actor changed to create the task PHOS
[u/mrichter/AliRoot.git] / PHOS / AliPHOSClusterizerv1.cxx
CommitLineData
d15a28e7 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
b2a60966 16/* $Id$ */
17
d72dfbc3 18/* $Log:
19 1 October 2000. Yuri Kharlov:
20 AreNeighbours()
21 PPSD upper layer is considered if number of layers>1
22
23 18 October 2000. Yuri Kharlov:
24 AliPHOSClusterizerv1()
25 CPV clusterizing parameters added
26
27 MakeClusters()
28 After first PPSD digit remove EMC digits only once
29*/
9a1398dd 30//*-- Author: Yves Schutz (SUBATECH) & Dmitri Peressounko (SUBATECH & Kurchatov Institute)
d15a28e7 31//////////////////////////////////////////////////////////////////////////////
9a1398dd 32// Clusterization class. Performs clusterization (collects neighbouring active cells) and
a4e98857 33// unfolds the clusters having several local maxima.
34// Results are stored in TreeR#, branches PHOSEmcRP (EMC recPoints),
9a1398dd 35// PHOSCpvRP (CPV RecPoints) and AliPHOSClusterizer (Clusterizer with all
f035f6ce 36// parameters including input digits branch title, thresholds etc.)
a4e98857 37// This TTask is normally called from Reconstructioner, but can as well be used in
38// standalone mode.
39// Use Case:
40// root [0] AliPHOSClusterizerv1 * cl = new AliPHOSClusterizerv1("galice.root")
41// Warning in <TDatabasePDG::TDatabasePDG>: object already instantiated
9a1398dd 42// //reads gAlice from header file "..."
a4e98857 43// root [1] cl->ExecuteTask()
9a1398dd 44// //finds RecPoints in all events stored in galice.root
a4e98857 45// root [2] cl->SetDigitsBranch("digits2")
f035f6ce 46// //sets another title for Digitis (input) branch
a4e98857 47// root [3] cl->SetRecPointsBranch("recp2")
f035f6ce 48// //sets another title four output branches
a4e98857 49// root [4] cl->SetEmcLocalMaxCut(0.03)
9a1398dd 50// //set clusterization parameters
a4e98857 51// root [5] cl->ExecuteTask("deb all time")
9a1398dd 52// //once more finds RecPoints options are
53// // deb - print number of found rec points
54// // deb all - print number of found RecPoints and some their characteristics
55// // time - print benchmarking results
ed4205d8 56
d15a28e7 57// --- ROOT system ---
58
9a1398dd 59#include "TROOT.h"
60#include "TFile.h"
61#include "TFolder.h"
d15a28e7 62#include "TMath.h"
9a1398dd 63#include "TMinuit.h"
64#include "TTree.h"
65#include "TSystem.h"
66#include "TBenchmark.h"
d15a28e7 67
68// --- Standard library ---
69
de9ec31b 70#include <iostream.h>
9a1398dd 71#include <iomanip.h>
d15a28e7 72
73// --- AliRoot header files ---
74
75#include "AliPHOSClusterizerv1.h"
9a1398dd 76#include "AliPHOSCpvRecPoint.h"
d15a28e7 77#include "AliPHOSDigit.h"
9a1398dd 78#include "AliPHOSDigitizer.h"
d15a28e7 79#include "AliPHOSEmcRecPoint.h"
9a1398dd 80#include "AliPHOS.h"
d15a28e7 81#include "AliPHOSPpsdRecPoint.h"
9a1398dd 82#include "AliRun.h"
d15a28e7 83
84ClassImp(AliPHOSClusterizerv1)
f035f6ce 85
d15a28e7 86//____________________________________________________________________________
9a1398dd 87 AliPHOSClusterizerv1::AliPHOSClusterizerv1():AliPHOSClusterizer()
d15a28e7 88{
f035f6ce 89 // default ctor (to be used mainly by Streamer)
90 SetName("AliPHOSClusterizer");
9a1398dd 91 SetTitle("Version 1") ;
f035f6ce 92
9a1398dd 93 fNumberOfCpvClusters = 0 ;
d15a28e7 94 fNumberOfEmcClusters = 0 ;
f035f6ce 95
9a1398dd 96 fCpvClusteringThreshold = 0.0;
c3c187e5 97 fEmcClusteringThreshold = 0.2;
c3c187e5 98 fPpsdClusteringThreshold = 0.0000002 ;
9a1398dd 99
100 fEmcLocMaxCut = 0.03 ;
101 fCpvLocMaxCut = 0.03 ;
102
103 fW0 = 4.5 ;
104 fW0CPV = 4.0 ;
f035f6ce 105
9a1398dd 106 fGeom = 0 ;
107
108 fDigits = 0 ;
109 fDigitizer = 0 ;
110 fEmcRecPoints = 0 ;
111 fCpvRecPoints = 0 ;
112
113 fIsInitialized = kFALSE ;
114
115}
116//____________________________________________________________________________
f035f6ce 117AliPHOSClusterizerv1::AliPHOSClusterizerv1(const char* headerFile,const char* digitsFile):AliPHOSClusterizer()
9a1398dd 118{
a4e98857 119 // ctor with the indication of the file where header Tree and digits Tree are stored
9a1398dd 120 SetName("AliPHOSClusterizer");
121 SetTitle("Version 1") ;
122
123 fNumberOfCpvClusters = 0 ;
124 fNumberOfEmcClusters = 0 ;
f035f6ce 125
ed4205d8 126 fCpvClusteringThreshold = 0.0;
9a1398dd 127 fEmcClusteringThreshold = 0.2;
128 fPpsdClusteringThreshold = 0.0000002 ;
129
130 fEmcLocMaxCut = 0.03 ;
131 fCpvLocMaxCut = 0.03 ;
132
d15a28e7 133 fW0 = 4.5 ;
c3c187e5 134 fW0CPV = 4.0 ;
9a1398dd 135
136 fToUnfold = kTRUE ;
137
138 fHeaderFileName = headerFile ;
139 fDigitsBranchTitle = digitsFile ;
140
141 TFile * file = (TFile*) gROOT->GetFile(fHeaderFileName.Data() ) ;
142
143 if(file == 0){
f035f6ce 144 if(fHeaderFileName.Contains("rfio")) // if we read file using HPSS
145 file = TFile::Open(fHeaderFileName.Data(),"update") ;
146 else
147 file = new TFile(fHeaderFileName.Data(),"update") ;
9a1398dd 148 gAlice = (AliRun *) file->Get("gAlice") ;
149 }
150
151 AliPHOS * phos = (AliPHOS *) gAlice->GetDetector("PHOS") ;
152 fGeom = AliPHOSGeometry::GetInstance(phos->GetGeometry()->GetName(),phos->GetGeometry()->GetTitle() );
153
154 fDigits = new TClonesArray("AliPHOSDigit",10) ;
155 fDigitizer = new AliPHOSDigitizer() ;
156 fEmcRecPoints = new TObjArray(200) ;
157 fCpvRecPoints = new TObjArray(200) ;
7f5d510c 158 fEmcRecPoints->SetOwner(); // This lets Clear() really detete rec.points in array
159 fCpvRecPoints->SetOwner();
9a1398dd 160
161 if(!gMinuit) gMinuit = new TMinuit(100) ;
162
163 // add Task to //root/Tasks folder
164 TTask * roottasks = (TTask*)gROOT->GetRootFolder()->FindObject("Tasks") ;
165 roottasks->Add(this) ;
166
167
168 fIsInitialized = kTRUE ;
169
170}
171//____________________________________________________________________________
a4e98857 172void AliPHOSClusterizerv1::Exec(Option_t * option)
173{
174 // Steering function
9a1398dd 175
176 if(!fIsInitialized) Init() ;
177
178 if(strstr(option,"tim"))
179 gBenchmark->Start("PHOSClusterizer");
180
181 Int_t nEvents = (Int_t) gAlice->TreeE()->GetEntries() ;
182
183 for(fEvent = 0;fEvent< nEvents; fEvent++){
184 if(!ReadDigits()) //reads digits for event fEvent
185 return;
186 MakeClusters() ;
187
188 if(fToUnfold) MakeUnfolding() ;
189 WriteRecPoints() ;
190 if(strstr(option,"deb"))
191 PrintRecPoints(option) ;
192 }
193
194 if(strstr(option,"tim")){
195 gBenchmark->Stop("PHOSClusterizer");
196 cout << "AliPHOSClusterizer:" << endl ;
197 cout << " took " << gBenchmark->GetCpuTime("PHOSClusterizer") << " seconds for Clusterizing "
198 << gBenchmark->GetCpuTime("PHOSClusterizer")/nEvents << " seconds per event " << endl ;
199 cout << endl ;
200 }
201
202
203}
204
205//____________________________________________________________________________
206Bool_t AliPHOSClusterizerv1::FindFit(AliPHOSEmcRecPoint * emcRP, int * maxAt, Float_t * maxAtEnergy,
207 Int_t nPar, Float_t * fitparameters)
208{
209 // Calls TMinuit to fit the energy distribution of a cluster with several maxima
a4e98857 210 // The initial values for fitting procedure are set equal to the positions of local maxima.
f035f6ce 211 // Cluster will be fitted as a superposition of nPar/3 electromagnetic showers
9a1398dd 212
213 gMinuit->mncler(); // Reset Minuit's list of paramters
214 gMinuit->SetPrintLevel(-1) ; // No Printout
215 gMinuit->SetFCN(AliPHOSClusterizerv1::UnfoldingChiSquare) ;
216 // To set the address of the minimization function
217
218 TList * toMinuit = new TList();
219 toMinuit->AddAt(emcRP,0) ;
220 toMinuit->AddAt(fDigits,1) ;
221
222 gMinuit->SetObjectFit(toMinuit) ; // To tranfer pointer to UnfoldingChiSquare
223
224 // filling initial values for fit parameters
225 AliPHOSDigit * digit ;
226
227 Int_t ierflg = 0;
228 Int_t index = 0 ;
229 Int_t nDigits = (Int_t) nPar / 3 ;
230
231 Int_t iDigit ;
232
233
234 for(iDigit = 0; iDigit < nDigits; iDigit++){
235 digit = (AliPHOSDigit *) maxAt[iDigit];
236
237 Int_t relid[4] ;
238 Float_t x ;
239 Float_t z ;
240 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
241 fGeom->RelPosInModule(relid, x, z) ;
242
243 Float_t energy = maxAtEnergy[iDigit] ;
244
245 gMinuit->mnparm(index, "x", x, 0.1, 0, 0, ierflg) ;
246 index++ ;
247 if(ierflg != 0){
248 cout << "PHOS Unfolding> Unable to set initial value for fit procedure : x = " << x << endl ;
249 return kFALSE;
250 }
251 gMinuit->mnparm(index, "z", z, 0.1, 0, 0, ierflg) ;
252 index++ ;
253 if(ierflg != 0){
254 cout << "PHOS Unfolding> Unable to set initial value for fit procedure : z = " << z << endl ;
255 return kFALSE;
256 }
257 gMinuit->mnparm(index, "Energy", energy , 0.05*energy, 0., 4.*energy, ierflg) ;
258 index++ ;
259 if(ierflg != 0){
260 cout << "PHOS Unfolding> Unable to set initial value for fit procedure : energy = " << energy << endl ;
261 return kFALSE;
262 }
263 }
264
265 Double_t p0 = 0.1 ; // "Tolerance" Evaluation stops when EDM = 0.0001*p0 ; The number of function call slightly
266 // depends on it.
267 Double_t p1 = 1.0 ;
268 Double_t p2 = 0.0 ;
269
270 gMinuit->mnexcm("SET STR", &p2, 0, ierflg) ; // force TMinuit to reduce function calls
271 gMinuit->mnexcm("SET GRA", &p1, 1, ierflg) ; // force TMinuit to use my gradient
272 gMinuit->SetMaxIterations(5);
273 gMinuit->mnexcm("SET NOW", &p2 , 0, ierflg) ; // No Warnings
274
275 gMinuit->mnexcm("MIGRAD", &p0, 0, ierflg) ; // minimize
276
277 if(ierflg == 4){ // Minimum not found
278 cout << "PHOS Unfolding> Fit not converged, cluster abandoned "<< endl ;
279 return kFALSE ;
280 }
281 for(index = 0; index < nPar; index++){
282 Double_t err ;
283 Double_t val ;
284 gMinuit->GetParameter(index, val, err) ; // Returns value and error of parameter index
285 fitparameters[index] = val ;
286 }
287
288 delete toMinuit ;
289 return kTRUE;
c3c187e5 290
d15a28e7 291}
292
293//____________________________________________________________________________
a4e98857 294void AliPHOSClusterizerv1::Init()
295{
f035f6ce 296 //Make all memory allocations which can not be done in default constructor.
9a1398dd 297 if(!fIsInitialized){
298 if(fHeaderFileName.IsNull())
299 fHeaderFileName = "galice.root" ;
300
a4e98857 301
9a1398dd 302 TFile * file = (TFile*) gROOT->GetFile(fHeaderFileName.Data() ) ;
a4e98857 303
9a1398dd 304 if(file == 0){
305 file = new TFile(fHeaderFileName.Data(),"update") ;
306 gAlice = (AliRun *) file->Get("gAlice") ;
307 }
a4e98857 308
9a1398dd 309 AliPHOS * phos = (AliPHOS *) gAlice->GetDetector("PHOS") ;
310 fGeom = AliPHOSGeometry::GetInstance(phos->GetGeometry()->GetName(),phos->GetGeometry()->GetTitle() );
a4e98857 311
9a1398dd 312 fDigits = new TClonesArray("AliPHOSDigit",10) ;
313 fDigitizer = new AliPHOSDigitizer() ;
314 fEmcRecPoints = new TObjArray(200) ;
315 fCpvRecPoints = new TObjArray(200) ;
7f5d510c 316 fEmcRecPoints->SetOwner(); // This lets Clear() really detete rec.points in array
317 fCpvRecPoints->SetOwner();
a4e98857 318
9a1398dd 319 if(!gMinuit) gMinuit = new TMinuit(100) ;
320
321 // add Task to //root/Tasks folder
322 TTask * roottasks = (TTask*)gROOT->GetRootFolder()->FindObject("Tasks") ;
323 roottasks->Add(this) ;
324
325 fIsInitialized = kTRUE ;
326 }
327}
328//____________________________________________________________________________
329Int_t AliPHOSClusterizerv1::AreNeighbours(AliPHOSDigit * d1, AliPHOSDigit * d2)const
d15a28e7 330{
b2a60966 331 // Gives the neighbourness of two digits = 0 are not neighbour but continue searching
332 // = 1 are neighbour
333 // = 2 are not neighbour but do not continue searching
a4e98857 334 // neighbours are defined as digits having at least a common vertex
b2a60966 335 // The order of d1 and d2 is important: first (d1) should be a digit already in a cluster
336 // which is compared to a digit (d2) not yet in a cluster
337
d15a28e7 338 Int_t rv = 0 ;
339
d15a28e7 340 Int_t relid1[4] ;
6b9b768e 341 fGeom->AbsToRelNumbering(d1->GetId(), relid1) ;
d15a28e7 342
343 Int_t relid2[4] ;
6b9b768e 344 fGeom->AbsToRelNumbering(d2->GetId(), relid2) ;
d15a28e7 345
346 if ( (relid1[0] == relid2[0]) && (relid1[1]==relid2[1]) ) { // inside the same PHOS module and the same PPSD Module
92862013 347 Int_t rowdiff = TMath::Abs( relid1[2] - relid2[2] ) ;
348 Int_t coldiff = TMath::Abs( relid1[3] - relid2[3] ) ;
d15a28e7 349
92862013 350 if (( coldiff <= 1 ) && ( rowdiff <= 1 )){
d15a28e7 351 rv = 1 ;
352 }
353 else {
354 if((relid2[2] > relid1[2]) && (relid2[3] > relid1[3]+1))
355 rv = 2; // Difference in row numbers is too large to look further
356 }
357
358 }
359 else {
360
361 if( (relid1[0] < relid2[0]) || (relid1[1] < relid2[1]) )
362 rv=2 ;
363
364 }
d72dfbc3 365
366 //Do NOT clusterize upper PPSD
ed4205d8 367 if( IsInPpsd(d1) && IsInPpsd(d2) &&
368 relid1[1] > 0 &&
d72dfbc3 369 relid1[1] < fGeom->GetNumberOfPadsPhi()*fGeom->GetNumberOfPadsPhi() ) rv = 2 ;
370
d15a28e7 371 return rv ;
372}
373
d15a28e7 374
375//____________________________________________________________________________
9a1398dd 376Bool_t AliPHOSClusterizerv1::IsInEmc(AliPHOSDigit * digit) const
d15a28e7 377{
b2a60966 378 // Tells if (true) or not (false) the digit is in a PHOS-EMC module
379
9f616d61 380 Bool_t rv = kFALSE ;
d15a28e7 381
d15a28e7 382 Int_t relid[4] ;
6b9b768e 383 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
d15a28e7 384
ed4205d8 385 if ( relid[1] == 0 ) rv = kTRUE;
386
387 return rv ;
388}
389
390//____________________________________________________________________________
9a1398dd 391Bool_t AliPHOSClusterizerv1::IsInPpsd(AliPHOSDigit * digit) const
ed4205d8 392{
fad3e5b9 393 // Tells if (true) or not (false) the digit is in a PHOS-PPSD module
ed4205d8 394
395 Bool_t rv = kFALSE ;
396
397 Int_t relid[4] ;
398 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
399
400 if ( relid[1] > 0 && relid[0] > fGeom->GetNCPVModules() ) rv = kTRUE;
401
402 return rv ;
403}
404
405//____________________________________________________________________________
9a1398dd 406Bool_t AliPHOSClusterizerv1::IsInCpv(AliPHOSDigit * digit) const
ed4205d8 407{
fad3e5b9 408 // Tells if (true) or not (false) the digit is in a PHOS-CPV module
ed4205d8 409
410 Bool_t rv = kFALSE ;
411
412 Int_t relid[4] ;
413 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
414
415 if ( relid[1] > 0 && relid[0] <= fGeom->GetNCPVModules() ) rv = kTRUE;
d15a28e7 416
417 return rv ;
418}
d15a28e7 419//____________________________________________________________________________
a4e98857 420Bool_t AliPHOSClusterizerv1::ReadDigits()
421 {
422 // reads digitis with specified title from TreeD
c161df70 423
b73f246d 424 fNumberOfEmcClusters = 0 ;
b73f246d 425 fNumberOfCpvClusters = 0 ;
c161df70 426
9a1398dd 427 // Get Digits Tree header from file
9a1398dd 428 gAlice->GetEvent(fEvent) ;
429 gAlice->SetEvent(fEvent) ;
430
f035f6ce 431 TTree * treeD = gAlice->TreeD() ;
9a1398dd 432
433 if(treeD==0){
f035f6ce 434 char treeName[20];
435 sprintf(treeName,"TreeD%d",fEvent);
9a1398dd 436 cout << "Error in AliPHOSClusterizerv1 : no "<<treeName << endl ;
437 cout << " Do nothing " << endl ;
438 return kFALSE ;
439 }
440
441 TBranch * digitsBranch = 0;
442 TBranch * digitizerBranch = 0;
443
444 TObjArray * branches = treeD->GetListOfBranches() ;
445 Int_t ibranch;
446 Bool_t phosNotFound = kTRUE ;
447 Bool_t digitizerNotFound = kTRUE ;
448
449 for(ibranch = 0;ibranch <branches->GetEntries();ibranch++){
450
451 if(phosNotFound){
452 digitsBranch=(TBranch *) branches->At(ibranch) ;
453 if( fDigitsBranchTitle.CompareTo(digitsBranch->GetTitle())==0 )
454 if( strcmp(digitsBranch->GetName(),"PHOS") == 0)
455 phosNotFound = kFALSE ;
456 }
457
458 if(digitizerNotFound){
459 digitizerBranch = (TBranch *) branches->At(ibranch) ;
460 if( fDigitsBranchTitle.CompareTo(digitizerBranch->GetTitle()) == 0)
461 if( strcmp(digitizerBranch->GetName(),"AliPHOSDigitizer") == 0)
462 digitizerNotFound = kFALSE ;
463 }
464
465 }
466
467 if(digitizerNotFound || phosNotFound){
468 cout << "ERROR in AliPHOSClusterizerv1: " << endl ;
469 cout << " Can't find Branch with digits or Digitizer "<< endl ; ;
470 cout << " Do nothing" <<endl ;
471 return kFALSE ;
472 }
473
474 digitsBranch->SetAddress(&fDigits) ;
475 digitizerBranch->SetAddress(&fDigitizer) ;
761e34c0 476
477 digitsBranch->GetEntry(0) ;
478 digitizerBranch->GetEntry(0) ;
9a1398dd 479
480 fPedestal = fDigitizer->GetPedestal() ;
481 fSlope = fDigitizer->GetSlope() ;
482 return kTRUE ;
483}
484
485//____________________________________________________________________________
a4e98857 486void AliPHOSClusterizerv1::WriteRecPoints()
487{
488 // Checks, if PHOSEmcRP etc. branches with given title already exist,
489 // if yes exits without writing,
490 // else creates new branches with given title
491 // fills and writes into TreeR.
9a1398dd 492
493 Int_t index ;
494 //Evaluate poisition, dispersion and other RecPoint properties...
495 for(index = 0; index < fEmcRecPoints->GetEntries(); index++)
496 ((AliPHOSEmcRecPoint *)fEmcRecPoints->At(index))->EvalAll(fW0,fDigits) ;
497
498 fEmcRecPoints->Sort() ;
499
500 for(index = 0; index < fEmcRecPoints->GetEntries(); index++)
501 ((AliPHOSEmcRecPoint *)fEmcRecPoints->At(index))->SetIndexInList(index) ;
502
761e34c0 503 fEmcRecPoints->Expand(fEmcRecPoints->GetEntriesFast()) ;
504
9a1398dd 505 //Now the same for CPV
506 for(index = 0; index < fCpvRecPoints->GetEntries(); index++)
507 ((AliPHOSRecPoint *)fCpvRecPoints->At(index))->EvalAll(fW0CPV,fDigits) ;
508
509 fCpvRecPoints->Sort() ;
510
511 for(index = 0; index < fCpvRecPoints->GetEntries(); index++)
512 ((AliPHOSRecPoint *)fCpvRecPoints->At(index))->SetIndexInList(index) ;
513
761e34c0 514 fCpvRecPoints->Expand(fCpvRecPoints->GetEntriesFast()) ;
515
9a1398dd 516 if(gAlice->TreeR()==0)
517 gAlice->MakeTree("R") ;
518
519
520 //Check, if branches already exist
521 TBranch * emcBranch = 0;
522 TBranch * cpvBranch = 0;
523 TBranch * clusterizerBranch = 0;
524
525 TObjArray * branches = gAlice->TreeR()->GetListOfBranches() ;
526 Int_t ibranch;
527 Bool_t emcNotFound = kTRUE ;
528 Bool_t cpvNotFound = kTRUE ;
529 Bool_t clusterizerNotFound = kTRUE ;
530
531 for(ibranch = 0;ibranch <branches->GetEntries();ibranch++){
532
533 if(emcNotFound){
534 emcBranch=(TBranch *) branches->At(ibranch) ;
535 if( fRecPointsBranchTitle.CompareTo(emcBranch->GetTitle())==0 ){
536 if( strcmp(emcBranch->GetName(),"PHOSEmcRP") == 0) {
537 emcNotFound = kFALSE ;
538 }
539 }
540 }
541 if(cpvNotFound){
542 cpvBranch=(TBranch *) branches->At(ibranch) ;
543 if( fRecPointsBranchTitle.CompareTo(cpvBranch->GetTitle())==0 ){
544 if( strcmp(cpvBranch->GetName(),"PHOSCpvRP") == 0) {
545 cpvNotFound = kFALSE ;
546 }
547 }
548 }
549
550 if(clusterizerNotFound){
551 clusterizerBranch = (TBranch *) branches->At(ibranch) ;
552 if( fRecPointsBranchTitle.CompareTo(clusterizerBranch->GetTitle()) == 0){
553 if( strcmp(clusterizerBranch->GetName(),"AliPHOSClusterizer") == 0) {
554 clusterizerNotFound = kFALSE ;
555 }
556 }
557 }
558
559 }
560
561 if(!(clusterizerNotFound && emcNotFound && cpvNotFound)){
562 cout << "AliPHOSClusterizer error" << endl;
563 cout << " Branches PHOSEmcRP, PHOSCpvRP and AliPHOSClusterizer " << endl ;
564 cout << " with title '" << fRecPointsBranchTitle.Data() <<"' already exist" << endl ;
565 cout << " can not overwrite " << endl ;
566 return ;
567 }
568
569 //Make branches in TreeR for RecPoints and Clusterizer
570 char * filename = 0;
571 if(gSystem->Getenv("CONFIG_SPLIT_FILE")!=0){ //generating file name
572 filename = new char[strlen(gAlice->GetBaseFile())+20] ;
573 sprintf(filename,"%s/PHOS.Reco.root",gAlice->GetBaseFile()) ;
574 }
575
576 //Make new branches
577 TDirectory *cwd = gDirectory;
578
579 //First EMC
580 Int_t bufferSize = 32000 ;
581 Int_t splitlevel = 0 ;
582 emcBranch = gAlice->TreeR()->Branch("PHOSEmcRP","TObjArray",&fEmcRecPoints,bufferSize,splitlevel);
583 emcBranch->SetTitle(fRecPointsBranchTitle.Data());
584 if (filename) {
585 emcBranch->SetFile(filename);
586 TIter next( emcBranch->GetListOfBranches());
761e34c0 587 TBranch * sb ;
588 while ((sb=(TBranch*)next())) {
589 sb->SetFile(filename);
9a1398dd 590 }
591 cwd->cd();
592 }
593
594 //Now CPV branch
595 cpvBranch = gAlice->TreeR()->Branch("PHOSCpvRP","TObjArray",&fCpvRecPoints,bufferSize,splitlevel);
596 cpvBranch->SetTitle(fRecPointsBranchTitle.Data());
597 if (filename) {
598 cpvBranch->SetFile(filename);
599 TIter next( cpvBranch->GetListOfBranches());
761e34c0 600 TBranch * sb;
601 while ((sb=(TBranch*)next())) {
602 sb->SetFile(filename);
9a1398dd 603 }
604 cwd->cd();
605 }
606
607 //And Finally clusterizer branch
608 AliPHOSClusterizerv1 * cl = this ;
609 clusterizerBranch = gAlice->TreeR()->Branch("AliPHOSClusterizer","AliPHOSClusterizerv1",
610 &cl,bufferSize,splitlevel);
611 clusterizerBranch->SetTitle(fRecPointsBranchTitle.Data());
612 if (filename) {
613 clusterizerBranch->SetFile(filename);
614 TIter next( clusterizerBranch->GetListOfBranches());
761e34c0 615 TBranch * sb ;
616 while ((sb=(TBranch*)next())) {
617 sb->SetFile(filename);
9a1398dd 618 }
619 cwd->cd();
620 }
621
9a1398dd 622
761e34c0 623 emcBranch->Fill() ;
624 cpvBranch->Fill() ;
625 clusterizerBranch->Fill() ;
9a1398dd 626 gAlice->TreeR()->Write(0,kOverwrite) ;
627
628}
629
630//____________________________________________________________________________
631void AliPHOSClusterizerv1::MakeClusters()
632{
633 // Steering method to construct the clusters stored in a list of Reconstructed Points
634 // A cluster is defined as a list of neighbour digits
635 fEmcRecPoints->Clear() ;
636 fCpvRecPoints->Clear() ;
637
d15a28e7 638
639 // Clusterization starts
9a1398dd 640 TClonesArray * digits = (TClonesArray*)fDigits->Clone() ;
641
642 TIter nextdigit(digits) ;
d15a28e7 643 AliPHOSDigit * digit ;
92862013 644 Bool_t notremoved = kTRUE ;
6ad0bfa0 645
d15a28e7 646 while ( (digit = (AliPHOSDigit *)nextdigit()) ) { // scan over the list of digits
9a1398dd 647 AliPHOSRecPoint * clu = 0 ;
c161df70 648
9a1398dd 649 TArrayI clusterdigitslist(1000) ;
d15a28e7 650 Int_t index ;
f2bc1b87 651
b73f246d 652 if (( IsInEmc (digit) && Calibrate(digit->GetAmp()) > fEmcClusteringThreshold ) ||
653 ( IsInPpsd(digit) && Calibrate(digit->GetAmp()) > fPpsdClusteringThreshold ) ||
654 ( IsInCpv (digit) && Calibrate(digit->GetAmp()) > fCpvClusteringThreshold ) ) {
f2bc1b87 655
d15a28e7 656 Int_t iDigitInCluster = 0 ;
657
6ad0bfa0 658 if ( IsInEmc(digit) ) {
83974468 659 // start a new EMC RecPoint
9a1398dd 660 if(fNumberOfEmcClusters >= fEmcRecPoints->GetSize()) fEmcRecPoints->Expand(2*fNumberOfEmcClusters+1) ;
7f5d510c 661 fEmcRecPoints->AddAt(new AliPHOSEmcRecPoint(), fNumberOfEmcClusters) ;
9a1398dd 662 clu = (AliPHOSEmcRecPoint *) fEmcRecPoints->At(fNumberOfEmcClusters) ;
7f5d510c 663 fNumberOfEmcClusters++ ;
9f616d61 664 clu->AddDigit(*digit, Calibrate(digit->GetAmp())) ;
9a1398dd 665 clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
9f616d61 666 iDigitInCluster++ ;
9a1398dd 667 digits->Remove(digit) ;
ca77b032 668
d72dfbc3 669 } else {
83974468 670
fad3e5b9 671 // start a new PPSD/CPV cluster
9a1398dd 672 if(fNumberOfCpvClusters >= fCpvRecPoints->GetSize()) fCpvRecPoints->Expand(2*fNumberOfCpvClusters+1);
673 if(IsInPpsd(digit))
674 fCpvRecPoints->AddAt(new AliPHOSPpsdRecPoint(),fNumberOfCpvClusters) ;
fad3e5b9 675 else
9a1398dd 676 fCpvRecPoints->AddAt(new AliPHOSCpvRecPoint(), fNumberOfCpvClusters) ;
677 clu = (AliPHOSPpsdRecPoint *) fCpvRecPoints->At(fNumberOfCpvClusters) ;
678 fNumberOfCpvClusters++ ;
fad3e5b9 679
6ad0bfa0 680 clu->AddDigit(*digit, Calibrate(digit->GetAmp()) ) ;
9a1398dd 681 clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
9f616d61 682 iDigitInCluster++ ;
9a1398dd 683 digits->Remove(digit) ;
d15a28e7 684 nextdigit.Reset() ;
685
9f616d61 686 // Here we remove resting EMC digits, which cannot make cluster
fad3e5b9 687
92862013 688 if( notremoved ) {
9f616d61 689 while( ( digit = (AliPHOSDigit *)nextdigit() ) ) {
9f616d61 690 if( IsInEmc(digit) )
9a1398dd 691 digits->Remove(digit) ;
d15a28e7 692 else
693 break ;
d72dfbc3 694 }
695 notremoved = kFALSE ;
696 }
d15a28e7 697
698 } // else
699
700 nextdigit.Reset() ;
fad3e5b9 701
d15a28e7 702 AliPHOSDigit * digitN ;
703 index = 0 ;
9f616d61 704 while (index < iDigitInCluster){ // scan over digits already in cluster
9a1398dd 705 digit = (AliPHOSDigit*)fDigits->At(clusterdigitslist[index]) ;
9f616d61 706 index++ ;
d15a28e7 707 while ( (digitN = (AliPHOSDigit *)nextdigit()) ) { // scan over the reduced list of digits
d72dfbc3 708 Int_t ineb = AreNeighbours(digit, digitN); // call (digit,digitN) in THAT oder !!!!!
d15a28e7 709 switch (ineb ) {
9f616d61 710 case 0 : // not a neighbour
d72dfbc3 711 break ;
9f616d61 712 case 1 : // are neighbours
83974468 713 clu->AddDigit(*digitN, Calibrate( digitN->GetAmp() ) ) ;
9a1398dd 714 clusterdigitslist[iDigitInCluster] = digitN->GetIndexInList() ;
9f616d61 715 iDigitInCluster++ ;
9a1398dd 716 digits->Remove(digitN) ;
d15a28e7 717 break ;
9f616d61 718 case 2 : // too far from each other
d15a28e7 719 goto endofloop;
720 } // switch
721
722 } // while digitN
fad3e5b9 723
d15a28e7 724 endofloop: ;
725 nextdigit.Reset() ;
726
727 } // loop over cluster
ad8cfaf4 728
ad8cfaf4 729 } // energy theshold
ad8cfaf4 730
31aa6d6c 731
d15a28e7 732 } // while digit
733
9a1398dd 734 delete digits ;
735
736}
737
738//____________________________________________________________________________
a4e98857 739void AliPHOSClusterizerv1::MakeUnfolding()
740{
741 // Unfolds clusters using the shape of an ElectroMagnetic shower
9a1398dd 742 // Performs unfolding of all EMC/CPV but NOT ppsd clusters
743
a4e98857 744 // Unfold first EMC clusters
9a1398dd 745 if(fNumberOfEmcClusters > 0){
746
747 Int_t nModulesToUnfold = fGeom->GetNModules() ;
748
749 Int_t numberofNotUnfolded = fNumberOfEmcClusters ;
750 Int_t index ;
751 for(index = 0 ; index < numberofNotUnfolded ; index++){
752
753 AliPHOSEmcRecPoint * emcRecPoint = (AliPHOSEmcRecPoint *) fEmcRecPoints->At(index) ;
754 if(emcRecPoint->GetPHOSMod()> nModulesToUnfold)
755 break ;
756
757 Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
758 Int_t * maxAt = new Int_t[nMultipl] ;
759 Float_t * maxAtEnergy = new Float_t[nMultipl] ;
760 Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fEmcLocMaxCut,fDigits) ;
761
762 if( nMax > 1 ) { // if cluster is very flat (no pronounced maximum) then nMax = 0
763 UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
764 fEmcRecPoints->Remove(emcRecPoint);
765 fEmcRecPoints->Compress() ;
766 index-- ;
767 fNumberOfEmcClusters -- ;
768 numberofNotUnfolded-- ;
769 }
770
771 delete[] maxAt ;
772 delete[] maxAtEnergy ;
773 }
774 }
a4e98857 775 // Unfolding of EMC clusters finished
9a1398dd 776
777
a4e98857 778 // Unfold now CPV clusters
9a1398dd 779 if(fNumberOfCpvClusters > 0){
780
781 Int_t nModulesToUnfold = fGeom->GetNCPVModules() ;
782
783 Int_t numberofCpvNotUnfolded = fNumberOfCpvClusters ;
784 Int_t index ;
785 for(index = 0 ; index < numberofCpvNotUnfolded ; index++){
786
787 AliPHOSRecPoint * recPoint = (AliPHOSRecPoint *) fCpvRecPoints->At(index) ;
788
789 if(recPoint->GetPHOSMod()> nModulesToUnfold)
790 break ;
791
792 AliPHOSEmcRecPoint * emcRecPoint = (AliPHOSEmcRecPoint*) recPoint ;
793
794 Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
795 Int_t * maxAt = new Int_t[nMultipl] ;
796 Float_t * maxAtEnergy = new Float_t[nMultipl] ;
797 Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fCpvLocMaxCut,fDigits) ;
798
799 if( nMax > 1 ) { // if cluster is very flat (no pronounced maximum) then nMax = 0
800 UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
801 fCpvRecPoints->Remove(emcRecPoint);
802 fCpvRecPoints->Compress() ;
803 index-- ;
804 numberofCpvNotUnfolded-- ;
805 fNumberOfCpvClusters-- ;
806 }
807
808 delete[] maxAt ;
809 delete[] maxAtEnergy ;
810 }
811 }
812 //Unfolding of Cpv clusters finished
813
814}
815
9a1398dd 816//____________________________________________________________________________
817Double_t AliPHOSClusterizerv1::ShowerShape(Double_t r)
818{
819 // Shape of the shower (see PHOS TDR)
a4e98857 820 // If you change this function, change also the gradient evaluation in ChiSquare()
9a1398dd 821
822 Double_t r4 = r*r*r*r ;
823 Double_t r295 = TMath::Power(r, 2.95) ;
824 Double_t shape = TMath::Exp( -r4 * (1. / (2.32 + 0.26 * r4) + 0.0316 / (1 + 0.0652 * r295) ) ) ;
825 return shape ;
826}
827
828//____________________________________________________________________________
829void AliPHOSClusterizerv1::UnfoldCluster(AliPHOSEmcRecPoint * iniEmc,
830 Int_t nMax,
831 int * maxAt,
832 Float_t * maxAtEnergy)
833{
834 // Performs the unfolding of a cluster with nMax overlapping showers
835
836 Int_t nPar = 3 * nMax ;
837 Float_t * fitparameters = new Float_t[nPar] ;
838
839 Bool_t rv = FindFit(iniEmc, maxAt, maxAtEnergy, nPar, fitparameters) ;
840 if( !rv ) {
841 // Fit failed, return and remove cluster
842 delete[] fitparameters ;
843 return ;
844 }
845
846 // create ufolded rec points and fill them with new energy lists
847 // First calculate energy deposited in each sell in accordance with fit (without fluctuations): efit[]
848 // and later correct this number in acordance with actual energy deposition
849
850 Int_t nDigits = iniEmc->GetMultiplicity() ;
851 Float_t * efit = new Float_t[nDigits] ;
852 Float_t xDigit,zDigit,distance ;
853 Float_t xpar,zpar,epar ;
854 Int_t relid[4] ;
855 AliPHOSDigit * digit ;
856 Int_t * emcDigits = iniEmc->GetDigitsList() ;
857
858 Int_t iparam ;
859 Int_t iDigit ;
860 for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
861 digit = (AliPHOSDigit*) fDigits->At(emcDigits[iDigit] ) ;
862 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
863 fGeom->RelPosInModule(relid, xDigit, zDigit) ;
864 efit[iDigit] = 0;
865
866 iparam = 0 ;
867 while(iparam < nPar ){
868 xpar = fitparameters[iparam] ;
869 zpar = fitparameters[iparam+1] ;
870 epar = fitparameters[iparam+2] ;
871 iparam += 3 ;
872 distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
873 distance = TMath::Sqrt(distance) ;
874 efit[iDigit] += epar * ShowerShape(distance) ;
875 }
876 }
877
878
879 // Now create new RecPoints and fill energy lists with efit corrected to fluctuations
880 // so that energy deposited in each cell is distributed betwin new clusters proportionally
881 // to its contribution to efit
882
883 Float_t * emcEnergies = iniEmc->GetEnergiesList() ;
884 Float_t ratio ;
885
886 iparam = 0 ;
887 while(iparam < nPar ){
888 xpar = fitparameters[iparam] ;
889 zpar = fitparameters[iparam+1] ;
890 epar = fitparameters[iparam+2] ;
891 iparam += 3 ;
892
893 AliPHOSEmcRecPoint * emcRP ;
894
895 if(iniEmc->IsEmc()){ //create new entries in fEmcRecPoints...
896
897 if(fNumberOfEmcClusters >= fEmcRecPoints->GetSize())
898 fEmcRecPoints->Expand(2*fNumberOfEmcClusters) ;
899
900 (*fEmcRecPoints)[fNumberOfEmcClusters] = new AliPHOSEmcRecPoint() ;
901 emcRP = (AliPHOSEmcRecPoint *) fEmcRecPoints->At(fNumberOfEmcClusters);
902 fNumberOfEmcClusters++ ;
903 }
904 else{//create new entries in fCpvRecPoints
905 if(fNumberOfCpvClusters >= fCpvRecPoints->GetSize())
906 fCpvRecPoints->Expand(2*fNumberOfCpvClusters) ;
907
908 (*fCpvRecPoints)[fNumberOfCpvClusters] = new AliPHOSCpvRecPoint() ;
909 emcRP = (AliPHOSEmcRecPoint *) fCpvRecPoints->At(fNumberOfCpvClusters);
910 fNumberOfCpvClusters++ ;
911 }
912
913 Float_t eDigit ;
914 for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
915 digit = (AliPHOSDigit*) fDigits->At( emcDigits[iDigit] ) ;
916 fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
917 fGeom->RelPosInModule(relid, xDigit, zDigit) ;
918 distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
919 distance = TMath::Sqrt(distance) ;
920 ratio = epar * ShowerShape(distance) / efit[iDigit] ;
921 eDigit = emcEnergies[iDigit] * ratio ;
922 emcRP->AddDigit( *digit, eDigit ) ;
923 }
924 }
925
926 delete[] fitparameters ;
927 delete[] efit ;
928
929}
930
931//_____________________________________________________________________________
932void AliPHOSClusterizerv1::UnfoldingChiSquare(Int_t & nPar, Double_t * Grad, Double_t & fret, Double_t * x, Int_t iflag)
933{
a4e98857 934 // Calculates the Chi square for the cluster unfolding minimization
9a1398dd 935 // Number of parameters, Gradient, Chi squared, parameters, what to do
936
937
938 TList * toMinuit = (TList*) gMinuit->GetObjectFit() ;
939
940 AliPHOSEmcRecPoint * emcRP = (AliPHOSEmcRecPoint*) toMinuit->At(0) ;
941 TClonesArray * digits = (TClonesArray*)toMinuit->At(1) ;
942
943
944
945 // AliPHOSEmcRecPoint * emcRP = (AliPHOSEmcRecPoint *) gMinuit->GetObjectFit() ; // EmcRecPoint to fit
946
947 Int_t * emcDigits = emcRP->GetDigitsList() ;
948
949 Int_t nOfDigits = emcRP->GetDigitsMultiplicity() ;
950
951 Float_t * emcEnergies = emcRP->GetEnergiesList() ;
952
953 AliPHOSGeometry * geom = AliPHOSGeometry::GetInstance() ;
954
955 fret = 0. ;
956 Int_t iparam ;
957
958 if(iflag == 2)
959 for(iparam = 0 ; iparam < nPar ; iparam++)
960 Grad[iparam] = 0 ; // Will evaluate gradient
961
962 Double_t efit ;
963
964 AliPHOSDigit * digit ;
965 Int_t iDigit ;
966
967 for( iDigit = 0 ; iDigit < nOfDigits ; iDigit++) {
968
969 digit = (AliPHOSDigit*) digits->At( emcDigits[iDigit] ) ;
970
971 Int_t relid[4] ;
972 Float_t xDigit ;
973 Float_t zDigit ;
974
975 geom->AbsToRelNumbering(digit->GetId(), relid) ;
976
977 geom->RelPosInModule(relid, xDigit, zDigit) ;
978
979 if(iflag == 2){ // calculate gradient
980 Int_t iParam = 0 ;
981 efit = 0 ;
982 while(iParam < nPar ){
983 Double_t distance = (xDigit - x[iParam]) * (xDigit - x[iParam]) ;
984 iParam++ ;
985 distance += (zDigit - x[iParam]) * (zDigit - x[iParam]) ;
986 distance = TMath::Sqrt( distance ) ;
987 iParam++ ;
988 efit += x[iParam] * ShowerShape(distance) ;
989 iParam++ ;
990 }
991 Double_t sum = 2. * (efit - emcEnergies[iDigit]) / emcEnergies[iDigit] ; // Here we assume, that sigma = sqrt(E)
992 iParam = 0 ;
993 while(iParam < nPar ){
994 Double_t xpar = x[iParam] ;
995 Double_t zpar = x[iParam+1] ;
996 Double_t epar = x[iParam+2] ;
997 Double_t dr = TMath::Sqrt( (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) );
998 Double_t shape = sum * ShowerShape(dr) ;
999 Double_t r4 = dr*dr*dr*dr ;
1000 Double_t r295 = TMath::Power(dr,2.95) ;
1001 Double_t deriv =-4. * dr*dr * ( 2.32 / ( (2.32 + 0.26 * r4) * (2.32 + 0.26 * r4) ) +
1002 0.0316 * (1. + 0.0171 * r295) / ( ( 1. + 0.0652 * r295) * (1. + 0.0652 * r295) ) ) ;
1003
1004 Grad[iParam] += epar * shape * deriv * (xpar - xDigit) ; // Derivative over x
1005 iParam++ ;
1006 Grad[iParam] += epar * shape * deriv * (zpar - zDigit) ; // Derivative over z
1007 iParam++ ;
1008 Grad[iParam] += shape ; // Derivative over energy
1009 iParam++ ;
1010 }
1011 }
1012 efit = 0;
1013 iparam = 0 ;
1014
1015 while(iparam < nPar ){
1016 Double_t xpar = x[iparam] ;
1017 Double_t zpar = x[iparam+1] ;
1018 Double_t epar = x[iparam+2] ;
1019 iparam += 3 ;
1020 Double_t distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
1021 distance = TMath::Sqrt(distance) ;
1022 efit += epar * ShowerShape(distance) ;
1023 }
1024
1025 fret += (efit-emcEnergies[iDigit])*(efit-emcEnergies[iDigit])/emcEnergies[iDigit] ;
1026 // Here we assume, that sigma = sqrt(E)
1027 }
83974468 1028
d15a28e7 1029}
1030
1031//____________________________________________________________________________
9a1398dd 1032void AliPHOSClusterizerv1::Print(Option_t * option)const
d15a28e7 1033{
a4e98857 1034 // Prints the parameters of the clusterizer
9a1398dd 1035 if(fIsInitialized){
1036
1037 // Print parameters
1038
1039 cout << "---------------"<< GetName() << " " << GetTitle()<< "-----------" << endl
1040 << "Clusterizing digits from the file: " << fHeaderFileName.Data() << endl
1041 << " Branch: " << fDigitsBranchTitle.Data() << endl
1042 << endl
1043 << " EMC Clustering threshold = " << fEmcClusteringThreshold << endl
1044 << " EMC Local Maximum cut = " << fEmcLocMaxCut << endl
1045 << " EMC Logarothmic weight = " << fW0 << endl
1046 << endl
1047 << " CPV Clustering threshold = " << fCpvClusteringThreshold << endl
1048 << " CPV Local Maximum cut = " << fCpvLocMaxCut << endl
1049 << " CPV Logarothmic weight = " << fW0CPV << endl
1050 << endl
1051 << " PPSD Clustering threshold = " << fPpsdClusteringThreshold << endl;
1052 if(fToUnfold)
1053 cout << " Unfolding on " << endl ;
1054 else
1055 cout << " Unfolding off " << endl ;
1056
1057 cout << "------------------------------------------------------------------" <<endl ;
1058 }
1059 else
1060 cout << " AliPHOSClusterizerv1 not initialized " << endl ;
1061}
1062//____________________________________________________________________________
a4e98857 1063void AliPHOSClusterizerv1::PrintRecPoints(Option_t * option)
1064{
1065 // Prints list of RecPoints produced at the current pass of AliPHOSClusterizer
9a1398dd 1066
1067 cout << "AliPHOSClusterizerv1: " << endl ;
1068 cout << " Found "<< fEmcRecPoints->GetEntriesFast() << " EMC Rec Points and "
1069 << fCpvRecPoints->GetEntriesFast() << " CPV RecPoints" << endl ;
1070
1071 if(strstr(option,"all")) {
1072 cout << "EMC clusters " << endl ;
1073 cout << " Index "
1074 << " Ene(MeV) "
1075 << " Multi "
1076 << " Module "
1077 << " X "
1078 << " Y "
1079 << " Z "
1080 << " Lambda 1 "
1081 << " Lambda 2 "
1082 << " MaxEnergy "
1083 << " # of prim "
1084 << " Primaries list " << endl;
1085
1086 Int_t index ;
1087 for (index = 0 ; index < fEmcRecPoints->GetEntries() ; index++) {
1088 AliPHOSEmcRecPoint * rp = (AliPHOSEmcRecPoint * )fEmcRecPoints->At(index) ;
1089
1090 cout << setw(6) << rp->GetIndexInList() << " ";
1091 cout << setw(6) << rp->GetEnergy() << " ";
1092 cout << setw(6) << rp->GetMultiplicity()<< " ";
1093 cout << setw(6) << rp->GetPHOSMod() << " ";
1094
1095 TVector3 locpos;
1096 rp->GetLocalPosition(locpos);
1097 cout << setw(8) << locpos.X() << " ";
1098 cout << setw(8) << locpos.Y() << " ";
1099 cout << setw(8) << locpos.Z() << " ";
1100
1101 Float_t lambda[2];
1102 rp->GetElipsAxis(lambda);
1103 cout << setw(10)<< lambda[0] << " ";
1104 cout << setw(10)<< lambda[1] << " ";
1105
1106
1107 Int_t * primaries;
1108 Int_t nprimaries;
1109 primaries = rp->GetPrimaries(nprimaries);
1110 cout << setw(8) << primaries << " ";
1111
1112 for (Int_t iprimary=0; iprimary<nprimaries; iprimary++)
1113 cout << setw(4) << primaries[iprimary] << " ";
1114 cout << endl;
1115 }
1116 cout << endl ;
1117
1118 //Now plot PCV/PPSD recPoints
1119 cout << "EMC clusters " << endl ;
1120 cout << " Index "
1121 << " Multi "
1122 << " Module "
1123 << " Layer "
1124 << " X "
1125 << " Y "
1126 << " Z "
1127 << " # of prim "
1128 << " Primaries list " << endl;
1129
1130 for (index = 0 ; index < fEmcRecPoints->GetEntries() ; index++) {
1131 AliPHOSRecPoint * rp = (AliPHOSRecPoint * )fCpvRecPoints->At(index) ;
1132 cout << setw(6) << rp->GetIndexInList() << " ";
1133 cout << setw(6) << rp->GetPHOSMod() << " ";
1134
1135 if( (strcmp(rp->ClassName() , "AliPHOSPpsdRecPoint" )) == 0){
1136 AliPHOSPpsdRecPoint * ppsd = (AliPHOSPpsdRecPoint*) rp ;
1137 if(ppsd->GetUp())
1138 cout <<" CPV ";
1139 else
1140 cout <<" PPSD ";
1141 }
1142 else
1143 cout <<" CPV ";
1144
1145 TVector3 locpos;
1146 rp->GetLocalPosition(locpos);
1147 cout << setw(8) << locpos.X() << " ";
1148 cout << setw(8) << locpos.Y() << " ";
1149 cout << setw(8) << locpos.Z() << " ";
1150
1151 Int_t * primaries;
1152 Int_t nprimaries;
1153 primaries = rp->GetPrimaries(nprimaries);
1154 cout << setw(8) << primaries << " ";
1155
1156 for (Int_t iprimary=0; iprimary<nprimaries; iprimary++)
1157 cout << setw(4) << primaries[iprimary] << " ";
1158 cout << endl;
1159 }
1160
1161
1162 cout << "-------------------------------------------------"<<endl ;
1163 }
d15a28e7 1164}
9a1398dd 1165