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7de7497b | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-2006, 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 | ///////////////////////////////////////////////////////////// | |
17 | // | |
18 | // Base class for AOD reconstructed decay | |
19 | // | |
20 | // Author: A.Dainese, andrea.dainese@lnl.infn.it | |
21 | ///////////////////////////////////////////////////////////// | |
22 | ||
23 | #include <TDatabasePDG.h> | |
24 | #include <TVector3.h> | |
ff7c57dd | 25 | #include "AliVParticle.h" |
7de7497b | 26 | #include "AliAODRecoDecay.h" |
27 | ||
28 | ClassImp(AliAODRecoDecay) | |
29 | ||
30 | //-------------------------------------------------------------------------- | |
31 | AliAODRecoDecay::AliAODRecoDecay() : | |
ff7c57dd | 32 | AliVParticle(), |
7de7497b | 33 | fSecondaryVtx(0x0), |
a11de4a0 | 34 | fOwnSecondaryVtx(0x0), |
7de7497b | 35 | fCharge(0), |
36 | fNProngs(0), fNDCA(0), fNPID(0), | |
37 | fPx(0x0), fPy(0x0), fPz(0x0), | |
38 | fd0(0x0), | |
39 | fDCA(0x0), | |
40 | fPID(0x0), | |
41 | fEventNumber(-1),fRunNumber(-1) | |
42 | { | |
43 | // | |
44 | // Default Constructor | |
45 | // | |
7de7497b | 46 | } |
47 | //-------------------------------------------------------------------------- | |
48 | AliAODRecoDecay::AliAODRecoDecay(AliAODVertex *vtx2,Int_t nprongs, | |
49 | Short_t charge, | |
50 | Double_t *px,Double_t *py,Double_t *pz, | |
51 | Double_t *d0) : | |
ff7c57dd | 52 | AliVParticle(), |
7de7497b | 53 | fSecondaryVtx(vtx2), |
a11de4a0 | 54 | fOwnSecondaryVtx(0x0), |
7de7497b | 55 | fCharge(charge), |
56 | fNProngs(nprongs), fNDCA(0), fNPID(0), | |
57 | fPx(0x0), fPy(0x0), fPz(0x0), | |
58 | fd0(0x0), | |
59 | fDCA(0x0), | |
60 | fPID(0x0), | |
61 | fEventNumber(-1),fRunNumber(-1) | |
62 | { | |
63 | // | |
64 | // Constructor with AliAODVertex for decay vertex | |
65 | // | |
66 | ||
67 | fPx = new Double_t[GetNProngs()]; | |
68 | fPy = new Double_t[GetNProngs()]; | |
69 | fPz = new Double_t[GetNProngs()]; | |
70 | fd0 = new Double_t[GetNProngs()]; | |
71 | for(Int_t i=0; i<GetNProngs(); i++) { | |
72 | fPx[i] = px[i]; | |
73 | fPy[i] = py[i]; | |
74 | fPz[i] = pz[i]; | |
75 | fd0[i] = d0[i]; | |
76 | } | |
77 | } | |
78 | //-------------------------------------------------------------------------- | |
79 | AliAODRecoDecay::AliAODRecoDecay(AliAODVertex *vtx2,Int_t nprongs, | |
80 | Short_t charge, | |
81 | Double_t *d0) : | |
ff7c57dd | 82 | AliVParticle(), |
7de7497b | 83 | fSecondaryVtx(vtx2), |
a11de4a0 | 84 | fOwnSecondaryVtx(0x0), |
7de7497b | 85 | fCharge(charge), |
86 | fNProngs(nprongs), fNDCA(0), fNPID(0), | |
87 | fPx(0x0), fPy(0x0), fPz(0x0), | |
88 | fd0(0x0), | |
89 | fDCA(0x0), | |
90 | fPID(0x0), | |
91 | fEventNumber(-1),fRunNumber(-1) | |
92 | { | |
93 | // | |
94 | // Constructor with AliAODVertex for decay vertex and without prongs momenta | |
95 | // | |
96 | ||
97 | fd0 = new Double_t[GetNProngs()]; | |
98 | for(Int_t i=0; i<GetNProngs(); i++) fd0[i] = d0[i]; | |
99 | } | |
100 | //-------------------------------------------------------------------------- | |
101 | AliAODRecoDecay::AliAODRecoDecay(const AliAODRecoDecay &source) : | |
ff7c57dd | 102 | AliVParticle(source), |
7de7497b | 103 | fSecondaryVtx(source.fSecondaryVtx), |
a11de4a0 | 104 | fOwnSecondaryVtx(source.fOwnSecondaryVtx), |
7de7497b | 105 | fCharge(source.fCharge), |
106 | fNProngs(source.fNProngs), fNDCA(source.fNDCA), fNPID(source.fNPID), | |
107 | fPx(0x0), fPy(0x0), fPz(0x0), | |
108 | fd0(0x0), | |
109 | fDCA(0x0), | |
110 | fPID(0x0), | |
111 | fEventNumber(source.fEventNumber),fRunNumber(source.fRunNumber) | |
112 | { | |
113 | // | |
114 | // Copy constructor | |
115 | // | |
116 | if(source.GetNProngs()>0) { | |
117 | fd0 = new Double_t[GetNProngs()]; | |
118 | memcpy(fd0,source.fd0,GetNProngs()*sizeof(Double_t)); | |
119 | if(source.fPx) { | |
120 | fPx = new Double_t[GetNProngs()]; | |
121 | fPy = new Double_t[GetNProngs()]; | |
122 | fPz = new Double_t[GetNProngs()]; | |
123 | memcpy(fPx,source.fPx,GetNProngs()*sizeof(Double_t)); | |
124 | memcpy(fPy,source.fPy,GetNProngs()*sizeof(Double_t)); | |
125 | memcpy(fPz,source.fPz,GetNProngs()*sizeof(Double_t)); | |
126 | } | |
127 | if(source.fPID) { | |
128 | fPID = new Double_t[5*GetNProngs()]; | |
129 | memcpy(fPID,source.fPID,GetNProngs()*sizeof(Double_t)); | |
130 | } | |
131 | if(source.fDCA) { | |
5cc73331 | 132 | fDCA = new Double_t[GetNProngs()*(GetNProngs()-1)/2]; |
133 | memcpy(fDCA,source.fDCA,(GetNProngs()*(GetNProngs()-1)/2)*sizeof(Double_t)); | |
7de7497b | 134 | } |
135 | } | |
136 | } | |
137 | //-------------------------------------------------------------------------- | |
138 | AliAODRecoDecay &AliAODRecoDecay::operator=(const AliAODRecoDecay &source) | |
139 | { | |
140 | // | |
141 | // assignment operator | |
142 | // | |
143 | if(&source == this) return *this; | |
144 | fSecondaryVtx = source.fSecondaryVtx; | |
a11de4a0 | 145 | fOwnSecondaryVtx = source.fOwnSecondaryVtx; |
7de7497b | 146 | fCharge = source.fCharge; |
147 | fNProngs = source.fNProngs; | |
148 | fNDCA = source.fNDCA; | |
149 | fNPID = source.fNPID; | |
150 | fEventNumber = source.fEventNumber; | |
151 | fRunNumber = source.fRunNumber; | |
152 | if(source.GetNProngs()>0) { | |
153 | fd0 = new Double_t[GetNProngs()]; | |
154 | memcpy(fd0,source.fd0,GetNProngs()*sizeof(Double_t)); | |
155 | if(source.fPx) { | |
156 | fPx = new Double_t[GetNProngs()]; | |
157 | fPy = new Double_t[GetNProngs()]; | |
158 | fPz = new Double_t[GetNProngs()]; | |
159 | memcpy(fPx,source.fPx,GetNProngs()*sizeof(Double_t)); | |
160 | memcpy(fPy,source.fPy,GetNProngs()*sizeof(Double_t)); | |
161 | memcpy(fPz,source.fPz,GetNProngs()*sizeof(Double_t)); | |
162 | } | |
163 | if(source.fPID) { | |
164 | fPID = new Double_t[5*GetNProngs()]; | |
165 | memcpy(fPID,source.fPID,GetNProngs()*sizeof(Double_t)); | |
166 | } | |
167 | if(source.fDCA) { | |
5cc73331 | 168 | fDCA = new Double_t[GetNProngs()*(GetNProngs()-1)/2]; |
169 | memcpy(fDCA,source.fDCA,(GetNProngs()*(GetNProngs()-1)/2)*sizeof(Double32_t)); | |
7de7497b | 170 | } |
171 | } | |
172 | return *this; | |
173 | } | |
174 | //-------------------------------------------------------------------------- | |
175 | AliAODRecoDecay::~AliAODRecoDecay() { | |
176 | // | |
177 | // Default Destructor | |
178 | // | |
a11de4a0 | 179 | if(fPx) { delete [] fPx; fPx=NULL; } |
180 | if(fPy) { delete [] fPy; fPy=NULL; } | |
181 | if(fPz) { delete [] fPz; fPz=NULL; } | |
182 | if(fd0) { delete [] fd0; fd0=NULL; } | |
183 | if(fPID) { delete [] fPID; fPID=NULL; } | |
184 | if(fDCA) { delete [] fDCA; fDCA=NULL; } | |
185 | if(fOwnSecondaryVtx) { delete fOwnSecondaryVtx; fOwnSecondaryVtx=NULL; } | |
7de7497b | 186 | } |
187 | //---------------------------------------------------------------------------- | |
188 | Double_t AliAODRecoDecay::Alpha() const | |
189 | { | |
190 | // | |
191 | // Armenteros-Podolanski alpha for 2-prong decays | |
192 | // | |
193 | if(GetNProngs()!=2) { | |
194 | printf("Can be called only for 2-prong decays"); | |
195 | return (Double_t)-99999.; | |
196 | } | |
197 | return 1.-2./(1.+QlProng(0)/QlProng(1)); | |
198 | } | |
199 | //---------------------------------------------------------------------------- | |
200 | Double_t AliAODRecoDecay::DecayLength(Double_t point[3]) const | |
201 | { | |
202 | // | |
203 | // Decay length assuming it is produced at "point" [cm] | |
204 | // | |
205 | return TMath::Sqrt((point[0]-GetSecVtxX()) | |
206 | *(point[0]-GetSecVtxX()) | |
207 | +(point[1]-GetSecVtxY()) | |
208 | *(point[1]-GetSecVtxY()) | |
209 | +(point[2]-GetSecVtxZ()) | |
210 | *(point[2]-GetSecVtxZ())); | |
211 | } | |
212 | //---------------------------------------------------------------------------- | |
213 | Double_t AliAODRecoDecay::DecayLengthXY(Double_t point[3]) const | |
214 | { | |
215 | // | |
216 | // Decay length in XY assuming it is produced at "point" [cm] | |
217 | // | |
218 | return TMath::Sqrt((point[0]-GetSecVtxX()) | |
219 | *(point[0]-GetSecVtxX()) | |
220 | +(point[1]-GetSecVtxY()) | |
221 | *(point[1]-GetSecVtxY())); | |
222 | } | |
223 | //---------------------------------------------------------------------------- | |
224 | Double_t AliAODRecoDecay::CosPointingAngle(Double_t point[3]) const | |
225 | { | |
226 | // | |
227 | // Cosine of pointing angle in space assuming it is produced at "point" | |
228 | // | |
229 | TVector3 mom(Px(),Py(),Pz()); | |
230 | TVector3 fline(GetSecVtxX()-point[0], | |
231 | GetSecVtxY()-point[1], | |
232 | GetSecVtxZ()-point[2]); | |
233 | ||
234 | Double_t pta = mom.Angle(fline); | |
235 | ||
236 | return TMath::Cos(pta); | |
237 | } | |
238 | //---------------------------------------------------------------------------- | |
239 | Double_t AliAODRecoDecay::CosPointingAngleXY(Double_t point[3]) const | |
240 | { | |
241 | // | |
242 | // Cosine of pointing angle in transverse plane assuming it is produced | |
243 | // at "point" | |
244 | // | |
245 | TVector3 momXY(Px(),Py(),0.); | |
246 | TVector3 flineXY(GetSecVtxX()-point[0], | |
247 | GetSecVtxY()-point[1], | |
248 | 0.); | |
249 | ||
250 | Double_t ptaXY = momXY.Angle(flineXY); | |
251 | ||
252 | return TMath::Cos(ptaXY); | |
253 | } | |
254 | //---------------------------------------------------------------------------- | |
255 | Double_t AliAODRecoDecay::CosThetaStar(Int_t ip,UInt_t pdgvtx,UInt_t pdgprong0,UInt_t pdgprong1) const | |
256 | { | |
257 | // | |
258 | // Only for 2-prong decays: | |
259 | // Cosine of decay angle (theta*) in the rest frame of the mother particle | |
260 | // for prong ip (0 or 1) with mass hypotheses pdgvtx for mother particle, | |
261 | // pdgprong0 for prong 0 and pdgprong1 for prong1 | |
262 | // | |
263 | if(GetNProngs()!=2) { | |
264 | printf("Can be called only for 2-prong decays"); | |
265 | return (Double_t)-99999.; | |
266 | } | |
267 | Double_t massvtx = TDatabasePDG::Instance()->GetParticle(pdgvtx)->Mass(); | |
268 | Double_t massp[2]; | |
269 | massp[0] = TDatabasePDG::Instance()->GetParticle(pdgprong0)->Mass(); | |
270 | massp[1] = TDatabasePDG::Instance()->GetParticle(pdgprong1)->Mass(); | |
271 | ||
272 | Double_t pStar = TMath::Sqrt(TMath::Power(massvtx*massvtx-massp[0]*massp[0]-massp[1]*massp[1],2.)-4.*massp[0]*massp[0]*massp[1]*massp[1])/(2.*massvtx); | |
273 | ||
274 | Double_t beta = P()/E(pdgvtx); | |
275 | Double_t gamma = E(pdgvtx)/massvtx; | |
276 | ||
277 | Double_t cts = (QlProng(ip)/gamma-beta*TMath::Sqrt(pStar*pStar+massp[ip]*massp[ip]))/pStar; | |
278 | ||
279 | return cts; | |
280 | } | |
281 | //--------------------------------------------------------------------------- | |
282 | Double_t AliAODRecoDecay::Ct(UInt_t pdg,Double_t point[3]) const | |
283 | { | |
284 | // | |
285 | // Decay time * c assuming it is produced at "point" [cm] | |
286 | // | |
287 | Double_t mass = TDatabasePDG::Instance()->GetParticle(pdg)->Mass(); | |
288 | return DecayLength(point)*mass/P(); | |
289 | } | |
290 | //--------------------------------------------------------------------------- | |
291 | Double_t AliAODRecoDecay::E(UInt_t pdg) const | |
292 | { | |
293 | // | |
294 | // Energy | |
295 | // | |
296 | Double_t mass = TDatabasePDG::Instance()->GetParticle(pdg)->Mass(); | |
297 | return TMath::Sqrt(mass*mass+P()*P()); | |
298 | } | |
299 | //--------------------------------------------------------------------------- | |
300 | Double_t AliAODRecoDecay::EProng(Int_t ip,UInt_t pdg) const | |
301 | { | |
302 | // | |
303 | // Energy of ip-th prong | |
304 | // | |
305 | Double_t mass = TDatabasePDG::Instance()->GetParticle(pdg)->Mass(); | |
306 | return TMath::Sqrt(mass*mass+PProng(ip)*PProng(ip)); | |
307 | } | |
308 | //--------------------------------------------------------------------------- | |
309 | /*Int_t AliAODRecoDecay::GetIndexProng(Int_t ip) const | |
310 | { | |
311 | // | |
312 | // Index of prong ip | |
313 | // | |
314 | if(!GetNProngs()) return 999999; | |
5cc73331 | 315 | UShort_t *indices = GetSecondaryVtx()->GetIndices(); |
7de7497b | 316 | return indices[ip]; |
317 | }*/ | |
318 | //---------------------------------------------------------------------------- | |
319 | Double_t AliAODRecoDecay::ImpParXY(Double_t point[3]) const | |
320 | { | |
321 | // | |
322 | // Impact parameter in the bending plane of the particle | |
323 | // w.r.t. to "point" | |
324 | // | |
325 | Double_t k = -(GetSecVtxX()-point[0])*Px()-(GetSecVtxY()-point[1])*Py(); | |
326 | k /= Pt()*Pt(); | |
327 | Double_t dx = GetSecVtxX()-point[0]+k*Px(); | |
328 | Double_t dy = GetSecVtxY()-point[1]+k*Py(); | |
329 | Double_t absImpPar = TMath::Sqrt(dx*dx+dy*dy); | |
330 | TVector3 mom(Px(),Py(),Pz()); | |
331 | TVector3 fline(GetSecVtxX()-point[0], | |
332 | GetSecVtxY()-point[1], | |
333 | GetSecVtxZ()-point[2]); | |
334 | TVector3 cross = mom.Cross(fline); | |
335 | return (cross.Z()>0. ? absImpPar : -absImpPar); | |
336 | } | |
337 | //---------------------------------------------------------------------------- | |
338 | Double_t AliAODRecoDecay::InvMass(Int_t npdg,UInt_t *pdg) const | |
339 | { | |
340 | // | |
341 | // Invariant mass for prongs mass hypotheses in pdg array | |
342 | // | |
343 | if(GetNProngs()!=npdg) { | |
344 | printf("npdg != GetNProngs()"); | |
345 | return (Double_t)-99999.; | |
346 | } | |
347 | Double_t energysum = 0.; | |
348 | ||
349 | for(Int_t i=0; i<GetNProngs(); i++) { | |
350 | energysum += EProng(i,pdg[i]); | |
351 | } | |
352 | ||
353 | Double_t mass = TMath::Sqrt(energysum*energysum-P()*P()); | |
354 | ||
355 | return mass; | |
356 | } | |
357 | //---------------------------------------------------------------------------- | |
358 | Double_t AliAODRecoDecay::InvMass2Prongs(Int_t ip1,Int_t ip2, | |
359 | UInt_t pdg1,UInt_t pdg2) const | |
360 | { | |
361 | // | |
362 | // 2-prong(ip1,ip2) invariant mass for prongs mass hypotheses in pdg1,2 | |
363 | // | |
364 | Double_t energysum = EProng(ip1,pdg1) + EProng(ip2,pdg2); | |
365 | Double_t psum2 = (PxProng(ip1)+PxProng(ip2))*(PxProng(ip1)+PxProng(ip2)) | |
366 | +(PyProng(ip1)+PyProng(ip2))*(PyProng(ip1)+PyProng(ip2)) | |
367 | +(PzProng(ip1)+PzProng(ip2))*(PzProng(ip1)+PzProng(ip2)); | |
368 | Double_t mass = TMath::Sqrt(energysum*energysum-psum2); | |
369 | ||
370 | return mass; | |
371 | } | |
372 | //--------------------------------------------------------------------------- | |
373 | void AliAODRecoDecay::Print(Option_t* /*option*/) const | |
374 | { | |
375 | // | |
376 | // Print some information | |
377 | // | |
378 | printf("AliAODRecoDecay with %d prongs\n",GetNProngs()); | |
379 | printf("Secondary Vertex: (%f, %f, %f)\n",GetSecVtxX(),GetSecVtxY(),GetSecVtxZ()); | |
380 | ||
381 | return; | |
382 | } | |
383 | //---------------------------------------------------------------------------- | |
384 | Double_t AliAODRecoDecay::ProngsRelAngle(Int_t ip1,Int_t ip2) const | |
385 | { | |
386 | // | |
387 | // Relative angle between two prongs | |
388 | // | |
389 | TVector3 momA(PxProng(ip1),PyProng(ip1),PzProng(ip1)); | |
390 | TVector3 momB(PxProng(ip2),PyProng(ip2),PzProng(ip2)); | |
391 | ||
392 | Double_t angle = momA.Angle(momB); | |
393 | ||
394 | return angle; | |
395 | } | |
396 | //---------------------------------------------------------------------------- | |
397 | Double_t AliAODRecoDecay::QlProng(Int_t ip) const | |
398 | { | |
399 | // | |
400 | // Longitudinal momentum of prong w.r.t. to total momentum | |
401 | // | |
402 | TVector3 mom(PxProng(ip),PyProng(ip),PzProng(ip)); | |
403 | TVector3 momTot(Px(),Py(),Pz()); | |
404 | ||
405 | return mom.Dot(momTot)/momTot.Mag(); | |
406 | } | |
407 | //---------------------------------------------------------------------------- | |
408 | Double_t AliAODRecoDecay::QtProng(Int_t ip) const | |
409 | { | |
410 | // | |
411 | // Transverse momentum of prong w.r.t. to total momentum | |
412 | // | |
413 | TVector3 mom(PxProng(ip),PyProng(ip),PzProng(ip)); | |
414 | TVector3 momTot(Px(),Py(),Pz()); | |
415 | ||
416 | return mom.Perp(momTot); | |
417 | } | |
418 | //---------------------------------------------------------------------------- | |
419 | Double_t AliAODRecoDecay::QlProngFlightLine(Int_t ip,Double_t point[3]) const | |
420 | { | |
421 | // | |
422 | // Longitudinal momentum of prong w.r.t. to flight line between "point" | |
423 | // and fSecondaryVtx | |
424 | // | |
425 | TVector3 mom(PxProng(ip),PyProng(ip),PzProng(ip)); | |
426 | TVector3 fline(GetSecVtxX()-point[0], | |
427 | GetSecVtxY()-point[1], | |
428 | GetSecVtxZ()-point[2]); | |
429 | ||
430 | return mom.Dot(fline)/fline.Mag(); | |
431 | } | |
432 | //---------------------------------------------------------------------------- | |
433 | Double_t AliAODRecoDecay::QtProngFlightLine(Int_t ip,Double_t point[3]) const | |
434 | { | |
435 | // | |
436 | // Transverse momentum of prong w.r.t. to flight line between "point" and | |
437 | // fSecondaryVtx | |
438 | // | |
439 | TVector3 mom(PxProng(ip),PyProng(ip),PzProng(ip)); | |
440 | TVector3 fline(GetSecVtxX()-point[0], | |
441 | GetSecVtxY()-point[1], | |
442 | GetSecVtxZ()-point[2]); | |
443 | ||
444 | return mom.Perp(fline); | |
445 | } | |
446 | //-------------------------------------------------------------------------- |