added MC Reaction Plane information to FlowEventSimple
[u/mrichter/AliRoot.git] / VZERO / AliVZEROQADataMakerRec.cxx
CommitLineData
508b9fc0 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16
6bec7c7c 17// Produces the data needed to calculate the quality assurance
18// All data must be mergeable objects
19// Handles ESDs and Raws
20// Histos defined will be used for Raw Data control and monitoring
508b9fc0 21
22// --- ROOT system ---
23#include <TClonesArray.h>
24#include <TFile.h>
25#include <TH1F.h>
26#include <TH1I.h>
4da80b8c 27#include <TH2I.h>
9bd82f77 28#include <TH2D.h>
29#include <TGraph.h>
f81355e3 30#include <TParameter.h>
508b9fc0 31
32// --- Standard library ---
33
34// --- AliRoot header files ---
35#include "AliESDEvent.h"
36#include "AliLog.h"
1e376713 37#include "AliCDBManager.h"
38#include "AliCDBStorage.h"
39#include "AliCDBEntry.h"
508b9fc0 40#include "AliVZEROQADataMakerRec.h"
41#include "AliQAChecker.h"
4da80b8c 42#include "AliRawReader.h"
508b9fc0 43#include "AliVZERORawStream.h"
44#include "AliVZEROReconstructor.h"
9bd82f77 45#include "event.h"
508b9fc0 46
47
48ClassImp(AliVZEROQADataMakerRec)
49
50//____________________________________________________________________________
51 AliVZEROQADataMakerRec::AliVZEROQADataMakerRec() :
9bd82f77 52 AliQADataMakerRec(AliQA::GetDetName(AliQA::kVZERO), "VZERO Quality Assurance Data Maker"),
53 fCalibData(0x0),
1e376713 54 fEvent(0)
55
508b9fc0 56{
6bec7c7c 57 // Constructor
58
59 AliInfo("Construct VZERO QA Object");
1e376713 60
61 for(Int_t i=0; i<64; i++){
62 fEven[i] = 0;
63 fOdd[i] = 0; }
64
65 for(Int_t i=0; i<128; i++){
6bec7c7c 66 fADCmean[i] = 0.0; }
508b9fc0 67}
68
69//____________________________________________________________________________
1e376713 70 AliVZEROQADataMakerRec::AliVZEROQADataMakerRec(const AliVZEROQADataMakerRec& qadm) :
71 AliQADataMakerRec(),
9bd82f77 72 fCalibData(0x0),
1e376713 73 fEvent(0)
74
508b9fc0 75{
6bec7c7c 76 // Copy constructor
77
1e376713 78 SetName((const char*)qadm.GetName()) ;
79 SetTitle((const char*)qadm.GetTitle());
508b9fc0 80}
81
82//__________________________________________________________________
83AliVZEROQADataMakerRec& AliVZEROQADataMakerRec::operator = (const AliVZEROQADataMakerRec& qadm )
84{
85 // Equal operator
6bec7c7c 86
508b9fc0 87 this->~AliVZEROQADataMakerRec();
88 new(this) AliVZEROQADataMakerRec(qadm);
89 return *this;
90}
1e376713 91
92//____________________________________________________________________________
93AliVZEROCalibData* AliVZEROQADataMakerRec::GetCalibData() const
94
95{
6bec7c7c 96
97 // Gets calibration data - not used here anymore -
98
1e376713 99 AliCDBManager *man = AliCDBManager::Instance();
9bd82f77 100
162637e4 101 //man->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
1e376713 102
103 AliCDBEntry *entry=0;
9bd82f77 104
105 entry = man->Get("VZERO/Calib/Data",fRun);
1e376713 106
107 // Retrieval of data in directory VZERO/Calib/Data:
108
109 AliVZEROCalibData *calibdata = 0;
110
111 if (entry) calibdata = (AliVZEROCalibData*) entry->GetObject();
112 if (!calibdata) AliFatal("No calibration data from calibration database !");
113
114 return calibdata;
115}
508b9fc0 116
117//____________________________________________________________________________
57acd2d2 118void AliVZEROQADataMakerRec::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray ** list)
508b9fc0 119{
6bec7c7c 120 // Detector specific actions at end of cycle
121 // Does the QA checking
122
1e376713 123 AliQAChecker::Instance()->Run(AliQA::kVZERO, task, list) ;
57acd2d2 124
125 for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) {
126 SetEventSpecie(specie) ;
127 if(task == AliQA::kRAWS){
6bec7c7c 128 int nMaxBin = GetRawsData(kPedestalTimeInt0)->GetNbinsY();
57acd2d2 129 if(fCurrentCycle%nMaxBin==0) {
130 GetRawsData(kPedestalTimeInt0)->Reset();
131 GetRawsData(kPedestalTimeInt1)->Reset();
132 GetRawsData(kChargeEoITimeInt0)->Reset();
133 GetRawsData(kChargeEoITimeInt1)->Reset();
134 }
135 TH1D* hProj;
136 char name[50];
137 for(Int_t iChannel=0; iChannel<64; iChannel++) {
138 for(Int_t integrator=0;integrator<2;integrator++){
139 sprintf(name,"Ped_%d_%d",iChannel,integrator);
140 hProj = ((TH2I*)GetRawsData((integrator == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1)))->ProjectionY(name,iChannel+1,iChannel+1);
141 ((TH2D*)GetRawsData((integrator == 0 ? kPedestalTimeInt0 : kPedestalTimeInt1)))->Fill((double)iChannel,(double)(fCurrentCycle%nMaxBin),(double)hProj->GetMean());
142 delete hProj;
143
144 sprintf(name,"Charge_%d_%d",iChannel,integrator);
145 hProj = ((TH2I*)GetRawsData((integrator == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1)))->ProjectionY(name,iChannel+1,iChannel+1);
146 ((TH2D*)GetRawsData((integrator == 0 ? kChargeEoITimeInt0 : kChargeEoITimeInt1)))->Fill((double)iChannel,(double)(fCurrentCycle%nMaxBin),hProj->GetMean());
147 delete hProj;
148 }
149 }
150 } else if (task == AliQA::kESDS) {
151 }
9bd82f77 152 }
508b9fc0 153}
154
155//____________________________________________________________________________
156void AliVZEROQADataMakerRec::InitESDs()
157{
6bec7c7c 158 // Creates histograms to control ESDs
159
160 Bool_t expert = kTRUE ;
9bd82f77 161
6bec7c7c 162 TH2D * h2d;
163 TH1I * h1i;
164 TH1D * h1d;
9bd82f77 165
166 h1i = new TH1I("H1I_Cell_Multiplicity_V0A", "Cell Multiplicity in V0A", 35, 0, 35) ;
9bd82f77 167 h1i->GetXaxis()->SetTitle("Multiplicity (Nb of Cell)");
57acd2d2 168 Add2ESDsList(h1i, kCellMultiV0A, !expert) ;
4da80b8c 169
9bd82f77 170 h1i = new TH1I("H1I_Cell_Multiplicity_V0C", "Cell Multiplicity in V0C", 35, 0, 35) ;
9bd82f77 171 h1i->GetXaxis()->SetTitle("Multiplicity (Nb of Cell)");
57acd2d2 172 Add2ESDsList(h1i, kCellMultiV0C, !expert) ;
9bd82f77 173
174 h1d = new TH1D("H1D_MIP_Multiplicity_V0A", "MIP Multiplicity in V0A", 1000, 0, 1000) ;
9bd82f77 175 h1d->GetXaxis()->SetTitle("Multiplicity (Nb of MIP)");
57acd2d2 176 Add2ESDsList(h1d, kMIPMultiV0A, !expert) ;
9bd82f77 177
178 h1d = new TH1D("H1D_MIP_Multiplicity_V0C", "MIP Multiplicity in V0C", 1000, 0, 1000) ;
9bd82f77 179 h1d->GetXaxis()->SetTitle("Multiplicity (Nb of MIP)");
57acd2d2 180 Add2ESDsList(h1d, kMIPMultiV0C, !expert) ;
28fdf12c 181
9bd82f77 182 h2d = new TH2D("H2D_MIP_Multiplicity_Channel", "MIP Multiplicity per Channel",64, 0, 64, 100, 0, 100) ;
183 h2d->GetXaxis()->SetTitle("Channel");
184 h2d->GetYaxis()->SetTitle("Multiplicity (Nb of MIP)");
185 Add2ESDsList(h2d, kMIPMultiChannel, !expert) ;
186
187 h1d = new TH1D("H1D_BBFlag_Counters", "BB Flag Counters",64, 0, 64) ;
188 h1d->GetXaxis()->SetTitle("Channel");
189 Add2ESDsList(h1d, kBBFlag, !expert) ;
190
191 h1d = new TH1D("H1D_BGFlag_Counters", "BG Flag Counters",64, 0, 64) ;
192 h1d->GetXaxis()->SetTitle("Channel");
193 Add2ESDsList(h1d, kBGFlag, !expert) ;
194
195 h2d = new TH2D("H2D_Charge_Channel", "ADC Charge per channel",64, 0, 64, 1024, 0, 1024) ;
196 h2d->GetXaxis()->SetTitle("Channel");
197 h2d->GetYaxis()->SetTitle("Charge (ADC counts)");
198 Add2ESDsList(h2d, kChargeChannel, !expert) ;
199
200 h2d = new TH2D("H2D_Time_Channel", "Time per channel",64, 0, 64, 820, 0, 410) ;
201 h2d->GetXaxis()->SetTitle("Channel");
202 h2d->GetYaxis()->SetTitle("Time (ns)");
203 Add2ESDsList(h2d, kTimeChannel, !expert) ;
204
205 h1d = new TH1D("H1D_V0A_Time", "Mean V0A Time",2048, 0., 409.6);
206 h1d->GetXaxis()->SetTitle("Time (ns)");
207 Add2ESDsList(h1d,kESDV0ATime, !expert);
208
209 h1d = new TH1D("H1D_V0C_Time", "Mean V0C Time",2048, 0., 409.6);
210 h1d->GetXaxis()->SetTitle("Time (ns)");
211 Add2ESDsList(h1d,kESDV0CTime, !expert);
212
213 h1d = new TH1D("H1D_Diff_Time", "Diff Time V0A - V0C",2*2048, -409.6, 409.6);
214 h1d->GetXaxis()->SetTitle("Diff Time V0A - V0C (ns)");
215 Add2ESDsList(h1d,kESDDiffTime, !expert);
216
28fdf12c 217}
508b9fc0 218
219//____________________________________________________________________________
4da80b8c 220 void AliVZEROQADataMakerRec::InitRaws()
221 {
6bec7c7c 222 // Creates RAW histograms in Raws subdir
223
f81355e3 224 Bool_t expert = kTRUE ;
225 Bool_t saveCorr = kTRUE ;
9bd82f77 226
6bec7c7c 227 char name[50] , title[100];
228 const Int_t kNintegrator = 2;
9bd82f77 229
6bec7c7c 230 const Int_t kNTdcTimeBins = 2048;
231 const Int_t kTdcTimeMin = 0;
232 const Int_t kTdcTimeMax = 4096;
233 const Int_t kNTdcWidthBins = 128;
234 const Int_t kTdcWidthMin = 0;
235 const Int_t kTdcWidthMax = 128;
236 const Int_t kNChargeBins = 1024;
237 const Int_t kChargeMin = 0;
238 const Int_t kChargeMax = 1024;
239 const Int_t kNChannelBins = 64;
240 const Int_t kChannelMin = 0;
241 const Int_t kChannelMax = 64;
242 const Int_t kNPedestalBins = 200;
243 const Int_t kPedestalMin = 0;
244 const Int_t kPedestalMax = 200;
245 const Int_t kTimeMin = 0;
246 const Int_t kTimeMax = 100;
247 const Int_t kNMIPBins = 200;
248 const Int_t kMIPMin = 0;
249 const Int_t kMIPMax = 200;
250
251 TH2I * h2i;
252 TH2D * h2d;
253 TH1I * h1i;
254 TH1D * h1d;
255
256 int iHisto =0;
9bd82f77 257
6bec7c7c 258 // Creation of Cell Multiplicity Histograms
9bd82f77 259 h1i = new TH1I("H1I_Multiplicity_V0A", "Cell Multiplicity in V0A", 35, 0, 35) ;
260 Add2RawsList(h1i,kMultiV0A, !expert, saveCorr); iHisto++;
261 h1i = new TH1I("H1I_Multiplicity_V0C", "Cell Multiplicity in V0C", 35, 0, 35) ;
262 Add2RawsList(h1i,kMultiV0C, !expert, saveCorr); iHisto++;
263
6bec7c7c 264 // Creation of Total Charge Histograms
9bd82f77 265 h1d = new TH1D("H1D_Charge_V0A", "Total Charge in V0A", 2048, 0, 32768) ;
266 Add2RawsList(h1d,kChargeV0A, !expert, saveCorr); iHisto++;
267 h1d = new TH1D("H1D_Charge_V0C", "Total Charge in V0C", 2048, 0, 32768) ;
268 Add2RawsList(h1d,kChargeV0C, !expert, saveCorr); iHisto++;
269 h1d = new TH1D("H1D_Charge_V0", "Total Charge in V0", 2048, 0, 65536) ;
270 Add2RawsList(h1d,kChargeV0, !expert, saveCorr); iHisto++;
271
272 // Creation of MIP Histograms
273 h1d = new TH1D("H1D_MIP_V0A", "Total MIP in V0A", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;
274 Add2RawsList(h1d,kRawMIPV0A, !expert, saveCorr); iHisto++;
275 h1d = new TH1D("H1D_MIP_V0C", "Total MIP in V0C", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;
276 Add2RawsList(h1d,kRawMIPV0C, !expert, saveCorr); iHisto++;
277 h1d = new TH1D("H1D_MIP_V0", "Total MIP in V0", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;
278 Add2RawsList(h1d,kRawMIPV0, !expert, saveCorr); iHisto++;
279 h2d = new TH2D("H2D_MIP_Channel", "Nb of MIP per channel", kNChannelBins, kChannelMin, kChannelMax,kNMIPBins,kMIPMin ,kMIPMax) ;
280 Add2RawsList(h2d,kRawMIPChannel, expert, !saveCorr); iHisto++;
281
282
d62942e8 283 for(Int_t iInt=0;iInt<kNintegrator;iInt++){
9bd82f77 284 // Creation of Pedestal histograms
6bec7c7c 285 sprintf(name,"H2I_Pedestal_Int%d",iInt);
286 sprintf(title,"Pedestal (Int%d)",iInt);
287 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNPedestalBins,kPedestalMin ,kPedestalMax );
288 Add2RawsList(h2i,(iInt == 0 ? kPedestalInt0 : kPedestalInt1), expert, !saveCorr); iHisto++;
9bd82f77 289
6bec7c7c 290 // Creation of temporary Pedestal histo used for the mean versus time histogram. This histogram will be reset at the end of each cycle
291 sprintf(name,"H2I_Pedestal_CycleInt%d",iInt);
292 sprintf(title,"One Cycle Pedestal (Int%d)",iInt);
293 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNPedestalBins,kPedestalMin ,kPedestalMax );
294 Add2RawsList(h2i,(iInt == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1), expert, !saveCorr); iHisto++;
9bd82f77 295
6bec7c7c 296 // Creation of Pedestal versus time graph.
297 sprintf(name,"H2D_Pedestal_Time_Int%d",iInt);
298 sprintf(title,"Pedestal Versus Time (Int%d)",iInt);
299 h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,kTimeMax,kTimeMin ,kTimeMax );
300 Add2RawsList(h2d,(iInt == 0 ? kPedestalTimeInt0 : kPedestalTimeInt1), expert, !saveCorr); iHisto++;
9bd82f77 301
302 // Creation of Charge EoI histograms
6bec7c7c 303 sprintf(name,"H2I_ChargeEoI_Int%d",iInt);
304 sprintf(title,"Charge EoI (Int%d)",iInt);
305 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
306 Add2RawsList(h2i,(iInt == 0 ? kChargeEoIInt0 : kChargeEoIInt1), !expert, !saveCorr); iHisto++;
9bd82f77 307
308 // Creation of temporary Charge EoI histograms used for the mean versus time histogram. This histogram will be reset at the end of each cycle
6bec7c7c 309 sprintf(name,"H2I_ChargeEoI_CycleInt%d",iInt);
310 sprintf(title,"One Cycle Charge EoI (Int%d)",iInt);
311 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
312 Add2RawsList(h2i,(iInt == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1), expert, !saveCorr); iHisto++;
9bd82f77 313
6bec7c7c 314 // Creation of Charge EoI versus time graphs
315 sprintf(name,"H2D_ChargeEoI_Time_Int%d",iInt);
316 sprintf(title,"Charge EoI Versus Time (Int%d)",iInt);
317 h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,kTimeMax,kTimeMin ,kTimeMax );
318 Add2RawsList(h2d,(iInt == 0 ? kChargeEoITimeInt0 : kChargeEoITimeInt1), expert, !saveCorr); iHisto++;
f81355e3 319
6bec7c7c 320 sprintf(name,"H2I_ChargeEoI_BB_Int%d",iInt);
321 sprintf(title,"Charge EoI w/ BB Flag (Int%d)",iInt);
322 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
323 Add2RawsList(h2i,(iInt == 0 ? kChargeEoIBBInt0 : kChargeEoIBBInt1), expert, !saveCorr); iHisto++;
f81355e3 324
6bec7c7c 325 sprintf(name,"H2I_ChargeEoI_BG_Int%d",iInt);
326 sprintf(title,"Charge EoI w/ BG Flag (Int%d)",iInt);
327 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
328 Add2RawsList(h2i,(iInt == 0 ? kChargeEoIBGInt0: kChargeEoIBGInt1), expert, !saveCorr); iHisto++;
9bd82f77 329
330 // Creation of Charge versus LHC Clock histograms
6bec7c7c 331 sprintf(name,"H2D_ChargeVsClock_Int%d",iInt);
332 sprintf(title,"Charge Versus LHC-Clock (Int%d)",iInt);
333 h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
334 Add2RawsList(h2d,(iInt == 0 ? kChargeVsClockInt0 : kChargeVsClockInt1 ), expert, !saveCorr); iHisto++;
9bd82f77 335
6bec7c7c 336 // Creation of Minimum Bias Charge histograms
337 for(Int_t iBB=0;iBB<2;iBB++){
d62942e8 338 for(Int_t iBG=0;iBG<2;iBG++){
6bec7c7c 339 sprintf(name,"H2I_ChargeMB_BB%d_BG%d_Int%d",iBB,iBG,iInt);
340 sprintf(title,"MB Charge (BB=%d, BG=%d, Int=%d)",iBB,iBG,iInt);
341 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNChargeBins, kChargeMin, kChargeMax);
9bd82f77 342 int idx;
343 if(iInt==0){
344 if(iBB==0){
6bec7c7c 345 if(iBG==0) idx = kChargeMBBB0BG0Int0;
346 else idx = kChargeMBBB0BG1Int0;
9bd82f77 347 } else {
6bec7c7c 348 if(iBG==0) idx = kChargeMBBB1BG0Int0;
349 else idx = kChargeMBBB1BG1Int0;
9bd82f77 350 }
351 } else {
352 if(iBB==0){
6bec7c7c 353 if(iBG==0) idx = kChargeMBBB0BG0Int1;
354 else idx = kChargeMBBB0BG1Int1;
9bd82f77 355 } else {
6bec7c7c 356 if(iBG==0) idx = kChargeMBBB1BG0Int1;
357 else idx = kChargeMBBB1BG1Int1;
9bd82f77 358 }
359 }
360 Add2RawsList(h2i,idx, expert, !saveCorr); iHisto++;
361 }
6bec7c7c 362 }
9bd82f77 363
364 }
365
6bec7c7c 366 // Creation of Time histograms
367 sprintf(name,"H2I_Width");
368 sprintf(title,"HPTDC Width");
369 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
9bd82f77 370 Add2RawsList(h2i,kWidth, expert, !saveCorr); iHisto++;
371
6bec7c7c 372 sprintf(name,"H2I_Width_BB");
373 sprintf(title,"HPTDC Width w/ BB Flag condition");
374 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
375 Add2RawsList(h2i,kWidthBB, expert, !saveCorr); iHisto++;
9bd82f77 376
6bec7c7c 377 sprintf(name,"H2I_Width_BG");
378 sprintf(title,"HPTDC Width w/ BG Flag condition");
379 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
380 Add2RawsList(h2i,kWidthBG, expert, !saveCorr); iHisto++;
9bd82f77 381
6bec7c7c 382 sprintf(name,"H2I_HPTDCTime");
383 sprintf(title,"HPTDC Time");
384 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
9bd82f77 385 Add2RawsList(h2i,kHPTDCTime, !expert, !saveCorr); iHisto++;
386
6bec7c7c 387 sprintf(name,"H2I_HPTDCTime_BB");
388 sprintf(title,"HPTDC Time w/ BB Flag condition");
389 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
390 Add2RawsList(h2i,kHPTDCTimeBB, expert, !saveCorr); iHisto++;
9bd82f77 391
6bec7c7c 392 sprintf(name,"H2I_HPTDCTime_BG");
393 sprintf(title,"HPTDC Time w/ BG Flag condition");
394 h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
395 Add2RawsList(h2i,kHPTDCTimeBG, expert, !saveCorr); iHisto++;
9bd82f77 396
6bec7c7c 397 sprintf(name,"H1D_V0A_Time");
398 sprintf(title,"V0A Time");
399 h1d = new TH1D(name, title,kNTdcTimeBins, kTdcTimeMin/10, kTdcTimeMax/10);
9bd82f77 400 Add2RawsList(h1d,kV0ATime, !expert, saveCorr); iHisto++;
401
6bec7c7c 402 sprintf(name,"H1D_V0C_Time");
403 sprintf(title,"V0C Time");
404 h1d = new TH1D(name, title,kNTdcTimeBins, kTdcTimeMin/10, kTdcTimeMax/10);
9bd82f77 405 Add2RawsList(h1d,kV0CTime, !expert, saveCorr); iHisto++;
406
6bec7c7c 407 sprintf(name,"H1D_Diff_Time");
408 sprintf(title,"Diff V0A-V0C Time");
409 h1d = new TH1D(name, title,2*kNTdcTimeBins, -kTdcTimeMax/10, kTdcTimeMax/10);
9bd82f77 410 Add2RawsList(h1d,kDiffTime, !expert, saveCorr); iHisto++;
411
9bd82f77 412 // Creation of Flag versus LHC Clock histograms
6bec7c7c 413 sprintf(name,"H2D_BBFlagVsClock");
414 sprintf(title,"BB-Flags Versus LHC-Clock");
415 h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
9bd82f77 416 Add2RawsList(h2d,kBBFlagVsClock, expert, !saveCorr); iHisto++;
417
6bec7c7c 418 sprintf(name,"H2D_BGFlagVsClock");
419 sprintf(title,"BG-Flags Versus LHC-Clock");
420 h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
9bd82f77 421 Add2RawsList(h2d,kBGFlagVsClock, expert, !saveCorr); iHisto++;
422
423 AliInfo(Form("%d Histograms has been added to the Raws List",iHisto));
4da80b8c 424 }
508b9fc0 425
426//____________________________________________________________________________
427void AliVZEROQADataMakerRec::MakeESDs(AliESDEvent * esd)
428{
6bec7c7c 429 // Creates QA data from ESDs
430
431 UInt_t eventType = esd->GetEventType();
508b9fc0 432
6bec7c7c 433 switch (eventType){
9bd82f77 434 case PHYSICS_EVENT:
6bec7c7c 435 AliESDVZERO *esdVZERO=esd->GetVZEROData();
508b9fc0 436
6bec7c7c 437 if (!esdVZERO) break;
9bd82f77 438
439 GetESDsData(kCellMultiV0A)->Fill(esdVZERO->GetNbPMV0A());
440 GetESDsData(kCellMultiV0C)->Fill(esdVZERO->GetNbPMV0C());
441 GetESDsData(kMIPMultiV0A)->Fill(esdVZERO->GetMTotV0A());
442 GetESDsData(kMIPMultiV0C)->Fill(esdVZERO->GetMTotV0C());
443
6bec7c7c 444 Float_t timeV0A = 0., timeV0C = 0., diffTime;
445 Int_t iTimeV0A = 0, iTimeV0C = 0;
9bd82f77 446
6bec7c7c 447 for(Int_t i=0;i<64;i++) {
9bd82f77 448 GetESDsData(kMIPMultiChannel)->Fill((Float_t) i,(Float_t) esdVZERO->GetMultiplicity(i));
449 GetESDsData(kChargeChannel)->Fill((Float_t) i,(Float_t) esdVZERO->GetAdc(i));
450 if(esdVZERO->GetBBFlag(i)) GetESDsData(kBBFlag)->Fill((Float_t) i);
451 if(esdVZERO->GetBGFlag(i)) GetESDsData(kBGFlag)->Fill((Float_t) i);
452
6bec7c7c 453 Float_t time = (Float_t) esdVZERO->GetTime(i)/10.; //Convert in ns: 1 TDC channel = 100ps
454 GetESDsData(kTimeChannel)->Fill((Float_t) i,time);
9bd82f77 455
6bec7c7c 456 if(time>0.){
9bd82f77 457 if (i<32) {
458 iTimeV0C++;
6bec7c7c 459 timeV0C += time;
9bd82f77 460 }else{
461 iTimeV0A++;
6bec7c7c 462 timeV0A += time;
9bd82f77 463 }
464 }
465 }
6bec7c7c 466 if(iTimeV0A>0) timeV0A /= iTimeV0A;
467 else timeV0A = -1.;
468 if(iTimeV0C>0) timeV0C /= iTimeV0C;
469 else timeV0C = -1.;
470 if(timeV0A<0. || timeV0C<0.) diffTime = -10000.;
471 else diffTime = timeV0A - timeV0C;
9bd82f77 472
6bec7c7c 473 GetESDsData(kESDV0ATime)->Fill(timeV0A);
474 GetESDsData(kESDV0CTime)->Fill(timeV0C);
475 GetESDsData(kESDDiffTime)->Fill(diffTime);
9bd82f77 476
6bec7c7c 477 break;
9bd82f77 478 }
28fdf12c 479
508b9fc0 480}
481
482//____________________________________________________________________________
4da80b8c 483 void AliVZEROQADataMakerRec::MakeRaws(AliRawReader* rawReader)
484 {
6bec7c7c 485 // Fills histograms with Raws, computes average ADC values dynamically (pedestal subtracted)
1e376713 486
f81355e3 487 rawReader->Reset() ;
488 AliVZERORawStream* rawStream = new AliVZERORawStream(rawReader);
4da80b8c 489 rawStream->Next();
1e376713 490
6bec7c7c 491 eventTypeType eventType = rawReader->GetType();
9bd82f77 492
6bec7c7c 493 Int_t mulV0A = 0 ;
494 Int_t mulV0C = 0 ;
495 Double_t timeV0A =0., timeV0C = 0.;
496 UInt_t itimeV0A=0, itimeV0C=0;
497 Double_t chargeV0A=0., chargeV0C=0.;
498 Double_t mipV0A=0., mipV0C=0.;
9bd82f77 499
6bec7c7c 500 Double_t diffTime=-100000.;
9bd82f77 501
502
6bec7c7c 503 switch (eventType){
504 case PHYSICS_EVENT:
505 Int_t iFlag=0;
506 Int_t pedestal;
507 Int_t integrator;
508 Bool_t BBFlag;
9bd82f77 509 Bool_t BGFlag;
6bec7c7c 510 UInt_t time, width;
511 Int_t MBCharge, charge;
512 Int_t offlineCh;
513 TH1D * hProj;
9bd82f77 514
d62942e8 515 for(Int_t iChannel=0; iChannel<64; iChannel++) { // BEGIN : Loop over channels
9bd82f77 516
6bec7c7c 517 offlineCh = rawStream->GetOfflineChannel(iChannel);
9bd82f77 518
6bec7c7c 519 // Fill Pedestal histograms
520
521 for(Int_t j=15; j<21; j++) {
9bd82f77 522 if((rawStream->GetBGFlag(iChannel,j) || rawStream->GetBBFlag(iChannel,j))) iFlag++;
6bec7c7c 523 }
9bd82f77 524
6bec7c7c 525 if(iFlag == 0){ //No Flag found
d62942e8 526 for(Int_t j=15; j<21; j++){
9bd82f77 527 pedestal=rawStream->GetPedestal(iChannel, j);
528 integrator = rawStream->GetIntegratorFlag(iChannel, j);
529
6bec7c7c 530 GetRawsData((integrator == 0 ? kPedestalInt0 : kPedestalInt1))->Fill(offlineCh,pedestal);
531 GetRawsData((integrator == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1))->Fill(offlineCh,pedestal);
9bd82f77 532 }
6bec7c7c 533 }
9bd82f77 534
6bec7c7c 535 // Fill Charge EoI histograms
536
537 // Look for the maximum in the LHC clock train
538 charge = 0;
9bd82f77 539 Int_t iClock = 0;
540 Int_t iCharge = 0;
d62942e8 541 for(Int_t iEvent=0; iEvent<21; iEvent++){
9bd82f77 542 iCharge = rawStream->GetPedestal(iChannel,iEvent);
6bec7c7c 543 if(iCharge>charge) {
544 charge = iCharge;
9bd82f77 545 iClock = iEvent;
546 }
547 } // End of maximum searching procedure
548
6bec7c7c 549 integrator = rawStream->GetIntegratorFlag(iChannel,iClock);
9bd82f77 550 BBFlag = rawStream->GetBBFlag(iChannel, iClock);
551 BGFlag = rawStream->GetBGFlag(iChannel,iClock );
552
6bec7c7c 553 GetRawsData((integrator == 0 ? kChargeEoIInt0 : kChargeEoIInt1))->Fill(offlineCh,charge);
554 if(BBFlag) GetRawsData((integrator == 0 ? kChargeEoIBBInt0 : kChargeEoIBBInt1))->Fill(offlineCh,charge);
555 if(BGFlag) GetRawsData((integrator == 0 ? kChargeEoIBGInt0 : kChargeEoIBGInt1))->Fill(offlineCh,charge);
9bd82f77 556
6bec7c7c 557 hProj = ((TH2I*)GetRawsData((integrator == 0 ? kPedestalInt0 : kPedestalInt1)))->ProjectionY("",offlineCh+1,offlineCh+1);
558 Double_t ped = hProj->GetMean();
559 Double_t sigma = hProj->GetRMS();
560 delete hProj;
9bd82f77 561
6bec7c7c 562 Double_t chargeEoI = charge - ped;
9bd82f77 563
6bec7c7c 564 // Calculation of the number of MIP
565 Double_t mipEoI = chargeEoI * fCalibData->GetMIPperADC(offlineCh);
9bd82f77 566
567
6bec7c7c 568 if(charge<1023 && chargeEoI > 5.*sigma){
569 ((TH2I*)GetRawsData((integrator == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1)))->Fill(offlineCh,chargeEoI);
570 ((TH2D*)GetRawsData(kRawMIPChannel))->Fill(offlineCh,mipEoI);
571 if(offlineCh<32) {
9bd82f77 572 mulV0C++;
6bec7c7c 573 chargeV0C += chargeEoI;
574 mipV0C += mipEoI;
575 } else {
9bd82f77 576 mulV0A++;
6bec7c7c 577 chargeV0A += chargeEoI;
578 mipV0A += mipEoI;
9bd82f77 579 }
6bec7c7c 580 }
9bd82f77 581
6bec7c7c 582 // Fill Charge Minimum Bias Histograms
583
584 int idx;
585 for(Int_t iBunch=0; iBunch<10; iBunch++){
9bd82f77 586 integrator = rawStream->GetIntMBFlag(iChannel, iBunch);
6bec7c7c 587 BBFlag = rawStream->GetBBMBFlag(iChannel, iBunch);
588 BGFlag = rawStream->GetBGMBFlag(iChannel, iBunch);
9bd82f77 589 MBCharge = rawStream->GetChargeMB(iChannel, iBunch);
590
591 if(integrator==0){
592 if(BBFlag==0){
6bec7c7c 593 if(BGFlag==0) idx = kChargeMBBB0BG0Int0;
594 else idx = kChargeMBBB0BG1Int0;
9bd82f77 595 } else {
6bec7c7c 596 if(BGFlag==0) idx = kChargeMBBB1BG0Int0;
597 else idx = kChargeMBBB1BG1Int0;
9bd82f77 598 }
599 } else {
600 if(BBFlag==0){
6bec7c7c 601 if(BGFlag==0) idx = kChargeMBBB0BG0Int1;
602 else idx = kChargeMBBB0BG1Int1;
9bd82f77 603 } else {
6bec7c7c 604 if(BGFlag==0) idx = kChargeMBBB1BG0Int1;
605 else idx = kChargeMBBB1BG1Int1;
9bd82f77 606 }
607 }
6bec7c7c 608 GetRawsData(idx)->Fill(offlineCh,MBCharge);
609 }
610
611 // Fill HPTDC Time Histograms
612
613 BBFlag = rawStream->GetBBFlag(iChannel, 10);
614 BGFlag = rawStream->GetBGFlag(iChannel, 10);
615 time = rawStream->GetTime(iChannel);
616 width = rawStream->GetWidth(iChannel);
617
618 if(time>0.){
619 if (offlineCh<32) {
620 itimeV0C++;
621 timeV0C += time;
622 }else{
623 itimeV0A++;
624 timeV0A += time;
625 }
626 }
627 GetRawsData(kHPTDCTime)->Fill(offlineCh,time);
628 GetRawsData(kWidth)->Fill(offlineCh,width);
9bd82f77 629 if(BBFlag) {
6bec7c7c 630 GetRawsData(kHPTDCTimeBB)->Fill(offlineCh,time);
631 GetRawsData(kWidthBB)->Fill(offlineCh,width);
9bd82f77 632 }
6bec7c7c 633 if(BGFlag) {
634 GetRawsData(kHPTDCTimeBG)->Fill(offlineCh,time);
635 GetRawsData(kWidthBG)->Fill(offlineCh,width);
9bd82f77 636 }
637
6bec7c7c 638 // Fill Flag and Charge Versus LHC-Clock histograms
639
d62942e8 640 for(Int_t iEvent=0; iEvent<21; iEvent++){
6bec7c7c 641 charge = rawStream->GetPedestal(iChannel,iEvent);
642 integrator = rawStream->GetIntegratorFlag(iChannel,iEvent);
643 BBFlag = rawStream->GetBBFlag(iChannel, iEvent);
644 BGFlag = rawStream->GetBGFlag(iChannel,iEvent );
645
646 ((TH2*) GetRawsData((integrator == 0 ? kChargeVsClockInt0 : kChargeVsClockInt1 )))->Fill(offlineCh,(float)iEvent-10,(float)charge);
647 ((TH2*) GetRawsData(kBBFlagVsClock))->Fill(offlineCh,(float)iEvent-10,(float)BBFlag);
648 ((TH2*) GetRawsData(kBGFlagVsClock))->Fill(offlineCh,(float)iEvent-10,(float)BGFlag);
9bd82f77 649 }
650
6bec7c7c 651 }// END of Loop over channels
9bd82f77 652
6bec7c7c 653 if(itimeV0A>0) timeV0A /= (itimeV0A * 10); // itimeV0A Channels and divide by 10 to have the result in ns because 1 TDC Channel = 100 ps
654 else timeV0A = -1.;
655 if(itimeV0C>0) timeV0C /= (itimeV0C * 10);
656 else timeV0C = -1.;
657 if(timeV0A<0. || timeV0C<0.) diffTime = -10000.;
658 else diffTime = timeV0A - timeV0C;
9bd82f77 659
6bec7c7c 660 GetRawsData(kV0ATime)->Fill(timeV0A);
661 GetRawsData(kV0CTime)->Fill(timeV0C);
662 GetRawsData(kDiffTime)->Fill(diffTime);
9bd82f77 663
6bec7c7c 664 GetRawsData(kMultiV0A)->Fill(mulV0A);
665 GetRawsData(kMultiV0C)->Fill(mulV0C);
9bd82f77 666
6bec7c7c 667 GetRawsData(kChargeV0A)->Fill(chargeV0A);
668 GetRawsData(kChargeV0C)->Fill(chargeV0C);
669 GetRawsData(kChargeV0)->Fill(chargeV0A + chargeV0C);
9bd82f77 670
6bec7c7c 671 GetRawsData(kRawMIPV0A)->Fill(mipV0A);
672 GetRawsData(kRawMIPV0C)->Fill(mipV0C);
673 GetRawsData(kRawMIPV0)->Fill(mipV0A + mipV0C);
674 break;
675
676 } // END of SWITCH : EVENT TYPE
9bd82f77 677
678 fEvent++;
679 TParameter<double> * p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kMultiV0A)->GetName()))) ;
680 p->SetVal((double)mulV0A) ;
681
682 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kMultiV0C)->GetName()))) ;
683 p->SetVal((double)mulV0C) ;
684
685 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0A)->GetName()))) ;
6bec7c7c 686 p->SetVal((double)chargeV0A) ;
9bd82f77 687
688 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0C)->GetName()))) ;
6bec7c7c 689 p->SetVal((double)chargeV0C) ;
9bd82f77 690
691 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0)->GetName()))) ;
6bec7c7c 692 p->SetVal((double)(chargeV0A + chargeV0C)) ;
9bd82f77 693
694 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0A)->GetName()))) ;
6bec7c7c 695 p->SetVal((double)mipV0A) ;
9bd82f77 696
697 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0C)->GetName()))) ;
6bec7c7c 698 p->SetVal((double)mipV0C) ;
9bd82f77 699
700 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0)->GetName()))) ;
6bec7c7c 701 p->SetVal((double)(mipV0A + mipV0C)) ;
9bd82f77 702
703 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kV0ATime)->GetName()))) ;
6bec7c7c 704 p->SetVal((double)timeV0A) ;
9bd82f77 705
706 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kV0CTime)->GetName()))) ;
6bec7c7c 707 p->SetVal((double)timeV0C) ;
9bd82f77 708
709 p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kDiffTime)->GetName()))) ;
6bec7c7c 710 p->SetVal((double)diffTime) ;
9bd82f77 711
712 delete rawStream; rawStream = 0x0;
713
714
4da80b8c 715 }
508b9fc0 716
717//____________________________________________________________________________
718void AliVZEROQADataMakerRec::StartOfDetectorCycle()
719{
720 // Detector specific actions at start of cycle
721
6bec7c7c 722 // Reset of the histogram used - to have the trend versus time -
e6d13307 723
724 fCalibData = GetCalibData();
6bec7c7c 725
9bd82f77 726 TH1* h;
6bec7c7c 727 h = GetRawsData(kPedestalCycleInt0);
9bd82f77 728 if(h) h->Reset();
6bec7c7c 729 h = GetRawsData(kPedestalCycleInt1);
9bd82f77 730 if(h) h->Reset();
6bec7c7c 731 h = GetRawsData(kChargeEoICycleInt0);
9bd82f77 732 if(h) h->Reset();
6bec7c7c 733 h = GetRawsData(kChargeEoICycleInt1);
9bd82f77 734 if(h) h->Reset();
735
508b9fc0 736}