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32e449be | 1 | #ifndef ALIMULTIPLICITY_H |
2 | #define ALIMULTIPLICITY_H | |
3 | ||
ff44c37c | 4 | #include <TBits.h> |
59495bf1 | 5 | #include <TMath.h> |
9a003bdc | 6 | #include "AliVMultiplicity.h" |
59495bf1 | 7 | class AliRefArray; |
32e449be | 8 | |
9 | //////////////////////////////////////////////////////// | |
10 | //// Class containing multiplicity information // | |
11 | //// to stored in the ESD // | |
12 | //////////////////////////////////////////////////////// | |
13 | ||
9a003bdc | 14 | class AliMultiplicity : public AliVMultiplicity { |
32e449be | 15 | |
16 | public: | |
59495bf1 | 17 | // |
32e449be | 18 | AliMultiplicity(); // default constructor |
fa9ed8e9 | 19 | AliMultiplicity(Int_t ntr,Float_t *th, Float_t *ph, Float_t *dth, Float_t *dph, Int_t *labels, |
d7c5c1e4 | 20 | Int_t* labelsL2, Int_t ns, Float_t *ts, Float_t *ps, Int_t *labelss, Short_t nfcL1, Short_t nfcL2, const TBits & fFastOrFiredChips); |
1f9831ab | 21 | AliMultiplicity(Int_t ntr, Int_t ns, Short_t nfcL1, Short_t nfcL2, const TBits & fFastOr); |
32e449be | 22 | AliMultiplicity(const AliMultiplicity& m); |
23 | AliMultiplicity& operator=(const AliMultiplicity& m); | |
732a24fe | 24 | virtual void Copy(TObject &obj) const; |
1f9831ab | 25 | virtual void Clear(Option_t* opt=""); |
32e449be | 26 | virtual ~AliMultiplicity(); |
59495bf1 | 27 | // methods to access tracklet information |
28 | Bool_t GetMultTrackRefs() const {return TestBit(kMultTrackRefs);} | |
29 | void SetMultTrackRefs(Bool_t v) {SetBit(kMultTrackRefs,v);} | |
30 | Bool_t GetScaleDThetaBySin2T() const {return TestBit(kScaleDThtbySin2);} | |
31 | void SetScaleDThetaBySin2T(Bool_t v) {SetBit(kScaleDThtbySin2,v);} | |
59495bf1 | 32 | // |
9a003bdc | 33 | // methods supported on AliVMultiplicity level >>> |
34 | // | |
35 | virtual Int_t GetNumberOfTracklets() const {return fNtracks;} | |
36 | virtual Double_t GetTheta(Int_t i) const { | |
4f499767 | 37 | if(i>=0 && i<fNtracks) return fTh[i]; |
38 | Error("GetTheta","Invalid track number %d",i); return -9999.; | |
39 | } | |
9a003bdc | 40 | virtual Double_t GetPhi(Int_t i) const { |
4f499767 | 41 | if(i>=0 && i<fNtracks) return fPhi[i]; |
42 | Error("GetPhi","Invalid track number %d",i); return -9999.; | |
43 | } | |
9a003bdc | 44 | virtual Double_t GetDeltaPhi(Int_t i) const { |
4f499767 | 45 | if(i>=0 && i<fNtracks) return fDeltPhi[i]; |
46 | Error("GetDeltaPhi","Invalid track number %d",i); return -9999.; | |
47 | } | |
9a003bdc | 48 | virtual Int_t GetLabel(Int_t i, Int_t layer) const; |
49 | virtual void SetLabel(Int_t i, Int_t layer, Int_t label); | |
50 | // | |
51 | // array getters | |
52 | virtual Double_t* GetTheta() const {return (Double_t*)fTh;} | |
53 | virtual Double_t* GetPhi() const {return (Double_t*)fPhi;} | |
54 | virtual Double_t* GetDeltPhi() const {return (Double_t*)fDeltPhi;} | |
55 | virtual Int_t* GetLabels() const {return (Int_t*)fLabels;} | |
56 | virtual Int_t* GetLabels2() const {return (Int_t*)fLabelsL2;} | |
57 | // | |
58 | virtual void Print(Option_t *opt="") const; | |
59 | // | |
60 | // methods supported on AliVMultiplicity level <<< | |
61 | // | |
62 | Double_t GetDeltaTheta(Int_t i) const { | |
63 | if(fDeltTh && i>=0 && i<fNtracks) return fDeltTh[i]; | |
64 | Error("GetDeltaTheta","DeltaTheta not available in data or Invalid track number %d(max %d)",i, fNtracks); return -9999.; | |
65 | } | |
eda42f29 | 66 | |
59495bf1 | 67 | Double_t CalcDist(Int_t it) const; |
b9be2602 | 68 | Float_t GetThetaAll(int icl, int lr) const; |
69 | Float_t GetPhiAll(int icl, int lr) const; | |
70 | Int_t GetLabelAll(int icl, int lr) const; | |
59495bf1 | 71 | |
d7c5c1e4 | 72 | Int_t GetLabelSingle(Int_t i) const; |
b9be2602 | 73 | Int_t GetLabelSingleLr(Int_t i, Int_t layer) const; |
d7c5c1e4 | 74 | void SetLabelSingle(Int_t i, Int_t label); |
75 | ||
34581d1e | 76 | Bool_t FreeClustersTracklet(Int_t i, Int_t mode) const; |
77 | Bool_t FreeSingleCluster(Int_t i, Int_t mode) const; | |
eda42f29 | 78 | |
9a003bdc | 79 | // methods to access single cluster information |
b9be2602 | 80 | Int_t SetNumberOfSingleClustersSPD2(Int_t n) {return fNsingleSPD2 = n;} |
968e8539 | 81 | Int_t GetNumberOfSingleClusters() const {return fNsingle;} |
b9be2602 | 82 | Int_t GetNumberOfSingleClustersLr(Int_t lr) const; |
83 | Bool_t AreSPD2SinglesStored() const {return TestBit(kSPD2Sng);} | |
84 | void SetSPD2SinglesStored(Bool_t v=kTRUE) {return SetBit(kSPD2Sng,v);} | |
85 | ||
4f499767 | 86 | Double_t GetThetaSingle(Int_t i) const { |
87 | if(i>=0 && i<fNsingle) return fThsingle[i]; | |
88 | Error("GetThetaSingle","Invalid cluster number %d",i); return -9999.; | |
89 | } | |
90 | ||
b9be2602 | 91 | Double_t GetThetaSingleLr(Int_t i, Int_t lr) const { |
92 | if (lr==1) { | |
93 | if (!AreSPD2SinglesStored()) {Error("GetThetaSingle","Invalid cluster number %d for lr %d",i,lr); return -9999.;} | |
94 | else i += GetNumberOfSingleClustersLr(0); | |
95 | } | |
96 | if(i>=0 && i<fNsingle) return fThsingle[i]; | |
97 | Error("GetThetaSingle","Invalid cluster number %d",i); return -9999.; | |
98 | } | |
9a003bdc | 99 | |
4f499767 | 100 | Double_t GetPhiSingle(Int_t i) const { |
101 | if(i>=0 && i<fNsingle) return fPhisingle[i]; | |
102 | Error("GetPhisingle","Invalid cluster number %d",i); return -9999.; | |
103 | } | |
9a003bdc | 104 | |
b9be2602 | 105 | Double_t GetPhiSingleLr(Int_t i, Int_t lr) const { |
106 | if (lr==1) { | |
107 | if (!AreSPD2SinglesStored()) {Error("GetPhiSingle","Invalid cluster number %d for lr %d",i,lr); return -9999.;} | |
108 | else i += GetNumberOfSingleClustersLr(0); | |
109 | } | |
110 | if(i>=0 && i<fNsingle) return fPhisingle[i]; | |
111 | Error("GetPhisingle","Invalid cluster number %d",i); return -9999.; | |
112 | } | |
113 | ||
ab37e14c | 114 | Short_t GetNumberOfFiredChips(Int_t layer) const { return fFiredChips[layer]; } |
115 | void SetFiredChips(Int_t layer, Short_t firedChips) { fFiredChips[layer] = firedChips; } | |
466ffa28 | 116 | |
d325d83f | 117 | UInt_t GetNumberOfITSClusters(Int_t layer) const { return layer<6 ? fITSClusters[layer] : 0; } |
118 | UInt_t GetNumberOfITSClusters(Int_t layMin, Int_t layMax) const ; | |
119 | void SetITSClusters(Int_t layer, UInt_t clusters) { fITSClusters[layer] = clusters; } | |
120 | ||
ee87788b | 121 | void SetFastOrFiredChips(UInt_t chipKey){fFastOrFiredChips.SetBitNumber(chipKey);} |
adc4b00f | 122 | const TBits & GetFastOrFiredChips() const {return fFastOrFiredChips;} |
ee87788b | 123 | Bool_t TestFastOrFiredChips(UInt_t chipKey) const {return fFastOrFiredChips.TestBitNumber(chipKey);} |
ff44c37c | 124 | |
ab37e14c | 125 | void SetFiredChipMap(TBits & firedChips){fClusterFiredChips = firedChips;} |
126 | void SetFiredChipMap(UInt_t chipKey){fClusterFiredChips.SetBitNumber(chipKey);} | |
127 | const TBits & GetFiredChipMap() const {return fClusterFiredChips;} | |
128 | Bool_t TestFiredChipMap(UInt_t chipKey) const {return fClusterFiredChips.TestBitNumber(chipKey);} | |
adc4b00f | 129 | |
34581d1e | 130 | Bool_t GetTrackletTrackIDs(Int_t i, Int_t mode, Int_t &spd1, Int_t &spd2) const; |
59495bf1 | 131 | Int_t GetTrackletTrackIDsLay(Int_t lr,Int_t i, Int_t mode, UInt_t* refs, UInt_t maxRef) const; |
34581d1e | 132 | Bool_t GetSingleClusterTrackID(Int_t i, Int_t mode, Int_t &tr) const; |
59495bf1 | 133 | Int_t GetSingleClusterTrackIDs(Int_t i, Int_t mode, UInt_t* refs, UInt_t maxRef) const; |
1f9831ab | 134 | |
135 | // array getters | |
1f9831ab | 136 | Double_t* GetDeltTheta() const {return (Double_t*)fDeltTh;} |
1f9831ab | 137 | Double_t* GetThetaSingle() const {return (Double_t*)fThsingle;} |
138 | Double_t* GetPhiSingle() const {return (Double_t*)fPhisingle;} | |
d7c5c1e4 | 139 | Int_t* GetLabelsSingle() const {return (Int_t*)fLabelssingle;} |
1f9831ab | 140 | |
59495bf1 | 141 | void AttachTracklet2TrackRefs(AliRefArray* l1t1,AliRefArray* l1t2,AliRefArray* l2t1,AliRefArray* l2t2) { |
142 | fTCl2Tracks[0][0] = l1t1; fTCl2Tracks[0][1] = l1t2; fTCl2Tracks[1][0] = l2t1; fTCl2Tracks[1][1] = l2t2; | |
143 | } | |
144 | void AttachCluster2TrackRefs(AliRefArray* l1t1,AliRefArray* l1t2) { | |
145 | fSCl2Tracks[0] = l1t1; fSCl2Tracks[1] = l1t2; | |
146 | } | |
147 | void SetTrackletData(Int_t id, const Float_t* tlet, UInt_t trSPD1=0, UInt_t trSPD2=0); | |
148 | void SetSingleClusterData(Int_t id, const Float_t* scl,UInt_t tr=0); | |
149 | void CompactBits(); | |
150 | // | |
151 | void SetDPhiWindow2(Float_t v=-1) {fDPhiWindow2 = v;} | |
152 | void SetDThetaWindow2(Float_t v=-1) {fDThetaWindow2 = v;} | |
153 | void SetDPhiShift(Float_t v=-1) {fDPhiShift = v;} | |
154 | void SetNStdDev(Float_t v=1) {fNStdDev = v;} | |
155 | // | |
156 | Float_t GetDPhiWindow2() const {return fDPhiWindow2;} | |
157 | Float_t GetDThetaWindow2() const {return fDThetaWindow2;} | |
158 | Float_t GetDPhiShift() const {return fDPhiShift;} | |
159 | Float_t GetNStdDev() const {return fNStdDev;} | |
160 | ||
161 | // | |
32e449be | 162 | protected: |
163 | void Duplicate(const AliMultiplicity &m); // used by copy ctr. | |
32e449be | 164 | |
cd888a89 | 165 | Int_t fNtracks; // Number of tracklets |
b9be2602 | 166 | Int_t fNsingle; // Number of clusters on SPD layer 1 and 2 (if storage of spd2 singles requested), not associated with a tracklet on otherSPD |
167 | Int_t fNsingleSPD2; // Number of clusters on SPD layer 2 not associated (if stored) | |
59495bf1 | 168 | // |
169 | Float_t fDPhiWindow2; // sigma^2 in dphi used in reco | |
170 | Float_t fDThetaWindow2; // sigma^2 in dtheta used in reco | |
171 | Float_t fDPhiShift; // bending shift used | |
172 | Float_t fNStdDev; // number of standard deviations kept | |
173 | // | |
0939e22a | 174 | Int_t *fLabels; //[fNtracks] array with labels of cluster in L1 used for tracklet |
175 | Int_t *fLabelsL2; //[fNtracks] array with labels of cluster in L2 used for tracklet | |
59495bf1 | 176 | UInt_t* fUsedClusS; //[fNsingle] id+1 of the tracks using cluster, coded as (TPC/ITS+ITS_SA)+(ITS_SA_PURE<<16) !!! Outphased for multiple refs |
c8122432 | 177 | ULong64_t* fUsedClusT; //[fNtracks] id+1 of the tracks using clusters, coded as (TPC/ITS+ITS_SA)+(ITS_SA_PURE<<16) for SPD1 and SPD2 in low and high parts |
59495bf1 | 178 | AliRefArray *fTCl2Tracks[2][2]; // container with multiple tracklet_cluster->track references |
179 | AliRefArray *fSCl2Tracks[2]; // container with multiple single_cluster->track references | |
cd888a89 | 180 | Double32_t *fTh; //[fNtracks] array with theta values |
181 | Double32_t *fPhi; //[fNtracks] array with phi values | |
fa9ed8e9 | 182 | Double32_t *fDeltTh; //[fNtracks] array with delta theta values |
cd888a89 | 183 | Double32_t *fDeltPhi; //[fNtracks] array with delta phi values |
184 | Double32_t *fThsingle; //[fNsingle] array with theta values of L1 clusters | |
1f9831ab | 185 | Double32_t *fPhisingle; //[fNsingle] array with phi values of L1 clusters |
d7c5c1e4 | 186 | Int_t *fLabelssingle; //[fNsingle] array with labels of clusters in L1 not used for tracklets |
ab37e14c | 187 | Short_t fFiredChips[2]; // Number of fired chips in the two SPD layers |
d7c5c1e4 | 188 | UInt_t fITSClusters[6]; // Number of ITS cluster per layer |
ff44c37c | 189 | TBits fFastOrFiredChips; // Map of FastOr fired chips |
1f9831ab | 190 | TBits fClusterFiredChips; // Map of fired chips (= at least one cluster) |
ff44c37c | 191 | |
9a003bdc | 192 | ClassDef(AliMultiplicity,20); |
32e449be | 193 | }; |
194 | ||
eda42f29 | 195 | inline Int_t AliMultiplicity::GetLabel(Int_t i, Int_t layer) const |
196 | { | |
197 | if(i>=0 && i<fNtracks) { | |
198 | if (layer == 0) { | |
199 | return fLabels[i]; | |
200 | } else if (layer == 1) { | |
201 | if (fLabelsL2) { | |
202 | return fLabelsL2[i]; | |
203 | } else { | |
204 | Warning("GetLabel", "No information for layer 2 available !"); | |
205 | return -9999; | |
206 | } | |
207 | } else { | |
208 | Error("GetLabel","Invalid layer number %d",layer); return -9999; | |
209 | } | |
210 | } else { | |
211 | Error("GetLabel","Invalid track number %d",i); return -9999; | |
212 | } | |
4f499767 | 213 | return -9999; |
eda42f29 | 214 | } |
d7c5c1e4 | 215 | |
216 | inline Int_t AliMultiplicity::GetLabelSingle(Int_t i) const | |
217 | { | |
218 | if(i>=0 && i<fNsingle) { | |
219 | return fLabelssingle[i]; | |
220 | } else { | |
221 | Error("GetLabelSingle","Invalid cluster number %d",i); return -9999; | |
222 | } | |
223 | return -9999; | |
224 | } | |
225 | ||
226 | ||
59495bf1 | 227 | inline Double_t AliMultiplicity::CalcDist(Int_t i) const |
228 | { | |
229 | // calculate eliptical distance. theta is the angle of cl1, dtheta = tht(cl1)-tht(cl2) | |
230 | if (i<0 && i>=fNtracks) return -1; | |
231 | if (fDPhiWindow2<1E-9 || fDThetaWindow2<1E-9) return -1; // not stored | |
232 | double dphi = TMath::Abs(fDeltPhi[i]) - fDPhiShift; | |
233 | double dtheta = fDeltTh[i]; | |
234 | if (GetScaleDThetaBySin2T()) { | |
235 | double sinTI = TMath::Sin(fTh[i]-dtheta/2); | |
236 | sinTI *= sinTI; | |
237 | dtheta /= sinTI>1.e-6 ? sinTI : 1.e-6; | |
238 | } | |
239 | return dphi*dphi/fDPhiWindow2 + dtheta*dtheta/fDThetaWindow2; | |
240 | } | |
241 | ||
b9be2602 | 242 | inline Int_t AliMultiplicity::GetNumberOfSingleClustersLr(Int_t lr) const |
243 | { | |
244 | // return number of singles at given layer | |
245 | if (lr==0) return fNsingle - fNsingleSPD2; | |
246 | return AreSPD2SinglesStored() ? fNsingleSPD2 : -1; | |
247 | } | |
248 | ||
d7c5c1e4 | 249 | |
250 | ||
32e449be | 251 | #endif |