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HcalHFStatusBitFromRecHits.cc
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4 
5 #include <algorithm> // for "max"
6 #include <cmath>
7 #include <iostream>
8 
10 {
11  // use simple values in default constructor
14  long_thresholdET_ = 0.5; // default energy requirement
15  short_thresholdET_ = 0.5;
18 }
19 
20 HcalHFStatusBitFromRecHits::HcalHFStatusBitFromRecHits(double shortR, double shortET, double shortE,
21  double longR, double longET, double longE)
22 {
23  long_HFlongshortratio_ = longR;
24  short_HFlongshortratio_ = shortR;
25  long_thresholdET_ = longET;
26  short_thresholdET_ = shortET;
27  long_thresholdEnergy_ = longE;
28  short_thresholdEnergy_ = shortE;
29 }
30 
32 
34  HcalChannelQuality* myqual,
35  const HcalSeverityLevelComputer* mySeverity)
36 {
37  // Compares energies from long & short fibers
38  int status;
39  float en, en2;
40  int ieta, iphi, depth;
41  float ratio; // ratio of (L-S)/(L+S) energy magnitudes
42  double coshEta;
43 
44  // Is there a faster way to do this than a double loop?
45  for (HFRecHitCollection::iterator iHF=rec.begin(); iHF!=rec.end();++iHF)
46  {
47  // skip cells that have already been tagged -- shouldn't happen in current algorithm
48  //if (iHF->flagField(HcalCaloFlagLabels::HFLongShort, HcalCaloFlagLabels::HFLongShort+1)) continue;
49 
50  ieta =iHF->id().ieta(); // int between 29-41
51  // eta = average value between cell eta bounds
52  coshEta=fabs(cosh(0.5*(theHFEtaBounds[abs(ieta)-29]+theHFEtaBounds[abs(ieta)-28])));
53 
54  status=0; // status bit for rechit
55 
56  en2=-999; // dummy starting value for partner energy
57  depth=iHF->id().depth();
58  en=iHF->energy(); // energy of current rechit
59 
60  if (depth==1) // check long fiber
61  {
62  if (en<1.2) continue; // never flag long rechits < 1.2 GeV
63  if (long_thresholdEnergy_>0. && en<long_thresholdEnergy_) continue;
64  if (long_thresholdET_>0. && en<long_thresholdET_*coshEta) continue;
65  }
66 
67  else if (depth==2) // check short fiber
68  {
69  if (en<1.8) continue; // never flag short rechits < 1.8 GeV
70  if (short_thresholdEnergy_>0. && en<short_thresholdEnergy_) continue;
71  if (short_thresholdET_>0. && en<short_thresholdET_*coshEta) continue;
72  }
73 
74  iphi =iHF->id().iphi();
75 
76  // Check for cells whose partners have been excluded from the rechit collections
77  // Such cells will not get flagged (since we can't make an L vs. S comparison)
78 
79  HcalDetId partner(HcalForward, ieta, iphi, 3-depth); // if depth=1, 3-depth =2, and vice versa
80  DetId detpartner=DetId(partner);
81  const HcalChannelStatus* partnerstatus=myqual->getValues(detpartner.rawId());
82  if (mySeverity->dropChannel(partnerstatus->getValue() ) ) continue; // partner was dropped; don't set flag
83 
84  // inner loop will find 'partner' channel (same ieta, iphi, different depth)
85  for (HFRecHitCollection::iterator iHF2=rec.begin(); iHF2!=rec.end();++iHF2)
86  {
87  if (iHF2->id().ieta()!=ieta) continue; // require ieta match
88  if (iHF2->id().iphi()!=iphi) continue; // require iphi match
89  if (iHF2->id().depth()==depth) continue; // require short/long combo
90 
91  en2=iHF2->energy();
92 
93  /*
94  We used to use absolute values of energies for ratios, but I don't think we want to do this any more.
95  For example, for a threshold of 0.995, if en=50 and en2=0, the flag would be set.
96  But if en=50 and en2<-0.125, the threshold would not be set if using the absolute values.
97  I don't think we want to have a range of en2 below which the flag is not set.
98  This does mean that we need to be careful not to set the en energy threshold too low,
99  so as to not falsely flag fluctuations (en=2, en2=-0.01, for example), but we should never be setting our
100  thresholds that low.
101  */
102 
103  ratio = (en - en2)/(en + en2);
104 
105  if (depth==1 && ratio>long_HFlongshortratio_)
106  status=1;
107  else if (depth==2 && ratio>short_HFlongshortratio_)
108  status=1;
109  break; // once partner channel found, break out of loop
110  } // inner loop
111 
112  // Consider the case where only one depth present
113  if (en2==-999) // outer rechit has already passed energy, ET thresholds above; no partner cell means this looks like isolated energy in one channel -- flag it!
114  status=1;
115 
116  // flag rechit as potential PMT window hit
117  if (status==1)
118  iHF->setFlagField(status,HcalCaloFlagLabels::HFLongShort, 1);
119  } // outer loop
120  return;
121 } // void HcalHFStatusBitFromRecHits::hfSetFlagFromRecHits(...)
#define abs(x)
Definition: mlp_lapack.h:159
const Item * getValues(DetId fId, bool throwOnFail=true) const
uint32_t rawId() const
get the raw id
Definition: DetId.h:45
bool dropChannel(const uint32_t &mystatus) const
std::vector< T >::iterator iterator
const_iterator end() const
Definition: DetId.h:20
static const double theHFEtaBounds[]
void hfSetFlagFromRecHits(HFRecHitCollection &rec, HcalChannelQuality *myqual, const HcalSeverityLevelComputer *mySeverity)
tuple status
Definition: ntuplemaker.py:245
uint32_t getValue() const
const_iterator begin() const