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1 | #include <Riostream.h> | |
2 | #include <TFile.h> | |
3 | #include <AliRDHFCutsLctoV0.h> | |
4 | #include <AliAODPidHF.h> | |
5 | #include <TClonesArray.h> | |
6 | #include <TParameter.h> | |
7 | #include <TF1.h> | |
8 | ||
9 | ||
10 | //Use: | |
11 | //Set hard coded commentet with //set this!! | |
12 | // root[] .L makeInput...C++ | |
13 | // root[] makeInputAliAnalysisTaskSE...() | |
14 | //similar macros for D mesons as well as for Lc->3prongs | |
15 | ||
16 | //Author: Annalisa De Caro - decaro@sa.infn.it | |
17 | ||
18 | ||
19 | //macro to make a .root file which contains an AliRDHFCutsLctoV0 for AliAnalysisTaskSELc2pK0S task | |
20 | ||
21 | void makeInputAliAnalysisTaskSELctoV0bachelor(){ | |
22 | ||
23 | AliESDtrackCuts* esdTrackCuts=new AliESDtrackCuts(); | |
24 | esdTrackCuts->SetRequireSigmaToVertex(kFALSE); | |
25 | //default | |
26 | esdTrackCuts->SetRequireTPCRefit(kTRUE); | |
27 | esdTrackCuts->SetRequireITSRefit(kTRUE); | |
28 | esdTrackCuts->SetMinNClustersITS(0);//(4); // default is 5 | |
29 | esdTrackCuts->SetMinNClustersTPC(70); | |
30 | //esdTrackCuts->SetClusterRequirementITS(AliESDtrackCuts::kSPD, | |
31 | // AliESDtrackCuts::kAny); | |
32 | // default is kBoth, otherwise kAny | |
33 | esdTrackCuts->SetMinDCAToVertexXY(0.); | |
34 | esdTrackCuts->SetPtRange(0.,1.e10); | |
35 | esdTrackCuts->SetEtaRange(-0.8,0.8); | |
36 | esdTrackCuts->SetAcceptKinkDaughters(kFALSE); | |
37 | ||
38 | ||
39 | AliESDtrackCuts* esdTrackCutsV0daughters=new AliESDtrackCuts(); | |
40 | esdTrackCutsV0daughters->SetRequireSigmaToVertex(kFALSE); | |
41 | //default | |
42 | esdTrackCutsV0daughters->SetRequireTPCRefit(kTRUE); | |
43 | esdTrackCutsV0daughters->SetRequireITSRefit(kFALSE);//kTRUE); | |
44 | esdTrackCutsV0daughters->SetMinNClustersITS(0);//(4); // default is 5 | |
45 | esdTrackCutsV0daughters->SetMinNClustersTPC(70); | |
46 | //esdTrackCutsV0daughters->SetClusterRequirementITS(AliESDtrackCuts::kSPD, | |
47 | // AliESDtrackCuts::kAny); | |
48 | // default is kBoth, otherwise kAny | |
49 | esdTrackCutsV0daughters->SetMinDCAToVertexXY(0.); | |
50 | esdTrackCutsV0daughters->SetPtRange(0.,1.e10); | |
51 | esdTrackCutsV0daughters->SetEtaRange(-0.8,0.8); | |
52 | esdTrackCutsV0daughters->SetAcceptKinkDaughters(kFALSE); | |
53 | ||
54 | AliRDHFCutsLctoV0* RDHFLctoV0An=new AliRDHFCutsLctoV0(); | |
55 | RDHFLctoV0An->SetName("LctoV0AnalysisCuts"); | |
56 | RDHFLctoV0An->SetTitle("Analysis cuts for Lc analysis"); | |
57 | RDHFLctoV0An->SetKinkRejection(!esdTrackCuts->GetAcceptKinkDaughters()); | |
58 | RDHFLctoV0An->AddTrackCuts(esdTrackCuts); | |
59 | RDHFLctoV0An->AddTrackCutsV0daughters(esdTrackCutsV0daughters); | |
60 | RDHFLctoV0An->SetUseTrackSelectionWithFilterBits(kFALSE);//(kTRUE); | |
61 | RDHFLctoV0An->SetLowPtCut(1.0); // default value 1.0 GeV/c | |
62 | RDHFLctoV0An->SetHighPtCut(3.0); // default value 2.5 GeV/c | |
63 | RDHFLctoV0An->SetPidSelectionFlag(4); // 0 -> TOF AND TPC | |
64 | // 1 -> if (TOF) TOF else TPC w veto | |
65 | // 2 -> if (p<1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s AND TPC@3s} else (p>=2.5) {if (TOF) -2s<TOF<3s AND TPC@3s} | |
66 | // 3 -> if (p<1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s AND TPC@3s} else if (2.5<=p<3) {if (TOF) -2s<TOF<3s AND TPC@3s} else (p>=3) {if (TOF) -2s<TOF<3s AND -3s<TPC<2s} | |
67 | // 4 -> if (p<1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s} else if (p>=2.5) {if (TOF) -2s<TOF<3s} | |
68 | // 5 -> if (p<1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s} else if (p>=2.5) {if (TOF) -2s<TOF<3s else TPC@3s} | |
69 | ||
70 | const Int_t nptbins=14; | |
71 | RDHFLctoV0An->SetNPtBins(nptbins); | |
72 | ||
73 | Float_t* ptbins; | |
74 | ptbins=new Float_t[nptbins+1]; | |
75 | ptbins[0]= 0.; | |
76 | ptbins[1]= 1.; | |
77 | ptbins[2]= 2.; | |
78 | ptbins[3]= 3.; | |
79 | ptbins[4]= 4.; | |
80 | ptbins[5]= 5.; | |
81 | ptbins[6]= 6.; | |
82 | ptbins[7]= 7.; | |
83 | ptbins[8]= 8.; | |
84 | ptbins[9]= 9.; | |
85 | ptbins[10]=10.; | |
86 | ptbins[11]=12.; | |
87 | ptbins[12]=17.; | |
88 | ptbins[13]=25.; | |
89 | ptbins[14]=35.; | |
90 | RDHFLctoV0An->SetPtBins(nptbins+1,ptbins); | |
91 | ||
92 | const Int_t nvars=17; | |
93 | ||
94 | Float_t** anacutsval; | |
95 | anacutsval=new Float_t*[nvars]; | |
96 | for(Int_t ic=0;ic<nvars;ic++){anacutsval[ic]=new Float_t[nptbins];} | |
97 | for(Int_t ipt2=0;ipt2<nptbins;ipt2++){ | |
98 | anacutsval[0][ipt2]=0.25; // inv. mass if K0S [GeV/c2] | |
99 | anacutsval[1][ipt2]=0.25; // inv. mass if Lambda [GeV/c2] | |
100 | anacutsval[3][ipt2]=0.05; // inv. mass V0 if Lambda [GeV/c2] ---> WE ARE SEARCHING Lc -> p+K0S, so cut on m(Lambda) has to be leave as it was at filtering level!!! | |
101 | anacutsval[5][ipt2]=0.2; // pT min V0-positive track [GeV/c] | |
102 | anacutsval[6][ipt2]=0.2; // pT min V0-negative track [GeV/c] | |
103 | anacutsval[7][ipt2]=1000.; // dca cascade cut [cm] | |
104 | anacutsval[8][ipt2]=1.5; // dca V0 cut [nSigma] // it's 1.5 x offline V0s | |
105 | anacutsval[11][ipt2]=0.09; // d0 max V0 wrt PV [cm] | |
106 | anacutsval[12][ipt2]=0.; // mass K0S veto [GeV/c2] | |
107 | anacutsval[13][ipt2]=0.005; // mass Lambda/LambdaBar veto [GeV/c2] | |
108 | anacutsval[14][ipt2]=0.300; // mass Gamma veto [GeV/c2] | |
109 | anacutsval[16][ipt2]=0.; // V0 type cut | |
110 | } | |
111 | ||
112 | anacutsval[2][0]=0.00346*2.; // inv. mass V0 if K0S [GeV/c2] | |
113 | anacutsval[2][1]=0.00360*2.; // inv. mass V0 if K0S [GeV/c2] | |
114 | anacutsval[2][2]=0.00385*2.; // inv. mass V0 if K0S [GeV/c2] | |
115 | anacutsval[2][3]=0.00406*2.; // inv. mass V0 if K0S [GeV/c2] | |
116 | anacutsval[2][4]=0.00429*2.; // inv. mass V0 if K0S [GeV/c2] | |
117 | anacutsval[2][5]=0.00450*2.; // inv. mass V0 if K0S [GeV/c2] | |
118 | anacutsval[2][6]=0.00450*2.; // inv. mass V0 if K0S [GeV/c2] | |
119 | anacutsval[2][7]=0.00450*2.; // inv. mass V0 if K0S [GeV/c2] | |
120 | anacutsval[2][8]=0.00520*2.; // inv. mass V0 if K0S [GeV/c2] | |
121 | anacutsval[2][9]=0.00520*2.; // inv. mass V0 if K0S [GeV/c2] | |
122 | anacutsval[2][10]=0.00520*2.;// inv. mass V0 if K0S [GeV/c2] | |
123 | anacutsval[2][11]=0.00520*2.;// inv. mass V0 if K0S [GeV/c2] | |
124 | anacutsval[2][12]=0.00520*2.;// inv. mass V0 if K0S [GeV/c2] | |
125 | anacutsval[2][13]=0.00520*2.;// inv. mass V0 if K0S [GeV/c2] | |
126 | ||
127 | anacutsval[4][0]=0.6; // pT min bachelor track [GeV/c] // AOD by construction | |
128 | anacutsval[4][1]=0.5; // pT min bachelor track [GeV/c] // AOD by construction | |
129 | anacutsval[4][2]=0.6; // pT min bachelor track [GeV/c] // AOD by construction | |
130 | anacutsval[4][3]=0.7; // pT min bachelor track [GeV/c] // AOD by construction | |
131 | anacutsval[4][4]=0.8; // pT min bachelor track [GeV/c] // AOD by construction | |
132 | anacutsval[4][5]=0.9; // pT min bachelor track [GeV/c] // AOD by construction | |
133 | anacutsval[4][6]=1.0; // pT min bachelor track [GeV/c] // AOD by construction | |
134 | anacutsval[4][7]=1.2; // pT min bachelor track [GeV/c] // AOD by construction | |
135 | anacutsval[4][8]=1.4; // pT min bachelor track [GeV/c] // AOD by construction | |
136 | anacutsval[4][9]=1.7; // pT min bachelor track [GeV/c] // AOD by construction | |
137 | anacutsval[4][10]=2.0; // pT min bachelor track [GeV/c] // AOD by construction | |
138 | anacutsval[4][11]=2.0; // pT min bachelor track [GeV/c] // AOD by construction | |
139 | anacutsval[4][12]=2.0; // pT min bachelor track [GeV/c] // AOD by construction | |
140 | anacutsval[4][13]=2.0; // pT min bachelor track [GeV/c] // AOD by construction | |
141 | ||
142 | anacutsval[9][0]=0.994; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
143 | anacutsval[9][1]=0.994; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
144 | anacutsval[9][2]=0.998; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
145 | anacutsval[9][3]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
146 | anacutsval[9][4]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
147 | anacutsval[9][5]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
148 | anacutsval[9][6]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
149 | anacutsval[9][7]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
150 | anacutsval[9][8]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
151 | anacutsval[9][9]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
152 | anacutsval[9][10]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
153 | anacutsval[9][11]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
154 | anacutsval[9][12]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
155 | anacutsval[9][13]=0.999; // cosPA V0 cut // it's 0.90 x offline V0s at reconstruction level, 0.99 at filtering level | |
156 | ||
157 | anacutsval[10][0]=0.05; // d0 max bachelor wrt PV [cm] | |
158 | anacutsval[10][1]=0.04; // d0 max bachelor wrt PV [cm] | |
159 | anacutsval[10][2]=0.03; // d0 max bachelor wrt PV [cm] | |
160 | anacutsval[10][3]=0.05; // d0 max bachelor wrt PV [cm] | |
161 | anacutsval[10][4]=0.05; // d0 max bachelor wrt PV [cm] | |
162 | anacutsval[10][5]=0.02; // d0 max bachelor wrt PV [cm] | |
163 | anacutsval[10][6]=0.02; // d0 max bachelor wrt PV [cm] | |
164 | anacutsval[10][7]=0.02; // d0 max bachelor wrt PV [cm] | |
165 | anacutsval[10][8]=0.02; // d0 max bachelor wrt PV [cm] | |
166 | anacutsval[10][9]=0.02; // d0 max bachelor wrt PV [cm] | |
167 | anacutsval[10][10]=0.02; // d0 max bachelor wrt PV [cm] | |
168 | anacutsval[10][11]=0.02; // d0 max bachelor wrt PV [cm] | |
169 | anacutsval[10][12]=0.02; // d0 max bachelor wrt PV [cm] | |
170 | anacutsval[10][13]=0.02; // d0 max bachelor wrt PV [cm] | |
171 | ||
172 | ||
173 | anacutsval[15][0]=0.5; // pT min V0 track [GeV/c] | |
174 | anacutsval[15][1]=0.6; // pT min V0 track [GeV/c] | |
175 | anacutsval[15][2]=0.7; // pT min V0 track [GeV/c] | |
176 | anacutsval[15][3]=0.7; // pT min V0 track [GeV/c] | |
177 | anacutsval[15][4]=0.8; // pT min V0 track [GeV/c] | |
178 | anacutsval[15][5]=0.9; // pT min V0 track [GeV/c] | |
179 | anacutsval[15][6]=1.0; // pT min V0 track [GeV/c] | |
180 | anacutsval[15][7]=1.0; // pT min V0 track [GeV/c] | |
181 | anacutsval[15][8]=1.2; // pT min V0 track [GeV/c] | |
182 | anacutsval[15][9]=1.2; // pT min V0 track [GeV/c] | |
183 | anacutsval[15][10]=1.2; // pT min V0 track [GeV/c] | |
184 | anacutsval[15][11]=1.2; // pT min V0 track [GeV/c] | |
185 | anacutsval[15][12]=1.2; // pT min V0 track [GeV/c] | |
186 | anacutsval[15][13]=1.2; // pT min V0 track [GeV/c] | |
187 | ||
188 | RDHFLctoV0An->SetCuts(nvars,nptbins,anacutsval); | |
189 | ||
190 | //RDHFLc->SetRecoKF(); //set this if you want to recompute the secondary vertex with the KF package | |
191 | ||
192 | //pid settings | |
193 | //1. bachelor: default one | |
194 | AliAODPidHF* pidObjBachelor = new AliAODPidHF(); | |
195 | Double_t sigmasBac[5]={3.,1.,1.,3.,3.}; // 0, 1(A), 2(A) -> TPC; 3 -> TOF; 4 -> ITS | |
196 | pidObjBachelor->SetSigma(sigmasBac); | |
197 | pidObjBachelor->SetAsym(kFALSE); | |
198 | pidObjBachelor->SetMatch(1); | |
199 | pidObjBachelor->SetTPC(kTRUE); | |
200 | pidObjBachelor->SetTOF(kTRUE); | |
201 | pidObjBachelor->SetTOFdecide(kFALSE); | |
202 | ||
203 | RDHFLctoV0An->SetPidHF(pidObjBachelor); | |
204 | ||
205 | // uncomment these lines for Baysian PID: | |
206 | // Double_t threshold=0.3; | |
207 | // SetupCombinedPID(RDHFLctoV0An ,threshold); | |
208 | // RDHFLctoV0An ->SetPIDStrategy(AliRDHFCutsLctoV0::kCombined); | |
209 | // | |
210 | ||
211 | //uncomment these lines to apply cuts with the KF package | |
212 | //RDHFLctoV0An->SetCutsStrategy(AliRDHFCutsLctoV0::kKF); | |
213 | //for(Int_t ipt2=0;ipt2<nptbins;ipt2++){ | |
214 | // anacutsval[0]=1.; //if <0., no topological constraint | |
215 | // anacutsval[1]=2.; //cut on the Chi2/Ndf | |
216 | // } | |
217 | ||
218 | Bool_t pidflag=kTRUE; | |
219 | RDHFLctoV0An->SetUsePID(pidflag); | |
220 | if(pidflag) cout<<"PID is used"<<endl; | |
221 | else cout<<"PID is not used"<<endl; | |
222 | ||
223 | cout<<"This is the (anal) object I'm going to save:"<<endl; | |
224 | RDHFLctoV0An->PrintAll(); | |
225 | TFile* fout=new TFile("Lc2pK0SCuts.root","RECREATE"); | |
226 | fout->cd(); | |
227 | RDHFLctoV0An->Write(); | |
228 | fout->Close(); | |
229 | delete fout; | |
230 | ||
231 | delete pidObjBachelor; | |
232 | //delete RDHFLctoV0An; | |
233 | ||
234 | } | |
235 | ||
236 | ||
237 | //macro to make a .root file (for significance maximization) which contains an AliRDHFCutsLctoV0 with loose set of cuts and TParameter with the tighest value of these cuts | |
238 | ||
239 | void makeInputAliAnalysisTaskSESignificanceMaximization(){ | |
240 | ||
241 | AliRDHFCutsLctoV0* RDHFLctoV0=new AliRDHFCutsLctoV0(); | |
242 | RDHFLctoV0->SetName("loosercuts"); | |
243 | RDHFLctoV0->SetTitle("Cuts for significance maximization"); | |
244 | ||
245 | AliESDtrackCuts* esdTrackCuts=new AliESDtrackCuts(); | |
246 | esdTrackCuts->SetRequireSigmaToVertex(kFALSE); | |
247 | //default | |
248 | esdTrackCuts->SetRequireTPCRefit(kTRUE); | |
249 | esdTrackCuts->SetMinNClustersTPC(70); | |
250 | esdTrackCuts->SetRequireITSRefit(kFALSE); | |
251 | esdTrackCuts->SetMinNClustersITS(0); | |
252 | //esdTrackCuts->SetClusterRequirementITS(AliESDtrackCuts::kSPD,AliESDtrackCuts::kAny); | |
253 | esdTrackCuts->SetMinDCAToVertexXY(0.); | |
254 | esdTrackCuts->SetEtaRange(-0.8,0.8); | |
255 | esdTrackCuts->SetPtRange(0.,1.e10); | |
256 | ||
257 | AliESDtrackCuts* esdTrackCutsV0daughters=new AliESDtrackCuts(); | |
258 | esdTrackCutsV0daughters->SetRequireSigmaToVertex(kFALSE); | |
259 | //default | |
260 | esdTrackCutsV0daughters->SetRequireTPCRefit(kTRUE); | |
261 | esdTrackCutsV0daughters->SetMinNClustersTPC(70); | |
262 | esdTrackCutsV0daughters->SetRequireITSRefit(kFALSE); | |
263 | esdTrackCutsV0daughters->SetMinNClustersITS(0); | |
264 | //esdTrackCutsV0daughters->SetClusterRequirementITS(AliESDtrackCuts::kSPD,AliESDtrackCuts::kAny); // default is kBoth, otherwise kAny | |
265 | esdTrackCutsV0daughters->SetMinDCAToVertexXY(0.); | |
266 | esdTrackCutsV0daughters->SetPtRange(0.,1.e10); | |
267 | ||
268 | RDHFLctoV0->AddTrackCuts(esdTrackCuts); | |
269 | ||
270 | RDHFLctoV0->AddTrackCutsV0daughters(esdTrackCutsV0daughters); | |
271 | ||
272 | RDHFLctoV0->SetPidSelectionFlag(2); // 0 -> TOF AND TPC | |
273 | // 1 -> if (TOF) TOF else TPC w veto | |
274 | // 2 -> if (p>1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s AND TPC@3s} else (p>=2.5) {if (TOF) -2s<TOF<3s AND TPC@3s} | |
275 | // 3 -> if (p>1) TPC@3s else if (1<=p<2.5) {if (TOF) TOF@3s AND TPC@3s} else if (2.5<=p<3) {if (TOF) -2s<TOF<3s AND TPC@3s} else (p>=3) {if (TOF) -2s<TOF<3s AND -3s<TPC<2s} | |
276 | ||
277 | const Int_t nvars=14;//17-3 | |
278 | ||
279 | const Int_t nptbins=9; | |
280 | Float_t* ptbins; | |
281 | ptbins=new Float_t[nptbins+1]; | |
282 | ptbins[0]= 0.; | |
283 | ptbins[1]= 1.; | |
284 | ptbins[2]= 2.; | |
285 | ptbins[3]= 3.; | |
286 | ptbins[4]= 4.; | |
287 | ptbins[5]= 5.; | |
288 | ptbins[6]= 6.; | |
289 | ptbins[7]= 8.; | |
290 | ptbins[8]=12.; | |
291 | ptbins[9]=99999999.; | |
292 | RDHFLctoV0->SetPtBins(nptbins+1,ptbins); | |
293 | ||
294 | Float_t** rdcutsvalmine; | |
295 | rdcutsvalmine=new Float_t*[nvars]; | |
296 | for(Int_t iv=0;iv<nvars;iv++){ | |
297 | rdcutsvalmine[iv]=new Float_t[nptbins]; | |
298 | } | |
299 | ||
300 | //setting my cut values | |
301 | // inv. mass if K0s [GeV] | |
302 | // inv. mass if Lambda [GeV] | |
303 | // inv. mass V0 if K0S [GeV] | |
304 | // inv. mass V0 if Lambda [GeV] | |
305 | // pT min bachelor track [GeV/c] | |
306 | // pT min V0-positive track [GeV/c] | |
307 | // pT min V0-negative track [GeV/c] | |
308 | // dca cascade cut (cm) | |
309 | // dca V0 cut (nSigmas) | |
310 | // cosPA V0 cut | |
311 | // d0 max bachelor wrt PV [cm] | |
312 | // d0 max V0 wrt PV [cm] | |
313 | // mass K0S veto [GeV/c2] | |
314 | // mass Lambda/LambdaBar veto [GeV/c2] | |
315 | // mass Gamma veto [GeV/c2] | |
316 | // pT min V0 track [GeV/c] | |
317 | Float_t **cutsMatrixLctoV0Stand = new Float_t*[nvars]; | |
318 | for(Int_t ic=0;ic<nvars;ic++) | |
319 | cutsMatrixLctoV0Stand[ic]=new Float_t[nptbins]; | |
320 | for(Int_t ipt2=0;ipt2<nptbins;ipt2++){ | |
321 | cutsMatrixLctoV0Stand[0][ipt2] =0.0075; | |
322 | cutsMatrixLctoV0Stand[1][ipt2] =0.0500; | |
323 | cutsMatrixLctoV0Stand[2][ipt2] =0.4; | |
324 | cutsMatrixLctoV0Stand[3][ipt2] =0.2; | |
325 | cutsMatrixLctoV0Stand[4][ipt2] =0.2; | |
326 | cutsMatrixLctoV0Stand[5][ipt2] =1000.; | |
327 | cutsMatrixLctoV0Stand[6][ipt2] =1.5; | |
328 | cutsMatrixLctoV0Stand[7][ipt2] =0.99; | |
329 | cutsMatrixLctoV0Stand[8][ipt2] =0.05; | |
330 | cutsMatrixLctoV0Stand[9][ipt2] =0.1; | |
331 | cutsMatrixLctoV0Stand[10][ipt2] =0.0; | |
332 | cutsMatrixLctoV0Stand[11][ipt2] =0.005; | |
333 | cutsMatrixLctoV0Stand[12][ipt2] =0.100; | |
334 | } | |
335 | cutsMatrixLctoV0Stand[13][0]=0.0; // pT min V0 track [GeV/c] | |
336 | cutsMatrixLctoV0Stand[13][1]=0.6; // pT min V0 track [GeV/c] | |
337 | cutsMatrixLctoV0Stand[13][2]=0.8; // pT min V0 track [GeV/c] | |
338 | cutsMatrixLctoV0Stand[13][3]=0.8; // pT min V0 track [GeV/c] | |
339 | cutsMatrixLctoV0Stand[13][4]=0.8; // pT min V0 track [GeV/c] | |
340 | cutsMatrixLctoV0Stand[13][5]=1.0; // pT min V0 track [GeV/c] | |
341 | cutsMatrixLctoV0Stand[13][6]=1.0; // pT min V0 track [GeV/c] | |
342 | cutsMatrixLctoV0Stand[13][7]=1.0; // pT min V0 track [GeV/c] | |
343 | cutsMatrixLctoV0Stand[13][8]=0.0; // pT min V0 track [GeV/c] | |
344 | ||
345 | ||
346 | //CREATE TRANSPOSE MATRIX...REVERSE INDICES as required by AliRDHFCuts | |
347 | Float_t **cutsMatrixTransposeStand=new Float_t*[nvars]; | |
348 | for(Int_t iv=0;iv<nvars;iv++)cutsMatrixTransposeStand[iv]=new Float_t[nptbins]; | |
349 | for (Int_t ibin=0;ibin<nptbins;ibin++){ | |
350 | for (Int_t ivar=0; ivar<nvars; ivar++){ | |
351 | cutsMatrixTransposeStand[ivar][ibin]=cutsMatrixLctoV0Stand[ibin][ivar]; | |
352 | } | |
353 | } | |
354 | RDHFLctoV0->SetCuts(nvars,nptbins,cutsMatrixTransposeStand); | |
355 | ||
356 | ||
357 | Int_t nvarsforopt=RDHFLctoV0->GetNVarsForOpt(); | |
358 | Int_t dim=14; //set this!! | |
359 | Bool_t *boolforopt; | |
360 | boolforopt=new Bool_t[nvars]; | |
361 | if(dim>nvarsforopt){ | |
362 | cout<<"Number of variables for optimization has probably changed, check and edit accordingly"<<endl; | |
363 | return; | |
364 | } else { | |
365 | if(dim==nvarsforopt){ | |
366 | boolforopt=RDHFLctoV0->GetVarsForOpt(); | |
367 | }else{ | |
368 | TString *names; | |
369 | names=new TString[nvars]; | |
370 | TString answer=""; | |
371 | Int_t checktrue=0; | |
372 | names=RDHFLctoV0->GetVarNames(); | |
373 | for(Int_t i=0;i<nvars;i++){ | |
374 | cout<<names[i]<<" for opt? (y/n)"<<endl; | |
375 | cin>>answer; | |
376 | if(answer=="y") { | |
377 | boolforopt[i]=kTRUE; | |
378 | checktrue++; | |
379 | } | |
380 | else boolforopt[i]=kFALSE; | |
381 | } | |
382 | if (checktrue!=dim) { | |
383 | cout<<"Error! You set "<<checktrue<<" kTRUE instead of "<<dim<<endl; | |
384 | return; | |
385 | } | |
386 | RDHFLctoV0->SetVarsForOpt(dim,boolforopt); | |
387 | } | |
388 | } | |
389 | ||
390 | ||
391 | Float_t tighterval[dim][nptbins]; | |
392 | // 0(2): inv. mass V0 if K0S [GeV] | |
393 | // 1(3): inv. mass V0 if Lambda [GeV] | |
394 | // 2(4): pT min bachelor track [GeV/c] | |
395 | // 3(5): pT min V0-positive track [GeV/c] | |
396 | // 4(6): pT min V0-negative track [GeV/c] | |
397 | // 5(7): dca cascade cut (cm) | |
398 | // 6(8): dca V0 cut (nSigmas) | |
399 | // 7(9): cosPA V0 cut | |
400 | // 8(10): d0 max bachelor wrt PV [cm] | |
401 | // 9(11): d0 max V0 wrt PV [cm] | |
402 | // 10(12): mass K0S veto [GeV/c2] | |
403 | // 11(13): mass Lambda/LambdaBar veto [GeV/c2] | |
404 | // 12(14): mass Gamma veto [GeV/c2] | |
405 | // 13(15): pT min V0 track [GeV/c] | |
406 | ||
407 | // number of steps for each variable is set in the AddTask arguments (default=8) | |
408 | // set this!! | |
409 | for(Int_t ipt=0;ipt<nptbins;ipt++){ | |
410 | tighterval[0][ipt] =0.075; // inv. mass V0 if K0S [GeV] | |
411 | tighterval[1][ipt] =0.040; // inv. mass V0 if Lambda [GeV] | |
412 | tighterval[2][ipt] =0.4; // pT min bachelor track [GeV/c] | |
413 | tighterval[3][ipt] =0.2; // pT min V0-positive track [GeV/c] | |
414 | tighterval[4][ipt] =0.2; // pT min V0-negative track [GeV/c] | |
415 | tighterval[5][ipt] =100.; // dca cascade cut (cm) | |
416 | tighterval[6][ipt] =1.5; // dca v0 cut | |
417 | tighterval[7][ipt] =0.99; // cosPA v0 cut | |
418 | tighterval[8][ipt] =0.05; // d0 max bachelor wrt PV [cm] | |
419 | tighterval[9][ipt] =0.1; // d0 max V0 wrt PV [cm] | |
420 | tighterval[10][ipt] =0.0; // mass K0S veto [GeV/c2] | |
421 | tighterval[11][ipt] =0.005; // mass Lambda/LambdaBar veto [GeV/c2] | |
422 | tighterval[12][ipt] =0.100; // mass Gamma veto [GeV/c2] | |
423 | } | |
424 | tighterval[0][13]=0.0; // pT min V0 track [GeV/c] | |
425 | tighterval[1][13]=0.6; // pT min V0 track [GeV/c] | |
426 | tighterval[2][13]=0.8; // pT min V0 track [GeV/c] | |
427 | tighterval[3][13]=0.8; // pT min V0 track [GeV/c] | |
428 | tighterval[4][13]=0.8; // pT min V0 track [GeV/c] | |
429 | tighterval[5][13]=1.0; // pT min V0 track [GeV/c] | |
430 | tighterval[6][13]=1.0; // pT min V0 track [GeV/c] | |
431 | tighterval[7][13]=1.0; // pT min V0 track [GeV/c] | |
432 | tighterval[8][13]=0.0; // pT min V0 track [GeV/c] | |
433 | ||
434 | TString name=""; | |
435 | Int_t arrdim=dim*nptbins; | |
436 | cout<<"Will save "<<arrdim<<" TParameter<float>"<<endl; | |
437 | TClonesArray max("TParameter<float>",arrdim); | |
438 | for(Int_t ival=0;ival<dim;ival++){ | |
439 | for(Int_t jpt=0;jpt<nptbins;jpt++){ | |
440 | name=Form("par%dptbin%d",ival,jpt); | |
441 | cout<<"Setting "<<name.Data()<<" to "<<tighterval[ival][jpt]<<endl; | |
442 | new(max[jpt*dim+ival])TParameter<float>(name.Data(),tighterval[ival][jpt]); | |
443 | } | |
444 | } | |
445 | ||
446 | Bool_t flagPID=kFALSE; | |
447 | RDHFLctoV0->SetUsePID(flagPID); | |
448 | ||
449 | RDHFLctoV0->PrintAll(); | |
450 | printf("Use PID? %s\n",flagPID ? "yes" : "no"); | |
451 | ||
452 | //pid settings | |
453 | //1. bachelor: default one | |
454 | AliAODPidHF* pidObjBachelor = new AliAODPidHF(); | |
455 | Double_t sigmasBac[5]={3.,1.,1.,3.,3.}; // 0, 1(A), 2(A) -> TPC; 3 -> TOF; 4 -> ITS | |
456 | pidObjBachelor->SetSigma(sigmasBac); | |
457 | pidObjBachelor->SetAsym(kFALSE); | |
458 | pidObjBachelor->SetMatch(1); | |
459 | pidObjBachelor->SetTPC(kTRUE); | |
460 | pidObjBachelor->SetTOF(kTRUE); | |
461 | pidObjBachelor->SetTOFdecide(kFALSE); | |
462 | RDHFLctoV0->SetPidHF(pidObjBachelor); | |
463 | ||
464 | //activate pileup rejection (for pp) | |
465 | //RDHFLctoV0->SetOptPileup(AliRDHFCuts::kRejectPileupEvent); | |
466 | ||
467 | //Do not recalculate the vertex | |
468 | RDHFLctoV0->SetRemoveDaughtersFromPrim(kFALSE); //activate for pp | |
469 | ||
470 | TString cent=""; | |
471 | //centrality selection (Pb-Pb) | |
472 | Float_t minc=20,maxc=80; | |
473 | RDHFLctoV0->SetMinCentrality(minc); | |
474 | RDHFLctoV0->SetMaxCentrality(maxc); | |
475 | cent=Form("%.0f%.0f",minc,maxc); | |
476 | //RDHFLctoV0->SetUseCentrality(AliRDHFCuts::kCentV0M); //kCentOff,kCentV0M,kCentTRK,kCentTKL,kCentCL1,kCentInvalid | |
477 | RDHFLctoV0->SetUseCentrality(AliRDHFCuts::kCentOff); //kCentOff,kCentV0M,kCentTRK,kCentTKL,kCentCL1,kCentInvalid | |
478 | ||
479 | //temporary | |
480 | //RDHFLctoV0->SetFixRefs(); | |
481 | ||
482 | TFile* fout=new TFile(Form("cuts4SignifMaxim%s%s%sRecVtx%sPileupRej.root", | |
483 | RDHFLctoV0->GetUseCentrality()==0 ? "pp" : "PbPb", | |
484 | cent.Data(), | |
485 | RDHFLctoV0->GetIsPrimaryWithoutDaughters() ? "" : "No", | |
486 | RDHFLctoV0->GetOptPileUp() ? "" : "No"),"recreate"); //set this!! | |
487 | ||
488 | fout->cd(); | |
489 | RDHFLctoV0->Write(); | |
490 | max.Write(); | |
491 | fout->Close(); | |
492 | ||
493 | } |