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UCTSummaryCard.cc
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1 #include <cmath>
2 #include <cstdint>
3 #include <cstdlib>
4 #include <iomanip>
5 #include <iostream>
6 #include <vector>
7 
8 using namespace std;
9 
10 #include "UCTSummaryCard.hh"
11 #include "UCTObject.hh"
12 #include "UCTLayer1.hh"
13 #include "UCTCrate.hh"
14 #include "UCTCard.hh"
15 #include "UCTRegion.hh"
16 #include "UCTGeometry.hh"
17 #include "UCTLogging.hh"
19 
20 using namespace l1tcalo;
21 
22 UCTSummaryCard::UCTSummaryCard(const std::vector<std::vector<std::vector<uint32_t> > >* l,
23  uint32_t jetSeedIn,
24  uint32_t tauSeedIn,
25  double tauIsolationFactorIn,
26  uint32_t eGammaSeedIn,
27  double eGammaIsolationFactorIn)
28  : pumLUT(l),
29  jetSeed(jetSeedIn),
30  tauSeed(tauSeedIn),
31  tauIsolationFactor(tauIsolationFactorIn),
32  eGammaSeed(tauSeedIn),
33  eGammaIsolationFactor(tauIsolationFactorIn) {
34  UCTGeometry g;
35  sinPhi[0] = 0;
36  cosPhi[0] = 1;
37  for (int iPhi = 1; iPhi <= 72; iPhi++) {
38  sinPhi[iPhi] = sin(g.getUCTTowerPhi(iPhi));
39  cosPhi[iPhi] = cos(g.getUCTTowerPhi(iPhi));
40  }
41 }
42 
43 UCTSummaryCard::~UCTSummaryCard() {
44  for (uint32_t i = 0; i < regions.size(); i++) {
45  if (regions[i] != nullptr)
46  delete regions[i];
47  }
48 }
49 
51  clearEvent();
52  UCTGeometry g;
53  uint32_t etValue = 0;
54  uint32_t htValue = 0;
55  int sumEx = 0;
56  int sumEy = 0;
57  int sumHx = 0;
58  int sumHy = 0;
59  int etaMin = -NRegionsInCard;
60  int etaMax = NRegionsInCard;
61  // Determine pumLevel using only the central regions
62  pumLevel = 0;
63  for (int iEta = etaMin; iEta <= etaMax; iEta++) { // Ranging between -7 to 7
64  if (iEta == 0)
65  continue; // Note that eta == 0 is illegal
66  for (uint32_t iPhi = 0; iPhi < MaxUCTRegionsPhi; iPhi++) { // Note that phi ranges from 0 to 17
67  const UCTRegion* uctRegion = getRegion(iEta, iPhi);
68  uint32_t et = uctRegion->et();
69  if (et > 0)
70  pumLevel++;
71  }
72  }
73  uint32_t totalRegionCount = 2 * etaMax * MaxUCTRegionsPhi;
74  uint32_t pumBinSize = totalRegionCount / pumLUT->size();
75  pumBin = floor(pumLevel / pumBinSize);
76  if (pumBin >= pumLUT->size())
77  pumBin = pumLUT->size() - 1; // Max index
78  // We walk the eta-phi plane looping over all regions.
79  // to make global objects like TotalET, HT, MET, MHT
80  // subtracting pileup along the way
81  // For compact objects we use processRegion(regionIndex)
82  uint32_t pileup = 0;
83  uint32_t et = 0;
84  for (uint32_t side = 0; side < 2; side++) {
85  bool negativeSide = true;
86  if (side == 1)
87  negativeSide = false;
88  for (uint32_t crate = 0; crate < g.getNCrates(); crate++) {
89  for (uint32_t card = 0; card < g.getNCards(); card++) {
90  for (uint32_t region = 0; region < NRegionsInCard; region++) {
91  int iEta = g.getUCTRegionEtaIndex(negativeSide, region);
92  uint32_t iPhi = g.getUCTRegionPhiIndex(crate, card);
93  UCTRegionIndex regionIndex(iEta, iPhi);
94  processRegion(regionIndex);
95  const UCTRegion* uctRegion = getRegion(iEta, iPhi);
96  if (uctRegion == nullptr) {
97  continue;
98  }
99  et = uctRegion->et();
100  uint32_t pileupInRegion = (*pumLUT)[pumBin][side][region];
101  pileup += pileupInRegion;
102  if (pileupInRegion < et)
103  et -= pileupInRegion;
104  else
105  et = 0;
106  UCTTowerIndex hitTower = g.getUCTTowerIndexFromL1CaloRegion(regionIndex, uctRegion->rawData());
107  int hitCaloPhi = hitTower.second;
108  sumEx += ((int)(((double)et) * cosPhi[hitCaloPhi]));
109  sumEy += ((int)(((double)et) * sinPhi[hitCaloPhi]));
110  etValue += et;
111  if (et > 10) {
112  sumHx += ((int)(((double)et) * cosPhi[hitCaloPhi]));
113  sumHy += ((int)(((double)et) * sinPhi[hitCaloPhi]));
114  htValue += et;
115  }
116  }
117  }
118  }
119  }
120  uint32_t metSquare = sumEx * sumEx + sumEy * sumEy;
121  uint32_t metValue = sqrt((double)metSquare);
122  double metPhi = (atan2(sumEy, sumEx) * 180. / 3.1415927) + 180.;
123  int metIPhi = (int)(72. * (metPhi / 360.));
124  uint32_t mhtSquare = sumHx * sumHx + sumHy * sumHy;
125  uint32_t mhtValue = sqrt((double)mhtSquare);
126  double mhtPhi = (atan2(sumHy, sumHx) * 180. / 3.1415927) + 180.;
127  int mhtIPhi = (int)(72. * (mhtPhi / 360.));
128 
129  ET = new UCTObject(UCTObject::ET, etValue, 0, metIPhi, pileup, 0, 0);
130  HT = new UCTObject(UCTObject::HT, htValue, 0, mhtIPhi, pileup, 0, 0);
131  MET = new UCTObject(UCTObject::MET, metValue, 0, metIPhi, pileup, 0, 0);
132  MHT = new UCTObject(UCTObject::MHT, mhtValue, 0, mhtIPhi, pileup, 0, 0);
133 
134  // Then sort the candidates for output usage
135  emObjs.sort();
136  isoEMObjs.sort();
137  tauObjs.sort();
138  isoTauObjs.sort();
139  centralJetObjs.sort();
140  forwardJetObjs.sort();
141  boostedJetObjs.sort();
142  // Cool we never fail :)
143  return true;
144 }
145 
146 bool UCTSummaryCard::processRegion(UCTRegionIndex center) {
147  // We process the region looking at nearest neighbor data
148  // We should never need beyond nearest-neighbor for most
149  // objects - eGamma, tau or jet
150 
151  std::vector<uint32_t> boostedJetTowers;
152  boostedJetTowers.clear();
153  for (size_t iPhi = 0; iPhi < 12; iPhi++) {
154  for (size_t iEta = 0; iEta < 12; iEta++) {
155  boostedJetTowers.push_back(0);
156  }
157  }
158 
159  std::vector<uint32_t> boostedJetRegionET, boostedJetRegionTauVeto;
160  boostedJetRegionET.clear();
161  boostedJetRegionTauVeto.clear();
162  for (size_t i = 0; i < 9; i++) {
163  boostedJetRegionET.push_back(0);
164  boostedJetRegionTauVeto.push_back(0);
165  }
166 
167  UCTGeometryExtended g;
168 
169  const UCTRegion* cRegion = getRegion(center.first, center.second);
170  if (cRegion == nullptr) {
171  return false;
172  }
173 
174  // Central jets do not use HF - note border exclusion
175  bool centralRegion = false;
176  if (cRegion->getRegion() < (NRegionsInCard - 1))
177  centralRegion = true;
178 
179  uint32_t centralET = cRegion->et();
180  uint32_t centralPU = std::min(centralET, (*pumLUT)[pumBin][0][cRegion->getRegion()]);
181  if (!cRegion->isNegativeEta())
182  centralPU = std::min(centralET, (*pumLUT)[pumBin][1][cRegion->getRegion()]);
183  centralET -= centralPU;
184  UCTTowerIndex centralHitTower = g.getUCTTowerIndexFromL1CaloRegion(center, cRegion->rawData());
185  int nTauLike = 0;
186  bool centralIsTauLike = cRegion->isTauLike();
187  if (cRegion->isTauLike())
188  nTauLike++;
189  bool centralIsEGammaLike = cRegion->isEGammaLike();
190  int hitCaloEta = centralHitTower.first;
191  int hitCaloPhi = centralHitTower.second;
192 
193  boostedJetRegionET[4] = centralET;
194  boostedJetRegionTauVeto[4] = cRegion->isTauLike();
195 
196  UCTRegionIndex northIndex = g.getUCTRegionNorth(center);
197  const UCTRegion* northRegion = getRegion(northIndex.first, northIndex.second);
198  uint32_t northET = 0;
199  uint32_t northPU = 0;
200  UCTTowerIndex northHitTower;
201  bool northIsTauLike = false;
202  bool northIsEGammaLike = false;
203  if (northRegion != nullptr) {
204  northET = northRegion->et();
205  northPU = std::min(northET, (*pumLUT)[pumBin][0][northRegion->getRegion()]);
206  if (!northRegion->isNegativeEta())
207  northPU = std::min(northET, (*pumLUT)[pumBin][1][northRegion->getRegion()]);
208  northET -= northPU;
209  northHitTower = g.getUCTTowerIndexFromL1CaloRegion(northIndex, northRegion->rawData());
210  northIsTauLike = northRegion->isTauLike();
211  if (northRegion->isTauLike())
212  nTauLike++;
213  northIsEGammaLike = northRegion->isEGammaLike();
214  boostedJetRegionET[3] = northET;
215  boostedJetRegionTauVeto[3] = northRegion->isTauLike();
216  }
217 
218  UCTRegionIndex southIndex = g.getUCTRegionSouth(center);
219  const UCTRegion* southRegion = getRegion(southIndex.first, southIndex.second);
220  uint32_t southET = 0;
221  uint32_t southPU = 0;
222  UCTTowerIndex southHitTower;
223  bool southIsTauLike = false;
224  bool southIsEGammaLike = false;
225  if (southRegion != nullptr) {
226  southET = southRegion->et();
227  southPU = std::min(southET, (*pumLUT)[pumBin][0][southRegion->getRegion()]);
228  if (!southRegion->isNegativeEta())
229  southPU = std::min(southET, (*pumLUT)[pumBin][1][southRegion->getRegion()]);
230  southET -= southPU;
231  southHitTower = g.getUCTTowerIndexFromL1CaloRegion(southIndex, southRegion->rawData());
232  southIsTauLike = southRegion->isTauLike();
233  if (southRegion->isTauLike())
234  nTauLike++;
235  southIsEGammaLike = southRegion->isEGammaLike();
236  boostedJetRegionET[5] = southET;
237  boostedJetRegionTauVeto[5] = southRegion->isTauLike();
238  }
239 
240  UCTRegionIndex westIndex = g.getUCTRegionWest(center);
241  const UCTRegion* westRegion = getRegion(westIndex.first, westIndex.second);
242  uint32_t westET = 0;
243  uint32_t westPU = 0;
244  UCTTowerIndex westHitTower;
245  bool westIsTauLike = false;
246  bool westIsEGammaLike = false;
247  if (westRegion != nullptr) {
248  westET = westRegion->et();
249  westPU = std::min(westET, (*pumLUT)[pumBin][0][westRegion->getRegion()]);
250  if (!westRegion->isNegativeEta())
251  westPU = std::min(westET, (*pumLUT)[pumBin][1][westRegion->getRegion()]);
252  westET -= westPU;
253  westHitTower = g.getUCTTowerIndexFromL1CaloRegion(westIndex, westRegion->rawData());
254  westIsTauLike = westRegion->isTauLike();
255  if (westRegion->isTauLike())
256  nTauLike++;
257  westIsEGammaLike = westRegion->isEGammaLike();
258  boostedJetRegionET[7] = westET;
259  boostedJetRegionTauVeto[7] = westRegion->isTauLike();
260  }
261 
262  UCTRegionIndex eastIndex = g.getUCTRegionEast(center);
263  const UCTRegion* eastRegion = getRegion(eastIndex.first, eastIndex.second);
264  uint32_t eastET = 0;
265  uint32_t eastPU = 0;
266  UCTTowerIndex eastHitTower;
267  bool eastIsTauLike = false;
268  bool eastIsEGammaLike = false;
269  if (eastRegion != nullptr) {
270  eastET = eastRegion->et();
271  eastPU = std::min(eastET, (*pumLUT)[pumBin][0][eastRegion->getRegion()]);
272  if (!eastRegion->isNegativeEta())
273  eastPU = std::min(eastET, (*pumLUT)[pumBin][1][eastRegion->getRegion()]);
274  eastET -= eastPU;
275  eastHitTower = g.getUCTTowerIndexFromL1CaloRegion(eastIndex, eastRegion->rawData());
276  eastIsTauLike = eastRegion->isTauLike();
277  if (eastRegion->isTauLike())
278  nTauLike++;
279  eastIsEGammaLike = eastRegion->isEGammaLike();
280  boostedJetRegionET[1] = eastET;
281  boostedJetRegionTauVeto[1] = eastRegion->isTauLike();
282  }
283 
284  UCTRegionIndex nwIndex = g.getUCTRegionNW(center);
285  const UCTRegion* nwRegion = getRegion(nwIndex.first, nwIndex.second);
286  uint32_t nwET = 0;
287  uint32_t nwPU = 0;
288  UCTTowerIndex nwHitTower;
289  if (nwRegion != nullptr) {
290  if (nwRegion->isTauLike())
291  nTauLike++;
292  nwET = nwRegion->et();
293  nwPU = std::min(nwET, (*pumLUT)[pumBin][0][nwRegion->getRegion()]);
294  if (!nwRegion->isNegativeEta())
295  nwPU = std::min(nwET, (*pumLUT)[pumBin][1][nwRegion->getRegion()]);
296  nwET -= nwPU;
297  nwHitTower = g.getUCTTowerIndexFromL1CaloRegion(nwIndex, nwRegion->rawData());
298  boostedJetRegionET[6] = nwET;
299  boostedJetRegionTauVeto[6] = nwRegion->isTauLike();
300  }
301 
302  UCTRegionIndex neIndex = g.getUCTRegionNE(center);
303  const UCTRegion* neRegion = getRegion(neIndex.first, neIndex.second);
304  uint32_t neET = 0;
305  uint32_t nePU = 0;
306  UCTTowerIndex neHitTower;
307  if (neRegion != nullptr) {
308  if (neRegion->isTauLike())
309  nTauLike++;
310  neET = neRegion->et();
311  nePU = std::min(neET, (*pumLUT)[pumBin][0][neRegion->getRegion()]);
312  if (!neRegion->isNegativeEta())
313  nePU = std::min(neET, (*pumLUT)[pumBin][1][neRegion->getRegion()]);
314  neET -= nePU;
315  neHitTower = g.getUCTTowerIndexFromL1CaloRegion(neIndex, neRegion->rawData());
316  boostedJetRegionET[0] = neET;
317  boostedJetRegionTauVeto[0] = neRegion->isTauLike();
318  }
319 
320  UCTRegionIndex swIndex = g.getUCTRegionSW(center);
321  const UCTRegion* swRegion = getRegion(swIndex.first, swIndex.second);
322  uint32_t swET = 0;
323  uint32_t swPU = 0;
324  UCTTowerIndex swHitTower;
325  if (swRegion != nullptr) {
326  if (swRegion->isTauLike())
327  nTauLike++;
328  swET = swRegion->et();
329  swPU = std::min(swET, (*pumLUT)[pumBin][0][swRegion->getRegion()]);
330  if (!swRegion->isNegativeEta())
331  swPU = std::min(swET, (*pumLUT)[pumBin][1][swRegion->getRegion()]);
332  swET -= swPU;
333  swHitTower = g.getUCTTowerIndexFromL1CaloRegion(swIndex, swRegion->rawData());
334  boostedJetRegionET[8] = swET;
335  boostedJetRegionTauVeto[8] = swRegion->isTauLike();
336  }
337 
338  UCTRegionIndex seIndex = g.getUCTRegionSE(center);
339  const UCTRegion* seRegion = getRegion(seIndex.first, seIndex.second);
340  uint32_t seET = 0;
341  uint32_t sePU = 0;
342  UCTTowerIndex seHitTower;
343  if (seRegion != nullptr) {
344  if (seRegion->isTauLike())
345  nTauLike++;
346  seET = seRegion->et();
347  sePU = std::min(seET, (*pumLUT)[pumBin][0][seRegion->getRegion()]);
348  if (!seRegion->isNegativeEta())
349  sePU = std::min(seET, (*pumLUT)[pumBin][1][seRegion->getRegion()]);
350  seET -= sePU;
351  seHitTower = g.getUCTTowerIndexFromL1CaloRegion(seIndex, seRegion->rawData());
352  boostedJetRegionET[2] = seET;
353  boostedJetRegionTauVeto[2] = seRegion->isTauLike();
354  }
355 
356  uint32_t et3x3 = centralET + northET + nwET + westET + swET + southET + seET + eastET + neET;
357  if (et3x3 > 0x3FF)
358  et3x3 = 0x3FF; // Peg at 10-bits
359 
360  uint32_t pu3x3 = centralPU + northPU + nwPU + westPU + swPU + southPU + sePU + eastPU + nePU;
361 
362  // Jet - a 3x3 object with center greater than a seed and all neighbors
363  uint32_t jetET = et3x3;
364 
365  if (centralET >= northET && centralET >= nwET && centralET >= westET && centralET >= swET && centralET > southET &&
366  centralET > seET && centralET > eastET && centralET > neET && centralET > jetSeed) {
367  if (centralRegion)
368  centralJetObjs.push_back(new UCTObject(UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3));
369  else
370  forwardJetObjs.push_back(new UCTObject(UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3));
371  }
372 
373  auto boostedJet = new UCTObject(UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3);
374  boostedJet->setNTaus(nTauLike);
375  boostedJet->setBoostedJetRegionET(boostedJetRegionET);
376  boostedJet->setBoostedJetRegionTauVeto(boostedJetRegionTauVeto);
377  boostedJetObjs.push_back(boostedJet);
378 
379  // tau Object - a single region or a 2-region sum, where the neighbor with lower ET is located using matching hit calo towers
380 
381  if (centralRegion && centralIsTauLike && centralET > tauSeed) {
382  uint32_t tauET = centralET;
383  uint32_t tauPU = centralPU;
384  int neighborMatchCount = 0;
385  //check to see if we are on the edge of the calorimeter
386  if (!g.isEdgeTower(centralHitTower)) {
387  //Check to see if the neighbor regions are tau like and if central ET is greater
388  //if region is tau like and a neighbor AND with less energy, set it to 0.
389  if (g.areNeighbors(centralHitTower, northHitTower) && northIsTauLike && centralET >= northET) {
390  tauET += northET;
391  tauPU += northPU;
392  neighborMatchCount++;
393  } else if (g.areNeighbors(centralHitTower, northHitTower) && northIsTauLike && centralET < northET) {
394  tauET = 0;
395  }
396  if (g.areNeighbors(centralHitTower, southHitTower) && southIsTauLike && centralET > southET) {
397  tauET += southET;
398  tauPU += southPU;
399  neighborMatchCount++;
400  } else if (g.areNeighbors(centralHitTower, southHitTower) && southIsTauLike && centralET <= southET) {
401  tauET = 0;
402  }
403  if (g.areNeighbors(centralHitTower, westHitTower) && westIsTauLike && centralET >= westET) {
404  tauET += westET;
405  tauPU += westPU;
406  neighborMatchCount++;
407  } else if (g.areNeighbors(centralHitTower, westHitTower) && westIsTauLike && centralET < westET) {
408  tauET = 0;
409  }
410  if (g.areNeighbors(centralHitTower, eastHitTower) && eastIsTauLike && centralET > eastET) {
411  tauET += eastET;
412  tauPU += eastPU;
413  neighborMatchCount++;
414  } else if (g.areNeighbors(centralHitTower, eastHitTower) && eastIsTauLike && centralET <= eastET) {
415  tauET = 0;
416  }
417  if (neighborMatchCount > 2) {
418  tauET = 0;
419  }
420  }
421  if (tauET != 0) {
422  tauObjs.push_back(new UCTObject(UCTObject::tau, tauET, hitCaloEta, hitCaloPhi, tauPU, 0xDEADBEEF, et3x3));
423  // Subtract footprint
424  uint32_t isolation = 0;
425  if (et3x3 > tauET)
426  isolation = et3x3 - tauET;
427  if (isolation < ((uint32_t)(tauIsolationFactor * (double)tauET))) {
428  isoTauObjs.push_back(new UCTObject(UCTObject::isoTau, tauET, hitCaloEta, hitCaloPhi, pu3x3, isolation, et3x3));
429  }
430  }
431  }
432 
433  // eGamma Object - This is a sad story
434  // eGamma should be in 2-3 contiguous towers, but we have no bandwidth to get a second cluster from cards
435  // so we use essentially the same clustering as for tau, but demand that energy is almost all in the ECAL
436  // pileup subtraction is critical to not overshoot - further this should work better for isolated eGamma
437  // a single region or a 2-region sum, where the neighbor with lower ET is located using matching hit calo towers
438 
439  if (centralRegion && centralIsEGammaLike && centralET > eGammaSeed) {
440  uint32_t eGammaET = centralET;
441  uint32_t eGammaPU = centralPU;
442  int neighborMatchCount = 0;
443  if (!g.isEdgeTower(centralHitTower)) {
444  if (g.areNeighbors(centralHitTower, northHitTower) && northIsEGammaLike && centralET >= northET) {
445  eGammaET += northET;
446  eGammaPU += northPU;
447  neighborMatchCount++;
448  } else if (g.areNeighbors(centralHitTower, northHitTower) && northIsEGammaLike && centralET < northET) {
449  eGammaET = 0;
450  }
451  if (g.areNeighbors(centralHitTower, southHitTower) && southIsEGammaLike && centralET > southET) {
452  eGammaET += southET;
453  eGammaPU += southPU;
454  neighborMatchCount++;
455  } else if (g.areNeighbors(centralHitTower, southHitTower) && southIsEGammaLike && centralET <= southET) {
456  eGammaET = 0;
457  }
458  if (g.areNeighbors(centralHitTower, westHitTower) && westIsEGammaLike && centralET >= westET) {
459  eGammaET += westET;
460  eGammaPU += westPU;
461  neighborMatchCount++;
462  } else if (g.areNeighbors(centralHitTower, westHitTower) && westIsEGammaLike && centralET < westET) {
463  eGammaET = 0;
464  }
465  if (g.areNeighbors(centralHitTower, eastHitTower) && eastIsEGammaLike && centralET > eastET) {
466  eGammaET += eastET;
467  eGammaPU += eastPU;
468  neighborMatchCount++;
469  } else if (g.areNeighbors(centralHitTower, eastHitTower) && eastIsEGammaLike && centralET <= eastET) {
470  eGammaET = 0;
471  }
472  if (neighborMatchCount > 2) {
473  eGammaET = 0;
474  }
475  }
476  if (eGammaET != 0) {
477  emObjs.push_back(new UCTObject(UCTObject::eGamma, eGammaET, hitCaloEta, hitCaloPhi, eGammaPU, 0xDEADBEEF, et3x3));
478  uint32_t isolation = 0;
479  if (et3x3 > eGammaET)
480  isolation = et3x3 - eGammaET;
481  if (isolation < ((uint32_t)(eGammaIsolationFactor * (double)eGammaET))) {
482  isoEMObjs.push_back(
483  new UCTObject(UCTObject::isoEGamma, eGammaET, hitCaloEta, hitCaloPhi, pu3x3, isolation, et3x3));
484  }
485  }
486  }
487 
488  return true;
489 }
490 
491 bool UCTSummaryCard::clearEvent() {
492  emObjs.clear();
493  isoEMObjs.clear();
494  tauObjs.clear();
495  isoTauObjs.clear();
496  centralJetObjs.clear();
497  forwardJetObjs.clear();
498  boostedJetObjs.clear();
499  return true;
500 }
501 
502 bool UCTSummaryCard::clearRegions() {
503  regions.clear();
504  return true;
505 }
506 
507 const UCTRegion* UCTSummaryCard::getRegion(int regionEtaIndex, uint32_t regionPhiIndex) const {
508  if (regionEtaIndex == 0 || (uint32_t)std::abs(regionEtaIndex) > NRegionsInCard ||
509  regionPhiIndex >= MaxUCTRegionsPhi) {
510  return nullptr;
511  }
512  UCTGeometry g;
513  UCTRegionIndex r = UCTRegionIndex(regionEtaIndex, regionPhiIndex);
514  UCTTowerIndex t = g.getUCTTowerIndex(r);
515  uint32_t absCaloEta = std::abs(t.first);
516  uint32_t absCaloPhi = std::abs(t.second);
517  bool negativeEta = false;
518  if (t.first < 0)
519  negativeEta = true;
520  uint32_t nCrate = g.getCrate(absCaloEta, absCaloPhi);
521  uint32_t nCard = g.getCard(absCaloEta, absCaloPhi);
522  uint32_t nRegion = g.getRegion(absCaloEta, absCaloPhi);
523  uint32_t i = ((NCardsInCrate * NRegionsInCard * nCrate) + (NRegionsInCard * nCard) + nRegion) *
524  2; // Correct index for region collection vector of size 3*6*7*2
525  if (!negativeEta)
526  i++;
527  if (i > regions.size()) {
528  edm::LogError("L1TCaloSummary") << "UCTSummaryCard: Incorrect region requested -- bailing" << std::endl;
529  exit(1);
530  }
531  return regions[i];
532 }
533 
534 bool UCTSummaryCard::setRegionData(std::vector<UCTRegion*> inputRegions) {
535  for (long unsigned int i = 0; i < inputRegions.size(); i++) {
536  regions.push_back(inputRegions[i]);
537  }
538  return true;
539 }
540 
541 void UCTSummaryCard::print() {
542  if (cardSummary > 0)
543  edm::LogInfo("L1TCaloSummary") << "UCTSummaryCard: result = " << cardSummary << std::endl;
544 }
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
Log< level::Error, false > LogError
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T sqrt(T t)
Definition: SSEVec.h:23
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
void print(TMatrixD &m, const char *label=nullptr, bool mathematicaFormat=false)
Definition: Utilities.cc:47
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
Log< level::Info, false > LogInfo
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Definition: HT.h:21
def exit(msg="")