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Commit | Line | Data |
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1c44b663 | 1 | //DEFINITION OF A FEW CONSTANTS |
ec5288c3 | 2 | const Double_t ymin = -1.2 ; |
3 | const Double_t ymax = 1.2 ; | |
4 | const Double_t cosmin = -0.7; | |
1c44b663 | 5 | const Double_t cosmax = 1.05; |
6 | const Double_t cTmin = 0; // micron | |
7 | const Double_t cTmax = 500; // micron | |
1c44b663 | 8 | const Double_t phimin = 0.0; |
1c44b663 | 9 | const Int_t mintrackrefsTPC = 2 ; |
10 | const Int_t mintrackrefsITS = 3 ; | |
11 | const Int_t charge = 1 ; | |
12 | const Int_t minclustersTPC = 50 ; | |
13 | // cuts | |
14 | const Double_t ptmin = 0.1; | |
15 | const Double_t ptmax = 9999.; | |
16 | const Double_t etamin = -0.9; | |
17 | const Double_t etamax = 0.9; | |
ec5288c3 | 18 | const Double_t zvtxmin = -15; |
19 | const Double_t zvtxmax = 15; | |
1c44b663 | 20 | const Int_t minITSClusters = 5; |
21 | ||
ec5288c3 | 22 | const Float_t centmin_0_10 = 0.; |
23 | const Float_t centmax_0_10 = 10.; | |
24 | const Float_t centmin_10_100 = 10.; | |
25 | const Float_t centmax_10_100 = 100.; | |
1c44b663 | 26 | const Float_t centmax = 100.; |
27 | const Float_t fakemin = -0.5; | |
28 | const Float_t fakemax = 2.5.; | |
1c44b663 | 29 | const Double_t distTwoPartmin=0; |
30 | const Double_t distTwoPartmax=600; | |
1c44b663 | 31 | const Double_t dispVtxmin = 0; |
32 | const Double_t dispVtxmax = 600; | |
1c44b663 | 33 | const Double_t sumd02min = 0.; |
34 | const Double_t sumd02max = 50000.; | |
ec5288c3 | 35 | const Float_t cosminXY = 0.95; |
36 | const Float_t cosmaxXY = 1.0; | |
37 | const Float_t normDecLXYmin = 0; | |
38 | const Float_t normDecLXYmax = 20; | |
39 | const Float_t multmin_0_20 = 0; | |
40 | const Float_t multmax_0_20 = 20; | |
41 | const Float_t multmin_20_50 = 20; | |
42 | const Float_t multmax_20_50 = 50; | |
43 | const Float_t multmin_50_102 = 50; | |
44 | const Float_t multmax_50_102 = 102; | |
45 | ||
1c44b663 | 46 | |
47 | //---------------------------------------------------- | |
48 | ||
ec5288c3 | 49 | //AliCFTaskVertexingHF *AddTaskCFVertexingHF3ProngLc(const char* cutFile = "./cuts4LctopKpi.root", Int_t configuration = AliCFTaskVertexingHF::kSnail, Bool_t isKeepDfromB=kFALSE, Bool_t isKeepDfromBOnly=kFALSE, Int_t pdgCode = 4122, Char_t isSign = 2) |
50 | AliCFContainer *AddTaskCFVertexingHF3ProngLc(const char* cutFile = "./cuts4LctopKpi.root", Int_t configuration = AliCFTaskVertexingHF::kSnail, Bool_t isKeepDfromB=kFALSE, Bool_t isKeepDfromBOnly=kFALSE, Int_t pdgCode = 4122, Char_t isSign = 2) | |
1c44b663 | 51 | { |
52 | printf("Addig CF task using cuts from file %s\n",cutFile); | |
ec5288c3 | 53 | if (configuration == AliCFTaskVertexingHF::kSnail){ |
54 | printf("The configuration is set to be SLOW --> all the variables will be used to fill the CF\n"); | |
55 | } | |
56 | else if (configuration == AliCFTaskVertexingHF::kCheetah){ | |
57 | printf("The configuration is set to be FAST --> using only pt, y, ct, phi, zvtx, centrality, fake, multiplicity to fill the CF\n"); | |
58 | } | |
59 | else{ | |
60 | printf("The configuration is not defined! returning\n"); | |
61 | return; | |
62 | } | |
63 | ||
64 | gSystem->Sleep(2000); | |
65 | ||
1c44b663 | 66 | // isSign = 0 --> D0 only |
67 | // isSign = 1 --> D0bar only | |
68 | // isSign = 2 --> D0 + D0bar | |
69 | ||
70 | TString expected; | |
71 | if (isSign == 0 && pdgCode < 0){ | |
72 | AliError(Form("Error setting PDG code (%d) and sign (0 --> particle (%d) only): they are not compatible, returning",pdgCode)); | |
73 | return 0x0; | |
74 | } | |
75 | else if (isSign == 1 && pdgCode > 0){ | |
76 | AliError(Form("Error setting PDG code (%d) and sign (1 --> antiparticle (%d) only): they are not compatible, returning",pdgCode)); | |
77 | return 0x0; | |
78 | } | |
79 | else if (isSign > 2 || isSign < 0){ | |
80 | AliError(Form("Sign not valid (%d, possible values are 0, 1, 2), returning")); | |
81 | return 0x0; | |
82 | } | |
ec5288c3 | 83 | |
1c44b663 | 84 | TFile* fileCuts = new TFile(cutFile); |
85 | AliRDHFCutsLctopKpi *cutsLctopKpi = (AliRDHFCutsLctopKpi*)fileCuts->Get("LctopKpiProdCuts"); | |
86 | ||
87 | // check that the fKeepD0fromB flag is set to true when the fKeepD0fromBOnly flag is true | |
88 | // for now the binning is the same than for all D's | |
89 | if(isKeepDfromBOnly) isKeepDfromB = true; | |
90 | ||
1c44b663 | 91 | /* |
92 | Double_t ptmin_0_4; | |
93 | Double_t ptmax_0_4; | |
94 | Double_t ptmin_4_8; | |
95 | Double_t ptmax_4_8; | |
96 | Double_t ptmin_8_10; | |
97 | Double_t ptmax_8_10; | |
98 | ||
99 | if(!isKeepDfromB){ | |
100 | ptmin_0_4 = 0.0 ; | |
101 | ptmax_0_4 = 4.0 ; | |
102 | ptmin_4_8 = 4.0 ; | |
103 | ptmax_4_8 = 8.0 ; | |
104 | ptmin_8_10 = 8.0 ; | |
105 | ptmax_8_10 = 10.0 ; | |
106 | } else{ | |
107 | ptmin_0_4 = 0.0 ; | |
108 | ptmax_0_4 = 3.0 ; | |
109 | ptmin_4_8 = 3.0 ; | |
110 | ptmax_4_8 = 5.0 ; | |
111 | ptmin_8_10 = 5.0 ; | |
112 | ptmax_8_10 = 10.0 ; | |
113 | } | |
114 | */ | |
115 | ||
116 | //CONTAINER DEFINITION | |
117 | Info("AliCFTaskVertexingHF","SETUP CONTAINER"); | |
1c44b663 | 118 | |
119 | const Double_t phimax = 2*TMath::Pi(); | |
120 | ||
121 | //Setting up the container grid... | |
122 | UInt_t nstep = 10; //number of selection steps: MC with limited acceptance, MC, Acceptance, Vertex, Refit, Reco (no cuts), RecoAcceptance, RecoITSClusters (RecoAcceptance included), RecoPPR (RecoAcceptance+RecoITSCluster included), RecoPID | |
ec5288c3 | 123 | // const Int_t nbinpt_0_4 = 8 ; //bins in pt from 0 to 4 GeV |
124 | // const Int_t nbinpt_4_8 = 4 ; //bins in pt from 4 to 8 GeV | |
125 | // const Int_t nbinpt_8_10 = 1 ; //bins in pt from 8 to 10 GeV | |
1c44b663 | 126 | |
127 | /* | |
ec5288c3 | 128 | Int_t nbinpt_0_4; |
129 | Int_t nbinpt_4_8; | |
130 | Int_t nbinpt_8_10; | |
1c44b663 | 131 | if (!isKeepDfromB){ |
ec5288c3 | 132 | nbinpt_0_4 = 8 ; //bins in pt from 0 to 4 GeV |
133 | nbinpt_4_8 = 4 ; //bins in pt from 4 to 8 GeV | |
134 | nbinpt_8_10 = 1 ; //bins in pt from 8 to 10 GeV | |
1c44b663 | 135 | }else{ |
ec5288c3 | 136 | nbinpt_0_4 = 3 ; //bins in pt from 0 to 3 GeV |
137 | nbinpt_4_8 = 1 ; //bins in pt from 3 to 5 GeV | |
138 | nbinpt_8_10 = 1 ; //bins in pt from 5 to 10 GeV | |
1c44b663 | 139 | } |
140 | */ | |
ec5288c3 | 141 | const Int_t nbinpt = cutsLctopKpi->GetNPtBins(); // bins in pT |
142 | printf("pT: nbin (from cuts file) = %d\n",nbinpt); | |
143 | const Int_t nbiny = 24 ; //bins in y | |
144 | const Int_t nbinphi = 18 ; //bins in phi | |
145 | const Int_t nbincT = 25 ; //bins in cT | |
146 | const Int_t nbinpointing = 350 ; //bins in cosPointingAngle | |
147 | const Int_t nbinpTpi_0_4 = 8 ; //bins in ptPi from 0 to 4 GeV | |
148 | const Int_t nbinpTpi_4_8 = 4 ; //bins in ptPi from 4 to 8 GeV | |
149 | const Int_t nbinpTpi_8_10 = 1 ; //bins in ptPi from 8 to 10 GeV | |
150 | const Int_t nbinpTk_0_4 = 8 ; //bins in ptKa from 0 to 4 GeV | |
151 | const Int_t nbinpTk_4_8 = 4 ; //bins in ptKa from 4 to 8 GeV | |
152 | const Int_t nbinpTk_8_10 = 1 ; //bins in ptKa from 8 to 10 GeV | |
153 | const Int_t nbinpTpi2_0_4 = 8 ; //bins in ptpi2 from 0 to 4 GeV | |
154 | const Int_t nbinpTpi2_4_8 = 4 ; //bins in ptpi2 from 4 to 8 GeV | |
155 | const Int_t nbinpTpi2_8_10 = 1 ; //bins in ptpi2 from 8 to 10 GeV | |
156 | const Int_t nbinzvtx = 30 ; //bins in z vertex | |
157 | const Int_t nbincent = 11; //bins in centrality | |
158 | const Int_t nbincent_0_10 = 2; //bins in centrality between 0 and 10 | |
159 | const Int_t nbincent_10_100 = 9; //bins in centrality between 10 and 100 | |
160 | const Int_t nbinfake = 3; //bins in fake | |
161 | const Int_t nbindist12 = 10; //bins dist12 | |
162 | const Int_t nbindist23 = 10; //bins dist23 | |
163 | const Int_t nbinsigmaVtx = 10; //bin sigmaVtx | |
164 | const Int_t nbinsumd02 = 10; //bin sumD0^2 | |
165 | const Int_t nbinpointingXY = 50; //bins in cosPointingAngleXY | |
166 | const Int_t nbinnormDecayLXY = 20; //bins in NormDecayLengthXY | |
167 | const Int_t nbinmult = 48; //bins in multiplicity (total number) | |
168 | const Int_t nbinmult_0_20 = 20; //bins in multiplicity between 0 and 20 | |
169 | const Int_t nbinmult_20_50 = 15; //bins in multiplicity between 20 and 50 | |
170 | const Int_t nbinmult_50_102 = 13; //bins in multiplicity between 50 and 102 | |
171 | ||
172 | //the sensitive variables, their indices | |
173 | const UInt_t ipT = 0; | |
174 | const UInt_t iy = 1; | |
175 | const UInt_t iphi = 2; | |
176 | const UInt_t icT = 3; | |
177 | const UInt_t ipointing = 4; | |
178 | const UInt_t ipTpi = 5; | |
179 | const UInt_t ipTk = 6; | |
180 | const UInt_t ipTpi2 = 7; | |
181 | const UInt_t izvtx = 8; | |
182 | const UInt_t icent = 9; | |
183 | const UInt_t ifake = 10; | |
184 | const UInt_t idist12 = 11; | |
185 | const UInt_t idist23 = 12; | |
186 | const UInt_t isigmaVtx = 13; | |
187 | const UInt_t isumd02 = 14; | |
188 | const UInt_t ipointingXY = 15; | |
189 | const UInt_t inormDecayLXY = 16; | |
190 | const UInt_t imult = 17; | |
191 | ||
192 | const Int_t nvarTot = 18 ; //number of variables on the grid:pt, y, cosThetaStar, pTpi, pTk, cT, dca, d0pi, d0K, d0xd0, cosPointingAngle, phi, zvtx, centrality, fake, cosPointingAngleXY, normDecayLengthXY, multiplicity | |
1c44b663 | 193 | |
194 | //arrays for the number of bins in each dimension | |
ec5288c3 | 195 | Int_t iBin[nvarTot]; |
196 | //iBin[ipT]=nbinpt_0_4+nbinpt_4_8+nbinpt_8_10; | |
197 | iBin[ipT]=nbinpt; | |
198 | iBin[iy]=nbiny; | |
199 | iBin[iphi]=nbinphi; | |
200 | // iBin[icT]=nbincT_0_4+nbincT_4_8+nbincT_8_10; | |
201 | //iBin[4]=nbinpointing_0_4+nbinpointing_4_8+nbinpointing_8_10; | |
202 | iBin[icT]=nbincT; | |
203 | iBin[ipointing]=nbinpointing; | |
204 | iBin[ipTpi]=nbinpt; | |
205 | iBin[ipTk]=nbinpt; | |
206 | iBin[ipTpi2]=nbinpt; | |
207 | iBin[izvtx]=nbinzvtx; | |
208 | iBin[icent]=nbincent; | |
209 | iBin[ifake]=nbinfake; | |
210 | iBin[idist12]=nbindist12; | |
211 | iBin[idist23]=nbindist23; | |
212 | iBin[isigmaVtx]=nbinsigmaVtx; | |
213 | iBin[isumd02]=nbinsumd02; | |
214 | iBin[ipointingXY]=nbinpointingXY; | |
215 | iBin[inormDecayLXY]=nbinnormDecayLXY; | |
216 | iBin[imult]=nbinmult; | |
217 | ||
1c44b663 | 218 | //arrays for lower bounds : |
ec5288c3 | 219 | Double_t *binLimpT=new Double_t[iBin[ipT]+1]; |
220 | Double_t *binLimy=new Double_t[iBin[iy]+1]; | |
221 | Double_t *binLimphi=new Double_t[iBin[iphi]+1]; | |
222 | Double_t *binLimcT=new Double_t[iBin[icT]+1]; | |
223 | Double_t *binLimpointing=new Double_t[iBin[ipointing]+1]; | |
224 | Double_t *binLimpTpi=new Double_t[iBin[ipTpi]+1]; | |
225 | Double_t *binLimpTk=new Double_t[iBin[ipTk]+1]; | |
226 | Double_t *binLimpTpi2=new Double_t[iBin[ipTpi2]+1]; | |
227 | Double_t *binLimzvtx=new Double_t[iBin[izvtx]+1]; | |
228 | Double_t *binLimcent=new Double_t[iBin[icent]+1]; | |
229 | Double_t *binLimfake=new Double_t[iBin[ifake]+1]; | |
230 | Double_t *binLimdist12=new Double_t[iBin[idist12]+1]; | |
231 | Double_t *binLimdist23=new Double_t[iBin[idist23]+1]; | |
232 | Double_t *binLimsigmaVtx=new Double_t[iBin[isigmaVtx]+1]; | |
233 | Double_t *binLimsumd02=new Double_t[iBin[isumd02]+1]; | |
234 | Double_t *binLimpointingXY=new Double_t[iBin[ipointingXY]+1]; | |
235 | Double_t *binLimnormDecayLXY=new Double_t[iBin[inormDecayLXY]+1]; | |
236 | Double_t *binLimmult=new Double_t[iBin[imult]+1]; | |
1c44b663 | 237 | |
238 | // checking limits | |
239 | /* | |
ec5288c3 | 240 | if (ptmax_0_4 != ptmin_4_8) { |
241 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","max lim 1st range != min lim 2nd range, please check!"); | |
242 | } | |
243 | if (ptmax_4_8 != ptmin_8_10) { | |
244 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","max lim 2nd range != min lim 3rd range, please check!"); | |
245 | } | |
1c44b663 | 246 | */ |
247 | // values for bin lower bounds | |
248 | // pt | |
ec5288c3 | 249 | Float_t* floatbinLimpT = cutsLctopKpi->GetPtBinLimits(); |
250 | for (Int_t ibinpT = 0 ; ibinpT<iBin[ipT]+1; ibinpT++){ | |
251 | binLimpT[ibinpT] = (Double_t)floatbinLimpT[ibinpT]; | |
252 | binLimpTpi[ibinpT] = (Double_t)floatbinLimpT[ibinpT]; | |
253 | binLimpTk[ibinpT] = (Double_t)floatbinLimpT[ibinpT]; | |
254 | binLimpTpi2[ibinpT] = (Double_t)floatbinLimpT[ibinpT]; | |
1c44b663 | 255 | } |
ec5288c3 | 256 | for(Int_t i=0; i<=nbinpt; i++) printf("binLimpT[%d]=%f\n",i,binLimpT[i]); |
257 | ||
1c44b663 | 258 | /* |
ec5288c3 | 259 | for(Int_t i=0; i<=nbinpt_0_4; i++) binLimpT[i]=(Double_t)ptmin_0_4 + (ptmax_0_4-ptmin_0_4)/nbinpt_0_4*(Double_t)i ; |
260 | if (binLimpT[nbinpt_0_4] != ptmin_4_8) { | |
261 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 1st range - differs from expected!\n"); | |
262 | } | |
263 | for(Int_t i=0; i<=nbinpt_4_8; i++) binLimpT[i+nbinpt_0_4]=(Double_t)ptmin_4_8 + (ptmax_4_8-ptmin_4_8)/nbinpt_4_8*(Double_t)i ; | |
264 | if (binLimpT[nbinpt_0_4+nbinpt_4_8] != ptmin_8_10) { | |
265 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n"); | |
266 | } | |
267 | for(Int_t i=0; i<=nbinpt_8_10; i++) binLimpT[i+nbinpt_0_4+nbinpt_4_8]=(Double_t)ptmin_8_10 + (ptmax_8_10-ptmin_8_10)/nbinpt_8_10*(Double_t)i ; | |
1c44b663 | 268 | */ |
ec5288c3 | 269 | |
1c44b663 | 270 | // y |
ec5288c3 | 271 | for(Int_t i=0; i<=nbiny; i++) binLimy[i]=(Double_t)ymin + (ymax-ymin) /nbiny*(Double_t)i ; |
272 | ||
1c44b663 | 273 | // Phi |
ec5288c3 | 274 | for(Int_t i=0; i<=nbinphi; i++) binLimphi[i]=(Double_t)phimin + (phimax-phimin) /nbinphi*(Double_t)i ; |
275 | ||
1c44b663 | 276 | // cT |
ec5288c3 | 277 | for(Int_t i=0; i<=nbincT; i++) binLimcT[i]=(Double_t)cTmin + (cTmax-cTmin) /nbincT*(Double_t)i ; |
278 | ||
1c44b663 | 279 | // cosPointingAngle |
ec5288c3 | 280 | for(Int_t i=0; i<=nbinpointing; i++) binLimpointing[i]=(Double_t)cosmin + (cosmax-cosmin) /nbinpointing*(Double_t)i ; |
1c44b663 | 281 | |
282 | /* | |
283 | // ptPi | |
ec5288c3 | 284 | for(Int_t i=0; i<=nbincT_0_4; i++) binLimcT[i]=(Double_t)ptmin_0_4 + (ptmax_0_4-ptmin_0_4)/nbincT_0_4*(Double_t)i ; |
285 | if (binLimcT[nbincT_0_4] != ptmin_4_8) { | |
286 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for ptPi - 1st range - differs from expected!"); | |
1c44b663 | 287 | } |
ec5288c3 | 288 | for(Int_t i=0; i<=nbincT_4_8; i++) binLimcT[i+nbincT_0_4]=(Double_t)ptmin_4_8 + (ptmax_4_8-ptmin_4_8)/nbincT_4_8*(Double_t)i ; |
289 | if (binLimcT[nbincT_0_4+nbincT_4_8] != ptmin_8_10) { | |
290 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for ptPi - 2nd range - differs from expected!\n"); | |
1c44b663 | 291 | } |
ec5288c3 | 292 | for(Int_t i=0; i<=nbincT_8_10; i++) binLimcT[i+nbincT_0_4+nbincT_4_8]=(Double_t)ptmin_8_10 + (ptmax_8_10-ptmin_8_10)/nbincT_8_10*(Double_t)i ; |
293 | ||
1c44b663 | 294 | // ptKa |
ec5288c3 | 295 | for(Int_t i=0; i<=nbinpointing_0_4; i++) binLimpointing[i]=(Double_t)ptmin_0_4 + (ptmax_0_4-ptmin_0_4)/nbinpointing_0_4*(Double_t)i ; |
296 | if (binLimpointing[nbinpointing_0_4] != ptmin_4_8) { | |
297 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for ptKa - 1st range - differs from expected!"); | |
1c44b663 | 298 | } |
ec5288c3 | 299 | for(Int_t i=0; i<=nbinpointing_4_8; i++) binLimpointing[i+nbinpointing_0_4]=(Double_t)ptmin_4_8 + (ptmax_4_8-ptmin_4_8)/nbinpointing_4_8*(Double_t)i ; |
300 | if (binLimpointing[nbinpointing_0_4+nbinpointing_4_8] != ptmin_8_10) { | |
301 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for ptKa - 2nd range - differs from expected!\n"); | |
1c44b663 | 302 | } |
ec5288c3 | 303 | for(Int_t i=0; i<=nbinpointing_8_10; i++) binLimpointing[i+nbinpointing_0_4+nbinpointing_4_8]=(Double_t)ptmin_8_10 + (ptmax_8_10-ptmin_8_10)/nbinpointing_8_10*(Double_t)i ; |
1c44b663 | 304 | */ |
ec5288c3 | 305 | |
1c44b663 | 306 | // z Primary Vertex |
ec5288c3 | 307 | for(Int_t i=0; i<=nbinzvtx; i++) { |
308 | binLimzvtx[i]=(Double_t)zvtxmin + (zvtxmax-zvtxmin) /nbinzvtx*(Double_t)i ; | |
1c44b663 | 309 | } |
ec5288c3 | 310 | |
311 | // centrality | |
312 | for(Int_t i=0; i<=nbincent_0_10; i++) binLimcent[i]=(Double_t)centmin_0_10 + (centmax_0_10-centmin_0_10)/nbincent_0_10*(Double_t)i ; | |
313 | if (binLimcent[nbincent_0_10] != centmin_10_100) { | |
314 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for cent - 1st range - differs from expected!\n"); | |
1c44b663 | 315 | } |
ec5288c3 | 316 | for(Int_t i=0; i<=nbincent_10_100; i++) binLimcent[i+nbincent_0_10]=(Double_t)centmin_10_100 + (centmax_10_100-centmin_10_100)/nbincent_10_100*(Double_t)i ; |
1c44b663 | 317 | |
ec5288c3 | 318 | // fake |
319 | for(Int_t i=0; i<=nbinfake; i++) { | |
320 | binLimfake[i]=(Double_t)fakemin + (fakemax-fakemin)/nbinfake * (Double_t)i; | |
1c44b663 | 321 | } |
322 | ||
ec5288c3 | 323 | //dist12 |
324 | for(Int_t i=0; i<=nbindist12; i++) { | |
325 | binLimdist12[i]=(Double_t)distTwoPartmin + (distTwoPartmax-distTwoPartmin)/nbindist12 * (Double_t)i; | |
326 | } | |
327 | ||
328 | //dist23 | |
329 | for(Int_t i=0; i<=nbindist23; i++) { | |
330 | binLimdist23[i]=(Double_t)distTwoPartmin + (distTwoPartmax-distTwoPartmin)/nbindist23 * (Double_t)i; | |
331 | } | |
332 | ||
333 | //dispersion Vtx | |
334 | for(Int_t i=0; i<=nbinsigmaVtx; i++) { | |
335 | binLimsigmaVtx[i]=(Double_t)dispVtxmin + (dispVtxmax-dispVtxmin)/nbinsigmaVtx * (Double_t)i; | |
1c44b663 | 336 | } |
337 | ||
ec5288c3 | 338 | //sumd0^2 |
339 | for(Int_t i=0; i<=nbinsumd02; i++) { | |
340 | binLimsumd02[i]=(Double_t)sumd02min + (sumd02max-sumd02min)/nbinsumd02 * (Double_t)i; | |
1c44b663 | 341 | } |
342 | ||
ec5288c3 | 343 | // cosPointingAngleXY |
344 | for(Int_t i=0; i<=nbinpointingXY; i++) binLimpointingXY[i]=(Double_t)cosminXY + (cosmaxXY-cosminXY) /nbinpointingXY*(Double_t)i ; | |
345 | ||
346 | // normDecayLXY | |
347 | for(Int_t i=0; i<=nbinnormDecayLXY; i++) binLimnormDecayLXY[i]=(Double_t)normDecLXYmin + (normDecLXYmax-normDecLXYmin) /nbinnormDecayLXY*(Double_t)i ; | |
1c44b663 | 348 | |
ec5288c3 | 349 | // multiplicity |
350 | for(Int_t i=0; i<=nbinmult_0_20; i++) binLimmult[i]=(Double_t)multmin_0_20 + (multmax_0_20-multmin_0_20)/nbinmult_0_20*(Double_t)i ; | |
351 | if (binLimmult[nbinmult_0_20] != multmin_20_50) { | |
352 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for mult - 1st range - differs from expected!\n"); | |
353 | } | |
354 | for(Int_t i=0; i<=nbinmult_20_50; i++) binLimmult[i+nbinmult_0_20]=(Double_t)multmin_20_50 + (multmax_20_50-multmin_20_50)/nbinmult_20_50*(Double_t)i ; | |
355 | if (binLimmult[nbinmult_0_20+nbinmult_20_50] != multmin_50_102) { | |
356 | Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for mult - 2nd range - differs from expected!\n"); | |
357 | } | |
358 | for(Int_t i=0; i<=nbinmult_50_102; i++) binLimmult[i+nbinmult_0_20+nbinmult_20_50]=(Double_t)multmin_50_102 + (multmax_50_102-multmin_50_102)/nbinmult_50_102*(Double_t)i ; | |
359 | ||
1c44b663 | 360 | //one "container" for MC |
361 | TString nameContainer=""; | |
362 | if(!isKeepDfromB) { | |
ec5288c3 | 363 | nameContainer="CFHFccontainer0_3Prong_CommonFramework"; |
1c44b663 | 364 | } |
365 | else if(isKeepDfromBOnly){ | |
ec5288c3 | 366 | nameContainer="CFHFccontainer0DfromB_3Prong_CommonFramework"; |
1c44b663 | 367 | } |
368 | else { | |
ec5288c3 | 369 | nameContainer="CFHFccontainer0allD_3Prong_CommonFramework"; |
370 | } | |
1c44b663 | 371 | |
ec5288c3 | 372 | AliCFContainer* container; |
373 | if (configuration == AliCFTaskVertexingHF::kSnail){ | |
374 | container = new AliCFContainer(nameContainer,"container for tracks",nstep,nvarTot,iBin); | |
375 | //setting the bin limits | |
376 | printf("pt\n"); | |
377 | container -> SetBinLimits(ipT,binLimpT); | |
378 | printf("y\n"); | |
379 | container -> SetBinLimits(iy,binLimy); | |
380 | printf("Phi\n"); | |
381 | container -> SetBinLimits(iphi,binLimphi); | |
382 | printf("cT\n"); | |
383 | container -> SetBinLimits(icT,binLimcT); | |
384 | printf("pointing angle\n"); | |
385 | container -> SetBinLimits(ipointing,binLimpointing); | |
386 | printf("ptpi\n"); | |
387 | container -> SetBinLimits(ipTpi,binLimpTpi); | |
388 | printf("ptK\n"); | |
389 | container -> SetBinLimits(ipTk,binLimpTk); | |
390 | printf("ptpi2\n"); | |
391 | container -> SetBinLimits(ipTpi2,binLimpTpi2); | |
392 | printf("zvtx \n"); | |
393 | container -> SetBinLimits(izvtx,binLimzvtx); | |
394 | printf("cent\n"); | |
395 | container -> SetBinLimits(icent,binLimcent); | |
396 | printf("fake\n"); | |
397 | container -> SetBinLimits(ifake,binLimfake); | |
398 | printf("dist12\n"); | |
399 | container -> SetBinLimits(idist12,binLimdist12); | |
400 | printf("dist23\n"); | |
401 | container -> SetBinLimits(idist23,binLimdist23); | |
402 | printf("dispVtx\n"); | |
403 | container -> SetBinLimits(isigmaVtx,binLimsigmaVtx); | |
404 | printf("sumd0^2\n"); | |
405 | container -> SetBinLimits(isumd02,binLimsumd02); | |
406 | printf("pointingXY\n"); | |
407 | container -> SetBinLimits(ipointingXY,binLimpointingXY); | |
408 | printf("normDecayLXY\n"); | |
409 | container -> SetBinLimits(inormDecayLXY,binLimnormDecayLXY); | |
410 | printf("multiplicity\n"); | |
411 | container -> SetBinLimits(imult,binLimmult); | |
412 | ||
413 | container -> SetVarTitle(ipT,"pt"); | |
414 | container -> SetVarTitle(iy,"y"); | |
415 | container -> SetVarTitle(iphi, "phi"); | |
416 | container -> SetVarTitle(icT, "ct"); | |
417 | container -> SetVarTitle(ipointing, "pionting"); | |
418 | container -> SetVarTitle(ipTpi, "ptpi"); | |
419 | container -> SetVarTitle(ipTk, "ptK"); | |
420 | container -> SetVarTitle(ipTpi2, "ptpi2"); | |
421 | container -> SetVarTitle(izvtx, "zvtx"); | |
422 | container -> SetVarTitle(icent, "centrality"); | |
423 | container -> SetVarTitle(ifake, "fake"); | |
424 | container -> SetVarTitle(idist12, "dist12toVtx"); | |
425 | container -> SetVarTitle(idist23, "dist23toVtx"); | |
426 | container -> SetVarTitle(isigmaVtx, "dispertionToSecVtx"); | |
427 | container -> SetVarTitle(isumd02, "sumd0^2"); | |
428 | container -> SetVarTitle(ipointingXY, "piointingXY"); | |
429 | container -> SetVarTitle(inormDecayLXY, "normDecayLXY"); | |
430 | container -> SetVarTitle(imult, "multiplicity"); | |
431 | } | |
432 | else if (configuration == AliCFTaskVertexingHF::kCheetah){ | |
433 | //arrays for the number of bins in each dimension | |
434 | const Int_t nvar = 8; | |
435 | ||
436 | const UInt_t ipTFast = 0; | |
437 | const UInt_t iyFast = 1; | |
438 | const UInt_t icTFast = 2; | |
439 | const UInt_t iphiFast = 3; | |
440 | const UInt_t izvtxFast = 4; | |
441 | const UInt_t icentFast = 5; | |
442 | const UInt_t ifakeFast = 6; | |
443 | const UInt_t imultFast = 7; | |
444 | ||
445 | Int_t iBinFast[nvar]; | |
446 | iBinFast[ipTFast] = iBin[ipT]; | |
447 | iBinFast[iyFast] = iBin[iy]; | |
448 | iBinFast[icTFast] = iBin[icT]; | |
449 | iBinFast[iphiFast] = iBin[iphi]; | |
450 | iBinFast[izvtxFast] = iBin[izvtx]; | |
451 | iBinFast[icentFast] = iBin[icent]; | |
452 | iBinFast[ifakeFast] = iBin[ifake]; | |
453 | iBinFast[imultFast] = iBin[imult]; | |
454 | ||
455 | container = new AliCFContainer(nameContainer,"container for tracks",nstep,nvar,iBinFast); | |
456 | printf("pt\n"); | |
457 | container -> SetBinLimits(ipTFast,binLimpT); | |
458 | printf("y\n"); | |
459 | container -> SetBinLimits(iyFast,binLimy); | |
460 | printf("ct\n"); | |
461 | container -> SetBinLimits(icTFast,binLimcT); | |
462 | printf("phi\n"); | |
463 | container -> SetBinLimits(iphiFast,binLimphi); | |
464 | printf("zvtx\n"); | |
465 | container -> SetBinLimits(izvtxFast,binLimzvtx); | |
466 | printf("centrality\n"); | |
467 | container -> SetBinLimits(icentFast,binLimcent); | |
468 | printf("fake\n"); | |
469 | container -> SetBinLimits(ifakeFast,binLimfake); | |
470 | printf("multiplicity\n"); | |
471 | container -> SetBinLimits(imultFast,binLimmult); | |
472 | ||
473 | container -> SetVarTitle(ipTFast,"pt"); | |
474 | container -> SetVarTitle(iyFast,"y"); | |
475 | container -> SetVarTitle(icTFast, "ct"); | |
476 | container -> SetVarTitle(iphiFast, "phi"); | |
477 | container -> SetVarTitle(izvtxFast, "zvtx"); | |
478 | container -> SetVarTitle(icentFast, "centrality"); | |
479 | container -> SetVarTitle(ifakeFast, "fake"); | |
480 | container -> SetVarTitle(imultFast, "multiplicity"); | |
481 | } | |
482 | ||
483 | return container; | |
484 | ||
1c44b663 | 485 | container -> SetStepTitle(0, "MCLimAcc"); |
486 | container -> SetStepTitle(1, "MC"); | |
487 | container -> SetStepTitle(2, "MCAcc"); | |
488 | container -> SetStepTitle(3, "RecoVertex"); | |
489 | container -> SetStepTitle(4, "RecoRefit"); | |
490 | container -> SetStepTitle(5, "Reco"); | |
491 | container -> SetStepTitle(6, "RecoAcc"); | |
492 | container -> SetStepTitle(7, "RecoITSCluster"); | |
493 | container -> SetStepTitle(8, "RecoCuts"); | |
494 | container -> SetStepTitle(9, "RecoPID"); | |
495 | ||
1c44b663 | 496 | |
497 | //CREATE THE CUTS ----------------------------------------------- | |
498 | ||
499 | // Gen-Level kinematic cuts | |
500 | AliCFTrackKineCuts *mcKineCuts = new AliCFTrackKineCuts("mcKineCuts","MC-level kinematic cuts"); | |
501 | ||
502 | //Particle-Level cuts: | |
503 | AliCFParticleGenCuts* mcGenCuts = new AliCFParticleGenCuts("mcGenCuts","MC particle generation cuts"); | |
504 | Bool_t useAbsolute = kTRUE; | |
505 | if (isSign != 2){ | |
506 | useAbsolute = kFALSE; | |
507 | } | |
508 | mcGenCuts->SetRequirePdgCode(pdgCode, useAbsolute); // kTRUE set in order to include antiparticle | |
509 | mcGenCuts->SetAODMC(1); //special flag for reading MC in AOD tree (important) | |
510 | ||
511 | // Acceptance cuts: | |
512 | AliCFAcceptanceCuts* accCuts = new AliCFAcceptanceCuts("accCuts", "Acceptance cuts"); | |
513 | AliCFTrackKineCuts *kineAccCuts = new AliCFTrackKineCuts("kineAccCuts","Kine-Acceptance cuts"); | |
514 | kineAccCuts->SetPtRange(ptmin,ptmax); | |
515 | kineAccCuts->SetEtaRange(etamin,etamax); | |
516 | ||
517 | // Rec-Level kinematic cuts | |
518 | AliCFTrackKineCuts *recKineCuts = new AliCFTrackKineCuts("recKineCuts","rec-level kine cuts"); | |
519 | ||
520 | AliCFTrackQualityCuts *recQualityCuts = new AliCFTrackQualityCuts("recQualityCuts","rec-level quality cuts"); | |
521 | ||
522 | AliCFTrackIsPrimaryCuts *recIsPrimaryCuts = new AliCFTrackIsPrimaryCuts("recIsPrimaryCuts","rec-level isPrimary cuts"); | |
523 | ||
524 | printf("CREATE MC KINE CUTS\n"); | |
525 | TObjArray* mcList = new TObjArray(0) ; | |
526 | mcList->AddLast(mcKineCuts); | |
527 | mcList->AddLast(mcGenCuts); | |
528 | ||
529 | printf("CREATE ACCEPTANCE CUTS\n"); | |
530 | TObjArray* accList = new TObjArray(0) ; | |
531 | accList->AddLast(kineAccCuts); | |
532 | ||
533 | printf("CREATE RECONSTRUCTION CUTS\n"); | |
534 | TObjArray* recList = new TObjArray(0) ; // not used!! | |
535 | recList->AddLast(recKineCuts); | |
536 | recList->AddLast(recQualityCuts); | |
537 | recList->AddLast(recIsPrimaryCuts); | |
538 | ||
539 | TObjArray* emptyList = new TObjArray(0); | |
540 | ||
541 | //CREATE THE INTERFACE TO CORRECTION FRAMEWORK USED IN THE TASK | |
542 | printf("CREATE INTERFACE AND CUTS\n"); | |
543 | AliCFManager* man = new AliCFManager() ; | |
544 | man->SetParticleContainer(container); | |
545 | man->SetParticleCutsList(0 , mcList); // MC, Limited Acceptance | |
546 | man->SetParticleCutsList(1 , mcList); // MC | |
547 | man->SetParticleCutsList(2 , accList); // Acceptance | |
548 | man->SetParticleCutsList(3 , emptyList); // Vertex | |
549 | man->SetParticleCutsList(4 , emptyList); // Refit | |
550 | man->SetParticleCutsList(5 , emptyList); // AOD | |
551 | man->SetParticleCutsList(6 , emptyList); // AOD in Acceptance | |
552 | man->SetParticleCutsList(7 , emptyList); // AOD with required n. of ITS clusters | |
553 | man->SetParticleCutsList(8 , emptyList); // AOD Reco (PPR cuts implemented in Task) | |
554 | man->SetParticleCutsList(9 , emptyList); // AOD Reco PID | |
555 | ||
556 | // Get the pointer to the existing analysis manager via the static access method. | |
557 | //============================================================================== | |
558 | AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); | |
559 | if (!mgr) { | |
560 | ::Error("AddTaskCompareHF", "No analysis manager to connect to."); | |
561 | return NULL; | |
562 | } | |
563 | //CREATE THE TASK | |
564 | printf("CREATE TASK\n"); | |
565 | ||
566 | // create the task | |
567 | AliCFTaskVertexingHF *task = new AliCFTaskVertexingHF("AliCFTaskVertexingHF",cutsLctopKpi); | |
568 | task->SetFillFromGenerated(kFALSE); | |
569 | task->SetDecayChannel(32); | |
570 | task->SetUseWeight(kFALSE); | |
571 | task->SetCFManager(man); //here is set the CF manager | |
572 | task->SetSign(isSign); | |
ec5288c3 | 573 | task->SetCentralitySelection(kFALSE); |
574 | task->SetFakeSelection(0); | |
1c44b663 | 575 | task->SetRejectCandidateIfNotFromQuark(kTRUE); // put to false if you want to keep HIJING D0!! |
576 | task->SetUseMCVertex(kFALSE); // put to true if you want to do studies on pp | |
1c44b663 | 577 | if (isKeepDfromB && !isKeepDfromBOnly) task->SetDselection(2); |
578 | if (isKeepDfromB && isKeepDfromBOnly) task->SetDselection(1); | |
579 | ||
580 | Printf("***************** CONTAINER SETTINGS *****************"); | |
581 | Printf("decay channel = %d",(Int_t)task->GetDecayChannel()); | |
582 | Printf("FillFromGenerated = %d",(Int_t)task->GetFillFromGenerated()); | |
583 | Printf("Dselection = %d",(Int_t)task->GetDselection()); | |
584 | Printf("UseWeight = %d",(Int_t)task->GetUseWeight()); | |
585 | Printf("Sign = %d",(Int_t)task->GetSign()); | |
586 | Printf("Centrality selection = %d",(Int_t)task->GetCentralitySelection()); | |
587 | Printf("Fake selection = %d",(Int_t)task->GetFakeSelection()); | |
588 | Printf("RejectCandidateIfNotFromQuark selection = %d",(Int_t)task->GetRejectCandidateIfNotFromQuark()); | |
589 | Printf("UseMCVertex selection = %d",(Int_t)task->GetUseMCVertex()); | |
590 | Printf("***************END CONTAINER SETTINGS *****************\n"); | |
ec5288c3 | 591 | |
1c44b663 | 592 | //-----------------------------------------------------------// |
593 | // create correlation matrix for unfolding - only eta-pt // | |
594 | //-----------------------------------------------------------// | |
595 | ||
596 | Bool_t AcceptanceUnf = kTRUE; // unfold at acceptance level, otherwise PPR | |
597 | ||
598 | Int_t thnDim[4]; | |
599 | ||
600 | //first half : reconstructed | |
601 | //second half : MC | |
602 | ||
ec5288c3 | 603 | thnDim[0] = iBin[ipT]; |
604 | thnDim[2] = iBin[ipT]; | |
605 | thnDim[1] = iBin[iy]; | |
606 | thnDim[3] = iBin[iy]; | |
1c44b663 | 607 | |
608 | TString nameCorr=""; | |
609 | if(!isKeepDfromB) { | |
610 | nameCorr="CFHFcorr0_3Prong_CommonFramework"; | |
611 | } | |
612 | else if(isKeepDfromBOnly){ | |
613 | nameCorr= "CFHFcorr0KeepDfromBOnly_3Prong_CommonFramework"; | |
614 | } | |
615 | else { | |
616 | nameCorr="CFHFcorr0allD_3Prong_CommonFramework"; | |
617 | } | |
618 | ||
619 | THnSparseD* correlation = new THnSparseD(nameCorr,"THnSparse with correlations",4,thnDim); | |
620 | Double_t** binEdges = new Double_t[2]; | |
621 | ||
622 | // set bin limits | |
623 | ||
ec5288c3 | 624 | binEdges[0]= binLimpT; |
625 | binEdges[1]= binLimy; | |
1c44b663 | 626 | |
627 | correlation->SetBinEdges(0,binEdges[0]); | |
628 | correlation->SetBinEdges(2,binEdges[0]); | |
629 | ||
630 | correlation->SetBinEdges(1,binEdges[1]); | |
631 | correlation->SetBinEdges(3,binEdges[1]); | |
632 | ||
633 | correlation->Sumw2(); | |
634 | ||
635 | // correlation matrix ready | |
636 | //------------------------------------------------// | |
637 | ||
638 | task->SetCorrelationMatrix(correlation); // correlation matrix for unfolding | |
639 | ||
640 | // Create and connect containers for input/output | |
641 | ||
642 | // ------ input data ------ | |
643 | AliAnalysisDataContainer *cinput0 = mgr->GetCommonInputContainer(); | |
644 | ||
645 | // ----- output data ----- | |
646 | ||
647 | TString outputfile = AliAnalysisManager::GetCommonFileName(); | |
648 | TString output1name="", output2name="", output3name="", output4name="";; | |
649 | output2name=nameContainer; | |
650 | output3name=nameCorr; | |
651 | if(!isKeepDfromB) { | |
652 | outputfile += ":PWG3_D2H_CFtaskLctopKpi_CommonFramework"; | |
653 | output1name="CFHFchist0_3Prong_CommonFramework"; | |
654 | } | |
655 | else if(isKeepDfromBOnly){ | |
656 | outputfile += ":PWG3_D2H_CFtaskLctopKpiKeepDfromBOnly_CommonFramework"; | |
657 | output1name="CFHFchist0DfromB_3Prong_CommonFramework"; | |
658 | } | |
659 | else{ | |
660 | outputfile += ":PWG3_D2H_CFtaskLctopKpiKeepDfromB_CommonFramework"; | |
661 | output1name="CFHFchist0allD_3Prong_CommonFramework"; | |
662 | } | |
663 | ||
664 | output4name= "Cuts_3Prong_CommonFramework"; | |
665 | ||
666 | //now comes user's output objects : | |
667 | // output TH1I for event counting | |
668 | AliAnalysisDataContainer *coutput1 = mgr->CreateContainer(output1name, TH1I::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data()); | |
669 | // output Correction Framework Container (for acceptance & efficiency calculations) | |
670 | AliAnalysisDataContainer *coutput2 = mgr->CreateContainer(output2name, AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data()); | |
671 | // Unfolding - correlation matrix | |
672 | AliAnalysisDataContainer *coutput3 = mgr->CreateContainer(output3name, THnSparseD::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data()); | |
673 | AliAnalysisDataContainer *coutput4 = mgr->CreateContainer(output4name, AliRDHFCuts::Class(),AliAnalysisManager::kOutputContainer, outputfile.Data()); | |
674 | ||
675 | mgr->AddTask(task); | |
676 | ||
677 | mgr->ConnectInput(task,0,mgr->GetCommonInputContainer()); | |
678 | mgr->ConnectOutput(task,1,coutput1); | |
679 | mgr->ConnectOutput(task,2,coutput2); | |
680 | mgr->ConnectOutput(task,3,coutput3); | |
681 | mgr->ConnectOutput(task,4,coutput4); | |
682 | ||
683 | return task; | |
ec5288c3 | 684 | } |
1c44b663 | 685 |