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/** |
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* \file ToFLevel2.h |
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* \author Gianfranca DeRosa / Wolfgang Menn / Rita Carbone with E. M. supervision |
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*/ |
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#ifndef ToFLevel2_h |
#ifndef ToFLevel2_h |
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#define ToFLevel2_h |
#define ToFLevel2_h |
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// |
// |
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#include <TObject.h> |
#include <TObject.h> |
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#include <TArrayI.h> |
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#include <TArrayF.h> |
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#include <TClonesArray.h> |
#include <TClonesArray.h> |
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#include <math.h> // EMILIANO |
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#include <iostream> // from ToFLevel2.cpp |
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#include <fstream> // Emiliano |
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#include <sstream> // Emiliano |
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#include <string> // Emiliano |
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#include <ToFStruct.h> |
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#include <TrkLevel2.h> // Emiliano |
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#include <TrigLevel2.h> // Emiliano |
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#include <GLTables.h> // Emiliano |
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#include <OrbitalInfo.h> // Emiliano |
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#include <ToFCore.h> // Emiliano |
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#include <physics/tof/TofEvent.h> |
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// |
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// Declaration of the core fortran routines |
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// |
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#define tofl2com tofl2com_ |
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extern "C" int tofl2com(); |
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#define toftrk toftrk_ |
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extern "C" int toftrk(); |
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#define rdtofcal rdtofcal_ |
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//extern "C" int rdtofcal(char [], int *); |
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extern "C" int rdtofcal(const char *, int *); |
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// |
// |
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// class which contains track related variables |
// class which contains track related variables |
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// |
// |
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#define ZTOF31 -23.49 |
#define ZTOF31 -23.49 |
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#define ZTOF32 -24.34 |
#define ZTOF32 -24.34 |
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class ToFGeom : public TObject { |
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private: |
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TArrayI ePlane, eXY; |
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public: |
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ToFGeom() { |
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int plane[24] = { |
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0, 0, 0, 0, 0, 0, 0, 0, |
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1, 1, 1, 1, 1, 1, |
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2, 2, |
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3, 3, |
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4, 4, 4, |
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5, 5, 5 |
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}; |
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int plXY[6]= { 2, 1, 1, 2, 2, 1 }; // X==1, Y==2 */ |
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ePlane.Set(24,plane); |
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eXY.Set(6,plXY); |
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} |
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int GetPad( int idpmt) { return (int)((idpmt+0.5)/2.); } |
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int GetPlane( int idpmt) { return ePlane[ GetPad(idpmt) ]; } |
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int GetXY( int idpmt) { return eXY[ GetPlane(idpmt) ]; } |
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ClassDef(ToFGeom,1); |
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}; |
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/** |
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* \brief Class which contains the PMT data |
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* |
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* If there is a valid ADC or a TDC value (value<4095) for a PMT, both ADC and TDC data |
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* are stored in the PMT class. |
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* Look in the ToFLevel2Ex.cxx example in the repository how to read the PMT class. |
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*/ |
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class ToFPMT : public TObject { |
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private: |
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public: |
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Int_t pmt_id; ///<the identification number of the PMT from 0 to 47 |
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Float_t adc; ///<raw ADC value for this PMT |
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Float_t tdc; ///<raw TDC value for this PMT |
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Float_t tdc_tw; ///<time-walk corrected TDC value for this PMT |
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// |
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ToFPMT(); |
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ToFPMT(const ToFPMT&); |
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// |
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ToFPMT* GetToFPMT(){return this;}; |
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void Clear(Option_t *t=""); |
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ClassDef(ToFPMT,2); |
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}; |
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/** |
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* \brief Class used to calibrate adc to dEdx for each PMT |
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* |
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* Class used to calibrate adc to dEdx for each PMT |
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*/ |
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class ToFdEdx : public TObject { |
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private: |
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// |
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ToFGeom eGeom; // ToF geometry |
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// |
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Float_t adc_he; |
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TArrayF *eDEDXpmt; // 0-47 pmt dEdx |
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// parameters: |
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TArrayF PMTsat; // 0-47 saturation parameters |
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Float_t adc[48]; |
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// |
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TArrayF parAtt[48]; // 48 x 6 |
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TArrayF parPos[48]; // 48 x 4 |
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TArrayF parDesatBB[48]; // 48 x 3 |
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TArrayF parBBneg[48]; // 48 x 3 |
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TArrayF parBBpos; // 48 x 1 |
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double f_adcPC( float x ); |
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double f_BB( TArrayF &p, float x ); |
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double f_BB5B( float x ); |
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double f_att( TArrayF &p, float x ) ; |
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double f_att5B( float x ); |
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double f_desatBB( TArrayF &p, float x ); |
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double f_desatBB5B( float x ); |
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double f_pos( TArrayF &p, float x ); |
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double f_pos5B( float x ); |
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float Get_adc_he( int id, float pl_x[6], float pl_y[6]); |
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Bool_t conn[12]; |
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UInt_t ts[12]; |
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UInt_t te[12]; |
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public: |
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ToFdEdx(); // class constructor |
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~ToFdEdx(); // class distructor |
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// |
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void Clear(Option_t *option=""); |
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void Delete(Option_t *option=""); |
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void Init(pamela::tof::TofEvent *tofl0 ); // init parameters |
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void Init(Int_t i, Int_t j, Float_t adce); |
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void Define_PMTsat(); |
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void ReadParAtt( const char *fname ); |
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void ReadParPos( const char *fname ); |
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void ReadParBBneg( const char *fname ); |
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void ReadParBBpos( const char *fname ); |
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void ReadParDesatBB( const char *fname ); |
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void CheckConnectors(UInt_t atime, GL_PARAM *glparam, TSQLServer *dbc); |
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void Process( UInt_t atime, Float_t betamean, Float_t *xtr_tof, Float_t *ytr_tof, Int_t exitat=-1); // |
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void Print(Option_t *option=""); |
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// Float_t GetdEdx_pmt(Int_t ipmt) { return (Float_t)eDEDXpmt[ipmt]; } // 0-47 dEdx for each PMT for tracked events |
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Float_t GetdEdx_pmt(Int_t ipmt) { return eDEDXpmt->At(ipmt); } // 0-47 dEdx for each PMT for tracked events |
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// |
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ToFdEdx* GetToFdEdx(){return this;}; |
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ClassDef(ToFdEdx,3); |
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}; |
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/** |
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* \brief Class which contains the tracker related variables |
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* |
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* We can use the ToF standalone to find hitted paddles, calculate beta, etc.. |
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* These results are then stored with the "trkseqno" = -1. |
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* If we use the track from the tracker, then the penetration points in the |
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* scintillators are calculated, which defines the hitted paddles. For these paddles |
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* we calculate then all the output. |
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* Note: The artificial ADC values are stored as dEdx in the output, the dEdx will be |
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* by definition = 1. However, the artificial TDC values are just used internally |
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* and not stored in the output. But one can see in both cases which PMT has artificial |
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* values using "adcflag" and "tdcflag". |
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* Look in the ToFLevel2Ex.cxx example in the repository how to read the tracker related |
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* variables. |
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*/ |
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class ToFTrkVar : public TObject { |
class ToFTrkVar : public TObject { |
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private: |
private: |
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public: |
public: |
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Int_t trkseqno; // tracker entry coming from tracker, 100 if image track is used, -100 if the track is not consistent with MyDetector2 one |
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// |
// |
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Float_t beta_a[13]; |
Int_t trkseqno; ///< tracker sequ. number: -1=ToF standalone, 0=first Tracker track, ... |
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Float_t adc_c[12][4]; |
// |
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Int_t npmttdc; ///<number of the TDC measurements used to evaluate beta |
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TArrayI pmttdc; ///<contains the ID (0..47) for the PMT used to evaluate beta |
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TArrayI tdcflag; ///<flag for artificial TDC, "0" if normal TDC value |
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/** |
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* \brief beta, 12 measurements for the 12 combinations, beta[13] is modified weighted mean |
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* |
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* The 12 measurements are S11-S31, S11-S32, S12-S31, S12-S32, and then analogue for |
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* S2-S3 and S1-S2. |
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* The calculation of beta[13] is now modified: |
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* We check the individual weights for artificial TDC values, then calculate |
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* am mean beta for the first time. In a second step we loop again through |
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* the single measurements, checking for the residual from the mean |
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* The cut on the residual reject measurements > "x"-sigma. A chi2 value is |
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* calculated, furthermore a "quality" value by adding the weights which |
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* are finally used. If all measurements are taken, "quality" will be = 505. |
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* A chi2 cut around 3-4 and a quality-cut > 400 is needed for clean beta |
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* The Level2 beta[12] which is derived in the fortran routines uses: 10.,200.,20. |
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* This is not a very high quality measurement. One can re-calculate a new beta[13] |
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* using the L2-method "CalcBeta" |
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*/ |
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Float_t beta[13]; |
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// |
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Int_t npmtadc; ///<number of the ADC measurements used for dEdx evaluation |
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TArrayI pmtadc; ///<contains the ID (0..47) for the PMT used to evaluate dEdx |
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TArrayI adcflag; ///<flag for artificial ADCs, "0" if normal ADC value |
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TArrayF dedx; ///<energy loss for this PMT in mip |
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// |
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Float_t xtofpos[3]; ///<x-measurement using the TDC values and the calibration from S12, S21, S32 |
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Float_t ytofpos[3]; ///<x-measurement using the TDC values and the calibration from S11, S22, S31 |
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// |
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Float_t xtr_tof[6]; ///<x-measurement in the ToF layers from tracker |
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Float_t ytr_tof[6]; ///<x-measurement in the ToF layers from tracker |
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// |
// |
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ToFTrkVar(); |
ToFTrkVar(); |
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ToFTrkVar(const ToFTrkVar&); |
ToFTrkVar(const ToFTrkVar&); |
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ToFTrkVar* GetToFTrkVar(){return this;}; |
ToFTrkVar* GetToFTrkVar(){return this;}; |
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void Clear(Option_t *t=""); |
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ClassDef(ToFTrkVar,1); |
ClassDef(ToFTrkVar,1); |
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// |
// |
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}; |
}; |
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/** |
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* \brief Class to describe ToF LEVEL2 data |
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* |
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*/ |
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class ToFLevel2 : public TObject { |
class ToFLevel2 : public TObject { |
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private: |
private: |
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public: |
public: |
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Float_t xtofpos[3]; |
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Float_t ytofpos[3]; |
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Int_t tof_i_flag[6]; |
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Int_t tof_j_flag[6]; |
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Float_t betatof_a[13]; |
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Float_t adctof_c[12][4]; |
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Float_t tdc_c[12][4]; |
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TClonesArray *ToFTrk; // track related variable class |
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// |
// |
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TClonesArray *PMT; ///<class needed to store PMT hit informations |
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TClonesArray *ToFTrk; ///<track related variable class |
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Int_t tof_j_flag[6]; ///<number of hitted paddle(s) for each ToF layer: flag = flag + 2**(paddlenumber-1) |
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// |
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Int_t unpackError;///< zero if no error presente |
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Int_t default_calib; ///< one if the default calibration has been used to process the data, zero otherwise |
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// |
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Float_t GetdEdx(Int_t notrack, Int_t plane, Int_t adcfl); // gf Apr 07 |
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Float_t CalcBeta(Int_t notrack, Float_t resmax, Float_t qualitycut, Float_t chi2cut); // wm feb 08 |
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// |
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// Float_t CalcBeta(Int_t notrack, Float_t resmax, Float_t chi2cut, Float_t qualitycut); // wm feb 08 |
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// |
// |
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// methods to make life simplier during the analysis, returns a pointer to the ToFTrkVar class containing track related variables |
// methods to make life simplier during the analysis, returns a pointer to the ToFTrkVar class containing track related variables |
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// |
// |
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Int_t ntrk(){return ToFTrk->GetEntries();}; |
Int_t ntrk(){return ToFTrk->GetEntries();}; |
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Int_t npmt(){return PMT->GetEntries();}; |
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// |
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void GetLevel2Struct(cToFLevel2 *) const; |
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// |
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ToFTrkVar *GetToFTrkVar(Int_t notrack); |
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ToFPMT *GetToFPMT(Int_t nohit); |
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Int_t GetPMTid(Int_t gg, Int_t hh); |
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TString GetPMTName(Int_t ind); |
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Int_t GetPlaneIndex(Int_t pmt_id); |
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void GetMatrix(Int_t notrack, Float_t adc[4][12], Float_t tdc[4][12]); |
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void GetPMTIndex(Int_t pmt_id, Int_t &gg, Int_t &hh); |
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// gf Apr 07 |
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void GetdEdxPaddle(Int_t notrack, Int_t paddleid, Int_t adcfl, Float_t &PadEdx, Int_t &SatWarning); // gf Apr 07 |
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TString GetPMTName(Int_t ind, Int_t &iplane, Int_t &ipaddle,Int_t &ipmt); |
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Int_t GetPaddleIdOfTrack(Float_t xtr, Float_t ytr, Int_t plane); // gf Apr 07 |
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Int_t GetPaddleIdOfTrack(Float_t xtr, Float_t ytr, Int_t plane, Float_t margin); // wm jun 2008 |
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void GetPMTPaddle(Int_t pmt_id, Int_t &plane, Int_t &paddle); // gf Apr 07 |
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void GetPaddlePMT(Int_t paddle, Int_t &pmtleft, Int_t &pmtright); // gf Apr 07 |
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void GetPaddleGeometry(Int_t plane, Int_t paddle, Float_t &xleft, Float_t &xright, Float_t &yleft, Float_t &yright); // gf Apr 07 |
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Int_t GetPaddleid(Int_t plane, Int_t paddle); |
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void GetPaddlePlane(Int_t padid, Int_t &plane, Int_t &paddle); |
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Int_t GetNPaddle(Int_t plane); |
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// |
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// |
// |
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ToFTrkVar *GetToFTrkVar(Int_t notrack); |
// |
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Int_t Process(TrkLevel2 *trk, TrigLevel2 *trg, GL_RUN *run, OrbitalInfo *orb, Bool_t force); // Emiliano |
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// |
// |
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// constructor |
// constructor |
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// |
// |
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ToFLevel2(); |
ToFLevel2(); |
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~ToFLevel2(){Delete();}; //ELENA |
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void Delete(Option_t *t=""); //ELENA |
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void Set();//ELENA |
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// |
// |
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// |
// |
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ToFLevel2* GetToFLevel2(){return this;}; |
ToFLevel2* GetToFLevel2(){return this;}; |
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Float_t GetZTOF(Int_t plane_id){ |
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/** |
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* Method to get the z-position of the 6 TOF layers from the plane ID |
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* @param plane_id Plane ID (11 12 21 22 31 32) |
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*/ |
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Float_t GetZTOF(Int_t plane_id){ |
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switch(plane_id){ |
switch(plane_id){ |
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case 11: return ZTOF11; |
case 11: return ZTOF11; |
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case 12: return ZTOF12; |
case 12: return ZTOF12; |
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case 32: return ZTOF32; |
case 32: return ZTOF32; |
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default: return 0.; |
default: return 0.; |
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}; |
}; |
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}; |
}; |
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// |
// |
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// Paddles position |
// Paddles position |
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// |
// |
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S31 3 paddles 15.0 x 6.0 cm |
S31 3 paddles 15.0 x 6.0 cm |
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S32 3 paddles 18.0 x 5.0 cm |
S32 3 paddles 18.0 x 5.0 cm |
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*/ |
*/ |
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Int_t GetToFPlaneID(Int_t ip); |
Int_t GetToFPlaneID(Int_t ip); |
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Int_t GetToFPlaneIndex(Int_t plane_id); |
Int_t GetToFPlaneIndex(Int_t plane_id); |
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Bool_t HitPaddle(Int_t ,Int_t); |
Bool_t HitPaddle(Int_t ,Int_t); |
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Int_t GetNHitPaddles(Int_t plane); |
Int_t GetNHitPaddles(Int_t plane); |
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void Clear(Option_t *t=""); |
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// |
// |
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ClassDef(ToFLevel2,1); |
ClassDef(ToFLevel2,4); |
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}; |
}; |
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#endif |
#endif |
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