ClassImp(AliESDcascade)
AliESDcascade::AliESDcascade() :
- TObject(),
+ AliESDv0(),
fPdgCode(kXiMinus),
fEffMass(TDatabasePDG::Instance()->GetParticle(kXiMinus)->Mass()),
- fChi2(1.e+33),
+ fChi2Xi(1.e+33),
+ fDcaXiDaughters(999),
fBachIdx(-1)
{
//--------------------------------------------------------------------
// Default constructor (Xi-)
//--------------------------------------------------------------------
for (Int_t j=0; j<3; j++) {
- fPos[j]=0.;
+ fPosXi[j]=0.;
fBachMom[j]=0.;
}
- for (Int_t i=0; i<2; i++)
- for (Int_t j=0; j<3; j++)
- fV0mom[i][j]=0.;
-
- fV0idx[0]=fV0idx[1]=-1;
-
- fPosCov[0]=1e10;
- fPosCov[1]=fPosCov[2]=0.;
- fPosCov[3]=1e10;
- fPosCov[4]=0.;
- fPosCov[5]=1e10;
-
- fV0momCov[0]=1e10;
- fV0momCov[1]=fV0momCov[2]=0.;
- fV0momCov[3]=1e10;
- fV0momCov[4]=0.;
- fV0momCov[5]=1e10;
+ fPosCovXi[0]=1e10;
+ fPosCovXi[1]=fPosCovXi[2]=0.;
+ fPosCovXi[3]=1e10;
+ fPosCovXi[4]=0.;
+ fPosCovXi[5]=1e10;
fBachMomCov[0]=1e10;
fBachMomCov[1]=fBachMomCov[2]=0.;
fBachMomCov[5]=1e10;
}
+AliESDcascade::~AliESDcascade() {
+}
+
AliESDcascade::AliESDcascade(const AliESDv0 &v,
const AliExternalTrackParam &t, Int_t i) :
- TObject(),
+ AliESDv0(v),
fPdgCode(kXiMinus),
- fEffMass(TDatabasePDG::Instance()->GetParticle(kXiMinus)->Mass()),
- fChi2(1.e+33),
+ fEffMass(-1),
+ fChi2Xi(1.e+33),
+ fDcaXiDaughters(-1),
fBachIdx(i)
{
- //--------------------------------------------------------------------
+ //---------------------------------------------------------------------------------------------
// Main constructor (Xi-)
- //--------------------------------------------------------------------
-
- fV0idx[0]=v.GetNindex(); fV0idx[1]=v.GetPindex();
+ //---------------------------------------------------------------------------------------------
Double_t r[3]; t.GetXYZ(r);
Double_t x1=r[0], y1=r[1], z1=r[2]; // position of the bachelor
Double_t ym=y2+a2*py2;
Double_t zm=z2+a2*pz2;
+ //dca between V0 and bachelor
+
+ fDcaXiDaughters = TMath::Sqrt((x1-xm)*(x1-xm) + (y1-ym)*(y1-ym) + (z1-zm)*(z1-zm));
+
// position of the cascade decay
- fPos[0]=0.5*(x1+xm); fPos[1]=0.5*(y1+ym); fPos[2]=0.5*(z1+zm);
+ fPosXi[0]=0.5*(x1+xm); fPosXi[1]=0.5*(y1+ym); fPosXi[2]=0.5*(z1+zm);
// invariant mass of the cascade (default is Ximinus)
// momenta of the bachelor and the V0
fBachMom[0]=px1; fBachMom[1]=py1; fBachMom[2]=pz1;
- v.GetNPxPyPz(px2,py2,pz2);
- fV0mom[0][0]=px2; fV0mom[0][1]=py2; fV0mom[0][2]=pz2;
- v.GetPPxPyPz(px2,py2,pz2);
- fV0mom[1][0]=px2; fV0mom[1][1]=py2; fV0mom[1][2]=pz2;
//PH Covariance matrices: to be calculated correctly in the future
- fPosCov[0]=1e10;
- fPosCov[1]=fPosCov[2]=0.;
- fPosCov[3]=1e10;
- fPosCov[4]=0.;
- fPosCov[5]=1e10;
-
- fV0momCov[0]=1e10;
- fV0momCov[1]=fV0momCov[2]=0.;
- fV0momCov[3]=1e10;
- fV0momCov[4]=0.;
- fV0momCov[5]=1e10;
+ fPosCovXi[0]=1e10;
+ fPosCovXi[1]=fPosCovXi[2]=0.;
+ fPosCovXi[3]=1e10;
+ fPosCovXi[4]=0.;
+ fPosCovXi[5]=1e10;
fBachMomCov[0]=1e10;
fBachMomCov[1]=fBachMomCov[2]=0.;
fBachMomCov[4]=0.;
fBachMomCov[5]=1e10;
- fChi2=7.;
+ fChi2Xi=7.;
}
+AliESDcascade::AliESDcascade(const AliESDcascade& cas) :
+ AliESDv0(cas),
+ fPdgCode(cas.fPdgCode),
+ fEffMass(cas.fEffMass),
+ fChi2Xi(cas.fChi2Xi),
+ fDcaXiDaughters(cas.fDcaXiDaughters),
+ fBachIdx(cas.fBachIdx)
+{
+ //copy constructor
+ for (int i=0; i<3; i++) {
+ fPosXi[i] = cas.fPosXi[i];
+ fBachMom[i] = cas.fBachMom[i];
+ }
+ for (int i=0; i<6; i++) {
+ fPosCovXi[i] = cas.fPosCovXi[i];
+ fBachMomCov[i] = cas.fBachMomCov[i];
+ }
+}
+
Double_t AliESDcascade::ChangeMassHypothesis(Double_t &v0q, Int_t code) {
//--------------------------------------------------------------------
// This function changes the mass hypothesis for this cascade
break;
}
- Double_t pxn=fV0mom[0][0], pyn=fV0mom[0][1], pzn=fV0mom[0][2];
- Double_t pxp=fV0mom[1][0], pyp=fV0mom[1][1], pzp=fV0mom[1][2];
+ Double_t pxn=fNmom[0], pyn=fNmom[1], pzn=fNmom[2];
+ Double_t pxp=fPmom[0], pyp=fPmom[1], pzp=fPmom[2];
Double_t px0=pxn+pxp, py0=pyn+pyp, pz0=pzn+pzp;
Double_t p0=TMath::Sqrt(px0*px0 + py0*py0 + pz0*pz0);
//--------------------------------------------------------------------
// This function returns the cascade momentum (global)
//--------------------------------------------------------------------
- px=fV0mom[0][0]+fV0mom[1][0]+fBachMom[0];
- py=fV0mom[0][1]+fV0mom[1][1]+fBachMom[1];
- pz=fV0mom[0][2]+fV0mom[1][2]+fBachMom[2];
+ px=fNmom[0]+fPmom[0]+fBachMom[0];
+ py=fNmom[1]+fPmom[1]+fBachMom[1];
+ pz=fNmom[2]+fPmom[2]+fBachMom[2];
}
-void AliESDcascade::GetXYZ(Double_t &x, Double_t &y, Double_t &z) const {
+void AliESDcascade::GetXYZcascade(Double_t &x, Double_t &y, Double_t &z) const {
//--------------------------------------------------------------------
// This function returns cascade position (global)
//--------------------------------------------------------------------
- x=fPos[0];
- y=fPos[1];
- z=fPos[2];
+ x=fPosXi[0];
+ y=fPosXi[1];
+ z=fPosXi[2];
}
-Double_t AliESDcascade::GetD(Double_t x0, Double_t y0, Double_t z0) const {
+Double_t AliESDcascade::GetDcascade(Double_t x0, Double_t y0, Double_t z0) const {
//--------------------------------------------------------------------
// This function returns the cascade impact parameter
//--------------------------------------------------------------------
- Double_t x=fPos[0],y=fPos[1],z=fPos[2];
- Double_t px=fV0mom[0][0]+fV0mom[1][0]+fBachMom[0];
- Double_t py=fV0mom[0][1]+fV0mom[1][1]+fBachMom[1];
- Double_t pz=fV0mom[0][2]+fV0mom[1][2]+fBachMom[2];
+ Double_t x=fPosXi[0],y=fPosXi[1],z=fPosXi[2];
+ Double_t px=fNmom[0]+fPmom[0]+fBachMom[0];
+ Double_t py=fNmom[1]+fPmom[1]+fBachMom[1];
+ Double_t pz=fNmom[2]+fPmom[2]+fBachMom[2];
Double_t dx=(y0-y)*pz - (z0-z)*py;
Double_t dy=(x0-x)*pz - (z0-z)*px;
return d;
}
+Double_t AliESDcascade::GetCascadeCosineOfPointingAngle(Double_t& refPointX, Double_t& refPointY, Double_t& refPointZ) const {
+ // calculates the pointing angle of the cascade wrt a reference point
+
+ Double_t momCas[3]; //momentum of the cascade
+ GetPxPyPz(momCas[0],momCas[1],momCas[2]);
+
+ Double_t deltaPos[3]; //vector between the reference point and the cascade vertex
+ deltaPos[0] = fPosXi[0] - refPointX;
+ deltaPos[1] = fPosXi[1] - refPointY;
+ deltaPos[2] = fPosXi[2] - refPointZ;
+
+ Double_t momCas2 = momCas[0]*momCas[0] + momCas[1]*momCas[1] + momCas[2]*momCas[2];
+ Double_t deltaPos2 = deltaPos[0]*deltaPos[0] + deltaPos[1]*deltaPos[1] + deltaPos[2]*deltaPos[2];
+
+ Double_t cosinePointingAngle = (deltaPos[0]*momCas[0] +
+ deltaPos[1]*momCas[1] +
+ deltaPos[2]*momCas[2] ) /
+ TMath::Sqrt(momCas2 * deltaPos2);
+
+ return cosinePointingAngle;
+}