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d949b15e | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | /* $Id$ */ | |
17 | ||
53399039 | 18 | // Macro (upgraded version of MUONmassPlot_ESD.C, better handling of Jpsi) to make : |
d949b15e | 19 | // 1) Ntuple (Ktuple) containing Upsilon kinematics variables (from kinematics.root files) |
20 | // 2) Ntuple (ESDtuple) containing Upsilon kinematics variables from reconstruction and | |
53399039 | 21 | // combinations of 2 muons with opposite charges (ESDtupleBck will be used later) |
d949b15e | 22 | // 3) Some QA histograms |
23 | // Ntuple are stored in the file MUONefficiency.root and ESD tree and QA histograms in AliESDs.root | |
24 | ||
53399039 | 25 | // Christophe Suire, IPN Orsay |
26 | ||
27 | ||
28 | ||
d949b15e | 29 | // Arguments: |
30 | // FirstEvent (default 0) | |
53399039 | 31 | // LastEvent (default 1.e6) |
d949b15e | 32 | // ResType (default 553) |
53399039 | 33 | // 553 for Upsilon, 443 for J/Psi |
d949b15e | 34 | // Chi2Cut (default 100) |
35 | // to keep only tracks with chi2 per d.o.f. < Chi2Cut | |
d949b15e | 36 | |
d949b15e | 37 | |
d949b15e | 38 | |
39 | #if !defined(__CINT__) || defined(__MAKECINT__) | |
40 | // ROOT includes | |
41 | #include "TTree.h" | |
53399039 | 42 | #include "TNtuple.h" |
d949b15e | 43 | #include "TBranch.h" |
44 | #include "TClonesArray.h" | |
45 | #include "TLorentzVector.h" | |
46 | #include "TFile.h" | |
47 | #include "TH1.h" | |
48 | #include "TH2.h" | |
49 | #include "TParticle.h" | |
50 | #include "TTree.h" | |
51 | #include "TString.h" | |
52 | #include <Riostream.h> | |
53 | ||
54 | // STEER includes | |
55 | #include "AliRun.h" | |
56 | #include "AliRunLoader.h" | |
57 | #include "AliHeader.h" | |
58 | #include "AliLoader.h" | |
59 | #include "AliStack.h" | |
60 | #include "AliMagF.h" | |
61 | #include "AliESD.h" | |
62 | ||
63 | // MUON includes | |
64 | #include "AliESDMuonTrack.h" | |
65 | #endif | |
66 | ||
67 | ||
53399039 | 68 | Bool_t MUONefficiency( Int_t ResType = 553, Int_t FirstEvent = 0, Int_t LastEvent = 1000000, |
69 | char* esdFileName = "AliESDs.root", char* filename = "galice.root") | |
d949b15e | 70 | { // MUONefficiency starts |
d949b15e | 71 | |
53399039 | 72 | Double_t MUON_MASS = 0.105658369; |
73 | Double_t UPSILON_MASS = 9.4603 ; | |
74 | Double_t JPSI_MASS = 3.097; | |
75 | ||
76 | // Upper and lower bound for counting entries in the mass peak | |
77 | // +/- 300 MeV/c^2 in this case. | |
78 | Float_t countingRange = 0.300 ; | |
79 | ||
80 | Float_t massResonance = 5.; | |
81 | Float_t invMassMinInPeak = 0. ; | |
82 | Float_t invMassMaxInPeak = 0. ; | |
83 | ||
84 | Float_t nBinsPerGev = 40 ; | |
85 | Float_t invMassMin = 0; Float_t invMassMax = 20; | |
86 | Float_t ptMinResonance = 0 ; Float_t ptMaxResonance = 20 ; Int_t ptBinsResonance = 100; | |
87 | ||
88 | if (ResType==443) { | |
89 | massResonance = JPSI_MASS ; | |
90 | invMassMinInPeak = JPSI_MASS - countingRange ; invMassMaxInPeak = JPSI_MASS + countingRange ; | |
91 | //limits for histograms | |
92 | invMassMin = 0 ; invMassMax = 6.; | |
93 | ptMinResonance = 0 ; ptMaxResonance = 20 ; ptBinsResonance = 100; | |
94 | } | |
95 | if (ResType==553) { | |
96 | massResonance = UPSILON_MASS; | |
97 | invMassMinInPeak = UPSILON_MASS - countingRange ; invMassMaxInPeak = UPSILON_MASS + countingRange; | |
98 | //limits for histograms | |
99 | invMassMin = 0 ; invMassMax = 12.; | |
100 | ptMinResonance = 0 ; ptMaxResonance = 20 ; ptBinsResonance = 100; | |
101 | } | |
102 | ||
103 | // Single Tracks muon cuts | |
104 | Float_t Chi2Cut = 100.; | |
105 | Float_t PtCutMin = 0. ; | |
106 | Float_t PtCutMax = 10000. ; | |
107 | ||
108 | ||
109 | // Limits for histograms | |
110 | Float_t ptMinMuon = 0. ; Float_t ptMaxMuon = 20.; Int_t ptBinsMuon = 100 ; | |
111 | Float_t pMinMuon = 0. ; Float_t pMaxMuon = 200.; Int_t pBinsMuon = 100 ; | |
d949b15e | 112 | |
53399039 | 113 | |
d949b15e | 114 | //Reset ROOT and connect tree file |
115 | gROOT->Reset(); | |
116 | ||
117 | // Printing Level | |
118 | Int_t PRINTLEVEL = 0 ; | |
119 | Int_t SELECT = 0 ; // not used | |
120 | ||
121 | //for kinematic, i.e. reference tracks | |
122 | TNtuple *Ktuple = new TNtuple("Ktuple","Kinematics NTuple","ev:npart:id:idmo:idgdmo:p:pt:y:theta:pseudorap:vx:vy:vz"); | |
123 | ||
53399039 | 124 | //for reconstruction |
125 | TH1F *hPtMuon = new TH1F("hPtMuon", "Muon Pt (GeV/c)", ptBinsMuon, ptMinMuon, ptMaxMuon); | |
126 | TH1F *hPtMuonPlus = new TH1F("hPtMuonPlus", "Muon+ Pt (GeV/c)", ptBinsMuon, ptMinMuon, ptMaxMuon); | |
127 | TH1F *hPtMuonMinus = new TH1F("hPtMuonMinus", "Muon- Pt (GeV/c)", ptBinsMuon, ptMinMuon, ptMaxMuon); | |
128 | TH1F *hPMuon = new TH1F("hPMuon", "Muon P (GeV/c)", pBinsMuon, pMinMuon, pMaxMuon); | |
129 | ||
130 | TH1F *hInvMassAll; | |
131 | TH1F *hInvMassBg; | |
132 | TH2F *hInvMassAll_vs_Pt; | |
133 | TH2F *hInvMassBgk_vs_Pt; | |
d949b15e | 134 | TH1F *hInvMassRes; |
d949b15e | 135 | |
53399039 | 136 | |
137 | hInvMassAll = new TH1F("hInvMassAll", "Mu+Mu- invariant mass (GeV/c2)", (Int_t) (nBinsPerGev*(invMassMax - invMassMin)), invMassMin, invMassMax); | |
138 | hInvMassBg = new TH1F("hInvMassBg", "Mu+Mu- invariant mass BG(GeV/c2)", (Int_t) (nBinsPerGev*(invMassMax- invMassMin)), invMassMin, invMassMax); | |
139 | hInvMassAll_vs_Pt = new TH2F("hInvMassAll_vs_Pt","hInvMassAll_vs_Pt",(Int_t) (nBinsPerGev*(invMassMax- invMassMin)), invMassMin, invMassMax,ptBinsResonance,ptMinResonance,ptMaxResonance); | |
140 | hInvMassBgk_vs_Pt = new TH2F("hInvMassBgk_vs_Pt","hInvMassBgk_vs_Pt",(Int_t) (nBinsPerGev*(invMassMax- invMassMin)), invMassMin, invMassMax,ptBinsResonance,ptMinResonance,ptMaxResonance); | |
141 | ||
142 | hInvMassRes = new TH1F("hInvMassRes", "Mu+Mu- invariant mass (GeV/c2) around Resonance",(Int_t) (nBinsPerGev*3*countingRange*2),massResonance-3*countingRange,massResonance+3*countingRange); | |
143 | ||
144 | ||
145 | TH1F *hChi2PerDof = new TH1F("hChi2PerDof", "Muon track chi2/d.o.f.", 100, 0., 20.); | |
d949b15e | 146 | TH1F *hNumberOfTrack = new TH1F("hNumberOfTrack","nb of track /evt ",20,-0.5,19.5); |
147 | TH1F *hRapMuon = new TH1F("hRapMuon"," Muon Rapidity",50,-4.5,-2); | |
148 | TH1F *hRapResonance = new TH1F("hRapResonance"," Resonance Rapidity",50,-4.5,-2); | |
149 | TH1F *hPtResonance = new TH1F("hPtResonance", "Resonance Pt (GeV/c)", 100, 0., 20.); | |
150 | TH2F *hThetaPhiPlus = new TH2F("hThetaPhiPlus", "Theta vs Phi +", 760, -190., 190., 400, 160., 180.); | |
151 | TH2F *hThetaPhiMinus = new TH2F("hThetaPhiMinus", "Theta vs Phi -", 760, -190., 190., 400, 160., 180.); | |
53399039 | 152 | |
d949b15e | 153 | TNtuple *ESDtuple = new TNtuple("ESDtuple","Reconstructed Mu+Mu- pairs and Upsilon","ev:tw:pt:y:theta:minv:pt1:y1:theta1:q1:trig1:pt2:y2:theta2:q2:trig2"); |
154 | TNtuple *ESDtupleBck = new TNtuple("ESDtupleBck","Reconstructed Mu+Mu- pairs for Background","ev:pt:y:theta:minv:pt1:y1:theta1:pt2:y2:theta2"); | |
155 | ||
156 | ||
53399039 | 157 | // Variables |
d949b15e | 158 | Int_t EventInMass = 0; |
53399039 | 159 | Int_t EventInMassMatch = 0; |
160 | Int_t NbTrigger = 0; | |
161 | Int_t ptTrig = 0; | |
d949b15e | 162 | |
163 | Double_t thetaX, thetaY, pYZ; | |
164 | Double_t fPxRec1, fPyRec1, fPzRec1, fE1; | |
165 | Double_t fPxRec2, fPyRec2, fPzRec2, fE2; | |
166 | Int_t fCharge1, fCharge2; | |
167 | ||
53399039 | 168 | Int_t ntrackhits, nevents; |
169 | Int_t nprocessedevents = 0 ; | |
d949b15e | 170 | Double_t fitfmin; |
171 | ||
172 | TLorentzVector fV1, fV2, fVtot; | |
173 | ||
174 | // set off mag field | |
175 | AliMagF::SetReadField(kFALSE); | |
176 | ||
177 | // open run loader and load gAlice, kinematics and header | |
178 | AliRunLoader* runLoader = AliRunLoader::Open(filename); | |
179 | if (!runLoader) { | |
180 | Error("MUONefficiency", "getting run loader from file %s failed", filename); | |
181 | return kFALSE; | |
182 | } | |
183 | ||
184 | runLoader->LoadgAlice(); | |
185 | gAlice = runLoader->GetAliRun(); | |
186 | if (!gAlice) { | |
187 | Error("MUONefficiency", "no galice object found"); | |
188 | return kFALSE; | |
189 | } | |
190 | ||
191 | // open the ESD file | |
192 | TFile* esdFile = TFile::Open(esdFileName); | |
193 | if (!esdFile || !esdFile->IsOpen()) { | |
194 | Error("MUONefficiency", "opening ESD file %s failed", esdFileName); | |
195 | return kFALSE; | |
196 | } | |
197 | ||
198 | AliESD* esd = new AliESD(); | |
199 | TTree* tree = (TTree*) esdFile->Get("esdTree"); | |
200 | if (!tree) { | |
201 | Error("CheckESD", "no ESD tree found"); | |
202 | return kFALSE; | |
203 | } | |
204 | tree->SetBranchAddress("ESD", &esd); | |
205 | ||
206 | runLoader->LoadHeader(); | |
207 | nevents = runLoader->GetNumberOfEvents(); | |
208 | ||
209 | // to access the particle Stack | |
210 | runLoader->LoadKinematics("READ"); | |
211 | ||
53399039 | 212 | Int_t numberOfGeneratedResonances = 0 ; |
213 | ||
d949b15e | 214 | TParticle *particle; |
53399039 | 215 | |
d949b15e | 216 | Int_t track1Id = 0 ; |
217 | Int_t track1PDGId = 0 ; | |
218 | Int_t track1MotherId = 0 ; | |
219 | Int_t track1MotherPDGId = 0 ; | |
220 | Int_t track1Trigger = 0 ; | |
221 | Float_t track1TriggerChi2 = 0 ; | |
222 | Int_t track2Id = 0 ; | |
223 | Int_t track2PDGId = 0 ; | |
224 | Int_t track2MotherId = 0 ; | |
225 | Int_t track2MotherPDGId = 0 ; | |
226 | Int_t track2Trigger = 0 ; | |
227 | Float_t track2TriggerChi2 = 0 ; | |
228 | ||
229 | ||
230 | // Loop over events | |
231 | for (Int_t iEvent = FirstEvent; iEvent <= TMath::Min(LastEvent, nevents - 1); iEvent++) { // Start event loop | |
232 | ||
233 | if (iEvent%1000 == 0 ) | |
234 | printf("\n Nb of events analysed: %d \n",iEvent); | |
235 | ||
236 | // get current event | |
237 | runLoader->GetEvent(iEvent); | |
53399039 | 238 | nprocessedevents++; |
239 | ||
d949b15e | 240 | // get the stack and fill the kine tree |
241 | AliStack *theStack = runLoader->Stack(); | |
242 | if (PRINTLEVEL > 0) theStack->DumpPStack (); | |
243 | ||
244 | Int_t nparticles = (Int_t)runLoader->TreeK()->GetEntries(); | |
245 | Int_t nprimarypart = theStack->GetNprimary(); | |
246 | Int_t ntracks = theStack->GetNtrack(); | |
53399039 | 247 | |
d949b15e | 248 | if (PRINTLEVEL || (iEvent%100==0)) printf("\n >>> Event %d \n",iEvent); |
249 | if (PRINTLEVEL) cout << nprimarypart << " Particles generated (total is " << ntracks << ")"<< endl ; | |
250 | ||
d949b15e | 251 | |
252 | for(Int_t iparticle=0; iparticle<nparticles; iparticle++) { // Start loop over particles | |
253 | particle = theStack->Particle(iparticle); | |
254 | ||
255 | Int_t muId = particle->GetPdgCode(); | |
256 | Int_t muM = particle->GetFirstMother(); | |
257 | Int_t muGM = 0; | |
258 | Float_t muP = particle->P(); | |
259 | Float_t muPt = TMath::Sqrt(particle->Px()*particle->Px()+particle->Py()*particle->Py()); | |
260 | Float_t muY = 0.5*TMath::Log((particle->Energy()+particle->Pz()+1.e-13)/(particle->Energy()-particle->Pz()+1.e-13)); | |
261 | if (muM >= 0) { | |
d949b15e | 262 | TParticle *theMum = theStack->Particle(muM); |
263 | muM = theMum->GetPdgCode(); | |
d949b15e | 264 | muGM = theMum->GetFirstMother() ; |
265 | if (muGM >= 0){ | |
266 | TParticle *grandMa = theStack->Particle(muGM); | |
267 | muGM = grandMa->GetPdgCode(); | |
268 | } | |
269 | else muGM=0; | |
270 | } | |
271 | else muM=0; | |
53399039 | 272 | |
273 | if (muId==ResType) numberOfGeneratedResonances++; | |
274 | ||
275 | ||
d949b15e | 276 | Float_t muT = particle->Theta()*180/TMath::Pi(); |
277 | Float_t muE = particle->Eta(); | |
278 | ||
279 | Float_t muVx = particle->Vx(); | |
280 | Float_t muVy = particle->Vy(); | |
281 | Float_t muVz = particle->Vz(); | |
282 | ||
283 | // If a write error occurs, the number of bytes returned is -1. | |
284 | // If no data are written, because e.g. the branch is disabled, | |
285 | // the number of bytes returned is 0. | |
286 | Int_t errCode = Ktuple->Fill(iEvent,nparticles,muId,muM,muGM,muP,muPt,muY,muT,muE,muVx,muVy,muVz); | |
287 | if (PRINTLEVEL || errCode < 1) printf("iEvent %d,nparticles %d,muId %d,muM %d,muGM %d,muP %.2f,muPt %.2f,muY %.2f,muT %.2f,muE %.2f,muVx %.2f,muVy %.2f,muVz %.2f \n", iEvent,nparticles,muId,muM,muGM,muP,muPt,muY,muT,muE,muVx,muVy,muVz); | |
288 | ||
289 | } // End loop over particles | |
290 | ||
291 | ||
292 | ||
293 | // get the event summary data | |
294 | tree->GetEvent(iEvent); | |
295 | if (!esd) { | |
296 | Error("CheckESD", "no ESD object found for event %d", iEvent); | |
297 | return kFALSE; | |
298 | } | |
299 | ||
300 | Int_t triggerWord = esd->GetTrigger(); | |
301 | Int_t nTracks = (Int_t)esd->GetNumberOfMuonTracks() ; | |
302 | ||
303 | if (PRINTLEVEL > 0){ | |
304 | printf("\n Nb of events analysed: %d \n",iEvent); | |
305 | cout << " number of tracks: " << nTracks <<endl; | |
306 | } | |
307 | ||
308 | // loop over all reconstructed tracks (also first track of combination) | |
309 | for (Int_t iTrack = 0; iTrack < nTracks; iTrack++) { | |
310 | ||
311 | AliESDMuonTrack* muonTrack = esd->GetMuonTrack(iTrack); | |
312 | ||
313 | //if (PRINTLEVEL > 5) cout << "1st muonTrack->GetTrackID() : " << track1Id << endl; | |
314 | ||
315 | if(SELECT && track1Id) { | |
316 | particle = theStack->Particle(track1Id); | |
317 | track1PDGId = particle->GetPdgCode() ; | |
318 | track1MotherId = particle->GetFirstMother(); | |
319 | if (track1MotherId >=0 ) | |
320 | track1MotherPDGId = ((TParticle*) theStack->Particle(track1MotherId))->GetPdgCode(); | |
321 | if (PRINTLEVEL > 0) cout << "track1MotherPDGId = " << track1MotherPDGId << endl ; | |
322 | } | |
323 | ||
324 | // Trigger | |
325 | if (PRINTLEVEL > 5) cout << "MatchTrigger " << muonTrack->GetMatchTrigger() << " and Chi2 of matching tracks " << track1TriggerChi2 << endl ; | |
326 | track1Trigger = muonTrack->GetMatchTrigger(); | |
327 | if (track1Trigger) | |
328 | track1TriggerChi2 = muonTrack->GetChi2MatchTrigger(); | |
329 | else | |
330 | track1TriggerChi2 = 0. ; | |
331 | ||
332 | thetaX = muonTrack->GetThetaX(); | |
333 | thetaY = muonTrack->GetThetaY(); | |
334 | ||
335 | pYZ = 1./TMath::Abs(muonTrack->GetInverseBendingMomentum()); | |
336 | fPzRec1 = - pYZ / TMath::Sqrt(1.0 + TMath::Tan(thetaY)*TMath::Tan(thetaY)); | |
337 | fPxRec1 = fPzRec1 * TMath::Tan(thetaX); | |
338 | fPyRec1 = fPzRec1 * TMath::Tan(thetaY); | |
339 | fCharge1 = Int_t(TMath::Sign(1.,muonTrack->GetInverseBendingMomentum())); | |
340 | ||
53399039 | 341 | fE1 = TMath::Sqrt(MUON_MASS * MUON_MASS + fPxRec1 * fPxRec1 + fPyRec1 * fPyRec1 + fPzRec1 * fPzRec1); |
d949b15e | 342 | fV1.SetPxPyPzE(fPxRec1, fPyRec1, fPzRec1, fE1); |
343 | ||
344 | ntrackhits = muonTrack->GetNHit(); | |
345 | fitfmin = muonTrack->GetChi2(); | |
346 | ||
347 | // transverse momentum | |
348 | Float_t pt1 = fV1.Pt(); | |
349 | ||
350 | // total momentum | |
351 | Float_t p1 = fV1.P(); | |
352 | ||
353 | // Rapidity | |
354 | Float_t rapMuon1 = fV1.Rapidity(); | |
355 | ||
356 | // chi2 per d.o.f. | |
357 | ||
358 | Float_t ch1 = fitfmin / (2.0 * ntrackhits - 5); | |
359 | if (PRINTLEVEL > 5 ) printf(" px %f py %f pz %f pt %f NHits %d Norm.chi2 %f charge %d\n",fPxRec1, fPyRec1, fPzRec1, pt1, ntrackhits, ch1, fCharge1); | |
360 | ||
361 | ||
362 | if ((ch1 < Chi2Cut) && (pt1 > PtCutMin) && (pt1 < PtCutMax)) { // condition for good track (Chi2Cut and PtCut) | |
363 | if (PRINTLEVEL > 8) cout << "inside pt and chi2 cuts " << endl ; | |
364 | ||
365 | // fill histos hPtMuon and hChi2PerDof | |
366 | hPtMuon->Fill(pt1); | |
367 | hPMuon->Fill(p1); | |
368 | hChi2PerDof->Fill(ch1); | |
369 | hRapMuon->Fill(rapMuon1); | |
370 | ||
371 | if (fCharge1 > 0) { | |
372 | hPtMuonPlus->Fill(pt1); | |
373 | hThetaPhiPlus->Fill(TMath::ATan2(fPyRec1,fPxRec1)*180./TMath::Pi(),TMath::ATan2(pt1,fPzRec1)*180./3.1415); | |
374 | } else { | |
375 | hPtMuonMinus->Fill(pt1); | |
376 | hThetaPhiMinus->Fill(TMath::ATan2(fPyRec1,fPxRec1)*180./TMath::Pi(),TMath::ATan2(pt1,fPzRec1)*180./3.1415); | |
377 | } | |
378 | ||
379 | // loop over second track of combination | |
380 | for (Int_t iTrack2 = iTrack + 1; iTrack2 < nTracks; iTrack2++) { | |
381 | ||
382 | AliESDMuonTrack* muonTrack = esd->GetMuonTrack(iTrack2); | |
383 | //Int_t track2Id = muonTrack->GetTrackID(); | |
384 | //if (PRINTLEVEL > 5) cout << "2nd muonTrack->GetTrackID() : " << track2Id << endl; | |
385 | ||
386 | if(SELECT && track2Id) { | |
387 | particle = theStack->Particle(track2Id); | |
388 | track2PDGId = particle->GetPdgCode(); | |
389 | track2MotherId = particle->GetFirstMother(); | |
390 | if (track2MotherId >=0 ) | |
391 | track2MotherPDGId = ((TParticle*) theStack->Particle(track2MotherId))->GetPdgCode(); | |
392 | } | |
393 | ||
394 | track2Trigger = muonTrack->GetMatchTrigger(); | |
395 | if (track2Trigger) | |
396 | track2TriggerChi2 = muonTrack->GetChi2MatchTrigger(); | |
397 | else | |
398 | track2TriggerChi2 = 0. ; | |
399 | ||
400 | thetaX = muonTrack->GetThetaX(); | |
401 | thetaY = muonTrack->GetThetaY(); | |
402 | ||
403 | pYZ = 1./TMath::Abs(muonTrack->GetInverseBendingMomentum()); | |
404 | fPzRec2 = - pYZ / TMath::Sqrt(1.0 + TMath::Tan(thetaY)*TMath::Tan(thetaY)); | |
405 | fPxRec2 = fPzRec2 * TMath::Tan(thetaX); | |
406 | fPyRec2 = fPzRec2 * TMath::Tan(thetaY); | |
407 | fCharge2 = Int_t(TMath::Sign(1.,muonTrack->GetInverseBendingMomentum())); | |
408 | ||
53399039 | 409 | fE2 = TMath::Sqrt(MUON_MASS * MUON_MASS + fPxRec2 * fPxRec2 + fPyRec2 * fPyRec2 + fPzRec2 * fPzRec2); |
d949b15e | 410 | fV2.SetPxPyPzE(fPxRec2, fPyRec2, fPzRec2, fE2); |
411 | ||
412 | ntrackhits = muonTrack->GetNHit(); | |
413 | fitfmin = muonTrack->GetChi2(); | |
414 | ||
415 | // transverse momentum | |
416 | Float_t pt2 = fV2.Pt(); | |
417 | ||
418 | // chi2 per d.o.f. | |
419 | Float_t ch2 = fitfmin / (2.0 * ntrackhits - 5); | |
420 | ||
421 | if (PRINTLEVEL > 5) cout << "track1MotherId : "<< track1MotherId << " track2MotherId : " << track2MotherId << endl ; | |
422 | if (PRINTLEVEL > 5) cout << "track1MotherPDGId : " << track1MotherPDGId << " track2MotherPDGId : " << track2MotherPDGId << endl ; | |
423 | ||
424 | // Select Condition | |
425 | if (!SELECT || (track2MotherId == track1MotherId && track2MotherPDGId == ResType && TMath::Abs(track1PDGId)==13 && TMath::Abs(track2PDGId)==13 )) { | |
426 | ||
427 | // condition for good track (Chi2Cut and PtCut) | |
428 | if ((ch2 < Chi2Cut) && (pt2 > PtCutMin) && (pt2 < PtCutMax)) { | |
429 | ||
430 | // condition for opposite charges | |
431 | if ((fCharge1 * fCharge2) == -1) { | |
432 | ||
433 | if (PRINTLEVEL > 8) cout << "---------> Now filling the Ntuple " << endl ; | |
434 | ||
435 | // invariant mass | |
436 | fVtot = fV1 + fV2; | |
437 | Float_t invMass = fVtot.M(); | |
438 | ||
439 | if (fCharge1 < 0){ //mu_minus is index 1 in the ntuple | |
440 | Float_t ESDFill[16] = {iEvent,triggerWord,fVtot.Pt(),fVtot.Rapidity(),fVtot.Theta()/TMath::Pi()*180,invMass,fV1.Pt(),fV1.Rapidity(),fV1.Theta()/TMath::Pi()*180,fCharge1,track1TriggerChi2,fV2.Pt(),fV2.Rapidity(),fV2.Theta()/TMath::Pi()*180,fCharge2,track2TriggerChi2}; | |
441 | ESDtuple->Fill(ESDFill); | |
442 | } | |
443 | else{ | |
444 | Float_t ESDFill[16] = {iEvent,triggerWord,fVtot.Pt(),fVtot.Rapidity(),fVtot.Theta()/TMath::Pi()*180,invMass,fV2.Pt(),fV2.Rapidity(),fV2.Theta()/TMath::Pi()*180,fCharge2,track2TriggerChi2,fV1.Pt(),fV1.Rapidity(),fV1.Theta()/TMath::Pi()*180,fCharge1,track1TriggerChi2}; | |
445 | ESDtuple->Fill(ESDFill); | |
446 | } | |
447 | ||
448 | // fill histos hInvMassAll and hInvMassRes | |
449 | hInvMassAll->Fill(invMass); | |
450 | hInvMassRes->Fill(invMass); | |
451 | hInvMassAll_vs_Pt->Fill(invMass,fVtot.Pt()); | |
53399039 | 452 | |
453 | //trigger info | |
454 | if (ResType == 553) | |
455 | ptTrig = 0x400;// mask for Hpt unlike sign pair | |
456 | else if (ResType == 443) | |
457 | ptTrig = 0x800;// mask for Apt unlike sign pair | |
458 | else | |
459 | ptTrig = 0x200;// mask for Lpt unlike sign pair | |
460 | ||
461 | ||
462 | if (esd->GetTrigger() & ptTrig) NbTrigger++; | |
463 | ||
464 | if (invMass > invMassMinInPeak && invMass < invMassMaxInPeak) { | |
d949b15e | 465 | EventInMass++; |
466 | hRapResonance->Fill(fVtot.Rapidity()); | |
467 | hPtResonance->Fill(fVtot.Pt()); | |
53399039 | 468 | |
469 | // match with trigger | |
470 | if (muonTrack->GetMatchTrigger() && (esd->GetTrigger() & ptTrig)) EventInMassMatch++; | |
471 | ||
d949b15e | 472 | } |
473 | ||
474 | } // if (fCharge1 * fCharge2) == -1) | |
475 | } // if ((ch2 < Chi2Cut) && (pt2 > PtCutMin) && (pt2 < PtCutMax)) | |
476 | } // if (track2MotherId == track1MotherId && track2MotherPDGId == ResType) | |
477 | } // for (Int_t iTrack2 = iTrack + 1; iTrack2 < iTrack; iTrack2++) | |
478 | } // if (ch1 < Chi2Cut) && (pt1 > PtCutMin)&& (pt1 < PtCutMax) ) | |
479 | } // for (Int_t iTrack = 0; iTrack < nrectracks; iTrack++) | |
480 | ||
481 | hNumberOfTrack->Fill(nTracks); | |
482 | // esdFile->Delete(); | |
483 | ||
484 | } // End of event loop | |
485 | ||
486 | ||
487 | // Loop over events for bg event | |
488 | ||
489 | Double_t thetaPlus, phiPlus; | |
490 | Double_t thetaMinus, phiMinus; | |
491 | Float_t PtMinus, PtPlus; | |
492 | ||
493 | for (Int_t iEvent = 0; iEvent < hInvMassAll->Integral(); iEvent++) { // Loop over events for bg event | |
53399039 | 494 | // according to Christian a 3d phi-theta-pt random pick would take better care |
d949b15e | 495 | // of all correlations |
496 | ||
497 | hThetaPhiPlus->GetRandom2(phiPlus, thetaPlus); | |
498 | hThetaPhiMinus->GetRandom2(phiMinus,thetaMinus); | |
499 | PtPlus = hPtMuonPlus->GetRandom(); | |
500 | PtMinus = hPtMuonMinus->GetRandom(); | |
501 | ||
502 | fPxRec1 = PtPlus * TMath::Cos(TMath::Pi()/180.*phiPlus); | |
503 | fPyRec1 = PtPlus * TMath::Sin(TMath::Pi()/180.*phiPlus); | |
504 | fPzRec1 = PtPlus / TMath::Tan(TMath::Pi()/180.*thetaPlus); | |
505 | ||
53399039 | 506 | fE1 = TMath::Sqrt(MUON_MASS * MUON_MASS + fPxRec1 * fPxRec1 + fPyRec1 * fPyRec1 + fPzRec1 * fPzRec1); |
d949b15e | 507 | fV1.SetPxPyPzE(fPxRec1, fPyRec1, fPzRec1, fE1); |
508 | ||
509 | fPxRec2 = PtMinus * TMath::Cos(TMath::Pi()/180.*phiMinus); | |
510 | fPyRec2 = PtMinus * TMath::Sin(TMath::Pi()/180.*phiMinus); | |
511 | fPzRec2 = PtMinus / TMath::Tan(TMath::Pi()/180.*thetaMinus); | |
512 | ||
53399039 | 513 | fE2 = TMath::Sqrt(MUON_MASS * MUON_MASS + fPxRec2 * fPxRec2 + fPyRec2 * fPyRec2 + fPzRec2 * fPzRec2); |
d949b15e | 514 | fV2.SetPxPyPzE(fPxRec2, fPyRec2, fPzRec2, fE2); |
515 | ||
516 | // invariant mass | |
517 | fVtot = fV1 + fV2; | |
518 | ||
519 | // fill histos hInvMassAll and hInvMassRes | |
520 | hInvMassBg->Fill(fVtot.M()); | |
521 | hInvMassBgk_vs_Pt->Fill( fVtot.M(), fVtot.Pt() ); | |
522 | ||
523 | // Ntuple for background... more convenient | |
524 | ESDtupleBck->Fill(iEvent,fVtot.Pt(),fVtot.Rapidity(),fVtot.Theta()/TMath::Pi()*180,fVtot.M(),fV2.Pt(),fV2.Rapidity(),fV2.Theta()/TMath::Pi()*180,fV1.Pt(),fV1.Rapidity(),fV1.Theta()/TMath::Pi()*180); | |
525 | ||
526 | } // End loop over events for background | |
527 | ||
528 | ||
529 | // File for histograms and histogram booking | |
530 | TString outfilename = "MUONefficiency.root"; | |
53399039 | 531 | TFile *ntupleFile = new TFile(outfilename.Data(), "RECREATE"); |
d949b15e | 532 | |
533 | Ktuple->Write(); | |
534 | ESDtuple->Write(); | |
53399039 | 535 | ESDtupleBck->Write(); |
536 | ||
537 | ntupleFile->Close(); | |
d949b15e | 538 | |
53399039 | 539 | TFile *histoFile = new TFile("MUONhistos.root", "RECREATE"); |
540 | hPtMuon->Write(); | |
541 | hPtMuonPlus->Write(); | |
542 | hPtMuonMinus->Write(); | |
543 | hPMuon->Write(); | |
544 | hChi2PerDof->Write(); | |
545 | hInvMassAll->Write(); | |
546 | hInvMassBg->Write(); | |
547 | hInvMassAll_vs_Pt ->Write(); | |
548 | hInvMassBgk_vs_Pt->Write(); | |
549 | hInvMassRes->Write(); | |
550 | hNumberOfTrack->Write(); | |
551 | hRapMuon ->Write(); | |
552 | hRapResonance ->Write(); | |
553 | hPtResonance ->Write(); | |
554 | hThetaPhiPlus ->Write(); | |
555 | hThetaPhiMinus ->Write(); | |
d949b15e | 556 | histoFile->Close(); |
53399039 | 557 | |
558 | cout << "" << endl ; | |
559 | cout << "*************************************************" << endl; | |
560 | ||
561 | cout << "MUONefficiency : " << nprocessedevents << " events processed" << endl; | |
562 | if (ResType==443) | |
563 | cout << "Number of generated J/Psi (443) : " << numberOfGeneratedResonances << endl ; | |
564 | if (ResType==553) | |
565 | cout << "Number of generated Upsilon (553) :" << numberOfGeneratedResonances << endl ; | |
566 | cout << "Chi2Cut for muon tracks = " << Chi2Cut << endl; | |
567 | cout << "PtCutMin for muon tracks = " << PtCutMin << endl; | |
568 | cout << "PtCutMax for muon tracks = " << PtCutMax << endl; | |
569 | cout << "Entries (unlike sign dimuons) in the mass range ["<<invMassMinInPeak<<";"<<invMassMaxInPeak<<"] : " << EventInMass <<endl; | |
570 | if (ptTrig==0x800) cout << "Unlike Pair - All Pt" ; | |
571 | if (ptTrig==0x400) cout << "Unlike Pair - High Pt" ; | |
572 | if (ptTrig==0x200) cout << "Unlike Pair - Low Pt" ; | |
573 | cout << " triggers : " << NbTrigger << endl; | |
d949b15e | 574 | |
53399039 | 575 | cout << "Entries in the mass range with matching between reconstructed tracks and trigger tracks " << EventInMassMatch << endl; |
576 | ||
d949b15e | 577 | |
578 | return kTRUE; | |
579 | } | |
580 |