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f3050824 | 1 | |
2 | #include "TROOT.h" | |
519378fb | 3 | #include "TKey.h" |
f3050824 | 4 | #include "TList.h" |
519378fb | 5 | #include "TSystem.h" |
188a1ba9 | 6 | #include "TH1F.h" |
7 | #include "TProfile.h" | |
8 | #include "THnSparse.h" | |
9 | #include "TFile.h" | |
519378fb | 10 | #include "TString.h" |
f3050824 | 11 | #include "AliMCEvent.h" |
5c047edc | 12 | #include "AliLog.h" |
db6bcb0e | 13 | #include "AliAODJet.h" |
f3050824 | 14 | #include "AliStack.h" |
15 | #include "AliGenEventHeader.h" | |
16 | #include "AliGenCocktailEventHeader.h" | |
17 | #include "AliGenPythiaEventHeader.h" | |
18 | #include <fstream> | |
19 | #include <iostream> | |
20 | #include "AliAnalysisHelperJetTasks.h" | |
6f3f79de | 21 | #include "TMatrixDSym.h" |
22 | #include "TMatrixDSymEigen.h" | |
23 | #include "TVector.h" | |
f3050824 | 24 | |
25 | ClassImp(AliAnalysisHelperJetTasks) | |
26 | ||
27 | ||
28 | ||
29 | ||
30 | AliGenPythiaEventHeader* AliAnalysisHelperJetTasks::GetPythiaEventHeader(AliMCEvent *mcEvent){ | |
31 | ||
32 | AliGenEventHeader* genHeader = mcEvent->GenEventHeader(); | |
33 | AliGenPythiaEventHeader* pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(genHeader); | |
34 | if(!pythiaGenHeader){ | |
35 | // cocktail ?? | |
36 | AliGenCocktailEventHeader* genCocktailHeader = dynamic_cast<AliGenCocktailEventHeader*>(genHeader); | |
37 | ||
38 | if (!genCocktailHeader) { | |
5c047edc | 39 | AliWarningGeneral(Form(" %s:%d",(char*)__FILE__,__LINE__),"Unknown header type (not Pythia or Cocktail)"); |
40 | // AliWarning(Form("%s %d: Unknown header type (not Pythia or Cocktail)",(char*)__FILE__,__LINE__)); | |
f3050824 | 41 | return 0; |
42 | } | |
43 | TList* headerList = genCocktailHeader->GetHeaders(); | |
44 | for (Int_t i=0; i<headerList->GetEntries(); i++) { | |
45 | pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(headerList->At(i)); | |
46 | if (pythiaGenHeader) | |
47 | break; | |
48 | } | |
49 | if(!pythiaGenHeader){ | |
5c047edc | 50 | AliWarningGeneral(Form(" %s:%d",(char*)__FILE__,__LINE__),"Pythia event header not found"); |
f3050824 | 51 | return 0; |
52 | } | |
53 | } | |
54 | return pythiaGenHeader; | |
55 | ||
56 | } | |
57 | ||
58 | ||
59 | void AliAnalysisHelperJetTasks::PrintStack(AliMCEvent *mcEvent,Int_t iFirst,Int_t iLast,Int_t iMaxPrint){ | |
60 | ||
61 | AliStack *stack = mcEvent->Stack(); | |
62 | if(!stack){ | |
63 | Printf("%s%d No Stack available",(char*)__FILE__,__LINE__); | |
64 | return; | |
65 | } | |
66 | ||
67 | static Int_t iCount = 0; | |
68 | if(iCount>iMaxPrint)return; | |
69 | Int_t nStack = stack->GetNtrack(); | |
70 | if(iLast == 0)iLast = nStack; | |
71 | else if(iLast > nStack)iLast = nStack; | |
72 | ||
73 | ||
74 | Printf("####################################################################"); | |
75 | for(Int_t np = iFirst;np<iLast;++np){ | |
76 | TParticle *p = stack->Particle(np); | |
77 | Printf("Nr.%d --- Status %d ---- Mother1 %d Mother2 %d Daughter1 %d Daughter2 %d ", | |
78 | np,p->GetStatusCode(),p->GetMother(0),p->GetMother(1),p->GetDaughter(0),p->GetDaughter(1)); | |
79 | Printf("Eta %3.3f Phi %3.3f ",p->Eta(),p->Phi()); | |
80 | p->Print(); | |
81 | Printf("---------------------------------------"); | |
82 | } | |
83 | iCount++; | |
84 | } | |
85 | ||
86 | ||
db6bcb0e | 87 | |
88 | ||
3dc5a1a4 | 89 | void AliAnalysisHelperJetTasks::GetClosestJets(AliAODJet *genJets,const Int_t &kGenJets, |
90 | AliAODJet *recJets,const Int_t &kRecJets, | |
db6bcb0e | 91 | Int_t *iGenIndex,Int_t *iRecIndex, |
92 | Int_t iDebug,Float_t maxDist){ | |
93 | ||
94 | // | |
95 | // Relate the two input jet Arrays | |
96 | // | |
97 | ||
98 | // | |
99 | // The association has to be unique | |
100 | // So check in two directions | |
101 | // find the closest rec to a gen | |
102 | // and check if there is no other rec which is closer | |
103 | // Caveat: Close low energy/split jets may disturb this correlation | |
104 | ||
3dc5a1a4 | 105 | |
db6bcb0e | 106 | // Idea: search in two directions generated e.g (a--e) and rec (1--3) |
107 | // Fill a matrix with Flags (1 for closest rec jet, 2 for closest rec jet | |
108 | // in the end we have something like this | |
109 | // 1 2 3 | |
110 | // ------------ | |
111 | // a| 3 2 0 | |
112 | // b| 0 1 0 | |
113 | // c| 0 0 3 | |
114 | // d| 0 0 1 | |
115 | // e| 0 0 1 | |
116 | // Topology | |
117 | // 1 2 | |
118 | // a b | |
119 | // | |
120 | // d c | |
121 | // 3 e | |
122 | // Only entries with "3" match from both sides | |
3dc5a1a4 | 123 | |
124 | // In case we have more jets than kmaxjets only the | |
125 | // first kmaxjets are searched | |
126 | // all other are -1 | |
127 | // use kMaxJets for a test not to fragemnt the memory... | |
128 | ||
129 | for(int i = 0;i < kGenJets;++i)iGenIndex[i] = -1; | |
130 | for(int j = 0;j < kRecJets;++j)iRecIndex[j] = -1; | |
131 | ||
132 | ||
db6bcb0e | 133 | |
134 | const int kMode = 3; | |
135 | ||
3dc5a1a4 | 136 | const Int_t nGenJets = TMath::Min(kMaxJets,kGenJets); |
137 | const Int_t nRecJets = TMath::Min(kMaxJets,kRecJets); | |
db6bcb0e | 138 | |
139 | if(nRecJets==0||nGenJets==0)return; | |
140 | ||
3dc5a1a4 | 141 | // UShort_t *iFlag = new UShort_t[nGenJets*nRecJets]; |
142 | UShort_t iFlag[kMaxJets*kMaxJets]; | |
db6bcb0e | 143 | for(int i = 0;i < nGenJets;++i){ |
144 | for(int j = 0;j < nRecJets;++j){ | |
145 | iFlag[i*nGenJets+j] = 0; | |
146 | } | |
147 | } | |
148 | ||
149 | ||
150 | ||
151 | // find the closest distance to the generated | |
152 | for(int ig = 0;ig<nGenJets;++ig){ | |
153 | Float_t dist = maxDist; | |
154 | if(iDebug>1)Printf("Gen (%d) p_T %3.3f eta %3.3f ph %3.3f ",ig,genJets[ig].Pt(),genJets[ig].Eta(),genJets[ig].Phi()); | |
155 | for(int ir = 0;ir<nRecJets;++ir){ | |
156 | Double_t dR = genJets[ig].DeltaR(&recJets[ir]); | |
157 | if(iDebug>1)Printf("Rec (%d) p_T %3.3f eta %3.3f ph %3.3f ",ir,recJets[ir].Pt(),recJets[ir].Eta(),recJets[ir].Phi()); | |
158 | if(iDebug>1)Printf("Distance (%d)--(%d) %3.3f ",ig,ir,dR); | |
159 | if(dR<dist){ | |
160 | iRecIndex[ig] = ir; | |
161 | dist = dR; | |
162 | } | |
163 | } | |
164 | if(iRecIndex[ig]>=0)iFlag[ig*nGenJets+iRecIndex[ig]]+=1; | |
165 | // reset... | |
166 | iRecIndex[ig] = -1; | |
167 | } | |
168 | // other way around | |
169 | for(int ir = 0;ir<nRecJets;++ir){ | |
170 | Float_t dist = maxDist; | |
171 | for(int ig = 0;ig<nGenJets;++ig){ | |
172 | Double_t dR = genJets[ig].DeltaR(&recJets[ir]); | |
173 | if(dR<dist){ | |
174 | iGenIndex[ir] = ig; | |
175 | dist = dR; | |
176 | } | |
177 | } | |
178 | if(iGenIndex[ir]>=0)iFlag[iGenIndex[ir]*nGenJets+ir]+=2; | |
179 | // reset... | |
180 | iGenIndex[ir] = -1; | |
181 | } | |
182 | ||
183 | // check for "true" correlations | |
184 | ||
185 | if(iDebug>1)Printf(">>>>>> Matrix"); | |
186 | ||
187 | for(int ig = 0;ig<nGenJets;++ig){ | |
188 | for(int ir = 0;ir<nRecJets;++ir){ | |
189 | ||
190 | if(iDebug>1)printf("Flag[%d][%d] %d ",ig,ir,iFlag[ig*nGenJets+ir]); | |
191 | ||
192 | if(kMode==3){ | |
193 | // we have a uniqie correlation | |
194 | if(iFlag[ig*nGenJets+ir]==3){ | |
195 | iGenIndex[ir] = ig; | |
196 | iRecIndex[ig] = ir; | |
197 | } | |
198 | } | |
199 | else{ | |
200 | // we just take the correlation from on side | |
201 | if((iFlag[ig*nGenJets+ir]&2)==2){ | |
202 | iGenIndex[ir] = ig; | |
203 | } | |
204 | if((iFlag[ig*nGenJets+ir]&1)==1){ | |
205 | iRecIndex[ig] = ir; | |
206 | } | |
207 | } | |
208 | } | |
209 | if(iDebug>1)printf("\n"); | |
210 | } | |
db6bcb0e | 211 | } |
212 | ||
213 | ||
214 | ||
188a1ba9 | 215 | void AliAnalysisHelperJetTasks::MergeOutput(char* cFiles, char* cList){ |
db6bcb0e | 216 | |
188a1ba9 | 217 | // This is used to merge the analysis-output from different |
218 | // data samples/pt_hard bins | |
219 | // in case the eventweigth was set to xsection/ntrials already, this | |
220 | // is not needed. Both methods only work in case we do not mix different | |
221 | // pt_hard bins, and do not have overlapping bins | |
db6bcb0e | 222 | |
188a1ba9 | 223 | const Int_t nMaxBins = 12; |
224 | // LHC08q jetjet100: Mean = 1.42483e-03, RMS = 6.642e-05 | |
225 | // LHC08r jetjet50: Mean = 2.44068e-02, RMS = 1.144e-03 | |
226 | // LHC08v jetjet15-50: Mean = 2.168291 , RMS = 7.119e-02 | |
227 | // const Float_t xsection[nBins] = {2.168291,2.44068e-02}; | |
228 | ||
229 | Float_t xsection[nMaxBins]; | |
230 | Float_t nTrials[nMaxBins]; | |
231 | Float_t sf[nMaxBins]; | |
232 | TList *lIn[nMaxBins]; | |
233 | TFile *fIn[nMaxBins]; | |
234 | ||
235 | ifstream in1; | |
236 | in1.open(cFiles); | |
237 | ||
238 | char cFile[120]; | |
239 | Int_t ibTotal = 0; | |
240 | while(in1>>cFile){ | |
241 | fIn[ibTotal] = TFile::Open(cFile); | |
242 | lIn[ibTotal] = (TList*)fIn[ibTotal]->Get(cList); | |
5c047edc | 243 | Printf("Merging file %s",cFile); |
188a1ba9 | 244 | if(!lIn[ibTotal]){ |
245 | Printf("%s:%d No list %s found, exiting...",__FILE__,__LINE__,cList); | |
246 | fIn[ibTotal]->ls(); | |
247 | return; | |
248 | } | |
249 | TH1* hTrials = (TH1F*)lIn[ibTotal]->FindObject("fh1Trials"); | |
250 | if(!hTrials){ | |
251 | Printf("%s:%d fh1PtHard_Trials not found in list, exiting...",__FILE__,__LINE__); | |
252 | return; | |
253 | } | |
254 | TProfile* hXsec = (TProfile*)lIn[ibTotal]->FindObject("fh1Xsec"); | |
255 | if(!hXsec){ | |
256 | Printf("%s:%d fh1Xsec not found in list, exiting...",__FILE__,__LINE__); | |
257 | return; | |
258 | } | |
259 | xsection[ibTotal] = hXsec->GetBinContent(1); | |
260 | nTrials[ibTotal] = hTrials->Integral(); | |
261 | sf[ibTotal] = xsection[ibTotal]/ nTrials[ibTotal]; | |
262 | ibTotal++; | |
263 | } | |
264 | ||
265 | if(ibTotal==0){ | |
266 | Printf("%s:%d No files found for mergin, exiting",__FILE__,__LINE__); | |
267 | return; | |
268 | } | |
269 | ||
270 | TFile *fOut = new TFile("allpt.root","RECREATE"); | |
271 | TList *lOut = new TList(); | |
272 | lOut->SetName(lIn[0]->GetName()); | |
273 | // for the start scale all... | |
274 | for(int ie = 0; ie < lIn[0]->GetEntries();++ie){ | |
275 | TH1 *h1Add = 0; | |
276 | THnSparse *hnAdd = 0; | |
277 | for(int ib = 0;ib < ibTotal;++ib){ | |
278 | // dynamic cast does not work with cint | |
279 | TObject *h = lIn[ib]->At(ie); | |
280 | if(h->InheritsFrom("TH1")){ | |
281 | TH1 *h1 = (TH1*)h; | |
282 | if(ib==0){ | |
283 | h1Add = (TH1*)h1->Clone(h1->GetName()); | |
284 | h1Add->Scale(sf[ib]); | |
285 | } | |
286 | else{ | |
287 | h1Add->Add(h1,sf[ib]); | |
288 | } | |
289 | } | |
290 | else if(h->InheritsFrom("THnSparse")){ | |
291 | THnSparse *hn = (THnSparse*)h; | |
292 | if(ib==0){ | |
293 | hnAdd = (THnSparse*)hn->Clone(hn->GetName()); | |
294 | hnAdd->Scale(sf[ib]); | |
295 | } | |
296 | else{ | |
297 | hnAdd->Add(hn,sf[ib]); | |
298 | } | |
299 | } | |
300 | ||
301 | ||
302 | }// ib | |
303 | if(h1Add)lOut->Add(h1Add); | |
304 | else if(hnAdd)lOut->Add(hnAdd); | |
305 | } | |
306 | fOut->cd(); | |
307 | lOut->Write(lOut->GetName(),TObject::kSingleKey); | |
308 | fOut->Close(); | |
309 | } | |
519378fb | 310 | |
311 | Bool_t AliAnalysisHelperJetTasks::PythiaInfoFromFile(const char* currFile,Float_t &fXsec,Float_t &fTrials){ | |
312 | // | |
313 | // get the cross section and the trails either from pyxsec.root or from pysec_hists.root | |
314 | // This is to called in Notify and should provide the path to the AOD/ESD file | |
315 | ||
316 | TString file(currFile); | |
317 | fXsec = 0; | |
318 | fTrials = 1; | |
319 | ||
320 | if(file.Contains("root_archive.zip#")){ | |
321 | Ssiz_t pos1 = file.Index("root_archive",12,TString::kExact); | |
322 | Ssiz_t pos = file.Index("#",1,pos1,TString::kExact); | |
323 | file.Replace(pos+1,20,""); | |
324 | } | |
325 | else { | |
326 | // not an archive take the basename.... | |
327 | file.ReplaceAll(gSystem->BaseName(file.Data()),""); | |
328 | } | |
329 | Printf("%s",file.Data()); | |
330 | ||
331 | ||
332 | ||
333 | ||
334 | TFile *fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec.root")); // problem that we cannot really test the existance of a file in a archive so we have to lvie with open error message from root | |
335 | if(!fxsec){ | |
336 | // next trial fetch the histgram file | |
337 | fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec_hists.root")); | |
338 | if(!fxsec){ | |
339 | // not a severe condition but inciate that we have no information | |
340 | return kFALSE; | |
341 | } | |
342 | else{ | |
343 | // find the tlist we want to be independtent of the name so use the Tkey | |
344 | TKey* key = (TKey*)fxsec->GetListOfKeys()->At(0); | |
345 | if(!key){ | |
346 | fxsec->Close(); | |
347 | return kFALSE; | |
348 | } | |
349 | TList *list = dynamic_cast<TList*>(key->ReadObj()); | |
350 | if(!list){ | |
351 | fxsec->Close(); | |
352 | return kFALSE; | |
353 | } | |
354 | fXsec = ((TProfile*)list->FindObject("h1Xsec"))->GetBinContent(1); | |
355 | fTrials = ((TH1F*)list->FindObject("h1Trials"))->GetBinContent(1); | |
356 | fxsec->Close(); | |
357 | } | |
358 | } // no tree pyxsec.root | |
359 | else { | |
360 | TTree *xtree = (TTree*)fxsec->Get("Xsection"); | |
361 | if(!xtree){ | |
362 | fxsec->Close(); | |
363 | return kFALSE; | |
364 | } | |
365 | UInt_t ntrials = 0; | |
366 | Double_t xsection = 0; | |
367 | xtree->SetBranchAddress("xsection",&xsection); | |
368 | xtree->SetBranchAddress("ntrials",&ntrials); | |
369 | xtree->GetEntry(0); | |
370 | fTrials = ntrials; | |
371 | fXsec = xsection; | |
372 | fxsec->Close(); | |
373 | } | |
374 | return kTRUE; | |
375 | } | |
6f3f79de | 376 | |
6f3f79de | 377 | //___________________________________________________________________________________________________________ |
378 | ||
379 | Bool_t AliAnalysisHelperJetTasks::GetEventShapes(TVector3 &n01, TVector3 * pTrack, Int_t nTracks, Double_t * eventShapes) | |
380 | { | |
381 | // *** | |
382 | // Event shape calculation | |
383 | // sona.pochybova@cern.ch | |
384 | ||
385 | const Int_t kTracks = 1000; | |
386 | if(nTracks>kTracks)return kFALSE; | |
387 | ||
20d01a2f | 388 | //variables for thrust calculation |
6f3f79de | 389 | TVector3 pTrackPerp[kTracks]; |
6f3f79de | 390 | Double_t psum2 = 0; |
20d01a2f | 391 | |
392 | TVector3 psum; | |
393 | TVector3 psum02; | |
394 | TVector3 psum03; | |
395 | ||
396 | Double_t psum1 = 0; | |
397 | Double_t psum102 = 0; | |
398 | Double_t psum103 = 0; | |
399 | ||
6f3f79de | 400 | Double_t thrust[kTracks]; |
401 | Double_t th = -3; | |
20d01a2f | 402 | Double_t thrust02[kTracks]; |
403 | Double_t th02 = -4; | |
404 | Double_t thrust03[kTracks]; | |
405 | Double_t th03 = -5; | |
6f3f79de | 406 | |
20d01a2f | 407 | //Sphericity calculation variables |
6f3f79de | 408 | TMatrixDSym m(3); |
409 | Double_t s00 = 0; | |
410 | Double_t s01 = 0; | |
411 | Double_t s02 = 0; | |
412 | ||
413 | Double_t s10 = 0; | |
414 | Double_t s11 = 0; | |
415 | Double_t s12 = 0; | |
416 | ||
417 | Double_t s20 = 0; | |
418 | Double_t s21 = 0; | |
419 | Double_t s22 = 0; | |
420 | ||
421 | Double_t ptot = 0; | |
422 | ||
423 | Double_t c = -10; | |
424 | ||
425 | // | |
426 | //loop for thrust calculation | |
427 | // | |
20d01a2f | 428 | |
429 | for(Int_t i = 0; i < nTracks; i++) | |
430 | { | |
431 | pTrackPerp[i].SetXYZ(pTrack[i].X(), pTrack[i].Y(), 0); | |
432 | psum2 += pTrackPerp[i].Mag(); | |
433 | } | |
434 | ||
435 | //additional starting axis | |
436 | TVector3 n02; | |
437 | n02 = pTrack[1].Unit(); | |
438 | n02.SetZ(0.); | |
439 | TVector3 n03; | |
440 | n03 = pTrack[2].Unit(); | |
441 | n03.SetZ(0.); | |
442 | ||
443 | //switches for calculating thrust for different starting points | |
444 | Int_t switch1 = 1; | |
445 | Int_t switch2 = 1; | |
446 | Int_t switch3 = 1; | |
447 | ||
448 | //indexes for iteration of different starting points | |
449 | Int_t l1 = 0; | |
450 | Int_t l2 = 0; | |
451 | Int_t l3 = 0; | |
452 | ||
453 | //maximal number of iterations | |
454 | // Int_t nMaxIter = 100; | |
455 | ||
456 | for(Int_t k = 0; k < nTracks; k++) | |
6f3f79de | 457 | { |
6f3f79de | 458 | |
20d01a2f | 459 | if(switch1 == 1){ |
460 | psum.SetXYZ(0., 0., 0.); | |
461 | psum1 = 0; | |
462 | for(Int_t i = 0; i < nTracks; i++) | |
463 | { | |
464 | psum1 += (TMath::Abs(n01.Dot(pTrackPerp[i]))); | |
465 | if (n01.Dot(pTrackPerp[i]) > 0) psum += pTrackPerp[i]; | |
466 | if (n01.Dot(pTrackPerp[i]) < 0) psum -= pTrackPerp[i]; | |
467 | } | |
468 | thrust[l1] = psum1/psum2; | |
469 | } | |
470 | ||
471 | if(switch2 == 1){ | |
472 | psum02.SetXYZ(0., 0., 0.); | |
473 | psum102 = 0; | |
474 | for(Int_t i = 0; i < nTracks; i++) | |
475 | { | |
476 | psum102 += (TMath::Abs(n02.Dot(pTrackPerp[i]))); | |
477 | if (n02.Dot(pTrackPerp[i]) > 0) psum02 += pTrackPerp[i]; | |
478 | if (n02.Dot(pTrackPerp[i]) < 0) psum02 -= pTrackPerp[i]; | |
479 | } | |
480 | thrust02[l2] = psum102/psum2; | |
481 | } | |
482 | ||
483 | if(switch3 == 1){ | |
484 | psum03.SetXYZ(0., 0., 0.); | |
485 | psum103 = 0; | |
486 | for(Int_t i = 0; i < nTracks; i++) | |
487 | { | |
488 | psum103 += (TMath::Abs(n03.Dot(pTrackPerp[i]))); | |
489 | if (n03.Dot(pTrackPerp[i]) > 0) psum03 += pTrackPerp[i]; | |
490 | if (n03.Dot(pTrackPerp[i]) < 0) psum03 -= pTrackPerp[i]; | |
491 | } | |
492 | thrust03[l3] = psum103/psum2; | |
493 | } | |
494 | ||
495 | //check whether thrust value converged | |
496 | if(TMath::Abs(th-thrust[l1]) < 10e-7){ | |
497 | switch1 = 0; | |
498 | } | |
499 | ||
500 | if(TMath::Abs(th02-thrust02[l2]) < 10e-7){ | |
501 | switch2 = 0; | |
502 | } | |
503 | ||
504 | if(TMath::Abs(th03-thrust03[l3]) < 10e-7){ | |
505 | switch3 = 0; | |
506 | } | |
507 | ||
508 | //if it didn't, continue with the calculation | |
509 | if(switch1 == 1){ | |
510 | th = thrust[l1]; | |
511 | n01 = psum.Unit(); | |
512 | l1++; | |
513 | } | |
514 | ||
515 | if(switch2 == 1){ | |
516 | th02 = thrust02[l2]; | |
517 | n02 = psum02.Unit(); | |
518 | l2++; | |
519 | } | |
520 | ||
521 | if(switch3 == 1){ | |
522 | th03 = thrust03[l3]; | |
523 | n03 = psum03.Unit(); | |
524 | l3++; | |
525 | } | |
526 | ||
527 | //if thrust values for all starting direction converged check if to the same value | |
528 | if(switch2 == 0 && switch1 == 0 && switch3 == 0){ | |
529 | if(TMath::Abs(th-th02) < 10e-7 && TMath::Abs(th-th03) < 10e-7 && TMath::Abs(th02-th03) < 10e-7){ | |
530 | eventShapes[0] = th; | |
531 | Printf("===== THRUST VALUE FOUND AT %d :: %f\n", k, th); | |
532 | break; | |
533 | } | |
534 | //if they did not, reset switches | |
535 | else{ | |
536 | switch1 = 1; | |
537 | // th = -1.; | |
538 | switch2 = 1; | |
539 | // th02 = -2.; | |
540 | switch3 = 1; | |
541 | // th03 = -4.; | |
542 | } | |
543 | } | |
544 | ||
545 | // Printf("========== %d +++ th :: %f=============\n", l1, th); | |
546 | // Printf("========== %d +++ th2 :: %f=============\n", l2, th02); | |
547 | // Printf("========== %d +++ th3 :: %f=============\n", l3, th03); | |
6f3f79de | 548 | |
6f3f79de | 549 | } |
550 | ||
20d01a2f | 551 | //if no common limitng value was found, take the maximum and take the corresponding thrust axis |
552 | if(switch1 == 1 && switch2 == 1 && switch3 == 1){ | |
553 | eventShapes[0] = TMath::Max(thrust[l1-1], thrust02[l2-1]); | |
554 | eventShapes[0] = TMath::Max(eventShapes[0], thrust03[l3-1]); | |
555 | if(TMath::Abs(eventShapes[0]-thrust[l1-1]) < 10e-7) | |
556 | n01 = n01; | |
557 | if(TMath::Abs(eventShapes[0]-thrust02[l2-1]) < 10e-7) | |
558 | n01 = n02; | |
559 | if(TMath::Abs(eventShapes[0]-thrust03[l3-1]) < 10e-7) | |
560 | n01 = n03; | |
561 | Printf("NO LIMITING VALUE FOUND :: MAXIMUM = %f\n", eventShapes[0]); | |
562 | } | |
6f3f79de | 563 | |
564 | // | |
565 | //other event shapes variables | |
566 | // | |
567 | for(Int_t j = 0; j < nTracks; j++) | |
568 | { | |
569 | s00 = s00 + (pTrack[j].Px()*pTrack[j].Px())/pTrack[j].Mag(); | |
570 | s01 = s01 + (pTrack[j].Px()*pTrack[j].Py())/pTrack[j].Mag(); | |
571 | s02 = s02 + (pTrack[j].Px()*pTrack[j].Pz())/pTrack[j].Mag(); | |
572 | ||
573 | s10 = s10 + (pTrack[j].Py()*pTrack[j].Px())/pTrack[j].Mag(); | |
574 | s11 = s11 + (pTrack[j].Py()*pTrack[j].Py())/pTrack[j].Mag(); | |
575 | s12 = s12 + (pTrack[j].Py()*pTrack[j].Pz())/pTrack[j].Mag(); | |
576 | ||
577 | s20 = s20 + (pTrack[j].Pz()*pTrack[j].Px())/pTrack[j].Mag(); | |
578 | s21 = s21 + (pTrack[j].Pz()*pTrack[j].Py())/pTrack[j].Mag(); | |
579 | s22 = s22 + (pTrack[j].Pz()*pTrack[j].Pz())/pTrack[j].Mag(); | |
580 | ||
581 | ptot += pTrack[j].Mag(); | |
582 | } | |
583 | ||
584 | if(ptot > 0.) | |
585 | { | |
586 | m(0,0) = s00/ptot; | |
587 | m(0,1) = s01/ptot; | |
588 | m(0,2) = s02/ptot; | |
589 | ||
590 | m(1,0) = s10/ptot; | |
591 | m(1,1) = s11/ptot; | |
592 | m(1,2) = s12/ptot; | |
593 | ||
594 | m(2,0) = s20/ptot; | |
595 | m(2,1) = s21/ptot; | |
596 | m(2,2) = s22/ptot; | |
597 | ||
598 | TMatrixDSymEigen eigen(m); | |
599 | TVectorD eigenVal = eigen.GetEigenValues(); | |
600 | ||
601 | Double_t sphericity = (3/2)*(eigenVal(2)+eigenVal(1)); | |
602 | eventShapes[1] = sphericity; | |
603 | ||
604 | Double_t aplanarity = (3/2)*(eigenVal(2)); | |
605 | eventShapes[2] = aplanarity; | |
606 | ||
607 | c = 3*(eigenVal(0)*eigenVal(1)+eigenVal(0)*eigenVal(2)+eigenVal(1)*eigenVal(2)); | |
608 | eventShapes[3] = c; | |
609 | } | |
610 | return kTRUE; | |
611 | } | |
612 | ||
613 | ||
614 | ||
615 | //__________________________________________________________________________________________________________________________ |