// ESD loop
//************************************
- Double_t lLambdaMass = 1.115683; //PDG
+ // Double_t lLambdaMass = 1.115683; //PDG
Double_t lPLambda = 0;
Double_t lPAntiLambda = 0;
Double_t lPK0s = 0;
Int_t lPdgcodeMotherOfMother = 0;
// Reconstructed position
- Double_t rcPosXK0s = 0, rcPosYK0s = 0, rcPosZK0s = 0;
+ //Double_t rcPosXK0s = 0, rcPosYK0s = 0, rcPosZK0s = 0;
Double_t rcPosRK0s = 0;
- Double_t rcPosXLambda = 0, rcPosYLambda = 0, rcPosZLambda = 0;
+ //Double_t rcPosXLambda = 0, rcPosYLambda = 0, rcPosZLambda = 0;
Double_t rcPosRLambda = 0;
- Double_t rcPosXAntiLambda = 0, rcPosYAntiLambda = 0, rcPosZAntiLambda = 0;
+ // Double_t rcPosXAntiLambda = 0, rcPosYAntiLambda = 0, rcPosZAntiLambda = 0;
Double_t rcPosRAntiLambda = 0;
// Pt resolution
- Double_t deltaPtK0s = 0, deltaPtLambda = 0, deltaPtAntiLambda = 0;
+ // Double_t deltaPtK0s = 0, deltaPtLambda = 0, deltaPtAntiLambda = 0;
// Daughters
AliESDtrack *myTrackPos = NULL;
//const AliVVertex *mySPDPrimaryVertex = NULL;
- const AliMultiplicity *myMultiplicty = ((AliESDEvent*)fESD)->GetMultiplicity();
+ //const AliMultiplicity *myMultiplicty = ((AliESDEvent*)fESD)->GetMultiplicity();
if(fAnalysisType == "ESD") {
AliAnalysisManager *man=AliAnalysisManager::GetAnalysisManager();
AliInputEventHandler* inputHandler = (AliInputEventHandler*) (man->GetInputEventHandler());
fPIDResponse = inputHandler->GetPIDResponse();
- maskIsSelected = inputHandler->IsEventSelected();
+ Bool_t maskIsSelected = inputHandler->IsEventSelected();
// Create histograms
Int_t ptbins = 15;
}
//________________________________________________________________________
-
+/*
static Bool_t checkPrimaryStatus(const AliAODMCParticle *mcPart, double pVx, double pVy, double pVz)
{
double dx = pVx - mcPart->Xv();
return false;
}
-
+*/
//________________________________________________________________________
}
//________________________________________________________________________
-static Bool_t AcceptV0_lowpt(const AliAODv0 *v1, AliPIDResponse *PIDResponse,int type, double fcutBetheBloch, Double_t decayL, bool fIsMonteCarlo)
+static Bool_t AcceptV0_lowpt(const AliAODv0 *v1, AliPIDResponse *PIDResponse,int type, double fcutBetheBloch, bool fIsMonteCarlo)
{
int nnum = 1, pnum = 0;
if(TMath::Sqrt(v0->Pt2V0())<2)
{
- if(!AcceptV0_lowpt(v0,fPIDResponse,1,fcutBetheBloch,decayL,fIsMonteCarlo))
+ if(!AcceptV0_lowpt(v0,fPIDResponse,1,fcutBetheBloch,fIsMonteCarlo))
{ lambdaCandidate = kFALSE; }
- if(!AcceptV0_lowpt(v0,fPIDResponse,2,fcutBetheBloch,decayL,fIsMonteCarlo))
+ if(!AcceptV0_lowpt(v0,fPIDResponse,2,fcutBetheBloch,fIsMonteCarlo))
{ antilambdaCandidate = kFALSE; }
- if(!AcceptV0_lowpt(v0,fPIDResponse,0,fcutBetheBloch,decayL,fIsMonteCarlo))
+ if(!AcceptV0_lowpt(v0,fPIDResponse,0,fcutBetheBloch,fIsMonteCarlo))
{ k0Candidate = kFALSE; }
}