Added deletions of AliPID object to avoid meamory leak
[u/mrichter/AliRoot.git] / TRD / AliTRDfeeParam.h
CommitLineData
022e76c3 1#ifndef ALITRDFEEPARAM_H
2#define ALITRDFEEPARAM_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
bf397f30 6/* $Id$ */
022e76c3 7
acc49af9 8////////////////////////////////////////////////////////////////////////////
9// //
10// TRD front end electronics parameters class //
11// Contains all FEE (MCM, TRAP, PASA) related //
12// parameters, constants, and mapping. //
13// //
14// Author: //
15// Ken Oyama (oyama@physi.uni-heidelberg.de) //
16// //
17////////////////////////////////////////////////////////////////////////////
022e76c3 18
19#include <TObject.h>
20
ba84a3e3 21class TRootIoCtor;
22
022e76c3 23class AliTRDCommonParam;
24class AliTRDpadPlane;
25class AliTRDgeometry;
26
27//_____________________________________________________________________________
28class AliTRDfeeParam : public TObject
29{
30
31 public:
32
ba84a3e3 33 AliTRDfeeParam(TRootIoCtor *);
022e76c3 34 AliTRDfeeParam(const AliTRDfeeParam &p);
35 virtual ~AliTRDfeeParam();
36 AliTRDfeeParam &operator=(const AliTRDfeeParam &p);
37 virtual void Copy(TObject &p) const;
38
39 static AliTRDfeeParam *Instance(); // Singleton
40 static void Terminate();
41
42 // Translation from MCM to Pad and vice versa
43 virtual Int_t GetPadRowFromMCM(Int_t irob, Int_t imcm) const;
44 virtual Int_t GetPadColFromADC(Int_t irob, Int_t imcm, Int_t iadc) const;
860f3a82 45 virtual Int_t GetExtendedPadColFromADC(Int_t irob, Int_t imcm, Int_t iadc) const;
022e76c3 46 virtual Int_t GetMCMfromPad(Int_t irow, Int_t icol) const;
1785640c 47 virtual Int_t GetMCMfromSharedPad(Int_t irow, Int_t icol) const;
022e76c3 48 virtual Int_t GetROBfromPad(Int_t irow, Int_t icol) const;
1785640c 49 virtual Int_t GetROBfromSharedPad(Int_t irow, Int_t icol) const;
022e76c3 50 virtual Int_t GetRobSide(Int_t irob) const;
51 virtual Int_t GetColSide(Int_t icol) const;
52
53 static Float_t GetSamplingFrequency() { return (Float_t)fgkLHCfrequency / 4000000.0; }
acc49af9 54 static Int_t GetNmcmRob() { return fgkNmcmRob; }
022e76c3 55 static Int_t GetNmcmRobInRow() { return fgkNmcmRobInRow; }
56 static Int_t GetNmcmRobInCol() { return fgkNmcmRobInCol; }
acc49af9 57 static Int_t GetNrobC0() { return fgkNrobC0; }
58 static Int_t GetNrobC1() { return fgkNrobC1; }
59 static Int_t GetNadcMcm() { return fgkNadcMcm; }
60 // static Int_t GetNtimebin() { return fgkNtimebin; }
61 static Int_t GetNcol() { return fgkNcol; }
62 static Int_t GetNcolMcm() { return fgkNcolMcm; }
63 static Int_t GetNrowC0() { return fgkNrowC0; }
64 static Int_t GetNrowC1() { return fgkNrowC1; }
65
66 // static Int_t GetADCpedestal() { return fgkADCpedestal; }
67 // static Int_t GetADCnoise() { return fgkADCnoise; }
68 static Int_t GetADCDAC() { return fgkADCDAC; }
69
70 static Bool_t IsPFon() { return fgkPFon; }
71 static Bool_t IsGFon() { return fgkGFon; }
72 static Bool_t IsTFon() { return fgkTFon; }
73
74 static Int_t GetPFtimeConstant() { return fgkPFtimeConstant; }
75 static Int_t GetPFeffectPedestal() { return fgkPFeffectPedestal; }
dfd03fc3 76
1d93b218 77 //new
78 static Int_t GetQacc0Start() { return fgkPREPqAcc0Start; }
79 static Int_t GetQacc0End() { return fgkPREPqAcc0End; }
80 static Int_t GetQacc1Start() { return fgkPREPqAcc1Start; }
81 static Int_t GetQacc1End() { return fgkPREPqAcc1End; }
82 Float_t GetMinClusterCharge() const { return fgkMinClusterCharge; }
83 static Int_t GetLinearFitStart() { return fgkPREPLinearFitStart; }
84 static Int_t GetLinearFitEnd() { return fgkPREPLinearFitEnd; }
85
ecf39416 86 // Float_t GetClusThr() { return fClusThr; };
022e76c3 87 // Float_t GetPadThr() const { return fPadThr; };
88 // Int_t GetTailCancelation() const { return fTCOn; };
89 // Int_t GetNexponential() const { return fTCnexp; };
90 //virtual void GetFilterParam(Float_t &r1, Float_t &r2, Float_t &c1, Float_t &c2, Float_t &ped) const;
91 // Int_t GetFilterType() const { return fFilterType; };
92
acc49af9 93 static Int_t GetTFtype() { return fgkTFtype; }
f2979d08 94 //static Int_t GetTFnExp() { return fgkTFnExp; }
7cb613c0 95 Int_t GetTFnExp() const { return fTFnExp; }
acc49af9 96 Float_t GetTFr1() const { return fTFr1; }
97 Float_t GetTFr2() const { return fTFr2; }
98 Float_t GetTFc1() const { return fTFc1; }
99 Float_t GetTFc2() const { return fTFc2; }
dfd03fc3 100
1d93b218 101 // for tracklets
837e440c 102 Bool_t GetTracklet() const { return fgTracklet; }
103 static void SetTracklet(Bool_t trackletSim = kTRUE) { fgTracklet = trackletSim; }
1d93b218 104 Int_t GetMaxNrOfTracklets() const { return fgkMaxNrOfTracklets; }
1785640c 105 Bool_t GetMCTrackletOutput() const { return fgkMCTrackletOutput; }
1d93b218 106
acc49af9 107 static Float_t GetTFattPar() { return ((Float_t) fgkTFattPar1) / ((Float_t) fgkTFattPar2); }
108 Float_t GetTFf0() const { return 1.0 + fgkTFon*(-1.0+GetTFattPar()); } // 1 if TC off
2ec0bacc 109
110 void SetEBsglIndThr(Int_t val);
acc49af9 111 Int_t GetEBsglIndThr() const { return fEBsglIndThr; }
2ec0bacc 112
113 void SetEBsumIndThr(Int_t val);
acc49af9 114 Int_t GetEBsumIndThr() const { return fEBsumIndThr; }
2ec0bacc 115
116 void SetEBindLUT(Int_t val);
acc49af9 117 Int_t GetEBindLUT() const { return fEBindLUT; }
2ec0bacc 118
119 void SetEBignoreNeighbour(Int_t val);
acc49af9 120 Int_t GetEBignoreNeighbour() const { return fEBignoreNeighbour; }
dfd03fc3 121
ecf39416 122 // Concerning raw data format
acc49af9 123 Int_t GetRAWversion() const { return fRAWversion; }
ecf39416 124 void SetRAWversion( Int_t rawver );
acc49af9 125 Bool_t GetRAWstoreRaw() const { return fRAWstoreRaw; }
126 void SetRAWstoreRaw( Bool_t storeraw ) { fRAWstoreRaw = storeraw; }
022e76c3 127
f2979d08 128 void SetXenon();
129 void SetArgon();
130
022e76c3 131 protected:
132
acc49af9 133 static AliTRDfeeParam *fgInstance; // Singleton instance
134 static Bool_t fgTerminated; // Defines if this class has already been terminated
022e76c3 135
acc49af9 136 AliTRDCommonParam *fCP; // TRD common parameters class
022e76c3 137
138 // Remark: ISO C++ allows initialization of static const values only for integer.
139
140 // Basic Geometrical numbers
141 static const Int_t fgkLHCfrequency = 40079000 ; // [Hz] LHC clock (should be moved to STEER?)
142 static const Int_t fgkNmcmRob = 16; // Number of MCMs per ROB (old fgkMCMmax)
143 static const Int_t fgkNmcmRobInRow = 4; // Number of MCMs per ROB in row dir. (old fgkMCMrow)
144 static const Int_t fgkNmcmRobInCol = 4; // Number of MCMs per ROB in col dir. (old fgkMCMrow)
145 static const Int_t fgkNrobC0 = 6; // Number of ROBs per C0 chamber (old fgkROBmaxC0)
146 static const Int_t fgkNrobC1 = 8; // Number of ROBs per C1 chamber (old fgkROBmaxC1)
147 static const Int_t fgkNadcMcm = 21; // Number of ADC channels per MCM (old fgkADCmax)
ecf39416 148 // static const Int_t fgkNtimebin = 24; // Number of Time bins should come from calibDB
022e76c3 149 static const Int_t fgkNcol = 144; // Number of pads per padplane row(old fgkColmax)
150 static const Int_t fgkNcolMcm = 18; // Number of pads per MCM (old fgkPadmax)
151 static const Int_t fgkNrowC0 = 12; // Number of Rows per C0 chamber (old fgkRowmaxC0)
152 static const Int_t fgkNrowC1 = 16; // Number of Rows per C1 chamber (old fgkRowmaxC1)
153
154 // ADC intrinsic parameters
022e76c3 155 static const Int_t fgkADCDAC = 0; // 5 bit ADC gain parameter
156
157 // TRAP filter global setup
158 static const Bool_t fgkPFon = kTRUE; // Pedestal Filter enable/disable flag.
159 static const Bool_t fgkGFon = kFALSE; // Gain correction Filter enable/disable flag
160 static const Bool_t fgkTFon = kTRUE; // Tail cancelation Filter enable/disable flag (old name fTCOn)
161
162 // PF setup
acc49af9 163 static const Int_t fgkPFtimeConstant = 0; // 0 for fastest, 3 for slowest (no effect, probably)
164 static const Int_t fgkPFeffectPedestal = 10; // [in ADC units] the desired baseline (Additive)
022e76c3 165
166 // GF setup
acc49af9 167 static const Int_t fgkGFnoise = 0; // Noise level increased by gain filter x 100 [in ADC] (to be measured)
022e76c3 168
169 // TF setup
1d93b218 170 static const Int_t fgkTFtype = 1; // TC type (0=analog, 1=digital, 2=MI, 3=close to electronics) (old name fFilterType)
dfd03fc3 171
172 // OLD TF setup (calculated from above) (valid only for fgkTFsimType = 0 or 1)
f2979d08 173 //static const Int_t fgkTFnExp = 1; // Number of exponential for simType 0 and 1
96e6312d 174 Int_t fTFnExp; // Number of exponential for simType 0 and 1
dfd03fc3 175
1d93b218 176 // Tracklet processing on/off
837e440c 177 static Bool_t fgTracklet; // tracklet processing
1d93b218 178
7cb613c0 179 static const Int_t fgkMaxNrOfTracklets = 4; // Max. nr of tracklet words for one mcm
1d93b218 180
7cb613c0 181 // additional tracklet folder structure output,
182 // containing all necessary Monte Carlo information; maybe this should go somewhere else;
183 static const Bool_t fgkMCTrackletOutput = kTRUE; // Default should be kTRUE
96e6312d 184
dfd03fc3 185 // following need Instance because initialized in constructor
acc49af9 186 Float_t fTFr1; // Time constant [us] long (old name fR1)
187 Float_t fTFr2; // Time constant [us] short(old name fR2)
188 Float_t fTFc1; // Weight long (old name fC1)
189 Float_t fTFc2; // Weight short (old name fC2)
dfd03fc3 190
191 // here is for TRAP simulation (not yet used)
acc49af9 192 static const Int_t fgkTFdecayWeightL = 270; // 0 to 1024 corresponds to 0 to 0.5
193 static const Int_t fgkTFdecayParL = 348; // 0 to 511 corresponds to 0.75 to 1
194 static const Int_t fgkTFdecayParS = 449; // 0 to 511 correponds to 0.25 to 0.5
195 static const Int_t fgkTFattPar1 = 45; // attenuationParameter = fgkTFattenuationParameter1/fgkTFattenuationParameter2
196 static const Int_t fgkTFattPar2 = 14; // = -alphaL/ln(lambdaL)-(1-alphaL)/ln(lambdaS)
dfd03fc3 197
198 // ZS parameters
acc49af9 199 Int_t fEBsglIndThr; // EBIS in ADC units
200 Int_t fEBsumIndThr; // EBIT in ADC units
201 Int_t fEBindLUT; // EBIL lookup table
202 Int_t fEBignoreNeighbour; // EBIN 0:include neighbor
022e76c3 203
204 // Charge accumulators
1d93b218 205 static const Int_t fgkPREPqAcc0Start = 5; // Preprocessor Charge Accumulator 0 Start
acc49af9 206 static const Int_t fgkPREPqAcc0End = 10; // Preprocessor Charge Accumulator 0 End
207 static const Int_t fgkPREPqAcc1Start = 11; // Preprocessor Charge Accumulator 1 Start
208 static const Int_t fgkPREPqAcc1End = 20; // Preprocessor Charge Accumulator 1 End
209 static const Int_t fgkMinClusterCharge = 20; // Hit detection [in ADC units]
022e76c3 210
1d93b218 211 //new
7cb613c0 212 static const Int_t fgkPREPLinearFitStart = 5; // Time constants for linear fit
213 static const Int_t fgkPREPLinearFitEnd = 20; // Time constants for linear fit
1d93b218 214
022e76c3 215 // OLD TRAP processing parameters calculated from above
acc49af9 216 //static const Float_t fClusThr; // Cluster threshold
217 //static const Float_t fPadThr; // Pad threshold
022e76c3 218
219 // For raw production
acc49af9 220 Int_t fRAWversion; // Raw data production version
221 static const Int_t fgkMaxRAWversion = 3; // Maximum raw version number supported
222 Bool_t fRAWstoreRaw; // Store unfiltered data for raw data stream
022e76c3 223
224 private:
225
226 AliTRDfeeParam();
227
f2979d08 228 ClassDef(AliTRDfeeParam,3) // The TRD front end electronics parameter
022e76c3 229
acc49af9 230};
022e76c3 231#endif
1785640c 232