3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
18 #include "TClonesArray.h"
20 #include <TStopwatch.h>
29 class AliLegoGenerator;
32 class AliLegoGenerator;
33 #include "AliMCProcess.h"
36 class AliGenEventHeader;
39 enum {kKeepBit=1, kDaughtersBit=2, kDoneBit=4};
42 class AliRun : public TNamed {
44 // Creators - distructors
46 AliRun(const char *name, const char *title);
49 virtual void AddHit(Int_t id, Int_t track, Int_t *vol, Float_t *hits) const;
50 virtual void AddDigit(Int_t id, Int_t *tracks, Int_t *digits) const;
51 virtual void AddHitList(TCollection *hitList) {fHitLists->Add(hitList);}
52 virtual void Browse(TBrowser *b);
54 virtual void BuildSimpleGeometry();
55 virtual void CleanDetectors();
56 TObjArray *Detectors() const {return fModules;}
57 TObjArray *Modules() const {return fModules;}
58 Int_t CurrentTrack() const;
59 AliDisplay *Display() { return fDisplay;}
60 virtual Int_t DistancetoPrimitive(Int_t px, Int_t py);
61 virtual void DumpPart (Int_t i) const;
62 virtual void DumpPStack () const;
63 virtual AliMagF *Field() const {return fField;}
64 virtual void PreTrack();
65 virtual void PostTrack();
66 virtual void FinishPrimary();
67 virtual void BeginPrimary();
68 virtual void FinishEvent();
69 virtual void FinishRun();
70 virtual void FlagTrack(Int_t track);
71 void AddEnergyDeposit(Int_t id, Float_t edep)
72 {fEventEnergy[id]+=edep;}
73 Int_t GetEvNumber() const {return fEvent;}
74 Int_t GetRunNumber() const {return fRun;}
75 void SetRunNumber(Int_t run) {fRun=run;}
76 void SetEventNrInRun(Int_t event) {fEventNrInRun=event;}
77 Int_t GetEventNrInRun() const {return fEventNrInRun;}
78 Int_t GetEventsPerRun() const {return fEventsPerRun;}
79 Int_t GetDebug() const {return fDebug;}
80 AliModule *GetModule(const char *name) const;
81 TList* GetHitLists() const {return fHitLists ;}
82 AliDetector *GetDetector(const char *name) const;
83 AliMCQA *GetMCQA() const {return fMCQA;}
84 Int_t GetModuleID(const char *name) const;
85 virtual const char *GetBaseFile() const
86 {return fBaseFileName.Data();}
87 virtual Int_t GetEvent(Int_t event);
88 virtual void SetEvent(Int_t event) {fEvent=event;}
89 virtual void SetConfigFunction(const char * config="Config();");
90 virtual const char *GetConfigFunction() const
91 {return fConfigFunction.Data();}
92 TGeometry *GetGeometry();
93 AliHeader* GetHeader() {return fHeader;}
94 virtual void SetGenEventHeader(AliGenEventHeader* header);
95 virtual void GetNextTrack(Int_t &mtrack, Int_t &ipart, Float_t *pmom,
96 Float_t &e, Float_t *vpos, Float_t *polar,
98 Int_t GetNtrack() const;
99 virtual Int_t GetPrimary(Int_t track) const;
100 virtual void Hits2Digits(const char *detector=0);
101 virtual void Hits2SDigits(const char *detector=0) {Tree2Tree("S",detector);}
102 virtual void SDigits2Digits(const char *detector=0) {Tree2Tree("D",detector);}
103 virtual void Digits2Reco(const char *detector=0) {Tree2Tree("R",detector);}
104 virtual void InitMC(const char *setup="Config.C");
105 virtual void Init(const char *setup="Config.C") {InitMC(setup);}
106 Bool_t IsFolder() const {return kTRUE;}
107 virtual AliLego* Lego() const {return fLego;}
108 virtual void MakeTree(Option_t *option="KH", const char *file = 0);
109 void MakeTree(Option_t *option, TFile *file);
111 TObjArray *Particles();
112 TParticle *Particle(Int_t i);
113 virtual void BeginEvent();
114 virtual void ResetDigits();
115 virtual void ResetSDigits();
116 virtual void ResetHits();
117 virtual void ResetTrackReferences();
118 virtual void ResetPoints();
119 virtual void SetTransPar(char *filename="$(ALICE_ROOT)/data/galice.cuts");
120 virtual void SetBaseFile(char *filename="galice.root");
121 virtual void ReadTransPar();
122 virtual void RunMC(Int_t nevent=1, const char *setup="Config.C");
123 virtual void Run(Int_t nevent=1, const char *setup="Config.C")
124 {RunMC(nevent,setup);}
125 virtual void RunLego(const char *setup="Config.C",Int_t nc1=60,Float_t c1min=2,Float_t c1max=178,
126 Int_t nc2=60,Float_t c2min=0,Float_t c2max=360,Float_t rmin=0,
127 Float_t rmax=430,Float_t zmax=10000, AliLegoGenerator* gener=NULL);
128 virtual Bool_t IsLegoRun() const {return (fLego!=0);}
129 virtual void RunReco(const char *detector=0, Int_t first = 0, Int_t last = 0);
130 virtual void SetCurrentTrack(Int_t track);
131 virtual void SetDebug(const Int_t level=0) {fDebug = level;}
132 virtual void SetDisplay(AliDisplay *display) {fDisplay = display;}
133 virtual void StepManager(Int_t id);
134 virtual void SetField(Int_t type=2, Int_t version=1, Float_t scale=1, Float_t maxField=10, char*filename="$(ALICE_ROOT)/data/field01.dat");
135 virtual void SetField(AliMagF* magField);
136 virtual void SetTrack(Int_t done, Int_t parent, Int_t pdg,
137 Float_t *pmom, Float_t *vpos, Float_t *polar,
138 Float_t tof, AliMCProcess mech, Int_t &ntr,
139 Float_t weight = 1, Int_t is = 0);
140 virtual void SetTrack(Int_t done, Int_t parent, Int_t pdg,
141 Double_t px, Double_t py, Double_t pz, Double_t e,
142 Double_t vx, Double_t vy, Double_t vz, Double_t tof,
143 Double_t polx, Double_t poly, Double_t polz,
144 AliMCProcess mech, Int_t &ntr, Float_t weight=1,
146 virtual void SetHighWaterMark(const Int_t nt);
148 virtual void KeepTrack(const Int_t itra);
149 virtual void MediaTable();
150 virtual Float_t TrackingZmax() const {return fTrZmax;}
151 virtual Float_t TrackingRmax() const {return fTrRmax;}
152 virtual void TrackingLimits( Float_t rmax=1.e10, Float_t zmax=1.e10) {fTrRmax=rmax; fTrZmax=zmax;}
153 virtual Int_t DetFromMate(Int_t i) const { return (*fImedia)[i];}
154 virtual AliGenerator* Generator() const {return fGenerator;}
155 virtual void SetGenerator(AliGenerator *generator);
156 virtual void ResetGenerator(AliGenerator *generator);
157 virtual void EnergySummary();
158 virtual TDatabasePDG* PDGDB() const {return fPDGDB;}
160 TFile* InitTreeFile(Option_t *option, TString fileName);
161 TString GetTreeDFileName() const {return fTreeDFileName;}
162 TString GetTreeSFileName() const {return fTreeSFileName;}
163 TString GetTreeRFileName() const {return fTreeRFileName;}
164 void SetTreeDFileName(TString fileName){fTreeDFileName=fileName;}
165 void SetTreeSFileName(TString fileName){fTreeSFileName=fileName;}
166 void SetTreeRFileName(TString fileName){fTreeRFileName=fileName;}
167 TFile* GetTreeDFile() const {return fTreeDFile;}
168 TFile* GetTreeSFile() const {return fTreeSFile;}
169 TFile* GetTreeRFile() const {return fTreeRFile;}
172 TTree *TreeD() {return fTreeD;}
173 TTree *TreeS() {return fTreeS;}
174 TTree *TreeE() {return fTreeE;}
175 TTree *TreeH() {return fTreeH;}
176 TTree *TreeTR() {return fTreeTR;}
178 TTree *TreeR() {return fTreeR;}
180 AliStack *Stack() {return fStack;}
183 virtual void Tree2Tree(Option_t *option, const char *detector=0);
184 TFile* InitFile(TString fileName="");
185 Int_t fRun; //! Current run number
186 Int_t fEvent; //! Current event number (from 1)
187 Int_t fEventNrInRun; //! Current unique event number in run
188 Int_t fEventsPerRun; // Number of events per run
189 Int_t fDebug; // Debug flag
190 AliHeader *fHeader; // Header information
191 TTree *fTreeD; //! Pointer to Tree for Digits
192 TTree *fTreeS; //! Pointer to Tree for SDigits
193 TTree *fTreeH; //! Pointer to Tree for Hits
194 TTree *fTreeTR; //! Pointer to Tree for TrackRefernces
195 TTree *fTreeE; //! Pointer to Tree for Header
196 TTree *fTreeR; //! Pointer to Tree for Reconstructed Objects
197 TObjArray *fModules; // List of Detectors
198 TGeometry *fGeometry; // Pointer to geometry
199 AliDisplay *fDisplay; //! Pointer to event display
200 TStopwatch fTimer; // Timer object
201 AliMagF *fField; // Magnetic Field Map
202 AliMC *fMC; //! Pointer to MonteCarlo object
203 TArrayI *fImedia; //! Array of correspondence between media and detectors
204 Int_t fNdets; // Number of detectors
205 Float_t fTrRmax; // Maximum radius for tracking
206 Float_t fTrZmax; // Maximu z for tracking
207 AliGenerator *fGenerator; // Generator used in the MC
208 Bool_t fInitDone; //! True when initialisation done
209 AliLego *fLego; //! Pointer to aliLego object if it exists
210 TDatabasePDG *fPDGDB; // Particle factory object
211 TList *fHitLists; //! Lists of hits to be remapped by PurifyKine
212 TArrayF fEventEnergy; //! Energy deposit for current event
213 TArrayF fSummEnergy; //! Energy per event in each volume
214 TArrayF fSum2Energy; //! Energy squared per event in each volume
215 TString fConfigFunction; // Configuration file to be executed
216 TRandom *fRandom; // Pointer to the random number generator
217 AliMCQA *fMCQA; // Pointer to MC Quality assurance class
218 TString fTransParName; // Name of the transport parameters file
219 TString fBaseFileName; // Name of the base root file
220 AliStack* fStack; //! Particle Stack
221 TString fTreeDFileName; //! name of the file with TreeD
222 TFile* fTreeDFile; //! file with TreeD
223 TString fTreeSFileName; //! name of the file with TreeS
224 TFile* fTreeSFile; //! file with TreeS
225 TString fTreeRFileName; //! name of the file with TreeR
226 TFile* fTreeRFile; //! file with TreeR
229 AliRun(const AliRun &right)
231 AliRun& operator = (const AliRun &) {return *this;}
232 ClassDef(AliRun,6) //Supervisor class for all Alice detectors
235 R__EXTERN AliRun *gAlice;