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a6c02c85 | 1 | // @(#) $Id$ |
4aa41877 | 2 | // Original: AliHLTTransform.h,v 1.37 2005/06/14 10:55:21 cvetan |
a6c02c85 | 3 | |
297174de | 4 | //* This file is property of and copyright by the ALICE HLT Project * |
5 | //* ALICE Experiment at CERN, All rights reserved. * | |
6 | //* See cxx source for full Copyright notice * | |
7 | ||
a6c02c85 | 8 | #ifndef ALIHLTTPCTRANSFORM_H |
9 | #define ALIHLTTPCTRANSFORM_H | |
10 | ||
11 | #ifdef use_aliroot | |
12 | class AliRunLoader; | |
13 | #endif | |
14 | ||
15 | #include "AliHLTTPCRootTypes.h" | |
16 | ||
17 | class AliHLTTPCTransform { | |
18 | ||
19 | public: | |
600e6a1b | 20 | AliHLTTPCTransform(); |
a6c02c85 | 21 | enum VersionType { kVdefault=0, kVdeprecated=1, kValiroot=10, kVcosmics=100}; |
22 | ||
23 | private: | |
24 | static const Double_t fgkBFACT; //bfield | |
25 | static const Double_t fgkPi; //pi | |
26 | static const Double_t fgkPi2; //2pi | |
27 | static const Double_t fgk2Pi; //pi/2 | |
28 | static const Double_t fgkAnodeWireSpacing; //anode wire spacing | |
29 | static const Double_t fgkToDeg; //rad to deg | |
30 | ||
31 | static Int_t fgNPatches; //6 (dont change this) | |
32 | static Int_t fgRows[6][2]; //rows per patch | |
33 | static Int_t fgNRows[6]; //rows per patch | |
34 | ||
35 | static Double_t fgBField; //field | |
36 | static Double_t fgBFieldFactor; //field | |
37 | static Double_t fgSolenoidBField; //field | |
38 | static Int_t fgNTimeBins; //ntimebins | |
39 | static Int_t fgNRowLow; //nrows | |
40 | static Int_t fgNRowUp; //nrows | |
41 | static Int_t fgNRowUp1; //nrows | |
42 | static Int_t fgNRowUp2; //nrows | |
43 | static Int_t fgNSectorLow; //nsector | |
44 | static Int_t fgNSectorUp; //nsector | |
45 | static Int_t fgSlice2Sector[36][2]; //nslice | |
46 | static Int_t fgSector2Slice[72]; //nslice | |
47 | static Int_t fgSectorLow[72]; //nsector | |
48 | static Double_t fgPadPitchWidthLow; //pad pitch | |
49 | static Double_t fgPadPitchWidthUp; //pad pitch | |
50 | static Double_t fgZWidth; //width | |
51 | static Double_t fgZSigma; //sigma | |
52 | static Double_t fgZLength; //length | |
53 | static Double_t fgZOffset; //offset | |
54 | static Int_t fgNSector; //72 (dont change this) | |
55 | static Int_t fgNSlice; //36 (dont change this) | |
56 | static Int_t fgNRow; //159 (dont change this) | |
57 | static Double_t fgNRotShift; //Rotation shift (eg. 0.5 for 10 degrees) | |
58 | static Int_t fgNPads[159]; //fill this following Init and fVersion | |
59 | static Double_t fgX[159]; //X position in local coordinates | |
60 | static Int_t fgVersion; //flags the version | |
61 | static Double_t fgDiffT; //Transversal diffusion constant | |
62 | static Double_t fgDiffL; //Longitudinal diffusion constant | |
63 | static Double_t fgOmegaTau; //ExB effects | |
64 | static Double_t fgInnerPadLength; //innner pad length | |
65 | static Double_t fgOuter1PadLength; //outer pad length | |
66 | static Double_t fgOuter2PadLength; //outer pad length | |
67 | static Double_t fgInnerPRFSigma; //inner pad response function | |
68 | static Double_t fgOuter1PRFSigma; //outer pad response function | |
69 | static Double_t fgOuter2PRFSigma; //outer pad response function | |
70 | static Double_t fgTimeSigma; //Minimal longitudinal width | |
71 | static Int_t fgADCSat; //ADC Saturation (1024 = 10 bit) | |
72 | static Int_t fgZeroSup; //Zero suppression threshold | |
73 | static Double_t fgCos[36]; //stores the cos value for local to global rotations | |
74 | static Double_t fgSin[36]; //stores the sin value for local to global rotations | |
75 | ||
76 | public: | |
77 | virtual ~AliHLTTPCTransform() {} | |
a6c02c85 | 78 | |
79 | //setters | |
80 | static void SetNPatches(Int_t i){fgNPatches = i;} | |
81 | static void SetNRows(Int_t s[6]){for(Int_t i=0;i<fgNPatches;i++) fgNRows[i] = s[i];} | |
82 | static void SetRows(Int_t s[6][2]){ | |
83 | for(Int_t i=0;i<fgNPatches;i++){ | |
84 | fgRows[i][0] = s[i][0]; | |
85 | fgRows[i][1] = s[i][1]; | |
86 | } | |
87 | } | |
88 | static void SetBField(Double_t f) {fgBField = f;} //careful, these 3 are not independent! | |
89 | static void SetBFieldFactor(Double_t f) { | |
90 | fgBFieldFactor = f; | |
91 | fgBField=fgBFieldFactor*fgSolenoidBField*0.1; | |
92 | } | |
93 | static void SetSolenoidBField(Double_t f){ | |
94 | fgSolenoidBField = f; | |
95 | fgBField=fgBFieldFactor*fgSolenoidBField*0.1; | |
96 | } | |
42a3bb88 | 97 | static void SetNTimeBins(Int_t i){fgNTimeBins = i; if (fgNTimeBins>0) {fgZWidth = fgZLength / (Double_t)fgNTimeBins;}} |
a6c02c85 | 98 | static void SetNRowLow(Int_t i){fgNRowLow = i;} |
99 | static void SetNRowUp(Int_t i){fgNRowUp = i;} | |
100 | static void SetNRowUp1(Int_t i){fgNRowUp1 = i;} | |
101 | static void SetNRowUp2(Int_t i){fgNRowUp2 = i;} | |
102 | static void SetSlice2Sector(Int_t s[36][2]){ | |
103 | for(Int_t i=0;i<fgNSlice;i++){ | |
104 | fgSlice2Sector[i][0] = s[i][0]; | |
105 | fgSlice2Sector[i][1] = s[i][1]; | |
106 | } | |
107 | } | |
108 | static void SetSector2Slice(Int_t s[72]){ | |
109 | for(Int_t i=0;i<fgNSector;i++) fgSector2Slice[i] = s[i];} | |
110 | static void SetSectorLow(Int_t s[72]){ | |
111 | for(Int_t i=0;i<fgNSector;i++) fgSectorLow[i] = s[i];} | |
112 | static void SetNSectorLow(Int_t i){fgNSectorLow = i;} | |
113 | static void SetNSectorUp(Int_t i){fgNSectorUp = i;} | |
114 | static void SetPadPitchWidthLow(Double_t f){fgPadPitchWidthLow = f;} | |
115 | static void SetPadPitchWidthUp(Double_t f){fgPadPitchWidthUp = f;} | |
42a3bb88 | 116 | // Matthias 21.09.2007 |
117 | // zwidth is given by zlength and no of timebins and should not be set | |
118 | // otherwise. Was never used | |
119 | //static void SetZWidth(Double_t f){fgZWidth = f;} | |
a6c02c85 | 120 | static void SetZSigma(Double_t f){fgZSigma = f;} |
121 | static void SetZLength(Double_t f){fgZLength = f;} | |
122 | static void SetZOffset(Double_t f){fgZOffset = f;} | |
123 | static void SetNSector(Int_t i){fgNSector = i;} | |
124 | static void SetNSlice(Int_t i){fgNSlice = i;} | |
125 | static void SetNRow(Int_t i){fgNRow = i;} | |
126 | static void SetNRotShift(Double_t f){fgNRotShift = f;} | |
127 | static void SetNPads(Int_t pads[159]){ | |
128 | for(Int_t i=0;i<fgNRow;i++) fgNPads[i] = pads[i];} | |
129 | static void SetX(Double_t xs[159]){ | |
130 | for(Int_t i=0;i<fgNRow;i++) fgX[i] = xs[i];} | |
131 | static void SetVersion(Int_t i){fgVersion = i;} | |
132 | static void SetDiffT(Double_t f){fgDiffT = f;} | |
133 | static void SetDiffL(Double_t f){fgDiffL = f;} | |
134 | static void SetOmegaTau(Double_t f){fgOmegaTau = f;} | |
135 | static void SetInnerPadLength(Double_t f){fgInnerPadLength = f;} | |
136 | static void SetOuter1PadLength(Double_t f){fgOuter1PadLength = f;} | |
137 | static void SetOuter2PadLength(Double_t f){fgOuter2PadLength = f;} | |
138 | static void SetInnerPRFSigma(Double_t f){fgInnerPRFSigma = f;} | |
139 | static void SetOuter1PRFSigma(Double_t f){fgOuter1PRFSigma = f;} | |
140 | static void SetOuter2PRFSigma(Double_t f){fgOuter2PRFSigma = f;} | |
141 | static void SetTimeSigma(Double_t f){fgTimeSigma = f;} | |
142 | static void SetADCSat(Int_t i) {fgADCSat = i;} | |
143 | static void SetZeroSup(Int_t i) {fgZeroSup = i;} | |
144 | ||
145 | //getters | |
146 | static const Char_t* GetParamName() {return "75x40_100x60_150x60";} | |
147 | static Double_t Pi() {return fgkPi;} | |
148 | static Double_t PiHalf() {return fgkPi2;} | |
149 | static Double_t TwoPi() {return fgk2Pi;} | |
150 | static Double_t GetAnodeWireSpacing() {return fgkAnodeWireSpacing;} | |
151 | static Double_t GetBFact() {return fgkBFACT;} | |
152 | static Double_t ToRad() {return 1./fgkToDeg;} | |
153 | static Double_t ToDeg() {return fgkToDeg;} | |
154 | ||
84645eb0 | 155 | static Int_t GetNumberOfPatches(); |
a6c02c85 | 156 | static Int_t GetFirstRow(Int_t patch); |
157 | static Int_t GetLastRow(Int_t patch); | |
158 | static Int_t GetFirstRowOnDDL(Int_t patch); | |
159 | static Int_t GetLastRowOnDDL(Int_t patch); | |
160 | static Int_t GetNRows(Int_t patch); | |
161 | static Int_t GetPatch(Int_t padrow); | |
162 | static Int_t GetNRows() {return fgNRow;} | |
163 | static Int_t GetNRowLow() {return fgNRowLow;} | |
164 | static Int_t GetNRowUp1() {return fgNRowUp1;} | |
165 | static Int_t GetNRowUp2() {return fgNRowUp2;} | |
166 | static Int_t GetPadRow(Float_t x); | |
167 | static Int_t GetNPatches() {return fgNPatches;} | |
168 | static Int_t GetNPads(Int_t row); | |
169 | static Int_t GetNTimeBins(){return fgNTimeBins;} | |
170 | static Double_t GetBField() {return fgBField;} | |
171 | static Double_t GetSolenoidField() {return fgSolenoidBField;} | |
172 | static Double_t GetBFactFactor() {return fgBFieldFactor;} | |
173 | static Double_t GetBFieldValue() {return (fgBField*fgkBFACT);} | |
174 | static Float_t Deg2Rad(Float_t angle) {return angle/fgkToDeg;} | |
175 | static Float_t Rad2Deg(Float_t angle) {return angle*fgkToDeg;} | |
176 | static Int_t GetVersion(){return fgVersion;} | |
177 | static Double_t GetPadPitchWidthLow() {return fgPadPitchWidthLow;} | |
178 | static Double_t GetPadPitchWidthUp() {return fgPadPitchWidthUp;} | |
179 | static Double_t GetPadPitchWidth(Int_t patch); | |
180 | static Double_t GetZWidth() {return fgZWidth;} | |
181 | static Double_t GetZLength() {return fgZLength;} | |
182 | static Double_t GetZOffset() {return fgZOffset;} | |
183 | static Double_t GetDiffT() {return fgDiffT;} | |
184 | static Double_t GetDiffL() {return fgDiffL;} | |
185 | static Double_t GetParSigmaY2(Int_t padrow,Float_t z,Float_t angle); | |
186 | static Double_t GetParSigmaZ2(Int_t padrow,Float_t z,Float_t tgl); | |
187 | static Double_t GetOmegaTau() {return fgOmegaTau;} | |
188 | static Double_t GetPadLength(Int_t padrow); | |
189 | static Double_t GetPRFSigma(Int_t padrow); | |
190 | static Double_t GetTimeSigma() {return fgTimeSigma;} | |
191 | static Double_t GetZSigma() {return fgZSigma;} | |
192 | static Int_t GetADCSat() {return fgADCSat;} | |
193 | static Int_t GetZeroSup() {return fgZeroSup;} | |
194 | static Int_t GetNSlice() {return fgNSlice;} | |
195 | static Int_t GetNSector() {return fgNSector;} | |
196 | static Int_t GetNSectorLow() {return fgNSectorLow;} | |
197 | static Int_t GetNSectorUp() {return fgNSectorUp;} | |
198 | ||
199 | static Bool_t Slice2Sector(Int_t slice, Int_t slicerow, Int_t §or, Int_t &row); | |
200 | static Bool_t Sector2Slice(Int_t &slice, Int_t sector); | |
201 | static Bool_t Sector2Slice(Int_t &slice, Int_t &slicerow, Int_t sector, Int_t row); | |
202 | ||
203 | static Double_t Row2X(Int_t slicerow); | |
204 | static Double_t GetMaxY(Int_t slicerow); | |
205 | static Double_t GetEta(Float_t *xyz); | |
206 | static Double_t GetEta(Int_t slice,Int_t padrow, Int_t pad, Int_t time); | |
207 | static Double_t GetPhi(Float_t *xyz); | |
208 | static Double_t GetZFast(Int_t slice, Int_t time, Float_t vertex=0.); | |
209 | ||
210 | static void XYZtoRPhiEta(Float_t *rpe, Float_t *xyz); | |
211 | static void Local2Global(Float_t *xyz, Int_t slice); | |
212 | static void Local2GlobalAngle(Float_t *angle, Int_t slice); | |
213 | static void Global2LocalAngle(Float_t *angle, Int_t slice); | |
214 | ||
215 | //we have 3 different system: Raw : row, pad, time | |
216 | // Local : x,y and global z | |
217 | // Global: global x,y and global z | |
218 | //the methods with HLT in the name differ from the other | |
219 | //as you specify slice and slicerow, instead of sector | |
220 | //and sector row. In that way we safe "a few ifs" | |
221 | static void Raw2Local(Float_t *xyz, Int_t sector, Int_t row, Float_t pad, Float_t time); | |
222 | static void RawHLT2Local(Float_t *xyz,Int_t slice,Int_t slicerow,Float_t pad,Float_t time); | |
223 | static void Raw2Local(Float_t *xyz, Int_t sector, Int_t row, Int_t pad, Int_t time); | |
224 | static void RawHLT2Local(Float_t *xyz,Int_t slice,Int_t slicerow,Int_t pad,Int_t time); | |
225 | static void Local2Global(Float_t *xyz, Int_t sector, Int_t row); | |
226 | static void LocHLT2Global(Float_t *xyz, Int_t slice, Int_t slicerow); | |
227 | static void Global2Local(Float_t *xyz, Int_t sector); | |
228 | static void Global2LocHLT(Float_t *xyz, Int_t slice); | |
229 | static void Raw2Global(Float_t *xyz, Int_t sector, Int_t row, Float_t pad, Float_t time); | |
738c049f | 230 | static void RawHLT2Global(Float_t *xyz, Int_t slice, Int_t slicerow, Float_t pad, Float_t time); |
a6c02c85 | 231 | static void Raw2Global(Float_t *xyz, Int_t sector, Int_t row, Int_t pad, Int_t time); |
232 | static void RawHLT2Global(Float_t *xyz, Int_t slice, | |
233 | Int_t slicerow, Int_t pad, Int_t time); | |
234 | static void Local2Raw(Float_t *xyz, Int_t sector, Int_t row); | |
235 | static void LocHLT2Raw(Float_t *xyz, Int_t slice, Int_t slicerow); | |
236 | static void Global2Raw(Float_t *xyz, Int_t sector, Int_t row); | |
237 | static void Global2HLT(Float_t *xyz, Int_t slice, Int_t slicerow); | |
238 | ||
239 | static void PrintCompileOptions(); | |
240 | ||
22240104 | 241 | ClassDef(AliHLTTPCTransform,0) |
a6c02c85 | 242 | }; |
243 | #endif |