"Setting correct gains for Pb-p in simulation"

[u/mrichter/AliRoot.git] / T0 / AliT0CalibSeasonTimeShift.cxx

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 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
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 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
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 * 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.                  *
 **************************************************************************/

/* $Id: AliT0CalibSeasonTimeShift.cxx 42881 2010-08-16 10:59:14Z alla $ */

///////////////////////////////////////////////////////////////////////////////
//                                                                           //
// class for T0 calibration                       TM-AC-AM_6-02-2006  
// equalize time shift for each time CFD channel
//                                                                           //
///////////////////////////////////////////////////////////////////////////////

#include "AliT0CalibSeasonTimeShift.h"
#include "AliLog.h"
#include <TFile.h>
#include <TMath.h>
#include <TF1.h>
#include <TProfile.h>
#include <iostream>

ClassImp(AliT0CalibSeasonTimeShift)

//________________________________________________________________
  AliT0CalibSeasonTimeShift::AliT0CalibSeasonTimeShift():TNamed()
{
  //
  for (Int_t i=0; i<4; i++)
    fMeanPar[i] = fSigmaPar[i] = 0; 
}

//________________________________________________________________
AliT0CalibSeasonTimeShift::AliT0CalibSeasonTimeShift(const char* name):TNamed()
{
    //constructor
    
  TString namst = "Calib_";
  namst += name;
  SetName(namst.Data());
  SetTitle(namst.Data()); 
  
  for (Int_t i=0; i<4; i++)
    fMeanPar[i] = fSigmaPar[i] = 0; 
 
}

//________________________________________________________________
AliT0CalibSeasonTimeShift::AliT0CalibSeasonTimeShift(const AliT0CalibSeasonTimeShift& calibda):TNamed(calibda)          

{
// copy constructor
  SetName(calibda.GetName());
  SetTitle(calibda.GetName());
  ((AliT0CalibSeasonTimeShift &) calibda).Copy(*this);


}

//________________________________________________________________
AliT0CalibSeasonTimeShift &AliT0CalibSeasonTimeShift::operator =(const AliT0CalibSeasonTimeShift& calibda)
{
// assignment operator
  SetName(calibda.GetName());
  SetTitle(calibda.GetName());
  if (this != &calibda) ((AliT0CalibSeasonTimeShift &) calibda).Copy(*this);
 
  return *this;
}

//________________________________________________________________
AliT0CalibSeasonTimeShift::~AliT0CalibSeasonTimeShift()
{
  //
  // destrictor
}


//________________________________________________________________
void  AliT0CalibSeasonTimeShift::Print(Option_t*) const
{
  // print time values

  printf("\n    ----    T0 results      ----\n\n");
  printf(" (T0A+T0C)/2 = %f; T0A = %f; T0C = %f; resolution = %f  \n", fMeanPar[0], fMeanPar[1],fMeanPar[2],fMeanPar[3]);
  printf(" sigma(T0A+T0C)/2 = %f; sigma(T0 = %f; sigma(T0C) = %f; sigma(resolution) = %f  \n" , fSigmaPar[0], fSigmaPar[1], fSigmaPar[2],fSigmaPar[3]);
 
} 

//________________________________________________________________
Bool_t  AliT0CalibSeasonTimeShift::SetT0Par(Float_t par[4],Float_t spar[4])
{
  Bool_t ok=false;
 for (Int_t i=0; i<4; i++)
    {
      fMeanPar[i] = par[i];
      fSigmaPar[i] = spar[i];
      if ( fSigmaPar[i] == 0 ||  fSigmaPar[i] > 500) ok = false;
    }
 return ok;
}

//________________________________________________________________
Int_t AliT0CalibSeasonTimeShift::SetT0Par(const char* filePhys, Float_t *cdbtime)
{
  // compute shifts fo T0A, T0C, T0AC and resolution
  //Status : writeok:
  // 0 OK
  // 2000 - no data file
  // 300 no one histogram or it is empty
  //-100 peak is very narrow

  Float_t mean, sigma;
  Int_t ok = 0;
  TH1F *cfd = NULL;
  TObjArray * tzeroObj = NULL;

  gFile = TFile::Open(filePhys);
  if(!gFile) {
    AliError("No input PHYS data found ");
    return 2000;
  }
  else {
    //    gFile->ls();
    //    TDirectory *dr = (TDirectory*) gFile->Get("T0Calib");
    tzeroObj = dynamic_cast<TObjArray*>(gFile->Get("T0Calib"));
    TString histname[4]={"fTzeroORAplusORC", "fTzeroORA", "fTzeroORC",  "fResolution"};
    for (Int_t i=0; i<4; i++)
      {
        if(cfd) cfd->Reset();
        if(tzeroObj) 
          cfd = (TH1F*)tzeroObj->FindObject( histname[i].Data());
        else
          cfd =  (TH1F*)gFile ->Get(histname[i].Data());

        if(!cfd) {
          AliError(Form("no histograms collected for %s", histname[i].Data()));
          return 300;
        }
        if(cfd) {
          if( cfd->GetEntries() == 0) {
          AliError(Form("%s histogram is empty", histname[i].Data()));
          return 300;
          }
          GetMeanAndSigma(cfd, mean, sigma);
          if (sigma == 0 || sigma > 600 || cfd->GetEntries()<50 ){ //!!!
            AliError(Form("%s low statsitics or bad histogram, OCDB value is = %f", histname[i].Data(), cdbtime[i]) );
            return 400;
          }
          if ( sigma > 0 && sigma < 600 && cfd->GetEntries()>=50) //!!!
            { 
              fMeanPar[i] =   mean;
              fSigmaPar[i] = sigma;
            }
        }
      } 
  }
  gFile->Close();
  delete gFile;
  return ok;
}
//________________________________________________________________________
void AliT0CalibSeasonTimeShift::GetMeanAndSigma(TH1F* hist,  Float_t &mean, Float_t &sigma) {

  const double window =3.;  //fit window 
 
  double meanEstimate, sigmaEstimate; 
  int maxBin;
  maxBin        =  hist->GetMaximumBin(); //position of maximum
  meanEstimate  =  hist->GetBinCenter( maxBin); // mean of gaussian sitting in maximum
  sigmaEstimate = hist->GetRMS();
  TF1* fit= new TF1("fit","gaus", meanEstimate - window*sigmaEstimate, meanEstimate + window*sigmaEstimate);
  fit->SetParameters(hist->GetBinContent(maxBin), meanEstimate, sigmaEstimate);
  hist->Fit("fit","R","");

  mean  = (Float_t) fit->GetParameter(1);
  sigma = (Float_t) fit->GetParameter(2);

  delete fit;
}