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

//_________________________________________________________________________
//
// Split clusters with some criteria and calculate invariant mass
// to identify them as pi0 or conversion
//
//
//-- Author: Gustavo Conesa (LPSC-Grenoble)  
//_________________________________________________________________________

//////////////////////////////////////////////////////////////////////////////
  
  
// --- ROOT system --- 
#include <TList.h>
#include <TClonesArray.h>
#include <TObjString.h>
#include <TH2F.h>
#include <TDatabasePDG.h>

// --- Analysis system --- 
#include "AliAnaInsideClusterInvariantMass.h" 
#include "AliCaloTrackReader.h"
#include "AliMCAnalysisUtils.h"
#include "AliStack.h"
#include "AliFiducialCut.h"
#include "TParticle.h"
#include "AliVCluster.h"
#include "AliAODEvent.h"
#include "AliAODMCParticle.h"
#include "AliEMCALGeoParams.h"

// --- Detectors ---
//#include "AliPHOSGeoUtils.h"
#include "AliEMCALGeometry.h"

ClassImp(AliAnaInsideClusterInvariantMass)
  
//__________________________________________________________________
AliAnaInsideClusterInvariantMass::AliAnaInsideClusterInvariantMass() : 
  AliAnaCaloTrackCorrBaseClass(),
  fMinNCells(0),                             fMinBadDist(0),
  fHistoECut(0),                             fCheckSplitDistToBad(0),                   fFillAngleHisto(kFALSE),
  fFillTMHisto(kFALSE),                      fFillTMResidualHisto(kFALSE),              fFillSSExtraHisto(kFALSE),
  fFillMCHisto(kFALSE),                      fFillSSWeightHisto(kFALSE),
  fFillNLMDiffCutHisto(kFALSE),              fFillEbinHisto(0),
  fFillMCOverlapHisto(0),                    fFillNCellHisto(0),                        fFillIdConvHisto(0),
  fFillIdEtaHisto(0),                        fFillHighMultHisto(0),
  fFillArmenterosHisto(0),                   fFillThetaStarHisto(0),
  fSSWeightN(0),                             fSSECellCutN(0),
  fNLMSettingN(0),                           fWSimu(),
  fClusterMomentum(),                        fSubClusterMom1(),                         fSubClusterMom2(),
  fSubClusterMomSum(),                       fSubClusterMomBoost(),
  fPrimaryMom(),                             fGrandMotherMom(),
  fMCDaughMom1(),                            fMCDaughMom2(),
  fProdVertex(),
// Histograms
  fhMassAsyCutNLocMax1(0),                   fhMassAsyCutNLocMax2(0),                   fhMassAsyCutNLocMaxN(0),
  fhM02AsyCutNLocMax1(0),                    fhM02AsyCutNLocMax2(0),                    fhM02AsyCutNLocMaxN(0),
  fhMassM02CutNLocMax1(0),                   fhMassM02CutNLocMax2(0),                   fhMassM02CutNLocMaxN(0),
  fhAsymM02CutNLocMax1(0),                   fhAsymM02CutNLocMax2(0),                   fhAsymM02CutNLocMaxN(0),
  fhMassEnCutNLocMax1(0),                    fhMassEnCutNLocMax2(0),                    fhMassEnCutNLocMaxN(0),
  fhM02EnCutNLocMax1(0),                     fhM02EnCutNLocMax2(0),                     fhM02EnCutNLocMaxN(0),
  fhAsymEnCutNLocMax1(0),                    fhAsymEnCutNLocMax2(0),                    fhAsymEnCutNLocMaxN(0),
  fhSplitEFracEnCutNLocMax1(0),              fhSplitEFracEnCutNLocMax2(0),              fhSplitEFracEnCutNLocMaxN(0),
  fhMassSplitECutNLocMax1(0),                fhMassSplitECutNLocMax2(0),                fhMassSplitECutNLocMaxN(0),
  fhMCGenFracAfterCutsNLocMax1MCPi0(0),      fhMCGenFracAfterCutsNLocMax2MCPi0(0),      fhMCGenFracAfterCutsNLocMaxNMCPi0(0),
  fhMCGenSplitEFracAfterCutsNLocMax1MCPi0(0),fhMCGenSplitEFracAfterCutsNLocMax2MCPi0(0),fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0(0),
  fhNCellMassEHighNLocMax1MCPi0(0),          fhNCellM02EHighNLocMax1MCPi0(0),
  fhNCellMassELowNLocMax1MCPi0(0),           fhNCellM02ELowNLocMax1MCPi0(0),
  fhNCellMassEHighNLocMax2MCPi0(0),          fhNCellM02EHighNLocMax2MCPi0(0),
  fhNCellMassELowNLocMax2MCPi0(0),           fhNCellM02ELowNLocMax2MCPi0(0),
  fhNCellMassEHighNLocMaxNMCPi0(0),          fhNCellM02EHighNLocMaxNMCPi0(0),
  fhNCellMassELowNLocMaxNMCPi0(0),           fhNCellM02ELowNLocMaxNMCPi0(0),
  fhAnglePairPrimPi0RecoNLocMax1(0),         fhAnglePairPrimPi0RecoNLocMax2(0),         fhAnglePairPrimPi0RecoNLocMaxN(0),
  fhAnglePairPrimPi0vsRecoNLocMax1(0),       fhAnglePairPrimPi0vsRecoNLocMax2(0),       fhAnglePairPrimPi0vsRecoNLocMaxN(0),
  fhAnglePairPrimPi0OverM02NLocMax1(0),      fhAnglePairPrimPi0OverM02NLocMax2(0),      fhAnglePairPrimPi0OverM02NLocMaxN(0),
  fhCentralityPi0NLocMax1(0),                fhCentralityEtaNLocMax1(0),
  fhCentralityPi0NLocMax2(0),                fhCentralityEtaNLocMax2(0),
  fhCentralityPi0NLocMaxN(0),                fhCentralityEtaNLocMaxN(0),
  fhEventPlanePi0NLocMax1(0),                fhEventPlaneEtaNLocMax1(0),
  fhEventPlanePi0NLocMax2(0),                fhEventPlaneEtaNLocMax2(0),
  fhEventPlanePi0NLocMaxN(0),                fhEventPlaneEtaNLocMaxN(0),
  fhClusterEtaPhiNLocMax1(0),                fhClusterEtaPhiNLocMax2(0),                fhClusterEtaPhiNLocMaxN(0),
  fhPi0EtaPhiNLocMax1(0),                    fhPi0EtaPhiNLocMax2(0),                    fhPi0EtaPhiNLocMaxN(0),
  fhEtaEtaPhiNLocMax1(0),                    fhEtaEtaPhiNLocMax2(0),                    fhEtaEtaPhiNLocMaxN(0),
  fhPi0EPairDiffTimeNLM1(0),                 fhPi0EPairDiffTimeNLM2(0),                 fhPi0EPairDiffTimeNLMN(0),
  fhEtaEPairDiffTimeNLM1(0),                 fhEtaEPairDiffTimeNLM2(0),                 fhEtaEPairDiffTimeNLMN(0),
  fhMCPi0HighNLMPair(0),                     fhMCPi0LowNLMPair(0),
  fhMCPi0AnyNLMPair(0),                      fhMCPi0NoneNLMPair(0),
  fhMCPi0HighNLMPairNoMCMatch(0),            fhMCPi0LowNLMPairNoMCMatch(0),
  fhMCPi0AnyNLMPairNoMCMatch(0),             fhMCPi0NoneNLMPairNoMCMatch(0),
  fhMCPi0HighNLMPairOverlap(0),              fhMCPi0LowNLMPairOverlap(0),
  fhMCPi0AnyNLMPairOverlap(0),               fhMCPi0NoneNLMPairOverlap(0),
  fhMCPi0HighNLMPairNoMCMatchOverlap(0),     fhMCPi0LowNLMPairNoMCMatchOverlap(0),
  fhMCPi0AnyNLMPairNoMCMatchOverlap(0),      fhMCPi0NoneNLMPairNoMCMatchOverlap(0),
  fhMCPi0DecayPhotonHitHighLM(0),            fhMCPi0DecayPhotonAdjHighLM(0),
  fhMCPi0DecayPhotonHitOtherLM(0),           fhMCPi0DecayPhotonAdjOtherLM(0),
  fhMCPi0DecayPhotonAdjacent(0),             fhMCPi0DecayPhotonHitNoLM(0),
  fhMCPi0DecayPhotonHitHighLMOverlap(0),     fhMCPi0DecayPhotonAdjHighLMOverlap(0),
  fhMCPi0DecayPhotonHitOtherLMOverlap(0),    fhMCPi0DecayPhotonAdjOtherLMOverlap(0),
  fhMCPi0DecayPhotonAdjacentOverlap(0),      fhMCPi0DecayPhotonHitNoLMOverlap(0),
  fhMCEOverlapType(0),                       fhMCEOverlapTypeMatch(0)
{
  //default ctor
  
  // Init array of histograms
  for(Int_t i = 0; i < 7; i++)
  {
    for(Int_t j = 0; j < 2; j++)
    {
      fhMassNLocMax1[i][j]  = 0;
      fhMassNLocMax2[i][j]  = 0;
      fhMassNLocMaxN[i][j]  = 0;
      fhMassSplitENLocMax1[i][j]  = 0;
      fhMassSplitENLocMax2[i][j]  = 0;
      fhMassSplitENLocMaxN[i][j]  = 0;
      fhNLocMax[i][j]       = 0;
      fhNLocMaxM02Cut[i][j] = 0;
      fhSplitClusterENLocMax   [i][j] = 0;
      fhSplitClusterEPi0NLocMax[i][j] = 0;
      fhM02NLocMax1[i][j]   = 0;
      fhM02NLocMax2[i][j]   = 0;
      fhM02NLocMaxN[i][j]   = 0;
      fhNCellNLocMax1[i][j] = 0;
      fhNCellNLocMax2[i][j] = 0;
      fhNCellNLocMaxN[i][j] = 0;
      fhM02Pi0NLocMax1[i][j] = 0;
      fhM02EtaNLocMax1[i][j] = 0;
      fhM02ConNLocMax1[i][j] = 0;
      fhM02Pi0NLocMax2[i][j] = 0;
      fhM02EtaNLocMax2[i][j] = 0;
      fhM02ConNLocMax2[i][j] = 0;
      fhM02Pi0NLocMaxN[i][j] = 0;
      fhM02EtaNLocMaxN[i][j] = 0;
      fhM02ConNLocMaxN[i][j] = 0;
      
      fhMassPi0NLocMax1[i][j] = 0;
      fhMassEtaNLocMax1[i][j] = 0;
      fhMassConNLocMax1[i][j] = 0;
      fhMassPi0NLocMax2[i][j] = 0;
      fhMassEtaNLocMax2[i][j] = 0;
      fhMassConNLocMax2[i][j] = 0;
      fhMassPi0NLocMaxN[i][j] = 0;
      fhMassEtaNLocMaxN[i][j] = 0;
      fhMassConNLocMaxN[i][j] = 0;
      
      fhNCellPi0NLocMax1[i][j] = 0;
      fhNCellEtaNLocMax1[i][j] = 0;
      fhNCellPi0NLocMax2[i][j] = 0;
      fhNCellEtaNLocMax2[i][j] = 0;
      fhNCellPi0NLocMaxN[i][j] = 0;
      fhNCellEtaNLocMaxN[i][j] = 0;
      
      fhAsyPi0NLocMax1[i][j] = 0;
      fhAsyEtaNLocMax1[i][j] = 0;
      fhAsyConNLocMax1[i][j] = 0;
      fhAsyPi0NLocMax2[i][j] = 0;
      fhAsyEtaNLocMax2[i][j] = 0;
      fhAsyConNLocMax2[i][j] = 0;
      fhAsyPi0NLocMaxN[i][j] = 0;
      fhAsyEtaNLocMaxN[i][j] = 0;
      fhAsyConNLocMaxN[i][j] = 0;      
      
      fhMassM02NLocMax1[i][j]= 0;
      fhMassM02NLocMax2[i][j]= 0;
      fhMassM02NLocMaxN[i][j]= 0;
      
      fhMassSplitEPi0NLocMax1[i][j]  = 0;
      fhMassSplitEPi0NLocMax2[i][j]  = 0;
      fhMassSplitEPi0NLocMaxN[i][j]  = 0;

      fhMassSplitEAfterCutsNLocMax1[i][j]  = 0;
      fhMassSplitEAfterCutsNLocMax2[i][j]  = 0;
      fhMassSplitEAfterCutsNLocMaxN[i][j]  = 0;

      
      fhMassDispEtaNLocMax1[i][j]= 0;
      fhMassDispEtaNLocMax2[i][j]= 0;
      fhMassDispEtaNLocMaxN[i][j]= 0;      
      fhMassDispPhiNLocMax1[i][j]= 0;
      fhMassDispPhiNLocMax2[i][j]= 0;
      fhMassDispPhiNLocMaxN[i][j]= 0;      
      fhMassDispAsyNLocMax1[i][j]= 0;
      fhMassDispAsyNLocMax2[i][j]= 0;
      fhMassDispAsyNLocMaxN[i][j]= 0;      
      
      fhSplitEFractionNLocMax1[i][j]=0;
      fhSplitEFractionNLocMax2[i][j]=0;
      fhSplitEFractionNLocMaxN[i][j]=0;
      
      fhAnglePairNLocMax1         [i][j] = 0;
      fhAnglePairNLocMax2         [i][j] = 0;
      fhAnglePairNLocMaxN         [i][j] = 0;

      fhAnglePairAfterCutsNLocMax1[i][j] = 0;
      fhAnglePairAfterCutsNLocMax2[i][j] = 0;
      fhAnglePairAfterCutsNLocMaxN[i][j] = 0;

      fhAnglePairPi0NLocMax1      [i][j] = 0;
      fhAnglePairPi0NLocMax2      [i][j] = 0;
      fhAnglePairPi0NLocMaxN      [i][j] = 0;
      
      fhAnglePairMassNLocMax1     [i][j] = 0;
      fhAnglePairMassNLocMax2     [i][j] = 0;
      fhAnglePairMassNLocMaxN     [i][j] = 0;

      fhAnglePairM02NLocMax1      [i][j] = 0;
      fhAnglePairM02NLocMax2      [i][j] = 0;
      fhAnglePairM02NLocMaxN      [i][j] = 0;
      
      fhAnglePairOverM02NLocMax1  [i][j] = 0;
      fhAnglePairOverM02NLocMax2  [i][j] = 0;
      fhAnglePairOverM02NLocMaxN  [i][j] = 0;
      
      fhAnglePairOverM02NLocMax1Overlap0[i][j] = 0;
      fhAnglePairOverM02NLocMax2Overlap0[i][j] = 0;
      fhAnglePairOverM02NLocMaxNOverlap0[i][j] = 0;
      
      fhCosThStarNLocMax1         [i][j] = 0;
      fhCosThStarNLocMax2         [i][j] = 0;
      fhCosThStarNLocMaxN         [i][j] = 0;
      
      fhCosThStarAfterCutsNLocMax1[i][j] = 0;
      fhCosThStarAfterCutsNLocMax2[i][j] = 0;
      fhCosThStarAfterCutsNLocMaxN[i][j] = 0;
      
      fhCosThStarPi0NLocMax1      [i][j] = 0;
      fhCosThStarPi0NLocMax2      [i][j] = 0;
      fhCosThStarPi0NLocMaxN      [i][j] = 0;
      
      fhMCGenFracNLocMax1[i][j]= 0;
      fhMCGenFracNLocMax2[i][j]= 0;
      fhMCGenFracNLocMaxN[i][j]= 0;

      fhMCGenFracNLocMax1NoOverlap[i][j]= 0;
      fhMCGenFracNLocMax2NoOverlap[i][j]= 0;
      fhMCGenFracNLocMaxNNoOverlap[i][j]= 0;
      
      fhMCGenSplitEFracNLocMax1[i][j]= 0;
      fhMCGenSplitEFracNLocMax2[i][j]= 0;
      fhMCGenSplitEFracNLocMaxN[i][j]= 0;    

      fhMCGenSplitEFracNLocMax1NoOverlap[i][j]= 0;
      fhMCGenSplitEFracNLocMax2NoOverlap[i][j]= 0;
      fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]= 0;
      
      fhMCGenEFracvsSplitEFracNLocMax1[i][j]= 0;
      fhMCGenEFracvsSplitEFracNLocMax2[i][j]= 0;
      fhMCGenEFracvsSplitEFracNLocMaxN[i][j]= 0;    
      
      fhMCGenEvsSplitENLocMax1[i][j]= 0;
      fhMCGenEvsSplitENLocMax2[i][j]= 0;
      fhMCGenEvsSplitENLocMaxN[i][j]= 0;     
      
      fhAsymNLocMax1 [i][j] = 0;
      fhAsymNLocMax2 [i][j] = 0;
      fhAsymNLocMaxN [i][j] = 0;
      
      fhMassAfterCutsNLocMax1[i][j] = 0;
      fhMassAfterCutsNLocMax2[i][j] = 0;
      fhMassAfterCutsNLocMaxN[i][j] = 0;

      
      fhSplitEFractionAfterCutsNLocMax1[i][j] = 0 ;
      fhSplitEFractionAfterCutsNLocMax2[i][j] = 0 ;
      fhSplitEFractionAfterCutsNLocMaxN[i][j] = 0 ;
    }
   
    for(Int_t jj = 0; jj < 4; jj++)
    {
      fhM02MCGenFracNLocMax1Ebin[i][jj] = 0;
      fhM02MCGenFracNLocMax2Ebin[i][jj] = 0;
      fhM02MCGenFracNLocMaxNEbin[i][jj] = 0;
      
      fhMassMCGenFracNLocMax1Ebin[i][jj]= 0;
      fhMassMCGenFracNLocMax2Ebin[i][jj]= 0;
      fhMassMCGenFracNLocMaxNEbin[i][jj]= 0;
      
      fhMCGenFracNLocMaxEbin[i][jj]       = 0;
      fhMCGenFracNLocMaxEbinMatched[i][jj]= 0;
      
      fhMassSplitEFractionNLocMax1Ebin[i][jj] = 0;
      fhMassSplitEFractionNLocMax2Ebin[i][jj] = 0;
      fhMassSplitEFractionNLocMaxNEbin[i][jj] = 0;
    }
    
    fhTrackMatchedDEtaNLocMax1[i] = 0;
    fhTrackMatchedDPhiNLocMax1[i] = 0;
    fhTrackMatchedDEtaNLocMax2[i] = 0;
    fhTrackMatchedDPhiNLocMax2[i] = 0; 
    fhTrackMatchedDEtaNLocMaxN[i] = 0; 
    fhTrackMatchedDPhiNLocMaxN[i] = 0; 

    fhTrackMatchedDEtaNLocMax1Pos[i] = 0;
    fhTrackMatchedDPhiNLocMax1Pos[i] = 0;
    fhTrackMatchedDEtaNLocMax2Pos[i] = 0;
    fhTrackMatchedDPhiNLocMax2Pos[i] = 0;
    fhTrackMatchedDEtaNLocMaxNPos[i] = 0;
    fhTrackMatchedDPhiNLocMaxNPos[i] = 0;

    fhTrackMatchedDEtaNLocMax1Neg[i] = 0;
    fhTrackMatchedDPhiNLocMax1Neg[i] = 0;
    fhTrackMatchedDEtaNLocMax2Neg[i] = 0;
    fhTrackMatchedDPhiNLocMax2Neg[i] = 0;
    fhTrackMatchedDEtaNLocMaxNNeg[i] = 0;
    fhTrackMatchedDPhiNLocMaxNNeg[i] = 0;
    
    for(Int_t nlm = 0; nlm < 3; nlm++)
    {
      fhMCEM02Overlap0     [nlm][i] = 0;
      fhMCEM02Overlap1     [nlm][i] = 0;
      fhMCEM02OverlapN     [nlm][i] = 0;
      fhMCEM02Overlap0Match[nlm][i] = 0;
      fhMCEM02Overlap1Match[nlm][i] = 0;
      fhMCEM02OverlapNMatch[nlm][i] = 0;
      
      fhMCEMassOverlap0     [nlm][i] = 0;
      fhMCEMassOverlap1     [nlm][i] = 0;
      fhMCEMassOverlapN     [nlm][i] = 0;
      fhMCEMassOverlap0Match[nlm][i] = 0;
      fhMCEMassOverlap1Match[nlm][i] = 0;
      fhMCEMassOverlapNMatch[nlm][i] = 0;

      fhMCEAsymOverlap0     [nlm][i] = 0;
      fhMCEAsymOverlap1     [nlm][i] = 0;
      fhMCEAsymOverlapN     [nlm][i] = 0;
      fhMCEAsymOverlap0Match[nlm][i] = 0;
      fhMCEAsymOverlap1Match[nlm][i] = 0;
      fhMCEAsymOverlapNMatch[nlm][i] = 0;

      fhMCENCellOverlap0     [nlm][i] = 0;
      fhMCENCellOverlap1     [nlm][i] = 0;
      fhMCENCellOverlapN     [nlm][i] = 0;
      fhMCENCellOverlap0Match[nlm][i] = 0;
      fhMCENCellOverlap1Match[nlm][i] = 0;
      fhMCENCellOverlapNMatch[nlm][i] = 0;
      
      fhMCEEpriOverlap0     [nlm][i] = 0;
      fhMCEEpriOverlap1     [nlm][i] = 0;
      fhMCEEpriOverlapN     [nlm][i] = 0;
      fhMCEEpriOverlap0Match[nlm][i] = 0;
      fhMCEEpriOverlap1Match[nlm][i] = 0;
      fhMCEEpriOverlapNMatch[nlm][i] = 0;

      fhMCEEpriOverlap0IdPi0[nlm][i] = 0;
      fhMCEEpriOverlap1IdPi0[nlm][i] = 0;
      fhMCEEpriOverlapNIdPi0[nlm][i] = 0;
      
      fhMCESplitEFracOverlap0     [nlm][i] = 0;
      fhMCESplitEFracOverlap1     [nlm][i] = 0;
      fhMCESplitEFracOverlapN     [nlm][i] = 0;
      fhMCESplitEFracOverlap0Match[nlm][i] = 0;
      fhMCESplitEFracOverlap1Match[nlm][i] = 0;
      fhMCESplitEFracOverlapNMatch[nlm][i] = 0;
      
      fhMCENOverlaps       [nlm][i] = 0;
      fhMCENOverlapsMatch  [nlm][i] = 0;
            
      if(i > 3) continue ;
      
      fhMCPi0MassM02Overlap0     [nlm][i] = 0;
      fhMCPi0MassM02Overlap1     [nlm][i] = 0;
      fhMCPi0MassM02OverlapN     [nlm][i] = 0;
      fhMCPi0MassM02Overlap0Match[nlm][i] = 0;
      fhMCPi0MassM02Overlap1Match[nlm][i] = 0;
      fhMCPi0MassM02OverlapNMatch[nlm][i] = 0;
    }
  }
   
  for(Int_t i = 0; i < 2; i++)
  {
    fhSplitEFractionvsAsyNLocMax1[i] = 0;
    fhSplitEFractionvsAsyNLocMax2[i] = 0; 
    fhSplitEFractionvsAsyNLocMaxN[i] = 0;    
  }
  
  for(Int_t i = 0; i < 4; i++)
  {
    fhMassM02NLocMax1Ebin[i] = 0 ;
    fhMassM02NLocMax2Ebin[i] = 0 ;
    fhMassM02NLocMaxNEbin[i] = 0 ;

    fhMassAsyNLocMax1Ebin[i] = 0 ;
    fhMassAsyNLocMax2Ebin[i] = 0 ;
    fhMassAsyNLocMaxNEbin[i] = 0 ;

    fhAsyMCGenRecoNLocMax1EbinPi0[i] = 0 ;
    fhAsyMCGenRecoNLocMax2EbinPi0[i] = 0 ;
    fhAsyMCGenRecoNLocMaxNEbinPi0[i] = 0 ;
    
    fhMassDispEtaNLocMax1Ebin[i] = 0 ;
    fhMassDispEtaNLocMax2Ebin[i] = 0 ;
    fhMassDispEtaNLocMaxNEbin[i] = 0 ;
    
    fhMassDispPhiNLocMax1Ebin[i] = 0 ;
    fhMassDispPhiNLocMax2Ebin[i] = 0 ;
    fhMassDispPhiNLocMaxNEbin[i] = 0 ;    
    
    fhMassDispAsyNLocMax1Ebin[i] = 0 ;
    fhMassDispAsyNLocMax2Ebin[i] = 0 ;
    fhMassDispAsyNLocMaxNEbin[i] = 0 ;    

    fhMCAsymM02NLocMax1MCPi0Ebin[i] = 0 ;
    fhMCAsymM02NLocMax2MCPi0Ebin[i] = 0 ;
    fhMCAsymM02NLocMaxNMCPi0Ebin[i] = 0 ;
  }
  
  for(Int_t nlm = 0; nlm < 3; nlm++)
  {
    
    fhMCPi0DecayPhotonHitHighLMDiffELM1 [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMDiffELM1 [nlm] = 0 ;           
    fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] = 0 ;           
    fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] = 0 ;            
    
    fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1 [nlm] = 0 ;     
    fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1 [nlm] = 0 ;      
    fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm] = 0 ;     
    fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm] = 0 ;     
    
    fhMCPi0DecayPhotonHitHighLMDiffELM2 [nlm] = 0 ;           
    fhMCPi0DecayPhotonAdjHighLMDiffELM2 [nlm] = 0 ;            
    fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] = 0 ;            
    fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] = 0 ;         
    
    fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2 [nlm] = 0 ;    
    fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2 [nlm] = 0 ;      
    fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm] = 0 ;     
    fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm] = 0 ;
    
    fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1 [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1 [nlm] = 0 ;
    fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] = 0 ;
    fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] = 0 ;
    
    fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1 [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1 [nlm] = 0 ;
    fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm] = 0 ;
    fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm] = 0 ;
    
    fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2 [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2 [nlm] = 0 ;
    fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] = 0 ;
    fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] = 0 ;
    
    fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2 [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2 [nlm] = 0 ;
    fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm] = 0 ;
    fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm] = 0 ;
    
    fhMCPi0DecayPhotonHitHighLMMass [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMMass [nlm] = 0 ;                 
    fhMCPi0DecayPhotonHitOtherLMMass[nlm] = 0 ;              
    fhMCPi0DecayPhotonAdjOtherLMMass[nlm] = 0 ;               
    fhMCPi0DecayPhotonAdjacentMass  [nlm] = 0 ;                  
    fhMCPi0DecayPhotonHitNoLMMass   [nlm] = 0 ;                  
    
    fhMCPi0DecayPhotonHitHighLMOverlapMass [nlm] = 0 ;
    fhMCPi0DecayPhotonAdjHighLMOverlapMass [nlm] = 0 ;          
    fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm] = 0 ;        
    fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm] = 0 ;        
    fhMCPi0DecayPhotonAdjacentOverlapMass  [nlm] = 0 ;
    fhMCPi0DecayPhotonHitNoLMOverlapMass   [nlm] = 0 ;          
    
    fhPi0CellE       [nlm] = 0 ;
    fhPi0CellEFrac   [nlm] = 0 ;
    fhPi0CellLogEFrac[nlm] = 0 ;
    
    fhPi0CellEMaxEMax2Frac   [nlm] = 0 ;
    fhPi0CellEMaxClusterFrac [nlm] = 0 ;
    fhPi0CellEMax2ClusterFrac[nlm] = 0 ;

    fhPi0CellEMaxFrac [nlm] = 0 ;
    fhPi0CellEMax2Frac[nlm] = 0 ;
    
    for(Int_t i = 0; i < 20; i++)
    {
      fhM02WeightPi0  [nlm][i] = 0;
      fhM02ECellCutPi0[nlm][i] = 0;
    }
    
    fhMassBadDistClose[nlm] = 0;
    fhM02BadDistClose [nlm] = 0;
    fhMassOnBorder    [nlm] = 0;
    fhM02OnBorder     [nlm] = 0;
    
    fhAsyMCGenRecoDiffMCPi0    [nlm] = 0;
    fhAsyMCGenRecoDiffMCPi0Conv[nlm] = 0;

  }
  
  for(Int_t i = 0; i < 7; i++)
  {
    for(Int_t j = 0; j < 4; j++)
    {
      
      fhArmNLocMax1[i][j]  = 0;
      fhArmNLocMax2[i][j]  = 0;
      fhArmNLocMaxN[i][j]  = 0;
      
      fhArmPi0NLocMax1[i][j] = 0;
      fhArmPi0NLocMax2[i][j] = 0;
      fhArmPi0NLocMaxN[i][j] = 0;
      
      fhArmAfterCutsNLocMax1[i][j] = 0;
      fhArmAfterCutsNLocMax2[i][j] = 0;
      fhArmAfterCutsNLocMaxN[i][j] = 0;
      
    }
  }
  
  for(Int_t i = 0; i < 5; i++)
  {
    for(Int_t j = 0; j < 5; j++)
    {
      fhNLocMaxDiffCut   [i][j][0] = 0;
      fhNLocMaxDiffCut   [i][j][1] = 0;
      fhNLocMaxDiffCutPi0[i][j][0] = 0;
      fhNLocMaxDiffCutPi0[i][j][1] = 0;
      for(Int_t k = 0; k < 3; k++)
      {
        fhM02NLocMaxDiffCut    [i][j][k][0] = 0;
        fhM02NLocMaxDiffCut    [i][j][k][1] = 0;
        fhM02NLocMaxDiffCutPi0 [i][j][k][0] = 0;
        fhM02NLocMaxDiffCutPi0 [i][j][k][1] = 0;
        fhMassNLocMaxDiffCut   [i][j][k][0] = 0;
        fhMassNLocMaxDiffCut   [i][j][k][1] = 0;
        fhMassNLocMaxDiffCutPi0[i][j][k][0] = 0;
        fhMassNLocMaxDiffCutPi0[i][j][k][1] = 0;
      }
    }
  }
  
  InitParameters();

}

//___________________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::CheckLocalMaximaMCOrigin(AliVCluster* cluster, Int_t mcindex, Int_t noverlaps,
                                                                Float_t e1,    Float_t e2,    Float_t mass)
                                                                //Float_t m02,
                                                                //TLorentzVector l1, TLorentzVector l2)
{
  // Check origin NLM tower of the cluster, when MC gives merged pi0
  
  if(mcindex != kmcPi0 && mcindex != kmcPi0Conv) return;

  const UInt_t nc = cluster->GetNCells();
  Int_t   list[nc];
  Float_t elist[nc];
  Int_t nMax = GetCaloUtils()->GetNumberOfLocalMaxima(cluster, GetEMCALCells(),list, elist);
  
  
  //// PRINTS /////
  
  //if(mcindex==kmcPi0)     printf("** Normal Pi0 **\n");
  //if(mcindex==kmcPi0Conv) printf("** Converted Pi0 **\n");

//  if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//  {
//     printf("** N max %d - Overlaps = %d **, mass %2.2f, m02 %2.2f, Cl1(E,eta,phi)=(%2.2f,%2.2f,%2.2f),Cl2(E,eta,phi)=(%2.2f,%2.2f,%2.2f), mass(1,2) %2.2f \n",
//            nMax, noverlaps,mass,m02,
//            l1.E(),l1.Eta(),l1.Phi()*TMath::RadToDeg(),
//            l2.E(),l2.Eta(),l2.Phi()*TMath::RadToDeg(), (l1+l2).M());
//    
//    // Study the mothers of cluster
//    printf("Cluster MC labels %d \n", cluster->GetNLabels());
//    for (UInt_t ilab = 0; ilab < cluster->GetNLabels(); ilab++ )
//    {
//      Int_t mclabel = cluster->GetLabels()[ilab];
//      
//      Bool_t  mOK = 0;
//      Int_t   mpdg = -999999;
//      Int_t   mstatus = -1;
//      Int_t   grandLabel = -1;
//      fPrimaryMom = GetMCAnalysisUtils()->GetMother(mclabel,GetReader(),mpdg,mstatus,mOK,grandLabel);
//      
//      printf("******** mother %d : Label %d, pdg %d; status %d, E %2.2f, Eta %2.2f, Phi %2.2f, ok %d, mother label %d\n",
//             ilab, mclabel, mpdg, mstatus,fPrimaryMom.E(), fPrimaryMom.Eta(),fPrimaryMom.Phi()*TMath::RadToDeg(),mOK,grandLabel);
//      
//      if( ( mpdg == 22 || TMath::Abs(mpdg)==11 ) && grandLabel >=0 )
//      {
//        while( ( mpdg == 22 || TMath::Abs(mpdg)==11 ) && grandLabel >=0 )
//        {
//          Int_t newLabel = -1;
//          TLorentzVector grandmother = GetMCAnalysisUtils()->GetMother(grandLabel,GetReader(),mpdg,mstatus,mOK,newLabel);
//          printf("\t grandmother %d : Label %d, pdg %d; status %d, E %2.2f, Eta %2.2f, Phi %2.2f, ok %d, mother label %d\n",
//                 ilab, grandLabel, mpdg, mstatus,grandmother.E(), grandmother.Eta(), grandmother.Phi()*TMath::RadToDeg(),mOK,newLabel);
//          grandLabel = newLabel;
//          
//        }
//      }
//    }
//    
//    printf("Cells in cluster %d\n",cluster->GetNCells() );
//    for(Int_t icell = 0; icell < cluster->GetNCells(); icell++)
//    {
//      Int_t absIdCell = cluster->GetCellAbsId(icell);
//      Int_t mcLabel   = GetEMCALCells()->GetCellMCLabel(absIdCell);
//      GetReader()->RemapMCLabelForAODs(mcLabel);
//      Int_t ietac=-1; Int_t iphic = 0; Int_t rcuc = 0;
//      Int_t smc = GetModuleNumberCellIndexes(absIdCell,GetCalorimeter(), ietac, iphic, rcuc);
//
//      printf(" \t cell i %d, abs %d, amp %2.3f, mclabel %d, (sm,ieta,iphi)=(%d,%d,%d)\n",icell,absIdCell,GetEMCALCells()->GetCellAmplitude(absIdCell),mcLabel,smc,ietac,iphic);
//    }
//  }
  //// PRINTS /////
  
  
  //If only one maxima, consider all the towers in the cluster
  if(nMax==1)
  {
    for (UInt_t icell = 0; icell < nc; icell++ )
    {
      list [icell] = cluster->GetCellAbsId(icell);
      elist[icell] = GetEMCALCells()->GetCellAmplitude(list[icell]);
    }
  }
  
  Int_t nmaxima = nMax;
  if(nMax==1) nmaxima = nc ;
  
  //Find highest energy Local Maxima Towers
  Int_t   imax  = 999;
  Int_t   imax2 = 999;
  Float_t emax  = -1;
  Float_t emax2 = -1;
  for(Int_t i = 0; i < nmaxima; i++)
  {
    //printf("i %d: AbsId %d; E %2.3f\n",i,list[i],elist[i]);
    if(elist[i] > emax)
    {
      imax = i;
      emax = elist[i];
    }
  }
  
  //Find second highest
  for(Int_t i = 0; i < nmaxima; i++)
  {
    if(i==imax) continue;
    
    //printf("j %d: AbsId %d; E %2.3f\n",i,list[i],elist[i]);
    
    if(elist[i] > emax2)
    {
      imax2 = i;
      emax2 = elist[i];
    }
  }
  
// if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//    printf("Local maxima: a) index %d, absId %d; b) index %d, absId %d\n",imax, list[imax], imax2, list[imax2]);
  
  //---------------------------------------------------------
  //---------------------------------------------------------
  // Compare ancestors of all local maxima at cell MC level
  //---------------------------------------------------------
  //---------------------------------------------------------
  
  // Check that the highest mc label and the max cluster label are the same
  Int_t mcLabelMax = -1 ;
  if(imax >=0 && imax < 999)
  {
    mcLabelMax = GetEMCALCells()->GetCellMCLabel(list[imax]);
    GetReader()->RemapMCLabelForAODs(mcLabelMax);
  }
  
  Int_t mcLabelMax2 = -1 ;
  if(imax2 >=0 && imax2 < 999)
  {
    mcLabelMax2 = GetEMCALCells()->GetCellMCLabel(list[imax2]);
    GetReader()->RemapMCLabelForAODs(mcLabelMax2);
  }
  
  Int_t mcLabelclusterMax = cluster->GetLabels()[0];
  Bool_t matchHighLMAndHighMC = kFALSE;
  
  //printf("MC label: LM1 %d, LM2 %d, cluster %d\n",mcLabelMax,mcLabelMax2,mcLabelclusterMax);
  
  if(mcLabelclusterMax == mcLabelMax && mcLabelclusterMax >= 0)
  {
    matchHighLMAndHighMC = kTRUE;
    //printf("\t *** MATCH cluster and LM maximum ***\n");
  }
  else
  {
     //printf("\t *** NO MATCH cluster and LM maximum, check second ***\n");
    if(mcLabelclusterMax == mcLabelMax2 && mcLabelclusterMax >= 0)
    {
      //printf("\t \t *** MATCH cluster and 2nd LM maximum ***\n");
      matchHighLMAndHighMC = kTRUE;
    }
    else
    {
      //printf("\t \t *** NO MATCH***\n");
      matchHighLMAndHighMC = kFALSE;
    }
  }
  
  // Compare the common ancestors of the 2 highest energy local maxima
  Int_t ancPDG = 0, ancStatus = -1;
  Int_t ancLabel = 0;
  Bool_t high = kFALSE;
  Bool_t low  = kFALSE;

//  // print maxima origin
//  for(Int_t i = 0; i < nMax; i++)
//  {
//    Int_t mcLabel1 = GetEMCALCells()->GetCellMCLabel(list[i]);
//    GetReader()->RemapMCLabelForAODs(mcLabel1);
//    
//    Bool_t ok  =kFALSE,gok = kFALSE;
//    Int_t pdg    = -22222, status   = -1;
//    Int_t gpdg   = -22222, gstatus  = -1;
//    Int_t ggpdg  = -22222, ggstatus = -1;
//    Int_t gLabel = -1, ggLabel = -1;
//    TLorentzVector primary   =GetMCAnalysisUtils()->GetMother     (mcLabel1,GetReader(),  pdg,  status, ok);
//    TLorentzVector gprimary  =GetMCAnalysisUtils()->GetGrandMother(mcLabel1,GetReader(), gpdg, gstatus,gok, gLabel,ggLabel);
//    TLorentzVector ggprimary =GetMCAnalysisUtils()->GetMother(ggLabel  ,GetReader(),ggpdg,ggstatus,gok);
//    printf("Max index %d; mother: Label %d; PDG %d; E %2.2f - grand mother label %d; PDG %d; E %2.2f- great grand mother label %d; PDG %d; E %2.2f\n",
//           i,mcLabel1,pdg,primary.E(), gLabel,gpdg,gprimary.E(), ggLabel,ggpdg,ggprimary.E());
//  }

  for(Int_t i = 0; i < nmaxima-1; i++)
  {
    Int_t mcLabel1 = GetEMCALCells()->GetCellMCLabel(list[i]);
    GetReader()->RemapMCLabelForAODs(mcLabel1);
 
    for(Int_t j = i+1; j < nmaxima; j++)
    {
      Int_t mcLabel2 = GetEMCALCells()->GetCellMCLabel(list[j]);
      GetReader()->RemapMCLabelForAODs(mcLabel2);
      
      if(mcLabel1 < 0 || mcLabel2 < 0 )
      {
        //printf("\t i %d label %d - j %d label %d; skip!\n",i,mcLabel1,j,mcLabel2);
        continue;
      }
      
      ancLabel = GetMCAnalysisUtils()->CheckCommonAncestor(mcLabel1,mcLabel2,
                                                           GetReader(),ancPDG,ancStatus,fPrimaryMom,fProdVertex);
      if(ancPDG==111)
      {
        if((i==imax && j==imax2) ||  (j==imax && i==imax2))
          high = kTRUE;
        else
          low = kTRUE;
      }
      else if(ancPDG==22 || TMath::Abs(ancPDG)==11)
      {
        // If both bits are set, it could be that one of the maxima had a conversion
        // reset the bit in this case
        if(high && low)
        {
          //printf("\t Reset low bit\n");
          low = kFALSE;
        }
      }
     
      Bool_t ok  =kFALSE;
      Int_t pdg = -22222, status = -1;
      fPrimaryMom = GetMCAnalysisUtils()->GetMother(ancLabel,GetReader(), pdg, status, ok);
      //printf("\t i %d label %d - j %d label %d; ancestor label %d, PDG %d-%d; E %2.2f; high %d, any %d \n",i,mcLabel1,j,mcLabel2, ancLabel, ancPDG,pdg, primary.E(), high, low);

    }
  }
  
  Float_t en = cluster->E();
  
// if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//    printf("Cell MC match: nMax %d; Match MC? %d; high %d; low %d\n",nMax,matchHighLMAndHighMC,high,low);
  
  if(!noverlaps)
  {
    if(matchHighLMAndHighMC)
    {
      if     (high && !low)  fhMCPi0HighNLMPair->Fill(en,nMax);
      else if(low  && !high) fhMCPi0LowNLMPair ->Fill(en,nMax);
      else if(low  &&  high) fhMCPi0AnyNLMPair ->Fill(en,nMax);
      else                   fhMCPi0NoneNLMPair->Fill(en,nMax);
    }
    else
    {
      if     (high && !low)  fhMCPi0HighNLMPairNoMCMatch->Fill(en,nMax);
      else if(low  && !high) fhMCPi0LowNLMPairNoMCMatch ->Fill(en,nMax);
      else if(low  &&  high) fhMCPi0AnyNLMPairNoMCMatch ->Fill(en,nMax);
      else                   fhMCPi0NoneNLMPairNoMCMatch->Fill(en,nMax);
    }
  }
  else
  {
    if(matchHighLMAndHighMC)
    {
      if     (high && !low)  fhMCPi0HighNLMPairOverlap->Fill(en,nMax);
      else if(low  && !high) fhMCPi0LowNLMPairOverlap->Fill(en,nMax);
      else if(low  &&  high) fhMCPi0AnyNLMPairOverlap->Fill(en,nMax);
      else                   fhMCPi0NoneNLMPairOverlap->Fill(en,nMax);
    }
    else
    {
      if     (high && !low)  fhMCPi0HighNLMPairNoMCMatchOverlap->Fill(en,nMax);
      else if(low  && !high) fhMCPi0LowNLMPairNoMCMatchOverlap->Fill(en,nMax);
      else if(low  &&  high) fhMCPi0AnyNLMPairNoMCMatchOverlap->Fill(en,nMax);
      else                   fhMCPi0NoneNLMPairNoMCMatchOverlap->Fill(en,nMax);
    }  
  }
  
  //----------------------------------------------------------------------
  //----------------------------------------------------------------------
  // Compare MC decay photon projection to cell location and Local Maxima
  //----------------------------------------------------------------------
  //----------------------------------------------------------------------
  
  // Get the mother pi0
  
  Bool_t ok     = kFALSE;
  Int_t pdg    = -22222, status   = -1;
  Int_t gLabel = -1;
  
  Int_t label = cluster->GetLabel();
  
  while( pdg!=111 && label >=0 )
  {
    fPrimaryMom = GetMCAnalysisUtils()->GetGrandMother(label,GetReader(),pdg,status,ok, label,gLabel);
  }
  
  if(pdg!=111 || label < 0)
  {
    AliWarning("Mother Pi0 not found!");
    return;
  }
  
  Int_t nDaugthers = GetMCAnalysisUtils()->GetNDaughters(label,GetReader(),ok);
  
  if(nDaugthers != 2)
  {
    AliWarning(Form("N daughters %d !=2!",nDaugthers));
    return;
  }
  
  // Get daughter photon kinematics
  Int_t pdg0 = -22222, status0   = -1; Int_t label0 = -1;
  fMCDaughMom1 = GetMCAnalysisUtils()->GetDaughter(0,label,GetReader(),pdg0,status0,ok,label0);
  Int_t pdg1 = -22222, status1   = -1; Int_t label1 = -1;
  fMCDaughMom2 = GetMCAnalysisUtils()->GetDaughter(1,label,GetReader(),pdg1,status1,ok,label1);

  if(pdg1!=22 || pdg0 != 22)
  {
    AliWarning(Form("Wrong daughters PDG: photon0 %d - photon1 %d",pdg0,pdg1));
    return;
  }
  
  // In what cells did the photons hit
  Float_t eta0 = fMCDaughMom1.Eta();
  Float_t eta1 = fMCDaughMom2.Eta();
  
  Float_t phi0 = fMCDaughMom1.Phi();
  Float_t phi1 = fMCDaughMom2.Phi();

// if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//  {
//    printf("MC pi0 label %d E  %2.2f, eta %2.2f, phi %2.2f, mass (ph1, ph2) %2.2f: \n \t photon0 label %d E %2.2f, eta %2.2f, phi %2.2f \n \t photon1 label %d E %2.2f eta %2.2f, phi %2.2f\n",
//           label , fPrimaryMom.E()    , fPrimaryMom.Eta(),fPrimaryMom.Phi()*TMath::RadToDeg(), (fMCDaughMom1+fMCDaughMom2).M(),
//           label0, fMCDaughMom1.E(),          eta0,         phi0*TMath::RadToDeg(),
//           label1, fMCDaughMom2.E(),          eta1,         phi1*TMath::RadToDeg());
//    
//    TLorentzVector momclus;
//    cluster->GetMomentum(momclus,GetVertex(0));
//    printf("Cluster E %2.2F eta %2.2f, phi %2.2f, dist to bad %2.2f\n",momclus.E(),momclus.Eta(),momclus.Phi()*TMath::RadToDeg(), cluster->GetDistanceToBadChannel());
//  }
  
  if(phi0 < 0 ) phi0+=TMath::TwoPi();
  if(phi1 < 0 ) phi1+=TMath::TwoPi();
  
  Int_t absId0=-1, absId1=-1;
  GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta0, phi0, absId0);
  GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta1, phi1, absId1);
  
  if(absId0 < 0 || absId1 < 0)
  {
    //printf("AliAnaInsideClusterInvariantMass::CheckLocalMaximaMCOrigin(() -  Photon hit AbsId: photon0 %d - photon1 %d\n",absId0,absId1);
    return;
  }
  
  //-----------------------------------------------
  // Check that the 2 photons hit the Local Maxima
  //-----------------------------------------------
  
  
// if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//  {
//    printf("Photons AbsId (%d,%d); Local Maxima AbsId(%d,%d)\n",absId0,absId1,list[imax],list[imax2]);
//    printf("Photon1 (eta,phi)=(%f,%f); Photon2 (eta,phi)=(%f,%f);\n",eta0,phi0*TMath::RadToDeg(),eta1,phi1*TMath::RadToDeg());
//
//    Int_t ieta0=-1; Int_t iphi0 = 0; Int_t rcu0 = 0;
//    Int_t sm0 = GetModuleNumberCellIndexes(absId0,GetCalorimeter(), ieta0, iphi0, rcu0);
//    Int_t ieta1=-1; Int_t iphi1 = 0; Int_t rcu1 = 0;
//    Int_t sm1 = GetModuleNumberCellIndexes(absId1,GetCalorimeter(), ieta1, iphi1, rcu1);
//    
//    printf("Photon1 (id,sm,eta,phi)=(%d,%d,%d,%d), Photon2 (id,sm,eta,phi)=(%d,%d,%d,%d)\n",
//           absId0,sm0,ieta0,iphi0,absId1,sm1,ieta1,iphi1);
//    
//    Int_t ietam0=-1; Int_t iphim0 = 0; Int_t rcum0 = 0; Int_t smm0 = -1 ;
//    if(imax  >= 0) smm0 = GetModuleNumberCellIndexes(list[imax] ,GetCalorimeter(), ietam0, iphim0, rcum0);
//    Int_t ietam1=-1; Int_t iphim1 = 0; Int_t rcum1 = 0; Int_t smm1 = -1 ;
//    if(imax2 >= 0) smm1 = GetModuleNumberCellIndexes(list[imax2],GetCalorimeter(), ietam1, iphim1, rcum1);
//    
//    printf("Max (id, sm,eta,phi)=(%d,%d,%d,%d), Max2 (id, sm,eta,phi)=(%d,%d,%d,%d)\n",
//           list[imax],smm0,ietam0,iphim0,list[imax2],smm1,ietam1,iphim1);
//  }

  Int_t inlm = nMax-1;
  if(inlm > 2) inlm = 2;
  
  Bool_t match0  = kFALSE;
  Bool_t match1  = kFALSE;
  Int_t imatch0  = -1;
  Int_t imatch1  = -1;
  if(imax >= 0 && imax2 >=0 && absId0 > 0 && absId1 > 0 )
  {
    if     (absId0 == list[imax] ) { match0 = kTRUE ; imatch0 = imax  ; }
    else if(absId0 == list[imax2]) { match0 = kTRUE ; imatch0 = imax2 ; }
    
    if     (absId1 == list[imax] ) { match1 = kTRUE ; imatch1 = imax  ; }
    else if(absId1 == list[imax2]) { match1 = kTRUE ; imatch1 = imax2 ; }
  }
  
  //printf("primary imatch0 %d, imatch1 %d\n",imatch0,imatch1);

  // If one or the 2 not matched, check with the other MC labels
  // only in case there was a conversion
  
  Int_t   absId0second  = -1;
  Int_t   absId1second  = -1;
  Int_t   secLabel0     = -1;
  Int_t   secLabel1     = -1;
  Int_t   mcLabel0      = -1;
  Int_t   mcLabel1      = -1;
  Bool_t  secOK         = 0;
  Int_t   secpdg        = -999999;
  Int_t   secstatus     = -1;
  Int_t   secgrandLabel = -1;

  if(match0) { secLabel0 = label0 ; mcLabel0 = label0 ; }
  if(match1) { secLabel1 = label1 ; mcLabel1 = label1 ; }
  
  if((!match0 || !match1) && mcindex == kmcPi0Conv)
  {
    for (UInt_t ilab = 0; ilab < cluster->GetNLabels(); ilab++ )
    {
      Int_t mclabel = cluster->GetLabels()[ilab];
      
      //printf("Check label %d - %d\n",ilab,mclabel);
      
      if(mclabel == label0 || mclabel == label1)
      {
        //printf("continue: secLabel %d, label0 %d, label1 %d\n",mclabel,label0,label1);
        if(mclabel == label0 && secLabel0 < 0) { secLabel0 = label0 ; mcLabel0 = label0 ; }
        if(mclabel == label1 && secLabel1 < 0) { secLabel1 = label1 ; mcLabel1 = label1 ; }
        continue ;
      }
      
      //printf("Before while: secLabel0 %d, secLabel1 %d\n",secLabel0,secLabel1);
      
      // match mc label and parent photon
      Int_t tmplabel   = mclabel;
      while((secLabel0 < 0 || secLabel1 < 0) && tmplabel > 0 )
      {
        fPrimaryMom = GetMCAnalysisUtils()->GetMother(tmplabel,GetReader(),secpdg,secstatus,secOK,secgrandLabel);
        
        //printf("\t \t while secLabel %d, mom %d, granmom %d\n",mclabel,tmplabel,secgrandLabel);
        
        if((secgrandLabel == label0) || (secgrandLabel == label1 ))
        {
          //printf("mcMatch! grand label %d, secLabel %d\n",secgrandLabel, mclabel);
          if(!match0 && mcLabel1 != secgrandLabel) { secLabel0 = mclabel; mcLabel0 = secgrandLabel; }
          if(!match1 && mcLabel0 != secgrandLabel) { secLabel1 = mclabel; mcLabel1 = secgrandLabel; }
        }
        
        //printf("\t GrandMother %d, secLabel0 %d, secLabel1 %d \n",secgrandLabel, secLabel0,secLabel1);

        tmplabel = secgrandLabel;
      }
    }
    
    // Get the position of the found secondaries mother
    if(!match0 && secLabel0 > 0)
    {
      fPrimaryMom = GetMCAnalysisUtils()->GetMother(secLabel0,GetReader(),secpdg,secstatus,secOK,secgrandLabel);
      
      //Float_t eta = fPrimaryMom.Eta();
      //Float_t phi = fPrimaryMom.Phi();
      //if(phi < 0 ) phi+=TMath::TwoPi();
      //GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta, phi, absId0second);
      
      //printf("Secondary MC0 label %d, absId %d E %2.2F eta %2.2f, phi %f\n", secLabel0,absId0second, fPrimaryMom.E(),fPrimaryMom.Eta(),fPrimaryMom.Phi()*TMath::RadToDeg());
      
      if(absId0second == list[imax] ) { match0 = kTRUE ; imatch0 = imax  ; }
      if(absId0second == list[imax2]) { match0 = kTRUE ; imatch0 = imax2 ; }
    }

    if(!match1 && secLabel1 > 0)
    {
      fPrimaryMom = GetMCAnalysisUtils()->GetMother(secLabel1,GetReader(),secpdg,secstatus,secOK,secgrandLabel);
      
      //Float_t eta = fPrimaryMom.Eta();
      //Float_t phi = fPrimaryMom.Phi();
      //if(phi < 0 ) phi+=TMath::TwoPi();
      //GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta, phi, absId1second);
      
      //printf("Secondary MC1 label %d absId %d E %2.2F eta %2.2f, phi %f\n",secLabel1, absId1second, fPrimaryMom.E(),fPrimaryMom.Eta(),fPrimaryMom.Phi()*TMath::RadToDeg());
      
      if(absId1second == list[imax] ) { match1 = kTRUE ; imatch1 = imax  ; }
      if(absId1second == list[imax2]) { match1 = kTRUE ; imatch1 = imax2 ; }
    }

    //printf("secondary label mc0 %d, mc1 %d, imatch0 %d, imatch1 %d\n",secLabel0,secLabel1,imatch0,imatch1);
    
  }
    
  //printf("imatch0 %d, imatch1 %d\n",imatch0,imatch1);
  if( match0 && match1 )
  {
//   if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//      printf("a) Both Photons hit local maxima \n");
    
    if(!noverlaps)
    {
      fhMCPi0DecayPhotonHitHighLM          ->Fill(en,nMax);
      fhMCPi0DecayPhotonHitHighLMMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    else
    {
      fhMCPi0DecayPhotonHitHighLMOverlap          ->Fill(en,nMax);
      fhMCPi0DecayPhotonHitHighLMOverlapMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax )
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }

    }
    
    return ;
  }
  
  //printf("Any match? photon0 %d, photon1 %d\n",match0,match1);
  //if(!match0 && !match1) printf("WARNING, LM not matched to any photon decay!\n");
  
  //---------------------------------------------
  // Check the adjacent cells to the local maxima
  //---------------------------------------------
  
  if(!match0)
  {
    if(imatch1!=imax  && GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId0,list[imax]))   { match0 = kTRUE; imatch0 = imax  ; }
    //printf("imax - match0? (%d-%d)=%d, (%d-%d)=%d\n",ieta0,ietam0,ieta0-ietam0, iphi0,iphim0,iphi0-iphim0);
    if(imatch1!=imax2 && GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId0,list[imax2]) ) { match0 = kTRUE; imatch0 = imax2 ; }
    //printf("imax2 - match0? (%d-%d)=%d, (%d-%d)=%d\n",ieta0,ietam1,ieta0-ietam1, iphi0,iphim1,iphi0-iphim1);
  }
  
  if(!match1)
  {
    if(imatch0!=imax  && GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId1,list[imax]) ) { match1 = kTRUE; imatch1 = imax  ; }
    //printf("imax - match1? (%d-%d)=%d, (%d-%d)=%d\n",ieta1,ietam0,ieta1-ietam0, iphi1,iphim0,iphi1-iphim0);
  
    if(imatch0!=imax2 && GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId1,list[imax2])) { match1 = kTRUE; imatch1 = imax2 ; }
    //printf("imax2 - match1? (%d-%d)=%d, (%d-%d)=%d\n",ieta1,ietam1,ieta1-ietam1, iphi1,iphim1,iphi1-iphim1);
  }
    
  //printf("Local Maxima: adjacent0 %d,adjacent1 %d \n",match0,match1);
  
  if(match0 && match1)
  {
//   if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//      printf("b) Both Photons hit local maxima or cell adjacent or 2 cells adjacent \n");
    
    if(!noverlaps)
    {
      fhMCPi0DecayPhotonAdjHighLM          ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjHighLMMass[inlm]->Fill(en,mass);

      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    else
    {
      fhMCPi0DecayPhotonAdjHighLMOverlap          ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjHighLMOverlapMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    
    return;
  }
  
  // Decay photon cells are adjacent?
  
  if( (match0 || match1) && GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId0,absId1) )
  {
//   if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//      printf("c) Both Photons hit a local maxima and in adjacent cells \n");
    if(!noverlaps)
    {
      fhMCPi0DecayPhotonAdjacent          ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjacentMass[inlm]->Fill(en,mass);
    }
    else
    {
      fhMCPi0DecayPhotonAdjacentOverlap          ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjacentOverlapMass[inlm]->Fill(en,mass);
    }
    
    return;
  }
  
  //--------------------
  // Other Local maxima
  //--------------------
  
  Bool_t matchMCHitOtherLM = kFALSE;
  if(!match1)
  {
    for(Int_t i = 0; i < nmaxima; i++)
    {
      if(imax!=i && imax2!=i && absId1 == list[i]) { match1 = kTRUE; matchMCHitOtherLM = kTRUE; }
    }
  }
  
  if(!match0)
  {
    for(Int_t i = 0; i < nmaxima; i++)
    {
      if(imax!=i && imax2!=i && absId0 == list[i]) { match0 = kTRUE; matchMCHitOtherLM = kTRUE; }
    }
  }
  
  if(matchMCHitOtherLM)
  {
//   if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//      printf("d) One Photon hits a local maxima, the other another not high \n");
    
    if(!noverlaps)
    {
      fhMCPi0DecayPhotonHitOtherLM          ->Fill(en,nMax);
      fhMCPi0DecayPhotonHitOtherLMMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    else
    {
      fhMCPi0DecayPhotonHitOtherLMOverlap   ->Fill(en,nMax);
      fhMCPi0DecayPhotonHitOtherLMMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    
    return ;
  }
  
  // Adjacent to other maxima
  
  Bool_t adjacentOther1 = kFALSE;
  if(match0)
  {
    for(Int_t i = 0; i < nmaxima; i++)
    {
      Int_t ieta=-1; Int_t iphi = 0; Int_t rcu = 0;
      GetModuleNumberCellIndexes(list[i] ,GetCalorimeter(), ieta, iphi, rcu);
      
      //printf(" Other Max (eta,phi)=(%d,%d)\n",ieta,iphi);
      
      if(GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId1,list[i]) ) adjacentOther1 = kTRUE;
      
      //printf("Other Maxima: adjacentOther1 %d\n",adjacentOther1);
    }
  }
  
  Bool_t adjacentOther0 = kFALSE;
  if(match1)
  {
    for(Int_t i = 0; i < nmaxima; i++)
    {
      Int_t ieta=-1; Int_t iphi = 0; Int_t rcu = 0;
      GetModuleNumberCellIndexes(list[i] ,GetCalorimeter(), ieta, iphi, rcu);
      
      //printf(" Other Max (eta,phi)=(%d,%d)\n",ieta,iphi);
      
      if(GetCaloUtils()->AreNeighbours(GetCalorimeter(),absId0,list[i]) ) adjacentOther0 = kTRUE;
      
      //printf("Other Maxima: adjacentOther0 %d\n",adjacentOther0);
    }
  }
  
  if((match0 && adjacentOther1) || (match1 && adjacentOther0))
  {
    
//   if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//      printf("e) One Photon hits a local maxima, the other another not high, adjacent \n");
    
    if(!noverlaps)
    {
      fhMCPi0DecayPhotonAdjOtherLM       ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjOtherLMMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    else
    {
      fhMCPi0DecayPhotonAdjOtherLMOverlap          ->Fill(en,nMax);
      fhMCPi0DecayPhotonAdjOtherLMOverlapMass[inlm]->Fill(en,mass);
      if(match0 && imatch0 == imax)
      {
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom1.E())/fMCDaughMom1.E());
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom2.E())/fMCDaughMom2.E());
      }
      else
      {
        if(fMCDaughMom2.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-fMCDaughMom2.E())/fMCDaughMom2.E());
        if(fMCDaughMom1.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-fMCDaughMom1.E())/fMCDaughMom1.E());
      }
    }
    
    return;
  }
  
// if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0)
//    printf("f) No hit found \n");
  if(!noverlaps)
  {
    fhMCPi0DecayPhotonHitNoLM          ->Fill(en,nMax);
    fhMCPi0DecayPhotonHitNoLMMass[inlm]->Fill(en,mass);
  }
  else
  {
    fhMCPi0DecayPhotonHitNoLMOverlap          ->Fill(en,nMax);
    fhMCPi0DecayPhotonHitNoLMOverlapMass[inlm]->Fill(en,mass);
  }
  
}

//___________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillAngleHistograms(Int_t   nMax,      Bool_t  matched, Int_t mcIndex,
                                                           Float_t en,        Float_t e1,      Float_t e2,
                                                           Float_t angle,     Float_t mass,
                                                           Float_t anglePrim, Float_t m02,
                                                           Float_t asym,      Int_t   pid,     Int_t noverlaps)
{
  // Fill histograms related to opening angle
  
  Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax);
  Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax);
  Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn();
  Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn();

  Bool_t eCutOK= kFALSE;
  Int_t inlm = nMax-1;
  if(inlm > 2 ) inlm = 2;
  Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm);
  if     (ensubcut > 0.1 && ensubcut < e1 && ensubcut < e2 ) eCutOK = kTRUE;
  else if(ensubcut < 0.1)                                    eCutOK = kTRUE;

  if     (nMax==1)
  {
    fhAnglePairNLocMax1[0][matched]->Fill(en,angle);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhAnglePairAfterCutsNLocMax1[0][matched]->Fill(en,angle);
    if(pid==AliCaloPID::kPi0)
      fhAnglePairPi0NLocMax1[0][matched]->Fill(en,angle);
    
    if(m02 > 0)
    {
      fhAnglePairOverM02NLocMax1[0][matched]->Fill(en,angle/m02);
      if(noverlaps == 0) fhAnglePairOverM02NLocMax1Overlap0[0][matched]->Fill(en,angle/m02);
    }
    
    if( en > 15 )
    {
      fhAnglePairMassNLocMax1[0][matched]->Fill(mass,angle);
      fhAnglePairM02NLocMax1 [0][matched]->Fill(m02 ,angle);
    }
  }
  else if(nMax==2)
  {
    fhAnglePairNLocMax2[0][matched]->Fill(en,angle);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhAnglePairAfterCutsNLocMax2[0][matched]->Fill(en,angle);
    if(pid==AliCaloPID::kPi0)
      fhAnglePairPi0NLocMax2[0][matched]->Fill(en,angle);
    
    if(m02 > 0)
    {
      fhAnglePairOverM02NLocMax2[0][matched]->Fill(en,angle/m02);
      if(noverlaps == 0) fhAnglePairOverM02NLocMax2Overlap0[0][matched]->Fill(angle/m02,en);
    }
    
    if( en > fHistoECut )
    {
      fhAnglePairMassNLocMax2[0][matched]->Fill(mass,angle);
      fhAnglePairM02NLocMax2 [0][matched]->Fill(m02,angle);
    }
  }
  else if(nMax >2)
  {
    fhAnglePairNLocMaxN[0][matched]->Fill(en,angle);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhAnglePairAfterCutsNLocMaxN[0][matched]->Fill(en,angle);
    if(pid==AliCaloPID::kPi0)
      fhAnglePairPi0NLocMaxN[0][matched]->Fill(en,angle);
    
    if(m02 > 0)
    {
      fhAnglePairOverM02NLocMaxN[0][matched]->Fill(en,angle/m02);
      if(noverlaps == 0) fhAnglePairOverM02NLocMaxNOverlap0[0][matched]->Fill(angle/m02,en);
    }
    
    if( en > fHistoECut )
    {
      fhAnglePairMassNLocMaxN[0][matched]->Fill(mass,angle);
      fhAnglePairM02NLocMaxN [0][matched]->Fill(m02,angle);
    }
  }
  
  if(IsDataMC() && mcIndex >  0 && mcIndex < 7)
  {
    if     (nMax==1)
    {
      fhAnglePairNLocMax1[mcIndex][matched]->Fill(en,angle);
      if( en > 15 )
      {
        fhAnglePairMassNLocMax1[mcIndex][matched]->Fill(mass,angle);
        fhAnglePairM02NLocMax1 [mcIndex][matched]->Fill(m02,angle);
      }
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhAnglePairAfterCutsNLocMax1[mcIndex][matched]->Fill(en,angle);
      if(pid==AliCaloPID::kPi0)
         fhAnglePairPi0NLocMax1[mcIndex][matched]->Fill(en,angle);
      
      if(m02 > 0)
      {
        fhAnglePairOverM02NLocMax1[mcIndex][matched]->Fill(en,angle/m02);
        if(noverlaps == 0) fhAnglePairOverM02NLocMax1Overlap0[mcIndex][matched]->Fill(angle/m02,en);
      }
      
      if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0)
      {
        fhAnglePairPrimPi0RecoNLocMax1->Fill(en,angle/anglePrim);
        if(m02>0)fhAnglePairPrimPi0OverM02NLocMax1->Fill(en,anglePrim/m02);
        if(en > 15) fhAnglePairPrimPi0vsRecoNLocMax1->Fill(anglePrim,angle);

      }
    }
    else if(nMax==2)
    {
      fhAnglePairNLocMax2[mcIndex][matched]->Fill(en,angle);
      if( en > fHistoECut )
      {
        fhAnglePairMassNLocMax2[mcIndex][matched]->Fill(mass,angle);
        fhAnglePairM02NLocMax2 [mcIndex][matched]->Fill(m02 ,angle);
      }
      
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhAnglePairAfterCutsNLocMax2[mcIndex][matched]->Fill(en,angle);
      if(pid==AliCaloPID::kPi0)
        fhAnglePairPi0NLocMax2[mcIndex][matched]->Fill(en,angle);
      
      if(m02 > 0)
      {
        fhAnglePairOverM02NLocMax2[mcIndex][matched]->Fill(en,angle/m02);
        if(noverlaps == 0) fhAnglePairOverM02NLocMax2Overlap0[mcIndex][matched]->Fill(angle/m02,en);
      }
      
      if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0)
      {
        fhAnglePairPrimPi0RecoNLocMax2->Fill(en,angle/anglePrim);
        if(m02>0)fhAnglePairPrimPi0OverM02NLocMax2->Fill(en,anglePrim/m02);
        if(en > 10) fhAnglePairPrimPi0vsRecoNLocMax2->Fill(anglePrim,angle);
      }
    }
    else if(nMax >2)
    {
      fhAnglePairNLocMaxN[mcIndex][matched]->Fill(en,angle);
      if( en > fHistoECut )
      {
        fhAnglePairMassNLocMaxN[mcIndex][matched]->Fill(mass,angle);
        fhAnglePairM02NLocMaxN [mcIndex][matched]->Fill(m02 ,angle);
      }
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhAnglePairAfterCutsNLocMaxN[mcIndex][matched]->Fill(en,angle);
      if(pid==AliCaloPID::kPi0)
        fhAnglePairPi0NLocMaxN[mcIndex][matched]->Fill(en,angle);
      
      if(m02 > 0)
      {
        fhAnglePairOverM02NLocMaxN[mcIndex][matched]->Fill(en,angle/m02);
        if(noverlaps == 0) fhAnglePairOverM02NLocMaxNOverlap0[mcIndex][matched]->Fill(angle/m02,en);
      }
      
      if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0)
      {
        fhAnglePairPrimPi0RecoNLocMaxN->Fill(en,angle/anglePrim);
        if(m02>0)fhAnglePairPrimPi0OverM02NLocMaxN->Fill(en,anglePrim/m02);
        if(en > 10) fhAnglePairPrimPi0vsRecoNLocMaxN->Fill(anglePrim,angle);
      }
    }
    
  }
  
}

//______________________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillArmenterosHistograms(Int_t nMax, Int_t ebin, Int_t mcIndex,
                                                                Float_t en, Float_t m02, Int_t pid)
{
  // Fill Armeteros type histograms
  
  // Get pTArm and AlphaArm
  fSubClusterMomSum = fSubClusterMom1+fSubClusterMom2;
  Float_t momentumSquaredMother = fSubClusterMomSum.P()*fSubClusterMomSum.P();
  Float_t momentumDaughter1AlongMother = 0.;
  Float_t momentumDaughter2AlongMother = 0.;

  if (momentumSquaredMother > 0.)
  {
    momentumDaughter1AlongMother = (fSubClusterMom1.Px()*fSubClusterMomSum.Px() + fSubClusterMom1.Py()*fSubClusterMomSum.Py()+ fSubClusterMom1.Pz()*fSubClusterMomSum.Pz()) / sqrt(momentumSquaredMother);
    momentumDaughter2AlongMother = (fSubClusterMom2.Px()*fSubClusterMomSum.Px() + fSubClusterMom2.Py()*fSubClusterMomSum.Py()+ fSubClusterMom2.Pz()*fSubClusterMomSum.Pz()) / sqrt(momentumSquaredMother);
  }

  Float_t momentumSquaredDaughter1 = fSubClusterMom1.P()*fSubClusterMom1.P();
  Float_t ptArmSquared = momentumSquaredDaughter1 - momentumDaughter1AlongMother*momentumDaughter1AlongMother;
  
  Float_t pTArm = 0.;
  if (ptArmSquared > 0.)
    pTArm = sqrt(ptArmSquared);
  
  Float_t alphaArm = 0.;
  if(momentumDaughter1AlongMother +momentumDaughter2AlongMother > 0)
    alphaArm = (momentumDaughter1AlongMother -momentumDaughter2AlongMother) / (momentumDaughter1AlongMother + momentumDaughter2AlongMother);
  
  Float_t asym = TMath::Abs( fSubClusterMom1.Energy()-fSubClusterMom2.Energy() )/( fSubClusterMom1.Energy()+fSubClusterMom2.Energy() ) ;
  
  AliDebug(2,Form("E %f, alphaArm %f, pTArm %f",en,alphaArm,pTArm));
  
  Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax);
  Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax);
  Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn();
  Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn();
  
  Bool_t eCutOK= kFALSE;
  Int_t inlm = nMax-1;
  if(inlm > 2 ) inlm = 2;
  Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm);
  if     (ensubcut > 0.1 && ensubcut < fSubClusterMom1.E() && ensubcut < fSubClusterMom2.E() ) eCutOK = kTRUE;
  else if(ensubcut < 0.1)                                            eCutOK = kTRUE;

  
  if     (nMax==1)
  {
    fhArmNLocMax1[0][ebin]->Fill(alphaArm,pTArm);
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhArmAfterCutsNLocMax1[0][ebin]->Fill(alphaArm,pTArm);
    if(pid==AliCaloPID::kPi0)
      fhArmPi0NLocMax1[0][ebin]->Fill(alphaArm,pTArm);
  }
  else if(nMax==2)
  {
    fhArmNLocMax2[0][ebin]->Fill(alphaArm,pTArm);
    if((m02OK && asyOK) && (asyOn || m02On))
      fhArmAfterCutsNLocMax2[0][ebin]->Fill(alphaArm,pTArm);
    if(pid==AliCaloPID::kPi0)
      fhArmPi0NLocMax2[0][ebin]->Fill(alphaArm,pTArm);
  }
  else if(nMax >2)
  {
    fhArmNLocMaxN[0][ebin]->Fill(alphaArm,pTArm);
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhArmAfterCutsNLocMaxN[0][ebin]->Fill(alphaArm,pTArm);
    if(pid==AliCaloPID::kPi0)
      fhArmPi0NLocMaxN[0][ebin]->Fill(alphaArm,pTArm);
  }

  if(IsDataMC() && mcIndex >  0 && mcIndex < 7)
  {
    if     (nMax==1)
    {
      fhArmNLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhArmAfterCutsNLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if(pid==AliCaloPID::kPi0)
        fhArmPi0NLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm);
    }
    else if(nMax==2)
    {
      fhArmNLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhArmAfterCutsNLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if(pid==AliCaloPID::kPi0)
        fhArmPi0NLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm);
    }
    else if(nMax >2)
    {
      fhArmNLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhArmAfterCutsNLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm);
      if(pid==AliCaloPID::kPi0)
        fhArmPi0NLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm);
    }  
  
  }
  
}

//______________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillThetaStarHistograms(Int_t nMax, Bool_t matched, Int_t mcIndex,
                                                               Float_t en, Float_t m02, Int_t pid)
{
  // Fill cos Theta^star histograms

  
  // Get cos Theta^star
  fSubClusterMomSum = fSubClusterMom1+fSubClusterMom2;
  fSubClusterMomBoost = fSubClusterMom1;
  fSubClusterMomBoost.Boost(-fSubClusterMomSum.BoostVector());
  Float_t  cosThStar=TMath::Cos(fSubClusterMomBoost.Vect().Angle(fSubClusterMomSum.Vect()));
  
  Float_t asym = TMath::Abs( fSubClusterMom1.Energy()-fSubClusterMom2.Energy() )/( fSubClusterMom1.Energy()+fSubClusterMom2.Energy() ) ;

  Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax);
  Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax);
  Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn();
  Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn();
  
  Bool_t eCutOK= kFALSE;
  Int_t inlm = nMax-1;
  if(inlm > 2 ) inlm = 2;
  Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm);
  if     (ensubcut > 0.1 && ensubcut < fSubClusterMom1.E() && ensubcut < fSubClusterMom2.E() ) eCutOK = kTRUE;
  else if(ensubcut < 0.1)                                            eCutOK = kTRUE;

  //printf("Reco cos %f, asy %f\n",cosThStar,asym);
  
  if     (nMax==1)
  {
    fhCosThStarNLocMax1[0][matched]->Fill(en,cosThStar);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhCosThStarAfterCutsNLocMax1[0][matched]->Fill(en,cosThStar);
    if(pid==AliCaloPID::kPi0)
      fhCosThStarPi0NLocMax1[0][matched]->Fill(en,cosThStar);
  }
  else if(nMax==2)
  {
    fhCosThStarNLocMax2[0][matched]->Fill(en,cosThStar);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhCosThStarAfterCutsNLocMax2[0][matched]->Fill(en,cosThStar);
    if(pid==AliCaloPID::kPi0)
      fhCosThStarPi0NLocMax2[0][matched]->Fill(en,cosThStar);
  }
  else if(nMax >2)
  {
    fhCosThStarNLocMaxN[0][matched]->Fill(en,cosThStar);
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      fhCosThStarAfterCutsNLocMaxN[0][matched]->Fill(en,cosThStar);
    if(pid==AliCaloPID::kPi0)
      fhCosThStarPi0NLocMaxN[0][matched]->Fill(en,cosThStar);
  }
  
  if(IsDataMC() && mcIndex >  0 && mcIndex < 7)
  {
    if     (nMax==1)
    {
      fhCosThStarNLocMax1[mcIndex][matched]->Fill(en,cosThStar);
      
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhCosThStarAfterCutsNLocMax1[mcIndex][matched]->Fill(en,cosThStar);
      if(pid==AliCaloPID::kPi0)
        fhCosThStarPi0NLocMax1[mcIndex][matched]->Fill(en,cosThStar);
    }
    else if(nMax==2)
    {
      fhCosThStarNLocMax2[mcIndex][matched]->Fill(en,cosThStar);
      
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhCosThStarAfterCutsNLocMax2[mcIndex][matched]->Fill(en,cosThStar);
      if(pid==AliCaloPID::kPi0)
        fhCosThStarPi0NLocMax2[mcIndex][matched]->Fill(en,cosThStar);
    }
    else if(nMax >2)
    {
      fhCosThStarNLocMaxN[mcIndex][matched]->Fill(en,cosThStar);
      
      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
        fhCosThStarAfterCutsNLocMaxN[mcIndex][matched]->Fill(en,cosThStar);
      if(pid==AliCaloPID::kPi0)
        fhCosThStarPi0NLocMaxN[mcIndex][matched]->Fill(en,cosThStar);
    }
    
  }

}

//__________________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillEBinHistograms(Int_t   ebin     , Int_t   nMax, Int_t mcindex,
                                                          Float_t splitFrac, Float_t mass, Float_t asym, Float_t l0)
{
  // Fill some histograms integrating in few energy bins
    
  if     (nMax==1)
  {
    fhMassSplitEFractionNLocMax1Ebin[0][ebin]->Fill(splitFrac,  mass);
    if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMax1Ebin[mcindex][ebin]->Fill(splitFrac,  mass);
    
    fhMassM02NLocMax1Ebin    [ebin]->Fill(l0  ,  mass );
    fhMassAsyNLocMax1Ebin    [ebin]->Fill(asym,  mass );
  }
  else if(nMax==2)
  {
    fhMassSplitEFractionNLocMax2Ebin[0][ebin]->Fill(splitFrac,  mass);
    if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMax2Ebin[mcindex][ebin]->Fill(splitFrac,  mass);
    
    fhMassM02NLocMax2Ebin    [ebin]->Fill(l0  ,  mass );
    fhMassAsyNLocMax2Ebin    [ebin]->Fill(asym,  mass );
  }
  else if(nMax > 2 )
  {
    fhMassSplitEFractionNLocMaxNEbin[0][ebin]->Fill(splitFrac,  mass);
    if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMaxNEbin[mcindex][ebin]->Fill(splitFrac,  mass);
    
    fhMassM02NLocMaxNEbin    [ebin]->Fill(l0  ,  mass );
    fhMassAsyNLocMaxNEbin    [ebin]->Fill(asym,  mass );
  }
  
}

//________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillHistograms1(Float_t en,     Float_t e1,     Float_t e2,
                                                       Int_t nMax,     Float_t mass,   Float_t l0,
                                                       Float_t eta,    Float_t phi,
                                                       Bool_t matched, Int_t mcindex)
{
  // Fill histograms for clusters before any selection after spliting
  
  Float_t splitFrac = (e1+e2)/en;
  
  Float_t asym = -10;
  if(e1+e2>0) asym = (e1-e2)/(e1+e2);
  
  fhNLocMax   [0][matched]->Fill(en,nMax);
  fhLM1NLocMax[0][matched]->Fill(e1,nMax);
  fhLM2NLocMax[0][matched]->Fill(e2,nMax);
  fhSplitClusterENLocMax[0][matched]->Fill(e1,nMax);
  fhSplitClusterENLocMax[0][matched]->Fill(e2,nMax);
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    fhNLocMax   [mcindex][matched]->Fill(en,nMax);
    fhLM1NLocMax[mcindex][matched]->Fill(e1,nMax);
    fhLM2NLocMax[mcindex][matched]->Fill(e2,nMax);
    fhSplitClusterENLocMax[mcindex][matched]->Fill(e1,nMax);
    fhSplitClusterENLocMax[mcindex][matched]->Fill(e2,nMax);
  }
  
  if     ( nMax == 1  )
  {
    fhM02NLocMax1[0][matched]->Fill(en,l0) ;
    fhSplitEFractionNLocMax1[0][matched]->Fill(en,splitFrac) ;
    
    if(IsDataMC() && mcindex > 0 && mcindex < 7)
    {
      fhM02NLocMax1[mcindex][matched]->Fill(en,l0) ;
      fhSplitEFractionNLocMax1[mcindex][matched]->Fill(en,splitFrac) ;
    }
    
    if(en > fHistoECut)
    {
      fhMassM02NLocMax1[0][matched]->Fill(l0, mass);
      if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMax1[mcindex][matched]->Fill(l0, mass);
      
      fhSplitEFractionvsAsyNLocMax1[matched]->Fill(asym,splitFrac) ;
      if(!matched)fhClusterEtaPhiNLocMax1->Fill(eta,phi);
    }
  }
  else if( nMax == 2  )
  {
    fhM02NLocMax2[0][matched]->Fill(en,l0) ;
    fhSplitEFractionNLocMax2[0][matched]->Fill(en,splitFrac) ;
    
    if(IsDataMC() && mcindex > 0 && mcindex < 7)
    {
      fhM02NLocMax2[mcindex][matched]->Fill(en,l0) ;
      fhSplitEFractionNLocMax2[mcindex][matched]->Fill(en,splitFrac) ;
    }
    
    if(en > fHistoECut)
    {
      fhMassM02NLocMax2[0][matched]->Fill(l0,  mass );
      if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMax2[mcindex][matched]->Fill(l0,mass);
      
      fhSplitEFractionvsAsyNLocMax2[matched]->Fill(asym,splitFrac) ;
      if(!matched)fhClusterEtaPhiNLocMax2->Fill(eta,phi);
    }
  }
  else if( nMax >= 3  )
  {
    fhM02NLocMaxN[0][matched]->Fill(en,l0) ;
    fhSplitEFractionNLocMaxN[0][matched]->Fill(en,splitFrac) ;
    
    if(IsDataMC() && mcindex > 0 && mcindex < 7)
    {
      fhM02NLocMaxN[mcindex][matched]->Fill(en,l0) ;
      fhSplitEFractionNLocMaxN[mcindex][matched]->Fill(en,splitFrac) ;
    }
    
    if(en > fHistoECut)
    {
      
      fhMassM02NLocMaxN[0][matched]->Fill(l0,mass);
      if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMaxN[mcindex][matched]->Fill(l0,mass);
      
      fhSplitEFractionvsAsyNLocMaxN[matched]->Fill(asym,splitFrac) ;
      if(!matched)fhClusterEtaPhiNLocMaxN->Fill(eta,phi);
    }
  }
  
  
}

//________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillHistograms2(Float_t en,     Float_t eprim,
                                                       Float_t e1,     Float_t e2,
                                                       Int_t nMax,     Float_t mass,   Float_t l0,
                                                       Bool_t matched, Int_t mcindex)
{
  // Fill histograms for clusters passing the first M02 selection
  
  Float_t efrac      = eprim/en;
  Float_t efracSplit = 0;
  if(e1+e2 > 0) efracSplit = eprim/(e1+e2);
  
  Float_t splitFrac = (e1+e2)/en;
  
  Float_t asym = -10;
  if(e1+e2>0) asym = (e1-e2)/(e1+e2);
  
  Int_t inlm = nMax-1;
  if(inlm > 2) inlm = 2;
  Float_t splitFracMin = GetCaloPID()->GetSplitEnergyFractionMinimum(inlm) ;
  
  Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,l0,nMax);
  Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax);
  Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn();
  Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn();
  
  Bool_t eCutOK = kFALSE;
  Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm);
  if     (ensubcut > 0.1 && ensubcut < e1 && ensubcut < e2 ) eCutOK = kTRUE;
  else if(ensubcut < 0.1)                                    eCutOK = kTRUE;

  //printf("splitFracMin %f, val %f, m02ok %d, asyok %d, m02On %d, asyOn %d, ecutOK %d\n",splitFracMin,splitFrac,m02OK,asyOK,m02On,asyOn,eCutOK);
  
  if(m02On && m02OK)
  {
    fhNLocMaxM02Cut   [0][matched]->Fill(en,nMax);
    fhLM1NLocMaxM02Cut[0][matched]->Fill(e1,nMax);
    fhLM2NLocMaxM02Cut[0][matched]->Fill(e2,nMax);
    if(IsDataMC() && mcindex > 0 && mcindex < 7)
    {
      fhNLocMaxM02Cut   [mcindex][matched]->Fill(en,nMax);
      fhLM1NLocMaxM02Cut[mcindex][matched]->Fill(e1,nMax);
      fhLM2NLocMaxM02Cut[mcindex][matched]->Fill(e2,nMax);
    }
  }
  
  if     (nMax==1)
  {
    fhMassNLocMax1[0][matched]->Fill(en,mass );
    fhAsymNLocMax1[0][matched]->Fill(en,asym );
    fhMassSplitENLocMax1[0][matched]->Fill(e1+e2,mass);
    
    // Effect of cuts in mass histograms

    if(!matched && asyOK && asyOn )
    {
      fhMassAsyCutNLocMax1->Fill(en,mass);
      fhM02AsyCutNLocMax1 ->Fill(en,l0 );
    }
    
    if(!matched && m02OK && m02On )
    {
      fhMassM02CutNLocMax1->Fill(en,mass);
      fhAsymM02CutNLocMax1->Fill(en,asym );
      if(splitFrac > splitFracMin && fhMassSplitECutNLocMax1) fhMassSplitECutNLocMax1->Fill(en,mass );
    } 
    
    if(!matched && eCutOK && ensubcut > 0.1)
    {
      fhMassEnCutNLocMax1->Fill(en,mass );
      fhM02EnCutNLocMax1 ->Fill(en,l0   );
      fhAsymEnCutNLocMax1->Fill(en,asym );
      fhSplitEFracEnCutNLocMax1->Fill(en,splitFrac );
    }
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
    {
      fhSplitEFractionAfterCutsNLocMax1[0][matched]->Fill(en,splitFrac);
      if(splitFrac > splitFracMin)
      {
        fhMassAfterCutsNLocMax1[0][matched]->Fill(en,mass);
        fhMassSplitEAfterCutsNLocMax1[0][matched]->Fill(e1+e2,mass);
      }
      if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0)
      {
        fhMCGenFracAfterCutsNLocMax1MCPi0      ->Fill(en   ,  efrac     );
        fhMCGenSplitEFracAfterCutsNLocMax1MCPi0->Fill(en   ,  efracSplit);
      }
    }
  }
  else if( nMax == 2 )
  {
    fhMassNLocMax2[0][matched]->Fill(en,mass );
    fhAsymNLocMax2[0][matched]->Fill(en,asym );
    fhMassSplitENLocMax2[0][matched]->Fill(e1+e2,mass);

    // Effect of cuts in mass histograms
    
    if(!matched && asyOK && asyOn )
    {
      fhMassAsyCutNLocMax2->Fill(en,mass);
      fhM02AsyCutNLocMax2 ->Fill(en,l0 );
    }
    
    if(!matched && m02OK && m02On )
    {
      fhMassM02CutNLocMax2->Fill(en,mass);
      fhAsymM02CutNLocMax2->Fill(en,asym );
      if(splitFrac > splitFracMin && fhMassSplitECutNLocMax2) fhMassSplitECutNLocMax2->Fill(en,mass );
    } 
    
    if(!matched && eCutOK && ensubcut > 0.1)
    {
      fhMassEnCutNLocMax2->Fill(en,mass );
      fhM02EnCutNLocMax2 ->Fill(en,l0   );
      fhAsymEnCutNLocMax2->Fill(en,asym );
      fhSplitEFracEnCutNLocMax2->Fill(en,splitFrac );
    }
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
    {
      fhSplitEFractionAfterCutsNLocMax2[0][matched]->Fill(en,splitFrac);
      if(splitFrac > splitFracMin)
      {
        fhMassAfterCutsNLocMax2[0][matched]->Fill(en,mass);
        fhMassSplitEAfterCutsNLocMax2[0][matched]->Fill(e1+e2,mass);
      }
      
      if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0)
      {
        fhMCGenFracAfterCutsNLocMax2MCPi0      ->Fill(en   ,  efrac     );
        fhMCGenSplitEFracAfterCutsNLocMax2MCPi0->Fill(en   ,  efracSplit);
      }
    }
  }
  else if( nMax > 2 )
  {
    fhMassNLocMaxN[0][matched]->Fill(en,mass);
    fhAsymNLocMaxN[0][matched]->Fill(en,asym);
    fhMassSplitENLocMaxN[0][matched]->Fill(e1+e2,mass);

    // Effect of cuts in mass histograms
    
    if(!matched && asyOK && asyOn )
    {
      fhMassAsyCutNLocMaxN->Fill(en,mass);
      fhM02AsyCutNLocMaxN ->Fill(en,l0 );
    }
    
    if(!matched && m02OK && m02On )
    {
      fhMassM02CutNLocMaxN->Fill(en,mass);
      fhAsymM02CutNLocMaxN->Fill(en,asym );
      if(splitFrac > splitFracMin && fhMassSplitECutNLocMaxN) fhMassSplitECutNLocMaxN->Fill(en,mass );
    } 
    
    if(!matched && eCutOK && ensubcut > 0.1 )
    {
      fhMassEnCutNLocMaxN->Fill(en,mass );
      fhM02EnCutNLocMaxN ->Fill(en,l0   );
      fhAsymEnCutNLocMaxN->Fill(en,asym );
      fhSplitEFracEnCutNLocMaxN->Fill(en,splitFrac );
    }
    
    if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
    {
      fhSplitEFractionAfterCutsNLocMaxN[0][matched]->Fill(en,splitFrac);
      if(splitFrac > splitFracMin)
      {
        fhMassAfterCutsNLocMaxN[0][matched]->Fill(en,mass);
        fhMassSplitEAfterCutsNLocMaxN[0][matched]->Fill(e1+e2,mass);
      }
      
      if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0)
      {
        fhMCGenFracAfterCutsNLocMaxNMCPi0      ->Fill(en   ,  efrac     );
        fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0->Fill(en   ,  efracSplit);
      }
    }
  }
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    if     (nMax==1)
    {
      fhMassNLocMax1[mcindex][matched]->Fill(en,mass);
      fhAsymNLocMax1[mcindex][matched]->Fill(en,asym);
      fhMassSplitENLocMax1[mcindex][matched]->Fill(e1+e2,mass);

      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      {
        fhSplitEFractionAfterCutsNLocMax1[mcindex][matched]->Fill(en,splitFrac);
        if(splitFrac > splitFracMin)
        {
          fhMassAfterCutsNLocMax1[mcindex][matched]->Fill(en,mass);
          fhMassSplitEAfterCutsNLocMax1[mcindex][matched]->Fill(e1+e2,mass);
        }
      }
    }
    else if(nMax==2)
    {
      fhMassNLocMax2[mcindex][matched]->Fill(en,mass);
      fhAsymNLocMax2[mcindex][matched]->Fill(en,asym);
      fhMassSplitENLocMax2[mcindex][matched]->Fill(e1+e2,mass);

      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      {
        fhSplitEFractionAfterCutsNLocMax2[mcindex][matched]->Fill(en,splitFrac);
        if(splitFrac > splitFracMin)
        {
          fhMassAfterCutsNLocMax2[mcindex][matched]->Fill(en,mass);
          fhMassSplitEAfterCutsNLocMax2[mcindex][matched]->Fill(e1+e2,mass);
        }

      }
    }
    else if(nMax >2)
    {
      fhMassNLocMaxN[mcindex][matched]->Fill(en,mass);
      fhAsymNLocMaxN[mcindex][matched]->Fill(en,asym);
      fhMassSplitENLocMaxN[mcindex][matched]->Fill(e1+e2,mass);

      if((m02OK && asyOK) && (asyOn || m02On) && eCutOK)
      {
        fhSplitEFractionAfterCutsNLocMaxN[mcindex][matched]->Fill(en,splitFrac);
        if(splitFrac > splitFracMin)
        {
          fhMassAfterCutsNLocMaxN[mcindex][matched]->Fill(en,mass);
          fhMassSplitEAfterCutsNLocMaxN[mcindex][matched]->Fill(e1+e2,mass);
        }
      }
    }
  }//Work with MC truth
}


//_________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillIdPi0Histograms(Float_t en,     Float_t e1,     Float_t e2,
                                                           Int_t nc,       Int_t nMax,     Float_t t12diff,
                                                           Float_t mass,   Float_t l0,
                                                           Float_t eta,    Float_t phi,
                                                           Bool_t matched, Int_t mcindex)
{
  // Fill histograms for clusters passing the pi0 selection
  
  Float_t asym = -10;
  if(e1+e2>0) asym = (e1-e2)/(e1+e2);
  
  fhNLocMaxIdPi0   [0][matched]->Fill(en,nMax);
  fhLM1NLocMaxIdPi0[0][matched]->Fill(e1,nMax);
  fhLM2NLocMaxIdPi0[0][matched]->Fill(e2,nMax);
  
  fhSplitClusterEPi0NLocMax[0][matched]->Fill(e1,nMax);
  fhSplitClusterEPi0NLocMax[0][matched]->Fill(e2,nMax);
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    fhSplitClusterEPi0NLocMax[mcindex][matched]->Fill(e1,nMax);
    fhSplitClusterEPi0NLocMax[mcindex][matched]->Fill(e2,nMax);
  }
  
  if     (nMax==1)
  {
    fhM02Pi0NLocMax1 [0][matched]->Fill(en,l0);
    fhMassPi0NLocMax1[0][matched]->Fill(en,mass);
    fhAsyPi0NLocMax1 [0][matched]->Fill(en,asym);
    fhMassSplitEPi0NLocMax1[0][matched]->Fill(e1+e2,mass);
    if(fFillNCellHisto) fhNCellPi0NLocMax1[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityPi0NLocMax1->Fill(en,GetEventCentrality()) ;
        fhEventPlanePi0NLocMax1->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhPi0EtaPhiNLocMax1->Fill(eta,phi);
      fhPi0EPairDiffTimeNLM1->Fill(e1+e2,t12diff);
    }
  }
  else if(nMax==2)
  {
    fhM02Pi0NLocMax2 [0][matched]->Fill(en,l0);
    fhMassPi0NLocMax2[0][matched]->Fill(en,mass);
    fhAsyPi0NLocMax2 [0][matched]->Fill(en,asym);
    fhMassSplitEPi0NLocMax2[0][matched]->Fill(e1+e2,mass);
    if(fFillNCellHisto) fhNCellPi0NLocMax2[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityPi0NLocMax2->Fill(en,GetEventCentrality()) ;
        fhEventPlanePi0NLocMax2->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhPi0EtaPhiNLocMax2->Fill(eta,phi);
      fhPi0EPairDiffTimeNLM2->Fill(e1+e2,t12diff);
    }
  }
  else if(nMax >2)
  {
    fhM02Pi0NLocMaxN [0][matched]->Fill(en,l0);
    fhMassPi0NLocMaxN[0][matched]->Fill(en,mass);
    fhAsyPi0NLocMaxN [0][matched]->Fill(en,asym);
    fhMassSplitEPi0NLocMaxN[0][matched]->Fill(e1+e2,mass);
    if(fFillNCellHisto) fhNCellPi0NLocMaxN[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityPi0NLocMaxN->Fill(en,GetEventCentrality()) ;
        fhEventPlanePi0NLocMaxN->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhPi0EtaPhiNLocMaxN->Fill(eta,phi);
      fhPi0EPairDiffTimeNLMN->Fill(e1+e2,t12diff);
    }
  }
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    fhNLocMaxIdPi0   [mcindex][matched]->Fill(en,nMax);
    fhLM1NLocMaxIdPi0[mcindex][matched]->Fill(e1,nMax);
    fhLM2NLocMaxIdPi0[mcindex][matched]->Fill(e2,nMax);
    
    if     (nMax==1)
    {
      fhM02Pi0NLocMax1 [mcindex][matched]->Fill(en,l0);
      fhMassPi0NLocMax1[mcindex][matched]->Fill(en,mass);
      fhAsyPi0NLocMax1 [mcindex][matched]->Fill(en,asym);
      fhMassSplitEPi0NLocMax1[mcindex][matched]->Fill(e1+e2,mass);
      if(fFillNCellHisto) fhNCellPi0NLocMax1[mcindex][matched]->Fill(en,nc);
      
    }
    else if(nMax==2)
    {
      fhM02Pi0NLocMax2 [mcindex][matched]->Fill(en,l0);
      fhMassPi0NLocMax2[mcindex][matched]->Fill(en,mass);
      fhAsyPi0NLocMax2 [mcindex][matched]->Fill(en,asym);
      fhMassSplitEPi0NLocMax2[mcindex][matched]->Fill(e1+e2,mass);
      if(fFillNCellHisto) fhNCellPi0NLocMax2[mcindex][matched]->Fill(en,nc);
    }
    else if(nMax >2)
    {
      fhM02Pi0NLocMaxN [mcindex][matched]->Fill(en,l0);
      fhMassPi0NLocMaxN[mcindex][matched]->Fill(en,mass);
      fhAsyPi0NLocMaxN [mcindex][matched]->Fill(en,asym);
      fhMassSplitEPi0NLocMaxN[mcindex][matched]->Fill(e1+e2,mass);
      if(fFillNCellHisto) fhNCellPi0NLocMaxN[mcindex][matched]->Fill(en,nc);
    }
  }//Work with MC truth
}

//______________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillIdEtaHistograms(Float_t en,     Float_t e1,  Float_t e2,
                                                           Int_t nc,       Int_t nMax,  Float_t t12diff,
                                                           Float_t mass,   Float_t l0,
                                                           Float_t eta,    Float_t phi,
                                                           Bool_t matched, Int_t mcindex)
{
  // Fill histograms for clusters passing the eta selection
  
  Float_t asym = -10;
  if(e1+e2>0) asym = (e1-e2)/(e1+e2);
  
  if     (nMax==1)
  {
    fhM02EtaNLocMax1 [0][matched]->Fill(en,l0);
    fhMassEtaNLocMax1[0][matched]->Fill(en,mass);
    fhAsyEtaNLocMax1 [0][matched]->Fill(en,asym);
    if(fFillNCellHisto) fhNCellEtaNLocMax1[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityEtaNLocMax1->Fill(en,GetEventCentrality()) ;
        fhEventPlaneEtaNLocMax1->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhEtaEtaPhiNLocMax1->Fill(eta,phi);
      fhEtaEPairDiffTimeNLM1->Fill(e1+e2,t12diff);
    }
  }
  else if(nMax==2)
  {
    fhM02EtaNLocMax2 [0][matched]->Fill(en,l0);
    fhMassEtaNLocMax2[0][matched]->Fill(en,mass);
    fhAsyEtaNLocMax2 [0][matched]->Fill(en,asym);
    if(fFillNCellHisto) fhNCellEtaNLocMax2[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityEtaNLocMax2->Fill(en,GetEventCentrality()) ;
        fhEventPlaneEtaNLocMax2->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhEtaEtaPhiNLocMax2->Fill(eta,phi);
      fhEtaEPairDiffTimeNLM2->Fill(e1+e2,t12diff);
    }
  }
  else if(nMax >2)
  {
    fhM02EtaNLocMaxN [0][matched]->Fill(en,l0);
    fhMassEtaNLocMaxN[0][matched]->Fill(en,mass);
    fhAsyEtaNLocMaxN [0][matched]->Fill(en,asym);
    if(fFillNCellHisto) fhNCellEtaNLocMaxN[0][matched]->Fill(en,nc);
    
    if(!matched)
    {
      if(fFillHighMultHisto)
      {
        fhCentralityEtaNLocMaxN->Fill(en,GetEventCentrality()) ;
        fhEventPlaneEtaNLocMaxN->Fill(en,GetEventPlaneAngle()) ;
      }
      if(en > fHistoECut)fhEtaEtaPhiNLocMaxN->Fill(eta,phi);
      fhEtaEPairDiffTimeNLMN->Fill(e1+e2,t12diff);
    }
  }
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    if     (nMax==1)
    {
      fhM02EtaNLocMax1[mcindex][matched]->Fill(en,l0);
      fhMassEtaNLocMax1[mcindex][matched]->Fill(en,mass);
      fhAsyEtaNLocMax1[mcindex][matched]->Fill(en,asym);
      if(fFillNCellHisto) fhNCellEtaNLocMax1[mcindex][matched]->Fill(en,nc);
    }
    else if(nMax==2)
    {
      fhM02EtaNLocMax2 [mcindex][matched]->Fill(en,l0);
      fhMassEtaNLocMax2[mcindex][matched]->Fill(en,mass);
      fhAsyEtaNLocMax2 [mcindex][matched]->Fill(en,asym);
      if(fFillNCellHisto) fhNCellEtaNLocMax2[mcindex][matched]->Fill(en,nc);
      
    }
    else if(nMax >2)
    {
      fhM02EtaNLocMaxN[mcindex][matched]->Fill(en,l0);
      fhMassEtaNLocMaxN[mcindex][matched]->Fill(en,mass);
      fhAsyEtaNLocMaxN[mcindex][matched]->Fill(en,asym);
      if(fFillNCellHisto) fhNCellEtaNLocMaxN[mcindex][matched]->Fill(en,nc);
    }
  }//Work with MC truth
}


//__________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillIdConvHistograms(Float_t en,    Int_t nMax, Float_t asym,
                                                            Float_t mass,   Float_t l0,
                                                            Bool_t matched, Int_t mcindex)
{
  // Fill histograms for clusters passing the photon selection
  
  if     (nMax==1)
  {
    fhM02ConNLocMax1 [0][matched]->Fill(en,l0);
    fhMassConNLocMax1[0][matched]->Fill(en,mass);
    fhAsyConNLocMax1 [0][matched]->Fill(en,asym);
  }
  else if(nMax==2)
  {
    fhM02ConNLocMax2 [0][matched]->Fill(en,l0);
    fhMassConNLocMax2[0][matched]->Fill(en,mass);
    fhAsyConNLocMax2 [0][matched]->Fill(en,asym);
  }
  else if(nMax >2)
  {
    fhM02ConNLocMaxN [0][matched]->Fill(en,l0);
    fhMassConNLocMaxN[0][matched]->Fill(en,mass);
    fhAsyConNLocMaxN [0][matched]->Fill(en,asym);
  }
  
  if(IsDataMC() && mcindex > 0 && mcindex < 7)
  {
    if     (nMax==1)
    {
      fhM02ConNLocMax1 [mcindex][matched]->Fill(en,l0);
      fhMassConNLocMax1[mcindex][matched]->Fill(en,mass);
      fhAsyConNLocMax1 [mcindex][matched]->Fill(en,asym);
    }
    else if(nMax==2)
    {
      fhM02ConNLocMax2 [mcindex][matched]->Fill(en,l0);
      fhMassConNLocMax2[mcindex][matched]->Fill(en,mass);
      fhAsyConNLocMax2 [mcindex][matched]->Fill(en,asym);
    }
    else if(nMax >2)
    {
      fhM02ConNLocMaxN [mcindex][matched]->Fill(en,l0);
      fhMassConNLocMaxN[mcindex][matched]->Fill(en,mass);
      fhAsyConNLocMaxN [mcindex][matched]->Fill(en,asym);
    }
    
  }//Work with MC truth
}

//_______________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillMCHistograms(Float_t en,        Float_t e1  , Float_t e2,
                                                        Int_t ebin,        Int_t mcindex,Int_t noverlaps,
                                                        Float_t l0,        Float_t mass,
                                                        Int_t nMax,        Bool_t  matched,
                                                        Float_t splitFrac, Float_t asym,
                                                        Float_t eprim,     Float_t asymGen)
{
  // Fill histograms needing some MC input
    
  Float_t efrac      = eprim/en;
  Float_t efracSplit = 0;
  if(e1+e2 > 0) efracSplit = eprim/(e1+e2);
  Float_t asymDiff = TMath::Abs(asym) - TMath::Abs(asymGen);
  
  //printf("e1 %2.2f, e2 %2.2f, eprim %2.2f, ereco %2.2f, esplit/ereco %2.2f, egen/ereco %2.2f, egen/esplit %2.2f\n",
  //       e1,e2,eprim,en,splitFrac,efrac,efracSplit);
  
  if(ebin >= 0 && fFillEbinHisto)
  {
    if( !matched ) fhMCGenFracNLocMaxEbin       [mcindex][ebin]->Fill(efrac,nMax);
    else           fhMCGenFracNLocMaxEbinMatched[mcindex][ebin]->Fill(efrac,nMax);
  }

  if     (nMax==1)
  {
    fhMCGenFracNLocMax1      [mcindex][matched]->Fill(en     ,  efrac );
    fhMCGenSplitEFracNLocMax1[mcindex][matched]->Fill(en     ,  efracSplit );
    fhMCGenEvsSplitENLocMax1 [mcindex][matched]->Fill(eprim  ,  e1+e2);
    if(asym > 0 && !matched)
    {
      if      (mcindex==kmcPi0)    fhAsyMCGenRecoDiffMCPi0[0]    ->Fill(en, asymDiff );
      else  if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[0]->Fill(en, asymDiff );
    }

    if(noverlaps==0)
    {
      fhMCGenFracNLocMax1NoOverlap      [mcindex][matched]->Fill(en ,  efrac );
      fhMCGenSplitEFracNLocMax1NoOverlap[mcindex][matched]->Fill(en ,  efracSplit );
    }
    
    if( en > fHistoECut )
    {
      fhMCGenEFracvsSplitEFracNLocMax1[mcindex][matched]->Fill(efrac,splitFrac );
      
      if(!matched && ebin >= 0 && fFillEbinHisto)
      {
        fhM02MCGenFracNLocMax1Ebin [mcindex][ebin]->Fill(efrac  ,  l0    );
        fhMassMCGenFracNLocMax1Ebin[mcindex][ebin]->Fill(efrac  ,  mass  );
        
        if(mcindex==kmcPi0 || mcindex==kmcPi0Conv)
        {
          fhMCAsymM02NLocMax1MCPi0Ebin [ebin]->Fill(l0  ,  asymGen );
          fhAsyMCGenRecoNLocMax1EbinPi0[ebin]->Fill(asym,  asymGen );
        }
      }
    }
  }
  else if(nMax==2)
  {
    fhMCGenFracNLocMax2      [mcindex][matched]->Fill(en     ,  efrac );
    fhMCGenSplitEFracNLocMax2[mcindex][matched]->Fill(en     ,  efracSplit );
    fhMCGenEvsSplitENLocMax2 [mcindex][matched]->Fill(eprim  ,  e1+e2);

    if(asym > 0 && !matched)
    {
     if      (mcindex==kmcPi0)    fhAsyMCGenRecoDiffMCPi0[1]    ->Fill(en, asymDiff );
     else  if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[1]->Fill(en, asymDiff );
    }
    
    if(noverlaps==0)
    {
      fhMCGenFracNLocMax2NoOverlap      [mcindex][matched]->Fill(en ,  efrac );
      fhMCGenSplitEFracNLocMax2NoOverlap[mcindex][matched]->Fill(en ,  efracSplit );
    }
    
    if( en > fHistoECut )
    {
      fhMCGenEFracvsSplitEFracNLocMax2[mcindex][matched]->Fill(efrac,splitFrac );
      
      if(!matched && ebin >= 0 && fFillEbinHisto)
      {
        fhM02MCGenFracNLocMax2Ebin [mcindex][ebin]->Fill(efrac  ,  l0    );
        fhMassMCGenFracNLocMax2Ebin[mcindex][ebin]->Fill(efrac  ,  mass  );
        if(mcindex==kmcPi0 || mcindex==kmcPi0Conv)
        {
          fhMCAsymM02NLocMax2MCPi0Ebin [ebin]->Fill(l0  ,  asymGen );
          fhAsyMCGenRecoNLocMax2EbinPi0[ebin]->Fill(asym,  asymGen );
        }
      }
    }

  }
  else if(nMax > 2 )
  {
    fhMCGenFracNLocMaxN      [mcindex][matched]->Fill(en     ,  efrac );
    fhMCGenSplitEFracNLocMaxN[mcindex][matched]->Fill(en     ,  efracSplit );
    fhMCGenEvsSplitENLocMaxN [mcindex][matched]->Fill(eprim  ,  e1+e2);
    if(asym > 0 && !matched)
    {
      if      (mcindex==kmcPi0)    fhAsyMCGenRecoDiffMCPi0[2]    ->Fill(en, asymDiff );
      else  if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[2]->Fill(en, asymDiff );
    }

    if(noverlaps==0)
    {
      fhMCGenFracNLocMaxNNoOverlap      [mcindex][matched]->Fill(en ,  efrac );
      fhMCGenSplitEFracNLocMaxNNoOverlap[mcindex][matched]->Fill(en ,  efracSplit );
    }
    
    if( en > fHistoECut )
    {
      fhMCGenEFracvsSplitEFracNLocMaxN[mcindex][matched]->Fill(efrac,splitFrac );
      
      if(!matched && ebin >= 0 && fFillEbinHisto)
      {
        fhM02MCGenFracNLocMaxNEbin [mcindex][ebin]->Fill(efrac  ,  l0    );
        fhMassMCGenFracNLocMaxNEbin[mcindex][ebin]->Fill(efrac  ,  mass  );
        
        if(mcindex==kmcPi0 || mcindex==kmcPi0Conv)
        {
          fhMCAsymM02NLocMaxNMCPi0Ebin [ebin]->Fill(l0  ,  asymGen );
          fhAsyMCGenRecoNLocMaxNEbinPi0[ebin]->Fill(asym,  asymGen );
        }
      }
    }
  }
}

//__________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillMCOverlapHistograms(Float_t en,      Float_t enprim,
                                                               Int_t   nc,      Float_t mass,    Float_t l0,
                                                               Float_t asym,    Float_t splitFrac,
                                                               Int_t   inlm,    Int_t ebin, Bool_t matched,
                                                               Int_t   mcindex, Int_t noverlaps)
{
  // Fill histograms for MC Overlaps
  
  //printf("en %f,mass %f,l0 %f,inlm %d,ebin %d,matched %d,mcindex %d,noverlaps %d \n",en,mass,l0,inlm,ebin,matched,mcindex,noverlaps);
    
  //printf("AliAnaInsideClusterInvariantMass::FillMCOverlapHistograms - NLM bin=%d, mcIndex %d, n Overlaps %d\n",inlm,mcindex,noverlaps);
  
  if(!matched)
  {
    fhMCENOverlaps[inlm][mcindex]->Fill(en,noverlaps);
    
    if     (noverlaps == 0)
    {
      fhMCEM02Overlap0  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlap0 [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlap0 [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlap0 [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlap0[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlap0[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap0[inlm][ebin]->Fill(l0,mass);
    }
    else if(noverlaps == 1)
    {
      fhMCEM02Overlap1  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlap1 [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlap1 [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlap1 [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlap1[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlap1[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap1[inlm][ebin]->Fill(l0,mass);
    }
    else if(noverlaps  > 1)
    {
      fhMCEM02OverlapN  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlapN [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlapN [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlapN [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlapN[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlapN[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02OverlapN[inlm][ebin]->Fill(l0,mass);
    }
    else
      AliWarning(Form("n overlaps = %d!!", noverlaps));
  }
  else if(fFillTMHisto)
  {
    fhMCENOverlapsMatch[inlm][mcindex]->Fill(en,noverlaps);
    
    if     (noverlaps == 0)
    {
      fhMCEM02Overlap0Match  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlap0Match [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlap0Match [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlap0Match [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlap0Match[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlap0Match[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap0Match[inlm][ebin]->Fill(l0,mass);
    }
    else if(noverlaps == 1)
    {
      fhMCEM02Overlap1Match  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlap1Match [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlap1Match [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlap1Match [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlap1Match[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlap1Match[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap1Match[inlm][ebin]->Fill(l0,mass);
    }
    else if(noverlaps  > 1)
    {
      fhMCEM02OverlapNMatch  [inlm][mcindex]->Fill(en, l0);
      fhMCEMassOverlapNMatch [inlm][mcindex]->Fill(en, mass);
      fhMCEEpriOverlapNMatch [inlm][mcindex]->Fill(en, enprim);
      fhMCEAsymOverlapNMatch [inlm][mcindex]->Fill(en, TMath::Abs(asym));
      if(fFillNCellHisto) fhMCENCellOverlapNMatch[inlm][mcindex]->Fill(en, nc);
      fhMCESplitEFracOverlapN[inlm][mcindex]->Fill(en, splitFrac);
      if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02OverlapNMatch[inlm][ebin]->Fill(l0,mass);
    }
    else
        AliWarning(Form("n overlaps in matched = %d!!", noverlaps));
  }
}


//_____________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillNCellHistograms(Int_t   ncells,  Float_t energy, Int_t nMax,
                                                           Bool_t  matched, Int_t mcindex,
                                                           Float_t mass   , Float_t l0)

{
  // Fill optional histograms with more SS parameters
    
  if     (nMax==1)
  {
    fhNCellNLocMax1[0][matched]->Fill(energy,ncells) ;
    if(mcindex > 0 )  fhNCellNLocMax1[mcindex][matched]->Fill(energy,ncells) ;
    
    if (mcindex==kmcPi0 && !matched)
    {
      if( energy > fHistoECut)
      {
        fhNCellMassEHighNLocMax1MCPi0->Fill(ncells,mass);
        fhNCellM02EHighNLocMax1MCPi0 ->Fill(ncells,l0);
      }
      else
      {
        fhNCellMassELowNLocMax1MCPi0->Fill(ncells,mass);
        fhNCellM02ELowNLocMax1MCPi0 ->Fill(ncells,l0);
      }
    }
  }
  else if( nMax == 2  )
  {
    fhNCellNLocMax2[0][matched]->Fill(energy,ncells) ;
    if(mcindex > 0 )  fhNCellNLocMax2[mcindex][matched]->Fill(energy,ncells) ;
    
    
    if (mcindex==kmcPi0 && !matched)
    {
      if( energy > fHistoECut)
      {
        fhNCellMassEHighNLocMax2MCPi0->Fill(ncells,mass);
        fhNCellM02EHighNLocMax2MCPi0 ->Fill(ncells,l0);
      }
      else
      {
        fhNCellMassELowNLocMax2MCPi0->Fill(ncells,mass);
        fhNCellM02ELowNLocMax2MCPi0 ->Fill(ncells,l0);
      }
    }
  }
  else if( nMax >= 3  )
  {
    fhNCellNLocMaxN[0][matched]->Fill(energy,ncells) ;
    if(mcindex > 0 )  fhNCellNLocMaxN[mcindex][matched]->Fill(energy,ncells) ;
    
    if (mcindex==kmcPi0 && !matched)
    {
      if( energy > fHistoECut)
      {
        fhNCellMassEHighNLocMaxNMCPi0->Fill(ncells,mass);
        fhNCellM02EHighNLocMaxNMCPi0 ->Fill(ncells,l0);
      }
      else
      {
        fhNCellMassELowNLocMaxNMCPi0->Fill(ncells,mass);
        fhNCellM02ELowNLocMaxNMCPi0 ->Fill(ncells,l0);
      }
    }
  }
}

//______________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillNLMDiffCutHistograms(AliVCluster *clus, AliVCaloCells* cells, Bool_t matched)
{
  // Calculate NLM for different settings

  Float_t energy = clus->E();
  Float_t m02    = clus->GetM02();
  
  Float_t minEOrg     = GetCaloUtils()->GetLocalMaximaCutE() ;
  Float_t minEDiffOrg = GetCaloUtils()->GetLocalMaximaCutEDiff();
  
  Int_t    nlm  = 0;
  Double_t mass = 0., angle = 0.;
  Int_t    absId1   =-1; Int_t   absId2   =-1;
  Float_t  distbad1 =-1; Float_t distbad2 =-1;
  Bool_t   fidcut1  = 0; Bool_t  fidcut2  = 0;
  Int_t pidTag = -1;
  
  //printf("E %f, m02 %f; Org: minE %f, minDiffE %f\n",energy, m02, minEOrg,minEDiffOrg);
  for(Int_t iE = 0; iE < fNLMSettingN; iE++)
  {
    for(Int_t iDiff = 0; iDiff < fNLMSettingN; iDiff++)
    {
      GetCaloUtils()->SetLocalMaximaCutE    (fNLMMinE   [iE]   );
      GetCaloUtils()->SetLocalMaximaCutEDiff(fNLMMinDiff[iDiff]);
      
      //nlm = GetCaloUtils()->GetNumberOfLocalMaxima(clus, cells)  ;
      
      //printf("\t Change: i %d minE %f, j %d minDiffE %f - NLM = %d\n",iE, fNLMMinE[iE], iDiff, fNLMMinDiff[iDiff],nlm);

      pidTag = GetCaloPID()->GetIdentifiedParticleTypeFromClusterSplitting(clus,cells,GetCaloUtils(),
                                                                                 GetVertex(0), nlm, mass, angle,
                                                                                 fSubClusterMom1,fSubClusterMom2,absId1,absId2,
                                                                                 distbad1,distbad2,fidcut1,fidcut2);
      if (nlm <= 0)
      {
        AliWarning("No local maximum found! It did not pass CaloPID selection criteria");
        continue;
      }

      Int_t inlm = nlm-1;
      if(inlm>2) inlm = 2;
      
      fhNLocMaxDiffCut    [iE][iDiff]      [matched]->Fill(energy,nlm);
      fhM02NLocMaxDiffCut [iE][iDiff][inlm][matched]->Fill(energy,m02);
      fhMassNLocMaxDiffCut[iE][iDiff][inlm][matched]->Fill(energy,mass);

      if(pidTag==AliCaloPID::kPi0)
      {
        fhNLocMaxDiffCutPi0    [iE][iDiff]      [matched]->Fill(energy,nlm);
        fhM02NLocMaxDiffCutPi0 [iE][iDiff][inlm][matched]->Fill(energy,m02);
        fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][matched]->Fill(energy,mass);
      }
      
    }
  }
  
  GetCaloUtils()->SetLocalMaximaCutE    (minEOrg    );
  GetCaloUtils()->SetLocalMaximaCutEDiff(minEDiffOrg);

}


//_____________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillSSExtraHistograms(AliVCluster  *cluster, Int_t nMax,
                                                             Bool_t  matched, Int_t mcindex,
                                                             Float_t mass   , Int_t ebin)
{
  // Fill optional histograms with more SS parameters
    
  Float_t en = cluster->E();
  
  // Get more Shower Shape parameters
  Float_t ll0  = 0., ll1  = 0.;
  Float_t disp= 0., dispEta = 0., dispPhi    = 0.;
  Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.;
  
  GetCaloUtils()->GetEMCALRecoUtils()->RecalculateClusterShowerShapeParameters(GetEMCALGeometry(), GetReader()->GetInputEvent()->GetEMCALCells(), cluster,
                                                                               ll0, ll1, disp, dispEta, dispPhi, sEta, sPhi, sEtaPhi);
  
  Float_t dispAsy = -1;
  if(dispEta+dispPhi >0 ) dispAsy = (dispPhi-dispEta) / (dispPhi+dispEta);
  
  if     (nMax==1)
  {
    if( en > fHistoECut )
    {
      fhMassDispEtaNLocMax1[0][matched]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMax1[0][matched]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMax1[0][matched]->Fill(dispAsy,  mass );
      
      if(IsDataMC() && mcindex > 0 && mcindex < 7)
      {
        fhMassDispEtaNLocMax1[mcindex][matched]->Fill(dispEta,  mass );
        fhMassDispPhiNLocMax1[mcindex][matched]->Fill(dispPhi,  mass );
        fhMassDispAsyNLocMax1[mcindex][matched]->Fill(dispAsy,  mass );
      }
    }
    
    if(!matched && ebin >= 0 && fFillEbinHisto)
    {
      fhMassDispEtaNLocMax1Ebin[ebin]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMax1Ebin[ebin]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMax1Ebin[ebin]->Fill(dispAsy,  mass );
    }
  }
  else if( nMax == 2  )
  {
    if( en > fHistoECut )
    {
      fhMassDispEtaNLocMax2[0][matched]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMax2[0][matched]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMax2[0][matched]->Fill(dispAsy,  mass );
      
      if(IsDataMC() && mcindex > 0 && mcindex < 7)
      {
        fhMassDispEtaNLocMax2[mcindex][matched]->Fill(dispEta,  mass );
        fhMassDispPhiNLocMax2[mcindex][matched]->Fill(dispPhi,  mass );
        fhMassDispAsyNLocMax2[mcindex][matched]->Fill(dispAsy,  mass );
      }
    }
    
    if(!matched && ebin >= 0 && fFillEbinHisto)
    {
      fhMassDispEtaNLocMax2Ebin[ebin]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMax2Ebin[ebin]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMax2Ebin[ebin]->Fill(dispAsy,  mass );
    }
    
  }
  else if( nMax >= 3  )
  {
    if( en > fHistoECut )
    {
      fhMassDispEtaNLocMaxN[0][matched]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMaxN[0][matched]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMaxN[0][matched]->Fill(dispAsy,  mass );
      
      if(IsDataMC() && mcindex > 0 && mcindex < 7)
      {
        fhMassDispEtaNLocMaxN[mcindex][matched]->Fill(dispEta,  mass );
        fhMassDispPhiNLocMaxN[mcindex][matched]->Fill(dispPhi,  mass );
        fhMassDispAsyNLocMaxN[mcindex][matched]->Fill(dispAsy,  mass );
      }
    }
    
    if(!matched && ebin >= 0 && fFillEbinHisto)
    {
      fhMassDispEtaNLocMaxNEbin[ebin]->Fill(dispEta,  mass );
      fhMassDispPhiNLocMaxNEbin[ebin]->Fill(dispPhi,  mass );
      fhMassDispAsyNLocMaxNEbin[ebin]->Fill(dispAsy,  mass );
    }

  }
  
}

//__________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::FillSSWeightHistograms(AliVCluster *clus,  Int_t nlm,
                                                              Int_t absId1, Int_t absId2)
{
  // Calculate weights and fill histograms
    
  AliVCaloCells* cells = 0;
  if(GetCalorimeter() == kEMCAL) cells = GetEMCALCells();
  else                        cells = GetPHOSCells();
  
  // First recalculate energy in case non linearity was applied
  Float_t energy =  GetCaloUtils()->RecalibrateClusterEnergy(clus, cells);// recalculate cluster energy, avoid non lin correction.
  
  Float_t simuTotWeight = 0;
  if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
  {
    simuTotWeight =  GetCaloUtils()->RecalibrateClusterEnergyWeightCell(clus, cells,energy);
    simuTotWeight/= energy;
  }
  
  if(energy <=0 )
  {
    AliWarning(Form("Wrong calculated energy %f",energy));
    return;
  }
  
  //Get amplitude of  main local maxima, recalibrate if needed
  Float_t amp1 = cells->GetCellAmplitude(absId1);
  GetCaloUtils()->RecalibrateCellAmplitude(amp1,GetCalorimeter(), absId1);
  Float_t amp2 = cells->GetCellAmplitude(absId2);
  GetCaloUtils()->RecalibrateCellAmplitude(amp2,GetCalorimeter(), absId2);

  if(amp1 < amp2)        AliWarning(Form("Bad local maxima E ordering : id1 E %f, id2 E %f",amp1,amp2));
  if(amp1==0 || amp2==0) AliWarning(Form("Null E local maxima : id1 E %f, id2 E %f "       ,amp1,amp2));
  
  if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
  {
    amp1*=GetCaloUtils()->GetMCECellClusFracCorrection(amp1,energy)/simuTotWeight;
    amp2*=GetCaloUtils()->GetMCECellClusFracCorrection(amp2,energy)/simuTotWeight;
  }
  
  if(amp1>0)fhPi0CellEMaxEMax2Frac   [nlm]->Fill(energy,amp2/amp1);
  fhPi0CellEMaxClusterFrac [nlm]->Fill(energy,amp1/energy);
  fhPi0CellEMax2ClusterFrac[nlm]->Fill(energy,amp2/energy);
  
  //Get the ratio and log ratio to all cells in cluster
  for (Int_t ipos = 0; ipos < clus->GetNCells(); ipos++)
  {
    Int_t id       = clus->GetCellsAbsId()[ipos];
    
    //Recalibrate cell energy if needed
    Float_t amp = cells->GetCellAmplitude(id);
    GetCaloUtils()->RecalibrateCellAmplitude(amp,GetCalorimeter(), id);
    if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
    {
      //printf("eCell a) %f",amp);
      amp*=GetCaloUtils()->GetMCECellClusFracCorrection(amp,energy)/simuTotWeight;
      //printf(", b)%f\n",amp);
    }
    
    if(amp > 0)fhPi0CellE       [nlm]->Fill(energy,amp);
    fhPi0CellEFrac   [nlm]->Fill(energy,amp/energy);
    fhPi0CellLogEFrac[nlm]->Fill(energy,TMath::Log(amp/energy));
    
    if     (id!=absId1 && id!=absId2)
    {
      if(amp1>0)fhPi0CellEMaxFrac [nlm]->Fill(energy,amp/amp1);
      if(amp2>0)fhPi0CellEMax2Frac[nlm]->Fill(energy,amp/amp2);
    }

  }

  //Recalculate shower shape for different W0
  if(GetCalorimeter()==kEMCAL)
  {
    Float_t l0org = clus->GetM02();
    Float_t l1org = clus->GetM20();
    Float_t dorg  = clus->GetDispersion();
    Float_t w0org =  GetCaloUtils()->GetEMCALRecoUtils()->GetW0();
    
    //printf("E cl %2.3f, E recal %2.3f, nlm %d, Org w0 %2.3f, org l0 %2.3f\n",clus->E(), energy,nlm, w0org,l0org);
    
    for(Int_t iw = 0; iw < fSSWeightN; iw++)
    {
      GetCaloUtils()->GetEMCALRecoUtils()->SetW0(fSSWeight[iw]);
      //GetCaloUtils()->GetEMCALRecoUtils()->RecalculateClusterShowerShapeParameters(GetEMCALGeometry(), cells, clus);
      //fhM02WeightPi0[nlm][iw]->Fill(energy,clus->GetM02());

      Float_t l0   = 0., l1   = 0.;
      Float_t disp = 0., dEta = 0., dPhi    = 0.;
      Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.;
      
      RecalculateClusterShowerShapeParametersWithCellCut(GetEMCALGeometry(), cells, clus,l0,l1,disp,
                                                         dEta, dPhi, sEta, sPhi, sEtaPhi,fSSECellCut[0]);
      //Make sure that for pp fSSECellCut[0]=0.05 and for PbPb fSSECellCut[0]=0.15

      
      fhM02WeightPi0[nlm][iw]->Fill(energy,l0);
      
      //printf("\t w0 %2.3f, l0 %2.3f\n",GetCaloUtils()->GetEMCALRecoUtils()->GetW0(),l0);
      
    } // w0 loop
    
    // Set the original values back
    clus->SetM02(l0org);
    clus->SetM20(l1org);
    clus->SetDispersion(dorg);
    GetCaloUtils()->GetEMCALRecoUtils()->SetW0(w0org);

    for(Int_t iec = 0; iec < fSSECellCutN; iec++)
    {
      Float_t l0   = 0., l1   = 0.;
      Float_t disp = 0., dEta = 0., dPhi    = 0.;
      Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.;
      
      RecalculateClusterShowerShapeParametersWithCellCut(GetEMCALGeometry(), cells, clus,l0,l1,disp,
                                                         dEta, dPhi, sEta, sPhi, sEtaPhi,fSSECellCut[iec]);
      
      fhM02ECellCutPi0[nlm][iec]->Fill(energy,l0);
      
      //printf("\t min E cell %2.3f, l0 %2.3f\n",fSSECellCut[iec], l0);
      
    } // w0 loop
  
  }// EMCAL
}

//____________________________________________________________________________________________
void  AliAnaInsideClusterInvariantMass::FillTrackMatchingHistograms(AliVCluster * cluster,
                                                                    Int_t nMax, Int_t mcindex)
{
  // Fill histograms related to track matching
    
  Float_t dZ  = cluster->GetTrackDz();
  Float_t dR  = cluster->GetTrackDx();
  Float_t en  = cluster->E();
  
  if(cluster->IsEMCAL() && GetCaloUtils()->IsRecalculationOfClusterTrackMatchingOn())
  {
    dR = 2000., dZ = 2000.;
    GetCaloUtils()->GetEMCALRecoUtils()->GetMatchedResiduals(cluster->GetID(),dZ,dR);
  }
  
  //printf("Pi0EbE: dPhi %f, dEta %f\n",dR,dZ);
  
  if(TMath::Abs(dR) < 999)
  {
    if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1[0]->Fill(en,dR); }
    else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2[0]->Fill(en,dR); }
    else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxN[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxN[0]->Fill(en,dR); }
    
    if(IsDataMC() && mcindex > 0 && mcindex < 7)
    {
      if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1[mcindex]->Fill(en,dR); }
      else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2[mcindex]->Fill(en,dR); }
      else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxN[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxN[mcindex]->Fill(en,dR); }
    }
    
    AliVTrack *track = GetCaloUtils()->GetMatchedTrack(cluster, GetReader()->GetInputEvent());
    
    Bool_t positive = kFALSE;
    if(track) positive = (track->Charge()>0);

    if(track)
    {
      if(positive)
      {
        if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1Pos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Pos[0]->Fill(en,dR); }
        else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2Pos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Pos[0]->Fill(en,dR); }
        else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxNPos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNPos[0]->Fill(en,dR); }
        
        if(IsDataMC() && mcindex > 0 && mcindex < 7)
        {
          if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1Pos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Pos[mcindex]->Fill(en,dR); }
          else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2Pos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Pos[mcindex]->Fill(en,dR); }
          else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxNPos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNPos[mcindex]->Fill(en,dR); }
        }
      }
      else
      {
        if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1Neg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Neg[0]->Fill(en,dR); }
        else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2Neg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Neg[0]->Fill(en,dR); }
        else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxNNeg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNNeg[0]->Fill(en,dR); }
        
        if(IsDataMC() && mcindex > 0 && mcindex < 7)
        {
          if     ( nMax == 1  ) { fhTrackMatchedDEtaNLocMax1Neg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Neg[mcindex]->Fill(en,dR); }
          else if( nMax == 2  ) { fhTrackMatchedDEtaNLocMax2Neg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Neg[mcindex]->Fill(en,dR); }
          else if( nMax >= 3  ) { fhTrackMatchedDEtaNLocMaxNNeg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNNeg[mcindex]->Fill(en,dR); }
        }
      }
      
    }// track exists
    
  }
}

//_______________________________________________________________
TObjString *  AliAnaInsideClusterInvariantMass::GetAnalysisCuts()
{	
	//Save parameters used for analysis
  TString parList ; //this will be list of parameters used for this analysis.
  Int_t buffersize = 255;
  char onePar[buffersize] ;
  
  snprintf(onePar,buffersize,"--- AliAnaInsideClusterInvariantMass ---:") ;
  parList+=onePar ;	
  
  snprintf(onePar,buffersize,"Calorimeter: %s;",        GetCalorimeterString().Data()) ;
  parList+=onePar ;
  snprintf(onePar,buffersize,"fNLocMaxCutE =%2.2f;",    GetCaloUtils()->GetLocalMaximaCutE()) ;
  parList+=onePar ;
  snprintf(onePar,buffersize,"fNLocMaxCutEDiff =%2.2f;",GetCaloUtils()->GetLocalMaximaCutEDiff()) ;
  parList+=onePar ;
  snprintf(onePar,buffersize,"fMinNCells =%d;",         fMinNCells) ;
  parList+=onePar ;    
  snprintf(onePar,buffersize,"fMinBadDist =%1.1f;",     fMinBadDist) ;
  parList+=onePar ;  
  if(fFillSSWeightHisto)
  {
    snprintf(onePar,buffersize," N w %d - N e cut %d;",fSSWeightN,fSSECellCutN);
    parList+=onePar ;
  }
  
  return new TObjString(parList) ;
  
}

//________________________________________________________________
TList * AliAnaInsideClusterInvariantMass::GetCreateOutputObjects()
{
  // Create histograms to be saved in output file and 
  // store them in outputContainer
  TList * outputContainer = new TList() ; 
  outputContainer->SetName("InsideClusterHistos") ;
  
  Int_t nptbins  = GetHistogramRanges()->GetHistoPtBins();           Float_t ptmax  = GetHistogramRanges()->GetHistoPtMax();           Float_t ptmin  = GetHistogramRanges()->GetHistoPtMin();
  Int_t ssbins   = GetHistogramRanges()->GetHistoShowerShapeBins();  Float_t ssmax  = GetHistogramRanges()->GetHistoShowerShapeMax();  Float_t ssmin  = GetHistogramRanges()->GetHistoShowerShapeMin();
  Int_t mbins    = GetHistogramRanges()->GetHistoMassBins();         Float_t mmax   = GetHistogramRanges()->GetHistoMassMax();         Float_t mmin   = GetHistogramRanges()->GetHistoMassMin();
  Int_t ncbins   = GetHistogramRanges()->GetHistoNClusterCellBins(); Int_t   ncmax  = GetHistogramRanges()->GetHistoNClusterCellMax(); Int_t   ncmin  = GetHistogramRanges()->GetHistoNClusterCellMin(); 
  Int_t nphibins = GetHistogramRanges()->GetHistoPhiBins();          Float_t phimax = GetHistogramRanges()->GetHistoPhiMax();          Float_t phimin = GetHistogramRanges()->GetHistoPhiMin();
  Int_t netabins = GetHistogramRanges()->GetHistoEtaBins();          Float_t etamax = GetHistogramRanges()->GetHistoEtaMax();          Float_t etamin = GetHistogramRanges()->GetHistoEtaMin();
  
  Int_t   nresetabins = GetHistogramRanges()->GetHistoTrackResidualEtaBins();          
  Float_t resetamax   = GetHistogramRanges()->GetHistoTrackResidualEtaMax();          
  Float_t resetamin   = GetHistogramRanges()->GetHistoTrackResidualEtaMin();
  Int_t   nresphibins = GetHistogramRanges()->GetHistoTrackResidualPhiBins();          
  Float_t resphimax   = GetHistogramRanges()->GetHistoTrackResidualPhiMax();          
  Float_t resphimin   = GetHistogramRanges()->GetHistoTrackResidualPhiMin();  
  
  Bool_t m02On   = GetCaloPID()->IsSplitShowerShapeCutOn();
  Bool_t asyOn   = GetCaloPID()->IsSplitAsymmetryCutOn();
  Bool_t splitOn = kFALSE;
  if(GetCaloPID()->GetSplitEnergyFractionMinimum(0) > 0 ||
     GetCaloPID()->GetSplitEnergyFractionMinimum(1) > 0 ||
     GetCaloPID()->GetSplitEnergyFractionMinimum(2) > 0) splitOn = kTRUE;
  
  TString ptype[] ={"","#gamma","#gamma->e^{#pm}","#pi^{0}","#pi^{0} (#gamma->e^{#pm})","#eta", "hadron"};
  TString pname[] ={"","Photon","Conversion",     "Pi0",    "Pi0Conv",                  "Eta","Hadron"};
  TString snlm [] = {"1","2","N"};

  TString sEBin[] = {"8 < #it{E} < 12 GeV","12 < #it{E} < 16 GeV", "16 < #it{E} < 20 GeV", "#it{E} > 20 GeV" };

  Int_t n = 1;
  
  if(IsDataMC()) n = 7;
  
  Int_t nMaxBins = 10;
  
  TString sMatched[] = {"","Matched"};
  
  Int_t nMatched = 2;
  if(!fFillTMHisto) nMatched = 1;
  
  
  if(fFillNLMDiffCutHisto)
  {
    for(Int_t imatch = 0; imatch < nMatched; imatch++)
    {
      for(Int_t iE = 0; iE < fNLMSettingN; iE++)
      {
        for(Int_t iDiff = 0; iDiff < fNLMSettingN; iDiff++)
        {
          fhNLocMaxDiffCut[iE][iDiff][imatch]  = new TH2F(Form("hNLocMax_MinE%d_MinDiffE%d%s",iE, iDiff, sMatched[imatch].Data()),
                                                          Form("NLM for #it{E}_{LM}>%1.2f, #Delta E=%1.2F %s", fNLMMinE[iE], fNLMMinDiff[iDiff],sMatched[imatch].Data()),
                                                          nptbins,ptmin,ptmax, nMaxBins,0,nMaxBins);
          fhNLocMaxDiffCut[iE][iDiff][imatch]->SetYTitle("#it{NLM}");
          fhNLocMaxDiffCut[iE][iDiff][imatch]->SetXTitle("#it{E}_{cluster}");
          outputContainer->Add(fhNLocMaxDiffCut[iE][iDiff][imatch]) ;
          
          fhNLocMaxDiffCutPi0[iE][iDiff][imatch]  = new TH2F(Form("hNLocMaxPi0_MinE%d_MinDiffE%d%s",iE, iDiff, sMatched[imatch].Data()),
                                                             Form("#pi^{0} NLM for #it{E}_{LM}>%1.2f, #Delta E=%1.2F %s",
                                                                  fNLMMinE[iE], fNLMMinDiff[iDiff],sMatched[imatch].Data()),
                                                             nptbins,ptmin,ptmax, nMaxBins,0,nMaxBins);
          fhNLocMaxDiffCutPi0[iE][iDiff][imatch]->SetYTitle("#it{NLM}");
          fhNLocMaxDiffCutPi0[iE][iDiff][imatch]->SetXTitle("#it{E}_{#pi^{0}}");
          outputContainer->Add(fhNLocMaxDiffCutPi0[iE][iDiff][imatch]) ;
          
          for(Int_t inlm = 0; inlm < 3; inlm++)
          {
            
            fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]  = new TH2F(Form("hNLocMaxM02_MinE%d_MinDiffE%d_NLM%s%s",
                                                                          iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()),
                                                                     Form("#lambda^{2}_{0} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s",
                                                                          fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()),
                                                                     nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
            fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetYTitle("#lambda^{2}_{0}");
            fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}");
            outputContainer->Add(fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]) ;
            
            fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]  = new TH2F(Form("hNLocMaxMass_MinE%d_MinDiffE%d_NLM%s%s",
                                                                           iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()),
                                                                      Form("#it{M}_{split} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s",
                                                                           fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()),
                                                                      nptbins,ptmin,ptmax, mbins,mmin,mmax);
            fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetYTitle("#it{M}_{split}");
            fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}");
            outputContainer->Add(fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]) ;
            
            fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]  = new TH2F(Form("hNLocMaxPi0M02_MinE%d_MinDiffE%d_NLM%s%s",
                                                                             iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()),
                                                                        Form("#pi^{0} #lambda^{2}_{0} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s",
                                                                             fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()),
                                                                        nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
            fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetYTitle("#lambda^{2}_{0}");
            fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}");
            outputContainer->Add(fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]) ;
            
            fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]  = new TH2F(Form("hNLocMaxPi0Mass_MinE%d_MinDiffE%d_NLM%s%s",
                                                                              iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()),
                                                                         Form("#pi^{0} #it{M}_{split} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s",
                                                                              fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()),
                                                                         nptbins,ptmin,ptmax, mbins,mmin,mmax);
            fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetYTitle("#it{M}_{split}");
            fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}");
            outputContainer->Add(fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]) ;
            
          }
          
        }
      }
    }
    return outputContainer;
  }

  if(fCheckSplitDistToBad)
  {
    for(Int_t inlm = 0; inlm < 3; inlm++)
    {
      fhMassBadDistClose[inlm]  = new TH2F(Form("hMassBadDistCloseNLocMax%s",snlm[inlm].Data()),
                                           Form("Invariant mass of splitted cluster with #it{NLM}=%d vs E, 2nd LM close to bad channel",inlm),
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassBadDistClose[inlm]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassBadDistClose[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassBadDistClose[inlm]) ;
      
      fhM02BadDistClose[inlm]  = new TH2F(Form("hM02BadDistCloseNLocMax%s",snlm[inlm].Data()),
                                          Form("#lambda_{0}^{2} for cluster with #it{NLM}=%d vs E, 2nd LM close to bad channel",inlm),
                                          nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02BadDistClose[inlm]->SetYTitle("#lambda_{0}^{2}");
      fhM02BadDistClose[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02BadDistClose[inlm]) ;
      
      fhMassOnBorder[inlm]  = new TH2F(Form("hMassOnBorderNLocMax%s",snlm[inlm].Data()),
                                       Form("Invariant mass of splitted cluster with #it{NLM}=%d vs E, 2nd LM close to border",inlm),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassOnBorder[inlm]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassOnBorder[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassOnBorder[inlm]) ;
      
      fhM02OnBorder[inlm]  = new TH2F(Form("hM02OnBorderNLocMax%s",snlm[inlm].Data()),
                                      Form("#lambda_{0}^{2} for cluster with #it{NLM}=%d vs E, 2nd LM close to border",inlm),
                                      nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02OnBorder[inlm]->SetYTitle("#lambda_{0}^{2}");
      fhM02OnBorder[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02OnBorder[inlm]) ;
      
    }
  }
  
  for(Int_t i = 0; i < n; i++)
  {
    for(Int_t j = 0; j < nMatched; j++)
    {
      
      fhNLocMax[i][j]     = new TH2F(Form("hNLocMax%s%s",pname[i].Data(),sMatched[j].Data()),
                                     Form("Number of local maxima in cluster %s %s",ptype[i].Data(),sMatched[j].Data()),
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhNLocMax[i][j]   ->SetYTitle("#it{N} maxima");
      fhNLocMax[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhNLocMax[i][j]) ;

      fhLM1NLocMax[i][j]     = new TH2F(Form("hLM1NLocMax%s%s",pname[i].Data(),sMatched[j].Data()),
                                     Form("Number of local maxima in cluster for split cluster 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhLM1NLocMax[i][j]   ->SetYTitle("#it{N} maxima");
      fhLM1NLocMax[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhLM1NLocMax[i][j]) ;

      fhLM2NLocMax[i][j]     = new TH2F(Form("hLM2NLocMax%s%s",pname[i].Data(),sMatched[j].Data()),
                                        Form("Number of local maxima in cluster for split cluster 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                        nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhLM2NLocMax[i][j]   ->SetYTitle("#it{N} maxima");
      fhLM2NLocMax[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhLM2NLocMax[i][j]) ;
      
      if(m02On)
      {
        fhNLocMaxM02Cut[i][j] = new TH2F(Form("hNLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()),
                                         Form("Number of local maxima in cluster %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()),
                                         nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
        fhNLocMaxM02Cut[i][j]->SetYTitle("#it{N} maxima");
        fhNLocMaxM02Cut[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNLocMaxM02Cut[i][j]) ;
        
        fhLM1NLocMaxM02Cut[i][j]     = new TH2F(Form("hLM1NLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("Number of local maxima in cluster for split cluster 1 %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()),
                                          nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
        fhLM1NLocMaxM02Cut[i][j]   ->SetYTitle("#it{N} maxima");
        fhLM1NLocMaxM02Cut[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhLM1NLocMaxM02Cut[i][j]) ;
        
        fhLM2NLocMaxM02Cut[i][j]     = new TH2F(Form("hLM2NLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("Number of local maxima in cluster for split cluster 2 %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()),
                                          nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
        fhLM2NLocMaxM02Cut[i][j]   ->SetYTitle("#it{N} maxima");
        fhLM2NLocMaxM02Cut[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhLM2NLocMaxM02Cut[i][j]) ;

      }
      

      fhNLocMaxIdPi0[i][j]     = new TH2F(Form("hNLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()),
                                     Form("Number of local maxima in pi0 ID cluster %s %s",ptype[i].Data(),sMatched[j].Data()),
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhNLocMaxIdPi0[i][j]   ->SetYTitle("#it{N} maxima");
      fhNLocMaxIdPi0[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhNLocMaxIdPi0[i][j]) ;

      
      fhLM1NLocMaxIdPi0[i][j]     = new TH2F(Form("hLM1NLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()),
                                        Form("Number of local maxima in cluster for split cluster 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                        nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhLM1NLocMaxIdPi0[i][j]   ->SetYTitle("#it{N} maxima");
      fhLM1NLocMaxIdPi0[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhLM1NLocMaxIdPi0[i][j]) ;
      
      fhLM2NLocMaxIdPi0[i][j]     = new TH2F(Form("hLM2NLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()),
                                        Form("Number of local maxima in cluster for split cluster 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                        nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhLM2NLocMaxIdPi0[i][j]   ->SetYTitle("#it{N} maxima");
      fhLM2NLocMaxIdPi0[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhLM2NLocMaxIdPi0[i][j]) ;
      

      
      
      fhSplitClusterENLocMax[i][j]     = new TH2F(Form("hSplitEClusterNLocMax%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("Number of local maxima vs E of split clusters %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                  nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhSplitClusterENLocMax[i][j]   ->SetYTitle("#it{N} maxima");
      fhSplitClusterENLocMax[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhSplitClusterENLocMax[i][j]) ;
      
      
      fhSplitClusterEPi0NLocMax[i][j]     = new TH2F(Form("hSplitEClusterPi0NLocMax%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Number of local maxima vs E of split clusters, id as pi0, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
      fhSplitClusterEPi0NLocMax[i][j]   ->SetYTitle("#it{N} maxima");
      fhSplitClusterEPi0NLocMax[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhSplitClusterEPi0NLocMax[i][j]) ;

      if(fFillNCellHisto)
      {
        fhNCellNLocMax1[i][j]  = new TH2F(Form("hNCellNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("n cells vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                          nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellNLocMax1[i][j] ->SetYTitle("#it{N} cells");
        fhNCellNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellNLocMax1[i][j]) ;
        
        fhNCellNLocMax2[i][j]     = new TH2F(Form("hNCellNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("n cells vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                             nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellNLocMax2[i][j]   ->SetYTitle("#it{N} cells");
        fhNCellNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellNLocMax2[i][j]) ;
        
        
        fhNCellNLocMaxN[i][j]     = new TH2F(Form("hNCellNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("n cells vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                             nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellNLocMaxN[i][j]   ->SetYTitle("#it{N} cells");
        fhNCellNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellNLocMaxN[i][j]) ;
      }

      fhMassNLocMax1[i][j]  = new TH2F(Form("hMassNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with #it{NLM}=1 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassNLocMax1[i][j]) ;   
      
      fhMassNLocMax2[i][j]  = new TH2F(Form("hMassNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with #it{NLM}=2 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassNLocMax2[i][j]) ;   
      
      fhMassNLocMaxN[i][j]  = new TH2F(Form("hMassNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with NLM>2 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassNLocMaxN[i][j]) ;

      fhMassSplitENLocMax1[i][j]  = new TH2F(Form("hMassSplitENLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with #it{NLM}=1 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitENLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassSplitENLocMax1[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitENLocMax1[i][j]) ;
      
      fhMassSplitENLocMax2[i][j]  = new TH2F(Form("hMassSplitENLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with #it{NLM}=2 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitENLocMax2[i][j]->SetYTitle("#it{E} _{M} (GeV/#it{c}^{2})");
      fhMassSplitENLocMax2[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitENLocMax2[i][j]) ;
      
      fhMassSplitENLocMaxN[i][j]  = new TH2F(Form("hMassSplitENLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Invariant mass of splitted cluster with NLM>2 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitENLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassSplitENLocMaxN[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitENLocMaxN[i][j]) ;
      
      fhM02NLocMax1[i][j]     = new TH2F(Form("hM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                         Form("#lambda_{0}^{2} vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                         nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02NLocMax1[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02NLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02NLocMax1[i][j]) ;
      
      fhM02NLocMax2[i][j]     = new TH2F(Form("hM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                         Form("#lambda_{0}^{2} vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                         nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02NLocMax2[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02NLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02NLocMax2[i][j]) ;
      
      fhM02NLocMaxN[i][j]    = new TH2F(Form("hM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                        Form("#lambda_{0}^{2} vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                        nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02NLocMaxN[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02NLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02NLocMaxN[i][j]) ;
      
      fhAsymNLocMax1[i][j]  = new TH2F(Form("hAsymNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Asymmetry of #it{NLM}=1  vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,200,-1,1);
      fhAsymNLocMax1[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
      fhAsymNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsymNLocMax1[i][j]) ;
      
      fhAsymNLocMax2[i][j]  = new TH2F(Form("hAsymNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Asymmetry of #it{NLM}=2  vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,200,-1,1);
      fhAsymNLocMax2[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
      fhAsymNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsymNLocMax2[i][j]) ;
      
      fhAsymNLocMaxN[i][j]  = new TH2F(Form("hAsymNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                       Form("Asymmetry of NLM>2  vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                       nptbins,ptmin,ptmax,200,-1,1);
      fhAsymNLocMaxN[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
      fhAsymNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsymNLocMaxN[i][j]) ;
      
      fhSplitEFractionNLocMax1[i][j]     = new TH2F(Form("hSplitEFractionNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                    Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                    nptbins,ptmin,ptmax,120,0,1.2);
      fhSplitEFractionNLocMax1[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
      fhSplitEFractionNLocMax1[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
      outputContainer->Add(fhSplitEFractionNLocMax1[i][j]) ;
      
      fhSplitEFractionNLocMax2[i][j]     = new TH2F(Form("hSplitEFractionNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                    Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                    nptbins,ptmin,ptmax,120,0,1.2);
      fhSplitEFractionNLocMax2[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
      fhSplitEFractionNLocMax2[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
      outputContainer->Add(fhSplitEFractionNLocMax2[i][j]) ;
      
      fhSplitEFractionNLocMaxN[i][j]    = new TH2F(Form("hSplitEFractionNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                   Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                   nptbins,ptmin,ptmax,120,0,1.2);
      fhSplitEFractionNLocMaxN[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
      fhSplitEFractionNLocMaxN[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
      outputContainer->Add(fhSplitEFractionNLocMaxN[i][j]) ;
      
      if(i==0 && j==0 )
      {
        if(m02On)
        {
          fhMassM02CutNLocMax1  = new TH2F("hMassM02CutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, M02 cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassM02CutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassM02CutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassM02CutNLocMax1) ;
          
          fhMassM02CutNLocMax2  = new TH2F("hMassM02CutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, M02 cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassM02CutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassM02CutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassM02CutNLocMax2) ;
          
          fhMassM02CutNLocMaxN  = new TH2F("hMassM02CutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, M02 cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassM02CutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassM02CutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassM02CutNLocMaxN) ;
          
          fhAsymM02CutNLocMax1  = new TH2F("hAsymM02CutNLocMax1","Asymmetry of #it{NLM}=1  vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1);
          fhAsymM02CutNLocMax1->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymM02CutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymM02CutNLocMax1) ;
          
          fhAsymM02CutNLocMax2  = new TH2F("hAsymM02CutNLocMax2","Asymmetry of #it{NLM}=2  vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1);
          fhAsymM02CutNLocMax2->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymM02CutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymM02CutNLocMax2) ;
          
          fhAsymM02CutNLocMaxN  = new TH2F("hAsymM02CutNLocMaxN","Asymmetry of NLM>2  vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1);
          fhAsymM02CutNLocMaxN->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymM02CutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymM02CutNLocMaxN) ;
          
          if(splitOn)
          {
            fhMassSplitECutNLocMax1  = new TH2F("hMassSplitECutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM",
                                                nptbins,ptmin,ptmax,mbins,mmin,mmax);
            fhMassSplitECutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMassSplitECutNLocMax1->SetXTitle("#it{E} (GeV)");
            outputContainer->Add(fhMassSplitECutNLocMax1) ;
            
            fhMassSplitECutNLocMax2  = new TH2F("hMassSplitECutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM",
                                                nptbins,ptmin,ptmax,mbins,mmin,mmax);
            fhMassSplitECutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMassSplitECutNLocMax2->SetXTitle("#it{E} (GeV)");
            outputContainer->Add(fhMassSplitECutNLocMax2) ;
            
            fhMassSplitECutNLocMaxN  = new TH2F("hMassSplitECutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM",
                                                nptbins,ptmin,ptmax,mbins,mmin,mmax);
            fhMassSplitECutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMassSplitECutNLocMaxN->SetXTitle("#it{E} (GeV)");
            outputContainer->Add(fhMassSplitECutNLocMaxN) ;
          }
        }//m02on
        
        if(asyOn)
        {
          fhMassAsyCutNLocMax1  = new TH2F("hMassAsyCutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, Asy cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassAsyCutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassAsyCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassAsyCutNLocMax1) ;
          
          fhMassAsyCutNLocMax2  = new TH2F("hMassAsyCutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, Asy cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassAsyCutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassAsyCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassAsyCutNLocMax2) ;
          
          fhMassAsyCutNLocMaxN  = new TH2F("hMassAsyCutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, Asy cut, no TM",
                                           nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassAsyCutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassAsyCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassAsyCutNLocMaxN) ;
          
          fhM02AsyCutNLocMax1  = new TH2F("hM02AsyCutNLocMax1","#lambda_{0}^{2} of #it{NLM}=1  vs cluster Energy, AsyCut, no TM",
                                          nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02AsyCutNLocMax1->SetYTitle("#lambda_{0}^{2}");
          fhM02AsyCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02AsyCutNLocMax1) ;
          
          fhM02AsyCutNLocMax2  = new TH2F("hM02AsyCutNLocMax2","#lambda_{0}^{2} of #it{NLM}=2  vs cluster Energy, AsyCut, no TM",
                                          nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02AsyCutNLocMax2->SetYTitle("#lambda_{0}^{2}");
          fhM02AsyCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02AsyCutNLocMax2) ;
          
          fhM02AsyCutNLocMaxN  = new TH2F("hM02AsyCutNLocMaxN","#lambda_{0}^{2} of NLM>2  vs cluster Energy, AsyCut, no TM",
                                          nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02AsyCutNLocMaxN->SetYTitle("#lambda_{0}^{2}");
          fhM02AsyCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02AsyCutNLocMaxN) ;
        }
        
        if(GetCaloPID()->GetSubClusterEnergyMinimum(0) > 0.1)
        {
          fhMassEnCutNLocMax1  = new TH2F("hMassEnCutNLocMax1",Form("Invariant mass of splitted cluster with #it{NLM}=1 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)),
                                          nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassEnCutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassEnCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassEnCutNLocMax1) ;
          
          fhMassEnCutNLocMax2  = new TH2F("hMassEnCutNLocMax2",Form("Invariant mass of splitted cluster with #it{NLM}=2 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)),
                                          nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassEnCutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassEnCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassEnCutNLocMax2) ;
          
          fhMassEnCutNLocMaxN  = new TH2F("hMassEnCutNLocMaxN",Form("Invariant mass of splitted cluster with NLM>2 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)),
                                          nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMassEnCutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassEnCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMassEnCutNLocMaxN) ;
          
          fhM02EnCutNLocMax1  = new TH2F("hM02EnCutNLocMax1",Form("#lambda_{0}^{2} of #it{NLM}=1  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)),
                                         nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02EnCutNLocMax1->SetYTitle("#lambda_{0}^{2}");
          fhM02EnCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02EnCutNLocMax1) ;
          
          fhM02EnCutNLocMax2  = new TH2F("hM02EnCutNLocMax2",Form("#lambda_{0}^{2} of #it{NLM}=2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)),
                                         nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02EnCutNLocMax2->SetYTitle("#lambda_{0}^{2}");
          fhM02EnCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02EnCutNLocMax2) ;
          
          fhM02EnCutNLocMaxN  = new TH2F("hM02EnCutNLocMaxN",Form("#lambda_{0}^{2} of NLM>2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)),
                                         nptbins,ptmin,ptmax, ssbins,ssmin,ssmax);
          fhM02EnCutNLocMaxN->SetYTitle("#lambda_{0}^{2}");
          fhM02EnCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhM02EnCutNLocMaxN) ;
          
          fhAsymEnCutNLocMax1  = new TH2F("hAsymEnCutNLocMax1",Form("Asymmetry of #it{NLM}=1  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0))
                                          , nptbins,ptmin,ptmax,200,-1,1);
          fhAsymEnCutNLocMax1->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymEnCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymEnCutNLocMax1) ;
          
          fhAsymEnCutNLocMax2  = new TH2F("hAsymEnCutNLocMax2",Form("Asymmetry of #it{NLM}=2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1))
                                          , nptbins,ptmin,ptmax,200,-1,1);
          fhAsymEnCutNLocMax2->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymEnCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymEnCutNLocMax2) ;
          
          fhAsymEnCutNLocMaxN  = new TH2F("hAsymEnCutNLocMaxN",Form("Asymmetry of NLM>2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2))
                                          , nptbins,ptmin,ptmax,200,-1,1);
          fhAsymEnCutNLocMaxN->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})");
          fhAsymEnCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAsymEnCutNLocMaxN) ;

          fhSplitEFracEnCutNLocMax1  = new TH2F("hSplitEFracEnCutNLocMax1",Form("SplitEFracmetry of #it{NLM}=1  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0))
                                          , nptbins,ptmin,ptmax,120,0,1.2);
          fhSplitEFracEnCutNLocMax1->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhSplitEFracEnCutNLocMax1->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhSplitEFracEnCutNLocMax1) ;
          
          fhSplitEFracEnCutNLocMax2  = new TH2F("hSplitEFracEnCutNLocMax2",Form("SplitEFracmetry of #it{NLM}=2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1))
                                          , nptbins,ptmin,ptmax,120,0,1.2);
          fhSplitEFracEnCutNLocMax2->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhSplitEFracEnCutNLocMax2->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhSplitEFracEnCutNLocMax2) ;
          
          fhSplitEFracEnCutNLocMaxN  = new TH2F("hSplitEFracEnCutNLocMaxN",Form("SplitEFracmetry of NLM>2  vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2))
                                          , nptbins,ptmin,ptmax,120,0,1.2);
          fhSplitEFracEnCutNLocMaxN->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhSplitEFracEnCutNLocMaxN->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhSplitEFracEnCutNLocMaxN) ;
        }
        
      } // no MC
      
      if(asyOn || m02On )
      {
        fhMassAfterCutsNLocMax1[i][j]     = new TH2F(Form("hMassAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs E, %s %s, for NLM = 1, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassAfterCutsNLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassAfterCutsNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassAfterCutsNLocMax1[i][j]) ;
        
        fhMassAfterCutsNLocMax2[i][j]     = new TH2F(Form("hMassAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs E, %s %s, for NLM = 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassAfterCutsNLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassAfterCutsNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassAfterCutsNLocMax2[i][j]) ;
        
        fhMassAfterCutsNLocMaxN[i][j]     = new TH2F(Form("hMassAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs E, %s %s, for NLM > 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassAfterCutsNLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassAfterCutsNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassAfterCutsNLocMaxN[i][j]) ;

        fhMassSplitEAfterCutsNLocMax1[i][j]     = new TH2F(Form("hMassSplitEAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM = 1, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassSplitEAfterCutsNLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEAfterCutsNLocMax1[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
        outputContainer->Add(fhMassSplitEAfterCutsNLocMax1[i][j]) ;
        
        fhMassSplitEAfterCutsNLocMax2[i][j]     = new TH2F(Form("hMassSplitEAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM = 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassSplitEAfterCutsNLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEAfterCutsNLocMax2[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
        outputContainer->Add(fhMassSplitEAfterCutsNLocMax2[i][j]) ;
        
        fhMassSplitEAfterCutsNLocMaxN[i][j]     = new TH2F(Form("hMassSplitEAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM > 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassSplitEAfterCutsNLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEAfterCutsNLocMaxN[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
        outputContainer->Add(fhMassSplitEAfterCutsNLocMaxN[i][j]) ;

        
        fhSplitEFractionAfterCutsNLocMax1[i][j]     = new TH2F(Form("hSplitEFractionAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                               Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  = 1, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                               nptbins,ptmin,ptmax,120,0,1.2);
        fhSplitEFractionAfterCutsNLocMax1[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
        fhSplitEFractionAfterCutsNLocMax1[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhSplitEFractionAfterCutsNLocMax1[i][j]) ;
        
        fhSplitEFractionAfterCutsNLocMax2[i][j]     = new TH2F(Form("hSplitEFractionAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                               Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  = 2, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                               nptbins,ptmin,ptmax,120,0,1.2);
        fhSplitEFractionAfterCutsNLocMax2[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
        fhSplitEFractionAfterCutsNLocMax2[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhSplitEFractionAfterCutsNLocMax2[i][j]) ;
        
        fhSplitEFractionAfterCutsNLocMaxN[i][j]    = new TH2F(Form("hSplitEFractionAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                              Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max  > 2, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                              nptbins,ptmin,ptmax,120,0,1.2);
        fhSplitEFractionAfterCutsNLocMaxN[i][j]   ->SetXTitle("#it{E}_{cluster} (GeV)");
        fhSplitEFractionAfterCutsNLocMaxN[i][j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhSplitEFractionAfterCutsNLocMaxN[i][j]) ;
      }
      
      fhMassM02NLocMax1[i][j]  = new TH2F(Form("hMassM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("Invariant mass of splitted cluster with #it{NLM}=1, #lambda_{0}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()),
                                          ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMax1[i][j]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMax1[i][j]) ;   
      
      fhMassM02NLocMax2[i][j]  = new TH2F(Form("hMassM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("Invariant mass of splitted cluster with #it{NLM}=2, #lambda_{0}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                          ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMax2[i][j]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMax2[i][j]) ;   
      
      fhMassM02NLocMaxN[i][j]  = new TH2F(Form("hMassM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                          Form("Invariant mass of splitted cluster with NLM>2, vs #lambda_{0}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                          ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMaxN[i][j]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMaxN[i][j]) ;   
      
      if(fFillSSExtraHisto)
      {
        fhMassDispEtaNLocMax1[i][j]  = new TH2F(Form("hMassDispEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of splitted cluster with #it{NLM}=1, #sigma_{#eta #eta}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMax1[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMax1[i][j]) ;   
        
        fhMassDispEtaNLocMax2[i][j]  = new TH2F(Form("hMassDispEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of splitted cluster with #it{NLM}=2 #sigma_{#eta #eta}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMax2[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMax2[i][j]) ;   
        
        fhMassDispEtaNLocMaxN[i][j]  = new TH2F(Form("hMassDispEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of splitted cluster with NLM>2, #sigma_{#eta #eta}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMaxN[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMaxN[i][j]) ;   
        
        fhMassDispPhiNLocMax1[i][j]  = new TH2F(Form("hMassDispPhiNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of 2 highest energy cells #sigma_{#phi #phi}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMax1[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMax1[i][j]) ;   
        
        fhMassDispPhiNLocMax2[i][j]  = new TH2F(Form("hMassDispPhiNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of 2 local maxima cells #sigma_{#phi #phi}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMax2[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMax2[i][j]) ;   
        
        fhMassDispPhiNLocMaxN[i][j]  = new TH2F(Form("hMassDispPhiNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of N>2 local maxima cells vs #sigma_{#phi #phi}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMaxN[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMaxN[i][j]) ;   
        
        fhMassDispAsyNLocMax1[i][j]  = new TH2F(Form("hMassDispAsyNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of 2 highest energy cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()),
                                                200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMax1[i][j]->SetXTitle("A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMax1[i][j]) ;   
        
        fhMassDispAsyNLocMax2[i][j]  = new TH2F(Form("hMassDispAsyNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of 2 local maxima cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMax2[i][j]->SetXTitle("A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMax2[i][j]) ;   
        
        fhMassDispAsyNLocMaxN[i][j]  = new TH2F(Form("hMassDispAsyNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Invariant mass of N>2 local maxima cells vsA = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMaxN[i][j]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMaxN[i][j]) ;   
      }
      
      
      if(i > 0 && fFillMCHisto) // skip first entry in array, general case not filled
      {
        fhMCGenFracNLocMax1[i][j]     = new TH2F(Form("hMCGenFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                 Form("#lambda_{0}^{2} vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                 nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenFracNLocMax1[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMax1[i][j]) ; 
        
        fhMCGenFracNLocMax2[i][j]     = new TH2F(Form("hMCGenFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                 Form("#lambda_{0}^{2} vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                 nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenFracNLocMax2[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMax2[i][j]) ; 
        
        fhMCGenFracNLocMaxN[i][j]    = new TH2F(Form("hMCGenFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("#lambda_{0}^{2} vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenFracNLocMaxN[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMaxN[i][j]) ; 
        
        fhMCGenFracNLocMax1NoOverlap[i][j]     = new TH2F(Form("hMCGenFracNoOverlapNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                          Form("#lambda_{0}^{2} vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                          nptbins,ptmin,ptmax,200,0,2);
        fhMCGenFracNLocMax1NoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMax1NoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMax1NoOverlap[i][j]) ;
        
        fhMCGenFracNLocMax2NoOverlap[i][j]     = new TH2F(Form("hMCGenFracNoOverlapNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                          Form("#lambda_{0}^{2} vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                          nptbins,ptmin,ptmax,200,0,2);
        fhMCGenFracNLocMax2NoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMax2NoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMax2NoOverlap[i][j]) ;
        
        fhMCGenFracNLocMaxNNoOverlap[i][j]    = new TH2F(Form("hMCGenFracNoOverlapNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                         Form("#lambda_{0}^{2} vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                         nptbins,ptmin,ptmax,200,0,2);
        fhMCGenFracNLocMaxNNoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
        fhMCGenFracNLocMaxNNoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenFracNLocMaxNNoOverlap[i][j]) ;
        
        
        fhMCGenSplitEFracNLocMax1[i][j]     = new TH2F(Form("hMCGenSplitEFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                       Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                       nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenSplitEFracNLocMax1[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMax1[i][j]) ; 
        
        fhMCGenSplitEFracNLocMax2[i][j]     = new TH2F(Form("hMCGenSplitEFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                       Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                       nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenSplitEFracNLocMax2[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMax2[i][j]) ; 
        
        fhMCGenSplitEFracNLocMaxN[i][j]    = new TH2F(Form("hMCGenSplitEFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                      Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                      nptbins,ptmin,ptmax,200,0,2); 
        fhMCGenSplitEFracNLocMaxN[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMaxN[i][j]) ; 
        
        fhMCGenSplitEFracNLocMax1NoOverlap[i][j]     = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                                Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                                nptbins,ptmin,ptmax,200,0,2);
        fhMCGenSplitEFracNLocMax1NoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMax1NoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMax1NoOverlap[i][j]) ;
        
        fhMCGenSplitEFracNLocMax2NoOverlap[i][j]     = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                                Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                                nptbins,ptmin,ptmax,200,0,2);
        fhMCGenSplitEFracNLocMax2NoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMax2NoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMax2NoOverlap[i][j]) ;
        
        fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]    = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                               Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                               nptbins,ptmin,ptmax,200,0,2);
        fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
        fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]) ;
        
        fhMCGenEFracvsSplitEFracNLocMax1[i][j]     = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                              Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                              200,0,2,200,0,2); 
        fhMCGenEFracvsSplitEFracNLocMax1[i][j]   ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}");
        fhMCGenEFracvsSplitEFracNLocMax1[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
        outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMax1[i][j]) ; 
        
        fhMCGenEFracvsSplitEFracNLocMax2[i][j]     = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                              Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                              200,0,2,200,0,2); 
        fhMCGenEFracvsSplitEFracNLocMax2[i][j]   ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}");
        fhMCGenEFracvsSplitEFracNLocMax2[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
        outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMax2[i][j]) ; 
        
        
        fhMCGenEFracvsSplitEFracNLocMaxN[i][j]    = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                             Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                             200,0,2,200,0,2); 
        fhMCGenEFracvsSplitEFracNLocMaxN[i][j]   ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}");
        fhMCGenEFracvsSplitEFracNLocMaxN[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
        outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMaxN[i][j]) ; 
        
        
        fhMCGenEvsSplitENLocMax1[i][j]     = new TH2F(Form("hMCGenEvsSplitENLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                      Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max  = 1 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                      nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); 
        fhMCGenEvsSplitENLocMax1[i][j]   ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)");
        fhMCGenEvsSplitENLocMax1[i][j]   ->SetXTitle("#it{E}_{gen} (GeV)");
        outputContainer->Add(fhMCGenEvsSplitENLocMax1[i][j]) ; 
        
        fhMCGenEvsSplitENLocMax2[i][j]     = new TH2F(Form("hMCGenEvsSplitENLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                      Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max  = 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                      nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); 
        fhMCGenEvsSplitENLocMax2[i][j]   ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)");
        fhMCGenEvsSplitENLocMax2[i][j]   ->SetXTitle("#it{E}_{gen} (GeV)");
        outputContainer->Add(fhMCGenEvsSplitENLocMax2[i][j]) ; 
        
        
        fhMCGenEvsSplitENLocMaxN[i][j]    = new TH2F(Form("hMCGenEvsSplitENLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max  > 2 %s %s",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); 
        fhMCGenEvsSplitENLocMaxN[i][j]   ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)");
        fhMCGenEvsSplitENLocMaxN[i][j]   ->SetXTitle("#it{E}_{gen} (GeV)");
        outputContainer->Add(fhMCGenEvsSplitENLocMaxN[i][j]) ; 
      }
          
      // Histograms after cluster identification
      
      
      // Pi0 //
      
      fhM02Pi0NLocMax1[i][j]     = new TH2F(Form("hM02Pi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM = 1",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
      fhM02Pi0NLocMax1[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02Pi0NLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02Pi0NLocMax1[i][j]) ;
      
      fhM02Pi0NLocMax2[i][j]     = new TH2F(Form("hM02Pi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM = 2",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); 
      fhM02Pi0NLocMax2[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02Pi0NLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02Pi0NLocMax2[i][j]) ; 
      
      fhM02Pi0NLocMaxN[i][j]     = new TH2F(Form("hM02Pi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM > 2",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); 
      fhM02Pi0NLocMaxN[i][j]   ->SetYTitle("#lambda_{0}^{2}");
      fhM02Pi0NLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhM02Pi0NLocMaxN[i][j]) ; 
      
      fhMassPi0NLocMax1[i][j]     = new TH2F(Form("hMassPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E}, %s, for NLM = 1",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassPi0NLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassPi0NLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassPi0NLocMax1[i][j]) ; 
      
      fhMassPi0NLocMax2[i][j]     = new TH2F(Form("hMassPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E} , %s, for NLM = 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassPi0NLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassPi0NLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassPi0NLocMax2[i][j]) ; 
      
      fhMassPi0NLocMaxN[i][j]     = new TH2F(Form("hMassPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E}, %s, for NLM > 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhMassPi0NLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassPi0NLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMassPi0NLocMaxN[i][j]) ; 

      fhMassSplitEPi0NLocMax1[i][j]     = new TH2F(Form("hMassSplitEPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s, for NLM = 1",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitEPi0NLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassSplitEPi0NLocMax1[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitEPi0NLocMax1[i][j]) ;
      
      fhMassSplitEPi0NLocMax2[i][j]     = new TH2F(Form("hMassSplitEPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E}_{1}+#it{E}_{2} , %s, for NLM = 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitEPi0NLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassSplitEPi0NLocMax2[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitEPi0NLocMax2[i][j]) ;
      
      fhMassSplitEPi0NLocMaxN[i][j]     = new TH2F(Form("hMassSplitEPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s, for NLM > 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMassSplitEPi0NLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassSplitEPi0NLocMaxN[i][j]   ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)");
      outputContainer->Add(fhMassSplitEPi0NLocMaxN[i][j]) ;
      
      fhAsyPi0NLocMax1[i][j]     = new TH2F(Form("hAsyPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhAsyPi0NLocMax1[i][j]   ->SetYTitle("#it{A}");
      fhAsyPi0NLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsyPi0NLocMax1[i][j]) ; 
      
      fhAsyPi0NLocMax2[i][j]     = new TH2F(Form("hAsyPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhAsyPi0NLocMax2[i][j]   ->SetYTitle("#it{A}");
      fhAsyPi0NLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsyPi0NLocMax2[i][j]) ; 
      
      fhAsyPi0NLocMaxN[i][j]     = new TH2F(Form("hAsyPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                            Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()),
                                            nptbins,ptmin,ptmax,mbins,mmin,mmax); 
      fhAsyPi0NLocMaxN[i][j]   ->SetYTitle("#it{A}");
      fhAsyPi0NLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsyPi0NLocMaxN[i][j]) ; 
      
      if(fFillNCellHisto)
      {
        fhNCellPi0NLocMax1[i][j]     = new TH2F(Form("hNCellPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("n cells vs E, %s, for NLM = 1",ptype[i].Data()),
                                                nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellPi0NLocMax1[i][j]   ->SetYTitle("#it{N} cells");
        fhNCellPi0NLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellPi0NLocMax1[i][j]) ;
        
        fhNCellPi0NLocMax2[i][j]     = new TH2F(Form("hNCellPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("n cells vs E, %s, for NLM = 2",ptype[i].Data()),
                                                nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellPi0NLocMax2[i][j]   ->SetYTitle("#it{N} cells");
        fhNCellPi0NLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellPi0NLocMax2[i][j]) ;
        
        fhNCellPi0NLocMaxN[i][j]     = new TH2F(Form("hNCellPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("n cells vs E, %s, for NLM > 2",ptype[i].Data()),
                                                nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
        fhNCellPi0NLocMaxN[i][j]   ->SetYTitle("#it{N} cells");
        fhNCellPi0NLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhNCellPi0NLocMaxN[i][j]) ;
      }
      
      // Eta
    
      if(fFillIdEtaHisto)
      {
        fhM02EtaNLocMax1[i][j]     = new TH2F(Form("hM02EtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("#lambda_{0}^{2} vs E, %s, for NLM = 1",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02EtaNLocMax1[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02EtaNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02EtaNLocMax1[i][j]) ;
        
        
        fhM02EtaNLocMax2[i][j]     = new TH2F(Form("hM02EtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("#lambda_{0}^{2} vs E, %s, for NLM = 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02EtaNLocMax2[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02EtaNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02EtaNLocMax2[i][j]) ;
        
        fhM02EtaNLocMaxN[i][j]     = new TH2F(Form("hM02EtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("#lambda_{0}^{2} vs E, %s, for NLM > 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02EtaNLocMaxN[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02EtaNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02EtaNLocMaxN[i][j]) ;
        
        fhMassEtaNLocMax1[i][j]     = new TH2F(Form("hMassEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Mass vs E, %s, for NLM = 1",ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassEtaNLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassEtaNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassEtaNLocMax1[i][j]) ;
        
        fhMassEtaNLocMax2[i][j]     = new TH2F(Form("hMassEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Mass vs E, %s, for NLM = 2",ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassEtaNLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassEtaNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassEtaNLocMax2[i][j]) ;
        
        fhMassEtaNLocMaxN[i][j]     = new TH2F(Form("hMassEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Mass vs E, %s, for NLM > 2",ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassEtaNLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassEtaNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassEtaNLocMaxN[i][j]) ;
        
        fhAsyEtaNLocMax1[i][j]     = new TH2F(Form("hAsyEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyEtaNLocMax1[i][j]   ->SetYTitle("#it{A}");
        fhAsyEtaNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyEtaNLocMax1[i][j]) ;
        
        fhAsyEtaNLocMax2[i][j]     = new TH2F(Form("hAsyEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyEtaNLocMax2[i][j]   ->SetYTitle("#it{A}");
        fhAsyEtaNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyEtaNLocMax2[i][j]) ;
        
        fhAsyEtaNLocMaxN[i][j]     = new TH2F(Form("hAsyEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyEtaNLocMaxN[i][j]   ->SetYTitle("#it{A}");
        fhAsyEtaNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyEtaNLocMaxN[i][j]) ;
        
        if(fFillNCellHisto)
        {
          fhNCellEtaNLocMax1[i][j]     = new TH2F(Form("hNCellEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("n cells vs E, %s, for NLM = 1",ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhNCellEtaNLocMax1[i][j]   ->SetYTitle("#it{N} cells");
          fhNCellEtaNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhNCellEtaNLocMax1[i][j]) ;
          
          fhNCellEtaNLocMax2[i][j]     = new TH2F(Form("hNCellEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("n cells vs E, %s, for NLM = 2",ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhNCellEtaNLocMax2[i][j]   ->SetYTitle("#it{N} cells");
          fhNCellEtaNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhNCellEtaNLocMax2[i][j]) ;
          
          fhNCellEtaNLocMaxN[i][j]     = new TH2F(Form("hNCellEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("n cells vs E, %s, for NLM > 2",ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhNCellEtaNLocMaxN[i][j]   ->SetYTitle("#it{N} cells");
          fhNCellEtaNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhNCellEtaNLocMaxN[i][j]) ;
          
        }
      }
      
      if(fFillIdConvHisto)
      {
        fhM02ConNLocMax1[i][j]    = new TH2F(Form("hM02ConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("#lambda_{0}^{2} vs E, %s, for NLM = 1",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02ConNLocMax1[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02ConNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02ConNLocMax1[i][j]) ;
        
        fhM02ConNLocMax2[i][j]    = new TH2F(Form("hM02ConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("#lambda_{0}^{2} vs E, %s, for NLM = 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02ConNLocMax2[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02ConNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02ConNLocMax2[i][j]) ;
        
        fhM02ConNLocMaxN[i][j]    = new TH2F(Form("hM02ConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("#lambda_{0}^{2} vs E, %s, for NLM > 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02ConNLocMaxN[i][j]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02ConNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02ConNLocMaxN[i][j]) ;
        
        
        fhMassConNLocMax1[i][j]    = new TH2F(Form("hMassConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Mass vs E, %s, for NLM = 1",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassConNLocMax1[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassConNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassConNLocMax1[i][j]) ;
        
        fhMassConNLocMax2[i][j]    = new TH2F(Form("hMassConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Mass vs E, %s, for NLM = 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassConNLocMax2[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassConNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassConNLocMax2[i][j]) ;
        
        fhMassConNLocMaxN[i][j]    = new TH2F(Form("hMassConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Mass vs E, %s, for NLM > 2",ptype[i].Data()),
                                              nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMassConNLocMaxN[i][j]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassConNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMassConNLocMaxN[i][j]) ;
        
        fhAsyConNLocMax1[i][j]    = new TH2F(Form("hAsyConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyConNLocMax1[i][j]   ->SetYTitle("#it{A}");
        fhAsyConNLocMax1[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyConNLocMax1[i][j]) ;
        
        fhAsyConNLocMax2[i][j]    = new TH2F(Form("hAsyConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyConNLocMax2[i][j]   ->SetYTitle("#it{A}");
        fhAsyConNLocMax2[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyConNLocMax2[i][j]) ;
        
        fhAsyConNLocMaxN[i][j]    = new TH2F(Form("hAsyConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                             Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()),
                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhAsyConNLocMaxN[i][j]   ->SetYTitle("#it{A}");
        fhAsyConNLocMaxN[i][j]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAsyConNLocMaxN[i][j]) ;
        
      }
      
    } // matched, not matched
    
    if(fFillEbinHisto)
    {
      for(Int_t j = 0; j < 4; j++)
      {
        
        fhMassSplitEFractionNLocMax1Ebin[i][j]  = new TH2F(Form("hMassSplitEFractionNLocMax1%sEbin%d",pname[i].Data(),j),
                                                           Form("Invariant mass of 2 highest energy cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                           120,0,1.2,mbins,mmin,mmax);
        fhMassSplitEFractionNLocMax1Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEFractionNLocMax1Ebin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhMassSplitEFractionNLocMax1Ebin[i][j]) ;
        
        fhMassSplitEFractionNLocMax2Ebin[i][j]  = new TH2F(Form("hMassSplitEFractionNLocMax2%sEbin%d",pname[i].Data(),j),
                                                           Form("Invariant mass of 2 local maxima cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                           120,0,1.2,mbins,mmin,mmax);
        fhMassSplitEFractionNLocMax2Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEFractionNLocMax2Ebin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhMassSplitEFractionNLocMax2Ebin[i][j]) ;
        
        fhMassSplitEFractionNLocMaxNEbin[i][j]  = new TH2F(Form("hMassSplitEFractionNLocMaxN%sEbin%d",pname[i].Data(),j),
                                                           Form("Invariant mass of N>2 local maxima cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                           120,0,1.2,mbins,mmin,mmax);
        fhMassSplitEFractionNLocMaxNEbin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassSplitEFractionNLocMaxNEbin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        outputContainer->Add(fhMassSplitEFractionNLocMaxNEbin[i][j]) ;
        
        if(i>0 && fFillMCHisto) // skip first entry in array, general case not filled
        {
          fhMCGenFracNLocMaxEbin[i][j]  = new TH2F(Form("hMCGenFracNLocMax%sEbin%d",pname[i].Data(),j),
                                                   Form("NLM vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                   200,0,2,nMaxBins,0,nMaxBins);
          fhMCGenFracNLocMaxEbin[i][j]->SetYTitle("#it{NLM}");
          fhMCGenFracNLocMaxEbin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhMCGenFracNLocMaxEbin[i][j]) ;
          
          fhMCGenFracNLocMaxEbinMatched[i][j]  = new TH2F(Form("hMCGenFracNLocMax%sEbin%dMatched",pname[i].Data(),j),
                                                          Form("NLM vs E, %s, %s, matched to a track",ptype[i].Data(),sEBin[j].Data()),
                                                          200,0,2,nMaxBins,0,nMaxBins);
          fhMCGenFracNLocMaxEbinMatched[i][j]->SetYTitle("#it{NLM}");
          fhMCGenFracNLocMaxEbinMatched[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhMCGenFracNLocMaxEbinMatched[i][j]) ;
          
          fhMassMCGenFracNLocMax1Ebin[i][j]  = new TH2F(Form("hMassMCGenFracNLocMax1%sEbin%d",pname[i].Data(),j),
                                                        Form("Invariant mass of 2 highest energy cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                        200,0,2,mbins,mmin,mmax);
          fhMassMCGenFracNLocMax1Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassMCGenFracNLocMax1Ebin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhMassMCGenFracNLocMax1Ebin[i][j]) ;
          
          fhMassMCGenFracNLocMax2Ebin[i][j]  = new TH2F(Form("hMassMCGenFracNLocMax2%sEbin%d",pname[i].Data(),j),
                                                        Form("Invariant mass of 2 local maxima cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                        200,0,2,mbins,mmin,mmax);
          fhMassMCGenFracNLocMax2Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassMCGenFracNLocMax2Ebin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhMassMCGenFracNLocMax2Ebin[i][j]) ;
          
          fhMassMCGenFracNLocMaxNEbin[i][j]  = new TH2F(Form("hMassMCGenFracNLocMaxN%sEbin%d",pname[i].Data(),j),
                                                        Form("Invariant mass of N>2 local maxima cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                        200,0,2,mbins,mmin,mmax);
          fhMassMCGenFracNLocMaxNEbin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMassMCGenFracNLocMaxNEbin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhMassMCGenFracNLocMaxNEbin[i][j]) ;
          
          fhM02MCGenFracNLocMax1Ebin[i][j]     = new TH2F(Form("hM02MCGenFracNLocMax1%sEbin%d",pname[i].Data(),j),
                                                          Form("#lambda_{0}^{2} vs E for N max  = 1 %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                          200,0,2,ssbins,ssmin,ssmax);
          fhM02MCGenFracNLocMax1Ebin[i][j]   ->SetYTitle("#lambda_{0}^{2}");
          fhM02MCGenFracNLocMax1Ebin[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhM02MCGenFracNLocMax1Ebin[i][j]) ;
          
          fhM02MCGenFracNLocMax2Ebin[i][j]     = new TH2F(Form("hM02MCGenFracNLocMax2%sEbin%d",pname[i].Data(),j),
                                                          Form("#lambda_{0}^{2} vs E for N max  = 2 %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                          200,0,2,ssbins,ssmin,ssmax);
          fhM02MCGenFracNLocMax2Ebin[i][j]   ->SetYTitle("#lambda_{0}^{2}");
          fhM02MCGenFracNLocMax2Ebin[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhM02MCGenFracNLocMax2Ebin[i][j]) ;
          
          fhM02MCGenFracNLocMaxNEbin[i][j]    = new TH2F(Form("hM02MCGenFracNLocMaxN%sEbin%d",pname[i].Data(),j),
                                                         Form("#lambda_{0}^{2} vs E for N max  > 2 %s, %s",ptype[i].Data(),sEBin[j].Data()),
                                                         200,0,2,ssbins,ssmin,ssmax);
          fhM02MCGenFracNLocMaxNEbin[i][j]   ->SetYTitle("#lambda_{0}^{2}");
          fhM02MCGenFracNLocMaxNEbin[i][j]   ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}");
          outputContainer->Add(fhM02MCGenFracNLocMaxNEbin[i][j]) ;
        }
      }
    }
  } // MC particle list
  
  if(fFillHighMultHisto)
  {
    // E vs centrality

    fhCentralityPi0NLocMax1  = new TH2F("hCentralityPi0NLocMax1",
                                        "E vs Centrality, selected pi0 cluster with #it{NLM}=1",
                                        nptbins,ptmin,ptmax,100,0,100);
    fhCentralityPi0NLocMax1->SetYTitle("#it{Centrality}");
    fhCentralityPi0NLocMax1->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhCentralityPi0NLocMax1) ;
    
    fhCentralityPi0NLocMax2  = new TH2F("hCentralityPi0NLocMax2",
                                        "E vs Centrality, selected pi0 cluster with #it{NLM}=2",
                                        nptbins,ptmin,ptmax,100,0,100);
    fhCentralityPi0NLocMax2->SetYTitle("#it{Centrality}");
    fhCentralityPi0NLocMax2->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhCentralityPi0NLocMax2) ;
    
    fhCentralityPi0NLocMaxN  = new TH2F("hCentralityPi0NLocMaxN",
                                        "E vs Centrality, selected pi0 cluster with NLM>1",
                                        nptbins,ptmin,ptmax,100,0,100);
    fhCentralityPi0NLocMaxN->SetYTitle("#it{Centrality}");
    fhCentralityPi0NLocMaxN->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhCentralityPi0NLocMaxN) ;
    
    if(fFillIdEtaHisto)
    {
      fhCentralityEtaNLocMax1  = new TH2F("hCentralityEtaNLocMax1",
                                          "E vs Centrality, selected pi0 cluster with #it{NLM}=1",
                                          nptbins,ptmin,ptmax,100,0,100);
      fhCentralityEtaNLocMax1->SetYTitle("#it{Centrality}");
      fhCentralityEtaNLocMax1->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhCentralityEtaNLocMax1) ;
      
      fhCentralityEtaNLocMax2  = new TH2F("hCentralityEtaNLocMax2",
                                          "E vs Centrality, selected pi0 cluster with #it{NLM}=2",
                                          nptbins,ptmin,ptmax,100,0,100);
      fhCentralityEtaNLocMax2->SetYTitle("#it{Centrality}");
      fhCentralityEtaNLocMax2->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhCentralityEtaNLocMax2) ;
      
      fhCentralityEtaNLocMaxN  = new TH2F("hCentralityEtaNLocMaxN",
                                          "E vs Centrality, selected pi0 cluster with NLM>1",
                                          nptbins,ptmin,ptmax,100,0,100);
      fhCentralityEtaNLocMaxN->SetYTitle("#it{Centrality}");
      fhCentralityEtaNLocMaxN->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhCentralityEtaNLocMaxN) ;
    }
    
    // E vs Event plane angle
    
    fhEventPlanePi0NLocMax1  = new TH2F("hEventPlanePi0NLocMax1","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=1",
                                        nptbins,ptmin,ptmax,100,0,TMath::Pi());
    fhEventPlanePi0NLocMax1->SetYTitle("#it{Event Plane Angle} (rad)");
    fhEventPlanePi0NLocMax1->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhEventPlanePi0NLocMax1) ;
    
    fhEventPlanePi0NLocMax2  = new TH2F("hEventPlanePi0NLocMax2","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=2",
                                        nptbins,ptmin,ptmax,100,0,TMath::Pi());
    fhEventPlanePi0NLocMax2->SetYTitle("#it{Event Plane Angle} (rad)");
    fhEventPlanePi0NLocMax2->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhEventPlanePi0NLocMax2) ;
    
    fhEventPlanePi0NLocMaxN  = new TH2F("hEventPlanePi0NLocMaxN","E vs Event Plane Angle, selected pi0 cluster with NLM>1",
                                        nptbins,ptmin,ptmax,100,0,TMath::Pi());
    fhEventPlanePi0NLocMaxN->SetYTitle("#it{Event Plane Angle} (rad)");
    fhEventPlanePi0NLocMaxN->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhEventPlanePi0NLocMaxN) ;
    
    if(fFillIdEtaHisto)
    {
      fhEventPlaneEtaNLocMax1  = new TH2F("hEventPlaneEtaNLocMax1","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=1",
                                          nptbins,ptmin,ptmax,100,0,TMath::Pi());
      fhEventPlaneEtaNLocMax1->SetYTitle("#it{Event Plane Angle} (rad)");
      fhEventPlaneEtaNLocMax1->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhEventPlaneEtaNLocMax1) ;
      
      fhEventPlaneEtaNLocMax2  = new TH2F("hEventPlaneEtaNLocMax2","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=2",
                                          nptbins,ptmin,ptmax,100,0,TMath::Pi());
      fhEventPlaneEtaNLocMax2->SetYTitle("#it{Event Plane Angle} (rad)");
      fhEventPlaneEtaNLocMax2->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhEventPlaneEtaNLocMax2) ;
      
      fhEventPlaneEtaNLocMaxN  = new TH2F("hEventPlaneEtaNLocMaxN","E vs Event Plane Angle, selected pi0 cluster with NLM>1",
                                          nptbins,ptmin,ptmax,100,0,TMath::Pi());
      fhEventPlaneEtaNLocMaxN->SetYTitle("#it{Event Plane Angle} (rad)");
      fhEventPlaneEtaNLocMaxN->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhEventPlaneEtaNLocMaxN) ;
    }
  }
  
  if(fFillEbinHisto)
  {
    for(Int_t i = 0; i < 4; i++)
    {
      fhMassM02NLocMax1Ebin[i]  = new TH2F(Form("hMassM02NLocMax1Ebin%d",i),
                                           Form("Invariant mass of split clusters vs #lambda_{0}^{2}, #it{NLM}=1, %s",sEBin[i].Data()),
                                           ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMax1Ebin[i]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMax1Ebin[i]) ;   
      
      fhMassM02NLocMax2Ebin[i]  = new TH2F(Form("hMassM02NLocMax2Ebin%d",i),
                                           Form("Invariant mass of split clusters vs #lambda_{0}^{2}, #it{NLM}=2, %s",sEBin[i].Data()),
                                           ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMax2Ebin[i]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMax2Ebin[i]) ;   
      
      fhMassM02NLocMaxNEbin[i]  = new TH2F(Form("hMassM02NLocMaxNEbin%d",i),
                                           Form("Invariant mass of split clusters vs vs #lambda_{0}^{2}, NLM>2, %s",sEBin[i].Data()),
                                           ssbins,ssmin,ssmax,mbins,mmin,mmax); 
      fhMassM02NLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassM02NLocMaxNEbin[i]->SetXTitle("#lambda_{0}^{2}");
      outputContainer->Add(fhMassM02NLocMaxNEbin[i]) ; 
      
      
      fhMassAsyNLocMax1Ebin[i]  = new TH2F(Form("hMassAsyNLocMax1Ebin%d",i),
                                           Form("Invariant mass of split clusters vs split asymmetry, #it{NLM}=1, %s",sEBin[i].Data()),
                                           200,-1,1,mbins,mmin,mmax);
      fhMassAsyNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassAsyNLocMax1Ebin[i]->SetXTitle("asymmetry");
      outputContainer->Add(fhMassAsyNLocMax1Ebin[i]) ;
      
      fhMassAsyNLocMax2Ebin[i]  = new TH2F(Form("hMassAsyNLocMax2Ebin%d",i),
                                           Form("Invariant mass of split clusters vs split asymmetry, #it{NLM}=2, %s",sEBin[i].Data()),
                                           200,-1,1,mbins,mmin,mmax);
      fhMassAsyNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassAsyNLocMax2Ebin[i]->SetXTitle("asymmetry");
      outputContainer->Add(fhMassAsyNLocMax2Ebin[i]) ;
      
      fhMassAsyNLocMaxNEbin[i]  = new TH2F(Form("hMassAsyNLocMaxNEbin%d",i),
                                           Form("Invariant mass of split clusters vs split asymmetry, NLM>2, %s",sEBin[i].Data()),
                                           200,-1,1,mbins,mmin,mmax);
      fhMassAsyNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMassAsyNLocMaxNEbin[i]->SetXTitle("asymmetry");
      outputContainer->Add(fhMassAsyNLocMaxNEbin[i]) ;
      
      
      if(IsDataMC() && fFillMCHisto)
      {
        fhMCAsymM02NLocMax1MCPi0Ebin[i]  = new TH2F(Form("hMCAsymM02NLocMax1MCPi0Ebin%d",i),
                                                    Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, #it{NLM}=1, %s",sEBin[i].Data()),
                                                    ssbins,ssmin,ssmax,100,0,1);
        fhMCAsymM02NLocMax1MCPi0Ebin[i]->SetYTitle("Decay asymmetry");
        fhMCAsymM02NLocMax1MCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}");
        outputContainer->Add(fhMCAsymM02NLocMax1MCPi0Ebin[i]) ;
        
        fhMCAsymM02NLocMax2MCPi0Ebin[i]  = new TH2F(Form("hMCAsymM02NLocMax2MCPi0Ebin%d",i),
                                                    Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, #it{NLM}=2, %s",sEBin[i].Data()),
                                                    ssbins,ssmin,ssmax,100,0,1);
        fhMCAsymM02NLocMax2MCPi0Ebin[i]->SetYTitle("Decay asymmetry");
        fhMCAsymM02NLocMax2MCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}");
        outputContainer->Add(fhMCAsymM02NLocMax2MCPi0Ebin[i]) ;
        
        fhMCAsymM02NLocMaxNMCPi0Ebin[i]  = new TH2F(Form("hMCAsymM02NLocMaxNMCPi0Ebin%d",i),
                                                    Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, NLM>2, %s",sEBin[i].Data()),
                                                    ssbins,ssmin,ssmax,100,0,1);
        fhMCAsymM02NLocMaxNMCPi0Ebin[i]->SetYTitle("Decay asymmetry");
        fhMCAsymM02NLocMaxNMCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}");
        outputContainer->Add(fhMCAsymM02NLocMaxNMCPi0Ebin[i]) ;    
        
        
        fhAsyMCGenRecoNLocMax1EbinPi0[i]  = new TH2F(Form("hAsyMCGenRecoNLocMax1Ebin%dPi0",i),
                                                     Form("Generated vs reconstructed asymmetry of split clusters from pi0, #it{NLM}=1, %s",sEBin[i].Data()),
                                                     200,-1,1,200,-1,1);
        fhAsyMCGenRecoNLocMax1EbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhAsyMCGenRecoNLocMax1EbinPi0[i]->SetXTitle("#it{A}");
        outputContainer->Add(fhAsyMCGenRecoNLocMax1EbinPi0[i]) ;
        
        fhAsyMCGenRecoNLocMax2EbinPi0[i]  = new TH2F(Form("hAsyMCGenRecoNLocMax2Ebin%dPi0",i),
                                                     Form("Generated vs reconstructed asymmetry of split clusters from pi0, #it{NLM}=2, %s",sEBin[i].Data()),
                                                     200,-1,1,200,-1,1);
        fhAsyMCGenRecoNLocMax2EbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhAsyMCGenRecoNLocMax2EbinPi0[i]->SetXTitle("#it{A}");
        outputContainer->Add(fhAsyMCGenRecoNLocMax2EbinPi0[i]) ;
        
        fhAsyMCGenRecoNLocMaxNEbinPi0[i]  = new TH2F(Form("hAsyMCGenRecoNLocMaxNEbin%dPi0",i),
                                                     Form("Generated vs reconstructed asymmetry of split clusters from pi0, NLM>2, %s",sEBin[i].Data()),
                                                     200,-1,1,200,-1,1);
        fhAsyMCGenRecoNLocMaxNEbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhAsyMCGenRecoNLocMaxNEbinPi0[i]->SetXTitle("#it{A}");
        outputContainer->Add(fhAsyMCGenRecoNLocMaxNEbinPi0[i]) ;
      }
      
      if(fFillSSExtraHisto)
      {
        fhMassDispEtaNLocMax1Ebin[i]  = new TH2F(Form("hMassDispEtaNLocMax1Ebin%d",i),
                                                 Form("Invariant mass of 2 highest energy cells #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMax1Ebin[i]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMax1Ebin[i]) ;   
        
        fhMassDispEtaNLocMax2Ebin[i]  = new TH2F(Form("hMassDispEtaNLocMax2Ebin%d",i),
                                                 Form("Invariant mass of 2 local maxima cells #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMax2Ebin[i]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMax2Ebin[i]) ;   
        
        fhMassDispEtaNLocMaxNEbin[i]  = new TH2F(Form("hMassDispEtaNLocMaxNEbin%d",i),
                                                 Form("Invariant mass of N>2 local maxima cells vs #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispEtaNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispEtaNLocMaxNEbin[i]->SetXTitle("#sigma_{#eta #eta}^{2}");
        outputContainer->Add(fhMassDispEtaNLocMaxNEbin[i]) ;   
        
        fhMassDispPhiNLocMax1Ebin[i]  = new TH2F(Form("hMassDispPhiNLocMax1Ebin%d",i),
                                                 Form("Invariant mass of 2 highest energy cells #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMax1Ebin[i]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMax1Ebin[i]) ;   
        
        fhMassDispPhiNLocMax2Ebin[i]  = new TH2F(Form("hMassDispPhiNLocMax2Ebin%d",i),
                                                 Form("Invariant mass of 2 local maxima cells #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMax2Ebin[i]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMax2Ebin[i]) ;   
        
        fhMassDispPhiNLocMaxNEbin[i]  = new TH2F(Form("hMassDispPhiNLocMaxNEbin%d",i),
                                                 Form("Invariant mass of N>2 local maxima cells vs #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()),
                                                 ssbins,ssmin,ssmax,mbins,mmin,mmax); 
        fhMassDispPhiNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispPhiNLocMaxNEbin[i]->SetXTitle("#sigma_{#phi #phi}^{2}");
        outputContainer->Add(fhMassDispPhiNLocMaxNEbin[i]) ;   
        
        fhMassDispAsyNLocMax1Ebin[i]  = new TH2F(Form("hMassDispAsyNLocMax1Ebin%d",i),
                                                 Form("Invariant mass of 2 highest energy cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()),
                                                 200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMax1Ebin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMax1Ebin[i]) ;   
        
        fhMassDispAsyNLocMax2Ebin[i]  = new TH2F(Form("hMassDispAsyNLocMax2Ebin%d",i),
                                                 Form("Invariant mass of 2 local maxima cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()),
                                                 200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMax2Ebin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMax2Ebin[i]) ;   
        
        fhMassDispAsyNLocMaxNEbin[i]  = new TH2F(Form("hMassDispAsyNLocMaxNEbin%d",i),
                                                 Form("Invariant mass of N>2 local maxima cells vs A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()),
                                                 200,-1,1,mbins,mmin,mmax); 
        fhMassDispAsyNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMassDispAsyNLocMaxNEbin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})");
        outputContainer->Add(fhMassDispAsyNLocMaxNEbin[i]) ;   
      }
    }
  }
  
  if(IsDataMC() && fFillMCHisto && (asyOn || m02On))
  {
    fhMCGenSplitEFracAfterCutsNLocMax1MCPi0     = new TH2F("hMCGenSplitEFracAfterCutsNLocMax1MCPi0",
                                                           "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 1 MC Pi0, after M02 and Asym cut",
                                                           nptbins,ptmin,ptmax,200,0,2);
    fhMCGenSplitEFracAfterCutsNLocMax1MCPi0   ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
    fhMCGenSplitEFracAfterCutsNLocMax1MCPi0   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMax1MCPi0) ;
    
    fhMCGenSplitEFracAfterCutsNLocMax2MCPi0    = new TH2F("hMCGenSplitEFracAfterCutsNLocMax2MCPi0",
                                                          "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  = 2 MC Pi0, after M02 and Asym cut",
                                                          nptbins,ptmin,ptmax,200,0,2);
    fhMCGenSplitEFracAfterCutsNLocMax2MCPi0  ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
    fhMCGenSplitEFracAfterCutsNLocMax2MCPi0  ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMax2MCPi0) ;
    
    
    fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0    = new TH2F("hMCGenSplitEFracAfterCutsNLocMaxNMCPi0",
                                                          "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max  > 2 MC Pi0, after M02 and Asym cut",
                                                          nptbins,ptmin,ptmax,200,0,2);
    fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0  ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})");
    fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0  ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0) ;
    
    fhMCGenFracAfterCutsNLocMax1MCPi0     = new TH2F("hMCGenFracAfterCutsNLocMax1MCPi0",
                                                     "#it{E}_{gen} / #it{E}_{reco} vs #it{E}_{reco} for N max  = 1 MC Pi0, after M02 and Asym cut",
                                                     nptbins,ptmin,ptmax,200,0,2);
    fhMCGenFracAfterCutsNLocMax1MCPi0   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
    fhMCGenFracAfterCutsNLocMax1MCPi0   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenFracAfterCutsNLocMax1MCPi0) ;
    
    fhMCGenFracAfterCutsNLocMax2MCPi0    = new TH2F("hMCGenFracAfterCutsNLocMax2MCPi0",
                                                    " #it{E}_{gen} / #it{E}_{reco} vs #it{E}_{reco} for N max  = 2 MC Pi0, after M02 and Asym cut",
                                                    nptbins,ptmin,ptmax,200,0,2);
    fhMCGenFracAfterCutsNLocMax2MCPi0   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
    fhMCGenFracAfterCutsNLocMax2MCPi0   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenFracAfterCutsNLocMax2MCPi0) ;
    
    
    fhMCGenFracAfterCutsNLocMaxNMCPi0   = new TH2F("hMCGenFracAfterCutsNLocMaxNMCPi0",
                                                   " #it{E}_{gen} / #it{E}_{reco}  vs #it{E}_{reco} for N max  > 2 MC Pi0, after M02 and Asym cut",
                                                   nptbins,ptmin,ptmax,200,0,2);
    fhMCGenFracAfterCutsNLocMaxNMCPi0   ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}");
    fhMCGenFracAfterCutsNLocMaxNMCPi0   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCGenFracAfterCutsNLocMaxNMCPi0) ;
    
  }
  
  if(fFillTMResidualHisto && fFillTMHisto)
  {
    for(Int_t i = 0; i < n; i++)
    {  
      
      fhTrackMatchedDEtaNLocMax1[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax1%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); 
      fhTrackMatchedDEtaNLocMax1[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax1[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax1[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax1%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); 
      fhTrackMatchedDPhiNLocMax1[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax1[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax1[i]) ; 
      outputContainer->Add(fhTrackMatchedDPhiNLocMax1[i]) ;
      
      fhTrackMatchedDEtaNLocMax2[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax2%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); 
      fhTrackMatchedDEtaNLocMax2[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax2[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax2[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax2%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); 
      fhTrackMatchedDPhiNLocMax2[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax2[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax2[i]) ; 
      outputContainer->Add(fhTrackMatchedDPhiNLocMax2[i]) ;
      
      fhTrackMatchedDEtaNLocMaxN[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMaxN%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); 
      fhTrackMatchedDEtaNLocMaxN[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMaxN[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMaxN[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMaxN%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); 
      fhTrackMatchedDPhiNLocMaxN[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMaxN[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMaxN[i]) ; 
      outputContainer->Add(fhTrackMatchedDPhiNLocMaxN[i]) ;
      
      fhTrackMatchedDEtaNLocMax1Pos[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax1Pos%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMax1Pos[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax1Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax1Pos[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax1Pos%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMax1Pos[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax1Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax1Pos[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMax1Pos[i]) ;
      
      fhTrackMatchedDEtaNLocMax2Pos[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax2Pos%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMax2Pos[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax2Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax2Pos[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax2Pos%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMax2Pos[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax2Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax2Pos[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMax2Pos[i]) ;
      
      fhTrackMatchedDEtaNLocMaxNPos[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMaxNPos%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMaxNPos[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMaxNPos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMaxNPos[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMaxNPos%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMaxNPos[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMaxNPos[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMaxNPos[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMaxNPos[i]) ;
      
      fhTrackMatchedDEtaNLocMax1Neg[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax1Neg%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMax1Neg[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax1Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax1Neg[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax1Neg%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMax1Neg[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax1Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax1Neg[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMax1Neg[i]) ;
      
      fhTrackMatchedDEtaNLocMax2Neg[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMax2Neg%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMax2Neg[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMax2Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMax2Neg[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMax2Neg%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMax2Neg[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMax2Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMax2Neg[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMax2Neg[i]) ;
      
      fhTrackMatchedDEtaNLocMaxNNeg[i]  = new TH2F
      (Form("hTrackMatchedDEtaNLocMaxNNeg%s",pname[i].Data()),
       Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax);
      fhTrackMatchedDEtaNLocMaxNNeg[i]->SetYTitle("d#eta");
      fhTrackMatchedDEtaNLocMaxNNeg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      fhTrackMatchedDPhiNLocMaxNNeg[i]  = new TH2F
      (Form("hTrackMatchedDPhiNLocMaxNNeg%s",pname[i].Data()),
       Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()),
       nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax);
      fhTrackMatchedDPhiNLocMaxNNeg[i]->SetYTitle("d#phi (rad)");
      fhTrackMatchedDPhiNLocMaxNNeg[i]->SetXTitle("#it{E}_{cluster} (GeV)");
      
      outputContainer->Add(fhTrackMatchedDEtaNLocMaxNNeg[i]) ;
      outputContainer->Add(fhTrackMatchedDPhiNLocMaxNNeg[i]) ;
      
    }
  }
  
  if(fFillAngleHisto)
  {
    for(Int_t i = 0; i < n; i++)
    {
      for(Int_t j = 0; j < nMatched; j++)
      {
        
        fhAnglePairNLocMax1[i][j]  = new TH2F(Form("hAnglePairNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                           Form("Opening angle split sub-clusters of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                           nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairNLocMax1[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairNLocMax1[i][j]) ;
        
        fhAnglePairNLocMax2[i][j]  = new TH2F(Form("hAnglePairNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                           Form("Opening angle split sub-clusters of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                           nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairNLocMax2[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairNLocMax2[i][j]) ;
        
        fhAnglePairNLocMaxN[i][j]  = new TH2F(Form("hAnglePairNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                           Form("Opening angle split sub-clusters of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                           nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairNLocMaxN[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairNLocMaxN[i][j]) ;
        
        if(asyOn || m02On)
        {
          fhAnglePairAfterCutsNLocMax1[i][j]  = new TH2F(Form("hAnglePairAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Opening angle split sub-clusters of cluster #it{NLM}=1, after cuts, vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                nptbins,ptmin,ptmax,200,0,0.2);
          fhAnglePairAfterCutsNLocMax1[i][j]->SetYTitle("#alpha (rad)");
          fhAnglePairAfterCutsNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAnglePairAfterCutsNLocMax1[i][j]) ;
          
          fhAnglePairAfterCutsNLocMax2[i][j]  = new TH2F(Form("hAnglePairAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Opening angle split sub-clusters of cluster, after cuts, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                nptbins,ptmin,ptmax,200,0,0.2);
          fhAnglePairAfterCutsNLocMax2[i][j]->SetYTitle("#alpha (rad)");
          fhAnglePairAfterCutsNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAnglePairAfterCutsNLocMax2[i][j]) ;
          
          fhAnglePairAfterCutsNLocMaxN[i][j]  = new TH2F(Form("hAnglePairAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                Form("Opening angle split sub-clusters of cluster, after cuts, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                nptbins,ptmin,ptmax,200,0,0.2);
          fhAnglePairAfterCutsNLocMaxN[i][j]->SetYTitle("#alpha (rad)");
          fhAnglePairAfterCutsNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhAnglePairAfterCutsNLocMaxN[i][j]) ;

        }
        
        fhAnglePairPi0NLocMax1[i][j]  = new TH2F(Form("hAnglePairPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairPi0NLocMax1[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairPi0NLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairPi0NLocMax1[i][j]) ;
        
        fhAnglePairPi0NLocMax2[i][j]  = new TH2F(Form("hAnglePairPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairPi0NLocMax2[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairPi0NLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairPi0NLocMax2[i][j]) ;
        
        fhAnglePairPi0NLocMaxN[i][j]  = new TH2F(Form("hAnglePairPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters of cluster, Pi0 ID, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairPi0NLocMaxN[i][j]->SetYTitle("#alpha (rad)");
        fhAnglePairPi0NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairPi0NLocMaxN[i][j]) ;
        
        fhAnglePairMassNLocMax1[i][j]  = new TH2F(Form("hAnglePairMassNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                               mbins,mmin,mmax,200,0,0.2);
        fhAnglePairMassNLocMax1[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})");
        fhAnglePairMassNLocMax1[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairMassNLocMax1[i][j]) ;
        
        
        fhAnglePairMassNLocMax2[i][j]  = new TH2F(Form("hAnglePairMassNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Opening angle split sub-clusters of cluster #it{NLM}=2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                               mbins,mmin,mmax,200,0,0.2);
        fhAnglePairMassNLocMax2[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})");
        fhAnglePairMassNLocMax2[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairMassNLocMax2[i][j]) ;
        
        fhAnglePairMassNLocMaxN[i][j]  = new TH2F(Form("hAnglePairMassNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                               Form("Opening angle split sub-clusters of cluster NLM>2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                               mbins,mmin,mmax,200,0,0.2);
        fhAnglePairMassNLocMaxN[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})");
        fhAnglePairMassNLocMaxN[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairMassNLocMaxN[i][j]) ;  

        
        fhAnglePairM02NLocMax1[i][j]  = new TH2F(Form("hAnglePairM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs Mass for E > 15 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                  ssbins,ssmin,ssmax,200,0,0.2);
        fhAnglePairM02NLocMax1[i][j]->SetXTitle("#lambda_{0}^{2}");
        fhAnglePairM02NLocMax1[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairM02NLocMax1[i][j]) ;
        
        
        fhAnglePairM02NLocMax2[i][j]  = new TH2F(Form("hAnglePairM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("Opening angle split sub-clusters of cluster #it{NLM}=2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                  ssbins,ssmin,ssmax,200,0,0.2);
        fhAnglePairM02NLocMax2[i][j]->SetXTitle("#lambda_{0}^{2}");
        fhAnglePairM02NLocMax2[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairM02NLocMax2[i][j]) ;
        
        fhAnglePairM02NLocMaxN[i][j]  = new TH2F(Form("hAnglePairM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                  Form("Opening angle split sub-clusters of cluster NLM>2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                  ssbins,ssmin,ssmax,200,0,0.2);
        fhAnglePairM02NLocMaxN[i][j]->SetXTitle("#lambda_{0}^{2}");
        fhAnglePairM02NLocMaxN[i][j]->SetYTitle("#alpha (rad)");
        outputContainer->Add(fhAnglePairM02NLocMaxN[i][j]) ;

        fhAnglePairOverM02NLocMax1[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters  / M02 of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMax1[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMax1[i][j]) ;
        
        fhAnglePairOverM02NLocMax2[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters  / M02 of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMax2[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMax2[i][j]) ;
        
        fhAnglePairOverM02NLocMaxN[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("Opening angle split sub-clusters  / M02  of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMaxN[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMaxN[i][j]) ;

        
        fhAnglePairOverM02NLocMax1Overlap0[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMax1Overlap0%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Opening angle split sub-clusters  / M02  of cluster #it{NLM}=1 vs pair Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMax1Overlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMax1Overlap0[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMax1Overlap0[i][j]) ;
        
        fhAnglePairOverM02NLocMax2Overlap0[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMax2Overlap0%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Opening angle split sub-clusters / M02 of cluster #it{NLM}=2 cells vs Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMax2Overlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMax2Overlap0[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMax2Overlap0[i][j]) ;
        
        fhAnglePairOverM02NLocMaxNOverlap0[i][j]  = new TH2F(Form("hAnglePairOverM02NLocMaxNOverlap0%s%s",pname[i].Data(),sMatched[j].Data()),
                                                     Form("Opening angle split sub-clusters  / M02  of cluster NLM>2 vs Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                     nptbins,ptmin,ptmax,200,0,0.2);
        fhAnglePairOverM02NLocMaxNOverlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}");
        fhAnglePairOverM02NLocMaxNOverlap0[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhAnglePairOverM02NLocMaxNOverlap0[i][j]) ;

        
      }
    }
    
    if(IsDataMC())
    {
      fhAnglePairPrimPi0RecoNLocMax1  = new TH2F("fhAnglePairPrimPi0RecoNLocMax1",
                                                 "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, #it{NLM}=1",
                                                 nptbins,ptmin,ptmax,300,0,3);
      fhAnglePairPrimPi0RecoNLocMax1->SetYTitle("#alpha_{reco} / #alpha_{gen}");
      fhAnglePairPrimPi0RecoNLocMax1->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0RecoNLocMax1) ;

      fhAnglePairPrimPi0RecoNLocMax2  = new TH2F("fhAnglePairPrimPi0RecoNLocMax2",
                                                 "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, #it{NLM}=2",
                                                 nptbins,ptmin,ptmax,300,0,3);
      fhAnglePairPrimPi0RecoNLocMax2->SetYTitle("#alpha_{reco} / #alpha_{gen}");
      fhAnglePairPrimPi0RecoNLocMax2->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0RecoNLocMax2) ;

      fhAnglePairPrimPi0RecoNLocMaxN  = new TH2F("fhAnglePairPrimPi0RecoNLocMaxN",
                                                 "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, NLM>2",
                                                 nptbins,ptmin,ptmax,300,0,3);
      fhAnglePairPrimPi0RecoNLocMaxN->SetYTitle("#alpha_{reco} / #alpha_{gen}");
      fhAnglePairPrimPi0RecoNLocMaxN->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0RecoNLocMaxN) ;

      
      fhAnglePairPrimPi0vsRecoNLocMax1  = new TH2F("fhAnglePairPrimPi0vsRecoNLocMax1",
                                                   "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 15 GeV, #it{NLM}=1",
                                                   200,0,0.2,200,0,0.2);
      fhAnglePairPrimPi0vsRecoNLocMax1->SetYTitle("#alpha_{reco} (rad)");
      fhAnglePairPrimPi0vsRecoNLocMax1->SetXTitle("#alpha_{gen} (rad)");
      outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMax1) ;

      fhAnglePairPrimPi0vsRecoNLocMax2  = new TH2F("fhAnglePairPrimPi0vsRecoNLocMax2",
                                                   "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 10 GeV, #it{NLM}=2",
                                                   200,0,0.2,200,0,0.2);
      fhAnglePairPrimPi0vsRecoNLocMax2->SetYTitle("#alpha_{reco} (rad)");
      fhAnglePairPrimPi0vsRecoNLocMax2->SetXTitle("#alpha_{gen} (rad)");
      outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMax2) ;

      fhAnglePairPrimPi0vsRecoNLocMaxN  = new TH2F("fhAnglePairPrimPi0vsRecoNLocMaxN",
                                                   "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 10 GeV, #it{NLM}=2",
                                                   200,0,0.2,200,0,0.2);
      fhAnglePairPrimPi0vsRecoNLocMaxN->SetYTitle("#alpha_{reco} (rad)");
      fhAnglePairPrimPi0vsRecoNLocMaxN->SetXTitle("#alpha_{gen} (rad)");
      outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMaxN) ;
      
      
      fhAnglePairPrimPi0OverM02NLocMax1  = new TH2F("fhAnglePairPrimPi0OverM02NLocMax1",
                                                 "Primary Opening angle split neutral sub-clusters reconstructed / Over vs cluster Energy, #it{NLM}=1",
                                                 nptbins,ptmin,ptmax,200,0,0.2);
      fhAnglePairPrimPi0OverM02NLocMax1->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}");
      fhAnglePairPrimPi0OverM02NLocMax1->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMax1) ;
      
      fhAnglePairPrimPi0OverM02NLocMax2  = new TH2F("fhAnglePairPrimPi0OverM02NLocMax2",
                                                 "Primary Opening angle split neutral sub-clusters reconstructed / Over vs cluster Energy, #it{NLM}=2",
                                                 nptbins,ptmin,ptmax,200,0,0.2);
      fhAnglePairPrimPi0OverM02NLocMax2->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}");
      fhAnglePairPrimPi0OverM02NLocMax2->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMax2) ;
      
      fhAnglePairPrimPi0OverM02NLocMaxN  = new TH2F("fhAnglePairPrimPi0OverM02NLocMaxN",
                                                 "Primary Opening angle split neutral sub-clusters reconstructed / M02 vs cluster Energy, NLM>2",
                                                 nptbins,ptmin,ptmax,200,0,0.2);
      fhAnglePairPrimPi0OverM02NLocMaxN->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}");
      fhAnglePairPrimPi0OverM02NLocMaxN->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMaxN) ;

    }
  }
 
  // Same as asymmetry ...
  if(fFillThetaStarHisto)
  {
    for(Int_t i = 0; i < n; i++)
    {
      for(Int_t j = 0; j < nMatched; j++)
      {
        
        fhCosThStarNLocMax1[i][j]  = new TH2F(Form("hCosThStarNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarNLocMax1[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarNLocMax1[i][j]) ;
        
        fhCosThStarNLocMax2[i][j]  = new TH2F(Form("hCosThStarNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarNLocMax2[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarNLocMax2[i][j]) ;
        
        fhCosThStarNLocMaxN[i][j]  = new TH2F(Form("hCosThStarNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                              Form("cos(#theta^{*}) split sub-clusters of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                              nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarNLocMaxN[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarNLocMaxN[i][j]) ;
        
        if(asyOn || m02On)
        {
          fhCosThStarAfterCutsNLocMax1[i][j]  = new TH2F(Form("hCosThStarAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                         Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=1, after cuts, vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                         nptbins,ptmin,ptmax,200,-1,1);
          fhCosThStarAfterCutsNLocMax1[i][j]->SetYTitle("cos(#theta^{*})");
          fhCosThStarAfterCutsNLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhCosThStarAfterCutsNLocMax1[i][j]) ;
          
          fhCosThStarAfterCutsNLocMax2[i][j]  = new TH2F(Form("hCosThStarAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                         Form("cos(#theta^{*}) split sub-clusters of cluster, after cuts, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                         nptbins,ptmin,ptmax,200,-1,1);
          fhCosThStarAfterCutsNLocMax2[i][j]->SetYTitle("cos(#theta^{*})");
          fhCosThStarAfterCutsNLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhCosThStarAfterCutsNLocMax2[i][j]) ;
          
          fhCosThStarAfterCutsNLocMaxN[i][j]  = new TH2F(Form("hCosThStarAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                         Form("cos(#theta^{*}) split sub-clusters of cluster, after cuts, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                         nptbins,ptmin,ptmax,200,-1,1);
          fhCosThStarAfterCutsNLocMaxN[i][j]->SetYTitle("cos(#theta^{*})");
          fhCosThStarAfterCutsNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhCosThStarAfterCutsNLocMaxN[i][j]) ;
          
        }
        
        fhCosThStarPi0NLocMax1[i][j]  = new TH2F(Form("hCosThStarPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
                                                 Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                 nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarPi0NLocMax1[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarPi0NLocMax1[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarPi0NLocMax1[i][j]) ;
        
        fhCosThStarPi0NLocMax2[i][j]  = new TH2F(Form("hCosThStarPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
                                                 Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                 nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarPi0NLocMax2[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarPi0NLocMax2[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarPi0NLocMax2[i][j]) ;
        
        fhCosThStarPi0NLocMaxN[i][j]  = new TH2F(Form("hCosThStarPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
                                                 Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()),
                                                 nptbins,ptmin,ptmax,200,-1,1);
        fhCosThStarPi0NLocMaxN[i][j]->SetYTitle("cos(#theta^{*})");
        fhCosThStarPi0NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhCosThStarPi0NLocMaxN[i][j]) ;
        
      }
    }
  }

  
  for(Int_t j = 0; j < nMatched; j++)
  {
    fhSplitEFractionvsAsyNLocMax1[j]     = new TH2F(Form("hSplitEFractionvsAsyNLocMax1%s",sMatched[j].Data()),
                                                    Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max  = 1, E>12, %s",sMatched[j].Data()),
                                                    100,-1,1,120,0,1.2); 
    fhSplitEFractionvsAsyNLocMax1[j]   ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})");
    fhSplitEFractionvsAsyNLocMax1[j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
    outputContainer->Add(fhSplitEFractionvsAsyNLocMax1[j]) ; 
    
    fhSplitEFractionvsAsyNLocMax2[j]     = new TH2F(Form("hSplitEFractionvsAsyNLocMax2%s",sMatched[j].Data()),
                                                    Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max  = 2,E>12, %s",sMatched[j].Data()),
                                                    100,-1,1,120,0,1.2); 
    fhSplitEFractionvsAsyNLocMax2[j]   ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})");
    fhSplitEFractionvsAsyNLocMax2[j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
    outputContainer->Add(fhSplitEFractionvsAsyNLocMax2[j]) ; 
    
    fhSplitEFractionvsAsyNLocMaxN[j]    = new TH2F(Form("hSplitEFractionvsAsyNLocMaxN%s",sMatched[j].Data()),
                                                   Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max  > 2, E>12, %s",sMatched[j].Data()),
                                                   100,-1,1,120,0,1.2); 
    fhSplitEFractionvsAsyNLocMaxN[j]   ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})");
    fhSplitEFractionvsAsyNLocMaxN[j]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
    outputContainer->Add(fhSplitEFractionvsAsyNLocMaxN[j]) ; 
  }
  
  
  fhClusterEtaPhiNLocMax1  = new TH2F
  ("hClusterEtaPhiNLocMax1","Neutral Clusters with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhClusterEtaPhiNLocMax1->SetYTitle("#phi (rad)");
  fhClusterEtaPhiNLocMax1->SetXTitle("#eta");
  outputContainer->Add(fhClusterEtaPhiNLocMax1) ;
  
  fhClusterEtaPhiNLocMax2  = new TH2F
  ("hClusterEtaPhiNLocMax2","Neutral Clusters with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhClusterEtaPhiNLocMax2->SetYTitle("#phi (rad)");
  fhClusterEtaPhiNLocMax2->SetXTitle("#eta");
  outputContainer->Add(fhClusterEtaPhiNLocMax2) ;
  
  fhClusterEtaPhiNLocMaxN  = new TH2F
  ("hClusterEtaPhiNLocMaxN","Neutral Clusters with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhClusterEtaPhiNLocMaxN->SetYTitle("#phi (rad)");
  fhClusterEtaPhiNLocMaxN->SetXTitle("#eta");
  outputContainer->Add(fhClusterEtaPhiNLocMaxN) ;
  
  fhPi0EtaPhiNLocMax1  = new TH2F
  ("hPi0EtaPhiNLocMax1","Selected #pi^{0}'s with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhPi0EtaPhiNLocMax1->SetYTitle("#phi (rad)");
  fhPi0EtaPhiNLocMax1->SetXTitle("#eta");
  outputContainer->Add(fhPi0EtaPhiNLocMax1) ;
  
  fhPi0EtaPhiNLocMax2  = new TH2F
  ("hPi0EtaPhiNLocMax2","Selected #pi^{0}'s with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhPi0EtaPhiNLocMax2->SetYTitle("#phi (rad)");
  fhPi0EtaPhiNLocMax2->SetXTitle("#eta");
  outputContainer->Add(fhPi0EtaPhiNLocMax2) ;
  
  fhPi0EtaPhiNLocMaxN  = new TH2F
  ("hPi0EtaPhiNLocMaxN","Selected #pi^{0}'s with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
  fhPi0EtaPhiNLocMaxN->SetYTitle("#phi (rad)");
  fhPi0EtaPhiNLocMaxN->SetXTitle("#eta");
  outputContainer->Add(fhPi0EtaPhiNLocMaxN) ;
  
  if(fFillIdEtaHisto)
  {
    fhEtaEtaPhiNLocMax1  = new TH2F
    ("hEtaEtaPhiNLocMax1","Selected #eta's with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
    fhEtaEtaPhiNLocMax1->SetYTitle("#phi (rad)");
    fhEtaEtaPhiNLocMax1->SetXTitle("#eta");
    outputContainer->Add(fhEtaEtaPhiNLocMax1) ;
    
    fhEtaEtaPhiNLocMax2  = new TH2F
    ("hEtaEtaPhiNLocMax2","Selected #eta's with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
    fhEtaEtaPhiNLocMax2->SetYTitle("#phi (rad)");
    fhEtaEtaPhiNLocMax2->SetXTitle("#eta");
    outputContainer->Add(fhEtaEtaPhiNLocMax2) ;
    
    fhEtaEtaPhiNLocMaxN  = new TH2F
    ("hEtaEtaPhiNLocMaxN","Selected #eta's with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax);
    fhEtaEtaPhiNLocMaxN->SetYTitle("#phi (rad)");
    fhEtaEtaPhiNLocMaxN->SetXTitle("#eta");
    outputContainer->Add(fhEtaEtaPhiNLocMaxN) ;
  }
  
  
  if(fFillSSWeightHisto)
  {
    for(Int_t nlm = 0; nlm < 3; nlm++)
    {
      fhPi0CellE[nlm]  = new TH2F(Form("hPi0CellENLocMax%s",snlm[nlm].Data()),
                                  Form("Selected #pi^{0}'s, NLM = %s: cluster E vs cell E",snlm[nlm].Data()),
                                  nptbins,ptmin,ptmax, nptbins,ptmin,ptmax);
      fhPi0CellE[nlm]->SetYTitle("#it{E}_{cell}");
      fhPi0CellE[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellE[nlm]) ;
      
      fhPi0CellEFrac[nlm]  = new TH2F(Form("hPi0CellEFracNLocMax%s",snlm[nlm].Data()),
                                      Form("Selected #pi^{0}'s, NLM = %s: cluster E vs cell E / cluster E",snlm[nlm].Data()),
                                      nptbins,ptmin,ptmax, 100,0,1);
      fhPi0CellEFrac[nlm]->SetYTitle("#it{E}_{cell} / #it{E}_{cluster}");
      fhPi0CellEFrac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEFrac[nlm]) ;
      
      fhPi0CellLogEFrac[nlm]  = new TH2F(Form("hPi0CellLogEFracNLocMax%s",snlm[nlm].Data()),
                                         Form("Selected #pi^{0}'s, NLM = %s: cluster E vs Log(cell E / cluster E)",snlm[nlm].Data()),
                                         nptbins,ptmin,ptmax, 100,-10,0);
      fhPi0CellLogEFrac[nlm]->SetYTitle("Log(#it{E}_{cell} / #it{E}_{cluster})");
      fhPi0CellLogEFrac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellLogEFrac[nlm]) ;
      
      
      fhPi0CellEMaxEMax2Frac[nlm]  = new TH2F(Form("hPi0CellEMaxEMax2FracNLocMax%s",snlm[nlm].Data()),
                                              Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / 1st loc. max.  E",snlm[nlm].Data()),
                                              nptbins,ptmin,ptmax, 100,0,1);
      fhPi0CellEMaxEMax2Frac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{Loc Max 1}");
      fhPi0CellEMaxEMax2Frac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEMaxEMax2Frac[nlm]) ;
      
      fhPi0CellEMaxClusterFrac[nlm]  = new TH2F(Form("hPi0CellEMaxClusterFracNLocMax%s",snlm[nlm].Data()),
                                                Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 1st loc. max. E / E cluster",snlm[nlm].Data()),
                                                nptbins,ptmin,ptmax, 100,0,1);
      fhPi0CellEMaxClusterFrac[nlm]->SetYTitle("#it{E}_{Loc Max 1} / #it{E}_{cluster}");
      fhPi0CellEMaxClusterFrac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEMaxClusterFrac[nlm]) ;
      
      fhPi0CellEMax2ClusterFrac[nlm]  = new TH2F(Form("hPi0CellEMax2ClusterFracNLocMax%s",snlm[nlm].Data()),
                                                 Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / E cluster",snlm[nlm].Data()),
                                                 nptbins,ptmin,ptmax, 100,0,1);
      fhPi0CellEMax2ClusterFrac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{cluster}");
      fhPi0CellEMax2ClusterFrac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEMax2ClusterFrac[nlm]) ;
      
      fhPi0CellEMaxFrac[nlm]  = new TH2F(Form("hPi0CellEMaxFracNLocMax%s",snlm[nlm].Data()),
                                         Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 1st loc. max. E / E cell i",snlm[nlm].Data()),
                                         nptbins,ptmin,ptmax, 100,0,1);
      fhPi0CellEMaxFrac[nlm]->SetYTitle("#it{E}_{Loc Max 1} / #it{E}_{cell i}");
      fhPi0CellEMaxFrac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEMaxFrac[nlm]) ;
      
      fhPi0CellEMax2Frac[nlm]  = new TH2F(Form("hPi0CellEMax2FracNLocMax%s",snlm[nlm].Data()),
                                          Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / E cell i",snlm[nlm].Data()),
                                          nptbins,ptmin,ptmax, 200,0,2);
      fhPi0CellEMax2Frac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{cell i}");
      fhPi0CellEMax2Frac[nlm]->SetXTitle("#it{E}_{cluster}");
      outputContainer->Add(fhPi0CellEMax2Frac[nlm]) ;
      
      
      for(Int_t i = 0; i < fSSWeightN; i++)
      {
        fhM02WeightPi0[nlm][i]     = new TH2F(Form("hM02Pi0NLocMax%s_W%d",snlm[nlm].Data(),i),
                                              Form("#lambda_{0}^{2} vs E, with W0 = %2.2f, for NLM = %s", fSSWeight[i], snlm[nlm].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02WeightPi0[nlm][i]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02WeightPi0[nlm][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02WeightPi0[nlm][i]) ;
      }
      
      for(Int_t i = 0; i < fSSECellCutN; i++)
      {
        fhM02ECellCutPi0[nlm][i]     = new TH2F(Form("hM02Pi0NLocMax%s_Ecell%d",snlm[nlm].Data(),i),
                                                Form("#lambda_{0}^{2} vs E, with Ecell > %2.2f, for NLM = %s", fSSECellCut[i], snlm[nlm].Data()),
                                                nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhM02ECellCutPi0[nlm][i]   ->SetYTitle("#lambda_{0}^{2}");
        fhM02ECellCutPi0[nlm][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhM02ECellCutPi0[nlm][i]) ;
      }
      
    }
  }
  
  Int_t tdbins   = GetHistogramRanges()->GetHistoDiffTimeBins() ;    Float_t tdmax  = GetHistogramRanges()->GetHistoDiffTimeMax();     Float_t tdmin  = GetHistogramRanges()->GetHistoDiffTimeMin();
  
  fhPi0EPairDiffTimeNLM1 = new TH2F("hPi0EPairDiffTimeNLocMax1","cluster pair time difference vs E, selected #pi, #it{NLM}=1",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
  fhPi0EPairDiffTimeNLM1->SetXTitle("#it{E}_{pair} (GeV)");
  fhPi0EPairDiffTimeNLM1->SetYTitle("#Delta #it{t} (ns)");
  outputContainer->Add(fhPi0EPairDiffTimeNLM1);
  
  fhPi0EPairDiffTimeNLM2 = new TH2F("hPi0EPairDiffTimeNLocMax2","cluster pair time difference vs E, selected #pi, #it{NLM}=2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
  fhPi0EPairDiffTimeNLM2->SetXTitle("#it{E}_{pair} (GeV)");
  fhPi0EPairDiffTimeNLM2->SetYTitle("#Delta #it{t} (ns)");
  outputContainer->Add(fhPi0EPairDiffTimeNLM2);
  
  fhPi0EPairDiffTimeNLMN = new TH2F("hPi0EPairDiffTimeNLocMaxN","cluster pair time difference vs E, selected #pi, NLM>2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
  fhPi0EPairDiffTimeNLMN->SetXTitle("#it{E}_{pair} (GeV)");
  fhPi0EPairDiffTimeNLMN->SetYTitle("#Delta #it{t} (ns)");
  outputContainer->Add(fhPi0EPairDiffTimeNLMN);
  
  if(fFillIdEtaHisto)
  {
    fhEtaEPairDiffTimeNLM1 = new TH2F("hEtaEPairDiffTimeNLocMax1","cluster pair time difference vs E, selected #eta, #it{NLM}=1",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
    fhEtaEPairDiffTimeNLM1->SetXTitle("#it{E}_{pair} (GeV)");
    fhEtaEPairDiffTimeNLM1->SetYTitle("#Delta #it{t} (ns)");
    outputContainer->Add(fhEtaEPairDiffTimeNLM1);
    
    fhEtaEPairDiffTimeNLM2 = new TH2F("hEtaEPairDiffTimeNLocMax2","cluster pair time difference vs E, selected #eta, #it{NLM}=2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
    fhEtaEPairDiffTimeNLM2->SetXTitle("#it{E}_{pair} (GeV)");
    fhEtaEPairDiffTimeNLM2->SetYTitle("#Delta #it{t} (ns)");
    outputContainer->Add(fhEtaEPairDiffTimeNLM2);
    
    fhEtaEPairDiffTimeNLMN = new TH2F("hEtaEPairDiffTimeNLocMaxN","cluster pair time difference vs E, selected #eta, NLM>2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax);
    fhEtaEPairDiffTimeNLMN->SetXTitle("#it{E}_{pair} (GeV)");
    fhEtaEPairDiffTimeNLMN->SetYTitle("#Delta #it{t} (ns)");
    outputContainer->Add(fhEtaEPairDiffTimeNLMN);
  }
  
  if(fFillNCellHisto && IsDataMC())
  {
    
    fhNCellMassEHighNLocMax1MCPi0 = new TH2F("hNCellMassEHighNLocMax1MCPi0","n cells vs mass for MC pi0, high energy, #it{NLM}=1",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassEHighNLocMax1MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassEHighNLocMax1MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassEHighNLocMax1MCPi0) ;
    
    fhNCellMassELowNLocMax1MCPi0 = new TH2F("hNCellMassELowNLocMax1MCPi0","n cells vs mass for MC pi0, low energy, #it{NLM}=1",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassELowNLocMax1MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassELowNLocMax1MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassELowNLocMax1MCPi0) ;
    
    fhNCellM02EHighNLocMax1MCPi0 = new TH2F("hNCellM02EHighNLocMax1MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, #it{NLM}=1",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02EHighNLocMax1MCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02EHighNLocMax1MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02EHighNLocMax1MCPi0) ;
    
    fhNCellM02ELowNLocMax1MCPi0 = new TH2F("hNCellM02ELowNLocMax1MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, #it{NLM}=1",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02ELowNLocMax1MCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02ELowNLocMax1MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02ELowNLocMax1MCPi0) ;
    
    fhNCellMassEHighNLocMax2MCPi0 = new TH2F("hNCellMassEHighNLocMax2MCPi0","n cells vs mass for MC pi0, high energy, #it{NLM}=2",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassEHighNLocMax2MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassEHighNLocMax2MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassEHighNLocMax2MCPi0) ;
    
    fhNCellMassELowNLocMax2MCPi0 = new TH2F("hNCellMassELowNLocMax2MCPi0","n cells vs mass for MC pi0, low energy, #it{NLM}=2",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassELowNLocMax2MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassELowNLocMax2MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassELowNLocMax2MCPi0) ;
    
    fhNCellM02EHighNLocMax2MCPi0 = new TH2F("hNCellM02EHighNLocMax2MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, #it{NLM}=2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02EHighNLocMax2MCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02EHighNLocMax2MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02EHighNLocMax2MCPi0) ;
    
    fhNCellM02ELowNLocMax2MCPi0 = new TH2F("hNCellM02ELowNLocMax2MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, #it{NLM}=2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02ELowNLocMax2MCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02ELowNLocMax2MCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02ELowNLocMax2MCPi0) ;
    
    fhNCellMassEHighNLocMaxNMCPi0 = new TH2F("hNCellMassEHighNLocMaxNMCPi0","n cells vs mass for MC pi0, high energy, NLM>2",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassEHighNLocMaxNMCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassEHighNLocMaxNMCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassEHighNLocMaxNMCPi0) ;
    
    fhNCellMassELowNLocMaxNMCPi0 = new TH2F("hNCellMassELowNLocMaxNMCPi0","n cells vs mass for MC pi0, low energy, NLM>2",ncbins,ncmin,ncmax,mbins,mmin,mmax);
    fhNCellMassELowNLocMaxNMCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})");
    fhNCellMassELowNLocMaxNMCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellMassELowNLocMaxNMCPi0) ;
    
    fhNCellM02EHighNLocMaxNMCPi0 = new TH2F("hNCellM02EHighNLocMaxNMCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, NLM>2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02EHighNLocMaxNMCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02EHighNLocMaxNMCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02EHighNLocMaxNMCPi0) ;
    
    fhNCellM02ELowNLocMaxNMCPi0 = new TH2F("hNCellM02ELowNLocMaxNMCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, NLM>2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax);
    fhNCellM02ELowNLocMaxNMCPi0->SetYTitle("#lambda_{0}^{2}");
    fhNCellM02ELowNLocMaxNMCPi0->SetXTitle("#it{N} cells");
    outputContainer->Add(fhNCellM02ELowNLocMaxNMCPi0) ;
    
  }
  
  if(IsDataMC() && fFillMCOverlapHisto)
  {
    for(Int_t i = 1; i < n; i++)
    {
      for(Int_t j = 0; j < 3; j++)
      {
        fhMCENOverlaps[j][i]     = new TH2F(Form("hMCENOverlapsNLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                            Form("# overlaps vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                            nptbins,ptmin,ptmax,10,0,10);
        fhMCENOverlaps[j][i]   ->SetYTitle("# overlaps");
        fhMCENOverlaps[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCENOverlaps[j][i]) ;
        
        fhMCEM02Overlap0[j][i]     = new TH2F(Form("hMCEM02Overlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                              Form("Overlap 0, #lambda_{0}^{2} vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhMCEM02Overlap0[j][i]   ->SetYTitle("#lambda_{0}^{2}");
        fhMCEM02Overlap0[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEM02Overlap0[j][i]) ;
        
        fhMCEM02Overlap1[j][i]     = new TH2F(Form("hMCEM02Overlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                              Form("Overlap 1, #lambda_{0}^{2} vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhMCEM02Overlap1[j][i]   ->SetYTitle("#lambda_{0}^{2}");
        fhMCEM02Overlap1[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEM02Overlap1[j][i]) ;
        
        fhMCEM02OverlapN[j][i]     = new TH2F(Form("hMCEM02OverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                              Form("Overlap N, #lambda_{0}^{2} vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                              nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
        fhMCEM02OverlapN[j][i]   ->SetYTitle("#lambda_{0}^{2}");
        fhMCEM02OverlapN[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEM02OverlapN[j][i]) ;
        
        fhMCEMassOverlap0[j][i]     = new TH2F(Form("hMCEMassOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                               Form("Overlap 0, Mass vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMCEMassOverlap0[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2}");
        fhMCEMassOverlap0[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEMassOverlap0[j][i]) ;
        
        fhMCEMassOverlap1[j][i]     = new TH2F(Form("hMCEMassOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overalap 1, Mass vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMCEMassOverlap1[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2}");
        fhMCEMassOverlap1[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEMassOverlap1[j][i]) ;
        
        fhMCEMassOverlapN[j][i]     = new TH2F(Form("hMCEMassOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overlap N, Mass vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
        fhMCEMassOverlapN[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
        fhMCEMassOverlapN[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEMassOverlapN[j][i]) ;
        
        fhMCEAsymOverlap0[j][i]     = new TH2F(Form("hMCEAsymOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                               Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,100,0,1);
        fhMCEAsymOverlap0[j][i]   ->SetYTitle("|A|");
        fhMCEAsymOverlap0[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEAsymOverlap0[j][i]) ;
        
        fhMCEAsymOverlap1[j][i]     = new TH2F(Form("hMCEAsymOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,100,0,1);
        fhMCEAsymOverlap1[j][i]   ->SetYTitle("|A|");
        fhMCEAsymOverlap1[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEAsymOverlap1[j][i]) ;
        
        fhMCEAsymOverlapN[j][i]     = new TH2F(Form("hMCEAsymOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,100,0,1);
        fhMCEAsymOverlapN[j][i]   ->SetYTitle("|A|");
        fhMCEAsymOverlapN[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCEAsymOverlapN[j][i]) ;

        
        if(fFillNCellHisto)
        {
          fhMCENCellOverlap0[j][i]     = new TH2F(Form("hMCENCellOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                                  Form("Overlap 0, n cells vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlap0[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlap0[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlap0[j][i]) ;
          
          fhMCENCellOverlap1[j][i]     = new TH2F(Form("hMCENCellOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                                  Form("Overalap 1, n cells vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlap1[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlap1[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlap1[j][i]) ;
          
          fhMCENCellOverlapN[j][i]     = new TH2F(Form("hMCENCellOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                                  Form("Overlap N, n cells vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                                  nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlapN[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlapN[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlapN[j][i]) ;
        }
        
        fhMCEEpriOverlap0[j][i]     = new TH2F(Form("hMCEEpriOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                               Form("Overlap 0, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlap0[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlap0[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlap0[j][i]) ;
        
        fhMCEEpriOverlap1[j][i]     = new TH2F(Form("hMCEEpriOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overalap 1, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlap1[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlap1[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlap1[j][i]) ;
        
        fhMCEEpriOverlapN[j][i]     = new TH2F(Form("hMCEEpriOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overlap N, E reco vs E prim for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlapN[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlapN[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlapN[j][i]) ;
        
        
        fhMCEEpriOverlap0IdPi0[j][i]     = new TH2F(Form("hMCEEpriOverlap0IdPi0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                               Form("Overlap 0, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlap0IdPi0[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlap0IdPi0[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlap0IdPi0[j][i]) ;
        
        fhMCEEpriOverlap1IdPi0[j][i]     = new TH2F(Form("hMCEEpriOverlap1IdPi0NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overlap 1, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlap1IdPi0[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlap1IdPi0[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlap1IdPi0[j][i]) ;
        
        fhMCEEpriOverlapNIdPi0[j][i]     = new TH2F(Form("hMCEEpriOverlapNIdPi0NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                               Form("Overlap N, E reco vs E prim for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                               nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
        fhMCEEpriOverlapNIdPi0[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
        fhMCEEpriOverlapNIdPi0[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
        outputContainer->Add(fhMCEEpriOverlapNIdPi0[j][i]) ;

        
        fhMCESplitEFracOverlap0[j][i]     = new TH2F(Form("hMCESplitEFracOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()),
                                                     Form("Overlap 0, SplitEFrac vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,120,0,1.2);
        fhMCESplitEFracOverlap0[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        fhMCESplitEFracOverlap0[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCESplitEFracOverlap0[j][i]) ;
        
        fhMCESplitEFracOverlap1[j][i]     = new TH2F(Form("hMCESplitEFracOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                                     Form("Overalap 1, SplitEFrac vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,120,0,1.2);
        fhMCESplitEFracOverlap1[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        fhMCESplitEFracOverlap1[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCESplitEFracOverlap1[j][i]) ;
        
        fhMCESplitEFracOverlapN[j][i]     = new TH2F(Form("hMCESplitEFracOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()),
                                                     Form("Overlap N, SplitEFrac vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,120,0,1.2);
        fhMCESplitEFracOverlapN[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
        fhMCESplitEFracOverlapN[j][i]   ->SetXTitle("#it{E} (GeV)");
        outputContainer->Add(fhMCESplitEFracOverlapN[j][i]) ;
        
        if(i < 5)
        {
          fhMCPi0MassM02Overlap0[j][i-1]  = new TH2F(Form("hMCPi0MassM02Overlap0NLocMax%sEbin%d",snlm[j].Data(),i-1),
                                                     Form("Overlap 0, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()),
                                                     ssbins,ssmin,ssmax,mbins,mmin,mmax);
          fhMCPi0MassM02Overlap0[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMCPi0MassM02Overlap0[j][i-1]->SetXTitle("#lambda_{0}^{2}");
          outputContainer->Add(fhMCPi0MassM02Overlap0[j][i-1]) ;
          
          fhMCPi0MassM02Overlap1[j][i-1]  = new TH2F(Form("hMCPi0MassM02Overlap1NLocMax%sEbin%d",snlm[j].Data(),i-1),
                                                     Form("Overlap 1, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()),
                                                     ssbins,ssmin,ssmax,mbins,mmin,mmax);
          fhMCPi0MassM02Overlap1[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMCPi0MassM02Overlap1[j][i-1]->SetXTitle("#lambda_{0}^{2}");
          outputContainer->Add(fhMCPi0MassM02Overlap1[j][i-1]) ;
          
          fhMCPi0MassM02OverlapN[j][i-1]  = new TH2F(Form("hMCPi0MassM02OverlapNNLocMax%sEbin%d",snlm[j].Data(),i-1),
                                                     Form("Overlap N, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()),
                                                     ssbins,ssmin,ssmax,mbins,mmin,mmax);
          fhMCPi0MassM02OverlapN[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
          fhMCPi0MassM02OverlapN[j][i-1]->SetXTitle("#lambda_{0}^{2}");
          outputContainer->Add(fhMCPi0MassM02OverlapN[j][i-1]) ;
        }
        
        if(fFillTMHisto)
        {
          fhMCENOverlapsMatch[j][i]     = new TH2F(Form("hMCENOverlapsNLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                   Form("# overlaps vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()),
                                                   nptbins,ptmin,ptmax,10,0,10);
          fhMCENOverlapsMatch[j][i]   ->SetYTitle("# overlaps");
          fhMCENOverlapsMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENOverlapsMatch[j][i]) ;
          
          fhMCEM02Overlap0Match[j][i]     = new TH2F(Form("hMCEM02Overlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                     Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
          fhMCEM02Overlap0Match[j][i]   ->SetYTitle("#lambda_{0}^{2}");
          fhMCEM02Overlap0Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEM02Overlap0Match[j][i]) ;
          
          fhMCEM02Overlap1Match[j][i]     = new TH2F(Form("hMCEM02Overlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                     Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
          fhMCEM02Overlap1Match[j][i]   ->SetYTitle("#lambda_{0}^{2}");
          fhMCEM02Overlap1Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEM02Overlap1Match[j][i]) ;
          
          fhMCEM02OverlapNMatch[j][i]     = new TH2F(Form("hMCEM02OverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                     Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                     nptbins,ptmin,ptmax,ssbins,ssmin,ssmax);
          fhMCEM02OverlapNMatch[j][i]   ->SetYTitle("#lambda_{0}^{2}");
          fhMCEM02OverlapNMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEM02OverlapNMatch[j][i]) ;
          
          fhMCEMassOverlap0Match[j][i]     = new TH2F(Form("hMCEMassOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                      Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMCEMassOverlap0Match[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2}");
          fhMCEMassOverlap0Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEMassOverlap0Match[j][i]) ;
          
          fhMCEMassOverlap1Match[j][i]     = new TH2F(Form("hMCEMassOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMCEMassOverlap1Match[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2}");
          fhMCEMassOverlap1Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEMassOverlap1Match[j][i]) ;
          
          fhMCEMassOverlapNMatch[j][i]     = new TH2F(Form("hMCEMassOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,mbins,mmin,mmax);
          fhMCEMassOverlapNMatch[j][i]   ->SetYTitle("#it{M} (GeV/#it{c}^{2}");
          fhMCEMassOverlapNMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEMassOverlapNMatch[j][i]) ;
          
          
          fhMCEAsymOverlap0Match[j][i]     = new TH2F(Form("hMCEAsymOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                      Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,100,0,1);
          fhMCEAsymOverlap0Match[j][i]   ->SetYTitle("|#it{A}|");
          fhMCEAsymOverlap0Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEAsymOverlap0Match[j][i]) ;
          
          fhMCEAsymOverlap1Match[j][i]     = new TH2F(Form("hMCEAsymOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,100,0,1);
          fhMCEAsymOverlap1Match[j][i]   ->SetYTitle("|#it{A}|");
          fhMCEAsymOverlap1Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEAsymOverlap1Match[j][i]) ;
          
          fhMCEAsymOverlapNMatch[j][i]     = new TH2F(Form("hMCEAsymOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,100,0,1);
          fhMCEAsymOverlapNMatch[j][i]   ->SetYTitle("|#it{A}|");
          fhMCEAsymOverlapNMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCEAsymOverlapNMatch[j][i]) ;

          
          fhMCENCellOverlap0Match[j][i]     = new TH2F(Form("hMCENCellOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                      Form("Overlap 0, n cells vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlap0Match[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlap0Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlap0Match[j][i]) ;
          
          fhMCENCellOverlap1Match[j][i]     = new TH2F(Form("hMCENCellOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overalap 1, n cell vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlap1Match[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlap1Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlap1Match[j][i]) ;
          
          fhMCENCellOverlapNMatch[j][i]     = new TH2F(Form("hMCENCellOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overlap N, n cell vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,ncbins,ncmin,ncmax);
          fhMCENCellOverlapNMatch[j][i]   ->SetYTitle("#it{N} cells");
          fhMCENCellOverlapNMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCENCellOverlapNMatch[j][i]) ;

          fhMCEEpriOverlap0Match[j][i]     = new TH2F(Form("hMCEEpriOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                      Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
          fhMCEEpriOverlap0Match[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
          fhMCEEpriOverlap0Match[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
          outputContainer->Add(fhMCEEpriOverlap0Match[j][i]) ;
          
          fhMCEEpriOverlap1Match[j][i]     = new TH2F(Form("hMCEEpriOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
          fhMCEEpriOverlap1Match[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
          fhMCEEpriOverlap1Match[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
          outputContainer->Add(fhMCEEpriOverlap1Match[j][i]) ;
          
          fhMCEEpriOverlapNMatch[j][i]     = new TH2F(Form("hMCEEpriOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                      Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                      nptbins,ptmin,ptmax,nptbins,ptmin,ptmax);
          fhMCEEpriOverlapNMatch[j][i]   ->SetYTitle("#it{E}_{gen} (GeV)");
          fhMCEEpriOverlapNMatch[j][i]   ->SetXTitle("#it{E}_{reco} (GeV)");
          outputContainer->Add(fhMCEEpriOverlapNMatch[j][i]) ;
          
          
          fhMCESplitEFracOverlap0Match[j][i]     = new TH2F(Form("hMCESplitEFracOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()),
                                                            Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                            nptbins,ptmin,ptmax,120,0,1.2);
          fhMCESplitEFracOverlap0Match[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhMCESplitEFracOverlap0Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCESplitEFracOverlap0Match[j][i]) ;
          
          fhMCESplitEFracOverlap1Match[j][i]     = new TH2F(Form("hMCESplitEFracOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                            Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                            nptbins,ptmin,ptmax,120,0,1.2);
          fhMCESplitEFracOverlap1Match[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhMCESplitEFracOverlap1Match[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCESplitEFracOverlap1Match[j][i]) ;
          
          fhMCESplitEFracOverlapNMatch[j][i]     = new TH2F(Form("hMCESplitEFracOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()),
                                                            Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()),
                                                            nptbins,ptmin,ptmax,120,0,1.2);
          fhMCESplitEFracOverlapNMatch[j][i]   ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}");
          fhMCESplitEFracOverlapNMatch[j][i]   ->SetXTitle("#it{E} (GeV)");
          outputContainer->Add(fhMCESplitEFracOverlapNMatch[j][i]) ;
          
          
          if(i < 5)
          {
            fhMCPi0MassM02Overlap0Match[j][i-1]  = new TH2F(Form("hMCPi0MassM02Overlap0NLocMax%sEbin%dMatched",snlm[j].Data(),i-1),
                                                            Form("Overlap 0, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()),
                                                            ssbins,ssmin,ssmax,mbins,mmin,mmax);
            fhMCPi0MassM02Overlap0Match[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMCPi0MassM02Overlap0Match[j][i-1]->SetXTitle("#lambda_{0}^{2}");
            outputContainer->Add(fhMCPi0MassM02Overlap0Match[j][i-1]) ;
            
            fhMCPi0MassM02Overlap1Match[j][i-1]  = new TH2F(Form("hMCPi0MassM02Overlap1NLocMax%sEbin%dMatched",snlm[j].Data(),i-1),
                                                            Form("Overlap 1, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()),
                                                            ssbins,ssmin,ssmax,mbins,mmin,mmax);
            fhMCPi0MassM02Overlap1Match[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMCPi0MassM02Overlap1Match[j][i-1]->SetXTitle("#lambda_{0}^{2}");
            outputContainer->Add(fhMCPi0MassM02Overlap1Match[j][i-1]) ;
            
            fhMCPi0MassM02OverlapNMatch[j][i-1]  = new TH2F(Form("hMCPi0MassM02OverlapNNLocMax%sEbin%dMatched",snlm[j].Data(),i-1),
                                                            Form("Overlap N, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()),
                                                            ssbins,ssmin,ssmax,mbins,mmin,mmax);
            fhMCPi0MassM02OverlapNMatch[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})");
            fhMCPi0MassM02OverlapNMatch[j][i-1]->SetXTitle("#lambda_{0}^{2}");
            outputContainer->Add(fhMCPi0MassM02OverlapNMatch[j][i-1]) ;
            
          }
          
        }
      }
    }
    
    fhMCPi0HighNLMPair    = new TH2F("hMCPi0HighNLMPair","NLM vs E for merged pi0 cluster, high energy NLM pair are decays",
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0HighNLMPair   ->SetYTitle("#it{N} maxima");
    fhMCPi0HighNLMPair   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0HighNLMPair) ;
    
    fhMCPi0LowNLMPair     = new TH2F("hMCPi0LowNLMPair","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays",
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0LowNLMPair   ->SetYTitle("#it{N} maxima");
    fhMCPi0LowNLMPair   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0LowNLMPair) ;
    
    fhMCPi0AnyNLMPair     = new TH2F("hMCPi0AnyNLMPair","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays",
                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0AnyNLMPair   ->SetYTitle("#it{N} maxima");
    fhMCPi0AnyNLMPair   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0AnyNLMPair) ;
    
    fhMCPi0NoneNLMPair     = new TH2F("hMCPi0NoneNLMPair","NLM vs E for merged pi0 cluster, no NLM pair are decays",
                                      nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0NoneNLMPair   ->SetYTitle("#it{N} maxima");
    fhMCPi0NoneNLMPair   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0NoneNLMPair) ;
    
    
    fhMCPi0HighNLMPairNoMCMatch    = new TH2F("hMCPi0HighNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, high energy NLM pair are decays",
                                              nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0HighNLMPairNoMCMatch   ->SetYTitle("#it{N} maxima");
    fhMCPi0HighNLMPairNoMCMatch   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0HighNLMPairNoMCMatch) ;
    
    fhMCPi0LowNLMPairNoMCMatch     = new TH2F("hMCPi0LowNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays",
                                              nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0LowNLMPairNoMCMatch   ->SetYTitle("#it{N} maxima");
    fhMCPi0LowNLMPairNoMCMatch   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0LowNLMPairNoMCMatch) ;
    
    fhMCPi0AnyNLMPairNoMCMatch     = new TH2F("hMCPi0AnyNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays",
                                              nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0AnyNLMPairNoMCMatch   ->SetYTitle("#it{N} maxima");
    fhMCPi0AnyNLMPairNoMCMatch   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0AnyNLMPairNoMCMatch) ;
    
    fhMCPi0NoneNLMPairNoMCMatch     = new TH2F("hMCPi0NoneNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, no NLM pair are decays",
                                               nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0NoneNLMPairNoMCMatch   ->SetYTitle("#it{N} maxima");
    fhMCPi0NoneNLMPairNoMCMatch   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0NoneNLMPairNoMCMatch) ;
    
    
    fhMCPi0HighNLMPairOverlap    = new TH2F("hMCPi0HighNLMPairOverlap","NLM vs E for merged pi0 cluster, high energy NLM pair are decays",
                                            nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0HighNLMPairOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0HighNLMPairOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0HighNLMPairOverlap) ;
    
    fhMCPi0LowNLMPairOverlap     = new TH2F("hMCPi0LowNLMPairOverlap","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays",
                                            nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0LowNLMPairOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0LowNLMPairOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0LowNLMPairOverlap) ;
    
    fhMCPi0AnyNLMPairOverlap     = new TH2F("hMCPi0AnyNLMPairOverlap","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays",
                                            nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0AnyNLMPairOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0AnyNLMPairOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0AnyNLMPairOverlap) ;
    
    fhMCPi0NoneNLMPairOverlap     = new TH2F("hMCPi0NoneNLMPairOverlap","NLM vs E for merged pi0 cluster, no NLM pair are decays",
                                             nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0NoneNLMPairOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0NoneNLMPairOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0NoneNLMPairOverlap) ;
    
    fhMCPi0HighNLMPairNoMCMatchOverlap    = new TH2F("hMCPi0HighNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, high energy NLM pair are decays",
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0HighNLMPairNoMCMatchOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0HighNLMPairNoMCMatchOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0HighNLMPairNoMCMatchOverlap) ;
    
    fhMCPi0LowNLMPairNoMCMatchOverlap     = new TH2F("hMCPi0LowNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays",
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0LowNLMPairNoMCMatchOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0LowNLMPairNoMCMatchOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0LowNLMPairNoMCMatchOverlap) ;
    
    fhMCPi0AnyNLMPairNoMCMatchOverlap     = new TH2F("hMCPi0AnyNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays",
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0AnyNLMPairNoMCMatchOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0AnyNLMPairNoMCMatchOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0AnyNLMPairNoMCMatchOverlap) ;
    
    fhMCPi0NoneNLMPairNoMCMatchOverlap     = new TH2F("hMCPi0NoneNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, no NLM pair are decays",
                                                      nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0NoneNLMPairNoMCMatchOverlap   ->SetYTitle("#it{N} maxima");
    fhMCPi0NoneNLMPairNoMCMatchOverlap   ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0NoneNLMPairNoMCMatchOverlap) ;
  
    
    fhMCPi0DecayPhotonHitHighLM    = new TH2F("hMCPi0DecayPhotonHitHighLM","NLM vs E for merged pi0 cluster, decay photon hit High Local Maxima",
                                              nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitHighLM    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitHighLM    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitHighLM ) ;
    
    fhMCPi0DecayPhotonAdjHighLM    = new TH2F("hMCPi0DecayPhotonAdjHighLM","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to High Local Maxima",
                                              nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjHighLM    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjHighLM    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjHighLM ) ;
    
    fhMCPi0DecayPhotonHitOtherLM    = new TH2F("hMCPi0DecayPhotonHitOtherLM","NLM vs E for merged pi0 cluster, decay photon hit Other Local Maxima",
                                               nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitOtherLM    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitOtherLM    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitOtherLM ) ;
    
    fhMCPi0DecayPhotonAdjOtherLM    = new TH2F("hMCPi0DecayPhotonAdjOtherLM","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to Other Local Maxima",
                                               nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjOtherLM    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjOtherLM    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLM ) ;
    
    fhMCPi0DecayPhotonAdjacent   = new TH2F("hMCPi0DecayPhotonAdjacent","NLM vs E for merged pi0 cluster, decay photon hit adjacent cells",
                                            nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjacent    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjacent    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjacent ) ;
    
    fhMCPi0DecayPhotonHitNoLM    = new TH2F("hMCPi0DecayPhotonHitNoLM","NLM vs E for merged pi0 cluster, decay photon do not hit Local Maxima",
                                            nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitNoLM    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitNoLM    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitNoLM ) ;
    
    
    fhMCPi0DecayPhotonHitHighLMOverlap    = new TH2F("hMCPi0DecayPhotonHitHighLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit High Local Maxima, there was an overlap",
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitHighLMOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitHighLMOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlap ) ;
    
    fhMCPi0DecayPhotonAdjHighLMOverlap    = new TH2F("hMCPi0DecayPhotonAdjHighLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to High Local Maxima, there was an overlap",
                                                     nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjHighLMOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjHighLMOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlap ) ;
    
    fhMCPi0DecayPhotonHitOtherLMOverlap    = new TH2F("hMCPi0DecayPhotonHitOtherLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit Other Local Maxima, there was an overlap",
                                                      nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitOtherLMOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitOtherLMOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlap ) ;
    
    fhMCPi0DecayPhotonAdjOtherLMOverlap    = new TH2F("hMCPi0DecayPhotonAdjOtherLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",
                                                      nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjOtherLMOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjOtherLMOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlap ) ;
    
    fhMCPi0DecayPhotonAdjacentOverlap   = new TH2F("hMCPi0DecayPhotonAdjacentOverlap","NLM vs E for merged pi0 cluster, decay photon hit adjacent cells, there was an overlap",
                                                   nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonAdjacentOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonAdjacentOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonAdjacentOverlap ) ;
    
    fhMCPi0DecayPhotonHitNoLMOverlap    = new TH2F("hMCPi0DecayPhotonHitNoLMOverlap","NLM vs E for merged pi0 cluster, decay photon do not hit Local Maxima, there was an overlap",
                                                   nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins);
    fhMCPi0DecayPhotonHitNoLMOverlap    ->SetYTitle("#it{N} maxima");
    fhMCPi0DecayPhotonHitNoLMOverlap    ->SetXTitle("#it{E} (GeV)");
    outputContainer->Add(fhMCPi0DecayPhotonHitNoLMOverlap ) ;
    
    
    for(Int_t nlm = 0; nlm < 3; nlm++)
    {
      fhMCPi0DecayPhotonHitHighLMMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sMass",snlm[nlm].Data()),
                                                       Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()),
                                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitHighLMMass[nlm]  ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitHighLMMass[nlm]  ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMMass[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjHighLMMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sMass",snlm[nlm].Data()),
                                                       Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()),
                                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjHighLMMass[nlm]  ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjHighLMMass[nlm]  ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMMass[nlm] ) ;
      
      fhMCPi0DecayPhotonHitOtherLMMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sMass",snlm[nlm].Data()),
                                                        Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()),
                                                        nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitOtherLMMass[nlm]  ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitOtherLMMass[nlm]  ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMMass[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjOtherLMMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sMass",snlm[nlm].Data()),
                                                        Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()),
                                                        nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjOtherLMMass[nlm]  ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjOtherLMMass[nlm]  ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMMass[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjacentMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjacentLM%sMass",snlm[nlm].Data()),
                                                       Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit adjacent cells",snlm[nlm].Data()),
                                                       nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjacentMass[nlm]    ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjacentMass[nlm]    ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjacentMass[nlm] ) ;
      
      fhMCPi0DecayPhotonHitNoLMMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitNoLM%sMass",snlm[nlm].Data()),
                                                     Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon do not hit Local Maxima",snlm[nlm].Data()),
                                                     nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitNoLMMass[nlm]  ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitNoLMMass[nlm]    ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitNoLMMass[nlm] ) ;
      
      
      fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapMass",snlm[nlm].Data()),
                                                               Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapMass",snlm[nlm].Data()),
                                                               Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                               nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapMass",snlm[nlm].Data()),
                                                                Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapMass",snlm[nlm].Data()),
                                                                Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonAdjacentOverlapMass[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjacentLM%sOverlapMass",snlm[nlm].Data()),
                                                             Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit adjacent cells, there was an overlap",snlm[nlm].Data()),
                                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonAdjacentOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonAdjacentOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjacentOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitNoLM%sOverlapMass",snlm[nlm].Data()),
                                                             Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon do not hit Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                             nptbins,ptmin,ptmax,mbins,mmin,mmax);
      fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm]   ->SetYTitle("#it{M} (GeV/#it{c}^{2})");
      fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm]   ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm]) ;
      
      fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM1",snlm[nlm].Data()),
                                                           Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs E pi0 for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()),
                                                           nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM1",snlm[nlm].Data()),
                                                           Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()),
                                                           nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm]  ->SetXTitle("E pi0 (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM1",snlm[nlm].Data()),
                                                            Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()),
                                                            nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM1",snlm[nlm].Data()),
                                                            Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()),
                                                            nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM1",snlm[nlm].Data()),
                                                                   Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                   nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm]) ;
      
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM1",snlm[nlm].Data()),
                                                                   Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                   nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm]) ;
      
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM1",snlm[nlm].Data()),
                                                                    Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                    nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm]) ;
      
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM1",snlm[nlm].Data()),
                                                                    Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                    nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm]) ;
      
      fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM2",snlm[nlm].Data()),
                                                           Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()),
                                                           nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM2",snlm[nlm].Data()),
                                                           Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()),
                                                           nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM2",snlm[nlm].Data()),
                                                            Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()),
                                                            nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM2",snlm[nlm].Data()),
                                                            Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()),
                                                            nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm]  ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM2",snlm[nlm].Data()),
                                                                   Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                   nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm]) ;
      
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM2",snlm[nlm].Data()),
                                                                   Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                   nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm]) ;
      
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM2",snlm[nlm].Data()),
                                                                    Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                    nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm]) ;
      
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM2",snlm[nlm].Data()),
                                                                    Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                    nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm]   ->SetXTitle("#it{E}_{pi0 reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm]) ;
      
      
      fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM1vsELM1",snlm[nlm].Data()),
                                                                 Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()),
                                                                 nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM1vsELM1",snlm[nlm].Data()),
                                                                 Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()),
                                                                 nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm]  ->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM1vsELM1",snlm[nlm].Data()),
                                                                  Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()),
                                                                  nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM1vsELM1",snlm[nlm].Data()),
                                                                  Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()),
                                                                  nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] ) ;
      
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()),
                                                                         Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                         nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm]) ;
      
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()),
                                                                         Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                         nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm]) ;
      
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()),
                                                                          Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                          nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm]) ;
      
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()),
                                                                          Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                          nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm]) ;
      
      fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM2vsELM2",snlm[nlm].Data()),
                                                                 Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()),
                                                                 nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM2vsELM2",snlm[nlm].Data()),
                                                                 Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()),
                                                                 nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM2vsELM2",snlm[nlm].Data()),
                                                                  Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()),
                                                                  nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm]  = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM2vsELM2",snlm[nlm].Data()),
                                                                  Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()),
                                                                  nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm]  ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm]  ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] ) ;
      
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()),
                                                                         Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                         nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm]) ;
      
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()),
                                                                         Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                         nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm]) ;
      
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()),
                                                                          Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                          nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm]) ;
      
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm]   = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()),
                                                                          Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()),
                                                                          nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4);
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm]   ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}");
      fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm]   ->SetXTitle("#it{E}_{reco} (GeV)");
      outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm]) ;
      
    }
    
    fhMCEOverlapType = new TH2F("hMCEOverlapType","Kind of overlap particle, neutral clusters",
                                nptbins,ptmin,ptmax,5,0,5);
    //fhMCEOverlapType   ->SetYTitle("Overlap Type");
    fhMCEOverlapType->GetYaxis()->SetBinLabel(1 ,"#gamma");
    fhMCEOverlapType->GetYaxis()->SetBinLabel(2 ,"e^{#pm}");
    fhMCEOverlapType->GetYaxis()->SetBinLabel(3 ,"hadron^{#pm}");
    fhMCEOverlapType->GetYaxis()->SetBinLabel(4 ,"hadron^{0}");
    fhMCEOverlapType->GetYaxis()->SetBinLabel(5 ,"??");
    fhMCEOverlapType->SetXTitle("Cluster #it{E} (GeV)");
    outputContainer->Add(fhMCEOverlapType) ;
    
    fhMCEOverlapTypeMatch = new TH2F("hMCEOverlapTypeMatched","Kind of overlap particle, charged clusters",
                                     nptbins,ptmin,ptmax,5,0,5);
    //fhMCEOverlapTypeMatch   ->SetYTitle("Overlap Type");
    fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(1 ,"#gamma");
    fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(2 ,"e^{#pm}");
    fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(3 ,"hadron^{#pm}");
    fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(4 ,"hadron^{0}");
    fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(5 ,"??");
    fhMCEOverlapTypeMatch->SetXTitle("Cluster #it{E} (GeV)");
    outputContainer->Add(fhMCEOverlapTypeMatch) ;
    
  }// MC analysis, check overlaps
  
  
  if(IsDataMC())
  {
    for(Int_t inlm = 0; inlm < 3; inlm++)
    {
      fhAsyMCGenRecoDiffMCPi0[inlm]  = new TH2F(Form("hAsyMCGenRecoFracNLocMax%sMCPi0",snlm[inlm].Data()),
                                                Form("Reconstructed - Generated asymmetry with #it{NLM}=%d vs E, MC Pi0",inlm),
                                                nptbins,ptmin,ptmax,200,-1,1);
      fhAsyMCGenRecoDiffMCPi0[inlm]->SetYTitle("#it{A}_{reco} - #it{A}_{gen}");
      fhAsyMCGenRecoDiffMCPi0[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsyMCGenRecoDiffMCPi0[inlm]) ;
      
      fhAsyMCGenRecoDiffMCPi0Conv[inlm]  = new TH2F(Form("hAsyMCGenRecoFracNLocMax%sMCPi0Conv",snlm[inlm].Data()),
                                                Form("Reconstructed - Generated asymmetry  with #it{NLM}=%d vs E, MC Pi0Conv",inlm),
                                                nptbins,ptmin,ptmax,200,-1,1);
      fhAsyMCGenRecoDiffMCPi0Conv[inlm]->SetYTitle("#it{A}_{reco} - #it{A}_{gen}");
      fhAsyMCGenRecoDiffMCPi0Conv[inlm]->SetXTitle("#it{E} (GeV)");
      outputContainer->Add(fhAsyMCGenRecoDiffMCPi0Conv[inlm]) ;
    }
  }
  
  if(fFillArmenterosHisto)
  {
    Int_t narmbins = 400;
    Float_t armmin = 0;
    Float_t armmax = 0.4;
    
    for(Int_t i = 0; i < 7; i++) // MC bin
    {
      for(Int_t j = 0; j < 4; j++) // E bin
      {
        fhArmNLocMax1[i][j]  = new TH2F(Form("hArmNLocMax1EBin%d%s",j,pname[i].Data()),
                                         Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                         200, -1, 1, narmbins,armmin,armmax);
        fhArmNLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmNLocMax1[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmNLocMax1[i][j]) ;
        
        fhArmNLocMax2[i][j]  = new TH2F(Form("hArmNLocMax2EBin%d%s",j,pname[i].Data()),
                                         Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                         200, -1, 1, narmbins,armmin,armmax);
        fhArmNLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmNLocMax2[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmNLocMax2[i][j]) ;
        
        fhArmNLocMaxN[i][j]  = new TH2F(Form("hArmNLocMaxNEBin%d%s",j,pname[i].Data()),
                                         Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                         200, -1, 1, narmbins,armmin,armmax);
        fhArmNLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmNLocMaxN[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmNLocMaxN[i][j]) ;
        
        if(asyOn || m02On)
        {
          fhArmAfterCutsNLocMax1[i][j]  = new TH2F(Form("hArmAfterCutsNLocMax1EBin%d%s",j,pname[i].Data()),
                                          Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                          200, -1, 1, narmbins,armmin,armmax);
          fhArmAfterCutsNLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
          fhArmAfterCutsNLocMax1[i][j]->SetXTitle("#alpha^{Arm}");
          outputContainer->Add(fhArmAfterCutsNLocMax1[i][j]) ;
          
          fhArmAfterCutsNLocMax2[i][j]  = new TH2F(Form("hArmAfterCutsNLocMax2EBin%d%s",j,pname[i].Data()),
                                          Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                          200, -1, 1, narmbins,armmin,armmax);
          fhArmAfterCutsNLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
          fhArmAfterCutsNLocMax2[i][j]->SetXTitle("#alpha^{Arm}");
          outputContainer->Add(fhArmAfterCutsNLocMax2[i][j]) ;
          
          fhArmAfterCutsNLocMaxN[i][j]  = new TH2F(Form("hArmAfterCutsNLocMaxNEBin%d%s",j,pname[i].Data()),
                                          Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                          200, -1, 1, narmbins,armmin,armmax);
          fhArmAfterCutsNLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
          fhArmAfterCutsNLocMaxN[i][j]->SetXTitle("#alpha^{Arm}");
          outputContainer->Add(fhArmAfterCutsNLocMaxN[i][j]) ;
        }

        fhArmPi0NLocMax1[i][j]  = new TH2F(Form("hArmPi0NLocMax1EBin%d%s",j,pname[i].Data()),
                                                 Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                                 200, -1, 1, narmbins,armmin,armmax);
        fhArmPi0NLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmPi0NLocMax1[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmPi0NLocMax1[i][j]) ;
        
        fhArmPi0NLocMax2[i][j]  = new TH2F(Form("hArmPi0NLocMax2EBin%d%s",j,pname[i].Data()),
                                                 Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                                 200, -1, 1, narmbins,armmin,armmax);
        fhArmPi0NLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmPi0NLocMax2[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmPi0NLocMax2[i][j]) ;
        
        fhArmPi0NLocMaxN[i][j]  = new TH2F(Form("hArmPi0NLocMaxNEBin%d%s",j,pname[i].Data()),
                                                 Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()),
                                                 200, -1, 1, narmbins,armmin,armmax);
        fhArmPi0NLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}");
        fhArmPi0NLocMaxN[i][j]->SetXTitle("#alpha^{Arm}");
        outputContainer->Add(fhArmPi0NLocMaxN[i][j]) ;
 
      }
    }
  }
  
  return outputContainer ;
  
}

//_____________________________________________________________________________
void AliAnaInsideClusterInvariantMass::GetMCIndex(AliVCluster* cluster,
                                                  Int_t & mcindex, Int_t & tag)
{
  
  // Assign mc index depending on MC bit set, to be used in histograms arrays
    
  tag	= GetMCAnalysisUtils()->CheckOrigin(cluster->GetLabels(),cluster->GetNLabels(), GetReader(),GetCalorimeter());
  
  if      ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPi0) &&
           !GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcPi0;
  else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPi0)  )      mcindex = kmcPi0Conv;
  else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCEta)  )      mcindex = kmcEta;
  else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPhoton) &&
           !GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcPhoton;
  else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPhoton) &&
            GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcConversion;
  else if (!GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCElectron)  ) mcindex = kmcHadron;
 
  //printf("MC index %d\n",mcindex);
  
}

//____________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::GetMCPrimaryKine(AliVCluster* cluster, Int_t mcindex,
                                                        Int_t mctag, Bool_t matched,
                                                        Float_t & eprim, Float_t & asymGen,
                                                        Float_t & angleGen, Int_t & noverlaps )
{
  // Check origin of the candidates, get primary kinematics if overlapped meson decay
  
  Bool_t ok      = kFALSE;
  Int_t  mcLabel = cluster->GetLabel();
  
  fPrimaryMom = GetMCAnalysisUtils()->GetMother(mcLabel,GetReader(),ok);
  eprim = fPrimaryMom.E();
  
  Int_t mesonLabel = -1;
  
  if(mcindex == kmcPi0 || mcindex == kmcEta || mcindex == kmcPi0Conv)
  {
    if(mcindex == kmcPi0 || mcindex == kmcPi0Conv)
    {
      GetMCAnalysisUtils()->GetMCDecayAsymmetryAngleForPDG(mcLabel,111,GetReader(),asymGen,angleGen,ok);
      asymGen = TMath::Abs(asymGen);
      fGrandMotherMom = GetMCAnalysisUtils()->GetMotherWithPDG(mcLabel,111,GetReader(),ok,mesonLabel);
      if(fGrandMotherMom.E() > 0 && ok) eprim =  fGrandMotherMom.E();
    }
    else
    {
      GetMCAnalysisUtils()->GetMCDecayAsymmetryAngleForPDG(mcLabel,221,GetReader(),asymGen,angleGen,ok);
      asymGen = TMath::Abs(asymGen);
      fGrandMotherMom = GetMCAnalysisUtils()->GetMotherWithPDG(mcLabel,221,GetReader(),ok,mesonLabel);
      if(fGrandMotherMom.E() > 0 && ok) eprim =  fGrandMotherMom.E();
    }
  }
  
  if(!fFillMCOverlapHisto) return;
    
  const UInt_t nlabels = cluster->GetNLabels();
  Int_t overpdg[nlabels];
  noverlaps = GetMCAnalysisUtils()->GetNOverlaps(cluster->GetLabels(), nlabels,mctag,mesonLabel,GetReader(),overpdg);

  for(Int_t iover = 0; iover < noverlaps; iover++)
  {
    Float_t histobin = -1;
    Int_t   mpdg     = overpdg[iover];
    
    if     (mpdg==22)      histobin = 0.5;
    else if(TMath::Abs(mpdg)==11) histobin = 1.5;
    else if(mpdg==-999999) histobin = 4.5;
    else
    {
      Double_t charge = TDatabasePDG::Instance()->GetParticle(mpdg)->Charge();
      if(TMath::Abs(charge) > 0 ) histobin = 2.5;
      else                        histobin = 3.5;
      //printf("charge %f\n",charge);
    }
    
    //printf("\t pdg = %d, histobin %2.1f\n",mpdg,histobin);
    if(histobin > 0)
    {
      if(matched)fhMCEOverlapType     ->Fill(cluster->E(),histobin);
      else       fhMCEOverlapTypeMatch->Fill(cluster->E(),histobin);
    }
  }
}

//___________________________________________
void AliAnaInsideClusterInvariantMass::Init()
{
  //Init
  //Do some checks
  
  if(GetCalorimeter() == kPHOS && !GetReader()->IsPHOSSwitchedOn() && NewOutputAOD())
    AliFatal("!!STOP: You want to use PHOS in analysis but it is not read!! \n!!Check the configuration file!!");
  else  if(GetCalorimeter() == kEMCAL && !GetReader()->IsEMCALSwitchedOn() && NewOutputAOD())
    AliFatal("!!STOP: You want to use EMCAL in analysis but it is not read!! \n!!Check the configuration file!!");
  
  if( GetReader()->GetDataType() == AliCaloTrackReader::kMC )
    AliFatal("!!STOP: You want to use pure MC data!!");
  
}

//_____________________________________________________
void AliAnaInsideClusterInvariantMass::InitParameters()
{
  //Initialize the parameters of the analysis.  
  AddToHistogramsName("AnaPi0InsideClusterInvariantMass_");
  
  fMinNCells   = 4 ;
  fMinBadDist  = 2 ;
  
  fHistoECut   = 8 ;
  
  fSSWeightN    = 10;
  fSSWeight [0] = 4.00;  fSSWeight [1] = 4.10; fSSWeight [2] = 4.20; fSSWeight [3] = 4.30; fSSWeight [4] = 4.35;
  fSSWeight [5] = 4.40;  fSSWeight [6] = 4.45; fSSWeight [7] = 4.50; fSSWeight [8] = 4.55; fSSWeight [9] = 4.60;
  fSSWeight[10] = 4.70;  fSSWeight[11] = 4.80; fSSWeight[12] = 4.90; fSSWeight[13] = 5.00; fSSWeight[14] = 5.10;
  fSSWeight[15] = 5.20;  fSSWeight[16] = 5.50; fSSWeight[17] = 5.75; fSSWeight[18] = 6.00; fSSWeight[19] = 7.00;
  
  fSSECellCutN    = 10;
  fSSECellCut [0] = 0.05;  fSSECellCut [1] = 0.06;  fSSECellCut [2] = 0.07; fSSECellCut [3] = 0.08; fSSECellCut [4] = 0.09;
  fSSECellCut [5] = 0.10;  fSSECellCut [6] = 0.11;  fSSECellCut [7] = 0.12; fSSECellCut [8] = 0.13; fSSECellCut [9] = 0.14;
  fSSECellCut[10] = 0.15;  fSSECellCut[11] = 0.16;  fSSECellCut[12] = 0.17; fSSECellCut[13] = 0.18; fSSECellCut[14] = 0.19;
  fSSECellCut[15] = 0.20;  fSSECellCut[16] = 0.21;  fSSECellCut[17] = 0.22; fSSECellCut[18] = 0.23; fSSECellCut[19] = 0.24;

  fNLMSettingN = 5;
  fNLMMinE   [0] = 0.10; fNLMMinE   [1] = 0.20; fNLMMinE   [2] = 0.35; fNLMMinE   [3] = 0.50; fNLMMinE   [4] = 1.00;
  fNLMMinDiff[0] = 0.03; fNLMMinDiff[1] = 0.05; fNLMMinDiff[2] = 0.10; fNLMMinDiff[3] = 0.15; fNLMMinDiff[4] = 0.20;
  
  fWSimu[0] = 1; // Default, do not correct, change to 1.05-1.1
  fWSimu[1] = 0; // Default, do not correct, change to 0.07

}


//__________________________________________________________________
void  AliAnaInsideClusterInvariantMass::MakeAnalysisFillHistograms() 
{
  //Search for pi0 in GetCalorimeter() with shower shape analysis 
  
  TObjArray * pl       = 0x0; 
  AliVCaloCells* cells = 0x0;

  //Select the Calorimeter of the photon
  if(GetCalorimeter() == kPHOS)
  {
    pl    = GetPHOSClusters();
    cells = GetPHOSCells();
  }
  else if (GetCalorimeter() == kEMCAL)
  {
    pl    = GetEMCALClusters();
    cells = GetEMCALCells();
  }
  
  if(!pl || !cells) 
  {
    AliWarning(Form("TObjArray with %s clusters is NULL!",GetCalorimeterString().Data()));
    return;
  }  
  
	if(GetCalorimeter() == kPHOS) return; // Not implemented for PHOS yet

  for(Int_t icluster = 0; icluster < pl->GetEntriesFast(); icluster++)
  {
    AliVCluster * cluster = (AliVCluster*) (pl->At(icluster));	

    //-------------------------------------------
    // Get cluster parameters, do some rejection
    //-------------------------------------------
    
    Float_t en = cluster->E();
    Float_t l0 = cluster->GetM02();
    Int_t   nc = cluster->GetNCells();
    Float_t bd = cluster->GetDistanceToBadChannel() ; 
    
    //If too small or big E or low number of cells, or close to a bad channel skip it
    
    if( en < GetMinEnergy() || en > GetMaxEnergy() || nc < fMinNCells || bd < fMinBadDist) continue ;
    
    //printf("en %2.3f  GetMinEnergy() %2.3f, GetMaxEnergy() %2.3f , nc %d fMinNCells %d\n",en, GetMinEnergy(),GetMaxEnergy(),nc ,fMinNCells);
    
    // Track-cluster matching
    
    Bool_t  matched   = IsTrackMatched(cluster,GetReader()->GetInputEvent());
    if(!fFillTMHisto && matched) continue ;

    // Get cluster angles
    
    cluster->GetMomentum(fClusterMomentum, GetVertex(0));
    Float_t eta = fClusterMomentum.Eta();
    Float_t phi = fClusterMomentum.Phi();
    if(phi<0) phi=+TMath::TwoPi();
    
    //printf("en %2.2f, GetMinEnergy() %2.2f, GetMaxEnergy() %2.2f, nc %d, fMinNCells %d,  bd %2.2f, fMinBadDist %2.2f\n",
    //       en,GetMinEnergy(), GetMaxEnergy(), nc, fMinNCells, bd, fMinBadDist);
    
    if(fFillNLMDiffCutHisto)
    {
      FillNLMDiffCutHistograms(cluster,cells,matched);
      return;
    }
    
    // Get PID, N local maximum, *** split cluster ***
    
    Int_t    nMax = 0;
    Double_t mass = 0., angle = 0.;
    Int_t    absId1   =-1; Int_t   absId2   =-1;
    Float_t  distbad1 =-1; Float_t distbad2 =-1;
    Bool_t   fidcut1  = 0; Bool_t  fidcut2  = 0;
    
    Int_t pidTag = GetCaloPID()->GetIdentifiedParticleTypeFromClusterSplitting(cluster,cells,GetCaloUtils(),
                                                                               GetVertex(0), nMax, mass, angle,
                                                                               fSubClusterMom1,fSubClusterMom2,
                                                                               absId1,absId2,
                                                                               distbad1,distbad2,
                                                                               fidcut1,fidcut2);
    if (nMax <= 0) 
    {
      AliWarning("No local maximum found! It did not pass CaloPID selection criteria");
      continue;
    }
    
    // Set some index for array histograms
    
    Int_t inlm = -1;
    if     (nMax == 1) inlm = 0;
    else if(nMax == 2) inlm = 1;
    else if(nMax >  2) inlm = 2;
    else AliDebug(2,Form("Wrong N local maximum -> %d, n cells in cluster %d",nMax,nc));

    // Skip events where one of the new clusters (lowest energy) is close to an EMCal border or a bad channel
    if( (fCheckSplitDistToBad) &&
        (!fidcut2 || !fidcut1 || distbad1 < fMinBadDist || distbad2 < fMinBadDist))
    {
      AliDebug(1,Form("Dist to bad channel cl1 %f, cl2 %f; fid cl1 %d, cl2 %d",
                      distbad1,distbad2, fidcut1,fidcut2));
      
      if(distbad1 < fMinBadDist || distbad2 < fMinBadDist)
      {
        fhMassBadDistClose[inlm]->Fill(en,mass);
        fhM02BadDistClose [inlm]->Fill(en,l0  );
      }
      
      if(!fidcut1 || !fidcut2)
      {
        fhMassOnBorder[inlm]->Fill(en,mass);
        fhM02OnBorder [inlm]->Fill(en,l0  );
      }
      
      continue ;
    }

    // Get sub-cluster parameters
    
    Float_t e1 = fSubClusterMom1.Energy();
    Float_t e2 = fSubClusterMom2.Energy();
    
    Double_t tof1  = cells->GetCellTime(absId1);
    GetCaloUtils()->RecalibrateCellTime(tof1, GetCalorimeter(), absId1,GetReader()->GetInputEvent()->GetBunchCrossNumber());
    tof1*=1.e9;
    
    Double_t tof2  = cells->GetCellTime(absId2);
    GetCaloUtils()->RecalibrateCellTime(tof2, GetCalorimeter(), absId2,GetReader()->GetInputEvent()->GetBunchCrossNumber());
    tof2*=1.e9;
    
    Double_t t12diff = tof1-tof2;
    
    Float_t splitFrac = (e1+e2)/en;

    Float_t asym = -10;
    if(e1+e2>0) asym = (e1-e2)/(e1+e2);
    
    //
    
    Int_t ebin = -1;
    if(en > 8  && en <= 12) ebin = 0;
    if(en > 12 && en <= 16) ebin = 1;
    if(en > 16 && en <= 20) ebin = 2;
    if(en > 20)             ebin = 3;
    
    // MC data histograms and some related calculations
    // mc tag, n overlaps, asym of generated mesons
    
    Int_t   mcindex   = -1;
    Int_t   mctag     = -1;
    Float_t eprim     = -1;
    Float_t asymGen   = -2;
    Float_t angleGen  =  2000;
    Int_t   noverlaps =  0;
    
    if(IsDataMC())
    {
      // MC indexes

      GetMCIndex(cluster,mcindex,mctag);
      
      // MC primary kine, generation fractions

      GetMCPrimaryKine(cluster,mcindex,mctag,matched,eprim,asymGen,angleGen,noverlaps);
        
      // For cluster with MC pi0 and more than 1 maxima
      
     }
    
    //
    
    FillHistograms1(en, e1, e2, nMax, mass, l0, eta, phi, matched, mcindex);

    //
    
    if(fFillNCellHisto)
      FillNCellHistograms(nc,en, nMax,matched, mcindex,mass,l0);
    
    //
    
    if(fFillSSExtraHisto)
      FillSSExtraHistograms(cluster, nMax, matched,mcindex,mass,ebin)  ;
    
    //

    if(!matched && ebin >= 0 && fFillEbinHisto)
      FillEBinHistograms(ebin,nMax,mcindex,splitFrac,mass,asym,l0);

    //
    
    if(fFillAngleHisto)
      FillAngleHistograms(nMax,matched,mcindex,en,e1,e2,angle,mass,angleGen,l0, asym,pidTag,noverlaps);

    if(fFillArmenterosHisto && ebin >= 0)
      FillArmenterosHistograms(nMax, ebin, mcindex, en, l0, pidTag);

    if(fFillThetaStarHisto)
      FillThetaStarHistograms(nMax,matched,mcindex, en, l0, pidTag);

    
    //---------------------------------------------------------------------
    // From here start applying some cuts
    //---------------------------------------------------------------------
    
    // If set, check just on MC clusters when SS cut is applied
    if( IsDataMC() && mcindex > 0 && mcindex < 7 && GetCaloPID()->IsInM02Range(l0) )
    {
      // For cluster with MC pi0 and more than 1 maxima
      
      if(fFillMCOverlapHisto)
        CheckLocalMaximaMCOrigin(cluster, mcindex,noverlaps,e1,e2,mass);
      //l0, l1, l2);
      
      //
      
      if(fFillMCHisto)
        FillMCHistograms(en,e1,e2,ebin,mcindex,noverlaps,l0,mass,
                         nMax,matched,splitFrac, asym, eprim,asymGen);
      
      //
      
      if(fFillMCOverlapHisto)
        FillMCOverlapHistograms(en,eprim,nc,mass,l0,asym,splitFrac,inlm,ebin,matched,mcindex,noverlaps);
      
    }
    
    // Fill few histograms, some still without cuts
    FillHistograms2(en, eprim, e1, e2, nMax, mass, l0, matched, mcindex);
    
    if(pidTag==AliCaloPID::kPi0)
    {
      FillIdPi0Histograms(en, e1, e2, nc, nMax, t12diff, mass, l0, eta, phi, matched, mcindex);
      
      if(fFillSSWeightHisto && !matched)
        FillSSWeightHistograms(cluster, inlm, absId1, absId2);
      
      if(fFillTMHisto && fFillTMResidualHisto)
        FillTrackMatchingHistograms(cluster,nMax,mcindex);
      
      if(fFillMCOverlapHisto && IsDataMC() && mcindex > 0 && mcindex < 7 && !matched)
      {
        if     (noverlaps == 0) fhMCEEpriOverlap0IdPi0 [inlm][mcindex]->Fill(en, eprim);
        else if(noverlaps == 1) fhMCEEpriOverlap1IdPi0 [inlm][mcindex]->Fill(en, eprim);
        else if(noverlaps  > 1) fhMCEEpriOverlapNIdPi0 [inlm][mcindex]->Fill(en, eprim);
      }
    }
    else if(fFillIdEtaHisto && pidTag==AliCaloPID::kEta)
    {
      FillIdEtaHistograms(en, e1, e2, nc, nMax, t12diff, mass, l0, eta, phi, matched, mcindex);
    }
    else if(fFillIdConvHisto && pidTag==AliCaloPID::kPhoton)
    {
      FillIdConvHistograms(en, nMax, asym, mass, l0, matched, mcindex);
    }
    
  }//loop
  
  AliDebug(1,"End");

}

//______________________________________________________________________
void AliAnaInsideClusterInvariantMass::Print(const Option_t * opt) const
{
  //Print some relevant parameters set for the analysis
  if(! opt)
    return;
  
  printf("**** Print %s %s ****\n", GetName(), GetTitle() ) ;
  AliAnaCaloTrackCorrBaseClass::Print("");
  printf("Calorimeter     =     %s\n",  GetCalorimeterString().Data()) ;
  if(GetCaloUtils()) printf("Loc. Max. E > %2.2f\n",       GetCaloUtils()->GetLocalMaximaCutE());
  if(GetCaloUtils()) printf("Loc. Max. E Diff > %2.2f\n",  GetCaloUtils()->GetLocalMaximaCutEDiff());
  printf("Min. N Cells =%d \n",         fMinNCells) ;
  printf("Min. Dist. to Bad =%1.1f \n", fMinBadDist) ;
  if(fFillSSWeightHisto) printf(" N w %d - N e cut %d \n",fSSWeightN,fSSECellCutN);
  printf("    \n") ;
  
} 

//___________________________________________________________________________________________________________________
void AliAnaInsideClusterInvariantMass::RecalculateClusterShowerShapeParametersWithCellCut(const AliEMCALGeometry * geom,
                                                                                          AliVCaloCells* cells,
                                                                                          AliVCluster * cluster,
                                                                                          Float_t & l0,   Float_t & l1,
                                                                                          Float_t & disp, Float_t & dEta, Float_t & dPhi,
                                                                                          Float_t & sEta, Float_t & sPhi, Float_t & sEtaPhi,
                                                                                          Float_t eCellMin)
{
  // Calculates new center of gravity in the local EMCAL-module coordinates
  // and tranfers into global ALICE coordinates
  // Calculates Dispersion and main axis
  
  if(!cluster)
  {
    AliWarning("Cluster pointer null!");
    return;
  }
  
  Double_t eCell       = 0.;
  Float_t  fraction    = 1.;
  Float_t  recalFactor = 1.;
  
  Int_t    iSupMod = -1;
  Int_t    iTower  = -1;
  Int_t    iIphi   = -1;
  Int_t    iIeta   = -1;
  Int_t    iphi    = -1;
  Int_t    ieta    = -1;
  Double_t etai    = -1.;
  Double_t phii    = -1.;
  
  Int_t    nstat   = 0 ;
  Float_t  wtot    = 0.;
  Double_t w       = 0.;
  Double_t etaMean = 0.;
  Double_t phiMean = 0.;
    
  Bool_t  shared = GetCaloUtils()-> IsClusterSharedByTwoSuperModules(geom,cluster);

  Float_t energy = GetCaloUtils()->RecalibrateClusterEnergy(cluster, cells);
  
  Float_t simuTotWeight = 0;
  if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
  {
    simuTotWeight =  GetCaloUtils()->RecalibrateClusterEnergyWeightCell(cluster, cells,energy);
    simuTotWeight/= energy;
  }
  
  //Loop on cells, get weighted parameters
  for(Int_t iDigit=0; iDigit < cluster->GetNCells(); iDigit++)
  {
    //Get from the absid the supermodule, tower and eta/phi numbers
    geom->GetCellIndex(cluster->GetCellAbsId(iDigit),iSupMod,iTower,iIphi,iIeta);
    geom->GetCellPhiEtaIndexInSModule(iSupMod,iTower,iIphi,iIeta, iphi,ieta);
    
    //Get the cell energy, if recalibration is on, apply factors
    fraction  = cluster->GetCellAmplitudeFraction(iDigit);
    if(fraction < 1e-4) fraction = 1.; // in case unfolding is off
    
    if(GetCaloUtils()->GetEMCALRecoUtils()->IsRecalibrationOn())
    {
      recalFactor = GetCaloUtils()->GetEMCALRecoUtils()->GetEMCALChannelRecalibrationFactor(iSupMod,ieta,iphi);
    }
    
    eCell  = cells->GetCellAmplitude(cluster->GetCellAbsId(iDigit))*fraction*recalFactor;
    
    // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2
    // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0
    if(shared && iSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols;
    
    if(energy > 0 && eCell > eCellMin)
    {
      if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
        eCell*=GetCaloUtils()->GetMCECellClusFracCorrection(eCell,energy)/simuTotWeight;
      
      w  = GetCaloUtils()->GetEMCALRecoUtils()->GetCellWeight(eCell,energy);

      //correct weight, ONLY in simulation
      w *= (fWSimu[0] - fWSimu[1] * w );

      etai=(Double_t)ieta;
      phii=(Double_t)iphi;
      
      if(w > 0.0)
      {
        wtot += w ;
        nstat++;
        //Shower shape
        sEta     += w * etai * etai ;
        etaMean  += w * etai ;
        sPhi     += w * phii * phii ;
        phiMean  += w * phii ;
        sEtaPhi  += w * etai * phii ;
      }
    }
    else if(energy == 0 || (eCellMin <0.01 && eCell == 0)) AliError(Form("Wrong energy %f and/or amplitude %f", eCell, energy));
    
  }//cell loop
  
  //Normalize to the weight
  if (wtot > 0)
  {
    etaMean /= wtot ;
    phiMean /= wtot ;
  }
  else
    AliError(Form("Wrong weight %f", wtot));
  
  //Calculate dispersion
  for(Int_t iDigit=0; iDigit < cluster->GetNCells(); iDigit++)
  {
    //Get from the absid the supermodule, tower and eta/phi numbers
    geom->GetCellIndex(cluster->GetCellAbsId(iDigit),iSupMod,iTower,iIphi,iIeta);
    geom->GetCellPhiEtaIndexInSModule(iSupMod,iTower,iIphi,iIeta, iphi,ieta);
    
    //Get the cell energy, if recalibration is on, apply factors
    fraction  = cluster->GetCellAmplitudeFraction(iDigit);
    if(fraction < 1e-4) fraction = 1.; // in case unfolding is off
    if (GetCaloUtils()->GetEMCALRecoUtils()->IsRecalibrationOn())
    {
      recalFactor = GetCaloUtils()->GetEMCALRecoUtils()->GetEMCALChannelRecalibrationFactor(iSupMod,ieta,iphi);
    }
    
    eCell  = cells->GetCellAmplitude(cluster->GetCellAbsId(iDigit))*fraction*recalFactor;
    
    // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2
    // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0
    if(shared && iSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols;
    
    if(energy > 0 && eCell > eCellMin)
    {
      if(GetCaloUtils()->IsMCECellClusFracCorrectionOn())
        eCell*=GetCaloUtils()->GetMCECellClusFracCorrection(eCell,energy)/simuTotWeight;
      
      w  = GetCaloUtils()->GetEMCALRecoUtils()->GetCellWeight(eCell,energy);
      
      //correct weight, ONLY in simulation
      w *= (fWSimu[0] - fWSimu[1] * w );

      etai=(Double_t)ieta;
      phii=(Double_t)iphi;
      if(w > 0.0)
      {
        disp +=  w *((etai-etaMean)*(etai-etaMean)+(phii-phiMean)*(phii-phiMean));
        dEta +=  w * (etai-etaMean)*(etai-etaMean) ;
        dPhi +=  w * (phii-phiMean)*(phii-phiMean) ;
      }
    }
    else if(energy == 0 || (eCellMin <0.01 && eCell == 0)) AliError(Form("Wrong energy %f and/or amplitude %f", eCell, energy));
  }// cell loop
  
  //Normalize to the weigth and set shower shape parameters
  if (wtot > 0 && nstat > 1)
  {
    disp    /= wtot ;
    dEta    /= wtot ;
    dPhi    /= wtot ;
    sEta    /= wtot ;
    sPhi    /= wtot ;
    sEtaPhi /= wtot ;
    
    sEta    -= etaMean * etaMean ;
    sPhi    -= phiMean * phiMean ;
    sEtaPhi -= etaMean * phiMean ;
    
    l0 = (0.5 * (sEta + sPhi) + TMath::Sqrt( 0.25 * (sEta - sPhi) * (sEta - sPhi) + sEtaPhi * sEtaPhi ));
    l1 = (0.5 * (sEta + sPhi) - TMath::Sqrt( 0.25 * (sEta - sPhi) * (sEta - sPhi) + sEtaPhi * sEtaPhi ));
  }
  else
  {
    l0   = 0. ;
    l1   = 0. ;
    dEta = 0. ; dPhi = 0. ; disp    = 0. ;
    sEta = 0. ; sPhi = 0. ; sEtaPhi = 0. ;
  }
  
}


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