static
Double_t fgDCAmax; // maximal allowed DCA between the daughter tracks
static
- Double_t fgCPAmax; // maximal allowed cosine of V0's pointing angle
+ Double_t fgCPAmin; // minimal allowed cosine of V0's pointing angle
static
Double_t fgRmin, fgRmax; // max & min radii of the fiducial volume
Double_t fDNmin; // min allowed impact parameter for the 1st daughter
Double_t fDPmin; // min allowed impact parameter for the 2nd daughter
Double_t fDCAmax; // maximal allowed DCA between the daughter tracks
- Double_t fCPAmax; // maximal allowed cosine of V0's pointing angle
+ Double_t fCPAmin; // minimal allowed cosine of V0's pointing angle
Double_t fRmin, fRmax; // max & min radii of the fiducial volume
- ClassDef(AliV0vertexer,2) // V0 verterxer
+ ClassDef(AliV0vertexer,3) // V0 verterxer
};
inline AliV0vertexer::AliV0vertexer() :
fDNmin(fgDNmin),
fDPmin(fgDPmin),
fDCAmax(fgDCAmax),
- fCPAmax(fgCPAmax),
+ fCPAmin(fgCPAmin),
fRmin(fgRmin),
fRmax(fgRmax)
{
inline void AliV0vertexer::SetCuts(const Double_t cuts[7]) {
fChi2max=cuts[0];
fDNmin=cuts[1]; fDPmin=cuts[2];
- fDCAmax=cuts[3]; fCPAmax=cuts[4];
+ fDCAmax=cuts[3]; fCPAmin=cuts[4];
fRmin=cuts[5]; fRmax=cuts[6];
}
inline void AliV0vertexer::SetDefaultCuts(const Double_t cuts[7]) {
fgChi2max=cuts[0];
fgDNmin=cuts[1]; fgDPmin=cuts[2];
- fgDCAmax=cuts[3]; fgCPAmax=cuts[4];
+ fgDCAmax=cuts[3]; fgCPAmin=cuts[4];
fgRmin=cuts[5]; fgRmax=cuts[6];
}
inline void AliV0vertexer::GetCuts(Double_t cuts[7]) const {
cuts[0]=fChi2max;
cuts[1]=fDNmin; cuts[2]=fDPmin;
- cuts[3]=fDCAmax; cuts[4]=fCPAmax;
+ cuts[3]=fDCAmax; cuts[4]=fCPAmin;
cuts[5]=fRmin; cuts[6]=fRmax;
}
inline void AliV0vertexer::GetDefaultCuts(Double_t cuts[7]) {
cuts[0]=fgChi2max;
cuts[1]=fgDNmin; cuts[2]=fgDPmin;
- cuts[3]=fgDCAmax; cuts[4]=fgCPAmax;
+ cuts[3]=fgDCAmax; cuts[4]=fgCPAmin;
cuts[5]=fgRmin; cuts[6]=fgRmax;
}