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9e4cc50d | 1 | |
7c679be0 | 2 | // ************************************************************************** |
3 | // * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | // * * | |
5 | // * Author: The ALICE Off-line Project. * | |
6 | // * Contributors are mentioned in the code where appropriate. * | |
7 | // * * | |
8 | // * Permission to use, copy, modify and distribute this software and its * | |
9 | // * documentation strictly for non-commercial purposes is hereby granted * | |
10 | // * without fee, provided that the above copyright notice appears in all * | |
11 | // * copies and that both the copyright notice and this permission notice * | |
12 | // * appear in the supporting documentation. The authors make no claims * | |
13 | // * about the suitability of this software for any purpose. It is * | |
14 | // * provided "as is" without express or implied warranty. * | |
15 | // ************************************************************************** | |
16 | ||
17 | //----------------------------------------------------------------------------------- | |
18 | // Jet finder based on Deterministic Annealing | |
19 | // For further informations about the DA working features see: | |
20 | // Phys.Lett. B601 (2004) 56-63 (http://arxiv.org/abs/hep-ph/0407214) | |
21 | // Author: Davide Perrino (davide.perrino@ba.infn.it, davide.perrino@cern.ch) | |
22 | //----------------------------------------------------------------------------------- | |
23 | ||
24 | #include <TMath.h> | |
386b2e2f | 25 | #include <TRandom2.h> |
7c679be0 | 26 | #include <TClonesArray.h> |
36b5cc43 | 27 | #include "AliJetReaderHeader.h" |
7c679be0 | 28 | #include "AliJetReader.h" |
29 | #include "AliDAJetHeader.h" | |
30 | #include "AliDAJetFinder.h" | |
31 | ||
7c679be0 | 32 | ClassImp(AliDAJetFinder) |
33 | ||
34 | ||
35 | //----------------------------------------------------------------------------------- | |
36 | AliDAJetFinder::AliDAJetFinder(): | |
36b5cc43 | 37 | AliJetFinder(), |
7c679be0 | 38 | fAlpha(1.01), |
39 | fDelta(1e-8), | |
40 | fAvDist(1e-6), | |
41 | fEps(1e-4), | |
42 | fEpsMax(1e-2), | |
43 | fNloopMax(100), | |
44 | fBeta(0.1), | |
45 | fNclustMax(0), | |
386b2e2f | 46 | fNin(0), |
47 | fNeff(0) | |
7c679be0 | 48 | { |
49 | // Constructor | |
50 | } | |
51 | ||
52 | //----------------------------------------------------------------------------------- | |
53 | AliDAJetFinder::~AliDAJetFinder() | |
54 | { | |
55 | // Destructor | |
7c679be0 | 56 | } |
57 | ||
58 | //----------------------------------------------------------------------------------- | |
59 | void AliDAJetFinder::FindJets() | |
60 | { | |
61 | // Find the jets in current event | |
62 | // | |
63 | Float_t betaStop=100.; | |
386b2e2f | 64 | fDebug = fHeader->GetDebug(); |
7c679be0 | 65 | |
66 | Double_t dEtSum=0; | |
36b5cc43 | 67 | Double_t *xData[2]; |
386b2e2f | 68 | TVectorD *vPx = new TVectorD(); |
69 | TVectorD *vPy = new TVectorD(); | |
70 | TMatrixD *mPyx= new TMatrixD(); | |
71 | TMatrixD *mY = new TMatrixD(); | |
36b5cc43 | 72 | InitDetAnn(dEtSum,xData,vPx,vPy,mPyx,mY); |
95345ec0 | 73 | if (fNin < fNclustMax){ |
74 | delete [] xData[0], delete [] xData[1]; | |
75 | delete vPx; | |
76 | delete vPy; | |
77 | delete mPyx; | |
78 | delete mY; | |
79 | return; | |
80 | } | |
36b5cc43 | 81 | Int_t nc=1, nk; |
82 | DoubleClusters(nc,nk,vPy,mY); | |
7c679be0 | 83 | do{ //loop over beta |
84 | fBeta*=fAlpha; | |
36b5cc43 | 85 | Annealing(nk,xData,vPx,vPy,mPyx,mY); |
86 | NumCl(nc,nk,vPy,mPyx,mY); | |
7c679be0 | 87 | }while((fBeta<betaStop || nc<4) && nc<fNclustMax); |
88 | ||
386b2e2f | 89 | Int_t *xx=new Int_t[fNeff]; |
36b5cc43 | 90 | EndDetAnn(nk,xData,xx,dEtSum,vPx,vPy,mPyx,mY); |
91 | StoreJets(nk,xData,xx,mY); | |
7c679be0 | 92 | delete [] xx; |
93 | ||
36b5cc43 | 94 | delete [] xData[0], delete [] xData[1]; |
95 | delete mPyx; | |
96 | delete mY; | |
97 | delete vPx; | |
98 | delete vPy; | |
99 | ||
7c679be0 | 100 | } |
101 | ||
102 | //----------------------------------------------------------------------------------- | |
36b5cc43 | 103 | void AliDAJetFinder::InitDetAnn(Double_t &dEtSum,Double_t **xData,TVectorD *vPx,TVectorD *vPy,TMatrixD *mPyx,TMatrixD *mY) |
7c679be0 | 104 | { |
105 | //Initialise the variables used by the algorithm | |
106 | fBeta=0.1; | |
386b2e2f | 107 | fNclustMax = ((AliDAJetHeader*)fHeader)->GetFixedCl() ? |
36b5cc43 | 108 | ((AliDAJetHeader*)fHeader)->GetNclustMax() : |
9e4cc50d | 109 | TMath::Max((Int_t)TMath::Sqrt(fNin),5); |
386b2e2f | 110 | Float_t etaEff = ((AliDAJetHeader*)fHeader)->GetEtaEff(); |
e53baffe | 111 | TClonesArray *lvArray = fReader->GetMomentumArray(); |
112 | Int_t nEntr = lvArray->GetEntries(); | |
113 | fNin=0; | |
114 | for (Int_t iEn=0; iEn<nEntr; iEn++) if (fReader->GetCutFlag(iEn)==1) fNin++; | |
386b2e2f | 115 | |
116 | fNeff = ((AliDAJetHeader*)fHeader)->GetNeff(); | |
117 | fNeff = TMath::Max(fNeff,fNin); | |
118 | Double_t *xEta = new Double_t[fNeff]; | |
119 | Double_t *xPhi = new Double_t[fNeff]; | |
36b5cc43 | 120 | xData[0]=xEta; xData[1]=xPhi; |
386b2e2f | 121 | vPx->ResizeTo(fNeff); |
e53baffe | 122 | Int_t iIn=0; |
123 | for (Int_t iEn=0; iEn<nEntr; iEn++){ | |
124 | if (fReader->GetCutFlag(iEn)==0) continue; | |
125 | TLorentzVector *lv=(TLorentzVector*)lvArray->At(iEn); | |
36b5cc43 | 126 | xEta[iIn] = lv->Eta(); |
127 | xPhi[iIn] = lv->Phi()<0 ? lv->Phi() + 2*TMath::Pi() : lv->Phi(); | |
128 | (*vPx)(iIn)=lv->Pt(); | |
129 | dEtSum+=(*vPx)(iIn); | |
e53baffe | 130 | iIn++; |
7c679be0 | 131 | } |
386b2e2f | 132 | TRandom2 r; |
133 | r.SetSeed(0); | |
d072acbe | 134 | for (iIn=fNin; iIn<fNeff; iIn++){ |
386b2e2f | 135 | xEta[iIn]=r.Uniform(-1*etaEff,etaEff); |
136 | xPhi[iIn]=r.Uniform(0.,2*TMath::Pi()); | |
137 | (*vPx)(iIn)=r.Uniform(0.01,0.02); | |
138 | dEtSum+=(*vPx)(iIn); | |
139 | } | |
140 | for (iIn=0; iIn<fNeff; iIn++) (*vPx)(iIn)=(*vPx)(iIn)/dEtSum; | |
7c679be0 | 141 | |
142 | Int_t njdim=2*fNclustMax+1; | |
386b2e2f | 143 | mPyx->ResizeTo(fNeff,njdim); |
36b5cc43 | 144 | mY->ResizeTo(4,njdim); |
145 | vPy->ResizeTo(njdim); | |
146 | mY->Zero();mPyx->Zero();vPy->Zero(); | |
147 | (*vPy)(0)=1; | |
148 | TMatrixDColumn(*mPyx,0)=1; | |
7c679be0 | 149 | Double_t ypos=0,xpos=0; |
386b2e2f | 150 | for (iIn=0; iIn<fNeff; iIn++){ |
36b5cc43 | 151 | (*mY)(0,0)+=(*vPx)(iIn)*xEta[iIn]; |
152 | ypos+=(*vPx)(iIn)*TMath::Sin(xPhi[iIn]); | |
153 | xpos+=(*vPx)(iIn)*TMath::Cos(xPhi[iIn]); | |
7c679be0 | 154 | } |
36b5cc43 | 155 | (*mY)(1,0)=(atan2(ypos,xpos)>0) ? atan2(ypos,xpos) : atan2(ypos,xpos)+2*TMath::Pi(); |
7c679be0 | 156 | } |
157 | ||
158 | //----------------------------------------------------------------------------------- | |
1240edf5 | 159 | void AliDAJetFinder::DoubleClusters(Int_t nc,Int_t &nk, TVectorD *vPy, TMatrixD *mY) const |
7c679be0 | 160 | { |
1240edf5 | 161 | // Return double clusters |
7c679be0 | 162 | for(Int_t iClust=0; iClust<nc; iClust++){ |
36b5cc43 | 163 | (*vPy)(iClust)=(*vPy)(iClust)/2; |
164 | (*vPy)(nc+iClust)=(*vPy)(iClust); | |
165 | for(Int_t iComp=0; iComp<3; iComp++) (*mY)(iComp,nc+iClust)=(*mY)(iComp,iClust); | |
7c679be0 | 166 | } |
167 | nk=2*nc; | |
168 | } | |
169 | ||
170 | //----------------------------------------------------------------------------------- | |
c0a5117c | 171 | void AliDAJetFinder::Annealing(Int_t nk,Double_t **xData, TVectorD *vPx, TVectorD *vPy, TMatrixD *mPyx, TMatrixD *mY) |
7c679be0 | 172 | { |
173 | // Main part of the algorithm | |
174 | const Double_t pi=TMath::Pi(); | |
175 | TVectorD *py = new TVectorD(nk); | |
176 | TVectorD *p = new TVectorD(nk); | |
177 | TMatrixD *y = new TMatrixD(4,nk); | |
178 | TMatrixD *y1 = new TMatrixD(4,nk); | |
179 | TMatrixD *ry = new TMatrixD(2,nk); | |
386b2e2f | 180 | Double_t *xEta = xData[0]; |
181 | Double_t *xPhi = xData[1]; | |
7c679be0 | 182 | Double_t Dist(TVectorD,TVectorD); |
183 | ||
36b5cc43 | 184 | Double_t df[2]={fReader->GetReaderHeader()->GetFiducialEtaMax(),pi}; |
7c679be0 | 185 | TVectorD vPart(2); |
186 | Double_t *m = new Double_t[nk]; | |
187 | Double_t chi,chi1; | |
188 | do{ | |
189 | Int_t nloop=0; | |
190 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
36b5cc43 | 191 | for (Int_t i=0; i<3; i++)(*y1)(i,iClust)=(*mY)(i,iClust); |
192 | (*py)(iClust)=(*vPy)(iClust); | |
7c679be0 | 193 | } |
194 | //perturbation of codevectors | |
195 | Double_t seed=1000000*gRandom->Rndm(24); | |
196 | ry->Randomize(-0.5,0.5,seed); | |
197 | for (Int_t i=0; i<2; i++){ | |
198 | for (Int_t iClust=0; iClust<nk/2; iClust++) | |
199 | (*y1)(i,iClust)+=((*ry)(i,iClust)+TMath::Sign(0.5,(*ry)(i,iClust)))*fDelta*df[i]; | |
200 | for (Int_t iClust=nk/2; iClust<nk; iClust++) | |
201 | (*y1)(i,iClust)-=((*ry)(i,iClust-nk/2)+TMath::Sign(0.5,(*ry)(i,iClust-nk/2)))*fDelta*df[i]; | |
202 | } | |
203 | do{ | |
204 | //recalculate conditional probabilities | |
205 | nloop++; | |
386b2e2f | 206 | for (Int_t iIn=0; iIn<fNeff; iIn++){ |
36b5cc43 | 207 | vPart(0)=xEta[iIn]; vPart(1)=xPhi[iIn]; |
7c679be0 | 208 | for(Int_t iClust=0; iClust<nk; iClust++){ |
36b5cc43 | 209 | (*mPyx)(iIn,iClust)=-log((*py)(iClust))+fBeta*Dist(vPart,TMatrixDColumn(*y1,iClust)); |
210 | m[iClust]=(*mPyx)(iIn,iClust); | |
7c679be0 | 211 | } |
212 | Double_t pyxNorm=0; | |
213 | Double_t minPyx=TMath::MinElement(nk,m); | |
214 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
36b5cc43 | 215 | (*mPyx)(iIn,iClust)-=minPyx; |
216 | (*mPyx)(iIn,iClust)=exp(-(*mPyx)(iIn,iClust)); | |
217 | pyxNorm+=(*mPyx)(iIn,iClust); | |
7c679be0 | 218 | } |
36b5cc43 | 219 | for (Int_t iClust=0; iClust<nk; iClust++) (*mPyx)(iIn,iClust)/=pyxNorm; |
7c679be0 | 220 | } |
221 | p->Zero(); | |
222 | y->Zero(); | |
223 | //recalculate codevectors | |
224 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
225 | Double_t xpos=0,ypos=0,pxy; | |
386b2e2f | 226 | for (Int_t iIn=0; iIn<fNeff; iIn++) (*p)(iClust)+=(*vPx)(iIn)*(*mPyx)(iIn,iClust); |
227 | for (Int_t iIn=0; iIn<fNeff; iIn++){ | |
36b5cc43 | 228 | pxy=(*vPx)(iIn)*(*mPyx)(iIn,iClust)/(*p)(iClust); |
229 | ypos+=pxy*TMath::Sin(xPhi[iIn]); | |
230 | xpos+=pxy*TMath::Cos(xPhi[iIn]); | |
231 | (*y)(0,iClust)+=pxy*xEta[iIn]; | |
7c679be0 | 232 | } |
233 | (*y)(1,iClust)=(atan2(ypos,xpos)>0) ? atan2(ypos,xpos) : atan2(ypos,xpos)+2*pi; | |
234 | } | |
235 | //verify codevectors' stability | |
236 | chi=0; | |
237 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
238 | chi1=TMath::CosH((*y1)(0,iClust)-(*y)(0,iClust))-TMath::Cos((*y1)(1,iClust)-(*y)(1,iClust)); | |
239 | chi1/=(2*TMath::CosH((*y1)(0,iClust))*TMath::CosH((*y)(0,iClust))); | |
240 | chi1*=chi1; | |
241 | if (chi1>chi) chi=chi1; | |
242 | } | |
243 | chi=TMath::Sqrt(chi); | |
244 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
245 | for (Int_t i=0; i<2; i++) (*y1)(i,iClust)=(*y)(i,iClust); | |
246 | (*py)(iClust)=(*p)(iClust); | |
247 | } | |
248 | if (nloop>fNloopMax){ | |
249 | if (chi<fEpsMax || nloop>500) break; | |
250 | } | |
251 | }while (chi>fEps); | |
252 | }while (chi>fEpsMax); | |
253 | for (Int_t iClust=0; iClust<nk; iClust++){ //set codevectors and probability equal to those calculated | |
36b5cc43 | 254 | for (Int_t i=0; i<2; i++) (*mY)(i,iClust)=(*y)(i,iClust); |
255 | (*vPy)(iClust)=(*p)(iClust); | |
7c679be0 | 256 | } |
257 | delete py; | |
258 | delete p; | |
259 | delete y; | |
260 | delete y1; | |
261 | delete ry; | |
c0a5117c | 262 | delete [] m; |
7c679be0 | 263 | } |
264 | ||
265 | //----------------------------------------------------------------------------------- | |
c0a5117c | 266 | void AliDAJetFinder::NumCl(Int_t &nc,Int_t &nk,TVectorD *vPy, TMatrixD *mPyx,TMatrixD *mY) |
7c679be0 | 267 | { |
1240edf5 | 268 | // Number of clusters |
7c679be0 | 269 | static Bool_t growcl=true; |
270 | ||
271 | if (nk==2) growcl=true; | |
272 | if (growcl){ | |
273 | //verify if two codevectors are equal within fAvDist | |
274 | Int_t *nSame = new Int_t[nk]; | |
275 | Int_t **iSame = new Int_t*[nk]; | |
276 | Int_t **cont = new Int_t*[nk]; | |
277 | for (Int_t iClust=0; iClust<nk; iClust++) cont[iClust]=new Int_t[nk],iSame[iClust]=new Int_t[nk]; | |
278 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
279 | iSame[iClust][iClust]=1; | |
280 | for (Int_t iClust1=iClust+1; iClust1<nk; iClust1++){ | |
36b5cc43 | 281 | Double_t eta = (*mY)(0,iClust) ; Double_t phi = (*mY)(1,iClust); |
282 | Double_t eta1 = (*mY)(0,iClust1); Double_t phi1 = (*mY)(1,iClust1); | |
7c679be0 | 283 | Double_t distCl=(TMath::CosH(eta-eta1)-TMath::Cos(phi-phi1))/(2*TMath::CosH(eta)*TMath::CosH(eta1)); |
284 | if (distCl < fAvDist) iSame[iClust][iClust1]=iSame[iClust1][iClust]=1; | |
852db00e | 285 | else iSame[iClust][iClust1]=iSame[iClust1][iClust]=0; |
7c679be0 | 286 | } |
287 | } | |
288 | ReduceClusters(iSame,nk,nc,cont,nSame); | |
289 | if (nc >= fNclustMax) growcl=false; | |
290 | //recalculate the nc distinct codevectors | |
386b2e2f | 291 | TMatrixD *pyx = new TMatrixD(fNeff,2*nc); |
7c679be0 | 292 | TVectorD *py = new TVectorD(nk); |
293 | TMatrixD *y1 = new TMatrixD(3,nk); | |
294 | for (Int_t iClust=0; iClust<nc; iClust++){ | |
295 | for(Int_t j=0; j<nSame[iClust]; j++){ | |
296 | Int_t iClust1 = cont[iClust][j]; | |
386b2e2f | 297 | for (Int_t iIn=0; iIn<fNeff; iIn++) (*pyx)(iIn,iClust)+=(*mPyx)(iIn,iClust1); |
36b5cc43 | 298 | (*py)(iClust)+=(*vPy)(iClust1); |
299 | for (Int_t i=0; i<2; i++) (*y1)(i,iClust)+=(*mY)(i,iClust1); | |
7c679be0 | 300 | } |
301 | for (Int_t i=0; i<2; i++) (*y1)(i,iClust)/=nSame[iClust]; | |
302 | } | |
852db00e | 303 | for (Int_t iClust=0; iClust<nk; iClust++) delete [] cont[iClust], delete [] iSame[iClust]; |
304 | delete [] iSame; | |
305 | delete [] cont; | |
306 | delete [] nSame; | |
7c679be0 | 307 | if (nc > nk/2){ |
308 | for (Int_t iClust=0; iClust<nc; iClust++){ | |
386b2e2f | 309 | for (Int_t iIn=0; iIn<fNeff; iIn++) (*mPyx)(iIn,iClust)=(*pyx)(iIn,iClust); |
36b5cc43 | 310 | for (Int_t iComp=0; iComp<2; iComp++) (*mY)(iComp,iClust)=(*y1)(iComp,iClust); |
311 | (*vPy)(iClust)=(*py)(iClust); | |
7c679be0 | 312 | } |
313 | nk=nc; | |
36b5cc43 | 314 | if (growcl) DoubleClusters(nc,nk,vPy,mY); |
7c679be0 | 315 | } |
7c679be0 | 316 | delete pyx; |
317 | delete py; | |
318 | delete y1; | |
319 | } | |
320 | ||
321 | } | |
322 | ||
323 | //----------------------------------------------------------------------------------- | |
c0a5117c | 324 | void AliDAJetFinder::ReduceClusters(Int_t **iSame,Int_t nc,Int_t &ncout,Int_t **cont,Int_t *nSameOut) const |
7c679be0 | 325 | { |
1240edf5 | 326 | // Reduction step |
7c679be0 | 327 | Int_t *nSame = new Int_t[nc]; |
328 | Int_t *iperm = new Int_t[nc]; | |
329 | Int_t *go = new Int_t[nc]; | |
330 | for (Int_t iCl=0; iCl<nc; iCl++){ | |
331 | nSame[iCl]=0; | |
852db00e | 332 | for (Int_t jCl=0; jCl<nc; jCl++) nSame[iCl]+=iSame[iCl][jCl], cont[iCl][jCl]=0; |
7c679be0 | 333 | iperm[iCl]=iCl; |
334 | go[iCl]=1; | |
335 | } | |
336 | TMath::Sort(nc,nSame,iperm,true); | |
337 | Int_t l=0; | |
338 | for (Int_t iCl=0; iCl<nc; iCl++){ | |
339 | Int_t k=iperm[iCl]; | |
340 | if (go[k] == 1){ | |
341 | Int_t m=0; | |
342 | for (Int_t jCl=0; jCl<nc; jCl++){ | |
343 | if (iSame[k][jCl] == 1){ | |
344 | cont[l][m]=jCl; | |
345 | go[jCl]=0; | |
346 | m++; | |
347 | } | |
348 | } | |
349 | nSameOut[l]=m; | |
350 | l++; | |
351 | } | |
352 | } | |
353 | ncout=l; | |
354 | delete [] nSame; | |
355 | delete [] iperm; | |
356 | delete [] go; | |
357 | } | |
358 | ||
359 | //----------------------------------------------------------------------------------- | |
386b2e2f | 360 | void AliDAJetFinder::EndDetAnn(Int_t &nk,Double_t **xData,Int_t *xx,Double_t etx,TVectorD *vPx,TVectorD *vPy,TMatrixD *mPyx,TMatrixD *mY) |
7c679be0 | 361 | { |
362 | //now assign each particle to only one cluster | |
363 | Double_t *clusters=new Double_t[nk]; | |
386b2e2f | 364 | for (Int_t iIn=0; iIn<fNeff; iIn++){ |
36b5cc43 | 365 | for (Int_t iClust=0; iClust<nk; iClust++) clusters[iClust]=(*mPyx)(iIn,iClust); |
7c679be0 | 366 | xx[iIn]=TMath::LocMax(nk,clusters); |
367 | } | |
386b2e2f | 368 | delete [] clusters; |
7c679be0 | 369 | |
370 | //recalculate codevectors, having all p(y|x)=0 or 1 | |
386b2e2f | 371 | Double_t *xEta = xData[0]; |
372 | Double_t *xPhi = xData[1]; | |
36b5cc43 | 373 | mY->Zero(); |
374 | mPyx->Zero(); | |
375 | vPy->Zero(); | |
7c679be0 | 376 | for (Int_t iIn=0; iIn<fNin; iIn++){ |
377 | Int_t iClust=xx[iIn]; | |
36b5cc43 | 378 | (*mPyx)(iIn,iClust)=1; |
379 | (*vPy)(iClust)+=(*vPx)(iIn); | |
380 | (*mY)(0,iClust)+=(*vPx)(iIn)*xEta[iIn]; | |
381 | (*mY)(3,iClust)+=(*vPx)(iIn)*etx; | |
7c679be0 | 382 | } |
383 | Int_t k=0; | |
384 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
36b5cc43 | 385 | if ((*vPy)(iClust)>0){ |
7c679be0 | 386 | Double_t xpos=0,ypos=0,pxy; |
387 | for (Int_t iIn=0; iIn<fNin; iIn++){ | |
36b5cc43 | 388 | pxy=(*vPx)(iIn)*(*mPyx)(iIn,iClust)/(*vPy)(iClust); |
389 | ypos+=pxy*TMath::Sin(xPhi[iIn]); | |
390 | xpos+=pxy*TMath::Cos(xPhi[iIn]); | |
7c679be0 | 391 | if (xx[iIn]==iClust) xx[iIn]=k; |
392 | } | |
36b5cc43 | 393 | (*mY)(0,k)=(*mY)(0,iClust)/(*vPy)(iClust); |
394 | (*mY)(1,k)=(atan2(ypos,xpos)>0) ? atan2(ypos,xpos) : atan2(ypos,xpos)+2*TMath::Pi(); | |
395 | (*mY)(3,k)=(*mY)(3,iClust); | |
7c679be0 | 396 | k++; |
397 | } | |
398 | } | |
399 | nk=k; | |
400 | } | |
401 | ||
402 | //----------------------------------------------------------------------------------- | |
386b2e2f | 403 | void AliDAJetFinder::StoreJets(Int_t nk, Double_t **xData, Int_t *xx, TMatrixD *mY) |
7c679be0 | 404 | { |
405 | //evaluate significant clusters properties | |
406 | const Double_t pi=TMath::Pi(); | |
36b5cc43 | 407 | AliJetReaderHeader *rHeader=fReader->GetReaderHeader(); |
386b2e2f | 408 | Float_t dFidEtaMax = rHeader->GetFiducialEtaMax(); |
409 | Float_t dFidEtaMin = rHeader->GetFiducialEtaMin(); | |
410 | Float_t dFiducialEta= dFidEtaMax - dFidEtaMin; | |
411 | Double_t *xEta = xData[0]; | |
412 | Double_t *xPhi = xData[1]; | |
413 | Int_t nEff = 0; | |
414 | for (Int_t i=0; i<fNeff; i++) if (xEta[i]<dFidEtaMax && xEta[i]>dFidEtaMin) nEff++; | |
415 | Double_t dMeanDist=TMath::Sqrt(2*dFiducialEta*pi/nEff); | |
7c679be0 | 416 | Bool_t *isJet = new Bool_t[nk]; |
417 | Double_t *etNoBg= new Double_t[nk]; | |
418 | Double_t *dDeltaEta=new Double_t[nk]; | |
419 | Double_t *dDeltaPhi=new Double_t[nk]; | |
420 | Double_t *surf = new Double_t[nk]; | |
421 | Double_t *etDens= new Double_t[nk]; | |
386b2e2f | 422 | for (Int_t iClust=0; iClust<nk; iClust++){ |
7c679be0 | 423 | isJet[iClust]=false; |
424 | Double_t dEtaMin=10.,dEtaMax=-10.,dPhiMin=10.,dPhiMax=0.; | |
386b2e2f | 425 | for (Int_t iIn=0; iIn<fNeff; iIn++){ |
426 | if (xx[iIn]!=iClust || xEta[iIn]>dFidEtaMax || xEta[iIn]<dFidEtaMin) continue; | |
36b5cc43 | 427 | if (xEta[iIn] < dEtaMin) dEtaMin=xEta[iIn]; |
428 | if (xEta[iIn] > dEtaMax) dEtaMax=xEta[iIn]; | |
429 | Double_t dPhi=xPhi[iIn]-(*mY)(1,iClust); | |
7c679be0 | 430 | if (dPhi > pi ) dPhi-=2*pi; |
431 | else if (dPhi < (-1)*pi) dPhi+=2*pi; | |
432 | if (dPhi < dPhiMin) dPhiMin=dPhi; | |
433 | else if (dPhi > dPhiMax) dPhiMax=dPhi; | |
434 | } | |
435 | dDeltaEta[iClust]=dEtaMax-dEtaMin+dMeanDist; | |
436 | dDeltaPhi[iClust]=dPhiMax-dPhiMin+dMeanDist; | |
437 | surf[iClust]=0.25*pi*dDeltaEta[iClust]*dDeltaPhi[iClust]; | |
36b5cc43 | 438 | etDens[iClust]=(*mY)(3,iClust)/surf[iClust]; |
7c679be0 | 439 | } |
440 | ||
9e4cc50d | 441 | if (((AliDAJetHeader*)fHeader)->GetSelJets()){ |
7c679be0 | 442 | for (Int_t iClust=0; iClust<nk; iClust++){ |
386b2e2f | 443 | if (!isJet[iClust] && (*mY)(0,iClust)<dFidEtaMax && (*mY)(0,iClust)>dFidEtaMin){ |
7c679be0 | 444 | Double_t etDensMed=0.; |
445 | Double_t etDensSqr=0.; | |
446 | Int_t norm=0; | |
447 | for (Int_t iClust1=0; iClust1<nk; iClust1++){ | |
386b2e2f | 448 | if(iClust1!=iClust && (*mY)(0,iClust)<dFidEtaMax && (*mY)(0,iClust)>dFidEtaMin){ |
7c679be0 | 449 | etDensMed+=etDens[iClust1]; |
450 | etDensSqr+=TMath::Power(etDens[iClust1],2); | |
451 | norm++; | |
452 | } | |
453 | } | |
454 | etDensMed/=TMath::Max(norm,1); | |
455 | etDensSqr/=TMath::Max(norm,1); | |
456 | Double_t deltaEtDens=TMath::Sqrt(etDensSqr-TMath::Power(etDensMed,2)); | |
36b5cc43 | 457 | if ((*mY)(3,iClust) > (etDensMed+deltaEtDens)*surf[iClust]) isJet[iClust]=kTRUE; |
458 | etNoBg[iClust]=(*mY)(3,iClust)-etDensMed*surf[iClust]; | |
7c679be0 | 459 | } |
460 | } | |
461 | for (Int_t iClust=0; iClust<nk; iClust++){ | |
462 | if (isJet[iClust]){ | |
463 | Double_t etDensMed=0; | |
36b5cc43 | 464 | Double_t extSurf=2*dFiducialEta*pi; |
7c679be0 | 465 | for (Int_t iClust1=0; iClust1<nk; iClust1++){ |
36b5cc43 | 466 | if (!isJet[iClust1]) etDensMed+=(*mY)(3,iClust1); |
7c679be0 | 467 | else extSurf-=surf[iClust1]; |
468 | } | |
469 | etDensMed/=extSurf; | |
36b5cc43 | 470 | etNoBg[iClust]=(*mY)(3,iClust)-etDensMed*surf[iClust]; |
10bd125d | 471 | if (etNoBg[iClust]<((AliDAJetHeader*)fHeader)->GetEtMin()){ |
472 | isJet[iClust]=kFALSE; | |
473 | iClust=-1; | |
474 | } | |
7c679be0 | 475 | } |
476 | } | |
477 | } else { | |
386b2e2f | 478 | for (Int_t iClust=0; iClust<nk; iClust++){ |
479 | isJet[iClust]=true; | |
480 | etNoBg[iClust]=(*mY)(3,iClust); | |
481 | } | |
7c679be0 | 482 | } |
483 | delete [] etDens; | |
484 | delete [] surf; | |
485 | ||
486 | //now add selected jets to the list | |
af816924 | 487 | Int_t *iSort = new Int_t[nk]; |
386b2e2f | 488 | TMath::Sort(nk,etNoBg,iSort,true); |
489 | Int_t iCl = 0; | |
7c679be0 | 490 | TRefArray *refs = 0; |
491 | Bool_t fromAod = !strcmp(fReader->ClassName(),"AliJetAODReader"); | |
492 | if (fromAod) refs = fReader->GetReferences(); | |
493 | for (Int_t iClust=0; iClust<nk; iClust++){ //clusters loop | |
af816924 | 494 | iCl=iSort[iClust]; |
495 | if (isJet[iCl]){ //choose cluster | |
7c679be0 | 496 | Float_t px,py,pz,en; |
af816924 | 497 | px = (*mY)(3,iCl)*TMath::Cos((*mY)(1,iCl)); |
498 | py = (*mY)(3,iCl)*TMath::Sin((*mY)(1,iCl)); | |
499 | pz = (*mY)(3,iCl)/TMath::Tan(2.0 * TMath::ATan(TMath::Exp(-(*mY)(0,iCl)))); | |
7c679be0 | 500 | en = TMath::Sqrt(px * px + py * py + pz * pz); |
501 | AliAODJet jet(px, py, pz, en); | |
e53baffe | 502 | if (fromAod){ |
503 | Int_t iIn=0; | |
504 | Int_t nEntr = fReader->GetMomentumArray()->GetEntries(); | |
505 | for (Int_t iEn=0; iEn<nEntr; iEn++){ | |
506 | if (fReader->GetCutFlag(iEn)==0) continue; | |
af816924 | 507 | if (xx[iIn]==iCl) jet.AddTrack(refs->At(iEn)); |
e53baffe | 508 | iIn++; |
509 | } | |
510 | } | |
7c679be0 | 511 | AddJet(jet); |
dd677561 | 512 | if (fDebug > 0) printf("jet %d, Eta: %f, Phi: %f, Et: %f\n",iCl,jet.Eta(),jet.Phi(),jet.Pt()); |
7c679be0 | 513 | } |
514 | } | |
515 | delete [] dDeltaEta; delete [] dDeltaPhi; | |
516 | delete [] etNoBg; | |
517 | delete [] isJet; | |
af816924 | 518 | delete [] iSort; |
7c679be0 | 519 | } |
520 | ||
521 | //----------------------------------------------------------------------------------- | |
522 | Double_t Dist(TVectorD x,TVectorD y) | |
523 | { | |
524 | // Squared distance | |
525 | const Double_t pi=TMath::Pi(); | |
526 | Double_t dphi=TMath::Abs(x(1)-y(1)); | |
527 | if (dphi > pi) dphi=2*pi-dphi; | |
528 | Double_t dist=pow(x(0)-y(0),2)+pow(dphi,2); | |
529 | return dist; | |
530 | } |