2 #include <AliAnalysisManager.h>
3 #include <PWGLF/RESONANCES/AliRsnCutPrimaryVertex.h>
4 #include <PWGLF/RESONANCES/AliRsnValuePair.h>
5 #include <PWGLF/RESONANCES/AliRsnListOutput.h>
6 #include <PWGLF/RESONANCES/AliRsnPairDef.h>
7 #include <PWGLF/RESONANCES/AliRsnLoopPair.h>
8 #include <PWGLF/RESONANCES/AliRsnAnalysisTask.h>
9 #include <PWGLF/RESONANCES/AliRsnLoopDaughter.h>
10 #include <PWGLF/RESONANCES/AliRsnValueDaughter.h>
11 #include <PWGLF/RESONANCES/AliRsnMiniAnalysisTask.h>
12 #include <PWGLF/RESONANCES/AliRsnCutMiniPair.h>
13 #include <PWGLF/RESONANCES/AliRsnInputHandler.h>
14 #include <PWGLF/RESONANCES/AliRsnMiniMonitor.h>
15 #include <PWGLF/RESONANCES/AliRsnValueEvent.h>
16 #include <AliRsnMiniMonitorTask.h>
19 Bool_t RsnConfig(AliAnalysisTaskSE *task,Bool_t isMC,Bool_t isMixing,AliRsnInputHandler *rsnIH=0,TList *listRsn=0) {
21 if (!task) return kFALSE;
27 Int_t isRsnMini = AliAnalysisManager::GetGlobalInt("rsnUseMiniPackage",valid);
28 TString rsnCutOptCommon = AliAnalysisManager::GetGlobalStr("rsnLegoTrainCommonCutOption",valid);
32 // set commol eventCuts
34 if (!RsnLoadMacroFromConfig("AddRsnCommonEventCuts.C")) return kFALSE;
35 AliRsnCutSet *commonEventCuts = AddRsnCommonEventCuts(task);
37 if (!RsnLoadMacroFromConfig("AddRsnCommonPairCuts.C")) return kFALSE;
38 AliRsnCutSet *commonPairCuts = AddRsnCommonPairCuts();
42 TString rsnName,rsnNameOpt,rsnNameOptFull,rsnCutName,rsnCutOpt,rsnCutNameOptFull;
43 while ((rsnObj = (TNamed *)next())) {
44 GetOptionFromString(rsnObj->GetName(),rsnName,rsnNameOpt);
45 rsnNameOptFull=rsnName;
46 if (!rsnNameOpt.IsNull()) rsnNameOptFull += Form("_%s",rsnNameOpt.Data());
48 GetOptionFromString(rsnObj->GetTitle(),rsnCutName,rsnCutOpt);
49 rsnCutNameOptFull=rsnCutName;
50 if (!rsnCutOpt.IsNull())rsnCutNameOptFull += Form("_%s",rsnCutOpt.Data());
52 if (!rsnCutOptCommon.IsNull()) {
53 if (!rsnCutOpt.IsNull()) rsnCutOpt += "_";
54 rsnCutOpt += rsnCutOptCommon.Data();
57 if (!RsnLoadMacroFromConfig(Form("AddRsnDaughterCuts%s.C",rsnCutName.Data()))) return kFALSE;
58 if (!RsnLoadMacroFromConfig(Form("AddRsnPairs%s.C",rsnName.Data()))) return kFALSE;
60 rsnNameOptFull.ToLower();
63 if (!rsnName.CompareTo("phi")) {
64 numOfCuts = gROOT->ProcessLine(Form("AddRsnDaughterCuts%s(AliPID::kKaon,AliPID::kKaon,\"%s\",%d,(AliRsnInputHandler*)%p,(AliAnalysisTaskSE*)%p)",rsnCutName.Data(), rsnCutOpt.Data(),isRsnMini,rsnIH, task));
66 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s_K",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
67 AddRsnPairsPhi(task,isMC,isMixing,AliPID::kKaon,cutIndex,AliPID::kKaon,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
70 } else if (!rsnName.CompareTo("kstar")) {
71 numOfCuts = gROOT->ProcessLine(Form("AddRsnDaughterCuts%s(AliPID::kKaon,AliPID::kPion,\"%s\",%d,(AliRsnInputHandler*)%p,(AliAnalysisTaskSE*)%p)",rsnCutName.Data(), rsnCutOpt.Data(),isRsnMini,rsnIH,task));
73 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s_K",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
74 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex+1,commonEventCuts,commonPairCuts,Form("%s_%s_pi",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
75 AddRsnPairsKStar(task,isMC,isMixing,AliPID::kKaon,cutIndex,AliPID::kPion,cutIndex+1,commonEventCuts,commonPairCuts,Form("%s_%s",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
78 } else if (!rsnName.CompareTo("rho")) {
79 numOfCuts = gROOT->ProcessLine(Form("AddRsnDaughterCuts%s(AliPID::kPion,AliPID::kPion,\"%s\",%d,(AliRsnInputHandler*)%p,(AliAnalysisTaskSE*)%p)",rsnCutName.Data(), rsnCutOpt.Data(),isRsnMini,rsnIH,task));
81 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s_pi",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
82 AddRsnPairsRho(task,isMC,isMixing,AliPID::kPion,cutIndex,AliPID::kPion,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
85 } else if (!rsnName.CompareTo("lambda")) {
86 numOfCuts = gROOT->ProcessLine(Form("AddRsnDaughterCuts%s(AliPID::kProton,AliPID::kKaon,\"%s\",%d,(AliRsnInputHandler*)%p,(AliAnalysisTaskSE*)%p)",rsnCutName.Data(), rsnCutOpt.Data(),isRsnMini,rsnIH,task));
88 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex,commonEventCuts,commonPairCuts,Form("%s_%s_p",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
89 if (rsnNameOpt.Contains("mon")) AddParticleMonitor(task,isMC,cutIndex+1,commonEventCuts,commonPairCuts,Form("%s_%s_K",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
90 AddRsnPairsLambda(task,isMC,isMixing,AliPID::kProton,cutIndex,AliPID::kKaon,cutIndex+1,commonEventCuts,commonPairCuts,Form("%s_%s",rsnNameOptFull.Data(),rsnCutNameOptFull.Data()));
94 Printf("Error : Particle %s is not supported !!!!",rsnName.Data());
103 Bool_t RsnLoadMacroFromConfig(TString macro,TString path="") {
106 TString lego_path = AliAnalysisManager::GetGlobalStr("rsnLegoTrainPath",valid);
107 if (!valid) lego_path = "$ALICE_ROOT/PWGLF/RESONANCES/macros/lego_train";
109 if (!gSystem->AccessPathName(macro.Data())) {
110 gROOT->LoadMacro(macro.Data());
111 Printf("Macro loaded from %s/%s ...",gSystem->pwd(),macro.Data());
115 if (!gSystem->AccessPathName(gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data())))) {
116 gROOT->LoadMacro(gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data())));
117 Printf("Macro loaded from %s ...",gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data())));
121 Printf("Error loading %s",macro.Data());
126 void GetOptionFromString(TString str,TString &outStr1,TString &outStr2,TString d=":") {
128 TObjArray *tokens = str.Tokenize(d.Data());
129 TObjString *objStr = (TObjString *)tokens->At(0);
135 outStr1 = objStr->GetString();
137 objStr = (TObjString *) tokens->At(1);
142 outStr2 = objStr->GetString();
146 Bool_t AddPair(AliAnalysisTaskSE *task, Bool_t isMC,Bool_t isMixing, AliPID::EParticleType pType1,Int_t listID1, AliPID::EParticleType pType2,Int_t listID2, Int_t pdgMother,Double_t massMother, AliRsnCutSet *commonEventCuts=0,AliRsnCutSet *commonPairCuts=0, TString name = "") {
149 Int_t useMCMomentum = AliAnalysisManager::GetGlobalInt("rsnUseMCMomentum",valid);
151 Bool_t typeSame = (pType1 == pType2);
153 // Printf("------------- id1=%d id2=%d",listID1,listID2);
155 TList *listLoops = new TList;
158 AliRsnPairDef *pairDefPM = new AliRsnPairDef((AliRsnDaughter::ESpecies)pType1, '+', (AliRsnDaughter::ESpecies)pType2, '-', pdgMother, massMother);
159 AliRsnPairDef *pairDefMP = new AliRsnPairDef((AliRsnDaughter::ESpecies)pType1, '-', (AliRsnDaughter::ESpecies)pType2, '+', pdgMother, massMother);
160 AliRsnPairDef *pairDefPP = new AliRsnPairDef((AliRsnDaughter::ESpecies)pType1, '+', (AliRsnDaughter::ESpecies)pType2, '+', pdgMother, massMother);
161 AliRsnPairDef *pairDefMM = new AliRsnPairDef((AliRsnDaughter::ESpecies)pType1, '-', (AliRsnDaughter::ESpecies)pType2, '-', pdgMother, massMother);
163 // loop object creation
164 AliRsnLoopPair *lp = 0;
167 lp = new AliRsnLoopPair(Form("%s_PM", name.Data()), pairDefPM, kFALSE);
171 lp = new AliRsnLoopPair(Form("%s_MP", name.Data()), pairDefMP, kFALSE);
175 // sets +- TRUE pairs
177 lp = new AliRsnLoopPair(Form("%s_PM_TRUE", name.Data()), pairDefPM, kFALSE);
178 lp->SetOnlyTrue(kTRUE);
179 lp->SetCheckDecay(kTRUE);
182 lp = new AliRsnLoopPair(Form("%s_MP_TRUE", name.Data()), pairDefMP, kFALSE);
183 lp->SetOnlyTrue(kTRUE);
184 lp->SetCheckDecay(kTRUE);
187 // sets +- TRUE paris (MC is used for momentum)
188 lp = new AliRsnLoopPair(Form("%s_PM_TRUE_MC", name.Data()), pairDefPM, kFALSE);
189 lp->SetTrueMC(kTRUE);
192 // sets +- TRUE paris (MC is used for momentum)
193 lp = new AliRsnLoopPair(Form("%s_MP_TRUE_MC", name.Data()), pairDefMP, kFALSE);
194 lp->SetTrueMC(kTRUE);
200 lp = new AliRsnLoopPair(Form("%s_PP", name.Data()), pairDefPP, kFALSE);
204 lp = new AliRsnLoopPair(Form("%s_MM", name.Data()), pairDefMM, kFALSE);
208 // sets +- Mixing (NOT mini)
209 lp = new AliRsnLoopPair(Form("%s_PM", name.Data()), pairDefPM, kTRUE);
212 // sets -+ Mixing (NOT mini)
213 lp = new AliRsnLoopPair(Form("%s_MP", name.Data()), pairDefMP, kTRUE);
216 // sets ++ Mixing (NOT mini)
217 lp = new AliRsnLoopPair(Form("%s_PP", name.Data()), pairDefPP, kTRUE);
220 // sets -- Mixing (NOT mini)
221 lp = new AliRsnLoopPair(Form("%s_MM", name.Data()), pairDefMM, kTRUE);
226 // loops over all AliRsnLoops and sets everything (don't touch it if you don't know what you are doing)
227 TIter next(listLoops);
228 while ((lp = (AliRsnLoopPair *)next.Next())) {
229 lp->SetListID(0, listID1);
230 lp->SetListID(1, listID2);
231 lp->SetMCRefInfo(useMCMomentum);
232 if (commonPairCuts) lp->SetPairCuts(commonPairCuts);
233 if (commonEventCuts) lp->SetEventCuts(commonEventCuts);
234 if (name.Contains("phi")) AddPairOutputPhi(lp);
235 else if (name.Contains("kstar")) AddPairOutputKStar(lp);
237 ((AliRsnAnalysisTask *)task)->AddLoop(lp);
242 void AddMonitorOutput(TObjArray *mon=0,TString opt="",AliRsnLoopDaughter *lm=0)
246 Int_t useMCMon = AliAnalysisManager::GetGlobalInt("rsnUseMCMonitoring",valid);
247 // if (useMCMon) return;
250 AliRsnValueDaughter *axisMomTPC = new AliRsnValueDaughter("pTPC", AliRsnValueDaughter::kPtpc);
251 AliRsnValueDaughter *axisSigTPC = new AliRsnValueDaughter("sTPC", AliRsnValueDaughter::kTPCsignal);
252 axisMomTPC->SetBins(0.0,5.0,0.01);
253 axisSigTPC->SetBins(0.0,500.0,2.0);
255 // output: 2D histogram of TPC signal vs. TPC momentum
256 AliRsnListOutput *outMonitordEdxTPC = new AliRsnListOutput("dEdx", AliRsnListOutput::kHistoDefault);
257 outMonitordEdxTPC->AddValue(axisMomTPC);
258 outMonitordEdxTPC->AddValue(axisSigTPC);
260 // add outputs to loop
261 if (mon) mon->Add(outMonitordEdxTPC);
262 if (lm) lm->AddOutput(outMonitordEdxTPC);
265 AliRsnValueDaughter *axisMomTPCForTOF = new AliRsnValueDaughter("pTPC", AliRsnValueDaughter::kPtpc);
266 AliRsnValueDaughter *axisSigTOF = new AliRsnValueDaughter("sTOF", AliRsnValueDaughter::kTOFsignal);
267 axisMomTPCForTOF->SetBins(0.0,5.0,0.01);
268 axisSigTOF->SetBins(0.0,500.0,2.0);
270 // output: 2D histogram of TPC signal vs. TPC momentum
271 AliRsnListOutput *outMonitordEdxTOF = new AliRsnListOutput("Edx", AliRsnListOutput::kHistoDefault);
272 outMonitordEdxTOF->AddValue(axisMomTPCForTOF);
273 outMonitordEdxTOF->AddValue(axisSigTOF);
275 // add outputs to loop
276 if (mon) mon->Add(outMonitordEdxTOF);
277 if (lm) lm->AddOutput(outMonitordEdxTOF);
281 AliRsnValueDaughter *axisMomP = new AliRsnValueDaughter("p", AliRsnValueDaughter::kP);
282 axisMomP->SetBins(0.0,5.0,0.01);
284 // output: 2D histogram of TPC signal vs. TPC momentum
285 AliRsnListOutput *outMonitorP = new AliRsnListOutput("P", AliRsnListOutput::kHistoDefault);
286 outMonitorP->AddValue(axisMomP);
288 // add outputs to loop
289 if (mon) mon->Add(outMonitorP);
290 if (lm) lm->AddOutput(outMonitorP);
294 AliRsnValueDaughter *axisMomPMC = new AliRsnValueDaughter("pMC", AliRsnValueDaughter::kP);
295 axisMomPMC->SetUseMCInfo(kTRUE);
296 axisMomPMC->SetBins(0.0,5.0,0.01);
298 // output: 2D histogram of TPC signal vs. TPC momentum
299 AliRsnListOutput *outMonitorPMC = new AliRsnListOutput("PMC", AliRsnListOutput::kHistoDefault);
300 outMonitorPMC->AddValue(axisMomPMC);
302 // add outputs to loop
303 if (mon) mon->Add(outMonitorPMC);
304 if (lm) lm->AddOutput(outMonitorPMC);
309 AliRsnValueDaughter *axisMomPt = new AliRsnValueDaughter("pt", AliRsnValueDaughter::kPt);
310 axisMomPt->SetBins(0.0,5.0,0.01);
312 // output: 2D histogram of TPC signal vs. TPC momentum
313 AliRsnListOutput *outMonitorPt = new AliRsnListOutput("Pt", AliRsnListOutput::kHistoDefault);
314 outMonitorPt->AddValue(axisMomPt);
316 // add outputs to loop
317 if (mon) mon->Add(outMonitorPt);
318 if (lm) lm->AddOutput(outMonitorPt);
321 AliRsnValueDaughter *axisMomPtMC = new AliRsnValueDaughter("ptMC", AliRsnValueDaughter::kPt);
322 axisMomPtMC->SetUseMCInfo(kTRUE);
323 axisMomPtMC->SetBins(0.0,5.0,0.01);
325 // output: 2D histogram of TPC signal vs. TPC momentum
326 AliRsnListOutput *outMonitorPtMC = new AliRsnListOutput("PtMC", AliRsnListOutput::kHistoDefault);
327 outMonitorPtMC->AddValue(axisMomPtMC);
329 // add outputs to loop
330 if (mon) mon->Add(outMonitorPtMC);
331 if (lm) lm->AddOutput(outMonitorPtMC);
335 AliRsnValueDaughter *axisMomEta = new AliRsnValueDaughter("eta", AliRsnValueDaughter::kEta);
336 axisMomEta->SetBins(-1.0,1.0,0.01);
338 // output: 2D histogram of TPC signal vs. TPC momentum
339 AliRsnListOutput *outMonitorEta = new AliRsnListOutput("Eta", AliRsnListOutput::kHistoDefault);
340 outMonitorEta->AddValue(axisMomEta);
342 // add outputs to loop
343 if (mon) mon->Add(outMonitorEta);
344 if (lm) lm->AddOutput(outMonitorEta);
348 AliRsnValueDaughter *axisMomEtaMC = new AliRsnValueDaughter("etaMC", AliRsnValueDaughter::kEta);
349 axisMomEtaMC->SetUseMCInfo(kTRUE);
350 axisMomEtaMC->SetBins(-1.0,1.0,0.01);
352 // output: 2D histogram of TPC signal vs. TPC momentum
353 AliRsnListOutput *outMonitorEtaMC = new AliRsnListOutput("EtaMC", AliRsnListOutput::kHistoDefault);
354 outMonitorEtaMC->AddValue(axisMomEtaMC);
356 // add outputs to loop
357 if (mon) mon->Add(outMonitorEtaMC);
358 if (lm) lm->AddOutput(outMonitorEtaMC);
361 AliRsnValueDaughter *axisTPCnsigmaK = new AliRsnValueDaughter("K", AliRsnValueDaughter::kTPCnsigmaK);
362 axisTPCnsigmaK->SetBins(1001,-100,100);
364 // output: 2D histogram of TPC signal vs. TPC momentum
365 AliRsnListOutput *outMonitorTPCnsigmaK = new AliRsnListOutput("TPC_nsigma", AliRsnListOutput::kHistoDefault);
366 outMonitorTPCnsigmaK->AddValue(axisTPCnsigmaK);
368 // add outputs to loop
369 if (mon) mon->Add(outMonitorTPCnsigmaK);
370 if (lm) lm->AddOutput(outMonitorTPCnsigmaK);
373 AliRsnValueDaughter *axisTPCnsigmaPi = new AliRsnValueDaughter("pi", AliRsnValueDaughter::kTPCnsigmaPi);
374 axisTPCnsigmaPi->SetBins(1001,-100,100);
376 // output: 2D histogram of TPC signal vs. TPC momentum
377 AliRsnListOutput *outMonitorTPCnsigmaPi = new AliRsnListOutput("TPC_nsigma", AliRsnListOutput::kHistoDefault);
378 outMonitorTPCnsigmaPi->AddValue(axisTPCnsigmaPi);
380 // add outputs to loop
381 if (mon) mon->Add(outMonitorTPCnsigmaPi);
382 if (lm) lm->AddOutput(outMonitorTPCnsigmaPi);
385 AliRsnValueDaughter *axisTPCnsigmaP = new AliRsnValueDaughter("p", AliRsnValueDaughter::kTPCnsigmaP);
386 axisTPCnsigmaP->SetBins(1001,-100,100);
388 // output: 2D histogram of TPC signal vs. TPC momentum
389 AliRsnListOutput *outMonitorTPCnsigmaP = new AliRsnListOutput("TPC_nsigma", AliRsnListOutput::kHistoDefault);
390 outMonitorTPCnsigmaP->AddValue(axisTPCnsigmaP);
392 // add outputs to loop
393 if (mon) mon->Add(outMonitorTPCnsigmaP);
394 if (lm) lm->AddOutput(outMonitorTPCnsigmaP);
397 if (!opt.Contains("NoTOFSIGMA")) {
400 AliRsnValueDaughter *axisTOFnsigmaK = new AliRsnValueDaughter("K", AliRsnValueDaughter::kTOFnsigmaK);
401 axisTOFnsigmaK->SetBins(1001,-100,100);
403 // output: 2D histogram of TPC signal vs. TPC momentum
404 AliRsnListOutput *outMonitorTOFnsigmaK = new AliRsnListOutput("TOF_nsigma", AliRsnListOutput::kHistoDefault);
405 outMonitorTOFnsigmaK->AddValue(axisTOFnsigmaK);
407 // add outputs to loop
408 if (mon) mon->Add(outMonitorTOFnsigmaK);
409 if (lm) lm->AddOutput(outMonitorTOFnsigmaK);
412 AliRsnValueDaughter *axisTOFnsigmaPi = new AliRsnValueDaughter("pi", AliRsnValueDaughter::kTOFnsigmaPi);
413 axisTOFnsigmaPi->SetBins(1001,-100,100);
415 // output: 2D histogram of TPC signal vs. TPC momentum
416 AliRsnListOutput *outMonitorTOFnsigmaPi = new AliRsnListOutput("TOF_nsigma", AliRsnListOutput::kHistoDefault);
417 outMonitorTOFnsigmaPi->AddValue(axisTOFnsigmaPi);
419 // add outputs to loop
420 if (mon) mon->Add(outMonitorTOFnsigmaPi);
421 if (lm) lm->AddOutput(outMonitorTOFnsigmaPi);
424 AliRsnValueDaughter *axisTOFnsigmaP = new AliRsnValueDaughter("p", AliRsnValueDaughter::kTOFnsigmaP);
425 axisTOFnsigmaP->SetBins(1001,-100,100);
427 // output: 2D histogram of TPC signal vs. TPC momentum
428 AliRsnListOutput *outMonitorTOFnsigmaP = new AliRsnListOutput("TOF_nsigma", AliRsnListOutput::kHistoDefault);
429 outMonitorTOFnsigmaP->AddValue(axisTOFnsigmaP);
431 // add outputs to loop
432 if (mon) mon->Add(outMonitorTOFnsigmaP);
433 if (lm) lm->AddOutput(outMonitorTOFnsigmaP);
437 AliRsnListOutput *outMonitorPTvsMult = new AliRsnListOutput("PTvsMult",AliRsnListOutput::kHistoDefault);
438 AliRsnValueDaughter *vd1 = new AliRsnValueDaughter("pt",AliRsnValueDaughter::kPt);
439 vd1->SetBins(0.0,5.0,0.01);
440 outMonitorPTvsMult->AddValue(vd1);
442 AliRsnValueEvent *ve1 = new AliRsnValueEvent("mult",AliRsnValueEvent::kMult);
443 ve1->SetBins(0.0,100.0,1);
444 outMonitorPTvsMult->AddValue(ve1);
445 if (mon) mon->Add(outMonitorPTvsMult);
446 if (lm) lm->AddOutput(outMonitorPTvsMult);
449 // if (lm) lm->SetTrueMC(kTRUE);
452 void AddMonitorOutputMini(AliRsnMiniMonitorTask *task,Int_t listID1,TString name = "",Char_t charge='0')
454 TString chargeName="all";
455 if ( charge == '+' ) chargeName = "pos";
456 if ( charge == '-' ) chargeName = "neg";
458 AliRsnMiniMonitor *mondEdx = task->CreateMonitor(Form("%s_dEdx_pTPC_%s", name.Data(),chargeName.Data()),AliRsnMiniMonitor::kdEdxTPCvsP, listID1);
459 mondEdx->SetCharge(charge);
460 AliRsnMiniMonitor *monPt = task->CreateMonitor(Form("%s_Pt_%s", name.Data(),chargeName.Data()),AliRsnMiniMonitor::kTrackPt, listID1);
461 monPt->SetCharge(charge);
464 void AddParticleMonitor(AliAnalysisTaskSE *task, Bool_t isMC, Int_t listID1,AliRsnCutSet *commonEventCuts=0,AliRsnCutSet *cutPair=0,TString name = "")
467 Int_t isRsnMini = AliAnalysisManager::GetGlobalInt("rsnUseMiniPackage",valid);
468 Int_t useMCMon = AliAnalysisManager::GetGlobalInt("rsnUseMCMonitoring",valid);
471 // Printf("Monitoring by mini is not supported now. It will be soon !!!");
473 AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
474 AliRsnMiniMonitorTask *monTask = new AliRsnMiniMonitorTask(name.Data(),useMCMon);
475 AddMonitorOutputMini(monTask,listID1,name);
476 // AddMonitorOutputMini(monTask,listID1,name,'+');
477 // AddMonitorOutputMini(monTask,listID1,name,'-');
478 mgr->AddTask(monTask);
479 // connect input container according to source choice
480 mgr->ConnectInput(monTask, 0, mgr->GetCommonInputContainer());
482 // create paths for the output in the common file
483 TString commonPath = AliAnalysisManager::GetCommonFileName();
485 // create containers for output
486 AliAnalysisDataContainer *output = mgr->CreateContainer(Form("RsnMonMini%s", name.Data()), TList::Class(), AliAnalysisManager::kOutputContainer, commonPath.Data());
488 mgr->ConnectOutput(monTask, 1, output);
494 TList *listLoops = new TList;
495 // monitor definition
496 AliRsnDaughterDef *tracksAll = new AliRsnDaughterDef(AliRsnDaughter::kTrack /*'+' or '-'*/);
497 // // AliRsnDaughterDef *tracksPos = new AliRsnDaughterDef(AliRsnDaughter::kTrack,'+');
498 // // AliRsnDaughterDef *tracksNeg = new AliRsnDaughterDef(AliRsnDaughter::kTrack,'-');
500 AliRsnLoopDaughter *lm =0;
502 listLoops->Add(new AliRsnLoopDaughter(Form("ALL_%s", name.Data()), listID1, tracksAll));
504 // // listLoops->Add(new AliRsnLoopDaughter(Form("%s_pos", name.Data()), listID1, tracksPos));
505 // // listLoops->Add(new AliRsnLoopDaughter(Form("%s_neg", name.Data()), listID1, tracksNeg));
507 TIter next(listLoops);
508 while ((lm = (AliRsnLoopDaughter *)next.Next())) {
509 // if (commonEventCuts) lm->SetEventCuts(commonEventCuts);
510 AddMonitorOutput(0,"mc_loop",lm);
511 ((AliRsnAnalysisTask *)task)->AddLoop(lm);