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3edbbba2 | 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 | ||
090026bf | 16 | /* $Id$ */ |
17 | ||
3edbbba2 | 18 | //-----------------------------------------------------// |
19 | // // | |
01c4d84a | 20 | // Source File : PMDClusteringV1.cxx, Version 00 // |
3edbbba2 | 21 | // // |
22 | // Date : September 26 2002 // | |
23 | // // | |
24 | // clustering code for alice pmd // | |
25 | // // | |
26 | //-----------------------------------------------------// | |
27 | ||
28 | /* -------------------------------------------------------------------- | |
29 | Code developed by S. C. Phatak, Institute of Physics, | |
30 | Bhubaneswar 751 005 ( phatak@iopb.res.in ) Given the energy deposited | |
31 | ( or ADC value ) in each cell of supermodule ( pmd or cpv ), the code | |
32 | builds up superclusters and breaks them into clusters. The input is | |
562718f9 | 33 | in array edepcell[kNMX] and cluster information is in a |
fd30f88e | 34 | TObjarray. Integer clno gives total number of clusters in the |
3edbbba2 | 35 | supermodule. |
36 | ||
562718f9 | 37 | fClusters is the only global ( public ) variables. |
3edbbba2 | 38 | Others are local ( private ) to the code. |
39 | At the moment, the data is read for whole detector ( all supermodules | |
40 | and pmd as well as cpv. This will have to be modify later ) | |
41 | LAST UPDATE : October 23, 2002 | |
42 | -----------------------------------------------------------------------*/ | |
43 | ||
090026bf | 44 | #include <Riostream.h> |
45 | #include <TMath.h> | |
3edbbba2 | 46 | #include <TNtuple.h> |
47 | #include <TObjArray.h> | |
562718f9 | 48 | #include "TRandom.h" |
3edbbba2 | 49 | #include <stdio.h> |
50 | ||
fd30f88e | 51 | #include "AliPMDcludata.h" |
3edbbba2 | 52 | #include "AliPMDcluster.h" |
53 | #include "AliPMDClustering.h" | |
54 | #include "AliPMDClusteringV1.h" | |
55 | #include "AliLog.h" | |
56 | ||
2c1131dd | 57 | |
3edbbba2 | 58 | ClassImp(AliPMDClusteringV1) |
59 | ||
60 | const Double_t AliPMDClusteringV1::fgkSqroot3by2=0.8660254; // sqrt(3.)/2. | |
61 | ||
62 | AliPMDClusteringV1::AliPMDClusteringV1(): | |
562718f9 | 63 | fPMDclucont(new TObjArray()), |
4755c3f1 | 64 | fCutoff(0.0), |
65 | fClusParam(0) | |
3edbbba2 | 66 | { |
fd30f88e | 67 | for(Int_t i = 0; i < kNDIMX; i++) |
3edbbba2 | 68 | { |
fd30f88e | 69 | for(Int_t j = 0; j < kNDIMY; j++) |
3edbbba2 | 70 | { |
71 | fCoord[0][i][j] = i+j/2.; | |
72 | fCoord[1][i][j] = fgkSqroot3by2*j; | |
3edbbba2 | 73 | } |
74 | } | |
75 | } | |
76 | // ------------------------------------------------------------------------ // | |
562718f9 | 77 | AliPMDClusteringV1::AliPMDClusteringV1(const AliPMDClusteringV1& pmdclv1): |
78 | AliPMDClustering(pmdclv1), | |
79 | fPMDclucont(0), | |
4755c3f1 | 80 | fCutoff(0), |
81 | fClusParam(0) | |
562718f9 | 82 | { |
83 | // copy constructor | |
84 | AliError("Copy constructor not allowed "); | |
85 | ||
86 | } | |
87 | // ------------------------------------------------------------------------ // | |
88 | AliPMDClusteringV1 &AliPMDClusteringV1::operator=(const AliPMDClusteringV1& /*pmdclv1*/) | |
89 | { | |
90 | // copy constructor | |
91 | AliError("Assignment operator not allowed "); | |
92 | return *this; | |
93 | } | |
94 | // ------------------------------------------------------------------------ // | |
3edbbba2 | 95 | AliPMDClusteringV1::~AliPMDClusteringV1() |
96 | { | |
562718f9 | 97 | delete fPMDclucont; |
3edbbba2 | 98 | } |
99 | // ------------------------------------------------------------------------ // | |
920e13db | 100 | void AliPMDClusteringV1::DoClust(Int_t idet, Int_t ismn, |
101 | Int_t celltrack[48][96], | |
102 | Int_t cellpid[48][96], | |
103 | Double_t celladc[48][96], | |
22bd512d | 104 | TObjArray *pmdcont) |
3edbbba2 | 105 | { |
106 | // main function to call other necessary functions to do clustering | |
107 | // | |
01c4d84a | 108 | |
562718f9 | 109 | AliPMDcluster *pmdcl = 0; |
3edbbba2 | 110 | |
2c1131dd | 111 | const float ktwobysqrt3 = 1.1547; // 2./sqrt(3.) |
112 | const Int_t kNmaxCell = 19; // # of cells surrounding a cluster center | |
113 | ||
be8b7039 | 114 | Int_t i = 0, j = 0, nmx1 = 0; |
115 | Int_t incr = 0, id = 0, jd = 0; | |
2c1131dd | 116 | Int_t celldataX[kNmaxCell], celldataY[kNmaxCell]; |
920e13db | 117 | Int_t celldataTr[kNmaxCell], celldataPid[kNmaxCell]; |
b0e4d1e1 | 118 | Float_t celldataAdc[kNmaxCell]; |
be8b7039 | 119 | Float_t clusdata[6] = {0.,0.,0.,0.,0.,0.}; |
562718f9 | 120 | Double_t cutoff, ave; |
121 | Double_t edepcell[kNMX]; | |
4e2efa25 | 122 | Double_t cellenergy[kNMX]; |
9c294f00 | 123 | |
01c4d84a | 124 | // ndimXr and ndimYr are different because of different module size |
125 | ||
fd30f88e | 126 | Int_t ndimXr = 0; |
127 | Int_t ndimYr = 0; | |
01c4d84a | 128 | |
129 | if (ismn < 12) | |
130 | { | |
131 | ndimXr = 96; | |
132 | ndimYr = 48; | |
133 | } | |
134 | else if (ismn >= 12 && ismn <= 23) | |
135 | { | |
136 | ndimXr = 48; | |
137 | ndimYr = 96; | |
138 | } | |
139 | ||
4e2efa25 | 140 | for (i = 0; i < kNMX; i++) |
9c294f00 | 141 | { |
142 | cellenergy[i] = 0.; | |
143 | } | |
144 | ||
562718f9 | 145 | Int_t kk = 0; |
78fc1b96 | 146 | for (i = 0; i < kNDIMX; i++) |
3edbbba2 | 147 | { |
78fc1b96 | 148 | for (j = 0; j < kNDIMY; j++) |
01c4d84a | 149 | { |
562718f9 | 150 | edepcell[kk] = 0.; |
151 | kk++; | |
01c4d84a | 152 | } |
153 | } | |
154 | ||
155 | for (id = 0; id < ndimXr; id++) | |
156 | { | |
157 | for (jd = 0; jd < ndimYr; jd++) | |
3edbbba2 | 158 | { |
fd30f88e | 159 | j = jd; |
160 | i = id+(ndimYr/2-1)-(jd/2); | |
01c4d84a | 161 | |
9c294f00 | 162 | Int_t ij = i + j*kNDIMX; |
9c294f00 | 163 | |
01c4d84a | 164 | if (ismn < 12) |
165 | { | |
2c1131dd | 166 | cellenergy[ij] = celladc[jd][id]; |
01c4d84a | 167 | } |
168 | else if (ismn >= 12 && ismn <= 23) | |
169 | { | |
2c1131dd | 170 | cellenergy[ij] = celladc[id][jd]; |
01c4d84a | 171 | } |
3edbbba2 | 172 | } |
173 | } | |
562718f9 | 174 | |
78fc1b96 | 175 | for (i = 0; i < kNMX; i++) |
939c3b8e | 176 | { |
177 | edepcell[i] = cellenergy[i]; | |
178 | } | |
9c294f00 | 179 | |
4e2efa25 | 180 | Bool_t jsort = true; |
5406008b | 181 | // the dimension of iord1 is increased twice |
182 | Int_t iord1[2*kNMX]; | |
4e2efa25 | 183 | TMath::Sort((Int_t)kNMX,edepcell,iord1,jsort);// order the data |
184 | cutoff = fCutoff; // cutoff to discard cells | |
562718f9 | 185 | ave = 0.; |
fd30f88e | 186 | nmx1 = -1; |
562718f9 | 187 | for(i = 0;i < kNMX; i++) |
3edbbba2 | 188 | { |
562718f9 | 189 | if(edepcell[i] > 0.) |
fd30f88e | 190 | { |
562718f9 | 191 | ave += edepcell[i]; |
fd30f88e | 192 | } |
562718f9 | 193 | if(edepcell[i] > cutoff ) |
fd30f88e | 194 | { |
195 | nmx1++; | |
196 | } | |
3edbbba2 | 197 | } |
9c294f00 | 198 | |
3edbbba2 | 199 | AliDebug(1,Form("Number of cells having energy >= %f are %d",cutoff,nmx1)); |
200 | ||
3edbbba2 | 201 | if (nmx1 == 0) nmx1 = 1; |
fd30f88e | 202 | ave = ave/nmx1; |
3edbbba2 | 203 | AliDebug(1,Form("Number of cells in a SuperM = %d and Average = %f", |
204 | kNMX,ave)); | |
562718f9 | 205 | |
206 | incr = CrClust(ave, cutoff, nmx1,iord1, edepcell ); | |
562718f9 | 207 | RefClust(incr,edepcell); |
208 | Int_t nentries1 = fPMDclucont->GetEntries(); | |
fd30f88e | 209 | AliDebug(1,Form("Detector Plane = %d Serial Module No = %d Number of clusters = %d",idet, ismn, nentries1)); |
210 | AliDebug(1,Form("Total number of clusters/module = %d",nentries1)); | |
562718f9 | 211 | |
fd30f88e | 212 | for (Int_t ient1 = 0; ient1 < nentries1; ient1++) |
3edbbba2 | 213 | { |
fd30f88e | 214 | AliPMDcludata *pmdcludata = |
562718f9 | 215 | (AliPMDcludata*)fPMDclucont->UncheckedAt(ient1); |
fd30f88e | 216 | Float_t cluXC = pmdcludata->GetClusX(); |
217 | Float_t cluYC = pmdcludata->GetClusY(); | |
218 | Float_t cluADC = pmdcludata->GetClusADC(); | |
219 | Float_t cluCELLS = pmdcludata->GetClusCells(); | |
220 | Float_t cluSIGX = pmdcludata->GetClusSigmaX(); | |
221 | Float_t cluSIGY = pmdcludata->GetClusSigmaY(); | |
222 | ||
3edbbba2 | 223 | Float_t cluY0 = ktwobysqrt3*cluYC; |
224 | Float_t cluX0 = cluXC - cluY0/2.; | |
fd30f88e | 225 | |
3edbbba2 | 226 | // |
227 | // Cluster X centroid is back transformed | |
228 | // | |
2c1131dd | 229 | |
01c4d84a | 230 | if (ismn < 12) |
231 | { | |
232 | clusdata[0] = cluX0 - (24-1) + cluY0/2.; | |
233 | } | |
fd30f88e | 234 | else if ( ismn >= 12 && ismn <= 23) |
01c4d84a | 235 | { |
236 | clusdata[0] = cluX0 - (48-1) + cluY0/2.; | |
237 | } | |
2c1131dd | 238 | |
01c4d84a | 239 | clusdata[1] = cluY0; |
240 | clusdata[2] = cluADC; | |
241 | clusdata[3] = cluCELLS; | |
fd30f88e | 242 | clusdata[4] = cluSIGX; |
243 | clusdata[5] = cluSIGY; | |
e6ba3040 | 244 | |
3edbbba2 | 245 | // |
246 | // Cells associated with a cluster | |
247 | // | |
562718f9 | 248 | |
2c1131dd | 249 | for (Int_t ihit = 0; ihit < kNmaxCell; ihit++) |
3edbbba2 | 250 | { |
2c1131dd | 251 | Int_t cellrow = pmdcludata->GetCellXY(ihit)/10000; |
252 | Int_t cellcol = pmdcludata->GetCellXY(ihit)%10000; | |
253 | ||
01c4d84a | 254 | if (ismn < 12) |
255 | { | |
2c1131dd | 256 | celldataX[ihit] = cellrow - (24-1) + int(cellcol/2.); |
01c4d84a | 257 | } |
258 | else if (ismn >= 12 && ismn <= 23) | |
259 | { | |
2c1131dd | 260 | celldataX[ihit] = cellrow - (48-1) + int(cellcol/2.); |
01c4d84a | 261 | } |
2c1131dd | 262 | |
263 | celldataY[ihit] = cellcol; | |
920e13db | 264 | |
265 | Int_t irow = celldataX[ihit]; | |
266 | Int_t icol = celldataY[ihit]; | |
2c1131dd | 267 | |
d270ca46 | 268 | if (ismn < 12) |
920e13db | 269 | { |
d270ca46 | 270 | if ((irow >= 0 && irow < 96) && (icol >= 0 && icol < 48)) |
271 | { | |
272 | celldataTr[ihit] = celltrack[icol][irow]; | |
273 | celldataPid[ihit] = cellpid[icol][irow]; | |
274 | celldataAdc[ihit] = (Float_t) celladc[icol][irow]; | |
275 | } | |
276 | else | |
277 | { | |
278 | celldataTr[ihit] = -1; | |
279 | celldataPid[ihit] = -1; | |
280 | celldataAdc[ihit] = -1; | |
281 | } | |
920e13db | 282 | } |
d270ca46 | 283 | else if (ismn >= 12 && ismn < 24) |
920e13db | 284 | { |
d270ca46 | 285 | if ((irow >= 0 && irow < 48) && (icol >= 0 && icol < 96)) |
286 | { | |
287 | celldataTr[ihit] = celltrack[irow][icol]; | |
288 | celldataPid[ihit] = cellpid[irow][icol]; | |
289 | celldataAdc[ihit] = (Float_t) celladc[irow][icol]; | |
e6ba3040 | 290 | |
d270ca46 | 291 | } |
292 | else | |
293 | { | |
294 | celldataTr[ihit] = -1; | |
295 | celldataPid[ihit] = -1; | |
296 | celldataAdc[ihit] = -1; | |
297 | } | |
920e13db | 298 | } |
d270ca46 | 299 | |
920e13db | 300 | } |
e6ba3040 | 301 | |
920e13db | 302 | pmdcl = new AliPMDcluster(idet, ismn, clusdata, celldataX, celldataY, |
b0e4d1e1 | 303 | celldataTr, celldataPid, celldataAdc); |
3edbbba2 | 304 | pmdcont->Add(pmdcl); |
305 | } | |
fd30f88e | 306 | |
91e6e2a0 | 307 | fPMDclucont->Delete(); |
3edbbba2 | 308 | } |
309 | // ------------------------------------------------------------------------ // | |
562718f9 | 310 | Int_t AliPMDClusteringV1::CrClust(Double_t ave, Double_t cutoff, Int_t nmx1, |
311 | Int_t iord1[], Double_t edepcell[]) | |
3edbbba2 | 312 | { |
fd30f88e | 313 | // Does crude clustering |
3edbbba2 | 314 | // Finds out only the big patch by just searching the |
315 | // connected cells | |
316 | // | |
2c1131dd | 317 | const Int_t kndim = 4609; |
be8b7039 | 318 | Int_t i=0,j=0,k=0,id1=0,id2=0,icl=0, numcell=0; |
319 | Int_t jd1=0,jd2=0, icell=0, cellcount=0; | |
320 | Int_t clust[2][kndim]; | |
fd30f88e | 321 | static Int_t neibx[6]={1,0,-1,-1,0,1}, neiby[6]={0,1,1,0,-1,-1}; |
322 | ||
3edbbba2 | 323 | AliDebug(1,Form("kNMX = %d nmx1 = %d kNDIMX = %d kNDIMY = %d ave = %f cutoff = %f",kNMX,nmx1,kNDIMX,kNDIMY,ave,cutoff)); |
324 | ||
fd30f88e | 325 | for (j = 0; j < kNDIMX; j++) |
326 | { | |
327 | for(k = 0; k < kNDIMY; k++) | |
328 | { | |
329 | fInfocl[0][j][k] = 0; | |
330 | fInfocl[1][j][k] = 0; | |
331 | } | |
332 | } | |
333 | for(i=0; i < kNMX; i++) | |
334 | { | |
335 | fInfcl[0][i] = -1; | |
562718f9 | 336 | |
337 | j = iord1[i]; | |
338 | id2 = j/kNDIMX; | |
339 | id1 = j-id2*kNDIMX; | |
340 | ||
341 | if(edepcell[j] <= cutoff) | |
fd30f88e | 342 | { |
343 | fInfocl[0][id1][id2] = -1; | |
344 | } | |
3edbbba2 | 345 | } |
562718f9 | 346 | |
3edbbba2 | 347 | // --------------------------------------------------------------- |
348 | // crude clustering begins. Start with cell having largest adc | |
349 | // count and loop over the cells in descending order of adc count | |
350 | // --------------------------------------------------------------- | |
562718f9 | 351 | |
fd30f88e | 352 | icl = -1; |
353 | cellcount = -1; | |
3edbbba2 | 354 | |
fd30f88e | 355 | for(icell = 0; icell <= nmx1; icell++) |
356 | { | |
562718f9 | 357 | j = iord1[icell]; |
358 | id2 = j/kNDIMX; | |
359 | id1 = j-id2*kNDIMX; | |
360 | ||
fd30f88e | 361 | if(fInfocl[0][id1][id2] == 0 ) |
362 | { | |
363 | icl++; | |
364 | numcell = 0; | |
365 | cellcount++; | |
366 | fInfocl[0][id1][id2] = 1; | |
367 | fInfocl[1][id1][id2] = icl; | |
368 | fInfcl[0][cellcount] = icl; | |
369 | fInfcl[1][cellcount] = id1; | |
370 | fInfcl[2][cellcount] = id2; | |
371 | ||
372 | clust[0][numcell] = id1; | |
373 | clust[1][numcell] = id2; | |
374 | ||
2c1131dd | 375 | for(i = 1; i < kndim; i++) |
fd30f88e | 376 | { |
377 | clust[0][i]=0; | |
378 | } | |
379 | // --------------------------------------------------------------- | |
380 | // check for adc count in neib. cells. If ne 0 put it in this clust | |
381 | // --------------------------------------------------------------- | |
382 | for(i = 0; i < 6; i++) | |
383 | { | |
384 | jd1 = id1 + neibx[i]; | |
385 | jd2 = id2 + neiby[i]; | |
386 | if( (jd1 >= 0 && jd1 < kNDIMX) && (jd2 >= 0 && jd2 < kNDIMY) && | |
387 | fInfocl[0][jd1][jd2] == 0) | |
388 | { | |
389 | numcell++; | |
390 | fInfocl[0][jd1][jd2] = 2; | |
391 | fInfocl[1][jd1][jd2] = icl; | |
392 | clust[0][numcell] = jd1; | |
393 | clust[1][numcell] = jd2; | |
394 | cellcount++; | |
395 | fInfcl[0][cellcount] = icl; | |
396 | fInfcl[1][cellcount] = jd1; | |
397 | fInfcl[2][cellcount] = jd2; | |
398 | } | |
399 | } | |
400 | // --------------------------------------------------------------- | |
401 | // check adc count for neighbour's neighbours recursively and | |
402 | // if nonzero, add these to the cluster. | |
403 | // --------------------------------------------------------------- | |
2c1131dd | 404 | for(i = 1; i < kndim;i++) |
fd30f88e | 405 | { |
406 | if(clust[0][i] != 0) | |
407 | { | |
408 | id1 = clust[0][i]; | |
409 | id2 = clust[1][i]; | |
410 | for(j = 0; j < 6 ; j++) | |
411 | { | |
412 | jd1 = id1 + neibx[j]; | |
413 | jd2 = id2 + neiby[j]; | |
414 | if( (jd1 >= 0 && jd1 < kNDIMX) && | |
415 | (jd2 >= 0 && jd2 < kNDIMY) && | |
416 | fInfocl[0][jd1][jd2] == 0 ) | |
417 | { | |
418 | fInfocl[0][jd1][jd2] = 2; | |
419 | fInfocl[1][jd1][jd2] = icl; | |
420 | numcell++; | |
421 | clust[0][numcell] = jd1; | |
422 | clust[1][numcell] = jd2; | |
423 | cellcount++; | |
424 | fInfcl[0][cellcount] = icl; | |
425 | fInfcl[1][cellcount] = jd1; | |
426 | fInfcl[2][cellcount] = jd2; | |
427 | } | |
428 | } | |
429 | } | |
3edbbba2 | 430 | } |
3edbbba2 | 431 | } |
3edbbba2 | 432 | } |
3edbbba2 | 433 | return cellcount; |
434 | } | |
435 | // ------------------------------------------------------------------------ // | |
562718f9 | 436 | void AliPMDClusteringV1::RefClust(Int_t incr, Double_t edepcell[]) |
3edbbba2 | 437 | { |
438 | // Does the refining of clusters | |
439 | // Takes the big patch and does gaussian fitting and | |
440 | // finds out the more refined clusters | |
441 | // | |
22d01768 | 442 | |
22d01768 | 443 | AliPMDcludata *pmdcludata = 0; |
2c1131dd | 444 | |
445 | const Int_t kNmaxCell = 19; // # of cells surrounding a cluster center | |
446 | ||
447 | Int_t ndim = incr + 1; | |
448 | ||
449 | Int_t *ncl = 0x0; | |
450 | Int_t *clxy = 0x0; | |
be8b7039 | 451 | Int_t i12 = 0, i22 = 0; |
452 | Int_t i = 0, j = 0, k = 0; | |
453 | Int_t i1 = 0, i2 = 0, id = 0, icl = 0; | |
454 | Int_t itest = 0, ihld = 0, ig = 0; | |
455 | Int_t nsupcl = 0, clno = 0, t1 = 0, t2 = 0; | |
562718f9 | 456 | Float_t clusdata[6]; |
be8b7039 | 457 | Double_t x1 = 0, y1 = 0, z1 = 0, x2 = 0, y2 = 0, z2 = 0, rr = 0; |
2c1131dd | 458 | |
459 | ncl = new Int_t [ndim]; | |
460 | clxy = new Int_t [kNmaxCell]; | |
461 | ||
562718f9 | 462 | // Initialisation |
2c1131dd | 463 | for(i = 0; i<ndim; i++) |
464 | { | |
465 | ncl[i] = -1; | |
4e2efa25 | 466 | } |
467 | for(i = 0; i<6; i++) | |
468 | { | |
469 | clusdata[i] = 0.; | |
470 | } | |
471 | for(i = 0; i<19; i++) | |
472 | { | |
473 | clxy[i] = 0; | |
fd30f88e | 474 | } |
562718f9 | 475 | |
fd30f88e | 476 | // clno counts the final clusters |
3edbbba2 | 477 | // nsupcl = # of superclusters; ncl[i]= # of cells in supercluster i |
478 | // x, y and z store (x,y) coordinates of and energy deposited in a cell | |
479 | // xc, yc store (x,y) coordinates of the cluster center | |
480 | // zc stores the energy deposited in a cluster | |
481 | // rc is cluster radius | |
fd30f88e | 482 | |
483 | clno = -1; | |
3edbbba2 | 484 | nsupcl = -1; |
562718f9 | 485 | |
fd30f88e | 486 | for(i = 0; i <= incr; i++) |
487 | { | |
488 | if(fInfcl[0][i] != nsupcl) | |
01c4d84a | 489 | { |
fd30f88e | 490 | nsupcl++; |
01c4d84a | 491 | } |
232daaa8 | 492 | if (nsupcl >= ndim) |
01c4d84a | 493 | { |
fd30f88e | 494 | AliWarning("RefClust: Too many superclusters!"); |
232daaa8 | 495 | nsupcl = ndim - 1; |
fd30f88e | 496 | break; |
01c4d84a | 497 | } |
fd30f88e | 498 | ncl[nsupcl]++; |
3edbbba2 | 499 | } |
fd30f88e | 500 | |
501 | AliDebug(1,Form("Number of cells = %d Number of Superclusters = %d", | |
502 | incr+1,nsupcl+1)); | |
503 | id = -1; | |
504 | icl = -1; | |
562718f9 | 505 | |
fd30f88e | 506 | for(i = 0; i <= nsupcl; i++) |
507 | { | |
508 | if(ncl[i] == 0) | |
01c4d84a | 509 | { |
fd30f88e | 510 | id++; |
511 | icl++; | |
2c1131dd | 512 | if (clno >= 4608) |
fd30f88e | 513 | { |
2c1131dd | 514 | AliWarning("RefClust: Too many clusters! more than 4608"); |
5406008b | 515 | delete [] ncl; |
516 | delete [] clxy; | |
fd30f88e | 517 | return; |
518 | } | |
519 | clno++; | |
520 | i1 = fInfcl[1][id]; | |
521 | i2 = fInfcl[2][id]; | |
522 | ||
78fc1b96 | 523 | i12 = i1 + i2*kNDIMX; |
562718f9 | 524 | |
fd30f88e | 525 | clusdata[0] = fCoord[0][i1][i2]; |
526 | clusdata[1] = fCoord[1][i1][i2]; | |
562718f9 | 527 | clusdata[2] = edepcell[i12]; |
fd30f88e | 528 | clusdata[3] = 1.; |
22bd512d | 529 | clusdata[4] = 999.5; |
530 | clusdata[5] = 999.5; | |
562718f9 | 531 | |
2c1131dd | 532 | clxy[0] = i1*10000 + i2; |
533 | ||
534 | for(Int_t icltr = 1; icltr < kNmaxCell; icltr++) | |
fd30f88e | 535 | { |
562718f9 | 536 | clxy[icltr] = -1; |
3edbbba2 | 537 | } |
e6ba3040 | 538 | |
562718f9 | 539 | pmdcludata = new AliPMDcludata(clusdata,clxy); |
540 | fPMDclucont->Add(pmdcludata); | |
3edbbba2 | 541 | } |
fd30f88e | 542 | else if(ncl[i] == 1) |
543 | { | |
544 | id++; | |
545 | icl++; | |
2c1131dd | 546 | if (clno >= 4608) |
fd30f88e | 547 | { |
2c1131dd | 548 | AliWarning("RefClust: Too many clusters! more than 4608"); |
5406008b | 549 | delete [] ncl; |
550 | delete [] clxy; | |
551 | ||
fd30f88e | 552 | return; |
553 | } | |
554 | clno++; | |
555 | i1 = fInfcl[1][id]; | |
556 | i2 = fInfcl[2][id]; | |
78fc1b96 | 557 | i12 = i1 + i2*kNDIMX; |
562718f9 | 558 | |
fd30f88e | 559 | x1 = fCoord[0][i1][i2]; |
560 | y1 = fCoord[1][i1][i2]; | |
562718f9 | 561 | z1 = edepcell[i12]; |
2c1131dd | 562 | |
563 | clxy[0] = i1*10000 + i2; | |
564 | ||
562718f9 | 565 | id++; |
fd30f88e | 566 | i1 = fInfcl[1][id]; |
567 | i2 = fInfcl[2][id]; | |
562718f9 | 568 | |
2c1131dd | 569 | i22 = i1 + i2*kNDIMX; |
fd30f88e | 570 | x2 = fCoord[0][i1][i2]; |
571 | y2 = fCoord[1][i1][i2]; | |
562718f9 | 572 | z2 = edepcell[i22]; |
2c1131dd | 573 | |
574 | clxy[1] = i1*10000 + i2; | |
575 | ||
576 | ||
577 | for(Int_t icltr = 2; icltr < kNmaxCell; icltr++) | |
fd30f88e | 578 | { |
562718f9 | 579 | clxy[icltr] = -1; |
fd30f88e | 580 | } |
fd30f88e | 581 | |
582 | clusdata[0] = (x1*z1+x2*z2)/(z1+z2); | |
583 | clusdata[1] = (y1*z1+y2*z2)/(z1+z2); | |
584 | clusdata[2] = z1+z2; | |
585 | clusdata[3] = 2.; | |
586 | clusdata[4] = 0.5; | |
587 | clusdata[5] = 0.0; | |
562718f9 | 588 | pmdcludata = new AliPMDcludata(clusdata,clxy); |
589 | fPMDclucont->Add(pmdcludata); | |
3edbbba2 | 590 | } |
fd30f88e | 591 | else |
592 | { | |
2c1131dd | 593 | Int_t *iord, *tc, *t; |
594 | Double_t *x, *y, *z, *xc, *yc, *zc; | |
595 | ||
596 | iord = new Int_t [ncl[i]+1]; | |
597 | tc = new Int_t [ncl[i]+1]; | |
598 | t = new Int_t [ncl[i]+1]; | |
2c1131dd | 599 | x = new Double_t [ncl[i]+1]; |
600 | y = new Double_t [ncl[i]+1]; | |
601 | z = new Double_t [ncl[i]+1]; | |
602 | xc = new Double_t [ncl[i]+1]; | |
603 | yc = new Double_t [ncl[i]+1]; | |
604 | zc = new Double_t [ncl[i]+1]; | |
605 | ||
606 | for( k = 0; k < ncl[i]+1; k++) | |
607 | { | |
608 | iord[k] = -1; | |
609 | t[k] = -1; | |
610 | tc[k] = -1; | |
611 | x[k] = -1; | |
612 | y[k] = -1; | |
613 | z[k] = -1; | |
614 | xc[k] = -1; | |
615 | yc[k] = -1; | |
616 | zc[k] = -1; | |
617 | } | |
fd30f88e | 618 | id++; |
fd30f88e | 619 | // super-cluster of more than two cells - broken up into smaller |
620 | // clusters gaussian centers computed. (peaks separated by > 1 cell) | |
621 | // Begin from cell having largest energy deposited This is first | |
622 | // cluster center | |
623 | i1 = fInfcl[1][id]; | |
624 | i2 = fInfcl[2][id]; | |
78fc1b96 | 625 | i12 = i1 + i2*kNDIMX; |
562718f9 | 626 | |
fd30f88e | 627 | x[0] = fCoord[0][i1][i2]; |
628 | y[0] = fCoord[1][i1][i2]; | |
562718f9 | 629 | z[0] = edepcell[i12]; |
2c1131dd | 630 | t[0] = i1*10000 + i2; |
fd30f88e | 631 | |
2c1131dd | 632 | |
fd30f88e | 633 | iord[0] = 0; |
634 | for(j = 1; j <= ncl[i]; j++) | |
635 | { | |
636 | id++; | |
637 | i1 = fInfcl[1][id]; | |
638 | i2 = fInfcl[2][id]; | |
78fc1b96 | 639 | i12 = i1 + i2*kNDIMX; |
fd30f88e | 640 | iord[j] = j; |
641 | x[j] = fCoord[0][i1][i2]; | |
642 | y[j] = fCoord[1][i1][i2]; | |
562718f9 | 643 | z[j] = edepcell[i12]; |
2c1131dd | 644 | t[j] = i1*10000 + i2; |
3edbbba2 | 645 | } |
fd30f88e | 646 | |
fd30f88e | 647 | // arranging cells within supercluster in decreasing order |
2c1131dd | 648 | |
fd30f88e | 649 | for(j = 1;j <= ncl[i]; j++) |
650 | { | |
651 | itest = 0; | |
652 | ihld = iord[j]; | |
653 | for(i1 = 0; i1 < j; i1++) | |
654 | { | |
655 | if(itest == 0 && z[iord[i1]] < z[ihld]) | |
656 | { | |
657 | itest = 1; | |
658 | for(i2 = j-1; i2 >= i1; i2--) | |
659 | { | |
660 | iord[i2+1] = iord[i2]; | |
661 | } | |
662 | iord[i1] = ihld; | |
663 | } | |
664 | } | |
3edbbba2 | 665 | } |
b634e7ee | 666 | |
667 | if (fClusParam == 1) | |
668 | { | |
669 | // Clustering algorithm returns from here for PP collisions | |
670 | // for pp, only the output of crude clusterng is taken | |
671 | // sigx and sigy are not calculated at this moment | |
672 | ||
673 | Double_t supx=0., supy=0., supz=0.; | |
674 | ||
675 | for(j = 0;j <= ncl[i]; j++) | |
676 | { | |
677 | supx += x[iord[j]]*z[iord[j]]; | |
678 | supy += y[iord[j]]*z[iord[j]]; | |
679 | supz += z[iord[j]]; | |
680 | if(j < 19) | |
681 | { | |
682 | clxy[j] = t[iord[j]]; | |
683 | } | |
684 | } | |
685 | ||
686 | if( ncl[i] + 1 < 19) | |
687 | { | |
688 | for(Int_t ncel = ncl[i] + 1; ncel < kNmaxCell; ncel ++ ) | |
689 | { | |
690 | clxy[ncel] = -1; | |
691 | } | |
692 | } | |
693 | clusdata[0] = supx/supz; | |
694 | clusdata[1] = supy/supz; | |
695 | clusdata[2] = supz; | |
696 | clusdata[3] = ncl[i]+1; | |
697 | clusdata[4] = 0.5; | |
698 | clusdata[5] = 0.0; | |
699 | pmdcludata = new AliPMDcludata(clusdata,clxy); | |
700 | fPMDclucont->Add(pmdcludata); | |
701 | } | |
702 | ||
2c1131dd | 703 | /* MODIFICATION PART STARTS (Tapan July 2008) |
704 | iord[0] is the cell with highest ADC in the crude-cluster | |
705 | ig is the number of local maxima in the crude-cluster | |
706 | For the higest peak we make ig=0 which means first local maximum. | |
707 | Next we go down in terms of the ADC sequence and find out if any | |
708 | more of the cells form local maxima. The definition of local | |
709 | maxima is that all its neighbours are of less ADC compared to it. | |
710 | */ | |
b634e7ee | 711 | |
712 | if (fClusParam == 2) | |
fd30f88e | 713 | { |
b634e7ee | 714 | // This part is to split the supercluster |
715 | // | |
716 | ig = 0; | |
717 | xc[ig] = x[iord[0]]; | |
718 | yc[ig] = y[iord[0]]; | |
719 | zc[ig] = z[iord[0]]; | |
720 | tc[ig] = t[iord[0]]; | |
721 | Int_t ivalid = 0, icount = 0; | |
722 | ||
723 | for(j=1;j<=ncl[i];j++) | |
fd30f88e | 724 | { |
b634e7ee | 725 | x1 = x[iord[j]]; |
726 | y1 = y[iord[j]]; | |
727 | z1 = z[iord[j]]; | |
728 | t1 = t[iord[j]]; | |
729 | rr=Distance(x1,y1,xc[ig],yc[ig]); | |
730 | ||
731 | // Check the cells which are outside the neighbours (rr>1.2) | |
732 | if(rr>1.2 ) | |
2c1131dd | 733 | { |
b634e7ee | 734 | ivalid=0; |
735 | icount=0; | |
736 | for(Int_t j1=1;j1<j;j1++) | |
737 | { | |
738 | icount++; | |
739 | Float_t rr1=Distance(x1,y1,x[iord[j1]],y[iord[j1]]); | |
740 | if(rr1>1.2) ivalid++; | |
741 | } | |
742 | if(ivalid == icount && z1>0.5*zc[ig]) | |
743 | { | |
744 | ig++; | |
745 | xc[ig]=x1; | |
746 | yc[ig]=y1; | |
747 | zc[ig]=z1; | |
748 | tc[ig]=t1; | |
749 | } | |
750 | } | |
751 | } | |
2c1131dd | 752 | |
b634e7ee | 753 | icl=icl+ig+1; |
2c1131dd | 754 | |
b634e7ee | 755 | // We use simple Gaussian weighting. (Tapan Jan 2005) |
756 | // compute the number of cells belonging to each cluster. | |
757 | // cell can be shared between several clusters | |
758 | // in the ratio of cluster energy deposition | |
759 | // To calculate: | |
760 | // (1) number of cells belonging to a cluster (ig) and | |
761 | // (2) total ADC of the cluster (ig) | |
762 | // (3) x and y positions of the cluster | |
2c1131dd | 763 | |
b634e7ee | 764 | |
765 | Int_t *cellCount; | |
766 | Int_t **cellXY; | |
767 | ||
768 | Int_t *status; | |
769 | Double_t *totaladc, *totaladc2, *ncell,*weight; | |
770 | Double_t *xclust, *yclust, *sigxclust, *sigyclust; | |
771 | Double_t *ax, *ay, *ax2, *ay2; | |
772 | ||
773 | ||
774 | status = new Int_t [ncl[i]+1]; | |
775 | cellXY = new Int_t *[ncl[i]+1]; | |
776 | ||
777 | cellCount = new Int_t [ig+1]; | |
778 | totaladc = new Double_t [ig+1]; | |
779 | totaladc2 = new Double_t [ig+1]; | |
780 | ncell = new Double_t [ig+1]; | |
781 | weight = new Double_t [ig+1]; | |
782 | xclust = new Double_t [ig+1]; | |
783 | yclust = new Double_t [ig+1]; | |
784 | sigxclust = new Double_t [ig+1]; | |
785 | sigyclust = new Double_t [ig+1]; | |
786 | ax = new Double_t [ig+1]; | |
787 | ay = new Double_t [ig+1]; | |
788 | ax2 = new Double_t [ig+1]; | |
789 | ay2 = new Double_t [ig+1]; | |
790 | ||
791 | for(j = 0; j < ncl[i]+1; j++) | |
2c1131dd | 792 | { |
b634e7ee | 793 | status[j] = 0; |
794 | cellXY[j] = new Int_t[ig+1]; | |
2c1131dd | 795 | } |
b634e7ee | 796 | //initialization |
797 | for(Int_t kcl = 0; kcl < ig+1; kcl++) | |
fd30f88e | 798 | { |
b634e7ee | 799 | cellCount[kcl] = 0; |
800 | totaladc[kcl] = 0.; | |
801 | totaladc2[kcl] = 0.; | |
802 | ncell[kcl] = 0.; | |
803 | weight[kcl] = 0.; | |
804 | xclust[kcl] = 0.; | |
805 | yclust[kcl] = 0.; | |
806 | sigxclust[kcl] = 0.; | |
807 | sigyclust[kcl] = 0.; | |
808 | ax[kcl] = 0.; | |
809 | ay[kcl] = 0.; | |
810 | ax2[kcl] = 0.; | |
811 | ay2[kcl] = 0.; | |
812 | for(j = 0; j < ncl[i]+1; j++) | |
fd30f88e | 813 | { |
b634e7ee | 814 | cellXY[j][kcl] = 0; |
fd30f88e | 815 | } |
2c1131dd | 816 | } |
b634e7ee | 817 | Double_t sumweight, gweight; |
2c1131dd | 818 | |
b634e7ee | 819 | for(j = 0;j <= ncl[i]; j++) |
820 | { | |
821 | x1 = x[iord[j]]; | |
2c1131dd | 822 | y1 = y[iord[j]]; |
823 | z1 = z[iord[j]]; | |
824 | t1 = t[iord[j]]; | |
b634e7ee | 825 | |
826 | for(Int_t kcl=0; kcl<=ig; kcl++) | |
fd30f88e | 827 | { |
b634e7ee | 828 | x2 = xc[kcl]; |
829 | y2 = yc[kcl]; | |
2c1131dd | 830 | rr = Distance(x1,y1,x2,y2); |
b634e7ee | 831 | t2 = tc[kcl]; |
2c1131dd | 832 | |
b634e7ee | 833 | if(rr==0) |
fd30f88e | 834 | { |
b634e7ee | 835 | ncell[kcl] = 1.; |
836 | totaladc[kcl] = z1; | |
837 | totaladc2[kcl] = z1*z1; | |
838 | ax[kcl] = x1 * z1; | |
839 | ay[kcl] = y1 * z1; | |
840 | ax2[kcl] = 0.; | |
841 | ay2[kcl] = 0.; | |
842 | status[j] = 1; | |
fd30f88e | 843 | } |
844 | } | |
b634e7ee | 845 | } |
846 | ||
847 | for(j = 0; j <= ncl[i]; j++) | |
848 | { | |
849 | Int_t maxweight = 0; | |
850 | Double_t max = 0.; | |
2c1131dd | 851 | |
b634e7ee | 852 | if(status[j] == 0) |
853 | { | |
854 | x1 = x[iord[j]]; | |
855 | y1 = y[iord[j]]; | |
856 | z1 = z[iord[j]]; | |
857 | t1 = t[iord[j]]; | |
858 | sumweight = 0.; | |
859 | ||
860 | for(Int_t kcl = 0; kcl <= ig; kcl++) | |
861 | { | |
862 | x2 = xc[kcl]; | |
863 | y2 = yc[kcl]; | |
864 | rr = Distance(x1,y1,x2,y2); | |
865 | gweight = exp(-(rr*rr)/(2*(1.2*1.2))); | |
866 | weight[kcl] = zc[kcl] * gweight; | |
867 | sumweight = sumweight + weight[kcl]; | |
868 | ||
869 | if(weight[kcl] > max) | |
870 | { | |
871 | max = weight[kcl]; | |
872 | maxweight = kcl; | |
873 | } | |
874 | } | |
875 | ||
876 | cellXY[cellCount[maxweight]][maxweight] = iord[j]; | |
877 | ||
878 | cellCount[maxweight]++; | |
879 | ||
880 | x2 = xc[maxweight]; | |
881 | y2 = yc[maxweight]; | |
882 | totaladc[maxweight] += z1; | |
883 | ax[maxweight] += x1*z1; | |
884 | ay[maxweight] += y1*z1; | |
885 | totaladc2[maxweight] += z1*z1; | |
886 | ax2[maxweight] += z1*(x1-x2)*(x1-x2); | |
887 | ay2[maxweight] += z1*(y1-y2)*(y1-y2); | |
888 | ncell[maxweight]++; | |
889 | ||
890 | } | |
fd30f88e | 891 | } |
fd30f88e | 892 | |
b634e7ee | 893 | for(Int_t kcl = 0; kcl <= ig; kcl++) |
939c3b8e | 894 | { |
b634e7ee | 895 | if(totaladc[kcl] > 0.) |
896 | { | |
897 | xclust[kcl] = (ax[kcl])/ totaladc[kcl]; | |
898 | yclust[kcl] = (ay[kcl])/ totaladc[kcl]; | |
899 | ||
900 | //natasha | |
901 | Float_t sqtotadc = totaladc[kcl]*totaladc[kcl]; | |
902 | if(totaladc2[kcl] >= sqtotadc) | |
903 | { | |
904 | sigxclust[kcl] = 0.25; | |
905 | sigyclust[kcl] = 0.25; | |
906 | } | |
907 | else | |
908 | { | |
909 | sigxclust[kcl] = (totaladc[kcl]/(sqtotadc-totaladc2[kcl]))*ax2[kcl]; | |
910 | sigyclust[kcl] = (totaladc[kcl]/(sqtotadc-totaladc2[kcl]))*ay2[kcl]; | |
911 | } | |
912 | } | |
913 | ||
914 | for(j = 0; j < cellCount[kcl]; j++) clno++; | |
939c3b8e | 915 | |
b634e7ee | 916 | if (clno >= 4608) |
939c3b8e | 917 | { |
b634e7ee | 918 | AliWarning("RefClust: Too many clusters! more than 4608"); |
5406008b | 919 | |
920 | delete [] cellCount; | |
921 | for(Int_t jj = 0; jj < ncl[i]+1; jj++) delete [] cellXY[jj]; | |
232daaa8 | 922 | delete [] cellXY; |
923 | ||
5406008b | 924 | delete [] status; |
925 | delete [] totaladc; | |
926 | delete [] totaladc2; | |
927 | delete [] ncell; | |
928 | delete [] xclust; | |
929 | delete [] yclust; | |
930 | delete [] sigxclust; | |
931 | delete [] sigyclust; | |
932 | delete [] ax; | |
933 | delete [] ay; | |
934 | delete [] ax2; | |
935 | delete [] ay2; | |
936 | delete [] weight; | |
937 | ||
938 | delete [] iord; | |
939 | delete [] tc; | |
940 | delete [] t; | |
941 | delete [] x; | |
942 | delete [] y; | |
943 | delete [] z; | |
944 | delete [] xc; | |
945 | delete [] yc; | |
946 | delete [] zc; | |
947 | ||
948 | ||
949 | delete [] ncl; | |
950 | delete [] clxy; | |
951 | ||
b634e7ee | 952 | return; |
953 | } | |
954 | clusdata[0] = xclust[kcl]; | |
955 | clusdata[1] = yclust[kcl]; | |
956 | clusdata[2] = totaladc[kcl]; | |
957 | clusdata[3] = ncell[kcl]; | |
958 | ||
959 | if(sigxclust[kcl] > sigyclust[kcl]) | |
960 | { | |
961 | clusdata[4] = TMath::Sqrt(sigxclust[kcl]); | |
962 | clusdata[5] = TMath::Sqrt(sigyclust[kcl]); | |
939c3b8e | 963 | } |
964 | else | |
965 | { | |
b634e7ee | 966 | clusdata[4] = TMath::Sqrt(sigyclust[kcl]); |
967 | clusdata[5] = TMath::Sqrt(sigxclust[kcl]); | |
2c1131dd | 968 | } |
b634e7ee | 969 | |
970 | clxy[0] = tc[kcl]; | |
971 | ||
972 | Int_t Ncell=1; | |
973 | for (Int_t ii = 0; ii < cellCount[kcl]; ii++) | |
974 | { | |
975 | if(ii<18) | |
976 | { | |
977 | clxy[Ncell] = t[cellXY[ii][kcl]]; | |
978 | Ncell++; | |
979 | } | |
980 | } | |
981 | ||
982 | pmdcludata = new AliPMDcludata(clusdata,clxy); | |
983 | fPMDclucont->Add(pmdcludata); | |
984 | } | |
985 | delete [] cellCount; | |
986 | for(Int_t jj = 0; jj < ncl[i]+1; jj++) delete [] cellXY[jj]; | |
0eb2bde4 | 987 | delete [] cellXY; |
232daaa8 | 988 | |
b634e7ee | 989 | delete [] status; |
990 | delete [] totaladc; | |
991 | delete [] totaladc2; | |
992 | delete [] ncell; | |
993 | delete [] xclust; | |
994 | delete [] yclust; | |
995 | delete [] sigxclust; | |
996 | delete [] sigyclust; | |
997 | delete [] ax; | |
998 | delete [] ay; | |
999 | delete [] ax2; | |
1000 | delete [] ay2; | |
1001 | delete [] weight; | |
1002 | ||
01c4d84a | 1003 | } |
b634e7ee | 1004 | |
2c1131dd | 1005 | delete [] iord; |
1006 | delete [] tc; | |
1007 | delete [] t; | |
1008 | delete [] x; | |
1009 | delete [] y; | |
1010 | delete [] z; | |
1011 | delete [] xc; | |
1012 | delete [] yc; | |
1013 | delete [] zc; | |
b634e7ee | 1014 | |
1015 | ||
fd30f88e | 1016 | } |
3edbbba2 | 1017 | } |
2c1131dd | 1018 | delete [] ncl; |
1019 | delete [] clxy; | |
3edbbba2 | 1020 | } |
1021 | // ------------------------------------------------------------------------ // | |
fd30f88e | 1022 | Double_t AliPMDClusteringV1::Distance(Double_t x1, Double_t y1, |
1023 | Double_t x2, Double_t y2) | |
3edbbba2 | 1024 | { |
fd30f88e | 1025 | return TMath::Sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2)); |
3edbbba2 | 1026 | } |
1027 | // ------------------------------------------------------------------------ // | |
1028 | void AliPMDClusteringV1::SetEdepCut(Float_t decut) | |
1029 | { | |
1030 | fCutoff = decut; | |
1031 | } | |
1032 | // ------------------------------------------------------------------------ // | |
4755c3f1 | 1033 | void AliPMDClusteringV1::SetClusteringParam(Int_t cluspar) |
1034 | { | |
1035 | fClusParam = cluspar; | |
1036 | } | |
1037 | // ------------------------------------------------------------------------ // |