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L1GctTdrJetFinder.cc
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2 
3 using namespace std;
4 
5 //DEFINE STATICS
6 // *** Note the following definition in terms of COL_OFFSET appears not to work ***
7 // *** for some deep C++ reason that I don't understand - GPH ***
8 // const unsigned int L1GctTdrJetFinder::MAX_REGIONS_IN = L1GctJetFinderBase::COL_OFFSET*L1GctTdrJetFinder::N_COLS;
9 // *** So - use the following instead ***
10 const unsigned int L1GctTdrJetFinder::MAX_REGIONS_IN =
12 
13 const unsigned int L1GctTdrJetFinder::N_COLS = 4;
14 const unsigned int L1GctTdrJetFinder::CENTRAL_COL0 = 1;
15 
17  this->reset();
18  // Initialise parameters for Region input calculations in the
19  // derived class so we get the right values of constants.
20  static const unsigned NPHI = L1CaloRegionDetId::N_PHI;
21  m_minColThisJf = (NPHI + m_id * 2 - CENTRAL_COL0) % NPHI;
22 }
23 
25 
26 ostream& operator<<(ostream& os, const L1GctTdrJetFinder& algo) {
27  os << "===L1GctTdrJetFinder===" << endl;
28  const L1GctJetFinderBase* temp = &algo;
29  os << *temp;
30  return os;
31 }
32 
34 
36  if (setupOk()) {
37  findJets();
38  sortJets();
39  doEnergySums();
40  }
41 }
42 
44 
46  UShort jetNum = 0; //holds the number of jets currently found
47  UShort centreIndex = COL_OFFSET * this->centralCol0();
48  for (UShort column = 0; column < 2; ++column) //Find jets in the central search region
49  {
50  //don't include row zero as it is not in the search region
51  ++centreIndex;
52  for (UShort row = 1; row < COL_OFFSET; ++row) {
53  //Determine if we are at end of the HF or not (so need 3*2 window)
54  bool hfBoundary = (row == COL_OFFSET - 1);
55  //Determine if we are at the end of the endcap HCAL regions, so need boundary condition tauveto
56  bool heBoundary = (row == COL_OFFSET - 5);
57 
58  //debug checks for improper input indices
59  if ((centreIndex % COL_OFFSET != 0) //Don't want the 4 regions from other half of detector
60  && (centreIndex >= COL_OFFSET) //Don't want the shared column to left of jet finding area
61  && (centreIndex < (MAX_REGIONS_IN - COL_OFFSET))) { //Don't want column to the right either
62 
63  if (detectJet(centreIndex, hfBoundary)) {
64  if (jetNum < MAX_JETS_OUT) {
65  m_outputJets.at(jetNum).setRawsum(calcJetEnergy(centreIndex, hfBoundary));
66  m_outputJets.at(jetNum).setDetId(calcJetPosition(centreIndex));
67  m_outputJets.at(jetNum).setBx(m_inputRegions.at(centreIndex).bx());
68  if (row < COL_OFFSET - 4) //if we are not in the HF, perform tauVeto analysis
69  {
70  m_outputJets.at(jetNum).setForward(false);
71  m_outputJets.at(jetNum).setTauVeto(calcJetTauVeto(centreIndex, heBoundary));
72  } else //can't be a tau jet because we are in the HF
73  {
74  m_outputJets.at(jetNum).setForward(true);
75  m_outputJets.at(jetNum).setTauVeto(true);
76  }
77  ++jetNum;
78  }
79  }
80  ++centreIndex;
81  }
82  }
83  }
84 }
85 
86 // Returns true if region index is the centre of a jet. Set boundary = true if at edge of HCAL.
87 bool L1GctTdrJetFinder::detectJet(const UShort centreIndex, const bool boundary) const {
88  if (!boundary) //Not at boundary, so use 3*3 window of regions to determine if a jet
89  {
90  // Get the energy of the central region
91  ULong testEt = m_inputRegions.at(centreIndex).et();
92 
93  //Test if our region qualifies as a jet by comparing its energy with the energies of the
94  //surrounding eight regions. In the event of neighbouring regions with identical energy,
95  //this will locate the jet in the lower-most (furthest away from eta=0), left-most (least phi) region.
96  if (testEt > m_inputRegions.at(centreIndex - 1 - COL_OFFSET).et() &&
97  testEt > m_inputRegions.at(centreIndex - COL_OFFSET).et() &&
98  testEt > m_inputRegions.at(centreIndex + 1 - COL_OFFSET).et() &&
99 
100  testEt >= m_inputRegions.at(centreIndex - 1).et() && testEt > m_inputRegions.at(centreIndex + 1).et() &&
101 
102  testEt >= m_inputRegions.at(centreIndex - 1 + COL_OFFSET).et() &&
103  testEt >= m_inputRegions.at(centreIndex + COL_OFFSET).et() &&
104  testEt >= m_inputRegions.at(centreIndex + 1 + COL_OFFSET).et()) {
105  return true;
106  }
107  //USE THIS BLOCK INSTEAD IF YOU WANT OVERFLOW BIT FUNCTIONALITY
108  //*** BUT IT WILL NEED MODIFICATION SINCE L1GctRegion IS OBSOLETE ***
109  /* // Get the energy of the central region & OR the overflow bit to become the MSB
110  ULong testEt = (m_inputRegions.at(centreIndex).et() | (m_inputRegions.at(centreIndex).getOverFlow() << L1GctRegion::ET_BITWIDTH));
111 
112  //Test if our region qualifies as a jet by comparing its energy with the energies of the
113  //surrounding eight regions. In the event of neighbouring regions with identical energy,
114  //this will locate the jet in the lower-most (furthest away from eta=0), left-most (least phi) region.
115  if(testEt > (m_inputRegions.at(centreIndex-1-COL_OFFSET).et() | (m_inputRegions.at(centreIndex-1-COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
116  testEt > (m_inputRegions.at(centreIndex - COL_OFFSET).et() | (m_inputRegions.at(centreIndex - COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
117  testEt > (m_inputRegions.at(centreIndex+1-COL_OFFSET).et() | (m_inputRegions.at(centreIndex+1-COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
118 
119  testEt >= (m_inputRegions.at(centreIndex - 1).et() | (m_inputRegions.at(centreIndex - 1).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
120  testEt > (m_inputRegions.at(centreIndex + 1).et() | (m_inputRegions.at(centreIndex + 1).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
121 
122  testEt >= (m_inputRegions.at(centreIndex-1+COL_OFFSET).et() | (m_inputRegions.at(centreIndex-1+COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
123  testEt >= (m_inputRegions.at(centreIndex + COL_OFFSET).et() | (m_inputRegions.at(centreIndex + COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)) &&
124  testEt >= (m_inputRegions.at(centreIndex+1+COL_OFFSET).et() | (m_inputRegions.at(centreIndex+1+COL_OFFSET).getOverFlow() << L1GctRegion::ET_BITWIDTH)))
125  {
126  return true;
127  }
128 */ //END OVERFLOW FUNCTIONALITY
129  } else //...so only test surround 5 regions in our jet testing.
130  {
131  // Get the energy of the central region
132  // Don't need all the overflow bit adjustments as above, since we are in the HF here
133  ULong testEt = m_inputRegions.at(centreIndex).et();
134 
135  if (testEt > m_inputRegions.at(centreIndex - 1 - COL_OFFSET).et() &&
136  testEt > m_inputRegions.at(centreIndex - COL_OFFSET).et() &&
137 
138  testEt >= m_inputRegions.at(centreIndex - 1).et() &&
139 
140  testEt >= m_inputRegions.at(centreIndex - 1 + COL_OFFSET).et() &&
141  testEt >= m_inputRegions.at(centreIndex + COL_OFFSET).et()) {
142  return true;
143  }
144  }
145  return false;
146 }
147 
148 //returns the energy sum of the nine regions centred (physically) about centreIndex
149 L1GctJetFinderBase::ULong L1GctTdrJetFinder::calcJetEnergy(const UShort centreIndex, const bool boundary) const {
150  ULong energy = 0;
151 
152  if (!boundary) {
153  for (int column = -1; column <= +1; ++column) {
154  energy += m_inputRegions.at(centreIndex - 1 + (column * COL_OFFSET)).et() +
155  m_inputRegions.at(centreIndex + (column * COL_OFFSET)).et() +
156  m_inputRegions.at(centreIndex + 1 + (column * COL_OFFSET)).et();
157  }
158  } else {
159  for (int column = -1; column <= +1; ++column) {
160  energy += m_inputRegions.at(centreIndex - 1 + (column * COL_OFFSET)).et() +
161  m_inputRegions.at(centreIndex + (column * COL_OFFSET)).et();
162  }
163  }
164 
165  return energy;
166 }
167 
168 // returns the encoded (eta, phi) position of the centre region
170  return m_inputRegions.at(centreIndex).id();
171 }
172 
173 // returns the combined tauveto of the nine regions centred (physically) about centreIndex. Set boundary = true if at edge of Endcap.
174 bool L1GctTdrJetFinder::calcJetTauVeto(const UShort centreIndex, const bool boundary) const {
175  bool partial[3] = {false, false, false};
176 
177  if (!boundary) {
178  for (int column = -1; column <= +1; ++column) {
179  partial[column + 1] = m_inputRegions.at(centreIndex - 1 + (column * COL_OFFSET)).tauVeto() ||
180  m_inputRegions.at(centreIndex + (column * COL_OFFSET)).tauVeto() ||
181  m_inputRegions.at(centreIndex + 1 + (column * COL_OFFSET)).tauVeto();
182  }
183  } else {
184  for (int column = -1; column <= +1; ++column) {
185  partial[column + 1] = m_inputRegions.at(centreIndex - 1 + (column * COL_OFFSET)).tauVeto() ||
186  m_inputRegions.at(centreIndex + (column * COL_OFFSET)).tauVeto();
187  }
188  }
189  return partial[0] || partial[1] || partial[2];
190 }
L1GctJetFinderBase::COL_OFFSET
static const unsigned int COL_OFFSET
The index offset between columns.
Definition: L1GctJetFinderBase.h:112
L1GctJetFinderBase::UShort
unsigned short int UShort
Definition: L1GctJetFinderBase.h:52
L1GctTdrJetFinder::MAX_REGIONS_IN
static const unsigned int MAX_REGIONS_IN
The real jetFinders must define these constants.
Definition: L1GctTdrJetFinder.h:76
L1GctTdrJetFinder::calcJetTauVeto
bool calcJetTauVeto(const UShort centreIndex, const bool boundary=false) const
Returns combined tauVeto of the 9 regions centred (physically) about centreIndex. Set boundary = true...
Definition: L1GctTdrJetFinder.cc:174
L1GctTdrJetFinder::calcJetEnergy
ULong calcJetEnergy(const UShort centreIndex, const bool boundary=false) const
Returns energy sum of the 9 regions centred (physically) about centreIndex. Set boundary = true if at...
Definition: L1GctTdrJetFinder.cc:149
L1GctTdrJetFinder::~L1GctTdrJetFinder
~L1GctTdrJetFinder() override
Definition: L1GctTdrJetFinder.cc:24
L1GctJetFinderBase::MAX_JETS_OUT
static const unsigned int MAX_JETS_OUT
Max of 6 jets found per jetfinder in a 2*11 search area.
Definition: L1GctJetFinderBase.h:111
L1GctTdrJetFinder::L1GctTdrJetFinder
L1GctTdrJetFinder(int id)
id is 0-8 for -ve Eta jetfinders, 9-17 for +ve Eta, for increasing Phi.
Definition: L1GctTdrJetFinder.cc:16
L1GctJetFinderBase::m_outputJets
RawJetVector m_outputJets
output jets
Definition: L1GctJetFinderBase.h:312
L1GctJetFinderBase
Base class to allow implementation of jetFinder algorithms.
Definition: L1GctJetFinderBase.h:48
L1GctTdrJetFinder::detectJet
bool detectJet(const UShort centreIndex, const bool boundary=false) const
Returns true if region index is the centre of a jet. Set boundary = true if at edge of HCAL.
Definition: L1GctTdrJetFinder.cc:87
groupFilesInBlocks.temp
list temp
Definition: groupFilesInBlocks.py:142
L1GctTdrJetFinder::findJets
void findJets()
Here is the TDR 3x3 sliding window jet finder algorithm.
Definition: L1GctTdrJetFinder.cc:45
L1GctTdrJetFinder::process
void process() override
process the data, fill output buffers
Definition: L1GctTdrJetFinder.cc:35
cmsdt::algo
algo
Definition: constants.h:171
L1GctTdrJetFinder
3*3 sliding window algorithm jet finder.
Definition: L1GctTdrJetFinder.h:51
L1CaloRegionDetId
Definition: L1CaloRegionDetId.h:18
L1GctTdrJetFinder::calcJetPosition
L1CaloRegionDetId calcJetPosition(const UShort centreIndex) const
returns the encoded (eta, phi) position of the centre region
Definition: L1GctTdrJetFinder.cc:169
L1GctJetFinderBase::m_minColThisJf
unsigned m_minColThisJf
parameter to determine which Regions belong in our acceptance
Definition: L1GctJetFinderBase.h:253
HCALHighEnergyHPDFilter_cfi.energy
energy
Definition: HCALHighEnergyHPDFilter_cfi.py:5
L1GctProcessor::reset
void reset()
complete reset of processor
Definition: L1GctProcessor.h:28
L1CaloRegionDetId::N_ETA
static const unsigned N_ETA
Definition: L1CaloRegionDetId.h:21
L1GctJetFinderBase::m_inputRegions
RegionsVector m_inputRegions
Definition: L1GctJetFinderBase.h:302
L1GctTdrJetFinder::CENTRAL_COL0
static const unsigned int CENTRAL_COL0
Definition: L1GctTdrJetFinder.h:78
L1GctTdrJetFinder.h
L1GctJetFinderBase::m_id
int m_id
algo ID
Definition: L1GctJetFinderBase.h:226
operator<<
ostream & operator<<(ostream &os, const L1GctTdrJetFinder &algo)
Definition: L1GctTdrJetFinder.cc:26
L1GctJetFinderBase::setupOk
bool setupOk() const
Check setup is Ok.
Definition: L1GctJetFinderBase.h:141
L1GctTdrJetFinder::fetchInput
void fetchInput() override
get input data from sources
Definition: L1GctTdrJetFinder.cc:33
L1GctJetFinderBase::ULong
unsigned long int ULong
Definition: L1GctJetFinderBase.h:51
L1CaloRegionDetId::N_PHI
static const unsigned N_PHI
Definition: L1CaloRegionDetId.h:20
std
Definition: JetResolutionObject.h:76
triggerObjects_cff.id
id
Definition: triggerObjects_cff.py:29
L1GctJetFinderBase::doEnergySums
void doEnergySums()
Fill the Et strip sums and Ht sum. All jetFinders should call this in process().
Definition: L1GctJetFinderBase.cc:354
L1GctTdrJetFinder::centralCol0
unsigned centralCol0() const override
Definition: L1GctTdrJetFinder.h:71
L1GctTdrJetFinder::N_COLS
static const unsigned int N_COLS
Definition: L1GctTdrJetFinder.h:77
L1GctJetFinderBase::sortJets
void sortJets()
Sort the found jets. All jetFinders should call this in process().
Definition: L1GctJetFinderBase.cc:339