/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ //////////////////////////////////////////////////////////////////////////////// // // This class is a simple set of definitions which are used to define a // decay tree to be studied for a resonance, in terms of the PID and charge // of its candidate daughters, which in turn determins what kind of objects // the analysis must take into account. // This object contains two AliRsnDaughterDef which define a model for each // of the two expected daughters (see also AliRsnDaughterDef class) plus a // mass hypothesis for the resonance, which is used for computin quantities // which need it (like rapidity or Mt), and a PDG code, which is used to // check for true pairs, when needed. In all other cases, these two additional // values can be left to their default (meaningless) value. // Since this object must define a decay channel, the only provided constructor // allow to set a PID and a charge. // // authors: A. Pulvirenti (alberto.pulvirenti@ct.infn.it) // M. Vala (martin.vala@cern.ch) // //////////////////////////////////////////////////////////////////////////////// #include "AliLog.h" #include "AliRsnMother.h" #include "AliRsnPairDef.h" ClassImp(AliRsnPairDef) //_____________________________________________________________________________ AliRsnPairDef::AliRsnPairDef() : fMotherMass(0.0), fMotherPDG(0), fDef1(), fDef2() { // // Constructor. // If the two pointers are well initialized, they are used to init the members. // } //_____________________________________________________________________________ AliRsnPairDef::AliRsnPairDef (EPARTYPE type1, Char_t ch1, EPARTYPE type2, Char_t ch2, Int_t pdg, Double_t mass) : fMotherMass(mass), fMotherPDG(pdg), fDef1(type1, ch1), fDef2(type2, ch2) { // // Constructor. // If the two pointers are well initialized, they are used to init the members. // } //_____________________________________________________________________________ AliRsnPairDef::AliRsnPairDef (AliRsnDaughter::ESpecies type1, Char_t ch1, AliRsnDaughter::ESpecies type2, Char_t ch2, Int_t pdg, Double_t mass) : fMotherMass(mass), fMotherPDG(pdg), fDef1(type1, ch1), fDef2(type2, ch2) { // // Constructor. // If the two pointers are well initialized, they are used to init the members. // } //_____________________________________________________________________________ AliRsnPairDef::AliRsnPairDef(const AliRsnPairDef ©) : TObject(copy), fMotherMass(copy.fMotherMass), fMotherPDG(copy.fMotherPDG), fDef1(copy.fDef1), fDef2(copy.fDef2) { // // Copy constructor with standard behavior // } //_____________________________________________________________________________ const AliRsnPairDef& AliRsnPairDef::operator=(const AliRsnPairDef ©) { // // Assignment operator with standard behavior. // fMotherMass = copy.fMotherMass; fMotherPDG = copy.fMotherPDG; fDef1 = copy.fDef1; fDef2 = copy.fDef2; return (*this); }