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L1RCTElectronIsolationCard.cc
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4 
5 #include <iostream>
6 #include <iomanip>
7 
9  int cardNumber,
10  const L1RCTLookupTables* rctLookupTables) :
11  crtNo(crateNumber),cardNo(cardNumber),
12  rctLookupTables_(rctLookupTables),
13  isoElectrons(2),nonIsoElectrons(2), regions(2)
14 {
15  regions.push_back(L1RCTRegion());
16  regions.push_back(L1RCTRegion());
17 }
18 
20 {
21  regions.clear();
22 }
23 
24 
26  std::vector<unsigned short> region0Electrons = calcElectronCandidates(regions.at(0),0);
27  std::vector<unsigned short> region1Electrons = calcElectronCandidates(regions.at(1),1);
28  isoElectrons.at(0) = region0Electrons.at(0);
29  isoElectrons.at(1) = region1Electrons.at(0);
30  nonIsoElectrons.at(0) = region0Electrons.at(1);
31  nonIsoElectrons.at(1) = region1Electrons.at(1);
32 
33 
34 }
35 
36 
37 //This method is the bulk of this class. It finds the electrons given a pointer to
38 //a region. It will return the largest nonIsoElectron candidate and the largest
39 //isoElectron candidate. A deposit is an electron candidate if the h/e||fg bit is
40 //not on and it is higher energy than it's direct four neighbors.
41 //An electron candidate is *always* a non-isolated electron.
42 //If it also passes the neighbor cuts then it is an isolated electron as well.
43 std::vector<unsigned short>
45 
46  unsigned short nonIsoElectron = 0;
47  unsigned short isoElectron = 0;
48 
49  //i is row and j is column
50  for(int i = 0; i<4; i++){
51  for(int j = 0; j<4; j++){
52 
53  unsigned short primaryEt = region.getEtIn7Bits(i,j);
54  unsigned short primaryHE_FG = region.getHE_FGBit(i,j);
55 
56  unsigned short northEt = region.getEtIn7Bits(i-1, j);
57  unsigned short southEt = region.getEtIn7Bits(i+1, j);
58  unsigned short westEt = region.getEtIn7Bits( i,j-1);
59  unsigned short eastEt = region.getEtIn7Bits( i,j+1);
60  unsigned short neEt = region.getEtIn7Bits(i-1,j+1);
61  unsigned short nwEt = region.getEtIn7Bits(i-1,j-1);
62  unsigned short seEt = region.getEtIn7Bits(i+1,j+1);
63  unsigned short swEt = region.getEtIn7Bits(i+1,j-1);
64 
65  unsigned short northHE_FG = region.getHE_FGBit(i-1, j);
66  unsigned short southHE_FG = region.getHE_FGBit(i+1, j);
67  unsigned short westHE_FG = region.getHE_FGBit( i,j-1);
68  unsigned short eastHE_FG = region.getHE_FGBit( i,j+1);
69  unsigned short neHE_FG = region.getHE_FGBit(i-1,j+1);
70  unsigned short nwHE_FG = region.getHE_FGBit(i-1,j-1);
71  unsigned short seHE_FG = region.getHE_FGBit(i+1,j+1);
72  unsigned short swHE_FG = region.getHE_FGBit(i+1,j-1);
73 
74  bool top = false;
75 
76  int nCrate = crateNumber();
77  int nCard = cardNumber();
78  int nRegion = regionNum;
79 
80  // top row of crate
81  if (nCard == 0 || nCard == 2 || nCard == 4 || (nCard == 6 && nRegion == 0))
82  {
83  top = true;
84  }
85  // bottom row of crate
86  else if (nCard == 1 || nCard == 3 || nCard == 5 || (nCard == 6 && nRegion == 1))
87  {} // top already false
88  else
89  {
90  std::cerr << "Error! EIC top assignment" << std::endl; // this shouldn't happen!
91  }
92 
93  // The following values are used for zeroing and determining whether or
94  // not a tower is a "candidate". The original primaryEt, northEt, neEt, etc.
95  // are used to calculate vetoes and must not be zeroed.
96 
97  unsigned short primaryTowerEt = primaryEt;
98  unsigned short northTowerEt = northEt;
99  unsigned short southTowerEt = southEt;
100  unsigned short eastTowerEt = eastEt;
101  unsigned short westTowerEt = westEt;
102 
103  // In order to ensure proper selection of candidate tower and neighbor,
104  // if two neighbor energies are equal, one is set to zero (in the
105  // appropriate regions, those for which tp_lf bit is set to 0 in
106  // Pam's JCCTest/EGWithShare.cc).
107 
108  if (primaryEt > 0) // this value should maybe be customizable?
109  {
110  if (nCard != 6) // all cards except 6
111  {
112  if(top && nCrate >= 9) // top row of regions in positive-eta crate
113  {
114  if(westTowerEt == eastTowerEt) westTowerEt=0;
115  if(southTowerEt == northTowerEt) southTowerEt=0;
116  if(southTowerEt == eastTowerEt) southTowerEt=0;
117  if(westTowerEt == northTowerEt) westTowerEt=0;
118  }
119  else if((!top) && nCrate < 9) // bottom row of regions in negative-eta crate
120  {
121  if(eastTowerEt == westTowerEt) eastTowerEt=0;
122  if(northTowerEt == southTowerEt) northTowerEt=0;
123  if(northTowerEt == westTowerEt) northTowerEt=0;
124  if(eastTowerEt == southTowerEt) eastTowerEt=0;
125  }
126  }
127  else // card 6
128  {
129  // only +eta card 6 needs to have zeroing. Pam sez.
130  // -eta card 6 does what it's supposed to even w/o zeroing.
131  if(nRegion == 0 && nCrate >=9)
132  {
133  if(westTowerEt == eastTowerEt) westTowerEt=0;
134  if(southTowerEt == northTowerEt) southTowerEt=0;
135  if(southTowerEt == eastTowerEt) southTowerEt=0;
136  if(westTowerEt == northTowerEt) westTowerEt=0;
137  }
138  }
139  }
140 
141  // This section compares the energies in the primary tower with the
142  // surrounding towers to determine whether or not the primary tower
143  // should be considered a "candidate".
144 
145  bool candidate = false;
146 
147  // for case where primary tower et greater than all neighbors -> candidate
148  if (primaryEt > northEt && primaryEt > southEt && primaryEt > eastEt
149  && primaryEt > westEt && !primaryHE_FG)
150  {
151  candidate = true;
152  }
153 
154  // if primary et less than any neighbors (or HE_FG veto set) NOT a candidate!
155  else if (primaryEt < northEt || primaryEt < southEt || primaryEt < eastEt
156  || primaryEt < westEt || primaryHE_FG)
157  {} // candidate already false
158 
159  else // Case of primary tower et being equal to any of its neighbors.
160  // This section determines which tower gets the candidate.
161  // See AboutTP.pdf document, figure on p. 4, for clarification.
162  // Zeroed values are used in this calculation.
163  {
164  if (primaryEt > 0)
165  {
166  if (nCrate >=9) // positive eta
167  {
168  if (top) // top row of regions in crate. tp_lf == 0
169  // priority order: east < south < north < west
170  {
171  if (westTowerEt == primaryTowerEt)
172  candidate = true;
173  else if (northTowerEt == primaryTowerEt)
174  candidate = false;
175  else if (southTowerEt == primaryTowerEt)
176  candidate = true;
177  else if (eastTowerEt == primaryTowerEt)
178  candidate = false;
179  }
180 
181  else // bottom row of regions in crate. tp_lf == 1
182  // priority order: west < north < south < east
183  {
184  if (eastTowerEt == primaryTowerEt)
185  candidate = true;
186  else if (southTowerEt == primaryTowerEt)
187  candidate = true;
188  else if (northTowerEt == primaryTowerEt)
189  candidate = false;
190  else if (westTowerEt == primaryTowerEt)
191  candidate = false;
192  if (nCard == 6) // card 6. tp_lf == 1
193  {
194  // priority order: east < north < south < west
195  if (westTowerEt == primaryTowerEt)
196  candidate = true;
197  else if (southTowerEt == primaryTowerEt)
198  candidate = true;
199  else if (northTowerEt == primaryTowerEt)
200  candidate = false;
201  else if (eastTowerEt == primaryTowerEt)
202  candidate = false;
203  }
204  }
205  }
206  else // negative eta
207  {
208  if (top) // top row of regions in crate. tp_lf == 1
209  // priority order: east < south < north < west
210  {
211  if (westTowerEt == primaryTowerEt)
212  candidate = true;
213  else if (northTowerEt == primaryTowerEt)
214  candidate = true;
215  else if (southTowerEt == primaryTowerEt)
216  candidate = false;
217  else if (eastTowerEt == primaryTowerEt)
218  candidate = false;
219  if (nCard == 6) // card 6. tp_lf == 0
220  // east < south < north < west
221  {
222  if (westTowerEt == primaryTowerEt)
223  candidate = false;
224  else if (northTowerEt == primaryTowerEt)
225  candidate = false;
226  else if (southTowerEt == primaryTowerEt)
227  candidate = true;
228  else if (eastTowerEt == primaryTowerEt)
229  candidate = true;
230  }
231  }
232  else // bottom row of regions. tp_lf == 0
233  // west < north < south < east
234  {
235  if (eastTowerEt == primaryTowerEt)
236  candidate = true;
237  else if (southTowerEt == primaryTowerEt)
238  candidate = false;
239  else if (northTowerEt == primaryTowerEt)
240  candidate = true;
241  else if (westTowerEt == primaryTowerEt)
242  candidate = false;
243 
244  if (nCard == 6) // card 6. tp_lf == 1
245  // west < north < south < east
246  {
247  if (eastTowerEt == primaryTowerEt)
248  candidate = true;
249  else if (southTowerEt == primaryTowerEt)
250  candidate = true;
251  else if (northTowerEt == primaryTowerEt)
252  candidate = false;
253  else if (westTowerEt == primaryTowerEt)
254  candidate = false;
255  }
256  }
257  }
258  }
259  } // end of if (primary == neighbors)
260 
261  if (candidate) {
262 
263  // Either zeroed or non-zeroed set of values can be used here --
264  // neighbor tower only zeroed if another neighbor tower of same
265  // energy. Max sum calculated from primary and only one neighbor
266  // tower, and always one neighbor tower left over, so value of sum
267  // is not affected. Currently using non-zeroed.
268  unsigned short candidateEt = calcMaxSum(primaryEt,northEt,southEt,
269  eastEt,westEt);
270 
271  // neighbor HE_FG veto true if neighbor has HE_FG set
272  bool neighborVeto = (nwHE_FG || northHE_FG || neHE_FG || westHE_FG ||
273  eastHE_FG || swHE_FG || southHE_FG || seHE_FG);
274 
275  // threshold for five-tower corner quiet veto
276  //int quietThreshold = 3; // 3 - loose isolation 0 - very tight isolation
277  //int quietThreshold = 7; // ECALGREN
278  //int quietThreshold = 0; // HCALGREN
279  unsigned quietThreshold = rctLookupTables_->rctParameters()->eicIsolationThreshold();
280 
281  bool nw = false;
282  bool ne = false;
283  bool sw = false;
284  bool se = false;
285  bool n = false;
286  bool w = false;
287  bool s = false;
288  bool e = false;
289 
290  // individual neighbor vetoes set if neighbor is over threshold
291  if (nwEt >= quietThreshold) nw = true;
292  if (neEt >= quietThreshold) ne = true;
293  if (swEt >= quietThreshold) sw = true;
294  if (seEt >= quietThreshold) se = true;
295  if (northEt >= quietThreshold) n = true;
296  if (southEt >= quietThreshold) s = true;
297  if (westEt >= quietThreshold) w = true;
298  if (eastEt >= quietThreshold) e = true;
299 
300  // veto TRUE for each corner set if any individual tower in each set is over threshold
301  bool nwC = (sw || w || nw || n || ne);
302  bool neC = (nw || n || ne || e || se);
303  bool seC = (ne || e || se || s || sw);
304  bool swC = (se || s || sw || w || nw);
305 
306  // overall quiet veto TRUE only if NO corner sets are quiet
307  // (all are "loud") -> non-isolated
308  bool quietVeto = (nwC && neC && seC && swC);
309 
310  // only isolated if both vetoes are false
311  // Note: quietThreshold = 0 forces all candidates to be non-iso
312  if(!(quietVeto || neighborVeto)){
313  if(candidateEt > isoElectron)
314  isoElectron = candidateEt;
315  }
316  // otherwise, non-isolated
317  else if(candidateEt > nonIsoElectron)
318  nonIsoElectron = candidateEt;
319 
320  }
321  }
322  }
323 
324 
325  std::vector<unsigned short> candidates;
326  unsigned short fullIsoElectron = isoElectron*16 + cardNo*2; // leaves room for last bit -- region number, added in Crate.cc
327  candidates.push_back(fullIsoElectron);
328  unsigned short fullNonIsoElectron = nonIsoElectron*16 + cardNo*2; // leaves room for region info in last bit
329  candidates.push_back(fullNonIsoElectron);
330 
331  return candidates;
332 }
333 
334 unsigned short
335 L1RCTElectronIsolationCard::calcMaxSum(unsigned short primaryEt,unsigned short northEt,
336  unsigned short southEt,unsigned short eastEt,
337  unsigned short westEt){
338  unsigned short cardinals[4] = {northEt,southEt,eastEt,westEt};
339  unsigned short max = 0;
340  for(int i = 0; i<4;i++){
341  unsigned short test = primaryEt+cardinals[i];
342  if(test > max)
343  max = test;
344  }
345  return max;
346 }
347 
349  std::cout << "Electron isolation card " << cardNo << std::endl;
350  std::cout << "Region 0 Information" << std::endl;
351  regions.at(0).print();
352 
353  std::cout << "IsoElectron Candidate " << isoElectrons.at(0) << std::endl;
354  std::cout << "NonIsoElectron Candidate " << nonIsoElectrons.at(0) << std::endl << std::endl;
355 
356  std::cout << "Region 1 Information" << std::endl;
357  regions.at(1).print();
358 
359  std::cout << "IsoElectron Candidate " << isoElectrons.at(1) << std::endl;
360  std::cout << "NonIsoElectron Candidate " << nonIsoElectrons.at(1) << std::endl;
361 }
int i
Definition: DBlmapReader.cc:9
unsigned short getEtIn7Bits(int i, int j) const
Definition: L1RCTRegion.cc:33
unsigned eicIsolationThreshold() const
std::vector< L1RCTRegion > regions
unsigned short getHE_FGBit(int i, int j) const
Definition: L1RCTRegion.cc:47
const T & max(const T &a, const T &b)
const L1RCTLookupTables * rctLookupTables_
std::vector< unsigned short > nonIsoElectrons
int j
Definition: DBlmapReader.cc:9
std::vector< unsigned short > isoElectrons
string top
Definition: fff_deleter.py:272
std::vector< unsigned short > calcElectronCandidates(const L1RCTRegion &region, int regionNum)
const L1RCTParameters * rctParameters() const
tuple cout
Definition: gather_cfg.py:121
unsigned short calcMaxSum(unsigned short primaryEt, unsigned short northEt, unsigned short southEt, unsigned short eastEt, unsigned short westEt)
T w() const