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e23730c7 | 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 | ||
4f679a16 | 16 | /* $Id$ */ |
17 | ||
e23730c7 | 18 | //------------------------------------------------------------------------- |
19 | // Implementation of the ESD V0 vertex class | |
4f679a16 | 20 | // This class is part of the Event Data Summary |
21 | // set of classes and contains information about | |
22 | // V0 kind vertexes generated by a neutral particle | |
e23730c7 | 23 | // Origin: Iouri Belikov, IReS, Strasbourg, Jouri.Belikov@cern.ch |
d6a49f20 | 24 | // Modified by: Marian Ivanov, CERN, Marian.Ivanov@cern.ch |
25 | // and Boris Hippolyte,IPHC, hippolyt@in2p3.fr | |
e23730c7 | 26 | //------------------------------------------------------------------------- |
4f679a16 | 27 | |
e23730c7 | 28 | #include <TMath.h> |
90e48c0c | 29 | #include <TDatabasePDG.h> |
90e48c0c | 30 | #include <TParticlePDG.h> |
3e27a419 | 31 | #include <TVector3.h> |
e23730c7 | 32 | |
5f7789fc | 33 | #include "AliLog.h" |
e23730c7 | 34 | #include "AliESDv0.h" |
97135b34 | 35 | #include "AliESDV0Params.h" |
e23730c7 | 36 | |
37 | ClassImp(AliESDv0) | |
38 | ||
562dd0b4 | 39 | const AliESDV0Params AliESDv0::fgkParams; |
d6a49f20 | 40 | |
90e48c0c | 41 | AliESDv0::AliESDv0() : |
646c9704 | 42 | AliVParticle(), |
d6a49f20 | 43 | fParamN(), |
b75d63a7 | 44 | fParamP(), |
562dd0b4 | 45 | fEffMass(TDatabasePDG::Instance()->GetParticle(kK0Short)->Mass()), |
46 | fDcaV0Daughters(0), | |
47 | fChi2V0(0.), | |
48 | fRr(0), | |
d6a49f20 | 49 | fDistSigma(0), |
50 | fChi2Before(0), | |
d6a49f20 | 51 | fChi2After(0), |
d6a49f20 | 52 | fPointAngleFi(0), |
562dd0b4 | 53 | fPointAngleTh(0), |
54 | fPointAngle(0), | |
55 | fPdgCode(kK0Short), | |
56 | fNidx(0), | |
57 | fPidx(0), | |
58 | fStatus(0), | |
59 | fNBefore(0), | |
60 | fNAfter(0), | |
61 | fOnFlyStatus(kFALSE) | |
90e48c0c | 62 | { |
e23730c7 | 63 | //-------------------------------------------------------------------- |
64 | // Default constructor (K0s) | |
65 | //-------------------------------------------------------------------- | |
6605de26 | 66 | |
67 | for (Int_t i=0; i<3; i++) { | |
68 | fPos[i] = 0.; | |
69 | fNmom[i] = 0.; | |
70 | fPmom[i] = 0.; | |
71 | } | |
72 | ||
73 | for (Int_t i=0; i<6; i++) { | |
74 | fPosCov[i]= 0.; | |
6605de26 | 75 | } |
d6a49f20 | 76 | |
d6a49f20 | 77 | for (Int_t i=0;i<6;i++){fClusters[0][i]=0; fClusters[1][i]=0;} |
78 | fNormDCAPrim[0]=fNormDCAPrim[1]=0; | |
b75d63a7 | 79 | for (Int_t i=0;i<3;i++){fAngle[i]=0;} |
d6a49f20 | 80 | for (Int_t i=0;i<4;i++){fCausality[i]=0;} |
e23730c7 | 81 | } |
82 | ||
d6a49f20 | 83 | AliESDv0::AliESDv0(const AliESDv0& v0) : |
646c9704 | 84 | AliVParticle(v0), |
562dd0b4 | 85 | fParamN(v0.fParamN), |
86 | fParamP(v0.fParamP), | |
d6a49f20 | 87 | fEffMass(v0.fEffMass), |
88 | fDcaV0Daughters(v0.fDcaV0Daughters), | |
89 | fChi2V0(v0.fChi2V0), | |
d6a49f20 | 90 | fRr(v0.fRr), |
d6a49f20 | 91 | fDistSigma(v0.fDistSigma), |
92 | fChi2Before(v0.fChi2Before), | |
d6a49f20 | 93 | fChi2After(v0.fChi2After), |
d6a49f20 | 94 | fPointAngleFi(v0.fPointAngleFi), |
562dd0b4 | 95 | fPointAngleTh(v0.fPointAngleTh), |
96 | fPointAngle(v0.fPointAngle), | |
97 | fPdgCode(v0.fPdgCode), | |
98 | fNidx(v0.fNidx), | |
99 | fPidx(v0.fPidx), | |
100 | fStatus(v0.fStatus), | |
101 | fNBefore(v0.fNBefore), | |
102 | fNAfter(v0.fNAfter), | |
103 | fOnFlyStatus(v0.fOnFlyStatus) | |
c028b974 | 104 | { |
d6a49f20 | 105 | //-------------------------------------------------------------------- |
106 | // The copy constructor | |
107 | //-------------------------------------------------------------------- | |
c028b974 | 108 | |
109 | for (int i=0; i<3; i++) { | |
d6a49f20 | 110 | fPos[i] = v0.fPos[i]; |
111 | fNmom[i] = v0.fNmom[i]; | |
112 | fPmom[i] = v0.fPmom[i]; | |
c028b974 | 113 | } |
114 | for (int i=0; i<6; i++) { | |
d6a49f20 | 115 | fPosCov[i] = v0.fPosCov[i]; |
c028b974 | 116 | } |
c028b974 | 117 | |
d6a49f20 | 118 | for (Int_t i=0; i<2; i++) { |
b75d63a7 | 119 | fNormDCAPrim[i]=v0.fNormDCAPrim[i]; |
d6a49f20 | 120 | } |
121 | for (Int_t i=0;i<6;i++){ | |
122 | fClusters[0][i]=v0.fClusters[0][i]; | |
123 | fClusters[1][i]=v0.fClusters[1][i]; | |
124 | } | |
125 | for (Int_t i=0;i<3;i++){ | |
d6a49f20 | 126 | fAngle[i]=v0.fAngle[i]; |
c028b974 | 127 | } |
d6a49f20 | 128 | for (Int_t i=0;i<4;i++){fCausality[i]=v0.fCausality[i];} |
c028b974 | 129 | } |
130 | ||
732a24fe | 131 | |
c7bafca9 | 132 | AliESDv0::AliESDv0(const AliExternalTrackParam &t1, Int_t i1, |
133 | const AliExternalTrackParam &t2, Int_t i2) : | |
646c9704 | 134 | AliVParticle(), |
562dd0b4 | 135 | fParamN(t1), |
136 | fParamP(t2), | |
c7bafca9 | 137 | fEffMass(TDatabasePDG::Instance()->GetParticle(kK0Short)->Mass()), |
c028b974 | 138 | fDcaV0Daughters(0), |
562dd0b4 | 139 | fChi2V0(0.), |
140 | fRr(0), | |
141 | fDistSigma(0), | |
142 | fChi2Before(0), | |
143 | fChi2After(0), | |
144 | fPointAngleFi(0), | |
145 | fPointAngleTh(0), | |
b75d63a7 | 146 | fPointAngle(0), |
562dd0b4 | 147 | fPdgCode(kK0Short), |
c7bafca9 | 148 | fNidx(i1), |
d6a49f20 | 149 | fPidx(i2), |
d6a49f20 | 150 | fStatus(0), |
d6a49f20 | 151 | fNBefore(0), |
d6a49f20 | 152 | fNAfter(0), |
562dd0b4 | 153 | fOnFlyStatus(kFALSE) |
c7bafca9 | 154 | { |
155 | //-------------------------------------------------------------------- | |
156 | // Main constructor (K0s) | |
157 | //-------------------------------------------------------------------- | |
158 | ||
159 | for (Int_t i=0; i<6; i++) { | |
160 | fPosCov[i]= 0.; | |
c7bafca9 | 161 | } |
162 | ||
163 | //Trivial estimation of the vertex parameters | |
b75d63a7 | 164 | Double_t alpha=t1.GetAlpha(), cs=TMath::Cos(alpha), sn=TMath::Sin(alpha); |
165 | Double_t tmp[3]; | |
166 | t1.GetPxPyPz(tmp); | |
167 | Double_t px1=tmp[0], py1=tmp[1], pz1=tmp[2]; | |
168 | t1.GetXYZ(tmp); | |
169 | Double_t x1=tmp[0], y1=tmp[1], z1=tmp[2]; | |
37919f0b | 170 | const Double_t ss=0.0005*0.0005;//a kind of a residual misalignment precision |
171 | Double_t sx1=sn*sn*t1.GetSigmaY2()+ss, sy1=cs*cs*t1.GetSigmaY2()+ss; | |
c7bafca9 | 172 | |
173 | ||
b75d63a7 | 174 | alpha=t2.GetAlpha(); cs=TMath::Cos(alpha); sn=TMath::Sin(alpha); |
175 | t2.GetPxPyPz(tmp); | |
176 | Double_t px2=tmp[0], py2=tmp[1], pz2=tmp[2]; | |
177 | t2.GetXYZ(tmp); | |
178 | Double_t x2=tmp[0], y2=tmp[1], z2=tmp[2]; | |
37919f0b | 179 | Double_t sx2=sn*sn*t2.GetSigmaY2()+ss, sy2=cs*cs*t2.GetSigmaY2()+ss; |
c7bafca9 | 180 | |
181 | Double_t sz1=t1.GetSigmaZ2(), sz2=t2.GetSigmaZ2(); | |
37919f0b | 182 | Double_t wx1=sx2/(sx1+sx2), wx2=1.- wx1; |
183 | Double_t wy1=sy2/(sy1+sy2), wy2=1.- wy1; | |
c7bafca9 | 184 | Double_t wz1=sz2/(sz1+sz2), wz2=1.- wz1; |
185 | fPos[0]=wx1*x1 + wx2*x2; fPos[1]=wy1*y1 + wy2*y2; fPos[2]=wz1*z1 + wz2*z2; | |
186 | ||
187 | //fPos[0]=0.5*(x1+x2); fPos[1]=0.5*(y1+y2); fPos[2]=0.5*(z1+z2); | |
188 | fNmom[0]=px1; fNmom[1]=py1; fNmom[2]=pz1; | |
189 | fPmom[0]=px2; fPmom[1]=py2; fPmom[2]=pz2; | |
190 | ||
b75d63a7 | 191 | for (Int_t i=0;i<6;i++){fClusters[0][i]=0; fClusters[1][i]=0;} |
192 | fNormDCAPrim[0]=fNormDCAPrim[1]=0; | |
193 | for (Int_t i=0;i<3;i++){fAngle[i]=0;} | |
194 | for (Int_t i=0;i<4;i++){fCausality[i]=0;} | |
c028b974 | 195 | } |
c7bafca9 | 196 | |
3e27a419 | 197 | AliESDv0& AliESDv0::operator=(const AliESDv0 &v0) |
198 | { | |
732a24fe | 199 | //-------------------------------------------------------------------- |
3e27a419 | 200 | // The assignment operator |
732a24fe | 201 | //-------------------------------------------------------------------- |
202 | ||
203 | if(this==&v0)return *this; | |
646c9704 | 204 | AliVParticle::operator=(v0); |
732a24fe | 205 | fParamN = v0.fParamN; |
206 | fParamP = v0.fParamP; | |
207 | fEffMass = v0.fEffMass; | |
208 | fDcaV0Daughters = v0.fDcaV0Daughters; | |
209 | fChi2V0 = v0.fChi2V0; | |
210 | fRr = v0.fRr; | |
211 | fDistSigma = v0.fDistSigma; | |
212 | fChi2Before = v0.fChi2Before; | |
213 | fChi2After = v0.fChi2After; | |
214 | fPointAngleFi = v0.fPointAngleFi; | |
215 | fPointAngleTh = v0.fPointAngleTh; | |
216 | fPointAngle = v0.fPointAngle; | |
217 | fPdgCode = v0.fPdgCode; | |
218 | fNidx = v0.fNidx; | |
219 | fPidx = v0.fPidx; | |
220 | fStatus = v0.fStatus; | |
221 | fNBefore = v0.fNBefore; | |
222 | fNAfter = v0.fNAfter; | |
223 | fOnFlyStatus = v0.fOnFlyStatus; | |
224 | ||
225 | for (int i=0; i<3; i++) { | |
226 | fPos[i] = v0.fPos[i]; | |
227 | fNmom[i] = v0.fNmom[i]; | |
228 | fPmom[i] = v0.fPmom[i]; | |
229 | } | |
230 | for (int i=0; i<6; i++) { | |
231 | fPosCov[i] = v0.fPosCov[i]; | |
232 | } | |
233 | for (Int_t i=0; i<2; i++) { | |
234 | fNormDCAPrim[i]=v0.fNormDCAPrim[i]; | |
235 | } | |
236 | for (Int_t i=0;i<6;i++){ | |
237 | fClusters[0][i]=v0.fClusters[0][i]; | |
238 | fClusters[1][i]=v0.fClusters[1][i]; | |
239 | } | |
240 | for (Int_t i=0;i<3;i++){ | |
241 | fAngle[i]=v0.fAngle[i]; | |
242 | } | |
243 | for (Int_t i=0;i<4;i++){fCausality[i]=v0.fCausality[i];} | |
244 | ||
245 | return *this; | |
246 | } | |
247 | ||
248 | void AliESDv0::Copy(TObject& obj) const { | |
249 | ||
3e27a419 | 250 | // this overwrites the virtual TOBject::Copy() |
732a24fe | 251 | // to allow run time copying without casting |
252 | // in AliESDEvent | |
253 | ||
254 | if(this==&obj)return; | |
255 | AliESDv0 *robj = dynamic_cast<AliESDv0*>(&obj); | |
256 | if(!robj)return; // not an aliesesv0 | |
257 | *robj = *this; | |
258 | } | |
259 | ||
c028b974 | 260 | AliESDv0::~AliESDv0(){ |
261 | //-------------------------------------------------------------------- | |
262 | // Empty destructor | |
263 | //-------------------------------------------------------------------- | |
c7bafca9 | 264 | } |
265 | ||
646c9704 | 266 | // Start with AliVParticle functions |
267 | Double_t AliESDv0::E() const { | |
268 | //-------------------------------------------------------------------- | |
269 | // This gives the energy assuming the ChangeMassHypothesis was called | |
270 | //-------------------------------------------------------------------- | |
3e27a419 | 271 | return E(fPdgCode); |
272 | } | |
273 | ||
274 | Double_t AliESDv0::Y() const { | |
275 | //-------------------------------------------------------------------- | |
276 | // This gives the energy assuming the ChangeMassHypothesis was called | |
277 | //-------------------------------------------------------------------- | |
278 | return Y(fPdgCode); | |
279 | } | |
280 | ||
281 | // Then extend AliVParticle functions | |
282 | Double_t AliESDv0::E(Int_t pdg) const { | |
283 | //-------------------------------------------------------------------- | |
284 | // This gives the energy with the particle hypothesis as argument | |
285 | //-------------------------------------------------------------------- | |
286 | Double_t mass = TDatabasePDG::Instance()->GetParticle(pdg)->Mass(); | |
646c9704 | 287 | return TMath::Sqrt(mass*mass+P()*P()); |
288 | } | |
c028b974 | 289 | |
3e27a419 | 290 | Double_t AliESDv0::Y(Int_t pdg) const { |
291 | //-------------------------------------------------------------------- | |
292 | // This gives the rapidity with the particle hypothesis as argument | |
293 | //-------------------------------------------------------------------- | |
294 | return 0.5*TMath::Log((E(pdg)+Pz())/(E(pdg)-Pz()+1.e-13)); | |
295 | } | |
296 | ||
297 | // Now the functions for analysis consistency | |
298 | Double_t AliESDv0::RapK0Short() const { | |
299 | //-------------------------------------------------------------------- | |
300 | // This gives the pseudorapidity assuming a K0s particle | |
301 | //-------------------------------------------------------------------- | |
302 | return Y(kK0Short); | |
303 | } | |
304 | ||
305 | Double_t AliESDv0::RapLambda() const { | |
306 | //-------------------------------------------------------------------- | |
307 | // This gives the pseudorapidity assuming a (Anti) Lambda particle | |
308 | //-------------------------------------------------------------------- | |
309 | return Y(kLambda0); | |
310 | } | |
311 | ||
312 | Double_t AliESDv0::AlphaV0() const { | |
313 | //-------------------------------------------------------------------- | |
314 | // This gives the Armenteros-Podolanski alpha | |
315 | //-------------------------------------------------------------------- | |
316 | TVector3 momNeg(fNmom[0],fNmom[1],fNmom[2]); | |
317 | TVector3 momPos(fPmom[0],fPmom[1],fPmom[2]); | |
318 | TVector3 momTot(Px(),Py(),Pz()); | |
319 | ||
97135b34 | 320 | Double_t lQlNeg = momNeg.Dot(momTot)/momTot.Mag(); |
321 | Double_t lQlPos = momNeg.Dot(momTot)/momTot.Mag(); | |
3e27a419 | 322 | |
97135b34 | 323 | return 1.-2./(1.+lQlNeg/lQlPos); |
3e27a419 | 324 | } |
325 | ||
326 | Double_t AliESDv0::PtArmV0() const { | |
327 | //-------------------------------------------------------------------- | |
328 | // This gives the Armenteros-Podolanski ptarm | |
329 | //-------------------------------------------------------------------- | |
330 | TVector3 momNeg(fNmom[0],fNmom[1],fNmom[2]); | |
331 | TVector3 momTot(Px(),Py(),Pz()); | |
332 | ||
333 | return momNeg.Perp(momTot); | |
334 | } | |
335 | ||
336 | // Eventually the older functions | |
e23730c7 | 337 | Double_t AliESDv0::ChangeMassHypothesis(Int_t code) { |
338 | //-------------------------------------------------------------------- | |
339 | // This function changes the mass hypothesis for this V0 | |
340 | // and returns the "kinematical quality" of this hypothesis | |
341 | //-------------------------------------------------------------------- | |
b75d63a7 | 342 | static |
343 | Double_t piMass=TDatabasePDG::Instance()->GetParticle(kPiPlus)->Mass(); | |
344 | static | |
345 | Double_t prMass=TDatabasePDG::Instance()->GetParticle(kProton)->Mass(); | |
346 | static | |
347 | Double_t k0Mass=TDatabasePDG::Instance()->GetParticle(kK0Short)->Mass(); | |
348 | static | |
349 | Double_t l0Mass=TDatabasePDG::Instance()->GetParticle(kLambda0)->Mass(); | |
350 | ||
351 | Double_t nmass=piMass, pmass=piMass, mass=k0Mass, ps=0.206; | |
e23730c7 | 352 | |
353 | fPdgCode=code; | |
354 | ||
355 | switch (code) { | |
356 | case kLambda0: | |
b75d63a7 | 357 | nmass=piMass; pmass=prMass; mass=l0Mass; ps=0.101; break; |
e23730c7 | 358 | case kLambda0Bar: |
b75d63a7 | 359 | pmass=piMass; nmass=prMass; mass=l0Mass; ps=0.101; break; |
e23730c7 | 360 | case kK0Short: |
361 | break; | |
362 | default: | |
5f7789fc | 363 | AliError("invalide PDG code ! Assuming K0s..."); |
e23730c7 | 364 | fPdgCode=kK0Short; |
365 | break; | |
366 | } | |
367 | ||
368 | Double_t pxn=fNmom[0], pyn=fNmom[1], pzn=fNmom[2]; | |
369 | Double_t pxp=fPmom[0], pyp=fPmom[1], pzp=fPmom[2]; | |
370 | ||
371 | Double_t en=TMath::Sqrt(nmass*nmass + pxn*pxn + pyn*pyn + pzn*pzn); | |
372 | Double_t ep=TMath::Sqrt(pmass*pmass + pxp*pxp + pyp*pyp + pzp*pzp); | |
373 | Double_t pxl=pxn+pxp, pyl=pyn+pyp, pzl=pzn+pzp; | |
374 | Double_t pl=TMath::Sqrt(pxl*pxl + pyl*pyl + pzl*pzl); | |
375 | ||
376 | fEffMass=TMath::Sqrt((en+ep)*(en+ep)-pl*pl); | |
377 | ||
378 | Double_t beta=pl/(en+ep); | |
379 | Double_t pln=(pxn*pxl + pyn*pyl + pzn*pzl)/pl; | |
380 | Double_t plp=(pxp*pxl + pyp*pyl + pzp*pzl)/pl; | |
381 | ||
382 | Double_t pt2=pxp*pxp + pyp*pyp + pzp*pzp - plp*plp; | |
383 | ||
384 | Double_t a=(plp-pln)/(plp+pln); | |
385 | a -= (pmass*pmass-nmass*nmass)/(mass*mass); | |
386 | a = 0.25*beta*beta*mass*mass*a*a + pt2; | |
387 | ||
388 | return (a - ps*ps); | |
389 | ||
390 | } | |
391 | ||
392 | void AliESDv0::GetPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const { | |
393 | //-------------------------------------------------------------------- | |
394 | // This function returns V0's momentum (global) | |
395 | //-------------------------------------------------------------------- | |
396 | px=fNmom[0]+fPmom[0]; | |
397 | py=fNmom[1]+fPmom[1]; | |
398 | pz=fNmom[2]+fPmom[2]; | |
399 | } | |
400 | ||
401 | void AliESDv0::GetXYZ(Double_t &x, Double_t &y, Double_t &z) const { | |
402 | //-------------------------------------------------------------------- | |
403 | // This function returns V0's position (global) | |
404 | //-------------------------------------------------------------------- | |
405 | x=fPos[0]; | |
406 | y=fPos[1]; | |
407 | z=fPos[2]; | |
408 | } | |
409 | ||
b75d63a7 | 410 | Float_t AliESDv0::GetD(Double_t x0, Double_t y0, Double_t z0) const { |
e23730c7 | 411 | //-------------------------------------------------------------------- |
412 | // This function returns V0's impact parameter | |
413 | //-------------------------------------------------------------------- | |
414 | Double_t x=fPos[0],y=fPos[1],z=fPos[2]; | |
415 | Double_t px=fNmom[0]+fPmom[0]; | |
416 | Double_t py=fNmom[1]+fPmom[1]; | |
417 | Double_t pz=fNmom[2]+fPmom[2]; | |
418 | ||
419 | Double_t dx=(y0-y)*pz - (z0-z)*py; | |
420 | Double_t dy=(x0-x)*pz - (z0-z)*px; | |
421 | Double_t dz=(x0-x)*py - (y0-y)*px; | |
422 | Double_t d=TMath::Sqrt((dx*dx+dy*dy+dz*dz)/(px*px+py*py+pz*pz)); | |
423 | return d; | |
424 | } | |
c028b974 | 425 | |
97135b34 | 426 | Float_t AliESDv0::GetV0CosineOfPointingAngle(Double_t refPointX, Double_t refPointY, Double_t refPointZ) const { |
c028b974 | 427 | // calculates the pointing angle of the V0 wrt a reference point |
428 | ||
429 | Double_t momV0[3]; //momentum of the V0 | |
430 | GetPxPyPz(momV0[0],momV0[1],momV0[2]); | |
431 | ||
432 | Double_t deltaPos[3]; //vector between the reference point and the V0 vertex | |
433 | deltaPos[0] = fPos[0] - refPointX; | |
434 | deltaPos[1] = fPos[1] - refPointY; | |
435 | deltaPos[2] = fPos[2] - refPointZ; | |
436 | ||
437 | Double_t momV02 = momV0[0]*momV0[0] + momV0[1]*momV0[1] + momV0[2]*momV0[2]; | |
438 | Double_t deltaPos2 = deltaPos[0]*deltaPos[0] + deltaPos[1]*deltaPos[1] + deltaPos[2]*deltaPos[2]; | |
439 | ||
440 | Double_t cosinePointingAngle = (deltaPos[0]*momV0[0] + | |
441 | deltaPos[1]*momV0[1] + | |
442 | deltaPos[2]*momV0[2] ) / | |
443 | TMath::Sqrt(momV02 * deltaPos2); | |
444 | ||
445 | return cosinePointingAngle; | |
446 | } | |
d6a49f20 | 447 | |
448 | ||
449 | // **** The following functions need to be revised | |
450 | ||
074f017b | 451 | void AliESDv0::GetPosCov(Double_t cov[6]) const { |
452 | ||
453 | for (Int_t i=0; i<6; ++i) cov[i] = fPosCov[i]; | |
454 | ||
455 | } | |
456 | ||
d6a49f20 | 457 | Double_t AliESDv0::GetSigmaY(){ |
458 | // | |
459 | // return sigmay in y at vertex position using covariance matrix | |
460 | // | |
461 | const Double_t * cp = fParamP.GetCovariance(); | |
462 | const Double_t * cm = fParamN.GetCovariance(); | |
463 | Double_t sigmay = cp[0]+cm[0]+ cp[5]*(fParamP.GetX()-fRr)*(fParamP.GetX()-fRr)+ cm[5]*(fParamN.GetX()-fRr)*(fParamN.GetX()-fRr); | |
464 | return (sigmay>0) ? TMath::Sqrt(sigmay):100; | |
465 | } | |
466 | ||
467 | Double_t AliESDv0::GetSigmaZ(){ | |
468 | // | |
469 | // return sigmay in y at vertex position using covariance matrix | |
470 | // | |
471 | const Double_t * cp = fParamP.GetCovariance(); | |
472 | const Double_t * cm = fParamN.GetCovariance(); | |
473 | Double_t sigmaz = cp[2]+cm[2]+ cp[9]*(fParamP.GetX()-fRr)*(fParamP.GetX()-fRr)+ cm[9]*(fParamN.GetX()-fRr)*(fParamN.GetX()-fRr); | |
474 | return (sigmaz>0) ? TMath::Sqrt(sigmaz):100; | |
475 | } | |
476 | ||
477 | Double_t AliESDv0::GetSigmaD0(){ | |
478 | // | |
479 | // Sigma parameterization using covariance matrix | |
480 | // | |
481 | // sigma of distance between two tracks in vertex position | |
482 | // sigma of DCA is proportianal to sigmaD0 | |
483 | // factor 2 difference is explained by the fact that the DCA is calculated at the position | |
484 | // where the tracks as closest together ( not exact position of the vertex) | |
485 | // | |
486 | const Double_t * cp = fParamP.GetCovariance(); | |
487 | const Double_t * cm = fParamN.GetCovariance(); | |
488 | Double_t sigmaD0 = cp[0]+cm[0]+cp[2]+cm[2]+fgkParams.fPSigmaOffsetD0*fgkParams.fPSigmaOffsetD0; | |
489 | sigmaD0 += ((fParamP.GetX()-fRr)*(fParamP.GetX()-fRr))*(cp[5]+cp[9]); | |
490 | sigmaD0 += ((fParamN.GetX()-fRr)*(fParamN.GetX()-fRr))*(cm[5]+cm[9]); | |
491 | return (sigmaD0>0)? TMath::Sqrt(sigmaD0):100; | |
492 | } | |
493 | ||
494 | ||
495 | Double_t AliESDv0::GetSigmaAP0(){ | |
496 | // | |
497 | //Sigma parameterization using covariance matrices | |
498 | // | |
b75d63a7 | 499 | Double_t prec = TMath::Sqrt((fNmom[0]+fPmom[0])*(fNmom[0]+fPmom[0]) |
500 | +(fNmom[1]+fPmom[1])*(fNmom[1]+fPmom[1]) | |
501 | +(fNmom[2]+fPmom[2])*(fNmom[2]+fPmom[2])); | |
502 | Double_t normp = TMath::Sqrt(fPmom[0]*fPmom[0]+fPmom[1]*fPmom[1]+fPmom[2]*fPmom[2])/prec; // fraction of the momenta | |
503 | Double_t normm = TMath::Sqrt(fNmom[0]*fNmom[0]+fNmom[1]*fNmom[1]+fNmom[2]*fNmom[2])/prec; | |
d6a49f20 | 504 | const Double_t * cp = fParamP.GetCovariance(); |
505 | const Double_t * cm = fParamN.GetCovariance(); | |
506 | Double_t sigmaAP0 = fgkParams.fPSigmaOffsetAP0*fgkParams.fPSigmaOffsetAP0; // minimal part | |
507 | sigmaAP0 += (cp[5]+cp[9])*(normp*normp)+(cm[5]+cm[9])*(normm*normm); // angular resolution part | |
508 | Double_t sigmaAP1 = GetSigmaD0()/(TMath::Abs(fRr)+0.01); // vertex position part | |
509 | sigmaAP0 += 0.5*sigmaAP1*sigmaAP1; | |
510 | return (sigmaAP0>0)? TMath::Sqrt(sigmaAP0):100; | |
511 | } | |
512 | ||
513 | Double_t AliESDv0::GetEffectiveSigmaD0(){ | |
514 | // | |
515 | // minimax - effective Sigma parameterization | |
516 | // p12 effective curvature and v0 radius postion used as parameters | |
517 | // | |
518 | Double_t p12 = TMath::Sqrt(fParamP.GetParameter()[4]*fParamP.GetParameter()[4]+ | |
519 | fParamN.GetParameter()[4]*fParamN.GetParameter()[4]); | |
520 | Double_t sigmaED0= TMath::Max(TMath::Sqrt(fRr)-fgkParams.fPSigmaRminDE,0.0)*fgkParams.fPSigmaCoefDE*p12*p12; | |
521 | sigmaED0*= sigmaED0; | |
522 | sigmaED0*= sigmaED0; | |
523 | sigmaED0 = TMath::Sqrt(sigmaED0+fgkParams.fPSigmaOffsetDE*fgkParams.fPSigmaOffsetDE); | |
524 | return (sigmaED0<fgkParams.fPSigmaMaxDE) ? sigmaED0: fgkParams.fPSigmaMaxDE; | |
525 | } | |
526 | ||
527 | ||
528 | Double_t AliESDv0::GetEffectiveSigmaAP0(){ | |
529 | // | |
530 | // effective Sigma parameterization of point angle resolution | |
531 | // | |
532 | Double_t p12 = TMath::Sqrt(fParamP.GetParameter()[4]*fParamP.GetParameter()[4]+ | |
533 | fParamN.GetParameter()[4]*fParamN.GetParameter()[4]); | |
534 | Double_t sigmaAPE= fgkParams.fPSigmaBase0APE; | |
535 | sigmaAPE+= fgkParams.fPSigmaR0APE/(fgkParams.fPSigmaR1APE+fRr); | |
536 | sigmaAPE*= (fgkParams.fPSigmaP0APE+fgkParams.fPSigmaP1APE*p12); | |
537 | sigmaAPE = TMath::Min(sigmaAPE,fgkParams.fPSigmaMaxAPE); | |
538 | return sigmaAPE; | |
539 | } | |
540 | ||
541 | ||
542 | Double_t AliESDv0::GetMinimaxSigmaAP0(){ | |
543 | // | |
544 | // calculate mini-max effective sigma of point angle resolution | |
545 | // | |
546 | //compv0->fTree->SetAlias("SigmaAP2","max(min((SigmaAP0+SigmaAPE0)*0.5,1.5*SigmaAPE0),0.5*SigmaAPE0+0.003)"); | |
547 | Double_t effectiveSigma = GetEffectiveSigmaAP0(); | |
548 | Double_t sigmaMMAP = 0.5*(GetSigmaAP0()+effectiveSigma); | |
549 | sigmaMMAP = TMath::Min(sigmaMMAP, fgkParams.fPMaxFractionAP0*effectiveSigma); | |
550 | sigmaMMAP = TMath::Max(sigmaMMAP, fgkParams.fPMinFractionAP0*effectiveSigma+fgkParams.fPMinAP0); | |
551 | return sigmaMMAP; | |
552 | } | |
553 | Double_t AliESDv0::GetMinimaxSigmaD0(){ | |
554 | // | |
555 | // calculate mini-max sigma of dca resolution | |
556 | // | |
557 | //compv0->fTree->SetAlias("SigmaD2","max(min((SigmaD0+SigmaDE0)*0.5,1.5*SigmaDE0),0.5*SigmaDE0)"); | |
558 | Double_t effectiveSigma = GetEffectiveSigmaD0(); | |
559 | Double_t sigmaMMD0 = 0.5*(GetSigmaD0()+effectiveSigma); | |
560 | sigmaMMD0 = TMath::Min(sigmaMMD0, fgkParams.fPMaxFractionD0*effectiveSigma); | |
561 | sigmaMMD0 = TMath::Max(sigmaMMD0, fgkParams.fPMinFractionD0*effectiveSigma+fgkParams.fPMinD0); | |
562 | return sigmaMMD0; | |
563 | } | |
564 | ||
565 | ||
566 | Double_t AliESDv0::GetLikelihoodAP(Int_t mode0, Int_t mode1){ | |
567 | // | |
568 | // get likelihood for point angle | |
569 | // | |
570 | Double_t sigmaAP = 0.007; //default sigma | |
571 | switch (mode0){ | |
572 | case 0: | |
573 | sigmaAP = GetSigmaAP0(); // mode 0 - covariance matrix estimates used | |
574 | break; | |
575 | case 1: | |
576 | sigmaAP = GetEffectiveSigmaAP0(); // mode 1 - effective sigma used | |
577 | break; | |
578 | case 2: | |
579 | sigmaAP = GetMinimaxSigmaAP0(); // mode 2 - minimax sigma | |
580 | break; | |
581 | } | |
582 | Double_t apNorm = TMath::Min(TMath::ACos(fPointAngle)/sigmaAP,50.); | |
583 | //normalized point angle, restricted - because of overflow problems in Exp | |
584 | Double_t likelihood = 0; | |
585 | switch(mode1){ | |
586 | case 0: | |
587 | likelihood = TMath::Exp(-0.5*apNorm*apNorm); | |
588 | // one component | |
589 | break; | |
590 | case 1: | |
591 | likelihood = (TMath::Exp(-0.5*apNorm*apNorm)+0.5* TMath::Exp(-0.25*apNorm*apNorm))/1.5; | |
592 | // two components | |
593 | break; | |
594 | case 2: | |
595 | likelihood = (TMath::Exp(-0.5*apNorm*apNorm)+0.5* TMath::Exp(-0.25*apNorm*apNorm)+0.25*TMath::Exp(-0.125*apNorm*apNorm))/1.75; | |
596 | // three components | |
597 | break; | |
598 | } | |
599 | return likelihood; | |
600 | } | |
601 | ||
602 | Double_t AliESDv0::GetLikelihoodD(Int_t mode0, Int_t mode1){ | |
603 | // | |
604 | // get likelihood for DCA | |
605 | // | |
606 | Double_t sigmaD = 0.03; //default sigma | |
607 | switch (mode0){ | |
608 | case 0: | |
609 | sigmaD = GetSigmaD0(); // mode 0 - covariance matrix estimates used | |
610 | break; | |
611 | case 1: | |
612 | sigmaD = GetEffectiveSigmaD0(); // mode 1 - effective sigma used | |
613 | break; | |
614 | case 2: | |
615 | sigmaD = GetMinimaxSigmaD0(); // mode 2 - minimax sigma | |
616 | break; | |
617 | } | |
b75d63a7 | 618 | |
619 | //Bo: Double_t dNorm = TMath::Min(fDist2/sigmaD,50.); | |
620 | Double_t dNorm = TMath::Min(fDcaV0Daughters/sigmaD,50.);//Bo: | |
d6a49f20 | 621 | //normalized point angle, restricted - because of overflow problems in Exp |
622 | Double_t likelihood = 0; | |
623 | switch(mode1){ | |
624 | case 0: | |
625 | likelihood = TMath::Exp(-2.*dNorm); | |
626 | // one component | |
627 | break; | |
628 | case 1: | |
629 | likelihood = (TMath::Exp(-2.*dNorm)+0.5* TMath::Exp(-dNorm))/1.5; | |
630 | // two components | |
631 | break; | |
632 | case 2: | |
633 | likelihood = (TMath::Exp(-2.*dNorm)+0.5* TMath::Exp(-dNorm)+0.25*TMath::Exp(-0.5*dNorm))/1.75; | |
634 | // three components | |
635 | break; | |
636 | } | |
637 | return likelihood; | |
638 | ||
639 | } | |
640 | ||
97135b34 | 641 | Double_t AliESDv0::GetLikelihoodC(Int_t mode0, Int_t /*mode1*/) const { |
d6a49f20 | 642 | // |
643 | // get likelihood for Causality | |
644 | // !!! Causality variables defined in AliITStrackerMI !!! | |
645 | // when more information was available | |
646 | // | |
647 | Double_t likelihood = 0.5; | |
648 | Double_t minCausal = TMath::Min(fCausality[0],fCausality[1]); | |
649 | Double_t maxCausal = TMath::Max(fCausality[0],fCausality[1]); | |
650 | // minCausal = TMath::Max(minCausal,0.5*maxCausal); | |
651 | //compv0->fTree->SetAlias("LCausal","(1.05-(2*(0.8-exp(-max(RC.fV0rec.fCausality[0],RC.fV0rec.fCausality[1])))+2*(0.8-exp(-min(RC.fV0rec.fCausality[0],RC.fV0rec.fCausality[1]))))/2)**4"); | |
652 | ||
653 | switch(mode0){ | |
654 | case 0: | |
655 | //normalization | |
656 | likelihood = TMath::Power((1.05-2*(0.8-TMath::Exp(-maxCausal))),4.); | |
657 | break; | |
658 | case 1: | |
659 | likelihood = TMath::Power(1.05-(2*(0.8-TMath::Exp(-maxCausal))+(2*(0.8-TMath::Exp(-minCausal))))*0.5,4.); | |
660 | break; | |
661 | } | |
662 | return likelihood; | |
663 | ||
664 | } | |
665 | ||
666 | void AliESDv0::SetCausality(Float_t pb0, Float_t pb1, Float_t pa0, Float_t pa1) | |
667 | { | |
668 | // | |
669 | // set probabilities | |
670 | // | |
671 | fCausality[0] = pb0; // probability - track 0 exist before vertex | |
672 | fCausality[1] = pb1; // probability - track 1 exist before vertex | |
673 | fCausality[2] = pa0; // probability - track 0 exist close after vertex | |
674 | fCausality[3] = pa1; // probability - track 1 exist close after vertex | |
675 | } | |
97135b34 | 676 | void AliESDv0::SetClusters(const Int_t *clp, const Int_t *clm) |
d6a49f20 | 677 | { |
678 | // | |
679 | // Set its clusters indexes | |
680 | // | |
681 | for (Int_t i=0;i<6;i++) fClusters[0][i] = clp[i]; | |
682 | for (Int_t i=0;i<6;i++) fClusters[1][i] = clm[i]; | |
683 | } | |
9973a4bf | 684 | |
97135b34 | 685 | Double_t AliESDv0::GetEffMass(UInt_t p1, UInt_t p2) const{ |
9973a4bf | 686 | // |
687 | // calculate effective mass | |
688 | // | |
586d906c | 689 | const Float_t kpmass[5] = {TDatabasePDG::Instance()->GetParticle(kElectron)->Mass(), |
690 | TDatabasePDG::Instance()->GetParticle(kMuonMinus)->Mass(), | |
691 | TDatabasePDG::Instance()->GetParticle(kPiPlus)->Mass(), | |
692 | TDatabasePDG::Instance()->GetParticle(kKPlus)->Mass(), | |
693 | TDatabasePDG::Instance()->GetParticle(kProton)->Mass()}; | |
9973a4bf | 694 | if (p1>4) return -1; |
695 | if (p2>4) return -1; | |
696 | Float_t mass1 = kpmass[p1]; | |
697 | Float_t mass2 = kpmass[p2]; | |
97135b34 | 698 | const Double_t *m1 = fPmom; |
699 | const Double_t *m2 = fNmom; | |
9973a4bf | 700 | // |
701 | //if (fRP[p1]+fRM[p2]<fRP[p2]+fRM[p1]){ | |
702 | // m1 = fPM; | |
703 | // m2 = fPP; | |
704 | //} | |
705 | // | |
706 | Float_t e1 = TMath::Sqrt(mass1*mass1+ | |
707 | m1[0]*m1[0]+ | |
708 | m1[1]*m1[1]+ | |
709 | m1[2]*m1[2]); | |
710 | Float_t e2 = TMath::Sqrt(mass2*mass2+ | |
711 | m2[0]*m2[0]+ | |
712 | m2[1]*m2[1]+ | |
713 | m2[2]*m2[2]); | |
714 | Float_t mass = | |
715 | (m2[0]+m1[0])*(m2[0]+m1[0])+ | |
716 | (m2[1]+m1[1])*(m2[1]+m1[1])+ | |
717 | (m2[2]+m1[2])*(m2[2]+m1[2]); | |
718 | ||
719 | mass = TMath::Sqrt((e1+e2)*(e1+e2)-mass); | |
720 | return mass; | |
721 | } |