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1 | // Analysis task for basic QA exploiting symmetries |
| 2 | //of global, TPC, and ITS tracks |
| 3 | |
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4 | #ifndef ALIANALYSISTASKQASYM_H |
| 5 | #define ALIANALYSISTASKQASYM_H |
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6 | |
| 7 | |
| 8 | class TH1F; |
| 9 | class TH2F; |
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10 | class TH3F; |
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11 | class TList; |
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12 | |
| 13 | class AliESDEvent; |
| 14 | class AliESDtrack; |
| 15 | class AliESDtrackCuts; |
| 16 | |
| 17 | |
| 18 | #include "AliAnalysisTaskSE.h" |
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19 | #include "TFile.h" |
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20 | |
| 21 | class AliAnalysisTaskQASym : public AliAnalysisTaskSE { |
| 22 | public: |
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23 | AliAnalysisTaskQASym(const char *name = "AliAnalysisTaskQASym"); |
| 24 | virtual ~AliAnalysisTaskQASym() {} |
| 25 | |
| 26 | virtual void UserCreateOutputObjects(); |
| 27 | virtual void UserExec(Option_t *option); |
| 28 | virtual void Terminate(Option_t *); |
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29 | virtual void SetTrackType(Int_t type) {fTrackType = type;} // set the track type: global, its and tpc |
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30 | virtual void SetStandAloneTrack(Bool_t standAlone = kFALSE) {fStandAlone = standAlone;} //needed for ITS tracks |
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31 | |
| 32 | virtual void SetNChargedRange(Int_t low = 0, Int_t high=1.0*1e7)//set multiplicity region of analysis |
| 33 | // in order to compare different trigger settings |
| 34 | { |
| 35 | fLow = low; |
| 36 | fHigh = high; |
| 37 | } |
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38 | |
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39 | virtual void SetCuts(AliESDtrackCuts* cuts) |
| 40 | {fCuts = cuts;} |
| 41 | |
| 42 | virtual void SetFieldOn(Bool_t b = kTRUE){fFieldOn = b;} |
| 43 | |
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44 | |
| 45 | private: |
| 46 | |
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47 | Int_t fTrackType; // track type |
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48 | Bool_t fStandAlone; // needed for ITS tracks |
| 49 | Int_t fLow; // low Ncharges cut |
| 50 | Int_t fHigh; // high Ncharges cut |
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51 | Bool_t fFieldOn; // field status |
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52 | |
| 53 | TList *fHists; // List of histos |
| 54 | |
| 55 | //old |
| 56 | TH1F *fHistRECpt; // pt |
| 57 | TH1F *fEta; // eta |
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58 | |
| 59 | TH1F *fEtaWidth; // eta of tracks in Nch range (fLow <= Ncharged <= fHigh) |
| 60 | TH1F *fPhiWidth; // phi of tracks in Nch range (fLow <= Ncharged <= fHigh) |
| 61 | TH1F *fDcaWidth; // dca of tracks in Nch range (fLow <= Ncharged <= fHigh) |
| 62 | TH1F *fPtWidth; // pt of tracks in Nch range (fLow <= Ncharged <= fHigh) |
| 63 | |
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64 | TH2F *fEtaPhi; // eta-phi |
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65 | TH1F *fEtaPt; // eta over pt |
| 66 | TH1F *fQPt; // charge over pt |
| 67 | TH1F *fDca; // distance of closest approach |
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68 | TH1F *fqRec; // reconstrcuted charge |
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69 | TH1F *fSigmaPtHist; // sigma_pT |
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70 | |
| 71 | //positive und negative tracks |
| 72 | TH1F *fRecPtPos; // pt of pos tracks |
| 73 | TH1F *fRecPtNeg; // pt of neg tracks |
| 74 | TH1F *fRecPhiPos; // phi of pos. tracks |
| 75 | TH1F *fRecPhiNeg; // phi of neg. tracks |
| 76 | TH1F *fRecEtaPos; // eta of neg. tracks |
| 77 | TH1F *fRecEtaNeg; // eta of neg. tracks |
| 78 | TH1F *fRecEtaPtPos; // eta over pt of neg. tracks |
| 79 | TH1F *fRecEtaPtNeg; // eta over pt of neg. tracks |
| 80 | TH1F *fRecDcaPos; // distance of closest approach of neg. tracks |
| 81 | TH1F *fRecDcaNeg; // distance of closest of neg. tracks |
| 82 | TH1F *fRecDcaNegInv; // invers dca of neg. tracks |
| 83 | TH1F *fRecDPos; // impact parameter of neg. tracks |
| 84 | TH1F *fRecDNeg; // impact parameter of neg. tracks |
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85 | |
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86 | // two sides of TPC -> Eta/Theta |
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87 | TH1F *fRecQPtPosEta; //charge/pT for pos. eta |
| 88 | TH1F *fRecQPtNegEta; //charge/pT for neg. eta |
| 89 | TH1F *fRecPtPosEta; //pT for pos. eta |
| 90 | TH1F *fRecPtNegEta; //pT for neg. eta |
| 91 | TH1F *fRecPhiPosEta; //phi for pos. eta |
| 92 | TH1F *fRecPhiNegEta; //phi for neg. eta |
| 93 | TH1F *fRecDcaPosEta; //dca for pos. eta |
| 94 | TH1F *fRecDcaNegEta; //dca for neg. eta |
| 95 | TH1F *fRecDPosEta; //d for pos. eta |
| 96 | TH1F *fRecDNegEta; //d for neg. eta |
| 97 | |
| 98 | // 2D: all measures as function of z of first trackpoint |
| 99 | TH2F *fRecPtPosVz; //pt-zfirst of pos tracks |
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100 | TH2F *fRecPtNegVz; //pt-zfirst of neg tracks |
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101 | TH2F *fRecEtaPosVz; //eta-zfirst of pos tracks |
| 102 | TH2F *fRecEtaNegVz; //eta-zfirst of neg tracks |
| 103 | TH2F *fRecPhiPosVz; //phi-zfirst of pos tracks |
| 104 | TH2F *fRecPhiNegVz; //phi-zfirst of neg tracks |
| 105 | TH2F *fSignedDcaPosVz; //dca-zfirst of pos tracks |
| 106 | TH2F *fSignedDcaNegVz; //dca-zfirst of neg tracks |
| 107 | TH2F *fRecQPtPosEtaVz; //charge/pT-zfirst of pos tracks |
| 108 | TH2F *fRecQPtNegEtaVz; //charge/pT-zfirst of neg tracks |
| 109 | TH2F *fRecEtaPtPosVz; //eta/pT-zfirst of pos tracks |
| 110 | TH2F *fRecEtaPtNegVz; //eta/pT-zfirst of neg tracks |
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111 | |
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112 | |
| 113 | //high |
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114 | TH1F * fDeltaPhiAll; // phiLeaingTracks-phiOthers |
| 115 | TH2F * fDeltaPhiLeading; // phiLeaingTracks-phiOthers vs. phiLeading |
| 116 | TH1F * fDiffDcaD; // d-dca |
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117 | |
| 118 | //sim |
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119 | TH1F * fPhiRec; //phi |
| 120 | TH1F * fThetaRec; //theta |
| 121 | TH1F * fNumber; //Number of tracks per event |
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122 | TH1F * fNumberAfterCut; //Number of tracks per event after cuts |
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123 | TH1F * fVx; // x of first track point |
| 124 | TH1F * fVy; // y of first track point |
| 125 | TH1F * fVz; // z of first track point |
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126 | TH1F * fVertexX; // x of vertex |
| 127 | TH1F * fVertexY; // y of vertex |
| 128 | TH1F * fVertexZ; // z of vertex |
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129 | TH1F * fNVertexSPD; //number of vertices SPD |
| 130 | TH1F * fNVertexTracks; //number of vertices of Tracks |
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131 | |
| 132 | //new |
| 133 | TH2F *fRecDcaPosPhi; //dca-phi for pos. |
| 134 | TH2F *fRecDcaNegPhi; //dca-phi for neg. |
| 135 | TH2F *fRecPtPosPhi; //pt-phi for pos. |
| 136 | TH2F *fRecPtNegPhi; //pt-phi for neg. |
| 137 | TH2F *fRecEtaPosPhi; //eta-phi for pos. |
| 138 | TH2F *fRecEtaNegPhi; //eta-phi for neg. |
| 139 | TH2F *fRecQPtPhi; //charge/pt-phi |
| 140 | TH2F *fRecEtaPtPosPhi; //eta/pt-phi for neg. |
| 141 | TH2F *fRecEtaPtNegPhi; //eta/pt-phi for pos. |
| 142 | |
| 143 | TH1F *fRecPtPosEtaPos; //pt for pos tracks and pos eta |
| 144 | TH1F *fRecPtNegEtaPos; //pt for neg tracks and pos eta |
| 145 | TH1F *fRecPtPosEtaNeg; //pt for pos tracks and neg eta |
| 146 | TH1F *fRecPtNegEtaNeg; //pt for neg tracks and neg eta |
| 147 | |
| 148 | TH1F *fRec1PtPosEtaPos; //1/pt for pos tracks and pos eta |
| 149 | TH1F *fRec1PtNegEtaPos; //1/pt for neg tracks and pos eta |
| 150 | TH1F *fRec1PtPosEtaNeg; //1/pt for pos tracks and neg eta |
| 151 | TH1F *fRec1PtNegEtaNeg; //1/pt for neg tracks and neg eta |
| 152 | |
| 153 | TH1F *fRecPhiPosEtaPos; //phi for pos tracks and pos eta |
| 154 | TH1F *fRecPhiNegEtaPos; //phi for neg tracks and pos eta |
| 155 | TH1F *fRecPhiPosEtaNeg; //phi for pos tracks and neg eta |
| 156 | TH1F *fRecPhiNegEtaNeg; //phi for neg tracks and neg eta |
| 157 | |
| 158 | TH2F *fRecDcaPosPhiEtaPos; //dca-phi for pos tracks and pos eta |
| 159 | TH2F *fRecDcaNegPhiEtaPos; //dca-phi for neg tracks and pos eta |
| 160 | TH2F *fRecDcaPosPhiEtaNeg; //dca-phi for pos tracks and neg eta |
| 161 | TH2F *fRecDcaNegPhiEtaNeg; //dca-phi for neg tracks and neg eta |
| 162 | |
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163 | TH2F *fRecDcaPosPtEtaPos; //dca-pt for pos tracks and pos eta |
| 164 | TH2F *fRecDcaNegPtEtaPos; //dca-pt for neg tracks and pos eta |
| 165 | TH2F *fRecDcaPosPtEtaNeg; //dca-pt for pos tracks and neg eta |
| 166 | TH2F *fRecDcaNegPtEtaNeg; //dca-pt for neg tracks and neg eta |
| 167 | |
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168 | TH2F *fRecPtPosPhiEtaPos; //pt-phi for pos tracks and pos eta |
| 169 | TH2F *fRecPtNegPhiEtaPos; //pt-phi for neg tracks and pos eta |
| 170 | TH2F *fRecPtPosPhiEtaNeg; //pt-phi for pos tracks and neg eta |
| 171 | TH2F *fRecPtNegPhiEtaNeg; //pt-phi for neg tracks and neg eta |
| 172 | |
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173 | // TH3F *fRecDcaPhiPtPosEtaPos; //dca-pt-phi for pos tracks and pos eta |
| 174 | // TH3F *fRecDcaPhiPtNegEtaPos; //dca-pt-phi for neg tracks and pos eta |
| 175 | // TH3F *fRecDcaPhiPtPosEtaNeg; //dca-pt-phi for pos tracks and neg eta |
| 176 | // TH3F *fRecDcaPhiPtNegEtaNeg; //dca-pt-phi for neg tracks and neg eta |
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177 | |
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178 | TH2F *fEtavPt; // eta vs pt |
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179 | TH2F *fPhivPt; // phi vs pt |
| 180 | |
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181 | TH2F *fCompareTPCparam; // TPC param |
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182 | |
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183 | TH1F *fITSlayer; // ITS layer |
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184 | TH2F *fITSlayerEta; // ITS layer vs eta |
| 185 | TH2F *fITSlayerPhi; // ITS layer vs phi |
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186 | |
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187 | AliESDtrackCuts* fCuts; // List of cuts |
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188 | |
| 189 | // sectors of TPC |
| 190 | TH1F *fRecPtTpcSector[18]; //pt for TPC sectors |
| 191 | TH1F *fRecEtaTpcSector[18]; //eta for TPC sectors |
| 192 | TH1F *fRecQPtTpcSector[18]; //charge/pt for TPC sectors |
| 193 | TH1F *fRecEtaPtTpcSector[18]; //eta/pt for TPC sectors |
| 194 | TH1F *fSignedDcaTpcSector[18]; //dca for TPC sectors |
| 195 | |
| 196 | |
| 197 | // 7 different case of hit in ITS ladders |
| 198 | TH1F *fRecPtPosLadder[7]; //pt for pos tracks |
| 199 | TH1F *fRecPtNegLadder[7]; //pt for neg tracks |
| 200 | TH1F *fRecPhiPosLadder[7]; //phi for pos tracks |
| 201 | TH1F *fRecPhiNegLadder[7]; //phi for neg tracks |
| 202 | TH1F *fRecEtaPosLadder[7]; //eta for pos tracks |
| 203 | TH1F *fRecEtaNegLadder[7]; //eta for neg tracks |
| 204 | TH1F *fSignDcaPos[7]; //dca for pos tracks |
| 205 | TH1F *fSignDcaNeg[7]; //dca for neg tracks |
| 206 | TH1F *fSignDcaNegInv[7]; //-dca for neg tracks |
| 207 | TH1F *fPtSigmaPos[7]; //sigma_pT for pos tracks |
| 208 | TH1F *fPtSigmaNeg[7]; //sigma_pT for neg tracks |
| 209 | TH1F *fqPtRec[7]; // charge/pt |
| 210 | TH2F *fDcaSigmaPos[7]; // dca - sigma_pT for pos tracks |
| 211 | TH2F *fDcaSigmaNeg[7]; // dca - sigma_pT for neg tracks |
| 212 | |
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213 | TH1F *fEtaBinPt[3][2]; // eta histogram for different pt bins and different charges |
| 214 | TH1F *fPhiBinPt[3][2]; // phi histogram for different pt bins and different charges |
| 215 | TH1F *fDcaBinPt[3][2]; // dca histogram for different pt bins and different charges |
| 216 | TH2F *fEtaPhiBinPt[3][2]; // eta-phi histogram for different pt bins and different charges |
| 217 | |
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218 | |
| 219 | |
| 220 | |
| 221 | |
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222 | AliAnalysisTaskQASym(const AliAnalysisTaskQASym&); // not implemented |
| 223 | AliAnalysisTaskQASym& operator=(const AliAnalysisTaskQASym&); // not implemented |
| 224 | |
| 225 | ClassDef(AliAnalysisTaskQASym, 1); // Basic QA exploiting symmetries |
| 226 | }; |
| 227 | |
| 228 | #endif |
git://git.uio.no / u / mrichter / AliRoot.git / blame