[u/mrichter/AliRoot.git] / EMCAL / AliEMCALRecParam.cxx

/**************************************************************************
 * 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.                  *
 **************************************************************************/

/* $Id$ */

//-----------------------------------------------------------------------------
// Container of EMCAL reconstruction parameters
// The purpose of this object is to store it to OCDB
// and retrieve it in the corresponding reconstruction class:
// AliEMCALClusterizer, AliEMCALPID, AliEMCALTracker ...
//
// Author: Yuri Kharlov
//-----------------------------------------------------------------------------

// --- Root header files
//#include "TObjArray.h"

// --- AliRoot header files ---
#include "AliCDBManager.h"
#include "AliCDBEntry.h"
#include "AliEMCALRecParam.h"

ClassImp(AliEMCALRecParam)
  
  TObjArray* AliEMCALRecParam::fgkMaps =0; //ALTRO mappings 

AliEMCALRecParam::AliEMCALRecParam() :
  AliDetectorRecoParam(),
  fClusteringThreshold(0.5),
  fW0(4.5),
  fMinECut(0.45), 
  fUnfold(kFALSE), 
  fLocMaxCut(0.03), //clustering
  fTrkCutX(6.0), 
  fTrkCutY(6.0), 
  fTrkCutZ(6.0),  
  fTrkCutR(10.0),
  fTrkCutAlphaMin(-50.0), 
  fTrkCutAlphaMax(50.0), 
  fTrkCutAngle(10000.0),
  fTrkCutNITS(3.0),
  fTrkCutNTPC(20.0), //track matching
  fHighLowGainFactor(16.0), 
  fOrderParameter(2), 
  fTau(2.35), 
  fNoiseThreshold(3), 
  fNPedSamples(5) //raw signal
{
  // default reco values
  
  // PID parameters for Pb Pb from Lambda0 distributions fitted by  
  // a landau inverted + Gaussian for Gammas
  // and a Landau +Gaussian for Pi0 and hadrons 
  // New parametrisation for 
  // lambda0^2 (=x): f(x) = normLandau*TMath::Landau(((1-mpvlandau)-x),mpvLandau,widthLandau)+normgaus*TMath::Gaus(x,meangaus,sigmagaus) for gammas
  // lambda0^2 (=x): f(x) = normLandau*TMath::Landau(x,mpvLandau,widthLandau)+normgaus*TMath::Gaus(x,meangaus,sigmagaus) for pi0 & hadrons
  
  // See AliEMCALPid 
  // (index i) refers to each parameters of the f(lambda0^2) 
  // i=0: normGaus
  // i=1: meanGaus
  // i=2: sigmaGaus
  // i=3: normLandau
  // i=4: mpvLandau
  // i=5: sigmaLanda
  // (index j) refers to the polynomial parameters of the fit of each parameter vs energy
  // Pb Pb
  
  // as a first step, all array elements are initialized to 0.0
  Int_t i, j;
  for (i = 0; i < 6; i++) {
    for (j = 0; j < 6; j++) {      
      fGamma[i][j] =  fPiZero[i][j] = fHadron[i][j] = 0.; 
      fGamma1to10[i][j] =  fHadron1to10[i][j]= 0.;
    }
    fGammaEnergyProb[i]=0.; // not yet implemented
    fHadronEnergyProb[i]=0.; 
    fPiZeroEnergyProb[i]=0.; // not yet implemented
    
    
  }
  // Pb Pb 
  
  fGamma[0][0] = -7.656908e-01; 
  fGamma[0][1] =  2.352536e-01; 
  fGamma[0][2] =  1.555996e-02;
  fGamma[0][3] =  2.243525e-04;
  fGamma[0][4] = -2.560087e-06;
  
  fGamma[1][0] =  6.500216e+00;
  fGamma[1][1] = -2.564958e-01;
  fGamma[1][2] =  1.967894e-01;
  fGamma[1][3] = -3.982273e-04;
  fGamma[1][4] =  2.797737e-06;
  
  fGamma[2][0] =  2.416489e+00;
  fGamma[2][1] = -1.601258e-01;
  fGamma[2][2] =  3.126839e-02;
  fGamma[2][3] =  3.387532e-04;
  fGamma[2][4] = -4.089145e-06;
  
  
  fGamma[3][0] =  0.;
  fGamma[3][1] = -2.696008e+00;
  fGamma[3][2] =  6.920305e-01;
  fGamma[3][3] = -2.281122e-03;
  fGamma[3][4] =  0.;
  
  fGamma[4][0] =  2.281564e-01;
  fGamma[4][1] = -7.575040e-02;
  fGamma[4][2] =  3.813423e-01;
  fGamma[4][3] = -1.243854e-04;
  fGamma[4][4] =  1.232045e-06;
  
  fGamma[5][0] = -3.290107e-01;
  fGamma[5][1] =  3.707545e-02;
  fGamma[5][2] =  2.917397e-03;
  fGamma[5][3] =  4.695306e-05;
  fGamma[5][4] = -3.572981e-07;
  
  
  fHadron[0][0] =   1.519112e-01;
  fHadron[0][1] = -8.267603e-02;
  fHadron[0][2] =  1.914574e-02;
  fHadron[0][3] = -2.677921e-04;
  fHadron[0][4] =  5.447939e-06;
  
  
  fHadron[1][0] = 0.;
  fHadron[1][1] = -7.549870e-02; 
  fHadron[1][2] = 3.930087e-01;
  fHadron[1][3] = -2.368500e-03; 
  fHadron[1][4] = 0.;
  
  
  fHadron[2][0] = 0.;
  fHadron[2][1] =  -2.463152e-02;
  fHadron[2][2] = 1.349257e-01;
  fHadron[2][3] = -1.089440e-03;
  fHadron[2][4] = 0.;
  
  
  fHadron[3][0] = 0.;
  fHadron[3][1] = 5.101560e-01;
  fHadron[3][2] = 1.458679e-01;
  fHadron[3][3] = 4.903068e-04;
  fHadron[3][4] = 0.;
  
  fHadron[4][0] = 0.;
  fHadron[4][1] = -6.693943e-03; 
  fHadron[4][2] =  2.444753e-01;
  fHadron[4][3] = -5.553749e-05;
  fHadron[4][4] = 0.;
  
  fHadron[5][0] = -4.414030e-01;
  fHadron[5][1] = 2.292277e-01;
  fHadron[5][2] = -2.433737e-02;
  fHadron[5][3] =  1.758422e-03;
  fHadron[5][4] = -3.001493e-05;
  
  
  fPiZero[0][0] =  5.072157e-01;
  fPiZero[0][1] = -5.352747e-01;
  fPiZero[0][2] =  8.499259e-02;
  fPiZero[0][3] = -3.687401e-03;
  fPiZero[0][4] =  5.482280e-05;
  
  
  fPiZero[1][0] =  4.590137e+02; 
  fPiZero[1][1] = -7.079341e+01;
  fPiZero[1][2] =  4.990735e+00;
  fPiZero[1][3] = -1.241302e-01;
  fPiZero[1][4] =  1.065772e-03;
  
  
  fPiZero[2][0] =  1.376415e+02;
  fPiZero[2][1] = -3.031577e+01;
  fPiZero[2][2] =  2.474338e+00;
  fPiZero[2][3] = -6.903410e-02;
  fPiZero[2][4] =  6.244089e-04;
  
  fPiZero[3][0] = 0.;
  fPiZero[3][1] =  1.145983e+00;
  fPiZero[3][2] = -2.476052e-01;
  fPiZero[3][3] =  1.367373e-02;
  fPiZero[3][4] = 0.;
  
  fPiZero[4][0] = -2.097586e+02;
  fPiZero[4][1] =  6.300800e+01;
  fPiZero[4][2] = -4.038906e+00;
  fPiZero[4][3] =  1.088543e-01;
  fPiZero[4][4] = -9.362485e-04;
  
  fPiZero[5][0] = -1.671477e+01; 
  fPiZero[5][1] =  2.995415e+00;
  fPiZero[5][2] = -6.040360e-02;
  fPiZero[5][3] = -6.137459e-04;
  fPiZero[5][4] =  1.847328e-05;
  
  // High flux ones pp 
  
  fHadronEnergyProb[0]= 0.;
  fHadronEnergyProb[1]= 0.;
  fHadronEnergyProb[2]=  6.188452e-02;
  fHadronEnergyProb[3]=  2.030230e+00;
  fHadronEnergyProb[4]= -6.402242e-02;
  
  
}


//-----------------------------------------------------------------------------
AliEMCALRecParam::AliEMCALRecParam(const AliEMCALRecParam& rp) :
  AliDetectorRecoParam(),
  fClusteringThreshold(rp.fClusteringThreshold),
  fW0(rp.fW0),
  fMinECut(rp.fMinECut), 
  fUnfold(rp.fUnfold), 
  fLocMaxCut(rp.fLocMaxCut), //clustering
  fTrkCutX(rp.fTrkCutX), 
  fTrkCutY(rp.fTrkCutY), 
  fTrkCutZ(rp.fTrkCutZ),  
  fTrkCutR(rp.fTrkCutR),
  fTrkCutAlphaMin(rp.fTrkCutAlphaMin), 
  fTrkCutAlphaMax(rp.fTrkCutAlphaMax), 
  fTrkCutAngle(rp.fTrkCutAngle), 
  fTrkCutNITS(rp.fTrkCutNITS),
  fTrkCutNTPC(rp.fTrkCutNTPC), // track matching
  fHighLowGainFactor(rp.fHighLowGainFactor), 
  fOrderParameter(rp.fOrderParameter), 
  fTau(rp.fTau), 
  fNoiseThreshold(rp.fNoiseThreshold), 
  fNPedSamples(rp.fNPedSamples) //raw signal
{
  //copy constructor
  
  //PID values
  Int_t i, j;
  for (i = 0; i < 6; i++) {
    for (j = 0; j < 6; j++) {
      fGamma[i][j] = rp.fGamma[i][j];
      fGamma1to10[i][j] = rp.fGamma1to10[i][j];
      fHadron[i][j] = rp.fHadron[i][j];
      fHadron1to10[i][j] = rp.fHadron1to10[i][j];
      fPiZero[i][j] = rp.fPiZero[i][j];
    }
    fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
    fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
    fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
    
  }
  
}

//-----------------------------------------------------------------------------
AliEMCALRecParam& AliEMCALRecParam::operator = (const AliEMCALRecParam& rp)
{
  //assignment operator
  
  if(this != &rp) {
    fClusteringThreshold = rp.fClusteringThreshold;
    fW0 = rp.fW0;
    fMinECut = rp.fMinECut;
    fUnfold = rp.fUnfold;
    fLocMaxCut = rp.fLocMaxCut; //clustering
    fTrkCutX = rp.fTrkCutX;
    fTrkCutY = rp.fTrkCutY;
    fTrkCutZ = rp.fTrkCutZ;
    fTrkCutR = rp.fTrkCutR;
    fTrkCutAlphaMin = rp.fTrkCutAlphaMin;
    fTrkCutAlphaMax = rp.fTrkCutAlphaMax;
    fTrkCutAngle = rp.fTrkCutAngle; 
    fTrkCutNITS = rp.fTrkCutNITS;
    fTrkCutNTPC = rp.fTrkCutNTPC; //track matching
    fHighLowGainFactor = rp.fHighLowGainFactor; 
    fOrderParameter = rp.fOrderParameter;
    fTau = rp.fTau;
    fNoiseThreshold = rp.fNoiseThreshold;
    fNPedSamples = rp.fNPedSamples; //raw signal
    
    //PID values
    Int_t i, j;
    for (i = 0; i < 6; i++) {
      for (j = 0; j < 6; j++) {
	fGamma[i][j] = rp.fGamma[i][j];
	fGamma1to10[i][j] = rp.fGamma1to10[i][j];
	fHadron[i][j] = rp.fHadron[i][j];
	fHadron1to10[i][j] = rp.fHadron1to10[i][j];
	fPiZero[i][j] = rp.fPiZero[i][j];
      }
      fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
      fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
      fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
    }
    
  }    
  
  return *this;
  
}

//-----------------------------------------------------------------------------
AliEMCALRecParam* AliEMCALRecParam::GetDefaultParameters()
{
  //default parameters for the reconstruction
  AliEMCALRecParam* params = new AliEMCALRecParam();
  params->SetName("Default - Pb+Pb");
  params->SetTitle("Default - Pb+Pb");
  return params;
  
}

//-----------------------------------------------------------------------------
AliEMCALRecParam* AliEMCALRecParam::GetCalibParam()
{
  //parameters for the reconstruction of calibration runs
  AliEMCALRecParam* params = GetLowFluxParam();
  //params->SetClusteringThreshold(0.2); // 200 MeV                                             
  //params->SetMinECut(0.01);  //10 MeV       
  params->SetName("Calibration - LED");
  params->SetTitle("Calibration - LED");
  params->SetEventSpecie(AliRecoParam::kCalib);
  
  return params;
  
}

//-----------------------------------------------------------------------------
AliEMCALRecParam* AliEMCALRecParam::GetCosmicParam()
{
  //parameters for the reconstruction of cosmic runs
  AliEMCALRecParam* params = GetLowFluxParam();
  //params->SetClusteringThreshold(0.2); // 200 MeV                                             
  //params->SetMinECut(0.01);  //10 MeV       
  params->SetName("Cosmic");
  params->SetTitle("Cosmic");
  params->SetEventSpecie(AliRecoParam::kCosmic);
  
  return params;
  
}


//-----------------------------------------------------------------------------
AliEMCALRecParam* AliEMCALRecParam::GetLowFluxParam()
{
  //low flux/multiplicity ("p+p") parameters for the reconstruction
  AliEMCALRecParam* params = new AliEMCALRecParam();
  params->SetClusteringThreshold(0.1); // 200 MeV                                             
  params->SetMinECut(0.01);  //10 MeV       
  params->SetName("Low Flux - p+p");
  params->SetTitle("Low Flux - p+p");
  params->SetEventSpecie(AliRecoParam::kLowMult);
  
  
  //PID parameters for pp  implemented 
  // as a first step, all array elements are initialized to 0.0
  Int_t i, j;
  for (i = 0; i < 6; i++) {
    for (j = 0; j < 6; j++) {
      params->SetGamma(i,j,0.);
      params->SetGamma1to10(i,j,0.);
      params->SetHadron(i,j,0.);
      params->SetHadron1to10(i,j,0.);
      params->SetPiZero(i,j,0.);
      
    }
    params->SetGammaEnergyProb(i,0.); // not yet implemented
    params->SetHadronEnergyProb(i,0.);
    params->SetPiZeroEnergyProb(i,0.); // not yet implemented
  }
  
  
  params->SetGamma(0,0,-7.656908e-01);
  params->SetGamma(0,1,2.352536e-01);
  params->SetGamma(0,2,1.555996e-02);
  params->SetGamma(0,3,2.243525e-04);
  params->SetGamma(0,4,-2.560087e-06);

  params->SetGamma(1,0,6.500216e+00);
  params->SetGamma(1,1,-2.564958e-01);
  params->SetGamma(1,2,1.967894e-01);
  params->SetGamma(1,3,-3.982273e-04);
  params->SetGamma(1,4,2.797737e-06);
  
  params->SetGamma(2,0,2.416489e+00);
  params->SetGamma(2,1,-1.601258e-01);
  params->SetGamma(2,2,3.126839e-02);
  params->SetGamma(2,3,3.387532e-04);
  params->SetGamma(2,4,-4.089145e-06);
 
  params->SetGamma(3,0,0.);
  params->SetGamma(3,1,-2.696008e+00); 
  params->SetGamma(3,2, 6.920305e-01);
  params->SetGamma(3,3,-2.281122e-03);
  params->SetGamma(3,4,0.);

  params->SetGamma(4,0,2.281564e-01); 
  params->SetGamma(4,1,-7.575040e-02);
  params->SetGamma(4,2,3.813423e-01);
  params->SetGamma(4,3,-1.243854e-04);
  params->SetGamma(4,4,1.232045e-06);

  params->SetGamma(5,0,-3.290107e-01);
  params->SetGamma(5,1,3.707545e-02);
  params->SetGamma(5,2,2.917397e-03);
  params->SetGamma(5,3,4.695306e-05);
  params->SetGamma(5,4,-3.572981e-07);

  params->SetHadron(0,0,9.482243e-01); 
  params->SetHadron(0,1,-2.780896e-01);
  params->SetHadron(0,2, 2.223507e-02);
  params->SetHadron(0,3,7.294263e-04);
  params->SetHadron(0,4,-5.665872e-06); 

  params->SetHadron(1,0,0.);
  params->SetHadron(1,1,0.);
  params->SetHadron(1,2,2.483298e-01);
  params->SetHadron(1,3,0.);
  params->SetHadron(1,4,0.);

  params->SetHadron(2,0,-5.601199e+00);
  params->SetHadron(2,1,2.097382e+00);
  params->SetHadron(2,2,-2.307965e-01);
  params->SetHadron(2,3,9.206871e-03);
  params->SetHadron(2,4,-8.887548e-05);

  params->SetHadron(3,0,6.543101e+00);
  params->SetHadron(3,1,-2.305203e+00);
  params->SetHadron(3,2,2.761673e-01);
  params->SetHadron(3,3,-5.465855e-03);
  params->SetHadron(3,4,2.784329e-05);

  params->SetHadron(4,0,-2.443530e+01);
  params->SetHadron(4,1,8.902578e+00);
  params->SetHadron(4,2,-5.265901e-01);
  params->SetHadron(4,3,2.549111e-02);
  params->SetHadron(4,4,-2.196801e-04);

  params->SetHadron(5,0,2.102007e-01);
  params->SetHadron(5,1,-3.844418e-02);
  params->SetHadron(5,2,1.234682e-01);
  params->SetHadron(5,3,-3.866733e-03);
  params->SetHadron(5,4,3.362719e-05);

  params->SetPiZero(0,0,5.07215e-01);
  params->SetPiZero(0,1,-5.35274e-01);
  params->SetPiZero(0,2,8.49925e-02);
  params->SetPiZero(0,3,-3.68740e-03);
  params->SetPiZero(0,4,5.48228e-05);

  params->SetPiZero(1,0,4.590137e+02);
  params->SetPiZero(1,1,-7.079341e+01);
  params->SetPiZero(1,2,4.990735e+00);
  params->SetPiZero(1,3,-1.241302e-01);
  params->SetPiZero(1,4,1.065772e-03);

  params->SetPiZero(2,0,1.376415e+02); 
  params->SetPiZero(2,1,-3.031577e+01);
  params->SetPiZero(2,2,2.474338e+00);
  params->SetPiZero(2,3,-6.903410e-02); 
  params->SetPiZero(2,4,6.244089e-04);

  params->SetPiZero(3,0,0.);
  params->SetPiZero(3,1,1.145983e+00);
  params->SetPiZero(3,2,-2.476052e-01);
  params->SetPiZero(3,3,1.367373e-02);
  params->SetPiZero(3,4,0.);

  params->SetPiZero(4,0,-2.09758e+02);
  params->SetPiZero(4,1,6.30080e+01);
  params->SetPiZero(4,2,-4.03890e+00);
  params->SetPiZero(4,3,1.08854e-01);
  params->SetPiZero(4,4,-9.36248e-04);

  params->SetPiZero(5,0,-1.671477e+01);
  params->SetPiZero(5,1,2.995415e+00);
  params->SetPiZero(5,2,-6.040360e-02);
  params->SetPiZero(5,3,-6.137459e-04);
  params->SetPiZero(5,4,1.847328e-05);

 
//     params->SetHadronEnergyProb(0,0.);
//     params->SetHadronEnergyProb(1,0.);
//     params->SetHadronEnergyProb(2,1.);
//     params->SetHadronEnergyProb(3,0.);
//     params->SetHadronEnergyProb(4,0.);
 
  params->SetHadronEnergyProb(0, 4.767543e-02);
  params->SetHadronEnergyProb(1,-1.537523e+00);
  params->SetHadronEnergyProb(2,2.956727e-01);
  params->SetHadronEnergyProb(3,-3.051022e+01);
  params->SetHadronEnergyProb(4,-6.036931e-02);

//   Int_t ii= 0;
//   Int_t jj= 3;
// 	AliDebug(1,Form("PID parameters (%d, %d): fGamma=%.3f, fPi=%.3f, fHadron=%.3f",
//  			ii,jj, params->GetGamma(ii,jj), params->GetPiZero(ii,jj), params->GetHadron(ii,jj)));
// 	cout << " Low Flux Parameters fGamma [2][2] = " << params->GetGamma(2,2) << endl;
// 	cout << " Low Flux Parameters fHadron [2][2] = " << params->GetHadron(2,2) << endl;
   
  return params;

}


//-----------------------------------------------------------------------------
AliEMCALRecParam* AliEMCALRecParam::GetHighFluxParam()
{
  //high flux/multiplicity ("Pb+Pb") parameters for the reconstruction
  AliEMCALRecParam* params = new AliEMCALRecParam();
  //For now, same as default
  //if later these need to be modified, here's where it is done
  params->SetName("High Flux - Pb+Pb");
  params->SetTitle("High Flux - Pb+Pb");
  params->SetEventSpecie(AliRecoParam::kHighMult);
  
  return params;
  
}

//-----------------------------------------------------------------------------
void AliEMCALRecParam::Print(Option_t *) const
{
  // Print reconstruction parameters to stdout
  AliInfo(Form("Clusterization parameters :\n fClusteringThreshold=%.3f,\n fW0=%.3f,\n fMinECut=%.3f,\n fUnfold=%d,\n fLocMaxCut=%.3f \n",
	       fClusteringThreshold,fW0,fMinECut,fUnfold,fLocMaxCut));
  
  AliInfo(Form("Track-matching cuts :\n x %f, y %f, z %f, R %f \n alphaMin %f, alphaMax %f, Angle %f, NITS %f, NTPC %\n", fTrkCutX, fTrkCutY, fTrkCutZ, fTrkCutR,fTrkCutAlphaMin,fTrkCutAlphaMax, fTrkCutAngle,fTrkCutNITS,fTrkCutNTPC));
  
  AliInfo(Form("PID parameters, Gamma :\n"));
  for(Int_t i = 0; i < 6; i++){
    for(Int_t j = 0; j < 6; j++){
      printf(" %f, ", fGamma[i][j]);
    }
    printf("\n");
  }
  
  
  AliInfo(Form("PID parameters, Hadron :\n"));
  for(Int_t i = 0; i < 6; i++){
    for(Int_t j = 0; j < 6; j++){
      printf(" %f, ", fHadron[i][j]);
    }
    printf("\n");
  }
  
  printf("\n");
  
  AliInfo(Form("PID parameters, Pi0zero :\n"));
  for(Int_t i = 0; i < 6; i++){
    for(Int_t j = 0; j < 6; j++){
      printf(" %f, ", fPiZero[i][j]);
    }
    printf("\n");
  }
  
  printf("\n");
  
  
  AliInfo(Form("Raw signal parameters: \n gain factor=%f, order=%d, tau=%f, noise threshold=%d, nped samples=%d \n",
	       fHighLowGainFactor,fOrderParameter,fTau,fNoiseThreshold,fNPedSamples));
  
}

//-----------------------------------------------------------------------------
const TObjArray* AliEMCALRecParam::GetMappings()
{
  //Returns array of AliAltroMappings for RCU0..RCUX.
  //If not found, read it from OCDB.                                           
  
  //Quick check as follows:                                                   
  //  root [0] AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT"
  //  root [1] AliCDBManager::Instance()->SetRun(1);                             
  //  root [2] TObjArray* maps = AliEMCALRecParam::GetMappings();                
  //  root [3] maps->Print();                                                    
  
  if(fgkMaps) return fgkMaps;
  
  AliCDBEntry* entry = AliCDBManager::Instance()->Get("EMCAL/Calib/Mapping");
  if(entry)
    fgkMaps = (TObjArray*)entry->GetObject();
  
  return fgkMaps;
  
}
Commit	Line	Data
1e7c9b89	1	/**************************************************************************
3a8be91c	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16	/* $Id$ */
feedcab9	17
3a8be91c	18	//-----------------------------------------------------------------------------
	19	// Container of EMCAL reconstruction parameters
	20	// The purpose of this object is to store it to OCDB
1e7c9b89	21	// and retrieve it in the corresponding reconstruction class:
	22	// AliEMCALClusterizer, AliEMCALPID, AliEMCALTracker ...
	23	//
3a8be91c	24	// Author: Yuri Kharlov
	25	//-----------------------------------------------------------------------------
	26
1e7c9b89	27	// --- Root header files
	28	//#include "TObjArray.h"
	29
	30	// --- AliRoot header files ---
	31	#include "AliCDBManager.h"
	32	#include "AliCDBEntry.h"
	33	#include "AliEMCALRecParam.h"
	34
	35	ClassImp(AliEMCALRecParam)
	36
	37	TObjArray* AliEMCALRecParam::fgkMaps =0; //ALTRO mappings
	38
413e6b81	39	AliEMCALRecParam::AliEMCALRecParam() :
	40	AliDetectorRecoParam(),
	41	fClusteringThreshold(0.5),
	42	fW0(4.5),
	43	fMinECut(0.45),
	44	fUnfold(kFALSE),
	45	fLocMaxCut(0.03), //clustering
	46	fTrkCutX(6.0),
	47	fTrkCutY(6.0),
	48	fTrkCutZ(6.0),
	49	fTrkCutR(10.0),
	50	fTrkCutAlphaMin(-50.0),
	51	fTrkCutAlphaMax(50.0),
dcd86c5d	52	fTrkCutAngle(10000.0),
	53	fTrkCutNITS(3.0),
	54	fTrkCutNTPC(20.0), //track matching
413e6b81	55	fHighLowGainFactor(16.0),
	56	fOrderParameter(2),
	57	fTau(2.35),
	58	fNoiseThreshold(3),
	59	fNPedSamples(5) //raw signal
c47157cd	60	{
c47157cd	61	// default reco values
1e7c9b89	62
	63	// PID parameters for Pb Pb from Lambda0 distributions fitted by
	64	// a landau inverted + Gaussian for Gammas
	65	// and a Landau +Gaussian for Pi0 and hadrons
	66	// New parametrisation for
	67	// lambda0^2 (=x): f(x) = normLandauTMath::Landau(((1-mpvlandau)-x),mpvLandau,widthLandau)+normgausTMath::Gaus(x,meangaus,sigmagaus) for gammas
	68	// lambda0^2 (=x): f(x) = normLandauTMath::Landau(x,mpvLandau,widthLandau)+normgausTMath::Gaus(x,meangaus,sigmagaus) for pi0 & hadrons
	69
	70	// See AliEMCALPid
	71	// (index i) refers to each parameters of the f(lambda0^2)
	72	// i=0: normGaus
	73	// i=1: meanGaus
	74	// i=2: sigmaGaus
	75	// i=3: normLandau
	76	// i=4: mpvLandau
	77	// i=5: sigmaLanda
	78	// (index j) refers to the polynomial parameters of the fit of each parameter vs energy
	79	// Pb Pb
	80
8ba062b1	81	// as a first step, all array elements are initialized to 0.0
	82	Int_t i, j;
	83	for (i = 0; i < 6; i++) {
1e7c9b89	84	for (j = 0; j < 6; j++) {
	85	fGamma[i][j] = fPiZero[i][j] = fHadron[i][j] = 0.;
	86	fGamma1to10[i][j] = fHadron1to10[i][j]= 0.;
8ba062b1	87	}
1e7c9b89	88	fGammaEnergyProb[i]=0.; // not yet implemented
	89	fHadronEnergyProb[i]=0.;
	90	fPiZeroEnergyProb[i]=0.; // not yet implemented
	91
	92
8ba062b1	93	}
1e7c9b89	94	// Pb Pb
8ba062b1	95
1e7c9b89	96	fGamma[0][0] = -7.656908e-01;
	97	fGamma[0][1] = 2.352536e-01;
	98	fGamma[0][2] = 1.555996e-02;
	99	fGamma[0][3] = 2.243525e-04;
	100	fGamma[0][4] = -2.560087e-06;
	101
	102	fGamma[1][0] = 6.500216e+00;
	103	fGamma[1][1] = -2.564958e-01;
	104	fGamma[1][2] = 1.967894e-01;
	105	fGamma[1][3] = -3.982273e-04;
	106	fGamma[1][4] = 2.797737e-06;
	107
	108	fGamma[2][0] = 2.416489e+00;
	109	fGamma[2][1] = -1.601258e-01;
	110	fGamma[2][2] = 3.126839e-02;
	111	fGamma[2][3] = 3.387532e-04;
	112	fGamma[2][4] = -4.089145e-06;
	113
	114
	115	fGamma[3][0] = 0.;
	116	fGamma[3][1] = -2.696008e+00;
	117	fGamma[3][2] = 6.920305e-01;
	118	fGamma[3][3] = -2.281122e-03;
	119	fGamma[3][4] = 0.;
	120
	121	fGamma[4][0] = 2.281564e-01;
	122	fGamma[4][1] = -7.575040e-02;
	123	fGamma[4][2] = 3.813423e-01;
	124	fGamma[4][3] = -1.243854e-04;
	125	fGamma[4][4] = 1.232045e-06;
	126
	127	fGamma[5][0] = -3.290107e-01;
	128	fGamma[5][1] = 3.707545e-02;
	129	fGamma[5][2] = 2.917397e-03;
	130	fGamma[5][3] = 4.695306e-05;
	131	fGamma[5][4] = -3.572981e-07;
	132
	133
	134	fHadron[0][0] = 1.519112e-01;
	135	fHadron[0][1] = -8.267603e-02;
	136	fHadron[0][2] = 1.914574e-02;
	137	fHadron[0][3] = -2.677921e-04;
	138	fHadron[0][4] = 5.447939e-06;
	139
	140
	141	fHadron[1][0] = 0.;
	142	fHadron[1][1] = -7.549870e-02;
	143	fHadron[1][2] = 3.930087e-01;
	144	fHadron[1][3] = -2.368500e-03;
	145	fHadron[1][4] = 0.;
	146
	147
	148	fHadron[2][0] = 0.;
	149	fHadron[2][1] = -2.463152e-02;
	150	fHadron[2][2] = 1.349257e-01;
	151	fHadron[2][3] = -1.089440e-03;
	152	fHadron[2][4] = 0.;
	153
	154
	155
	156	fHadron[3][0] = 0.;
	157	fHadron[3][1] = 5.101560e-01;
	158	fHadron[3][2] = 1.458679e-01;
	159	fHadron[3][3] = 4.903068e-04;
160	fHadron[3][4] = 0.;
161
162	fHadron[4][0] = 0.;
163	fHadron[4][1] = -6.693943e-03;
164	fHadron[4][2] = 2.444753e-01;
165	fHadron[4][3] = -5.553749e-05;
166	fHadron[4][4] = 0.;
167
168	fHadron[5][0] = -4.414030e-01;
169	fHadron[5][1] = 2.292277e-01;
170	fHadron[5][2] = -2.433737e-02;
171	fHadron[5][3] = 1.758422e-03;
172	fHadron[5][4] = -3.001493e-05;
173
174
175	fPiZero[0][0] = 5.072157e-01;
176	fPiZero[0][1] = -5.352747e-01;
177	fPiZero[0][2] = 8.499259e-02;
178	fPiZero[0][3] = -3.687401e-03;
179	fPiZero[0][4] = 5.482280e-05;
180
181
182	fPiZero[1][0] = 4.590137e+02;
183	fPiZero[1][1] = -7.079341e+01;
184	fPiZero[1][2] = 4.990735e+00;
185	fPiZero[1][3] = -1.241302e-01;
186	fPiZero[1][4] = 1.065772e-03;
187
188
189	fPiZero[2][0] = 1.376415e+02;
190	fPiZero[2][1] = -3.031577e+01;
191	fPiZero[2][2] = 2.474338e+00;
192	fPiZero[2][3] = -6.903410e-02;
193	fPiZero[2][4] = 6.244089e-04;
194
195	fPiZero[3][0] = 0.;
196	fPiZero[3][1] = 1.145983e+00;
197	fPiZero[3][2] = -2.476052e-01;
198	fPiZero[3][3] = 1.367373e-02;
199	fPiZero[3][4] = 0.;
200
201	fPiZero[4][0] = -2.097586e+02;
202	fPiZero[4][1] = 6.300800e+01;
203	fPiZero[4][2] = -4.038906e+00;
204	fPiZero[4][3] = 1.088543e-01;
205	fPiZero[4][4] = -9.362485e-04;
206
207	fPiZero[5][0] = -1.671477e+01;
208	fPiZero[5][1] = 2.995415e+00;
209	fPiZero[5][2] = -6.040360e-02;
210	fPiZero[5][3] = -6.137459e-04;
211	fPiZero[5][4] = 1.847328e-05;
212
213	// High flux ones pp
214
215	fHadronEnergyProb[0]= 0.;
216	fHadronEnergyProb[1]= 0.;
217	fHadronEnergyProb[2]= 6.188452e-02;
218	fHadronEnergyProb[3]= 2.030230e+00;
219	fHadronEnergyProb[4]= -6.402242e-02;
220
221
222	}
8ba062b1	223
8ba062b1	224
3a8be91c	225
413e6b81	226	//-----------------------------------------------------------------------------
	227	AliEMCALRecParam::AliEMCALRecParam(const AliEMCALRecParam& rp) :
	228	AliDetectorRecoParam(),
	229	fClusteringThreshold(rp.fClusteringThreshold),
	230	fW0(rp.fW0),
	231	fMinECut(rp.fMinECut),
	232	fUnfold(rp.fUnfold),
	233	fLocMaxCut(rp.fLocMaxCut), //clustering
	234	fTrkCutX(rp.fTrkCutX),
	235	fTrkCutY(rp.fTrkCutY),
	236	fTrkCutZ(rp.fTrkCutZ),
	237	fTrkCutR(rp.fTrkCutR),
	238	fTrkCutAlphaMin(rp.fTrkCutAlphaMin),
	239	fTrkCutAlphaMax(rp.fTrkCutAlphaMax),
1e7c9b89	240	fTrkCutAngle(rp.fTrkCutAngle),
dcd86c5d	241	fTrkCutNITS(rp.fTrkCutNITS),
dcd86c5d	242	fTrkCutNTPC(rp.fTrkCutNTPC), // track matching
413e6b81	243	fHighLowGainFactor(rp.fHighLowGainFactor),
	244	fOrderParameter(rp.fOrderParameter),
	245	fTau(rp.fTau),
	246	fNoiseThreshold(rp.fNoiseThreshold),
	247	fNPedSamples(rp.fNPedSamples) //raw signal
	248	{
	249	//copy constructor
1e7c9b89	250
413e6b81	251	//PID values
	252	Int_t i, j;
	253	for (i = 0; i < 6; i++) {
	254	for (j = 0; j < 6; j++) {
	255	fGamma[i][j] = rp.fGamma[i][j];
1e7c9b89	256	fGamma1to10[i][j] = rp.fGamma1to10[i][j];
413e6b81	257	fHadron[i][j] = rp.fHadron[i][j];
1e7c9b89	258	fHadron1to10[i][j] = rp.fHadron1to10[i][j];
1e7c9b89	259	fPiZero[i][j] = rp.fPiZero[i][j];
413e6b81	260	}
1e7c9b89	261	fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
	262	fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
	263	fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
	264
413e6b81	265	}
1e7c9b89	266
413e6b81	267	}
	268
	269	//-----------------------------------------------------------------------------
	270	AliEMCALRecParam& AliEMCALRecParam::operator = (const AliEMCALRecParam& rp)
	271	{
	272	//assignment operator
1e7c9b89	273
413e6b81	274	if(this != &rp) {
	275	fClusteringThreshold = rp.fClusteringThreshold;
	276	fW0 = rp.fW0;
	277	fMinECut = rp.fMinECut;
	278	fUnfold = rp.fUnfold;
	279	fLocMaxCut = rp.fLocMaxCut; //clustering
	280	fTrkCutX = rp.fTrkCutX;
	281	fTrkCutY = rp.fTrkCutY;
	282	fTrkCutZ = rp.fTrkCutZ;
	283	fTrkCutR = rp.fTrkCutR;
	284	fTrkCutAlphaMin = rp.fTrkCutAlphaMin;
	285	fTrkCutAlphaMax = rp.fTrkCutAlphaMax;
1e7c9b89	286	fTrkCutAngle = rp.fTrkCutAngle;
dcd86c5d	287	fTrkCutNITS = rp.fTrkCutNITS;
dcd86c5d	288	fTrkCutNTPC = rp.fTrkCutNTPC; //track matching
413e6b81	289	fHighLowGainFactor = rp.fHighLowGainFactor;
	290	fOrderParameter = rp.fOrderParameter;
	291	fTau = rp.fTau;
	292	fNoiseThreshold = rp.fNoiseThreshold;
	293	fNPedSamples = rp.fNPedSamples; //raw signal
1e7c9b89	294
413e6b81	295	//PID values
	296	Int_t i, j;
	297	for (i = 0; i < 6; i++) {
	298	for (j = 0; j < 6; j++) {
	299	fGamma[i][j] = rp.fGamma[i][j];
1e7c9b89	300	fGamma1to10[i][j] = rp.fGamma1to10[i][j];
413e6b81	301	fHadron[i][j] = rp.fHadron[i][j];
1e7c9b89	302	fHadron1to10[i][j] = rp.fHadron1to10[i][j];
1e7c9b89	303	fPiZero[i][j] = rp.fPiZero[i][j];
413e6b81	304	}
1e7c9b89	305	fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
	306	fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
	307	fHadronEnergyProb[i] = rp.fHadronEnergyProb[i];
413e6b81	308	}
1e7c9b89	309
413e6b81	310	}
	311
	312	return *this;
1e7c9b89	313
413e6b81	314	}
	315
	316	//-----------------------------------------------------------------------------
	317	AliEMCALRecParam* AliEMCALRecParam::GetDefaultParameters()
	318	{
	319	//default parameters for the reconstruction
	320	AliEMCALRecParam* params = new AliEMCALRecParam();
f5fc991a	321	params->SetName("Default - Pb+Pb");
	322	params->SetTitle("Default - Pb+Pb");
	323	return params;
1e7c9b89	324
f5fc991a	325	}
f5fc991a	326
98cf874d	327	//-----------------------------------------------------------------------------
	328	AliEMCALRecParam* AliEMCALRecParam::GetCalibParam()
	329	{
1e7c9b89	330	//parameters for the reconstruction of calibration runs
	331	AliEMCALRecParam* params = GetLowFluxParam();
	332	//params->SetClusteringThreshold(0.2); // 200 MeV
	333	//params->SetMinECut(0.01); //10 MeV
	334	params->SetName("Calibration - LED");
	335	params->SetTitle("Calibration - LED");
	336	params->SetEventSpecie(AliRecoParam::kCalib);
	337
	338	return params;
	339
98cf874d	340	}
	341
	342	//-----------------------------------------------------------------------------
	343	AliEMCALRecParam* AliEMCALRecParam::GetCosmicParam()
	344	{
1e7c9b89	345	//parameters for the reconstruction of cosmic runs
	346	AliEMCALRecParam* params = GetLowFluxParam();
	347	//params->SetClusteringThreshold(0.2); // 200 MeV
	348	//params->SetMinECut(0.01); //10 MeV
	349	params->SetName("Cosmic");
	350	params->SetTitle("Cosmic");
	351	params->SetEventSpecie(AliRecoParam::kCosmic);
	352
	353	return params;
	354
98cf874d	355	}
f5fc991a	356
1e7c9b89	357
f5fc991a	358	//-----------------------------------------------------------------------------
	359	AliEMCALRecParam* AliEMCALRecParam::GetLowFluxParam()
	360	{
	361	//low flux/multiplicity ("p+p") parameters for the reconstruction
	362	AliEMCALRecParam* params = new AliEMCALRecParam();
fd096fa9	363	params->SetClusteringThreshold(0.1); // 200 MeV
f5fc991a	364	params->SetMinECut(0.01); //10 MeV
	365	params->SetName("Low Flux - p+p");
	366	params->SetTitle("Low Flux - p+p");
	367	params->SetEventSpecie(AliRecoParam::kLowMult);
1e7c9b89	368
	369
	370	//PID parameters for pp implemented
	371	// as a first step, all array elements are initialized to 0.0
	372	Int_t i, j;
	373	for (i = 0; i < 6; i++) {
	374	for (j = 0; j < 6; j++) {
	375	params->SetGamma(i,j,0.);
	376	params->SetGamma1to10(i,j,0.);
	377	params->SetHadron(i,j,0.);
	378	params->SetHadron1to10(i,j,0.);
	379	params->SetPiZero(i,j,0.);
	380
	381	}
	382	params->SetGammaEnergyProb(i,0.); // not yet implemented
	383	params->SetHadronEnergyProb(i,0.);
	384	params->SetPiZeroEnergyProb(i,0.); // not yet implemented
	385	}
	386
	387
	388	params->SetGamma(0,0,-7.656908e-01);
	389	params->SetGamma(0,1,2.352536e-01);
	390	params->SetGamma(0,2,1.555996e-02);
	391	params->SetGamma(0,3,2.243525e-04);
	392	params->SetGamma(0,4,-2.560087e-06);
	393
	394	params->SetGamma(1,0,6.500216e+00);
	395	params->SetGamma(1,1,-2.564958e-01);
	396	params->SetGamma(1,2,1.967894e-01);
	397	params->SetGamma(1,3,-3.982273e-04);
	398	params->SetGamma(1,4,2.797737e-06);
	399
	400	params->SetGamma(2,0,2.416489e+00);
	401	params->SetGamma(2,1,-1.601258e-01);
	402	params->SetGamma(2,2,3.126839e-02);
	403	params->SetGamma(2,3,3.387532e-04);
	404	params->SetGamma(2,4,-4.089145e-06);
	405
	406	params->SetGamma(3,0,0.);
	407	params->SetGamma(3,1,-2.696008e+00);
	408	params->SetGamma(3,2, 6.920305e-01);
	409	params->SetGamma(3,3,-2.281122e-03);
	410	params->SetGamma(3,4,0.);
	411
	412	params->SetGamma(4,0,2.281564e-01);
	413	params->SetGamma(4,1,-7.575040e-02);
	414	params->SetGamma(4,2,3.813423e-01);
	415	params->SetGamma(4,3,-1.243854e-04);
	416	params->SetGamma(4,4,1.232045e-06);
	417
	418	params->SetGamma(5,0,-3.290107e-01);
	419	params->SetGamma(5,1,3.707545e-02);
	420	params->SetGamma(5,2,2.917397e-03);
	421	params->SetGamma(5,3,4.695306e-05);
	422	params->SetGamma(5,4,-3.572981e-07);
	423
	424	params->SetHadron(0,0,9.482243e-01);
	425	params->SetHadron(0,1,-2.780896e-01);
	426	params->SetHadron(0,2, 2.223507e-02);
	427	params->SetHadron(0,3,7.294263e-04);
	428	params->SetHadron(0,4,-5.665872e-06);
	429
	430	params->SetHadron(1,0,0.);
	431	params->SetHadron(1,1,0.);
432	params->SetHadron(1,2,2.483298e-01);
433	params->SetHadron(1,3,0.);
434	params->SetHadron(1,4,0.);
435
436	params->SetHadron(2,0,-5.601199e+00);
437	params->SetHadron(2,1,2.097382e+00);
438	params->SetHadron(2,2,-2.307965e-01);
439	params->SetHadron(2,3,9.206871e-03);
440	params->SetHadron(2,4,-8.887548e-05);
441
442	params->SetHadron(3,0,6.543101e+00);
443	params->SetHadron(3,1,-2.305203e+00);
444	params->SetHadron(3,2,2.761673e-01);
445	params->SetHadron(3,3,-5.465855e-03);
446	params->SetHadron(3,4,2.784329e-05);
447
448	params->SetHadron(4,0,-2.443530e+01);
449	params->SetHadron(4,1,8.902578e+00);
450	params->SetHadron(4,2,-5.265901e-01);
451	params->SetHadron(4,3,2.549111e-02);
452	params->SetHadron(4,4,-2.196801e-04);
453
454	params->SetHadron(5,0,2.102007e-01);
455	params->SetHadron(5,1,-3.844418e-02);
456	params->SetHadron(5,2,1.234682e-01);
457	params->SetHadron(5,3,-3.866733e-03);
458	params->SetHadron(5,4,3.362719e-05);
459
460	params->SetPiZero(0,0,5.07215e-01);
461	params->SetPiZero(0,1,-5.35274e-01);
462	params->SetPiZero(0,2,8.49925e-02);
463	params->SetPiZero(0,3,-3.68740e-03);
464	params->SetPiZero(0,4,5.48228e-05);
465
466	params->SetPiZero(1,0,4.590137e+02);
467	params->SetPiZero(1,1,-7.079341e+01);
468	params->SetPiZero(1,2,4.990735e+00);
469	params->SetPiZero(1,3,-1.241302e-01);
470	params->SetPiZero(1,4,1.065772e-03);
471
472	params->SetPiZero(2,0,1.376415e+02);
473	params->SetPiZero(2,1,-3.031577e+01);
474	params->SetPiZero(2,2,2.474338e+00);
475	params->SetPiZero(2,3,-6.903410e-02);
476	params->SetPiZero(2,4,6.244089e-04);
477
478	params->SetPiZero(3,0,0.);
479	params->SetPiZero(3,1,1.145983e+00);
480	params->SetPiZero(3,2,-2.476052e-01);
481	params->SetPiZero(3,3,1.367373e-02);
482	params->SetPiZero(3,4,0.);
483
484	params->SetPiZero(4,0,-2.09758e+02);
485	params->SetPiZero(4,1,6.30080e+01);
486	params->SetPiZero(4,2,-4.03890e+00);
487	params->SetPiZero(4,3,1.08854e-01);
488	params->SetPiZero(4,4,-9.36248e-04);
489
490	params->SetPiZero(5,0,-1.671477e+01);
491	params->SetPiZero(5,1,2.995415e+00);
492	params->SetPiZero(5,2,-6.040360e-02);
493	params->SetPiZero(5,3,-6.137459e-04);
494	params->SetPiZero(5,4,1.847328e-05);
495
496
497	// params->SetHadronEnergyProb(0,0.);
498	// params->SetHadronEnergyProb(1,0.);
499	// params->SetHadronEnergyProb(2,1.);
500	// params->SetHadronEnergyProb(3,0.);
501	// params->SetHadronEnergyProb(4,0.);
502
503	params->SetHadronEnergyProb(0, 4.767543e-02);
504	params->SetHadronEnergyProb(1,-1.537523e+00);
505	params->SetHadronEnergyProb(2,2.956727e-01);
506	params->SetHadronEnergyProb(3,-3.051022e+01);
507	params->SetHadronEnergyProb(4,-6.036931e-02);
508
509	// Int_t ii= 0;
510	// Int_t jj= 3;
511	// AliDebug(1,Form("PID parameters (%d, %d): fGamma=%.3f, fPi=%.3f, fHadron=%.3f",
512	// ii,jj, params->GetGamma(ii,jj), params->GetPiZero(ii,jj), params->GetHadron(ii,jj)));
513	// cout << " Low Flux Parameters fGamma [2][2] = " << params->GetGamma(2,2) << endl;
514	// cout << " Low Flux Parameters fHadron [2][2] = " << params->GetHadron(2,2) << endl;
515
f5fc991a	516	return params;
	517
	518	}
	519
	520
	521	//-----------------------------------------------------------------------------
	522	AliEMCALRecParam* AliEMCALRecParam::GetHighFluxParam()
	523	{
	524	//high flux/multiplicity ("Pb+Pb") parameters for the reconstruction
	525	AliEMCALRecParam* params = new AliEMCALRecParam();
	526	//For now, same as default
	527	//if later these need to be modified, here's where it is done
	528	params->SetName("High Flux - Pb+Pb");
	529	params->SetTitle("High Flux - Pb+Pb");
	530	params->SetEventSpecie(AliRecoParam::kHighMult);
1e7c9b89	531
413e6b81	532	return params;
1e7c9b89	533
413e6b81	534	}
413e6b81	535
3a8be91c	536	//-----------------------------------------------------------------------------
	537	void AliEMCALRecParam::Print(Option_t *) const
	538	{
3a8be91c	539	// Print reconstruction parameters to stdout
225cd96d	540	AliInfo(Form("Clusterization parameters :\n fClusteringThreshold=%.3f,\n fW0=%.3f,\n fMinECut=%.3f,\n fUnfold=%d,\n fLocMaxCut=%.3f \n",
225cd96d	541	fClusteringThreshold,fW0,fMinECut,fUnfold,fLocMaxCut));
1e7c9b89	542
	543	AliInfo(Form("Track-matching cuts :\n x %f, y %f, z %f, R %f \n alphaMin %f, alphaMax %f, Angle %f, NITS %f, NTPC %\n", fTrkCutX, fTrkCutY, fTrkCutZ, fTrkCutR,fTrkCutAlphaMin,fTrkCutAlphaMax, fTrkCutAngle,fTrkCutNITS,fTrkCutNTPC));
	544
8ba062b1	545	AliInfo(Form("PID parameters, Gamma :\n"));
	546	for(Int_t i = 0; i < 6; i++){
	547	for(Int_t j = 0; j < 6; j++){
	548	printf(" %f, ", fGamma[i][j]);
	549	}
	550	printf("\n");
	551	}
1e7c9b89	552
1e7c9b89	553
8ba062b1	554	AliInfo(Form("PID parameters, Hadron :\n"));
	555	for(Int_t i = 0; i < 6; i++){
	556	for(Int_t j = 0; j < 6; j++){
	557	printf(" %f, ", fHadron[i][j]);
	558	}
	559	printf("\n");
	560	}
1e7c9b89	561
8ba062b1	562	printf("\n");
1e7c9b89	563
1e7c9b89	564	AliInfo(Form("PID parameters, Pi0zero :\n"));
8ba062b1	565	for(Int_t i = 0; i < 6; i++){
8ba062b1	566	for(Int_t j = 0; j < 6; j++){
1e7c9b89	567	printf(" %f, ", fPiZero[i][j]);
8ba062b1	568	}
	569	printf("\n");
	570	}
1e7c9b89	571
8ba062b1	572	printf("\n");
1e7c9b89	573
1e7c9b89	574
b4133f05	575	AliInfo(Form("Raw signal parameters: \n gain factor=%f, order=%d, tau=%f, noise threshold=%d, nped samples=%d \n",
b4133f05	576	fHighLowGainFactor,fOrderParameter,fTau,fNoiseThreshold,fNPedSamples));
1e7c9b89	577
3a8be91c	578	}
8ba062b1	579
413e6b81	580	//-----------------------------------------------------------------------------
feedcab9	581	const TObjArray* AliEMCALRecParam::GetMappings()
feedcab9	582	{
413e6b81	583	//Returns array of AliAltroMappings for RCU0..RCUX.
413e6b81	584	//If not found, read it from OCDB.
1e7c9b89	585
413e6b81	586	//Quick check as follows:
1e7c9b89	587	// root [0] AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT"
413e6b81	588	// root [1] AliCDBManager::Instance()->SetRun(1);
	589	// root [2] TObjArray* maps = AliEMCALRecParam::GetMappings();
	590	// root [3] maps->Print();
1e7c9b89	591
feedcab9	592	if(fgkMaps) return fgkMaps;
1e7c9b89	593
feedcab9	594	AliCDBEntry* entry = AliCDBManager::Instance()->Get("EMCAL/Calib/Mapping");
	595	if(entry)
	596	fgkMaps = (TObjArray*)entry->GetObject();
1e7c9b89	597
feedcab9	598	return fgkMaps;
1e7c9b89	599
feedcab9	600	}
feedcab9	601