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TBPositionCalc.cc
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2 
3 using namespace std;
4 
5 TBPositionCalc::TBPositionCalc(const std::map<std::string, double> &providedParameters,
6  std::string const &fullMapName,
7  const CaloSubdetectorGeometry *passedGeometry) {
8  // barrel geometry initialization
9  if (passedGeometry == nullptr)
10  throw(std::runtime_error("\n\n TBPositionCalc: wrong initialization.\n\n"));
11  theGeometry_ = passedGeometry;
12 
13  // parameters initialization
14  param_LogWeighted_ = providedParameters.find("LogWeighted")->second;
15  param_X0_ = providedParameters.find("X0")->second;
16  param_T0_ = providedParameters.find("T0")->second;
17  param_W0_ = providedParameters.find("W0")->second;
18 
19  theTestMap = new EcalTBCrystalMap(fullMapName);
20 }
21 
23  if (theTestMap)
24  delete theTestMap;
25 }
26 
27 CLHEP::Hep3Vector TBPositionCalc::CalculateTBPos(const std::vector<EBDetId> &upassedDetIds,
28  int myCrystal,
29  EcalRecHitCollection const *passedRecHitsMap) {
30  std::vector<EBDetId> passedDetIds = upassedDetIds;
31  // throw an error if the cluster was not initialized properly
32  if (passedRecHitsMap == nullptr)
33  throw(std::runtime_error("\n\n TBPositionCalc::CalculateTBPos called uninitialized.\n\n"));
34 
35  // check DetIds are nonzero
36  std::vector<EBDetId> validDetIds;
37  std::vector<EBDetId>::const_iterator iter;
38  for (iter = passedDetIds.begin(); iter != passedDetIds.end(); iter++) {
39  if (((*iter) != DetId(0)) && (passedRecHitsMap->find(*iter) != passedRecHitsMap->end()))
40  validDetIds.push_back(*iter);
41  }
42  passedDetIds.clear();
43  passedDetIds = validDetIds;
44 
45  // computing the position in the cms frame
46  CLHEP::Hep3Vector cmsPos = CalculateCMSPos(passedDetIds, myCrystal, passedRecHitsMap);
47 
48  // computing the rotation matrix (from CMS to TB)
49  CLHEP::HepRotation *CMStoTB = new CLHEP::HepRotation();
50  computeRotation(myCrystal, (*CMStoTB));
51 
52  // moving to testbeam frame
53  CLHEP::Hep3Vector tbPos = (*CMStoTB) * cmsPos;
54  delete CMStoTB;
55 
56  return tbPos;
57 }
58 
59 CLHEP::Hep3Vector TBPositionCalc::CalculateCMSPos(const std::vector<EBDetId> &passedDetIds,
60  int myCrystal,
61  EcalRecHitCollection const *passedRecHitsMap) {
62  // Calculate the total energy
63  double thisEne = 0;
64  double eTot = 0;
65  EBDetId myId;
66  std::vector<EBDetId>::const_iterator myIt;
67  for (myIt = passedDetIds.begin(); myIt != passedDetIds.end(); myIt++) {
68  myId = (*myIt);
69  EcalRecHitCollection::const_iterator itt = passedRecHitsMap->find(myId);
70  thisEne = itt->energy();
71  eTot += thisEne;
72  }
73 
74  // Calculate shower depth
75  float depth = 0.;
76  if (eTot <= 0.) {
77  edm::LogError("NegativeClusterEnergy") << "cluster with negative energy: " << eTot << ", setting depth to 0.";
78  } else {
79  depth = param_X0_ * (param_T0_ + log(eTot));
80  }
81 
82  // Get position of the central crystal from shower depth
83  EBDetId maxId_ = EBDetId(1, myCrystal, EBDetId::SMCRYSTALMODE);
84  auto center_cell = theGeometry_->getGeometry(maxId_);
85  GlobalPoint center_pos = center_cell->getPosition(depth);
86 
87  // Loop over the hits collection
88  double weight = 0;
89  double total_weight = 0;
90  double cluster_theta = 0;
91  double cluster_phi = 0;
92  std::vector<EBDetId>::const_iterator myIt2;
93  for (myIt2 = passedDetIds.begin(); myIt2 != passedDetIds.end(); myIt2++) {
94  // getting weights
95  myId = (*myIt2);
96  EcalRecHitCollection::const_iterator itj = passedRecHitsMap->find(myId);
97  double ener = itj->energy();
98 
99  if (param_LogWeighted_) {
100  if (eTot <= 0.) {
101  weight = 0.;
102  } else {
103  weight = std::max(0., param_W0_ + log(fabs(ener) / eTot));
104  }
105  } else {
106  weight = ener / eTot;
107  }
108  total_weight += weight;
109 
110  // weighted position of this detId
111  auto jth_cell = theGeometry_->getGeometry(myId);
112  GlobalPoint jth_pos = jth_cell->getPosition(depth);
113  cluster_theta += weight * jth_pos.theta();
114  cluster_phi += weight * jth_pos.phi();
115  }
116 
117  // normalizing
118  cluster_theta /= total_weight;
119  cluster_phi /= total_weight;
120  if (cluster_phi > M_PI) {
121  cluster_phi -= 2. * M_PI;
122  }
123  if (cluster_phi < -M_PI) {
124  cluster_phi += 2. * M_PI;
125  }
126 
127  // position in the cms frame
128  double radius =
129  sqrt(center_pos.x() * center_pos.x() + center_pos.y() * center_pos.y() + center_pos.z() * center_pos.z());
130  double xpos = radius * cos(cluster_phi) * sin(cluster_theta);
131  double ypos = radius * sin(cluster_phi) * sin(cluster_theta);
132  double zpos = radius * cos(cluster_theta);
133 
134  return CLHEP::Hep3Vector(xpos, ypos, zpos);
135 }
136 
137 // rotation matrix to move from the CMS reference frame to the test beam one
138 void TBPositionCalc::computeRotation(int MyCrystal, CLHEP::HepRotation &CMStoTB) {
139  // taking eta/phi of the crystal
140 
141  double myEta = 999.;
142  double myPhi = 999.;
143  double myTheta = 999.;
144  theTestMap->findCrystalAngles(MyCrystal, myEta, myPhi);
145  myTheta = 2.0 * atan(exp(-myEta));
146 
147  // matrix
148  CLHEP::HepRotation *fromCMStoTB = new CLHEP::HepRotation();
149  double angle1 = 90. * deg - myPhi;
150  CLHEP::HepRotationZ *r1 = new CLHEP::HepRotationZ(angle1);
151  double angle2 = myTheta;
152  CLHEP::HepRotationX *r2 = new CLHEP::HepRotationX(angle2);
153  double angle3 = 90. * deg;
154  CLHEP::HepRotationZ *r3 = new CLHEP::HepRotationZ(angle3);
155  (*fromCMStoTB) *= (*r3);
156  (*fromCMStoTB) *= (*r2);
157  (*fromCMStoTB) *= (*r1);
158 
159  CMStoTB = (*fromCMStoTB);
160 
161  delete fromCMStoTB;
162  delete r1;
163  delete r2;
164  delete r3;
165 }
edm::SortedCollection< EcalRecHit >::const_iterator
std::vector< EcalRecHit >::const_iterator const_iterator
Definition: SortedCollection.h:80
PV3DBase::x
T x() const
Definition: PV3DBase.h:59
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Definition: EBDetId.h:17
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Definition: mps_merge.py:88
PV3DBase::theta
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Definition: PV3DBase.h:72
TBPositionCalc.h
edm::SortedCollection< EcalRecHit >
funct::sin
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
TBPositionCalc::CalculateTBPos
CLHEP::Hep3Vector CalculateTBPos(const std::vector< EBDetId > &passedDetIds, int myCrystal, EcalRecHitCollection const *passedRecHitsMap)
Definition: TBPositionCalc.cc:27
PV3DBase::z
T z() const
Definition: PV3DBase.h:61
DetId
Definition: DetId.h:17
funct::cos
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
TBPositionCalc::CalculateCMSPos
CLHEP::Hep3Vector CalculateCMSPos(const std::vector< EBDetId > &passedDetIds, int myCrystal, EcalRecHitCollection const *passedRecHitsMap)
Definition: TBPositionCalc.cc:59
EcalTBCrystalMap
Definition: EcalTBCrystalMap.h:17
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Definition: SSEVec.h:19
TBPositionCalc::~TBPositionCalc
~TBPositionCalc()
Definition: TBPositionCalc.cc:22
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Definition: LEDCalibrationChannels.py:65
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T y() const
Definition: PV3DBase.h:60
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#define M_PI
Definition: BXVectorInputProducer.cc:50
TBPositionCalc::TBPositionCalc
TBPositionCalc()
Definition: TBPositionCalc.h:31
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Definition: SortedCollection.h:240
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Definition: CosmicsPD_Skims.py:135
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Definition: CaloSubdetectorGeometry.h:22
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Definition: dqm-mbProfile.py:17
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Definition: JetChargeProducer_cfi.py:6
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static const int SMCRYSTALMODE
Definition: EBDetId.h:159
TBPositionCalc::computeRotation
void computeRotation(int myCrystal, CLHEP::HepRotation &CMStoTB)
Definition: TBPositionCalc.cc:138
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Definition: PV3DBase.h:66
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Definition: weight.py:1