[u/mrichter/AliRoot.git] / TRD / AliTRDtrigParam.h

#ifndef ALITRDTRIGPARAM_H
#define ALITRDTRIGPARAM_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

///////////////////////////////////////////////////////////////////////////////
//                                                                           //
//  TRD trigger parameters class                                             //
//                                                                           //
///////////////////////////////////////////////////////////////////////////////

#include <TNamed.h>

class AliTRDtrigParam : public TNamed {

 public:

  AliTRDtrigParam();
  AliTRDtrigParam(const Text_t* name, const Text_t* title);
  AliTRDtrigParam(const AliTRDtrigParam &p);   
  virtual         ~AliTRDtrigParam();
  AliTRDtrigParam &operator=(const AliTRDtrigParam &p); 

  virtual void     Copy(TObject &p) const;

          void     Init();

          Int_t    GetTime1() const                        { return fTime1;         };
          Int_t    GetTime2() const                        { return fTime2;         };
          Float_t  GetClusThr() const                      { return fClusThr;       };
          Float_t  GetPadThr() const                       { return fPadThr;        };
          Int_t    GetSum10() const                        { return fSum10;         };
          Int_t    GetSum12() const                        { return fSum12;         };
          Int_t    GetTailCancelation() const              { return fTCOn;          };
          Int_t    GetNexponential() const                 { return fTCnexp;        };
          Int_t    GetFilterType() const                   { return fFilterType;    };
          void     GetFilterParam(Float_t &r1, Float_t &r2, Float_t &c1, Float_t &c2, Float_t &ped) const 
                                                           { r1            = fR1; 
                                                             r2            = fR2; 
                                                             c1            = fC1; 
                                                             c2            = fC2; 
                                                             ped           = fPedestal; };
          Float_t  GetADCnoise() const                     { return fADCnoise;      };
          Int_t    GetDebugLevel() const                   { return fDebug;         };
          Float_t  GetDeltaY() const                       { return fDeltaY;        };
          Float_t  GetDeltaS() const                       { return fDeltaS;        }; 
          Float_t  GetXprojPlane() const                   { return fXprojPlane;    };
          Float_t  GetField() const                        { return fField;         };
          Float_t  GetLtuPtCut() const                     { return fLtuPtCut;      };
          Float_t  GetGtuPtCut() const                     { return fGtuPtCut;      };
          Float_t  GetHighPt() const                       { return fHighPt;        };
          Int_t    GetNPartJetLow() const                  { return fNPartJetLow;   };
          Int_t    GetNPartJetHigh() const                 { return fNPartJetHigh;  };
          Float_t  GetJetLowPt() const                     { return fJetLowPt;      };
          Float_t  GetJetHighPt() const                    { return fJetHighPt;     };

          void     SetTimeRange(Int_t time1, Int_t time2)  { fTime1        = time1; 
                                                             fTime2        = time2; };
          void     SetClusThr(Float_t clth)                { fClusThr      = clth;  };
          void     SetPadThr(Float_t path)                 { fPadThr       = path;  };
          void     SetSum10(Int_t sum)                     { fSum10        = sum;   };
          void     SetSum12(Int_t sum)                     { fSum12        = sum;   }; 
          void     SetTailCancelation(Int_t tcOn = 0)      { fTCOn         = tcOn;  };
          void     SetNexponential(Int_t nexp = 1)         { fTCnexp       = nexp;  };
          void     SetFilterType(Int_t ftype = 0)          { fFilterType   = ftype; };
          void     SetFilterParam(Float_t r1, Float_t r2, Float_t c1, Float_t c2, Float_t ped) 
                                                           { fR1           = r1; 
                                                             fR2           = r2; 
                                                             fC1           = c1; 
                                                             fC2           = c2; 
                                                             fPedestal     = ped;   };
          void     SetADCnoise(Float_t adcn)               { fADCnoise     = adcn;  };
          void     SetDebugLevel(Int_t deb)                { fDebug        = deb;   };
          void     SetDeltaY(Float_t dy)                   { fDeltaY       = dy;    };
          void     SetDeltaS(Float_t ds)                   { fDeltaS       = ds;    };
          void     SetField(Float_t b)                     { fField        = b;     };
          void     SetLtuPtCut(Float_t ptcut)              { fLtuPtCut     = ptcut; };
          void     SetGtuPtCut(Float_t ptcut)              { fGtuPtCut     = ptcut; };
          void     SetHighPt(Float_t hpt)                  { fHighPt       = hpt;   };
          void     SetNPartJetLow(Int_t npj)               { fNPartJetLow  = npj;   };
          void     SetNPartJetHigh(Int_t npj)              { fNPartJetHigh = npj;   };
          void     SetJetLowPt(Float_t thr)                { fJetLowPt     = thr;   };
          void     SetJetHighPt(Float_t thr)               { fJetHighPt    = thr;   };

 protected:

          Int_t    fDebug;                         // Debugging flag

          Int_t    fTime1;                         // First time bin for tracking (incl.)
          Int_t    fTime2;                         // Last  time bin for tracking (incl.)
          Float_t  fClusThr;                       // Cluster threshold
          Float_t  fPadThr;                        // Pad threshold
          Int_t    fSum10;                         // MCM CreateSeeds: Min_Thr_Left_Neighbour
          Int_t    fSum12;                         // MCM CreateSeeds: Min_Sum_From_Two_Neighbours
          Int_t    fTCOn;                          // Tail cancelation flag
          Int_t    fTCnexp;                        // Number of exp in filter
          Int_t    fFilterType;                    // Filter type (0=A - analog, 1=D - digital)

          // Filter parameters (1 = long, 2 = short component)
          Float_t  fR1;                            // Time constant [microseconds]
          Float_t  fR2;                            // Time constant [microseconds]
          Float_t  fC1;                            // Weight
          Float_t  fC2;                            // Weight
          Float_t  fPedestal;                      // ADC baseline
          Float_t  fADCnoise;                      // ADC noise (not contained in the digitizer)

          Float_t  fDeltaY;                        // Y (offset) matching window in the GTU
          Float_t  fDeltaS;                        // Slope matching window in the GTU

          Float_t  fXprojPlane;                    // Projection plane (X) for GTU matching

          Float_t  fLtuPtCut;                      // Local pt cut
          Float_t  fGtuPtCut;                      // Global pt cut

          Float_t  fField;                         // Magnetic field

          Float_t  fHighPt;                        // High pt selection

          Int_t    fNPartJetLow;                   // Number of tracks for jet (low)
          Int_t    fNPartJetHigh;                  // Number of tracks for jet (high)
          Float_t  fJetLowPt;                      // Low pt threshold for jet particles
          Float_t  fJetHighPt;                     // High pt threshold for jet particles

  ClassDef(AliTRDtrigParam,2)                      // TRD trigger parameter class

};

#endif
Commit	Line	Data
0ee00e25	1	#ifndef ALITRDTRIGPARAM_H
	2	#define ALITRDTRIGPARAM_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	///////////////////////////////////////////////////////////////////////////////
	7	// //
	8	// TRD trigger parameters class //
	9	// //
	10	///////////////////////////////////////////////////////////////////////////////
	11
	12	#include <TNamed.h>
	13
	14	class AliTRDtrigParam : public TNamed {
	15
	16	public:
	17
	18	AliTRDtrigParam();
	19	AliTRDtrigParam(const Text_t* name, const Text_t* title);
	20	AliTRDtrigParam(const AliTRDtrigParam &p);
6d50f529	21	virtual ~AliTRDtrigParam();
0ee00e25	22	AliTRDtrigParam &operator=(const AliTRDtrigParam &p);
0ee00e25	23
6d50f529	24	virtual void Copy(TObject &p) const;
c202a357	25
6d50f529	26	void Init();
	27
	28	Int_t GetTime1() const { return fTime1; };
	29	Int_t GetTime2() const { return fTime2; };
	30	Float_t GetClusThr() const { return fClusThr; };
	31	Float_t GetPadThr() const { return fPadThr; };
	32	Int_t GetSum10() const { return fSum10; };
	33	Int_t GetSum12() const { return fSum12; };
	34	Int_t GetTailCancelation() const { return fTCOn; };
	35	Int_t GetNexponential() const { return fTCnexp; };
	36	Int_t GetFilterType() const { return fFilterType; };
	37	void GetFilterParam(Float_t &r1, Float_t &r2, Float_t &c1, Float_t &c2, Float_t &ped) const
	38	{ r1 = fR1;
	39	r2 = fR2;
	40	c1 = fC1;
	41	c2 = fC2;
	42	ped = fPedestal; };
	43	Float_t GetADCnoise() const { return fADCnoise; };
	44	Int_t GetDebugLevel() const { return fDebug; };
	45	Float_t GetDeltaY() const { return fDeltaY; };
	46	Float_t GetDeltaS() const { return fDeltaS; };
	47	Float_t GetXprojPlane() const { return fXprojPlane; };
	48	Float_t GetField() const { return fField; };
	49	Float_t GetLtuPtCut() const { return fLtuPtCut; };
	50	Float_t GetGtuPtCut() const { return fGtuPtCut; };
	51	Float_t GetHighPt() const { return fHighPt; };
	52	Int_t GetNPartJetLow() const { return fNPartJetLow; };
	53	Int_t GetNPartJetHigh() const { return fNPartJetHigh; };
	54	Float_t GetJetLowPt() const { return fJetLowPt; };
	55	Float_t GetJetHighPt() const { return fJetHighPt; };
	56
	57	void SetTimeRange(Int_t time1, Int_t time2) { fTime1 = time1;
	58	fTime2 = time2; };
	59	void SetClusThr(Float_t clth) { fClusThr = clth; };
	60	void SetPadThr(Float_t path) { fPadThr = path; };
	61	void SetSum10(Int_t sum) { fSum10 = sum; };
	62	void SetSum12(Int_t sum) { fSum12 = sum; };
	63	void SetTailCancelation(Int_t tcOn = 0) { fTCOn = tcOn; };
	64	void SetNexponential(Int_t nexp = 1) { fTCnexp = nexp; };
	65	void SetFilterType(Int_t ftype = 0) { fFilterType = ftype; };
	66	void SetFilterParam(Float_t r1, Float_t r2, Float_t c1, Float_t c2, Float_t ped)
	67	{ fR1 = r1;
	68	fR2 = r2;
	69	fC1 = c1;
	70	fC2 = c2;
	71	fPedestal = ped; };
	72	void SetADCnoise(Float_t adcn) { fADCnoise = adcn; };
	73	void SetDebugLevel(Int_t deb) { fDebug = deb; };
	74	void SetDeltaY(Float_t dy) { fDeltaY = dy; };
	75	void SetDeltaS(Float_t ds) { fDeltaS = ds; };
	76	void SetField(Float_t b) { fField = b; };
	77	void SetLtuPtCut(Float_t ptcut) { fLtuPtCut = ptcut; };
	78	void SetGtuPtCut(Float_t ptcut) { fGtuPtCut = ptcut; };
	79	void SetHighPt(Float_t hpt) { fHighPt = hpt; };
	80	void SetNPartJetLow(Int_t npj) { fNPartJetLow = npj; };
	81	void SetNPartJetHigh(Int_t npj) { fNPartJetHigh = npj; };
	82	void SetJetLowPt(Float_t thr) { fJetLowPt = thr; };
	83	void SetJetHighPt(Float_t thr) { fJetHighPt = thr; };
c202a357	84
0ee00e25	85	protected:
0ee00e25	86
6d50f529	87	Int_t fDebug; // Debugging flag
0ee00e25	88
6d50f529	89	Int_t fTime1; // First time bin for tracking (incl.)
	90	Int_t fTime2; // Last time bin for tracking (incl.)
	91	Float_t fClusThr; // Cluster threshold
	92	Float_t fPadThr; // Pad threshold
	93	Int_t fSum10; // MCM CreateSeeds: Min_Thr_Left_Neighbour
	94	Int_t fSum12; // MCM CreateSeeds: Min_Sum_From_Two_Neighbours
	95	Int_t fTCOn; // Tail cancelation flag
	96	Int_t fTCnexp; // Number of exp in filter
	97	Int_t fFilterType; // Filter type (0=A - analog, 1=D - digital)
e3b2b5e5	98
6d50f529	99	// Filter parameters (1 = long, 2 = short component)
	100	Float_t fR1; // Time constant [microseconds]
	101	Float_t fR2; // Time constant [microseconds]
	102	Float_t fC1; // Weight
	103	Float_t fC2; // Weight
	104	Float_t fPedestal; // ADC baseline
	105	Float_t fADCnoise; // ADC noise (not contained in the digitizer)
0ee00e25	106
6d50f529	107	Float_t fDeltaY; // Y (offset) matching window in the GTU
6d50f529	108	Float_t fDeltaS; // Slope matching window in the GTU
0ee00e25	109
6d50f529	110	Float_t fXprojPlane; // Projection plane (X) for GTU matching
0ee00e25	111
6d50f529	112	Float_t fLtuPtCut; // Local pt cut
6d50f529	113	Float_t fGtuPtCut; // Global pt cut
0ee00e25	114
6d50f529	115	Float_t fField; // Magnetic field
0ee00e25	116
6d50f529	117	Float_t fHighPt; // High pt selection
e3b2b5e5	118
6d50f529	119	Int_t fNPartJetLow; // Number of tracks for jet (low)
	120	Int_t fNPartJetHigh; // Number of tracks for jet (high)
	121	Float_t fJetLowPt; // Low pt threshold for jet particles
	122	Float_t fJetHighPt; // High pt threshold for jet particles
c202a357	123
6d50f529	124	ClassDef(AliTRDtrigParam,2) // TRD trigger parameter class
0ee00e25	125
	126	};
	127
	128	#endif