1 //DEFINITION OF A FEW CONSTANTS
2 const Double_t ymin = -2.1 ;
3 const Double_t ymax = 2.1 ;
4 const Double_t cosmin = -1.05;
5 const Double_t cosmax = 1.05;
6 const Double_t cTmin = 0; // micron
7 const Double_t cTmax = 500; // micron
8 const Double_t dcamin = 0; // micron
9 const Double_t dcamax = 500; // micron
10 const Double_t d0min = -1000; // micron
11 const Double_t d0max = 1000; // micron
12 const Double_t d0xd0min = -100000; // micron
13 const Double_t d0xd0max = 100000; // micron
14 const Double_t phimin = 0.0;
15 const Int_t mintrackrefsTPC = 2 ;
16 const Int_t mintrackrefsITS = 3 ;
17 const Int_t charge = 1 ;
18 const Int_t minclustersTPC = 50 ;
20 const Double_t ptmin = 0.1;
21 const Double_t ptmax = 9999.;
22 const Double_t etamin = -0.9;
23 const Double_t etamax = 0.9;
24 const Double_t zmin = -15;
25 const Double_t zmax = 15;
26 const Int_t minITSClusters = 5;
28 const Float_t centmin = 0.;
29 const Float_t centmax = 100.;
30 const Float_t fakemin = -0.5;
31 const Float_t fakemax = 2.5.;
33 //----------------------------------------------------
35 AliCFTaskVertexingHF *AddTaskCFVertexingHF(const char* cutFile = "./D0toKpiCuts.root",Bool_t isKeepDfromB=kFALSE, Bool_t isKeepDfromBOnly=kFALSE, Int_t pdgCode = 421, Char_t isSign = 2)
37 printf("Addig CF task using cuts from file %s\n",cutFile);
39 // isSign = 0 --> D0 only
40 // isSign = 1 --> D0bar only
41 // isSign = 2 --> D0 + D0bar
44 if (isSign == 0 && pdgCode < 0){
45 AliError(Form("Error setting PDG code (%d) and sign (0 --> D0 only): they are not compatible, returning"));
48 else if (isSign == 1 && pdgCode > 0){
49 AliError(Form("Error setting PDG code (%d) and sign (1 --> D0bar only): they are not compatible, returning"));
52 else if (isSign > 2 || isSign < 0){
53 AliError(Form("Sign not valid (%d, possible values are 0, 1, 2), returning"));
57 TFile* fileCuts = new TFile(cutFile);
58 AliRDHFCutsD0toKpi *cutsD0toKpi = (AliRDHFCutsD0toKpi*)fileCuts->Get("D0toKpiCuts");
60 // check that the fKeepD0fromB flag is set to true when the fKeepD0fromBOnly flag is true
61 // for now the binning is the same than for all D's
62 if(isKeepDfromBOnly) isKeepDfromB = true;
82 //CONTAINER DEFINITION
83 Info("AliCFTaskVertexingHF","SETUP CONTAINER");
84 //the sensitive variables, their indices
87 UInt_t icosThetaStar = 2;
95 UInt_t ipointing = 10;
101 const Double_t phimax = 2*TMath::Pi();
103 //Setting up the container grid...
104 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
105 const Int_t nvar = 15 ; //number of variables on the grid:pt, y, cosThetaStar, pTpi, pTk, cT, dca, d0pi, d0K, d0xd0, cosPointingAngle, phi
107 //Setting the bins: pt, ptPi, and ptK are considered seprately because for them you can either define the binning by hand, or using the cuts file
109 //arrays for the number of bins in each dimension
112 //OPTION 1: defining the pt, ptPi, ptK bins by hand...
114 const Int_t nbin0_0_6 = 6 ; //bins in pt from 0 to 6 GeV
115 const Int_t nbin0_6_8 = 1 ; //bins in pt from 6 to 8 GeV
116 const Int_t nbin0_8_16 = 2 ; //bins in pt from 8 to 16 GeV
117 const Int_t nbin0_16_24 = 1 ; //bins in pt from 16 to 24 GeV
118 const Int_t nbin3_0_6 = 6 ; //bins in ptPi from 0 to 6 GeV
119 const Int_t nbin3_6_8 = 1 ; //bins in ptPi from 6 to 8 GeV
120 const Int_t nbin3_8_16 = 2 ; //bins in ptPi from 8 to 16 GeV
121 const Int_t nbin3_16_24 = 1 ; //bins in ptPi from 16 to 24 GeV
122 const Int_t nbin4_0_6 = 6 ; //bins in ptK from 0 to 6 GeV
123 const Int_t nbin4_6_8 = 1 ; //bins in ptK from 6 to 8 GeV
124 const Int_t nbin4_8_16 = 2 ; //bins in ptK from 8 to 16 GeV
125 const Int_t nbin4_16_24 = 1 ; //bins in ptK from 16 to 24 GeV
126 iBin[0]=nbin0_0_6+nbin0_6_8+nbin0_8_16+nbin0_16_24;
127 iBin[3]=nbin3_0_6+nbin3_6_8+nbin3_8_16+nbin3_16_24;
128 iBin[4]=nbin4_0_6+nbin4_6_8+nbin4_8_16+nbin4_16_24;
129 Double_t *binLim0=new Double_t[iBin[0]+1];
130 Double_t *binLim3=new Double_t[iBin[3]+1];
131 Double_t *binLim4=new Double_t[iBin[4]+1];
133 // values for bin lower bounds
135 for(Int_t i=0; i<=nbin0_0_6; i++) binLim0[i]=(Double_t)ptmin_0_6 + (ptmax_0_6-ptmin_0_6)/nbin0_0_6*(Double_t)i ;
136 if (binLim0[nbin0_0_6] != ptmin_6_8) {
137 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 1st range - differs from expected!\n");
139 for(Int_t i=0; i<=nbin0_6_8; i++) binLim0[i+nbin0_0_6]=(Double_t)ptmin_6_8 + (ptmax_6_8-ptmin_6_8)/nbin0_6_8*(Double_t)i ;
140 if (binLim0[nbin0_0_6+nbin0_6_8] != ptmin_8_16) {
141 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
143 for(Int_t i=0; i<=nbin0_8_16; i++) binLim0[i+nbin0_0_6+nbin0_6_8]=(Double_t)ptmin_8_16 + (ptmax_8_16-ptmin_8_16)/nbin0_8_16*(Double_t)i ;
144 if (binLim0[nbin0_0_6+nbin0_6_8+nbin0_8_16] != ptmin_16_24) {
145 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
147 for(Int_t i=0; i<=nbin0_16_24; i++) binLim0[i+nbin0_0_6+nbin0_6_8+nbin0_8_16]=(Double_t)ptmin_16_24 + (ptmax_16_24-ptmin_16_24)/nbin0_16_24*(Double_t)i ;
150 for(Int_t i=0; i<=nbin3_0_6; i++) binLim3[i]=(Double_t)ptmin_0_6 + (ptmax_0_6-ptmin_0_6)/nbin3_0_6*(Double_t)i ;
151 if (binLim3[nbin3_0_6] != ptmin_6_8) {
152 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 1st range - differs from expected!\n");
154 for(Int_t i=0; i<=nbin3_6_8; i++) binLim3[i+nbin3_0_6]=(Double_t)ptmin_6_8 + (ptmax_6_8-ptmin_6_8)/nbin3_6_8*(Double_t)i ;
155 if (binLim3[nbin3_0_6+nbin3_6_8] != ptmin_8_16) {
156 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
158 for(Int_t i=0; i<=nbin3_8_16; i++) binLim3[i+nbin3_0_6+nbin0_6_8]=(Double_t)ptmin_8_16 + (ptmax_8_16-ptmin_8_16)/nbin3_8_16*(Double_t)i ;
159 if (binLim3[nbin3_0_6+nbin3_6_8+nbin3_8_16] != ptmin_16_24) {
160 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
162 for(Int_t i=0; i<=nbin3_16_24; i++) binLim3[i+nbin3_0_6+nbin3_6_8+nbin3_8_16]=(Double_t)ptmin_16_24 + (ptmax_16_24-ptmin_16_24)/nbin3_16_24*(Double_t)i ;
165 for(Int_t i=0; i<=nbin4_0_6; i++) binLim4[i]=(Double_t)ptmin_0_6 + (ptmax_0_6-ptmin_0_6)/nbin4_0_6*(Double_t)i ;
166 if (binLim4[nbin4_0_6] != ptmin_6_8) {
167 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 1st range - differs from expected!\n");
169 for(Int_t i=0; i<=nbin4_6_8; i++) binLim4[i+nbin4_0_6]=(Double_t)ptmin_6_8 + (ptmax_6_8-ptmin_6_8)/nbin4_6_8*(Double_t)i ;
170 if (binLim4[nbin4_0_6+nbin4_6_8] != ptmin_8_16) {
171 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
173 for(Int_t i=0; i<=nbin4_8_16; i++) binLim4[i+nbin4_0_6+nbin0_6_8]=(Double_t)ptmin_8_16 + (ptmax_8_16-ptmin_8_16)/nbin4_8_16*(Double_t)i ;
174 if (binLim4[nbin4_0_6+nbin4_6_8+nbin4_8_16] != ptmin_16_24) {
175 Error("AliCFHeavyFlavourTaskMultiVarMultiStep","Calculated bin lim for pt - 2nd range - differs from expected!\n");
177 for(Int_t i=0; i<=nbin4_16_24; i++) binLim4[i+nbin4_0_6+nbin4_6_8+nbin4_8_16]=(Double_t)ptmin_16_24 + (ptmax_16_24-ptmin_16_24)/nbin4_16_24*(Double_t)i ;
180 //OPTION 2: ...or from the cuts file
182 const Int_t nbin0 = cutsD0toKpi->GetNPtBins(); // bins in pT
186 Double_t *binLim0=new Double_t[iBin[0]+1];
187 Double_t *binLim3=new Double_t[iBin[3]+1];
188 Double_t *binLim4=new Double_t[iBin[4]+1];
189 // values for bin lower bounds
190 Float_t* floatbinLim0 = cutsD0toKpi->GetPtBinLimits();
191 for (Int_t ibin0 = 0 ; ibin0<iBin[0]+1; ibin0++){
192 binLim0[ibin0] = (Double_t)floatbinLim0[ibin0];
193 binLim3[ibin0] = (Double_t)floatbinLim0[ibin0];
194 binLim4[ibin0] = (Double_t)floatbinLim0[ibin0];
196 for(Int_t i=0; i<=nbin0; i++) printf("binLim0[%d]=%f\n",i,binLim0[i]);
198 printf("pT: nbin (from cuts file) = %d\n",nbin0);
200 // defining now the binning for the other variables:
202 const Int_t nbin1 = 42 ; //bins in y
203 const Int_t nbin2 = 42 ; //bins in cosThetaStar
204 const Int_t nbin5 = 24 ; //bins in cT
205 const Int_t nbin6 = 24 ; //bins in dca
206 const Int_t nbin7 = 100 ; //bins in d0pi
207 const Int_t nbin8 = 100 ; //bins in d0K
208 const Int_t nbin9 = 80 ; //bins in d0xd0
209 const Int_t nbin10 = 1050 ; //bins in cosPointingAngle
210 const Int_t nbin11 = 20 ; //bins in Phi
211 const Int_t nbin12 = 60 ; //bins in z vertex
212 const Int_t nbin13 = 10; //bins in centrality
213 const Int_t nbin14 = 3; //bins in fake
228 //arrays for lower bounds :
229 Double_t *binLim1=new Double_t[iBin[1]+1];
230 Double_t *binLim2=new Double_t[iBin[2]+1];
231 Double_t *binLim5=new Double_t[iBin[5]+1];
232 Double_t *binLim6=new Double_t[iBin[6]+1];
233 Double_t *binLim7=new Double_t[iBin[7]+1];
234 Double_t *binLim8=new Double_t[iBin[8]+1];
235 Double_t *binLim9=new Double_t[iBin[9]+1];
236 Double_t *binLim10=new Double_t[iBin[10]+1];
237 Double_t *binLim11=new Double_t[iBin[11]+1];
238 Double_t *binLim12=new Double_t[iBin[12]+1];
239 Double_t *binLim13=new Double_t[iBin[13]+1];
240 Double_t *binLim14=new Double_t[iBin[14]+1];
243 for(Int_t i=0; i<=nbin1; i++) binLim1[i]=(Double_t)ymin + (ymax-ymin) /nbin1*(Double_t)i ;
246 for(Int_t i=0; i<=nbin2; i++) binLim2[i]=(Double_t)cosmin + (cosmax-cosmin) /nbin2*(Double_t)i ;
249 for(Int_t i=0; i<=nbin5; i++) binLim5[i]=(Double_t)cTmin + (cTmax-cTmin) /nbin5*(Double_t)i ;
252 for(Int_t i=0; i<=nbin6; i++) binLim6[i]=(Double_t)dcamin + (dcamax-dcamin) /nbin6*(Double_t)i ;
255 for(Int_t i=0; i<=nbin7; i++) binLim7[i]=(Double_t)d0min + (d0max-d0min) /nbin7*(Double_t)i ;
258 for(Int_t i=0; i<=nbin8; i++) binLim8[i]=(Double_t)d0min + (d0max-d0min) /nbin8*(Double_t)i ;
261 for(Int_t i=0; i<=nbin9; i++) binLim9[i]=(Double_t)d0xd0min + (d0xd0max-d0xd0min) /nbin9*(Double_t)i ;
264 for(Int_t i=0; i<=nbin10; i++) binLim10[i]=(Double_t)cosmin + (cosmax-cosmin) /nbin10*(Double_t)i ;
267 for(Int_t i=0; i<=nbin11; i++) binLim11[i]=(Double_t)phimin + (phimax-phimin) /nbin11*(Double_t)i ;
270 for(Int_t i=0; i<=nbin12; i++) {
271 binLim12[i]=(Double_t)zmin + (zmax-zmin) /nbin12*(Double_t)i ;
275 for(Int_t i=0; i<=nbin13; i++) {
276 binLim13[i]=(Double_t)centmin + (centmax-centmin)/nbin13 * (Double_t)i;
280 for(Int_t i=0; i<=nbin14; i++) {
281 binLim14[i]=(Double_t)fakemin + (fakemax-fakemin)/nbin14 * (Double_t)i;
284 //one "container" for MC
285 TString nameContainer="";
287 nameContainer="CFHFccontainer0_CommonFramework";
289 else if(isKeepDfromBOnly){
290 nameContainer="CFHFccontainer0DfromB_CommonFramework";
293 nameContainer="CFHFccontainer0allD_CommonFramework";
296 AliCFContainer* container = new AliCFContainer(nameContainer,"container for tracks",nstep,nvar,iBin);
297 //setting the bin limits
299 container -> SetBinLimits(ipt,binLim0);
301 container -> SetBinLimits(iy,binLim1);
303 container -> SetBinLimits(icosThetaStar,binLim2);
305 container -> SetBinLimits(ipTpi,binLim3);
307 container -> SetBinLimits(ipTk,binLim4);
309 container -> SetBinLimits(icT,binLim5);
311 container -> SetBinLimits(idca,binLim6);
313 container -> SetBinLimits(id0pi,binLim7);
315 container -> SetBinLimits(id0K,binLim8);
317 container -> SetBinLimits(id0xd0,binLim9);
318 printf("pointing\n");
319 container -> SetBinLimits(ipointing,binLim10);
321 container -> SetBinLimits(iphi,binLim11);
323 container -> SetBinLimits(iz,binLim12);
325 container -> SetBinLimits(icent,binLim13);
327 container -> SetBinLimits(ifake,binLim14);
329 container -> SetStepTitle(0, "MCLimAcc");
330 container -> SetStepTitle(1, "MC");
331 container -> SetStepTitle(2, "MCAcc");
332 container -> SetStepTitle(3, "RecoVertex");
333 container -> SetStepTitle(4, "RecoRefit");
334 container -> SetStepTitle(5, "Reco");
335 container -> SetStepTitle(6, "RecoAcc");
336 container -> SetStepTitle(7, "RecoITSCluster");
337 container -> SetStepTitle(8, "RecoCuts");
338 container -> SetStepTitle(9, "RecoPID");
340 container -> SetVarTitle(ipt,"pt");
341 container -> SetVarTitle(iy,"y");
342 container -> SetVarTitle(icosThetaStar, "cosThetaStar");
343 container -> SetVarTitle(ipTpi, "ptpi");
344 container -> SetVarTitle(ipTk, "ptK");
345 container -> SetVarTitle(icT, "ct");
346 container -> SetVarTitle(idca, "dca");
347 container -> SetVarTitle(id0pi, "d0pi");
348 container -> SetVarTitle(id0K, "d0K");
349 container -> SetVarTitle(id0xd0, "d0xd0");
350 container -> SetVarTitle(ipointing, "piointing");
351 container -> SetVarTitle(iphi, "phi");
352 container -> SetVarTitle(iz, "z");
353 container -> SetVarTitle(icent, "centrality");
354 container -> SetVarTitle(ifake, "fake");
357 //CREATE THE CUTS -----------------------------------------------
359 // Gen-Level kinematic cuts
360 AliCFTrackKineCuts *mcKineCuts = new AliCFTrackKineCuts("mcKineCuts","MC-level kinematic cuts");
362 //Particle-Level cuts:
363 AliCFParticleGenCuts* mcGenCuts = new AliCFParticleGenCuts("mcGenCuts","MC particle generation cuts");
364 Bool_t useAbsolute = kTRUE;
366 useAbsolute = kFALSE;
368 mcGenCuts->SetRequirePdgCode(pdgCode, useAbsolute); // kTRUE set in order to include D0_bar
369 mcGenCuts->SetAODMC(1); //special flag for reading MC in AOD tree (important)
372 AliCFAcceptanceCuts* accCuts = new AliCFAcceptanceCuts("accCuts", "Acceptance cuts");
373 AliCFTrackKineCuts *kineAccCuts = new AliCFTrackKineCuts("kineAccCuts","Kine-Acceptance cuts");
374 kineAccCuts->SetPtRange(ptmin,ptmax);
375 kineAccCuts->SetEtaRange(etamin,etamax);
377 // Rec-Level kinematic cuts
378 AliCFTrackKineCuts *recKineCuts = new AliCFTrackKineCuts("recKineCuts","rec-level kine cuts");
380 AliCFTrackQualityCuts *recQualityCuts = new AliCFTrackQualityCuts("recQualityCuts","rec-level quality cuts");
382 AliCFTrackIsPrimaryCuts *recIsPrimaryCuts = new AliCFTrackIsPrimaryCuts("recIsPrimaryCuts","rec-level isPrimary cuts");
384 printf("CREATE MC KINE CUTS\n");
385 TObjArray* mcList = new TObjArray(0) ;
386 mcList->AddLast(mcKineCuts);
387 mcList->AddLast(mcGenCuts);
389 printf("CREATE ACCEPTANCE CUTS\n");
390 TObjArray* accList = new TObjArray(0) ;
391 accList->AddLast(kineAccCuts);
393 printf("CREATE RECONSTRUCTION CUTS\n");
394 TObjArray* recList = new TObjArray(0) ; // not used!!
395 recList->AddLast(recKineCuts);
396 recList->AddLast(recQualityCuts);
397 recList->AddLast(recIsPrimaryCuts);
399 TObjArray* emptyList = new TObjArray(0);
401 //CREATE THE INTERFACE TO CORRECTION FRAMEWORK USED IN THE TASK
402 printf("CREATE INTERFACE AND CUTS\n");
403 AliCFManager* man = new AliCFManager() ;
404 man->SetParticleContainer(container);
405 man->SetParticleCutsList(0 , mcList); // MC, Limited Acceptance
406 man->SetParticleCutsList(1 , mcList); // MC
407 man->SetParticleCutsList(2 , accList); // Acceptance
408 man->SetParticleCutsList(3 , emptyList); // Vertex
409 man->SetParticleCutsList(4 , emptyList); // Refit
410 man->SetParticleCutsList(5 , emptyList); // AOD
411 man->SetParticleCutsList(6 , emptyList); // AOD in Acceptance
412 man->SetParticleCutsList(7 , emptyList); // AOD with required n. of ITS clusters
413 man->SetParticleCutsList(8 , emptyList); // AOD Reco (PPR cuts implemented in Task)
414 man->SetParticleCutsList(9 , emptyList); // AOD Reco PID
416 // Get the pointer to the existing analysis manager via the static access method.
417 //==============================================================================
418 AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
420 ::Error("AddTaskCompareHF", "No analysis manager to connect to.");
424 printf("CREATE TASK\n");
427 AliCFTaskVertexingHF *task = new AliCFTaskVertexingHF("AliCFTaskVertexingHF",cutsD0toKpi);
428 task->SetFillFromGenerated(kFALSE);
429 task->SetCFManager(man); //here is set the CF manager
430 task->SetDecayChannel(2);
431 task->SetUseWeight(kFALSE);
432 task->SetSign(isSign);
433 task->SetCentralitySelection(kFALSE);
434 task->SetFakeSelection(0);
435 task->SetRejectCandidateIfNotFromQuark(kTRUE); // put to false if you want to keep HIJING D0!!
436 task->SetUseMCVertex(kFALSE); // put to true if you want to do studies on pp
438 if (isKeepDfromB && !isKeepDfromBOnly) task->SetDselection(2);
439 if (isKeepDfromB && isKeepDfromBOnly) task->SetDselection(1);
441 Printf("***************** CONTAINER SETTINGS *****************");
442 Printf("decay channel = %d",(Int_t)task->GetDecayChannel());
443 Printf("FillFromGenerated = %d",(Int_t)task->GetFillFromGenerated());
444 Printf("Dselection = %d",(Int_t)task->GetDselection());
445 Printf("UseWeight = %d",(Int_t)task->GetUseWeight());
446 Printf("Sign = %d",(Int_t)task->GetSign());
447 Printf("Centrality selection = %d",(Int_t)task->GetCentralitySelection());
448 Printf("Fake selection = %d",(Int_t)task->GetFakeSelection());
449 Printf("RejectCandidateIfNotFromQuark selection = %d",(Int_t)task->GetRejectCandidateIfNotFromQuark());
450 Printf("UseMCVertex selection = %d",(Int_t)task->GetUseMCVertex());
451 Printf("***************END CONTAINER SETTINGS *****************\n");
453 //-----------------------------------------------------------//
454 // create correlation matrix for unfolding - only eta-pt //
455 //-----------------------------------------------------------//
457 Bool_t AcceptanceUnf = kTRUE; // unfold at acceptance level, otherwise PPR
461 //first half : reconstructed
471 nameCorr="CFHFcorr0_CommonFramework";
473 else if(isKeepDfromBOnly){
474 nameCorr= "CFHFcorr0KeepDfromBOnly_CommonFramework";
477 nameCorr="CFHFcorr0allD_CommonFramework";
481 THnSparseD* correlation = new THnSparseD(nameCorr,"THnSparse with correlations",4,thnDim);
482 Double_t** binEdges = new Double_t[2];
486 binEdges[0]= binLim0;
487 binEdges[1]= binLim1;
489 correlation->SetBinEdges(0,binEdges[0]);
490 correlation->SetBinEdges(2,binEdges[0]);
492 correlation->SetBinEdges(1,binEdges[1]);
493 correlation->SetBinEdges(3,binEdges[1]);
495 correlation->Sumw2();
497 // correlation matrix ready
498 //------------------------------------------------//
500 task->SetCorrelationMatrix(correlation); // correlation matrix for unfolding
502 // Create and connect containers for input/output
504 // ------ input data ------
505 AliAnalysisDataContainer *cinput0 = mgr->GetCommonInputContainer();
507 // ----- output data -----
509 TString outputfile = AliAnalysisManager::GetCommonFileName();
510 TString output1name="", output2name="", output3name="",output4name="";
511 output2name=nameContainer;
512 output3name=nameCorr;
514 outputfile += ":PWG3_D2H_CFtaskD0toKpi_CommonFramework";
515 output1name="CFHFchist0_CommonFramework";
517 else if(isKeepDfromBOnly){
518 outputfile += ":PWG3_D2H_CFtaskD0toKpiKeepDfromBOnly_CommonFramework";
519 output1name="CFHFchist0DfromB_CommonFramework";
522 outputfile += ":PWG3_D2H_CFtaskD0toKpiKeepDfromB_CommonFramework";
523 output1name="CFHFchist0allD_CommonFramework";
525 output4name= "Cuts_CommonFramework";
527 //now comes user's output objects :
528 // output TH1I for event counting
529 AliAnalysisDataContainer *coutput1 = mgr->CreateContainer(output1name, TH1I::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data());
530 // output Correction Framework Container (for acceptance & efficiency calculations)
531 AliAnalysisDataContainer *coutput2 = mgr->CreateContainer(output2name, AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data());
532 // Unfolding - correlation matrix
533 AliAnalysisDataContainer *coutput3 = mgr->CreateContainer(output3name, THnSparseD::Class(),AliAnalysisManager::kOutputContainer,outputfile.Data());
535 AliAnalysisDataContainer *coutput4 = mgr->CreateContainer(output4name, AliRDHFCuts::Class(),AliAnalysisManager::kOutputContainer, outputfile.Data());
539 mgr->ConnectInput(task,0,mgr->GetCommonInputContainer());
540 mgr->ConnectOutput(task,1,coutput1);
541 mgr->ConnectOutput(task,2,coutput2);
542 mgr->ConnectOutput(task,3,coutput3);
543 mgr->ConnectOutput(task,4,coutput4);