Add input files for all centralities
[u/mrichter/AliRoot.git] / VZERO / AliVZEROQADataMakerRec.cxx
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  *                                                                        *
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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          *
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15
16
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
21
22 // --- ROOT system ---
23 #include <TClonesArray.h>
24 #include <TFile.h> 
25 #include <TH1F.h> 
26 #include <TH1I.h> 
27 #include <TH2I.h> 
28 #include <TH2D.h> 
29 #include <TGraph.h> 
30 #include <TParameter.h>
31
32 // --- Standard library ---
33
34 // --- AliRoot header files ---
35 #include "AliESDEvent.h"
36 #include "AliLog.h"
37 #include "AliCDBManager.h"
38 #include "AliCDBStorage.h"
39 #include "AliCDBEntry.h"
40 #include "AliVZEROQADataMakerRec.h"
41 #include "AliQAChecker.h"
42 #include "AliRawReader.h"
43 #include "AliVZERORawStream.h"
44 #include "AliVZEROReconstructor.h"
45 #include "event.h"
46
47
48 ClassImp(AliVZEROQADataMakerRec)
49            
50 //____________________________________________________________________________ 
51   AliVZEROQADataMakerRec::AliVZEROQADataMakerRec() : 
52         AliQADataMakerRec(AliQA::GetDetName(AliQA::kVZERO), "VZERO Quality Assurance Data Maker"),
53         fCalibData(0x0),
54     fEvent(0)
55     
56 {
57    // Constructor
58    
59    AliInfo("Construct VZERO QA Object");
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++){  
66        fADCmean[i] = 0.0;   }   
67 }
68
69 //____________________________________________________________________________ 
70   AliVZEROQADataMakerRec::AliVZEROQADataMakerRec(const AliVZEROQADataMakerRec& qadm) :
71   AliQADataMakerRec(),
72         fCalibData(0x0),
73     fEvent(0)
74   
75 {
76   // Copy constructor 
77   
78    SetName((const char*)qadm.GetName()) ; 
79    SetTitle((const char*)qadm.GetTitle()); 
80 }
81
82 //__________________________________________________________________
83 AliVZEROQADataMakerRec& AliVZEROQADataMakerRec::operator = (const AliVZEROQADataMakerRec& qadm )
84 {
85   // Equal operator
86   
87   this->~AliVZEROQADataMakerRec();
88   new(this) AliVZEROQADataMakerRec(qadm);
89   return *this;
90 }
91
92 //____________________________________________________________________________
93 AliVZEROCalibData* AliVZEROQADataMakerRec::GetCalibData() const
94
95 {
96    AliCDBManager *man = AliCDBManager::Instance();
97
98    AliCDBEntry *entry=0;
99
100    entry = man->Get("VZERO/Calib/Data",fRun);
101    if(!entry){
102         AliWarning("Load of calibration data from default storage failed!");
103         AliWarning("Calibration data will be loaded from local storage ($ALICE_ROOT)");
104         
105         man->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
106         entry = man->Get("VZERO/Calib/Data",fRun);
107    }
108    // Retrieval of data in directory VZERO/Calib/Data:
109
110    AliVZEROCalibData *calibdata = 0;
111
112    if (entry) calibdata = (AliVZEROCalibData*) entry->GetObject();
113    if (!calibdata)  AliFatal("No calibration data from calibration database !");
114
115    return calibdata;
116 }
117
118
119  
120 //____________________________________________________________________________ 
121 void AliVZEROQADataMakerRec::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray ** list)
122 {
123   // Detector specific actions at end of cycle
124   // Does the QA checking
125   
126   AliQAChecker::Instance()->Run(AliQA::kVZERO, task, list) ;
127
128   for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) {
129     SetEventSpecie(specie) ; 
130     if(task == AliQA::kRAWS){
131           int nMaxBin = GetRawsData(kPedestalTimeInt0)->GetNbinsY();
132       if(fCurrentCycle%nMaxBin==0) {
133         GetRawsData(kPedestalTimeInt0)->Reset();
134         GetRawsData(kPedestalTimeInt1)->Reset();
135         GetRawsData(kChargeEoITimeInt0)->Reset();
136         GetRawsData(kChargeEoITimeInt1)->Reset();
137       }
138       TH1D* hProj;
139       char name[50];
140       for(Int_t iChannel=0; iChannel<64; iChannel++) {
141         for(Int_t integrator=0;integrator<2;integrator++){
142           sprintf(name,"Ped_%d_%d",iChannel,integrator);
143           hProj = ((TH2I*)GetRawsData((integrator == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1)))->ProjectionY(name,iChannel+1,iChannel+1);
144           ((TH2D*)GetRawsData((integrator == 0 ? kPedestalTimeInt0 : kPedestalTimeInt1)))->Fill((double)iChannel,(double)(fCurrentCycle%nMaxBin),(double)hProj->GetMean());
145           delete hProj;
146
147           sprintf(name,"Charge_%d_%d",iChannel,integrator);
148           hProj = ((TH2I*)GetRawsData((integrator == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1)))->ProjectionY(name,iChannel+1,iChannel+1);
149           ((TH2D*)GetRawsData((integrator == 0 ? kChargeEoITimeInt0 : kChargeEoITimeInt1)))->Fill((double)iChannel,(double)(fCurrentCycle%nMaxBin),hProj->GetMean());
150           delete hProj;
151         }
152       }
153     } else if (task == AliQA::kESDS) {
154     }
155   }
156 }
157
158 //____________________________________________________________________________ 
159 void AliVZEROQADataMakerRec::InitESDs()
160 {
161   // Creates histograms to control ESDs
162   
163   Bool_t expert   = kTRUE ; 
164         
165   TH2D * h2d;
166   TH1I * h1i;
167   TH1D * h1d;
168                 
169   h1i = new TH1I("H1I_Cell_Multiplicity_V0A", "Cell Multiplicity in V0A", 35, 0, 35) ;  
170   h1i->GetXaxis()->SetTitle("Multiplicity (Nb of Cell)");
171   Add2ESDsList(h1i, kCellMultiV0A, !expert)  ;  
172                                                                                                         
173   h1i = new TH1I("H1I_Cell_Multiplicity_V0C", "Cell Multiplicity in V0C", 35, 0, 35) ;  
174   h1i->GetXaxis()->SetTitle("Multiplicity (Nb of Cell)");
175   Add2ESDsList(h1i, kCellMultiV0C, !expert)  ;  
176    
177   h1d = new TH1D("H1D_MIP_Multiplicity_V0A", "MIP Multiplicity in V0A", 1000, 0, 1000) ;  
178   h1d->GetXaxis()->SetTitle("Multiplicity (Nb of MIP)");
179   Add2ESDsList(h1d, kMIPMultiV0A, !expert)  ;  
180   
181   h1d = new TH1D("H1D_MIP_Multiplicity_V0C", "MIP Multiplicity in V0C", 1000, 0, 1000) ;  
182   h1d->GetXaxis()->SetTitle("Multiplicity (Nb of MIP)");
183   Add2ESDsList(h1d, kMIPMultiV0C, !expert)  ;  
184
185   h2d = new TH2D("H2D_MIP_Multiplicity_Channel", "MIP Multiplicity per Channel",64, 0, 64, 100, 0, 100) ;  
186   h2d->GetXaxis()->SetTitle("Channel");
187   h2d->GetYaxis()->SetTitle("Multiplicity (Nb of MIP)");
188   Add2ESDsList(h2d, kMIPMultiChannel, !expert)  ;  
189   
190   h1d = new TH1D("H1D_BBFlag_Counters", "BB Flag Counters",64, 0, 64) ;  
191   h1d->GetXaxis()->SetTitle("Channel");
192   Add2ESDsList(h1d, kBBFlag, !expert)  ;  
193   
194   h1d = new TH1D("H1D_BGFlag_Counters", "BG Flag Counters",64, 0, 64) ;  
195   h1d->GetXaxis()->SetTitle("Channel");
196   Add2ESDsList(h1d, kBGFlag, !expert)  ;  
197   
198   h2d = new TH2D("H2D_Charge_Channel", "ADC Charge per channel",64, 0, 64, 1024, 0, 1024) ;  
199   h2d->GetXaxis()->SetTitle("Channel");
200   h2d->GetYaxis()->SetTitle("Charge (ADC counts)");
201   Add2ESDsList(h2d, kChargeChannel, !expert)  ;  
202   
203   h2d = new TH2D("H2D_Time_Channel", "Time per channel",64, 0, 64, 820, 0, 410) ;  
204   h2d->GetXaxis()->SetTitle("Channel");
205   h2d->GetYaxis()->SetTitle("Time (ns)");
206   Add2ESDsList(h2d, kTimeChannel, !expert)  ;  
207   
208   h1d = new TH1D("H1D_V0A_Time", "Mean V0A Time",2048, 0., 409.6);
209   h1d->GetXaxis()->SetTitle("Time (ns)");
210   Add2ESDsList(h1d,kESDV0ATime, !expert); 
211   
212   h1d = new TH1D("H1D_V0C_Time", "Mean V0C Time",2048, 0., 409.6);
213   h1d->GetXaxis()->SetTitle("Time (ns)");
214   Add2ESDsList(h1d,kESDV0CTime, !expert); 
215   
216   h1d = new TH1D("H1D_Diff_Time", "Diff Time V0A - V0C",2*2048, -409.6, 409.6);
217   h1d->GetXaxis()->SetTitle("Diff Time V0A - V0C (ns)");
218   Add2ESDsList(h1d,kESDDiffTime, !expert); 
219         
220 }
221
222 //____________________________________________________________________________ 
223  void AliVZEROQADataMakerRec::InitRaws()
224  {
225    // Creates RAW histograms in Raws subdir
226    
227   Bool_t expert   = kTRUE ; 
228   Bool_t saveCorr = kTRUE ; 
229
230   char name[50] , title[100];
231   const Int_t kNintegrator  =    2;
232  
233   const Int_t kNTdcTimeBins  = 2048;
234   const Int_t kTdcTimeMin    =    0;
235   const Int_t kTdcTimeMax    = 4096;
236   const Int_t kNTdcWidthBins =  128;
237   const Int_t kTdcWidthMin   =    0;
238   const Int_t kTdcWidthMax   =  128;
239   const Int_t kNChargeBins   = 1024;
240   const Int_t kChargeMin     =    0;
241   const Int_t kChargeMax     = 1024;
242   const Int_t kNChannelBins  =   64;
243   const Int_t kChannelMin    =    0;
244   const Int_t kChannelMax    =   64;
245   const Int_t kNPedestalBins =  200;
246   const Int_t kPedestalMin   =    0;
247   const Int_t kPedestalMax   =  200;
248   const Int_t kTimeMin       =   0;
249   const Int_t kTimeMax       = 100;
250   const Int_t kNMIPBins      = 200;
251   const Int_t kMIPMin        =   0;
252   const Int_t kMIPMax        = 200;
253
254   TH2I * h2i;
255   TH2D * h2d;
256   TH1I * h1i;
257   TH1D * h1d;
258
259   int iHisto =0;
260  
261    // Creation of Cell Multiplicity Histograms
262   h1i = new TH1I("H1I_Multiplicity_V0A", "Cell Multiplicity in V0A", 35, 0, 35) ;  
263   Add2RawsList(h1i,kMultiV0A, !expert, saveCorr);   iHisto++;
264   h1i = new TH1I("H1I_Multiplicity_V0C", "Cell Multiplicity in V0C", 35, 0, 35) ;  
265   Add2RawsList(h1i,kMultiV0C, !expert, saveCorr);   iHisto++;
266  
267   // Creation of Total Charge Histograms
268   h1d = new TH1D("H1D_Charge_V0A", "Total Charge in V0A", 2048, 0, 32768) ;  
269   Add2RawsList(h1d,kChargeV0A, !expert, saveCorr);   iHisto++;
270   h1d = new TH1D("H1D_Charge_V0C", "Total Charge in V0C", 2048, 0, 32768) ;  
271   Add2RawsList(h1d,kChargeV0C, !expert, saveCorr);   iHisto++;
272   h1d = new TH1D("H1D_Charge_V0", "Total Charge in V0", 2048, 0, 65536) ;  
273   Add2RawsList(h1d,kChargeV0, !expert, saveCorr);   iHisto++;
274   
275   // Creation of MIP Histograms
276   h1d = new TH1D("H1D_MIP_V0A", "Total MIP in V0A", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;  
277   Add2RawsList(h1d,kRawMIPV0A, !expert, saveCorr);   iHisto++;
278   h1d = new TH1D("H1D_MIP_V0C", "Total MIP in V0C", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;  
279   Add2RawsList(h1d,kRawMIPV0C, !expert, saveCorr);   iHisto++;
280   h1d = new TH1D("H1D_MIP_V0", "Total MIP in V0", 2*kNMIPBins,kMIPMin ,32*kMIPMax) ;  
281   Add2RawsList(h1d,kRawMIPV0, !expert, saveCorr);   iHisto++;
282   h2d = new TH2D("H2D_MIP_Channel", "Nb of MIP per channel", kNChannelBins, kChannelMin, kChannelMax,kNMIPBins,kMIPMin ,kMIPMax) ;  
283   Add2RawsList(h2d,kRawMIPChannel, expert, !saveCorr);   iHisto++;
284   
285  
286  for(Int_t iInt=0;iInt<kNintegrator;iInt++){
287     // Creation of Pedestal histograms 
288     sprintf(name,"H2I_Pedestal_Int%d",iInt);
289     sprintf(title,"Pedestal (Int%d)",iInt);
290     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNPedestalBins,kPedestalMin ,kPedestalMax );
291     Add2RawsList(h2i,(iInt == 0 ? kPedestalInt0 : kPedestalInt1), expert, !saveCorr); iHisto++;
292         
293     // Creation of temporary Pedestal histo used for the mean versus time histogram. This histogram will be reset at the end of each cycle
294     sprintf(name,"H2I_Pedestal_CycleInt%d",iInt);
295     sprintf(title,"One Cycle Pedestal (Int%d)",iInt);
296     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNPedestalBins,kPedestalMin ,kPedestalMax );
297     Add2RawsList(h2i,(iInt == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1), expert, !saveCorr); iHisto++;
298                 
299     // Creation of Pedestal versus time graph.
300     sprintf(name,"H2D_Pedestal_Time_Int%d",iInt);
301     sprintf(title,"Pedestal Versus Time (Int%d)",iInt);
302     h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,kTimeMax,kTimeMin ,kTimeMax );
303     Add2RawsList(h2d,(iInt == 0 ? kPedestalTimeInt0 : kPedestalTimeInt1), expert, !saveCorr); iHisto++;
304
305    // Creation of Charge EoI histograms 
306     sprintf(name,"H2I_ChargeEoI_Int%d",iInt);
307     sprintf(title,"Charge EoI (Int%d)",iInt);
308     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
309     Add2RawsList(h2i,(iInt == 0 ? kChargeEoIInt0 : kChargeEoIInt1), !expert, !saveCorr); iHisto++;
310
311    // Creation of temporary Charge EoI histograms used for the mean versus time histogram. This histogram will be reset at the end of each cycle
312     sprintf(name,"H2I_ChargeEoI_CycleInt%d",iInt);
313     sprintf(title,"One Cycle Charge EoI (Int%d)",iInt);
314     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
315     Add2RawsList(h2i,(iInt == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1), expert, !saveCorr); iHisto++;
316                 
317     // Creation of Charge EoI versus time graphs
318     sprintf(name,"H2D_ChargeEoI_Time_Int%d",iInt);
319     sprintf(title,"Charge EoI Versus Time (Int%d)",iInt);
320     h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,kTimeMax,kTimeMin ,kTimeMax );
321     Add2RawsList(h2d,(iInt == 0 ? kChargeEoITimeInt0 : kChargeEoITimeInt1), expert, !saveCorr); iHisto++;
322     
323     sprintf(name,"H2I_ChargeEoI_BB_Int%d",iInt);
324     sprintf(title,"Charge EoI w/ BB Flag (Int%d)",iInt);
325     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
326     Add2RawsList(h2i,(iInt == 0 ? kChargeEoIBBInt0 : kChargeEoIBBInt1), expert, !saveCorr); iHisto++;
327     
328     sprintf(name,"H2I_ChargeEoI_BG_Int%d",iInt);
329     sprintf(title,"Charge EoI w/ BG Flag (Int%d)",iInt);
330     h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNChargeBins, kChargeMin, kChargeMax);
331     Add2RawsList(h2i,(iInt == 0 ?  kChargeEoIBGInt0: kChargeEoIBGInt1), expert, !saveCorr); iHisto++;
332
333     // Creation of Charge versus LHC Clock histograms 
334     sprintf(name,"H2D_ChargeVsClock_Int%d",iInt);
335     sprintf(title,"Charge Versus LHC-Clock (Int%d)",iInt);
336     h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
337     Add2RawsList(h2d,(iInt == 0 ? kChargeVsClockInt0 : kChargeVsClockInt1 ), expert, !saveCorr); iHisto++;
338         
339     // Creation of Minimum Bias Charge histograms 
340     for(Int_t iBB=0;iBB<2;iBB++){
341                 for(Int_t iBG=0;iBG<2;iBG++){
342                         sprintf(name,"H2I_ChargeMB_BB%d_BG%d_Int%d",iBB,iBG,iInt);
343                         sprintf(title,"MB Charge (BB=%d, BG=%d, Int=%d)",iBB,iBG,iInt);
344                         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax,kNChargeBins, kChargeMin, kChargeMax);
345                         int idx;
346                         if(iInt==0){
347                                 if(iBB==0){
348                                         if(iBG==0) idx = kChargeMBBB0BG0Int0;
349                                         else idx = kChargeMBBB0BG1Int0;
350                                 } else {
351                                         if(iBG==0) idx = kChargeMBBB1BG0Int0;
352                                         else idx = kChargeMBBB1BG1Int0;
353                                 }
354                         } else {
355                                 if(iBB==0){
356                                         if(iBG==0) idx = kChargeMBBB0BG0Int1;
357                                         else idx = kChargeMBBB0BG1Int1;
358                                 } else {
359                                         if(iBG==0) idx = kChargeMBBB1BG0Int1;
360                                         else idx = kChargeMBBB1BG1Int1;
361                                 }
362                         }
363                         Add2RawsList(h2i,idx, expert, !saveCorr); iHisto++;
364                 }
365     }
366         
367  }
368  
369      // Creation of Time histograms 
370         sprintf(name,"H2I_Width");
371         sprintf(title,"HPTDC Width");
372         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
373         Add2RawsList(h2i,kWidth, expert, !saveCorr); iHisto++;
374
375         sprintf(name,"H2I_Width_BB");
376         sprintf(title,"HPTDC Width w/ BB Flag condition");
377         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
378         Add2RawsList(h2i,kWidthBB, expert, !saveCorr); iHisto++;
379
380         sprintf(name,"H2I_Width_BG");
381         sprintf(title,"HPTDC Width w/ BG Flag condition");
382         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcWidthBins, kTdcWidthMin, kTdcWidthMax);
383         Add2RawsList(h2i,kWidthBG, expert, !saveCorr); iHisto++;
384
385         sprintf(name,"H2I_HPTDCTime");
386         sprintf(title,"HPTDC Time");
387         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
388         Add2RawsList(h2i,kHPTDCTime, !expert, !saveCorr); iHisto++;
389
390         sprintf(name,"H2I_HPTDCTime_BB");
391         sprintf(title,"HPTDC Time w/ BB Flag condition");
392         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
393         Add2RawsList(h2i,kHPTDCTimeBB, expert, !saveCorr); iHisto++;
394
395         sprintf(name,"H2I_HPTDCTime_BG");
396         sprintf(title,"HPTDC Time w/ BG Flag condition");
397         h2i = new TH2I(name, title,kNChannelBins, kChannelMin, kChannelMax, kNTdcTimeBins, kTdcTimeMin, kTdcTimeMax);
398         Add2RawsList(h2i,kHPTDCTimeBG, expert, !saveCorr); iHisto++;
399         
400         sprintf(name,"H1D_V0A_Time");
401         sprintf(title,"V0A Time");
402         h1d = new TH1D(name, title,kNTdcTimeBins, kTdcTimeMin/10, kTdcTimeMax/10);
403         Add2RawsList(h1d,kV0ATime, !expert, saveCorr); iHisto++;
404         
405         sprintf(name,"H1D_V0C_Time");
406         sprintf(title,"V0C Time");
407         h1d = new TH1D(name, title,kNTdcTimeBins, kTdcTimeMin/10, kTdcTimeMax/10);
408         Add2RawsList(h1d,kV0CTime, !expert, saveCorr); iHisto++;
409         
410         sprintf(name,"H1D_Diff_Time");
411         sprintf(title,"Diff V0A-V0C Time");
412         h1d = new TH1D(name, title,2*kNTdcTimeBins, -kTdcTimeMax/10, kTdcTimeMax/10);
413         Add2RawsList(h1d,kDiffTime, !expert, saveCorr); iHisto++;
414         
415         // Creation of Flag versus LHC Clock histograms 
416         sprintf(name,"H2D_BBFlagVsClock");
417         sprintf(title,"BB-Flags Versus LHC-Clock");
418         h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
419         Add2RawsList(h2d,kBBFlagVsClock, expert, !saveCorr); iHisto++;
420         
421         sprintf(name,"H2D_BGFlagVsClock");
422         sprintf(title,"BG-Flags Versus LHC-Clock");
423         h2d = new TH2D(name, title,kNChannelBins, kChannelMin, kChannelMax,21, -10.5, 10.5 );
424         Add2RawsList(h2d,kBGFlagVsClock, expert, !saveCorr); iHisto++;
425          
426         AliInfo(Form("%d Histograms has been added to the Raws List",iHisto));
427  }
428
429 //____________________________________________________________________________
430 void AliVZEROQADataMakerRec::MakeESDs(AliESDEvent * esd)
431 {
432   // Creates QA data from ESDs
433   
434   UInt_t eventType = esd->GetEventType();
435
436   switch (eventType){
437         case PHYSICS_EVENT:
438         AliESDVZERO *esdVZERO=esd->GetVZEROData();
439    
440         if (!esdVZERO) break;
441                   
442         GetESDsData(kCellMultiV0A)->Fill(esdVZERO->GetNbPMV0A());
443         GetESDsData(kCellMultiV0C)->Fill(esdVZERO->GetNbPMV0C());  
444         GetESDsData(kMIPMultiV0A)->Fill(esdVZERO->GetMTotV0A());
445         GetESDsData(kMIPMultiV0C)->Fill(esdVZERO->GetMTotV0C());  
446         
447         Float_t  timeV0A = 0., timeV0C = 0., diffTime;
448         Int_t   iTimeV0A = 0, iTimeV0C = 0;
449                 
450         for(Int_t i=0;i<64;i++) {
451                         GetESDsData(kMIPMultiChannel)->Fill((Float_t) i,(Float_t) esdVZERO->GetMultiplicity(i));
452                         GetESDsData(kChargeChannel)->Fill((Float_t) i,(Float_t) esdVZERO->GetAdc(i));
453                         if(esdVZERO->GetBBFlag(i)) GetESDsData(kBBFlag)->Fill((Float_t) i);
454                         if(esdVZERO->GetBGFlag(i)) GetESDsData(kBGFlag)->Fill((Float_t) i);
455
456                         Float_t time = (Float_t) esdVZERO->GetTime(i)/10.; //Convert in ns:  1 TDC channel = 100ps 
457                         GetESDsData(kTimeChannel)->Fill((Float_t) i,time);
458
459                         if(time>0.){
460                                 if (i<32) {
461                                         iTimeV0C++;
462                                         timeV0C += time;
463                                 }else{
464                                         iTimeV0A++;
465                                         timeV0A += time;
466                                 }
467                         }
468         }
469         if(iTimeV0A>0) timeV0A /= iTimeV0A; 
470         else timeV0A = -1.;
471         if(iTimeV0C>0) timeV0C /= iTimeV0C;
472         else timeV0C = -1.;
473         if(timeV0A<0. || timeV0C<0.) diffTime = -10000.;
474         else diffTime = timeV0A - timeV0C;
475                                 
476         GetESDsData(kESDV0ATime)->Fill(timeV0A);
477         GetESDsData(kESDV0CTime)->Fill(timeV0C);
478         GetESDsData(kESDDiffTime)->Fill(diffTime);
479                 
480         break;
481         }  
482   
483 }
484
485 //____________________________________________________________________________
486  void AliVZEROQADataMakerRec::MakeRaws(AliRawReader* rawReader)
487  {
488   // Fills histograms with Raws, computes average ADC values dynamically (pedestal subtracted)
489                   
490   rawReader->Reset() ; 
491   AliVZERORawStream* rawStream  = new AliVZERORawStream(rawReader); 
492   rawStream->Next();
493   
494   eventTypeType eventType = rawReader->GetType();
495
496   Int_t    mulV0A = 0 ; 
497   Int_t    mulV0C = 0 ; 
498   Double_t timeV0A =0., timeV0C = 0.;
499   UInt_t   itimeV0A=0, itimeV0C=0;
500   Double_t chargeV0A=0., chargeV0C=0.;
501   Double_t mipV0A=0., mipV0C=0.;
502
503   Double_t diffTime=-100000.;
504
505   
506   switch (eventType){
507        case PHYSICS_EVENT:
508        Int_t  iFlag=0;
509        Int_t  pedestal;
510        Int_t  integrator;
511        Bool_t BBFlag;    
512        Bool_t BGFlag;    
513        UInt_t time, width;
514        Int_t  MBCharge, charge;
515        Int_t  offlineCh;
516        TH1D * hProj;
517
518        for(Int_t iChannel=0; iChannel<64; iChannel++) { // BEGIN : Loop over channels
519                    
520            offlineCh = rawStream->GetOfflineChannel(iChannel);
521                    
522            // Fill Pedestal histograms
523            
524            for(Int_t j=15; j<21; j++) {
525                        if((rawStream->GetBGFlag(iChannel,j) || rawStream->GetBBFlag(iChannel,j))) iFlag++;
526            }
527
528            if(iFlag == 0){ //No Flag found
529                        for(Int_t j=15; j<21; j++){
530                                pedestal=rawStream->GetPedestal(iChannel, j);
531                                integrator = rawStream->GetIntegratorFlag(iChannel, j);
532
533                                GetRawsData((integrator == 0 ? kPedestalInt0 : kPedestalInt1))->Fill(offlineCh,pedestal);
534                                GetRawsData((integrator == 0 ? kPedestalCycleInt0 : kPedestalCycleInt1))->Fill(offlineCh,pedestal);
535                        }
536             }
537
538            // Fill Charge EoI histograms
539            
540            // Look for the maximum in the LHC clock train
541            charge = 0;
542            Int_t iClock  = 0;
543            Int_t iCharge = 0;
544            for(Int_t iEvent=0; iEvent<21; iEvent++){
545                iCharge = rawStream->GetPedestal(iChannel,iEvent);
546                if(iCharge>charge)  {
547                        charge = iCharge;
548                        iClock = iEvent;
549                    }
550            }   // End of maximum searching procedure
551
552            integrator    = rawStream->GetIntegratorFlag(iChannel,iClock);
553            BBFlag        = rawStream->GetBBFlag(iChannel, iClock);
554            BGFlag        = rawStream->GetBGFlag(iChannel,iClock );
555
556            GetRawsData((integrator == 0 ? kChargeEoIInt0 : kChargeEoIInt1))->Fill(offlineCh,charge);
557            if(BBFlag) GetRawsData((integrator == 0 ? kChargeEoIBBInt0 : kChargeEoIBBInt1))->Fill(offlineCh,charge);
558            if(BGFlag) GetRawsData((integrator == 0 ? kChargeEoIBGInt0 : kChargeEoIBGInt1))->Fill(offlineCh,charge);
559
560            hProj = ((TH2I*)GetRawsData((integrator == 0 ? kPedestalInt0 : kPedestalInt1)))->ProjectionY("",offlineCh+1,offlineCh+1);
561            Double_t ped   = hProj->GetMean();
562            Double_t sigma = hProj->GetRMS();
563            delete hProj;
564
565            Double_t chargeEoI = charge - ped;
566                    
567            // Calculation of the number of MIP
568            Double_t mipEoI = chargeEoI * fCalibData->GetMIPperADC(offlineCh);
569
570                    
571            if(charge<1023 && chargeEoI > 5.*sigma){ 
572                    ((TH2I*)GetRawsData((integrator == 0 ? kChargeEoICycleInt0 : kChargeEoICycleInt1)))->Fill(offlineCh,chargeEoI);
573                    ((TH2D*)GetRawsData(kRawMIPChannel))->Fill(offlineCh,mipEoI);
574                    if(offlineCh<32) {
575                                    mulV0C++;
576                                    chargeV0C += chargeEoI;
577                                    mipV0C += mipEoI;
578                    } else {
579                                    mulV0A++;
580                                    chargeV0A += chargeEoI;
581                                    mipV0A += mipEoI;
582                    }
583            }
584
585            // Fill Charge Minimum Bias Histograms
586                    
587            int idx;
588            for(Int_t iBunch=0; iBunch<10; iBunch++){
589                            integrator = rawStream->GetIntMBFlag(iChannel, iBunch);
590                            BBFlag     = rawStream->GetBBMBFlag(iChannel, iBunch);
591                            BGFlag     = rawStream->GetBGMBFlag(iChannel, iBunch);
592                            MBCharge   = rawStream->GetChargeMB(iChannel, iBunch);
593
594                            if(integrator==0){
595                                    if(BBFlag==0){
596                                            if(BGFlag==0) idx = kChargeMBBB0BG0Int0;
597                                            else idx = kChargeMBBB0BG1Int0;
598                                    } else {
599                                            if(BGFlag==0) idx = kChargeMBBB1BG0Int0;
600                                            else idx = kChargeMBBB1BG1Int0;
601                                    }
602                            } else {
603                                    if(BBFlag==0){
604                                            if(BGFlag==0) idx = kChargeMBBB0BG0Int1;
605                                            else idx = kChargeMBBB0BG1Int1;
606                                    } else {
607                                            if(BGFlag==0) idx = kChargeMBBB1BG0Int1;
608                                            else idx = kChargeMBBB1BG1Int1;
609                                    }
610                            }
611                            GetRawsData(idx)->Fill(offlineCh,MBCharge);
612           }   
613
614           // Fill HPTDC Time Histograms
615
616            BBFlag   = rawStream->GetBBFlag(iChannel, 10);
617            BGFlag   = rawStream->GetBGFlag(iChannel, 10);
618            time     = rawStream->GetTime(iChannel);
619            width    = rawStream->GetWidth(iChannel);
620
621            if(time>0.){
622                       if (offlineCh<32) {
623                                    itimeV0C++;
624                                    timeV0C += time;
625                       }else{
626                                    itimeV0A++;
627                                    timeV0A += time;
628                       }
629            }
630            GetRawsData(kHPTDCTime)->Fill(offlineCh,time);
631            GetRawsData(kWidth)->Fill(offlineCh,width);
632            if(BBFlag) {
633                   GetRawsData(kHPTDCTimeBB)->Fill(offlineCh,time);
634                   GetRawsData(kWidthBB)->Fill(offlineCh,width);
635            }
636            if(BGFlag) {
637                   GetRawsData(kHPTDCTimeBG)->Fill(offlineCh,time);
638                   GetRawsData(kWidthBG)->Fill(offlineCh,width);
639            }
640
641            // Fill Flag and Charge Versus LHC-Clock histograms
642            
643            for(Int_t iEvent=0; iEvent<21; iEvent++){
644                charge = rawStream->GetPedestal(iChannel,iEvent);
645                integrator = rawStream->GetIntegratorFlag(iChannel,iEvent);
646                BBFlag     = rawStream->GetBBFlag(iChannel, iEvent);
647                BGFlag     = rawStream->GetBGFlag(iChannel,iEvent );
648
649                ((TH2*) GetRawsData((integrator == 0 ? kChargeVsClockInt0 : kChargeVsClockInt1 )))->Fill(offlineCh,(float)iEvent-10,(float)charge);
650                ((TH2*) GetRawsData(kBBFlagVsClock))->Fill(offlineCh,(float)iEvent-10,(float)BBFlag);
651                ((TH2*) GetRawsData(kBGFlagVsClock))->Fill(offlineCh,(float)iEvent-10,(float)BGFlag);
652            }
653
654        }// END of Loop over channels
655
656             if(itimeV0A>0) timeV0A /= (itimeV0A * 10); // itimeV0A Channels and divide by 10 to have the result in ns because 1 TDC Channel = 100 ps
657             else timeV0A = -1.;
658             if(itimeV0C>0) timeV0C /= (itimeV0C * 10);
659             else timeV0C = -1.;
660             if(timeV0A<0. || timeV0C<0.) diffTime = -10000.;
661             else diffTime = timeV0A - timeV0C;
662                 
663             GetRawsData(kV0ATime)->Fill(timeV0A);
664             GetRawsData(kV0CTime)->Fill(timeV0C);
665             GetRawsData(kDiffTime)->Fill(diffTime);
666                 
667             GetRawsData(kMultiV0A)->Fill(mulV0A);
668             GetRawsData(kMultiV0C)->Fill(mulV0C);
669
670             GetRawsData(kChargeV0A)->Fill(chargeV0A);
671             GetRawsData(kChargeV0C)->Fill(chargeV0C);
672             GetRawsData(kChargeV0)->Fill(chargeV0A + chargeV0C);
673                 
674             GetRawsData(kRawMIPV0A)->Fill(mipV0A);
675             GetRawsData(kRawMIPV0C)->Fill(mipV0C);
676             GetRawsData(kRawMIPV0)->Fill(mipV0A + mipV0C);
677             break;
678             
679         } // END of SWITCH : EVENT TYPE 
680         
681         fEvent++; 
682         TParameter<double> * p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kMultiV0A)->GetName()))) ; 
683         p->SetVal((double)mulV0A) ; 
684
685         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kMultiV0C)->GetName()))) ; 
686         p->SetVal((double)mulV0C) ;                     
687
688         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0A)->GetName()))) ; 
689         p->SetVal((double)chargeV0A) ; 
690
691         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0C)->GetName()))) ; 
692         p->SetVal((double)chargeV0C) ;                     
693
694         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kChargeV0)->GetName()))) ; 
695         p->SetVal((double)(chargeV0A + chargeV0C)) ;                     
696         
697         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0A)->GetName()))) ; 
698         p->SetVal((double)mipV0A) ; 
699         
700         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0C)->GetName()))) ; 
701         p->SetVal((double)mipV0C) ;                     
702         
703         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kRawMIPV0)->GetName()))) ; 
704         p->SetVal((double)(mipV0A + mipV0C)) ;                     
705         
706         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kV0ATime)->GetName()))) ; 
707         p->SetVal((double)timeV0A) ; 
708         
709         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kV0CTime)->GetName()))) ; 
710         p->SetVal((double)timeV0C) ;                     
711         
712         p = dynamic_cast<TParameter<double>*>(GetParameterList()->FindObject(Form("%s_%s_%s", GetName(), AliQA::GetTaskName(AliQA::kRAWS).Data(), GetRawsData(kDiffTime)->GetName()))) ; 
713         p->SetVal((double)diffTime) ;                     
714         
715         delete rawStream; rawStream = 0x0;      
716
717
718  }
719
720 //____________________________________________________________________________ 
721 void AliVZEROQADataMakerRec::StartOfDetectorCycle()
722 {
723   // Detector specific actions at start of cycle
724   
725   // Reset of the histogram used - to have the trend versus time -
726  
727   fCalibData = GetCalibData();
728   
729   TH1* h;
730   h = GetRawsData(kPedestalCycleInt0);
731   if(h) h->Reset();
732   h = GetRawsData(kPedestalCycleInt1); 
733   if(h) h->Reset();
734   h = GetRawsData(kChargeEoICycleInt0);
735   if(h) h->Reset();
736   h = GetRawsData(kChargeEoICycleInt1);
737   if(h) h->Reset();
738
739 }