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1ee39b3a | 1 | #ifndef ALITRDCLUSTERRESOLUTION_H |
2 | #define ALITRDCLUSTERRESOLUTION_H | |
3 | ||
4 | /////////////////////////////////////////////////////////////////////////////// | |
5 | // // | |
6 | // TRD cluster error parameterization | |
7 | // Authors: // | |
8 | // Alexandru Bercuci <A.Bercuci@gsi.de> // | |
9 | //////////////////////////////////////////////////////////////////////////// | |
10 | ||
11 | #ifndef ALITRDRECOTASK_H | |
12 | #include "AliTRDrecoTask.h" | |
13 | #endif | |
64d57299 | 14 | #ifndef ALILOG_H |
e3147647 | 15 | #include "AliLog.h" |
64d57299 | 16 | #endif |
1ee39b3a | 17 | |
18 | class TCanvas; | |
19 | class TObjArray; | |
1ee39b3a | 20 | class AliTRDclusterResolution : public AliTRDrecoTask |
21 | { | |
22 | public: | |
23 | enum EAxisBinning { // bins in z and x direction | |
56f313bd | 24 | kND = 1 |
1ee39b3a | 25 | }; |
26 | enum EResultContainer { // results container type | |
ebc01dc0 | 27 | kYSys = 0 // cluster2center pad calibration |
28 | ,kYRes = 1 // resolution on charge dependence | |
1ee39b3a | 29 | ,kSigm = 2 // sigma cluster as func of x and z |
30 | ,kMean = 3 // shift cluster as func of x and z | |
56f313bd | 31 | ,kNtasks = 4 // total number of subtasks |
1ee39b3a | 32 | }; |
56f313bd | 33 | enum ECalibrationParam { // calibration parameters to be used from OCDB |
34 | kVdrift = 0 | |
35 | ,kT0 = 1 | |
36 | ,kGain = 2 | |
37 | }; | |
38 | enum ECheckBits { | |
5468a262 | 39 | kSaveAs = BIT(21) // save intermediary results |
40 | ,kCalibrated = BIT(22) // load calibration | |
41 | ,kGlobal = BIT(23) // load global position | |
1ee39b3a | 42 | }; |
f8f46e4d | 43 | AliTRDclusterResolution(); |
705f8b0a | 44 | AliTRDclusterResolution(const char *name); |
1ee39b3a | 45 | virtual ~AliTRDclusterResolution(); |
46 | ||
f8f46e4d | 47 | void UserCreateOutputObjects(); |
48 | void UserExec(Option_t *); | |
1ee39b3a | 49 | Int_t GetDetector() const { return fDet; } |
801d4d50 | 50 | void GetPad(Int_t &c, Int_t &r) const { c=fCol, r=fRow; return;} |
bce4b27e | 51 | inline void GetDiffCoeff(Float_t &dt, Float_t &dl) const; |
1ee39b3a | 52 | inline Float_t GetExB() const; |
53 | inline Float_t GetVdrift() const; | |
801d4d50 | 54 | inline Float_t GetT0() const; |
e3147647 | 55 | inline Float_t GetGain() const; |
563d1b38 | 56 | Float_t GetDyRange() const {return fDyRange;} |
1ee39b3a | 57 | Bool_t GetRefFigure(Int_t ifig); |
56f313bd | 58 | Bool_t HasProcess(EResultContainer bit) const {return TESTBIT(fSubTaskMap, bit);} |
e3147647 | 59 | Bool_t IsCalibrated() const { return TestBit(kCalibrated);} |
5468a262 | 60 | Bool_t HasGlobalPosition() const { return TestBit(kGlobal);} |
56f313bd | 61 | Bool_t IsUsingCalibParam(ECalibrationParam par) const {return TESTBIT(fUseCalib, par);} |
1ee39b3a | 62 | |
63 | TObjArray* Histos(); | |
64 | TObjArray* Results() const {return fResults;}; | |
65 | ||
66 | Bool_t IsVisual() const {return Bool_t(fCanvas);} | |
67 | Bool_t IsSaveAs() const {return TestBit(kSaveAs);} | |
68 | ||
5468a262 | 69 | Bool_t LoadCalibration(); |
70 | Bool_t LoadGlobalChamberPosition(); | |
1ee39b3a | 71 | Bool_t PostProcess(); |
801d4d50 | 72 | void SetCalibrationRegion(Int_t det, Int_t col=-1, Int_t row=-1); |
1ee39b3a | 73 | void SetVisual(); |
563d1b38 | 74 | void SetDyRange(Float_t dy) {if(dy>0) fDyRange = dy;} |
56f313bd | 75 | void SetProcess(EResultContainer bit, Bool_t v = kTRUE) {v ? SETBIT(fSubTaskMap, bit) : CLRBIT(fSubTaskMap, bit);} |
1ee39b3a | 76 | void SetSaveAs(Bool_t v = kTRUE) {SetBit(kSaveAs, v);} |
56f313bd | 77 | void SetUseCalibParam(ECalibrationParam par, Bool_t v = kTRUE) {v ? SETBIT(fUseCalib, par) : CLRBIT(fUseCalib, par);} |
5935a6da | 78 | inline void ResetProcesses(); |
1ee39b3a | 79 | |
80 | protected: | |
81 | void ProcessCharge(); | |
5468a262 | 82 | void ProcessNormalTracks(); |
1ee39b3a | 83 | void ProcessSigma(); |
84 | void ProcessMean(); | |
85 | ||
86 | private: | |
87 | AliTRDclusterResolution(const AliTRDclusterResolution&); | |
88 | AliTRDclusterResolution& operator=(const AliTRDclusterResolution&); | |
89 | ||
90 | TCanvas *fCanvas; //! visualization canvas | |
91 | TObjArray *fInfo; //! list of cluster info | |
5935a6da | 92 | TObjArray *fResults;// list of result graphs/histos/trees |
56f313bd | 93 | UChar_t fSubTaskMap; // steer map for subtasks |
94 | UChar_t fUseCalib; // steer map for calibration params | |
1ee39b3a | 95 | Short_t fDet; // detector (-1 for all) |
801d4d50 | 96 | Char_t fCol; // pad column (-1 for all) |
97 | Char_t fRow; // pad row (-1 for all) | |
1ee39b3a | 98 | Float_t fExB; // tg of the Lorentz angle |
bce4b27e | 99 | Float_t fDt; // diffusion coeff. transversal |
100 | Float_t fDl; // diffusion coeff. longitudinal | |
1ee39b3a | 101 | Float_t fVdrift; // mean drift velocity |
5935a6da | 102 | Float_t fT0; // time 0 |
e3147647 | 103 | Float_t fGain; // gain |
5468a262 | 104 | Float_t fXch; // anode wire position for chamber |
105 | Float_t fZch; // Z position for calibration element | |
106 | Float_t fH; // tg of tilting angle | |
1ee39b3a | 107 | static const Float_t fgkTimeBinLength;// time bin length (invers of sampling frequency) |
108 | ||
109 | // working named variables | |
563d1b38 | 110 | Float_t fDyRange; // min/max dy |
5935a6da | 111 | UChar_t fLy; // TRD plane |
112 | Float_t fT; // calibrated time | |
113 | Float_t fX; // local drift length | |
114 | Float_t fY; // local rphi offset | |
115 | Float_t fZ; // local anode wire offset | |
116 | Float_t fR[4]; // mean/sgm resolution | |
117 | Float_t fP[4]; // mean/sgm pulls | |
1ee39b3a | 118 | |
bce4b27e | 119 | ClassDef(AliTRDclusterResolution, 6) // cluster resolution |
1ee39b3a | 120 | }; |
121 | ||
bce4b27e | 122 | //___________________________________________________ |
123 | inline void AliTRDclusterResolution::GetDiffCoeff(Float_t &dt, Float_t &dl) const | |
124 | { | |
125 | if(!IsCalibrated()) AliWarning("Instance not calibrated."); | |
126 | dt=fDt; dl=fDl; | |
127 | return; | |
128 | } | |
129 | ||
130 | ||
1ee39b3a | 131 | //___________________________________________________ |
132 | inline Float_t AliTRDclusterResolution::GetExB() const | |
133 | { | |
e3147647 | 134 | if(!IsCalibrated()) AliWarning("Instance not calibrated."); |
1ee39b3a | 135 | return fExB; |
136 | } | |
137 | ||
138 | //___________________________________________________ | |
139 | inline Float_t AliTRDclusterResolution::GetVdrift() const | |
140 | { | |
e3147647 | 141 | if(!IsCalibrated()) AliWarning("Instance not calibrated."); |
1ee39b3a | 142 | return fVdrift; |
143 | } | |
144 | ||
801d4d50 | 145 | //___________________________________________________ |
146 | inline Float_t AliTRDclusterResolution::GetT0() const | |
e3147647 | 147 | { |
148 | if(!IsCalibrated()) AliWarning("Instance not calibrated."); | |
801d4d50 | 149 | return fT0; |
150 | } | |
151 | ||
e3147647 | 152 | //___________________________________________________ |
153 | inline Float_t AliTRDclusterResolution::GetGain() const | |
154 | { | |
155 | if(!IsCalibrated()) AliWarning("Instance not calibrated."); | |
156 | return fGain; | |
157 | } | |
158 | ||
1ee39b3a | 159 | //___________________________________________________ |
5935a6da | 160 | inline void AliTRDclusterResolution::ResetProcesses() |
1ee39b3a | 161 | { |
ebc01dc0 | 162 | CLRBIT(fSubTaskMap, kYRes); |
163 | CLRBIT(fSubTaskMap, kYSys); | |
56f313bd | 164 | CLRBIT(fSubTaskMap, kSigm); |
165 | CLRBIT(fSubTaskMap, kMean); | |
1ee39b3a | 166 | } |
167 | ||
168 | #endif | |
169 |