Coverity fix
[u/mrichter/AliRoot.git] / MFT / AliMFTCluster.h
CommitLineData
820b4d9e 1#ifndef AliMFTCluster_H
2#define AliMFTCluster_H
3
4/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
6
7//====================================================================================================================================================
8//
9// Class for the description of the clusters of the ALICE Muon Forward Tracker
10//
11// Contact author: antonio.uras@cern.ch
12//
13//====================================================================================================================================================
14
15#include "AliMUONRawCluster.h"
16#include "AliMUONVCluster.h"
17#include "TObject.h"
18
19//====================================================================================================================================================
20
21class AliMFTCluster : public TObject {
22
23public:
24
25 AliMFTCluster();
26// AliMFTCluster(const AliMFTCluster& pt);
27// AliMFTCluster& operator=(const AliMFTCluster &source);
28
29 virtual ~AliMFTCluster() {}; // destructor
30
31 void SetXYZ(Double_t x, Double_t y, Double_t z) { fX=x; fY=y; fZ=z; }
32
33 void SetX(Double_t x) { fX = x; }
34 void SetY(Double_t y) { fY = y; }
35 void SetZ(Double_t z) { fZ = z; }
36
37 Double_t GetX() const { return fX; }
38 Double_t GetY() const { return fY; }
39 Double_t GetZ() const { return fZ; }
40
41 void SetErrXYZ(Double_t errX, Double_t errY, Double_t errZ) { fErrX = errX; fErrY = errY; fErrZ = errZ; }
42
43 void SetErrX(Double_t errX) { fErrX = errX; }
44 void SetErrY(Double_t errY) { fErrY = errY; }
45 void SetErrZ(Double_t errZ) { fErrZ = errZ; }
46
47 Double_t GetErrX() const { return fErrX; }
48 Double_t GetErrY() const { return fErrY; }
49 Double_t GetErrZ() const { return fErrZ; }
50 Double_t GetErrX2() const { return fErrX*fErrX; }
51 Double_t GetErrY2() const { return fErrY*fErrY; }
52 Double_t GetErrZ2() const { return fErrZ*fErrZ; }
53
54 void SetNElectrons(Double_t nElectrons) { fNElectrons = nElectrons; }
55 Double_t GetNElectrons() const { return fNElectrons; }
56
57 void AddMCLabel(Int_t label) { if (fNMCTracks==fNMaxMCTracks) return; else fMCLabel[fNMCTracks++]=label; }
58 Int_t GetNMCTracks() const { return fNMCTracks; }
59 Int_t GetMCLabel(Int_t track) const { if (track<fNMCTracks && track>=0) return fMCLabel[track]; else return -1; }
60
61 void SetPlane(Int_t plane) { fPlane = plane; }
62 Int_t GetPlane() const { return fPlane; }
63
64 void SetSize(Int_t size) { fSize = size; }
65 Int_t GetSize() const { return fSize; }
66
67 void SetLocalChi2(Double_t chi2) { fLocalChi2 = chi2; }
68 void SetTrackChi2(Double_t chi2) { fTrackChi2 = chi2; }
69
70 Double_t GetLocalChi2() { return fLocalChi2; }
71 Double_t GetTrackChi2() { return fTrackChi2; }
72
73 AliMUONRawCluster* CreateMUONCluster();
74
75private:
76
77 static const Int_t fNMaxMCTracks = 30;
78
79 Double_t fX, fY, fZ; // cluster global coordinates
80 Double_t fErrX, fErrY, fErrZ;
81
82 Double_t fNElectrons;
83 Int_t fNMCTracks;
84 Int_t fPlane;
85 Int_t fMCLabel[fNMaxMCTracks];
86
87 Int_t fSize; // the number of digits composing the cluster
88
89 Double_t fTrackChi2; // Chi2 of the track when the associated cluster was attached
90 Double_t fLocalChi2; // Local chi2 of the associated cluster with respect to the track
91
92 ClassDef(AliMFTCluster, 1)
93
94};
95
96//====================================================================================================================================================
97
98#endif
99