1 #ifndef ALIANALYSISTASKEMCALTRIGGERQA_H
2 #define ALIANALYSISTASKEMCALTRIGGERQA_H
4 //------------------------------------------------------------------------//
5 // Fill histograms with basic QA information for EMCAL offline trigger //
6 // Author: Nicolas Arbor (LPSC-Grenoble), Rachid Guernane (LPSC-Grenoble)//
7 // Gustavo Conesa Balbastre (LPSC-Grenoble) //
10 //------------------------------------------------------------------------//
17 class AliEMCALGeometry;
21 class AliEMCALRecoUtils;
22 #include "AliEMCALGeoParams.h"
23 #include "AliAnalysisTaskSE.h"
25 class AliAnalysisTaskEMCALTriggerQA : public AliAnalysisTaskSE
29 AliAnalysisTaskEMCALTriggerQA(const char *name); // named constructor
31 virtual ~AliAnalysisTaskEMCALTriggerQA() { ; } // destructor
33 void ClusterAnalysis();
37 void FillTriggerPatchMaps(TString triggerclasses);
39 void FillClusterHistograms(Int_t triggerNumber, Bool_t maxCluster,
40 Float_t e,Float_t eta,Float_t phi,
41 Float_t ietamax,Float_t iphimax,
42 Float_t centrality, Float_t v0AC);
44 void FillCorrelationHistograms();
46 void FillEventCounterHistogram();
48 void FillL1GammaPatchHistograms();
50 void FillL1JetPatchHistograms();
52 void FillMapHistograms();
54 void FillV0Histograms();
58 void InitHistogramArrays() ;
60 void InitCellPatchMaps();
62 void LocalInit() { Init() ; }
64 void UserCreateOutputObjects();
66 void UserExec(Option_t *option);
68 AliEMCALRecoUtils* GetRecoUtils() { if(!fRecoUtils) fRecoUtils = new AliEMCALRecoUtils ;
71 void SetEtaPhiEnMin(Float_t en) { fEtaPhiEnMin = en ; }
73 void SetTriggerEventBit(TString list) ;
75 // OADB and geometry settings
79 void SetGeometryName(TString name) { fGeoName = name ; }
80 void SetEventTriggerL1Bit(Int_t ega, Int_t eje)
81 { fBitEGA = ega ; fBitEJE = eje; }
85 void SwitchOnEMCALOADB() { fAccessOADB = kTRUE ; }
86 void SwitchOffEMCALOADB() { fAccessOADB = kFALSE ; }
88 void SwitchOnMCData() { fMCData = kTRUE ; }
89 void SwitchOffMCData() { fMCData = kFALSE ; }
91 void SwitchOnV0SignalHistograms() { fFillV0SigHisto = kTRUE ; }
92 void SwitchOffV0SignalHistograms() { fFillV0SigHisto = kFALSE ; }
94 void SwitchOnClusterAcceptanceHistograms() { fFillClusAcceptHisto = kTRUE ; }
95 void SwitchOffClusterAcceptanceHistograms() { fFillClusAcceptHisto = kFALSE ; }
97 void SetOADBFilePath(TString path) { fOADBFilePath = path ; }
101 void SetTRUTotalSignalHistogramsRange(Int_t nbins, Float_t max) { fNBinsTRUSignal = nbins; fMaxTRUSignal = max ; }
102 void SetSTUTotalSignalHistogramsRange(Int_t nbins, Float_t max) { fNBinsSTUSignal = nbins; fMaxSTUSignal = max ; }
103 void SetV0TotalSignalHistogramsRange (Int_t nbins, Float_t max) { fNBinsV0Signal = nbins; fMaxV0Signal = max ; }
104 void SetSTUFEERatioHistogramsRange (Int_t nbins, Float_t max) { fNBinsSTUFEERatio = nbins; fMaxSTUFEERatio = max ; }
105 void SetSTUTRURatioHistogramsRange (Int_t nbins, Float_t max) { fNBinsSTUTRURatio = nbins; fMaxSTUFEERatio = max ; }
106 void SetClusterEHistogramsRange (Int_t nbins, Float_t max) { fNBinsClusterE = nbins; fMaxClusterE = max ; }
107 void SetClusterEtaHistogramsRange (Int_t nbins, Float_t max) { fNBinsClusterEta = nbins; fMaxClusterEta = max ; }
108 void SetClusterPhiHistogramsRange (Int_t nbins, Float_t max, Float_t min)
109 { fNBinsClusterPhi = nbins; fMaxClusterPhi = max ; fMinClusterPhi = min ; }
112 TList *fOutputList; //! Output list
114 AliEMCALRecoUtils *fRecoUtils; // RecoUtils
116 Bool_t fGeoSet ; // Geometry already set
117 AliEMCALGeometry *fGeometry; // Access to EMCAL geometry utils
118 TString fGeoName; // Name of geometry used
120 Bool_t fOADBSet ; // AODB parameters already set
121 Bool_t fAccessOADB ; // Get calibration from OADB for EMCAL
122 TString fOADBFilePath ; // Default path $ALICE_ROOT/OADB/EMCAL, if needed change
124 Int_t fBitEGA; // fBitEGA
125 Int_t fBitEJE; // fBitEJE
127 Float_t fEtaPhiEnMin; // Min energy for Eta/Phi histograms
129 Int_t fSTUTotal; // Sum of STU time sums
130 Float_t fTRUTotal; // Sum of TRU amplitudes
131 Float_t fV0Trigger; // V0 signal from trigger
132 Float_t fV0A; // V0 A signal
133 Float_t fV0C; // V0 C signal
135 Bool_t fFillV0SigHisto; // V0 signal creation and fill
136 Bool_t fFillClusAcceptHisto; // Fill eta/phi distributions
137 Bool_t fMCData; // Simulation On/Off
139 // Event by event trigger recognition bit
140 Bool_t fEventMB ; // Bit for MB events
141 Bool_t fEventL0 ; // Bit for L0 events
142 Bool_t fEventL1G ; // Bit for L1 Gamma 1 events
143 Bool_t fEventL1G2 ; // Bit for L1 Gamma 2 events
144 Bool_t fEventL1J ; // Bit for L1 Jet 1 events
145 Bool_t fEventL1J2 ; // Bit for L1 JEt 2 events
146 Bool_t fEventCen ; // Bit for Central events
147 Bool_t fEventSem ; // Bit for Semi Central events
151 TH1F *fhNEvents; //! Number of selected events
152 TH2F *fhFORAmp; //! FEE cells deposited energy, grouped like FastOR 2x2 per Row and Column
153 TH2F *fhFORAmpL1G; //! FEE cells deposited energy, grouped like FastOR 2x2 per Row and Column, with L1 Gamma trigger event
154 TH2F *fhFORAmpL1G2; //! FEE cells deposited energy, grouped like FastOR 2x2 per Row and Column, with L1 Gamma2 trigger event
155 TH2F *fhFORAmpL1J; //! FEE cells deposited energy, grouped like FastOR 2x2 per Row and Column, with L1 Jet trigger event
156 TH2F *fhFORAmpL1J2; //! FEE cells deposited energy, grouped like FastOR 2x2 per Row and Column, with L1 Jet2 trigger event
157 TH2F *fhL0Amp; //! FALTRO signal per Row and Column for FOR involves L0 patch
158 TH2F *fhL0AmpL1G; //! FALTRO signal per Row and Column for FOR involves L0 patch, with L1G trigger event
159 TH2F *fhL0AmpL1J; //! FALTRO signal per Row and Column for FOR involves L0 patch, with L1J trigger event
160 TH2F *fhL1Amp; //! STU signal per Row and Column for FOR involves L0 patch
161 TH2F *fhL1GAmp; //! STU signal per Row and Column for FOR position of L1 Gamma patch (top-left)
162 TH2F *fhL1G2Amp; //! STU signal per Row and Column for FOR position of L1 Gamma2 patch (top-left)
163 TH2F *fhL1JAmp; //! STU signal per Row and Column for FOR position of L1 Jet patch (top-left)
164 TH2F *fhL1J2Amp; //! STU signal per Row and Column for FOR position of L1 Jet2 patch (top-left)
165 TH2F *fhL1FOREnergy; //! STU signal per Row and Column for FOR position vs FOR energy
167 TH2F *fhL0Patch; //! FOR with L0 patch associated
168 TH2F *fhL1GPatch; //! FOR with L1 Gamma patch associated
169 TH2F *fhL1G2Patch; //! FOR with L1 Gamma patch associated
170 TH2F *fhL1GPatchNotFake; //! FOR with L1 Gamma patch associated but no energy in the related cells
171 TH2F *fhL1GPatchFake; //! FOR with L1 Gamma patch associated
172 TH2F *fhL1GPatchNotAllFake; //! FOR with at least 1 L1 Gamma patch associated that has energy in the related celles : not a fake event
173 TH2F *fhL1GPatchAllFake; //! FOR without any L1 Gamma patch associated with energy in the related cells: fake patch
174 TH2F *fhL1GPatchNotAllFakeMax; //! FOR with at least one L1 Gamma patch associated with energy in the related cell, maximal energy patch : not fake events
175 TH2F *fhL1GPatchAllFakeMax; //! FOR without any L1 Gamma patch associated with energy in the related cell, maximal energy patch : fake events
176 TH1F *fhL1GPatchNotAllFakeMaxE; //! Energy distrib of FOR for non fake events, patch of maximal energy
177 TH1F *fhL1GPatchAllFakeMaxE; //! Energy distrib FOR for fake events, patch of maximal energy
178 TH1F *fhL1GPatchNotAllFakeE; //! Energy distrib of FOR for non fake events, all patch energy
179 TH1F *fhL1GPatchAllFakeE; //! Energy distrib of FOR forfake events, all patch energy
180 TH1F *fhL1GPatchFakeE; //! Energy distrib of FOR for fake events, all patch energy
181 TH1F *fhL1GPatchNotFakeE; //! Energy distrib of FOR for non fake events, all patch energy
182 TH2F *fhNPatchFake; //! number of fake patchs per event vs. if all were fakes or not
183 TH2F *fhNPatchNotFake; //! number of non fake patchs per events vs. if all were fakes or not
185 TH2F *fhL1JPatch; //! FOR with L1 Jet patch associated
186 TH2F *fhL1J2Patch; //! FOR with L1 Jet patch associated
187 TH2F *fhFEESTU; //! Correlation FEE vs STU
188 TH2F *fhTRUSTU; //! Correlation TRU vs STU
189 TH2I *fhV0STU; //! Total signal STU vs V0C+V0S
191 TH2F *fhGPMaxVV0TT; //! V0 signal vs maximum gamma L1 patch
192 TH2F *fhJPMaxVV0TT; //! V0 signal vs maximum jet L1 patch
193 TProfile2D *fhFORMeanAmp; //! Mean FastOR(FEE) signal per Row and Column
194 TProfile2D *fhL0MeanAmp; //! Mean FastOR(TRU) signal per Row and Column
195 TProfile2D *fhL1MeanAmp; //! Mean FastOR(STU) signal per Row and Column
196 TH2F *fhL1GPatchMax; //! FOR of max. amplitude patch with L1 Gamma patch associated
197 TH2F *fhL1G2PatchMax; //! FOR of max. amplitude patch with L1 Gamma patch associated
198 TH2F *fhL1JPatchMax; //! FOR of max. amplitude patch with L1 Jet patch associated
199 TH2F *fhL1J2PatchMax; //! FOR of max. amplitude patch with L1 Jet patch associated
201 // Cluster vs trigger histograms
202 enum triggerType{ kMBTrig = 0, kL0Trig = 1,
203 kL1GammaTrig = 2, kL1GammaTrig2 = 3,
204 kL1JetTrig = 4, kL1JetTrig2 = 5,
205 kL1GammaOnlyTrig = 6, kL1JetOnlyTrig = 7,
206 kL1Gamma2OnlyGammaTrig = 8, kL1Jet2OnlyJetTrig = 9,
207 kCentralTrig = 10, kSemiCentralTrig = 11 };
209 TH1F *fhClusMBPure[3]; //! Clusters E distribution for pure MB trigger
210 TH1F *fhClusMaxMBPure[3]; //! Maximum E Cluster per event distribution for pure MB trigger
212 static const int fgkTriggerCombi = 12; // total number of trigger combinations defined above
214 TH1F *fhClus [fgkTriggerCombi]; //! Clusters E distribution for a trigger
215 TH1F *fhClusMax[fgkTriggerCombi]; //! Maximum E Cluster per event distribution for MB trigger
217 TH2F *fhClusCen [fgkTriggerCombi]; //! Clusters Centrality vs E distribution for a trigger
218 TH2F *fhClusCenMax[fgkTriggerCombi]; //! Maximum E Cluster vs Centrality per event distribution for a trigger
220 TH2F *fhClusV0 [fgkTriggerCombi]; //! Clusters V0 vs E distribution for a trigger
221 TH2F *fhClusV0Max[fgkTriggerCombi]; //! Maximum E Cluster vs Centrality per event distribution for a trigger
223 TH2F *fhClusEta [fgkTriggerCombi]; //! Clusters eta vs E distribution for a trigger
224 TH2F *fhClusEtaMax[fgkTriggerCombi]; //! Maximum E Cluster vs Eta per event distribution for a trigger
226 TH2F *fhClusPhi [fgkTriggerCombi]; //! Clusters Phi vs E distribution for a trigger
227 TH2F *fhClusPhiMax[fgkTriggerCombi]; //! Maximum E Cluster vs Phi per event distribution for a trigger
229 TH2F *fhClusEtaPhiHigh [fgkTriggerCombi]; //! Clusters eta vs phi distribution for a trigger, energy above fEtaPhiEnMin GeV
230 TH2F *fhClusEtaPhiHighCluMax[fgkTriggerCombi]; //! Maximum E Cluster, Phi vs Eta per event distribution for a trigger, energy above fEtaPhiEnMin GeV
232 TH2F *fhClusEtaPhiHighCellMax [fgkTriggerCombi]; //! Clusters maximum energy cell index eta vs phi distribution for a trigger, energy above fEtaPhiEnMin GeV
233 TH2F *fhClusEtaPhiHighCellMaxCluMax[fgkTriggerCombi]; //! Maximum E Cluster, maximum energy cell index Phi vs Eta per event distribution for MB trigger, energy above fEtaPhiEnMin GeV
235 TH2F *fhClusEtaPhiLow [fgkTriggerCombi]; //! Clusters eta vs phi distribution for a trigger, energy below fEtaPhiEnMin GeV
236 TH2F *fhClusEtaPhiLowCluMax[fgkTriggerCombi]; //! Maximum E Cluster, Phi vs Eta per event distribution for MB trigger, energy below fEtaPhiEnMin GeV
238 TH2F *fhClusEtaPhiLowCellMax [fgkTriggerCombi]; //! Clusters maximum energy cell index eta vs phi distribution for a trigger, energy below fEtaPhiEnMin GeV
239 TH2F *fhClusEtaPhiLowCellMaxCluMax[fgkTriggerCombi]; //! Maximum E Cluster, maximum energy cell index Phi vs Eta per event distribution for MB trigger, energy below fEtaPhiEnMin GeV
241 TH1F *fhV0[fgkTriggerCombi];//! V0 distribution for a triggered event
245 Int_t fNBinsSTUSignal ; // Number of bins for STU total signal histograms
246 Float_t fMaxSTUSignal ; // Maximum value for TRU total signal histograms
247 Int_t fNBinsTRUSignal ; // Number of bins for TRU total signal histograms
248 Float_t fMaxTRUSignal ; // Maximum value for TRU total signal histograms
249 Int_t fNBinsV0Signal ; // Number of bins for V0 total signal histograms
250 Float_t fMaxV0Signal ; // Maximum value for V0 total signal histograms
251 Int_t fNBinsSTUFEERatio ; // Number of bins for STU/FEE ratios histograms
252 Float_t fMaxSTUFEERatio ; // Maximum value for STU/FEE ratios histograms
253 Int_t fNBinsSTUTRURatio ; // Number of bins for STU/TRU ratios histograms
254 Float_t fMaxSTUTRURatio ; // Maximum value for STU/TRU ratios histograms
255 Int_t fNBinsClusterE ; // Number of bins for E cluster histograms
256 Float_t fMaxClusterE ; // Maximum value for E cluster histograms
257 Int_t fNBinsClusterPhi ; // Number of bins for Phi cluster histograms
258 Float_t fMaxClusterPhi ; // Maximum value for Phi cluster histograms
259 Float_t fMinClusterPhi ; // Maximum value for Phi cluster histograms
260 Int_t fNBinsClusterEta ; // Number of bins for Eta cluster histograms
261 Float_t fMaxClusterEta ; // Maximum value for Eta cluster histograms
264 //Constants needed by the class: EMCAL
265 //static const int fgkFALTRORows = AliEMCALGeoParams::fgkEMCALRows*(AliEMCALGeoParams::fgkEMCALModules-7)/2; // total number
266 static const int fgkFALTRORows = 60; //AliEMCALGeoParams::fgkEMCALSTURows-4; // total number, temporary, not considers DCal
267 // of fake altro rows in EMCAL
268 // (ALTRO channels in one SM times 5 SM divided by 2 per FALTRO)
270 static const int fgkFALTROCols = AliEMCALGeoParams::fgkEMCALSTUCols; // total number of fake altro columns in EMCAL
271 // (ALTRO channels in one SM times 2 SM divided by 2 per FALTRO)
274 Double_t fMapCell [fgkFALTRORows][fgkFALTROCols]; // Cell map
275 Double_t fMapCellL1G [fgkFALTRORows][fgkFALTROCols]; // Cell map for L1G
276 Double_t fMapCellL1G2 [fgkFALTRORows][fgkFALTROCols]; // Cell map for L1G2
277 Double_t fMapCellL1J [fgkFALTRORows][fgkFALTROCols]; // Cell map for L1J
278 Double_t fMapCellL1J2 [fgkFALTRORows][fgkFALTROCols]; // Cell map for L1J2
279 Double_t fMapTrigL0 [fgkFALTRORows][fgkFALTROCols]; // Patch map for L0
280 Double_t fMapTrigL1 [fgkFALTRORows][fgkFALTROCols]; // Patch map for L1
281 Double_t fMapTrigL0L1G[fgkFALTRORows][fgkFALTROCols]; // Patch map for L0L1G
282 Double_t fMapTrigL0L1J[fgkFALTRORows][fgkFALTROCols]; // Patch map for L0L1J
283 Double_t fMapTrigL1G [fgkFALTRORows][fgkFALTROCols]; // Patch map for L1G
284 Double_t fMapTrigL1G2 [fgkFALTRORows][fgkFALTROCols]; // Patch map for L1G2
285 Double_t fMapTrigL1J [fgkFALTRORows][fgkFALTROCols]; // Patch map for L1J
286 Double_t fMapTrigL1J2 [fgkFALTRORows][fgkFALTROCols]; // Patch map for L1J2
289 AliAnalysisTaskEMCALTriggerQA (const AliAnalysisTaskEMCALTriggerQA&); // not implemented
291 AliAnalysisTaskEMCALTriggerQA& operator=(const AliAnalysisTaskEMCALTriggerQA&); // not implemented
293 ClassDef(AliAnalysisTaskEMCALTriggerQA, 14);