if(fnumberfound > 0) //!count only events with an inclusive electron
{
- Double_t valueAssElectron[4] = { binct, -1, -1}; //Centrality Pt Source
+ Double_t valueAssElectron[4] = { (Double_t)binct, -1, -1}; //Centrality Pt Source
Int_t iTrack2 = 0;
Int_t indexmother2 = -1;
AliVTrack *track2 = 0x0;
fkPIDRespons = fPIDBackground->GetPIDResponse();
//Set Fill-Arrays for THnSparse
- Double_t valueIncElectron[4] = { binct, track1->Pt(), source, track1->Eta()}; //Centrality Pt Source P
- Double_t valueSign[9] = { deltaphi, binct, track1->Pt(), -1, source, -1, -1, track1->Eta(), -1}; //DeltaPhi Centrality Pt InvariantMass Source Angle Pt
+ Double_t valueIncElectron[4] = { (Double_t)binct, track1->Pt(), (Double_t)source, track1->Eta()}; //Centrality Pt Source P
+ Double_t valueSign[9] = { deltaphi, (Double_t)binct, track1->Pt(), -1, (Double_t)source, -1, -1, track1->Eta(), -1}; //DeltaPhi Centrality Pt InvariantMass Source Angle Pt
//Double_t valueAngle[3] = { -1, binct, source};
- Double_t valueradius[4] = { binct, track1->Pt(), 0.,source};
+ Double_t valueradius[4] = { (Double_t)binct, track1->Pt(), 0.,(Double_t)source};
Int_t pdg1 = CheckPdg(TMath::Abs(track1->GetLabel()));
}
// Fill counted
- Double_t valCountsLS[3] = {binct, track1->Pt(), countsMatchLikesign},
- valCountsUS[3] = {binct, track1->Pt(), countsMatchUnlikesign};
+ Double_t valCountsLS[3] = {(Double_t)binct, track1->Pt(), (Double_t)countsMatchLikesign},
+ valCountsUS[3] = {(Double_t)binct, track1->Pt(), (Double_t)countsMatchUnlikesign};
fUSmatches->Fill(valCountsUS);
fLSmatches->Fill(valCountsLS);