| 34 |
PamLevel2 *L2; |
PamLevel2 *L2; |
| 35 |
Bool_t debug; |
Bool_t debug; |
| 36 |
Bool_t usetrack; |
Bool_t usetrack; |
| 37 |
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const char* trkAlg; |
| 38 |
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| 39 |
// |
// |
| 40 |
// needed to avoid reprocessing the same event over and over to obtain the variables |
// needed to avoid reprocessing the same event over and over to obtain the variables |
| 41 |
// |
// |
| 45 |
Int_t tr; |
Int_t tr; |
| 46 |
Int_t sntr; |
Int_t sntr; |
| 47 |
// |
// |
| 48 |
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Bool_t usepl18x; |
| 49 |
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// |
| 50 |
Int_t interplane; ///< Number of available dE/dx measurements before interaction or exit from the calo (interaction plane) |
Int_t interplane; ///< Number of available dE/dx measurements before interaction or exit from the calo (interaction plane) |
| 51 |
Int_t N; ///< Number of dE/dx measurements to be used to calculate qpremeanN, default N = 5 |
Int_t N; ///< Number of dE/dx measurements to be used to calculate qpremeanN, default N = 5 |
| 52 |
Int_t R; ///< Number of strip to be used around the trajectory to calculate qpremeanN, default R = 3 |
Int_t R; ///< Number of strip to be used around the trajectory to calculate qpremeanN, default R = 3 |
| 58 |
Float_t dedx3; ///< Energy release (MIP) along the track on the first three Silicon detectors (Y EVEN, X EVEN, Y ODD). |
Float_t dedx3; ///< Energy release (MIP) along the track on the first three Silicon detectors (Y EVEN, X EVEN, Y ODD). |
| 59 |
Float_t qpremean; ///< Truncated mean (MIP) along the track up to the interaction plane preq using three points |
Float_t qpremean; ///< Truncated mean (MIP) along the track up to the interaction plane preq using three points |
| 60 |
Float_t qpremeanN; ///< Truncated mean (MIP) along the track up to the interaction plane preq using N points |
Float_t qpremeanN; ///< Truncated mean (MIP) along the track up to the interaction plane preq using N points |
| 61 |
|
Float_t qNmin1; ///< Truncated mean (MIP) along the track using N-1 measurements before of the interaction plane |
| 62 |
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Float_t maxrel; ///<Energy maximum release on first Calorimeter plane (dedx of strip with maximum release) |
| 63 |
Float_t ethr; ///< Threshold (MIP) needed to find the interaction plane |
Float_t ethr; ///< Threshold (MIP) needed to find the interaction plane |
| 64 |
Bool_t multhit; ///< True if the interaction plane has been determined by multiple hit counting |
Bool_t multhit; ///< True if the interaction plane has been determined by multiple hit counting |
| 65 |
Bool_t gap; ///< True if determining the interaction plane a big (>5 planes) gap has been found between a point and another along the track |
Bool_t gap; ///< True if determining the interaction plane a big (>5 planes) gap has been found between a point and another along the track |
| 66 |
// |
Float_t charge_siegen1; |
| 67 |
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Float_t ZCalo_dedx_b; //Z from Calo using dedx in first Calorimeter plane vs. beta |
| 68 |
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Float_t ZCalo_maxrel_b; //Z from Calo using maximum release in first Calorimeter plane vs. beta |
| 69 |
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Float_t ZCalo_dedx_defl; //Z from Calo using dedx in first Calorimeter plane vs. rigidity |
| 70 |
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Float_t ZCalo_Nmin1_defl; //Z from Calo using truncated mean on N-1 Calorimeter planes (plane N+1 is the interaction plane) vs. rigidity |
| 71 |
|
// |
| 72 |
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Float_t qNmin1_w; |
| 73 |
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Int_t S2; |
| 74 |
public: |
public: |
| 75 |
// |
// |
| 76 |
// |
// |
| 77 |
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//char* version(); |
| 78 |
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|
| 79 |
Int_t Get_interplane(){ Process(); return interplane;}; ///< Number of available dE/dx measurements before interaction or exit from the calo (interaction plane) |
Int_t Get_interplane(){ Process(); return interplane;}; ///< Number of available dE/dx measurements before interaction or exit from the calo (interaction plane) |
| 80 |
Int_t Get_N(){ return N;}; ///< Number of dE/dx measurements to be used to calculate qpremeanN, default N = 5 |
Int_t Get_N(){ return N;}; ///< Number of dE/dx measurements to be used to calculate qpremeanN, default N = 5 |
| 81 |
Int_t Get_UsedN(){ return UN;}; ///< Number of dE/dx measurements really used to calculate qpremeanN |
Int_t Get_UsedN(){ return UN;}; ///< Number of dE/dx measurements really used to calculate qpremeanN |
| 87 |
Float_t Get_dEdx3(){ Process(); return dedx3;}; ///< Energy release (MIP) along the track on the first three Silicon detectors (Y EVEN, X EVEN, Y ODD). |
Float_t Get_dEdx3(){ Process(); return dedx3;}; ///< Energy release (MIP) along the track on the first three Silicon detectors (Y EVEN, X EVEN, Y ODD). |
| 88 |
Float_t Get_qpremean(){ Process(); return qpremean;}; ///< Truncated mean (MIP) along the track up to the interaction plane preq using three points |
Float_t Get_qpremean(){ Process(); return qpremean;}; ///< Truncated mean (MIP) along the track up to the interaction plane preq using three points |
| 89 |
Float_t Get_qpremeanN(){ Process(); return qpremeanN;}; ///< Truncated mean (MIP) along the track up to the interaction plane preq using N points |
Float_t Get_qpremeanN(){ Process(); return qpremeanN;}; ///< Truncated mean (MIP) along the track up to the interaction plane preq using N points |
| 90 |
|
Float_t Get_qNmin1(){ Process(); return qNmin1;}; ///< Truncated mean (MIP) along the track using N-1 measurements before of the interaction plane |
| 91 |
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Float_t Get_maxrel(){ Process(); return maxrel;}; ///<Energy maximum release on first Calorimeter plane (dedx of strip with maximum release) |
| 92 |
Float_t Get_ethr(){ Process(); return ethr;}; ///< Threshold (MIP) needed to find the interaction plane |
Float_t Get_ethr(){ Process(); return ethr;}; ///< Threshold (MIP) needed to find the interaction plane |
| 93 |
Bool_t IsMulthit(){ Process(); return multhit;}; ///< True if the interaction plane has been determined by multiple hit counting |
Bool_t IsMulthit(){ Process(); return multhit;}; ///< True if the interaction plane has been determined by multiple hit counting |
| 94 |
// |
// |
| 95 |
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Float_t Get_charge_siegen1(){ Process(); return charge_siegen1;}; ///< charge Siegen method stdedx1 vs. beta |
| 96 |
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Float_t Get_ZCalo_dedx_b(){ Process(); return ZCalo_dedx_b;}; //Z from Calo using dedx (or StdEdx) in first Calorimeter plane vs. beta |
| 97 |
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Float_t Get_ZCalo_maxrel_b(){ Process(); return ZCalo_maxrel_b;}; //Z from Calo using maximum release in first Calorimeter plane vs. beta |
| 98 |
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Float_t Get_ZCalo_dedx_defl(){ Process(); return ZCalo_dedx_defl;}; //Z from Calo using dedx in first Calorimeter plane vs. rigidity |
| 99 |
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Float_t Get_ZCalo_Nmin1_defl(){ Process(); return ZCalo_Nmin1_defl;}; //Z from Calo using truncated mean on N-1 Calorimeter planes (plane N+1 is the interaction plane) vs. rigidity |
| 100 |
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| 101 |
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// |
| 102 |
void Set_N(Int_t n){ N=n;}; |
void Set_N(Int_t n){ N=n;}; |
| 103 |
void Set_R(Int_t r){ R=r;}; |
void Set_R(Int_t r){ R=r;}; |
| 104 |
// |
// |
| 105 |
CaloNuclei(); |
// CaloNuclei(); |
| 106 |
CaloNuclei(PamLevel2 *L2); |
CaloNuclei(PamLevel2 *L2,const char* alg); |
| 107 |
~CaloNuclei(){ Delete(); }; |
~CaloNuclei(){ Delete(); }; |
| 108 |
// |
// |
| 109 |
void SetDebug(Bool_t d){ debug=d; }; |
void SetDebug(Bool_t d){ debug=d; }; |
| 110 |
void UseTrack(Bool_t d){ usetrack=d; }; |
void UseTrack(Bool_t d){ usetrack=d; }; |
| 111 |
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| 112 |
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| 113 |
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void UsePlane18X(Bool_t use){usepl18x = use;}; |
| 114 |
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// |
| 115 |
// |
// |
| 116 |
void Clear(); |
void Clear(); |
| 117 |
void Clear(Option_t *option){Clear();}; |
void Clear(Option_t *option){Clear();}; |
| 123 |
void Print(); |
void Print(); |
| 124 |
void Print(Option_t *option){Print();}; |
void Print(Option_t *option){Print();}; |
| 125 |
// |
// |
| 126 |
ClassDef(CaloNuclei,2); |
ClassDef(CaloNuclei,3); |
| 127 |
}; |
}; |
| 128 |
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| 129 |
#endif |
#endif |
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