/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ // //The design of this class is based on the AliFMDParameters class. Its purpose //is to hold parameters for the analysis such as background correction and //fit functions. // //Author: Hans Hjersing Dalsgaard, NBI, hans.dalsgaard@cern.ch // #include "AliFMDDebug.h" // ALILOG_H #include "AliFMDAnaParameters.h" // ALIFMDPARAMETERS_H #include // ALICDBMANAGER_H #include // ALICDBMANAGER_H #include #include #include #include #include #include //==================================================================== ClassImp(AliFMDAnaParameters) #if 0 ; // This is here to keep Emacs for indenting the next line #endif const char* AliFMDAnaParameters::fgkBackgroundCorrection = "FMD/Correction/Background"; const char* AliFMDAnaParameters::fgkEnergyDists = "FMD/Correction/EnergyDistribution"; //____________________________________________________________________ AliFMDAnaParameters* AliFMDAnaParameters::fgInstance = 0; //____________________________________________________________________ AliFMDAnaParameters* AliFMDAnaParameters::Instance() { // Get static instance if (!fgInstance) fgInstance = new AliFMDAnaParameters; return fgInstance; } //____________________________________________________________________ AliFMDAnaParameters::AliFMDAnaParameters() : fIsInit(kFALSE), fBackground(0), fEnergyDistribution(0) { // Default constructor } //____________________________________________________________________ void AliFMDAnaParameters::Init(Bool_t forceReInit, UInt_t what) { // Initialize the parameters manager. We need to get stuff from the // CDB here. if (forceReInit) fIsInit = kFALSE; if (fIsInit) return; if (what & kBackgroundCorrection) InitBackground(); if (what & kEnergyDistributions) InitEnergyDists(); fIsInit = kTRUE; } //____________________________________________________________________ void AliFMDAnaParameters::InitBackground() { AliCDBEntry* background = GetEntry(fgkBackgroundCorrection); if (!background) return; fBackground = dynamic_cast(background->GetObject()); if (!fBackground) AliFatal("Invalid background object from CDB"); } //____________________________________________________________________ void AliFMDAnaParameters::InitEnergyDists() { AliCDBEntry* edist = GetEntry(fgkEnergyDists); if (!edist) return; fEnergyDistribution = dynamic_cast(edist->GetObject()); if (!fEnergyDistribution) AliFatal("Invalid background object from CDB"); } //____________________________________________________________________ Float_t AliFMDAnaParameters::GetVtxCutZ() { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return -1; } return fBackground->GetVtxCutZ(); } //____________________________________________________________________ Int_t AliFMDAnaParameters::GetNvtxBins() { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return -1; } return fBackground->GetNvtxBins(); } //____________________________________________________________________ TH1F* AliFMDAnaParameters::GetEnergyDistribution(Int_t det, Char_t ring, Float_t eta) { return fEnergyDistribution->GetEnergyDistribution(det, ring, eta); } //____________________________________________________________________ Float_t AliFMDAnaParameters::GetSigma(Int_t det, Char_t ring, Float_t eta) { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return 0; } TH1F* hEnergyDist = GetEnergyDistribution(det,ring, eta); TF1* fitFunc = hEnergyDist->GetFunction("FMDfitFunc"); if(!fitFunc) { AliWarning(Form("No function for FMD%d%c, eta %f",det,ring,eta)); return 1024; } Float_t sigma = fitFunc->GetParameter(2); return sigma; } //____________________________________________________________________ Float_t AliFMDAnaParameters::GetMPV(Int_t det, Char_t ring, Float_t eta) { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return 0; } TH1F* hEnergyDist = GetEnergyDistribution(det,ring,eta); TF1* fitFunc = hEnergyDist->GetFunction("FMDfitFunc"); if(!fitFunc) { AliWarning(Form("No function for FMD%d%c, eta %f",det,ring,eta)); return 1024; } Float_t MPV = fitFunc->GetParameter(1); return MPV; } //____________________________________________________________________ Float_t AliFMDAnaParameters::Get2MIPWeight(Int_t det, Char_t ring, Float_t eta) { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return 0; } TH1F* hEnergyDist = GetEnergyDistribution(det,ring,eta); TF1* fitFunc = hEnergyDist->GetFunction("FMDfitFunc"); if(!fitFunc) return 0; Float_t TwoMIPweight = fitFunc->GetParameter(3); if(TwoMIPweight < 1e-05) TwoMIPweight = 0; return TwoMIPweight; } //____________________________________________________________________ Float_t AliFMDAnaParameters::Get3MIPWeight(Int_t det, Char_t ring, Float_t eta) { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return 0; } TH1F* hEnergyDist = GetEnergyDistribution(det,ring,eta); TF1* fitFunc = hEnergyDist->GetFunction("FMDfitFunc"); if(!fitFunc) return 0; Float_t ThreeMIPweight = fitFunc->GetParameter(4); if(ThreeMIPweight < 1e-05) ThreeMIPweight = 0; Float_t TwoMIPweight = fitFunc->GetParameter(3); if(TwoMIPweight < 1e-05) ThreeMIPweight = 0; return ThreeMIPweight; } //____________________________________________________________________ Int_t AliFMDAnaParameters::GetNetaBins() { return GetBackgroundCorrection(1,'I',0)->GetNbinsX(); } //____________________________________________________________________ Float_t AliFMDAnaParameters::GetEtaMin() { return GetBackgroundCorrection(1,'I',0)->GetXaxis()->GetXmin(); } //____________________________________________________________________ Float_t AliFMDAnaParameters::GetEtaMax() { return GetBackgroundCorrection(1,'I',0)->GetXaxis()->GetXmax(); } //____________________________________________________________________ TH2F* AliFMDAnaParameters::GetBackgroundCorrection(Int_t det, Char_t ring, Int_t vtxbin) { if(!fIsInit) { AliWarning("Not initialized yet. Call Init() to remedy"); return 0; } if(vtxbin > fBackground->GetNvtxBins()) { AliWarning(Form("No background object for vertex bin %d", vtxbin)); return 0; } return fBackground->GetBgCorrection(det,ring,vtxbin); } //____________________________________________________________________ AliCDBEntry* AliFMDAnaParameters::GetEntry(const char* path, Bool_t fatal) const { // Get an entry from the CDB or via preprocessor AliCDBEntry* entry = 0; AliCDBManager* cdb = AliCDBManager::Instance(); entry = cdb->Get(path); if (!entry) { TString msg(Form("No %s found in CDB, perhaps you need to " "use AliFMDCalibFaker?", path)); if (fatal) { AliFatal(msg.Data()); } else AliLog::Message(AliLog::kWarning, msg.Data(), "FMD", "AliFMDParameters", "GetEntry", __FILE__, __LINE__); return 0; } return entry; } //____________________________________________________________________ // // EOF //