Coverity 10415 fixed

[u/mrichter/AliRoot.git] / STEER / AliAODPWG4Particle.h

#ifndef ALIAODPWG4PARTICLE_H\r
#define ALIAODPWG4PARTICLE_H\r
/* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *\r
 * See cxx source for full Copyright notice                               */\r
\r
/* $Id: AliAODPWG4Particle.h  $ */\r
\r
//-------------------------------------------------------------------------\r
//     Copy of AOD photon class, adapted for particle identification\r
//     and correlations analysis\r
//     Author: Yves Schutz, CERN, Gustavo Conesa, INFN\r
//-------------------------------------------------------------------------\r
\r
//-- ROOT system --\r
#include <TLorentzVector.h>\r
class TString;\r
\r
//-- Analysis system\r
#include "AliVParticle.h"\r
\r
class AliAODPWG4Particle : public AliVParticle {\r
  \r
 public:\r
  AliAODPWG4Particle();\r
  AliAODPWG4Particle(Double_t px, Double_t py, Double_t pz, Double_t e);\r
  AliAODPWG4Particle(TLorentzVector & p);\r
  \r
  virtual ~AliAODPWG4Particle();\r
  virtual void Clear(const Option_t* /*opt*/);\r
\r
  AliAODPWG4Particle(const AliAODPWG4Particle& photon); \r
  AliAODPWG4Particle& operator=(const AliAODPWG4Particle& photon);\r
\r
  //enumerated type for various b-tags of electrons\r
  enum btagTypes {kDVMTag0, kDVMTag1, kDVMTag2, kTransverseIPTag, kUnknownTag};\r
\r
  void SetBTagBit(Int_t &tag, const UInt_t set) const {\r
    // Set bit of type set (btagTypes) in tag                                             \r
    tag |= (1<<set) ;\r
  }\r
\r
  Bool_t CheckBTagBit(const Int_t tag, const UInt_t test) const {\r
    // Check if in fBtag the bit test (btagTypes) is set.                                   \r
    if (tag & (1<<test) ) return  kTRUE ;\r
    else return kFALSE ;\r
  }\r
\r
  // AliVParticle methods\r
  virtual Double_t Px()         const { return fMomentum->Px();      }\r
  virtual Double_t Py()         const { return fMomentum->Py();      }\r
  virtual Double_t Pz()         const { return fMomentum->Pz();      }\r
  virtual Double_t Pt()         const { return fMomentum->Pt();      }\r
  virtual Double_t P()          const { return fMomentum->P();       }\r
  virtual Bool_t   PxPyPz(Double_t p[3]) const { p[0] = Px(); p[1] = Py(); p[2] = Pz(); return kTRUE; }\r
  virtual Double_t OneOverPt()  const { return 1. / fMomentum->Pt(); }\r
  virtual Double_t Phi()        const;\r
  virtual Double_t Theta()      const { return fMomentum->Theta();   }\r
  virtual Double_t E()          const { return fMomentum->E();       }\r
  virtual Double_t M()          const { return fMomentum->M();       }\r
  virtual Double_t Eta()        const { return fMomentum->Eta();     }\r
  virtual Double_t Y()          const { return fMomentum->Rapidity();}\r
  virtual Double_t Xv()         const {return -999.;} // put reasonable values here\r
  virtual Double_t Yv()         const {return -999.;} //\r
  virtual Double_t Zv()         const {return -999.;} //\r
  virtual Bool_t   XvYvZv(Double_t x[3]) const { x[0] = Xv(); x[1] = Yv(); x[2] = Zv(); return kTRUE; }  \r
  virtual void     Print(Option_t* /*option*/) const;\r
  \r
  //\r
  //Dummy\r
  virtual Short_t Charge()      const { return 0;}\r
  virtual const Double_t* PID() const { return NULL;}\r
  //\r
  \r
  virtual Int_t   GetPdg()               const {return fPdg ; }\r
  virtual Int_t   GetTag()               const {return fTag ; }\r
  virtual Int_t   GetBtag()              const {return fBtag ; }\r
  virtual Int_t   GetLabel()             const {return fLabel ; }\r
  virtual Int_t   GetCaloLabel (Int_t i) const {return fCaloLabel[i] ; }\r
  virtual Int_t   GetTrackLabel(Int_t i) const {return fTrackLabel[i] ; }\r
  virtual TString GetDetector()          const {return fDetector ; }\r
  virtual Bool_t  GetDispBit(void)       const {return fDisp ; }\r
  virtual Bool_t  GetTOFBit(void)        const {return fTof ; }\r
  virtual Bool_t  GetChargedBit(void)    const {return fCharged ; }\r
  virtual Int_t   DistToBad()            const {return fBadDist ; } \r
  virtual Int_t   GetInputFileIndex()    const {return fInputFileIndex ; }\r
  virtual Int_t   GetFiducialArea()      const {return fFidArea;}\r
\r
  virtual Bool_t   IsTagged()    const {return fTagged ; }\r
 \r
  virtual void SetLabel(Int_t l)         { fLabel = l ; }\r
  virtual void SetCaloLabel (Int_t a, Int_t b) { fCaloLabel [0] = a; fCaloLabel [1] = b  ; }\r
  virtual void SetTrackLabel(Int_t a, Int_t b) { fTrackLabel[0] = a; fTrackLabel[1] = b  ; }\r
  \r
  virtual void SetPdg(Int_t pdg)         { fPdg = pdg ; }\r
  virtual void SetTag(Int_t tag)         { fTag = tag ; }\r
  virtual void SetTagged(Bool_t tag)     { fTagged = tag ; }\r
  virtual void SetBtag(Int_t tag)        { fBtag = tag ; }\r
  virtual void SetDetector(TString d)    { fDetector = d ; }\r
  virtual void SetDispBit(Bool_t disp)   { fDisp = disp ; } \r
  virtual void SetTOFBit(Bool_t tof)     { fTof = tof ;} \r
  virtual void SetChargedBit(Bool_t ch)  { fCharged = ch ; }\r
  virtual void SetDistToBad(Int_t dist)  { fBadDist=dist ;} \r
  virtual void SetInputFileIndex(Int_t i){ fInputFileIndex = i;}\r
  virtual void SetFiducialArea(Int_t a)  {fFidArea=a;}\r
        \r
  TLorentzVector * Momentum() const                { return fMomentum ; }\r
  virtual void     SetMomentum(TLorentzVector *lv) { fMomentum = lv ; }\r
  \r
  Bool_t IsPIDOK(const Int_t ipid, const Int_t pdgwanted) const;\r
  Double_t GetPairMass(AliAODPWG4Particle * p)const{ return (*(p->fMomentum)+*fMomentum).M(); }\r
  // Dummy\r
  Int_t    PdgCode() const {return 0;}\r
  \r
 private:\r
  TLorentzVector* fMomentum;  // Photon 4-momentum vector\r
  Int_t      fPdg ;          // id of particle\r
  Int_t      fTag ;          // tag of particle (decay, fragment, prompt photon), MC\r
  Int_t      fBtag;          // tag particle from B.\r
  Int_t      fLabel ;        // MC label\r
  Int_t      fCaloLabel[2];  // CaloCluster index, 1 for photons, 2 for pi0.\r
  Int_t      fTrackLabel[2]; // Track lable, 1 for pions, 2 for conversion photons \r
  TString    fDetector ;     // Detector where particle was measured.\r
  Bool_t     fDisp ;         // Dispersion bit\r
  Bool_t     fTof ;          // TOF bit\r
  Bool_t     fCharged ;      // Charged bit\r
  Bool_t     fTagged ;       // If photon tagged (pi0 decay)\r
  Int_t      fBadDist ;      // Distance to bad module in module units\r
  Int_t      fFidArea ;      // Type of fiducial area hit by this photon\r
  Int_t      fInputFileIndex;// 0, standard input, 1 first input added. \r
                                 // Only possible one for now, more in future?\r
        \r
  ClassDef(AliAODPWG4Particle,3);\r
};\r
\r
inline Double_t AliAODPWG4Particle::Phi() const\r
{\r
  // Return phi\r
  Double_t phi = fMomentum->Phi();\r
  if (phi < 0.) phi += TMath::TwoPi();\r
  return phi;\r
}\r
\r
#endif //ALIAODPWG4PARTICLE_H\r