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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 | ||
16 | /* $Id$ */ | |
17 | ||
18 | #include <Riostream.h> | |
19 | #include <stdlib.h> | |
20 | #include <stdio.h> | |
21 | #include <cstring> | |
22 | ||
23 | #include <TCanvas.h> | |
24 | #include <TF1.h> | |
25 | #include <TH1.h> | |
26 | #include <TFile.h> | |
27 | #include <TRandom.h> | |
28 | #include <TROOT.h> | |
29 | #include "AliITS.h" | |
30 | #include "AliITSMapA2.h" | |
31 | #include "AliITSRawData.h" | |
32 | #include "AliITSdigitSPD.h" | |
33 | #include "AliITSetfSDD.h" | |
34 | #include "AliITSmodule.h" | |
35 | #include "AliITShit.h" | |
36 | #include "AliITSpList.h" | |
37 | #include "AliITSCalibrationSDD.h" | |
38 | #include "AliITSsegmentationSDD.h" | |
39 | #include "AliITSsimulationSDD.h" | |
40 | #include "AliLog.h" | |
41 | #include "AliRun.h" | |
42 | ||
43 | ClassImp(AliITSsimulationSDD) | |
44 | //////////////////////////////////////////////////////////////////////// | |
45 | // Version: 0 // | |
46 | // Written by Piergiorgio Cerello // | |
47 | // November 23 1999 // | |
48 | // // | |
49 | // AliITSsimulationSDD is the simulation of SDDs. // | |
50 | //////////////////////////////////////////////////////////////////////// | |
51 | ||
52 | //______________________________________________________________________ | |
53 | AliITSsimulationSDD::AliITSsimulationSDD(): | |
54 | AliITSsimulation(), | |
55 | fITS(0), | |
56 | fHitMap2(0), | |
57 | fHitSigMap2(0), | |
58 | fHitNoiMap2(0), | |
59 | fElectronics(0), | |
60 | fInZR(0), | |
61 | fInZI(0), | |
62 | fOutZR(0), | |
63 | fOutZI(0), | |
64 | fAnodeFire(0), | |
65 | fHis(0), | |
66 | fFlag(kFALSE), | |
67 | fCrosstalkFlag(kFALSE), | |
68 | fDoFFT(1), | |
69 | fNofMaps(0), | |
70 | fMaxNofSamples(0), | |
71 | fScaleSize(0){ | |
72 | // Default constructor | |
73 | SetScaleFourier(); | |
74 | SetPerpendTracksFlag(); | |
75 | SetCrosstalkFlag(); | |
76 | SetDoFFT(); | |
77 | } | |
78 | //______________________________________________________________________ | |
79 | AliITSsimulationSDD::AliITSsimulationSDD(const AliITSsimulationSDD &source) : | |
80 | AliITSsimulation(source), | |
81 | fITS(source.fITS), | |
82 | fHitMap2(source.fHitMap2), | |
83 | fHitSigMap2(source.fHitSigMap2), | |
84 | fHitNoiMap2(source.fHitNoiMap2), | |
85 | fElectronics(source.fElectronics), | |
86 | fInZR(source.fInZR), | |
87 | fInZI(source.fInZI), | |
88 | fOutZR(source.fOutZR), | |
89 | fOutZI(source.fOutZI), | |
90 | fAnodeFire(source.fAnodeFire), | |
91 | fHis(source.fHis), | |
92 | fFlag(source.fFlag), | |
93 | fCrosstalkFlag(source.fCrosstalkFlag), | |
94 | fDoFFT(source.fDoFFT), | |
95 | fNofMaps(source.fNofMaps), | |
96 | fMaxNofSamples(source.fMaxNofSamples), | |
97 | fScaleSize(source.fScaleSize){ | |
98 | // Copy constructor to satify Coding roules only. | |
99 | ||
100 | } | |
101 | //______________________________________________________________________ | |
102 | AliITSsimulationSDD& AliITSsimulationSDD::operator=(const AliITSsimulationSDD &src){ | |
103 | // Assignment operator to satify Coding roules only. | |
104 | ||
105 | if(this==&src) return *this; | |
106 | Error("AliITSsimulationSDD","Not allowed to make a = with " | |
107 | "AliITSsimulationSDD Using default creater instead"); | |
108 | return *this ; | |
109 | } | |
110 | /* | |
111 | //______________________________________________________________________ | |
112 | AliITSsimulation& AliITSsimulationSDD::operator=(const AliITSsimulation &src){ | |
113 | // Assignment operator to satify Coding roules only. | |
114 | ||
115 | if(this==&src) return *this; | |
116 | Error("AliITSsimulationSSD","Not allowed to make a = with " | |
117 | "AliITSsimulationSDD Using default creater instead"); | |
118 | return *this ; | |
119 | } | |
120 | */ | |
121 | //______________________________________________________________________ | |
122 | AliITSsimulationSDD::AliITSsimulationSDD(AliITSDetTypeSim* dettyp): | |
123 | AliITSsimulation(dettyp), | |
124 | fITS(0), | |
125 | fHitMap2(0), | |
126 | fHitSigMap2(0), | |
127 | fHitNoiMap2(0), | |
128 | fElectronics(0), | |
129 | fInZR(0), | |
130 | fInZI(0), | |
131 | fOutZR(0), | |
132 | fOutZI(0), | |
133 | fAnodeFire(0), | |
134 | fHis(0), | |
135 | fFlag(kFALSE), | |
136 | fCrosstalkFlag(kFALSE), | |
137 | fDoFFT(1), | |
138 | fNofMaps(0), | |
139 | fMaxNofSamples(0), | |
140 | fScaleSize(0){ | |
141 | // Default Constructor | |
142 | Init(); | |
143 | } | |
144 | //______________________________________________________________________ | |
145 | void AliITSsimulationSDD::Init(){ | |
146 | // Standard Constructor | |
147 | ||
148 | SetScaleFourier(); | |
149 | SetPerpendTracksFlag(); | |
150 | SetCrosstalkFlag(); | |
151 | SetDoFFT(); | |
152 | ||
153 | AliITSsegmentationSDD* seg = (AliITSsegmentationSDD*)GetSegmentationModel(1); | |
154 | if(seg->Npx()==128) fScaleSize=8; | |
155 | AliITSSimuParam* simpar = fDetType->GetSimuParam(); | |
156 | fpList = new AliITSpList( seg->Npz(), | |
157 | fScaleSize*seg->Npx() ); | |
158 | fHitSigMap2 = new AliITSMapA2(seg,fScaleSize,1); | |
159 | fHitNoiMap2 = new AliITSMapA2(seg,fScaleSize,1); | |
160 | fHitMap2 = fHitSigMap2; | |
161 | ||
162 | fNofMaps = seg->Npz(); | |
163 | fMaxNofSamples = seg->Npx(); | |
164 | fAnodeFire = new Bool_t [fNofMaps]; | |
165 | ||
166 | Float_t sddWidth = seg->Dz(); | |
167 | Float_t anodePitch = seg->Dpz(0); | |
168 | Double_t timeStep = (Double_t)seg->Dpx(0); | |
169 | ||
170 | if(anodePitch*(fNofMaps/2) > sddWidth) { | |
171 | AliWarning(Form("Too many anodes %d or too big pitch %f ", | |
172 | fNofMaps/2,anodePitch)); | |
173 | } // end if | |
174 | ||
175 | ||
176 | fElectronics = new AliITSetfSDD(timeStep/fScaleSize, | |
177 | simpar->GetSDDElectronics()); | |
178 | ||
179 | ||
180 | fITS = (AliITS*)gAlice->GetModule("ITS"); | |
181 | ||
182 | fInZR = new Double_t [fScaleSize*fMaxNofSamples]; | |
183 | fInZI = new Double_t [fScaleSize*fMaxNofSamples]; | |
184 | fOutZR = new Double_t [fScaleSize*fMaxNofSamples]; | |
185 | fOutZI = new Double_t [fScaleSize*fMaxNofSamples]; | |
186 | } | |
187 | //______________________________________________________________________ | |
188 | AliITSsimulationSDD::~AliITSsimulationSDD() { | |
189 | // destructor | |
190 | ||
191 | // delete fpList; | |
192 | delete fHitSigMap2; | |
193 | delete fHitNoiMap2; | |
194 | delete fElectronics; | |
195 | ||
196 | fITS = 0; | |
197 | ||
198 | if (fHis) { | |
199 | fHis->Delete(); | |
200 | delete fHis; | |
201 | } // end if fHis | |
202 | if(fInZR) delete [] fInZR; | |
203 | if(fInZI) delete [] fInZI; | |
204 | if(fOutZR) delete [] fOutZR; | |
205 | if(fOutZI) delete [] fOutZI; | |
206 | if(fAnodeFire) delete [] fAnodeFire; | |
207 | } | |
208 | //______________________________________________________________________ | |
209 | void AliITSsimulationSDD::InitSimulationModule( Int_t module, Int_t event ) { | |
210 | // create maps to build the lists of tracks for each summable digit | |
211 | fModule = module; | |
212 | fEvent = event; | |
213 | ClearMaps(); | |
214 | memset(fAnodeFire,0,sizeof(Bool_t)*fNofMaps); | |
215 | } | |
216 | //______________________________________________________________________ | |
217 | void AliITSsimulationSDD::ClearMaps() { | |
218 | // clear maps | |
219 | fpList->ClearMap(); | |
220 | fHitSigMap2->ClearMap(); | |
221 | fHitNoiMap2->ClearMap(); | |
222 | } | |
223 | //______________________________________________________________________ | |
224 | void AliITSsimulationSDD::FastFourierTransform(Double_t *real, | |
225 | Double_t *imag,Int_t direction) { | |
226 | // Do a Fast Fourier Transform | |
227 | ||
228 | Int_t samples = fElectronics->GetSamples(); | |
229 | Int_t l = (Int_t) ((log((Float_t) samples)/log(2.))+0.5); | |
230 | Int_t m1 = samples; | |
231 | Int_t m = samples/2; | |
232 | Int_t m2 = samples/m1; | |
233 | Int_t i,j,k; | |
234 | for(i=1; i<=l; i++) { | |
235 | for(j=0; j<samples; j += m1) { | |
236 | Int_t p = 0; | |
237 | for(k=j; k<= j+m-1; k++) { | |
238 | Double_t wsr = fElectronics->GetWeightReal(p); | |
239 | Double_t wsi = fElectronics->GetWeightImag(p); | |
240 | if(direction == -1) wsi = -wsi; | |
241 | Double_t xr = *(real+k+m); | |
242 | Double_t xi = *(imag+k+m); | |
243 | *(real+k+m) = wsr*(*(real+k)-xr) - wsi*(*(imag+k)-xi); | |
244 | *(imag+k+m) = wsr*(*(imag+k)-xi) + wsi*(*(real+k)-xr); | |
245 | *(real+k) += xr; | |
246 | *(imag+k) += xi; | |
247 | p += m2; | |
248 | } // end for k | |
249 | } // end for j | |
250 | m1 = m; | |
251 | m /= 2; | |
252 | m2 += m2; | |
253 | } // end for i | |
254 | for(j=0; j<samples; j++) { | |
255 | Int_t j1 = j; | |
256 | Int_t p = 0; | |
257 | Int_t i1; | |
258 | for(i1=1; i1<=l; i1++) { | |
259 | Int_t j2 = j1; | |
260 | j1 /= 2; | |
261 | p = p + p + j2 - j1 - j1; | |
262 | } // end for i1 | |
263 | if(p >= j) { | |
264 | Double_t xr = *(real+j); | |
265 | Double_t xi = *(imag+j); | |
266 | *(real+j) = *(real+p); | |
267 | *(imag+j) = *(imag+p); | |
268 | *(real+p) = xr; | |
269 | *(imag+p) = xi; | |
270 | } // end if p>=j | |
271 | } // end for j | |
272 | if(direction == -1) { | |
273 | for(i=0; i<samples; i++) { | |
274 | *(real+i) /= samples; | |
275 | *(imag+i) /= samples; | |
276 | } // end for i | |
277 | } // end if direction == -1 | |
278 | return; | |
279 | } | |
280 | ||
281 | //______________________________________________________________________ | |
282 | void AliITSsimulationSDD::SDigitiseModule(AliITSmodule *mod,Int_t md,Int_t ev){ | |
283 | // digitize module using the "slow" detector simulator creating | |
284 | // summable digits. | |
285 | ||
286 | TObjArray *fHits = mod->GetHits(); | |
287 | Int_t nhits = fHits->GetEntriesFast(); | |
288 | if( !nhits ) return; | |
289 | ||
290 | InitSimulationModule( md, ev ); | |
291 | HitsToAnalogDigits( mod ); // fills fHitMap2 which is = fHitSigmap2 | |
292 | ChargeToSignal( fModule,kFALSE,kTRUE ); // - Process signal adding gain without adding noise | |
293 | fHitMap2 = fHitNoiMap2; // - Swap to noise map | |
294 | ChargeToSignal( fModule,kTRUE,kFALSE ); // - Process only noise | |
295 | fHitMap2 = fHitSigMap2; // - Return to signal map | |
296 | WriteSDigits(); | |
297 | ClearMaps(); | |
298 | } | |
299 | //______________________________________________________________________ | |
300 | Bool_t AliITSsimulationSDD::AddSDigitsToModule(TClonesArray *pItemArray, | |
301 | Int_t mask ) { | |
302 | // Add Summable digits to module maps. | |
303 | AliITSSimuParam* simpar = fDetType->GetSimuParam(); | |
304 | Int_t nItems = pItemArray->GetEntries(); | |
305 | Double_t maxadc = simpar->GetSDDMaxAdc(); | |
306 | Bool_t sig = kFALSE; | |
307 | ||
308 | // cout << "Adding "<< nItems <<" SDigits to module " << fModule << endl; | |
309 | for( Int_t i=0; i<nItems; i++ ) { | |
310 | AliITSpListItem * pItem = (AliITSpListItem *)(pItemArray->At( i )); | |
311 | if( pItem->GetModule() != fModule ) { | |
312 | Error( "AliITSsimulationSDD","Error reading, SDigits module " | |
313 | "%d != current module %d: exit", | |
314 | pItem->GetModule(), fModule ); | |
315 | return sig; | |
316 | } // end if | |
317 | ||
318 | if(pItem->GetSignal()>0.0 ) sig = kTRUE; | |
319 | ||
320 | fpList->AddItemTo( mask, pItem ); // Add SignalAfterElect + noise | |
321 | AliITSpListItem * pItem2 = fpList->GetpListItem( pItem->GetIndex() ); | |
322 | Double_t sigAE = pItem2->GetSignalAfterElect(); | |
323 | if( sigAE >= maxadc ) sigAE = maxadc-1; // avoid overflow signal | |
324 | Int_t ia; | |
325 | Int_t it; | |
326 | fpList->GetMapIndex( pItem->GetIndex(), ia, it ); | |
327 | fHitMap2->SetHit( ia, it, sigAE ); | |
328 | fAnodeFire[ia] = kTRUE; | |
329 | } | |
330 | return sig; | |
331 | } | |
332 | //______________________________________________________________________ | |
333 | void AliITSsimulationSDD::FinishSDigitiseModule() { | |
334 | // digitize module using the "slow" detector simulator from | |
335 | // the sum of summable digits. | |
336 | FinishDigits() ; | |
337 | ClearMaps(); | |
338 | } | |
339 | //______________________________________________________________________ | |
340 | void AliITSsimulationSDD::DigitiseModule(AliITSmodule *mod,Int_t md,Int_t ev){ | |
341 | // create maps to build the lists of tracks for each digit | |
342 | ||
343 | TObjArray *fHits = mod->GetHits(); | |
344 | Int_t nhits = fHits->GetEntriesFast(); | |
345 | ||
346 | InitSimulationModule( md, ev ); | |
347 | if( !nhits ) return; | |
348 | ||
349 | HitsToAnalogDigits( mod ); | |
350 | ChargeToSignal( fModule,kTRUE,kTRUE ); // process signal + noise | |
351 | ||
352 | for( Int_t i=0; i<fNofMaps; i++ ) { | |
353 | for( Int_t j=0; j<fMaxNofSamples; j++ ) { | |
354 | Int_t jdx = j*fScaleSize; | |
355 | Int_t index = fpList->GetHitIndex( i, j ); | |
356 | AliITSpListItem pItemTmp2( fModule, index, 0. ); | |
357 | // put the fScaleSize analog digits in only one | |
358 | for( Int_t ik=0; ik<fScaleSize; ik++ ) { | |
359 | AliITSpListItem *pItemTmp = fpList->GetpListItem( i, jdx+ik ); | |
360 | if( pItemTmp == 0 ) continue; | |
361 | pItemTmp2.Add( pItemTmp ); | |
362 | } | |
363 | fpList->DeleteHit( i, j ); | |
364 | fpList->AddItemTo( 0, &pItemTmp2 ); | |
365 | } | |
366 | } | |
367 | FinishDigits(); | |
368 | ClearMaps(); | |
369 | } | |
370 | //______________________________________________________________________ | |
371 | void AliITSsimulationSDD::FinishDigits() { | |
372 | // introduce the electronics effects and do zero-suppression if required | |
373 | ||
374 | if( fCrosstalkFlag ) ApplyCrosstalk(fModule); | |
375 | ||
376 | AliITSCalibrationSDD* res = (AliITSCalibrationSDD*)GetCalibrationModel(fModule); | |
377 | Bool_t isZeroSupp = res->GetZeroSupp(); | |
378 | if (isZeroSupp) Compress2D(); | |
379 | else StoreAllDigits(); | |
380 | } | |
381 | //______________________________________________________________________ | |
382 | void AliITSsimulationSDD::HitsToAnalogDigits( AliITSmodule *mod ) { | |
383 | // create maps to build the lists of tracks for each digit | |
384 | AliITSsegmentationSDD* seg = (AliITSsegmentationSDD*)GetSegmentationModel(1); | |
385 | AliITSCalibrationSDD* res = (AliITSCalibrationSDD*)GetCalibrationModel(fModule); | |
386 | AliITSSimuParam* simpar = fDetType->GetSimuParam(); | |
387 | TObjArray *hits = mod->GetHits(); | |
388 | Int_t nhits = hits->GetEntriesFast(); | |
389 | ||
390 | // Int_t arg[6] = {0,0,0,0,0,0}; | |
391 | Int_t nofAnodes = fNofMaps/2; | |
392 | Double_t sddLength = seg->Dx(); | |
393 | Double_t anodePitch = seg->Dpz(0); | |
394 | Double_t timeStep = seg->Dpx(0); | |
395 | Double_t driftSpeed ; // drift velocity (anode dependent) | |
396 | Double_t nanoampToADC = simpar->GetSDDMaxAdc()/simpar->GetSDDDynamicRange(); // maxadc/topValue; | |
397 | Double_t cHloss = simpar->GetSDDChargeLoss(); | |
398 | Float_t dfCoeff, s1; | |
399 | simpar->GetSDDDiffCoeff(dfCoeff,s1); // Signal 2d Shape | |
400 | Double_t eVpairs = simpar->GetGeVToCharge()*1.0E9; // 3.6 eV by def. | |
401 | Double_t nsigma = simpar->GetNSigmaIntegration(); // | |
402 | Int_t nlookups = simpar->GetGausNLookUp(); // | |
403 | Float_t jitter = simpar->GetSDDJitterError(); // | |
404 | ||
405 | // Piergiorgio's part (apart for few variables which I made float | |
406 | // when i thought that can be done | |
407 | // Fill detector maps with GEANT hits | |
408 | // loop over hits in the module | |
409 | ||
410 | const Float_t kconv = 1.0e+6; // GeV->KeV | |
411 | Int_t itrack = 0; | |
412 | Int_t iWing; // which detector wing/side. | |
413 | Int_t ii,kk,ka,kt; // loop indexs | |
414 | Int_t ia,it,index; // sub-pixel integration indexies | |
415 | Int_t iAnode; // anode number. | |
416 | Int_t timeSample; // time buckett. | |
417 | Int_t anodeWindow; // anode direction charge integration width | |
418 | Int_t timeWindow; // time direction charge integration width | |
419 | Int_t jamin,jamax; // anode charge integration window | |
420 | Int_t jtmin,jtmax; // time charge integration window | |
421 | Int_t nsplitAn; // the number of splits in anode and time windows | |
422 | Int_t nsplitTb; // the number of splits in anode and time windows | |
423 | Int_t nOfSplits; // number of times track length is split into | |
424 | Float_t nOfSplitsF; // Floating point version of nOfSplits. | |
425 | Float_t kkF; // Floating point version of loop index kk. | |
426 | Double_t pathInSDD; // Track length in SDD. | |
427 | Double_t drPath; // average position of track in detector. in microns | |
428 | Double_t drTime; // Drift time | |
429 | Double_t avDrft; // x position of path length segment in cm. | |
430 | Double_t avAnode; // Anode for path length segment in Anode number (float) | |
431 | Double_t zAnode; // Floating point anode number. | |
432 | Double_t driftPath; // avDrft in microns. | |
433 | Double_t width; // width of signal at anodes. | |
434 | Double_t depEnergy; // Energy deposited in this GEANT step. | |
435 | Double_t xL[3],dxL[3]; // local hit coordinates and diff. | |
436 | Double_t sigA; // sigma of signal at anode. | |
437 | Double_t sigT; // sigma in time/drift direction for track segment | |
438 | Double_t aStep,aConst; // sub-pixel size and offset anode | |
439 | Double_t tStep,tConst; // sub-pixel size and offset time | |
440 | Double_t amplitude; // signal amplitude for track segment in nanoAmpere | |
441 | Double_t chargeloss; // charge loss for track segment. | |
442 | Double_t anodeAmplitude; // signal amplitude in anode direction | |
443 | Double_t aExpo; // exponent of Gaussian anode direction | |
444 | Double_t timeAmplitude; // signal amplitude in time direction | |
445 | Double_t tExpo; // exponent of Gaussian time direction | |
446 | Double_t tof; // Time of flight in ns of this step. | |
447 | ||
448 | for(ii=0; ii<nhits; ii++) { | |
449 | if(!mod->LineSegmentL(ii,xL[0],dxL[0],xL[1],dxL[1],xL[2],dxL[2], | |
450 | depEnergy,itrack)) continue; | |
451 | Float_t xloc=xL[0]; | |
452 | if(xloc>0) iWing=0; // left side, carlos channel 0 | |
453 | else iWing=1; // right side | |
454 | ||
455 | Float_t zloc=xL[2]+0.5*dxL[2]; | |
456 | zAnode=seg->GetAnodeFromLocal(xloc,zloc); // anode number in the range 0.-511. | |
457 | driftSpeed = res->GetDriftSpeedAtAnode(zAnode); | |
458 | if(timeStep*fMaxNofSamples < sddLength/driftSpeed) { | |
459 | AliWarning("Time Interval > Allowed Time Interval"); | |
460 | } | |
461 | depEnergy *= kconv; | |
462 | if (!depEnergy) { | |
463 | AliDebug(1, | |
464 | Form("fTrack = %d hit=%d module=%d This particle has passed without losing energy!", | |
465 | itrack,ii,mod->GetIndex())); | |
466 | continue; | |
467 | // continue if the particle did not lose energy | |
468 | // passing through detector | |
469 | } // end if !depEnergy | |
470 | ||
471 | tof=0.; | |
472 | AliITShit* h=(AliITShit*)hits->At(ii); | |
473 | if(h) tof=h->GetTOF()*1E9; | |
474 | AliDebug(1,Form("TOF for hit %d on mod %d (particle %d)=%g",ii,fModule,h->Track(),tof)); | |
475 | ||
476 | xL[0] += 0.0001*gRandom->Gaus( 0, jitter ); // | |
477 | pathInSDD = TMath::Sqrt(dxL[0]*dxL[0]+dxL[1]*dxL[1]+dxL[2]*dxL[2]); | |
478 | ||
479 | if (fFlag && pathInSDD) { depEnergy *= (0.03/pathInSDD); } | |
480 | drPath = TMath::Abs(10000.*(dxL[0]+2.*xL[0])*0.5); | |
481 | drPath = sddLength-drPath; | |
482 | if(drPath < 0) { | |
483 | AliDebug(1, // this should be fixed at geometry level | |
484 | Form("negative drift path drPath=%e sddLength=%e dxL[0]=%e xL[0]=%e", | |
485 | drPath,sddLength,dxL[0],xL[0])); | |
486 | continue; | |
487 | } // end if drPath < 0 | |
488 | ||
489 | // Compute number of segments to brake step path into | |
490 | drTime = drPath/driftSpeed; // Drift Time | |
491 | sigA = TMath::Sqrt(2.*dfCoeff*drTime+s1*s1);// Sigma along the anodes | |
492 | // calcuate the number of time the path length should be split into. | |
493 | nOfSplits = (Int_t) (1. + 10000.*pathInSDD/sigA); | |
494 | if(fFlag) nOfSplits = 1; | |
495 | ||
496 | // loop over path segments, init. some variables. | |
497 | depEnergy /= nOfSplits; | |
498 | nOfSplitsF = (Float_t) nOfSplits; | |
499 | Float_t theAverage=0.,theSteps=0.; | |
500 | for(kk=0;kk<nOfSplits;kk++) { // loop over path segments | |
501 | kkF = (Float_t) kk + 0.5; | |
502 | avDrft = xL[0]+dxL[0]*kkF/nOfSplitsF; | |
503 | avAnode = xL[2]+dxL[2]*kkF/nOfSplitsF; | |
504 | theSteps+=1.; | |
505 | theAverage+=avAnode; | |
506 | zAnode = seg->GetAnodeFromLocal(avDrft,avAnode); | |
507 | driftSpeed = res->GetDriftSpeedAtAnode(zAnode); | |
508 | driftPath = TMath::Abs(10000.*avDrft); | |
509 | driftPath = sddLength-driftPath; | |
510 | if(driftPath < 0) { | |
511 | AliDebug(1, // this should be fixed at geometry level | |
512 | Form("negative drift path driftPath=%e sddLength=%e avDrft=%e dxL[0]=%e xL[0]=%e", | |
513 | driftPath,sddLength,avDrft,dxL[0],xL[0])); | |
514 | continue; | |
515 | } // end if driftPath < 0 | |
516 | drTime = driftPath/driftSpeed; // drift time for segment. | |
517 | // Sigma along the anodes for track segment. | |
518 | sigA = TMath::Sqrt(2.*dfCoeff*drTime+s1*s1); | |
519 | sigT = sigA/driftSpeed; | |
520 | ||
521 | drTime+=tof; // take into account Time Of Flight from production point | |
522 | timeSample = (Int_t) (fScaleSize*drTime/timeStep + 1.001); // time bin in range 1-256 !!! | |
523 | if(zAnode>nofAnodes) zAnode-=nofAnodes; // to have the anode number between 0. and 256. | |
524 | iAnode = (Int_t) (1.001+zAnode); // iAnode in range 1-256 !!!! | |
525 | ||
526 | // Peak amplitude in nanoAmpere | |
527 | amplitude = fScaleSize*160.*depEnergy/ | |
528 | (timeStep*eVpairs*2.*acos(-1.)); | |
529 | chargeloss = 1.-cHloss*driftPath/1000.; | |
530 | amplitude *= chargeloss; | |
531 | width = 2.*nsigma/(nlookups-1); | |
532 | // Spread the charge | |
533 | nsplitAn = 4; | |
534 | nsplitTb=4; | |
535 | aStep = anodePitch/(nsplitAn*sigA); | |
536 | aConst = zAnode*anodePitch/sigA; | |
537 | tStep = timeStep/(nsplitTb*fScaleSize*sigT); | |
538 | tConst = drTime/sigT; | |
539 | // Define SDD window corresponding to the hit | |
540 | anodeWindow = (Int_t)(nsigma*sigA/anodePitch+1); | |
541 | timeWindow = (Int_t) (fScaleSize*nsigma*sigT/timeStep+1.); | |
542 | jamin = (iAnode - anodeWindow - 2)*nsplitAn+1; | |
543 | if(jamin <= 0) jamin = 1; | |
544 | if(jamin > nofAnodes*nsplitAn){ | |
545 | AliDebug(1,Form("Energy deposition completely outside anode acceptance: anode min=%d",jamin)); | |
546 | continue; | |
547 | } | |
548 | jamax = (iAnode + anodeWindow + 2)*nsplitAn; | |
549 | if(jamax > nofAnodes*nsplitAn) jamax = nofAnodes*nsplitAn; | |
550 | if(jamax <=0){ | |
551 | AliDebug(1,Form("Energy deposition completely outside anode acceptance: anode max=%d",jamax)); | |
552 | continue; | |
553 | } | |
554 | jtmin = (Int_t)(timeSample-timeWindow-2)*nsplitTb+1; | |
555 | if(jtmin <= 0) jtmin = 1; | |
556 | if(jtmin > fScaleSize*fMaxNofSamples*nsplitTb){ | |
557 | AliDebug(1,Form("Energy deposition completely outside time acceptance: time sample min=%d tof=%f",jtmin,tof)); | |
558 | continue; | |
559 | } | |
560 | jtmax = (Int_t)(timeSample+timeWindow+2)*nsplitTb; | |
561 | if(jtmax > fScaleSize*fMaxNofSamples*nsplitTb) jtmax = fScaleSize*fMaxNofSamples*nsplitTb; | |
562 | if(jtmax <= 0){ | |
563 | AliDebug(1,Form("Energy deposition completely outside time acceptance: time sample max=%d tof=%f",jtmax,tof)); | |
564 | continue; | |
565 | } | |
566 | ||
567 | // Spread the charge in the anode-time window | |
568 | for(ka=jamin; ka <=jamax; ka++) { | |
569 | ia = (ka-1)/nsplitAn + 1; | |
570 | if(ia <= 0) ia=1; | |
571 | if(ia > nofAnodes) ia = nofAnodes; | |
572 | aExpo = (aStep*(ka-0.5)-aConst); | |
573 | if(TMath::Abs(aExpo) > nsigma) anodeAmplitude = 0.; | |
574 | else { | |
575 | Int_t theBin = (Int_t) ((aExpo+nsigma)/width+0.5); | |
576 | anodeAmplitude = amplitude*simpar->GetGausLookUp(theBin); | |
577 | } | |
578 | // index starts from 0 | |
579 | index = iWing*nofAnodes+ia-1; | |
580 | if(anodeAmplitude){ | |
581 | for(kt=jtmin; kt<=jtmax; kt++) { | |
582 | it = (kt-1)/nsplitTb+1; // it starts from 1 | |
583 | if(it<=0) it=1; | |
584 | if(it>fScaleSize*fMaxNofSamples) | |
585 | it = fScaleSize*fMaxNofSamples; | |
586 | tExpo = (tStep*(kt-0.5)-tConst); | |
587 | if(TMath::Abs(tExpo) > nsigma) timeAmplitude = 0.; | |
588 | else { | |
589 | Int_t theBin = (Int_t) ((tExpo+nsigma)/width+0.5); | |
590 | timeAmplitude = anodeAmplitude*simpar->GetGausLookUp(theBin)*aStep*tStep; | |
591 | } | |
592 | timeAmplitude *= nanoampToADC; | |
593 | // ListOfFiredCells(arg,timeAmplitude,alst,padr); | |
594 | Double_t charge = timeAmplitude; | |
595 | charge += fHitMap2->GetSignal(index,it-1); | |
596 | fHitMap2->SetHit(index, it-1, charge); | |
597 | fpList->AddSignal(index,it-1,itrack,ii-1, | |
598 | mod->GetIndex(),timeAmplitude); | |
599 | fAnodeFire[index] = kTRUE; | |
600 | } // end loop over time in window | |
601 | } // end if anodeAmplitude | |
602 | } // loop over anodes in window | |
603 | } // end loop over "sub-hits" | |
604 | } // end loop over hits | |
605 | } | |
606 | ||
607 | //____________________________________________ | |
608 | void AliITSsimulationSDD::AddDigit( Int_t i, Int_t j, Int_t signalc, Int_t signale) { | |
609 | // Adds a Digit. | |
610 | Int_t size = AliITSdigit::GetNTracks(); | |
611 | ||
612 | Int_t digits[3]; | |
613 | Int_t * tracks = new Int_t[size]; | |
614 | Int_t * hits = new Int_t[size]; | |
615 | Float_t phys; | |
616 | Float_t * charges = new Float_t[size]; | |
617 | ||
618 | digits[0] = i; | |
619 | digits[1] = j; | |
620 | digits[2] = signalc; | |
621 | ||
622 | AliITSpListItem *pItem = fpList->GetpListItem( i, j ); | |
623 | if( pItem == 0 ) { | |
624 | phys = 0.0; | |
625 | for( Int_t l=0; l<size; l++ ) { | |
626 | tracks[l] = 0; | |
627 | hits[l] = 0; | |
628 | charges[l] = 0.0; | |
629 | } | |
630 | } else { | |
631 | Int_t idtrack = pItem->GetTrack( 0 ); | |
632 | if( idtrack >= 0 ) phys = pItem->GetSignal(); | |
633 | else phys = 0.0; | |
634 | ||
635 | for( Int_t l=0; l<size; l++ ) if(l<pItem->GetMaxKept()) { | |
636 | tracks[l] = pItem->GetTrack( l ); | |
637 | hits[l] = pItem->GetHit( l ); | |
638 | charges[l] = pItem->GetSignal( l ); | |
639 | }else{ | |
640 | tracks[l] = -3; | |
641 | hits[l] = -1; | |
642 | charges[l] = 0.0; | |
643 | }// end for if | |
644 | } | |
645 | ||
646 | fITS->AddSimDigit( 1, phys, digits, tracks, hits, charges, signale ); | |
647 | delete [] tracks; | |
648 | delete [] hits; | |
649 | delete [] charges; | |
650 | } | |
651 | //______________________________________________________________________ | |
652 | void AliITSsimulationSDD::ChargeToSignal(Int_t mod,Bool_t bAddNoise, Bool_t bAddGain) { | |
653 | // add baseline, noise, gain, electronics and ADC saturation effects | |
654 | // apply dead channels | |
655 | ||
656 | AliITSCalibrationSDD* res = (AliITSCalibrationSDD*)GetCalibrationModel(mod); | |
657 | Double_t baseline=0; | |
658 | Double_t noise=0; | |
659 | Double_t gain=0; | |
660 | Float_t contrib=0; | |
661 | Int_t i,k,kk; | |
662 | AliITSSimuParam* simpar = fDetType->GetSimuParam(); | |
663 | Float_t maxadc = simpar->GetSDDMaxAdc(); | |
664 | Int_t nGroup=fScaleSize; | |
665 | if(res->IsAMAt20MHz()){ | |
666 | nGroup=fScaleSize/2; | |
667 | } | |
668 | ||
669 | for (i=0;i<fNofMaps;i++) { | |
670 | if( !fAnodeFire[i] ) continue; | |
671 | baseline = res->GetBaseline(i); | |
672 | noise = res->GetNoise(i); | |
673 | gain = res->GetChannelGain(i); | |
674 | if(res->IsBad()) gain=0.; | |
675 | if( res->IsChipBad(res->GetChip(i)) )gain=0.; | |
676 | for(k=0; k<fScaleSize*fMaxNofSamples; k++) { | |
677 | fInZR[k] = fHitMap2->GetSignal(i,k); | |
678 | if(bAddGain) fInZR[k]*=gain; | |
679 | if( bAddNoise ) { | |
680 | contrib = (baseline + noise*gRandom->Gaus()); | |
681 | fInZR[k] += contrib; | |
682 | } | |
683 | fInZI[k] = 0.; | |
684 | } // end for k | |
685 | if(!fDoFFT) { | |
686 | for(k=0; k<fMaxNofSamples; k++) { | |
687 | Double_t newcont = 0.; | |
688 | Double_t maxcont = 0.; | |
689 | for(kk=0;kk<fScaleSize;kk++) { | |
690 | newcont = fInZR[fScaleSize*k+kk]; | |
691 | if(newcont > maxcont) maxcont = newcont; | |
692 | } // end for kk | |
693 | newcont = maxcont; | |
694 | if (newcont >= maxadc) newcont = maxadc -1; | |
695 | if(newcont >= baseline){ | |
696 | Warning("","newcont=%d>=baseline=%d",newcont,baseline); | |
697 | } // end if | |
698 | // back to analog: ? | |
699 | fHitMap2->SetHit(i,k,newcont); | |
700 | } // end for k | |
701 | }else{ | |
702 | FastFourierTransform(&fInZR[0],&fInZI[0],1); | |
703 | for(k=0; k<fScaleSize*fMaxNofSamples; k++) { | |
704 | Double_t rw = fElectronics->GetTraFunReal(k); | |
705 | Double_t iw = fElectronics->GetTraFunImag(k); | |
706 | fOutZR[k] = fInZR[k]*rw - fInZI[k]*iw; | |
707 | fOutZI[k] = fInZR[k]*iw + fInZI[k]*rw; | |
708 | } // end for k | |
709 | FastFourierTransform(&fOutZR[0],&fOutZI[0],-1); | |
710 | for(k=0; k<fMaxNofSamples; k++) { | |
711 | Double_t newcont1 = 0.; | |
712 | Double_t maxcont1 = 0.; | |
713 | for(kk=0;kk<nGroup;kk++) { | |
714 | newcont1 = fOutZR[fScaleSize*k+kk]; | |
715 | if(newcont1 > maxcont1) maxcont1 = newcont1; | |
716 | } // end for kk | |
717 | newcont1 = maxcont1; | |
718 | if (newcont1 >= maxadc) newcont1 = maxadc -1; | |
719 | fHitMap2->SetHit(i,k,newcont1); | |
720 | } // end for k | |
721 | } | |
722 | } // end for i loop over anodes | |
723 | return; | |
724 | } | |
725 | ||
726 | //______________________________________________________________________ | |
727 | void AliITSsimulationSDD::ApplyCrosstalk(Int_t mod) { | |
728 | // function add the crosstalk effect to signal | |
729 | // temporal function, should be checked...!!! | |
730 | ||
731 | // create and inizialice crosstalk map | |
732 | Float_t* ctk = new Float_t[fNofMaps*fMaxNofSamples+1]; | |
733 | if( ctk == NULL ) { | |
734 | Error( "ApplyCrosstalk", "no memory for temporal map: exit " ); | |
735 | return; | |
736 | } | |
737 | memset( ctk, 0, sizeof(Float_t)*(fNofMaps*fMaxNofSamples+1) ); | |
738 | AliITSCalibrationSDD* calibr = (AliITSCalibrationSDD*)GetCalibrationModel(mod); | |
739 | for( Int_t z=0; z<fNofMaps; z++ ) { | |
740 | Double_t baseline = calibr->GetBaseline(z); | |
741 | Bool_t on = kFALSE; | |
742 | Int_t tstart = 0; | |
743 | Int_t tstop = 0; | |
744 | Int_t nTsteps = 0; | |
745 | ||
746 | for( Int_t l=0; l<fMaxNofSamples; l++ ) { | |
747 | Float_t fadc = (Float_t)fHitMap2->GetSignal( z, l ); | |
748 | if( fadc > baseline ) { | |
749 | if( on == kFALSE && l<fMaxNofSamples-4 ) { | |
750 | Float_t fadc1 = (Float_t)fHitMap2->GetSignal( z, l+1 ); | |
751 | if( fadc1 < fadc ) continue; | |
752 | on = kTRUE; | |
753 | nTsteps = 0; | |
754 | tstart = l; | |
755 | } | |
756 | nTsteps++; | |
757 | } | |
758 | else { // end fadc > baseline | |
759 | if( on == kTRUE ) { | |
760 | if( nTsteps > 2 ) { | |
761 | tstop = l; | |
762 | // make smooth derivative | |
763 | Float_t* dev = new Float_t[fMaxNofSamples+1]; | |
764 | memset( dev, 0, sizeof(Float_t)*(fMaxNofSamples+1) ); | |
765 | if( ctk == NULL ) { | |
766 | Error( "ApplyCrosstalk", | |
767 | "no memory for temporal array: exit " ); | |
768 | return; | |
769 | } | |
770 | for( Int_t i=tstart; i<tstop; i++ ) { | |
771 | if( i > 2 && i < fMaxNofSamples-2 ) | |
772 | dev[i] = -0.2*fHitMap2->GetSignal( z,i-2 ) | |
773 | -0.1*fHitMap2->GetSignal( z,i-1 ) | |
774 | +0.1*fHitMap2->GetSignal( z,i+1 ) | |
775 | +0.2*fHitMap2->GetSignal( z,i+2 ); | |
776 | } | |
777 | ||
778 | // add crosstalk contribution to neibourg anodes | |
779 | for( Int_t i=tstart; i<tstop; i++ ) { | |
780 | Int_t anode = z - 1; | |
781 | Int_t i1 = (Int_t)((i-tstart)*.61+tstart+0.5); // | |
782 | Float_t ctktmp = -dev[i1] * 0.25; | |
783 | if( anode > 0 ) { | |
784 | ctk[anode*fMaxNofSamples+i] += ctktmp; | |
785 | } | |
786 | anode = z + 1; | |
787 | if( anode < fNofMaps ) { | |
788 | ctk[anode*fMaxNofSamples+i] += ctktmp; | |
789 | } | |
790 | } | |
791 | delete [] dev; | |
792 | ||
793 | } // if( nTsteps > 2 ) | |
794 | on = kFALSE; | |
795 | } // if( on == kTRUE ) | |
796 | } // else | |
797 | } | |
798 | } | |
799 | ||
800 | for( Int_t a=0; a<fNofMaps; a++ ) | |
801 | for( Int_t t=0; t<fMaxNofSamples; t++ ) { | |
802 | Float_t signal = fHitMap2->GetSignal(a,t)+ctk[a*fMaxNofSamples+t]; | |
803 | fHitMap2->SetHit( a, t, signal ); | |
804 | } | |
805 | ||
806 | delete [] ctk; | |
807 | } | |
808 | ||
809 | //______________________________________________________________________ | |
810 | Int_t AliITSsimulationSDD::Convert10to8(Int_t signal) const { | |
811 | // To the 10 to 8 bit lossive compression. | |
812 | // code from Davide C. and Albert W. | |
813 | ||
814 | if (signal < 128) return signal; | |
815 | if (signal < 256) return (128+((signal-128)>>1)); | |
816 | if (signal < 512) return (192+((signal-256)>>3)); | |
817 | if (signal < 1024) return (224+((signal-512)>>4)); | |
818 | return 0; | |
819 | } | |
820 | //______________________________________________________________________ | |
821 | Int_t AliITSsimulationSDD::Convert8to10(Int_t signal) const { | |
822 | // Decompression from 8 to 10 bit | |
823 | ||
824 | if (signal < 0 || signal > 255) { | |
825 | AliWarning(Form("Signal value %d out of range",signal)); | |
826 | return 0; | |
827 | } // end if signal <0 || signal >255 | |
828 | ||
829 | if (signal < 128) return signal; | |
830 | if (signal < 192) { | |
831 | if (TMath::Odd(signal)) return (128+((signal-128)<<1)); | |
832 | else return (128+((signal-128)<<1)+1); | |
833 | } // end if signal < 192 | |
834 | if (signal < 224) { | |
835 | if (TMath::Odd(signal)) return (256+((signal-192)<<3)+3); | |
836 | else return (256+((signal-192)<<3)+4); | |
837 | } // end if signal < 224 | |
838 | if (TMath::Odd(signal)) return (512+((signal-224)<<4)+7); | |
839 | return (512+((signal-224)<<4)+8); | |
840 | } | |
841 | //______________________________________________________________________ | |
842 | void AliITSsimulationSDD::Compress2D(){ | |
843 | // 2D zero-suppression algorithm as described in ALICE-INT-1999-28 V10 | |
844 | AliITSCalibrationSDD* res = (AliITSCalibrationSDD*)GetCalibrationModel(fModule); | |
845 | for (Int_t iWing=0; iWing<2; iWing++) { | |
846 | Int_t tL=res->GetZSLowThreshold(iWing); | |
847 | Int_t tH=res->GetZSHighThreshold(iWing); | |
848 | for (Int_t i=0; i<fNofMaps/2; i++) { | |
849 | Int_t ian=i+iWing*fNofMaps/2; | |
850 | if( !fAnodeFire[ian] ) continue; | |
851 | for (Int_t itb=0; itb<fMaxNofSamples; itb++) { | |
852 | Int_t nLow=0, nHigh=0; | |
853 | Float_t cC=fHitMap2->GetSignal(ian,itb); | |
854 | if(cC<=tL) continue; | |
855 | nLow++; // cC is greater than tL | |
856 | if(cC>tH) nHigh++; | |
857 | // N | |
858 | // Get "quintuple": WCE | |
859 | // S | |
860 | Float_t wW=0.; | |
861 | if(itb>0) wW=fHitMap2->GetSignal(ian,itb-1); | |
862 | if(wW>tL) nLow++; | |
863 | if(wW>tH) nHigh++; | |
864 | Float_t eE=0.; | |
865 | if(itb<fMaxNofSamples-1) eE=fHitMap2->GetSignal(ian,itb+1); | |
866 | if(eE>tL) nLow++; | |
867 | if(eE>tH) nHigh++; | |
868 | Float_t nN=0.; | |
869 | if(i<(fNofMaps/2-1)) nN=fHitMap2->GetSignal(ian+1,itb); | |
870 | if(nN>tL) nLow++; | |
871 | if(nN>tH) nHigh++; | |
872 | Float_t sS=0.; | |
873 | if(i>0) sS=fHitMap2->GetSignal(ian-1,itb); | |
874 | if(sS>tL) nLow++; | |
875 | if(sS>tH) nHigh++; | |
876 | ||
877 | if(nLow>=3 && nHigh>=1){ | |
878 | Int_t signal=(Int_t)cC; | |
879 | Int_t signalc = Convert10to8(signal); | |
880 | Int_t signale = Convert8to10(signalc); | |
881 | signalc-=tL; // subtract low threshold after 10 to 8 bit compression | |
882 | if(signalc>=4) AddDigit(ian,itb,signalc,signale); // store C | |
883 | } | |
884 | } | |
885 | } | |
886 | } | |
887 | } | |
888 | ||
889 | ||
890 | //______________________________________________________________________ | |
891 | void AliITSsimulationSDD::StoreAllDigits(){ | |
892 | // store digits for non-zero-suppressed data | |
893 | for (Int_t ian=0; ian<fNofMaps; ian++) { | |
894 | for (Int_t itb=0; itb<fMaxNofSamples; itb++){ | |
895 | Int_t signal=(Int_t)(fHitMap2->GetSignal(ian,itb)); | |
896 | Int_t signalc = Convert10to8(signal); | |
897 | Int_t signale = Convert8to10(signalc); | |
898 | AddDigit(ian,itb,signalc,signale); | |
899 | } | |
900 | } | |
901 | } | |
902 | //______________________________________________________________________ | |
903 | void AliITSsimulationSDD::CreateHistograms(Int_t scale){ | |
904 | // Creates histograms of maps for debugging | |
905 | Int_t i; | |
906 | ||
907 | fHis=new TObjArray(fNofMaps); | |
908 | for (i=0;i<fNofMaps;i++) { | |
909 | TString sddName("sdd_"); | |
910 | Char_t candNum[4]; | |
911 | sprintf(candNum,"%d",i+1); | |
912 | sddName.Append(candNum); | |
913 | fHis->AddAt(new TH1F(sddName.Data(),"SDD maps",scale*fMaxNofSamples, | |
914 | 0.,(Float_t) scale*fMaxNofSamples), i); | |
915 | } // end for i | |
916 | } | |
917 | //______________________________________________________________________ | |
918 | void AliITSsimulationSDD::FillHistograms(){ | |
919 | // fill 1D histograms from map | |
920 | ||
921 | if (!fHis) return; | |
922 | ||
923 | for( Int_t i=0; i<fNofMaps; i++) { | |
924 | TH1F *hist =(TH1F *)fHis->UncheckedAt(i); | |
925 | Int_t nsamples = hist->GetNbinsX(); | |
926 | for( Int_t j=0; j<nsamples; j++) { | |
927 | Double_t signal=fHitMap2->GetSignal(i,j); | |
928 | hist->Fill((Float_t)j,signal); | |
929 | } // end for j | |
930 | } // end for i | |
931 | } | |
932 | //______________________________________________________________________ | |
933 | void AliITSsimulationSDD::ResetHistograms(){ | |
934 | // Reset histograms for this detector | |
935 | Int_t i; | |
936 | ||
937 | for (i=0;i<fNofMaps;i++ ) { | |
938 | if (fHis->At(i)) ((TH1F*)fHis->At(i))->Reset(); | |
939 | } // end for i | |
940 | } | |
941 | //______________________________________________________________________ | |
942 | TH1F *AliITSsimulationSDD::GetAnode(Int_t wing, Int_t anode) { | |
943 | // Fills a histogram from a give anode. | |
944 | ||
945 | if (!fHis) return 0; | |
946 | ||
947 | if(wing <=0 || wing > 2) { | |
948 | Warning("GetAnode","Wrong wing number: %d",wing); | |
949 | return NULL; | |
950 | } // end if wing <=0 || wing >2 | |
951 | if(anode <=0 || anode > fNofMaps/2) { | |
952 | Warning("GetAnode","Wrong anode number: %d",anode); | |
953 | return NULL; | |
954 | } // end if ampde <=0 || andoe > fNofMaps/2 | |
955 | ||
956 | Int_t index = (wing-1)*fNofMaps/2 + anode-1; | |
957 | return (TH1F*)(fHis->At(index)); | |
958 | } | |
959 | //______________________________________________________________________ | |
960 | void AliITSsimulationSDD::WriteToFile(TFile *hfile) { | |
961 | // Writes the histograms to a file | |
962 | ||
963 | if (!fHis) return; | |
964 | ||
965 | hfile->cd(); | |
966 | Int_t i; | |
967 | for(i=0; i<fNofMaps; i++) fHis->At(i)->Write(); //fAdcs[i]->Write(); | |
968 | return; | |
969 | } | |
970 | //______________________________________________________________________ | |
971 | void AliITSsimulationSDD::WriteSDigits(){ | |
972 | // Fills the Summable digits Tree | |
973 | static AliITS *aliITS = (AliITS*)gAlice->GetModule("ITS"); | |
974 | ||
975 | for( Int_t i=0; i<fNofMaps; i++ ) { | |
976 | if( !fAnodeFire[i] ) continue; | |
977 | for( Int_t j=0; j<fMaxNofSamples; j++ ) { | |
978 | Double_t sig = fHitMap2->GetSignal( i, j ); | |
979 | if( sig > 0.2 ) { | |
980 | Int_t jdx = j*fScaleSize; | |
981 | Int_t index = fpList->GetHitIndex( i, j ); | |
982 | AliITSpListItem pItemTmp2( fModule, index, 0. ); | |
983 | // put the fScaleSize analog digits in only one | |
984 | for( Int_t ik=0; ik<fScaleSize; ik++ ) { | |
985 | AliITSpListItem *pItemTmp = fpList->GetpListItem(i,jdx+ik); | |
986 | if( pItemTmp == 0 ) continue; | |
987 | pItemTmp2.Add( pItemTmp ); | |
988 | } | |
989 | pItemTmp2.AddSignalAfterElect( fModule, index, sig ); | |
990 | pItemTmp2.AddNoise(fModule,index,fHitNoiMap2->GetSignal(i,j)); | |
991 | aliITS->AddSumDigit( pItemTmp2 ); | |
992 | } // end if (sig > 0.2) | |
993 | } | |
994 | } | |
995 | return; | |
996 | } | |
997 | //______________________________________________________________________ | |
998 | void AliITSsimulationSDD::PrintStatus() const { | |
999 | // Print SDD simulation Parameters | |
1000 | ||
1001 | cout << "**************************************************" << endl; | |
1002 | cout << " Silicon Drift Detector Simulation Parameters " << endl; | |
1003 | cout << "**************************************************" << endl; | |
1004 | cout << "Flag for Perpendicular tracks: " << (Int_t) fFlag << endl; | |
1005 | cout << "Flag to switch off electronics: " << (Int_t) fDoFFT << endl; | |
1006 | cout << "Number of Anodes used: " << fNofMaps << endl; | |
1007 | cout << "Number of Time Samples: " << fMaxNofSamples << endl; | |
1008 | cout << "Scale size factor: " << fScaleSize << endl; | |
1009 | cout << "**************************************************" << endl; | |
1010 | } |