#ifndef AliRun_H #define AliRun_H #include #include #include #include #include #include #include "AliModule.h" #include "AliHeader.h" #include "AliMagF.h" #include "AliMC.h" #include "AliGenerator.h" #include "AliLego.h" enum {kMaxModules = 25, kLenModuleName=7}; class AliDisplay; class AliRun : public TNamed { protected: Int_t fRun; //Current run number Int_t fEvent; //Current event number (from 1) Int_t fNtrack; //Number of tracks Int_t fHgwmk; //Last track purified Int_t fCurrent; //Last track returned from the stack Int_t fDebug; //Debug flag AliHeader fHeader; //Header information TTree *fTreeD; //Pointer to Tree for Digits TTree *fTreeK; //Pointer to Tree for Kinematics TTree *fTreeH; //Pointer to Tree for Hits TTree *fTreeE; //Pointer to Tree for Header TTree *fTreeR; //Pointer to Tree for Reconstructed Objects TObjArray *fModules; //List of Detectors TClonesArray *fParticles; //Pointer to list of particles TGeometry *fGeometry; //Pointer to geometry AliDisplay *fDisplay; //Pointer to event display TStopwatch fTimer; //Timer object AliMagF *fField; //Magnetic Field Map AliMC *fMC; //pointer to MonteCarlo object char fDnames[kMaxModules][kLenModuleName]; //Array of detector names TArrayI *fImedia; //Array of correspondence between media and detectors Int_t fNdets; //Number of detectors Float_t fTrRmax; //Maximum radius for tracking Float_t fTrZmax; //Maximu z for tracking AliGenerator *fGenerator; //Generator used in the MC Int_t *fIdtmed; //Array to contain media numbers Bool_t fInitDone; //true when initialisation done AliLego *fLego; //pointer to aliLego object if it exists public: // Creators - distructors AliRun(); AliRun(const char *name, const char *title); virtual ~AliRun(); virtual void AddHit(Int_t id, Int_t track, Int_t *vol, Float_t *hits) const; virtual void AddDigit(Int_t id, Int_t *tracks, Int_t *digits) const; virtual void Browse(TBrowser *b); virtual void Build(); virtual void BuildSimpleGeometry(); virtual void CleanDetectors(); virtual void CleanParents(); TObjArray *Detectors() const {return fModules;} TObjArray *Modules() const {return fModules;} Int_t CurrentTrack() const {return fCurrent;} AliDisplay *Display() { return fDisplay;} virtual Int_t DistancetoPrimitive(Int_t px, Int_t py); virtual void DumpPart (Int_t i); virtual void DumpPStack (); virtual AliMagF *Field() const {return fField;} virtual void FillTree(); virtual void FinishPrimary(); virtual void FinishEvent(); virtual void FinishRun(); virtual void FlagTrack(Int_t track); Int_t GetEvNumber() const {return fEvent;} Int_t GetRunNumber() const {return fRun;} void SetRunNumber(Int_t run) {fRun=run;} Int_t GetDebug() const {return fDebug;} AliModule *GetModule(const char *name); Int_t GetModuleID(const char *name); virtual Int_t GetEvent(Int_t event); TGeometry *GetGeometry(); AliHeader *GetHeader() {return &fHeader;} virtual void GetNextTrack(Int_t &mtrack, Int_t &ipart, Float_t *pmom, Float_t &e, Float_t *vpos, Float_t *polar, Float_t &tof); Int_t GetNtrack() {return fNtrack;} virtual Int_t GetPrimary(Int_t track); virtual void Init(const char *setup="Config.C"); Bool_t IsFolder() {return kTRUE;} virtual void MakeTree(Option_t *option="KH"); TClonesArray *Particles() {return fParticles;}; virtual void PurifyKine(); virtual Int_t PurifyKine(Int_t lastSavedTrack, Int_t nofTracks); virtual void Reset(Int_t run, Int_t idevent); virtual void ResetDigits(); virtual void ResetHits(); virtual void ResetPoints(); virtual void SetTransPar(char *filename="$(ALICE_ROOT)/data/galice.cuts"); virtual void ResetStack() {fCurrent=-1;fHgwmk=0;fNtrack=0;fParticles->Clear();} virtual void Run(Int_t nevent=1, const char *setup="Config.C"); virtual void RunLego(const char *setup="Config.C",Int_t ntheta=60,Float_t themin=2,Float_t themax=178, Int_t nphi=60,Float_t phimin=0,Float_t phimax=360,Float_t rmin=0, Float_t rmax=570,Float_t zmax=10000); virtual void SetCurrentTrack(Int_t track); virtual void SetDebug(const Int_t level=1) {fDebug = level;} virtual void SetDisplay(AliDisplay *display) {fDisplay = display;} virtual void StepManager(Int_t id) const; virtual void SetField(Int_t type=2, Int_t version=1, Float_t scale=1, Float_t maxField=10, char*filename="$(ALICE_ROOT)/data/field01.dat"); virtual void SetTrack(Int_t done, Int_t parent, Int_t ipart, Float_t *pmom, Float_t *vpos, Float_t *polar, Float_t tof, const char *mecha, Int_t &ntr, Float_t weight=1); virtual void KeepTrack(const Int_t); virtual void MediaTable(); virtual Float_t TrackingZmax() const {return fTrZmax;} virtual Float_t TrackingRmax() const {return fTrRmax;} virtual void TrackingLimits( Float_t rmax=1.e10, Float_t zmax=1.e10) {fTrRmax=rmax; fTrZmax=zmax;} virtual Int_t DetFromMate(Int_t i) { return (*fImedia)[i];} virtual AliGenerator* Generator() {return fGenerator;} virtual void SetGenerator(AliGenerator *generator); virtual void EnergySummary(); virtual Int_t* Idtmed() {return fIdtmed;} // Functions from GEOCAD //_______________________________________________________________________ virtual void ReadEuclid(const char*, Int_t, const char*); virtual void ReadEuclidMedia(const char*, Int_t); TTree *TreeD() {return fTreeD;} TTree *TreeE() {return fTreeE;} TTree *TreeH() {return fTreeH;} TTree *TreeK() {return fTreeK;} TTree *TreeR() {return fTreeR;} // --------------------------- commons ------------------------------------- ClassDef(AliRun,1) //Supervisor class for all Alice detectors }; EXTERN AliRun *gAlice; #endif