4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
10 ////////////////////////////////////////////////
11 // Manager and hits classes for set:RICH //
12 ////////////////////////////////////////////////
13 #include "AliDetector.h"
14 #include "AliRICHConst.h"
15 #include "AliRICHChamber.h"
16 static const int kNCH=7;
21 class AliRICHRawCluster;
23 class AliRICHClusterFinder;
26 class AliRICHCerenkov;
27 class AliRICHSegmentation;
28 class AliRICHResponse;
30 class AliRICHGeometry;
32 class AliRICH : public AliDetector {
35 AliRICH(const char *name, const char *title);
36 AliRICH(const AliRICH& RICH);
38 virtual void AddHit(Int_t track, Int_t *vol, Float_t *hits);
39 virtual void AddCerenkov(Int_t track, Int_t *vol, Float_t *cerenkovs);
40 virtual void AddPadHit(Int_t *clhits);
41 virtual void AddDigits(Int_t id, Int_t *tracks, Int_t *charges, Int_t *digits);
42 virtual void AddRawCluster(Int_t id, const AliRICHRawCluster& cluster);
43 virtual void AddRecHit(Int_t id, Float_t* rechit, Float_t* photons, Int_t* padsx, Int_t* padsy);
46 virtual void BuildGeometry();
47 virtual void CreateGeometry();
48 virtual void CreateMaterials();
49 virtual Float_t AbsoCH4(Float_t x);
50 virtual Float_t Fresnel(Float_t ene,Float_t pdoti, Bool_t pola);
51 virtual void StepManager();
52 Int_t DistancetoPrimitive(Int_t px, Int_t py);
53 virtual Int_t IsVersion() const =0;
55 TClonesArray *PadHits() {return fPadHits;}
56 TClonesArray *Cerenkovs() {return fCerenkovs;}
57 virtual void MakeBranch(Option_t *opt=" ");
58 void SetTreeAddress();
59 virtual void ResetHits();
60 virtual void ResetDigits();
61 virtual void ResetRawClusters();
62 virtual void ResetRecHits();
63 virtual void FindClusters(Int_t nev,Int_t lastEntry);
64 virtual void Digitise(Int_t nev,Int_t flag,Option_t *opt=" ",Text_t *name=" ");
66 // Configuration Methods (per station id)
68 // Set Chamber Segmentation Parameters
69 // id refers to the station and isec to the cathode plane
70 // Set Segmentation and Response Model
71 virtual void SetGeometryModel(Int_t id, AliRICHGeometry *geometry);
72 virtual void SetSegmentationModel(Int_t id, AliRICHSegmentation *segmentation);
73 virtual void SetResponseModel(Int_t id, AliRICHResponse *response);
74 virtual void SetNsec(Int_t id, Int_t nsec);
75 // Set Reconstruction Model
76 virtual void SetReconstructionModel(Int_t id, AliRICHClusterFinder *reconstruction);
77 // Set source debugging level
78 void SetDebugLevel(Int_t level) {fDebugLevel=level;}
79 // Get source debugging level
80 Int_t GetDebugLevel() {return fDebugLevel;}
81 // Response Simulation
82 virtual Int_t MakePadHits(Float_t xhit,Float_t yhit,Float_t eloss,Int_t id, ResponseType res);
83 // Return reference to Chamber #id
84 virtual AliRICHChamber& Chamber(Int_t id) {return *((AliRICHChamber *) (*fChambers)[id]);}
85 // Retrieve pad hits for a given Hit
86 virtual AliRICHPadHit* FirstPad(AliRICHHit *hit, TClonesArray *clusters);
87 virtual AliRICHPadHit* NextPad(TClonesArray *clusters);
88 // Return pointers to digits
89 TObjArray *Dchambers() {return fDchambers;}
90 Int_t *Ndch() {return fNdch;}
91 virtual TClonesArray *DigitsAddress(Int_t id) {return ((TClonesArray *) (*fDchambers)[id]);}
92 // Return pointers to rec. hits
93 TObjArray *RecHits() {return fRecHits;}
94 Int_t *Nrechits() {return fNrechits;}
95 virtual TClonesArray *RecHitsAddress(Int_t id) {return ((TClonesArray *) (*fRecHits)[id]);}
96 // Return pointers to reconstructed clusters
97 virtual TClonesArray *RawClustAddress(Int_t id) {return ((TClonesArray *) (*fRawClusters)[id]);}
98 // Assignment operator
99 AliRICH& operator=(const AliRICH& rhs);
103 TObjArray *fChambers; // List of Tracking Chambers
104 Int_t fNPadHits; // Number of clusters
105 Int_t fNcerenkovs; // Number of cerenkovs
106 TClonesArray *fPadHits; // List of clusters
107 TObjArray *fDchambers; // List of digits
108 TClonesArray *fCerenkovs; // List of cerenkovs
109 Int_t *fNdch; // Number of digits
110 Text_t *fFileName; // Filename for event mixing
111 TObjArray *fRawClusters; // List of raw clusters
112 TObjArray *fRecHits; // List of rec. hits
113 Int_t *fNrawch; // Number of raw clusters
114 Int_t *fNrechits; // Number of rec hits
115 Int_t fDebugLevel; // Source debugging level
117 Int_t fCkovNumber; // Number of Cerenkov photons
118 Int_t fCkovQuarz; // Cerenkovs crossing quartz
119 Int_t fCkovGap; // Cerenkovs crossing gap
120 Int_t fCkovCsi; // Cerenkovs crossing csi
121 Int_t fLostRfreo; // Cerenkovs reflected in freon
122 Int_t fLostRquar; // Cerenkovs reflected in quartz
123 Int_t fLostAfreo; // Cerenkovs absorbed in freon
124 Int_t fLostAquarz; // Cerenkovs absorbed in quartz
125 Int_t fLostAmeta; // Cerenkovs absorbed in methane
126 Int_t fLostCsi; // Cerenkovs below csi quantum efficiency
127 Int_t fLostWires; // Cerenkovs lost in wires
128 Int_t fFreonProd; // Cerenkovs produced in freon
129 Float_t fMipx; // x coord. of MIP
130 Float_t fMipy; // y coord. of MIP
131 Int_t fFeedbacks; // Number of feedback photons
132 Int_t fLostFresnel; // Cerenkovs lost by Fresnel reflection
134 ClassDef(AliRICH,1) //Hits manager for set:RICH