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RCTEmRegionPacker.cc
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3 
5 
12 
13 #include "PhysicsToBitConverter.h"
14 #include "rctDataBase.h"
15 
16 
17 #include "CaloTokens.h"
18 #include "RCTEmRegionPacker.h"
19 
20 namespace l1t {
21  namespace stage1 {
22  Blocks
25  event.getByToken(static_cast<const CaloTokens*>(toks)->getCaloRegionToken(), caloregion);
26 
28  event.getByToken(static_cast<const CaloTokens*>(toks)->getCaloEmCandToken(), caloemcand);
29 
30  std::vector<uint32_t> load[36];
31 
32  for (int i = 0; i <= 0; ++i) {
33  int n = 0;
34  PhysicsToBitConverter converter[18];
35  for (auto j = caloregion->begin(); j != caloregion->end(); ++j, ++n) {
36 
37  int et=(int)j->et();
38  int overFlow=(int)j->overFlow();
39  int fineGrain=(int)j->fineGrain();
40  int mip=(int)j->mip();
41  bool tauveto=j->tauVeto();
42  //int quiet=(int)j->quiet();
43 
44  int rctCrate=(int)j->rctCrate();
45  int rctCard=(int)j->rctCard();
46  int rctRegion=(int)j->rctRegionIndex();
47  bool isHf=(bool)j->isHf();
48 
49  if(!isHf){
50  converter[rctCrate].SetRCEt(et,rctCard,rctRegion);
51  converter[rctCrate].SetRCOf(overFlow,rctCard,rctRegion);
52  converter[rctCrate].SetRCTau(tauveto,rctCard,rctRegion);
53  converter[rctCrate].SetRCHad(mip,rctCard,rctRegion);
54  LogDebug("L1T")<<"CRATE"<<rctCrate<<"region="<<rctRegion<<", card="<<rctCard<<", rgnEt="<<et<<", overflow="<<overFlow<<", tauveto="<<tauveto<<", hadveto="<<mip<<std::endl;
55 
56  }
57  else{
58  converter[rctCrate].SetHFEt(et,rctRegion);
59  converter[rctCrate].SetHFFg(fineGrain,rctRegion);
60  LogDebug("L1T")<<"CRATE"<<rctCrate<<"region="<<rctRegion<<", rgnEt="<<et<<std::endl;
61 
62  }
63  }//end calo region
64 
65  int m = 0;
66  for (auto j = caloemcand->begin(); j != caloemcand->end(); ++j, ++m) {
67 
68  int rank=(int)j->rank();
69  int index=(int)j->index();
70  int rctCrate=(int)j->rctCrate();
71  bool isolated=(bool)j->isolated();
72  int rctCard=(int)j->rctCard();
73  int rctRegion=(int)j->rctRegion();
74 
75  if(isolated){
76  converter[rctCrate].SetIEEt(rank,index);
77  converter[rctCrate].SetIEReg(rctRegion,index);
78  converter[rctCrate].SetIECard(rctCard,index);
79  LogDebug("L1T")<<"CRATE"<<rctCrate<<"ISO em rank="<<rank<<", region="<<rctRegion<<", card="<<rctCard<<std::endl;
80  }
81  else{
82  converter[rctCrate].SetNEEt(rank,index);
83  converter[rctCrate].SetNEReg(rctRegion,index);
84  converter[rctCrate].SetNECard(rctCard,index);
85  LogDebug("L1T")<<"CRATE"<<rctCrate<<"NON ISO em rank="<<rank<<", region="<<rctRegion<<", card="<<rctCard<<std::endl;
86  }
87  }//end of em cand
88 
89  for (int in=0;in<18;in++){
90  converter[in].Extract32bitwords();
91  for (int d=0;d<6;d++){
92  load[2*in].push_back((uint32_t)converter[in].Get32bitWordLinkEven(d));
93  load[2*in+1].push_back((uint32_t)converter[in].Get32bitWordLinkOdd(d));
94  }
95  }
96  }// end of BX
97 
98  rctDataBase database;
99 
100  Blocks res = {};
101 
102  for (int i = 0; i < 36; ++i) {
103  unsigned int mycrateRCT=(int)(i/2);
104  bool myRCTeven;
105  if (i%2==0) myRCTeven=true;
106  else myRCTeven=false;
107  int linkMP7=-1;
108  database.GetLinkMP7(mycrateRCT,myRCTeven,linkMP7);
109  res.push_back(Block(2*linkMP7, load[i], 0));
110  res.push_back(Block(2*linkMP7, load[i], 1));
111  }
112  return res;
113  }
114  }
115 }
#define LogDebug(id)
void SetNEReg(int value, int cand)
void GetLinkMP7(unsigned int RCTcrate, bool RCTeven, int &linkMP7)
Definition: rctDataBase.h:69
void SetNEEt(int value, int cand)
void SetRCOf(int value, int card, int region)
int i
Definition: DBlmapReader.cc:9
void SetHFEt(int value, int region)
void SetIEReg(int value, int cand)
void SetRCTau(int value, int card, int region)
void SetNECard(int value, int cand)
tuple d
Definition: ztail.py:151
def load
Definition: svgfig.py:546
std::vector< Block > Blocks
Definition: Block.h:68
int j
Definition: DBlmapReader.cc:9
void SetRCEt(int value, int card, int region)
void SetHFFg(int value, int region)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
void SetIECard(int value, int cand)
void SetRCHad(int value, int card, int region)
void SetIEEt(int value, int cand)
#define DEFINE_L1T_PACKER(type)
Definition: PackerFactory.h:22
virtual Blocks pack(const edm::Event &, const PackerTokens *) override