DQM configure file
[u/mrichter/AliRoot.git] / MUON / AliMUONTrackLight.cxx
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55fd51b0 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
b88403f3 3 * SigmaEffect_thetadegrees *
55fd51b0 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 purpeateose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16/* $Id$ */
17
3d1463c8 18//-----------------------------------------------------------------------------
55fd51b0 19// Compact information for the muon generated tracks in the MUON arm
20// useful at the last stage of the analysis chain
21// provides a link between the reconstructed track and the generated particle
22// stores kinematical information at gen. and rec. level and
23// the decay history of the muon, allowing the identification of the
24// mother process
25//
26// To be used together with AliMUONPairLight
3d1463c8 27//
28// This class was prepared by INFN Cagliari, July 2006
29// (authors: H.Woehri, A.de Falco)
30//-----------------------------------------------------------------------------
55fd51b0 31
9bdda5f6 32// 13 Nov 2007:
33// Added a temporary fix to FindRefTrack to be able to handle reconstructed tracks
34// generated from ESD muon track information. The problem is that the ESD data at
35// the moment only contains the first hit on chamber 1. Hopefully in the near future
36// this will be fixed and all hit information will be available.
37// - Artur Szostak <artursz@iafrica.com>
38
55fd51b0 39#include "AliMUONTrackLight.h"
40#include "AliMUONTrack.h"
41#include "AliMUONConstants.h"
bd5eb041 42#include "AliMUONVTrackStore.h"
933daf4c 43#include "AliMUONTrackParam.h"
55fd51b0 44
45#include "AliESDMuonTrack.h"
55fd51b0 46#include "AliStack.h"
f202486b 47#include "AliLog.h"
55fd51b0 48
49#include "TDatabasePDG.h"
55fd51b0 50#include "TParticle.h"
51#include "TString.h"
52
b785c4bd 53#include <cstdio>
54
55fd51b0 55ClassImp(AliMUONTrackLight)
56
57//===================================================================
58
59AliMUONTrackLight::AliMUONTrackLight()
60 : TObject(),
61 fPrec(),
62 fIsTriggered(kFALSE),
63 fCharge(-999),
b88403f3 64 fChi2(-1),
55fd51b0 65 fCentr(-1),
66 fPgen(),
67 fTrackPythiaLine(-999),
68 fTrackPDGCode(-999),
69 fOscillation(kFALSE),
b88403f3 70 fNParents(0),
71 fWeight(1)
55fd51b0 72{
73 /// default constructor
74 fPgen.SetPxPyPzE(0.,0.,0.,0.);
75 fPrec.SetPxPyPzE(0.,0.,0.,0.);
76 for (Int_t i=0; i<3; i++) fXYZ[i]=-999;
77 for (Int_t npar = 0; npar < fgkNParentsMax; npar++){
78 fParentPDGCode[npar] = -1;
79 fParentPythiaLine[npar] = -1;
80 }
81 for (Int_t i = 0; i < 4; i++){
82 fQuarkPDGCode[i] = -1;
83 fQuarkPythiaLine[i] = -1;
84 }
85}
86
87//============================================
88AliMUONTrackLight::AliMUONTrackLight(const AliMUONTrackLight &muonCopy)
89 : TObject(muonCopy),
90 fPrec(muonCopy.fPrec),
91 fIsTriggered(muonCopy.fIsTriggered),
92 fCharge(muonCopy.fCharge),
b88403f3 93 fChi2(muonCopy.fChi2),
55fd51b0 94 fCentr(muonCopy.fCentr),
95 fPgen(muonCopy.fPgen),
96 fTrackPythiaLine(muonCopy.fTrackPythiaLine),
97 fTrackPDGCode(muonCopy.fTrackPDGCode),
98 fOscillation(muonCopy.fOscillation),
b88403f3 99 fNParents(muonCopy.fNParents),
100 fWeight(muonCopy.fWeight)
55fd51b0 101{
102 /// copy constructor
103 for (Int_t i=0; i<3; i++) fXYZ[i]=muonCopy.fXYZ[i];
104 for (Int_t npar = 0; npar < fgkNParentsMax; npar++){
105 fParentPDGCode[npar] = muonCopy.fParentPDGCode[npar];
106 fParentPythiaLine[npar] = muonCopy.fParentPythiaLine[npar];
107 }
108 for (Int_t i = 0; i < 4; i++){
109 fQuarkPDGCode[i] = muonCopy.fQuarkPDGCode[i];
110 fQuarkPythiaLine[i] = muonCopy.fQuarkPythiaLine[i];
111 }
112}
113
114//============================================
115AliMUONTrackLight::AliMUONTrackLight(AliESDMuonTrack* muonTrack)
116 : TObject(),
117 fPrec(),
118 fIsTriggered(kFALSE),
119 fCharge(-999),
b88403f3 120 fChi2(-1),
55fd51b0 121 fCentr(-1),
122 fPgen(),
123 fTrackPythiaLine(-999),
124 fTrackPDGCode(-999),
125 fOscillation(kFALSE),
b88403f3 126 fNParents(0),
127 fWeight(1)
55fd51b0 128{
129 /// constructor
f202486b 130 fPgen.SetPxPyPzE(0.,0.,0.,0.);
131 for (Int_t npar = 0; npar < fgkNParentsMax; npar++){
132 fParentPDGCode[npar] = -1;
133 fParentPythiaLine[npar] = -1;
134 }
135 for (Int_t i = 0; i < 4; i++){
136 fQuarkPDGCode[i] = -1;
137 fQuarkPythiaLine[i] = -1;
138 }
139 FillFromESD(muonTrack);
55fd51b0 140}
141
142//============================================
b88403f3 143AliMUONTrackLight::~AliMUONTrackLight()
144{
145/// Destructor
146}
147
148//============================================
e733e3dd 149AliMUONTrackLight& AliMUONTrackLight::operator=(const AliMUONTrackLight& muonCopy)
150{
151 // check assignment to self
152 if (this == &muonCopy) return *this;
153
154 // base class assignment
155 TObject::operator=(muonCopy);
156
157 // assignment operator
158 fPrec = muonCopy.fPrec;
159 fIsTriggered = muonCopy.fIsTriggered;
160 fCharge = muonCopy.fCharge;
161 fChi2 = muonCopy.fChi2;
162 fCentr = muonCopy.fCentr;
163 fPgen = muonCopy.fPgen;
164 fTrackPythiaLine = muonCopy.fTrackPythiaLine;
165 fTrackPDGCode = muonCopy.fTrackPDGCode;
166 fOscillation = muonCopy.fOscillation;
167 fNParents = muonCopy.fNParents;
168 fWeight = muonCopy.fWeight;
169
170 for (Int_t i=0; i<3; i++) fXYZ[i]=muonCopy.fXYZ[i];
171 for (Int_t npar = 0; npar < fgkNParentsMax; npar++){
172 fParentPDGCode[npar] = muonCopy.fParentPDGCode[npar];
173 fParentPythiaLine[npar] = muonCopy.fParentPythiaLine[npar];
174 }
175 for (Int_t i = 0; i < 4; i++){
176 fQuarkPDGCode[i] = muonCopy.fQuarkPDGCode[i];
177 fQuarkPythiaLine[i] = muonCopy.fQuarkPythiaLine[i];
178 }
72421d27 179
180 return *this;
e733e3dd 181}
182
183//============================================
b88403f3 184
185void AliMUONTrackLight::FillFromAliMUONTrack(AliMUONTrack *trackReco,Double_t zvert){
186 /// this method sets the muon reconstructed momentum according to the value given by AliMUONTrack
f202486b 187 AliMUONTrackParam* trPar = trackReco->GetTrackParamAtVertex();
188 if (!trPar) {
189 AliError("The track must contain the parameters at vertex");
190 return;
61fed964 191 }
f202486b 192 this->SetCharge(Int_t(TMath::Sign(1.,trPar->GetInverseBendingMomentum())));
193 this->SetPxPyPz(trPar->Px(),trPar->Py(), trPar->Pz());
b88403f3 194 this->SetTriggered(trackReco->GetMatchTrigger());
195
f202486b 196 Double_t xyz[3] = { trPar->GetNonBendingCoor(),
197 trPar->GetBendingCoor(),
198 trPar->GetZ()};
61fed964 199 if (zvert!=-9999) xyz[2] = zvert;
b88403f3 200 this->SetVertex(xyz);
201}
202
203//============================================
204void AliMUONTrackLight::FillFromESD(AliESDMuonTrack* muonTrack,Double_t zvert){
55fd51b0 205 /// computes prec and charge from ESD track
206 Double_t mumass = TDatabasePDG::Instance()->GetParticle(13)->Mass();
207 Double_t thetaX = muonTrack->GetThetaX();
208 Double_t thetaY = muonTrack->GetThetaY();
209 Double_t tanthx = TMath::Tan(thetaX);
210 Double_t tanthy = TMath::Tan(thetaY);
211 Double_t pYZ = 1./TMath::Abs(muonTrack->GetInverseBendingMomentum());
212 Double_t pz = - pYZ / TMath::Sqrt(1.0 + tanthy * tanthy);
213 Double_t px = pz * tanthx;
214 Double_t py = pz * tanthy;
215 fCharge = Int_t(TMath::Sign(1.,muonTrack->GetInverseBendingMomentum()));
216 Double_t energy = TMath::Sqrt(mumass * mumass + px*px + py*py + pz*pz);
217 fPrec.SetPxPyPzE(px,py,pz,energy);
b88403f3 218 // get the position
219 fXYZ[0] = muonTrack->GetNonBendingCoor();
220 fXYZ[1] = muonTrack->GetBendingCoor();
221 if (zvert==-9999) fXYZ[2] = muonTrack->GetZ();
222 else fXYZ[2] = zvert;
223 // get the chi2 per d.o.f.
224 fChi2 = muonTrack->GetChi2()/ (2.0 * muonTrack->GetNHit() - 5);
225 fIsTriggered = muonTrack->GetMatchTrigger();
55fd51b0 226}
227
228//============================================
229void AliMUONTrackLight::SetPxPyPz(Double_t px, Double_t py, Double_t pz){
230 /// set the reconstructed 4-momentum, assuming the particle is a muon
231 Double_t mumass = TDatabasePDG::Instance()->GetParticle(13)->Mass();
232 Double_t energy = TMath::Sqrt(mumass * mumass + px*px + py*py + pz*pz);
233 fPrec.SetPxPyPzE(px,py,pz,energy);
234}
235
236//============================================
b88403f3 237void AliMUONTrackLight::FillMuonHistory(AliStack *stack, TParticle *part){
238 /// scans the muon history to determine parents pdg code and pythia line
55fd51b0 239 Int_t countP = -1;
240 Int_t parents[10], parLine[10];
241 Int_t lineM = part->GetFirstMother();//line in the Pythia output of the particle's mother
242
55fd51b0 243 TParticle *mother;
244 Int_t status=-1, pdg=-1;
245 while(lineM >= 0){
b88403f3 246
55fd51b0 247 mother = stack->Particle(lineM); //direct mother of rec. track
248 pdg = mother->GetPdgCode();//store PDG code of first mother
b88403f3 249 // break if a string, gluon, quark or diquark is found
250 if(pdg == 92 || pdg == 21 || TMath::Abs(pdg) < 10 || IsDiquark(pdg)) break;
55fd51b0 251 parents[++countP] = pdg;
252 parLine[countP] = lineM;
253 status = mother->GetStatusCode();//get its status code to check if oscillation occured
254 if(IsB0(parents[countP]) && status == 12) this->SetOscillation(kTRUE);
255 lineM = mother->GetFirstMother();
256 }
257 //store all the fragmented parents in an array:
258 for(int i = 0; i <= countP; i++){
259 this->SetParentPDGCode(i,parents[countP-i]);
260 this->SetParentPythiaLine(i,parLine[countP-i]);
261 }
55fd51b0 262 fNParents = countP+1;
263 countP = -1;
b88403f3 264
55fd51b0 265 //and store the lines of the string and further quarks in another array:
266 while(lineM >= 0){
267 mother = stack->Particle(lineM);
268 pdg = mother->GetPdgCode();
269 //now, get information before the fragmentation
270 this->SetQuarkPythiaLine(++countP, lineM);//store the line of the string in index 0
271 this->SetQuarkPDGCode(countP, pdg);//store the pdg of the quarks in index 1,2
272 lineM = mother->GetFirstMother();
273 }
b88403f3 274
55fd51b0 275 //check if in case of HF production, the string points to the correct end
276 //and correct it in case of need:
277 countP = 1;
b88403f3 278 for(int par = 0; par < 4; par++){
279 if(TMath::Abs(this->GetQuarkPDGCode(par)) < 6){
280 countP = par; //get the quark just before hadronisation
281 break;
282 }
283 }
55fd51b0 284 if(this->GetQuarkPythiaLine(countP) > -1 && (this->GetParentFlavour(0)==4 || this->GetParentFlavour(0)==5)){
285 if(this->GetParentFlavour(0) != TMath::Abs(this->GetQuarkPDGCode(countP))){
286
9bdda5f6 287 AliWarning(Form("quark flavour of parent and that of quark do not correspond: %d %d --> correcting\n",
288 this->GetParentFlavour(0), TMath::Abs(this->GetQuarkPDGCode(countP)))
289 );
290
7cdc832b 291 pdg = this->GetQuarkPDGCode(countP);
292 Int_t line = this->GetQuarkPythiaLine(countP);
55fd51b0 293 this->ResetQuarkInfo();
294 while(TMath::Abs(pdg) != this->GetParentFlavour(0)){//pdg of q,g in Pythia listing following the wrong string end
295 //must coincide with the flavour of the last fragmented mother
296
297 pdg = stack->Particle(++line)->GetPdgCode();
298 }
299 //now, we have the correct string end and the correct line
300 //continue to fill again all parents and corresponding lines
301 while(line >= 0){
302 mother = stack->Particle(line);//get again the mother
303 pdg = mother->GetPdgCode();
304 this->SetQuarkPythiaLine(countP, line);
305 this->SetQuarkPDGCode(countP++, pdg);
306 line = mother->GetFirstMother();
307 }
b88403f3 308 this->PrintInfo("h");
309 }//mismatch
55fd51b0 310 }
311}
b88403f3 312
55fd51b0 313//====================================
314void AliMUONTrackLight::ResetQuarkInfo(){
315 /// resets parton information
316 for(int pos = 1; pos < 4; pos++){//[0] is the string
317 this->SetQuarkPDGCode(pos,-1);
318 this->SetQuarkPythiaLine(pos,-1);
319 }
320}
321
322//====================================
323Bool_t AliMUONTrackLight::IsB0(Int_t intTest) const {
324 /// checks if the particle is a B0
325 Int_t bMes0[2] = {511,531};//flavour code of B0d and B0s
326 Bool_t answer = kFALSE;
327 for(int i = 0; i < 2; i++){
328 if(TMath::Abs(intTest) == bMes0[i]){
329 answer = kTRUE;
330 break;
331 }
332 }
333 return answer;
334}
335//====================================
336Bool_t AliMUONTrackLight::IsMotherAResonance(Int_t index) const {
337 /// checks if mother is a resonance
338 Int_t intTest = GetParentPDGCode(index);
339 // the resonance pdg code is built this way
340 // x00ffn where x=0,1,.. (1S,2S... states), f=quark flavour
341 Int_t id=intTest%100000;
342 return (!((id-id%10)%110));
343}
344//====================================
345Int_t AliMUONTrackLight::GetParentFlavour(Int_t idParent) const {
346 /// returns the flavour of parent idParent (idParent=0 is the oldest
347 /// hadronized parent)
348 Int_t pdg = GetParentPDGCode(idParent);
349 Int_t quark = TMath::Abs(pdg/100);
350 if(quark > 9) quark = quark/10;
351 return quark;
352}
353
354//====================================
57e2ad1a 355void AliMUONTrackLight::PrintInfo(const Option_t* opt){
55fd51b0 356 /// prints information about the track:
357 /// - "H" muon's decay history
358 /// - "K" muon kinematics
359 /// - "A" all variables
360 TString options(opt);
361 options.ToUpper();
362
363 if(options.Contains("H") || options.Contains("A")){ //muon decay history
364 char *name= new char[100];
365 TString pdg = "", line = "";
366 for(int i = 3; i >= 0; i--){
367 if(this->GetQuarkPythiaLine(i)>= 0){
b785c4bd 368 snprintf(name, 100, "%4d --> ", this->GetQuarkPythiaLine(i));
55fd51b0 369 line += name;
b785c4bd 370 snprintf(name, 100, "%4d --> ", this->GetQuarkPDGCode(i));
55fd51b0 371 pdg += name;
372 }
373 }
374 for(int i = 0; i < fNParents; i++){
375 if(this->GetParentPythiaLine(i)>= 0){
b785c4bd 376 snprintf(name, 100, "%7d --> ", this->GetParentPythiaLine(i));
55fd51b0 377 line += name;
b785c4bd 378 snprintf(name, 100, "%7d --> ", this->GetParentPDGCode(i));
55fd51b0 379 pdg += name;
380 }
381 }
b785c4bd 382 snprintf(name, 100, "%4d", this->GetTrackPythiaLine()); line += name;
383 snprintf(name, 100, "%4d", this->GetTrackPDGCode()); pdg += name;
55fd51b0 384
385 printf("\nmuon's decay history:\n");
386 printf(" PDG: %s\n", pdg.Data());
387 printf("line: %s\n", line.Data());
388 }
389 if(options.Contains("K") || options.Contains("A")){ //muon kinematic
390
391 Int_t charge = this->GetCharge();
392 Double_t *vtx = this->GetVertex();
393 TLorentzVector momRec = this->GetPRec();
394 TLorentzVector momGen = this->GetPGen();
395 printf("the track's charge is %d\n", charge);
396 printf("Primary vertex: Vx = %1.3f, Vy = %1.3f, Vz = %1.3f\n", vtx[0], vtx[1], vtx[2]);
397 printf("Generated: Px = %1.3f, Py = %1.3f, Pz = %1.3f\n", momGen.Px(), momGen.Py(), momGen.Pz());
398 printf("Reconstructed: Px = %1.3f, Py = %1.3f, Pz = %1.3f\n", momRec.Px(), momRec.Py(), momRec.Pz());
399 printf("Rec. variables: pT %1.3f, pseudo-rapidity %1.3f, theta %1.3f (%1.3f degree), phi %1.3f (%1.3f degree)\n",
400 momRec.Pt(), momRec.Eta(), momRec.Theta(), 180./TMath::Pi() * momRec.Theta(),
401 momRec.Phi(), 180./TMath::Pi() * momRec.Phi());
402 }
403}
b88403f3 404//====================================
405Bool_t AliMUONTrackLight::IsParentPionOrKaon(Int_t idparent){
406 /// checks if a muon comes from a pion or kaon or a particle that decays into one of these two
407 Int_t pdg = this->GetParentPDGCode(idparent);
408 if (TMath::Abs(pdg)==211 || //pi+
409 TMath::Abs(pdg)==321 || //K+
410 TMath::Abs(pdg)==213 || //rho+
411 TMath::Abs(pdg)==311 || //K0
412 TMath::Abs(pdg)==313 || //K*0
413 TMath::Abs(pdg)==323 //K*+
414 ) {
415 return kTRUE;
416 }
417 else return kFALSE;
418}
419//====================================
9ee1d6ff 420Bool_t AliMUONTrackLight::IsDiquark(Int_t pdg) const{
b88403f3 421 /// check if the provided pdg code corresponds to a diquark
422 pdg = TMath::Abs(pdg);
423 if((pdg > 1000) && (pdg%100 < 10)) return kTRUE;
424 else return kFALSE;
425}