1 | #ifndef MARS_MMcTrigHeader
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2 | #define MARS_MMcTrigHeader
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3 |
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4 | #ifndef MARS_MParContainer
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5 | #include "MParContainer.h"
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6 | #endif
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7 | #ifndef MARS_MTriggerDefine
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8 | #include "MTriggerDefine.h"
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9 | #endif
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10 | #ifndef MARS_Mdefine
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11 | #include "Mdefine.h"
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12 | #endif
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13 |
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14 | class MMcTrigHeader : public MParContainer{
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15 | private:
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16 |
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17 | Short_t fTopology ; // Topology of the trigger
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18 | // 0 = N-1 neighbours of one pixel
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19 | // 1 = N neighbours
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20 | // 2 = N closed pack
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21 | Short_t fMultiplicity ; // Pixel multiplicity of trigger configuration
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22 | Float_t fThreshold[CAMERA_PIXELS] ; // Threshold for trigger
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23 | UInt_t fTrigPattern[2]; // Used to inddentify with
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24 | // RawEvt::Trigger Pattern identification
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25 | Float_t fTrigShape ; // a number that indicate the shape type of
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26 | // the signal
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27 | // = 0 --> a gaussian
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28 | Float_t fAmplTrig ; // the amplitude of the trigger in mV
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29 | Float_t fFwhmTrig ; // the width of the signal in nsec
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30 | Float_t fOverlapingTime;// Minimum coincidence time
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31 | Float_t fGateLeng; // the length of the digital signal if analog
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32 | // signal is above threshold
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33 | Float_t fElecNoiseTrig; // The width of the gaussian noise is that times
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34 | // the amplitude of the single phe response
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35 | // for the trigger
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36 |
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37 | Bool_t fGainFluctuations;
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38 | // kTRUE if PMT gain fluctuations were simulated for the signal
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39 | // (=> default in camera simulation)
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40 |
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41 | Bool_t fNoiseGainFluctuations;
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42 | // kTRUE if PMT gain fluctuations were simulated for the NSB noise
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43 | // (=> default in StarResponse program)
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44 |
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45 |
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46 | public:
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47 | MMcTrigHeader() ;
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48 |
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49 | void Print(Option_t *opt=NULL) const;
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50 |
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51 | void SetTopology(Short_t nTop) {
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52 | fTopology=nTop;
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53 | }
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54 |
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55 | void SetMultiplicity(Short_t nMul) {
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56 | fMultiplicity=nMul;
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57 | }
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58 |
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59 | void SetThreshold(Float_t fthr[]){
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60 | int i;
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61 | for(i=0;i<CAMERA_PIXELS;i++){
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62 | fThreshold[i]=fthr[i];
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63 | }
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64 | }
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65 |
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66 | void SetTrigPattern (UInt_t upi, UInt_t loi){
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67 |
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68 | if (upi==loi==0) {
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69 | fTrigPattern[0]= (UInt_t) fThreshold[0];
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70 | fTrigPattern[1]= (UInt_t) (100*fMultiplicity+fTopology);
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71 | }
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72 | else {
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73 | fTrigPattern[0]=upi;
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74 | fTrigPattern[1]=loi;
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75 | }
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76 | }
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77 |
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78 | void SetShape(Float_t shape){
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79 | fTrigShape=shape;
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80 | }
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81 |
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82 | void SetAmplitud(Float_t amp){
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83 | fAmplTrig=amp;
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84 | }
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85 |
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86 | void SetFwhm(Float_t fwhm){
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87 | fFwhmTrig=fwhm;
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88 | }
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89 |
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90 | void SetOverlap(Float_t overlap){
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91 | fOverlapingTime=overlap;
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92 | }
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93 |
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94 | void SetGate(Float_t gate){
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95 | fGateLeng=gate;
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96 | }
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97 |
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98 | void SetElecNoise( Float_t elecnoise){
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99 | fElecNoiseTrig = elecnoise;
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100 | }
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101 |
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102 | void SetGainFluctuations(Bool_t x) { fGainFluctuations = x; }
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103 | void SetNoiseGainFluctuations(Bool_t x) { fNoiseGainFluctuations = x; }
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104 |
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105 | Short_t GetMultiplicity() { return fMultiplicity; }
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106 |
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107 | Float_t GetMeanThreshold()
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108 | {
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109 | int i;
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110 | Float_t sum = 0., trigpix = 0.;
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111 | for(i=0;i<CAMERA_PIXELS;i++)
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112 | {
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113 | if (fThreshold[i] < 1.e6 && fThreshold[i] > 0.)
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114 | {
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115 | sum += fThreshold[i];
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116 | trigpix += 1.;
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117 | }
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118 | }
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119 |
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120 | return (sum / trigpix);
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121 | }
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122 |
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123 |
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124 | ClassDef(MMcTrigHeader, 5) //Stores Montecarlo Information which describes the used trigger
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125 |
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126 | };
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127 |
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128 | #endif
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