/[PAMELA software]/PamelaLevel2/doc/examples/example1.C
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Annotation of /PamelaLevel2/doc/examples/example1.C

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Revision 1.4 - (hide annotations) (download)
Tue Jan 16 15:26:26 2007 UTC (17 years, 11 months ago) by mocchiut
Branch: MAIN
CVS Tags: v5r00, v3r03, v4r00, v10RED, v6r00, v9r00, HEAD
Changes since 1.3: +1 -0 lines
File MIME type: text/plain
Added method UpdateRunInfo to synchronize reading of events and runs (see example3.C)

1 pam-fi 1.1 //
2     // Example to integrate all detector info by means of the PamLevel2 class
3     //
4     // An object of this class has access to all the public members of all the detector classes.
5 pam-fi 1.3 // Some methods allows to sort tracks and solve the tracker y-view ambiguity (reject track images)
6     //
7     // --- Modified on January 2007 ---
8     //
9     // In order to access the members of the detector classes you have now to call the
10     // methods
11     //
12     // TrkLevel2* PamLevel2::GetTrkLevel2()
13     // CaloLevel2* PamLevel2::GetCaloLevel2()
14     // OrbitalInfo* PamLevel2::GetOrbitalInfo()
15     // ecc...
16     //
17     // For example:
18     //
19     // PamLevel2* pam_event = new PamLevel2();
20     // cout << pam_event->GetCaloLevel2()->qtot << endl;
21     //
22     // The same is for the track. The class PamTrack combines the track-related info from
23     // tracker, calorimeter and TOF. To access the members of these detector track-related members
24     // you have to call the methods:
25     //
26     // TrkTrack* PamTrack::GetTrkTrack()
27     // CaloTrkVar* PamTrack::GetCaloTrack()
28     // ToFTrkVar* PamTrack::GetToFTrack()
29     //
30     // For example:
31     //
32     // PamTrack *track = pam_event->GetTrack(0); //<< retrieve first track, solving the track-image ambiguity
33     // if(track)cout<< track->GetTrkTrack()->GetRigidity()<<endl;
34 pam-fi 1.1 //
35     void example1(TString file){
36     //
37     // histos
38     //
39     TH1F* qtot = new TH1F("qtot","Total energy in the calorimeter",1000,0.,2000.);
40     TH1F* npaddle = new TH1F("npaddle","Total number of hit ToF paddles",16,-0.5,15.5);
41     TH1F* ntrack = new TH1F("ntr","Number of fitted tracks",6,-0.5,5.5);
42     //
43     TH1F* rig = new TH1F("rig","Particle rigidity",100,0.,100.);
44     TH1F* resxs = new TH1F("resxs","Spatial residual (X) on the 1^ calo plane (sorted tracks)",100,-10.,10.);
45     TH1F* resys = new TH1F("resys","Spatial residual (Y) on the 1^ calo plane (sorted tracks)",100,-10.,10.);
46     TH1F* resxi = new TH1F("resxi","Spatial residual (X) on the 1^ calo plane (image tracks)",100,-10.,10.);
47     TH1F* resyi = new TH1F("resyi","Spatial residual (Y) on the 1^ calo plane (image tracks)",100,-10.,10.);
48     //
49     PamLevel2* pam_event = new PamLevel2(); // << create pamela event
50     //
51     TFile f(file);
52     //
53 pam-fi 1.2 TTree *T = pam_event->GetPamTree(&f); // << get Pamela trees from file f
54 mocchiut 1.4
55 pam-fi 1.1 Int_t nevent = T->GetEntries();
56     //
57     cout << endl<<" Start loop over events ";
58     for (Int_t i=0; i<nevent;i++){
59 pam-fi 1.3 //
60     pam_event->Clear();
61    
62     T->GetEntry(i);
63     //================================================================================
64     // some general quantities
65     //================================================================================
66     // tracker
67     ntrack->Fill( pam_event->GetTrkLevel2()->GetNTracks() ); //<<
68     // calorimeter
69     qtot->Fill( pam_event->GetCaloLevel2()->qtot ); //<<
70     // ToF
71     Int_t npa=0;
72     for(Int_t ipa=0; ipa<6; ipa++)npa = npa + pam_event->GetToFLevel2()->GetNHitPaddles(ipa); //<<
73     npaddle->Fill(npa);
74     //================================================================================
75     // track related variables
76     //================================================================================
77     for(Int_t it=0; it<pam_event->GetTrkLevel2()->GetNTracks(); it++){ // << loop over the "physical" tracks (no track images)
78     //
79     // << get the it-th physical pamela track
80     // << PamTrack combines the tracker, calorimeter and ToF track-related variables
81     // << (in case of image, choose the best track by means of calorimeter and ToF data)
82     //
83     PamTrack *track = pam_event->GetTrack(it); //<<
84     //
85     // << if the track fit is good, fill some histos
86     //
87     if( track->GetTrkTrack()->chi2 > 0 && track->GetTrkTrack()->chi2 < 100){
88     //
89     // << spatial residuals on the first calorimeter plane for the sorted track
90     //
91     Float_t rxs = track->GetCaloTrack()->tbar[0][0] - pam_event->GetCaloLevel2()->cbar[0][0];
92     Float_t rys = track->GetCaloTrack()->tbar[0][1] - pam_event->GetCaloLevel2()->cbar[0][1];
93     resxs->Fill(rxs);
94     resys->Fill(rys);
95     //
96     rig->Fill( track->GetTrkTrack()->GetRigidity() );
97     //
98     // << spatial residuals on the first calorimeter plane for the image track
99 pam-fi 1.1 //
100 pam-fi 1.3 if(track->GetTrkTrack()->HasImage()){ // << if the sorted track has an image...
101     //
102     PamTrack *image = pam_event->GetTrackImage(it); // << ...get the image track
103     //
104     Float_t rxi = image->GetCaloTrack()->tbar[0][0] - pam_event->GetCaloLevel2()->cbar[0][0];
105     Float_t ryi = image->GetCaloTrack()->tbar[0][1] - pam_event->GetCaloLevel2()->cbar[0][1];
106     resxi->Fill(rxi);
107     resyi->Fill(ryi);
108     };
109     };
110     }; // end loop over tracks
111     //================================================================================
112 pam-fi 1.1
113     }; // end loop over the events
114     cout << endl << endl << " Done "<< endl<<endl;
115     //
116     // close file
117     //
118     f.Close();
119    
120     };

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