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c79a7c1c | 1 | #ifndef ALITRACKLETTASKMULTIPP_H |
2 | #define ALITRACKLETTASKMULTIPP_H | |
c15ec07e | 3 | |
4 | /////////////////////////////////////////////////////////////////////////// | |
c79a7c1c | 5 | // Class AliTrackletTaskMultipp // |
c15ec07e | 6 | // Analysis task to produce data and MC histos needed for tracklets // |
7 | // dNdEta extraction in multiple bins in one go // | |
8 | // Author: ruben.shahoyan@cern.ch // | |
9 | /////////////////////////////////////////////////////////////////////////// | |
10 | ||
11 | class TH1F; | |
12 | class TH2F; | |
13 | class TH3F; | |
14 | class AliESDEvent; | |
15 | class TList; | |
16 | class TNtuple; | |
17 | ||
18 | class AliMCParticle; | |
19 | class AliITSMultRecBg; | |
20 | class AliESDTrackCuts; | |
c79a7c1c | 21 | class AliITSsegmentationSPD; |
c15ec07e | 22 | #include "AliAnalysisTaskSE.h" |
23 | #include "AliTriggerAnalysis.h" | |
24 | #include <TMath.h> | |
25 | ||
c79a7c1c | 26 | class AliTrackletTaskMultipp : public AliAnalysisTaskSE { |
c15ec07e | 27 | public: |
28 | enum {kData,kBgInj,kBgRot,kBgMix,kMC}; | |
29 | enum {kCentV0M,kCentFMD,kCentTRK,kCentTKL,kCentCL0,kCentCL1,kCentV0MvsFMD,kCentTKLvsV0,kCentZEMvsZDC,kNCentTypes}; // what is used to define centrality | |
30 | // | |
31 | enum { // define here id's of the standard histos in corresponding TObjArray* fHistosTr... | |
32 | kHEtaZvCut, // histo zv vs eta for tracklets passing final selection (dist<1 or |dPhi|<narrowWindow ...) | |
33 | kHDPhiDTheta, // measured dTheta vs dPhi | |
34 | kHDPhiSDThetaX, // dTheta (1/sin^2 scaled if needed) vs dPhi (bending subtracted) | |
35 | kHWDist, // Weighted distance | |
36 | kHEtaZvSPD1, // histo zv vs eta for SPD1 single clusters | |
37 | kNStandardH // number of standard histos per centrality bin | |
38 | }; | |
39 | enum { // define here id's of any custom histos to be added to fHistosCustom | |
40 | kHStat, // job info (meaning of bins defined in the enum below) | |
41 | // | |
42 | kHStatCent, // events per centrality bin with real values on the axis | |
43 | kHStatCentBin, // events per centrality bin | |
44 | // | |
45 | kHNPrimMeanMC, // <n> primaries per mult bin | |
46 | kHNPrim2PartMC, // <n> prim per part.pair per mult bin | |
47 | kHNPrim2BCollMC, // <n> prim per bin.coll per mult bin | |
48 | kHNPrim2PartNpMC, // <n> prim per n part vs npart | |
49 | kHNPrim2BCollNpMC, // <n> prim per n part vs npart | |
50 | kHNPartMC, // n.part.pairs according to MC | |
51 | kHNPartMeanMC, // <n> part pairs per mult bin | |
52 | kHNBCollMC, // n.bin.colls according to MC | |
53 | kHNBCollMeanMC, | |
54 | // | |
55 | kHZVtxNoSel, // Z vertex distribution before event selection | |
56 | kHV0NoSel, // V0 before selection | |
57 | kHNClSPD2NoSel, // NSPD2 before selection | |
58 | kHZDCZEMNoSel, // ZDC ZEM before selection | |
59 | // | |
60 | kHZVtx, // Z vertex distribution | |
61 | kHV0, // V0 before selection | |
62 | kHNClSPD2, // NSPD2 before selection | |
63 | kHZDCZEM, // ZDC ZEM before selection | |
64 | ||
65 | ||
66 | kHZVtxMixDiff, // difference in Z vtx of mixed events | |
67 | kHNTrMixDiff, // difference in N tracklets of mixed events | |
68 | // | |
69 | kHPrimPDG, // PDG code of prim tracklet | |
70 | kHSecPDG, // PDG code of sec tracklet | |
71 | kHPrimParPDG, // PDG code of prim tracklet parent | |
72 | kHSecParPDG, // PDG code of sec tracklet parent | |
73 | // | |
74 | kHClUsedInfoL0, // used clusters of lr0 | |
75 | kHClUsedInfoL1, // used clusters of lr1 | |
76 | kHClAllInfoL0, // all clusters of lr0 | |
77 | kHClAllInfoL1, // all clusters of lr1 | |
78 | // | |
79 | //-------------------------------------- tmp | |
80 | kHclDstZAll, // Distance between SPD1 clusters vs Z, all cl | |
81 | kHclDstPhiAll, // Distance between SPD1 clusters vs phi, all cl | |
82 | kHclDstZUsed, // Distance between SPD1 clusters vs Z, used-unused cl | |
83 | kHclDstPhiUsed, // Distance between SPD1 clusters vs phi, used-unused cl | |
84 | //-------------------------------------- | |
85 | // This MUST be last one: this is just beginning of many histos (one per bin) | |
86 | kHZVEtaPrimMC // Zv vs eta for all primary tracks (true MC multiplicity) | |
87 | }; // custom histos | |
88 | ||
89 | // bins for saved parameters | |
90 | enum {kDummyBin, | |
91 | kEvTot0, // events read | |
92 | kEvTot, // events read after vertex quality selection | |
93 | kOneUnit, // just 1 to track primate merges | |
94 | kNWorkers, // n workers | |
95 | // | |
96 | kCentVar, // cetrality var. used | |
97 | kDPhi, // dphi window | |
98 | kDTht, // dtheta window | |
99 | kNStd, // N.standard deviations to keep | |
100 | kPhiShift, // bending shift | |
101 | kThtS2, // is dtheta scaled by 1/sin^2 | |
102 | kThtCW, // on top of w.dist cut cut also on 1 sigma dThetaX | |
103 | kPhiOvl, // overlap params | |
104 | kZEtaOvl, // overlap params | |
105 | kNoOvl, // flag that overlap are suppressed | |
106 | // | |
107 | kPhiRot, // rotation phi | |
108 | kInjScl, // injection scaling | |
109 | kEtaMin, // eta cut | |
110 | kEtaMax, // eta cut | |
111 | kZVMin, // min ZVertex to process | |
112 | kZVMax, // max ZVertex to process | |
113 | // | |
114 | kDPiSCut, // cut on dphi used to extract signal (when WDist is used in analysis, put it equal to kDPhi | |
115 | kNStdCut, // cut on weighted distance (~1) used to extract signal | |
116 | // | |
117 | kMCV0Scale, // scaling value for V0 in MC | |
118 | // | |
119 | // here we put entries for each mult.bin | |
120 | kBinEntries = 50, | |
121 | kEvProcData, // events with data mult.object (ESD or reco) | |
122 | kEvProcInj, // events Injected, total | |
123 | kEvProcRot, // events Rotated | |
124 | kEvProcMix, // events Mixed | |
125 | kEntriesPerBin | |
126 | }; | |
127 | ||
128 | // | |
c79a7c1c | 129 | AliTrackletTaskMultipp(const char *name = "AliTrackletTaskMultipp"); |
130 | virtual ~AliTrackletTaskMultipp(); | |
c15ec07e | 131 | |
132 | virtual void UserCreateOutputObjects(); | |
133 | virtual void UserExec(Option_t *option); | |
134 | virtual void Terminate(Option_t *); | |
135 | ||
136 | void SetUseCentralityVar(Int_t v=kCentV0M) {fUseCentralityVar = v;} | |
137 | void SetUseMC(Bool_t mc = kFALSE) {fUseMC = mc;} | |
138 | void SetCheckReconstructables(Bool_t c=kFALSE) {fCheckReconstructables = c;} | |
139 | TObjArray* BookHistosSet(const char* pref, UInt_t selHistos=0xffffffff); | |
140 | TObjArray* BookCustomHistos(); | |
141 | void AddHisto(TObjArray* histos, TObject* h, Int_t at=-1); | |
142 | void FillHistosSet(TObjArray* histos, double eta, /*double phi,double theta,*/double dphi,double dtheta,double dthetaX,double dist); | |
143 | // RS | |
144 | void SetNStdDev(Float_t f=1.) {fNStdDev = f<1e-5 ? 1e-5:f;} | |
145 | void SetScaleDThetaBySin2T(Bool_t v=kFALSE) {fScaleDTBySin2T = v;} | |
146 | void SetCutOnDThetaX(Bool_t v=kFALSE) {fCutOnDThetaX = v;} | |
147 | void SetPhiWindow(float w=0.08) {fDPhiWindow = w<1e-5 ? 1e-5:w;} | |
148 | void SetThetaWindow(float w=0.025) {if (w<0) fCutOnDThetaX=kTRUE; fDThetaWindow = TMath::Abs(w)<1e-5 ? 1e-5:TMath::Abs(w);} | |
149 | void SetPhiShift(float w=0.0045) {fDPhiShift = w;} | |
150 | void SetPhiOverlapCut(float w=0.005) {fPhiOverlapCut = w;} | |
151 | void SetZetaOverlapCut(float w=0.05) {fZetaOverlap = w;} | |
152 | void SetPhiRot(float w=0) {fPhiRot = w;} | |
153 | void SetInjScale(Float_t s=1.) {fInjScale = s>0? s:1.;} | |
154 | void SetRemoveOverlaps(Bool_t w=kFALSE) {fRemoveOverlaps = w;} | |
155 | // | |
156 | void SetDPhiSCut(Float_t c=0.06) {fDPhiSCut = c;} | |
157 | void SetNStdCut(Float_t c=1.0) {fNStdCut = c;} | |
158 | void SetScaleMCV0(Float_t s=1.0) {fMCV0Scale = s;} | |
159 | // | |
160 | void SetEtaCut(Float_t etaCut) {fEtaMax = TMath::Abs(etaCut); fEtaMin= -fEtaMax;} | |
161 | void SetEtaMin(Float_t etaMin) {fEtaMin = etaMin;} | |
162 | void SetEtaMax(Float_t etaMax) {fEtaMax = etaMax;} | |
163 | void SetZVertexMin(Float_t z) {fZVertexMin = z;} | |
164 | void SetZVertexMax(Float_t z) {fZVertexMax = z;} | |
165 | // | |
166 | Bool_t GetDoNormalReco() const {return fDoNormalReco;} | |
167 | Bool_t GetDoInjection() const {return fDoInjection;} | |
168 | Bool_t GetDoRotation() const {return fDoRotation;} | |
169 | Bool_t GetDoMixing() const {return fDoMixing;} | |
170 | // | |
171 | void SetDoNormalReco(Bool_t v=kTRUE) {fDoNormalReco = v;} | |
172 | void SetDoInjection(Bool_t v=kTRUE) {fDoInjection = v;} | |
173 | void SetDoRotation(Bool_t v=kTRUE) {fDoRotation = v;} | |
174 | void SetDoMixing(Bool_t v=kTRUE) {fDoMixing = v;} | |
175 | // | |
176 | // | |
177 | protected: | |
178 | void InitMultReco(); | |
179 | Bool_t HaveCommonParent(const float* clLabs0,const float* clLabs1); | |
180 | void FillHistos(Int_t type, const AliMultiplicity* mlt); | |
181 | void FillMCPrimaries(); | |
182 | void FillSpecies(Int_t primsec, Int_t id); | |
183 | void FillClusterInfo(); | |
184 | void FillClusterInfoFromMult(const AliMultiplicity* mlt, double zVertex); | |
185 | void FillClusterAutoCorrelationFromMult(const AliMultiplicity* mlt, double zVertex); | |
186 | Int_t GetPdgBin(Int_t pdgCode); | |
187 | void CheckReconstructables(); | |
188 | Int_t GetCentralityBin(Float_t percentile) const; | |
189 | // | |
190 | protected: | |
191 | TList* fOutput; // output list send on output slot 1 | |
192 | // | |
193 | Bool_t fDoNormalReco; // do normal reco | |
194 | Bool_t fDoInjection; // do injection | |
195 | Bool_t fDoRotation; // do rotation | |
196 | Bool_t fDoMixing; // do mixing | |
197 | // | |
c79a7c1c | 198 | Bool_t fUseMC; // flag of MC processing |
199 | Bool_t fCheckReconstructables; // request check | |
c15ec07e | 200 | // |
201 | TObjArray* fHistosTrData; //! all tracklets in data | |
202 | TObjArray* fHistosTrInj; //! injected | |
203 | TObjArray* fHistosTrRot; //! rotated | |
204 | TObjArray* fHistosTrMix; //! mixed | |
205 | // | |
206 | TObjArray* fHistosTrPrim; //! primary | |
207 | TObjArray* fHistosTrSec; //! secondary | |
208 | TObjArray* fHistosTrComb; //! combinatorials | |
209 | TObjArray* fHistosTrCombU; //! combinatorials uncorrelated | |
210 | // | |
211 | TObjArray* fHistosTrRcblPrim; //! Primary Reconstructable | |
212 | TObjArray* fHistosTrRcblSec; //! Secondary Reconstructable | |
213 | TObjArray* fHistosCustom; //! custom histos | |
214 | // | |
215 | // Settings for the reconstruction | |
216 | // tracklet reco settings | |
217 | Float_t fEtaMin; // histos filled only for this eta range | |
218 | Float_t fEtaMax; // histos filled only for this eta range | |
219 | Float_t fZVertexMin; // min Z vtx to process | |
220 | Float_t fZVertexMax; // max Z vtx to process | |
221 | // | |
222 | Bool_t fScaleDTBySin2T; // request dTheta scaling by 1/sin^2(theta) | |
223 | Bool_t fCutOnDThetaX; // if true, apart from NStdDev cut apply also the cut on dThetaX | |
224 | Float_t fNStdDev; // cut on weighted distance | |
225 | Float_t fDPhiWindow; // max dPhi | |
226 | Float_t fDThetaWindow; // max dTheta | |
227 | Float_t fDPhiShift; // mean bend | |
228 | Float_t fPhiOverlapCut; // overlaps cut in phi | |
229 | Float_t fZetaOverlap; // overlaps cut in Z | |
230 | Float_t fPhiRot; // rotate L1 wrt L2 | |
231 | Float_t fInjScale; // scaling factor for injection | |
232 | Bool_t fRemoveOverlaps; // request overlaps removal | |
233 | // | |
234 | Float_t fDPhiSCut; // cut on signal dphiS | |
235 | Float_t fNStdCut; // cut on signal weighted distance | |
236 | Float_t fMCV0Scale; // scaling factor for V0 in MC | |
237 | // | |
238 | AliITSMultRecBg *fMultReco; //! mult.reco object | |
239 | TTree* fRPTree; //! tree of recpoints | |
240 | TTree* fRPTreeMix; //! tree of recpoints for mixing | |
241 | AliStack* fStack; //! MC stack | |
c79a7c1c | 242 | AliMCEvent* fMCevent; //! MC Event |
c15ec07e | 243 | Float_t fESDVtx[3]; // ESD vertex |
244 | // | |
245 | Float_t fNPart; // number of participant pairs from MC | |
246 | Float_t fNBColl; // number of bin. collision from MC | |
247 | Int_t fCurrCentBin; // current centrality bin | |
248 | Int_t fNCentBins; // N of mult bins | |
249 | Int_t fUseCentralityVar; // what is used to determine the centrality | |
250 | // | |
251 | static const Float_t fgkCentPerc[]; //! centrality in percentiles | |
252 | // | |
c79a7c1c | 253 | static const char* fgkCentSelName[]; //!centrality types |
c15ec07e | 254 | static const char* fgkPDGNames[]; //!pdg names |
255 | static const Int_t fgkPDGCodes[]; //!pdg codes | |
256 | // | |
257 | private: | |
c79a7c1c | 258 | AliTrackletTaskMultipp(const AliTrackletTaskMultipp&); // not implemented |
259 | AliTrackletTaskMultipp& operator=(const AliTrackletTaskMultipp&); // not implemented | |
c15ec07e | 260 | |
c79a7c1c | 261 | ClassDef(AliTrackletTaskMultipp, 1); |
c15ec07e | 262 | }; |
263 | ||
264 | ||
265 | #endif |