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12ca5da1 | 1 | #ifndef ALITPCCLUSTERPARAM_H |
2 | #define ALITPCCLUSTERPARAM_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | /* $Id: AliTPCClusterParam.h,v */ | |
7 | ||
8 | //////////////////////////////////////////////////// | |
9 | // // | |
10 | // TPC cluster error and shape parameterization // | |
11 | // // | |
12 | //////////////////////////////////////////////////// | |
13 | ||
14 | ||
15 | #include <TObject.h> | |
798017c7 | 16 | #include <TVectorDfwd.h> |
17 | #include <TMatrixDfwd.h> | |
12ca5da1 | 18 | |
0a65832b | 19 | class TTree; |
20 | class TObjArray; | |
8a92e133 | 21 | class TH1; |
7d14c1c1 | 22 | class THnBase; |
12ca5da1 | 23 | //_____________________________________________________________________________ |
24 | class AliTPCClusterParam : public TObject { | |
25 | public: | |
26 | static AliTPCClusterParam* Instance(); | |
f1c2a4a3 | 27 | AliTPCClusterParam(); |
38caa778 | 28 | AliTPCClusterParam(const AliTPCClusterParam& param); |
798017c7 | 29 | AliTPCClusterParam & operator=(const AliTPCClusterParam& param); |
f1c2a4a3 | 30 | virtual ~AliTPCClusterParam(); |
12ca5da1 | 31 | virtual void Print(Option_t* option = "") const; |
798017c7 | 32 | void SetInstance(AliTPCClusterParam *const param){fgInstance = param;} |
dcf3a564 | 33 | // |
34 | // Seting functions | |
35 | // | |
12ca5da1 | 36 | void FitData(TTree * tree); |
dcf3a564 | 37 | void FitResol(TTree * tree); |
38 | void FitRMS(TTree * tree); | |
798017c7 | 39 | void SetQnorm(Int_t ipad, Int_t itype, const TVectorD *const norm); |
8a92e133 | 40 | void SetQnormCorr(Int_t ipad, Int_t itype, Int_t corrType, Float_t val); |
56b51ad9 | 41 | Double_t GetQnormCorr(Int_t ipad, Int_t itype, Int_t corrType) const; |
42 | TMatrixD *GetQnormCorrMatrix(){return fQNormCorr;}; | |
8a92e133 | 43 | void ResetQnormCorr(); |
7d14c1c1 | 44 | void SetWaveCorrectionMap( THnBase *WaveCorrectionMap); |
45 | void SetResolutionYMap( THnBase *ResolutionYMap); | |
11750d28 | 46 | // |
47 | // Charge parameterization | |
48 | // | |
dcf3a564 | 49 | Float_t Qnorm(Int_t ipad, Int_t itype, Float_t dr, Float_t ty, Float_t tz); |
8a92e133 | 50 | Float_t QnormHis(Int_t ipad, Int_t itype, Float_t dr, Float_t ty, Float_t tz); |
51 | ||
b17540e4 | 52 | |
53 | Float_t QnormPos(Int_t ipad, Bool_t isMax, Float_t pad, Float_t time, Float_t z, Float_t sy2, Float_t sz2, Float_t qm, Float_t qt); | |
2e5bcb67 | 54 | static Float_t SQnormPos(Int_t ipad, Bool_t isMax, Float_t pad, Float_t time, Float_t z, Float_t sy2, Float_t sz2, Float_t qm, Float_t qt){ return fgInstance->QnormPos(ipad,isMax,pad,time,z,sy2,sz2,qm,qt);;} |
55 | ||
56 | Float_t PosCorrection(Int_t type, Int_t ipad, Float_t pad, Float_t time, Float_t z, Float_t sy2, Float_t sz2, Float_t qm); | |
57 | static Float_t SPosCorrection(Int_t type, Int_t ipad, Float_t pad, Float_t time, Float_t z, Float_t sy2, Float_t sz2, Float_t qm){ return fgInstance->PosCorrection(type,ipad,pad,time,z,sy2,sz2,qm);} | |
dcf3a564 | 58 | // |
59 | // Error parameterization | |
60 | // | |
798017c7 | 61 | Float_t GetError0(Int_t dim, Int_t type, Float_t z, Float_t angle) const; |
62 | Float_t GetError0Par(Int_t dim, Int_t type, Float_t z, Float_t angle) const; | |
63 | Float_t GetError1(Int_t dim, Int_t type, Float_t z, Float_t angle) const; | |
64 | Float_t GetErrorQ(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean) const; | |
65 | Float_t GetErrorQPar(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean) const; | |
66 | Float_t GetErrorQParScaled(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean) const; | |
dcf3a564 | 67 | // |
68 | // Shape parameterization | |
69 | // | |
798017c7 | 70 | Float_t GetRMS0(Int_t dim, Int_t type, Float_t z, Float_t angle) const; |
71 | Float_t GetRMS1(Int_t dim, Int_t type, Float_t z, Float_t angle) const; | |
72 | Float_t GetRMSQ(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean) const; | |
73 | Float_t GetRMSSigma(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean) const; | |
74 | Float_t GetShapeFactor(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean, Float_t rmsL, Float_t rmsM) const; | |
7d14c1c1 | 75 | // |
76 | // Correction and resolution maps | |
77 | // | |
78 | const THnBase *GetWaveCorrectionMap() const { return fWaveCorrectionMap; } | |
79 | const THnBase *GetResolutionYMap() const { return fResolutionYMap; } | |
80 | Float_t GetWaveCorrection(Int_t Type, Float_t Z, Int_t QMax, Float_t Pad, Float_t angleY ) const; | |
fa3757e0 | 81 | static Float_t SGetWaveCorrection(Int_t Type, Float_t Z, Int_t QMax, Float_t Pad, Float_t angleY ){return (fgInstance) ? fgInstance->GetWaveCorrection(Type,Z,QMax,Pad,angleY):0;} |
dcf3a564 | 82 | // |
83 | // | |
84 | // | |
12ca5da1 | 85 | void Test(TTree * tree, const char *output="TestClusterParam.root"); |
86 | // | |
87 | // static methods equivalents - use instance of param object - useful for tree draw and TF2 visualization | |
88 | static Float_t SGetError0(Int_t dim, Int_t type, Float_t z, Float_t angle){ | |
89 | return fgInstance->GetError0(dim,type,z,angle); | |
90 | } | |
91 | static Float_t SGetError0Par(Int_t dim, Int_t type, Float_t z, Float_t angle){ | |
92 | return fgInstance->GetError0Par(dim,type,z,angle); | |
93 | } | |
94 | static Float_t SGetError1(Int_t dim, Int_t type, Float_t z, Float_t angle){ | |
95 | return fgInstance->GetError1(dim,type,z,angle); | |
96 | } | |
97 | static Float_t SGetErrorQ(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean){ | |
98 | return fgInstance->GetErrorQ(dim,type,z,angle,Qmean); | |
99 | } | |
100 | static Float_t SGetErrorQPar(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean){ | |
101 | return fgInstance->GetErrorQPar(dim,type,z,angle,Qmean); | |
102 | } | |
103 | static Float_t SGetErrorQParScaled(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean){ | |
104 | return fgInstance->GetErrorQParScaled(dim,type,z,angle,Qmean); | |
105 | } | |
106 | ||
107 | static Float_t SGetRMS0(Int_t dim, Int_t type, Float_t z, Float_t angle){ | |
108 | return fgInstance->GetRMS0(dim,type,z,angle); | |
109 | } | |
110 | static Float_t SGetRMS1(Int_t dim, Int_t type, Float_t z, Float_t angle){ | |
111 | return fgInstance->GetRMS1(dim,type,z,angle); | |
112 | } | |
113 | static Float_t SGetRMSQ(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean){ | |
114 | return fgInstance->GetRMSQ(dim,type,z,angle,Qmean); | |
115 | } | |
116 | static Float_t SGetRMSSigma(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean){ | |
117 | return fgInstance->GetRMSSigma(dim,type,z,angle,Qmean); | |
118 | } | |
119 | static Float_t SGetShapeFactor(Int_t dim, Int_t type, Float_t z, Float_t angle, Float_t Qmean, Float_t rmsL, Float_t rmsM){ | |
120 | return fgInstance->GetShapeFactor(dim,type,z,angle,Qmean, rmsL, rmsM); | |
121 | } | |
122 | // | |
123 | // | |
0a65832b | 124 | static Float_t SQnorm(Int_t ipad, Int_t itype,Float_t dr, Float_t ty, Float_t tz) {return fgInstance->Qnorm(ipad, itype, dr,ty,tz);} |
8a92e133 | 125 | static Float_t SQnormHis(Int_t ipad, Int_t itype,Float_t dr, Float_t ty, Float_t tz) {return fgInstance->QnormHis(ipad, itype, dr,ty,tz);} |
0a65832b | 126 | |
6194ddbd | 127 | // |
128 | // Analytical position angular correction | |
129 | // | |
130 | static Double_t GaussConvolution(Double_t x0, Double_t x1, Double_t k0, Double_t k1, Double_t s0, Double_t s1); | |
131 | static Double_t GaussConvolutionTail(Double_t x0, Double_t x1, Double_t k0, Double_t k1, Double_t s0, Double_t s1, Double_t tau); | |
132 | static Double_t GaussConvolutionGamma4(Double_t x0, Double_t x1, Double_t k0, Double_t k1, Double_t s0, Double_t s1, Double_t tau); | |
8a92e133 | 133 | static Double_t QmaxCorrection(Int_t sector, Int_t row, Float_t cpad, Float_t ctime, Float_t ky, Float_t kz, Float_t rmsy0, Float_t rmsz0, Float_t effLength=0, Float_t effDiff=1); |
134 | static Double_t QtotCorrection(Int_t sector, Int_t row, Float_t cpad, Float_t ctime, Float_t ky, Float_t kz, Float_t rmsy0, Float_t rmsz0, Float_t qtot, Float_t thr, Float_t effLength=0, Float_t effDiff=1); | |
6194ddbd | 135 | |
dcf3a564 | 136 | // |
137 | // | |
138 | // | |
12ca5da1 | 139 | void FitResol0(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); |
140 | void FitResol0Par(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
141 | void FitResol1(TTree * tree, Int_t dim, Float_t *param0, Float_t *error); | |
142 | void FitResolQ(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
143 | void FitResolQPar(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
144 | void FitRMS0(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
145 | void FitRMS1(TTree * tree, Int_t dim, Float_t *param0, Float_t *error); | |
146 | void FitRMSQ(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
147 | void FitRMSSigma(TTree * tree, Int_t dim, Int_t type, Float_t *param0, Float_t *error); | |
148 | // | |
798017c7 | 149 | TVectorD*& PosYcor(Int_t ind) {return fPosYcor[ind];} |
150 | TVectorD*& PosZcor(Int_t ind) {return fPosZcor[ind];} | |
151 | Float_t ParamS0Par(Int_t i, Int_t j, Int_t k) const {return fParamS0Par[i][j][k];} | |
152 | TVectorD* QpadTnorm() const {return fQpadTnorm;} | |
153 | TVectorD* QpadMnorm() const {return fQpadMnorm;} | |
0a65832b | 154 | |
798017c7 | 155 | protected: |
12ca5da1 | 156 | Float_t fRatio; //ratio of values constibution to error |
157 | Float_t fParamS0[2][3][4]; //error parameterization coeficients | |
158 | Float_t fErrorS0[2][3][4]; //error parameterization coeficients | |
159 | Float_t fParamS0Par[2][3][7]; //error parameterization coeficients | |
160 | Float_t fErrorS0Par[2][3][7]; //error parameterization coeficients | |
161 | Float_t fParamSQ[2][3][6]; //error parameterization coeficients | |
162 | Float_t fErrorSQ[2][3][6]; //error parameterization coeficients | |
163 | Float_t fParamSQPar[2][3][9]; //error parameterization coeficients | |
164 | Float_t fErrorSQPar[2][3][9]; //error parameterization coeficients | |
165 | Float_t fParamS1[2][4]; //error parameterization coeficients | |
166 | Float_t fErrorS1[2][4]; //error parameterization coeficients | |
167 | // | |
168 | Float_t fParamRMS0[2][3][4]; //shape parameterization coeficients | |
169 | Float_t fErrorRMS0[2][3][4]; //shape parameterization coeficients | |
170 | Float_t fParamRMSQ[2][3][6]; //shape parameterization coeficients | |
171 | Float_t fErrorRMSQ[2][3][6]; //shape parameterization coeficients | |
172 | Float_t fParamRMS1[2][5]; //shape parameterization coeficients | |
173 | Float_t fErrorRMS1[2][5]; //shape parameterization coeficients | |
174 | Float_t fErrorRMSSys[2]; // systematic relative error of the parametererization | |
175 | Float_t fRMSSigmaRatio[2][2]; // mean value of the varation of RMS to RMS | |
176 | Float_t fRMSSigmaFit[2][3][2]; // mean value of the varation of RMS to RMS | |
177 | // | |
b17540e4 | 178 | // charge normalization parametrization |
11750d28 | 179 | // |
b17540e4 | 180 | TObjArray *fQNorm; // q norm paramters |
8a92e133 | 181 | TMatrixD *fQNormCorr; // q norm correction for analytica correction |
182 | TObjArray *fQNormHis; // q norm correction for analytical correction | |
2e5bcb67 | 183 | // |
184 | TVectorD *fPosQTnorm[3]; // q position normalization | |
185 | TVectorD *fPosQMnorm[3]; // q position normalization | |
186 | TVectorD *fQpadTnorm; // q pad normalization - Total charge | |
187 | TVectorD *fQpadMnorm; // q pad normalization - Max charge | |
188 | // | |
189 | // Position corrections | |
190 | // | |
191 | TVectorD *fPosYcor[3]; // position correction parameterization | |
192 | TVectorD *fPosZcor[3]; // position correction parameterization | |
b17540e4 | 193 | // |
7d14c1c1 | 194 | // Wave Correction Map |
195 | // | |
196 | THnBase* fWaveCorrectionMap; //dY with respect to the distance to the center of the pad | |
197 | Bool_t fWaveCorrectionMirroredPad; // flag is the cog axis mirrored at 0.5 | |
198 | Bool_t fWaveCorrectionMirroredZ; // flag is the Z axis mirrored at 0 | |
199 | Bool_t fWaveCorrectionMirroredAngle; // flag is the Angle axis mirrored at 0 | |
200 | // | |
201 | // Resolution Map | |
202 | // | |
203 | THnBase* fResolutionYMap; // Map of resolution in Y | |
204 | // | |
12ca5da1 | 205 | static AliTPCClusterParam* fgInstance; //! Instance of this class (singleton implementation) |
7d14c1c1 | 206 | ClassDef(AliTPCClusterParam,7) // TPC Cluster parameter class |
12ca5da1 | 207 | }; |
208 | ||
209 | #endif |