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7d5d0cc5 | 1 | #ifndef ALIMUONRECOPARAM_H |
2 | #define ALIMUONRECOPARAM_H | |
3304fa09 | 3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
bf4d93eb | 6 | // $Id$ |
7 | ||
3304fa09 | 8 | /// \ingroup rec |
9 | /// \class AliMUONRecoParam | |
10 | /// \brief Class with MUON reconstruction parameters | |
11 | /// | |
12 | // Author: Philippe Pillot | |
13 | ||
15d30ed4 | 14 | #include "AliDetectorRecoParam.h" |
3304fa09 | 15 | #include "TString.h" |
35be7ed7 | 16 | #include <TMath.h> |
3304fa09 | 17 | |
15d30ed4 | 18 | class AliMUONRecoParam : public AliDetectorRecoParam |
3304fa09 | 19 | { |
20 | public: | |
21 | AliMUONRecoParam(); | |
22 | virtual ~AliMUONRecoParam(); | |
23 | ||
24 | static AliMUONRecoParam *GetLowFluxParam(); | |
25 | static AliMUONRecoParam *GetHighFluxParam(); | |
0e894e58 | 26 | static AliMUONRecoParam *GetCosmicParam(); |
c6e702f8 | 27 | static AliMUONRecoParam *GetCalibrationParam(); |
3304fa09 | 28 | |
9bf6860b | 29 | /// set the calibration mode (see GetCalibrationMode() for possible modes) |
7332f213 | 30 | void SetCalibrationMode(Option_t* mode) { fCalibrationMode = mode; fCalibrationMode.ToUpper();} |
35be7ed7 | 31 | |
9bf6860b | 32 | Option_t* GetCalibrationMode() const; |
35be7ed7 | 33 | |
3304fa09 | 34 | /// set the clustering (pre-clustering) mode |
7332f213 | 35 | void SetClusteringMode(Option_t* mode) {fClusteringMode = mode; fClusteringMode.ToUpper();} |
3304fa09 | 36 | /// get the clustering (pre-clustering) mode |
37 | Option_t* GetClusteringMode() const {return fClusteringMode.Data();} | |
38 | ||
39 | /// set the tracking mode | |
7332f213 | 40 | void SetTrackingMode(Option_t* mode) {fTrackingMode = mode; fTrackingMode.ToUpper();} |
3304fa09 | 41 | /// get the tracking mode |
42 | Option_t* GetTrackingMode() const {return fTrackingMode.Data();} | |
43 | ||
38bcf0ef | 44 | /// switch on/off the combined cluster/track reconstruction |
45 | void CombineClusterTrackReco(Bool_t flag) {fCombinedClusterTrackReco = flag;} | |
46 | /// return kTRUE/kFALSE if the combined cluster/track reconstruction is on/off | |
47 | Bool_t CombineClusterTrackReco() const {return fCombinedClusterTrackReco;} | |
48 | ||
0a18ba02 | 49 | /// save all cluster info (including pads) in ESD, for the given percentage of events |
50 | void SaveFullClusterInESD(Bool_t flag, Double_t percentOfEvent = 100.) {fSaveFullClusterInESD = flag; | |
51 | fPercentOfFullClusterInESD = (fSaveFullClusterInESD) ? percentOfEvent : 0.;} | |
52 | /// return kTRUE/kFALSE depending on whether we save all cluster info in ESD or not | |
53 | Bool_t SaveFullClusterInESD() const {return fSaveFullClusterInESD;} | |
54 | /// return the percentage of events for which all cluster info are stored in ESD | |
55 | Double_t GetPercentOfFullClusterInESD() const {return fPercentOfFullClusterInESD;} | |
56 | ||
3304fa09 | 57 | /// set the minimum value (GeV/c) of momentum in bending plane |
58 | void SetMinBendingMomentum(Double_t val) {fMinBendingMomentum = val;} | |
59 | /// return the minimum value (GeV/c) of momentum in bending plane | |
60 | Double_t GetMinBendingMomentum() const {return fMinBendingMomentum;} | |
61 | /// set the maximum value (GeV/c) of momentum in bending plane | |
62 | void SetMaxBendingMomentum(Double_t val) {fMaxBendingMomentum = val;} | |
63 | /// return the maximum value (GeV/c) of momentum in bending plane | |
64 | Double_t GetMaxBendingMomentum() const {return fMaxBendingMomentum;} | |
6b191dea | 65 | |
9bf6860b | 66 | /// set the maximum value of the non bending slope |
67 | void SetMaxNonBendingSlope(Double_t val) {fMaxNonBendingSlope = val;} | |
68 | /// return the maximum value of the non bending slope | |
69 | Double_t GetMaxNonBendingSlope() const {return fMaxNonBendingSlope;} | |
9f093251 | 70 | /// set the maximum value of the bending slope |
71 | void SetMaxBendingSlope(Double_t val) {fMaxBendingSlope = val;} | |
72 | /// return the maximum value of the bending slope | |
73 | Double_t GetMaxBendingSlope() const {return fMaxBendingSlope;} | |
3304fa09 | 74 | |
6b191dea | 75 | /// switch on/off the track selection according to their slope (instead of their impact parameter) |
76 | void SelectOnTrackSlope(Bool_t flag) {fSelectTrackOnSlope = flag;} | |
77 | /// return kTRUE/kFALSE if tracks are selected according to their slope/impact parameter | |
78 | Bool_t SelectOnTrackSlope() const {return fSelectTrackOnSlope;} | |
79 | ||
3304fa09 | 80 | /// set the vertex dispersion (cm) in non bending plane (used for original tracking only) |
81 | void SetNonBendingVertexDispersion(Double_t val) {fNonBendingVertexDispersion = val;} | |
b1fea02e | 82 | /// return the vertex dispersion (cm) in non bending plane (used for original tracking only) |
3304fa09 | 83 | Double_t GetNonBendingVertexDispersion() const {return fNonBendingVertexDispersion;} |
b1fea02e | 84 | /// set the vertex dispersion (cm) in bending plane (used for original tracking only) |
3304fa09 | 85 | void SetBendingVertexDispersion(Double_t val) {fBendingVertexDispersion = val;} |
86 | /// return the vertex dispersion (cm) in bending plane (used for original tracking only) | |
87 | Double_t GetBendingVertexDispersion() const {return fBendingVertexDispersion;} | |
88 | ||
89 | /// set the maximum distance to the track to search for compatible cluster(s) in non bending direction | |
90 | void SetMaxNonBendingDistanceToTrack(Double_t val) {fMaxNonBendingDistanceToTrack = val;} | |
91 | /// return the maximum distance to the track to search for compatible cluster(s) in non bending direction | |
92 | Double_t GetMaxNonBendingDistanceToTrack() const {return fMaxNonBendingDistanceToTrack;} | |
93 | /// set the maximum distance to the track to search for compatible cluster(s) in bending direction | |
94 | void SetMaxBendingDistanceToTrack(Double_t val) {fMaxBendingDistanceToTrack = val;} | |
95 | /// return the maximum distance to the track to search for compatible cluster(s) in bending direction | |
96 | Double_t GetMaxBendingDistanceToTrack() const {return fMaxBendingDistanceToTrack;} | |
97 | ||
98 | /// set the cut in sigma to apply on cluster (local chi2) and track (global chi2) during tracking | |
99 | void SetSigmaCutForTracking(Double_t val) {fSigmaCutForTracking = val;} | |
100 | /// return the cut in sigma to apply on cluster (local chi2) and track (global chi2) during tracking | |
101 | Double_t GetSigmaCutForTracking() const {return fSigmaCutForTracking;} | |
102 | ||
103 | /// switch on/off the track improvement and keep the default cut in sigma to apply on cluster (local chi2) | |
104 | void ImproveTracks(Bool_t flag) {fImproveTracks = flag;} | |
105 | /// switch on/off the track improvement and set the cut in sigma to apply on cluster (local chi2) | |
106 | void ImproveTracks(Bool_t flag, Double_t sigmaCut) {fImproveTracks = flag; fSigmaCutForImprovement = sigmaCut;} | |
107 | /// return kTRUE/kFALSE if the track improvement is switch on/off | |
108 | Bool_t ImproveTracks() const {return fImproveTracks;} | |
109 | /// return the cut in sigma to apply on cluster (local chi2) during track improvement | |
110 | Double_t GetSigmaCutForImprovement() const {return fSigmaCutForImprovement;} | |
35be7ed7 | 111 | |
fda59e58 | 112 | /// set the cut in sigma to apply on track during trigger hit pattern search |
113 | void SetSigmaCutForTrigger(Double_t val) {fSigmaCutForTrigger = val;} | |
114 | /// return the cut in sigma to apply on track during trigger hit pattern search | |
115 | Double_t GetSigmaCutForTrigger() const {return fSigmaCutForTrigger;} | |
b5270f21 | 116 | /// set the cut in strips to apply on trigger track during trigger chamber efficiency |
117 | void SetStripCutForTrigger(Double_t val) {fStripCutForTrigger = val;} | |
118 | /// return the cut in strips to apply on trigger track during trigger chamber efficiency | |
119 | Double_t GetStripCutForTrigger() const {return fStripCutForTrigger;} | |
120 | /// set the maximum search area in strips to apply on trigger track during trigger chamber efficiency | |
121 | void SetMaxStripAreaForTrigger(Double_t val) {fMaxStripAreaForTrigger = val;} | |
122 | /// return the maximum search area in strips to apply on trigger track during trigger chamber efficiency | |
123 | Double_t GetMaxStripAreaForTrigger() const {return fMaxStripAreaForTrigger;} | |
3304fa09 | 124 | |
125 | /// set the maximum normalized chi2 of tracking/trigger track matching | |
126 | void SetMaxNormChi2MatchTrigger(Double_t val) {fMaxNormChi2MatchTrigger = val;} | |
127 | /// return the maximum normalized chi2 of tracking/trigger track matching | |
128 | Double_t GetMaxNormChi2MatchTrigger() const {return fMaxNormChi2MatchTrigger;} | |
129 | ||
130 | /// switch on/off the tracking of all the possible candidates (track only the best one if switched off) | |
131 | void TrackAllTracks(Bool_t flag) {fTrackAllTracks = flag;} | |
38bcf0ef | 132 | /// return kTRUE/kFALSE if the tracking of all the possible candidates is switched on/off |
3304fa09 | 133 | Bool_t TrackAllTracks() const {return fTrackAllTracks;} |
134 | ||
135 | /// switch on/off the recovering of tracks being lost during reconstruction | |
136 | void RecoverTracks(Bool_t flag) {fRecoverTracks = flag;} | |
38bcf0ef | 137 | /// return kTRUE/kFALSE if the recovering of tracks being lost during reconstruction is switched on/off |
3304fa09 | 138 | Bool_t RecoverTracks() const {return fRecoverTracks;} |
139 | ||
140 | /// switch on/off the fast building of track candidates (assuming linear propagation between stations 4 and 5) | |
141 | void MakeTrackCandidatesFast(Bool_t flag) {fMakeTrackCandidatesFast = flag;} | |
38bcf0ef | 142 | /// return kTRUE/kFALSE if the fast building of track candidates is switched on/off |
3304fa09 | 143 | Bool_t MakeTrackCandidatesFast() const {return fMakeTrackCandidatesFast;} |
144 | ||
9bf6860b | 145 | /// switch on/off the building of track candidates starting from 1 cluster in each of the stations 4 and 5 |
146 | void MakeMoreTrackCandidates(Bool_t flag) {fMakeMoreTrackCandidates = flag;} | |
147 | /// return kTRUE/kFALSE if the building of extra track candidates is switched on/off | |
148 | Bool_t MakeMoreTrackCandidates() const {return fMakeMoreTrackCandidates;} | |
149 | ||
3304fa09 | 150 | /// switch on/off the completion of reconstructed track |
151 | void ComplementTracks(Bool_t flag) {fComplementTracks = flag;} | |
38bcf0ef | 152 | /// return kTRUE/kFALSE if completion of the reconstructed track is switched on/off |
3304fa09 | 153 | Bool_t ComplementTracks() const {return fComplementTracks;} |
154 | ||
c59f70b9 | 155 | /// remove tracks sharing cluster in stations 1 or 2 |
156 | void RemoveConnectedTracksInSt12(Bool_t flag) {fRemoveConnectedTracksInSt12 = flag;} | |
157 | /// return kTRUE/kFALSE whether tracks sharing cluster in station 1 and 2 must be removed or not | |
158 | Bool_t RemoveConnectedTracksInSt12() const {return fRemoveConnectedTracksInSt12;} | |
159 | ||
3304fa09 | 160 | /// switch on/off the use of the smoother |
161 | void UseSmoother(Bool_t flag) {fUseSmoother = flag;} | |
38bcf0ef | 162 | /// return kTRUE/kFALSE if the use of the smoother is switched on/off |
3304fa09 | 163 | Bool_t UseSmoother() const {return fUseSmoother;} |
164 | ||
9bf6860b | 165 | /// switch on/off a chamber in the reconstruction |
166 | void UseChamber(Int_t iCh, Bool_t flag) {if (iCh >= 0 && iCh < 10) fUseChamber[iCh] = flag;} | |
167 | /// return kTRUE/kFALSE whether the chamber must be used or not | |
168 | Bool_t UseChamber(Int_t iCh) const {return (iCh >= 0 && iCh < 10) ? fUseChamber[iCh] : kFALSE;} | |
169 | ||
170 | /// request or not at least one cluster in the station to validate the track | |
171 | void RequestStation(Int_t iSt, Bool_t flag) {if (iSt >= 0 && iSt < 5) fRequestStation[iSt] = flag;} | |
172 | /// return kTRUE/kFALSE whether at least one cluster is requested in the station to validate the track | |
173 | Bool_t RequestStation(Int_t iSt) const {return (iSt >= 0 && iSt < 5) ? fRequestStation[iSt] : kFALSE;} | |
9bdbee64 | 174 | /// return an integer where first 5 bits are set to 1 if the corresponding station is requested |
175 | UInt_t RequestedStationMask() const; | |
9bf6860b | 176 | |
6cac085d | 177 | /// set the bypassSt45 value |
35be7ed7 | 178 | void BypassSt45(Bool_t st4, Bool_t st5); |
179 | ||
9bf6860b | 180 | /// return kTRUE if we should replace clusters in St 4 and 5 by generated clusters from trigger tracks |
004a9ccd | 181 | Bool_t BypassSt45() const { return fBypassSt45==45; } |
9bf6860b | 182 | |
35be7ed7 | 183 | /// return kTRUE if we should replace clusters in St 4 by generated clusters from trigger tracks |
004a9ccd | 184 | Bool_t BypassSt4() const { return BypassSt45() || fBypassSt45==4 ; } |
35be7ed7 | 185 | |
186 | /// return kTRUE if we should replace clusters in St 5 by generated clusters from trigger tracks | |
004a9ccd | 187 | Bool_t BypassSt5() const { return BypassSt45() || fBypassSt45==5 ; } |
188 | ||
35be7ed7 | 189 | /// Set Low and High threshold for St12 HV |
190 | void SetHVSt12Limits(float low, float high) { fHVSt12Limits[0]=low; fHVSt12Limits[1]=high; } | |
191 | /// Retrieve low limit for St12's HV | |
192 | Float_t HVSt12LowLimit() const { return fHVSt12Limits[0]; } | |
193 | /// Retrieve high limit for St12's HV | |
194 | Float_t HVSt12HighLimit() const { return fHVSt12Limits[1]; } | |
195 | ||
004a9ccd | 196 | /// Set Low and High threshold for St345 HV |
35be7ed7 | 197 | void SetHVSt345Limits(float low, float high) { fHVSt345Limits[0]=low; fHVSt345Limits[1]=high; } |
198 | /// Retrieve low limit for St345's HV | |
199 | Float_t HVSt345LowLimit() const { return fHVSt345Limits[0]; } | |
200 | /// Retrieve high limit for St345's HV | |
201 | Float_t HVSt345HighLimit() const { return fHVSt345Limits[1]; } | |
202 | ||
004a9ccd | 203 | /// Set Low and High threshold for pedestal mean |
35be7ed7 | 204 | void SetPedMeanLimits(float low, float high) { fPedMeanLimits[0]=low; fPedMeanLimits[1]=high; } |
205 | /// Retrieve low limit of ped mean | |
206 | Float_t PedMeanLowLimit() const { return fPedMeanLimits[0]; } | |
207 | /// Retrieve high limit of ped mean | |
208 | Float_t PedMeanHighLimit() const { return fPedMeanLimits[1]; } | |
209 | ||
004a9ccd | 210 | /// Set Low and High threshold for pedestal sigma |
35be7ed7 | 211 | void SetPedSigmaLimits(float low, float high) { fPedSigmaLimits[0]=low; fPedSigmaLimits[1]=high; } |
212 | /// Retrieve low limit of ped sigma | |
213 | Float_t PedSigmaLowLimit() const { return fPedSigmaLimits[0]; } | |
214 | /// Retrieve high limit of ped sigma | |
215 | Float_t PedSigmaHighLimit() const { return fPedSigmaLimits[1]; } | |
216 | ||
217 | /// Set Low and High threshold for gain a0 term | |
218 | void SetGainA1Limits(float low, float high) { fGainA1Limits[0]=low; fGainA1Limits[1]=high; } | |
219 | /// Retrieve low limit of a1 (linear term) gain parameter | |
220 | Float_t GainA1LowLimit() const { return fGainA1Limits[0]; } | |
221 | /// Retrieve high limit of a1 (linear term) gain parameter | |
222 | Float_t GainA1HighLimit() const { return fGainA1Limits[1]; } | |
223 | ||
224 | /// Set Low and High threshold for gain a1 term | |
225 | void SetGainA2Limits(float low, float high) { fGainA2Limits[0]=low; fGainA2Limits[1]=high; } | |
226 | /// Retrieve low limit of a2 (quadratic term) gain parameter | |
227 | Float_t GainA2LowLimit() const { return fGainA2Limits[0]; } | |
228 | /// Retrieve high limit of a2 (quadratic term) gain parameter | |
229 | Float_t GainA2HighLimit() const { return fGainA2Limits[1]; } | |
230 | ||
231 | /// Set Low and High threshold for gain threshold term | |
232 | void SetGainThresLimits(float low, float high) { fGainThresLimits[0]=low; fGainThresLimits[1]=high; } | |
233 | /// Retrieve low limit on threshold gain parameter | |
234 | Float_t GainThresLowLimit() const { return fGainThresLimits[0]; } | |
235 | /// Retrieve high limit on threshold gain parameter | |
236 | Float_t GainThresHighLimit() const { return fGainThresLimits[1]; } | |
237 | ||
238 | /// Set the goodness mask (see AliMUONPadStatusMapMaker) | |
239 | void SetPadGoodnessMask(UInt_t mask) { fPadGoodnessMask=mask; } | |
240 | /// Get the goodness mask | |
241 | UInt_t PadGoodnessMask() const { return fPadGoodnessMask; } | |
3304fa09 | 242 | |
170f4046 | 243 | /// Number of sigma cut we must apply when cutting on adc-ped |
244 | Double_t ChargeSigmaCut() const { return fChargeSigmaCut; } | |
35be7ed7 | 245 | |
170f4046 | 246 | /// Number of sigma cut we must apply when cutting on adc-ped |
247 | void ChargeSigmaCut(Double_t value) { fChargeSigmaCut=value; } | |
35be7ed7 | 248 | |
249 | /// Set the default non bending resolution of chamber iCh | |
250 | void SetDefaultNonBendingReso(Int_t iCh, Double_t val) {if (iCh >= 0 && iCh < 10) fDefaultNonBendingReso[iCh] = val;} | |
251 | /// Get the default non bending resolution of chamber iCh | |
252 | Double_t GetDefaultNonBendingReso(Int_t iCh) const {return (iCh >= 0 && iCh < 10) ? fDefaultNonBendingReso[iCh] : FLT_MAX;} | |
253 | /// Set the default bending resolution of chamber iCh | |
254 | void SetDefaultBendingReso(Int_t iCh, Double_t val) {if (iCh >= 0 && iCh < 10) fDefaultBendingReso[iCh] = val;} | |
255 | /// Get the default bending resolution of chamber iCh | |
256 | Double_t GetDefaultBendingReso(Int_t iCh) const {return (iCh >= 0 && iCh < 10) ? fDefaultBendingReso[iCh] : FLT_MAX;} | |
257 | ||
89c8d66d | 258 | /// Set the maximum number of trigger tracks above which the tracking is cancelled |
259 | void SetMaxTriggerTracks(Int_t maxTriggerTracks) {fMaxTriggerTracks = maxTriggerTracks;} | |
260 | /// Get the maximum number of trigger tracks above which the tracking is cancelled | |
261 | Int_t GetMaxTriggerTracks() const {return fMaxTriggerTracks;} | |
262 | ||
263 | /// Set the maximum number of track candidates above which the tracking abort | |
264 | void SetMaxTrackCandidates(Int_t maxTrackCandidates) {fMaxTrackCandidates = maxTrackCandidates;} | |
265 | /// Get the maximum number of track candidates above which the tracking abort | |
266 | Int_t GetMaxTrackCandidates() const {return fMaxTrackCandidates;} | |
267 | ||
7eafe398 | 268 | /// Set the limits for the acceptable manu occupancy |
269 | void SetManuOccupancyLimits(float low, float high) { fManuOccupancyLimits[0]=low; fManuOccupancyLimits[1]=high; } | |
270 | /// Retrieve low value of manu occupancy limit | |
271 | Float_t ManuOccupancyLowLimit() const { return fManuOccupancyLimits[0]; } | |
272 | /// Retrieve high value of manu occupancy limit | |
273 | Float_t ManuOccupancyHighLimit() const { return fManuOccupancyLimits[1]; } | |
274 | ||
275 | /// Set the limits for the acceptable bp occupancy | |
276 | void SetBuspatchOccupancyLimits(float low, float high) { fBuspatchOccupancyLimits[0]=low; fBuspatchOccupancyLimits[1]=high; } | |
277 | /// Retrieve low value of bp occupancy limit | |
278 | Float_t BuspatchOccupancyLowLimit() const { return fBuspatchOccupancyLimits[0]; } | |
279 | /// Retrieve high value of bp occupancy limit | |
280 | Float_t BuspatchOccupancyHighLimit() const { return fBuspatchOccupancyLimits[1]; } | |
281 | ||
282 | /// Set the limits for the acceptable DE occupancy | |
283 | void SetDEOccupancyLimits(float low, float high) { fDEOccupancyLimits[0]=low; fDEOccupancyLimits[1]=high; } | |
284 | /// Retrieve low value of DE occupancy limit | |
285 | Float_t DEOccupancyLowLimit() const { return fDEOccupancyLimits[0]; } | |
286 | /// Retrieve high value of DE occupancy limit | |
287 | Float_t DEOccupancyHighLimit() const { return fDEOccupancyLimits[1]; } | |
35be7ed7 | 288 | |
7eafe398 | 289 | virtual void Print(Option_t *option = "") const; |
35be7ed7 | 290 | |
291 | private: | |
292 | ||
293 | void SetDefaultLimits(); | |
294 | ||
3304fa09 | 295 | private: |
296 | ||
297 | /// clustering mode: NOCLUSTERING, PRECLUSTER, PRECLUSTERV2, PRECLUSTERV3, COG, <pre> | |
298 | /// SIMPLEFIT, SIMPLEFITV3, MLEM:DRAW, MLEM, MLEMV2, MLEMV3 </pre> | |
299 | TString fClusteringMode; ///< \brief name of the clustering (+ pre-clustering) mode | |
300 | ||
301 | /// tracking mode: ORIGINAL, KALMAN | |
302 | TString fTrackingMode; ///< \brief name of the tracking mode | |
303 | ||
304 | Double32_t fMinBendingMomentum; ///< minimum value (GeV/c) of momentum in bending plane | |
305 | Double32_t fMaxBendingMomentum; ///< maximum value (GeV/c) of momentum in bending plane | |
9bf6860b | 306 | Double32_t fMaxNonBendingSlope; ///< maximum value of the non bending slope |
9f093251 | 307 | Double32_t fMaxBendingSlope; ///< maximum value of the bending slope (used only if B = 0) |
3304fa09 | 308 | |
309 | Double32_t fNonBendingVertexDispersion; ///< vertex dispersion (cm) in non bending plane (used for original tracking only) | |
310 | Double32_t fBendingVertexDispersion; ///< vertex dispersion (cm) in bending plane (used for original tracking only) | |
311 | ||
312 | Double32_t fMaxNonBendingDistanceToTrack; ///< maximum distance to the track to search for compatible cluster(s) in non bending direction | |
313 | Double32_t fMaxBendingDistanceToTrack; ///< maximum distance to the track to search for compatible cluster(s) in bending direction | |
314 | ||
315 | Double32_t fSigmaCutForTracking; ///< cut in sigma to apply on cluster (local chi2) and track (global chi2) during tracking | |
fda59e58 | 316 | |
3304fa09 | 317 | Double32_t fSigmaCutForImprovement; ///< cut in sigma to apply on cluster (local chi2) during track improvement |
318 | ||
fda59e58 | 319 | Double32_t fSigmaCutForTrigger; ///< cut in sigma to apply on track during trigger hit pattern search |
b5270f21 | 320 | |
321 | Double32_t fStripCutForTrigger; ///< cut in strips to apply on trigger track during trigger chamber efficiency | |
322 | ||
323 | Double32_t fMaxStripAreaForTrigger; ///< max. search area in strips to apply on trigger track during trigger chamber efficiency | |
fda59e58 | 324 | |
3304fa09 | 325 | Double32_t fMaxNormChi2MatchTrigger; ///< maximum normalized chi2 of tracking/trigger track matching |
326 | ||
0a18ba02 | 327 | Double32_t fPercentOfFullClusterInESD; ///< percentage of events for which all cluster info are stored in ESD |
328 | ||
38bcf0ef | 329 | Bool_t fCombinedClusterTrackReco; ///< switch on/off the combined cluster/track reconstruction |
330 | ||
3304fa09 | 331 | Bool_t fTrackAllTracks; ///< kTRUE to track all the possible candidates; kFALSE to track only the best ones |
332 | ||
333 | Bool_t fRecoverTracks; ///< kTRUE to try to recover the tracks getting lost during reconstruction | |
334 | ||
335 | Bool_t fMakeTrackCandidatesFast; ///< kTRUE to make candidate tracks assuming linear propagation between stations 4 and 5 | |
336 | ||
9bf6860b | 337 | Bool_t fMakeMoreTrackCandidates; ///< kTRUE to make candidate tracks starting from 1 cluster in each of the stations 4 and 5 |
338 | ||
3304fa09 | 339 | Bool_t fComplementTracks; ///< kTRUE to try to complete the reconstructed tracks by adding missing clusters |
340 | ||
341 | Bool_t fImproveTracks; ///< kTRUE to try to improve the reconstructed tracks by removing bad clusters | |
342 | ||
343 | Bool_t fUseSmoother; ///< kTRUE to use the smoother to compute track parameters/covariances and local chi2 at each cluster (used for Kalman tracking only) | |
344 | ||
0a18ba02 | 345 | Bool_t fSaveFullClusterInESD; ///< kTRUE to save all cluster info (including pads) in ESD |
3304fa09 | 346 | |
66cdf5b3 | 347 | /// calibration mode: GAIN, NOGAIN, GAINCONSTANTCAPA, INJECTIONGAIN |
35be7ed7 | 348 | TString fCalibrationMode; ///<\brief calibration mode |
de98fdc9 | 349 | |
35be7ed7 | 350 | Int_t fBypassSt45; ///< non-zero to use trigger tracks to generate "fake" clusters in St 4 and 5. Can be 0, 4, 5 or 45 only |
9bf6860b | 351 | |
352 | Bool_t fUseChamber[10]; ///< kTRUE to use the chamber i in the tracking algorithm | |
353 | ||
354 | Bool_t fRequestStation[5]; ///< kTRUE to request at least one cluster in station i to validate the track | |
355 | ||
35be7ed7 | 356 | Double32_t fGainA1Limits[2]; ///< Low and High threshold for gain a0 parameter |
113ad708 | 357 | Double32_t fGainA2Limits[2]; ///< Low and High threshold for gain a1 parameter |
358 | Double32_t fGainThresLimits[2]; ///< Low and High threshold for gain threshold parameter | |
359 | Double32_t fHVSt12Limits[2]; ///< Low and High threshold for St12 HV | |
360 | Double32_t fHVSt345Limits[2]; ///< Low and High threshold for St345 HV | |
361 | Double32_t fPedMeanLimits[2]; ///< Low and High threshold for pedestal mean | |
362 | Double32_t fPedSigmaLimits[2]; ///< Low and High threshold for pedestal sigma | |
35be7ed7 | 363 | |
364 | UInt_t fPadGoodnessMask; ///< goodness mask (see AliMUONPadStatusMaker) | |
365 | ||
366 | Double32_t fChargeSigmaCut; ///< number of sigma to cut on adc-ped | |
367 | ||
368 | Double32_t fDefaultNonBendingReso[10]; ///< default chamber resolution in the non-bending direction | |
369 | Double32_t fDefaultBendingReso[10]; ///< default chamber resolution in the bending direction | |
170f4046 | 370 | |
c59f70b9 | 371 | Bool_t fRemoveConnectedTracksInSt12; ///< kTRUE to remove tracks sharing cluster in station 1 and 2 |
372 | ||
89c8d66d | 373 | Int_t fMaxTriggerTracks; ///< maximum number of trigger tracks above which the tracking is cancelled |
374 | Int_t fMaxTrackCandidates; ///< maximum number of track candidates above which the tracking abort | |
375 | ||
6b191dea | 376 | Bool_t fSelectTrackOnSlope; ///< select track candidates according to their slope (instead of their impact parameter) |
377 | ||
7eafe398 | 378 | Double32_t fManuOccupancyLimits[2]; ///< low and high thresholds for manu occupancy cut |
379 | Double32_t fBuspatchOccupancyLimits[2]; ///< low and high thresholds for bus patch occupancy cut | |
380 | Double32_t fDEOccupancyLimits[2]; ///< low and high thresholds for DE occupancy cut | |
381 | ||
3304fa09 | 382 | // functions |
383 | void SetLowFluxParam(); | |
384 | void SetHighFluxParam(); | |
0e894e58 | 385 | void SetCosmicParam(); |
c6e702f8 | 386 | void SetCalibrationParam(); |
35be7ed7 | 387 | |
7eafe398 | 388 | ClassDef(AliMUONRecoParam,14) // MUON reco parameters |
3304fa09 | 389 | }; |
390 | ||
391 | #endif | |
392 |