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799c6677 | 1 | #ifndef ALILHCDATA_H\r |
2 | #define ALILHCDATA_H\r | |
3 | \r | |
4 | /********************************************************************************\r | |
5 | * *\r | |
6 | * AliLHCData: summary of the LHC related information from LHC DIP. *\r | |
7 | * Created from the TMap provided by the AliLHCReader with optional beginning *\r | |
8 | * *\r | |
9 | * The data are (wrapped in the AliLHCDipValT): *\r | |
10 | * made of TimeStamp (double) and array of values *\r | |
11 | * *\r | |
12 | * Multiple entries for each type of data are possible. To obtaine number of *\r | |
13 | * records (with distinct timestamp) for give type od records use: *\r | |
14 | * int GetNBunchConfigMeasured(int beam) (with beam=0,1) etc. *\r | |
15 | * *\r | |
16 | * To get i-th entry, use brec= AliLHCDipValI* GetBunchConfigMeasured(bm,i); *\r | |
17 | * Note: exact type of templated AliLHCDipValT pointer depends on the record *\r | |
18 | * type, concult getters to know it. *\r | |
19 | * *\r | |
20 | * Then, once the pointer is obtained, details can be accessed: *\r | |
21 | * int nBunches = brec->GetSize(); *\r | |
22 | * for (int i=0;i<nBunches;i++) printf("Bunch#%d: %d\n",i,(*brec)[i]); *\r | |
23 | * *\r | |
24 | * ATTENTION: Bunch RFBucked is NEGATIVE for bunches interacting at IR2 *\r | |
25 | * *\r | |
26 | * *\r | |
27 | * *\r | |
28 | * Author: ruben.shahoyan@cern.ch *\r | |
29 | * *\r | |
30 | ********************************************************************************/\r | |
31 | \r | |
32 | #include "AliLHCDipValT.h"\r | |
33 | #include "TObject.h"\r | |
34 | class TObjArray;\r | |
35 | //class AliLHCDipValT;\r | |
36 | \r | |
37 | class AliDCSArray;\r | |
38 | class TString;\r | |
39 | class TMap;\r | |
bab62329 | 40 | class AliLHCReader;\r |
799c6677 | 41 | \r |
42 | \r | |
43 | class AliLHCData : public TObject\r | |
44 | {\r | |
45 | public:\r | |
46 | enum {kStart,kNStor};\r | |
47 | enum BeamID_t {kBeam1,kBeam2};\r | |
48 | enum Proj_t {kX,kY};\r | |
49 | enum Side_t {kLeft,kRight};\r | |
50 | enum Collim_t {kTCTVB4L2, kTCTVB4R2, kTCLIA4R2, kNCollimators};\r | |
51 | enum ColJaw_t {kGapDn,kGapUp,kLeftDn,kLeftUp,kRightDn,kRightUp,kNJaws};\r | |
2af04ffd | 52 | enum {kMaxBSlots = 3564, kOffsBeam1=346, kOffsBeam2 = 3019};\r |
0e9ab7ce | 53 | enum {kMarginSOR = 60*60*24*30, // use margin of 30 days for SOR, when looking for the 1st record\r |
54 | kMarginEOR = 60*15}; // use margin of 15 min for EOR, when looking for the last record\r | |
799c6677 | 55 | //\r |
56 | enum {kIntTot,kIntTotAv,kIntBunchAv,\r | |
57 | kLumAcqMode,kLumTot,kLumTotErr,kLumBunch,kLumBunchErr,kLumCrossAng,kLumCrossAngErr,\r | |
58 | kBunchConf,kFillNum,kBunchLgtNB,kBunchLgt,kBunchLgtFillB,\r | |
59 | kRCInjSch,kRCBeta,kRCCrossAng,kRCVang,\r | |
60 | kBeamSzAcqMode,kBeamSzSigH,kBeamSzSigV,kBeamSzEmittH,kBeamSzEmittV,kBeamSzSigHErr,kBeamSzSigVErr,\r | |
61 | kCollPos};\r | |
62 | //\r | |
63 | //le\r | |
64 | public:\r | |
65 | //\r | |
bab62329 | 66 | AliLHCData() : fTMin(0),fTMax(1e10),fFillNumber(0),fData(0),fFile2Process(0),fMap2Process(0) {Clear();}\r |
0e9ab7ce | 67 | AliLHCData(const TMap* dcsMap, double tmin=0, double tmax=1.e10);\r |
68 | AliLHCData(const Char_t* dcsFile, double tmin=0, double tmax=1.e10);\r | |
799c6677 | 69 | virtual ~AliLHCData() {}\r |
70 | //\r | |
bab62329 | 71 | Bool_t FillData(const TMap* dcsMap, double tmin=0, double tmax=1.e20);\r |
72 | Bool_t FillData(const Char_t* dcsFile, double tmin=0, double tmax=1.e20);\r | |
799c6677 | 73 | Double_t GetTMin() const {return fTMin;}\r |
74 | Double_t GetTMax() const {return fTMax;}\r | |
75 | Int_t GetFillNumber() const {return fFillNumber;}\r | |
76 | void SetFillNumber(Int_t fill) {fFillNumber = fill;}\r | |
77 | void SetTMin(Double_t t) {fTMin = t<0?0:(t>1e10?1e10:t);}\r | |
78 | void SetTMax(Double_t t) {fTMax = t<0?0:(t>1e10?1e10:t);}\r | |
41ff94a3 | 79 | //\r |
799c6677 | 80 | virtual void Print(const Option_t *opt="") const;\r |
799c6677 | 81 | //\r |
82 | Int_t GetNBunchConfigMeasured(int bm) const {return GoodPairID(bm)?fBunchConfMeas[bm][kNStor]:-1;}\r | |
83 | Int_t GetNBunchConfigDeclared(int bm) const {return GoodPairID(bm)?fBunchConfDecl[bm][kNStor]:-1;}\r | |
84 | Int_t GetNBunchLengths(int bm) const {return GoodPairID(bm)?fBunchLengths[bm][kNStor]:-1;}\r | |
85 | Int_t GetNTotalIntensity(int bm) const {return GoodPairID(bm)?fIntensTotal[bm][kNStor]:-1;}\r | |
86 | Int_t GetNTotalIntensityAv(int bm) const {return GoodPairID(bm)?fIntensTotalAv[bm][kNStor]:-1;}\r | |
87 | Int_t GetNIntensityPerBunch(int bm) const {return GoodPairID(bm)?fIntensPerBunch[bm][kNStor]:-1;}\r | |
88 | Int_t GetNEmittanceH(int bm) const {return GoodPairID(bm)?fEmittanceH[bm][kNStor]:-1;}\r | |
89 | Int_t GetNEmittanceV(int bm) const {return GoodPairID(bm)?fEmittanceV[bm][kNStor]:-1;}\r | |
90 | Int_t GetNBeamSigmaH(int bm) const {return GoodPairID(bm)?fBeamSigmaH[bm][kNStor]:-1;}\r | |
91 | Int_t GetNBeamSigmaV(int bm) const {return GoodPairID(bm)?fBeamSigmaV[bm][kNStor]:-1;}\r | |
92 | //\r | |
93 | Int_t GetNLuminosityTotal(int lr) const {return GoodPairID(lr)?fLuminTotal[lr][kNStor]:-1;}\r | |
94 | Int_t GetNLuminosityPerBunch(int lr) const {return GoodPairID(lr)?fLuminPerBC[lr][kNStor]:-1;}\r | |
95 | Int_t GetNLuminosityAcqMode(int lr) const {return GoodPairID(lr)?fLuminAcqMode[lr][kNStor]:-1;}\r | |
96 | Int_t GetNCrossingAngle(int lr) const {return GoodPairID(lr)?fCrossAngle[lr][kNStor]:-1;}\r | |
97 | //\r | |
98 | Int_t GetNInjectionScheme() const {return fRCInjScheme[kNStor];}\r | |
99 | Int_t GetNRCBetaStar() const {return fRCBeta[kNStor];}\r | |
100 | Int_t GetNRCAngleH() const {return fRCAngH[kNStor];}\r | |
101 | Int_t GetNRCAngleV() const {return fRCAngV[kNStor];}\r | |
102 | //\r | |
103 | Int_t GetNCollimatorJawPos(int coll,int jaw) const;\r | |
104 | //\r | |
105 | AliLHCDipValI* GetBunchConfigMeasured(int bm, int i=0) const;\r | |
106 | AliLHCDipValF* GetBunchLengths(int bm, int i=0) const;\r | |
107 | AliLHCDipValI* GetBunchConfigDeclared(int bm, int i=0) const;\r | |
108 | AliLHCDipValF* GetTotalIntensity(int bm, int i=0) const;\r | |
109 | AliLHCDipValF* GetTotalIntensityAv(int bm, int i=0) const;\r | |
110 | AliLHCDipValF* GetIntensityPerBunch(int bm, int i=0) const;\r | |
111 | AliLHCDipValF* GetEmittanceH(int bm, int i=0) const;\r | |
112 | AliLHCDipValF* GetEmittanceV(int bm, int i=0) const;\r | |
113 | AliLHCDipValF* GetBeamSigmaH(int bm, int i=0) const;\r | |
114 | AliLHCDipValF* GetBeamSigmaV(int bm, int i=0) const;\r | |
115 | AliLHCDipValF* GetLuminosityTotal(int lr, int i=0) const;\r | |
116 | AliLHCDipValF* GetLuminosityPerBunch(int lr, int i=0) const;\r | |
117 | AliLHCDipValI* GetLuminosityAcqMode(int lr, int i=0) const;\r | |
118 | AliLHCDipValF* GetCrossAngle(int lr, int i=0) const;\r | |
119 | AliLHCDipValC* GetInjectionScheme(int i=0) const;\r | |
120 | AliLHCDipValF* GetRCBetaStar(int i=0) const;\r | |
121 | AliLHCDipValF* GetRCAngleH(int i=0) const; \r | |
122 | AliLHCDipValF* GetRCAngleV(int i=0) const; \r | |
123 | AliLHCDipValF* GetCollimJawPos(int coll, int jaw, int i=0) const;\r | |
124 | //\r | |
3760aa6b | 125 | void FlagInteractingBunches(const Int_t beam1[2],const Int_t beam2[2]);\r |
799c6677 | 126 | TObject* FindRecValidFor(int start,int nrec, double tstamp) const;\r |
127 | AliLHCDipValI* GetBunchConfigMeasured(int beam,double tstamp) const;\r | |
128 | AliLHCDipValI* GetBunchConfigDeclared(int beam,double tstamp) const;\r | |
129 | Int_t GetNInteractingBunchesMeasured(int i=0) const;\r | |
130 | Int_t GetNInteractingBunchesDeclared(int i=0) const;\r | |
131 | Int_t IsPilotPresent(int i=0) const;\r | |
132 | //\r | |
133 | // return array with beginning [0] and number of records for corresponding info (in the fData)\r | |
134 | const Int_t* GetOffsBunchConfigMeasured(int bm) const {return GoodPairID(bm)?fBunchConfMeas[bm]:0;}\r | |
135 | const Int_t* GetOffsBunchConfigDeclared(int bm) const {return GoodPairID(bm)?fBunchConfDecl[bm]:0;}\r | |
136 | const Int_t* GetOffsBunchLengths(int bm) const {return GoodPairID(bm)?fBunchLengths[bm]:0;}\r | |
137 | const Int_t* GetOffsTotalIntensity(int bm) const {return GoodPairID(bm)?fIntensTotal[bm]:0;}\r | |
138 | const Int_t* GetOffsTotalIntensityAv(int bm) const {return GoodPairID(bm)?fIntensTotalAv[bm]:0;}\r | |
139 | const Int_t* GetOffsIntensityPerBunch(int bm) const {return GoodPairID(bm)?fIntensPerBunch[bm]:0;}\r | |
140 | const Int_t* GetOffsEmittanceH(int bm) const {return GoodPairID(bm)?fEmittanceH[bm]:0;}\r | |
141 | const Int_t* GetOffsEmittanceV(int bm) const {return GoodPairID(bm)?fEmittanceV[bm]:0;}\r | |
142 | const Int_t* GetOffsBeamSigmaH(int bm) const {return GoodPairID(bm)?fBeamSigmaH[bm]:0;}\r | |
143 | const Int_t* GetOffsBeamSigmaV(int bm) const {return GoodPairID(bm)?fBeamSigmaV[bm]:0;}\r | |
144 | //\r | |
145 | const Int_t* GetOffsLuminosityTotal(int lr) const {return GoodPairID(lr)?fLuminTotal[lr]:0;}\r | |
146 | const Int_t* GetOffsLuminosityPerBunch(int lr) const {return GoodPairID(lr)?fLuminPerBC[lr]:0;}\r | |
147 | const Int_t* GetOffsLuminosityAcqMode(int lr) const {return GoodPairID(lr)?fLuminAcqMode[lr]:0;}\r | |
148 | const Int_t* GetOffsCrossingAngle(int lr) const {return GoodPairID(lr)?fCrossAngle[lr]:0;}\r | |
149 | //\r | |
150 | const Int_t* GetOffsInjectionScheme() const {return fRCInjScheme;}\r | |
151 | const Int_t* GetOffsRCBetaStar() const {return fRCBeta;}\r | |
152 | const Int_t* GetOffsRCAngleH() const {return fRCAngH;}\r | |
153 | const Int_t* GetOffsRCAngleV() const {return fRCAngV;}\r | |
154 | //\r | |
155 | const Int_t* GetOffsCollimatorJawPos(int coll,int jaw) const;\r | |
156 | //\r | |
157 | const TObjArray& GetData() const {return fData;}\r | |
158 | //\r | |
3d84ad67 | 159 | // analysis methods\r |
2af04ffd | 160 | Int_t GetMeanIntensity(int beamID, Double_t &colliding, Double_t &noncolliding, const TObjArray* bcmasks=0) const;\r |
161 | static Int_t GetBCId(int bucket, int beamID) {return (TMath::Abs(bucket)/10 + (beamID==0 ? kOffsBeam1:kOffsBeam2))%kMaxBSlots;}\r | |
3d84ad67 | 162 | //\r |
799c6677 | 163 | protected:\r |
164 | //\r | |
bab62329 | 165 | Bool_t FillData(double tmin=0, double tmax=1.e20);\r |
166 | virtual void Clear(const Option_t *opt="");\r | |
167 | void PrintAux(Bool_t full,const Int_t refs[2],const Option_t *opt="") const;\r | |
0e9ab7ce | 168 | TObjArray* GetDCSEntry(const char* key,int &entry,int &last,double tmin,double tmax) const;\r |
bab62329 | 169 | Int_t FillScalarRecord( int refs[2], const char* rec, const char* recErr=0);\r |
170 | Int_t FillBunchConfig( int refs[2], const char* rec);\r | |
171 | Int_t FillStringRecord( int refs[2], const char* rec);\r | |
172 | Int_t FillAcqMode( int refs[2], const char* rec);\r | |
173 | Int_t FillBunchInfo( int refs[2], const char* rec,int ibm, Bool_t inRealSlots);\r | |
174 | Int_t FillBCLuminosities(int refs[2], const char* rec, const char* recErr, Int_t useBeam);\r | |
799c6677 | 175 | //\r |
176 | Int_t ExtractInt(AliDCSArray* dcsArray,Int_t el) const;\r | |
177 | Double_t ExtractDouble(AliDCSArray* dcsArray,Int_t el) const;\r | |
178 | TString& ExtractString(AliDCSArray* dcsArray) const;\r | |
bab62329 | 179 | AliLHCData(const AliLHCData& src) : TObject(src),fTMin(0),fTMax(0),fFillNumber(0),fData(0),fFile2Process(0),fMap2Process(0) { /*dummy*/ }\r |
799c6677 | 180 | AliLHCData& operator=(const AliLHCData& ) { /*dummy*/ return *this;}\r |
181 | Int_t TimeDifference(double v1,double v2,double tol=0.9) const;\r | |
182 | Bool_t IzZero(double val, double tol=1e-16) const {return TMath::Abs(val)<tol;}\r | |
183 | Bool_t GoodPairID(int beam) const;\r | |
184 | //\r | |
185 | protected:\r | |
186 | //\r | |
187 | Double_t fTMin; // selection timeMin\r | |
188 | Double_t fTMax; // selection timeMax\r | |
189 | Int_t fFillNumber; // fill number : kFillNum\r | |
190 | //\r | |
191 | //---------------- Last index gives: 0 - beginning of the records in fData, 1 - number of records\r | |
192 | //\r | |
193 | // infrormation from RunControl\r | |
194 | Int_t fRCInjScheme[2]; // active injection scheme : String |kRCInjScheme\r | |
195 | Int_t fRCBeta[2]; // target beta : Float |kRCBeta\r | |
196 | Int_t fRCAngH[2]; // horisontal angle : Float |kRCCrossAng\r | |
197 | Int_t fRCAngV[2]; // vertical angle : Float |kRCVang\r | |
198 | Int_t fBunchConfDecl[2][2]; // declared beam configuration : Float |kBunchConf \r | |
199 | //\r | |
200 | // measured information\r | |
201 | Int_t fBunchConfMeas[2][2]; // measured beam configuration : Int |kBunchLgtFillB\r | |
202 | Int_t fBunchLengths[2][2]; // measured beam lenghts : Float |kBunchLgt\r | |
203 | Int_t fIntensTotal[2][2]; // total beam intensities : Float |kIntTot\r | |
204 | Int_t fIntensTotalAv[2][2]; // total beam intensities from bunch averages : Float |kIntTotAv\r | |
205 | Int_t fIntensPerBunch[2][2]; // bunch-by-bunch intensities : Float |kIntBunchAv\r | |
206 | //\r | |
207 | Int_t fCrossAngle[2][2]; // crossing angle at IP2 and its error : Float |kLimCrossAng, kLumCrossAngErr\r | |
208 | Int_t fEmittanceH[2][2]; // beam H emittances : Float |kBeamSzEmittH\r | |
209 | Int_t fEmittanceV[2][2]; // beam V emittances : Float |kBeamSzEmittV\r | |
210 | Int_t fBeamSigmaH[2][2]; // beam H sigma and error : Float |kBeamSzSigH,kBeamSzSigHErr\r | |
211 | Int_t fBeamSigmaV[2][2]; // beam V sigma and error : Float |kBeamSzSigV,kBeamSzSigVErr\r | |
212 | //\r | |
213 | Int_t fLuminTotal[2][2]; // total luminosity at IP2 and its error : Float |kLumTot, kLumTotErr\r | |
214 | Int_t fLuminPerBC[2][2]; // luminosity at IP2 for each BC and its error : Float |kLumBunch,kLumBunchErr\r | |
215 | Int_t fLuminAcqMode[2][2]; // luminosity acquisition mode : Int | kLumAcqMode\r | |
216 | //\r | |
217 | Int_t fCollimators[kNCollimators][kNJaws][2];// collimator jaws positions : Float |kCollPos\r | |
218 | //\r | |
219 | TObjArray fData; // single storage for various records\r | |
220 | //\r | |
221 | static const Char_t *fgkDCSNames[]; // beam related DCS names to extract\r | |
222 | static const Char_t *fgkDCSColNames[]; // collimators to extract\r | |
223 | static const Char_t *fgkDCSColJaws[]; // names of collimator pieces\r | |
bab62329 | 224 | //\r |
225 | private:\r | |
226 | // non-persistent objects used at the filling time\r | |
227 | const Char_t* fFile2Process; //! name of DCS file\r | |
228 | const TMap* fMap2Process; //! DCS map to process \r | |
799c6677 | 229 | \r |
230 | ClassDef(AliLHCData,1)\r | |
231 | };\r | |
232 | \r | |
233 | \r | |
234 | //_____________________________________________________________________________\r | |
235 | inline Int_t AliLHCData::GetNCollimatorJawPos(int coll,int jaw) const {// get n records\r | |
236 | return (coll>=0&&coll<kNCollimators&&jaw>=0&&jaw<kNJaws)? fCollimators[coll][jaw][kNStor]:0;\r | |
237 | }\r | |
238 | \r | |
239 | inline const Int_t* AliLHCData::GetOffsCollimatorJawPos(int coll,int jaw) const { // offset array\r | |
240 | return (coll>=0&&coll<kNCollimators&&jaw>=0&&jaw<kNJaws)? fCollimators[coll][jaw]:0;\r | |
241 | }\r | |
242 | \r | |
243 | inline AliLHCDipValI* AliLHCData::GetBunchConfigMeasured(int bm, int i) const { // get record\r | |
3760aa6b | 244 | return (GoodPairID(bm) && i>=0 && i<fBunchConfMeas[bm][kNStor]) ? (AliLHCDipValI*)fData[fBunchConfMeas[bm][kStart]+i]:0;\r |
799c6677 | 245 | }\r |
246 | \r | |
247 | inline AliLHCDipValF* AliLHCData::GetBunchLengths(int bm, int i) const { // get record\r | |
3760aa6b | 248 | return (GoodPairID(bm) && i>=0 && i<fBunchLengths[bm][kNStor]) ? (AliLHCDipValF*)fData[fBunchLengths[bm][kStart]+i]:0;\r |
799c6677 | 249 | }\r |
250 | \r | |
251 | inline AliLHCDipValI* AliLHCData::GetBunchConfigDeclared(int bm, int i) const { // get record\r | |
3760aa6b | 252 | return (GoodPairID(bm) && i>=0 && i<fBunchConfDecl[bm][kNStor]) ? (AliLHCDipValI*)fData[fBunchConfDecl[bm][kStart]+i]:0;\r |
799c6677 | 253 | }\r |
254 | \r | |
255 | inline AliLHCDipValF* AliLHCData::GetTotalIntensity(int bm, int i) const { // get record\r | |
3760aa6b | 256 | return (GoodPairID(bm) && i>=0 && i<fIntensTotal[bm][kNStor]) ? (AliLHCDipValF*)fData[fIntensTotal[bm][kStart]+i]:0;\r |
799c6677 | 257 | }\r |
258 | \r | |
259 | inline AliLHCDipValF* AliLHCData::GetTotalIntensityAv(int bm, int i) const { // get record\r | |
3760aa6b | 260 | return (GoodPairID(bm) && i>=0 && i<fIntensTotalAv[bm][kNStor]) ? (AliLHCDipValF*)fData[fIntensTotalAv[bm][kStart]+i]:0;\r |
799c6677 | 261 | }\r |
262 | \r | |
263 | inline AliLHCDipValF* AliLHCData::GetIntensityPerBunch(int bm, int i) const { // get record\r | |
3760aa6b | 264 | return (GoodPairID(bm) && i>=0 && i<fIntensPerBunch[bm][kNStor]) ? (AliLHCDipValF*)fData[fIntensPerBunch[bm][kStart]+i]:0;\r |
799c6677 | 265 | }\r |
266 | \r | |
267 | inline AliLHCDipValF* AliLHCData::GetEmittanceH(int bm, int i) const { // get record\r | |
3760aa6b | 268 | return (GoodPairID(bm) && i>=0 && i<fEmittanceH[bm][kNStor]) ? (AliLHCDipValF*)fData[fEmittanceH[bm][kStart]+i]:0;\r |
799c6677 | 269 | }\r |
270 | \r | |
271 | inline AliLHCDipValF* AliLHCData::GetEmittanceV(int bm, int i) const { // get record\r | |
3760aa6b | 272 | return (GoodPairID(bm) && i>=0 && i<fEmittanceV[bm][kNStor]) ? (AliLHCDipValF*)fData[fEmittanceV[bm][kStart]+i]:0;\r |
799c6677 | 273 | }\r |
274 | \r | |
275 | inline AliLHCDipValF* AliLHCData::GetBeamSigmaH(int bm, int i) const { // get record\r | |
3760aa6b | 276 | return (GoodPairID(bm) && i>=0 && i<fBeamSigmaH[bm][kNStor]) ? (AliLHCDipValF*)fData[fBeamSigmaH[bm][kStart]+i]:0;\r |
799c6677 | 277 | }\r |
278 | \r | |
279 | inline AliLHCDipValF* AliLHCData::GetBeamSigmaV(int bm, int i) const { // get record\r | |
3760aa6b | 280 | return (GoodPairID(bm) && i>=0 && i<fBeamSigmaV[bm][kNStor]) ? (AliLHCDipValF*)fData[fBeamSigmaV[bm][kStart]+i]:0;\r |
799c6677 | 281 | }\r |
282 | \r | |
283 | inline AliLHCDipValF* AliLHCData::GetLuminosityTotal(int lr, int i) const { // get record\r | |
3760aa6b | 284 | return (GoodPairID(lr) && i>=0 && i<fLuminTotal[lr][kNStor]) ? (AliLHCDipValF*)fData[fLuminTotal[lr][kStart]+i]:0;\r |
799c6677 | 285 | }\r |
286 | \r | |
287 | inline AliLHCDipValF* AliLHCData::GetLuminosityPerBunch(int lr, int i) const { // get record\r | |
3760aa6b | 288 | return (GoodPairID(lr) && i>=0 && i<fLuminPerBC[lr][kNStor]) ? (AliLHCDipValF*)fData[fLuminPerBC[lr][kStart]+i]:0;\r |
799c6677 | 289 | }\r |
290 | \r | |
291 | inline AliLHCDipValI* AliLHCData::GetLuminosityAcqMode(int lr, int i) const { // get record\r | |
3760aa6b | 292 | return (GoodPairID(lr) && i>=0 && i<fLuminAcqMode[lr][kNStor]) ? (AliLHCDipValI*)fData[fLuminAcqMode[lr][kStart]+i]:0;\r |
799c6677 | 293 | }\r |
294 | \r | |
295 | inline AliLHCDipValF* AliLHCData::GetCrossAngle(int lr, int i) const { // get record\r | |
3760aa6b | 296 | return (GoodPairID(lr) && i>=0 && i<fCrossAngle[lr][kNStor]) ? (AliLHCDipValF*)fData[fCrossAngle[lr][kStart]+i]:0;\r |
799c6677 | 297 | }\r |
298 | \r | |
299 | inline AliLHCDipValC* AliLHCData::GetInjectionScheme(int i) const { // get record\r | |
3760aa6b | 300 | return (i>=0 && i<fRCInjScheme[kNStor]) ? (AliLHCDipValC*)fData[fRCInjScheme[kStart]+i]:0;\r |
799c6677 | 301 | }\r |
302 | \r | |
303 | inline AliLHCDipValF* AliLHCData::GetRCBetaStar(int i) const { // get record\r | |
3760aa6b | 304 | return (i>=0 && i<fRCBeta[kNStor]) ? (AliLHCDipValF*)fData[fRCBeta[kStart]+i]:0;\r |
799c6677 | 305 | }\r |
306 | \r | |
307 | inline AliLHCDipValF* AliLHCData::GetRCAngleH(int i) const { // get record\r | |
3760aa6b | 308 | return (i>=0 && i<fRCAngH[kNStor]) ? (AliLHCDipValF*)fData[fRCAngH[kStart]+i]:0;\r |
799c6677 | 309 | }\r |
310 | \r | |
311 | inline AliLHCDipValF* AliLHCData::GetRCAngleV(int i) const { // get record\r | |
3760aa6b | 312 | return (i>=0 && i<fRCAngV[kNStor]) ? (AliLHCDipValF*)fData[fRCAngV[kStart]+i]:0;\r |
799c6677 | 313 | }\r |
314 | \r | |
315 | inline AliLHCDipValF* AliLHCData::GetCollimJawPos(int coll, int jaw, int i) const { // get record\r | |
316 | return (coll>=0 && coll<kNCollimators && jaw>=0 && jaw<kNJaws && \r | |
3760aa6b | 317 | i>=0 && i<fCollimators[coll][jaw][kNStor]) ? (AliLHCDipValF*)fData[fCollimators[coll][jaw][kStart]+i]:0;\r |
799c6677 | 318 | }\r |
319 | \r | |
320 | \r | |
321 | #endif\r |