#include "AliFMDMultCuts.h" #include "AliForwardCorrectionManager.h" #include "AliFMDCorrELossFit.h" #include "AliForwardUtil.h" #include #include #include ClassImp(AliFMDMultCuts) #if 0 ; // This is for Emacs #endif //____________________________________________________________________ AliFMDMultCuts::AliFMDMultCuts() : TObject(), fMPVFraction(0), fNXi(0), fIncludeSigma(true) { for (Int_t i = 0; i < 5; i++) fMultCuts[i] = 0; } //____________________________________________________________________ AliFMDMultCuts::AliFMDMultCuts(const AliFMDMultCuts& o) : TObject(o), fMPVFraction(o.fMPVFraction), fNXi(o.fNXi), fIncludeSigma(o.fIncludeSigma) { for (Int_t i = 0; i < 5; i++) fMultCuts[i] = o.fMultCuts[i]; } //____________________________________________________________________ AliFMDMultCuts& AliFMDMultCuts::operator=(const AliFMDMultCuts& o) { if (&o == this) return *this; fMPVFraction = o.fMPVFraction; fNXi = o.fNXi; fIncludeSigma = o.fIncludeSigma; for (Int_t i = 0; i < 5; i++) fMultCuts[i] = o.fMultCuts[i]; return *this; } //____________________________________________________________________ Double_t AliFMDMultCuts::GetFixedCut(UShort_t d, Char_t r) const { // Int_t idx = (d == 1 ? 0 : 2*(d - 2) + 1 + ((r=='I' || r=='i') ? 0 : 1)); Int_t idx = -1; switch (d) { case 1: idx = 0; break; case 2: idx = 1 + ((r == 'I' || r == 'i') ? 0 : 1); break; case 3: idx = 3 + ((r == 'I' || r == 'i') ? 0 : 1); break; } if (idx < 0) return -1024; return fMultCuts[idx]; } //____________________________________________________________________ void AliFMDMultCuts::SetMultCuts(Double_t fmd1i, Double_t fmd2i, Double_t fmd2o, Double_t fmd3i, Double_t fmd3o) { fMultCuts[0] = fmd1i; fMultCuts[1] = fmd2i >= 0 ? fmd2i : fmd1i; fMultCuts[2] = fmd2o >= 0 ? fmd2o : fmd1i; fMultCuts[3] = fmd3i >= 0 ? fmd3i : fmd1i; fMultCuts[4] = fmd3o >= 0 ? fmd3o : fmd1i; } //____________________________________________________________________ Double_t AliFMDMultCuts::GetMultCut(UShort_t d, Char_t r, Int_t ieta, Bool_t errors) const { // // Get the multiplicity cut. If the user has set fMultCut (via // SetMultCut) then that value is used. If not, then the lower // value of the fit range for the enery loss fits is returned. // // Return: // Lower cut on multiplicity // Double_t rcut = GetFixedCut(d, r); if (rcut > 0) return rcut; AliForwardCorrectionManager& fcm = AliForwardCorrectionManager::Instance(); const AliFMDCorrELossFit* fits = fcm.GetELossFit(); if (fMPVFraction > 0) return fits->GetLowerBound(d, r, ieta, fMPVFraction); if (fNXi < 0) return fits->GetLowCut(); return fits->GetLowerBound(d, r, ieta, fNXi, errors, fIncludeSigma); } //____________________________________________________________________ Double_t AliFMDMultCuts::GetMultCut(UShort_t d, Char_t r, Double_t eta, Bool_t errors) const { // // Get the multiplicity cut. If the user has set fMultCut (via // SetMultCut) then that value is used. If not, then the lower // value of the fit range for the enery loss fits is returned. // // Return: // Lower cut on multiplicity // AliForwardCorrectionManager& fcm = AliForwardCorrectionManager::Instance(); const AliFMDCorrELossFit* fits = fcm.GetELossFit(); Int_t iEta = fits ? fits->FindEtaBin(eta) : 1; return GetMultCut(d, r, iEta, errors); } //____________________________________________________________________ UShort_t AliFMDMultCuts::GetMethod() const { return (fMultCuts[0] >= 0 ? kFixed : // Fixed fMPVFraction > 0 ? kMPVFraction : // Fraction MPV fNXi < 0 ? kFitRange : // Fit range kLandauWidth); } //____________________________________________________________________ const char* AliFMDMultCuts::GetMethodString() const { switch (GetMethod()) { case kFixed: return "fixed value"; case kMPVFraction: return "fraction of MPV"; case kFitRange: return "fit range"; case kLandauWidth: return "landau width"; } return "unknown"; } //____________________________________________________________________ void AliFMDMultCuts::Output(TList* l, const char* name) const { TList* ll = l; if (name && name[0] != '\0') { ll = new TList; ll->SetName(name); ll->SetOwner(); l->Add(ll); } ll->Add(AliForwardUtil::MakeParameter("nXi", fNXi)); ll->Add(AliForwardUtil::MakeParameter("frac", fMPVFraction)); ll->Add(AliForwardUtil::MakeParameter("sigma", fIncludeSigma)); ll->Add(AliForwardUtil::MakeParameter("method", GetMethod())); } //____________________________________________________________________ Bool_t AliFMDMultCuts::Input(TList* l, const char* name) { if (!l) return false; TList* ll = l; if (name && name[0] != '\0') { ll = static_cast(l->FindObject(name)); } if (!ll) return false; TObject* nXi = ll->FindObject("nXi"); TObject* frac = ll->FindObject("frac"); TObject* sigma = ll->FindObject("sigma"); if (!nXi || !frac || !sigma) return false; AliForwardUtil::GetParameter(nXi, fNXi); AliForwardUtil::GetParameter(frac, fMPVFraction); AliForwardUtil::GetParameter(sigma, fIncludeSigma); return true; } #define PF(N,V,...) \ AliForwardUtil::PrintField(N,V, ## __VA_ARGS__) #define PFB(N,FLAG) \ do { \ AliForwardUtil::PrintName(N); \ std::cout << std::boolalpha << (FLAG) << std::noboolalpha << std::endl; \ } while(false) #define PFV(N,VALUE) \ do { \ AliForwardUtil::PrintName(N); \ std::cout << (VALUE) << std::endl; } while(false) //____________________________________________________________________ void AliFMDMultCuts::Print(Option_t*) const { gROOT->IncreaseDirLevel(); PFV("Method used", GetMethodString()); PF("Fixed cuts",""); gROOT->IncreaseDirLevel(); PFV("FMD1i", GetFixedCut(1,'I')); PFV("FMD2i", GetFixedCut(2,'I')); PFV("FMD2o", GetFixedCut(2,'O')); PFV("FMD3i", GetFixedCut(3,'I')); PFV("FMD3o", GetFixedCut(3,'O')); gROOT->DecreaseDirLevel(); PFV("N xi factor", fNXi); PFB("Include sigma in cut", fIncludeSigma); PFV("MPV fraction", fMPVFraction); gROOT->DecreaseDirLevel(); } //____________________________________________________________________ // // EOF //