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source: git/external/PUPPI/PuppiContainer.cc@ 3e2bb2b

ImprovedOutputFile Timing dual_readout llp
Last change on this file since 3e2bb2b was ee0763a, checked in by Philip <violatingcp@…>, 8 years ago

added PuppiContainer

  • Property mode set to 100644
File size: 9.0 KB
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[ee0763a]1#include "PuppiContainer.hh"
2#include "external/fastjet/internal/base.hh"
3#include "external/fastjet/Selector.hh"
4//#include "external/fastjet/FunctionOfPseudoJet.hh"
5#include "Math/ProbFunc.h"
6#include "TMath.h"
7#include <iostream>
8#include <math.h>
9
10PuppiContainer::PuppiContainer(bool iApplyCHS, bool iUseExp,double iPuppiWeightCut,std::vector<AlgoObj> &iAlgos) {
11 fApplyCHS = iApplyCHS;
12 fUseExp = iUseExp;
13 fPuppiWeightCut = iPuppiWeightCut;
14 fNAlgos = iAlgos.size();
15 for(unsigned int i0 = 0; i0 < iAlgos.size(); i0++) {
16 PuppiAlgo pPuppiConfig(iAlgos[i0]);
17 fPuppiAlgo.push_back(pPuppiConfig);
18 }
19}
20
21void PuppiContainer::initialize(const std::vector<RecoObj> &iRecoObjects) {
22 //Clear everything
23 fRecoParticles.resize(0);
24 fPFParticles .resize(0);
25 fChargedPV .resize(0);
26 fPupParticles .resize(0);
27 fWeights .resize(0);
28 fVals.resize(0);
29 //fChargedNoPV.resize(0);
30 //Link to the RecoObjects
31 fPVFrac = 0.;
32 fNPV = 1.;
33 fRecoParticles = iRecoObjects;
34 for (unsigned int i = 0; i < fRecoParticles.size(); i++){
35 fastjet::PseudoJet curPseudoJet;
36 curPseudoJet.reset_PtYPhiM(fRecoParticles[i].pt,fRecoParticles[i].eta,fRecoParticles[i].phi,fRecoParticles[i].m);
37 if(fRecoParticles[i].id == 0 or fRecoParticles[i].charge == 0) curPseudoJet.set_user_index(0); // zero is neutral hadron
38 if(fRecoParticles[i].id == 1 and fRecoParticles[i].charge != 0) curPseudoJet.set_user_index(fRecoParticles[i].charge); // from PV use the
39 if(fRecoParticles[i].id == 2 and fRecoParticles[i].charge != 0) curPseudoJet.set_user_index(fRecoParticles[i].charge+5); // from NPV use the charge as key +5 as key // fill vector of pseudojets for internal references
40 fPFParticles.push_back(curPseudoJet);
41 //Take Charged particles associated to PV
42 if(fabs(fRecoParticles[i].id) == 1) fChargedPV.push_back(curPseudoJet);
43 if(fabs(fRecoParticles[i].id) >= 1 ) fPVFrac+=1.;
44 if(fNPV < fRecoParticles[i].vtxId) fNPV = fRecoParticles[i].vtxId;
45 }
46 //if(fNPV < 10) fNPV = 80.;
47 if(fPVFrac != 0) { fPVFrac = double(fChargedPV.size())/fPVFrac;}
48 else { fPVFrac = 0;}
49}
50PuppiContainer::~PuppiContainer(){}
51
52double PuppiContainer::goodVar(fastjet::PseudoJet &iPart,std::vector<fastjet::PseudoJet> &iParts, int iOpt,double iRCone) {
53 double lPup = 0;
54 lPup = var_within_R(iOpt,iParts,iPart,iRCone);
55 return lPup;
56}
57double PuppiContainer::var_within_R(int iId, const vector<fastjet::PseudoJet> & particles, const fastjet::PseudoJet& centre, double R){
58 if(iId == -1) return 1;
59 fastjet::Selector sel = fastjet::SelectorCircle(R);
60 sel.set_reference(centre);
61 vector<fastjet::PseudoJet> near_particles = sel(particles);
62 double var = 0;
63 //double lSumPt = 0;
64 //if(iId == 1) for(unsigned int i=0; i<near_particles.size(); i++) lSumPt += near_particles[i].pt();
65 for(unsigned int i=0; i<near_particles.size(); i++){
66 double pDEta = near_particles[i].eta()-centre.eta();
67 double pDPhi = fabs(near_particles[i].phi()-centre.phi());
68 if(pDPhi > 2.*3.14159265-pDPhi) pDPhi = 2.*3.14159265-pDPhi;
69 double pDR2 = pDEta*pDEta+pDPhi*pDPhi;
70 if(std::abs(pDR2) < 0.0001) continue;
71 if(iId == 0) var += (near_particles[i].pt()/pDR2);
72 if(iId == 1) var += near_particles[i].pt();
73 if(iId == 2) var += (1./pDR2);
74 if(iId == 3) var += (1./pDR2);
75 if(iId == 4) var += near_particles[i].pt();
76 if(iId == 5) var += (near_particles[i].pt()*(near_particles[i].pt()/pDR2));
77 }
78 if(iId == 1) var += centre.pt(); //Sum in a cone
79 if(iId == 0 && var != 0) var = log(var);
80 if(iId == 3 && var != 0) var = log(var);
81 if(iId == 5 && var != 0) var = log(var);
82 return var;
83}
84//In fact takes the median not the average
85void PuppiContainer::getRMSAvg(int iOpt,std::vector<fastjet::PseudoJet> &iConstits,std::vector<fastjet::PseudoJet> &iParticles,std::vector<fastjet::PseudoJet> &iChargedParticles) {
86 for(unsigned int i0 = 0; i0 < iConstits.size(); i0++ ) {
87 double pVal = -1;
88 //Calculate the Puppi Algo to use
89 int pPupId = getPuppiId(iConstits[i0].pt(),iConstits[i0].eta());
90 if(fPuppiAlgo[pPupId].numAlgos() <= iOpt) pPupId = -1;
91 if(pPupId == -1) {fVals.push_back(-1); continue;}
92 //Get the Puppi Sub Algo (given iteration)
93 int pAlgo = fPuppiAlgo[pPupId].algoId (iOpt);
94 bool pCharged = fPuppiAlgo[pPupId].isCharged(iOpt);
95 double pCone = fPuppiAlgo[pPupId].coneSize (iOpt);
96 //Compute the Puppi Metric
97 if(!pCharged) pVal = goodVar(iConstits[i0],iParticles ,pAlgo,pCone);
98 if( pCharged) pVal = goodVar(iConstits[i0],iChargedParticles,pAlgo,pCone);
99 fVals.push_back(pVal);
100 if(std::isnan(pVal) || std::isinf(pVal)) cerr << "====> Value is Nan " << pVal << " == " << iConstits[i0].pt() << " -- " << iConstits[i0].eta() << endl;
101 if(std::isnan(pVal) || std::isinf(pVal)) continue;
102 fPuppiAlgo[pPupId].add(iConstits[i0],pVal,iOpt);
103 /* eta extrapolation code
104 for(int i1 = 0; i1 < fNAlgos; i1++){
105 pAlgo = fPuppiAlgo[i1].algoId (iOpt);
106 pCharged = fPuppiAlgo[i1].isCharged(iOpt);
107 pCone = fPuppiAlgo[i1].coneSize (iOpt);
108 double curVal = -1;
109 if(!pCharged) curVal = goodVar(iConstits[i0],iParticles ,pAlgo,pCone);
110 if( pCharged) curVal = goodVar(iConstits[i0],iChargedParticles,pAlgo,pCone);
111 //std::cout << "i1 = " << i1 << ", curVal = " << curVal << ", eta = " << iConstits[i0].eta() << ", pupID = " << pPupId << std::endl;
112 fPuppiAlgo[i1].add(iConstits[i0],curVal,iOpt);
113 }
114 */
115 }
116 for(int i0 = 0; i0 < fNAlgos; i0++) fPuppiAlgo[i0].computeMedRMS(iOpt,fPVFrac);
117}
118int PuppiContainer::getPuppiId(const float &iPt,const float &iEta) {
119 int lId = -1;
120 for(int i0 = 0; i0 < fNAlgos; i0++) {
121 if(fabs(iEta) < fPuppiAlgo[i0].etaMin()) continue;
122 if(fabs(iEta) > fPuppiAlgo[i0].etaMax()) continue;
123 if(iPt < fPuppiAlgo[i0].ptMin()) continue;
124 lId = i0;
125 break;
126 }
127 return lId;
128}
129double PuppiContainer::getChi2FromdZ(double iDZ) {
130 //We need to obtain prob of PU + (1-Prob of LV)
131 // Prob(LV) = Gaus(dZ,sigma) where sigma = 1.5mm (its really more like 1mm)
132 //double lProbLV = ROOT::Math::normal_cdf_c(fabs(iDZ),0.2)*2.; //*2 is to do it double sided
133 //Take iDZ to be corrected by sigma already
134 double lProbLV = ROOT::Math::normal_cdf_c(fabs(iDZ),1.)*2.; //*2 is to do it double sided
135 double lProbPU = 1-lProbLV;
136 if(lProbPU <= 0) lProbPU = 1e-16; //Quick Trick to through out infs
137 if(lProbPU >= 0) lProbPU = 1-1e-16; //Ditto
138 double lChi2PU = TMath::ChisquareQuantile(lProbPU,1);
139 lChi2PU*=lChi2PU;
140 return lChi2PU;
141}
142const std::vector<double> PuppiContainer::puppiWeights() {
143 fPupParticles .resize(0);
144 fWeights .resize(0);
145 fVals .resize(0);
146 for(int i0 = 0; i0 < fNAlgos; i0++) fPuppiAlgo[i0].reset();
147
148 int lNMaxAlgo = 1;
149 for(int i0 = 0; i0 < fNAlgos; i0++) lNMaxAlgo = TMath::Max(fPuppiAlgo[i0].numAlgos(),lNMaxAlgo);
150 //Run through all compute mean and RMS
151 int lNParticles = fRecoParticles.size();
152 for(int i0 = 0; i0 < lNMaxAlgo; i0++) {
153 getRMSAvg(i0,fPFParticles,fPFParticles,fChargedPV);
154 }
155 std::vector<double> pVals;
156 for(int i0 = 0; i0 < lNParticles; i0++) {
157 //Refresh
158 pVals.clear();
159 double pWeight = 1;
160 //Get the Puppi Id and if ill defined move on
161 int pPupId = getPuppiId(fRecoParticles[i0].pt,fRecoParticles[i0].eta);
162 if(pPupId == -1) {
163 fWeights .push_back(pWeight);
164 continue;
165 }
166 // fill the p-values
167 double pChi2 = 0;
168 if(fUseExp){
169 //Compute an Experimental Puppi Weight with delta Z info (very simple example)
170 pChi2 = getChi2FromdZ(fRecoParticles[i0].dZ);
171 //Now make sure Neutrals are not set
172 if(fRecoParticles[i0].pfType > 3) pChi2 = 0;
173 }
174 //Fill and compute the PuppiWeight
175 int lNAlgos = fPuppiAlgo[pPupId].numAlgos();
176 for(int i1 = 0; i1 < lNAlgos; i1++) pVals.push_back(fVals[lNParticles*i1+i0]);
177 pWeight = fPuppiAlgo[pPupId].compute(pVals,pChi2);
178 //Apply the CHS weights
179 if(fRecoParticles[i0].id == 1 && fApplyCHS ) pWeight = 1;
180 if(fRecoParticles[i0].id == 2 && fApplyCHS ) pWeight = 0;
181 //Basic Weight Checks
182 if(std::isnan(pWeight)) std::cerr << "====> Weight is nan : pt " << fRecoParticles[i0].pt << " -- eta : " << fRecoParticles[i0].eta << " -- Value" << fVals[i0] << " -- id : " << fRecoParticles[i0].id << " -- NAlgos: " << lNAlgos << std::endl;
183 //Basic Cuts
184 if(pWeight < fPuppiWeightCut) pWeight = 0; //==> Elminate the low Weight stuff
185 if(pWeight*fPFParticles[i0].pt() < fPuppiAlgo[pPupId].neutralPt(fNPV) && fRecoParticles[i0].id == 0 ) pWeight = 0; //threshold cut on the neutral Pt
186 fWeights .push_back(pWeight);
187 //Now get rid of the thrown out weights for the particle collection
188 if(pWeight == 0) continue;
189 //Produce
190 fastjet::PseudoJet curjet( pWeight*fPFParticles[i0].px(), pWeight*fPFParticles[i0].py(), pWeight*fPFParticles[i0].pz(), pWeight*fPFParticles[i0].e());
191 curjet.set_user_index(i0);//fRecoParticles[i0].id);
192 fPupParticles.push_back(curjet);
193 }
194 return fWeights;
195}
196
197
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