#ifndef ALIITSTRACKV2_H #define ALIITSTRACKV2_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ //------------------------------------------------------------------------- // ITS Track Class // // Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch // dEdx analysis by: Boris Batyunya, JINR, Boris.Batiounia@cern.ch //------------------------------------------------------------------------- #include #include "AliITSRecoParam.h" #include "AliITSgeomTGeo.h" /* $Id$ */ class AliESDtrack; //_____________________________________________________________________________ class AliITStrackV2 : public AliKalmanTrack { public: AliITStrackV2(); AliITStrackV2(AliESDtrack& t,Bool_t c=kFALSE) throw (const Char_t *); AliITStrackV2(const AliITStrackV2& t); ~AliITStrackV2(){fESDtrack=0;} Bool_t CorrectForMeanMaterial(Double_t xOverX0, Double_t xTimesRho, Bool_t anglecorr=kFALSE) { return AliExternalTrackParam::CorrectForMeanMaterial(xOverX0,xTimesRho,GetMass(),anglecorr); } Bool_t CorrectForMaterial(Double_t d, Double_t x0=AliITSRecoParam::GetX0Air()) { // deprecated: use CorrectForMeanMaterial instead return AliExternalTrackParam::CorrectForMaterial(d,x0,GetMass()); } Bool_t PropagateTo(Double_t xr, Double_t d, Double_t x0=AliITSRecoParam::GetX0Air()); Bool_t PropagateToTGeo(Double_t xToGo, Int_t nstep, Double_t &xOverX0, Double_t &xTimesRho); Bool_t PropagateToTGeo(Double_t xToGo, Int_t nstep=1) { Double_t dummy1,dummy2; return PropagateToTGeo(xToGo,nstep,dummy1,dummy2); } Double_t GetPredictedChi2(const AliCluster *cluster) const; Bool_t Update(const AliCluster *cl, Double_t chi2, Int_t i); Bool_t PropagateToVertex(const AliESDVertex *v,Double_t d=0.,Double_t x0=0.); Bool_t Propagate(Double_t alpha, Double_t xr); Bool_t MeanBudgetToPrimVertex(Double_t xyz[3], Double_t step, Double_t &d) const; Bool_t Improve(Double_t x0,Double_t xyz[3],Double_t ers[3]); void SetdEdx(Double_t dedx) {fdEdx=dedx;} void SetSampledEdx(Float_t q, Int_t i); Float_t GetSampledEdx(Int_t i) const {return fdEdxSample[i];} void CookdEdx(Double_t low=0., Double_t up=0.51); void SetDetectorIndex(Int_t i) {SetLabel(i);} void ResetClusters() { SetChi2(0.); SetNumberOfClusters(0); } void UpdateESDtrack(ULong_t flags) const; AliESDtrack *GetESDtrack() const {return fESDtrack;} Int_t GetDetectorIndex() const {return GetLabel();} Double_t GetdEdx() const {return fdEdx;} Double_t GetPIDsignal() const {return GetdEdx();} Double_t GetC() const {return AliExternalTrackParam::GetC(GetBz());} Double_t GetD(Double_t x, Double_t y) const { return AliExternalTrackParam::GetD(x,y,GetBz()); } void GetDZ(Double_t xv, Double_t yv, Double_t zv, Float_t dz[2]) const { return AliExternalTrackParam::GetDZ(xv,yv,zv,GetBz(),dz); } Bool_t GetGlobalXYZat(Double_t xloc,Double_t &x,Double_t &y,Double_t &z) const; Bool_t GetPhiZat(Double_t r,Double_t &phi,Double_t &z) const; Bool_t GetLocalXat(Double_t r,Double_t &xloc) const; Int_t Compare(const TObject *o) const; Int_t GetClusterIndex(Int_t i) const {return fIndex[i];} void SetModuleIndex(Int_t ilayer,Int_t idx) {fModule[ilayer]=idx;} Int_t GetModuleIndex(Int_t ilayer) const {return fModule[ilayer];} void SetModuleIndexInfo(Int_t ilayer,Int_t idet,Int_t status=1,Float_t xloc=0,Float_t zloc=0); Bool_t GetModuleIndexInfo(Int_t ilayer,Int_t &idet,Int_t &status,Float_t &xloc,Float_t &zloc) const; Bool_t Invariant() const; void SetExtraCluster(Int_t ilayer, Int_t idx) {fIndex[AliITSgeomTGeo::kNLayers+ilayer]=idx;} Int_t GetExtraCluster(Int_t ilayer) const {return fIndex[AliITSgeomTGeo::kNLayers+ilayer];} void SetExtraModule(Int_t ilayer, Int_t idx) {fModule[AliITSgeomTGeo::kNLayers+ilayer]=idx;} Int_t GetExtraModule(Int_t ilayer) const {return fModule[AliITSgeomTGeo::kNLayers+ilayer];} protected: Double_t GetBz() const ; Double_t fdEdx; // dE/dx static const Int_t fgkWARN; //! used for debugging purposes Float_t fdEdxSample[4]; // array of dE/dx samples b.b. Int_t fIndex[2*AliITSgeomTGeo::kNLayers]; // indices of associated clusters Int_t fModule[2*AliITSgeomTGeo::kNLayers]; // indices of crossed modules: // see SetModuleIndexInfo() AliESDtrack *fESDtrack; //! pointer to the connected ESD track private: AliITStrackV2 &operator=(const AliITStrackV2 &tr); ClassDef(AliITStrackV2,7) //ITS reconstructed track }; inline void AliITStrackV2::SetSampledEdx(Float_t q, Int_t i) { //---------------------------------------------------------------------- // This function stores dEdx sample corrected for the track segment length // Origin: Boris Batyunya, JINR, Boris.Batiounia@cern.ch //---------------------------------------------------------------------- if (i<0) return; if (i>3) return; Double_t s=GetSnp(), t=GetTgl(); q *= TMath::Sqrt((1-s*s)/(1+t*t)); fdEdxSample[i]=q; return; } inline void AliITStrackV2::SetModuleIndexInfo(Int_t ilayer,Int_t idet,Int_t status, Float_t xloc,Float_t zloc) { //---------------------------------------------------------------------- // This function encodes in the module number also the status of cluster association // "status" can have the following values: // 1 "found" (cluster is associated), // 2 "dead" (module is dead from OCDB), // 3 "skipped" (module or layer forced to be skipped), // 4 "outinz" (track out of z acceptance), // 5 "nocls" (no clusters in the road), // 6 "norefit" (cluster rejected during refit) // 7 "deadzspd" (holes in z in SPD) // WARNING: THIS METHOD HAS TO BE SYNCHRONIZED WITH AliESDtrack::GetITSModuleIndexInfo()! //---------------------------------------------------------------------- if(idet<0) { idet=0; } else { // same detector numbering as in AliITSCalib classes if(ilayer==1) idet+=AliITSgeomTGeo::GetNLadders(1)*AliITSgeomTGeo::GetNDetectors(1); if(ilayer==3) idet+=AliITSgeomTGeo::GetNLadders(3)*AliITSgeomTGeo::GetNDetectors(3); if(ilayer==5) idet+=AliITSgeomTGeo::GetNLadders(5)*AliITSgeomTGeo::GetNDetectors(5); } Int_t xInt = Int_t(xloc*10.); Int_t zInt = Int_t(zloc*10.); if(TMath::Abs(xloc*10.-(Float_t)xInt)>0.5) if(zloc>0) { xInt++; } else { xInt--; } if(TMath::Abs(zloc*10.-(Float_t)zInt)>0.5) if(zloc>0) { zInt++; } else { zInt--; } Int_t signs=0; if(xInt>=0 && zInt>=0) signs=10000; if(xInt>=0 && zInt<0) signs=20000; if(xInt<0 && zInt>=0) signs=30000; if(xInt<0 && zInt<0) signs=40000; Int_t modindex = signs; modindex += TMath::Abs(zInt); modindex += TMath::Abs(xInt)*100; modindex += status*100000; modindex += idet*1000000; SetModuleIndex(ilayer,modindex); return; } inline Bool_t AliITStrackV2::GetModuleIndexInfo(Int_t ilayer,Int_t &idet,Int_t &status, Float_t &xloc,Float_t &zloc) const { //---------------------------------------------------------------------- // This function encodes in the module number also the status of cluster association // "status" can have the following values: // 1 "found" (cluster is associated), // 2 "dead" (module is dead from OCDB), // 3 "skipped" (module or layer forced to be skipped), // 4 "outinz" (track out of z acceptance), // 5 "nocls" (no clusters in the road), // 6 "norefit" (cluster rejected during refit), // 7 "deadzspd" (holes in z in SPD) // Also given are the coordinates of the crossing point of track and module // (in the local module ref. system) // WARNING: THIS METHOD HAS TO BE SYNCHRONIZED WITH AliESDtrack::GetITSModuleIndexInfo()! //---------------------------------------------------------------------- if(fModule[ilayer]==-1) { AliError("fModule was not set !"); idet = -1; status=0; xloc=-99.; zloc=-99.; return kFALSE; } Int_t module = fModule[ilayer]; idet = Int_t(module/1000000); module -= idet*1000000; status = Int_t(module/100000); module -= status*100000; Int_t signs = Int_t(module/10000); module-=signs*10000; Int_t xInt = Int_t(module/100); module -= xInt*100; Int_t zInt = module; if(signs==1) { xInt*=1; zInt*=1; } if(signs==2) { xInt*=1; zInt*=-1; } if(signs==3) { xInt*=-1; zInt*=1; } if(signs==4) { xInt*=-1; zInt*=-1; } xloc = 0.1*(Float_t)xInt; zloc = 0.1*(Float_t)zInt; if(status==4) idet = -1; return kTRUE; } #endif