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#include "TGraphAsymmErrors.h" |
#include "TGraphAsymmErrors.h" |
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extern "C" { |
extern "C" { |
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bool efficiency_(Int_t*, Int_t*, Double_t*, Double_t*, Double_t*); |
/*! @brief Fortran routine by Sergio Ricciarini which computes errors on the efficiency. |
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* |
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* This routine has been developed to carefully evaluate the error bars on the efficiency, |
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* which must have a value between 0 and 1. See the appendix of Sergio's PhD thesis for more |
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* details. |
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* The important thing is that the computed efficiency will have the unphysical value 1.1 |
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* if there are less than 8 events in the efficiency sample (eg., the sample used to compute the |
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* efficiency). This is necessary to have a reliable estimate of the errors. |
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* |
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* @param sel Pointer to an Int_t variable containing the number of events in the efficiency sample. |
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* @param det Pointer to an Int_t variable containing the number of events in the efficiency sample |
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* which satisfied the set of cuts for which the efficiency is being measured. |
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* @param eff Pointer to a Double_t variable where the computed efficiency will be returned. |
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* @param errLow Pointer to a Double_t variable where the length of the lower error bar will |
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* be returned. |
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* @param errHigh Pointer to a Double_t variable where the length of the upper error bar will |
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* be returned. |
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* @return Not clear at this point... ignore it. |
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*/ |
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bool efficiency_(Int_t* sel, Int_t* det, Double_t* eff, Double_t* errLow, Double_t* errHigh); |
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} |
} |
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EffRigCollection::EffRigCollection(const char *collectionName, TString outFileBase, TString rigBinsFile, int errMethod) : |
EffRigCollection::EffRigCollection(const char *collectionName, TString outFileBase, TString rigBinsFile, int errMethod, |
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EffCollection(collectionName, outFileBase, errMethod), _bins(0), _selVector(0), _detVector(0), _outUp(0), _outDown(0) { |
bool owns) : |
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EffCollection(collectionName, outFileBase, errMethod, owns), _bins(0), _selVector(0), _detVector(0), _outUp(0), |
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_outDown(0) { |
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ifstream rigBinListFile; |
ifstream rigBinListFile; |
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rigBinListFile.open(rigBinsFile); |
rigBinListFile.open(rigBinsFile); |
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outTextFile.precision(newPrec); |
outTextFile.precision(newPrec); |
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outTextFile.setf(ios::fixed, ios::floatfield); |
outTextFile.setf(ios::fixed, ios::floatfield); |
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for (unsigned int i = 0; i < _selVector.size(); i++) { |
for (unsigned int i = 0; i < _selVector.size(); i++) { |
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outTextFile << setw(10) << _bins[i] << setw(10) << _bins[i + 1] << setw(10) << _detVector[i] << setw(10) |
outTextFile << setw(10) << _bins[i] << " " << setw(10) << _bins[i + 1] << " " << setw(10) << _detVector[i] << " " |
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<< _selVector[i]; |
<< setw(10) << _selVector[i] << " "; |
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if (_selVector[i] != 0) |
if (_selVector[i] != 0) |
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outTextFile << setw(10) << eff[i] << setw(10) << errLow[i] << setw(10) << errHigh[i] << "\n"; |
outTextFile << setw(10) << eff[i] << " " << setw(10) << errLow[i] << " " << setw(10) << errHigh[i]; |
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else |
else |
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outTextFile << setw(10) << 0. << setw(10) << 0. << setw(10) << 0. << endl; |
outTextFile << setw(10) << 0. << " " << setw(10) << 0. << " " << setw(10) << 0.; |
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if (i < _selVector.size() - 1) //Avoids to print an empty line at the end of the file |
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outTextFile << endl; |
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} |
} |
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