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8309c1ab | 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 * | |
f5d41205 | 13 | * provided "as is" without express or implied warranty. * |
14 | **************************************************************************/ | |
15 | ||
16 | /* $Id$ */ | |
17 | ||
18 | /////////////////////////////////////////////////////////////////////////////// | |
19 | // // | |
73bc3a3f | 20 | // ************** Class for ZDC reconstruction ************** // |
21 | // Author: Chiara.Oppedisano@to.infn.it // | |
22 | // // | |
23 | // NOTATIONS ADOPTED TO IDENTIFY DETECTORS (used in different ages!): // | |
24 | // (ZN1,ZP1) or (ZNC, ZPC) or RIGHT refers to side C (RB26) // | |
25 | // (ZN2,ZP2) or (ZNA, ZPA) or LEFT refers to side A (RB24) // | |
f5d41205 | 26 | // // |
27 | /////////////////////////////////////////////////////////////////////////////// | |
28 | ||
29 | ||
73bc3a3f | 30 | #include <TH2F.h> |
31 | #include <TH1D.h> | |
32 | #include <TAxis.h> | |
fd9afd60 | 33 | #include <TMap.h> |
f5d41205 | 34 | |
f5d41205 | 35 | #include "AliRawReader.h" |
36 | #include "AliESDEvent.h" | |
a85132e7 | 37 | #include "AliESDZDC.h" |
f5d41205 | 38 | #include "AliZDCDigit.h" |
39 | #include "AliZDCRawStream.h" | |
40 | #include "AliZDCReco.h" | |
41 | #include "AliZDCReconstructor.h" | |
6024ec85 | 42 | #include "AliZDCPedestals.h" |
73bc3a3f | 43 | #include "AliZDCEnCalib.h" |
960c5431 | 44 | #include "AliZDCSaturationCalib.h" |
73bc3a3f | 45 | #include "AliZDCTowerCalib.h" |
0d579f58 | 46 | #include "AliZDCMBCalib.h" |
27d1ff1f | 47 | #include "AliZDCTDCCalib.h" |
7bff3766 | 48 | #include "AliZDCRecoParam.h" |
49 | #include "AliZDCRecoParampp.h" | |
50 | #include "AliZDCRecoParamPbPb.h" | |
4a72fbdb | 51 | #include "AliRunInfo.h" |
9e05925b | 52 | #include "AliLHCClockPhase.h" |
f5d41205 | 53 | |
54 | ||
55 | ClassImp(AliZDCReconstructor) | |
90936733 | 56 | AliZDCRecoParam *AliZDCReconstructor::fgRecoParam=0; //reconstruction parameters |
57 | AliZDCMBCalib *AliZDCReconstructor::fgMBCalibData=0; //calibration parameters for A-A reconstruction | |
f5d41205 | 58 | |
59 | //_____________________________________________________________________________ | |
60 | AliZDCReconstructor:: AliZDCReconstructor() : | |
1e319f71 | 61 | fPedData(GetPedestalData()), |
62 | fEnCalibData(GetEnergyCalibData()), | |
960c5431 | 63 | fSatCalibData(GetSaturationCalibData()), |
1e319f71 | 64 | fTowCalibData(GetTowerCalibData()), |
27d1ff1f | 65 | fTDCCalibData(GetTDCCalibData()), |
fd9afd60 | 66 | fRecoMode(0), |
42d8b8d5 | 67 | fBeamEnergy(0.), |
73bc3a3f | 68 | fNRun(0), |
69 | fIsCalibrationMB(kFALSE), | |
70 | fPedSubMode(0), | |
af6f24c9 | 71 | fSignalThreshold(7), |
9e05925b | 72 | fMeanPhase(0), |
26428fe7 | 73 | fESDZDC(NULL){ |
f5d41205 | 74 | // **** Default constructor |
f5d41205 | 75 | } |
76 | ||
77 | ||
78 | //_____________________________________________________________________________ | |
79 | AliZDCReconstructor::~AliZDCReconstructor() | |
80 | { | |
81 | // destructor | |
90936733 | 82 | // if(fgRecoParam) delete fgRecoParam; |
73bc3a3f | 83 | if(fPedData) delete fPedData; |
84 | if(fEnCalibData) delete fEnCalibData; | |
960c5431 | 85 | if(fSatCalibData) delete fSatCalibData; |
73bc3a3f | 86 | if(fTowCalibData) delete fTowCalibData; |
af6f24c9 | 87 | if(fgMBCalibData) delete fgMBCalibData; |
88 | if(fESDZDC) delete fESDZDC; | |
f5d41205 | 89 | } |
90 | ||
fd9afd60 | 91 | //____________________________________________________________________________ |
73bc3a3f | 92 | void AliZDCReconstructor::Init() |
fd9afd60 | 93 | { |
9e05925b | 94 | // Setting reconstruction parameters |
95 | ||
4a72fbdb | 96 | TString runType = GetRunInfo()->GetRunType(); |
4a72fbdb | 97 | if((runType.CompareTo("CALIBRATION_MB")) == 0){ |
98 | fIsCalibrationMB = kTRUE; | |
99 | } | |
73bc3a3f | 100 | |
4a72fbdb | 101 | TString beamType = GetRunInfo()->GetBeamType(); |
102 | // This is a temporary solution to allow reconstruction in tests without beam | |
55d9b744 | 103 | if(((beamType.CompareTo("UNKNOWN"))==0) && |
104 | ((runType.CompareTo("PHYSICS"))==0 || (runType.CompareTo("CALIBRATION_BC"))==0)){ | |
4a72fbdb | 105 | fRecoMode=1; |
106 | } | |
81f09162 | 107 | /*else if((beamType.CompareTo("UNKNOWN"))==0){ |
108 | AliError("\t UNKNOWN beam type\n"); | |
4a72fbdb | 109 | return; |
81f09162 | 110 | }*/ |
9e05925b | 111 | |
112 | fBeamEnergy = GetRunInfo()->GetBeamEnergy(); | |
dcb6916a | 113 | if(fBeamEnergy<0.01){ |
114 | AliWarning(" Beam energy value missing -> setting it to 1380 GeV "); | |
115 | fBeamEnergy = 1380.; | |
116 | } | |
117 | ||
4a72fbdb | 118 | if(((beamType.CompareTo("pp"))==0) || ((beamType.CompareTo("p-p"))==0) |
81f09162 | 119 | ||((beamType.CompareTo("PP"))==0) || ((beamType.CompareTo("P-P"))==0)){ |
120 | fRecoMode=1; | |
121 | } | |
ee4b2f68 | 122 | else if(((beamType.CompareTo("p-A"))==0) || ((beamType.CompareTo("A-p"))==0) |
f6c61b40 | 123 | ||((beamType.CompareTo("P-A"))==0) || ((beamType.CompareTo("A-P"))==0)){ |
124 | fRecoMode=1; | |
125 | } | |
2d9c70ab | 126 | else if((beamType.CompareTo("A-A")) == 0 || (beamType.CompareTo("AA")) == 0){ |
4a72fbdb | 127 | fRecoMode=2; |
9e05925b | 128 | if(!fgRecoParam) fgRecoParam = const_cast<AliZDCRecoParam*>(GetRecoParam()); |
129 | if(fgRecoParam){ | |
130 | fgRecoParam->SetGlauberMCDist(fBeamEnergy); | |
131 | } | |
fd9afd60 | 132 | } |
9e05925b | 133 | |
134 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("GRP/Calib/LHCClockPhase"); | |
135 | if (!entry) AliFatal("LHC clock-phase shift is not found in OCDB !"); | |
136 | AliLHCClockPhase *phaseLHC = (AliLHCClockPhase*)entry->GetObject(); | |
4162afb1 | 137 | // 4/2/2011 According to A. Di Mauro BEAM1 measurement is more reliable |
138 | // than BEAM2 and therefore also than the average of the 2 | |
139 | fMeanPhase = phaseLHC->GetMeanPhaseB1(); | |
4a72fbdb | 140 | |
141 | if(fIsCalibrationMB==kFALSE) | |
b184d3dd | 142 | AliInfo(Form("\n\n ***** ZDC reconstruction initialized for %s @ %1.0f + %1.0f GeV *****\n\n", |
143 | beamType.Data(), fBeamEnergy, fBeamEnergy)); | |
fd9afd60 | 144 | |
32e2fda5 | 145 | // if EMD calibration run NO ENERGY CALIBRATION should be performed |
146 | // pp-like reconstruction must be performed (E cailb. coeff. = 1) | |
147 | if((runType.CompareTo("CALIBRATION_EMD")) == 0){ | |
148 | fRecoMode=1; | |
9e05925b | 149 | fBeamEnergy = 1380.; |
32e2fda5 | 150 | } |
151 | ||
b64f2ac3 | 152 | AliInfo(Form("\n ZDC reconstruction mode %d (1 -> p-p, 2-> A-A)\n\n",fRecoMode)); |
153 | ||
af6f24c9 | 154 | fESDZDC = new AliESDZDC(); |
155 | ||
156 | } | |
157 | ||
158 | ||
159 | //____________________________________________________________________________ | |
160 | void AliZDCReconstructor::Init(TString beamType, Float_t beamEnergy) | |
161 | { | |
162 | // Setting reconstruction mode | |
163 | // Needed to work in the HLT framework | |
164 | ||
165 | fIsCalibrationMB = kFALSE; | |
166 | ||
167 | fBeamEnergy = beamEnergy; | |
168 | ||
169 | if(((beamType.CompareTo("pp"))==0) || ((beamType.CompareTo("p-p"))==0) | |
170 | ||((beamType.CompareTo("PP"))==0) || ((beamType.CompareTo("P-P"))==0)){ | |
171 | fRecoMode=1; | |
172 | } | |
ee4b2f68 | 173 | else if(((beamType.CompareTo("p-A"))==0) || ((beamType.CompareTo("A-p"))==0) |
174 | ||((beamType.CompareTo("P-A"))==0) || ((beamType.CompareTo("A-P"))==0)){ | |
175 | fRecoMode=1; | |
176 | } | |
af6f24c9 | 177 | else if((beamType.CompareTo("A-A")) == 0 || (beamType.CompareTo("AA")) == 0){ |
178 | fRecoMode=2; | |
bb98da29 | 179 | if(!fgRecoParam) fgRecoParam = const_cast<AliZDCRecoParam*>(GetRecoParam()); |
180 | if( fgRecoParam ) fgRecoParam->SetGlauberMCDist(fBeamEnergy); | |
181 | } | |
9e05925b | 182 | |
183 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("GRP/Calib/LHCClockPhase"); | |
184 | if (!entry) AliFatal("LHC clock-phase shift is not found in OCDB !"); | |
185 | AliLHCClockPhase *phaseLHC = (AliLHCClockPhase*)entry->GetObject(); | |
186 | fMeanPhase = phaseLHC->GetMeanPhase(); | |
af6f24c9 | 187 | |
188 | fESDZDC = new AliESDZDC(); | |
189 | ||
b184d3dd | 190 | AliInfo(Form("\n\n ***** ZDC reconstruction initialized for %s @ %1.0f + %1.0f GeV *****\n\n", |
191 | beamType.Data(), fBeamEnergy, fBeamEnergy)); | |
af6f24c9 | 192 | |
fd9afd60 | 193 | } |
194 | ||
f5d41205 | 195 | //_____________________________________________________________________________ |
1e319f71 | 196 | void AliZDCReconstructor::Reconstruct(TTree* digitsTree, TTree* clustersTree) const |
f5d41205 | 197 | { |
198 | // *** Local ZDC reconstruction for digits | |
199 | // Works on the current event | |
200 | ||
201 | // Retrieving calibration data | |
42d8b8d5 | 202 | // Parameters for mean value pedestal subtraction |
73bc3a3f | 203 | int const kNch = 24; |
204 | Float_t meanPed[2*kNch]; | |
205 | for(Int_t jj=0; jj<2*kNch; jj++) meanPed[jj] = fPedData->GetMeanPed(jj); | |
42d8b8d5 | 206 | // Parameters pedestal subtraction through correlation with out-of-time signals |
73bc3a3f | 207 | Float_t corrCoeff0[2*kNch], corrCoeff1[2*kNch]; |
208 | for(Int_t jj=0; jj<2*kNch; jj++){ | |
81f09162 | 209 | corrCoeff0[jj] = fPedData->GetPedCorrCoeff0(jj); |
210 | corrCoeff1[jj] = fPedData->GetPedCorrCoeff1(jj); | |
42d8b8d5 | 211 | } |
f5d41205 | 212 | |
213 | // get digits | |
214 | AliZDCDigit digit; | |
215 | AliZDCDigit* pdigit = &digit; | |
216 | digitsTree->SetBranchAddress("ZDC", &pdigit); | |
c35ed519 | 217 | //printf("\n\t # of digits in tree: %d\n",(Int_t) digitsTree->GetEntries()); |
f5d41205 | 218 | |
219 | // loop over digits | |
c35ed519 | 220 | Float_t tZN1Corr[10], tZP1Corr[10], tZN2Corr[10], tZP2Corr[10]; |
73bc3a3f | 221 | Float_t dZEM1Corr[2], dZEM2Corr[2], sPMRef1[2], sPMRef2[2]; |
c35ed519 | 222 | for(Int_t i=0; i<10; i++){ |
223 | tZN1Corr[i] = tZP1Corr[i] = tZN2Corr[i] = tZP2Corr[i] = 0.; | |
73bc3a3f | 224 | if(i<2) dZEM1Corr[i] = dZEM2Corr[i] = sPMRef1[i] = sPMRef2[i] = 0.; |
c35ed519 | 225 | } |
42d8b8d5 | 226 | |
227 | Int_t digNentries = digitsTree->GetEntries(); | |
796c8b58 | 228 | Float_t ootDigi[kNch]; Int_t i=0; |
42d8b8d5 | 229 | // -- Reading out-of-time signals (last kNch entries) for current event |
230 | if(fPedSubMode==1){ | |
231 | for(Int_t iDigit=kNch; iDigit<digNentries; iDigit++){ | |
796c8b58 | 232 | if(i<=kNch) ootDigi[i] = digitsTree->GetEntry(iDigit); |
233 | else AliWarning(" Can't read more out of time values: index>kNch !!!\n"); | |
234 | i++; | |
42d8b8d5 | 235 | } |
236 | } | |
237 | ||
238 | for(Int_t iDigit=0; iDigit<(digNentries/2); iDigit++) { | |
a85132e7 | 239 | digitsTree->GetEntry(iDigit); |
240 | if (!pdigit) continue; | |
a85132e7 | 241 | // |
242 | Int_t det = digit.GetSector(0); | |
243 | Int_t quad = digit.GetSector(1); | |
42d8b8d5 | 244 | Int_t pedindex = -1; |
245 | Float_t ped2SubHg=0., ped2SubLg=0.; | |
246 | if(quad!=5){ | |
247 | if(det==1) pedindex = quad; | |
248 | else if(det==2) pedindex = quad+5; | |
249 | else if(det==3) pedindex = quad+9; | |
250 | else if(det==4) pedindex = quad+12; | |
251 | else if(det==5) pedindex = quad+17; | |
252 | } | |
253 | else pedindex = (det-1)/3+22; | |
a85132e7 | 254 | // |
42d8b8d5 | 255 | if(fPedSubMode==0){ |
256 | ped2SubHg = meanPed[pedindex]; | |
257 | ped2SubLg = meanPed[pedindex+kNch]; | |
258 | } | |
259 | else if(fPedSubMode==1){ | |
260 | ped2SubHg = corrCoeff1[pedindex]*ootDigi[pedindex]+corrCoeff0[pedindex]; | |
261 | ped2SubLg = corrCoeff1[pedindex+kNch]*ootDigi[pedindex+kNch]+corrCoeff0[pedindex+kNch]; | |
262 | } | |
42d8b8d5 | 263 | |
a85132e7 | 264 | if(quad != 5){ // ZDC (not reference PTMs!) |
c35ed519 | 265 | if(det == 1){ // *** ZNC |
42d8b8d5 | 266 | tZN1Corr[quad] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
267 | tZN1Corr[quad+5] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); | |
f5d41205 | 268 | } |
269 | else if(det == 2){ // *** ZP1 | |
42d8b8d5 | 270 | tZP1Corr[quad] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
42d8b8d5 | 271 | tZP1Corr[quad+5] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); |
f5d41205 | 272 | } |
273 | else if(det == 3){ | |
274 | if(quad == 1){ // *** ZEM1 | |
42d8b8d5 | 275 | dZEM1Corr[0] += (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
42d8b8d5 | 276 | dZEM1Corr[1] += (Float_t) (digit.GetADCValue(1)-ped2SubLg); |
f5d41205 | 277 | } |
a85132e7 | 278 | else if(quad == 2){ // *** ZEM2 |
42d8b8d5 | 279 | dZEM2Corr[0] += (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
42d8b8d5 | 280 | dZEM2Corr[1] += (Float_t) (digit.GetADCValue(1)-ped2SubLg); |
f5d41205 | 281 | } |
282 | } | |
283 | else if(det == 4){ // *** ZN2 | |
42d8b8d5 | 284 | tZN2Corr[quad] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
42d8b8d5 | 285 | tZN2Corr[quad+5] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); |
59a953e0 | 286 | } |
f5d41205 | 287 | else if(det == 5){ // *** ZP2 |
42d8b8d5 | 288 | tZP2Corr[quad] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
42d8b8d5 | 289 | tZP2Corr[quad+5] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); |
f5d41205 | 290 | } |
a85132e7 | 291 | } |
c35ed519 | 292 | else{ // Reference PMs |
c35ed519 | 293 | if(det == 1){ |
73bc3a3f | 294 | sPMRef1[0] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
295 | sPMRef1[1] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); | |
c35ed519 | 296 | } |
297 | else if(det == 4){ | |
73bc3a3f | 298 | sPMRef2[0] = (Float_t) (digit.GetADCValue(0)-ped2SubHg); |
299 | sPMRef2[1] = (Float_t) (digit.GetADCValue(1)-ped2SubLg); | |
c35ed519 | 300 | } |
301 | } | |
f5d41205 | 302 | |
73bc3a3f | 303 | // Ch. debug |
59a953e0 | 304 | /*printf("AliZDCReconstructor: digit #%d det %d quad %d pedHG %1.0f pedLG %1.0f\n", |
73bc3a3f | 305 | iDigit, det, quad, ped2SubHg, ped2SubLg); |
59a953e0 | 306 | printf(" -> pedindex %d\n", pedindex); |
307 | printf(" HGChain -> RawDig %d DigCorr %1.2f", | |
308 | digit.GetADCValue(0), digit.GetADCValue(0)-ped2SubHg); | |
309 | printf(" LGChain -> RawDig %d DigCorr %1.2f\n", | |
310 | digit.GetADCValue(1), digit.GetADCValue(1)-ped2SubLg);*/ | |
311 | ||
73bc3a3f | 312 | }//digits loop |
58671297 | 313 | |
81f09162 | 314 | UInt_t counts[32]; |
f53e5ecb | 315 | Int_t tdc[32][4]; |
82dffa48 | 316 | for(Int_t jj=0; jj<32; jj++){ |
317 | counts[jj]=0; | |
f53e5ecb | 318 | for(Int_t ii=0; ii<4; ii++) tdc[jj][ii]=0; |
82dffa48 | 319 | } |
81f09162 | 320 | |
321 | Int_t evQualityBlock[4] = {1,0,0,0}; | |
322 | Int_t triggerBlock[4] = {0,0,0,0}; | |
323 | Int_t chBlock[3] = {0,0,0}; | |
324 | UInt_t puBits=0; | |
73bc3a3f | 325 | |
69550cf5 | 326 | // reconstruct the event |
73bc3a3f | 327 | if(fRecoMode==1) |
fd9afd60 | 328 | ReconstructEventpp(clustersTree, tZN1Corr, tZP1Corr, tZN2Corr, tZP2Corr, |
81f09162 | 329 | dZEM1Corr, dZEM2Corr, sPMRef1, sPMRef2, |
82dffa48 | 330 | kFALSE, counts, tdc, |
81f09162 | 331 | evQualityBlock, triggerBlock, chBlock, puBits); |
73bc3a3f | 332 | else if(fRecoMode==2) |
fd9afd60 | 333 | ReconstructEventPbPb(clustersTree, tZN1Corr, tZP1Corr, tZN2Corr, tZP2Corr, |
81f09162 | 334 | dZEM1Corr, dZEM2Corr, sPMRef1, sPMRef2, |
82dffa48 | 335 | kFALSE, counts, tdc, |
91debfd4 | 336 | evQualityBlock, triggerBlock, chBlock, puBits); |
f5d41205 | 337 | } |
338 | ||
339 | //_____________________________________________________________________________ | |
1e319f71 | 340 | void AliZDCReconstructor::Reconstruct(AliRawReader* rawReader, TTree* clustersTree) const |
f5d41205 | 341 | { |
342 | // *** ZDC raw data reconstruction | |
343 | // Works on the current event | |
344 | ||
345 | // Retrieving calibration data | |
73bc3a3f | 346 | // Parameters for pedestal subtraction |
347 | int const kNch = 24; | |
348 | Float_t meanPed[2*kNch]; | |
349 | for(Int_t jj=0; jj<2*kNch; jj++) meanPed[jj] = fPedData->GetMeanPed(jj); | |
42d8b8d5 | 350 | // Parameters pedestal subtraction through correlation with out-of-time signals |
73bc3a3f | 351 | Float_t corrCoeff0[2*kNch], corrCoeff1[2*kNch]; |
352 | for(Int_t jj=0; jj<2*kNch; jj++){ | |
42d8b8d5 | 353 | corrCoeff0[jj] = fPedData->GetPedCorrCoeff0(jj); |
354 | corrCoeff1[jj] = fPedData->GetPedCorrCoeff1(jj); | |
36660aad | 355 | //printf(" %d %1.4f %1.4f\n", jj,corrCoeff0[jj],corrCoeff1[jj]); |
42d8b8d5 | 356 | } |
f5d41205 | 357 | |
73bc3a3f | 358 | Int_t adcZN1[5], adcZN1oot[5], adcZN1lg[5], adcZN1ootlg[5]; |
359 | Int_t adcZP1[5], adcZP1oot[5], adcZP1lg[5], adcZP1ootlg[5]; | |
360 | Int_t adcZN2[5], adcZN2oot[5], adcZN2lg[5], adcZN2ootlg[5]; | |
361 | Int_t adcZP2[5], adcZP2oot[5], adcZP2lg[5], adcZP2ootlg[5]; | |
362 | Int_t adcZEM[2], adcZEMoot[2], adcZEMlg[2], adcZEMootlg[2]; | |
363 | Int_t pmRef[2], pmRefoot[2], pmReflg[2], pmRefootlg[2]; | |
364 | for(Int_t ich=0; ich<5; ich++){ | |
365 | adcZN1[ich] = adcZN1oot[ich] = adcZN1lg[ich] = adcZN1ootlg[ich] = 0; | |
366 | adcZP1[ich] = adcZP1oot[ich] = adcZP1lg[ich] = adcZP1ootlg[ich] = 0; | |
367 | adcZN2[ich] = adcZN2oot[ich] = adcZN2lg[ich] = adcZN2ootlg[ich] = 0; | |
368 | adcZP2[ich] = adcZP2oot[ich] = adcZP2lg[ich] = adcZP2ootlg[ich] = 0; | |
369 | if(ich<2){ | |
370 | adcZEM[ich] = adcZEMoot[ich] = adcZEMlg[ich] = adcZEMootlg[ich] = 0; | |
371 | pmRef[ich] = pmRefoot[ich] = pmReflg[ich] = pmRefootlg[ich] = 0; | |
372 | } | |
373 | } | |
7bff3766 | 374 | |
c35ed519 | 375 | Float_t tZN1Corr[10], tZP1Corr[10], tZN2Corr[10], tZP2Corr[10]; |
73bc3a3f | 376 | Float_t dZEM1Corr[2], dZEM2Corr[2], sPMRef1[2], sPMRef2[2]; |
c35ed519 | 377 | for(Int_t i=0; i<10; i++){ |
378 | tZN1Corr[i] = tZP1Corr[i] = tZN2Corr[i] = tZP2Corr[i] = 0.; | |
73bc3a3f | 379 | if(i<2) dZEM1Corr[i] = dZEM2Corr[i] = sPMRef1[i] = sPMRef2[i] = 0.; |
c35ed519 | 380 | } |
1e319f71 | 381 | |
81f09162 | 382 | Bool_t isScalerOn=kFALSE; |
32e2fda5 | 383 | Int_t jsc=0, itdc=0, iprevtdc=-1, ihittdc=0; |
82dffa48 | 384 | UInt_t scalerData[32]; |
f53e5ecb | 385 | Int_t tdcData[32][4]; |
82dffa48 | 386 | for(Int_t k=0; k<32; k++){ |
387 | scalerData[k]=0; | |
010f62f2 | 388 | for(Int_t i=0; i<4; i++) tdcData[k][i]=0; |
82dffa48 | 389 | } |
81f09162 | 390 | |
9e05925b | 391 | |
81f09162 | 392 | Int_t evQualityBlock[4] = {1,0,0,0}; |
393 | Int_t triggerBlock[4] = {0,0,0,0}; | |
394 | Int_t chBlock[3] = {0,0,0}; | |
395 | UInt_t puBits=0; | |
396 | ||
82dffa48 | 397 | Int_t kFirstADCGeo=0, kLastADCGeo=3, kScalerGeo=8, kZDCTDCGeo=4, kPUGeo=29; |
81f09162 | 398 | //Int_t kTrigScales=30, kTrigHistory=31; |
399 | ||
400 | // loop over raw data | |
af6f24c9 | 401 | //rawReader->Reset(); |
f5d41205 | 402 | AliZDCRawStream rawData(rawReader); |
73bc3a3f | 403 | while(rawData.Next()){ |
81f09162 | 404 | |
405 | // ***************************** Reading ADCs | |
f70a5526 | 406 | if((rawData.GetADCModule()>=kFirstADCGeo) && (rawData.GetADCModule()<=kLastADCGeo)){ |
407 | //printf(" **** Reading ADC raw data from module %d **** \n",rawData.GetADCModule()); | |
58671297 | 408 | // |
81f09162 | 409 | if((rawData.IsADCDataWord()) && (rawData.GetNChannelsOn()<48)) chBlock[0] = kTRUE; |
410 | if((rawData.IsADCDataWord()) && (rawData.IsOverflow() == kTRUE)) chBlock[1] = kTRUE; | |
411 | if((rawData.IsADCDataWord()) && (rawData.IsUnderflow() == kTRUE)) chBlock[2] = kTRUE; | |
412 | if((rawData.IsADCDataWord()) && (rawData.IsADCEventGood() == kTRUE)) evQualityBlock[0] = kTRUE; | |
f70a5526 | 413 | |
81f09162 | 414 | if((rawData.IsADCDataWord()) && (rawData.IsUnderflow()==kFALSE) |
415 | && (rawData.IsOverflow()==kFALSE) && (rawData.IsADCEventGood()==kTRUE)){ | |
73bc3a3f | 416 | |
58671297 | 417 | Int_t adcMod = rawData.GetADCModule(); |
418 | Int_t det = rawData.GetSector(0); | |
419 | Int_t quad = rawData.GetSector(1); | |
420 | Int_t gain = rawData.GetADCGain(); | |
421 | Int_t pedindex=0; | |
422 | // | |
423 | // Mean pedestal value subtraction ------------------------------------------------------- | |
424 | if(fPedSubMode == 0){ | |
36660aad | 425 | // **** Pb-Pb data taking 2010 -> subtracting some ch. from correlation **** |
73bc3a3f | 426 | // Not interested in o.o.t. signals (ADC modules 2, 3) |
36660aad | 427 | //if(adcMod == 2 || adcMod == 3) continue; |
b64f2ac3 | 428 | // **** Pb-Pb data taking 2011 -> subtracting only ZEM from correlation **** |
429 | if(det==3){ | |
430 | if(adcMod==0 || adcMod==1){ | |
431 | if(gain==0) adcZEM[quad-1] = rawData.GetADCValue(); | |
432 | else adcZEMlg[quad-1] = rawData.GetADCValue(); | |
36660aad | 433 | } |
b64f2ac3 | 434 | else if(adcMod==2 || adcMod==3){ |
435 | if(gain==0) adcZEMoot[quad-1] = rawData.GetADCValue(); | |
436 | else adcZEMootlg[quad-1] = rawData.GetADCValue(); | |
36660aad | 437 | } |
438 | } | |
439 | // When oot values are read the ADC modules 2, 3 can be skipped!!! | |
1e319f71 | 440 | if(adcMod == 2 || adcMod == 3) continue; |
36660aad | 441 | |
442 | // ************************************************************************* | |
73bc3a3f | 443 | if(quad != 5){ // ZDCs (not reference PTMs) |
b64f2ac3 | 444 | if(det==1){ |
73bc3a3f | 445 | pedindex = quad; |
446 | if(gain == 0) tZN1Corr[quad] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
447 | else tZN1Corr[quad+5] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
f5d41205 | 448 | } |
077d2505 | 449 | else if(det==2){ |
73bc3a3f | 450 | pedindex = quad+5; |
451 | if(gain == 0) tZP1Corr[quad] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
452 | else tZP1Corr[quad+5] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
453 | } | |
36660aad | 454 | /*else if(det == 3){ |
73bc3a3f | 455 | pedindex = quad+9; |
456 | if(quad==1){ | |
457 | if(gain == 0) dZEM1Corr[0] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
458 | else dZEM1Corr[1] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
459 | } | |
460 | else if(quad==2){ | |
461 | if(gain == 0) dZEM2Corr[0] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
462 | else dZEM2Corr[1] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
463 | } | |
36660aad | 464 | }*/ |
73bc3a3f | 465 | else if(det == 4){ |
466 | pedindex = quad+12; | |
467 | if(gain == 0) tZN2Corr[quad] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
468 | else tZN2Corr[quad+5] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
469 | } | |
470 | else if(det == 5){ | |
471 | pedindex = quad+17; | |
472 | if(gain == 0) tZP2Corr[quad] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
473 | else tZP2Corr[quad+5] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); | |
f5d41205 | 474 | } |
c35ed519 | 475 | } |
73bc3a3f | 476 | else{ // reference PM |
477 | pedindex = (det-1)/3 + 22; | |
478 | if(det == 1){ | |
479 | if(gain==0) sPMRef1[0] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
81f09162 | 480 | else sPMRef1[1] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); |
73bc3a3f | 481 | } |
482 | else if(det == 4){ | |
483 | if(gain==0) sPMRef2[0] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex]); | |
81f09162 | 484 | else sPMRef2[1] += (Float_t) (rawData.GetADCValue()-meanPed[pedindex+kNch]); |
73bc3a3f | 485 | } |
c35ed519 | 486 | } |
73bc3a3f | 487 | // Ch. debug |
81f09162 | 488 | /*if(gain==0){ |
489 | printf(" AliZDCReconstructor: det %d quad %d res %d -> Pedestal[%d] %1.0f", | |
490 | det,quad,gain, pedindex, meanPed[pedindex]); | |
491 | printf(" RawADC %d ADCCorr %1.0f\n", | |
492 | rawData.GetADCValue(), rawData.GetADCValue()-meanPed[pedindex]); | |
493 | }*/ | |
58671297 | 494 | }// mean pedestal subtraction |
495 | // Pedestal subtraction from correlation ------------------------------------------------ | |
496 | else if(fPedSubMode == 1){ | |
73bc3a3f | 497 | // In time signals |
498 | if(adcMod==0 || adcMod==1){ | |
499 | if(quad != 5){ // signals from ZDCs | |
500 | if(det == 1){ | |
501 | if(gain==0) adcZN1[quad] = rawData.GetADCValue(); | |
502 | else adcZN1lg[quad] = rawData.GetADCValue(); | |
503 | } | |
504 | else if(det == 2){ | |
505 | if(gain==0) adcZP1[quad] = rawData.GetADCValue(); | |
506 | else adcZP1lg[quad] = rawData.GetADCValue(); | |
507 | } | |
508 | else if(det == 3){ | |
509 | if(gain==0) adcZEM[quad-1] = rawData.GetADCValue(); | |
510 | else adcZEMlg[quad-1] = rawData.GetADCValue(); | |
511 | } | |
512 | else if(det == 4){ | |
513 | if(gain==0) adcZN2[quad] = rawData.GetADCValue(); | |
514 | else adcZN2lg[quad] = rawData.GetADCValue(); | |
515 | } | |
516 | else if(det == 5){ | |
517 | if(gain==0) adcZP2[quad] = rawData.GetADCValue(); | |
518 | else adcZP2lg[quad] = rawData.GetADCValue(); | |
519 | } | |
520 | } | |
521 | else{ // signals from reference PM | |
522 | if(gain==0) pmRef[quad-1] = rawData.GetADCValue(); | |
523 | else pmReflg[quad-1] = rawData.GetADCValue(); | |
524 | } | |
525 | } | |
526 | // Out-of-time pedestals | |
527 | else if(adcMod==2 || adcMod==3){ | |
528 | if(quad != 5){ // signals from ZDCs | |
529 | if(det == 1){ | |
530 | if(gain==0) adcZN1oot[quad] = rawData.GetADCValue(); | |
531 | else adcZN1ootlg[quad] = rawData.GetADCValue(); | |
532 | } | |
533 | else if(det == 2){ | |
534 | if(gain==0) adcZP1oot[quad] = rawData.GetADCValue(); | |
535 | else adcZP1ootlg[quad] = rawData.GetADCValue(); | |
536 | } | |
537 | else if(det == 3){ | |
538 | if(gain==0) adcZEMoot[quad-1] = rawData.GetADCValue(); | |
539 | else adcZEMootlg[quad-1] = rawData.GetADCValue(); | |
540 | } | |
541 | else if(det == 4){ | |
542 | if(gain==0) adcZN2oot[quad] = rawData.GetADCValue(); | |
543 | else adcZN2ootlg[quad] = rawData.GetADCValue(); | |
544 | } | |
545 | else if(det == 5){ | |
546 | if(gain==0) adcZP2oot[quad] = rawData.GetADCValue(); | |
547 | else adcZP2ootlg[quad] = rawData.GetADCValue(); | |
548 | } | |
549 | } | |
550 | else{ // signals from reference PM | |
551 | if(gain==0) pmRefoot[quad-1] = rawData.GetADCValue(); | |
552 | else pmRefootlg[quad-1] = rawData.GetADCValue(); | |
553 | } | |
554 | } | |
58671297 | 555 | } // pedestal subtraction from correlation |
556 | // Ch. debug | |
59a953e0 | 557 | /*printf("\t AliZDCReconstructor: det %d quad %d res %d -> Ped[%d] = %1.0f\n", |
558 | det,quad,gain, pedindex, meanPed[pedindex]);*/ | |
58671297 | 559 | }//IsADCDataWord |
81f09162 | 560 | }// ADC DATA |
561 | // ***************************** Reading Scaler | |
562 | else if(rawData.GetADCModule()==kScalerGeo){ | |
27d1ff1f | 563 | if(rawData.IsScalerWord()==kTRUE){ |
81f09162 | 564 | isScalerOn = kTRUE; |
565 | scalerData[jsc] = rawData.GetTriggerCount(); | |
ad3a602e | 566 | // Ch. debug |
567 | //printf(" Reconstructed VME Scaler: %d %d ",jsc,scalerData[jsc]); | |
568 | // | |
81f09162 | 569 | jsc++; |
570 | } | |
571 | }// VME SCALER DATA | |
82dffa48 | 572 | // ***************************** Reading ZDC TDC |
573 | else if(rawData.GetADCModule()==kZDCTDCGeo && rawData.IsZDCTDCDatum()==kTRUE){ | |
32e2fda5 | 574 | itdc = rawData.GetChannel(); |
575 | if(itdc==iprevtdc) ihittdc++; | |
576 | else ihittdc=0; | |
577 | iprevtdc=itdc; | |
650731d2 | 578 | if(ihittdc<4) tdcData[itdc][ihittdc] = rawData.GetZDCTDCDatum(); |
82dffa48 | 579 | // Ch. debug |
27d1ff1f | 580 | //if(ihittdc==0) printf(" TDC%d %d ",itdc, tdcData[itdc][ihittdc]); |
82dffa48 | 581 | }// ZDC TDC DATA |
81f09162 | 582 | // ***************************** Reading PU |
583 | else if(rawData.GetADCModule()==kPUGeo){ | |
584 | puBits = rawData.GetDetectorPattern(); | |
58671297 | 585 | } |
81f09162 | 586 | // ***************************** Reading trigger history |
587 | else if(rawData.IstriggerHistoryWord()==kTRUE){ | |
588 | triggerBlock[0] = rawData.IsCPTInputEMDTrigger(); | |
589 | triggerBlock[1] = rawData.IsCPTInputSemiCentralTrigger(); | |
590 | triggerBlock[2] = rawData.IsCPTInputCentralTrigger(); | |
591 | triggerBlock[3] = rawData.IsCPTInputMBTrigger(); | |
592 | } | |
593 | ||
73bc3a3f | 594 | }//loop on raw data |
595 | ||
596 | if(fPedSubMode==1){ | |
597 | for(Int_t t=0; t<5; t++){ | |
598 | tZN1Corr[t] = adcZN1[t] - (corrCoeff1[t]*adcZN1oot[t]+corrCoeff0[t]); | |
599 | tZN1Corr[t+5] = adcZN1lg[t] - (corrCoeff1[t+kNch]*adcZN1ootlg[t]+corrCoeff0[t+kNch]); | |
600 | // | |
601 | tZP1Corr[t] = adcZP1[t] - (corrCoeff1[t+5]*adcZP1oot[t]+corrCoeff0[t+5]); | |
602 | tZP1Corr[t+5] = adcZP1lg[t] - (corrCoeff1[t+5+kNch]*adcZP1ootlg[t]+corrCoeff0[t+5+kNch]); | |
603 | // | |
604 | tZN2Corr[t] = adcZN2[t] - (corrCoeff1[t+12]*adcZN2oot[t]+corrCoeff0[t+12]); | |
605 | tZN2Corr[t+5] = adcZN2lg[t] - (corrCoeff1[t+12+kNch]*adcZN2ootlg[t]+corrCoeff0[t+12+kNch]); | |
606 | // | |
607 | tZP2Corr[t] = adcZP2[t] - (corrCoeff1[t+17]*adcZP2oot[t]+corrCoeff0[t+17]); | |
608 | tZP2Corr[t+5] = adcZP2lg[t] - (corrCoeff1[t+17+kNch]*adcZP2ootlg[t]+corrCoeff0[t+17+kNch]); | |
73bc3a3f | 609 | } |
36660aad | 610 | dZEM1Corr[0] = adcZEM[0] - (corrCoeff1[10]*adcZEMoot[0]+corrCoeff0[10]); |
611 | dZEM1Corr[1] = adcZEMlg[0] - (corrCoeff1[10+kNch]*adcZEMootlg[0]+corrCoeff0[10+kNch]); | |
612 | dZEM2Corr[0] = adcZEM[1] - (corrCoeff1[11]*adcZEMoot[1]+corrCoeff0[11]); | |
613 | dZEM2Corr[1] = adcZEMlg[1] - (corrCoeff1[11+kNch]*adcZEMootlg[1]+corrCoeff0[11+kNch]); | |
73bc3a3f | 614 | // |
615 | sPMRef1[0] = pmRef[0] - (corrCoeff1[22]*pmRefoot[0]+corrCoeff0[22]); | |
616 | sPMRef1[1] = pmReflg[0] - (corrCoeff1[22+kNch]*pmRefootlg[0]+corrCoeff0[22+kNch]); | |
617 | sPMRef2[0] = pmRef[0] - (corrCoeff1[23]*pmRefoot[1]+corrCoeff0[23]); | |
618 | sPMRef2[1] = pmReflg[0] - (corrCoeff1[23+kNch]*pmRefootlg[1]+corrCoeff0[23+kNch]); | |
f5d41205 | 619 | } |
ae7346df | 620 | if(fPedSubMode==0 && fRecoMode==2){ |
b64f2ac3 | 621 | // **** Pb-Pb data taking 2011 -> subtracting some ch. from correlation **** |
622 | //tZN1Corr[0] = adcZN1[0] - (corrCoeff1[0]*adcZN1oot[0]+corrCoeff0[0]); | |
623 | //tZN1Corr[5] = adcZN1lg[0] - (corrCoeff1[kNch]*adcZN1ootlg[0]+corrCoeff0[kNch]); | |
36660aad | 624 | // Ch. debug |
625 | //printf(" adcZN1 %d adcZN1oot %d tZN1Corr %1.2f \n", adcZN1[0],adcZN1oot[0],tZN1Corr[0]); | |
626 | //printf(" adcZN1lg %d adcZN1ootlg %d tZN1Corrlg %1.2f \n", adcZN1lg[0],adcZN1ootlg[0],tZN1Corr[5]); | |
627 | // | |
077d2505 | 628 | //tZP1Corr[2] = adcZP1[2] - (corrCoeff1[2+5]*adcZP1oot[2]+corrCoeff0[2+5]); |
629 | //tZP1Corr[2+5] = adcZP1lg[2] - (corrCoeff1[2+5+kNch]*adcZP1ootlg[2]+corrCoeff0[2+5+kNch]); | |
36660aad | 630 | // |
631 | dZEM1Corr[0] = adcZEM[0] - (corrCoeff1[10]*adcZEMoot[0]+corrCoeff0[10]); | |
632 | dZEM1Corr[1] = adcZEMlg[0] - (corrCoeff1[10+kNch]*adcZEMootlg[0]+corrCoeff0[10+kNch]); | |
633 | dZEM2Corr[0] = adcZEM[1] - (corrCoeff1[11]*adcZEMoot[1]+corrCoeff0[11]); | |
634 | dZEM2Corr[1] = adcZEMlg[1] - (corrCoeff1[11+kNch]*adcZEMootlg[1]+corrCoeff0[11+kNch]); | |
635 | // ************************************************************************* | |
636 | } | |
ae7346df | 637 | else if(fPedSubMode==0 && fRecoMode==1){ |
638 | // **** p-p data taking 2011 -> temporary patch to overcome DA problem **** | |
ae7346df | 639 | // |
640 | dZEM1Corr[0] = adcZEM[0] - meanPed[10]; | |
641 | dZEM1Corr[1] = adcZEMlg[0] - meanPed[10+kNch]; | |
642 | dZEM2Corr[0] = adcZEM[1] - meanPed[11]; | |
643 | dZEM2Corr[1] = adcZEMlg[1] - meanPed[11+kNch]; | |
644 | // ************************************************************************* | |
645 | } | |
f5d41205 | 646 | |
81f09162 | 647 | if(fRecoMode==1) // p-p data |
648 | ReconstructEventpp(clustersTree, tZN1Corr, tZP1Corr, tZN2Corr, tZP2Corr, | |
649 | dZEM1Corr, dZEM2Corr, sPMRef1, sPMRef2, | |
82dffa48 | 650 | isScalerOn, scalerData, tdcData, |
81f09162 | 651 | evQualityBlock, triggerBlock, chBlock, puBits); |
652 | else if(fRecoMode==2) // Pb-Pb data | |
91debfd4 | 653 | ReconstructEventPbPb(clustersTree, tZN1Corr, tZP1Corr, tZN2Corr, tZP2Corr, |
81f09162 | 654 | dZEM1Corr, dZEM2Corr, sPMRef1, sPMRef2, |
82dffa48 | 655 | isScalerOn, scalerData, tdcData, |
81f09162 | 656 | evQualityBlock, triggerBlock, chBlock, puBits); |
f5d41205 | 657 | } |
658 | ||
659 | //_____________________________________________________________________________ | |
90936733 | 660 | void AliZDCReconstructor::ReconstructEventpp(TTree *clustersTree, |
661 | const Float_t* const corrADCZN1, const Float_t* const corrADCZP1, | |
662 | const Float_t* const corrADCZN2, const Float_t* const corrADCZP2, | |
663 | const Float_t* const corrADCZEM1, const Float_t* const corrADCZEM2, | |
664 | Float_t* sPMRef1, Float_t* sPMRef2, Bool_t isScalerOn, UInt_t* scaler, | |
f53e5ecb | 665 | Int_t tdcData[32][4], const Int_t* const evQualityBlock, |
82dffa48 | 666 | const Int_t* const triggerBlock, const Int_t* const chBlock, UInt_t puBits) const |
f5d41205 | 667 | { |
73bc3a3f | 668 | // ****************** Reconstruct one event ****************** |
59a953e0 | 669 | |
670 | // CH. debug | |
671 | /*printf("\n*************************************************\n"); | |
672 | printf(" ReconstructEventpp -> values after pedestal subtraction:\n"); | |
673 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
674 | corrADCZN1[0],corrADCZN1[1],corrADCZN1[2],corrADCZN1[3],corrADCZN1[4]); | |
675 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
676 | corrADCZP1[0],corrADCZP1[1],corrADCZP1[2],corrADCZP1[3],corrADCZP1[4]); | |
677 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
678 | corrADCZN2[0],corrADCZN2[1],corrADCZN2[2],corrADCZN2[3],corrADCZN2[4]); | |
679 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
680 | corrADCZP2[0],corrADCZP2[1],corrADCZP2[2],corrADCZP2[3],corrADCZP2[4]); | |
681 | printf(" ADCZEM1 [%1.2f] ADCZEM2 [%1.2f] \n",corrADCZEM1[0],corrADCZEM2[0]); | |
682 | printf("*************************************************\n");*/ | |
1e319f71 | 683 | |
81f09162 | 684 | // ---------------------- Setting reco flags for ESD |
6b793021 | 685 | UInt_t rFlags[32]; |
686 | for(Int_t ifl=0; ifl<32; ifl++) rFlags[ifl]=0; | |
81f09162 | 687 | |
688 | if(evQualityBlock[0] == 1) rFlags[31] = 0x0; | |
689 | else rFlags[31] = 0x1; | |
1e319f71 | 690 | // |
81f09162 | 691 | if(evQualityBlock[1] == 1) rFlags[30] = 0x1; |
692 | if(evQualityBlock[2] == 1) rFlags[29] = 0x1; | |
693 | if(evQualityBlock[3] == 1) rFlags[28] = 0x1; | |
694 | ||
695 | if(triggerBlock[0] == 1) rFlags[27] = 0x1; | |
696 | if(triggerBlock[1] == 1) rFlags[26] = 0x1; | |
697 | if(triggerBlock[2] == 1) rFlags[25] = 0x1; | |
698 | if(triggerBlock[3] == 1) rFlags[24] = 0x1; | |
699 | ||
700 | if(chBlock[0] == 1) rFlags[18] = 0x1; | |
701 | if(chBlock[1] == 1) rFlags[17] = 0x1; | |
702 | if(chBlock[2] == 1) rFlags[16] = 0x1; | |
703 | ||
704 | ||
705 | rFlags[13] = puBits & 0x00000020; | |
706 | rFlags[12] = puBits & 0x00000010; | |
707 | rFlags[11] = puBits & 0x00000080; | |
708 | rFlags[10] = puBits & 0x00000040; | |
709 | rFlags[9] = puBits & 0x00000020; | |
710 | rFlags[8] = puBits & 0x00000010; | |
711 | ||
712 | if(corrADCZP1[0]>fSignalThreshold) rFlags[5] = 0x1; | |
713 | if(corrADCZN1[0]>fSignalThreshold) rFlags[4] = 0x1; | |
714 | if(corrADCZEM2[0]>fSignalThreshold) rFlags[3] = 0x1; | |
715 | if(corrADCZEM1[0]>fSignalThreshold) rFlags[2] = 0x1; | |
716 | if(corrADCZP2[0]>fSignalThreshold) rFlags[1] = 0x1; | |
717 | if(corrADCZN2[0]>fSignalThreshold) rFlags[0] = 0x1; | |
718 | ||
719 | UInt_t recoFlag = rFlags[31] << 31 | rFlags[30] << 30 | rFlags[29] << 29 | rFlags[28] << 28 | | |
720 | rFlags[27] << 27 | rFlags[26] << 26 | rFlags[25] << 25 | rFlags[24] << 24 | | |
721 | 0x0 << 23 | 0x0 << 22 | 0x0 << 21 | 0x0 << 20 | | |
722 | 0x0 << 19 | rFlags[18] << 18 | rFlags[17] << 17 | rFlags[16] << 16 | | |
723 | 0x0 << 15 | 0x0 << 14 | rFlags[13] << 13 | rFlags[12] << 12 | | |
724 | rFlags[11] << 11 |rFlags[10] << 10 | rFlags[9] << 9 | rFlags[8] << 8 | | |
725 | 0x0 << 7 | 0x0 << 6 | rFlags[5] << 5 | rFlags[4] << 4 | | |
726 | rFlags[3] << 3 | rFlags[2] << 2 | rFlags[1] << 1 | rFlags[0]; | |
727 | // -------------------------------------------------- | |
1e319f71 | 728 | |
73bc3a3f | 729 | // ****** Retrieving calibration data |
84d6255e | 730 | // --- Equalization coefficients --------------------------------------------- |
f5d41205 | 731 | Float_t equalCoeffZN1[5], equalCoeffZP1[5], equalCoeffZN2[5], equalCoeffZP2[5]; |
732 | for(Int_t ji=0; ji<5; ji++){ | |
73bc3a3f | 733 | equalCoeffZN1[ji] = fTowCalibData->GetZN1EqualCoeff(ji); |
734 | equalCoeffZP1[ji] = fTowCalibData->GetZP1EqualCoeff(ji); | |
735 | equalCoeffZN2[ji] = fTowCalibData->GetZN2EqualCoeff(ji); | |
736 | equalCoeffZP2[ji] = fTowCalibData->GetZP2EqualCoeff(ji); | |
f5d41205 | 737 | } |
84d6255e | 738 | // --- Energy calibration factors ------------------------------------ |
960c5431 | 739 | Float_t calibEne[6], calibSatZNA[4], calibSatZNC[4]; |
42d8b8d5 | 740 | // **** Energy calibration coefficient set to 1 |
741 | // **** (no trivial way to calibrate in p-p runs) | |
76725070 | 742 | for(Int_t ij=0; ij<6; ij++) calibEne[ij] = fEnCalibData->GetEnCalib(ij); |
960c5431 | 743 | for(Int_t ij=0; ij<4; ij++){ |
744 | calibSatZNA[ij] = fSatCalibData->GetZNASatCalib(ij); | |
745 | calibSatZNC[ij] = fSatCalibData->GetZNCSatCalib(ij); | |
746 | } | |
7bff3766 | 747 | |
73bc3a3f | 748 | // ****** Equalization of detector responses |
7bff3766 | 749 | Float_t equalTowZN1[10], equalTowZN2[10], equalTowZP1[10], equalTowZP2[10]; |
73bc3a3f | 750 | for(Int_t gi=0; gi<10; gi++){ |
31474197 | 751 | if(gi<5){ |
752 | equalTowZN1[gi] = corrADCZN1[gi]*equalCoeffZN1[gi]; | |
753 | equalTowZP1[gi] = corrADCZP1[gi]*equalCoeffZP1[gi]; | |
754 | equalTowZN2[gi] = corrADCZN2[gi]*equalCoeffZN2[gi]; | |
755 | equalTowZP2[gi] = corrADCZP2[gi]*equalCoeffZP2[gi]; | |
756 | } | |
757 | else{ | |
758 | equalTowZN1[gi] = corrADCZN1[gi]*equalCoeffZN1[gi-5]; | |
759 | equalTowZP1[gi] = corrADCZP1[gi]*equalCoeffZP1[gi-5]; | |
760 | equalTowZN2[gi] = corrADCZN2[gi]*equalCoeffZN2[gi-5]; | |
761 | equalTowZP2[gi] = corrADCZP2[gi]*equalCoeffZP2[gi-5]; | |
762 | } | |
73bc3a3f | 763 | } |
59a953e0 | 764 | // Ch. debug |
26428fe7 | 765 | /*printf("\n ------------- EQUALIZATION -------------\n"); |
59a953e0 | 766 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", |
767 | equalTowZN1[0],equalTowZN1[1],equalTowZN1[2],equalTowZN1[3],equalTowZN1[4]); | |
768 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
769 | equalTowZP1[0],equalTowZP1[1],equalTowZP1[2],equalTowZP1[3],equalTowZP1[4]); | |
770 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
771 | equalTowZN2[0],equalTowZN2[1],equalTowZN2[2],equalTowZN2[3],equalTowZN2[4]); | |
772 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
773 | equalTowZP2[0],equalTowZP2[1],equalTowZP2[2],equalTowZP2[3],equalTowZP2[4]); | |
26428fe7 | 774 | printf(" ----------------------------------------\n");*/ |
960c5431 | 775 | |
776 | // *** p-A RUN 2013 -> new calibration object | |
777 | // to take into account saturation in ZN PMC | |
778 | // -> 5th order pol. fun. to be applied BEFORE en. calibration | |
779 | equalTowZN1[0] = equalTowZN1[0] + calibSatZNC[0]*equalTowZN1[0]*equalTowZN1[0] + | |
780 | calibSatZNC[1]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0] + | |
781 | calibSatZNC[2]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0] + | |
782 | calibSatZNC[3]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]; | |
783 | equalTowZN2[0] = equalTowZN2[0] + calibSatZNA[0]*equalTowZN2[0]*equalTowZN2[0] + | |
784 | calibSatZNA[1]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0] + | |
785 | calibSatZNA[2]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0] + | |
786 | calibSatZNA[3]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]; | |
787 | ||
26428fe7 | 788 | // Ch. debug |
789 | /*printf("\n ------------- SATURATION CORRECTION -------------\n"); | |
960c5431 | 790 | printf(" ZNC PMC %1.2f\n", equalTowZN1[0]); |
791 | printf(" ZNA PMC %1.2f\n", equalTowZN2[0]); | |
26428fe7 | 792 | printf(" ----------------------------------------\n");*/ |
73bc3a3f | 793 | |
794 | // ****** Summed response for hadronic calorimeter (SUMMED and then CALIBRATED!) | |
795 | Float_t calibSumZN1[]={0,0}, calibSumZN2[]={0,0}, calibSumZP1[]={0,0}, calibSumZP2[]={0,0}; | |
7bff3766 | 796 | for(Int_t gi=0; gi<5; gi++){ |
73bc3a3f | 797 | calibSumZN1[0] += equalTowZN1[gi]; |
798 | calibSumZP1[0] += equalTowZP1[gi]; | |
799 | calibSumZN2[0] += equalTowZN2[gi]; | |
800 | calibSumZP2[0] += equalTowZP2[gi]; | |
801 | // | |
802 | calibSumZN1[1] += equalTowZN1[gi+5]; | |
803 | calibSumZP1[1] += equalTowZP1[gi+5]; | |
804 | calibSumZN2[1] += equalTowZN2[gi+5]; | |
805 | calibSumZP2[1] += equalTowZP2[gi+5]; | |
7bff3766 | 806 | } |
73bc3a3f | 807 | // High gain chain |
59a953e0 | 808 | calibSumZN1[0] = calibSumZN1[0]*calibEne[0]; |
809 | calibSumZP1[0] = calibSumZP1[0]*calibEne[1]; | |
810 | calibSumZN2[0] = calibSumZN2[0]*calibEne[2]; | |
811 | calibSumZP2[0] = calibSumZP2[0]*calibEne[3]; | |
73bc3a3f | 812 | // Low gain chain |
813 | calibSumZN1[1] = calibSumZN1[1]*calibEne[0]; | |
814 | calibSumZP1[1] = calibSumZP1[1]*calibEne[1]; | |
815 | calibSumZN2[1] = calibSumZN2[1]*calibEne[2]; | |
816 | calibSumZP2[1] = calibSumZP2[1]*calibEne[3]; | |
7bff3766 | 817 | |
73bc3a3f | 818 | // ****** Energy calibration of detector responses |
7bff3766 | 819 | Float_t calibTowZN1[10], calibTowZN2[10], calibTowZP1[10], calibTowZP2[10]; |
73bc3a3f | 820 | for(Int_t gi=0; gi<5; gi++){ |
821 | // High gain chain | |
59a953e0 | 822 | calibTowZN1[gi] = equalTowZN1[gi]*calibEne[0]; |
823 | calibTowZP1[gi] = equalTowZP1[gi]*calibEne[1]; | |
824 | calibTowZN2[gi] = equalTowZN2[gi]*calibEne[2]; | |
825 | calibTowZP2[gi] = equalTowZP2[gi]*calibEne[3]; | |
73bc3a3f | 826 | // Low gain chain |
827 | calibTowZN1[gi+5] = equalTowZN1[gi+5]*calibEne[0]; | |
828 | calibTowZP1[gi+5] = equalTowZP1[gi+5]*calibEne[1]; | |
829 | calibTowZN2[gi+5] = equalTowZN2[gi+5]*calibEne[2]; | |
830 | calibTowZP2[gi+5] = equalTowZP2[gi+5]*calibEne[3]; | |
7bff3766 | 831 | } |
73bc3a3f | 832 | // |
833 | Float_t sumZEM[]={0,0}, calibZEM1[]={0,0}, calibZEM2[]={0,0}; | |
c7d86465 | 834 | calibZEM1[0] = corrADCZEM1[0]*calibEne[4]; |
835 | calibZEM1[1] = corrADCZEM1[1]*calibEne[4]; | |
59a953e0 | 836 | calibZEM2[0] = corrADCZEM2[0]*calibEne[5]; |
73bc3a3f | 837 | calibZEM2[1] = corrADCZEM2[1]*calibEne[5]; |
838 | for(Int_t k=0; k<2; k++) sumZEM[k] = calibZEM1[k] + calibZEM2[k]; | |
59a953e0 | 839 | // Ch. debug |
840 | /*printf("\n ------------- CALIBRATION -------------\n"); | |
841 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
842 | calibTowZN1[0],calibTowZN1[1],calibTowZN1[2],calibTowZN1[3],calibTowZN1[4]); | |
843 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
844 | calibTowZP1[0],calibTowZP1[1],calibTowZP1[2],calibTowZP1[3],calibTowZP1[4]); | |
845 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
846 | calibTowZN2[0],calibTowZN2[1],calibTowZN2[2],calibTowZN2[3],calibTowZN2[4]); | |
847 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
848 | calibTowZP2[0],calibTowZP2[1],calibTowZP2[2],calibTowZP2[3],calibTowZP2[4]); | |
849 | printf(" ADCZEM1 [%1.2f] ADCZEM2 [%1.2f] \n",calibZEM1[0],calibZEM2[0]); | |
850 | printf(" ----------------------------------------\n");*/ | |
7bff3766 | 851 | |
73bc3a3f | 852 | // ****** No. of spectator and participants nucleons |
42d8b8d5 | 853 | // Variables calculated to comply with ESD structure |
73bc3a3f | 854 | // *** N.B. -> They have a meaning only in Pb-Pb!!!!!!!!!!!! |
d9ec113e | 855 | Int_t nDetSpecNLeft=0, nDetSpecPLeft=0, nDetSpecNRight=0, nDetSpecPRight=0; |
73bc3a3f | 856 | Int_t nGenSpec=0, nGenSpecLeft=0, nGenSpecRight=0; |
857 | Int_t nPart=0, nPartTotLeft=0, nPartTotRight=0; | |
858 | Double_t impPar=0., impPar1=0., impPar2=0.; | |
7bff3766 | 859 | |
077d2505 | 860 | Bool_t energyFlag = kFALSE; |
7bff3766 | 861 | // create the output tree |
1e319f71 | 862 | AliZDCReco* reco = new AliZDCReco(calibSumZN1, calibSumZP1, calibSumZN2, calibSumZP2, |
863 | calibTowZN1, calibTowZP1, calibTowZN2, calibTowZP2, | |
864 | calibZEM1, calibZEM2, sPMRef1, sPMRef2, | |
865 | nDetSpecNLeft, nDetSpecPLeft, nDetSpecNRight, nDetSpecPRight, | |
866 | nGenSpec, nGenSpecLeft, nGenSpecRight, | |
867 | nPart, nPartTotLeft, nPartTotRight, | |
868 | impPar, impPar1, impPar2, | |
077d2505 | 869 | recoFlag, energyFlag, isScalerOn, scaler, tdcData); |
7bff3766 | 870 | |
1b467dea | 871 | const Int_t kBufferSize = 4000; |
1e319f71 | 872 | clustersTree->Branch("ZDC", "AliZDCReco", &reco, kBufferSize); |
7bff3766 | 873 | // write the output tree |
874 | clustersTree->Fill(); | |
bb98da29 | 875 | delete reco; |
7bff3766 | 876 | } |
877 | ||
878 | //_____________________________________________________________________________ | |
73bc3a3f | 879 | void AliZDCReconstructor::ReconstructEventPbPb(TTree *clustersTree, |
90936733 | 880 | const Float_t* const corrADCZN1, const Float_t* const corrADCZP1, |
881 | const Float_t* const corrADCZN2, const Float_t* const corrADCZP2, | |
882 | const Float_t* const corrADCZEM1, const Float_t* const corrADCZEM2, | |
883 | Float_t* sPMRef1, Float_t* sPMRef2, Bool_t isScalerOn, UInt_t* scaler, | |
f53e5ecb | 884 | Int_t tdcData[32][4], const Int_t* const evQualityBlock, |
82dffa48 | 885 | const Int_t* const triggerBlock, const Int_t* const chBlock, UInt_t puBits) const |
7bff3766 | 886 | { |
73bc3a3f | 887 | // ****************** Reconstruct one event ****************** |
81f09162 | 888 | // ---------------------- Setting reco flags for ESD |
6b793021 | 889 | UInt_t rFlags[32]; |
890 | for(Int_t ifl=0; ifl<32; ifl++) rFlags[ifl]=0; | |
81f09162 | 891 | |
892 | if(evQualityBlock[0] == 1) rFlags[31] = 0x0; | |
893 | else rFlags[31] = 0x1; | |
1e319f71 | 894 | // |
81f09162 | 895 | if(evQualityBlock[1] == 1) rFlags[30] = 0x1; |
896 | if(evQualityBlock[2] == 1) rFlags[29] = 0x1; | |
897 | if(evQualityBlock[3] == 1) rFlags[28] = 0x1; | |
898 | ||
899 | if(triggerBlock[0] == 1) rFlags[27] = 0x1; | |
900 | if(triggerBlock[1] == 1) rFlags[26] = 0x1; | |
901 | if(triggerBlock[2] == 1) rFlags[25] = 0x1; | |
902 | if(triggerBlock[3] == 1) rFlags[24] = 0x1; | |
903 | ||
904 | if(chBlock[0] == 1) rFlags[18] = 0x1; | |
905 | if(chBlock[1] == 1) rFlags[17] = 0x1; | |
906 | if(chBlock[2] == 1) rFlags[16] = 0x1; | |
907 | ||
908 | rFlags[13] = puBits & 0x00000020; | |
909 | rFlags[12] = puBits & 0x00000010; | |
910 | rFlags[11] = puBits & 0x00000080; | |
911 | rFlags[10] = puBits & 0x00000040; | |
912 | rFlags[9] = puBits & 0x00000020; | |
913 | rFlags[8] = puBits & 0x00000010; | |
914 | ||
915 | if(corrADCZP1[0]>fSignalThreshold) rFlags[5] = 0x1; | |
916 | if(corrADCZN1[0]>fSignalThreshold) rFlags[4] = 0x1; | |
917 | if(corrADCZEM2[0]>fSignalThreshold) rFlags[3] = 0x1; | |
918 | if(corrADCZEM1[0]>fSignalThreshold) rFlags[2] = 0x1; | |
919 | if(corrADCZP2[0]>fSignalThreshold) rFlags[1] = 0x1; | |
920 | if(corrADCZN2[0]>fSignalThreshold) rFlags[0] = 0x1; | |
921 | ||
922 | UInt_t recoFlag = rFlags[31] << 31 | rFlags[30] << 30 | rFlags[29] << 29 | rFlags[28] << 28 | | |
923 | rFlags[27] << 27 | rFlags[26] << 26 | rFlags[25] << 25 | rFlags[24] << 24 | | |
924 | 0x0 << 23 | 0x0 << 22 | 0x0 << 21 | 0x0 << 20 | | |
925 | 0x0 << 19 | rFlags[18] << 18 | rFlags[17] << 17 | rFlags[16] << 16 | | |
926 | 0x0 << 15 | 0x0 << 14 | rFlags[13] << 13 | rFlags[12] << 12 | | |
927 | rFlags[11] << 11 |rFlags[10] << 10 | rFlags[9] << 9 | rFlags[8] << 8 | | |
928 | 0x0 << 7 | 0x0 << 6 | rFlags[5] << 5 | rFlags[4] << 4 | | |
929 | rFlags[3] << 3 | rFlags[2] << 2 | rFlags[1] << 1 | rFlags[0]; | |
930 | // -------------------------------------------------- | |
931 | ||
2c62f191 | 932 | |
933 | // CH. debug | |
934 | /* printf("\n*************************************************\n"); | |
935 | printf(" ReconstructEventPbPb -> values after pedestal subtraction:\n"); | |
936 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
937 | corrADCZN1[0],corrADCZN1[1],corrADCZN1[2],corrADCZN1[3],corrADCZN1[4]); | |
938 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
939 | corrADCZP1[0],corrADCZP1[1],corrADCZP1[2],corrADCZP1[3],corrADCZP1[4]); | |
940 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
941 | corrADCZN2[0],corrADCZN2[1],corrADCZN2[2],corrADCZN2[3],corrADCZN2[4]); | |
942 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
943 | corrADCZP2[0],corrADCZP2[1],corrADCZP2[2],corrADCZP2[3],corrADCZP2[4]); | |
944 | printf(" ADCZEM1 [%1.2f] ADCZEM2 [%1.2f] \n",corrADCZEM1[0],corrADCZEM2[0]); | |
945 | printf("*************************************************\n"); | |
946 | */ | |
73bc3a3f | 947 | // ****** Retrieving calibration data |
7bff3766 | 948 | // --- Equalization coefficients --------------------------------------------- |
949 | Float_t equalCoeffZN1[5], equalCoeffZP1[5], equalCoeffZN2[5], equalCoeffZP2[5]; | |
950 | for(Int_t ji=0; ji<5; ji++){ | |
73bc3a3f | 951 | equalCoeffZN1[ji] = fTowCalibData->GetZN1EqualCoeff(ji); |
952 | equalCoeffZP1[ji] = fTowCalibData->GetZP1EqualCoeff(ji); | |
953 | equalCoeffZN2[ji] = fTowCalibData->GetZN2EqualCoeff(ji); | |
954 | equalCoeffZP2[ji] = fTowCalibData->GetZP2EqualCoeff(ji); | |
7bff3766 | 955 | } |
956 | // --- Energy calibration factors ------------------------------------ | |
960c5431 | 957 | Float_t calibEne[6], calibSatZNA[4], calibSatZNC[4]; |
958 | // **** Energy calibration coefficient set to 1 | |
959 | // **** (no trivial way to calibrate in p-p runs) | |
2c62f191 | 960 | for(Int_t ij=0; ij<6; ij++) calibEne[ij] = fEnCalibData->GetEnCalib(ij); |
960c5431 | 961 | for(Int_t ij=0; ij<4; ij++){ |
962 | calibSatZNA[ij] = fSatCalibData->GetZNASatCalib(ij); | |
963 | calibSatZNC[ij] = fSatCalibData->GetZNCSatCalib(ij); | |
964 | } | |
f5d41205 | 965 | |
73bc3a3f | 966 | // ****** Equalization of detector responses |
c35ed519 | 967 | Float_t equalTowZN1[10], equalTowZN2[10], equalTowZP1[10], equalTowZP2[10]; |
73bc3a3f | 968 | for(Int_t gi=0; gi<10; gi++){ |
31474197 | 969 | if(gi<5){ |
970 | equalTowZN1[gi] = corrADCZN1[gi]*equalCoeffZN1[gi]; | |
971 | equalTowZP1[gi] = corrADCZP1[gi]*equalCoeffZP1[gi]; | |
972 | equalTowZN2[gi] = corrADCZN2[gi]*equalCoeffZN2[gi]; | |
973 | equalTowZP2[gi] = corrADCZP2[gi]*equalCoeffZP2[gi]; | |
974 | } | |
975 | else{ | |
976 | equalTowZN1[gi] = corrADCZN1[gi]*equalCoeffZN1[gi-5]; | |
977 | equalTowZP1[gi] = corrADCZP1[gi]*equalCoeffZP1[gi-5]; | |
978 | equalTowZN2[gi] = corrADCZN2[gi]*equalCoeffZN2[gi-5]; | |
979 | equalTowZP2[gi] = corrADCZP2[gi]*equalCoeffZP2[gi-5]; | |
980 | } | |
f5d41205 | 981 | } |
982 | ||
2c62f191 | 983 | // Ch. debug |
984 | /* printf("\n ------------- EQUALIZATION -------------\n"); | |
985 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
986 | equalTowZN1[0],equalTowZN1[1],equalTowZN1[2],equalTowZN1[3],equalTowZN1[4]); | |
987 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
988 | equalTowZP1[0],equalTowZP1[1],equalTowZP1[2],equalTowZP1[3],equalTowZP1[4]); | |
989 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
990 | equalTowZN2[0],equalTowZN2[1],equalTowZN2[2],equalTowZN2[3],equalTowZN2[4]); | |
991 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
992 | equalTowZP2[0],equalTowZP2[1],equalTowZP2[2],equalTowZP2[3],equalTowZP2[4]); | |
993 | printf(" ----------------------------------------\n"); | |
994 | */ | |
995 | ||
960c5431 | 996 | // *** p-A RUN 2013 -> new calibration object |
997 | // to take into account saturation in ZN PMC | |
998 | // -> 5th order pol. fun. to be applied BEFORE en. calibration | |
999 | equalTowZN1[0] = equalTowZN1[0] + calibSatZNC[0]*equalTowZN1[0]*equalTowZN1[0] + | |
1000 | calibSatZNC[1]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0] + | |
1001 | calibSatZNC[2]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0] + | |
1002 | calibSatZNC[3]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]*equalTowZN1[0]; | |
1003 | equalTowZN2[0] = equalTowZN2[0] + calibSatZNA[0]*equalTowZN2[0]*equalTowZN2[0] + | |
1004 | calibSatZNA[1]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0] + | |
1005 | calibSatZNA[2]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0] + | |
1006 | calibSatZNA[3]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]*equalTowZN2[0]; | |
1007 | ||
73bc3a3f | 1008 | // ****** Summed response for hadronic calorimeter (SUMMED and then CALIBRATED!) |
c9102a72 | 1009 | Float_t calibSumZN1[]={0,0}, calibSumZN2[]={0,0}, calibSumZP1[]={0,0}, calibSumZP2[]={0,0}; |
73bc3a3f | 1010 | for(Int_t gi=0; gi<5; gi++){ |
1011 | calibSumZN1[0] += equalTowZN1[gi]; | |
1012 | calibSumZP1[0] += equalTowZP1[gi]; | |
1013 | calibSumZN2[0] += equalTowZN2[gi]; | |
1014 | calibSumZP2[0] += equalTowZP2[gi]; | |
1015 | // | |
1016 | calibSumZN1[1] += equalTowZN1[gi+5]; | |
1017 | calibSumZP1[1] += equalTowZP1[gi+5]; | |
1018 | calibSumZN2[1] += equalTowZN2[gi+5]; | |
1019 | calibSumZP2[1] += equalTowZP2[gi+5]; | |
f5d41205 | 1020 | } |
2c62f191 | 1021 | // |
2413fd18 | 1022 | //fEnCalibData->Print(""); |
2c62f191 | 1023 | |
73bc3a3f | 1024 | // High gain chain |
1b32dcc6 | 1025 | calibSumZN1[0] = calibSumZN1[0]*calibEne[0]*8.; |
1026 | calibSumZP1[0] = calibSumZP1[0]*calibEne[1]*8.; | |
1027 | calibSumZN2[0] = calibSumZN2[0]*calibEne[2]*8.; | |
1028 | calibSumZP2[0] = calibSumZP2[0]*calibEne[3]*8.; | |
73bc3a3f | 1029 | // Low gain chain |
1030 | calibSumZN1[1] = calibSumZN1[1]*calibEne[0]; | |
1031 | calibSumZP1[1] = calibSumZP1[1]*calibEne[1]; | |
1032 | calibSumZN2[1] = calibSumZN2[1]*calibEne[2]; | |
1033 | calibSumZP2[1] = calibSumZP2[1]*calibEne[3]; | |
7bff3766 | 1034 | // |
73bc3a3f | 1035 | Float_t sumZEM[]={0,0}, calibZEM1[]={0,0}, calibZEM2[]={0,0}; |
960c5431 | 1036 | calibZEM1[0] = corrADCZEM1[0]*calibEne[4]; |
c7d86465 | 1037 | calibZEM1[1] = corrADCZEM1[1]*calibEne[4]; |
960c5431 | 1038 | calibZEM2[0] = corrADCZEM2[0]*calibEne[5]; |
73bc3a3f | 1039 | calibZEM2[1] = corrADCZEM2[1]*calibEne[5]; |
1040 | for(Int_t k=0; k<2; k++) sumZEM[k] = calibZEM1[k] + calibZEM2[k]; | |
1041 | ||
1042 | // ****** Energy calibration of detector responses | |
1043 | Float_t calibTowZN1[10], calibTowZN2[10], calibTowZP1[10], calibTowZP2[10]; | |
1044 | for(Int_t gi=0; gi<5; gi++){ | |
1045 | // High gain chain | |
6f915a8f | 1046 | calibTowZN1[gi] = equalTowZN1[gi]*2*calibEne[0]*8.; |
1047 | calibTowZP1[gi] = equalTowZP1[gi]*2*calibEne[1]*8.; | |
1048 | calibTowZN2[gi] = equalTowZN2[gi]*2*calibEne[2]*8.; | |
1049 | calibTowZP2[gi] = equalTowZP2[gi]*2*calibEne[3]*8.; | |
73bc3a3f | 1050 | // Low gain chain |
6f915a8f | 1051 | calibTowZN1[gi+5] = equalTowZN1[gi+5]*2*calibEne[0]; |
1052 | calibTowZP1[gi+5] = equalTowZP1[gi+5]*2*calibEne[1]; | |
1053 | calibTowZN2[gi+5] = equalTowZN2[gi+5]*2*calibEne[2]; | |
1054 | calibTowZP2[gi+5] = equalTowZP2[gi+5]*2*calibEne[3]; | |
73bc3a3f | 1055 | } |
2c62f191 | 1056 | |
1057 | // Ch. debug | |
1058 | /* printf("\n ------------- CALIBRATION -------------\n"); | |
1059 | printf(" ADCZN1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
1060 | calibTowZN1[0],calibTowZN1[1],calibTowZN1[2],calibTowZN1[3],calibTowZN1[4]); | |
1061 | printf(" ADCZP1 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
1062 | calibTowZP1[0],calibTowZP1[1],calibTowZP1[2],calibTowZP1[3],calibTowZP1[4]); | |
1063 | printf(" ADCZN2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
1064 | calibTowZN2[0],calibTowZN2[1],calibTowZN2[2],calibTowZN2[3],calibTowZN2[4]); | |
1065 | printf(" ADCZP2 [%1.2f %1.2f %1.2f %1.2f %1.2f]\n", | |
1066 | calibTowZP2[0],calibTowZP2[1],calibTowZP2[2],calibTowZP2[3],calibTowZP2[4]); | |
1067 | printf(" ADCZEM1 [%1.2f] ADCZEM2 [%1.2f] \n",calibZEM1[0],calibZEM2[0]); | |
1068 | printf(" ----------------------------------------\n"); | |
1069 | */ | |
73bc3a3f | 1070 | // ****** Number of detected spectator nucleons |
d9ec113e | 1071 | Int_t nDetSpecNLeft=0, nDetSpecPLeft=0, nDetSpecNRight=0, nDetSpecPRight=0; |
90936733 | 1072 | if(fBeamEnergy>0.01){ |
fd9afd60 | 1073 | nDetSpecNLeft = (Int_t) (calibSumZN1[0]/fBeamEnergy); |
1074 | nDetSpecPLeft = (Int_t) (calibSumZP1[0]/fBeamEnergy); | |
1075 | nDetSpecNRight = (Int_t) (calibSumZN2[0]/fBeamEnergy); | |
1076 | nDetSpecPRight = (Int_t) (calibSumZP2[0]/fBeamEnergy); | |
1077 | } | |
73bc3a3f | 1078 | else AliWarning(" ATTENTION!!! fBeamEnergy=0 -> N_spec will be ZERO!!! \n"); |
af6f24c9 | 1079 | /*printf("\n\t AliZDCReconstructor -> fBeamEnergy %1.0f: nDetSpecNsideA %d, nDetSpecPsideA %d," |
2c62f191 | 1080 | " nDetSpecNsideC %d, nDetSpecPsideC %d\n",fBeamEnergy,nDetSpecNLeft, nDetSpecPLeft, |
af6f24c9 | 1081 | nDetSpecNRight, nDetSpecPRight);*/ |
73bc3a3f | 1082 | |
1e319f71 | 1083 | Int_t nGenSpec=0, nGenSpecA=0, nGenSpecC=0; |
1084 | Int_t nPart=0, nPartA=0, nPartC=0; | |
1085 | Double_t b=0., bA=0., bC=0.; | |
1086 | ||
73bc3a3f | 1087 | if(fIsCalibrationMB == kFALSE){ |
6318fa5a | 1088 | // ****** Reconstruction parameters ------------------ |
1089 | if(!fgRecoParam) fgRecoParam = const_cast<AliZDCRecoParam*>(GetRecoParam()); | |
1090 | if(!fgRecoParam){ | |
1091 | AliError(" RecoParam object not retrieved correctly: not reconstructing ZDC event!!!"); | |
1092 | return; | |
1093 | } | |
1094 | TH1D* hNpartDist = fgRecoParam->GethNpartDist(); | |
1095 | TH1D* hbDist = fgRecoParam->GethbDist(); | |
1096 | Float_t fClkCenter = fgRecoParam->GetClkCenter(); | |
1097 | if(!hNpartDist || !hbDist){ | |
1098 | AliError("Something wrong in Glauber MC histos got from AliZDCREcoParamPbPb: NO EVENT RECO FOR ZDC DATA!!!\n\n"); | |
1099 | //return; | |
1100 | } | |
1101 | else{ | |
9e05925b | 1102 | if(!fgMBCalibData) fgMBCalibData = const_cast<AliZDCMBCalib*>(GetMBCalibData()); |
90936733 | 1103 | TH2F *hZDCvsZEM = fgMBCalibData->GethZDCvsZEM(); |
1104 | TH2F *hZDCCvsZEM = fgMBCalibData->GethZDCCvsZEM(); | |
1105 | TH2F *hZDCAvsZEM = fgMBCalibData->GethZDCAvsZEM(); | |
0d579f58 | 1106 | // |
73bc3a3f | 1107 | Double_t xHighEdge = hZDCvsZEM->GetXaxis()->GetXmax(); |
9e05925b | 1108 | Double_t origin = xHighEdge*fClkCenter; |
73bc3a3f | 1109 | // Ch. debug |
1e319f71 | 1110 | //printf("\n\n xHighEdge %1.2f, origin %1.4f \n", xHighEdge, origin); |
73bc3a3f | 1111 | // |
1112 | // ====> Summed ZDC info (sideA+side C) | |
1113 | TF1 *line = new TF1("line","[0]*x+[1]",0.,xHighEdge); | |
1114 | Float_t y = (calibSumZN1[0]+calibSumZP1[0]+calibSumZN2[0]+calibSumZP2[0])/1000.; | |
1115 | Float_t x = (calibZEM1[0]+calibZEM2[0])/1000.; | |
1116 | line->SetParameter(0, y/(x-origin)); | |
1117 | line->SetParameter(1, -origin*y/(x-origin)); | |
1118 | // Ch. debug | |
1e319f71 | 1119 | //printf(" ***************** Summed ZDC info (sideA+side C) \n"); |
1120 | //printf(" E_{ZEM} %1.4f, E_{ZDC} %1.2f, TF1: %1.2f*x + %1.2f ", x, y,y/(x-origin),-origin*y/(x-origin)); | |
73bc3a3f | 1121 | // |
1122 | Double_t countPerc=0; | |
1123 | Double_t xBinCenter=0, yBinCenter=0; | |
1124 | for(Int_t nbinx=1; nbinx<=hZDCvsZEM->GetNbinsX(); nbinx++){ | |
1125 | for(Int_t nbiny=1; nbiny<=hZDCvsZEM->GetNbinsY(); nbiny++){ | |
1126 | xBinCenter = hZDCvsZEM->GetXaxis()->GetBinCenter(nbinx); | |
1127 | yBinCenter = hZDCvsZEM->GetYaxis()->GetBinCenter(nbiny); | |
1128 | // | |
1129 | if(line->GetParameter(0)>0){ | |
1130 | if(yBinCenter < (line->GetParameter(0)*xBinCenter + line->GetParameter(1))){ | |
1131 | countPerc += hZDCvsZEM->GetBinContent(nbinx,nbiny); | |
1132 | // Ch. debug | |
2c62f191 | 1133 | //printf(" xBinCenter %1.3f, yBinCenter %1.0f, countPerc %1.0f\n", |
1134 | //xBinCenter, yBinCenter, countPerc); | |
73bc3a3f | 1135 | } |
1136 | } | |
1137 | else{ | |
1138 | if(yBinCenter > (line->GetParameter(0)*xBinCenter + line->GetParameter(1))){ | |
1139 | countPerc += hZDCvsZEM->GetBinContent(nbinx,nbiny); | |
1140 | // Ch. debug | |
2c62f191 | 1141 | //printf(" xBinCenter %1.3f, yBinCenter %1.0f, countPerc %1.0f\n", |
1142 | //xBinCenter, yBinCenter, countPerc); | |
73bc3a3f | 1143 | } |
1144 | } | |
1145 | } | |
1146 | } | |
1147 | // | |
1148 | Double_t xSecPerc = 0.; | |
1149 | if(hZDCvsZEM->GetEntries()!=0){ | |
1150 | xSecPerc = countPerc/hZDCvsZEM->GetEntries(); | |
1151 | } | |
1152 | else{ | |
1153 | AliWarning(" Histogram hZDCvsZEM from OCDB has no entries!!!"); | |
1154 | } | |
1155 | // Ch. debug | |
1156 | //printf(" xSecPerc %1.4f \n", xSecPerc); | |
f5d41205 | 1157 | |
73bc3a3f | 1158 | // ====> side C |
1159 | TF1 *lineC = new TF1("lineC","[0]*x+[1]",0.,xHighEdge); | |
1160 | Float_t yC = (calibSumZN1[0]+calibSumZP1[0])/1000.; | |
1161 | lineC->SetParameter(0, yC/(x-origin)); | |
1162 | lineC->SetParameter(1, -origin*yC/(x-origin)); | |
1163 | // Ch. debug | |
1164 | //printf(" ***************** Side C \n"); | |
1165 | //printf(" E_{ZEM} %1.4f, E_{ZDCC} %1.2f, TF1: %1.2f*x + %1.2f ", x, yC,yC/(x-origin),-origin*yC/(x-origin)); | |
1166 | // | |
1167 | Double_t countPercC=0; | |
1168 | Double_t xBinCenterC=0, yBinCenterC=0; | |
1169 | for(Int_t nbinx=1; nbinx<=hZDCCvsZEM->GetNbinsX(); nbinx++){ | |
1170 | for(Int_t nbiny=1; nbiny<=hZDCCvsZEM->GetNbinsY(); nbiny++){ | |
1171 | xBinCenterC = hZDCCvsZEM->GetXaxis()->GetBinCenter(nbinx); | |
1172 | yBinCenterC = hZDCCvsZEM->GetYaxis()->GetBinCenter(nbiny); | |
1173 | if(lineC->GetParameter(0)>0){ | |
1174 | if(yBinCenterC < (lineC->GetParameter(0)*xBinCenterC + lineC->GetParameter(1))){ | |
1175 | countPercC += hZDCCvsZEM->GetBinContent(nbinx,nbiny); | |
1176 | } | |
1177 | } | |
1178 | else{ | |
1179 | if(yBinCenterC > (lineC->GetParameter(0)*xBinCenterC + lineC->GetParameter(1))){ | |
1180 | countPercC += hZDCCvsZEM->GetBinContent(nbinx,nbiny); | |
1181 | } | |
1182 | } | |
1183 | } | |
1184 | } | |
1185 | // | |
1186 | Double_t xSecPercC = 0.; | |
1187 | if(hZDCCvsZEM->GetEntries()!=0){ | |
1188 | xSecPercC = countPercC/hZDCCvsZEM->GetEntries(); | |
1189 | } | |
1190 | else{ | |
1191 | AliWarning(" Histogram hZDCCvsZEM from OCDB has no entries!!!"); | |
1192 | } | |
1193 | // Ch. debug | |
1194 | //printf(" xSecPercC %1.4f \n", xSecPercC); | |
1195 | ||
1196 | // ====> side A | |
1197 | TF1 *lineA = new TF1("lineA","[0]*x+[1]",0.,xHighEdge); | |
1198 | Float_t yA = (calibSumZN2[0]+calibSumZP2[0])/1000.; | |
1199 | lineA->SetParameter(0, yA/(x-origin)); | |
1200 | lineA->SetParameter(1, -origin*yA/(x-origin)); | |
1201 | // | |
1202 | // Ch. debug | |
1203 | //printf(" ***************** Side A \n"); | |
1204 | //printf(" E_{ZEM} %1.4f, E_{ZDCA} %1.2f, TF1: %1.2f*x + %1.2f ", x, yA,yA/(x-origin),-origin*yA/(x-origin)); | |
1205 | // | |
1206 | Double_t countPercA=0; | |
1207 | Double_t xBinCenterA=0, yBinCenterA=0; | |
1208 | for(Int_t nbinx=1; nbinx<=hZDCAvsZEM->GetNbinsX(); nbinx++){ | |
1209 | for(Int_t nbiny=1; nbiny<=hZDCAvsZEM->GetNbinsY(); nbiny++){ | |
1210 | xBinCenterA = hZDCAvsZEM->GetXaxis()->GetBinCenter(nbinx); | |
1211 | yBinCenterA = hZDCAvsZEM->GetYaxis()->GetBinCenter(nbiny); | |
1212 | if(lineA->GetParameter(0)>0){ | |
1213 | if(yBinCenterA < (lineA->GetParameter(0)*xBinCenterA + lineA->GetParameter(1))){ | |
1214 | countPercA += hZDCAvsZEM->GetBinContent(nbinx,nbiny); | |
1215 | } | |
1216 | } | |
1217 | else{ | |
1218 | if(yBinCenterA > (lineA->GetParameter(0)*xBinCenterA + lineA->GetParameter(1))){ | |
1219 | countPercA += hZDCAvsZEM->GetBinContent(nbinx,nbiny); | |
1220 | } | |
1221 | } | |
1222 | } | |
1223 | } | |
1224 | // | |
1225 | Double_t xSecPercA = 0.; | |
1226 | if(hZDCAvsZEM->GetEntries()!=0){ | |
1227 | xSecPercA = countPercA/hZDCAvsZEM->GetEntries(); | |
1228 | } | |
1229 | else{ | |
1230 | AliWarning(" Histogram hZDCAvsZEM from OCDB has no entries!!!"); | |
1231 | } | |
1232 | // Ch. debug | |
1233 | //printf(" xSecPercA %1.4f \n", xSecPercA); | |
1234 | ||
1235 | // ****** Number of participants (from E_ZDC vs. E_ZEM correlation) | |
73bc3a3f | 1236 | Double_t nPartFrac=0., nPartFracC=0., nPartFracA=0.; |
1237 | for(Int_t npbin=1; npbin<hNpartDist->GetNbinsX(); npbin++){ | |
1238 | nPartFrac += (hNpartDist->GetBinContent(npbin))/(hNpartDist->GetEntries()); | |
1239 | if((1.-nPartFrac) < xSecPerc){ | |
1240 | nPart = (Int_t) hNpartDist->GetBinLowEdge(npbin); | |
1241 | // Ch. debug | |
1242 | //printf(" ***************** Summed ZDC info (sideA+side C) \n"); | |
1243 | //printf(" nPartFrac %1.4f, nPart %d\n", nPartFrac, nPart); | |
1244 | break; | |
1245 | } | |
1246 | } | |
1247 | if(nPart<0) nPart=0; | |
1248 | // | |
1249 | for(Int_t npbin=1; npbin<hNpartDist->GetNbinsX(); npbin++){ | |
1250 | nPartFracC += (hNpartDist->GetBinContent(npbin))/(hNpartDist->GetEntries()); | |
1251 | if((1.-nPartFracC) < xSecPercC){ | |
1252 | nPartC = (Int_t) hNpartDist->GetBinLowEdge(npbin); | |
1253 | // Ch. debug | |
1254 | //printf(" ***************** Side C \n"); | |
1255 | //printf(" nPartFracC %1.4f, nPartC %d\n", nPartFracC, nPartC); | |
1256 | break; | |
1257 | } | |
1258 | } | |
1259 | if(nPartC<0) nPartC=0; | |
1260 | // | |
1261 | for(Int_t npbin=1; npbin<hNpartDist->GetNbinsX(); npbin++){ | |
1262 | nPartFracA += (hNpartDist->GetBinContent(npbin))/(hNpartDist->GetEntries()); | |
1263 | if((1.-nPartFracA) < xSecPercA){ | |
1264 | nPartA = (Int_t) hNpartDist->GetBinLowEdge(npbin); | |
1265 | // Ch. debug | |
1266 | //printf(" ***************** Side A \n"); | |
1267 | //printf(" nPartFracA %1.4f, nPartA %d\n\n", nPartFracA, nPartA); | |
1268 | break; | |
1269 | } | |
1270 | } | |
1271 | if(nPartA<0) nPartA=0; | |
1272 | ||
1273 | // ****** Impact parameter (from E_ZDC vs. E_ZEM correlation) | |
73bc3a3f | 1274 | Double_t bFrac=0., bFracC=0., bFracA=0.; |
1275 | for(Int_t ibbin=1; ibbin<hbDist->GetNbinsX(); ibbin++){ | |
1276 | bFrac += (hbDist->GetBinContent(ibbin))/(hbDist->GetEntries()); | |
e2ec52da | 1277 | if(bFrac > xSecPerc){ |
73bc3a3f | 1278 | b = hbDist->GetBinLowEdge(ibbin); |
1279 | break; | |
1280 | } | |
1281 | } | |
1282 | // | |
1283 | for(Int_t ibbin=1; ibbin<hbDist->GetNbinsX(); ibbin++){ | |
1284 | bFracC += (hbDist->GetBinContent(ibbin))/(hbDist->GetEntries()); | |
e2ec52da | 1285 | if(bFracC > xSecPercC){ |
73bc3a3f | 1286 | bC = hbDist->GetBinLowEdge(ibbin); |
1287 | break; | |
1288 | } | |
1289 | } | |
1290 | // | |
1291 | for(Int_t ibbin=1; ibbin<hbDist->GetNbinsX(); ibbin++){ | |
e2ec52da | 1292 | bFracA += (hbDist->GetBinContent(ibbin))/(hbDist->GetEntries()); |
1293 | if(bFracA > xSecPercA){ | |
73bc3a3f | 1294 | bA = hbDist->GetBinLowEdge(ibbin); |
1295 | break; | |
1296 | } | |
1297 | } | |
1298 | ||
1299 | // ****** Number of spectator nucleons | |
73bc3a3f | 1300 | nGenSpec = 416 - nPart; |
1301 | nGenSpecC = 416 - nPartC; | |
1302 | nGenSpecA = 416 - nPartA; | |
1303 | if(nGenSpec>416) nGenSpec=416; if(nGenSpec<0) nGenSpec=0; | |
1304 | if(nGenSpecC>416) nGenSpecC=416; if(nGenSpecC<0) nGenSpecC=0; | |
2c62f191 | 1305 | if(nGenSpecA>416) nGenSpecA=416; if(nGenSpecA<0) nGenSpecA=0; |
bb98da29 | 1306 | |
1307 | delete line; | |
73bc3a3f | 1308 | delete lineC; delete lineA; |
6318fa5a | 1309 | } |
73bc3a3f | 1310 | } // ONLY IF fIsCalibrationMB==kFALSE |
1e319f71 | 1311 | |
077d2505 | 1312 | Bool_t energyFlag = kTRUE; |
1e319f71 | 1313 | AliZDCReco* reco = new AliZDCReco(calibSumZN1, calibSumZP1, calibSumZN2, calibSumZP2, |
1314 | calibTowZN1, calibTowZP1, calibTowZN2, calibTowZP2, | |
1315 | calibZEM1, calibZEM2, sPMRef1, sPMRef2, | |
1316 | nDetSpecNLeft, nDetSpecPLeft, nDetSpecNRight, nDetSpecPRight, | |
1317 | nGenSpec, nGenSpecA, nGenSpecC, | |
1318 | nPart, nPartA, nPartC, b, bA, bC, | |
077d2505 | 1319 | recoFlag, energyFlag, isScalerOn, scaler, tdcData); |
1e319f71 | 1320 | |
1321 | const Int_t kBufferSize = 4000; | |
1322 | clustersTree->Branch("ZDC", "AliZDCReco", &reco, kBufferSize); | |
c2bb665a | 1323 | //reco->Print(""); |
1e319f71 | 1324 | // write the output tree |
1325 | clustersTree->Fill(); | |
bb98da29 | 1326 | delete reco; |
73bc3a3f | 1327 | } |
8309c1ab | 1328 | |
8309c1ab | 1329 | |
1330 | //_____________________________________________________________________________ | |
70f04f6d | 1331 | void AliZDCReconstructor::FillZDCintoESD(TTree *clustersTree, AliESDEvent* esd) const |
8309c1ab | 1332 | { |
70f04f6d | 1333 | // fill energies and number of participants to the ESD |
8309c1ab | 1334 | |
27d1ff1f | 1335 | // Retrieving TDC calibration data |
1336 | // Parameters for TDC centering around zero | |
1337 | int const knTDC = 6; | |
1338 | Float_t tdcOffset[knTDC]; | |
1339 | for(Int_t jj=0; jj<knTDC; jj++) tdcOffset[jj] = fTDCCalibData->GetMeanTDC(jj); | |
1340 | //fTDCCalibData->Print(""); | |
1341 | ||
8309c1ab | 1342 | AliZDCReco reco; |
1343 | AliZDCReco* preco = &reco; | |
70f04f6d | 1344 | clustersTree->SetBranchAddress("ZDC", &preco); |
70f04f6d | 1345 | clustersTree->GetEntry(0); |
84d6255e | 1346 | // |
a85132e7 | 1347 | Float_t tZN1Ene[5], tZN2Ene[5], tZP1Ene[5], tZP2Ene[5]; |
1348 | Float_t tZN1EneLR[5], tZN2EneLR[5], tZP1EneLR[5], tZP2EneLR[5]; | |
1349 | for(Int_t i=0; i<5; i++){ | |
c35ed519 | 1350 | tZN1Ene[i] = reco.GetZN1HREnTow(i); |
1351 | tZN2Ene[i] = reco.GetZN2HREnTow(i); | |
1352 | tZP1Ene[i] = reco.GetZP1HREnTow(i); | |
1353 | tZP2Ene[i] = reco.GetZP2HREnTow(i); | |
1354 | // | |
1355 | tZN1EneLR[i] = reco.GetZN1LREnTow(i); | |
1356 | tZN2EneLR[i] = reco.GetZN2LREnTow(i); | |
1357 | tZP1EneLR[i] = reco.GetZP1LREnTow(i); | |
1358 | tZP2EneLR[i] = reco.GetZP2LREnTow(i); | |
e90a5fef | 1359 | } |
73bc3a3f | 1360 | // |
af6f24c9 | 1361 | fESDZDC->SetZN1TowerEnergy(tZN1Ene); |
1362 | fESDZDC->SetZN2TowerEnergy(tZN2Ene); | |
1363 | fESDZDC->SetZP1TowerEnergy(tZP1Ene); | |
1364 | fESDZDC->SetZP2TowerEnergy(tZP2Ene); | |
73bc3a3f | 1365 | // |
af6f24c9 | 1366 | fESDZDC->SetZN1TowerEnergyLR(tZN1EneLR); |
1367 | fESDZDC->SetZN2TowerEnergyLR(tZN2EneLR); | |
1368 | fESDZDC->SetZP1TowerEnergyLR(tZP1EneLR); | |
1369 | fESDZDC->SetZP2TowerEnergyLR(tZP2EneLR); | |
a85132e7 | 1370 | // |
73bc3a3f | 1371 | Int_t nPart = reco.GetNParticipants(); |
1372 | Int_t nPartA = reco.GetNPartSideA(); | |
1373 | Int_t nPartC = reco.GetNPartSideC(); | |
1374 | Double_t b = reco.GetImpParameter(); | |
1375 | Double_t bA = reco.GetImpParSideA(); | |
1376 | Double_t bC = reco.GetImpParSideC(); | |
1e319f71 | 1377 | UInt_t recoFlag = reco.GetRecoFlag(); |
af6f24c9 | 1378 | |
1379 | fESDZDC->SetZDC(reco.GetZN1HREnergy(), reco.GetZP1HREnergy(), | |
1380 | reco.GetZEM1HRsignal(), reco.GetZEM2HRsignal(), | |
1381 | reco.GetZN2HREnergy(), reco.GetZP2HREnergy(), | |
1382 | nPart, nPartA, nPartC, b, bA, bC, recoFlag); | |
a4cab348 | 1383 | |
81f09162 | 1384 | // Writing ZDC scaler for cross section calculation |
1385 | // ONLY IF the scaler has been read during the event | |
1386 | if(reco.IsScalerOn()==kTRUE){ | |
1387 | UInt_t counts[32]; | |
1388 | for(Int_t jk=0; jk<32; jk++) counts[jk] = reco.GetZDCScaler(jk); | |
af6f24c9 | 1389 | fESDZDC->SetZDCScaler(counts); |
9e05925b | 1390 | } |
82dffa48 | 1391 | |
0edb8666 | 1392 | Int_t tdcValues[32][4] = {{0,}}; |
26428fe7 | 1393 | Float_t tdcCorrected[32][4] = {{9999.,}}; |
32e2fda5 | 1394 | for(Int_t jk=0; jk<32; jk++){ |
9e05925b | 1395 | for(Int_t lk=0; lk<4; lk++){ |
f53e5ecb | 1396 | tdcValues[jk][lk] = reco.GetZDCTDCData(jk, lk); |
26428fe7 | 1397 | // |
1398 | if(jk==8 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZEM1TDChit(kTRUE); | |
1399 | else if(jk==9 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZEM2TDChit(kTRUE); | |
1400 | else if(jk==10 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZNCTDChit(kTRUE); | |
1401 | else if(jk==11 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZPCTDChit(kTRUE); | |
1402 | else if(jk==12 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZNATDChit(kTRUE); | |
1403 | else if(jk==13 && TMath::Abs(tdcValues[jk][lk])>1e-09) fESDZDC->SetZPATDChit(kTRUE); | |
27d1ff1f | 1404 | //Ch debug |
1405 | //if((jk>=8 && jk<=13 && lk==0) || jk==15) printf(" *** ZDC: tdc%d = %d = %f ns \n",jk,tdcValues[jk][lk],0.025*tdcValues[jk][lk]); | |
9e05925b | 1406 | } |
32e2fda5 | 1407 | } |
27d1ff1f | 1408 | |
1409 | // Writing TDC data into ZDC ESDs | |
44c5ae37 | 1410 | // 4/2/2011 -> Subtracting L0 (tdcValues[15]) instead of ADC gate |
1411 | // we try to keep the TDC oscillations as low as possible! | |
f53e5ecb | 1412 | for(Int_t jk=0; jk<32; jk++){ |
1413 | for(Int_t lk=0; lk<4; lk++){ | |
45b889f8 | 1414 | if(tdcValues[jk][lk]!=0.){ |
26428fe7 | 1415 | // Feb2013 _-> TDC correct entry is there ONLY IF tdc has a hit! |
1416 | if(TMath::Abs(tdcValues[jk][lk])>1e-09){ | |
1417 | tdcCorrected[jk][lk] = 0.025*(tdcValues[jk][lk]-tdcValues[15][0])+fMeanPhase; | |
1418 | // Sep 2011: TDC ch. from 8 to 13 centered around 0 using OCDB | |
1419 | if(jk>=8 && jk<=13) tdcCorrected[jk][lk] = tdcCorrected[jk][lk] - tdcOffset[jk-8]; | |
1420 | //Ch. debug | |
1421 | //if(jk>=8 && jk<=13) printf(" *** tdcOffset%d %f tdcCorr%d %f \n",jk,tdcOffset[jk-8],tdcCorrected[jk][lk]); | |
1422 | } | |
27d1ff1f | 1423 | } |
f53e5ecb | 1424 | } |
1425 | } | |
27d1ff1f | 1426 | |
f53e5ecb | 1427 | fESDZDC->SetZDCTDCData(tdcValues); |
1428 | fESDZDC->SetZDCTDCCorrected(tdcCorrected); | |
077d2505 | 1429 | fESDZDC->AliESDZDC::SetBit(AliESDZDC::kCorrectedTDCFilled, reco.GetEnergyFlag()); |
950abd38 | 1430 | fESDZDC->AliESDZDC::SetBit(AliESDZDC::kEnergyCalibratedSignal, kTRUE); |
9e05925b | 1431 | |
af6f24c9 | 1432 | if(esd) esd->SetZDCData(fESDZDC); |
8309c1ab | 1433 | } |
48642b09 | 1434 | |
1435 | //_____________________________________________________________________________ | |
78d18275 | 1436 | AliCDBStorage* AliZDCReconstructor::SetStorage(const char *uri) |
48642b09 | 1437 | { |
cc2abffd | 1438 | // Setting the storage |
48642b09 | 1439 | |
78d18275 | 1440 | Bool_t deleteManager = kFALSE; |
48642b09 | 1441 | |
78d18275 | 1442 | AliCDBManager *manager = AliCDBManager::Instance(); |
1443 | AliCDBStorage *defstorage = manager->GetDefaultStorage(); | |
48642b09 | 1444 | |
78d18275 | 1445 | if(!defstorage || !(defstorage->Contains("ZDC"))){ |
1446 | AliWarning("No default storage set or default storage doesn't contain ZDC!"); | |
1447 | manager->SetDefaultStorage(uri); | |
1448 | deleteManager = kTRUE; | |
1449 | } | |
1450 | ||
1451 | AliCDBStorage *storage = manager->GetDefaultStorage(); | |
1452 | ||
1453 | if(deleteManager){ | |
1454 | AliCDBManager::Instance()->UnsetDefaultStorage(); | |
1455 | defstorage = 0; // the storage is killed by AliCDBManager::Instance()->Destroy() | |
1456 | } | |
1457 | ||
1458 | return storage; | |
1459 | } | |
48642b09 | 1460 | |
78d18275 | 1461 | //_____________________________________________________________________________ |
1e319f71 | 1462 | AliZDCPedestals* AliZDCReconstructor::GetPedestalData() const |
6024ec85 | 1463 | { |
1464 | ||
1465 | // Getting pedestal calibration object for ZDC set | |
1466 | ||
1467 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/Pedestals"); | |
f00081c8 | 1468 | if(!entry) AliFatal("No calibration data loaded!"); |
1469 | entry->SetOwner(kFALSE); | |
6024ec85 | 1470 | |
1471 | AliZDCPedestals *calibdata = dynamic_cast<AliZDCPedestals*> (entry->GetObject()); | |
1472 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); | |
1473 | ||
1474 | return calibdata; | |
1475 | } | |
1476 | ||
1477 | //_____________________________________________________________________________ | |
1e319f71 | 1478 | AliZDCEnCalib* AliZDCReconstructor::GetEnergyCalibData() const |
6024ec85 | 1479 | { |
1480 | ||
1481 | // Getting energy and equalization calibration object for ZDC set | |
1482 | ||
dd98e862 | 1483 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/EnergyCalib"); |
6024ec85 | 1484 | if(!entry) AliFatal("No calibration data loaded!"); |
f00081c8 | 1485 | entry->SetOwner(kFALSE); |
6024ec85 | 1486 | |
73bc3a3f | 1487 | AliZDCEnCalib *calibdata = dynamic_cast<AliZDCEnCalib*> (entry->GetObject()); |
6024ec85 | 1488 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); |
1489 | ||
1490 | return calibdata; | |
1491 | } | |
1492 | ||
960c5431 | 1493 | //_____________________________________________________________________________ |
1494 | AliZDCSaturationCalib* AliZDCReconstructor::GetSaturationCalibData() const | |
1495 | { | |
1496 | ||
1497 | // Getting energy and equalization calibration object for ZDC set | |
1498 | ||
1499 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/SaturationCalib"); | |
1500 | if(!entry) AliFatal("No calibration data loaded!"); | |
1501 | entry->SetOwner(kFALSE); | |
1502 | ||
1503 | AliZDCSaturationCalib *calibdata = dynamic_cast<AliZDCSaturationCalib*> (entry->GetObject()); | |
1504 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); | |
1505 | ||
1506 | return calibdata; | |
1507 | } | |
1508 | ||
73bc3a3f | 1509 | //_____________________________________________________________________________ |
1e319f71 | 1510 | AliZDCTowerCalib* AliZDCReconstructor::GetTowerCalibData() const |
73bc3a3f | 1511 | { |
1512 | ||
1513 | // Getting energy and equalization calibration object for ZDC set | |
1514 | ||
dd98e862 | 1515 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/TowerCalib"); |
73bc3a3f | 1516 | if(!entry) AliFatal("No calibration data loaded!"); |
f00081c8 | 1517 | entry->SetOwner(kFALSE); |
73bc3a3f | 1518 | |
1519 | AliZDCTowerCalib *calibdata = dynamic_cast<AliZDCTowerCalib*> (entry->GetObject()); | |
1520 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); | |
1521 | ||
1522 | return calibdata; | |
1523 | } | |
1524 | ||
1525 | //_____________________________________________________________________________ | |
0d579f58 | 1526 | AliZDCMBCalib* AliZDCReconstructor::GetMBCalibData() const |
1527 | { | |
1528 | ||
1529 | // Getting energy and equalization calibration object for ZDC set | |
1530 | ||
1531 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/MBCalib"); | |
1532 | if(!entry) AliFatal("No calibration data loaded!"); | |
1533 | entry->SetOwner(kFALSE); | |
1534 | ||
1535 | AliZDCMBCalib *calibdata = dynamic_cast<AliZDCMBCalib*> (entry->GetObject()); | |
1536 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); | |
1537 | ||
1538 | return calibdata; | |
1539 | } | |
27d1ff1f | 1540 | |
1541 | //_____________________________________________________________________________ | |
1542 | AliZDCTDCCalib* AliZDCReconstructor::GetTDCCalibData() const | |
1543 | { | |
1544 | ||
1545 | // Getting TDC object for ZDC | |
1546 | ||
1547 | AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/TDCCalib"); | |
1548 | if(!entry) AliFatal("No calibration data loaded!"); | |
1549 | entry->SetOwner(kFALSE); | |
1550 | ||
1551 | AliZDCTDCCalib *calibdata = dynamic_cast<AliZDCTDCCalib*> (entry->GetObject()); | |
1552 | if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); | |
1553 | ||
1554 | return calibdata; | |
1555 | } |