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1 | // #include "AliMuonForwardTrackAnalysis.h" | |
2 | // #include "TDatabasePDG.h" | |
3 | // #include "TGeoGlobalMagField.h" | |
4 | // #include "TROOT.h" | |
5 | // #include "AliMagF.h" | |
6 | ||
7 | enum {kNoOption, kResonanceOnly, kCharmOnly, kBeautyOnly, kBackground1mu, kBackground2mu, kNoResonances}; | |
8 | ||
9 | //============================================================================================================================================================= | |
10 | ||
11 | void AliMuonForwardTrackAnalysis(const Char_t *readDir= ".", // the directory with the MuonGlobalTracks.root and geometry.root files | |
12 | Int_t option = kNoOption, // for resonance analysis: kResonanceOnly | |
13 | Double_t massMin = 0., // lower limit for the cut on dimuon mass | |
14 | Double_t massMax = 10., // upper limit for the cut on dimuon mass | |
15 | Double_t maxChi2SingleMuons = 1.5, // upper limit for the cut on the single muon chi2 | |
16 | Double_t maxOffsetSingleMuons = 1.e9., // upper limit for the cut on the single muon offset w.r.t. the primary vtx | |
17 | Bool_t correlateCutOnOffsetChi2 = kTRUE, // if true, the cut region in the chi2-offset plane for single muons is a quadrant aorund the origin | |
18 | Double_t maxWOffsetMuonPairsAtPrimaryVtx = 1.e9, // upper limit for the cut on weighted offset of dimuond w.r.t. the primary vtx | |
19 | Double_t maxWOffsetMuonPairsAtPCA = 1.e9, // upper limit for the cut on weighted offset of dimuond w.r.t. their PCA | |
20 | Double_t maxDistancePrimaryVtxPCA = 1.e9, // upper limit for the cut on the distance between primary vtx and PCA | |
21 | Double_t minPCAQuality = 0., // lower limit for the cut on the PCA quality | |
22 | Int_t triggerLevel = 1, // level of the trigger both muons must satisfy | |
23 | Int_t maxNWrongClusters = 999, // maximum number of wrong MFT clusters for a global muon track | |
24 | const Char_t *outDir = ".", // directory where the output file will be created | |
25 | Bool_t singleMuonAnalysis = kTRUE, // if true, the aalysis of single muons will be performed | |
26 | Bool_t muonPairAnalysis = kTRUE, // if true, the aalysis of muon pairs will be performed | |
27 | Int_t firstEvent = -1, | |
28 | Int_t lastEvent = -1, | |
29 | Int_t numTag = 0, // number which will tag the name of the output file | |
30 | Double_t ptMinSingleMuons = 0.0, // lower limit for the cut on the single muon pt | |
31 | Double_t trueMass = 3.097, // used to evaluate the pseudo proper decay length, usually for J/psi only | |
32 | Bool_t evalDimuonVtxResolution=kFALSE, // to be set true only if prompt dimuon sources are analyzed | |
33 | Int_t nEventsToMix = 0, // if <1 or >100, mixing is not performed | |
34 | const Char_t *tag = "noTag", // tag added to the output file name | |
35 | Double_t etaMinSingleMuons = -3.6, // lower limit for the cut on the single muon eta | |
36 | Double_t etaMaxSingleMuons = -2.5) { // upper limit for the cut on the single muon eta | |
37 | ||
38 | const Double_t mJpsi = TDatabasePDG::Instance()->GetParticle("J/psi")->Mass(); | |
39 | ||
40 | if (trueMass<0) trueMass = mJpsi; | |
41 | ||
42 | gROOT -> LoadMacro("./AliMuonForwardTrackAnalysis.cxx+"); | |
43 | // AliLog::SetClassDebugLevel("AliMuonForwardTrackPair", 1); | |
44 | // AliLog::SetClassDebugLevel("AliMuonForwardTrackAnalysis", 2); | |
45 | ||
46 | TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", -1., -1., AliMagF::k5kG)); | |
47 | ||
48 | AliMuonForwardTrackAnalysis *myAnalysis = new AliMuonForwardTrackAnalysis(); | |
49 | myAnalysis->ReadEvents(firstEvent, lastEvent); | |
50 | myAnalysis->SetInputDir(readDir); | |
51 | myAnalysis->SetOutputDir(outDir); | |
52 | myAnalysis->SetMassRange(massMin, massMax); | |
53 | myAnalysis->SetTrueMass(trueMass); | |
54 | myAnalysis->SetSingleMuonAnalysis(singleMuonAnalysis); | |
55 | myAnalysis->SetMuonPairAnalysis(muonPairAnalysis); | |
56 | myAnalysis->SetOption(option); | |
57 | ||
58 | myAnalysis->SetMaxNWrongClustersMC(maxNWrongClusters); | |
59 | myAnalysis->SetMinPtSingleMuons(ptMinSingleMuons); | |
60 | // myAnalysis->SetEtaRangeSingleMuons(etaMinSingleMuons, etaMaxSingleMuons); | |
61 | myAnalysis->SetMaxChi2SingleMuons(maxChi2SingleMuons); | |
62 | myAnalysis->SetMaxOffsetSingleMuons(maxOffsetSingleMuons); | |
63 | myAnalysis->CorrelateCutOnOffsetChi2(correlateCutOnOffsetChi2); | |
64 | ||
65 | myAnalysis->SetMaxWOffsetMuonPairsAtPrimaryVtx(maxWOffsetMuonPairsAtPrimaryVtx); | |
66 | myAnalysis->SetMaxWOffsetMuonPairsAtPCA(maxWOffsetMuonPairsAtPCA); | |
67 | myAnalysis->SetMaxDistancePrimaryVtxPCA(maxDistancePrimaryVtxPCA); | |
68 | myAnalysis->SetMinPCAQuality(minPCAQuality); | |
69 | ||
70 | myAnalysis->SetMatchTrigger(triggerLevel); | |
71 | ||
72 | myAnalysis->EvalDimuonVtxResolution(evalDimuonVtxResolution); // it should be true only with prompt dimuon sources | |
73 | ||
74 | myAnalysis->SetNEventsToMix(nEventsToMix); | |
75 | ||
76 | if (myAnalysis->Init("MuonGlobalTracks.root")) { | |
77 | while (myAnalysis->LoadNextEvent()) continue; | |
78 | myAnalysis->Terminate(Form("outFiles/outFile.%d.%s.root", numTag, tag)); | |
79 | } | |
80 | ||
81 | } | |
82 | ||
83 | //================================================================================================================================ | |
84 |