AliTPCcalibTracksGain();
AliTPCcalibTracksGain(const AliTPCcalibTracksGain& obj);
- AliTPCcalibTracksGain(const char* name, const char* title, AliTPCcalibTracksCuts* cuts, TNamed* debugStreamPrefix = 0, AliTPCcalibTracksGain* prevIter = 0);
+ AliTPCcalibTracksGain(const char* name, const char* title, AliTPCcalibTracksCuts* cuts);
virtual ~AliTPCcalibTracksGain();
AliTPCcalibTracksGain& operator=(const AliTPCcalibTracksGain& rhs);
virtual Long64_t Merge(TCollection *list);
virtual void Process(AliTPCseed* seed);
virtual void Terminate();
virtual void Analyze();
- void SetGainMap(AliTPCCalPad *GainMap){fGainMap = GainMap;};
//
// Tracks and cluster manipulation
//
- Float_t GetMaxNorm(AliTPCclusterMI * cl);
- Float_t GetQNorm(AliTPCclusterMI * cl);
- Float_t GetGain(AliTPCclusterMI* cl);
+ Float_t GetGain(AliTPCclusterMI *cl);
+ Float_t GetMaxNorm(AliTPCclusterMI * cl, Float_t ky, Float_t kz);
+ Float_t GetQNorm(AliTPCclusterMI * cl, Float_t ky, Float_t kz);
void AddTrack(AliTPCseed* seed);
void DumpTrack(AliTPCseed* track);
Bool_t GetDedx(AliTPCseed* track, Int_t padType, Int_t*rows,
void AddCluster(AliTPCclusterMI* cluster, Float_t momenta, Float_t mdedx, Int_t padType, Float_t xcenter, TVectorD &dedxQ, TVectorD & dedxM, Float_t fraction, Float_t fraction2, Float_t dedge, TVectorD& parY, TVectorD& parZ, TVectorD& meanPos);
void AddTracklet(UInt_t sector, UInt_t padType,TVectorD &dedxQ, TVectorD &dedxM,TVectorD& parY, TVectorD& parZ, TVectorD& meanPos);
- void AddCluster(AliTPCclusterMI* cluster);
void Add(AliTPCcalibTracksGain* cal);
- //
- // Debug stream analyze part
- //
- static TVectorD * MakeQPosNorm(TTree * chain, Int_t ipad, Bool_t isMax, Int_t maxPoints=1000000, Int_t verbose=0);
-
- static void MakeQPosNormAll(TTree * chain, AliTPCClusterParam * param, Int_t maxPoints=1000000, Int_t verbose=0);
-
- //
- // Histogram part
- //
- TH1F * GetQM(Int_t sector=-1){return (TH1F*)(sector<0 ? fArrayQM->At(72): fArrayQM->At(sector));}
- TH1F * GetQT(Int_t sector=-1){return (TH1F*)(sector<0 ? fArrayQT->At(72): fArrayQT->At(sector));}
- TProfile* GetProfileQM(Int_t sector){return (TProfile*)(sector<0 ? fProfileArrayQM->At(36): fProfileArrayQM->At(sector));}
- TProfile* GetProfileQT(Int_t sector){return (TProfile*)(sector<0 ? fProfileArrayQT->At(36): fProfileArrayQT->At(sector));}
- TProfile2D* GetProfileQM2D(Int_t sector){return (TProfile2D*)(sector<0 ? fProfileArrayQM2D->At(36): fProfileArrayQM2D->At(sector));}
- TProfile2D* GetProfileQT2D(Int_t sector){return (TProfile2D*)(sector<0 ? fProfileArrayQT2D->At(36): fProfileArrayQT2D->At(sector));}
//
// Get Derived results - gain maps
//
TGraph * CreateAmpGraph(Int_t ipad, Bool_t qmax);
- TLinearFitter* GetFitter(UInt_t segment, UInt_t padType, UInt_t fitType);
-
+ TLinearFitter* GetFitter(UInt_t segment, UInt_t padType, UInt_t fitType);
+ void Process(AliESDEvent *event) {AliTPCcalibBase::Process(event);};
+ void Process(AliESDtrack *track, Int_t runNo=-1){AliTPCcalibBase::Process(track,runNo);};
public:
//
//
static Double_t GetPadLength(Double_t lx);
static Int_t GetPadType(Double_t lx);
- static Bool_t GetRowPad(Double_t lx, Double_t ly, Int_t& row, Int_t& pad); // just for debugging
//
//
AliTPCcalibTracksCuts* fCuts; // cuts that are used for sieving the tracks used for calibration
- AliTPCCalPad *fGainMap; // gain map to be applied
- //
//
- // Simple Profiles and histograms - per chambers + 1 total
+ // kalman fit - alignment of dEdx
//
- TObjArray* fArrayQM; // Qmax normalized
- TObjArray* fArrayQT; // Qtot normalized
- TObjArray* fProfileArrayQM; // Qmax normalized versus local X
- TObjArray* fProfileArrayQT; // Qtot normalized versus local X
- TObjArray* fProfileArrayQM2D; // Qmax normalized versus local X and phi
- TObjArray* fProfileArrayQT2D; // Qtot normalized versus local X and phi
//
// Fitters
//
TLinearFitter* fDFitter1T; // fitting of the atenuation, angular correction
TLinearFitter* fDFitter2T; // fitting of the atenuation, angular correction
//
- AliTPCFitPad* fSingleSectorFitter; // just for debugging
+ AliTPCFitPad* fSingleSectorFitter; // just for debugging
//
// Conters
//
UInt_t fTotalTracks; // just for debugging
UInt_t fAcceptedTracks; // just for debugging
- AliTPCCalPad* fDebugCalPadRaw; // just for debugging
- AliTPCCalPad* fDebugCalPadCorr; // just for debugging
UInt_t fNShortClusters[36]; // number of clusters registered on short pads
UInt_t fNMediumClusters[36]; // number of clusters registered on medium pads
UInt_t fNLongClusters[36]; // number of clusters registered on long pads