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65e55bbd | 1 | #ifndef ALIHFPTSPECTRUM_H |
2 | #define ALIHFPTSPECTRUM_H | |
3 | ||
4 | /* Copyright(c) 1998-2010, ALICE Experiment at CERN, All rights reserved. * | |
5 | * See cxx source for full Copyright notice */ | |
6 | ||
27de2dfb | 7 | /* $Id$ */ |
8 | ||
65e55bbd | 9 | //*********************************************************************** |
10 | // Class AliHFPtSpectrum | |
11 | // Base class for feed-down corrections on heavy-flavour decays | |
12 | // computes the cross-section via one of the three implemented methods: | |
13 | // 0) Consider no feed-down prediction | |
14 | // 1) Subtract the feed-down with the "fc" method | |
15 | // Yield = Reco * fc; where fc = 1 / ( 1 + (eff_b/eff_c)*(N_b/N_c) ) ; | |
16 | // 2) Subtract the feed-down with the "Nb" method | |
17 | // Yield = Reco - Feed-down (exact formula on the function implementation) | |
18 | // | |
bb427707 | 19 | // (the corrected yields per bin are divided by the bin-width) |
20 | // | |
65e55bbd | 21 | // Author: Z.Conesa, zconesa@in2p3.fr |
22 | //*********************************************************************** | |
23 | ||
24 | #include "TNamed.h" | |
86bdcd8c | 25 | #include "TMath.h" |
e52da743 | 26 | |
27 | class TH1; | |
28 | class TGraphAsymmErrors; | |
29 | ||
65e55bbd | 30 | |
31 | class AliHFPtSpectrum: public TNamed | |
32 | { | |
33 | ||
34 | public: | |
35 | ||
36 | // Constructor | |
37 | AliHFPtSpectrum(const char* name="AliHFPtSpectrum", const char* title="HF feed down correction class", Int_t option=1); | |
38 | // Copy constructor | |
39 | AliHFPtSpectrum(const AliHFPtSpectrum &rhs); | |
40 | // Assignment operator | |
41 | AliHFPtSpectrum& operator=(const AliHFPtSpectrum &source); | |
42 | // Destructor | |
43 | virtual ~AliHFPtSpectrum(); | |
44 | ||
45 | // | |
46 | // Setters | |
47 | // | |
48 | // Set the theoretical direct & feeddown pt spectrum | |
86bdcd8c | 49 | void SetMCptSpectra(TH1D *hDirect, TH1D *hFeedDown); |
65e55bbd | 50 | // Set the theoretical feeddown pt spectrum |
86bdcd8c | 51 | void SetFeedDownMCptSpectra(TH1D *hFeedDown); |
65e55bbd | 52 | // Set the theoretical direct & feeddown pt spectrum upper and lower bounds |
86bdcd8c | 53 | void SetMCptDistributionsBounds(TH1D *hDirectMax, TH1D *hDirectMin, TH1D *hFeedDownMax, TH1D *hFeedDownMin); |
65e55bbd | 54 | // Set the theoretical feeddown pt spectrum upper and lower bounds |
86bdcd8c | 55 | void SetFeedDownMCptDistributionsBounds(TH1D *hFeedDownMax, TH1D *hFeedDownMin); |
65e55bbd | 56 | // Set the acceptance and efficiency corrections for direct |
86bdcd8c | 57 | void SetDirectAccEffCorrection(TH1D *hDirectEff); |
65e55bbd | 58 | // Set the acceptance and efficiency corrections for direct & feeddown |
86bdcd8c | 59 | void SetAccEffCorrection(TH1D *hDirectEff, TH1D *hFeedDownEff); |
65e55bbd | 60 | // Set the reconstructed spectrum |
86bdcd8c | 61 | void SetReconstructedSpectrum(TH1D *hRec); |
62 | void SetReconstructedSpectrumSystematics(TGraphAsymmErrors *gRec); | |
65e55bbd | 63 | // Set the calculation option flag for feed-down correction: 0=none, 1=fc , 2=Nb |
64 | void SetFeedDownCalculationOption(Int_t option){ fFeedDownOption = option; } | |
65 | // Set if the calculation has to consider asymmetric uncertaInt_ties or not | |
a17b17dd | 66 | void SetComputeAsymmetricUncertainties(Bool_t flag){ fAsymUncertainties = flag; } |
65e55bbd | 67 | // Set the luminosity and its uncertainty |
68 | void SetLuminosity(Double_t luminosity, Double_t unc){ | |
69 | fLuminosity[0]=luminosity; fLuminosity[1]=unc; | |
70 | } | |
71 | // Set the trigger efficiency and its uncertainty | |
72 | void SetTriggerEfficiency(Double_t efficiency, Double_t unc){ | |
73 | fTrigEfficiency[0]=efficiency; fTrigEfficiency[1]=unc; | |
74 | } | |
8998180c | 75 | // Set global acceptance x efficiency correction uncertainty (in percentages) |
76 | void SetAccEffPercentageUncertainty(Double_t globalEffUnc, Double_t globalBCEffRatioUnc){ | |
77 | fGlobalEfficiencyUncertainties[0] = globalEffUnc; | |
78 | fGlobalEfficiencyUncertainties[1] = globalBCEffRatioUnc; | |
79 | } | |
86bdcd8c | 80 | // Set the normalization factors |
81 | void SetNormalization(Double_t normalization){ | |
82 | fLuminosity[0]=normalization; fTrigEfficiency[0]=1.0; | |
83 | } | |
84 | void SetNormalization(Double_t nevents, Double_t sigma){ | |
85 | fLuminosity[0]=nevents/sigma; fTrigEfficiency[0]=1.0; | |
86 | } | |
87 | void SetNormalization(Double_t nevents, Double_t sigma, Double_t sigmaunc){ | |
88 | fLuminosity[0] = nevents/sigma; | |
89 | fTrigEfficiency[0] = 1.0; | |
90 | fLuminosity[1] = fLuminosity[0] * TMath::Sqrt( (1/nevents) + (sigmaunc/sigma)*(sigmaunc/sigma) ); | |
91 | } | |
65e55bbd | 92 | |
93 | // | |
94 | // Getters | |
95 | // | |
5f3c1b97 | 96 | // Return the theoretical predictions used for the calculation (rebinned if needed) |
e52da743 | 97 | TH1D * GetDirectTheoreticalSpectrum() const { return (fhDirectMCpt ? (TH1D*)fhDirectMCpt : NULL); } |
98 | TH1D * GetDirectTheoreticalUpperLimitSpectrum() const { return (fhDirectMCptMax ? (TH1D*)fhDirectMCptMax : NULL); } | |
99 | TH1D * GetDirectTheoreticalLowerLimitSpectrum() const { return (fhDirectMCptMin ? (TH1D*)fhDirectMCptMin : NULL); } | |
100 | TH1D * GetFeedDownTheoreticalSpectrum() const { return (fhFeedDownMCpt ? (TH1D*)fhFeedDownMCpt : NULL); } | |
101 | TH1D * GetFeedDownTheoreticalUpperLimitSpectrum() const { return (fhFeedDownMCptMax ? (TH1D*)fhFeedDownMCptMax : NULL); } | |
102 | TH1D * GetFeedDownTheoreticalLowerLimitSpectrum() const { return (fhFeedDownMCptMin ? (TH1D*)fhFeedDownMCptMin : NULL); } | |
5f3c1b97 | 103 | // Return the acceptance and efficiency corrections (rebinned if needed) |
e52da743 | 104 | TH1D * GetDirectAccEffCorrection() const { return (fhDirectEffpt ? (TH1D*)fhDirectEffpt : NULL); } |
105 | TH1D * GetFeedDownAccEffCorrection() const { return (fhFeedDownEffpt ? (TH1D*)fhFeedDownEffpt : NULL); } | |
86bdcd8c | 106 | // Return the TGraphAsymmErrors of the feed-down correction (extreme systematics) |
e52da743 | 107 | TGraphAsymmErrors * GetFeedDownCorrectionFcExtreme() const { return (fgFcExtreme ? fgFcExtreme : NULL); } |
86bdcd8c | 108 | // Return the TGraphAsymmErrors of the feed-down correction (conservative systematics) |
e52da743 | 109 | TGraphAsymmErrors * GetFeedDownCorrectionFcConservative() const { return (fgFcConservative ? fgFcConservative : NULL); } |
65e55bbd | 110 | // Return the histogram of the feed-down correction |
e52da743 | 111 | TH1D * GetHistoFeedDownCorrectionFc() const { return (fhFc ? (TH1D*)fhFc : NULL); } |
65e55bbd | 112 | // Return the histograms of the feed-down correction bounds |
e52da743 | 113 | TH1D * GetHistoUpperLimitFeedDownCorrectionFc() const { return (fhFcMax ? (TH1D*)fhFcMax : NULL); } |
114 | TH1D * GetHistoLowerLimitFeedDownCorrectionFc() const { return (fhFcMin ? (TH1D*)fhFcMin : NULL); } | |
86bdcd8c | 115 | // Return the TGraphAsymmErrors of the yield after feed-down correction (systematics but feed-down) |
e52da743 | 116 | TGraphAsymmErrors * GetFeedDownCorrectedSpectrum() const { return (fgYieldCorr ? fgYieldCorr : NULL); } |
86bdcd8c | 117 | // Return the TGraphAsymmErrors of the yield after feed-down correction (feed-down extreme systematics) |
e52da743 | 118 | TGraphAsymmErrors * GetFeedDownCorrectedSpectrumExtreme() const { return (fgYieldCorrExtreme ? fgYieldCorrExtreme : NULL); } |
86bdcd8c | 119 | // Return the TGraphAsymmErrors of the yield after feed-down correction (feed-down conservative systematics) |
e52da743 | 120 | TGraphAsymmErrors * GetFeedDownCorrectedSpectrumConservative() const { return (fgYieldCorrConservative ? fgYieldCorrConservative : NULL); } |
65e55bbd | 121 | // Return the histogram of the yield after feed-down correction |
e52da743 | 122 | TH1D * GetHistoFeedDownCorrectedSpectrum() const { return (fhYieldCorr ? (TH1D*)fhYieldCorr : NULL); } |
65e55bbd | 123 | // Return the histogram of the yield after feed-down correction bounds |
e52da743 | 124 | TH1D * GetHistoUpperLimitFeedDownCorrectedSpectrum() const { return (fhYieldCorrMax ? (TH1D*)fhYieldCorrMax : NULL); } |
125 | TH1D * GetHistoLowerLimitFeedDownCorrectedSpectrum() const { return (fhYieldCorrMin ? (TH1D*)fhYieldCorrMin : NULL); } | |
86bdcd8c | 126 | // Return the equivalent invariant cross-section TGraphAsymmErrors (systematics but feed-down) |
e52da743 | 127 | TGraphAsymmErrors * GetCrossSectionFromYieldSpectrum() const { return (fgSigmaCorr ? fgSigmaCorr : NULL); } |
86bdcd8c | 128 | // Return the equivalent invariant cross-section TGraphAsymmErrors (feed-down extreme systematics) |
e52da743 | 129 | TGraphAsymmErrors * GetCrossSectionFromYieldSpectrumExtreme() const { return (fgSigmaCorrExtreme ? fgSigmaCorrExtreme : NULL); } |
86bdcd8c | 130 | // Return the equivalent invariant cross-section TGraphAsymmErrors (feed-down conservative systematics) |
e52da743 | 131 | TGraphAsymmErrors * GetCrossSectionFromYieldSpectrumConservative() const { return (fgSigmaCorrConservative ? fgSigmaCorrConservative : NULL); } |
65e55bbd | 132 | // Return the equivalent invariant cross-section histogram |
e52da743 | 133 | TH1D * GetHistoCrossSectionFromYieldSpectrum() const { return (fhSigmaCorr ? (TH1D*)fhSigmaCorr : NULL); } |
65e55bbd | 134 | // Return the equivalent invariant cross-section histogram bounds |
e52da743 | 135 | TH1D * GetHistoUpperLimitCrossSectionFromYieldSpectrum() const { return (fhSigmaCorrMax ? (TH1D*)fhSigmaCorrMax : NULL); } |
136 | TH1D * GetHistoLowerLimitCrossSectionFromYieldSpectrum() const { return (fhSigmaCorrMin ? (TH1D*)fhSigmaCorrMin : NULL); } | |
65e55bbd | 137 | |
138 | // | |
139 | // Main function: | |
140 | // Compute the invariant cross-section from the yield (correct it) | |
a17b17dd | 141 | // variables : analysed delta_y, BR for the final correction, BR b --> decay (relative to the input theoretical prediction) |
142 | void ComputeHFPtSpectrum(Double_t deltaY=1.0, Double_t branchingRatioC=1.0, Double_t branchingRatioBintoFinalDecay=1.0); | |
65e55bbd | 143 | |
8998180c | 144 | // Compute the systematic uncertainties |
145 | // taking as input the AliHFSystErr uncertainties | |
146 | void ComputeSystUncertainties(Int_t decay, Bool_t combineFeedDown); | |
147 | // | |
148 | // Drawing the corrected spectrum comparing to theoretical prediction | |
149 | void DrawSpectrum(TGraphAsymmErrors *gPrediction); | |
150 | ||
bb427707 | 151 | // |
152 | // Basic functions | |
153 | // | |
86bdcd8c | 154 | void EstimateAndSetDirectEfficiencyRecoBin(TH1D *hSimu, TH1D *hReco); |
155 | void EstimateAndSetFeedDownEfficiencyRecoBin(TH1D *hSimu, TH1D *hReco); | |
bb427707 | 156 | |
65e55bbd | 157 | // |
158 | // Functions to reweight histograms for testing purposes: | |
159 | // to reweight the simulation: hToReweight is reweighted as hReference/hToReweight | |
86bdcd8c | 160 | TH1D * ReweightHisto(TH1D *hToReweight, TH1D *hReference); |
65e55bbd | 161 | // to reweight the reco-histos: hRecToReweight is reweighted as hReference/hMCToReweight |
86bdcd8c | 162 | TH1D * ReweightRecHisto(TH1D *hRecToReweight, TH1D *hMCToReweight, TH1D *hMCReference); |
65e55bbd | 163 | |
164 | ||
165 | protected: | |
166 | ||
167 | // Initialization | |
168 | Bool_t Initialize(); | |
169 | ||
170 | // Basic functions | |
171 | // | |
172 | // Compute the feed-down correction via fc-method | |
a17b17dd | 173 | void CalculateFeedDownCorrectionFc(); |
65e55bbd | 174 | // Correct the yield for feed-down correction via fc-method |
a17b17dd | 175 | void CalculateFeedDownCorrectedSpectrumFc(); |
65e55bbd | 176 | // Correct the yield for feed-down correction via Nb-method |
a17b17dd | 177 | void CalculateFeedDownCorrectedSpectrumNb(Double_t deltaY, Double_t branchingRatioBintoFinalDecay); |
65e55bbd | 178 | |
179 | // Check histograms consistency function | |
86bdcd8c | 180 | Bool_t CheckHistosConsistency(TH1D *h1, TH1D *h2); |
5f3c1b97 | 181 | // Function to rebin the theoretical spectra in the data-reconstructed spectra binning |
86bdcd8c | 182 | TH1D * RebinTheoreticalSpectra(TH1D *hTheory, const char *name); |
5f3c1b97 | 183 | // Function to estimate the efficiency in the data-reconstructed spectra binning |
86bdcd8c | 184 | TH1D * EstimateEfficiencyRecoBin(TH1D *hSimu, TH1D *hReco, const char *name); |
185 | ||
65e55bbd | 186 | |
187 | // | |
188 | // Input spectra | |
189 | // | |
86bdcd8c | 190 | TH1D *fhDirectMCpt; // Input MC c-->D spectra |
191 | TH1D *fhFeedDownMCpt; // Input MC b-->D spectra | |
192 | TH1D *fhDirectMCptMax; // Input MC maximum c-->D spectra | |
193 | TH1D *fhDirectMCptMin; // Input MC minimum c-->D spectra | |
194 | TH1D *fhFeedDownMCptMax; // Input MC maximum b-->D spectra | |
195 | TH1D *fhFeedDownMCptMin; // Input MC minimum b-->D spectra | |
196 | TH1D *fhDirectEffpt; // c-->D Acceptance and efficiency correction | |
197 | TH1D *fhFeedDownEffpt; // b-->D Acceptance and efficiency correction | |
198 | TH1D *fhRECpt; // all reconstructed D | |
199 | // | |
200 | TGraphAsymmErrors *fgRECSystematics; // all reconstructed D Systematic uncertainties | |
65e55bbd | 201 | // |
202 | // Normalization factors | |
203 | Double_t fLuminosity[2]; // analyzed luminosity & uncertainty | |
204 | Double_t fTrigEfficiency[2]; // trigger efficiency & uncertainty | |
8998180c | 205 | Double_t fGlobalEfficiencyUncertainties[2]; // uncertainties on the efficiency [0]=c, b, [1]=b/c |
65e55bbd | 206 | |
207 | // | |
208 | // Output spectra | |
209 | // | |
86bdcd8c | 210 | TH1D *fhFc; // Correction histo fc = 1 / ( 1 + (eff_b/eff_c)*(N_b/N_c) ) |
211 | TH1D *fhFcMax; // Maximum fc histo | |
212 | TH1D *fhFcMin; // Minimum fc histo | |
213 | TGraphAsymmErrors * fgFcExtreme; // Extreme correction as TGraphAsymmErrors | |
214 | TGraphAsymmErrors * fgFcConservative; // Extreme correction as TGraphAsymmErrors | |
215 | TH1D *fhYieldCorr; // Corrected yield (stat unc. only) | |
216 | TH1D *fhYieldCorrMax; // Maximum corrected yield | |
217 | TH1D *fhYieldCorrMin; // Minimum corrected yield | |
218 | TGraphAsymmErrors * fgYieldCorr; // Corrected yield as TGraphAsymmErrors (syst but feed-down) | |
219 | TGraphAsymmErrors * fgYieldCorrExtreme; // Extreme corrected yield as TGraphAsymmErrors (syst from feed-down) | |
220 | TGraphAsymmErrors * fgYieldCorrConservative; // Conservative corrected yield as TGraphAsymmErrors (syst from feed-down) | |
221 | TH1D *fhSigmaCorr; // Corrected cross-section (stat unc. only) | |
222 | TH1D *fhSigmaCorrMax; // Maximum corrected cross-section | |
223 | TH1D *fhSigmaCorrMin; // Minimum corrected cross-section | |
224 | TGraphAsymmErrors * fgSigmaCorr; // Corrected cross-section as TGraphAsymmErrors (syst but feed-down) | |
225 | TGraphAsymmErrors * fgSigmaCorrExtreme; // Extreme corrected cross-section as TGraphAsymmErrors (syst from feed-down) | |
226 | TGraphAsymmErrors * fgSigmaCorrConservative; // Conservative corrected cross-section as TGraphAsymmErrors (syst from feed-down) | |
65e55bbd | 227 | |
228 | // | |
229 | Int_t fFeedDownOption; // feed-down correction flag: 0=none, 1=fc, 2=Nb | |
230 | Bool_t fAsymUncertainties; // flag: asymmetric uncertainties are (1) or not (0) considered | |
231 | ||
232 | ||
233 | ClassDef(AliHFPtSpectrum,1) // Class for Heavy Flavor spectra corrections | |
234 | }; | |
235 | ||
236 | #endif |