Removing inheritances from TAttLine, TAttMarker and AliRndm in AliModule. The copy...
[u/mrichter/AliRoot.git] / TOF / AliTOFSDigitizer.cxx
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517b7f8f 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
88cb7938 16/* $Id$ */
17
0e46b9ae 18//__________________________________________________________//
19// //
20// This is a TTask that constructs SDigits out of Hits //
21// A Summable Digits is the "sum" of all hits in a pad //
22// Detector response has been simulated via the method //
23// SimulateDetectorResponse //
24// //
25// -- Authors: F. Pierella, A. De Caro //
26// Use case: see AliTOFhits2sdigits.C macro in the CVS //
27//__________________________________________________________//
28
e939a978 29#include <TBenchmark.h>
30#include <TF1.h>
31#include <TFile.h>
32#include <TParticle.h>
33#include <TTree.h>
34#include <TRandom.h>
88cb7938 35
88cb7938 36#include "AliLoader.h"
0e46b9ae 37#include "AliLog.h"
d3c7bfac 38#include "AliMC.h"
88cb7938 39#include "AliRunLoader.h"
0e46b9ae 40#include "AliRun.h"
d3c7bfac 41
0f4a7374 42#include "AliTOFGeometry.h"
5919c40c 43#include "AliTOFHitMap.h"
016e1f91 44#include "AliTOFhitT0.h"
0e46b9ae 45#include "AliTOFhit.h"
46#include "AliTOFSDigitizer.h"
47#include "AliTOFSDigit.h"
48#include "AliTOF.h"
49
517b7f8f 50
51ClassImp(AliTOFSDigitizer)
52
53//____________________________________________________________________________
655e379f 54AliTOFSDigitizer::AliTOFSDigitizer():
55 TTask("TOFSDigitizer",""),
56 fEvent1(-1),
57 fEvent2(-1),
58 ftail(0x0),
59 fHeadersFile(""),
60 fRunLoader(0x0),
61 fTOFLoader(0x0),
62 fTOFGeometry(new AliTOFGeometry()),
63 fSelectedSector(-1),
64 fSelectedPlate(-1),
65 fTimeResolution(0),
66 fpadefficiency(0),
67 fEdgeEffect(-1),
68 fEdgeTails(-1),
69 fHparameter(0),
70 fH2parameter(0),
71 fKparameter(0),
72 fK2parameter(0),
73 fEffCenter(0),
74 fEffBoundary(0),
75 fEff2Boundary(0),
76 fEff3Boundary(0),
77 fAddTRes(0),
78 fResCenter(0),
79 fResBoundary(0),
80 fResSlope(0),
81 fTimeWalkCenter(0),
82 fTimeWalkBoundary(0),
83 fTimeWalkSlope(0),
84 fTimeDelayFlag(-1),
85 fPulseHeightSlope(0),
86 fTimeDelaySlope(0),
87 fMinimumCharge(0),
88 fChargeSmearing(0),
89 fLogChargeSmearing(0),
90 fTimeSmearing(0),
91 fAverageTimeFlag(-1),
92 fAdcBin(0),
93 fAdcMean(0),
94 fAdcRms(0)
517b7f8f 95{
96 // ctor
517b7f8f 97}
d61f73d9 98
7aeeaf38 99//------------------------------------------------------------------------
655e379f 100AliTOFSDigitizer::AliTOFSDigitizer(const AliTOFSDigitizer &source):
101 TTask(source),
102 fEvent1(-1),
103 fEvent2(-1),
104 ftail(0x0),
105 fHeadersFile(""),
106 fRunLoader(0x0),
107 fTOFLoader(0x0),
108 fTOFGeometry(0x0),
109 fSelectedSector(-1),
110 fSelectedPlate(-1),
111 fTimeResolution(0),
112 fpadefficiency(0),
113 fEdgeEffect(-1),
114 fEdgeTails(-1),
115 fHparameter(0),
116 fH2parameter(0),
117 fKparameter(0),
118 fK2parameter(0),
119 fEffCenter(0),
120 fEffBoundary(0),
121 fEff2Boundary(0),
122 fEff3Boundary(0),
123 fAddTRes(0),
124 fResCenter(0),
125 fResBoundary(0),
126 fResSlope(0),
127 fTimeWalkCenter(0),
128 fTimeWalkBoundary(0),
129 fTimeWalkSlope(0),
130 fTimeDelayFlag(-1),
131 fPulseHeightSlope(0),
132 fTimeDelaySlope(0),
133 fMinimumCharge(0),
134 fChargeSmearing(0),
135 fLogChargeSmearing(0),
136 fTimeSmearing(0),
137 fAverageTimeFlag(-1),
138 fAdcBin(0),
139 fAdcMean(0),
140 fAdcRms(0)
7aeeaf38 141{
142 // copy constructor
143 this->fTOFGeometry=source.fTOFGeometry;
144
145}
146
147//____________________________________________________________________________
148AliTOFSDigitizer& AliTOFSDigitizer::operator=(const AliTOFSDigitizer &source)
149{
150 // ass. op.
151 this->fTOFGeometry=source.fTOFGeometry;
152 return *this;
153
154}
155
517b7f8f 156//____________________________________________________________________________
655e379f 157AliTOFSDigitizer::AliTOFSDigitizer(const char* HeaderFile, Int_t evNumber1, Int_t nEvents):
158 TTask("TOFSDigitizer",""),
159 fEvent1(-1),
160 fEvent2(-1),
161 ftail(0x0),
162 fHeadersFile(HeaderFile), // input filename (with hits)
163 fRunLoader(0x0),
164 fTOFLoader(0x0),
165 fTOFGeometry(0x0),
166 fSelectedSector(-1), // by default we sdigitize all sectors
167 fSelectedPlate(-1), // by default we sdigitize all plates in all sectors
168 fTimeResolution(0),
169 fpadefficiency(0),
170 fEdgeEffect(-1),
171 fEdgeTails(-1),
172 fHparameter(0),
173 fH2parameter(0),
174 fKparameter(0),
175 fK2parameter(0),
176 fEffCenter(0),
177 fEffBoundary(0),
178 fEff2Boundary(0),
179 fEff3Boundary(0),
180 fAddTRes(0),
181 fResCenter(0),
182 fResBoundary(0),
183 fResSlope(0),
184 fTimeWalkCenter(0),
185 fTimeWalkBoundary(0),
186 fTimeWalkSlope(0),
187 fTimeDelayFlag(-1),
188 fPulseHeightSlope(0),
189 fTimeDelaySlope(0),
190 fMinimumCharge(0),
191 fChargeSmearing(0),
192 fLogChargeSmearing(0),
193 fTimeSmearing(0),
194 fAverageTimeFlag(-1),
195 fAdcBin(0),
196 fAdcMean(0),
197 fAdcRms(0)
517b7f8f 198{
340693af 199 //ctor, reading from input file
d61f73d9 200
d61f73d9 201 TFile * file = (TFile*) gROOT->GetFile(fHeadersFile.Data());
202
203 //File was not opened yet open file and get alirun object
204 if (file == 0) {
205 file = TFile::Open(fHeadersFile.Data(),"update") ;
206 gAlice = (AliRun *) file->Get("gAlice") ;
ea7a588a 207 }
26e447bd 208
517b7f8f 209 // add Task to //root/Tasks folder
e191bb57 210 TString evfoldname = AliConfig::GetDefaultEventFolderName();
f540341d 211 fRunLoader = AliRunLoader::GetRunLoader(evfoldname);
212 if (!fRunLoader)
213 fRunLoader = AliRunLoader::Open(HeaderFile);//open session and mount on default event folder
88cb7938 214 if (fRunLoader == 0x0)
d61f73d9 215 {
d076c8d5 216 AliFatal("Event is not loaded. Exiting");
d61f73d9 217 return;
218 }
26e447bd 219
d3c7bfac 220 fRunLoader->CdGAFile();
221 TDirectory *savedir=gDirectory;
222 TFile *in=(TFile*)gFile;
223
224 if (!in->IsOpen()) {
225 AliWarning("Geometry file is not open default TOF geometry will be used");
226 fTOFGeometry = new AliTOFGeometry();
227 }
228 else {
229 in->cd();
230 fTOFGeometry = (AliTOFGeometry*)in->Get("TOFgeometry");
231 }
232
233 savedir->cd();
234
f540341d 235 if (fRunLoader->TreeE() == 0x0) fRunLoader->LoadHeader();
d61f73d9 236
237 if (evNumber1>=0) fEvent1 = evNumber1;
238 else fEvent1=0;
239
240 if (nEvents==0) fEvent2 = (Int_t)(fRunLoader->GetNumberOfEvents());
241 else if (nEvents>0) fEvent2 = evNumber1+nEvents;
242 else fEvent2 = 1;
243
244 if (!(fEvent2>fEvent1)) {
d076c8d5 245 AliError(Form("fEvent2 = %d <= fEvent1 = %d", fEvent2, fEvent1));
d61f73d9 246 fEvent1 = 0;
247 fEvent2 = 1;
d076c8d5 248 AliError(Form("Correction: fEvent2 = %d <= fEvent1 = %d", fEvent2, fEvent1));
26e447bd 249 }
d61f73d9 250
26e447bd 251 // init parameters for sdigitization
252 InitParameters();
d61f73d9 253
254 fTOFLoader = fRunLoader->GetLoader("TOFLoader");
255 if (fTOFLoader == 0x0)
256 {
d076c8d5 257 AliFatal("Can not find TOF loader in event. Exiting.");
d61f73d9 258 return;
259 }
260 fTOFLoader->PostSDigitizer(this);
517b7f8f 261}
262
263//____________________________________________________________________________
d61f73d9 264AliTOFSDigitizer::~AliTOFSDigitizer()
517b7f8f 265{
266 // dtor
797e311f 267 fTOFLoader->CleanSDigitizer();
d3c7bfac 268
afd804a3 269 delete fTOFGeometry;
d3c7bfac 270
f73548c4 271}
272
273//____________________________________________________________________________
274void AliTOFSDigitizer::InitParameters()
275{
276 // set parameters for detector simulation
d61f73d9 277
7e6dce66 278 fTimeResolution = 0.080; //0.120; OLD
279 fpadefficiency = 0.99 ;
f73548c4 280 fEdgeEffect = 2 ;
281 fEdgeTails = 0 ;
282 fHparameter = 0.4 ;
283 fH2parameter = 0.15;
284 fKparameter = 0.5 ;
285 fK2parameter = 0.35;
286 fEffCenter = fpadefficiency;
287 fEffBoundary = 0.65;
288 fEff2Boundary = 0.90;
289 fEff3Boundary = 0.08;
8d6daa31 290 fAddTRes = 68. ; // \sqrt{2x20^2 + 15^2 + 2x10^2 + 30^2 + 50^2} (p-p)
291 //fAddTRes = 48. ; // \sqrt{2x20^2 + 15^2 + 2x10^2 + 30^2 + 15^2} (Pb-Pb)
7e6dce66 292 // 30^2+20^2+40^2+50^2+50^2+50^2 = 10400 ps^2 (very old value)
293 fResCenter = 35. ; //50. ; // OLD
f73548c4 294 fResBoundary = 70. ;
7e6dce66 295 fResSlope = 37. ; //40. ; // OLD
f73548c4 296 fTimeWalkCenter = 0. ;
297 fTimeWalkBoundary=0. ;
298 fTimeWalkSlope = 0. ;
299 fTimeDelayFlag = 1 ;
300 fPulseHeightSlope=2.0 ;
301 fTimeDelaySlope =0.060;
302 // was fMinimumCharge = TMath::Exp(fPulseHeightSlope*fKparameter/2.);
303 fMinimumCharge = TMath::Exp(-fPulseHeightSlope*fHparameter);
304 fChargeSmearing=0.0 ;
305 fLogChargeSmearing=0.13;
306 fTimeSmearing =0.022;
307 fAverageTimeFlag=0 ;
43f77f2d 308
d61f73d9 309 fAdcBin = 0.25; // 1 ADC bin = 0.25 pC (or 0.03 pC)
ea7a588a 310 fAdcMean = 50.; // ADC distribution mpv value for Landau (in bins)
311 // it corresponds to a mean value of ~100 bins
312 fAdcRms = 25.; // ADC distribution rms value (in bins)
313 // it corresponds to distribution rms ~50 bins
f73548c4 314}
315
316//__________________________________________________________________
ea7a588a 317Double_t TimeWithTail(Double_t* x, Double_t* par)
f73548c4 318{
319 // sigma - par[0], alpha - par[1], part - par[2]
320 // at x<part*sigma - gauss
321 // at x>part*sigma - TMath::Exp(-x/alpha)
322 Float_t xx =x[0];
323 Double_t f;
324 if(xx<par[0]*par[2]) {
325 f = TMath::Exp(-xx*xx/(2*par[0]*par[0]));
326 } else {
327 f = TMath::Exp(-(xx-par[0]*par[2])/par[1]-0.5*par[2]*par[2]);
328 }
329 return f;
517b7f8f 330}
331
332//____________________________________________________________________________
d61f73d9 333void AliTOFSDigitizer::Exec(Option_t *verboseOption) {
340693af 334 //execute TOF sdigitization
d61f73d9 335 if (strstr(verboseOption,"tim") || strstr(verboseOption,"all"))
ea7a588a 336 gBenchmark->Start("TOFSDigitizer");
517b7f8f 337
ea7a588a 338 if (fEdgeTails) ftail = new TF1("tail",TimeWithTail,-2,2,3);
d61f73d9 339
ea7a588a 340 Int_t nselectedHits=0;
341 Int_t ntotalsdigits=0;
342 Int_t ntotalupdates=0;
343 Int_t nnoisesdigits=0;
344 Int_t nsignalsdigits=0;
345 Int_t nHitsFromPrim=0;
346 Int_t nHitsFromSec=0;
347 Int_t nlargeTofDiff=0;
f73548c4 348
da3d3acd 349 Bool_t thereIsNotASelection=(fSelectedSector==-1) && (fSelectedPlate==-1);
55991c8b 350
f540341d 351 if (fRunLoader->GetAliRun() == 0x0) fRunLoader->LoadgAlice();
d61f73d9 352 gAlice = fRunLoader->GetAliRun();
ea7a588a 353
d61f73d9 354 fRunLoader->LoadKinematics();
355
7e6dce66 356 AliTOF *tof = (AliTOF *) gAlice->GetDetector("TOF");
d61f73d9 357
7e6dce66 358 if (!tof) {
d076c8d5 359 AliError("TOF not found");
d61f73d9 360 return;
361 }
362
363 fTOFLoader->LoadHits("read");
364 fTOFLoader->LoadSDigits("recreate");
365
366 for (Int_t iEvent=fEvent1; iEvent<fEvent2; iEvent++) {
0e46b9ae 367 //AliInfo(Form("------------------- %s -------------", GetName()));
368 //AliInfo(Form("Sdigitizing event %i", iEvent));
517b7f8f 369
d61f73d9 370 fRunLoader->GetEvent(iEvent);
371
7e6dce66 372 TTree *hitTree = fTOFLoader->TreeH ();
373 if (!hitTree) return;
517b7f8f 374
d61f73d9 375 if (fTOFLoader->TreeS () == 0) fTOFLoader->MakeTree ("S");
376
5919c40c 377 //Make branch for digits
7e6dce66 378 tof->MakeBranch("S");
517b7f8f 379
d61f73d9 380 // recreate TClonesArray fSDigits - for backward compatibility
7e6dce66 381 if (tof->SDigits() == 0) {
382 tof->CreateSDigitsArray();
d61f73d9 383 } else {
7e6dce66 384 tof->RecreateSDigitsArray();
d61f73d9 385 }
5919c40c 386
7e6dce66 387 tof->SetTreeAddress();
87e54ebb 388
7e6dce66 389 Int_t version=tof->IsVersion();
d61f73d9 390
391 Int_t nselectedHitsinEv=0;
392 Int_t ntotalsdigitsinEv=0;
393 Int_t ntotalupdatesinEv=0;
394 Int_t nnoisesdigitsinEv=0;
395 Int_t nsignalsdigitsinEv=0;
016e1f91 396
5919c40c 397 TParticle *particle;
016e1f91 398 //AliTOFhit *tofHit;
7e6dce66 399 TClonesArray *tofHitArray = tof->Hits();
5919c40c 400
f73548c4 401 // create hit map
d3c7bfac 402 AliTOFHitMap *hitMap = new AliTOFHitMap(tof->SDigits(), fTOFGeometry);
5919c40c 403
7e6dce66 404 TBranch * tofHitsBranch = hitTree->GetBranch("TOF");
bfec09a6 405
7e6dce66 406 Int_t ntracks = static_cast<Int_t>(hitTree->GetEntries());
5919c40c 407 for (Int_t track = 0; track < ntracks; track++)
408 {
409 gAlice->ResetHits();
d7ccea72 410 tofHitsBranch->GetEvent(track);
0e46b9ae 411
412 AliMC *mcApplication = (AliMC*)gAlice->GetMCApp();
413
414 particle = mcApplication->Particle(track);
7e6dce66 415 Int_t nhits = tofHitArray->GetEntriesFast();
f73548c4 416 // cleaning all hits of the same track in the same pad volume
417 // it is a rare event, however it happens
418
d61f73d9 419 Int_t previousTrack =-1;
420 Int_t previousSector=-1;
421 Int_t previousPlate =-1;
422 Int_t previousStrip =-1;
423 Int_t previousPadX =-1;
424 Int_t previousPadZ =-1;
5919c40c 425
d61f73d9 426 for (Int_t hit = 0; hit < nhits; hit++) {
016e1f91 427 Int_t vol[5]; // location for a digit
428 Float_t digit[2]; // TOF digit variables
429 Int_t tracknum;
7e6dce66 430 Float_t dxPad;
431 Float_t dzPad;
016e1f91 432 Float_t geantTime;
433
434 // fp: really sorry for this, it is a temporary trick to have
435 // track length too
d3c7bfac 436 if(version!=6 && version!=7){
7e6dce66 437 AliTOFhit *tofHit = (AliTOFhit *) tofHitArray->UncheckedAt(hit);
016e1f91 438 tracknum = tofHit->GetTrack();
439 vol[0] = tofHit->GetSector();
440 vol[1] = tofHit->GetPlate();
441 vol[2] = tofHit->GetStrip();
442 vol[3] = tofHit->GetPadx();
443 vol[4] = tofHit->GetPadz();
7e6dce66 444 dxPad = tofHit->GetDx();
445 dzPad = tofHit->GetDz();
016e1f91 446 geantTime = tofHit->GetTof(); // unit [s]
447 } else {
7e6dce66 448 AliTOFhitT0 *tofHit = (AliTOFhitT0 *) tofHitArray->UncheckedAt(hit);
016e1f91 449 tracknum = tofHit->GetTrack();
450 vol[0] = tofHit->GetSector();
451 vol[1] = tofHit->GetPlate();
55991c8b 452 vol[2] = tofHit->GetStrip();
453 vol[3] = tofHit->GetPadx();
454 vol[4] = tofHit->GetPadz();
7e6dce66 455 dxPad = tofHit->GetDx();
456 dzPad = tofHit->GetDz();
016e1f91 457 geantTime = tofHit->GetTof(); // unit [s]
458 }
d61f73d9 459
016e1f91 460 geantTime *= 1.e+09; // conversion from [s] to [ns]
d61f73d9 461
016e1f91 462 // selection case for sdigitizing only hits in a given plate of a given sector
463 if(thereIsNotASelection || (vol[0]==fSelectedSector && vol[1]==fSelectedPlate)){
55991c8b 464
465 Bool_t dummy=((tracknum==previousTrack) && (vol[0]==previousSector) && (vol[1]==previousPlate) && (vol[2]==previousStrip));
466
467 Bool_t isCloneOfThePrevious=dummy && ((vol[3]==previousPadX) && (vol[4]==previousPadZ));
468
b213b8bd 469 Bool_t isNeighOfThePrevious=dummy && ((((vol[3]==previousPadX-1) || (vol[3]==previousPadX+1)) && (vol[4]==previousPadZ)) || ((vol[3]==previousPadX) && ((vol[4]==previousPadZ+1) || (vol[4]==previousPadZ-1))));
55991c8b 470
b213b8bd 471 if(!isCloneOfThePrevious && !isNeighOfThePrevious){
55991c8b 472 // update "previous" values
473 // in fact, we are yet in the future, so the present is past
474 previousTrack=tracknum;
475 previousSector=vol[0];
476 previousPlate=vol[1];
477 previousStrip=vol[2];
478 previousPadX=vol[3];
479 previousPadZ=vol[4];
480
481 nselectedHits++;
482 nselectedHitsinEv++;
d61f73d9 483 if (particle->GetFirstMother() < 0) nHitsFromPrim++; // counts hits due to primary particles
55991c8b 484
7e6dce66 485 Float_t xStrip=AliTOFGeometry::XPad()*(vol[3]+0.5-0.5*AliTOFGeometry::NpadX())+dxPad;
486 Float_t zStrip=AliTOFGeometry::ZPad()*(vol[4]+0.5-0.5*AliTOFGeometry::NpadZ())+dzPad;
016e1f91 487
55991c8b 488 Int_t nActivatedPads = 0, nFiredPads = 0;
489 Bool_t isFired[4] = {kFALSE, kFALSE, kFALSE, kFALSE};
490 Float_t tofAfterSimul[4] = {0., 0., 0., 0.};
491 Float_t qInduced[4] = {0.,0.,0.,0.};
492 Int_t nPlace[4] = {0, 0, 0, 0};
493 Float_t averageTime = 0.;
494 SimulateDetectorResponse(zStrip,xStrip,geantTime,nActivatedPads,nFiredPads,isFired,nPlace,qInduced,tofAfterSimul,averageTime);
495 if(nFiredPads) {
496 for(Int_t indexOfPad=0; indexOfPad<nActivatedPads; indexOfPad++) {
497 if(isFired[indexOfPad]){ // the pad has fired
498 Float_t timediff=geantTime-tofAfterSimul[indexOfPad];
499
500 if(timediff>=0.2) nlargeTofDiff++;
501
845fe446 502 digit[0] = (Int_t) ((tofAfterSimul[indexOfPad]*1.e+03)/AliTOFGeometry::TdcBinWidth()); // TDC bin number (each bin -> 24.4 ps)
55991c8b 503
504 Float_t landauFactor = gRandom->Landau(fAdcMean, fAdcRms);
505 digit[1] = (Int_t) (qInduced[indexOfPad] * landauFactor); // ADC bins (each bin -> 0.25 (or 0.03) pC)
d61f73d9 506
55991c8b 507 // recalculate the volume only for neighbouring pads
ea7a588a 508 if(indexOfPad){
0f4a7374 509 (nPlace[indexOfPad]<=AliTOFGeometry::NpadX()) ? vol[4] = 0 : vol[4] = 1;
510 (nPlace[indexOfPad]<=AliTOFGeometry::NpadX()) ? vol[3] = nPlace[indexOfPad] - 1 : vol[3] = nPlace[indexOfPad] - AliTOFGeometry::NpadX() - 1;
ea7a588a 511 }
d61f73d9 512 // check if two sdigit are on the same pad;
513 // in that case we sum the two or more sdigits
55991c8b 514 if (hitMap->TestHit(vol) != kEmpty) {
515 AliTOFSDigit *sdig = static_cast<AliTOFSDigit*>(hitMap->GetHit(vol));
516 Int_t tdctime = (Int_t) digit[0];
517 Int_t adccharge = (Int_t) digit[1];
43f77f2d 518 sdig->Update(AliTOFGeometry::TdcBinWidth(),tdctime,adccharge,tracknum);
55991c8b 519 ntotalupdatesinEv++;
520 ntotalupdates++;
521 } else {
522
7e6dce66 523 tof->AddSDigit(tracknum, vol, digit);
55991c8b 524
525 if(indexOfPad){
526 nnoisesdigits++;
527 nnoisesdigitsinEv++;
528 } else {
529 nsignalsdigits++;
530 nsignalsdigitsinEv++;
531 }
532 ntotalsdigitsinEv++;
533 ntotalsdigits++;
534 hitMap->SetHit(vol);
535 } // if (hitMap->TestHit(vol) != kEmpty)
536 } // if(isFired[indexOfPad])
537 } // end loop on nActivatedPads
538 } // if(nFiredPads) i.e. if some pads has fired
539 } // close if(!isCloneOfThePrevious)
540 } // close the selection on sector and plate
5919c40c 541 } // end loop on hits for the current track
542 } // end loop on ntracks
55991c8b 543
5919c40c 544 delete hitMap;
d61f73d9 545
546 fTOFLoader->TreeS()->Reset();
547 fTOFLoader->TreeS()->Fill();
548 fTOFLoader->WriteSDigits("OVERWRITE");
549
7e6dce66 550 if (tof->SDigits()) tof->ResetSDigits();
d61f73d9 551
552 if (strstr(verboseOption,"all")) {
d076c8d5 553 AliInfo("----------------------------------------");
554 AliInfo(" <AliTOFSDigitizer> ");
555 AliInfo(Form("After sdigitizing %d hits in event %d", nselectedHitsinEv, iEvent));
ea7a588a 556 //" (" << nHitsFromPrim << " from primaries and " << nHitsFromSec << " from secondaries) TOF hits, "
d076c8d5 557 AliInfo(Form("%d digits have been created", ntotalsdigitsinEv));
558 AliInfo(Form("(%d due to signals and %d due to border effect)", nsignalsdigitsinEv, nnoisesdigitsinEv));
559 AliInfo(Form("%d total updates of the hit map have been performed in current event", ntotalupdatesinEv));
560 AliInfo("----------------------------------------");
ea7a588a 561 }
562
563 } //event loop on events
564
d61f73d9 565 fTOFLoader->UnloadSDigits();
566 fTOFLoader->UnloadHits();
567 fRunLoader->UnloadKinematics();
e615b5b5 568 //fRunLoader->UnloadgAlice();
d61f73d9 569
ea7a588a 570 // free used memory
571 if (ftail){
572 delete ftail;
573 ftail = 0;
574 }
575
576 nHitsFromSec=nselectedHits-nHitsFromPrim;
577 if(strstr(verboseOption,"all")){
d076c8d5 578 AliInfo("----------------------------------------");
579 AliInfo("----------------------------------------");
580 AliInfo("-----------SDigitization Summary--------");
581 AliInfo(" <AliTOFSDigitizer> ");
582 AliInfo(Form("After sdigitizing %d hits", nselectedHits));
583 AliInfo(Form("in %d events", fEvent2-fEvent1));
ea7a588a 584//" (" << nHitsFromPrim << " from primaries and " << nHitsFromSec << " from secondaries) TOF hits, "
d076c8d5 585 AliInfo(Form("%d sdigits have been created", ntotalsdigits));
586 AliInfo(Form("(%d due to signals and "
587 "%d due to border effect)", nsignalsdigits, nnoisesdigits));
588 AliInfo(Form("%d total updates of the hit map have been performed", ntotalupdates));
589 AliInfo(Form("in %d cases the time of flight difference is greater than 200 ps", nlargeTofDiff));
ea7a588a 590 }
591
517b7f8f 592
ea7a588a 593 if(strstr(verboseOption,"tim") || strstr(verboseOption,"all")){
594 gBenchmark->Stop("TOFSDigitizer");
d076c8d5 595 AliInfo("AliTOFSDigitizer:");
596 AliInfo(Form(" took %f seconds in order to make sdigits "
597 "%f seconds per event", gBenchmark->GetCpuTime("TOFSDigitizer"), gBenchmark->GetCpuTime("TOFSDigitizer")/(fEvent2-fEvent1)));
598 AliInfo(" +++++++++++++++++++++++++++++++++++++++++++++++++++ ");
ea7a588a 599 }
517b7f8f 600
601}
ea7a588a 602
517b7f8f 603//__________________________________________________________________
5c016a7b 604void AliTOFSDigitizer::Print(Option_t* /*opt*/)const
517b7f8f 605{
0e46b9ae 606 AliInfo(Form(" ------------------- %s ------------- ", GetName()));
517b7f8f 607}
f73548c4 608
609//__________________________________________________________________
55991c8b 610void AliTOFSDigitizer::SelectSectorAndPlate(Int_t sector, Int_t plate)
611{
340693af 612 //Select sector and plate
0f4a7374 613 Bool_t isaWrongSelection=(sector < 0) || (sector >= AliTOFGeometry::NSectors()) || (plate < 0) || (plate >= AliTOFGeometry::NPlates());
55991c8b 614 if(isaWrongSelection){
d076c8d5 615 AliError("You have selected an invalid value for sector or plate ");
616 AliError(Form("The correct range for sector is [0,%d]", AliTOFGeometry::NSectors()-1));
617 AliError(Form("The correct range for plate is [0,%d]", AliTOFGeometry::NPlates()-1));
618 AliError("By default we continue sdigitizing all hits in all plates of all sectors");
55991c8b 619 } else {
620 fSelectedSector=sector;
621 fSelectedPlate =plate;
d076c8d5 622 AliInfo(Form("SDigitizing only hits in plate %d of the sector %d", fSelectedPlate, fSelectedSector));
55991c8b 623 }
624}
625
626//__________________________________________________________________
f73548c4 627void AliTOFSDigitizer::SimulateDetectorResponse(Float_t z0, Float_t x0, Float_t geantTime, Int_t& nActivatedPads, Int_t& nFiredPads, Bool_t* isFired, Int_t* nPlace, Float_t* qInduced, Float_t* tofTime, Float_t& averageTime)
628{
629 // Description:
630 // Input: z0, x0 - hit position in the strip system (0,0 - center of the strip), cm
631 // geantTime - time generated by Geant, ns
632 // Output: nActivatedPads - the number of pads activated by the hit (1 || 2 || 4)
633 // nFiredPads - the number of pads fired (really activated) by the hit (nFiredPads <= nActivatedPads)
634 // qInduced[iPad]- charge induced on pad, arb. units
635 // this array is initialized at zero by the caller
636 // tofAfterSimul[iPad] - time calculated with edge effect algorithm, ns
637 // this array is initialized at zero by the caller
638 // averageTime - time given by pad hited by the Geant track taking into account the times (weighted) given by the pads fired for edge effect also.
639 // The weight is given by the qInduced[iPad]/qCenterPad
640 // this variable is initialized at zero by the caller
641 // nPlace[iPad] - the number of the pad place, iPad = 0, 1, 2, 3
642 // this variable is initialized at zero by the caller
643 //
644 // Description of used variables:
645 // eff[iPad] - efficiency of the pad
646 // res[iPad] - resolution of the pad, ns
647 // timeWalk[iPad] - time walk of the pad, ns
648 // timeDelay[iPad] - time delay for neighbouring pad to hited pad, ns
649 // PadId[iPad] - Pad Identifier
650 // E | F --> PadId[iPad] = 5 | 6
651 // A | B --> PadId[iPad] = 1 | 2
652 // C | D --> PadId[iPad] = 3 | 4
653 // nTail[iPad] - the tail number, = 1 for tailA, = 2 for tailB
654 // qCenterPad - charge extimated for each pad, arb. units
655 // weightsSum - sum of weights extimated for each pad fired, arb. units
656
0f4a7374 657 const Float_t kSigmaForTail[2] = {AliTOFGeometry::SigmaForTail1(),AliTOFGeometry::SigmaForTail2()}; //for tail
f73548c4 658 Int_t iz = 0, ix = 0;
659 Float_t dX = 0., dZ = 0., x = 0., z = 0.;
660 Float_t h = fHparameter, h2 = fH2parameter, k = fKparameter, k2 = fK2parameter;
661 Float_t effX = 0., effZ = 0., resX = 0., resZ = 0., timeWalkX = 0., timeWalkZ = 0.;
662 Float_t logOfqInd = 0.;
663 Float_t weightsSum = 0.;
664 Int_t nTail[4] = {0,0,0,0};
665 Int_t padId[4] = {0,0,0,0};
666 Float_t eff[4] = {0.,0.,0.,0.};
667 Float_t res[4] = {0.,0.,0.,0.};
668 // Float_t qCenterPad = fMinimumCharge * fMinimumCharge;
669 Float_t qCenterPad = 1.;
670 Float_t timeWalk[4] = {0.,0.,0.,0.};
671 Float_t timeDelay[4] = {0.,0.,0.,0.};
672
673 nActivatedPads = 0;
674 nFiredPads = 0;
675
676 (z0 <= 0) ? iz = 0 : iz = 1;
0f4a7374 677 dZ = z0 + (0.5 * AliTOFGeometry::NpadZ() - iz - 0.5) * AliTOFGeometry::ZPad(); // hit position in the pad frame, (0,0) - center of the pad
678 z = 0.5 * AliTOFGeometry::ZPad() - TMath::Abs(dZ); // variable for eff., res. and timeWalk. functions
679 iz++; // z row: 1, ..., AliTOFGeometry::NpadZ = 2
680 ix = (Int_t)((x0 + 0.5 * AliTOFGeometry::NpadX() * AliTOFGeometry::XPad()) / AliTOFGeometry::XPad());
681 dX = x0 + (0.5 * AliTOFGeometry::NpadX() - ix - 0.5) * AliTOFGeometry::XPad(); // hit position in the pad frame, (0,0) - center of the pad
682 x = 0.5 * AliTOFGeometry::XPad() - TMath::Abs(dX); // variable for eff., res. and timeWalk. functions;
683 ix++; // x row: 1, ..., AliTOFGeometry::NpadX = 48
f73548c4 684
685 ////// Pad A:
686 nActivatedPads++;
0f4a7374 687 nPlace[nActivatedPads-1] = (iz - 1) * AliTOFGeometry::NpadX() + ix;
f73548c4 688 qInduced[nActivatedPads-1] = qCenterPad;
689 padId[nActivatedPads-1] = 1;
690
691 if (fEdgeEffect == 0) {
692 eff[nActivatedPads-1] = fEffCenter;
693 if (gRandom->Rndm() < eff[nActivatedPads-1]) {
694 nFiredPads = 1;
7e6dce66 695 res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + fResCenter * fResCenter); // ns
f73548c4 696 isFired[nActivatedPads-1] = kTRUE;
697 tofTime[nActivatedPads-1] = gRandom->Gaus(geantTime + fTimeWalkCenter, res[0]);
698 averageTime = tofTime[nActivatedPads-1];
699 }
700 } else {
701
702 if(z < h) {
703 if(z < h2) {
704 effZ = fEffBoundary + (fEff2Boundary - fEffBoundary) * z / h2;
705 } else {
706 effZ = fEff2Boundary + (fEffCenter - fEff2Boundary) * (z - h2) / (h - h2);
707 }
708 resZ = fResBoundary + (fResCenter - fResBoundary) * z / h;
709 timeWalkZ = fTimeWalkBoundary + (fTimeWalkCenter - fTimeWalkBoundary) * z / h;
710 nTail[nActivatedPads-1] = 1;
711 } else {
712 effZ = fEffCenter;
713 resZ = fResCenter;
714 timeWalkZ = fTimeWalkCenter;
715 }
716
717 if(x < h) {
718 if(x < h2) {
719 effX = fEffBoundary + (fEff2Boundary - fEffBoundary) * x / h2;
720 } else {
721 effX = fEff2Boundary + (fEffCenter - fEff2Boundary) * (x - h2) / (h - h2);
722 }
723 resX = fResBoundary + (fResCenter - fResBoundary) * x / h;
724 timeWalkX = fTimeWalkBoundary + (fTimeWalkCenter - fTimeWalkBoundary) * x / h;
725 nTail[nActivatedPads-1] = 1;
726 } else {
727 effX = fEffCenter;
728 resX = fResCenter;
729 timeWalkX = fTimeWalkCenter;
730 }
731
732 (effZ<effX) ? eff[nActivatedPads-1] = effZ : eff[nActivatedPads-1] = effX;
7e6dce66 733 (resZ<resX) ? res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resX * resX) : res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resZ * resZ); // ns
f73548c4 734 (timeWalkZ<timeWalkX) ? timeWalk[nActivatedPads-1] = 0.001 * timeWalkZ : timeWalk[nActivatedPads-1] = 0.001 * timeWalkX; // ns
735
736
737 ////// Pad B:
738 if(z < k2) {
739 effZ = fEffBoundary - (fEffBoundary - fEff3Boundary) * (z / k2);
740 } else {
741 effZ = fEff3Boundary * (k - z) / (k - k2);
742 }
743 resZ = fResBoundary + fResSlope * z / k;
744 timeWalkZ = fTimeWalkBoundary + fTimeWalkSlope * z / k;
745
746 if(z < k && z > 0) {
747 if( (iz == 1 && dZ > 0) || (iz == 2 && dZ < 0) ) {
748 nActivatedPads++;
0f4a7374 749 nPlace[nActivatedPads-1] = nPlace[0] + (3 - 2 * iz) * AliTOFGeometry::NpadX();
f73548c4 750 eff[nActivatedPads-1] = effZ;
7e6dce66 751 res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resZ * resZ); // ns
f73548c4 752 timeWalk[nActivatedPads-1] = 0.001 * timeWalkZ; // ns
753 nTail[nActivatedPads-1] = 2;
754 if (fTimeDelayFlag) {
755 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * z / 2.);
756 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * z / 2.);
757 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * z);
758 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * z, fLogChargeSmearing);
759 timeDelay[nActivatedPads-1] = gRandom->Gaus(-fTimeDelaySlope * logOfqInd, fTimeSmearing);
760 } else {
761 timeDelay[nActivatedPads-1] = 0.;
762 }
763 padId[nActivatedPads-1] = 2;
764 }
765 }
766
767
768 ////// Pad C, D, E, F:
769 if(x < k2) {
770 effX = fEffBoundary - (fEffBoundary - fEff3Boundary) * (x / k2);
771 } else {
772 effX = fEff3Boundary * (k - x) / (k - k2);
773 }
774 resX = fResBoundary + fResSlope*x/k;
775 timeWalkX = fTimeWalkBoundary + fTimeWalkSlope*x/k;
776
777 if(x < k && x > 0) {
778 // C:
779 if(ix > 1 && dX < 0) {
780 nActivatedPads++;
781 nPlace[nActivatedPads-1] = nPlace[0] - 1;
782 eff[nActivatedPads-1] = effX;
7e6dce66 783 res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resX * resX); // ns
f73548c4 784 timeWalk[nActivatedPads-1] = 0.001 * timeWalkX; // ns
785 nTail[nActivatedPads-1] = 2;
786 if (fTimeDelayFlag) {
787 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * x / 2.);
788 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * x / 2.);
789 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * x);
790 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * x, fLogChargeSmearing);
791 timeDelay[nActivatedPads-1] = gRandom->Gaus(-fTimeDelaySlope * logOfqInd, fTimeSmearing);
792 } else {
793 timeDelay[nActivatedPads-1] = 0.;
794 }
795 padId[nActivatedPads-1] = 3;
796
797 // D:
798 if(z < k && z > 0) {
799 if( (iz == 1 && dZ > 0) || (iz == 2 && dZ < 0) ) {
800 nActivatedPads++;
0f4a7374 801 nPlace[nActivatedPads-1] = nPlace[0] + (3 - 2 * iz) * AliTOFGeometry::NpadX() - 1;
f73548c4 802 eff[nActivatedPads-1] = effX * effZ;
7e6dce66 803 (resZ<resX) ? res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resX * resX) : res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resZ * resZ); // ns
f73548c4 804 (timeWalkZ<timeWalkX) ? timeWalk[nActivatedPads-1] = 0.001 * timeWalkZ : timeWalk[nActivatedPads-1] = 0.001 * timeWalkX; // ns
805
806 nTail[nActivatedPads-1] = 2;
807 if (fTimeDelayFlag) {
808 if (TMath::Abs(x) < TMath::Abs(z)) {
809 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * z / 2.);
810 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * z / 2.);
811 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * z);
812 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * z, fLogChargeSmearing);
813 } else {
814 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * x / 2.);
815 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * x / 2.);
816 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * x);
817 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * x, fLogChargeSmearing);
818 }
819 timeDelay[nActivatedPads-1] = gRandom->Gaus(-fTimeDelaySlope * logOfqInd, fTimeSmearing);
820 } else {
821 timeDelay[nActivatedPads-1] = 0.;
822 }
823 padId[nActivatedPads-1] = 4;
824 }
825 } // end D
826 } // end C
827
828 // E:
0f4a7374 829 if(ix < AliTOFGeometry::NpadX() && dX > 0) {
f73548c4 830 nActivatedPads++;
831 nPlace[nActivatedPads-1] = nPlace[0] + 1;
832 eff[nActivatedPads-1] = effX;
7e6dce66 833 res[nActivatedPads-1] = 0.001 * (TMath::Sqrt(fAddTRes*fAddTRes + resX * resX)); // ns
f73548c4 834 timeWalk[nActivatedPads-1] = 0.001 * timeWalkX; // ns
835 nTail[nActivatedPads-1] = 2;
836 if (fTimeDelayFlag) {
837 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * x / 2.);
838 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * x / 2.);
839 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * x);
840 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * x, fLogChargeSmearing);
841 timeDelay[nActivatedPads-1] = gRandom->Gaus(-fTimeDelaySlope * logOfqInd, fTimeSmearing);
842 } else {
843 timeDelay[nActivatedPads-1] = 0.;
844 }
845 padId[nActivatedPads-1] = 5;
846
847
848 // F:
849 if(z < k && z > 0) {
850 if( (iz == 1 && dZ > 0) || (iz == 2 && dZ < 0) ) {
851 nActivatedPads++;
0f4a7374 852 nPlace[nActivatedPads - 1] = nPlace[0] + (3 - 2 * iz) * AliTOFGeometry::NpadX() + 1;
f73548c4 853 eff[nActivatedPads - 1] = effX * effZ;
7e6dce66 854 (resZ<resX) ? res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resX * resX) : res[nActivatedPads-1] = 0.001 * TMath::Sqrt(fAddTRes*fAddTRes + resZ * resZ); // ns
f73548c4 855 (timeWalkZ<timeWalkX) ? timeWalk[nActivatedPads-1] = 0.001 * timeWalkZ : timeWalk[nActivatedPads-1] = 0.001*timeWalkX; // ns
856 nTail[nActivatedPads-1] = 2;
857 if (fTimeDelayFlag) {
858 if (TMath::Abs(x) < TMath::Abs(z)) {
859 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * z / 2.);
860 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * z / 2.);
861 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * z);
862 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * z, fLogChargeSmearing);
863 } else {
864 // qInduced[0] = fMinimumCharge * TMath::Exp(fPulseHeightSlope * x / 2.);
865 // qInduced[nActivatedPads-1] = fMinimumCharge * TMath::Exp(-fPulseHeightSlope * x / 2.);
866 qInduced[nActivatedPads-1] = TMath::Exp(-fPulseHeightSlope * x);
867 logOfqInd = gRandom->Gaus(-fPulseHeightSlope * x, fLogChargeSmearing);
868 }
869 timeDelay[nActivatedPads-1] = gRandom->Gaus(-fTimeDelaySlope * logOfqInd, fTimeSmearing);
870 } else {
871 timeDelay[nActivatedPads-1] = 0.;
872 }
873 padId[nActivatedPads-1] = 6;
874 }
875 } // end F
876 } // end E
877 } // end if(x < k)
878
879
880 for (Int_t iPad = 0; iPad < nActivatedPads; iPad++) {
881 if (res[iPad] < fTimeResolution) res[iPad] = fTimeResolution;
882 if(gRandom->Rndm() < eff[iPad]) {
883 isFired[iPad] = kTRUE;
884 nFiredPads++;
885 if(fEdgeTails) {
886 if(nTail[iPad] == 0) {
887 tofTime[iPad] = gRandom->Gaus(geantTime + timeWalk[iPad] + timeDelay[iPad], res[iPad]);
888 } else {
889 ftail->SetParameters(res[iPad], 2. * res[iPad], kSigmaForTail[nTail[iPad]-1]);
890 Double_t timeAB = ftail->GetRandom();
891 tofTime[iPad] = geantTime + timeWalk[iPad] + timeDelay[iPad] + timeAB;
892 }
893 } else {
894 tofTime[iPad] = gRandom->Gaus(geantTime + timeWalk[iPad] + timeDelay[iPad], res[iPad]);
895 }
896 if (fAverageTimeFlag) {
897 averageTime += tofTime[iPad] * qInduced[iPad];
898 weightsSum += qInduced[iPad];
899 } else {
900 averageTime += tofTime[iPad];
901 weightsSum += 1.;
902 }
903 }
904 }
905 if (weightsSum!=0) averageTime /= weightsSum;
906 } // end else (fEdgeEffect != 0)
907}
908
909//__________________________________________________________________
910void AliTOFSDigitizer::PrintParameters()const
911{
912 //
913 // Print parameters used for sdigitization
914 //
0e46b9ae 915 AliInfo(Form(" ------------------- %s -------------", GetName()));
916 AliInfo(" Parameters used for TOF SDigitization ");
f73548c4 917 // Printing the parameters
918
0e46b9ae 919 AliInfo(Form(" Number of events: %i ", (fEvent2-fEvent1)));
920 AliInfo(Form(" from event %i to event %i", fEvent1, (fEvent2-1)));
921 AliInfo(Form(" Time Resolution (ns) %d Pad Efficiency: %d ", fTimeResolution, fpadefficiency));
922 AliInfo(Form(" Edge Effect option: %d", fEdgeEffect));
923
924 AliInfo(" Boundary Effect Simulation Parameters ");
925 AliInfo(Form(" Hparameter: %d H2parameter: %d Kparameter: %d K2parameter: %d", fHparameter, fH2parameter, fKparameter, fK2parameter));
926 AliInfo(Form(" Efficiency in the central region of the pad: %d", fEffCenter));
927 AliInfo(Form(" Efficiency at the boundary region of the pad: %d", fEffBoundary));
928 AliInfo(Form(" Efficiency value at H2parameter %d", fEff2Boundary));
929 AliInfo(Form(" Efficiency value at K2parameter %d", fEff3Boundary));
930 AliInfo(Form(" Resolution (ps) in the central region of the pad: %d", fResCenter));
931 AliInfo(Form(" Resolution (ps) at the boundary of the pad : %d", fResBoundary));
932 AliInfo(Form(" Slope (ps/K) for neighbouring pad : %d", fResSlope));
933 AliInfo(Form(" Time walk (ps) in the central region of the pad : %d", fTimeWalkCenter));
934 AliInfo(Form(" Time walk (ps) at the boundary of the pad : %d", fTimeWalkBoundary));
935 AliInfo(Form(" Slope (ps/K) for neighbouring pad : %d", fTimeWalkSlope));
936 AliInfo(" Pulse Heigth Simulation Parameters ");
937 AliInfo(Form(" Flag for delay due to the PulseHeightEffect : %d", fTimeDelayFlag));
938 AliInfo(Form(" Pulse Height Slope : %d", fPulseHeightSlope));
939 AliInfo(Form(" Time Delay Slope : %d", fTimeDelaySlope));
940 AliInfo(Form(" Minimum charge amount which could be induced : %d", fMinimumCharge));
941 AliInfo(Form(" Smearing in charge in (q1/q2) vs x plot : %d", fChargeSmearing));
942 AliInfo(Form(" Smearing in log of charge ratio : %d", fLogChargeSmearing));
943 AliInfo(Form(" Smearing in time in time vs log(q1/q2) plot : %d", fTimeSmearing));
944 AliInfo(Form(" Flag for average time : %d", fAverageTimeFlag));
945 AliInfo(Form(" Edge tails option : %d", fEdgeTails));
f73548c4 946
947}