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/data/refman/pasoursint/CMSSW_5_3_10_patch2/src/RecoTracker/DebugTools/interface/GetTrackTrajInfo.h

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00001 #ifndef RecoTracker_DebugTools_GetTrackTrajInfo_H
00002 #define RecoTracker_DebugTools_GetTrackTrajInfo_H
00003 
00004 /*
00005  * Determine the track trajectory and detLayer at each layer that the track produces a hit in.
00006  * This info can then be used to get the coordinates and momentum vector of the track at each of these
00007  * layers etc. 
00008  *
00009  * Call function analyze() for each track you are interested in. See comments below for that function.
00010  * From the "result" that it returns, you can do things such as result.detTSOS.globalPosition(),
00011  * to get the estimated position at which the track intercepts the layer.
00012  *
00013  * N.B. This information is obtained by extrapolating the track trajectory from its point of closest
00014  * approach to the beam-line. It is therefore approximate, and should not be used for hit resolution 
00015  * studies. 
00016  * If you are using RECO, you can get more precise results by refitting the track instead of using this
00017  * class. However, this class will work even on AOD.
00018  *
00019  * N.B. Your _cfg.py must load RecoTracker.Configuration.RecoTracker_cff to use this.
00020  *
00021  * Author: Ian Tomalin
00022  * Date: Oct. 2011
00023  */
00024 
00025 #include <memory>
00026 #include "FWCore/Framework/interface/Frameworkfwd.h"
00027 #include "FWCore/Framework/interface/Event.h"
00028 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00029 #include "FWCore/Framework/interface/ESHandle.h"
00030 
00031 #include "FWCore/Framework/interface/EventSetup.h"
00032 #include "DataFormats/TrackReco/interface/Track.h"
00033 #include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
00034 #include "TrackingTools/TrajectoryState/interface/TrajectoryStateOnSurface.h"
00035 
00036 #include <vector>
00037 
00038 class DetLayer;
00039 
00040 class GetTrackTrajInfo {
00041 
00042 public:
00043 
00044   // Used to return results.
00045   struct Result {
00046     // If this is false, the information in the struct for this hit is invalid, as the track trajectory 
00047     // did not cross this layer. (Should only happen in very rare cases).
00048     bool valid;
00049     // If this is false, then although the track trajectory intercepted the layer, it did not intercept 
00050     // a sensor inside the layer. (Can happen rarely, if the track scattered, for example).
00051     // If it is false, the detTSOS is evaluated at the intercept with the layer, not with the sensor,
00052     // so will be slightly less accurate.
00053     bool accurate;
00054     // This is the DetLayer returned by GeometricSearchTracker.
00055     // You can cast it into a specific type, such as BarrelDetLayer, before using it.
00056     const DetLayer* detLayer;
00057     // This is the track trajectory evaluated at the sensor. You can use it to get the coordinates
00058     // where the track crosses the sensor and its momentum vector at that point.
00059     TrajectoryStateOnSurface detTSOS;
00060   };
00061 
00062   GetTrackTrajInfo() {}
00063   
00064   ~GetTrackTrajInfo() {}
00065 
00066   // For each hit on the track, return the information listed in the struct Result above.
00067   // (See comments for struct Results).
00068   // There is a one-to-one correspondence between this vector and the hits returned by track::hitPattern().
00069   // i.e. They are ordered by the order in which the track crossed them. 
00070   std::vector<Result> analyze(const edm::EventSetup& iSetup, const reco::Track& track);
00071 
00072 private:
00073   // Create map indicating r/z values of all layers/disks.
00074   void init (const edm::EventSetup& iSetup);
00075 
00076 private:
00077   // Makes TransientTracks needed for vertex fitting.
00078   edm::ESHandle<TransientTrackBuilder> trkTool_;
00079 };
00080 
00081 #endif