}
//--------------------------------------------------------------------------
AliESDVertex::AliESDVertex(Double_t positionZ,Double_t sigmaZ,
- Int_t nContributors,Char_t *vtxName) {
+ Int_t nContributors,const Char_t *vtxName) {
//
// Constructor for vertex Z from pixels
//
}
//-------------------------------------------------------------------------
AliESDVertex::AliESDVertex(Double_t position[3],Double_t covmatrix[6],
- Double_t chi2,Int_t nContributors,Char_t *vtxName) {
+ Double_t chi2,Int_t nContributors, const Char_t *vtxName) {
//
// Constructor for vertex in 3D from tracks
//
}
//--------------------------------------------------------------------------
AliESDVertex::AliESDVertex(Double_t position[3],Double_t sigma[3],
- Char_t *vtxName) {
+ const Char_t *vtxName) {
//
// Constructor for smearing of true position
//
}
//--------------------------------------------------------------------------
AliESDVertex::AliESDVertex(Double_t position[3],Double_t sigma[3],
- Double_t snr[3],Char_t *vtxName) {
+ Double_t snr[3], const Char_t *vtxName) {
//
// Constructor for Pb-Pb
//
fChi2 = 0;
fNContributors = 0;
-
- SetDebug();
}
//--------------------------------------------------------------------------
AliESDVertex::~AliESDVertex() {
return;
}
//--------------------------------------------------------------------------
-void AliESDVertex::PrintStatus() const {
+void AliESDVertex::Print(Option_t* /*option*/) const {
//
// Print out information on all data members
//
- printf(" Vertex position:\n");
+ printf("ESD vertex position:\n");
printf(" x = %f +- %f\n",fPosition[0],TMath::Sqrt(fCovXX));
printf(" y = %f +- %f\n",fPosition[1],TMath::Sqrt(fCovYY));
printf(" z = %f +- %f\n",fPosition[2],TMath::Sqrt(fCovZZ));