- kTrackP, // single track total momentum
- kTrackPt, // single track transverse momentum
- kTrackEta, // single track pseudo-rapidity
- kTrackY, // single track rapidity
- kTrackITSsignal, // single track ITS signal
- kTrackTPCsignal, // single track TPC signal
- kTrackTOFsignal, // single track TOF signal
- kTrackLength, // single track integrated length
- kTrackValues, // --- limitator for track values ---------------------------------------
-
- kPairP1, // total momentum of 1st daughter of a pair
- kPairP2, // total momentum of 2nd daughter of a pair
- kPairP1t, // total momentum of 1st daughter of a pair
- kPairP2t, // total momentum of 2nd daughter of a pair
- kPairP1z, // total momentum of 1st daughter of a pair
- kPairP2z, // total momentum of 2nd daughter of a pair
- kPairInvMass, // pair invariant mass (with reconstructed momenta)
- kPairInvMassMC, // pair invariant mass (with MC momenta)
- kPairInvMassRes, // pair invariant mass resolution
- kPairPt, // pair transverse momentum
- kPairPz, // pair longitudinal momentum
- kPairEta, // pair pseudo-rapidity
- kPairMt, // pair transverse mass (need a reference mass)
- kPairY, // pair rapidity (need a reference mass)
- kPairPhi, // pair azimuthal angle (with reconstructed momenta)
- kPairPhiMC, // pair azimuthal angle (with MC momenta)
- kPairPtRatio, // ratio |pt1 - pt2|/(pt1 + pt2) of daughter transverse momenta
- kPairDipAngle, // inverse cosine of the angle between daughter vector momenta
- kPairCosThetaStar, // polarization angle
- kPairQInv, // invariant relative momentum of the two daughters
- kPairAngleToLeading, // angle between the pair momentum and that of the event leading particle
- kPairValues, // --- limitator for pair values ----------------------------------------
-
- kEventLeadingPt, // transverse momentum of the event leading particle
- kEventMult, // multiplicity computed as the number of tracks
- kEventMultESDCuts, // multiplicity computed as the number of track passing an ESD quality cut (need this cut defined)
- kEventVz, // Z position of event primary vertex
- kValueTypes // --- last value (used to have a meaningless enum value) ---------------
+ kTrackP, // single track total momentum
+ kTrackPt, // single track transverse momentum
+ kTrackEta, // single track pseudo-rapidity
+ kTrackY, // single track rapidity
+ kTrackITSsignal, // single track ITS signal
+ kTrackTPCsignal, // single track TPC signal
+ kTrackTOFsignal, // single track TOF signal
+ kTrackLength, // single track integrated length
+ kTrackValues, // --- limitator for track values ---------------------------------------
+
+ kPairP1, // total momentum of 1st daughter of a pair
+ kPairP2, // total momentum of 2nd daughter of a pair
+ kPairP1t, // total momentum of 1st daughter of a pair
+ kPairP2t, // total momentum of 2nd daughter of a pair
+ kPairP1z, // total momentum of 1st daughter of a pair
+ kPairP2z, // total momentum of 2nd daughter of a pair
+ kPairInvMass, // pair invariant mass (with reconstructed momenta)
+ kPairInvMassMC, // pair invariant mass (with MC momenta)
+ kPairInvMassRes, // pair invariant mass resolution
+ kPairPt, // pair transverse momentum
+ kPairPz, // pair longitudinal momentum
+ kPairEta, // pair pseudo-rapidity
+ kPairMt, // pair transverse mass (need a reference mass)
+ kPairY, // pair rapidity (need a reference mass)
+ kPairPhi, // pair azimuthal angle (with reconstructed momenta)
+ kPairPhiMC, // pair azimuthal angle (with MC momenta)
+ kPairPtRatio, // ratio |pt1 - pt2|/(pt1 + pt2) of daughter transverse momenta
+ kPairDipAngle, // inverse cosine of the angle between daughter vector momenta
+ kPairCosThetaStar, // polarization angle
+ kPairQInv, // invariant relative momentum of the two daughters
+ kPairAngleToLeading, // angle between the pair momentum and that of the event leading particle
+ kPairValues, // --- limitator for pair values ----------------------------------------
+
+ kEventLeadingPt, // transverse momentum of the event leading particle
+ kEventMult, // multiplicity computed as the number of tracks
+ kEventMultESDCuts, // multiplicity computed as the number of track passing an ESD quality cut (need this cut defined)
+ kEventVz, // Z position of event primary vertex
+ kValueTypes // --- last value (used to have a meaningless enum value) ---------------