fNtracks(0),
fNsingle(0),
fLabels(0),
+ fLabelsL2(0),
fTh(0),
fPhi(0),
fDeltPhi(0),
fThsingle(0),
- fPhisingle(0)
+ fPhisingle(0),
+ fFastOrFiredChips(1200)
{
// Default Constructor
fFiredChips[0] = 0;
}
//______________________________________________________________________
-AliMultiplicity::AliMultiplicity(Int_t ntr, Float_t *t, Float_t *ph, Float_t *df, Int_t *labels, Int_t ns, Float_t *ts, Float_t *ps):
+AliMultiplicity::AliMultiplicity(Int_t ntr, Float_t *t, Float_t *ph, Float_t *df, Int_t *labels, Int_t* labelsL2, Int_t ns, Float_t *ts, Float_t *ps, Short_t nfcL1, Short_t nfcL2, TBits fFastOr):
TObject(),
fNtracks(ntr),
fNsingle(ns),
fLabels(0),
+ fLabelsL2(0),
fTh(0),
fPhi(0),
fDeltPhi(0),
fThsingle(0),
- fPhisingle(0)
+ fPhisingle(0),
+ fFastOrFiredChips(1200)
{
// Standard constructor
if(ntr>0){
fLabels = new Int_t[ntr];
+ fLabelsL2 = new Int_t[ntr];
fTh = new Double_t [ntr];
fPhi = new Double_t [ntr];
fDeltPhi = new Double_t [ntr];
fPhi[i]=ph[i];
fDeltPhi[i]=df[i];
fLabels[i] = labels[i];
+ fLabelsL2[i] = labelsL2[i];
}
}
if(ns>0){
fPhisingle[i]=ps[i];
}
}
- fFiredChips[0] = 0;
- fFiredChips[1] = 0;
+ fFiredChips[0] = nfcL1;
+ fFiredChips[1] = nfcL2;
+ fFastOrFiredChips = fFastOr;
}
//______________________________________________________________________
fNtracks(m.fNtracks),
fNsingle(m.fNsingle),
fLabels(0),
+ fLabelsL2(0),
fTh(0),
fPhi(0),
fDeltPhi(0),
fThsingle(0),
- fPhisingle(0)
+ fPhisingle(0),
+ fFastOrFiredChips(1200)
{
// copy constructor
Duplicate(m);
if(fPhi)delete [] fPhi;fPhi = 0;
if(fDeltPhi)delete [] fDeltPhi;fDeltPhi = 0;
if(fLabels)delete [] fLabels;fLabels = 0;
+ if(fLabelsL2)delete [] fLabelsL2;fLabelsL2 = 0;
if(fThsingle)delete [] fThsingle;fThsingle = 0;
if(fPhisingle)delete [] fPhisingle;fPhisingle = 0;
Duplicate(m);
return *this;
}
+void AliMultiplicity::Copy(TObject &obj) const {
+
+ // this overwrites the virtual TOBject::Copy()
+ // to allow run time copying without casting
+ // in AliESDEvent
+
+ if(this==&obj)return;
+ AliMultiplicity *robj = dynamic_cast<AliMultiplicity*>(&obj);
+ if(!robj)return; // not an AliMultiplicity
+ *robj = *this;
+
+}
+
+
//______________________________________________________________________
void AliMultiplicity::Duplicate(const AliMultiplicity& m){
// used by copy constructor and assignment operator
fPhi = new Double_t[fNtracks];
fDeltPhi = new Double_t[fNtracks];
fLabels = new Int_t[fNtracks];
+ fLabelsL2 = new Int_t[fNtracks];
}
else {
fTh = 0;
fPhi = 0;
fDeltPhi = 0;
fLabels = 0;
+ fLabelsL2 = 0;
}
fNsingle = m.fNsingle;
if(fNsingle>0){
if(m.fPhi)memcpy(fPhi,m.fPhi,fNtracks*sizeof(Double_t));
if(m.fDeltPhi)memcpy(fDeltPhi,m.fDeltPhi,fNtracks*sizeof(Double_t));
if(m.fLabels)memcpy(fLabels,m.fLabels,fNtracks*sizeof(Int_t));
+ if(m.fLabelsL2)memcpy(fLabelsL2,m.fLabelsL2,fNtracks*sizeof(Int_t));
if(m.fThsingle)memcpy(fThsingle,m.fThsingle,fNsingle*sizeof(Double_t));
if(m.fPhisingle)memcpy(fPhisingle,m.fPhisingle,fNsingle*sizeof(Double_t));
fFiredChips[0] = m.fFiredChips[0];
fFiredChips[1] = m.fFiredChips[1];
+
+ fFastOrFiredChips = m.fFastOrFiredChips;
}
//______________________________________________________________________
if(fPhi)delete [] fPhi;fPhi = 0;
if(fDeltPhi)delete [] fDeltPhi;fDeltPhi = 0;
if(fLabels)delete [] fLabels;fLabels = 0;
+ if(fLabelsL2)delete [] fLabelsL2;fLabelsL2 = 0;
if(fThsingle)delete [] fThsingle;fThsingle = 0;
if(fPhisingle)delete [] fPhisingle;fPhisingle = 0;
}
-
-