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QGLikelihoodCalculator.cc
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5 #include <math.h>
6 
8 float QGLikelihoodCalculator::computeQGLikelihood(edm::ESHandle<QGLikelihoodObject> &QGLParamsColl, float pt, float eta, float rho, std::vector<float> vars) const{
9  if(!isValidRange(pt, rho, eta, QGLParamsColl->qgValidRange)) return -1;
10 
11  float Q=1., G=1.;
12  for(unsigned int varIndex = 0; varIndex < vars.size(); ++varIndex){
13 
14  auto quarkEntry = findEntry(QGLParamsColl->data, eta, pt, rho, 0, varIndex);
15  auto gluonEntry = findEntry(QGLParamsColl->data, eta, pt, rho, 1, varIndex);
16  if(!quarkEntry || !gluonEntry) return -2;
17 
18  int binQ = quarkEntry->histogram.findBin(vars[varIndex]);
19  float Qi = quarkEntry->histogram.binContent(binQ);
20 
21  int binG = gluonEntry->histogram.findBin(vars[varIndex]);
22  float Gi = gluonEntry->histogram.binContent(binG);
23 
24  Q *= Qi;
25  G *= Gi;
26  }
27 
28  if(Q==0) return 0;
29  return Q/(Q+G);
30 }
31 
32 
34 const QGLikelihoodObject::Entry* QGLikelihoodCalculator::findEntry(std::vector<QGLikelihoodObject::Entry> const &data, float eta, float pt, float rho, int qgIndex, int varIndex) const{
35  QGLikelihoodParameters myParameters;
36  myParameters.Rho = rho;
37  myParameters.Pt = pt;
38  myParameters.Eta = fabs(eta);
39  myParameters.QGIndex = qgIndex;
40  myParameters.VarIndex = varIndex;
41 
42  auto myDataObject = data.begin();
43  while(!(myParameters == myDataObject->category)){
44  ++myDataObject;
45  if(myDataObject == data.end()){
46  edm::LogWarning("QGLCategoryNotFound") << "Jet passed qgValidRange criteria, but no category found with rho=" << rho << ", pt=" << pt << ", eta=" << eta
47  << "\nPlease contact cms-qg-workinggroup@cern.ch" << std::endl;
48  return nullptr;
49  }
50  }
51  return &*myDataObject;
52 }
53 
54 
56 bool QGLikelihoodCalculator::isValidRange(float pt, float rho, float eta, const QGLikelihoodCategory &qgValidRange) const{
57  if(pt < qgValidRange.PtMin) return false;
58  if(pt > qgValidRange.PtMax) return false;
59  if(rho < qgValidRange.RhoMin) return false;
60  if(rho > qgValidRange.RhoMax) return false;
61  if(fabs(eta) < qgValidRange.EtaMin) return false;
62  if(fabs(eta) > qgValidRange.EtaMax) return false;
63  return true;
64 }
65 
66 
68 float QGLikelihoodCalculator::smearingFunction(float x0, float a ,float b,float min,float max) const{
69  float x=(x0-min)/(max-min);
70  if(x<0.) x=0.;
71  if(x>1.) x=1.;
72 
73  float x1= tanh(a*atanh(2.*x-1.)+b)/2.+.5;
74  if(x<=0.) x1=0.;
75  if(x>=1.) x1=1.;
76 
77  return x1*(max-min)+min;
78 }
79 
80 // Get systematic smearing
81 float QGLikelihoodCalculator::systematicSmearing(edm::ESHandle<QGLikelihoodSystematicsObject> &QGLSystematicsColl, float pt, float eta, float rho, float qgValue, int qgIndex) const{
82  if(qgValue < 0 || qgValue > 1) return -1.;
83 
84  QGLikelihoodParameters myParameters;
85  myParameters.Rho = rho;
86  myParameters.Pt = pt;
87  myParameters.Eta = fabs(eta);
88  myParameters.QGIndex = qgIndex;
89  myParameters.VarIndex = -1;
90 
91  auto myDataObject = QGLSystematicsColl->data.begin();
92  while(!(myParameters == myDataObject->systCategory)){
93  ++myDataObject;
94  if(myDataObject == QGLSystematicsColl->data.end()) return -1; //Smearing not available in the whole qgValidRange: do not throw warnings or errors
95  }
96  return smearingFunction(qgValue, myDataObject->a, myDataObject->b, myDataObject->lmin, myDataObject->lmax);
97 }
Parameters structure.
bool isValidRange(float pt, float rho, float eta, const QGLikelihoodCategory &qgValidRange) const
Check the valid range of this qg tagger.
float smearingFunction(float x0, float a, float b, float min, float max) const
Return the smeared qgLikelihood value, given input x0 and parameters a, b, min and max...
QGLikelihoodCategory qgValidRange
float systematicSmearing(edm::ESHandle< QGLikelihoodSystematicsObject > &QGLParamsColl, float pt, float eta, float rho, float qgValue, int qgIndex) const
T x() const
Cartesian x coordinate.
float computeQGLikelihood(edm::ESHandle< QGLikelihoodObject > &QGLParamsColl, float pt, float eta, float rho, std::vector< float > vars) const
Compute likelihood for a jet using the QGLikelihoodObject information and a set of variables...
T min(T a, T b)
Definition: MathUtil.h:58
Category structure: ranges associated with QGLikelihood histograms.
const QGLikelihoodObject::Entry * findEntry(std::vector< QGLikelihoodObject::Entry > const &data, float eta, float pt, float rho, int qgIndex, int varIndex) const
Find matching entry in vector for a given eta, pt, rho, qgIndex and varIndex.
double b
Definition: hdecay.h:120
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:82
std::vector< Entry > data
double a
Definition: hdecay.h:121