add set and getter for neutral energy fraction
[u/mrichter/AliRoot.git] / EMCAL / AliEMCALRecParam.cxx
CommitLineData
1e7c9b89 1/**************************************************************************
3a8be91c 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/* $Id$ */
feedcab9 17
3a8be91c 18//-----------------------------------------------------------------------------
19// Container of EMCAL reconstruction parameters
20// The purpose of this object is to store it to OCDB
1e7c9b89 21// and retrieve it in the corresponding reconstruction class:
22// AliEMCALClusterizer, AliEMCALPID, AliEMCALTracker ...
23//
3a8be91c 24// Author: Yuri Kharlov
25//-----------------------------------------------------------------------------
26
1e7c9b89 27// --- Root header files
28//#include "TObjArray.h"
29
30// --- AliRoot header files ---
31#include "AliCDBManager.h"
32#include "AliCDBEntry.h"
33#include "AliEMCALRecParam.h"
34
35ClassImp(AliEMCALRecParam)
36
ee08edde 37TObjArray* AliEMCALRecParam::fgkMaps =0; //ALTRO mappings
1e7c9b89 38
413e6b81 39AliEMCALRecParam::AliEMCALRecParam() :
40 AliDetectorRecoParam(),
41 fClusteringThreshold(0.5),
42 fW0(4.5),
43 fMinECut(0.45),
44 fUnfold(kFALSE),
a435f763 45 fLocMaxCut(0.03),
829ba234 46 fTimeCut(1.),// high value, accept all
47 fTimeMin(-1.),// small value, accept all
48 fTimeMax(1.),// high value, accept all//clustering
ee08edde 49 fClusterizerFlag(AliEMCALRecParam::kClusterizerv1),
5970dfe2 50 fMthCutEta(0.025),
51 fMthCutPhi(0.05),
52 fStep(50),
53 fTrkCutPt(0.0),
54 fTrkCutNITS(0.0),
55 fTrkCutNTPC(50.0), //track matching
413e6b81 56 fHighLowGainFactor(16.0),
57 fOrderParameter(2),
58 fTau(2.35),
59 fNoiseThreshold(3),
9f467289 60 fNPedSamples(5),
46f1d25f 61 fRemoveBadChannels(kFALSE),
62 fFittingAlgorithm(0),
e853f058 63 fUseFALTRO(kTRUE),
64 fFitLEDEvents(kFALSE)//raw signal
c47157cd 65{
66 // default reco values
1e7c9b89 67
68 // PID parameters for Pb Pb from Lambda0 distributions fitted by
69 // a landau inverted + Gaussian for Gammas
70 // and a Landau +Gaussian for Pi0 and hadrons
71 // New parametrisation for
72 // lambda0^2 (=x): f(x) = normLandau*TMath::Landau(((1-mpvlandau)-x),mpvLandau,widthLandau)+normgaus*TMath::Gaus(x,meangaus,sigmagaus) for gammas
73 // lambda0^2 (=x): f(x) = normLandau*TMath::Landau(x,mpvLandau,widthLandau)+normgaus*TMath::Gaus(x,meangaus,sigmagaus) for pi0 & hadrons
74
75 // See AliEMCALPid
76 // (index i) refers to each parameters of the f(lambda0^2)
77 // i=0: normGaus
78 // i=1: meanGaus
79 // i=2: sigmaGaus
80 // i=3: normLandau
81 // i=4: mpvLandau
82 // i=5: sigmaLanda
83 // (index j) refers to the polynomial parameters of the fit of each parameter vs energy
84 // Pb Pb
85
8ba062b1 86 // as a first step, all array elements are initialized to 0.0
ee08edde 87 Int_t i=0, j=0;
8ba062b1 88 for (i = 0; i < 6; i++) {
1e7c9b89 89 for (j = 0; j < 6; j++) {
90 fGamma[i][j] = fPiZero[i][j] = fHadron[i][j] = 0.;
91 fGamma1to10[i][j] = fHadron1to10[i][j]= 0.;
8ba062b1 92 }
9f467289 93 fGammaEnergyProb[i] =0.; // not yet implemented
1e7c9b89 94 fHadronEnergyProb[i]=0.;
95 fPiZeroEnergyProb[i]=0.; // not yet implemented
96
97
8ba062b1 98 }
88cf6bfb 99 // Set here default parameters for Pb+Pb (high flux)
8ba062b1 100
1e7c9b89 101 fGamma[0][0] = -7.656908e-01;
102 fGamma[0][1] = 2.352536e-01;
103 fGamma[0][2] = 1.555996e-02;
104 fGamma[0][3] = 2.243525e-04;
105 fGamma[0][4] = -2.560087e-06;
106
107 fGamma[1][0] = 6.500216e+00;
108 fGamma[1][1] = -2.564958e-01;
109 fGamma[1][2] = 1.967894e-01;
110 fGamma[1][3] = -3.982273e-04;
111 fGamma[1][4] = 2.797737e-06;
112
113 fGamma[2][0] = 2.416489e+00;
114 fGamma[2][1] = -1.601258e-01;
115 fGamma[2][2] = 3.126839e-02;
116 fGamma[2][3] = 3.387532e-04;
117 fGamma[2][4] = -4.089145e-06;
118
119
120 fGamma[3][0] = 0.;
121 fGamma[3][1] = -2.696008e+00;
122 fGamma[3][2] = 6.920305e-01;
123 fGamma[3][3] = -2.281122e-03;
124 fGamma[3][4] = 0.;
125
126 fGamma[4][0] = 2.281564e-01;
127 fGamma[4][1] = -7.575040e-02;
128 fGamma[4][2] = 3.813423e-01;
129 fGamma[4][3] = -1.243854e-04;
130 fGamma[4][4] = 1.232045e-06;
131
132 fGamma[5][0] = -3.290107e-01;
133 fGamma[5][1] = 3.707545e-02;
134 fGamma[5][2] = 2.917397e-03;
135 fGamma[5][3] = 4.695306e-05;
136 fGamma[5][4] = -3.572981e-07;
137
138
139 fHadron[0][0] = 1.519112e-01;
140 fHadron[0][1] = -8.267603e-02;
141 fHadron[0][2] = 1.914574e-02;
142 fHadron[0][3] = -2.677921e-04;
143 fHadron[0][4] = 5.447939e-06;
144
145
146 fHadron[1][0] = 0.;
147 fHadron[1][1] = -7.549870e-02;
148 fHadron[1][2] = 3.930087e-01;
149 fHadron[1][3] = -2.368500e-03;
150 fHadron[1][4] = 0.;
151
1e7c9b89 152 fHadron[2][0] = 0.;
153 fHadron[2][1] = -2.463152e-02;
154 fHadron[2][2] = 1.349257e-01;
155 fHadron[2][3] = -1.089440e-03;
156 fHadron[2][4] = 0.;
157
1e7c9b89 158 fHadron[3][0] = 0.;
159 fHadron[3][1] = 5.101560e-01;
160 fHadron[3][2] = 1.458679e-01;
161 fHadron[3][3] = 4.903068e-04;
162 fHadron[3][4] = 0.;
163
164 fHadron[4][0] = 0.;
165 fHadron[4][1] = -6.693943e-03;
166 fHadron[4][2] = 2.444753e-01;
167 fHadron[4][3] = -5.553749e-05;
168 fHadron[4][4] = 0.;
169
170 fHadron[5][0] = -4.414030e-01;
171 fHadron[5][1] = 2.292277e-01;
172 fHadron[5][2] = -2.433737e-02;
173 fHadron[5][3] = 1.758422e-03;
174 fHadron[5][4] = -3.001493e-05;
175
176
177 fPiZero[0][0] = 5.072157e-01;
178 fPiZero[0][1] = -5.352747e-01;
179 fPiZero[0][2] = 8.499259e-02;
180 fPiZero[0][3] = -3.687401e-03;
181 fPiZero[0][4] = 5.482280e-05;
182
183
184 fPiZero[1][0] = 4.590137e+02;
185 fPiZero[1][1] = -7.079341e+01;
186 fPiZero[1][2] = 4.990735e+00;
187 fPiZero[1][3] = -1.241302e-01;
188 fPiZero[1][4] = 1.065772e-03;
189
190
191 fPiZero[2][0] = 1.376415e+02;
192 fPiZero[2][1] = -3.031577e+01;
193 fPiZero[2][2] = 2.474338e+00;
194 fPiZero[2][3] = -6.903410e-02;
195 fPiZero[2][4] = 6.244089e-04;
196
197 fPiZero[3][0] = 0.;
198 fPiZero[3][1] = 1.145983e+00;
199 fPiZero[3][2] = -2.476052e-01;
200 fPiZero[3][3] = 1.367373e-02;
201 fPiZero[3][4] = 0.;
202
203 fPiZero[4][0] = -2.097586e+02;
204 fPiZero[4][1] = 6.300800e+01;
205 fPiZero[4][2] = -4.038906e+00;
206 fPiZero[4][3] = 1.088543e-01;
207 fPiZero[4][4] = -9.362485e-04;
208
209 fPiZero[5][0] = -1.671477e+01;
210 fPiZero[5][1] = 2.995415e+00;
211 fPiZero[5][2] = -6.040360e-02;
212 fPiZero[5][3] = -6.137459e-04;
213 fPiZero[5][4] = 1.847328e-05;
88cf6bfb 214
1e7c9b89 215 fHadronEnergyProb[0]= 0.;
216 fHadronEnergyProb[1]= 0.;
217 fHadronEnergyProb[2]= 6.188452e-02;
218 fHadronEnergyProb[3]= 2.030230e+00;
219 fHadronEnergyProb[4]= -6.402242e-02;
220
65bec413 221 //unfolding
222 fSSPars[0] = 0.9262;
223 fSSPars[1] = 3.365;
224 fSSPars[2] = 1.548;
225 fSSPars[3] = 0.1625;
226 fSSPars[4] = -0.4195;
227 fSSPars[5] = 0.;
228 fSSPars[6] = 0.;
229 fSSPars[7] = 2.332;
230 fPar5[0] = 12.31;
231 fPar5[1] = -0.007381;
232 fPar5[2] = -0.06936;
233 fPar6[0] = 0.05452;
234 fPar6[1] = 0.0001228;
235 fPar6[2] = 0.001361;
236
1e7c9b89 237}
8ba062b1 238
3a8be91c 239//-----------------------------------------------------------------------------
413e6b81 240AliEMCALRecParam::AliEMCALRecParam(const AliEMCALRecParam& rp) :
241 AliDetectorRecoParam(),
242 fClusteringThreshold(rp.fClusteringThreshold),
243 fW0(rp.fW0),
244 fMinECut(rp.fMinECut),
245 fUnfold(rp.fUnfold),
a435f763 246 fLocMaxCut(rp.fLocMaxCut),
829ba234 247 fTimeCut(rp.fTimeCut),
248 fTimeMin(rp.fTimeMin),
249 fTimeMax(rp.fTimeMax),//clustering
ee08edde 250 fClusterizerFlag(rp.fClusterizerFlag),
5970dfe2 251 fMthCutEta(rp.fMthCutEta),
252 fMthCutPhi(rp.fMthCutPhi),
253 fStep(rp.fStep),
254 fTrkCutPt(rp.fTrkCutPt),
dcd86c5d 255 fTrkCutNITS(rp.fTrkCutNITS),
256 fTrkCutNTPC(rp.fTrkCutNTPC), // track matching
413e6b81 257 fHighLowGainFactor(rp.fHighLowGainFactor),
258 fOrderParameter(rp.fOrderParameter),
259 fTau(rp.fTau),
260 fNoiseThreshold(rp.fNoiseThreshold),
9f467289 261 fNPedSamples(rp.fNPedSamples),
262 fRemoveBadChannels(rp.fRemoveBadChannels),
46f1d25f 263 fFittingAlgorithm(rp.fFittingAlgorithm),
e853f058 264 fUseFALTRO(rp.fUseFALTRO),
265 fFitLEDEvents(rp.fFitLEDEvents) //raw signal
413e6b81 266{
267 //copy constructor
1e7c9b89 268
413e6b81 269 //PID values
ee08edde 270 Int_t i=0, j=0;
413e6b81 271 for (i = 0; i < 6; i++) {
272 for (j = 0; j < 6; j++) {
9f467289 273 fGamma[i][j] = rp.fGamma[i][j];
274 fGamma1to10[i][j] = rp.fGamma1to10[i][j];
275 fHadron[i][j] = rp.fHadron[i][j];
1e7c9b89 276 fHadron1to10[i][j] = rp.fHadron1to10[i][j];
9f467289 277 fPiZero[i][j] = rp.fPiZero[i][j];
413e6b81 278 }
9f467289 279 fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
1e7c9b89 280 fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
281 fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
282
413e6b81 283 }
1e7c9b89 284
65bec413 285 //unfolding
286 for (i = 0; i < 8; i++) {
287 fSSPars[i] = rp.fSSPars[i];
288 }
289 for (i = 0; i < 3; i++) {
290 fPar5[i] = rp.fPar5[i];
291 fPar6[i] = rp.fPar6[i];
292 }
293
413e6b81 294}
295
296//-----------------------------------------------------------------------------
297AliEMCALRecParam& AliEMCALRecParam::operator = (const AliEMCALRecParam& rp)
298{
299 //assignment operator
1e7c9b89 300
413e6b81 301 if(this != &rp) {
302 fClusteringThreshold = rp.fClusteringThreshold;
9f467289 303 fW0 = rp.fW0;
304 fMinECut = rp.fMinECut;
305 fUnfold = rp.fUnfold;
a435f763 306 fLocMaxCut = rp.fLocMaxCut;
64c98165 307 fTimeCut = rp.fTimeCut;
308 fTimeMax = rp.fTimeMax;
309 fTimeMin = rp.fTimeMin;//clustering
5970dfe2 310 fClusterizerFlag = rp.fClusterizerFlag;
311 fMthCutEta = rp.fMthCutEta;
312 fMthCutPhi = rp.fMthCutPhi;
313 fStep = rp.fStep;
314 fTrkCutPt = rp.fTrkCutPt;
315 fTrkCutNITS = rp.fTrkCutNITS;
316 fTrkCutNTPC = rp.fTrkCutNTPC; //track matching
413e6b81 317 fHighLowGainFactor = rp.fHighLowGainFactor;
9f467289 318 fOrderParameter = rp.fOrderParameter;
319 fTau = rp.fTau;
320 fNoiseThreshold = rp.fNoiseThreshold;
321 fNPedSamples = rp.fNPedSamples;
322 fRemoveBadChannels = rp.fRemoveBadChannels;
46f1d25f 323 fFittingAlgorithm = rp.fFittingAlgorithm;
e853f058 324 fUseFALTRO = rp.fUseFALTRO;
64c98165 325 fFitLEDEvents = rp.fFitLEDEvents;//raw signal
9f467289 326
413e6b81 327 //PID values
ee08edde 328 Int_t i=0, j=0;
413e6b81 329 for (i = 0; i < 6; i++) {
330 for (j = 0; j < 6; j++) {
9f467289 331 fGamma[i][j] = rp.fGamma[i][j];
332 fGamma1to10[i][j] = rp.fGamma1to10[i][j];
333 fHadron[i][j] = rp.fHadron[i][j];
1e7c9b89 334 fHadron1to10[i][j] = rp.fHadron1to10[i][j];
9f467289 335 fPiZero[i][j] = rp.fPiZero[i][j];
413e6b81 336 }
9f467289 337 fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
1e7c9b89 338 fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
339 fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
413e6b81 340 }
65bec413 341 //unfolding
342 for (i = 0; i < 8; i++) {
343 fSSPars[i] = rp.fSSPars[i];
344 }
345 for (i = 0; i < 3; i++) {
346 fPar5[i] = rp.fPar5[i];
347 fPar6[i] = rp.fPar6[i];
348 }
349
413e6b81 350 }
351
352 return *this;
1e7c9b89 353
413e6b81 354}
355
356//-----------------------------------------------------------------------------
357AliEMCALRecParam* AliEMCALRecParam::GetDefaultParameters()
358{
359 //default parameters for the reconstruction
88cf6bfb 360 AliEMCALRecParam* params = GetLowFluxParam();
361 params->SetName("Default - p+p");
362 params->SetTitle("Default - p+p");
f5fc991a 363 return params;
1e7c9b89 364
f5fc991a 365}
366
98cf874d 367//-----------------------------------------------------------------------------
368AliEMCALRecParam* AliEMCALRecParam::GetCalibParam()
369{
1e7c9b89 370 //parameters for the reconstruction of calibration runs
371 AliEMCALRecParam* params = GetLowFluxParam();
e658398a 372 //params->SetClusteringThreshold(0.1); // 100 MeV
1e7c9b89 373 //params->SetMinECut(0.01); //10 MeV
374 params->SetName("Calibration - LED");
375 params->SetTitle("Calibration - LED");
376 params->SetEventSpecie(AliRecoParam::kCalib);
377
378 return params;
379
98cf874d 380}
381
382//-----------------------------------------------------------------------------
383AliEMCALRecParam* AliEMCALRecParam::GetCosmicParam()
384{
1e7c9b89 385 //parameters for the reconstruction of cosmic runs
386 AliEMCALRecParam* params = GetLowFluxParam();
e658398a 387 //params->SetClusteringThreshold(0.1); // 100 MeV
1e7c9b89 388 //params->SetMinECut(0.01); //10 MeV
389 params->SetName("Cosmic");
390 params->SetTitle("Cosmic");
391 params->SetEventSpecie(AliRecoParam::kCosmic);
392
393 return params;
394
98cf874d 395}
f5fc991a 396
1e7c9b89 397
f5fc991a 398//-----------------------------------------------------------------------------
399AliEMCALRecParam* AliEMCALRecParam::GetLowFluxParam()
400{
401 //low flux/multiplicity ("p+p") parameters for the reconstruction
402 AliEMCALRecParam* params = new AliEMCALRecParam();
e658398a 403 params->SetClusteringThreshold(0.1); // 100 MeV
f5fc991a 404 params->SetMinECut(0.01); //10 MeV
405 params->SetName("Low Flux - p+p");
406 params->SetTitle("Low Flux - p+p");
407 params->SetEventSpecie(AliRecoParam::kLowMult);
1e7c9b89 408
409
410 //PID parameters for pp implemented
411 // as a first step, all array elements are initialized to 0.0
ee08edde 412 Int_t i=0, j=0;
1e7c9b89 413 for (i = 0; i < 6; i++) {
414 for (j = 0; j < 6; j++) {
415 params->SetGamma(i,j,0.);
416 params->SetGamma1to10(i,j,0.);
417 params->SetHadron(i,j,0.);
418 params->SetHadron1to10(i,j,0.);
419 params->SetPiZero(i,j,0.);
420
421 }
422 params->SetGammaEnergyProb(i,0.); // not yet implemented
423 params->SetHadronEnergyProb(i,0.);
424 params->SetPiZeroEnergyProb(i,0.); // not yet implemented
425 }
426
427
428 params->SetGamma(0,0,-7.656908e-01);
429 params->SetGamma(0,1,2.352536e-01);
430 params->SetGamma(0,2,1.555996e-02);
431 params->SetGamma(0,3,2.243525e-04);
432 params->SetGamma(0,4,-2.560087e-06);
433
434 params->SetGamma(1,0,6.500216e+00);
435 params->SetGamma(1,1,-2.564958e-01);
436 params->SetGamma(1,2,1.967894e-01);
437 params->SetGamma(1,3,-3.982273e-04);
438 params->SetGamma(1,4,2.797737e-06);
439
440 params->SetGamma(2,0,2.416489e+00);
441 params->SetGamma(2,1,-1.601258e-01);
442 params->SetGamma(2,2,3.126839e-02);
443 params->SetGamma(2,3,3.387532e-04);
444 params->SetGamma(2,4,-4.089145e-06);
445
446 params->SetGamma(3,0,0.);
447 params->SetGamma(3,1,-2.696008e+00);
448 params->SetGamma(3,2, 6.920305e-01);
449 params->SetGamma(3,3,-2.281122e-03);
450 params->SetGamma(3,4,0.);
451
452 params->SetGamma(4,0,2.281564e-01);
453 params->SetGamma(4,1,-7.575040e-02);
454 params->SetGamma(4,2,3.813423e-01);
455 params->SetGamma(4,3,-1.243854e-04);
456 params->SetGamma(4,4,1.232045e-06);
457
458 params->SetGamma(5,0,-3.290107e-01);
459 params->SetGamma(5,1,3.707545e-02);
460 params->SetGamma(5,2,2.917397e-03);
461 params->SetGamma(5,3,4.695306e-05);
462 params->SetGamma(5,4,-3.572981e-07);
463
464 params->SetHadron(0,0,9.482243e-01);
465 params->SetHadron(0,1,-2.780896e-01);
466 params->SetHadron(0,2, 2.223507e-02);
467 params->SetHadron(0,3,7.294263e-04);
468 params->SetHadron(0,4,-5.665872e-06);
469
470 params->SetHadron(1,0,0.);
471 params->SetHadron(1,1,0.);
472 params->SetHadron(1,2,2.483298e-01);
473 params->SetHadron(1,3,0.);
474 params->SetHadron(1,4,0.);
475
476 params->SetHadron(2,0,-5.601199e+00);
477 params->SetHadron(2,1,2.097382e+00);
478 params->SetHadron(2,2,-2.307965e-01);
479 params->SetHadron(2,3,9.206871e-03);
480 params->SetHadron(2,4,-8.887548e-05);
481
482 params->SetHadron(3,0,6.543101e+00);
483 params->SetHadron(3,1,-2.305203e+00);
484 params->SetHadron(3,2,2.761673e-01);
485 params->SetHadron(3,3,-5.465855e-03);
486 params->SetHadron(3,4,2.784329e-05);
487
488 params->SetHadron(4,0,-2.443530e+01);
489 params->SetHadron(4,1,8.902578e+00);
490 params->SetHadron(4,2,-5.265901e-01);
491 params->SetHadron(4,3,2.549111e-02);
492 params->SetHadron(4,4,-2.196801e-04);
493
494 params->SetHadron(5,0,2.102007e-01);
495 params->SetHadron(5,1,-3.844418e-02);
496 params->SetHadron(5,2,1.234682e-01);
497 params->SetHadron(5,3,-3.866733e-03);
498 params->SetHadron(5,4,3.362719e-05);
499
500 params->SetPiZero(0,0,5.07215e-01);
501 params->SetPiZero(0,1,-5.35274e-01);
502 params->SetPiZero(0,2,8.49925e-02);
503 params->SetPiZero(0,3,-3.68740e-03);
504 params->SetPiZero(0,4,5.48228e-05);
505
506 params->SetPiZero(1,0,4.590137e+02);
507 params->SetPiZero(1,1,-7.079341e+01);
508 params->SetPiZero(1,2,4.990735e+00);
509 params->SetPiZero(1,3,-1.241302e-01);
510 params->SetPiZero(1,4,1.065772e-03);
511
512 params->SetPiZero(2,0,1.376415e+02);
513 params->SetPiZero(2,1,-3.031577e+01);
514 params->SetPiZero(2,2,2.474338e+00);
515 params->SetPiZero(2,3,-6.903410e-02);
516 params->SetPiZero(2,4,6.244089e-04);
517
518 params->SetPiZero(3,0,0.);
519 params->SetPiZero(3,1,1.145983e+00);
520 params->SetPiZero(3,2,-2.476052e-01);
521 params->SetPiZero(3,3,1.367373e-02);
522 params->SetPiZero(3,4,0.);
523
524 params->SetPiZero(4,0,-2.09758e+02);
525 params->SetPiZero(4,1,6.30080e+01);
526 params->SetPiZero(4,2,-4.03890e+00);
527 params->SetPiZero(4,3,1.08854e-01);
528 params->SetPiZero(4,4,-9.36248e-04);
529
530 params->SetPiZero(5,0,-1.671477e+01);
531 params->SetPiZero(5,1,2.995415e+00);
532 params->SetPiZero(5,2,-6.040360e-02);
533 params->SetPiZero(5,3,-6.137459e-04);
534 params->SetPiZero(5,4,1.847328e-05);
535
536
537// params->SetHadronEnergyProb(0,0.);
538// params->SetHadronEnergyProb(1,0.);
539// params->SetHadronEnergyProb(2,1.);
540// params->SetHadronEnergyProb(3,0.);
541// params->SetHadronEnergyProb(4,0.);
542
543 params->SetHadronEnergyProb(0, 4.767543e-02);
544 params->SetHadronEnergyProb(1,-1.537523e+00);
545 params->SetHadronEnergyProb(2,2.956727e-01);
546 params->SetHadronEnergyProb(3,-3.051022e+01);
547 params->SetHadronEnergyProb(4,-6.036931e-02);
548
549// Int_t ii= 0;
550// Int_t jj= 3;
551// AliDebug(1,Form("PID parameters (%d, %d): fGamma=%.3f, fPi=%.3f, fHadron=%.3f",
552// ii,jj, params->GetGamma(ii,jj), params->GetPiZero(ii,jj), params->GetHadron(ii,jj)));
553// cout << " Low Flux Parameters fGamma [2][2] = " << params->GetGamma(2,2) << endl;
554// cout << " Low Flux Parameters fHadron [2][2] = " << params->GetHadron(2,2) << endl;
555
f5fc991a 556 return params;
557
558}
559
560
561//-----------------------------------------------------------------------------
562AliEMCALRecParam* AliEMCALRecParam::GetHighFluxParam()
563{
564 //high flux/multiplicity ("Pb+Pb") parameters for the reconstruction
565 AliEMCALRecParam* params = new AliEMCALRecParam();
566 //For now, same as default
567 //if later these need to be modified, here's where it is done
568 params->SetName("High Flux - Pb+Pb");
569 params->SetTitle("High Flux - Pb+Pb");
570 params->SetEventSpecie(AliRecoParam::kHighMult);
5970dfe2 571 params->SetTrkCutPt(0.15);//This value can be higher if necessary
1e7c9b89 572
413e6b81 573 return params;
1e7c9b89 574
413e6b81 575}
576
577//-----------------------------------------------------------------------------
798a3f92 578void AliEMCALRecParam::Print(Option_t * opt) const
3a8be91c 579{
3a8be91c 580 // Print reconstruction parameters to stdout
798a3f92 581 // if nothing is specified print all, if "reco" just clusterization/track matching
582 // if "pid", just PID parameters, if "raw", just raw utils parameters.
583 if(!strcmp("",opt) || !strcmp("reco",opt)){
ee08edde 584 AliInfo(Form("Clusterizer selected: %d", fClusterizerFlag));
9dce5a21 585 AliInfo(Form("Clusterization parameters :\n fClusteringThreshold=%.3f,\n fW0=%.3f,\n fMinECut=%.3f,\n fUnfold=%d,\n fLocMaxCut=%.3f,\n fTimeCut=%2.1f ns\n fTimeMin=%2.1f ns\n fTimeMax=%2.1f ns\n",
586 fClusteringThreshold,fW0,fMinECut,fUnfold,fLocMaxCut,fTimeCut*1.e9,fTimeMin*1e9,fTimeMax*1e9));
798a3f92 587
5970dfe2 588 AliInfo(Form("Track-matching cuts :\n dEta<%f, dPhi<%f, step=%f[cm], pT>%f, NITS>%f, NTPC>%f\n",
589 fMthCutEta, fMthCutPhi, fStep, fTrkCutPt, fTrkCutNITS,fTrkCutNTPC));
65bec413 590
591 AliInfo(Form("Unfolding parameters, Shower shape function :\n"));
592 for(Int_t i = 0; i < 8; i++){
593 printf(" %f, ", fSSPars[i]);
594 }
595 printf("\n Parameter 5 : ");
596 for(Int_t i = 0; i < 3; i++){
597 printf(" %f, ", fPar5[i]);
598 }
599 printf("\n Parameter 6 : ");
600 for(Int_t i = 0; i < 3; i++){
601 printf(" %f, ", fPar6[i]);
602 }
603 printf("\n");
8ba062b1 604 }
1e7c9b89 605
798a3f92 606 if(!strcmp("",opt) || !strcmp("pid",opt)){
607 AliInfo(Form("PID parameters, Gamma :\n"));
608 for(Int_t i = 0; i < 6; i++){
609 for(Int_t j = 0; j < 6; j++){
610 printf(" %f, ", fGamma[i][j]);
611 }
612 printf("\n");
8ba062b1 613 }
798a3f92 614
615
616 AliInfo(Form("PID parameters, Hadron :\n"));
617 for(Int_t i = 0; i < 6; i++){
618 for(Int_t j = 0; j < 6; j++){
619 printf(" %f, ", fHadron[i][j]);
620 }
621 printf("\n");
622 }
623
8ba062b1 624 printf("\n");
798a3f92 625
626 AliInfo(Form("PID parameters, Pi0zero :\n"));
627 for(Int_t i = 0; i < 6; i++){
628 for(Int_t j = 0; j < 6; j++){
629 printf(" %f, ", fPiZero[i][j]);
630 }
631 printf("\n");
8ba062b1 632 }
798a3f92 633
8ba062b1 634 printf("\n");
798a3f92 635
636 }
637
638 if(!strcmp("",opt) || !strcmp("raw",opt)){
639 AliInfo(Form("Raw signal parameters: \n gain factor=%f, order=%d, tau=%f, noise threshold=%d, nped samples=%d \n",
640 fHighLowGainFactor,fOrderParameter,fTau,fNoiseThreshold,fNPedSamples));
64c98165 641 AliInfo(Form("Raw signal: remove bad channels? %d, \n \t with fitting algorithm %d, \n \t Use FALTRO %d, Fit LED events %d \n",
642 fRemoveBadChannels, fFittingAlgorithm, fUseFALTRO, fFitLEDEvents));
8ba062b1 643 }
3a8be91c 644}
8ba062b1 645
413e6b81 646//-----------------------------------------------------------------------------
feedcab9 647const TObjArray* AliEMCALRecParam::GetMappings()
648{
413e6b81 649 //Returns array of AliAltroMappings for RCU0..RCUX.
650 //If not found, read it from OCDB.
1e7c9b89 651
413e6b81 652 //Quick check as follows:
1e7c9b89 653 // root [0] AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT"
413e6b81 654 // root [1] AliCDBManager::Instance()->SetRun(1);
655 // root [2] TObjArray* maps = AliEMCALRecParam::GetMappings();
656 // root [3] maps->Print();
1e7c9b89 657
feedcab9 658 if(fgkMaps) return fgkMaps;
1e7c9b89 659
feedcab9 660 AliCDBEntry* entry = AliCDBManager::Instance()->Get("EMCAL/Calib/Mapping");
661 if(entry)
662 fgkMaps = (TObjArray*)entry->GetObject();
1e7c9b89 663
feedcab9 664 return fgkMaps;
1e7c9b89 665
feedcab9 666}
667