1 #ifndef ALITPCCLUSTERMI_H
2 #define ALITPCCLUSTERMI_H
4 //-------------------------------------------------------
7 // Origin: Marian Ivanov
8 //-------------------------------------------------------
13 #include "AliCluster.h"
16 //_____________________________________________________________________________
17 class AliTPCclusterMI : public AliCluster {
19 AliTPCclusterMI():AliCluster(){fX =0; fQ=0; fUsed=0; fDetector = 0; fRow =0;}
20 AliTPCclusterMI(Int_t *lab, Float_t *hit) : AliCluster(lab,hit) {fQ = (UShort_t)hit[4];}
21 virtual ~AliTPCclusterMI() {}
22 virtual Bool_t IsSortable() const;
23 virtual Int_t Compare(const TObject* obj) const;
24 inline void Use(Int_t inc=10);
25 virtual Float_t GetX() const { return fX;}
26 virtual void SetX(Float_t x) { fX = x;}
27 virtual Int_t GetDetector() const {return fDetector;}
28 virtual Int_t GetRow() const {return fRow;}
29 virtual void SetDetector(Int_t detector){fDetector = (UChar_t)(detector%256);}
30 virtual void SetRow(Int_t row){fRow = (UChar_t)(row%256);}
32 void SetQ(Float_t q) {fQ=(UShort_t)q;}
33 void SetType(Char_t type) {fType=type;}
34 void SetMax(UShort_t max) {fMax=max;}
35 Int_t IsUsed(Int_t th=10) const {return (fUsed>=th) ? 1 : 0;}
36 Float_t GetQ() const {return TMath::Abs(fQ);}
37 Float_t GetMax() const {return fMax;}
38 Char_t GetType()const {return fType;}
41 Float_t fX; //X position of cluster
42 Short_t fQ ; //Q of cluster (in ADC counts)
43 Char_t fType; //type of the cluster 0 means golden
44 Short_t fMax; //maximal amplitude in cluster
45 Char_t fUsed; //counter of usage
46 UChar_t fDetector; //detector number
47 UChar_t fRow; //row number number
48 ClassDef(AliTPCclusterMI,2) // Time Projection Chamber clusters
51 void AliTPCclusterMI::Use(Int_t inc)
53 if (inc>0) fUsed+=inc;
58 class AliTPCclusterLMI {
61 AliTPCclusterLMI(){fCZ=fCY=fSigmaZ=fSigmaY=fQ=fMax=fCType=0;}
62 virtual ~AliTPCclusterLMI(){}
63 Float_t GetZ() const {return (fCZ*0.01);}
64 Float_t GetY() const {return (fCY*0.01);}
65 Float_t GetSigmaZ() const {return (fSigmaZ*0.02);}
66 Float_t GetSigmaY() const {return (fSigmaY*0.02);}
67 Int_t GetType() const {return fCType;}
68 Int_t GetMax() const {return fMax;}
69 Float_t GetQ() const {return fQ;}
70 Int_t GelLabel(Int_t i) const {return fLabel[i];}
72 void SetY(Float_t y){ fCY = (UShort_t)(TMath::Nint(y*100.));}
73 void SetZ(Float_t z){ fCZ = (UShort_t)(TMath::Nint(z*100.));}
74 void SetSigmaZ(Float_t sigmaz) {fSigmaZ = (UChar_t)(TMath::Nint(sigmaz*50.));}
75 void SetSigmaY(Float_t sigmay) {fSigmaY = (UChar_t)(TMath::Nint(sigmay*50.));}
76 void SetQ(Float_t q) {fQ = (UShort_t)q;}
77 void SetMax(Float_t max) {fMax = (UShort_t)max;}
78 void SetType(Char_t type) {fCType = type;}
79 void SetLabels(Int_t labels[3]){fLabel[0] = labels[0];fLabel[1] = labels[1];fLabel[2] = labels[2];}
82 Short_t fCZ; // current cluster position Z in cm - 100 mum precision
83 Short_t fCY; // current cluster position Y in cm - 100 mum precision
84 UChar_t fSigmaZ; // shape Z - normalised shape - normaliziation 1 - precision 2 percent
85 UChar_t fSigmaY; // shape Y - normalised shape - normaliziation 1 - precision 2 percent
86 UShort_t fQ; // total charge in cluster
87 UShort_t fMax; // charge at maximum
88 Char_t fCType; // type of the cluster
89 Int_t fLabel[3]; // track indexes
90 ClassDef(AliTPCclusterLMI,1)