1 #ifndef ALICALCLUSTER_H
2 #define ALICALCLUSTER_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
10 #include "TObjArray.h"
13 #include "AliCalmodule.h"
16 class AliCalcluster : public AliSignal
19 AliCalcluster(); // Default constructor, all data initialised to 0
20 virtual ~AliCalcluster(); // Default destructor
21 AliCalcluster(AliCalcluster& c); // Copy constructor
22 AliCalcluster(AliCalmodule& m); // Create new cluster starting at module m
23 Int_t GetRow(); // Return row number of cluster center
24 Int_t GetColumn(); // Return column number of cluster center
25 Int_t GetNmodules(); // Return number of modules in cluster
26 Float_t GetRowDispersion(); // Return normalised row dispersion of cluster
27 Float_t GetColumnDispersion(); // Return normalised column dispersion of cluster
28 void Start(AliCalmodule& m); // Reset cluster data to start with module m
29 void Add(AliCalmodule& m); // Add module data to cluster
30 void AddVetoSignal(AliSignal& s,Int_t extr=1); // Associate (extrapolated) signal
31 void AddVetoSignal(AliSignal* s,Int_t extr=1) { AddVetoSignal(*s,extr); }
32 AliSignal* GetVetoSignal(Int_t j); // Access to veto signal number j
33 Int_t GetNvetos(); // Provide the number of veto signals
34 Float_t GetVetoLevel(); // Provide confidence level of best associated veto hit
35 Int_t HasVetoHit(Double_t cl); // Check for ass. veto hit with conf. level > cl
38 Int_t fRow; // Row index of the central module of the cluster
39 Int_t fCol; // Column index of the central module of the cluster
40 Int_t fNmods; // The number of modules in the cluster
41 Float_t fRowdisp; // Row dispersion of cluster (not normalised)
42 Float_t fColdisp; // Column dispersion of cluster (not normalised)
43 Int_t fNvetos; // The number of associated veto signals
44 TObjArray* fVetos; // The array of associated veto signals
46 ClassDef(AliCalcluster,4) // Description of a cluster of calorimeter modules.