<20;
680  group += ((lay-1)&31)<<15;
681  group += (zside&1)<<14;
682  group += (ieta&127)<<7;
683  group += (iphi&127);
684  itr->setId(group);
685  lhits[i] = &hitcache[i];
686  LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Original " << i
687  << " " << hitcache[i] << "\n"
688  << "SimG4HcalValidation::fetchHits:Copied " << i
689  << " " << *lhits[i];
690  }
691  sort(lhits.begin(),lhits.end(),CaloHitIdMore());
692  std::vector<CaloHit*>::iterator k1, k2;
693  for (i = 0, k1 = lhits.begin(); k1 != lhits.end(); i++, k1++)
694  LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Sorted " << i
695  << " " << **k1;
696  int nHits = 0;
697  for (i = 0, k1 = lhits.begin(); k1 != lhits.end(); i++, k1++) {
698  double ehit = (**k1).e();
699  double t = (**k1).t();
700  uint32_t unitID= (**k1).id();
701  int jump = 0;
702  LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Start " << i
703  << " U/T/E" << " 0x" << std::hex << unitID
704  << std::dec << " " << t << " " << ehit;
705  for (k2 = k1+1; k2 != lhits.end() && (t-(**k2).t()) < 1 &&
706  (t-(**k2).t()) > -1 && unitID == (**k2).id(); k2++) {
707  ehit += (**k2).e();
708  LogDebug("ValidHcal") << "\t + " << (**k2).e();
709  jump++;
710  }
711  LogDebug("ValidHcal") << "\t = " << ehit << " in " << jump;
712 
713  double eta = (*k1)->eta();
714  double phi = (*k1)->phi();
715  int lay = ((unitID>>15)&31) + 1;
716  int subdet = (unitID>>20)&15;
717  int zside = (unitID>>14)&1;
718  int ieta = (unitID>>7)&127;
719  int iphi = (unitID)&127;
720 
721  // All hits in cache
722  product.fillHits(nHits, lay, subdet, eta, phi, ehit, t);
723  nHits++;
724 
725  LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Hit " << nHits
726  << " " << i << " ID 0x" << std::hex << unitID
727  << " det " << std::dec << subdet << " " << lay
728  << " " << zside << " " << ieta << " " << iphi
729  << " Time " << t << " E " << ehit;
730 
731  i += jump;
732  k1 += jump;
733  }
734 
735  LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits called with "
736  << nHit << " hits" << " and writes out " << nHits
737  << '(' << hit << ") hits";
738 
739 }
#define LogDebug(id)
int i
Definition: DBlmapReader.cc:9
std::vector< CaloHit > hitcache
int zside(DetId const &)
T eta() const
void fillHits(int Nhits, int lay, int unitID, double eta, double phi, double ehit, double t)
static void unpackHcalIndex(const uint32_t &idx, int &det, int &z, int &depth, int &eta, int &phi, int &lay)
tuple group
Definition: watchdog.py:82
Definition: DDAxes.h:10
void SimG4HcalValidation::fill ( const EndOfEvent ev)
private

Definition at line 284 of file SimG4HcalValidation.cc.

References applySampling, TauDecayModes::dec, HLT_25ns14e33_v1_cff::depth, alignCSCRings::e, ehitThreshold, enEcal, enHcal, eta(), CaloG4Hit::getDepth(), CaloG4Hit::getEnergyDeposit(), getHcalScale(), CaloG4Hit::getPosition(), CaloG4Hit::getTimeSlice(), HcalTestNumberingScheme::getUnitID(), CaloG4Hit::getUnitID(), GeV, HcalEndcap, HcalForward, hcalOnly, hhitThreshold, hitcache, j, cmsBatch::log, LogDebug, names, numberingFromDDD, org, HcalTestNumberingScheme::packHcalIndex(), phi, AlCaHLTBitMon_QueryRunRegistry::string, funct::tan(), theta(), cond::rpcobgas::time, timeLowlim, HcalNumberingFromDDD::unitID(), HcalTestNumberingScheme::unpackHcalIndex(), vhitec, vhithc, and ecaldqm::zside().

Referenced by update().

284  {
285 
286  LogDebug("ValidHcal") << "SimG4HcalValidation:Fill event "
287  << (*evt)()->GetEventID();
288 
289  // access to the G4 hit collections
290  G4HCofThisEvent* allHC = (*evt)()->GetHCofThisEvent();
291 
292  int nhc = 0, j = 0;
293 
294  // Hcal
295  int HCHCid = G4SDManager::GetSDMpointer()->GetCollectionID(names[0]);
296  CaloG4HitCollection* theHCHC = (CaloG4HitCollection*) allHC->GetHC(HCHCid);
297  LogDebug("ValidHcal") << "SimG4HcalValidation :: Hit Collection for "
298  << names[0] << " of ID " << HCHCid <<" is obtained at "
299  << theHCHC;
300  if (HCHCid >= 0 && theHCHC > 0) {
301  for (j = 0; j < theHCHC->entries(); j++) {
302 
303  CaloG4Hit* aHit = (*theHCHC)[j];
304 
305  double e = aHit->getEnergyDeposit()/GeV;
306  double time = aHit->getTimeSlice();
307 
308  math::XYZPoint pos = aHit->getPosition();
309  double theta = pos.theta();
310  double eta = -log(tan(theta * 0.5));
311  double phi = pos.phi();
312 
313  uint32_t unitID = aHit->getUnitID();
314  int subdet, zside, layer, etaIndex, phiIndex, lay;
315  org->unpackHcalIndex(unitID,subdet,zside,layer,etaIndex,phiIndex,lay);
316 
317  // some logic to separate HO ...
318  layer--;
319  std::string det = "HB";
320  if (subdet == static_cast<int>(HcalForward)) {
321  det = "HF";
322  uint16_t depth = aHit->getDepth();
323  if (depth != 0) { layer += 2; lay += 2; }
324  if (layer == 1) vhithc += e;
325  else if (layer == 0) vhitec += e;
326  else
327  edm::LogInfo("ValidHcal") << "SimG4HcalValidation::HitPMT "
328  << subdet << " " << (2*zside-1)*etaIndex
329  << " " << phiIndex << " " << layer+1
330  << " R " << pos.rho() << " Phi " << phi/deg
331  << " Edep " << e << " Time " << time;
332  } else if (subdet == static_cast<int>(HcalEndcap)) {
333  if (etaIndex <= 20) {
334  det = "HES";
335  } else {
336  det = "HED";
337  }
338  }
339  LogDebug("ValidHcal") << "SimG4HcalValidation::debugFill Hcal "
340  << det << " layer " << std::setw(2) << layer
341  << " lay " << std::setw(2) << lay << " time "
342  << std::setw(6) << time << " theta "
343  << std::setw(8) << theta << " eta " << std::setw(8)
344  << eta << " phi " << std::setw(8) << phi << " e "
345  << std::setw(8) << e << " ID 0x" << std::hex
346  << unitID << " ID dec " << std::dec << (int)unitID;
347 
348  // if desired, apply sampling factors in HCAL !!!
349  if (applySampling) e *= getHcalScale(det,layer);
350 
351  // filter on time & energy
352  if (time >= timeLowlim && time <= timeUplim && e > hhitThreshold ) {
353  enHcal += e;
354  CaloHit ahit(subdet,lay,e,eta,phi,time,unitID);
355  hitcache.push_back(ahit); // fill cache
356  ++nhc;
357  }
358  }
359  }
360  LogDebug("ValidHcal") << "SimG4HcalValidation:: HCAL hits : " << nhc;
361 
362  if (!hcalOnly) { //-------------------------- ECAL hits --------------------
363  int ndets = names.size();
364  if (ndets > 3) ndets = 3;
365  for (int idty = 1; idty < ndets; idty++) {
366  std::string det = "EB";
367  if (idty == 2) det = "EE";
368  else if (idty > 2) det = "ES";
369 
370  int nec = 0;
371  int ECHCid = G4SDManager::GetSDMpointer()->GetCollectionID(names[idty]);
372  CaloG4HitCollection* theECHC =(CaloG4HitCollection*)allHC->GetHC(ECHCid);
373  LogDebug("ValidHcal") << "SimG4HcalValidation:: Hit Collection for "
374  << names[idty] << " of ID " << ECHCid
375  << " is obtained at " << theECHC;
376  if (ECHCid >= 0 && theECHC > 0) {
377  for (j = 0; j < theECHC->entries(); j++) {
378 
379  CaloG4Hit* aHit = (*theECHC)[j];
380 
381  double e = aHit->getEnergyDeposit()/GeV;
382  double time = aHit->getTimeSlice();
383 
384  math::XYZPoint pos = aHit->getPosition();
385  double theta = pos.theta();
386  double eta = -log(tan(theta/2.));
387  double phi = pos.phi();
389  uint32_t unitID = org->getUnitID(id);
390  int subdet, zside, layer, ieta, iphi, lay;
391  org->unpackHcalIndex(unitID,subdet,zside,layer,ieta,iphi,lay);
392  subdet = idty+9;
393  layer = 0;
394  unitID = org->packHcalIndex(subdet,zside,layer,ieta,iphi,lay);
395 
396  // filter on time & energy
397  if (time >= timeLowlim && time <= timeUplim && e > ehitThreshold ) {
398  enEcal += e;
399  CaloHit ahit(subdet,lay,e,eta,phi,time,unitID);
400  hitcache.push_back(ahit); // fill cache
401  ++nec;
402  }
403 
404  LogDebug("ValidHcal") << "SimG4HcalValidation::debugFill Ecal "
405  << det << " layer " << std::setw(2) << layer
406  << " lay " << std::setw(2) << lay << " time "
407  << std::setw(6) << time << " theta "
408  << std::setw(8) << theta << " eta "
409  << std::setw(8) << eta << " phi "
410  << std::setw(8) << phi << " e " << std::setw(8)
411  << e << " ID 0x" << std::hex << unitID
412  << " ID dec " << std::dec << (int)unitID;
413 
414  }
415  }
416 
417  LogDebug("ValidHcal") << "SimG4HcalValidation:: " << det << " hits : "
418  << nec;
419  }
420  } // end of if(!hcalOnly)
421 
422 }
#define LogDebug(id)
HcalNumberingFromDDD * numberingFromDDD
math::XYZPoint getPosition() const
Definition: CaloG4Hit.h:56
const double GeV
Definition: MathUtil.h:16
double getHcalScale(std::string, int) const
virtual uint32_t getUnitID(const HcalNumberingFromDDD::HcalID &id)
std::vector< std::string > names
std::vector< CaloHit > hitcache
Geom::Theta< T > theta() const
uint16_t getDepth() const
Definition: CaloG4Hit.h:72
int zside(DetId const &)
T eta() const
static uint32_t packHcalIndex(int det, int z, int depth, int eta, int phi, int lay)
Tan< T >::type tan(const T &t)
Definition: Tan.h:22
int j
Definition: DBlmapReader.cc:9
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
G4THitsCollection< CaloG4Hit > CaloG4HitCollection
static void unpackHcalIndex(const uint32_t &idx, int &det, int &z, int &depth, int &eta, int &phi, int &lay)
double getTimeSlice() const
Definition: CaloG4Hit.h:70
uint32_t getUnitID() const
Definition: CaloG4Hit.h:69
HcalID unitID(int det, const CLHEP::Hep3Vector &pos, int depth, int lay=-1) const
HcalTestNumberingScheme * org
double getEnergyDeposit() const
Definition: CaloG4Hit.h:81
tuple log
Definition: cmsBatch.py:347
Definition: DDAxes.h:10
double SimG4HcalValidation::getHcalScale ( std::string  det,
int  layer 
) const
private

Definition at line 780 of file SimG4HcalValidation.cc.

References scaleHB, scaleHE, scaleHF, and tmp.

Referenced by fill().

780  {
781 
782  double tmp = 0.;
783 
784  if (det == "HB") {
785  tmp = scaleHB[layer];
786  } else if (det == "HES" || det == "HED") {
787  tmp = scaleHE[layer];
788  } else if (det == "HF") {
789  tmp = scaleHF[layer];
790  }
791 
792  return tmp;
793 }
std::vector< float > scaleHF
std::vector< float > scaleHB
std::vector< float > scaleHE
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
void SimG4HcalValidation::init ( void  )
private

Definition at line 119 of file SimG4HcalValidation.cc.

References coneSize, count, dEta, dPhi, i, jetf, scaleHB, scaleHE, and scaleHF.

Referenced by SimG4HcalValidation().

119  {
120 
121  float sHB[4] = { 117., 117., 178., 217.};
122  float sHE[3] = { 178., 178., 178.};
123  float sHF[3] = { 2.84, 2.09, 0.}; //
124 
125  float deta[4] = { 0.0435, 0.1305, 0.2175, 0.3045 };
126  float dphi[4] = { 0.0436, 0.1309, 0.2182, 0.3054 };
127 
128  int i=0;
129  for (i = 0; i < 4; i++) {
130  scaleHB.push_back(sHB[i]);
131  }
132  for (i = 0; i < 3; i++) {
133  scaleHE.push_back(sHE[i]);
134  }
135  for (i = 0; i < 3; i++) {
136  scaleHF.push_back(sHF[i]);
137  }
138 
139  // window steps;
140  for(i = 0; i < 4; i++) {
141  dEta.push_back(deta[i]);
142  dPhi.push_back(dphi[i]);
143  }
144 
145  // jetfinder conse size setting
147 
148  // counter
149  count = 0;
150 
151 }
int i
Definition: DBlmapReader.cc:9
std::vector< float > scaleHF
std::vector< double > dEta
SimG4HcalHitJetFinder * jetf
std::vector< double > dPhi
std::vector< float > scaleHB
std::vector< float > scaleHE
void SimG4HcalValidation::jetAnalysis ( PHcalValidInfoJets product)
private

Definition at line 530 of file SimG4HcalValidation.cc.

References collectEnergyRdir(), funct::cos(), alignCSCRings::e, een, eta0, PHcalValidInfoJets::fillDiJets(), PHcalValidInfoJets::fillEcollectJet(), PHcalValidInfoJets::fillEtaPhiProfileJet(), PHcalValidInfoJets::fillJets(), PHcalValidInfoJets::fillTProfileJet(), SimG4HcalHitJetFinder::getClusters(), HcalBarrel, HcalEndcap, HcalForward, hcalOnly, hitcache, i, jetf, jetThreshold, LogDebug, phi0, alignCSCRings::r, SimG4HcalHitJetFinder::rDist(), query::result, SimG4HcalHitJetFinder::setInput(), funct::sin(), python.multivaluedict::sort(), mathSSE::sqrt(), and edmStreamStallGrapher::t.

Referenced by produce().

530  {
531 
532  std::vector<CaloHit> * hhit = &hitcache;
533 
534  jetf->setInput(hhit);
535 
536  // zeroing cluster list, perfom clustering, fill cluster list & return pntr
537  std::vector<SimG4HcalHitCluster> * result = jetf->getClusters(hcalOnly);
538 
539  std::vector<SimG4HcalHitCluster>::iterator clus_itr;
540 
541  LogDebug("ValidHcal") << "\n ---------- Final list of " << (*result).size()
542  << " clusters ---------------";
543  for (clus_itr = result->begin(); clus_itr < result->end(); clus_itr++)
544  LogDebug("ValidHcal") << (*clus_itr);
545 
546  std::vector<double> enevec, etavec, phivec;
547 
548  if ((*result).size() > 0) {
549 
550  sort((*result).begin(),(*result).end());
551 
552  clus_itr = result->begin(); // first cluster only
553  double etac = clus_itr->eta();
554  double phic = clus_itr->phi();
555 
556  double ecal_collect = 0.; // collect Ecal energy in the cone
557  if (!hcalOnly) {
558  ecal_collect = clus_itr->collectEcalEnergyR();}
559  else {
560  collectEnergyRdir(etac, phic);
561  ecal_collect = een;
562  }
563  LogDebug("ValidHcal") << " JetAnalysis ===> ecal_collect = "
564  << ecal_collect;
565 
566  // eta-phi deviation of the cluster from nominal (eta0, phi0) values
567  double dist = jetf->rDist(eta0, phi0, etac, phic);
568  LogDebug("ValidHcal") << " JetAnalysis ===> eta phi deviation = " << dist;
569  product.fillEtaPhiProfileJet(eta0, phi0, etac, phic, dist);
570 
571  LogDebug("ValidHcal") << " JetAnalysis ===> after fillEtaPhiProfileJet";
572 
573  std::vector<CaloHit> * hits = clus_itr->getHits() ;
574  std::vector<CaloHit>::iterator hit_itr;
575 
576  double ee = 0., he = 0., hoe = 0., etot = 0.;
577 
578  // cycle over all hits in the FIRST cluster
579  for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
580  double e = hit_itr->e();
581  double t = hit_itr->t();
582  double r = jetf->rDist(&(*clus_itr), &(*hit_itr));
583 
584  // energy collection
585  etot += e;
586  if (hit_itr->det() == 10 || hit_itr->det() == 11 ||
587  hit_itr->det() == 12) ee += e;
588  if (hit_itr->det() == static_cast<int>(HcalBarrel) ||
589  hit_itr->det() == static_cast<int>(HcalEndcap) ||
590  hit_itr->det() == static_cast<int>(HcalForward)) {
591  he += e;
592  if (hit_itr->det() == static_cast<int>(HcalBarrel) &&
593  hit_itr->layer() > 17)
594  hoe += e;
595  }
596 
597  if (hit_itr->det() == static_cast<int>(HcalBarrel) ||
598  hit_itr->det() == static_cast<int>(HcalEndcap) ||
599  hit_itr->det() == static_cast<int>(HcalForward)) {
600  product.fillTProfileJet(he, r, t);
601  }
602  }
603 
604  product.fillEcollectJet(ee, he, hoe, etot);
605 
606  LogDebug("ValidHcal") << " JetAnalysis ===> after fillEcollectJet: "
607  << "ee/he/hoe/etot " << ee << "/" << he << "/"
608  << hoe << "/" << etot;
609 
610  // Loop over clusters
611  for (clus_itr = result->begin(); clus_itr < result->end(); clus_itr++) {
612  if (clus_itr->e() > jetThreshold) {
613  enevec.push_back(clus_itr->e());
614  etavec.push_back(clus_itr->eta());
615  phivec.push_back(clus_itr->phi());
616  }
617  }
618  product.fillJets(enevec, etavec, phivec);
619 
620  LogDebug("ValidHcal") << " JetAnalysis ===> after fillJets\n"
621  << " JetAnalysis ===> (*result).size() "
622  << (*result).size();
623 
624  // Di-jet mass
625  if (etavec.size() > 1) {
626  if (etavec[0] > -2.5 && etavec[0] < 2.5 &&
627  etavec[1] > -2.5 && etavec[1] < 2.5) {
628 
629  LogDebug("ValidHcal") << " JetAnalysis ===> Di-jet mass enter\n"
630  << " JetAnalysis ===> Di-jet vectors ";
631  for (unsigned int i = 0; i < enevec.size(); i++)
632  LogDebug("ValidHcal") << " e, eta, phi = " << enevec[i] << " "
633  << etavec[i] << " " << phivec[i];
634 
635  double et0 = enevec[0] / cosh(etavec[0]);
636  double px0 = et0 * cos(phivec[0]);
637  double py0 = et0 * sin(phivec[0]);
638  double pz0 = et0 * sinh(etavec[0]);
639  double et1 = enevec[1] / cosh(etavec[1]);
640  double px1 = et1 * cos(phivec[1]);
641  double py1 = et1 * sin(phivec[1]);
642  double pz1 = et1 * sinh(etavec[1]);
643 
644  double dijetmass2 = (enevec[0]+enevec[1])*(enevec[0]+enevec[1])
645  - (px1+px0)*(px1+px0) - (py1+py0)*(py1+py0) - (pz1+pz0)*(pz1+pz0);
646 
647  LogDebug("ValidHcal") << " JetAnalysis ===> Di-jet massSQ "
648  << dijetmass2;
649 
650  double dijetmass;
651  if(dijetmass2 >= 0.) dijetmass = sqrt(dijetmass2);
652  else dijetmass = -sqrt(-1. * dijetmass2);
653 
654  product.fillDiJets(dijetmass);
655 
656  LogDebug("ValidHcal") << " JetAnalysis ===> after fillDiJets";
657  }
658  }
659  }
660 }
#define LogDebug(id)
void fillJets(const std::vector< double > &enj, const std::vector< double > &etaj, const std::vector< double > &phij)
int i
Definition: DBlmapReader.cc:9
void fillTProfileJet(double e, double r, double t)
void fillEcollectJet(double ee, double he, double hoe, double etot)
void collectEnergyRdir(const double, const double)
void fillEtaPhiProfileJet(double eta0, double phi0, double eta, double phi, double dist)
std::vector< CaloHit > hitcache
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
void fillDiJets(double mass)
void setInput(std::vector< CaloHit > *)
SimG4HcalHitJetFinder * jetf
T sqrt(T t)
Definition: SSEVec.h:48
tuple result
Definition: query.py:137
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
std::vector< SimG4HcalHitCluster > * getClusters(bool)
double rDist(const SimG4HcalHitCluster *, const CaloHit *) const
void SimG4HcalValidation::layerAnalysis ( PHcalValidInfoLayer product)
private

Definition at line 424 of file SimG4HcalValidation.cc.

References edepd, edepEB, edepEE, edepHB, edepHE, edepHO, edepl, enEcal, enHcal, fetchHits(), PHcalValidInfoLayer::fillHF(), PHcalValidInfoLayer::fillLayers(), i, LogDebug, MeV, vhitec, and vhithc.

Referenced by produce().

424  {
425 
426  int i = 0;
427  LogDebug("ValidHcal") << "\n ===>>> SimG4HcalValidation: Energy deposit "
428  << "in MeV\n at EB : " << std::setw(6) << edepEB/MeV
429  << "\n at EE : " << std::setw(6) << edepEE/MeV
430  << "\n at HB : " << std::setw(6) << edepHB/MeV
431  << "\n at HE : " << std::setw(6) << edepHE/MeV
432  << "\n at HO : " << std::setw(6) << edepHO/MeV
433  << "\n ---- SimG4HcalValidation: Energy deposit in";
434  for (i = 0; i < 5; i++)
435  LogDebug("ValidHcal") << " Depth " << std::setw(2) << i << " E "
436  << std::setw(8) << edepd[i]/MeV << " MeV";
437  LogDebug("ValidHcal") << " ---- SimG4HcalValidation: Energy deposit in"
438  << "layers";
439  for (i = 0; i < 20; i++)
440  LogDebug("ValidHcal") << " Layer " << std::setw(2) << i << " E "
441  << std::setw(8) << edepl[i]/MeV << " MeV";
442 
444 
445  // Hits in HF
446  product.fillHF(vhitec, vhithc, enEcal, enHcal);
447  LogDebug("ValidHcal") << "SimG4HcalValidation::HF hits " << vhitec
448  << " in EC and " << vhithc << " in HC\n"
449  << " HB/HE " << enEcal
450  << " in EC and " << enHcal << " in HC";
451 
452  // Another HCAL hist to porcess and store separately (a bit more complicated)
453  fetchHits(product);
454 
455  LogDebug("ValidHcal") << " layerAnalysis ===> after fetchHits";
456 
457 }
#define LogDebug(id)
int i
Definition: DBlmapReader.cc:9
void fillLayers(double el[], double ed[], double ho, double hbhe, double ebee)
const double MeV
void fetchHits(PHcalValidInfoLayer &)
void fillHF(double fibl, double fibs, double enec, double enhc)
void SimG4HcalValidation::nxNAnalysis ( PHcalValidInfoNxN product)
private

Definition at line 460 of file SimG4HcalValidation.cc.

References collectEnergyRdir(), dEta, dPhi, alignCSCRings::e, een, eta(), eta0, PHcalValidInfoNxN::fillEcollectNxN(), PHcalValidInfoNxN::fillHvsE(), PHcalValidInfoNxN::fillTProfileNxN(), HcalBarrel, HcalEndcap, HcalForward, hen, hitcache, hoen, i, LogDebug, bookConverter::max, phi, phi0, and edmStreamStallGrapher::t.

Referenced by produce().

460  {
461 
462  std::vector<CaloHit> * hits = &hitcache;
463  std::vector<CaloHit>::iterator hit_itr;
464 
465  LogDebug("ValidHcal") << "SimG4HcalValidation::NxNAnalysis : entrance ";
466 
467  collectEnergyRdir(eta0,phi0); // HCAL and ECAL energy in SimHitCache
468  // around (eta0,phi0)
469 
470  LogDebug("ValidHcal") << " NxNAnalysis : coolectEnergyRdir - Ecal " << een
471  << " Hcal " << hen;
472 
473  double etot = 0.; // total e deposited in "cluster"
474  double ee = 0.; // ECAL e deposited in "cluster"
475  double he = 0.; // HCAL e deposited in "cluster"
476  double hoe = 0.; // HO e deposited in "cluster"
477 
478  int max = dEta.size(); // 4
479 
480  for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
481 
482  double e = hit_itr->e();
483  double t = hit_itr->t();
484  double eta = hit_itr->eta();
485  double phi = hit_itr->phi();
486  int type = hit_itr->det();
487  int layer = hit_itr->layer();
488 
489  // NxN calulation
490 
491  if (fabs(eta0-eta) <= dEta[max-1] && fabs(phi0-phi) <= dPhi[max-1]) {
492  etot += e;
493  if (type == 10 || type == 11 || type == 12) ee += e;
494  if (type == static_cast<int>(HcalBarrel) ||
495  type == static_cast<int>(HcalEndcap) ||
496  type == static_cast<int>(HcalForward)) {
497  he += e;
498  if (type == static_cast<int>(HcalBarrel) && layer > 17) hoe += e;
499 
500  // which concrete i-th square ?
501  for (int i = 0; i < max; i++ ) {
502  if ((eta0-eta) <= dEta[i] && (eta0-eta) >= -dEta[i] &&
503  (phi0-phi) <= dPhi[i] && (phi0-phi) >= -dPhi[i]) {
504 
505  LogDebug("ValidHcal") << "SimG4HcalValidation:: nxNAnalysis eta0,"
506  << " phi0 = " << eta0 << " " << phi0
507  << " type, layer = " << type << ","
508  << layer << " eta, phi = " << eta << " "
509  << phi;
510 
511  product.fillTProfileNxN(e, i, t);
512  break;
513  }
514  }
515  // here comes break ...
516  }
517  }
518  }
519 
520  product.fillEcollectNxN(ee, he, hoe, etot);
521  product.fillHvsE(een, hen, hoen, een+hen);
522 
523  LogDebug("ValidHcal") << " nxNAnalysis ===> after fillHvsE";
524 
525 
526 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
int i
Definition: DBlmapReader.cc:9
void fillHvsE(double ee, double he, double hoe, double etot)
void collectEnergyRdir(const double, const double)
std::vector< CaloHit > hitcache
std::vector< double > dEta
T eta() const
std::vector< double > dPhi
void fillEcollectNxN(double een, double hen, double hoen, double etotn)
void fillTProfileNxN(double e, int i, double t)
Definition: DDAxes.h:10
const SimG4HcalValidation& SimG4HcalValidation::operator= ( const SimG4HcalValidation )
private
void SimG4HcalValidation::produce ( edm::Event e,
const edm::EventSetup  
)
virtual

Implements SimProducer.

Definition at line 99 of file SimG4HcalValidation.cc.

References infolevel, jetAnalysis(), labelJets, labelLayer, labelNxN, layerAnalysis(), nxNAnalysis(), and edm::Event::put().

99  {
100 
101  std::auto_ptr<PHcalValidInfoLayer> productLayer(new PHcalValidInfoLayer);
102  layerAnalysis(*productLayer);
103  e.put(productLayer,labelLayer);
104 
105  if (infolevel > 0) {
106  std::auto_ptr<PHcalValidInfoNxN> productNxN(new PHcalValidInfoNxN);
107  nxNAnalysis(*productNxN);
108  e.put(productNxN,labelNxN);
109  }
110 
111  if (infolevel > 1) {
112  std::auto_ptr<PHcalValidInfoJets> productJets(new PHcalValidInfoJets);
113  jetAnalysis(*productJets);
114  e.put(productJets,labelJets);
115  }
116 }
void jetAnalysis(PHcalValidInfoJets &)
void nxNAnalysis(PHcalValidInfoNxN &)
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Event.h:113
void layerAnalysis(PHcalValidInfoLayer &)
void SimG4HcalValidation::update ( const BeginOfJob )
privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const BeginOfJob * >.

Definition at line 153 of file SimG4HcalValidation.cc.

References names, numberingFromDDD, and org.

Referenced by relval_steps.Matrix::__setitem__(), relval_steps.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), relval_steps.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

153  {
154 
155  // Numbering From DDD
157  (*job)()->get<IdealGeometryRecord>().get(pDD);
158  edm::LogInfo("ValidHcal") << "HcalTestAnalysis:: Initialise "
159  << "HcalNumberingFromDDD for " << names[0];
160  numberingFromDDD = new HcalNumberingFromDDD(names[0], (*pDD));
161 
162  // Numbering scheme
163  org = new HcalTestNumberingScheme(false);
164 
165 }
HcalNumberingFromDDD * numberingFromDDD
std::vector< std::string > names
HcalTestNumberingScheme * org
void SimG4HcalValidation::update ( const BeginOfRun )
privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const BeginOfRun * >.

Definition at line 167 of file SimG4HcalValidation.cc.

References names, org, sd, HCalSD::setNumberingScheme(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by relval_steps.Matrix::__setitem__(), relval_steps.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), relval_steps.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

167  {
168 
169  int irun = (*run)()->GetRunID();
170 
171  edm::LogInfo("ValidHcal") <<" =====> Begin of Run = " << irun;
172 
173  std::string sdname = names[0];
174  G4SDManager* sd = G4SDManager::GetSDMpointerIfExist();
175  if (sd != 0) {
176  G4VSensitiveDetector* aSD = sd->FindSensitiveDetector(sdname);
177  if (aSD==0) {
178  edm::LogWarning("ValidHcal") << "SimG4HcalValidation::beginOfRun: No SD"
179  << " with name " << sdname << " in this "
180  << "Setup";
181  } else {
182  HCalSD* theCaloSD = dynamic_cast<HCalSD*>(aSD);
183  edm::LogInfo("ValidHcal") << "SimG4HcalValidation::beginOfRun: Finds SD"
184  << "with name " << theCaloSD->GetName()
185  << " in this Setup";
186  if (org) {
187  theCaloSD->setNumberingScheme(org);
188  edm::LogInfo("ValidHcal") << "SimG4HcalValidation::beginOfRun: set a "
189  << "new numbering scheme";
190  }
191  }
192  } else {
193  edm::LogWarning("ValidHcal") << "SimG4HcalValidation::beginOfRun: Could "
194  << "not get SD Manager!";
195  }
196 
197 }
std::vector< std::string > names
void setNumberingScheme(HcalNumberingScheme *)
Definition: HCalSD.cc:602
Definition: HCalSD.h:33
double sd
HcalTestNumberingScheme * org
void SimG4HcalValidation::update ( const BeginOfEvent )
privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const BeginOfEvent * >.

Definition at line 200 of file SimG4HcalValidation.cc.

References clear(), edepd, edepEB, edepEE, edepHB, edepHE, edepHO, edepl, enEcal, enHcal, i, LogDebug, vhitec, and vhithc.

Referenced by relval_steps.Matrix::__setitem__(), relval_steps.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), relval_steps.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

200  {
201 
202  int i = 0;
203  edepEB = edepEE = edepHB = edepHE = edepHO = 0.;
204  for (i = 0; i < 5; i++) edepd[i] = 0.;
205  for (i = 0; i < 20; i++) edepl[i] = 0.;
206  vhitec = vhithc = enEcal = enHcal = 0;
207  // Cache reset
208  clear();
209 
210  int iev = (*evt)()->GetEventID();
211  LogDebug("ValidHcal") << "SimG4HcalValidation: =====> Begin of event = "
212  << iev;
213 }
#define LogDebug(id)
int i
Definition: DBlmapReader.cc:9
void SimG4HcalValidation::update ( const G4Step *  )
privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const G4Step * >.

Definition at line 216 of file SimG4HcalValidation.cc.

References HLT_25ns14e33_v1_cff::depth, edepd, edepEB, edepEE, edepHB, edepHE, edepHO, edepl, LogDebug, MeV, mergeVDriftHistosByStation::name, and NULL.

Referenced by relval_steps.Matrix::__setitem__(), relval_steps.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), relval_steps.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

216  {
217 
218  if (aStep != NULL) {
219  G4VPhysicalVolume* curPV = aStep->GetPreStepPoint()->GetPhysicalVolume();
220  G4String name = curPV->GetName();
221  name.assign(name,0,3);
222  double edeposit = aStep->GetTotalEnergyDeposit();
223  int layer=-1, depth=-1;
224  if (name == "EBR") {
225  depth = 0;
226  edepEB += edeposit;
227  } else if (name == "EFR") {
228  depth = 0;
229  edepEE += edeposit;
230  } else if (name == "HBS") {
231  layer = (curPV->GetCopyNo()/10)%100;
232  depth = (curPV->GetCopyNo())%10 + 1;
233  if (depth > 0 && depth < 4 && layer >= 0 && layer < 17) {
234  edepHB += edeposit;
235  } else {
236  edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error "
237  << curPV->GetName() << curPV->GetCopyNo();
238  depth = -1; layer = -1;
239  }
240  } else if (name == "HES") {
241  layer = (curPV->GetCopyNo()/10)%100;
242  depth = (curPV->GetCopyNo())%10 + 1;
243  if (depth > 0 && depth < 3 && layer >= 0 && layer < 19) {
244  edepHE += edeposit;
245  } else {
246  edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error "
247  << curPV->GetName() << curPV->GetCopyNo();
248  depth = -1; layer = -1;
249  }
250  } else if (name == "HTS") {
251  layer = (curPV->GetCopyNo()/10)%100;
252  depth = (curPV->GetCopyNo())%10 + 1;
253  if (depth > 3 && depth < 5 && layer >= 17 && layer < 20) {
254  edepHO += edeposit;
255  } else {
256  edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error "
257  << curPV->GetName() <<curPV->GetCopyNo();
258  depth = -1; layer = -1;
259  }
260  }
261  if (depth >= 0 && depth < 5) edepd[depth] += edeposit;
262  if (layer >= 0 && layer < 20) edepl[layer] += edeposit;
263 
264  if (layer >= 0 && layer < 20) {
265  LogDebug("ValidHcal") << "SimG4HcalValidation:: G4Step: " << name
266  << " Layer " << std::setw(3) << layer << " Depth "
267  << std::setw(2) << depth << " Edep " <<std::setw(6)
268  << edeposit/MeV << " MeV";
269  }
270  }
271 }
#define LogDebug(id)
#define NULL
Definition: scimark2.h:8
const double MeV
void SimG4HcalValidation::update ( const EndOfEvent )
privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const EndOfEvent * >.

Definition at line 274 of file SimG4HcalValidation.cc.

References count, fill(), and LogDebug.

Referenced by relval_steps.Matrix::__setitem__(), relval_steps.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), relval_steps.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

274  {
275 
276  count++;
277 
278  // Fill hits cache for jetfinding etc.
279  fill(evt);
280  LogDebug("ValidHcal") << "SimG4HcalValidation:: --- after Fill ";
281 }
#define LogDebug(id)
void fill(const EndOfEvent *ev)

Member Data Documentation

bool SimG4HcalValidation::applySampling
private

Definition at line 93 of file SimG4HcalValidation.h.

Referenced by fill(), and SimG4HcalValidation().

double SimG4HcalValidation::coneSize
private

Definition at line 91 of file SimG4HcalValidation.h.

Referenced by collectEnergyRdir(), init(), and SimG4HcalValidation().

unsigned int SimG4HcalValidation::count
private

Definition at line 102 of file SimG4HcalValidation.h.

Referenced by init(), update(), and ~SimG4HcalValidation().

std::vector<double> SimG4HcalValidation::dEta
private

Definition at line 98 of file SimG4HcalValidation.h.

Referenced by init(), and nxNAnalysis().

std::vector<double> SimG4HcalValidation::dPhi
private

Definition at line 99 of file SimG4HcalValidation.h.

Referenced by init(), and nxNAnalysis().

double SimG4HcalValidation::edepd[5]
private

Definition at line 104 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepEB
private

Definition at line 103 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepEE
private

Definition at line 103 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepHB
private

Definition at line 103 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepHE
private

Definition at line 103 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepHO
private

Definition at line 103 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::edepl[20]
private

Definition at line 104 of file SimG4HcalValidation.h.

Referenced by layerAnalysis(), and update().

double SimG4HcalValidation::een
private

Definition at line 105 of file SimG4HcalValidation.h.

Referenced by collectEnergyRdir(), jetAnalysis(), and nxNAnalysis().

double SimG4HcalValidation::ehitThreshold
private

Definition at line 91 of file SimG4HcalValidation.h.

Referenced by fill(), and SimG4HcalValidation().

double SimG4HcalValidation::enEcal
private

Definition at line 106 of file SimG4HcalValidation.h.

Referenced by fill(), layerAnalysis(), and update().

double SimG4HcalValidation::enHcal
private

Definition at line 106 of file SimG4HcalValidation.h.

Referenced by fill(), layerAnalysis(), and update().

float SimG4HcalValidation::eta0
private

Definition at line 92 of file SimG4HcalValidation.h.

Referenced by jetAnalysis(), nxNAnalysis(), and SimG4HcalValidation().

bool SimG4HcalValidation::hcalOnly
private

Definition at line 93 of file SimG4HcalValidation.h.

Referenced by fill(), jetAnalysis(), and SimG4HcalValidation().

double SimG4HcalValidation::hen
private

Definition at line 105 of file SimG4HcalValidation.h.

Referenced by collectEnergyRdir(), and nxNAnalysis().

double SimG4HcalValidation::hhitThreshold
private

Definition at line 91 of file SimG4HcalValidation.h.

Referenced by fill(), and SimG4HcalValidation().

std::vector<CaloHit> SimG4HcalValidation::hitcache
private
double SimG4HcalValidation::hoen
private

Definition at line 105 of file SimG4HcalValidation.h.

Referenced by collectEnergyRdir(), and nxNAnalysis().

int SimG4HcalValidation::infolevel
private

Definition at line 94 of file SimG4HcalValidation.h.

Referenced by produce(), and SimG4HcalValidation().

SimG4HcalHitJetFinder* SimG4HcalValidation::jetf
private

Definition at line 73 of file SimG4HcalValidation.h.

Referenced by collectEnergyRdir(), init(), jetAnalysis(), and ~SimG4HcalValidation().

float SimG4HcalValidation::jetThreshold
private

Definition at line 92 of file SimG4HcalValidation.h.

Referenced by jetAnalysis(), and SimG4HcalValidation().

std::string SimG4HcalValidation::labelJets
private

Definition at line 95 of file SimG4HcalValidation.h.

Referenced by produce(), and SimG4HcalValidation().

std::string SimG4HcalValidation::labelLayer
private

Definition at line 95 of file SimG4HcalValidation.h.

Referenced by produce(), and SimG4HcalValidation().

std::string SimG4HcalValidation::labelNxN
private

Definition at line 95 of file SimG4HcalValidation.h.

Referenced by produce(), and SimG4HcalValidation().

std::vector<std::string> SimG4HcalValidation::names
private

Definition at line 90 of file SimG4HcalValidation.h.

Referenced by fill(), SimG4HcalValidation(), and update().

HcalNumberingFromDDD* SimG4HcalValidation::numberingFromDDD
private

Definition at line 76 of file SimG4HcalValidation.h.

Referenced by fill(), update(), and ~SimG4HcalValidation().

HcalTestNumberingScheme* SimG4HcalValidation::org
private

Definition at line 79 of file SimG4HcalValidation.h.

Referenced by fill(), update(), and ~SimG4HcalValidation().

float SimG4HcalValidation::phi0
private

Definition at line 92 of file SimG4HcalValidation.h.

Referenced by jetAnalysis(), nxNAnalysis(), and SimG4HcalValidation().

std::vector<float> SimG4HcalValidation::scaleHB
private

Definition at line 85 of file SimG4HcalValidation.h.

Referenced by getHcalScale(), and init().

std::vector<float> SimG4HcalValidation::scaleHE
private

Definition at line 86 of file SimG4HcalValidation.h.

Referenced by getHcalScale(), and init().

std::vector<float> SimG4HcalValidation::scaleHF
private

Definition at line 87 of file SimG4HcalValidation.h.

Referenced by getHcalScale(), and init().

float SimG4HcalValidation::timeLowlim
private

Definition at line 92 of file SimG4HcalValidation.h.

Referenced by fill(), and SimG4HcalValidation().

float SimG4HcalValidation::timeUplim
private

Definition at line 92 of file SimG4HcalValidation.h.

Referenced by SimG4HcalValidation().

double SimG4HcalValidation::vhitec
private

Definition at line 106 of file SimG4HcalValidation.h.

Referenced by fill(), layerAnalysis(), and update().

double SimG4HcalValidation::vhithc
private

Definition at line 106 of file SimG4HcalValidation.h.

Referenced by fill(), layerAnalysis(), and update().