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MuonRawDigiTranslator.cc
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1 #include "TMath.h"
3 
4 void
5 l1t::MuonRawDigiTranslator::fillMuon(Muon& mu, uint32_t raw_data_00_31, uint32_t raw_data_32_63, int fed, unsigned int fw)
6 {
7  int hwPt = (raw_data_00_31 >> ptShift_) & ptMask_;
8  if (hwPt > 0) {
9  mu.setHwPt(hwPt);
10  mu.setHwQual((raw_data_00_31 >> qualShift_) & qualMask_);
11  mu.setHwIso((raw_data_32_63 >> isoShift_) & isoMask_);
12  // charge is coded as -1^chargeBit
13  mu.setHwCharge((raw_data_32_63 >> chargeShift_) & 0x1);
14  mu.setHwChargeValid((raw_data_32_63 >> chargeValidShift_) & 0x1);
15  mu.setTfMuonIndex((raw_data_32_63 >> tfMuonIndexShift_) & tfMuonIndexMask_);
16 
17  // The position of the eta and phi coordinates in the RAW data changed between the 2016 run and the 2017 run.
18  // Eta and phi at the muon system are replaced by eta and phi at the vertex
19  // Eta and phi at the muon system are moved to spare bits
20  // The uGMT (FED 1402) or uGT (FED 1404) FW versions are used to determine the era.
21  if ((fed == 1402 && fw < 0x4010000) || (fed == 1404 && fw < 0x10A6)) {
22  // coordinates at the muon system are in 2016 where in 2017 eta and phi at the vertex are
24  mu.setHwPhi((raw_data_00_31 >> phiAtVtxShift_) & phiMask_);
25 
26  // set the coordiantes at vertex to be the same as the coordinates at the muon system
27  mu.setHwEtaAtVtx(mu.hwEta());
28  mu.setHwPhiAtVtx(mu.hwPhi());
29  // deltas are 0
30  mu.setHwDEtaExtra(0);
31  mu.setHwDPhiExtra(0);
32  } else {
33  // coordinates at the muon system
34  mu.setHwEta(calcHwEta(raw_data_32_63, absEtaShift_, etaSignShift_));
35  mu.setHwPhi((raw_data_32_63 >> phiShift_) & phiMask_);
36 
37  // coordinates at the vertex
39  mu.setHwPhiAtVtx((raw_data_00_31 >> phiAtVtxShift_) & phiMask_);
40  // deltas
41  mu.setHwDEtaExtra(mu.hwEtaAtVtx() - mu.hwEta());
42  int dPhi = mu.hwPhiAtVtx() - mu.hwPhi();
43  if (mu.hwCharge() == 1 && dPhi > 0) {
44  dPhi -= 576;
45  } else if (mu.hwCharge() == 0 && dPhi < 0) {
46  dPhi += 576;
47  }
48  mu.setHwDPhiExtra(dPhi);
49  }
50 
51  math::PtEtaPhiMLorentzVector vec{(mu.hwPt()-1)*0.5, mu.hwEta()*0.010875, mu.hwPhi()*0.010908, 0.0};
52  mu.setP4(vec);
53  // generate a muon at the vertex to extract the physical eta and phi coordinates
54  math::PtEtaPhiMLorentzVector vecAtVtx{(mu.hwPt()-1)*0.5, mu.hwEtaAtVtx()*0.010875, mu.hwPhiAtVtx()*0.010908, 0.0};
55  Muon muAtVtx;
56  muAtVtx.setP4(vecAtVtx);
57  mu.setEtaAtVtx(muAtVtx.eta());
58  mu.setPhiAtVtx(muAtVtx.phi());
59  if (mu.hwChargeValid()) {
60  mu.setCharge(1 - 2 * mu.hwCharge());
61  } else {
62  mu.setCharge(0);
63  }
64  }
65 }
66 
67 void
68 l1t::MuonRawDigiTranslator::fillMuon(Muon& mu, uint64_t dataword, int fed, unsigned int fw)
69 {
70  fillMuon(mu, (uint32_t)(dataword & 0xFFFFFFFF), (uint32_t)((dataword >> 32) & 0xFFFFFFFF), fed, fw);
71 }
72 
73 void
74 l1t::MuonRawDigiTranslator::generatePackedDataWords(const Muon& mu, uint32_t &raw_data_00_31, uint32_t &raw_data_32_63)
75 {
76  int abs_eta = mu.hwEta();
77  if (abs_eta < 0) {
78  abs_eta += (1 << (etaSignShift_ - absEtaShift_));
79  }
80  int abs_eta_at_vtx = mu.hwEtaAtVtx();
81  if (abs_eta_at_vtx < 0) {
82  abs_eta_at_vtx += (1 << (etaAtVtxSignShift_ - absEtaAtVtxShift_));
83  }
84  raw_data_00_31 = (mu.hwPt() & ptMask_) << ptShift_
85  | (mu.hwQual() & qualMask_) << qualShift_
86  | (abs_eta_at_vtx & absEtaMask_) << absEtaAtVtxShift_
87  | (mu.hwEtaAtVtx() < 0) << etaAtVtxSignShift_
88  | (mu.hwPhiAtVtx() & phiMask_) << phiAtVtxShift_;
89 
90  raw_data_32_63 = mu.hwCharge() << chargeShift_
93  | (mu.hwIso() & isoMask_) << isoShift_
94  | (abs_eta & absEtaMask_) << absEtaShift_
95  | (mu.hwEta() < 0) << etaSignShift_
96  | (mu.hwPhi() & phiMask_) << phiShift_;
97 }
98 
99 uint64_t
101 {
102  uint32_t lsw;
103  uint32_t msw;
104 
105  generatePackedDataWords(mu, lsw, msw);
106  return (((uint64_t)msw) << 32) + lsw;
107 }
108 
109 int
110 l1t::MuonRawDigiTranslator::calcHwEta(const uint32_t& raw, const unsigned absEtaShift, const unsigned etaSignShift)
111 {
112  // eta is coded as two's complement
113  int abs_eta = (raw >> absEtaShift) & absEtaMask_;
114  if ((raw >> etaSignShift) & 0x1) {
115  return abs_eta - (1 << (etaSignShift - absEtaShift));
116  } else {
117  return abs_eta;
118  }
119 }
120 
int hwPhiAtVtx() const
Definition: Muon.h:88
static const unsigned etaAtVtxSignShift_
static const unsigned tfMuonIndexShift_
static const unsigned phiMask_
virtual double eta() const final
momentum pseudorapidity
static const unsigned isoShift_
static const unsigned etaSignShift_
void setPhiAtVtx(double phiAtVtx)
Definition: Muon.h:72
void setHwDPhiExtra(int dPhi)
Definition: Muon.h:75
void setHwQual(int qual)
Definition: L1Candidate.h:44
int hwPhi() const
Definition: L1Candidate.h:50
static const unsigned absEtaAtVtxShift_
static int calcHwEta(const uint32_t &, const unsigned, const unsigned)
virtual double phi() const final
momentum azimuthal angle
PtEtaPhiMLorentzVectorD PtEtaPhiMLorentzVector
Lorentz vector with cartesian internal representation.
Definition: LorentzVector.h:25
int hwIso() const
Definition: L1Candidate.h:52
static const unsigned qualShift_
static const unsigned tfMuonIndexMask_
void setTfMuonIndex(int index)
Definition: Muon.h:66
static const unsigned absEtaShift_
Definition: Muon.py:1
void setHwCharge(int charge)
Definition: Muon.h:64
static const unsigned phiShift_
void setHwChargeValid(int valid)
Definition: Muon.h:65
void setHwPhiAtVtx(int hwPhiAtVtx)
Definition: Muon.h:70
virtual void setCharge(Charge q) final
set electric charge
Definition: LeafCandidate.h:93
const int mu
Definition: Constants.h:22
int hwEta() const
Definition: L1Candidate.h:49
static const unsigned chargeValidShift_
int hwQual() const
Definition: L1Candidate.h:51
static const unsigned absEtaMask_
void setHwPhi(int phi)
Definition: L1Candidate.h:43
void setHwIso(int iso)
Definition: L1Candidate.h:45
int tfMuonIndex() const
Definition: Muon.h:84
int hwPt() const
Definition: L1Candidate.h:48
void setHwEtaAtVtx(int hwEtaAtVtx)
Definition: Muon.h:69
static uint64_t generate64bitDataWord(const Muon &)
unsigned long long uint64_t
Definition: Time.h:15
int hwEtaAtVtx() const
Definition: Muon.h:87
static const unsigned ptShift_
virtual void setP4(const LorentzVector &p4) final
set 4-momentum
static void generatePackedDataWords(const Muon &, uint32_t &, uint32_t &)
void setHwDEtaExtra(int dEta)
Definition: Muon.h:76
static const unsigned isoMask_
void setHwPt(int pt)
Definition: L1Candidate.h:41
static const unsigned chargeShift_
void setHwEta(int eta)
Definition: L1Candidate.h:42
static const unsigned qualMask_
int hwChargeValid() const
Definition: Muon.h:83
static const unsigned phiAtVtxShift_
int hwCharge() const
Definition: Muon.h:82
static const unsigned ptMask_
static void fillMuon(Muon &, uint32_t, uint32_t, int, unsigned int)
void setEtaAtVtx(double etaAtVtx)
Definition: Muon.h:71