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HcalTrigTowerGeometry.cc
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4 
5 #include <iostream>
6 #include <cassert>
7 
8 HcalTrigTowerGeometry::HcalTrigTowerGeometry(const HcalTopology* topology) : theTopology(topology) {
9  auto tmode = theTopology->triggerMode();
13 }
14 
15 std::vector<HcalTrigTowerDetId> HcalTrigTowerGeometry::towerIds(const HcalDetId& cellId) const {
16  std::vector<HcalTrigTowerDetId> results;
17 
18  if (cellId.subdet() == HcalForward) {
19  if (useRCT_) {
20  // first do eta
21  int hfRing = cellId.ietaAbs();
22  int ieta = firstHFTower(0);
23  // find the tower that contains this ring
24  while (hfRing >= firstHFRingInTower(ieta + 1)) {
25  ++ieta;
26  }
27 
28  ieta *= cellId.zside();
29 
30  // now for phi
31  // HF towers are quad, 18 in phi.
32  // go two cells per trigger tower.
33 
34  int iphi = (((cellId.iphi() + 1) / 4) * 4 + 1) % 72; // 71+1 --> 1, 3+5 --> 5
35  results.emplace_back(HcalTrigTowerDetId(ieta, iphi));
36  }
37  if (use1x1_) {
38  int hfRing = cellId.ietaAbs();
39  if (hfRing == 29)
40  hfRing = 30; // sum 29 into 30.
41 
42  int ieta = hfRing * cellId.zside();
43  int iphi = cellId.iphi();
44 
46  id.setVersion(1); // version 1 for 1x1 HF granularity
47  results.emplace_back(id);
48  }
49 
50  } else {
51  // the first twenty rings are one-to-one
52  if (cellId.ietaAbs() <= theTopology->lastHBRing()) {
53  results.emplace_back(HcalTrigTowerDetId(cellId.ieta(), cellId.iphi()));
54  } else if (theTopology->maxDepthHE() == 0) {
55  // Ignore these
56  } else if (cellId.ietaAbs() < theTopology->firstHEDoublePhiRing()) {
57  results.emplace_back(HcalTrigTowerDetId(cellId.ieta(), cellId.iphi()));
58  } else {
59  // the remaining rings are two-to-one in phi
60  int iphi1 = cellId.iphi();
61  int ieta = cellId.ieta();
62  int depth = cellId.depth();
63  // the last eta ring in HE is split. Recombine.
64  if (ieta == theTopology->lastHERing())
65  --ieta;
66  if (ieta == -theTopology->lastHERing())
67  ++ieta;
68 
69  if (use2017_) {
70  if (ieta == 26 and depth == 7)
71  ++ieta;
72  if (ieta == -26 and depth == 7)
73  --ieta;
74  }
75 
76  results.emplace_back(HcalTrigTowerDetId(ieta, iphi1));
77  results.emplace_back(HcalTrigTowerDetId(ieta, iphi1 + 1));
78  }
79  }
80 
81  return results;
82 }
83 
84 std::vector<HcalDetId> HcalTrigTowerGeometry::detIds(const HcalTrigTowerDetId& hcalTrigTowerDetId) const {
85  // Written, tested by E. Berry (Princeton)
86  std::vector<HcalDetId> results;
87 
88  int tower_ieta = hcalTrigTowerDetId.ieta();
89  int tower_iphi = hcalTrigTowerDetId.iphi();
90 
91  int cell_ieta = tower_ieta;
92  int cell_iphi = tower_iphi;
93 
94  int min_depth, n_depths;
95 
96  // HB
97 
98  if (abs(cell_ieta) <= theTopology->lastHBRing()) {
100  HcalBarrel, abs(tower_ieta), tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
101  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
102  results.emplace_back(HcalDetId(HcalBarrel, cell_ieta, cell_iphi, cell_depth));
103  }
104 
105  // HO
106 
107  if (abs(cell_ieta) <= theTopology->lastHORing()) {
109  HcalOuter, abs(tower_ieta), tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
110  for (int ho_depth = min_depth; ho_depth <= min_depth + n_depths - 1; ho_depth++)
111  results.emplace_back(HcalDetId(HcalOuter, cell_ieta, cell_iphi, ho_depth));
112  }
113 
114  // HE
115 
116  if (abs(cell_ieta) >= theTopology->firstHERing() && abs(cell_ieta) < theTopology->lastHERing()) {
118  HcalEndcap, abs(tower_ieta), tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
119 
120  // Special for double-phi cells
121  if (abs(cell_ieta) >= theTopology->firstHEDoublePhiRing())
122  if (tower_iphi % 2 == 0)
123  cell_iphi = tower_iphi - 1;
124 
125  if (use2017_) {
126  if (abs(tower_ieta) == 26)
127  --n_depths;
128  if (tower_ieta == 27)
129  results.emplace_back(HcalDetId(HcalEndcap, cell_ieta - 1, cell_iphi, 7));
130  if (tower_ieta == -27)
131  results.emplace_back(HcalDetId(HcalEndcap, cell_ieta + 1, cell_iphi, 7));
132  }
133 
134  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
135  results.emplace_back(HcalDetId(HcalEndcap, cell_ieta, cell_iphi, cell_depth));
136 
137  // Special for split-eta cells
138  if (abs(tower_ieta) == 28) {
140  HcalEndcap, abs(tower_ieta) + 1, tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
141  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++) {
142  if (tower_ieta < 0)
143  results.emplace_back(HcalDetId(HcalEndcap, tower_ieta - 1, cell_iphi, cell_depth));
144  if (tower_ieta > 0)
145  results.emplace_back(HcalDetId(HcalEndcap, tower_ieta + 1, cell_iphi, cell_depth));
146  }
147  }
148  }
149 
150  // HF
151 
152  if (abs(cell_ieta) >= theTopology->firstHFRing()) {
153  if (hcalTrigTowerDetId.version() == 0) {
154  int HfTowerPhiSize = 72 / nPhiBins(tower_ieta, 0);
155 
156  int HfTowerEtaSize = hfTowerEtaSize(tower_ieta);
157  int FirstHFRingInTower = firstHFRingInTower(abs(tower_ieta));
158 
159  for (int iHFTowerPhiSegment = 0; iHFTowerPhiSegment < HfTowerPhiSize; iHFTowerPhiSegment++) {
160  cell_iphi = (tower_iphi / HfTowerPhiSize) * HfTowerPhiSize; // Find the minimum phi segment
161  cell_iphi -= 2; // The first trigger tower starts at HCAL iphi = 71, not HCAL iphi = 1
162  cell_iphi += iHFTowerPhiSegment; // Get all of the HCAL iphi values in this trigger tower
163  cell_iphi += 72; // Don't want to take the mod of a negative number
164  cell_iphi = cell_iphi % 72; // There are, at most, 72 cells.
165  cell_iphi += 1; // There is no cell at iphi = 0
166 
167  if (cell_iphi % 2 == 0)
168  continue; // These cells don't exist.
169 
170  for (int iHFTowerEtaSegment = 0; iHFTowerEtaSegment < HfTowerEtaSize; iHFTowerEtaSegment++) {
171  cell_ieta = FirstHFRingInTower + iHFTowerEtaSegment;
172 
173  if (cell_ieta >= 40 && cell_iphi % 4 == 1)
174  continue; // These cells don't exist.
175 
177  HcalForward, cell_ieta, tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
178 
179  // Negative tower_ieta -> negative cell_ieta
180  int zside = 1;
181  if (tower_ieta < 0)
182  zside = -1;
183 
184  cell_ieta *= zside;
185 
186  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
187  results.emplace_back(HcalDetId(HcalForward, cell_ieta, cell_iphi, cell_depth));
188 
189  if (zside * cell_ieta == 30) {
191  HcalForward, 29 * zside, tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
192  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
193  results.emplace_back(HcalDetId(HcalForward, 29 * zside, cell_iphi, cell_depth));
194  }
195  }
196  }
197  } else if (hcalTrigTowerDetId.version() == 1) {
199  HcalForward, tower_ieta, tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
200  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
201  results.emplace_back(HcalDetId(HcalForward, tower_ieta, tower_iphi, cell_depth));
202  if (abs(tower_ieta) == 30) {
203  int i29 = 29;
204  if (tower_ieta < 0)
205  i29 = -29;
206  theTopology->depthBinInformation(HcalForward, i29, tower_iphi, hcalTrigTowerDetId.zside(), n_depths, min_depth);
207  for (int cell_depth = min_depth; cell_depth <= min_depth + n_depths - 1; cell_depth++)
208  results.emplace_back(HcalDetId(HcalForward, i29, tower_iphi, cell_depth));
209  }
210  }
211  }
212 
213  return results;
214 }
215 
217  int ietaAbs = abs(ieta);
218  assert(ietaAbs >= firstHFTower(0) && ietaAbs <= nTowers(0));
219  // the first three come from rings 29-31, 32-34, 35-37. The last has 4 rings: 38-41
220  return (ietaAbs == nTowers(0)) ? 4 : 3;
221 }
222 
224  // count up to the correct HF ring
225  int inputTower = abs(ietaTower);
226  int result = theTopology->firstHFRing();
227  for (int iTower = firstHFTower(0); iTower != inputTower; ++iTower) {
228  result += hfTowerEtaSize(iTower);
229  }
230 
231  // negative in, negative out.
232  if (ietaTower < 0)
233  result *= -1;
234  return result;
235 }
236 
237 void HcalTrigTowerGeometry::towerEtaBounds(int ieta, int version, double& eta1, double& eta2) const {
238  int ietaAbs = abs(ieta);
239  std::pair<double, double> etas = (ietaAbs < firstHFTower(version)) ? theTopology->etaRange(HcalBarrel, ietaAbs)
240  : theTopology->etaRange(HcalForward, ietaAbs);
241  eta1 = etas.first;
242  eta2 = etas.second;
243 
244  // get the signs and order right
245  if (ieta < 0) {
246  double tmp = eta1;
247  eta1 = -eta2;
248  eta2 = -tmp;
249  }
250 }
HcalTrigTowerGeometry::theTopology
const HcalTopology * theTopology
Definition: HcalTrigTowerGeometry.h:48
HcalTrigTowerGeometry::towerIds
std::vector< HcalTrigTowerDetId > towerIds(const HcalDetId &cellId) const
the mapping to and from DetIds
Definition: HcalTrigTowerGeometry.cc:15
HcalTrigTowerDetId::ieta
int ieta() const
get the tower ieta
Definition: HcalTrigTowerDetId.h:54
HcalTopology::maxDepthHE
int maxDepthHE() const
Definition: HcalTopology.h:140
HcalDetId::iphi
constexpr int iphi() const
get the cell iphi
Definition: HcalDetId.h:157
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Definition: EcalDQMCommonUtils.cc:189
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Definition: HcalTopology.h:26
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HcalDetId::depth
constexpr int depth() const
get the tower depth
Definition: HcalDetId.h:164
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Definition: HcalTopologyMode.h:30
HcalTrigTowerDetId::zside
int zside() const
get the z-side of the tower (1/-1)
Definition: HcalTrigTowerDetId.h:50
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HcalTrigTowerGeometry::nPhiBins
int nPhiBins(int ieta, int version) const
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Definition: HcalTrigTowerGeometry.h:35
HcalTopology::firstHERing
int firstHERing() const
Definition: HcalTopology.h:93
HcalTrigTowerGeometry::firstHFRingInTower
int firstHFRingInTower(int ietaTower) const
since the towers are irregular in eta in HF
Definition: HcalTrigTowerGeometry.cc:223
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Definition: HcalTopologyMode.h:32
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Definition: HcalTrigTowerGeometry.cc:216
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Definition: HcalTopology.h:96
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Definition: HcalTrigTowerDetId.h:60
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Definition: HcalDetId.h:155
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Definition: HcalDetId.h:138
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Definition: HcalTrigTowerGeometry.h:18
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Definition: HcalDetId.h:148
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Definition: HcalDetId.h:141
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Definition: HcalTrigTowerGeometry.h:24
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