// decay products and particle selection.
// andreas.morsch@cern.ch
-class TClonesArray;
-class TParticle;
+#include<TClonesArray.h>
#include <TArrayI.h>
#include <TString.h>
+class TParticle;
class AliGeometry;
-#include "AliDecayer.h"
+class AliGenEventHeader;
#include "AliGenerator.h"
+#include "AliDecayer.h"
class AliGenMC : public AliGenerator
{
public:
AliGenMC();
AliGenMC(Int_t npart);
- AliGenMC(const AliGenMC &MC);
virtual ~AliGenMC();
virtual void Init();
virtual void SetForceDecay(Decay_t decay = kAll) {fForceDecay = decay;}
- AliGenMC & operator=(const AliGenMC & rhs);
- virtual void SetCutOnChild(Int_t flag = 0) {fCutOnChild = flag;}
+ virtual void SetCutOnChild(Int_t flag = 0) {fCutOnChild = flag;}
virtual void SetChildMomentumRange(Float_t pmin = 0, Float_t pmax = 1.e10)
{fChildPMin = pmin; fChildPMax = pmax;}
virtual void SetChildPtRange(Float_t ptmin = 0, Float_t ptmax = 20.)
{fTarget = tar; fATarget = a; fZTarget = z;}
virtual void SetCrossingAngle(Float_t phiX, Float_t phiY) {fXingAngleX = phiX; fXingAngleY = phiY;}
virtual void Boost();
+ virtual void SetDyBoost(Double_t dyBoost = 0.) {fDyBoost = dyBoost;}
+ virtual void BeamCrossAngle();
+ virtual void AddHeader(AliGenEventHeader* header);
protected:
// check if particle is selected as parent particle
// check if particle is selected as child particle
Bool_t ChildSelected(Int_t ip) const;
// all kinematic selection cuts go here
- Bool_t KinematicSelection(TParticle *particle, Int_t flag) const;
+ Bool_t KinematicSelection(const TParticle *particle, Int_t flag) const;
Int_t CheckPDGCode(Int_t pdgcode) const;
- void Copy(TObject&) const;
+
protected:
- TClonesArray* fParticles; //!Particle List
- TArrayI fParentSelect; //!Parent particles to be selected
- TArrayI fChildSelect; //!Decay products to be selected
- Int_t fCutOnChild; // Cuts on decay products (children) are enabled/disabled
- Float_t fChildPtMin; // Children minimum pT
- Float_t fChildPtMax; // Children maximum pT
- Float_t fChildPMin; // Children minimum p
- Float_t fChildPMax; // Children maximum p
- Float_t fChildPhiMin; // Children minimum phi
- Float_t fChildPhiMax; // Children maximum phi
- Float_t fChildThetaMin; // Children minimum theta
- Float_t fChildThetaMax; // Children maximum theta
- Float_t fChildYMin; // Children minimum y
- Float_t fChildYMax; // Children maximum y
- Float_t fXingAngleX; // Crossing angle X
- Float_t fXingAngleY; // Crossing angle Y
- Decay_t fForceDecay; // Decay channel forced
- Float_t fMaxLifeTime; // Maximum lifetime for unstable particles
- Int_t fAProjectile; // Projectile A
- Int_t fZProjectile; // Projectile Z
- Int_t fATarget; // Target A
- Int_t fZTarget; // Target Z
- TString fProjectile; // Projectile
- TString fTarget; // Target
- Double_t fDyBoost; // dy for boost into lab frame
- AliGeometry * fGeometryAcceptance; // Geometry to which particles must be simulated
- Int_t fPdgCodeParticleforAcceptanceCut; // Abs(PDG Code) of the particle to which the GeometryAcceptance must be applied
- Int_t fNumberOfAcceptedParticles; // Number of accepted particles in GeometryAcceptance with the right Abs(PdgCode)
+ TClonesArray fParticles; //!Particle List
+ TArrayI fParentSelect; //!Parent particles to be selected
+ TArrayI fChildSelect; //!Decay products to be selected
+ Int_t fCutOnChild; // Cuts on decay products (children) are enabled/disabled
+ Float_t fChildPtMin; // Children minimum pT
+ Float_t fChildPtMax; // Children maximum pT
+ Float_t fChildPMin; // Children minimum p
+ Float_t fChildPMax; // Children maximum p
+ Float_t fChildPhiMin; // Children minimum phi
+ Float_t fChildPhiMax; // Children maximum phi
+ Float_t fChildThetaMin; // Children minimum theta
+ Float_t fChildThetaMax; // Children maximum theta
+ Float_t fChildYMin; // Children minimum y
+ Float_t fChildYMax; // Children maximum y
+ Float_t fXingAngleX; // Crossing angle X
+ Float_t fXingAngleY; // Crossing angle Y
+ Decay_t fForceDecay; // Decay channel forced
+ Float_t fMaxLifeTime; // Maximum lifetime for unstable particles
+ Double_t fDyBoost; // dy for boost into lab frame
+ AliGeometry* fGeometryAcceptance; // Geometry to which particles must be simulated
+ Int_t fPdgCodeParticleforAcceptanceCut; // Abs(PDG Code) of the particle to which the GeometryAcceptance must be applied
+ Int_t fNumberOfAcceptedParticles; // Number of accepted particles in GeometryAcceptance with the right Abs(PdgCode)
+ Int_t fNprimaries; // Number of produced and stored particles
+
+ private:
+ AliGenMC(const AliGenMC &MC);
+ AliGenMC & operator=(const AliGenMC & rhs);
- ClassDef(AliGenMC,5) // AliGenerator implementation for generators using MC methods
+ ClassDef(AliGenMC,7) // AliGenerator implementation for generators using MC methods
};
#endif
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff