"unknown"
};
+const char* AliPID::fgkParticleShortName[AliPID::kSPECIESN+1] = {
+ "e",
+ "mu",
+ "pi",
+ "K",
+ "p",
+ "photon",
+ "pi0",
+ "n",
+ "K0",
+ "eleCon",
+ "unknown"
+};
+
+const char* AliPID::fgkParticleLatexName[AliPID::kSPECIESN+1] = {
+ "e",
+ "#mu",
+ "#pi",
+ "K",
+ "p",
+ "#gamma",
+ "#pi_{0}",
+ "n",
+ "K_{0}",
+ "eleCon",
+ "unknown"
+};
+
const Int_t AliPID::fgkParticleCode[AliPID::kSPECIESN+1] = {
::kElectron,
::kMuonMinus,
{return fgkParticleMass[iType];};
static const char* ParticleName(Int_t iType)
{return fgkParticleName[iType];};
+ static const char* ParticleShortName(Int_t iType)
+ {return fgkParticleShortName[iType];};
+ static const char* ParticleLatexName(Int_t iType)
+ {return fgkParticleLatexName[iType];};
static Int_t ParticleCode(Int_t iType)
{return fgkParticleCode[iType];};
static /*const*/ Float_t fgkParticleMass[kSPECIESN+1]; // particle masses
static const char* fgkParticleName[kSPECIESN+1]; // particle names
+ static const char* fgkParticleShortName[kSPECIESN+1]; // particle names
+ static const char* fgkParticleLatexName[kSPECIESN+1]; // particle names
static const Int_t fgkParticleCode[kSPECIESN+1]; // particle codes
- ClassDef(AliPID, 1) // particle id probability densities
+ ClassDef(AliPID, 2) // particle id probability densities
};