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d88f97cc 1#ifndef ALICALORIMETER_H
2#define ALICALORIMETER_H
3da30618 3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
f531a546 6// $Id$
3da30618 7
d88f97cc 8#include <math.h>
9
1c01b4f8 10#include "TNamed.h"
d88f97cc 11#include "TObjArray.h"
12#include "TH2.h"
13#include "TString.h"
f40f8fbd 14
1fbffa23 15#include "AliObjMatrix.h"
d88f97cc 16#include "AliCalmodule.h"
17#include "AliCalcluster.h"
18#include "AliSignal.h"
1fbffa23 19#include "AliPositionObj.h"
20#include "AliAttribObj.h"
d88f97cc 21
1c01b4f8 22class AliCalorimeter : public TNamed
d88f97cc 23{
24 public:
261c0caf 25 AliCalorimeter(); // Default constructor
26 AliCalorimeter(Int_t nrow,Int_t ncol); // Create a calorimeter matrix
27 virtual ~AliCalorimeter(); // Destructor
28 AliCalorimeter(const AliCalorimeter& c); // Copy constructor
29 virtual TObject* Clone(const char* name="") const; // Make a deep copy and provide pointer of the copy
30 Int_t GetNrows() const; // Return number of rows of the matrix
31 Int_t GetNcolumns() const; // Return number of columns of the matrix
32 void SetSignal(Int_t row,Int_t col,Float_t s); // Set signal for a certain module
33 void AddSignal(Int_t row,Int_t col,Float_t s); // Add signal to a certain module
34 void AddSignal(AliCalmodule* m); // Add module signal to current calorimeter
35 void Reset(Int_t row,Int_t col); // Reset signal for a certain module
36 void Reset(Int_t mode=0); // Reset the complete calorimeter
37 Float_t GetSignal(Int_t row,Int_t col,Int_t mode=0) const; // Provide signal of a certain module
38 Int_t GetNsignals() const; // Return number of modules with a signal
39 void Group(Int_t n=1,Int_t mode=1); // Group modules into clusters (n rings)
40 Int_t GetNclusters() const; // Return number of clusters
41 Float_t GetClusteredSignal(Int_t row,Int_t col) const; // Provide module signal after clustering
42 AliCalcluster* GetCluster(Int_t j) const; // Access to cluster number j
43 AliCalmodule* GetModule(Int_t j) const; // Access to 'fired' module number j
44 AliCalmodule* GetModule(Int_t row,Int_t col) const; // Access to module at (row,col)
45 void SetEdgeOn(Int_t row,Int_t col); // Indicate module as 'edge module'
46 void SetEdgeOff(Int_t row,Int_t col); // Indicate module as 'non-edge module'
47 Int_t GetEdgeValue(Int_t row,Int_t col) const; // Provide the edge flag of a module
48 void SetDead(Int_t row,Int_t col); // Indicate module as 'dead module'
49 void SetAlive(Int_t row,Int_t col); // Indicate module as 'active module'
50 Int_t GetDeadValue(Int_t row,Int_t col) const; // Provide the dead flag of a module
51 void SetGain(Int_t row,Int_t col,Float_t g); // Set the gain value for a module
52 void SetOffset(Int_t row,Int_t col,Float_t o); // Set the offset value for a module
53 Float_t GetGain(Int_t row,Int_t col) const; // Provide the gain value of a module
54 Int_t GetGainFlag(Int_t row,Int_t col) const; // Provide the gain flag value of a module
55 Float_t GetOffset(Int_t row,Int_t col) const; // Provide the offset value of a module
56 Int_t GetOffsetFlag(Int_t row,Int_t col) const; // Provide the offset flag value of a module
d88f97cc 57 void SetPosition(Int_t row,Int_t col,Float_t* r,TString f); // Set module position
261c0caf 58 void SetPosition(Int_t row,Int_t col,Ali3Vector& r); // Set module position
59 void GetPosition(Int_t row,Int_t col,Float_t* r,TString f) const; // Return module position
60 AliPosition* GetPosition(Int_t row,Int_t col) const; // Access to module position
61 TH2F* DrawModules(Float_t thresh=0.,Int_t mode=0); // Lego plot of module (corr.) signals above threshold
62 TH2F* DrawClusters(Float_t thresh=0.); // Lego plot of cluster signals above threshold
63 void AddVetoSignal(AliSignal& s); // Associate (extrapolated) signal
8e8e6c7f 64 void AddVetoSignal(AliSignal* s) { AddVetoSignal(*s); }
261c0caf 65 AliSignal* GetVetoSignal(Int_t j) const; // Access to veto signal number j
66 Int_t GetNvetos() const; // Provide the number of veto signals
67 void SetSwapMode(Int_t swap=1); // Set the swapmode for the storage of the matrices
68 Int_t GetSwapMode() const; // Provide the swapmode for the storage of the matrices
d88f97cc 69
70 protected:
71 Int_t fNrows; // The number of rows
72 Int_t fNcolumns; // The number of columns
1fbffa23 73 AliObjMatrix* fMatrix; // The matrix of module pointers
74 Int_t fSwap; // The swapmode for the module and position matrices
75 void SortM(AliCalmodule** a,Int_t& n); // Order the modules with decreasing signal (matrix search)
76 void SortA(AliCalmodule** a,Int_t& n); // Order the modules with decreasing signal (fired array search)
d88f97cc 77 TObjArray* fClusters; // The array of clusters
78 void AddRing(Int_t row,Int_t col,Int_t n); // add signals of n rings around cluster center
d88f97cc 79 void Ungroup(); // Restore module matrix as before clustering
f40f8fbd 80 TH2F* fHmodules; //! The module 2-D histogram for event display
81 TH2F* fHclusters; //! The cluster 2-D histogram for event display
d88f97cc 82 TObjArray* fVetos; // The array of associated (extrapolated) veto signals
1fbffa23 83 TObjArray* fAttributes; //! Matrix with module attributes (e.g. gain, offset etc...)
84 AliObjMatrix* fPositions; //! The matrix of module position pointers
d88f97cc 85
261c0caf 86 ClassDef(AliCalorimeter,8) // Description of a modular calorimeter system.
d88f97cc 87};
88#endif