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b0f5e3fc | 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 | **************************************************************************/ | |
48058160 | 15 | /* |
16 | $Id$ | |
17 | $Log$ | |
f8d9a5b8 | 18 | Revision 1.28 2002/10/22 14:45:29 alibrary |
19 | Introducing Riostream.h | |
20 | ||
4ae5bbc4 | 21 | Revision 1.27 2002/10/14 14:57:00 hristov |
22 | Merging the VirtualMC branch to the main development branch (HEAD) | |
23 | ||
b9d0a01d | 24 | Revision 1.23.4.2 2002/10/14 13:14:07 hristov |
25 | Updating VirtualMC to v3-09-02 | |
26 | ||
27 | Revision 1.26 2002/09/09 17:23:28 nilsen | |
28 | Minor changes in support of changes to AliITSdigitS?D class'. | |
29 | ||
ee86d557 | 30 | Revision 1.25 2002/05/10 22:29:40 nilsen |
31 | Change my Massimo Masera in the default constructor to bring things into | |
32 | compliance. | |
33 | ||
355ccb70 | 34 | Revision 1.24 2002/04/24 22:02:31 nilsen |
35 | New SDigits and Digits routines, and related changes, (including new | |
36 | noise values). | |
37 | ||
48058160 | 38 | */ |
39 | ||
4ae5bbc4 | 40 | #include <Riostream.h> |
78a228db | 41 | #include <TFile.h> |
a1f090e0 | 42 | #include <TMath.h> |
43 | #include <math.h> | |
b0f5e3fc | 44 | |
45 | #include "AliITSClusterFinderSDD.h" | |
e8189707 | 46 | #include "AliITSMapA1.h" |
47 | #include "AliITS.h" | |
78a228db | 48 | #include "AliITSdigit.h" |
49 | #include "AliITSRawCluster.h" | |
50 | #include "AliITSRecPoint.h" | |
51 | #include "AliITSsegmentation.h" | |
5dd4cc39 | 52 | #include "AliITSresponseSDD.h" |
b0f5e3fc | 53 | #include "AliRun.h" |
54 | ||
b0f5e3fc | 55 | ClassImp(AliITSClusterFinderSDD) |
56 | ||
42da2935 | 57 | //______________________________________________________________________ |
58 | AliITSClusterFinderSDD::AliITSClusterFinderSDD(AliITSsegmentation *seg, | |
50d05d7b | 59 | AliITSresponse *response, |
60 | TClonesArray *digits, | |
61 | TClonesArray *recp){ | |
42da2935 | 62 | // standard constructor |
78a228db | 63 | |
b48af428 | 64 | fSegmentation = seg; |
65 | fResponse = response; | |
66 | fDigits = digits; | |
67 | fClusters = recp; | |
68 | fNclusters = fClusters->GetEntriesFast(); | |
b0f5e3fc | 69 | SetCutAmplitude(); |
70 | SetDAnode(); | |
71 | SetDTime(); | |
355ccb70 | 72 | SetMinPeak((Int_t)(((AliITSresponseSDD*)fResponse)->GetNoiseAfterElectronics()*5)); |
73 | // SetMinPeak(); | |
78a228db | 74 | SetMinNCells(); |
75 | SetMaxNCells(); | |
76 | SetTimeCorr(); | |
a1f090e0 | 77 | SetMinCharge(); |
b48af428 | 78 | fMap = new AliITSMapA1(fSegmentation,fDigits,fCutAmplitude); |
b0f5e3fc | 79 | } |
42da2935 | 80 | //______________________________________________________________________ |
81 | AliITSClusterFinderSDD::AliITSClusterFinderSDD(){ | |
82 | // default constructor | |
b0f5e3fc | 83 | |
b48af428 | 84 | fSegmentation = 0; |
85 | fResponse = 0; | |
86 | fDigits = 0; | |
87 | fClusters = 0; | |
88 | fNclusters = 0; | |
89 | fMap = 0; | |
90 | fCutAmplitude = 0; | |
355ccb70 | 91 | fDAnode = 0; |
92 | fDTime = 0; | |
93 | fMinPeak = 0; | |
94 | fMinNCells = 0; | |
95 | fMaxNCells = 0; | |
96 | fTimeCorr = 0; | |
97 | fMinCharge = 0; | |
98 | /* | |
b0f5e3fc | 99 | SetDAnode(); |
100 | SetDTime(); | |
48058160 | 101 | SetMinPeak((Int_t)(((AliITSresponseSDD*)fResponse)->GetNoiseAfterElectronics()*5)); |
78a228db | 102 | SetMinNCells(); |
103 | SetMaxNCells(); | |
104 | SetTimeCorr(); | |
a1f090e0 | 105 | SetMinCharge(); |
355ccb70 | 106 | */ |
b0f5e3fc | 107 | } |
42da2935 | 108 | //____________________________________________________________________________ |
109 | AliITSClusterFinderSDD::~AliITSClusterFinderSDD(){ | |
e8189707 | 110 | // destructor |
111 | ||
112 | if(fMap) delete fMap; | |
e8189707 | 113 | } |
42da2935 | 114 | //______________________________________________________________________ |
115 | void AliITSClusterFinderSDD::SetCutAmplitude(Float_t nsigma){ | |
116 | // set the signal threshold for cluster finder | |
117 | Float_t baseline,noise,noise_after_el; | |
118 | ||
119 | fResponse->GetNoiseParam(noise,baseline); | |
120 | noise_after_el = ((AliITSresponseSDD*)fResponse)->GetNoiseAfterElectronics(); | |
b48af428 | 121 | fCutAmplitude = (Int_t)((baseline + nsigma*noise_after_el)); |
5dd4cc39 | 122 | } |
42da2935 | 123 | //______________________________________________________________________ |
124 | void AliITSClusterFinderSDD::Find1DClusters(){ | |
125 | // find 1D clusters | |
b48af428 | 126 | static AliITS *iTS = (AliITS*)gAlice->GetModule("ITS"); |
a1f090e0 | 127 | |
42da2935 | 128 | // retrieve the parameters |
b48af428 | 129 | Int_t fNofMaps = fSegmentation->Npz(); |
42da2935 | 130 | Int_t fMaxNofSamples = fSegmentation->Npx(); |
b48af428 | 131 | Int_t fNofAnodes = fNofMaps/2; |
132 | Int_t dummy = 0; | |
133 | Float_t fTimeStep = fSegmentation->Dpx(dummy); | |
134 | Float_t fSddLength = fSegmentation->Dx(); | |
135 | Float_t fDriftSpeed = fResponse->DriftSpeed(); | |
136 | Float_t anodePitch = fSegmentation->Dpz(dummy); | |
42da2935 | 137 | |
138 | // map the signal | |
50d05d7b | 139 | fMap->ClearMap(); |
42da2935 | 140 | fMap->SetThreshold(fCutAmplitude); |
141 | fMap->FillMap(); | |
a1f090e0 | 142 | |
42da2935 | 143 | Float_t noise; |
144 | Float_t baseline; | |
145 | fResponse->GetNoiseParam(noise,baseline); | |
a1f090e0 | 146 | |
42da2935 | 147 | Int_t nofFoundClusters = 0; |
148 | Int_t i; | |
149 | Float_t **dfadc = new Float_t*[fNofAnodes]; | |
150 | for(i=0;i<fNofAnodes;i++) dfadc[i] = new Float_t[fMaxNofSamples]; | |
b48af428 | 151 | Float_t fadc = 0.; |
42da2935 | 152 | Float_t fadc1 = 0.; |
153 | Float_t fadc2 = 0.; | |
154 | Int_t j,k,idx,l,m; | |
155 | for(j=0;j<2;j++) { | |
50d05d7b | 156 | for(k=0;k<fNofAnodes;k++) { |
157 | idx = j*fNofAnodes+k; | |
158 | // signal (fadc) & derivative (dfadc) | |
159 | dfadc[k][255]=0.; | |
160 | for(l=0; l<fMaxNofSamples; l++) { | |
161 | fadc2=(Float_t)fMap->GetSignal(idx,l); | |
162 | if(l>0) fadc1=(Float_t)fMap->GetSignal(idx,l-1); | |
163 | if(l>0) dfadc[k][l-1] = fadc2-fadc1; | |
164 | } // samples | |
165 | } // anodes | |
42da2935 | 166 | |
50d05d7b | 167 | for(k=0;k<fNofAnodes;k++) { |
168 | //cout << "Anode: " << k+1 << ", Wing: " << j+1 << endl; | |
169 | idx = j*fNofAnodes+k; | |
170 | Int_t imax = 0; | |
171 | Int_t imaxd = 0; | |
172 | Int_t it = 0; | |
173 | while(it <= fMaxNofSamples-3) { | |
174 | imax = it; | |
175 | imaxd = it; | |
176 | // maximum of signal | |
177 | Float_t fadcmax = 0.; | |
178 | Float_t dfadcmax = 0.; | |
179 | Int_t lthrmina = 1; | |
180 | Int_t lthrmint = 3; | |
181 | Int_t lthra = 1; | |
182 | Int_t lthrt = 0; | |
183 | for(m=0;m<20;m++) { | |
184 | Int_t id = it+m; | |
185 | if(id>=fMaxNofSamples) break; | |
186 | fadc=(float)fMap->GetSignal(idx,id); | |
187 | if(fadc > fadcmax) { fadcmax = fadc; imax = id;} | |
188 | if(fadc > (float)fCutAmplitude) { | |
189 | lthrt++; | |
190 | } // end if | |
191 | if(dfadc[k][id] > dfadcmax) { | |
192 | dfadcmax = dfadc[k][id]; | |
193 | imaxd = id; | |
194 | } // end if | |
195 | } // end for m | |
196 | it = imaxd; | |
197 | if(fMap->TestHit(idx,imax) == kEmpty) {it++; continue;} | |
198 | // cluster charge | |
199 | Int_t tstart = it-2; | |
200 | if(tstart < 0) tstart = 0; | |
201 | Bool_t ilcl = 0; | |
202 | if(lthrt >= lthrmint && lthra >= lthrmina) ilcl = 1; | |
203 | if(ilcl) { | |
204 | nofFoundClusters++; | |
205 | Int_t tstop = tstart; | |
206 | Float_t dfadcmin = 10000.; | |
207 | Int_t ij; | |
208 | for(ij=0; ij<20; ij++) { | |
209 | if(tstart+ij > 255) { tstop = 255; break; } | |
210 | fadc=(float)fMap->GetSignal(idx,tstart+ij); | |
211 | if((dfadc[k][tstart+ij] < dfadcmin) && | |
212 | (fadc > fCutAmplitude)) { | |
213 | tstop = tstart+ij+5; | |
214 | if(tstop > 255) tstop = 255; | |
215 | dfadcmin = dfadc[k][it+ij]; | |
216 | } // end if | |
217 | } // end for ij | |
42da2935 | 218 | |
50d05d7b | 219 | Float_t clusterCharge = 0.; |
220 | Float_t clusterAnode = k+0.5; | |
221 | Float_t clusterTime = 0.; | |
222 | Int_t clusterMult = 0; | |
223 | Float_t clusterPeakAmplitude = 0.; | |
224 | Int_t its,peakpos = -1; | |
225 | Float_t n, baseline; | |
226 | fResponse->GetNoiseParam(n,baseline); | |
227 | for(its=tstart; its<=tstop; its++) { | |
228 | fadc=(float)fMap->GetSignal(idx,its); | |
229 | if(fadc>baseline) fadc -= baseline; | |
230 | else fadc = 0.; | |
231 | clusterCharge += fadc; | |
232 | // as a matter of fact we should take the peak | |
233 | // pos before FFT | |
234 | // to get the list of tracks !!! | |
235 | if(fadc > clusterPeakAmplitude) { | |
236 | clusterPeakAmplitude = fadc; | |
237 | //peakpos=fMap->GetHitIndex(idx,its); | |
238 | Int_t shift = (int)(fTimeCorr/fTimeStep); | |
239 | if(its>shift && its<(fMaxNofSamples-shift)) | |
240 | peakpos = fMap->GetHitIndex(idx,its+shift); | |
241 | else peakpos = fMap->GetHitIndex(idx,its); | |
242 | if(peakpos<0) peakpos =fMap->GetHitIndex(idx,its); | |
243 | } // end if | |
244 | clusterTime += fadc*its; | |
245 | if(fadc > 0) clusterMult++; | |
246 | if(its == tstop) { | |
247 | clusterTime /= (clusterCharge/fTimeStep); // ns | |
248 | if(clusterTime>fTimeCorr) clusterTime -=fTimeCorr; | |
249 | //ns | |
250 | } // end if | |
251 | } // end for its | |
42da2935 | 252 | |
50d05d7b | 253 | Float_t clusteranodePath = (clusterAnode - fNofAnodes/2)* |
254 | anodePitch; | |
255 | Float_t clusterDriftPath = clusterTime*fDriftSpeed; | |
256 | clusterDriftPath = fSddLength-clusterDriftPath; | |
257 | if(clusterCharge <= 0.) break; | |
258 | AliITSRawClusterSDD clust(j+1,//i | |
259 | clusterAnode,clusterTime,//ff | |
260 | clusterCharge, //f | |
261 | clusterPeakAmplitude, //f | |
262 | peakpos, //i | |
263 | 0.,0.,clusterDriftPath,//fff | |
264 | clusteranodePath, //f | |
265 | clusterMult, //i | |
266 | 0,0,0,0,0,0,0);//7*i | |
267 | iTS->AddCluster(1,&clust); | |
268 | it = tstop; | |
269 | } // ilcl | |
270 | it++; | |
271 | } // while (samples) | |
272 | } // anodes | |
42da2935 | 273 | } // detectors (2) |
42da2935 | 274 | |
275 | for(i=0;i<fNofAnodes;i++) delete[] dfadc[i]; | |
276 | delete [] dfadc; | |
a1f090e0 | 277 | |
42da2935 | 278 | return; |
a1f090e0 | 279 | } |
50d05d7b | 280 | |
281 | ||
282 | ||
42da2935 | 283 | //______________________________________________________________________ |
284 | void AliITSClusterFinderSDD::Find1DClustersE(){ | |
24a1c341 | 285 | // find 1D clusters |
42da2935 | 286 | static AliITS *iTS=(AliITS*)gAlice->GetModule("ITS"); |
287 | // retrieve the parameters | |
288 | Int_t fNofMaps = fSegmentation->Npz(); | |
289 | Int_t fMaxNofSamples = fSegmentation->Npx(); | |
290 | Int_t fNofAnodes = fNofMaps/2; | |
291 | Int_t dummy=0; | |
292 | Float_t fTimeStep = fSegmentation->Dpx( dummy ); | |
293 | Float_t fSddLength = fSegmentation->Dx(); | |
294 | Float_t fDriftSpeed = fResponse->DriftSpeed(); | |
295 | Float_t anodePitch = fSegmentation->Dpz( dummy ); | |
296 | Float_t n, baseline; | |
297 | fResponse->GetNoiseParam( n, baseline ); | |
298 | // map the signal | |
50d05d7b | 299 | fMap->ClearMap(); |
42da2935 | 300 | fMap->SetThreshold( fCutAmplitude ); |
301 | fMap->FillMap(); | |
50d05d7b | 302 | |
42da2935 | 303 | Int_t nClu = 0; |
50d05d7b | 304 | // cout << "Search cluster... "<< endl; |
42da2935 | 305 | for( Int_t j=0; j<2; j++ ){ |
50d05d7b | 306 | for( Int_t k=0; k<fNofAnodes; k++ ){ |
307 | Int_t idx = j*fNofAnodes+k; | |
308 | Bool_t on = kFALSE; | |
309 | Int_t start = 0; | |
310 | Int_t nTsteps = 0; | |
311 | Float_t fmax = 0.; | |
312 | Int_t lmax = 0; | |
313 | Float_t charge = 0.; | |
314 | Float_t time = 0.; | |
315 | Float_t anode = k+0.5; | |
316 | Int_t peakpos = -1; | |
317 | for( Int_t l=0; l<fMaxNofSamples; l++ ){ | |
318 | Float_t fadc = (Float_t)fMap->GetSignal( idx, l ); | |
319 | if( fadc > 0.0 ){ | |
320 | if( on == kFALSE && l<fMaxNofSamples-4){ | |
321 | // star RawCluster (reset var.) | |
322 | Float_t fadc1 = (Float_t)fMap->GetSignal( idx, l+1 ); | |
323 | if( fadc1 < fadc ) continue; | |
324 | start = l; | |
325 | fmax = 0.; | |
326 | lmax = 0; | |
327 | time = 0.; | |
328 | charge = 0.; | |
329 | on = kTRUE; | |
330 | nTsteps = 0; | |
331 | } // end if on... | |
332 | nTsteps++ ; | |
333 | if( fadc > baseline ) fadc -= baseline; | |
334 | else fadc=0.; | |
335 | charge += fadc; | |
336 | time += fadc*l; | |
337 | if( fadc > fmax ){ | |
338 | fmax = fadc; | |
339 | lmax = l; | |
340 | Int_t shift = (Int_t)(fTimeCorr/fTimeStep + 0.5); | |
341 | if( l > shift && l < (fMaxNofSamples-shift) ) | |
342 | peakpos = fMap->GetHitIndex( idx, l+shift ); | |
343 | else | |
344 | peakpos = fMap->GetHitIndex( idx, l ); | |
345 | if( peakpos < 0) peakpos = fMap->GetHitIndex( idx, l ); | |
346 | } // end if fadc | |
347 | }else{ // end fadc>0 | |
348 | if( on == kTRUE ){ | |
349 | if( nTsteps > 2 ){ | |
350 | // min # of timesteps for a RawCluster | |
351 | // Found a RawCluster... | |
352 | Int_t stop = l-1; | |
353 | time /= (charge/fTimeStep); // ns | |
354 | // time = lmax*fTimeStep; // ns | |
355 | if( time > fTimeCorr ) time -= fTimeCorr; // ns | |
356 | Float_t anodePath = (anode - fNofAnodes/2)*anodePitch; | |
357 | Float_t driftPath = time*fDriftSpeed; | |
358 | driftPath = fSddLength-driftPath; | |
359 | AliITSRawClusterSDD clust(j+1,anode,time,charge, | |
360 | fmax, peakpos,0.,0., | |
361 | driftPath,anodePath, | |
362 | nTsteps,start,stop, | |
363 | start, stop, 1, k, k ); | |
364 | iTS->AddCluster( 1, &clust ); | |
365 | // clust.PrintInfo(); | |
366 | nClu++; | |
367 | } // end if nTsteps | |
368 | on = kFALSE; | |
369 | } // end if on==kTRUE | |
370 | } // end if fadc>0 | |
371 | } // samples | |
372 | } // anodes | |
42da2935 | 373 | } // wings |
50d05d7b | 374 | // cout << "# Rawclusters " << nClu << endl; |
42da2935 | 375 | return; |
a1f090e0 | 376 | } |
42da2935 | 377 | //_______________________________________________________________________ |
378 | Int_t AliITSClusterFinderSDD::SearchPeak(Float_t *spect,Int_t xdim,Int_t zdim, | |
50d05d7b | 379 | Int_t *peakX, Int_t *peakZ, |
380 | Float_t *peakAmp, Float_t minpeak ){ | |
42da2935 | 381 | // search peaks on a 2D cluster |
382 | Int_t npeak = 0; // # peaks | |
56fff130 | 383 | Int_t i,j; |
42da2935 | 384 | // search peaks |
385 | for( Int_t z=1; z<zdim-1; z++ ){ | |
48058160 | 386 | for( Int_t x=1; x<xdim-2; x++ ){ |
50d05d7b | 387 | Float_t sxz = spect[x*zdim+z]; |
388 | Float_t sxz1 = spect[(x+1)*zdim+z]; | |
389 | Float_t sxz2 = spect[(x-1)*zdim+z]; | |
390 | // search a local max. in s[x,z] | |
391 | if( sxz < minpeak || sxz1 <= 0 || sxz2 <= 0 ) continue; | |
392 | if( sxz >= spect[(x+1)*zdim+z ] && sxz >= spect[(x-1)*zdim+z ] && | |
393 | sxz >= spect[x*zdim +z+1] && sxz >= spect[x*zdim +z-1] && | |
394 | sxz >= spect[(x+1)*zdim+z+1] && sxz >= spect[(x+1)*zdim+z-1] && | |
395 | sxz >= spect[(x-1)*zdim+z+1] && sxz >= spect[(x-1)*zdim+z-1] ){ | |
396 | // peak found | |
397 | peakX[npeak] = x; | |
398 | peakZ[npeak] = z; | |
399 | peakAmp[npeak] = sxz; | |
400 | npeak++; | |
401 | } // end if .... | |
402 | } // end for x | |
42da2935 | 403 | } // end for z |
404 | // search groups of peaks with same amplitude. | |
405 | Int_t *flag = new Int_t[npeak]; | |
406 | for( i=0; i<npeak; i++ ) flag[i] = 0; | |
407 | for( i=0; i<npeak; i++ ){ | |
50d05d7b | 408 | for( j=0; j<npeak; j++ ){ |
409 | if( i==j) continue; | |
410 | if( flag[j] > 0 ) continue; | |
411 | if( peakAmp[i] == peakAmp[j] && | |
412 | TMath::Abs(peakX[i]-peakX[j])<=1 && | |
413 | TMath::Abs(peakZ[i]-peakZ[j])<=1 ){ | |
414 | if( flag[i] == 0) flag[i] = i+1; | |
415 | flag[j] = flag[i]; | |
416 | } // end if ... | |
417 | } // end for j | |
42da2935 | 418 | } // end for i |
50d05d7b | 419 | // make average of peak groups |
42da2935 | 420 | for( i=0; i<npeak; i++ ){ |
50d05d7b | 421 | Int_t nFlag = 1; |
422 | if( flag[i] <= 0 ) continue; | |
423 | for( j=0; j<npeak; j++ ){ | |
424 | if( i==j ) continue; | |
425 | if( flag[j] != flag[i] ) continue; | |
426 | peakX[i] += peakX[j]; | |
427 | peakZ[i] += peakZ[j]; | |
428 | nFlag++; | |
429 | npeak--; | |
430 | for( Int_t k=j; k<npeak; k++ ){ | |
431 | peakX[k] = peakX[k+1]; | |
432 | peakZ[k] = peakZ[k+1]; | |
433 | peakAmp[k] = peakAmp[k+1]; | |
434 | flag[k] = flag[k+1]; | |
435 | } // end for k | |
436 | j--; | |
437 | } // end for j | |
438 | if( nFlag > 1 ){ | |
439 | peakX[i] /= nFlag; | |
440 | peakZ[i] /= nFlag; | |
441 | } // end fi nFlag | |
42da2935 | 442 | } // end for i |
443 | delete [] flag; | |
444 | return( npeak ); | |
a1f090e0 | 445 | } |
42da2935 | 446 | //______________________________________________________________________ |
447 | void AliITSClusterFinderSDD::PeakFunc( Int_t xdim, Int_t zdim, Float_t *par, | |
50d05d7b | 448 | Float_t *spe, Float_t *integral){ |
24a1c341 | 449 | // function used to fit the clusters |
50d05d7b | 450 | // par -> parameters.. |
24a1c341 | 451 | // par[0] number of peaks. |
452 | // for each peak i=1, ..., par[0] | |
50d05d7b | 453 | // par[i] = Ampl. |
454 | // par[i+1] = xpos | |
455 | // par[i+2] = zpos | |
456 | // par[i+3] = tau | |
457 | // par[i+4] = sigma. | |
24a1c341 | 458 | Int_t electronics = fResponse->Electronics(); // 1 = PASCAL, 2 = OLA |
459 | const Int_t knParam = 5; | |
460 | Int_t npeak = (Int_t)par[0]; | |
42da2935 | 461 | |
24a1c341 | 462 | memset( spe, 0, sizeof( Float_t )*zdim*xdim ); |
42da2935 | 463 | |
24a1c341 | 464 | Int_t k = 1; |
42da2935 | 465 | for( Int_t i=0; i<npeak; i++ ){ |
24a1c341 | 466 | if( integral != 0 ) integral[i] = 0.; |
467 | Float_t sigmaA2 = par[k+4]*par[k+4]*2.; | |
468 | Float_t T2 = par[k+3]; // PASCAL | |
469 | if( electronics == 2 ) { T2 *= T2; T2 *= 2; } // OLA | |
42da2935 | 470 | for( Int_t z=0; z<zdim; z++ ){ |
471 | for( Int_t x=0; x<xdim; x++ ){ | |
24a1c341 | 472 | Float_t z2 = (z-par[k+2])*(z-par[k+2])/sigmaA2; |
473 | Float_t x2 = 0.; | |
474 | Float_t signal = 0.; | |
42da2935 | 475 | if( electronics == 1 ){ // PASCAL |
24a1c341 | 476 | x2 = (x-par[k+1]+T2)/T2; |
42da2935 | 477 | signal = (x2>0.) ? par[k]*x2*exp(-x2+1.-z2) :0.0; // RCCR2 |
478 | // signal =(x2>0.) ? par[k]*x2*x2*exp(-2*x2+2.-z2 ):0.0;//RCCR | |
479 | }else if( electronics == 2 ) { // OLA | |
50d05d7b | 480 | x2 = (x-par[k+1])*(x-par[k+1])/T2; |
481 | signal = par[k] * exp( -x2 - z2 ); | |
482 | } else { | |
483 | cout << "Wrong SDD Electronics =" << electronics << endl; | |
484 | // exit( 1 ); | |
485 | } // end if electronicx | |
24a1c341 | 486 | spe[x*zdim+z] += signal; |
487 | if( integral != 0 ) integral[i] += signal; | |
42da2935 | 488 | } // end for x |
489 | } // end for z | |
24a1c341 | 490 | k += knParam; |
42da2935 | 491 | } // end for i |
24a1c341 | 492 | return; |
a1f090e0 | 493 | } |
42da2935 | 494 | //__________________________________________________________________________ |
495 | Float_t AliITSClusterFinderSDD::ChiSqr( Int_t xdim, Int_t zdim, Float_t *spe, | |
50d05d7b | 496 | Float_t *speFit ){ |
42da2935 | 497 | // EVALUATES UNNORMALIZED CHI-SQUARED |
498 | Float_t chi2 = 0.; | |
499 | for( Int_t z=0; z<zdim; z++ ){ | |
50d05d7b | 500 | for( Int_t x=1; x<xdim-1; x++ ){ |
501 | Int_t index = x*zdim+z; | |
502 | Float_t tmp = spe[index] - speFit[index]; | |
503 | chi2 += tmp*tmp; | |
504 | } // end for x | |
42da2935 | 505 | } // end for z |
506 | return( chi2 ); | |
a1f090e0 | 507 | } |
42da2935 | 508 | //_______________________________________________________________________ |
509 | void AliITSClusterFinderSDD::Minim( Int_t xdim, Int_t zdim, Float_t *param, | |
50d05d7b | 510 | Float_t *prm0,Float_t *steprm, |
511 | Float_t *chisqr,Float_t *spe, | |
512 | Float_t *speFit ){ | |
42da2935 | 513 | // |
514 | Int_t k, nnn, mmm, i; | |
515 | Float_t p1, delta, d1, chisq1, p2, chisq2, t, p3, chisq3, a, b, p0, chisqt; | |
516 | const Int_t knParam = 5; | |
517 | Int_t npeak = (Int_t)param[0]; | |
518 | for( k=1; k<(npeak*knParam+1); k++ ) prm0[k] = param[k]; | |
519 | for( k=1; k<(npeak*knParam+1); k++ ){ | |
50d05d7b | 520 | p1 = param[k]; |
521 | delta = steprm[k]; | |
522 | d1 = delta; | |
523 | // ENSURE THAT STEP SIZE IS SENSIBLY LARGER THAN MACHINE ROUND OFF | |
524 | if( fabs( p1 ) > 1.0E-6 ) | |
525 | if ( fabs( delta/p1 ) < 1.0E-4 ) delta = p1/1000; | |
526 | else delta = (Float_t)1.0E-4; | |
527 | // EVALUATE CHI-SQUARED AT FIRST TWO SEARCH POINTS | |
528 | PeakFunc( xdim, zdim, param, speFit ); | |
529 | chisq1 = ChiSqr( xdim, zdim, spe, speFit ); | |
530 | p2 = p1+delta; | |
531 | param[k] = p2; | |
532 | PeakFunc( xdim, zdim, param, speFit ); | |
533 | chisq2 = ChiSqr( xdim, zdim, spe, speFit ); | |
534 | if( chisq1 < chisq2 ){ | |
535 | // REVERSE DIRECTION OF SEARCH IF CHI-SQUARED IS INCREASING | |
536 | delta = -delta; | |
537 | t = p1; | |
538 | p1 = p2; | |
539 | p2 = t; | |
540 | t = chisq1; | |
541 | chisq1 = chisq2; | |
542 | chisq2 = t; | |
543 | } // end if | |
544 | i = 1; nnn = 0; | |
545 | do { // INCREMENT param(K) UNTIL CHI-SQUARED STARTS TO INCREASE | |
546 | nnn++; | |
547 | p3 = p2 + delta; | |
548 | mmm = nnn - (nnn/5)*5; // multiplo de 5 | |
549 | if( mmm == 0 ){ | |
550 | d1 = delta; | |
551 | // INCREASE STEP SIZE IF STEPPING TOWARDS MINIMUM IS TOO SLOW | |
552 | delta *= 5; | |
553 | } // end if | |
554 | param[k] = p3; | |
555 | // Constrain paramiters | |
556 | Int_t kpos = (k-1) % knParam; | |
557 | switch( kpos ){ | |
558 | case 0 : | |
559 | if( param[k] <= 20 ) param[k] = fMinPeak; | |
560 | break; | |
561 | case 1 : | |
562 | if( fabs( param[k] - prm0[k] ) > 1.5 ) param[k] = prm0[k]; | |
563 | break; | |
564 | case 2 : | |
565 | if( fabs( param[k] - prm0[k] ) > 1. ) param[k] = prm0[k]; | |
566 | break; | |
567 | case 3 : | |
568 | if( param[k] < .5 ) param[k] = .5; | |
569 | break; | |
570 | case 4 : | |
571 | if( param[k] < .288 ) param[k] = .288; // 1/sqrt(12) = 0.288 | |
572 | if( param[k] > zdim*.5 ) param[k] = zdim*.5; | |
573 | break; | |
574 | }; // end switch | |
575 | PeakFunc( xdim, zdim, param, speFit ); | |
576 | chisq3 = ChiSqr( xdim, zdim, spe, speFit ); | |
577 | if( chisq3 < chisq2 && nnn < 50 ){ | |
578 | p1 = p2; | |
579 | p2 = p3; | |
580 | chisq1 = chisq2; | |
581 | chisq2 = chisq3; | |
582 | }else i=0; | |
583 | } while( i ); | |
584 | // FIND MINIMUM OF PARABOLA DEFINED BY LAST THREE POINTS | |
585 | a = chisq1*(p2-p3)+chisq2*(p3-p1)+chisq3*(p1-p2); | |
586 | b = chisq1*(p2*p2-p3*p3)+chisq2*(p3*p3-p1*p1)+chisq3*(p1*p1-p2*p2); | |
587 | if( a!=0 ) p0 = (Float_t)(0.5*b/a); | |
588 | else p0 = 10000; | |
589 | //--IN CASE OF NEARLY EQUAL CHI-SQUARED AND TOO SMALL STEP SIZE PREVENT | |
590 | // ERRONEOUS EVALUATION OF PARABOLA MINIMUM | |
591 | //---NEXT TWO LINES CAN BE OMITTED FOR HIGHER PRECISION MACHINES | |
592 | //dp = (Float_t) max (fabs(p3-p2), fabs(p2-p1)); | |
593 | //if( fabs( p2-p0 ) > dp ) p0 = p2; | |
594 | param[k] = p0; | |
595 | // Constrain paramiters | |
596 | Int_t kpos = (k-1) % knParam; | |
597 | switch( kpos ){ | |
598 | case 0 : | |
599 | if( param[k] <= 20 ) param[k] = fMinPeak; | |
600 | break; | |
601 | case 1 : | |
602 | if( fabs( param[k] - prm0[k] ) > 1.5 ) param[k] = prm0[k]; | |
603 | break; | |
604 | case 2 : | |
605 | if( fabs( param[k] - prm0[k] ) > 1. ) param[k] = prm0[k]; | |
606 | break; | |
607 | case 3 : | |
608 | if( param[k] < .5 ) param[k] = .5; | |
609 | break; | |
610 | case 4 : | |
611 | if( param[k] < .288 ) param[k] = .288; // 1/sqrt(12) = 0.288 | |
612 | if( param[k] > zdim*.5 ) param[k] = zdim*.5; | |
613 | break; | |
614 | }; // end switch | |
615 | PeakFunc( xdim, zdim, param, speFit ); | |
616 | chisqt = ChiSqr( xdim, zdim, spe, speFit ); | |
617 | // DO NOT ALLOW ERRONEOUS INTERPOLATION | |
618 | if( chisqt <= *chisqr ) *chisqr = chisqt; | |
619 | else param[k] = prm0[k]; | |
620 | // OPTIMIZE SEARCH STEP FOR EVENTUAL NEXT CALL OF MINIM | |
621 | steprm[k] = (param[k]-prm0[k])/5; | |
622 | if( steprm[k] >= d1 ) steprm[k] = d1/5; | |
42da2935 | 623 | } // end for k |
624 | // EVALUATE FIT AND CHI-SQUARED FOR OPTIMIZED PARAMETERS | |
625 | PeakFunc( xdim, zdim, param, speFit ); | |
626 | *chisqr = ChiSqr( xdim, zdim, spe, speFit ); | |
627 | return; | |
a1f090e0 | 628 | } |
42da2935 | 629 | //_________________________________________________________________________ |
630 | Int_t AliITSClusterFinderSDD::NoLinearFit( Int_t xdim, Int_t zdim, | |
50d05d7b | 631 | Float_t *param, Float_t *spe, |
632 | Int_t *niter, Float_t *chir ){ | |
42da2935 | 633 | // fit method from Comput. Phys. Commun 46(1987) 149 |
50d05d7b | 634 | const Float_t kchilmt = 0.01; // relative accuracy |
635 | const Int_t knel = 3; // for parabolic minimization | |
636 | const Int_t knstop = 50; // Max. iteration number | |
42da2935 | 637 | const Int_t knParam = 5; |
638 | Int_t npeak = (Int_t)param[0]; | |
639 | // RETURN IF NUMBER OF DEGREES OF FREEDOM IS NOT POSITIVE | |
640 | if( (xdim*zdim - npeak*knParam) <= 0 ) return( -1 ); | |
641 | Float_t degFree = (xdim*zdim - npeak*knParam)-1; | |
642 | Int_t n, k, iterNum = 0; | |
643 | Float_t *prm0 = new Float_t[npeak*knParam+1]; | |
644 | Float_t *step = new Float_t[npeak*knParam+1]; | |
645 | Float_t *schi = new Float_t[npeak*knParam+1]; | |
646 | Float_t *sprm[3]; | |
647 | sprm[0] = new Float_t[npeak*knParam+1]; | |
648 | sprm[1] = new Float_t[npeak*knParam+1]; | |
649 | sprm[2] = new Float_t[npeak*knParam+1]; | |
650 | Float_t chi0, chi1, reldif, a, b, prmin, dp; | |
651 | Float_t *speFit = new Float_t[ xdim*zdim ]; | |
652 | PeakFunc( xdim, zdim, param, speFit ); | |
653 | chi0 = ChiSqr( xdim, zdim, spe, speFit ); | |
654 | chi1 = chi0; | |
655 | for( k=1; k<(npeak*knParam+1); k++) prm0[k] = param[k]; | |
50d05d7b | 656 | for( k=1 ; k<(npeak*knParam+1); k+=knParam ){ |
657 | step[k] = param[k] / 20.0 ; | |
658 | step[k+1] = param[k+1] / 50.0; | |
659 | step[k+2] = param[k+2] / 50.0; | |
660 | step[k+3] = param[k+3] / 20.0; | |
661 | step[k+4] = param[k+4] / 20.0; | |
662 | } // end for k | |
42da2935 | 663 | Int_t out = 0; |
664 | do{ | |
50d05d7b | 665 | iterNum++; |
666 | chi0 = chi1; | |
667 | Minim( xdim, zdim, param, prm0, step, &chi1, spe, speFit ); | |
668 | reldif = ( chi1 > 0 ) ? ((Float_t) fabs( chi1-chi0)/chi1 ) : 0; | |
669 | // EXIT conditions | |
670 | if( reldif < (float) kchilmt ){ | |
671 | *chir = (chi1>0) ? (float) TMath::Sqrt (chi1/degFree) :0; | |
672 | *niter = iterNum; | |
673 | out = 0; | |
674 | break; | |
675 | } // end if | |
676 | if( (reldif < (float)(5*kchilmt)) && (iterNum > knstop) ){ | |
677 | *chir = (chi1>0) ?(float) TMath::Sqrt (chi1/degFree):0; | |
678 | *niter = iterNum; | |
679 | out = 0; | |
680 | break; | |
681 | } // end if | |
682 | if( iterNum > 5*knstop ){ | |
683 | *chir = (chi1>0) ?(float) TMath::Sqrt (chi1/degFree):0; | |
684 | *niter = iterNum; | |
685 | out = 1; | |
686 | break; | |
687 | } // end if | |
688 | if( iterNum <= knel ) continue; | |
689 | n = iterNum - (iterNum/knel)*knel; // EXTRAPOLATION LIMIT COUNTER N | |
690 | if( n > 3 || n == 0 ) continue; | |
691 | schi[n-1] = chi1; | |
692 | for( k=1; k<(npeak*knParam+1); k++ ) sprm[n-1][k] = param[k]; | |
693 | if( n != 3 ) continue; | |
694 | // -EVALUATE EXTRAPOLATED VALUE OF EACH PARAMETER BY FINDING MINIMUM OF | |
695 | // PARABOLA DEFINED BY LAST THREE CALLS OF MINIM | |
696 | for( k=1; k<(npeak*knParam+1); k++ ){ | |
697 | Float_t tmp0 = sprm[0][k]; | |
698 | Float_t tmp1 = sprm[1][k]; | |
699 | Float_t tmp2 = sprm[2][k]; | |
700 | a = schi[0]*(tmp1-tmp2) + schi[1]*(tmp2-tmp0); | |
701 | a += (schi[2]*(tmp0-tmp1)); | |
702 | b = schi[0]*(tmp1*tmp1-tmp2*tmp2); | |
703 | b += (schi[1]*(tmp2*tmp2-tmp0*tmp0)+(schi[2]* | |
704 | (tmp0*tmp0-tmp1*tmp1))); | |
705 | if ((double)a < 1.0E-6) prmin = 0; | |
706 | else prmin = (float) (0.5*b/a); | |
707 | dp = 5*(tmp2-tmp0); | |
708 | if( fabs(prmin-tmp2) > fabs(dp) ) prmin = tmp2+dp; | |
709 | param[k] = prmin; | |
710 | step[k] = dp/10; // OPTIMIZE SEARCH STEP | |
711 | } // end for k | |
42da2935 | 712 | } while( kTRUE ); |
713 | delete [] prm0; | |
714 | delete [] step; | |
715 | delete [] schi; | |
716 | delete [] sprm[0]; | |
717 | delete [] sprm[1]; | |
718 | delete [] sprm[2]; | |
719 | delete [] speFit; | |
720 | return( out ); | |
a1f090e0 | 721 | } |
50d05d7b | 722 | |
42da2935 | 723 | //______________________________________________________________________ |
724 | void AliITSClusterFinderSDD::ResolveClustersE(){ | |
725 | // The function to resolve clusters if the clusters overlapping exists | |
24a1c341 | 726 | Int_t i; |
42da2935 | 727 | static AliITS *iTS = (AliITS*)gAlice->GetModule( "ITS" ); |
728 | // get number of clusters for this module | |
729 | Int_t nofClusters = fClusters->GetEntriesFast(); | |
730 | nofClusters -= fNclusters; | |
731 | Int_t fNofMaps = fSegmentation->Npz(); | |
732 | Int_t fNofAnodes = fNofMaps/2; | |
733 | Int_t fMaxNofSamples = fSegmentation->Npx(); | |
734 | Int_t dummy=0; | |
735 | Double_t fTimeStep = fSegmentation->Dpx( dummy ); | |
736 | Double_t fSddLength = fSegmentation->Dx(); | |
737 | Double_t fDriftSpeed = fResponse->DriftSpeed(); | |
738 | Double_t anodePitch = fSegmentation->Dpz( dummy ); | |
739 | Float_t n, baseline; | |
740 | fResponse->GetNoiseParam( n, baseline ); | |
741 | Int_t electronics = fResponse->Electronics(); // 1 = PASCAL, 2 = OLA | |
50d05d7b | 742 | |
42da2935 | 743 | for( Int_t j=0; j<nofClusters; j++ ){ |
50d05d7b | 744 | // get cluster information |
745 | AliITSRawClusterSDD *clusterJ=(AliITSRawClusterSDD*) fClusters->At(j); | |
746 | Int_t astart = clusterJ->Astart(); | |
747 | Int_t astop = clusterJ->Astop(); | |
748 | Int_t tstart = clusterJ->Tstartf(); | |
749 | Int_t tstop = clusterJ->Tstopf(); | |
750 | Int_t wing = (Int_t)clusterJ->W(); | |
751 | if( wing == 2 ){ | |
752 | astart += fNofAnodes; | |
753 | astop += fNofAnodes; | |
754 | } // end if | |
755 | Int_t xdim = tstop-tstart+3; | |
756 | Int_t zdim = astop-astart+3; | |
2bd89e94 | 757 | if(xdim > 50 || zdim > 30) { cout << "Warning: xdim: " << xdim << ", zdim: " << zdim << endl; continue; } |
50d05d7b | 758 | Float_t *sp = new Float_t[ xdim*zdim+1 ]; |
759 | memset( sp, 0, sizeof(Float_t)*(xdim*zdim+1) ); | |
760 | ||
761 | // make a local map from cluster region | |
762 | for( Int_t ianode=astart; ianode<=astop; ianode++ ){ | |
763 | for( Int_t itime=tstart; itime<=tstop; itime++ ){ | |
764 | Float_t fadc = fMap->GetSignal( ianode, itime ); | |
765 | if( fadc > baseline ) fadc -= (Double_t)baseline; | |
766 | else fadc = 0.; | |
767 | Int_t index = (itime-tstart+1)*zdim+(ianode-astart+1); | |
768 | sp[index] = fadc; | |
769 | } // time loop | |
770 | } // anode loop | |
771 | ||
772 | // search peaks on cluster | |
773 | const Int_t kNp = 150; | |
774 | Int_t peakX1[kNp]; | |
775 | Int_t peakZ1[kNp]; | |
776 | Float_t peakAmp1[kNp]; | |
777 | Int_t npeak = SearchPeak(sp,xdim,zdim,peakX1,peakZ1,peakAmp1,fMinPeak); | |
778 | ||
779 | // if multiple peaks, split cluster | |
780 | if( npeak >= 1 ) | |
781 | { | |
782 | // cout << "npeak " << npeak << endl; | |
783 | // clusterJ->PrintInfo(); | |
784 | Float_t *par = new Float_t[npeak*5+1]; | |
785 | par[0] = (Float_t)npeak; | |
48058160 | 786 | // Initial parameters in cell dimentions |
50d05d7b | 787 | Int_t k1 = 1; |
788 | for( i=0; i<npeak; i++ ){ | |
789 | par[k1] = peakAmp1[i]; | |
790 | par[k1+1] = peakX1[i]; // local time pos. [timebin] | |
791 | par[k1+2] = peakZ1[i]; // local anode pos. [anodepitch] | |
792 | if( electronics == 1 ) | |
793 | par[k1+3] = 2.; // PASCAL | |
794 | else if( electronics == 2 ) | |
795 | par[k1+3] = 0.7; // tau [timebin] OLA | |
796 | par[k1+4] = .4; // sigma [anodepich] | |
797 | k1+=5; | |
798 | } // end for i | |
799 | Int_t niter; | |
800 | Float_t chir; | |
801 | NoLinearFit( xdim, zdim, par, sp, &niter, &chir ); | |
802 | Float_t peakX[kNp]; | |
803 | Float_t peakZ[kNp]; | |
804 | Float_t sigma[kNp]; | |
805 | Float_t tau[kNp]; | |
806 | Float_t peakAmp[kNp]; | |
807 | Float_t integral[kNp]; | |
808 | //get integrals => charge for each peak | |
809 | PeakFunc( xdim, zdim, par, sp, integral ); | |
810 | k1 = 1; | |
811 | for( i=0; i<npeak; i++ ){ | |
812 | peakAmp[i] = par[k1]; | |
813 | peakX[i] = par[k1+1]; | |
814 | peakZ[i] = par[k1+2]; | |
815 | tau[i] = par[k1+3]; | |
816 | sigma[i] = par[k1+4]; | |
817 | k1+=5; | |
818 | } // end for i | |
819 | // calculate parameter for new clusters | |
820 | for( i=0; i<npeak; i++ ){ | |
821 | AliITSRawClusterSDD clusterI( *clusterJ ); | |
822 | Int_t newAnode = peakZ1[i]-1 + astart; | |
823 | Int_t newiTime = peakX1[i]-1 + tstart; | |
824 | Int_t shift = (Int_t)(fTimeCorr/fTimeStep + 0.5); | |
825 | if( newiTime > shift && newiTime < (fMaxNofSamples-shift) ) | |
826 | shift = 0; | |
827 | Int_t peakpos = fMap->GetHitIndex( newAnode, newiTime+shift ); | |
828 | clusterI.SetPeakPos( peakpos ); | |
829 | clusterI.SetPeakAmpl( peakAmp1[i] ); | |
830 | Float_t newAnodef = peakZ[i] - 0.5 + astart; | |
831 | Float_t newiTimef = peakX[i] - 1 + tstart; | |
832 | if( wing == 2 ) newAnodef -= fNofAnodes; | |
833 | Float_t anodePath = (newAnodef - fNofAnodes/2)*anodePitch; | |
834 | newiTimef *= fTimeStep; | |
835 | if( newiTimef > fTimeCorr ) newiTimef -= fTimeCorr; | |
836 | if( electronics == 1 ){ | |
48058160 | 837 | // newiTimef *= 0.999438; // PASCAL |
838 | // newiTimef += (6./fDriftSpeed - newiTimef/3000.); | |
50d05d7b | 839 | }else if( electronics == 2 ) |
840 | newiTimef *= 0.99714; // OLA | |
841 | Float_t driftPath = fSddLength - newiTimef * fDriftSpeed; | |
842 | Float_t sign = ( wing == 1 ) ? -1. : 1.; | |
843 | clusterI.SetX( driftPath*sign * 0.0001 ); | |
844 | clusterI.SetZ( anodePath * 0.0001 ); | |
845 | clusterI.SetAnode( newAnodef ); | |
846 | clusterI.SetTime( newiTimef ); | |
847 | clusterI.SetAsigma( sigma[i]*anodePitch ); | |
848 | clusterI.SetTsigma( tau[i]*fTimeStep ); | |
849 | clusterI.SetQ( integral[i] ); | |
48058160 | 850 | // clusterI.PrintInfo(); |
50d05d7b | 851 | iTS->AddCluster( 1, &clusterI ); |
852 | } // end for i | |
853 | fClusters->RemoveAt( j ); | |
854 | delete [] par; | |
48058160 | 855 | } else { // something odd |
856 | cout << " --- Peak not found!!!! minpeak=" << fMinPeak<< | |
857 | " cluster peak=" << clusterJ->PeakAmpl() << | |
858 | " module=" << fModule << endl; | |
50d05d7b | 859 | clusterJ->PrintInfo(); |
48058160 | 860 | cout << " xdim=" << xdim-2 << " zdim=" << zdim-2 << endl << endl; |
50d05d7b | 861 | } |
862 | delete [] sp; | |
42da2935 | 863 | } // cluster loop |
864 | fClusters->Compress(); | |
50d05d7b | 865 | // fMap->ClearMap(); |
a1f090e0 | 866 | } |
50d05d7b | 867 | |
868 | ||
42da2935 | 869 | //________________________________________________________________________ |
870 | void AliITSClusterFinderSDD::GroupClusters(){ | |
871 | // group clusters | |
872 | Int_t dummy=0; | |
873 | Float_t fTimeStep = fSegmentation->Dpx(dummy); | |
874 | // get number of clusters for this module | |
875 | Int_t nofClusters = fClusters->GetEntriesFast(); | |
876 | nofClusters -= fNclusters; | |
877 | AliITSRawClusterSDD *clusterI; | |
878 | AliITSRawClusterSDD *clusterJ; | |
879 | Int_t *label = new Int_t [nofClusters]; | |
880 | Int_t i,j; | |
881 | for(i=0; i<nofClusters; i++) label[i] = 0; | |
882 | for(i=0; i<nofClusters; i++) { | |
50d05d7b | 883 | if(label[i] != 0) continue; |
884 | for(j=i+1; j<nofClusters; j++) { | |
885 | if(label[j] != 0) continue; | |
886 | clusterI = (AliITSRawClusterSDD*) fClusters->At(i); | |
887 | clusterJ = (AliITSRawClusterSDD*) fClusters->At(j); | |
888 | // 1.3 good | |
889 | if(clusterI->T() < fTimeStep*60) fDAnode = 4.2; // TB 3.2 | |
890 | if(clusterI->T() < fTimeStep*10) fDAnode = 1.5; // TB 1. | |
891 | Bool_t pair = clusterI->Brother(clusterJ,fDAnode,fDTime); | |
892 | if(!pair) continue; | |
893 | // clusterI->PrintInfo(); | |
894 | // clusterJ->PrintInfo(); | |
895 | clusterI->Add(clusterJ); | |
896 | label[j] = 1; | |
897 | fClusters->RemoveAt(j); | |
898 | j=i; // <- Ernesto | |
899 | } // J clusters | |
900 | label[i] = 1; | |
42da2935 | 901 | } // I clusters |
902 | fClusters->Compress(); | |
903 | ||
904 | delete [] label; | |
905 | return; | |
b0f5e3fc | 906 | } |
42da2935 | 907 | //________________________________________________________________________ |
908 | void AliITSClusterFinderSDD::SelectClusters(){ | |
909 | // get number of clusters for this module | |
910 | Int_t nofClusters = fClusters->GetEntriesFast(); | |
b0f5e3fc | 911 | |
42da2935 | 912 | nofClusters -= fNclusters; |
913 | Int_t i; | |
914 | for(i=0; i<nofClusters; i++) { | |
50d05d7b | 915 | AliITSRawClusterSDD *clusterI =(AliITSRawClusterSDD*) fClusters->At(i); |
916 | Int_t rmflg = 0; | |
917 | Float_t wy = 0.; | |
918 | if(clusterI->Anodes() != 0.) { | |
919 | wy = ((Float_t) clusterI->Samples())/clusterI->Anodes(); | |
920 | } // end if | |
921 | Int_t amp = (Int_t) clusterI->PeakAmpl(); | |
922 | Int_t cha = (Int_t) clusterI->Q(); | |
923 | if(amp < fMinPeak) rmflg = 1; | |
924 | if(cha < fMinCharge) rmflg = 1; | |
925 | if(wy < fMinNCells) rmflg = 1; | |
926 | //if(wy > fMaxNCells) rmflg = 1; | |
927 | if(rmflg) fClusters->RemoveAt(i); | |
42da2935 | 928 | } // I clusters |
929 | fClusters->Compress(); | |
930 | return; | |
b0f5e3fc | 931 | } |
42da2935 | 932 | //__________________________________________________________________________ |
933 | void AliITSClusterFinderSDD::ResolveClusters(){ | |
934 | // The function to resolve clusters if the clusters overlapping exists | |
935 | /* AliITS *iTS=(AliITS*)gAlice->GetModule("ITS"); | |
936 | // get number of clusters for this module | |
937 | Int_t nofClusters = fClusters->GetEntriesFast(); | |
938 | nofClusters -= fNclusters; | |
939 | //cout<<"Resolve Cl: nofClusters, fNclusters ="<<nofClusters<<"," | |
940 | // <<fNclusters<<endl; | |
941 | Int_t fNofMaps = fSegmentation->Npz(); | |
942 | Int_t fNofAnodes = fNofMaps/2; | |
943 | Int_t dummy=0; | |
944 | Double_t fTimeStep = fSegmentation->Dpx(dummy); | |
945 | Double_t fSddLength = fSegmentation->Dx(); | |
946 | Double_t fDriftSpeed = fResponse->DriftSpeed(); | |
947 | Double_t anodePitch = fSegmentation->Dpz(dummy); | |
948 | Float_t n, baseline; | |
949 | fResponse->GetNoiseParam(n,baseline); | |
950 | Float_t dzz_1A = anodePitch * anodePitch / 12; | |
951 | // fill Map of signals | |
a1f090e0 | 952 | fMap->FillMap(); |
42da2935 | 953 | Int_t j,i,ii,ianode,anode,itime; |
954 | Int_t wing,astart,astop,tstart,tstop,nanode; | |
955 | Double_t fadc,ClusterTime; | |
956 | Double_t q[400],x[400],z[400]; // digit charges and coordinates | |
957 | for(j=0; j<nofClusters; j++) { | |
50d05d7b | 958 | AliITSRawClusterSDD *clusterJ=(AliITSRawClusterSDD*) fClusters->At(j); |
959 | Int_t ndigits = 0; | |
960 | astart=clusterJ->Astart(); | |
961 | astop=clusterJ->Astop(); | |
962 | tstart=clusterJ->Tstartf(); | |
963 | tstop=clusterJ->Tstopf(); | |
964 | nanode=clusterJ->Anodes(); // <- Ernesto | |
965 | wing=(Int_t)clusterJ->W(); | |
966 | if(wing == 2) { | |
967 | astart += fNofAnodes; | |
968 | astop += fNofAnodes; | |
969 | } // end if | |
970 | // cout<<"astart,astop,tstart,tstop ="<<astart<<","<<astop<<"," | |
971 | // <<tstart<<","<<tstop<<endl; | |
972 | // clear the digit arrays | |
973 | for(ii=0; ii<400; ii++) { | |
974 | q[ii] = 0.; | |
975 | x[ii] = 0.; | |
976 | z[ii] = 0.; | |
977 | } // end for ii | |
42da2935 | 978 | |
50d05d7b | 979 | for(ianode=astart; ianode<=astop; ianode++) { |
980 | for(itime=tstart; itime<=tstop; itime++) { | |
981 | fadc=fMap->GetSignal(ianode,itime); | |
982 | if(fadc>baseline) { | |
983 | fadc-=(Double_t)baseline; | |
984 | q[ndigits] = fadc*(fTimeStep/160); // KeV | |
985 | anode = ianode; | |
986 | if(wing == 2) anode -= fNofAnodes; | |
987 | z[ndigits] = (anode + 0.5 - fNofAnodes/2)*anodePitch; | |
988 | ClusterTime = itime*fTimeStep; | |
989 | if(ClusterTime > fTimeCorr) ClusterTime -= fTimeCorr;// ns | |
990 | x[ndigits] = fSddLength - ClusterTime*fDriftSpeed; | |
991 | if(wing == 1) x[ndigits] *= (-1); | |
992 | // cout<<"ianode,itime,fadc ="<<ianode<<","<<itime<<"," | |
993 | // <<fadc<<endl; | |
994 | // cout<<"wing,anode,ndigits,charge ="<<wing<<"," | |
995 | // <<anode<<","<<ndigits<<","<<q[ndigits]<<endl; | |
996 | ndigits++; | |
997 | continue; | |
998 | } // end if | |
999 | fadc=0; | |
1000 | // cout<<"fadc=0, ndigits ="<<ndigits<<endl; | |
1001 | } // time loop | |
1002 | } // anode loop | |
1003 | // cout<<"for new cluster ndigits ="<<ndigits<<endl; | |
1004 | // Fit cluster to resolve for two separate ones -------------------- | |
1005 | Double_t qq=0., xm=0., zm=0., xx=0., zz=0., xz=0.; | |
1006 | Double_t dxx=0., dzz=0., dxz=0.; | |
1007 | Double_t scl = 0., tmp, tga, elps = -1.; | |
1008 | Double_t xfit[2], zfit[2], qfit[2]; | |
1009 | Double_t pitchz = anodePitch*1.e-4; // cm | |
1010 | Double_t pitchx = fTimeStep*fDriftSpeed*1.e-4; // cm | |
1011 | Double_t sigma2; | |
1012 | Int_t nfhits; | |
1013 | Int_t nbins = ndigits; | |
1014 | Int_t separate = 0; | |
1015 | // now, all lengths are in microns | |
1016 | for (ii=0; ii<nbins; ii++) { | |
1017 | qq += q[ii]; | |
1018 | xm += x[ii]*q[ii]; | |
1019 | zm += z[ii]*q[ii]; | |
1020 | xx += x[ii]*x[ii]*q[ii]; | |
1021 | zz += z[ii]*z[ii]*q[ii]; | |
1022 | xz += x[ii]*z[ii]*q[ii]; | |
1023 | } // end for ii | |
1024 | xm /= qq; | |
1025 | zm /= qq; | |
1026 | xx /= qq; | |
1027 | zz /= qq; | |
1028 | xz /= qq; | |
1029 | dxx = xx - xm*xm; | |
1030 | dzz = zz - zm*zm; | |
1031 | dxz = xz - xm*zm; | |
42da2935 | 1032 | |
50d05d7b | 1033 | // shrink the cluster in the time direction proportionaly to the |
1034 | // dxx/dzz, which lineary depends from the drift path | |
1035 | // new Ernesto........ | |
1036 | if( nanode == 1 ){ | |
1037 | dzz = dzz_1A; // for one anode cluster dzz = anode**2/12 | |
1038 | scl = TMath::Sqrt( 7.2/(-0.57*xm*1.e-3+71.8) ); | |
1039 | } // end if | |
1040 | if( nanode == 2 ){ | |
1041 | scl = TMath::Sqrt( (-0.18*xm*1.e-3+21.3)/(-0.57*xm*1.e-3+71.8) ); | |
1042 | } // end if | |
1043 | if( nanode == 3 ){ | |
1044 | scl = TMath::Sqrt( (-0.5*xm*1.e-3+34.5)/(-0.57*xm*1.e-3+71.8) ); | |
1045 | } // end if | |
1046 | if( nanode > 3 ){ | |
1047 | scl = TMath::Sqrt( (1.3*xm*1.e-3+49.)/(-0.57*xm*1.e-3+71.8) ); | |
1048 | } // end if | |
1049 | // cout<<"1 microns: zm,dzz,xm,dxx,dxz,qq ="<<zm<<","<<dzz<<"," | |
1050 | // <<xm<<","<<dxx<<","<<dxz<<","<<qq<<endl; | |
1051 | // old Boris......... | |
1052 | // tmp=29730. - 585.*fabs(xm/1000.); | |
1053 | // scl=TMath::Sqrt(tmp/130000.); | |
a1f090e0 | 1054 | |
50d05d7b | 1055 | xm *= scl; |
1056 | xx *= scl*scl; | |
1057 | xz *= scl; | |
42da2935 | 1058 | |
50d05d7b | 1059 | dxx = xx - xm*xm; |
1060 | // dzz = zz - zm*zm; | |
1061 | dxz = xz - xm*zm; | |
1062 | // cout<<"microns: zm,dzz,xm,dxx,xz,dxz,qq ="<<zm<<","<<dzz<<"," | |
1063 | // <<xm<<","<<dxx<<","<<xz<<","<<dxz<<","<<qq<<endl; | |
1064 | // if(dzz < 7200.) dzz=7200.;//for one anode cluster dzz = anode**2/12 | |
a1f090e0 | 1065 | |
50d05d7b | 1066 | if (dxx < 0.) dxx=0.; |
1067 | // the data if no cluster overlapping (the coordunates are in cm) | |
1068 | nfhits = 1; | |
1069 | xfit[0] = xm*1.e-4; | |
1070 | zfit[0] = zm*1.e-4; | |
1071 | qfit[0] = qq; | |
1072 | // if(nbins < 7) cout<<"**** nbins ="<<nbins<<endl; | |
a1f090e0 | 1073 | |
50d05d7b | 1074 | if (nbins >= 7) { |
1075 | if (dxz==0.) tga=0.; | |
1076 | else { | |
1077 | tmp=0.5*(dzz-dxx)/dxz; | |
1078 | tga = (dxz<0.) ? tmp-TMath::Sqrt(tmp*tmp+1) : | |
1079 | tmp+TMath::Sqrt(tmp*tmp+1); | |
1080 | } // end if dxz | |
1081 | elps=(tga*tga*dxx-2*tga*dxz+dzz)/(dxx+2*tga*dxz+tga*tga*dzz); | |
1082 | // change from microns to cm | |
1083 | xm *= 1.e-4; | |
1084 | zm *= 1.e-4; | |
1085 | zz *= 1.e-8; | |
1086 | xx *= 1.e-8; | |
1087 | xz *= 1.e-8; | |
1088 | dxz *= 1.e-8; | |
1089 | dxx *= 1.e-8; | |
1090 | dzz *= 1.e-8; | |
1091 | // cout<<"cm: zm,dzz,xm,dxx,xz,dxz,qq ="<<zm<<","<<dzz<<"," | |
1092 | // <<xm<<","<<dxx<<","<<xz<<","<<dxz<<","<<qq<<endl; | |
1093 | for (i=0; i<nbins; i++) { | |
1094 | x[i] = x[i] *= scl; | |
1095 | x[i] = x[i] *= 1.e-4; | |
1096 | z[i] = z[i] *= 1.e-4; | |
1097 | } // end for i | |
1098 | // cout<<"!!! elps ="<<elps<<endl; | |
1099 | if (elps < 0.3) { // try to separate hits | |
1100 | separate = 1; | |
1101 | tmp=atan(tga); | |
1102 | Double_t cosa=cos(tmp),sina=sin(tmp); | |
1103 | Double_t a1=0., x1=0., xxx=0.; | |
1104 | for (i=0; i<nbins; i++) { | |
1105 | tmp=x[i]*cosa + z[i]*sina; | |
1106 | if (q[i] > a1) { | |
1107 | a1=q[i]; | |
1108 | x1=tmp; | |
1109 | } // end if | |
1110 | xxx += tmp*tmp*tmp*q[i]; | |
1111 | } // end for i | |
1112 | xxx /= qq; | |
1113 | Double_t z12=-sina*xm + cosa*zm; | |
1114 | sigma2=(sina*sina*xx-2*cosa*sina*xz+cosa*cosa*zz) - z12*z12; | |
1115 | xm=cosa*xm + sina*zm; | |
1116 | xx=cosa*cosa*xx + 2*cosa*sina*xz + sina*sina*zz; | |
1117 | Double_t x2=(xx - xm*x1 - sigma2)/(xm - x1); | |
1118 | Double_t r=a1*2*TMath::ACos(-1.)*sigma2/(qq*pitchx*pitchz); | |
1119 | for (i=0; i<33; i++) { // solve a system of equations | |
1120 | Double_t x1_old=x1, x2_old=x2, r_old=r; | |
1121 | Double_t c11=x1-x2; | |
1122 | Double_t c12=r; | |
1123 | Double_t c13=1-r; | |
1124 | Double_t c21=x1*x1 - x2*x2; | |
1125 | Double_t c22=2*r*x1; | |
1126 | Double_t c23=2*(1-r)*x2; | |
1127 | Double_t c31=3*sigma2*(x1-x2) + x1*x1*x1 - x2*x2*x2; | |
1128 | Double_t c32=3*r*(sigma2 + x1*x1); | |
1129 | Double_t c33=3*(1-r)*(sigma2 + x2*x2); | |
1130 | Double_t f1=-(r*x1 + (1-r)*x2 - xm); | |
1131 | Double_t f2=-(r*(sigma2+x1*x1)+(1-r)*(sigma2+x2*x2)- xx); | |
1132 | Double_t f3=-(r*x1*(3*sigma2+x1*x1)+(1-r)*x2* | |
1133 | (3*sigma2+x2*x2)-xxx); | |
1134 | Double_t d=c11*c22*c33+c21*c32*c13+c12*c23*c31- | |
1135 | c31*c22*c13 - c21*c12*c33 - c32*c23*c11; | |
1136 | if (d==0.) { | |
1137 | cout<<"*********** d=0 ***********\n"; | |
1138 | break; | |
1139 | } // end if | |
1140 | Double_t dr=f1*c22*c33 + f2*c32*c13 + c12*c23*f3 - | |
1141 | f3*c22*c13 - f2*c12*c33 - c32*c23*f1; | |
1142 | Double_t d1=c11*f2*c33 + c21*f3*c13 + f1*c23*c31 - | |
1143 | c31*f2*c13 - c21*f1*c33 - f3*c23*c11; | |
1144 | Double_t d2=c11*c22*f3 + c21*c32*f1 + c12*f2*c31 - | |
1145 | c31*c22*f1 - c21*c12*f3 - c32*f2*c11; | |
1146 | r += dr/d; | |
1147 | x1 += d1/d; | |
1148 | x2 += d2/d; | |
1149 | if (fabs(x1-x1_old) > 0.0001) continue; | |
1150 | if (fabs(x2-x2_old) > 0.0001) continue; | |
1151 | if (fabs(r-r_old)/5 > 0.001) continue; | |
1152 | a1=r*qq*pitchx*pitchz/(2*TMath::ACos(-1.)*sigma2); | |
1153 | Double_t a2=a1*(1-r)/r; | |
1154 | qfit[0]=a1; xfit[0]=x1*cosa - z12*sina; zfit[0]=x1*sina + | |
1155 | z12*cosa; | |
1156 | qfit[1]=a2; xfit[1]=x2*cosa - z12*sina; zfit[1]=x2*sina + | |
1157 | z12*cosa; | |
1158 | nfhits=2; | |
1159 | break; // Ok ! | |
1160 | } // end for i | |
1161 | if (i==33) cerr<<"No more iterations ! "<<endl; | |
1162 | } // end of attempt to separate overlapped clusters | |
1163 | } // end of nbins cut | |
1164 | if(elps < 0.) cout<<" elps=-1 ="<<elps<<endl; | |
1165 | if(elps >0. && elps< 0.3 && nfhits == 1) cout<<" small elps, nfh=1 =" | |
1166 | <<elps<<","<<nfhits<<endl; | |
1167 | if(nfhits == 2) cout<<" nfhits=2 ="<<nfhits<<endl; | |
1168 | for (i=0; i<nfhits; i++) { | |
1169 | xfit[i] *= (1.e+4/scl); | |
1170 | if(wing == 1) xfit[i] *= (-1); | |
1171 | zfit[i] *= 1.e+4; | |
1172 | // cout<<" --------- i,xfiti,zfiti,qfiti ="<<i<<"," | |
1173 | // <<xfit[i]<<","<<zfit[i]<<","<<qfit[i]<<endl; | |
1174 | } // end for i | |
1175 | Int_t ncl = nfhits; | |
1176 | if(nfhits == 1 && separate == 1) { | |
1177 | cout<<"!!!!! no separate"<<endl; | |
1178 | ncl = -2; | |
1179 | } // end if | |
1180 | if(nfhits == 2) { | |
1181 | cout << "Split cluster: " << endl; | |
1182 | clusterJ->PrintInfo(); | |
1183 | cout << " in: " << endl; | |
1184 | for (i=0; i<nfhits; i++) { | |
1185 | // AliITSRawClusterSDD *clust = new AliITSRawClusterSDD(wing, | |
42da2935 | 1186 | -1,-1,(Float_t)qfit[i],ncl,0,0, |
1187 | (Float_t)xfit[i], | |
1188 | (Float_t)zfit[i],0,0,0,0, | |
1189 | tstart,tstop,astart,astop); | |
50d05d7b | 1190 | // AliITSRawClusterSDD *clust = new AliITSRawClusterSDD(wing,-1, |
1191 | // -1,(Float_t)qfit[i],0,0,0, | |
1192 | // (Float_t)xfit[i], | |
1193 | // (Float_t)zfit[i],0,0,0,0, | |
1194 | // tstart,tstop,astart,astop,ncl); | |
1195 | // ??????????? | |
1196 | // if(wing == 1) xfit[i] *= (-1); | |
1197 | Float_t Anode = (zfit[i]/anodePitch+fNofAnodes/2-0.5); | |
1198 | Float_t Time = (fSddLength - xfit[i])/fDriftSpeed; | |
1199 | Float_t clusterPeakAmplitude = clusterJ->PeakAmpl(); | |
1200 | Float_t peakpos = clusterJ->PeakPos(); | |
1201 | Float_t clusteranodePath = (Anode - fNofAnodes/2)*anodePitch; | |
1202 | Float_t clusterDriftPath = Time*fDriftSpeed; | |
1203 | clusterDriftPath = fSddLength-clusterDriftPath; | |
1204 | AliITSRawClusterSDD *clust = new AliITSRawClusterSDD(wing,Anode, | |
1205 | Time,qfit[i], | |
42da2935 | 1206 | clusterPeakAmplitude,peakpos, |
1207 | 0.,0.,clusterDriftPath, | |
1208 | clusteranodePath,clusterJ->Samples()/2 | |
50d05d7b | 1209 | ,tstart,tstop,0,0,0,astart,astop); |
1210 | clust->PrintInfo(); | |
1211 | iTS->AddCluster(1,clust); | |
1212 | // cout<<"new cluster added: tstart,tstop,astart,astop,x,ncl =" | |
1213 | // <<tstart<<","<<tstop<<","<<astart<<","<<astop<<","<<xfit[i] | |
1214 | // <<","<<ncl<<endl; | |
1215 | delete clust; | |
1216 | }// nfhits loop | |
1217 | fClusters->RemoveAt(j); | |
42da2935 | 1218 | } // if nfhits = 2 |
1219 | } // cluster loop | |
1220 | fClusters->Compress(); | |
1221 | fMap->ClearMap(); | |
1222 | */ | |
1223 | return; | |
a1f090e0 | 1224 | } |
42da2935 | 1225 | //______________________________________________________________________ |
1226 | void AliITSClusterFinderSDD::GetRecPoints(){ | |
1227 | // get rec points | |
1228 | static AliITS *iTS=(AliITS*)gAlice->GetModule("ITS"); | |
1229 | // get number of clusters for this module | |
1230 | Int_t nofClusters = fClusters->GetEntriesFast(); | |
1231 | nofClusters -= fNclusters; | |
1232 | const Float_t kconvGeV = 1.e-6; // GeV -> KeV | |
1233 | const Float_t kconv = 1.0e-4; | |
1234 | const Float_t kRMSx = 38.0*kconv; // microns->cm ITS TDR Table 1.3 | |
1235 | const Float_t kRMSz = 28.0*kconv; // microns->cm ITS TDR Table 1.3 | |
ee86d557 | 1236 | Int_t i,j; |
42da2935 | 1237 | Int_t ix, iz, idx=-1; |
1238 | AliITSdigitSDD *dig=0; | |
1239 | Int_t ndigits=fDigits->GetEntriesFast(); | |
1240 | for(i=0; i<nofClusters; i++) { | |
50d05d7b | 1241 | AliITSRawClusterSDD *clusterI = (AliITSRawClusterSDD*)fClusters->At(i); |
1242 | if(!clusterI) Error("SDD: GetRecPoints","i clusterI ",i,clusterI); | |
1243 | if(clusterI) idx=clusterI->PeakPos(); | |
1244 | if(idx>ndigits) Error("SDD: GetRecPoints","idx ndigits",idx,ndigits); | |
1245 | // try peak neighbours - to be done | |
1246 | if(idx&&idx<= ndigits) dig =(AliITSdigitSDD*)fDigits->UncheckedAt(idx); | |
1247 | if(!dig) { | |
1248 | // try cog | |
1249 | fSegmentation->GetPadIxz(clusterI->X(),clusterI->Z(),ix,iz); | |
1250 | dig = (AliITSdigitSDD*)fMap->GetHit(iz-1,ix-1); | |
1251 | // if null try neighbours | |
1252 | if (!dig) dig = (AliITSdigitSDD*)fMap->GetHit(iz-1,ix); | |
1253 | if (!dig) dig = (AliITSdigitSDD*)fMap->GetHit(iz-1,ix+1); | |
1254 | if (!dig) printf("SDD: cannot assign the track number!\n"); | |
1255 | } // end if !dig | |
1256 | AliITSRecPoint rnew; | |
1257 | rnew.SetX(clusterI->X()); | |
1258 | rnew.SetZ(clusterI->Z()); | |
1259 | rnew.SetQ(clusterI->Q()); // in KeV - should be ADC | |
1260 | rnew.SetdEdX(kconvGeV*clusterI->Q()); | |
1261 | rnew.SetSigmaX2(kRMSx*kRMSx); | |
1262 | rnew.SetSigmaZ2(kRMSz*kRMSz); | |
ee86d557 | 1263 | if(dig){ |
1264 | rnew.fTracks[0] = dig->fTracks[0]; | |
1265 | rnew.fTracks[1] = -3; | |
1266 | rnew.fTracks[2] = -3; | |
1267 | j=1; | |
1268 | while(rnew.fTracks[0]==dig->fTracks[j] && | |
1269 | j<dig->GetNTracks()) j++; | |
1270 | if(j<dig->GetNTracks()){ | |
1271 | rnew.fTracks[1] = dig->fTracks[j]; | |
f8d9a5b8 | 1272 | while((rnew.fTracks[0]==dig->fTracks[j] || |
1273 | rnew.fTracks[1]==dig->fTracks[j] )&& | |
ee86d557 | 1274 | j<dig->GetNTracks()) j++; |
1275 | if(j<dig->GetNTracks()) rnew.fTracks[2] = dig->fTracks[j]; | |
1276 | } // end if | |
1277 | } // end if | |
50d05d7b | 1278 | //printf("SDD: i %d track1 track2 track3 %d %d %d x y %f %f\n", |
1279 | // i,rnew.fTracks[0],rnew.fTracks[1],rnew.fTracks[2],c | |
1280 | // lusterI->X(),clusterI->Z()); | |
1281 | iTS->AddRecPoint(rnew); | |
42da2935 | 1282 | } // I clusters |
50d05d7b | 1283 | // fMap->ClearMap(); |
b0f5e3fc | 1284 | } |
42da2935 | 1285 | //______________________________________________________________________ |
1286 | void AliITSClusterFinderSDD::FindRawClusters(Int_t mod){ | |
1287 | // find raw clusters | |
50d05d7b | 1288 | |
1289 | fModule = mod; | |
1290 | ||
a1f090e0 | 1291 | Find1DClustersE(); |
b0f5e3fc | 1292 | GroupClusters(); |
1293 | SelectClusters(); | |
a1f090e0 | 1294 | ResolveClustersE(); |
b0f5e3fc | 1295 | GetRecPoints(); |
1296 | } | |
42da2935 | 1297 | //_______________________________________________________________________ |
1298 | void AliITSClusterFinderSDD::Print(){ | |
1299 | // Print SDD cluster finder Parameters | |
1300 | ||
1301 | cout << "**************************************************" << endl; | |
1302 | cout << " Silicon Drift Detector Cluster Finder Parameters " << endl; | |
1303 | cout << "**************************************************" << endl; | |
1304 | cout << "Number of Clusters: " << fNclusters << endl; | |
1305 | cout << "Anode Tolerance: " << fDAnode << endl; | |
1306 | cout << "Time Tolerance: " << fDTime << endl; | |
1307 | cout << "Time correction (electronics): " << fTimeCorr << endl; | |
1308 | cout << "Cut Amplitude (threshold): " << fCutAmplitude << endl; | |
1309 | cout << "Minimum Amplitude: " << fMinPeak << endl; | |
1310 | cout << "Minimum Charge: " << fMinCharge << endl; | |
1311 | cout << "Minimum number of cells/clusters: " << fMinNCells << endl; | |
1312 | cout << "Maximum number of cells/clusters: " << fMaxNCells << endl; | |
1313 | cout << "**************************************************" << endl; | |
a1f090e0 | 1314 | } |