1 | #ifndef MARS_MHGausEvents
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2 | #define MARS_MHGausEvents
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3 |
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4 | #ifndef ROOT_TH1
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5 | #include <TH1.h>
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6 | #endif
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7 |
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8 | #ifndef ROOF_TF1
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9 | #include <TF1.h>
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10 | #endif
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11 |
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12 | #ifndef MARS_MH
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13 | #include "MH.h"
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14 | #endif
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15 |
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16 | #ifndef MARS_MArrayF
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17 | #include "MArrayF.h"
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18 | #endif
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19 |
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20 | class TVirtualPad;
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21 | class TGraph;
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22 | class TH1F;
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23 | class TH1I;
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24 | class TF1;
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25 |
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26 | class MHGausEvents : public MH
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27 | {
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28 | private:
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29 |
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30 | const static Int_t fgNDFLimit; //! Default for fNDFLimit (now set to: 2)
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31 | const static Float_t fgProbLimit; //! Default for fProbLimit (now set to: 0.001)
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32 | const static Int_t fgPowerProbabilityBins; //! Default for fPowerProbabilityBins (now set to: 20)
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33 |
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34 | private:
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35 |
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36 | Int_t fBinsAfterStripping; // Bins for the Gauss Histogram after stripping off the zeros at both ends
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37 | UInt_t fCurrentSize; // Current size of the array fEvents
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38 | Float_t fEventFrequency; // Event frequency in Hertz (to be set)
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39 | Byte_t fFlags; // Bit field for the fit result bits
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40 | Int_t fPowerProbabilityBins; // Bins for the projected power spectrum
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41 |
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42 | TH1I *fHPowerProbability; //! Fourier transform of fEvents projected on y-axis
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43 | MArrayF *fPowerSpectrum; //! Fourier transform of fEvents
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44 |
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45 | enum { kGausFitOK,
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46 | kExpFitOK,
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47 | kFourierSpectrumOK,
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48 | kExcluded }; // Bits for information about fit results
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49 |
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50 | MArrayF fEvents; // Array which holds the entries of GausHist
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51 | TF1 *fFExpFit; // Exponential fit for FHPowerProbability
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52 | TGraph *fGraphEvents; //! TGraph to display the event array
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53 | TGraph *fGraphPowerSpectrum; //! TGraph to display the power spectrum array
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54 | Axis_t fFirst; // Lower histogram edge for fHGausHist (used by InitBins())
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55 | Axis_t fLast; // Upper histogram edge for fHGausHist (used by InitBins())
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56 | Int_t fNbins; // Number histogram bins for fHGausHist (used by InitBins())
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57 | Int_t fNDFLimit; // NDF limit for judgement if fit is OK
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58 | Float_t fProbLimit; // Probability limit for judgement if fit is OK
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59 |
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60 | protected:
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61 | TF1 *fFGausFit; // Gauss fit for fHGausHist
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62 | TH1F fHGausHist; // Histogram to hold the Gaussian distribution
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63 |
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64 | Double_t fMean; // Mean of the Gauss fit
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65 | Double_t fMeanErr; // Error of the mean of the Gauss fit
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66 | Double_t fSigma; // Sigma of the Gauss fit
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67 | Double_t fSigmaErr; // Error of the sigma of the Gauss fit
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68 | Double_t fProb; // Probability of the Gauss fit
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69 |
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70 | // Setters
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71 | void SetBinsAfterStripping ( const Int_t nbins=0 ) { fBinsAfterStripping =nbins; }
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72 | void SetPowerProbabilityBins ( const Int_t nbins=fgPowerProbabilityBins ) { fPowerProbabilityBins=nbins; }
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73 |
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74 | public:
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75 |
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76 | MHGausEvents(const char* name=NULL, const char* title=NULL);
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77 | ~MHGausEvents();
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78 |
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79 | void Clear(Option_t *o="");
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80 | void Reset();
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81 |
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82 | void CreateFourierSpectrum();
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83 | void CreateGraphEvents();
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84 | void CreateGraphPowerSpectrum();
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85 |
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86 | // Draws
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87 | void Draw ( Option_t *option="" ); // *MENU*
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88 | void DrawEvents ( Option_t *option="" ); // *MENU*
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89 | void DrawPowerSpectrum ( Option_t *option="" ); // *MENU*
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90 | void DrawPowerProjection( Option_t *option="" ); // *MENU*
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91 |
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92 | // Fill
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93 | void FillArray ( const Float_t f );
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94 | Bool_t FillHist ( const Float_t f );
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95 | Bool_t FillHistAndArray ( const Float_t f );
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96 |
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97 | // Fits
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98 | Bool_t FitGaus ( Option_t *option="RQ0",
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99 | const Double_t xmin=0.,
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100 | const Double_t xmax=0.); // *MENU*
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101 |
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102 | // Inits
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103 | virtual void InitBins();
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104 |
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105 | // Getters
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106 | const Double_t GetChiSquare() const { return ( fFGausFit ? fFGausFit->GetChisquare() : 0.); }
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107 | const Double_t GetExpChiSquare() const { return ( fFExpFit ? fFExpFit->GetChisquare() : 0.); }
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108 | const Int_t GetExpNdf() const { return ( fFExpFit ? fFExpFit->GetNDF() : 0 ); }
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109 | const Double_t GetExpProb() const { return ( fFExpFit ? fFExpFit->GetProb() : 0.); }
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110 | MArrayF *GetEvents() { return &fEvents; }
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111 | const MArrayF *GetEvents() const { return &fEvents; }
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112 | const Float_t GetEventFrequency () const { return fEventFrequency; }
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113 | TF1 *GetFExpFit() { return fFExpFit; }
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114 | const TF1 *GetFExpFit() const { return fFExpFit; }
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115 | TF1 *GetFGausFit() { return fFGausFit; }
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116 | const TF1 *GetFGausFit() const { return fFGausFit; }
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117 | TGraph *GetGraphEvents() { return fGraphEvents; }
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118 | const Double_t GetFirst() const { return fFirst; }
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119 | const Double_t GetLast () const { return fLast ; }
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120 | const TGraph *GetGraphEvents() const { return fGraphEvents; }
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121 | TGraph *GetGraphPowerSpectrum() { return fGraphPowerSpectrum; }
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122 | const TGraph *GetGraphPowerSpectrum() const { return fGraphPowerSpectrum; }
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123 | TH1F *GetHGausHist() { return &fHGausHist; }
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124 | const TH1F *GetHGausHist() const { return &fHGausHist; }
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125 | TH1I *GetHPowerProbability() { return fHPowerProbability; }
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126 | const TH1I *GetHPowerProbability() const { return fHPowerProbability; }
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127 | const Double_t GetHistRms() const { return fHGausHist.GetRMS(); }
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128 | const Double_t GetMean() const { return fMean; }
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129 | const Double_t GetMeanErr() const { return fMeanErr; }
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130 | const Int_t GetNdf() const { return ( fFGausFit ? fFGausFit->GetNDF() : 0); }
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131 | const Int_t GetNbins() const { return fNbins; }
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132 | const Double_t GetOffset() const { return ( fFExpFit ? fFExpFit->GetParameter(0) : 0.); }
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133 | MArrayF *GetPowerSpectrum() { return fPowerSpectrum; }
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134 | const MArrayF *GetPowerSpectrum() const { return fPowerSpectrum; }
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135 | const Double_t GetProb() const { return fProb; }
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136 | const Double_t GetSigma() const { return fSigma; }
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137 | const Double_t GetSigmaErr() const { return fSigmaErr; }
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138 | const Double_t GetSlope() const { return ( fFExpFit ? fFExpFit->GetParameter(1) : 0.); }
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139 | const Int_t GetNDFLimit() const { return fNDFLimit; }
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140 | const Float_t GetProbLimit() const { return fProbLimit; }
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141 |
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142 | const Bool_t IsValid() const { return fMean!=0 || fSigma!=0; }
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143 | const Bool_t IsExcluded() const { return TESTBIT(fFlags,kExcluded); }
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144 | const Bool_t IsExpFitOK() const { return TESTBIT(fFlags,kExpFitOK); }
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145 | const Bool_t IsEmpty() const { return !(fHGausHist.GetEntries()); }
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146 | const Bool_t IsFourierSpectrumOK() const { return TESTBIT(fFlags,kFourierSpectrumOK); }
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147 | const Bool_t IsGausFitOK() const { return TESTBIT(fFlags,kGausFitOK); }
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148 | const Bool_t IsOnlyOverflow() const { return fHGausHist.GetEntries() == fHGausHist.GetBinContent(fNbins+1); }
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149 | const Bool_t IsOnlyUnderflow() const { return fHGausHist.GetEntries() == fHGausHist.GetBinContent(0); }
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150 |
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151 | // Prints
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152 | void Print(const Option_t *o="") const; // *MENU*
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153 |
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154 | // Setters
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155 | void SetEventFrequency ( const Float_t f ) { fEventFrequency = f; }
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156 | void SetExcluded ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kExcluded) : CLRBIT(fFlags,kExcluded); }
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157 | void SetExpFitOK ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kExpFitOK) : CLRBIT(fFlags,kExpFitOK); }
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158 | void SetFourierSpectrumOK( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kFourierSpectrumOK) : CLRBIT(fFlags,kFourierSpectrumOK); }
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159 | void SetGausFitOK ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kGausFitOK) : CLRBIT(fFlags,kGausFitOK);}
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160 | void SetLast ( const Double_t d ) { fLast = d; }
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161 | void SetFirst ( const Double_t d ) { fFirst = d; }
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162 | void SetMean ( const Double_t d ) { fMean = d; }
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163 | void SetMeanErr ( const Double_t d ) { fMeanErr = d; }
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164 | void SetNbins ( const Int_t i ) { fNbins = i; }
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165 | void SetNDFLimit ( const Int_t lim=fgNDFLimit ) { fNDFLimit = lim; }
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166 | void SetProb ( const Double_t d ) { fProb = d; }
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167 | void SetProbLimit ( const Float_t lim=fgProbLimit ) { fProbLimit = lim; }
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168 | void SetSigma ( const Double_t d ) { fSigma = d; }
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169 | void SetSigmaErr ( const Double_t d ) { fSigmaErr = d; }
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170 |
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171 | // Simulates
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172 | void SimulateGausEvents(const Float_t mean, const Float_t sigma, const Int_t nevts=4096); // *MENU*
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173 |
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174 | ClassDef(MHGausEvents, 4) // Base class for events with Gaussian distributed values
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175 | };
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176 |
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177 | #endif
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