[u/mrichter/AliRoot.git] / PWG0 / dNdPt / AlidNdPtAnalysis.cxx

/**************************************************************************\r
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
 *                                                                        *\r
 * Author: The ALICE Off-line Project.                                    *\r
 * Contributors are mentioned in the code where appropriate.              *\r
 *                                                                        *\r
 * Permission to use, copy, modify and distribute this software and its   *\r
 * documentation strictly for non-commercial purposes is hereby granted   *\r
 * without fee, provided that the above copyright notice appears in all   *\r
 * copies and that both the copyright notice and this permission notice   *\r
 * appear in the supporting documentation. The authors make no claims     *\r
 * about the suitability of this software for any purpose. It is          *\r
 * provided "as is" without express or implied warranty.                  *\r
 **************************************************************************/\r
//------------------------------------------------------------------------------\r
// AlidNdPtAnalysis class. \r
// \r
// a. functionality:\r
// - fills analysis control histograms\r
// - fills generic correction matrices \r
// - generates correction matrices \r
//\r
// b. data members:\r
// - generic correction matrices\r
// - control histograms\r
//\r
// Author: J.Otwinowski 04/11/2008 \r
// last change: 2011-04-04 by M.Knichel\r
//------------------------------------------------------------------------------\r
\r
#include "TH1.h"\r
#include "TH2.h"\r
#include "TCanvas.h"\r
#include "THnSparse.h"\r
\r
#include "AliHeader.h"  \r
#include "AliInputEventHandler.h"  \r
#include "AliAnalysisManager.h"  \r
#include "AliGenEventHeader.h"  \r
#include "AliStack.h"  \r
#include "AliESDEvent.h"  \r
#include "AliMCEvent.h"  \r
#include "AliESDtrackCuts.h"  \r
#include "AliLog.h" \r
#include "AliMultiplicity.h"\r
#include "AliTracker.h"\r
\r
#include "AlidNdPtEventCuts.h"\r
#include "AlidNdPtAcceptanceCuts.h"\r
#include "AliPhysicsSelection.h"\r
#include "AliTriggerAnalysis.h"\r
\r
#include "AliPWG0Helper.h"\r
#include "AlidNdPtHelper.h"\r
#include "AlidNdPtAnalysis.h"\r
\r
using namespace std;\r
\r
ClassImp(AlidNdPtAnalysis)\r
\r
//_____________________________________________________________________________\r
  AlidNdPtAnalysis::AlidNdPtAnalysis(): AlidNdPt(),\r
  fAnalysisFolder(0),\r
  fHistogramsOn(kFALSE),\r
\r
  // event multiplicity correlation matrix \r
  fEventMultCorrelationMatrix(0),\r
\r
  // rec. track pt vs true track pt correlation matrix \r
  fTrackPtCorrelationMatrix(0),\r
\r
  // event level correction\r
  fGenEventMatrix(0),\r
  fGenSDEventMatrix(0),\r
  fGenDDEventMatrix(0),\r
  fGenNDEventMatrix(0),\r
  fGenNSDEventMatrix(0),\r
\r
  fTriggerEventMatrix(0),\r
  fTriggerSDEventMatrix(0),\r
  fTriggerDDEventMatrix(0),\r
  fTriggerNDEventMatrix(0),\r
  fTriggerNSDEventMatrix(0),\r
\r
  fRecEventMatrix(0),\r
  fRecSDEventMatrix(0),\r
  fRecDDEventMatrix(0),\r
  fRecNDEventMatrix(0),\r
  fRecNSDEventMatrix(0),\r
\r
  //\r
  // track-event level correction \r
  //\r
  fGenTrackEventMatrix(0),\r
  fGenTrackSDEventMatrix(0),\r
  fGenTrackDDEventMatrix(0),\r
  fGenTrackNDEventMatrix(0),\r
  fGenTrackNSDEventMatrix(0),\r
\r
  fTriggerTrackEventMatrix(0),\r
  fTriggerTrackSDEventMatrix(0),\r
  fTriggerTrackDDEventMatrix(0),\r
  fTriggerTrackNDEventMatrix(0),\r
  fTriggerTrackNSDEventMatrix(0),\r
\r
  fRecTrackEventMatrix(0),\r
  fRecTrackSDEventMatrix(0),\r
  fRecTrackDDEventMatrix(0),\r
  fRecTrackNDEventMatrix(0),\r
  fRecTrackNSDEventMatrix(0),\r
\r
  // track rec. efficiency correction (fRecPrimTrackMatrix / fGenPrimTrackMatrix)\r
  fGenTrackMatrix(0),\r
  fGenPrimTrackMatrix(0),\r
  fRecPrimTrackMatrix(0),\r
\r
  // secondary track contamination correction (fRecSecTrackMatrix / fRecTrackMatrix)\r
  fRecTrackMatrix(0),\r
  fRecSecTrackMatrix(0),\r
\r
  // multiple rec. track contamination corrections (fRecMultTrackMatrix / fRecTrackMatrix)\r
  fRecMultTrackMatrix(0),\r
\r
  // event control histograms\r
  fMCEventHist1(0),\r
  fRecEventHist1(0),\r
  fRecEventHist2(0),\r
  fRecMCEventHist1(0),\r
  fRecMCEventHist2(0),\r
  fRecMCEventHist3(0),\r
\r
  // rec. pt and eta resolution w.r.t MC\r
  fRecMCTrackHist1(0),\r
\r
  //multple reconstructed tracks\r
  fMCMultRecTrackHist1(0), \r
\r
  // rec. track control histograms\r
  fRecTrackHist2(0),\r
\r
  // Generic histograms to be corrected\r
  fRecEventHist(0),\r
  fRecTrackHist(0),\r
  fEventCount(0),\r
\r
  // Candle event histogram\r
  fRecCandleEventMatrix(0),\r
  \r
  fMultNbins(0),\r
  fPtNbins(0),\r
  fPtCorrNbins(0),\r
  fEtaNbins(0),\r
  fZvNbins(0),\r
  fBinsMult(0),\r
  fBinsPt(0),\r
  fBinsPtCorr(0),\r
  fBinsEta(0),\r
  fBinsZv(0),\r
\r
  fIsInit(kFALSE)  \r
  \r
{\r
  // default constructor\r
  for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
    fMCTrackHist1[i]=0;     \r
    fMCPrimTrackHist1[i]=0;     \r
    fMCPrimTrackHist2[i]=0;     \r
    fMCSecTrackHist1[i]=0;     \r
    fRecTrackHist1[i]=0;     \r
    fRecTrackMultHist1[i]=0;     \r
  }\r
  //Init();\r
}\r
\r
//_____________________________________________________________________________\r
AlidNdPtAnalysis::AlidNdPtAnalysis(Char_t* name, Char_t* title): AlidNdPt(name,title),\r
  fAnalysisFolder(0),\r
  fHistogramsOn(kFALSE),\r
\r
  // event multiplicity correlation matrix \r
  fEventMultCorrelationMatrix(0),\r
\r
  // rec. track pt vs true track pt correlation matrix \r
  fTrackPtCorrelationMatrix(0),\r
\r
  // event level correction\r
  fGenEventMatrix(0),\r
  fGenSDEventMatrix(0),\r
  fGenDDEventMatrix(0),\r
  fGenNDEventMatrix(0),\r
  fGenNSDEventMatrix(0),\r
\r
  fTriggerEventMatrix(0),\r
  fTriggerSDEventMatrix(0),\r
  fTriggerDDEventMatrix(0),\r
  fTriggerNDEventMatrix(0),\r
  fTriggerNSDEventMatrix(0),\r
\r
  fRecEventMatrix(0),\r
  fRecSDEventMatrix(0),\r
  fRecDDEventMatrix(0),\r
  fRecNDEventMatrix(0),\r
  fRecNSDEventMatrix(0),\r
\r
  //\r
  // track-event level correction \r
  //\r
  fGenTrackEventMatrix(0),\r
  fGenTrackSDEventMatrix(0),\r
  fGenTrackDDEventMatrix(0),\r
  fGenTrackNDEventMatrix(0),\r
  fGenTrackNSDEventMatrix(0),\r
\r
  fTriggerTrackEventMatrix(0),\r
  fTriggerTrackSDEventMatrix(0),\r
  fTriggerTrackDDEventMatrix(0),\r
  fTriggerTrackNDEventMatrix(0),\r
  fTriggerTrackNSDEventMatrix(0),\r
\r
  fRecTrackEventMatrix(0),\r
  fRecTrackSDEventMatrix(0),\r
  fRecTrackDDEventMatrix(0),\r
  fRecTrackNDEventMatrix(0),\r
  fRecTrackNSDEventMatrix(0),\r
\r
  // track rec. efficiency correction (fRecPrimTrackMatrix / fGenPrimTrackMatrix)\r
  fGenTrackMatrix(0),\r
  fGenPrimTrackMatrix(0),\r
  fRecPrimTrackMatrix(0),\r
\r
  // secondary track contamination correction (fRecSecTrackMatrix / fRecTrackMatrix)\r
  fRecTrackMatrix(0),\r
  fRecSecTrackMatrix(0),\r
\r
  // multiple rec. track contamination corrections (fRecMultTrackMatrix / fRecTrackMatrix)\r
  fRecMultTrackMatrix(0),\r
\r
  // event control histograms\r
  fMCEventHist1(0),\r
  fRecEventHist1(0),\r
  fRecEventHist2(0),\r
  fRecMCEventHist1(0),\r
  fRecMCEventHist2(0),\r
  fRecMCEventHist3(0),\r
 \r
  // rec. pt and eta resolution w.r.t MC\r
  fRecMCTrackHist1(0),\r
\r
  //multple reconstructed tracks\r
  fMCMultRecTrackHist1(0), \r
\r
  // rec. track control histograms\r
  fRecTrackHist2(0),\r
\r
  // Generic histograms to be corrected\r
  fRecEventHist(0),\r
  fRecTrackHist(0),\r
  fEventCount(0),\r
\r
  // Candle event histogram\r
  fRecCandleEventMatrix(0),\r
  \r
  fMultNbins(0),\r
  fPtNbins(0),\r
  fPtCorrNbins(0),\r
  fEtaNbins(0),\r
  fZvNbins(0),\r
  fBinsMult(0),\r
  fBinsPt(0),\r
  fBinsPtCorr(0),\r
  fBinsEta(0),\r
  fBinsZv(0),\r
\r
  fIsInit(kFALSE)  \r
  \r
{\r
  //\r
  // constructor\r
  //\r
  for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
    fMCTrackHist1[i]=0;     \r
    fMCPrimTrackHist1[i]=0;     \r
    fMCPrimTrackHist2[i]=0;     \r
    fMCSecTrackHist1[i]=0;     \r
    fRecTrackHist1[i]=0;     \r
    fRecTrackMultHist1[i]=0; \r
  }\r
\r
  //Init();\r
}\r
\r
//_____________________________________________________________________________\r
AlidNdPtAnalysis::~AlidNdPtAnalysis() {\r
  //\r
  // destructor\r
  //\r
  if(fEventMultCorrelationMatrix) delete fEventMultCorrelationMatrix; fEventMultCorrelationMatrix=0;\r
  //\r
  if(fTrackPtCorrelationMatrix) delete fTrackPtCorrelationMatrix; fTrackPtCorrelationMatrix=0;\r
  //\r
  if(fGenEventMatrix) delete fGenEventMatrix; fGenEventMatrix=0;\r
  if(fGenSDEventMatrix) delete fGenSDEventMatrix; fGenSDEventMatrix=0;\r
  if(fGenDDEventMatrix) delete fGenDDEventMatrix; fGenDDEventMatrix=0;\r
  if(fGenNDEventMatrix) delete fGenNDEventMatrix; fGenNDEventMatrix=0;\r
  if(fGenNSDEventMatrix) delete fGenNSDEventMatrix; fGenNSDEventMatrix=0;\r
\r
  if(fTriggerEventMatrix) delete fTriggerEventMatrix; fTriggerEventMatrix=0;\r
  if(fTriggerSDEventMatrix) delete fTriggerSDEventMatrix; fTriggerSDEventMatrix=0;\r
  if(fTriggerDDEventMatrix) delete fTriggerDDEventMatrix; fTriggerDDEventMatrix=0;\r
  if(fTriggerNDEventMatrix) delete fTriggerNDEventMatrix; fTriggerNDEventMatrix=0;\r
  if(fTriggerNSDEventMatrix) delete fTriggerNSDEventMatrix; fTriggerNSDEventMatrix=0;\r
\r
  if(fRecEventMatrix) delete fRecEventMatrix; fRecEventMatrix=0;\r
  if(fRecSDEventMatrix) delete fRecSDEventMatrix; fRecSDEventMatrix=0;\r
  if(fRecDDEventMatrix) delete fRecDDEventMatrix; fRecDDEventMatrix=0;\r
  if(fRecNDEventMatrix) delete fRecNDEventMatrix; fRecNDEventMatrix=0;\r
  if(fRecNSDEventMatrix) delete fRecNSDEventMatrix; fRecNSDEventMatrix=0;\r
\r
  if(fRecCandleEventMatrix) delete fRecCandleEventMatrix; fRecCandleEventMatrix=0;\r
  //\r
  if(fGenTrackEventMatrix) delete fGenTrackEventMatrix; fGenTrackEventMatrix=0;\r
  if(fGenTrackSDEventMatrix) delete fGenTrackSDEventMatrix; fGenTrackSDEventMatrix=0;\r
  if(fGenTrackDDEventMatrix) delete fGenTrackDDEventMatrix; fGenTrackDDEventMatrix=0;\r
  if(fGenTrackNDEventMatrix) delete fGenTrackNDEventMatrix; fGenTrackNDEventMatrix=0;\r
  if(fGenTrackNSDEventMatrix) delete fGenTrackNSDEventMatrix; fGenTrackNSDEventMatrix=0;\r
\r
  if(fTriggerTrackEventMatrix) delete fTriggerTrackEventMatrix; fTriggerTrackEventMatrix=0;\r
  if(fTriggerTrackSDEventMatrix) delete fTriggerTrackSDEventMatrix; fTriggerTrackSDEventMatrix=0;\r
  if(fTriggerTrackDDEventMatrix) delete fTriggerTrackDDEventMatrix; fTriggerTrackDDEventMatrix=0;\r
  if(fTriggerTrackNDEventMatrix) delete fTriggerTrackNDEventMatrix; fTriggerTrackNDEventMatrix=0;\r
  if(fTriggerTrackNSDEventMatrix) delete fTriggerTrackNSDEventMatrix; fTriggerTrackNSDEventMatrix=0;\r
\r
  if(fRecTrackEventMatrix) delete fRecTrackEventMatrix; fRecTrackEventMatrix=0;\r
  if(fRecTrackSDEventMatrix) delete fRecTrackSDEventMatrix; fRecTrackSDEventMatrix=0;\r
  if(fRecTrackDDEventMatrix) delete fRecTrackDDEventMatrix; fRecTrackDDEventMatrix=0;\r
  if(fRecTrackNDEventMatrix) delete fRecTrackNDEventMatrix; fRecTrackNDEventMatrix=0;\r
  if(fRecTrackNSDEventMatrix) delete fRecTrackNSDEventMatrix; fRecTrackNSDEventMatrix=0;\r
\r
  //\r
  if(fGenTrackMatrix) delete fGenTrackMatrix; fGenTrackMatrix=0;\r
  if(fGenPrimTrackMatrix) delete fGenPrimTrackMatrix; fGenPrimTrackMatrix=0;\r
  if(fRecPrimTrackMatrix) delete fRecPrimTrackMatrix; fRecPrimTrackMatrix=0;\r
  //\r
  if(fRecTrackMatrix) delete fRecTrackMatrix; fRecTrackMatrix=0;\r
  if(fRecSecTrackMatrix) delete fRecSecTrackMatrix; fRecSecTrackMatrix=0;\r
  // \r
  if(fRecMultTrackMatrix) delete fRecMultTrackMatrix; fRecMultTrackMatrix=0;\r
  //\r
  // Control histograms\r
  //\r
  if(fMCEventHist1) delete fMCEventHist1; fMCEventHist1=0;\r
  if(fRecEventHist1) delete fRecEventHist1; fRecEventHist1=0;\r
  if(fRecEventHist2) delete fRecEventHist2; fRecEventHist2=0;\r
  if(fRecMCEventHist1) delete fRecMCEventHist1; fRecMCEventHist1=0;\r
  if(fRecMCEventHist2) delete fRecMCEventHist2; fRecMCEventHist2=0;\r
  if(fRecMCEventHist3) delete fRecMCEventHist3; fRecMCEventHist3=0;\r
  //\r
  for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
    if(fMCTrackHist1[i]) delete fMCTrackHist1[i]; fMCTrackHist1[i]=0;\r
    if(fMCPrimTrackHist1[i]) delete fMCPrimTrackHist1[i]; fMCPrimTrackHist1[i]=0;\r
    if(fMCPrimTrackHist2[i]) delete fMCPrimTrackHist2[i]; fMCPrimTrackHist2[i]=0;\r
    if(fMCSecTrackHist1[i]) delete fMCSecTrackHist1[i]; fMCSecTrackHist1[i]=0;\r
    if(fRecTrackHist1[i]) delete fRecTrackHist1[i]; fRecTrackHist1[i]=0;\r
    if(fRecTrackMultHist1[i]) delete fRecTrackMultHist1[i]; fRecTrackMultHist1[i]=0;\r
  }\r
  if(fRecMCTrackHist1) delete fRecMCTrackHist1; fRecMCTrackHist1=0;\r
  if(fMCMultRecTrackHist1) delete fMCMultRecTrackHist1; fMCMultRecTrackHist1=0; \r
  if(fRecTrackHist2) delete fRecTrackHist2; fRecTrackHist2=0; \r
\r
  //\r
  if(fRecEventHist) delete fRecEventHist; fRecEventHist=0; \r
  if(fRecTrackHist) delete fRecTrackHist; fRecTrackHist=0; \r
  if(fEventCount) delete fEventCount; fEventCount=0;\r
\r
  //\r
  if(fAnalysisFolder) delete fAnalysisFolder; fAnalysisFolder=0;\r
  \r
  if (fBinsMult) delete[] fBinsMult; fBinsMult=0;\r
  if (fBinsPt) delete[] fBinsPt; fBinsPt=0;\r
  if (fBinsPtCorr) delete[] fBinsPtCorr; fBinsPtCorr=0;\r
  if (fBinsEta) delete[] fBinsEta; fBinsEta=0;\r
  if (fBinsZv) delete[] fBinsMult; fBinsZv=0;\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::Init()\r
{\r
    //define default binning\r
    Double_t binsMultDefault[28] = {-0.5, 0.5 , 1.5 , 2.5 , 3.5 , 4.5 , 5.5 , 6.5 , 7.5 , 8.5,\r
                                     9.5, 10.5, 11.5, 12.5, 13.5, 14.5, 15.5, 16.5, 17.5, 18.5,\r
				     19.5,20.5, 21.5, 22.5, 23.5, 24.5, 29.5, 149.5};\r
    Double_t binsPtDefault[69] = {0.,0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,0.95,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.2,2.4,2.6,2.8,3.0,3.2,3.4,3.6,3.8,4.0,4.5,5.0,5.5,6.0,6.5,7.0,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0,16.0,18.0,20.0,22.0,24.0,26.0,28.0,30.0,32.0,34.0,36.0,40.0,45.0,50.0};\r
    Double_t binsPtCorrDefault[37] = {0.,0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,0.95,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.2,2.4,2.6,3.0,4.0,50.0};    \r
    Double_t binsEtaDefault[31] = {-1.5,-1.4,-1.3,-1.2,-1.1,-1.0,-0.9,-0.8,-0.7,-0.6,-0.5,-0.4,-0.3,-0.2,-0.1,0.,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5};\r
    Double_t binsZvDefault[13] = {-30.,-25.,-20.,-15.,-10.,-5.,0.,5.,10.,15.,20.,25.,30.};\r
\r
   // if no binning is set, use the default\r
   if (!fBinsMult)   { SetBinsMult(27,binsMultDefault); }\r
   if (!fBinsPt)     { SetBinsPt(68,binsPtDefault); }\r
   if (!fBinsPtCorr) { SetBinsPtCorr(36,binsPtCorrDefault); }\r
   if (!fBinsEta)    { SetBinsEta(30,binsEtaDefault); }\r
   if (!fBinsZv)     { SetBinsZv(12,binsZvDefault); }   \r
  \r
  //Int_t binsTrackMatrix[3]={zvNbins,ptNbins,etaNbins};\r
  Int_t binsTrackEventCorrMatrix[3]={fZvNbins,fPtCorrNbins,fEtaNbins};\r
\r
  //\r
  // Generic histograms to be corrected\r
  //\r
  Int_t binsEventHist[2]={fZvNbins,fMultNbins};\r
  //Double_t minEventHist[2]={-fBinsZv[0],fBinsMult[0]}; \r
  //Double_t maxEventHist[2]={fBinsZv[fZvNbins],fBinsMult[fMultNbins]}; \r
\r
  fRecEventHist = new THnSparseF("fRecEventHist","Zv:multMB",2,binsEventHist); //,minEventHist,maxEventHist);\r
  fRecEventHist->SetBinEdges(0,fBinsZv);\r
  fRecEventHist->SetBinEdges(1,fBinsMult);\r
  fRecEventHist->GetAxis(0)->SetTitle("Zv (cm)");\r
  fRecEventHist->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecEventHist->Sumw2();\r
\r
  //\r
  Int_t binsTrackHist[4]={fZvNbins,fPtNbins,fEtaNbins,fMultNbins};\r
 // Double_t minTrackHist[4]={-25.,0.,-1.5,-0.5}; \r
 // Double_t maxTrackHist[4]={25.,50.,1.5,149.5}; \r
\r
  fRecTrackHist = new THnSparseF("fRecTrackHist","Zv:pT:eta:multRec",4,binsTrackHist); //,minTrackHist,maxTrackHist);\r
  fRecTrackHist->SetBinEdges(0,fBinsZv);\r
  fRecTrackHist->SetBinEdges(1,fBinsPt);\r
  fRecTrackHist->SetBinEdges(2,fBinsEta);\r
  fRecTrackHist->SetBinEdges(3,fBinsMult);\r
  fRecTrackHist->GetAxis(0)->SetTitle("Zv (cm)");\r
  fRecTrackHist->GetAxis(1)->SetTitle("p_{T} (GeV/c)");\r
  fRecTrackHist->GetAxis(2)->SetTitle("#eta");\r
  fRecTrackHist->GetAxis(3)->SetTitle("multiplicity MB");\r
  fRecTrackHist->Sumw2();\r
\r
  //\r
  // rec. vs MC correlation matrices\r
  //\r
  Int_t binsMultTrueEventMatrix[3]={fMultNbins,fMultNbins,fMultNbins};\r
//   Double_t minMultTrueEventMatrix[3]={-0.5,-0.5,-0.5}; \r
//   Double_t maxMultTrueEventMatrix[3]={149.5,149.5,149.5}; \r
  fEventMultCorrelationMatrix = new THnSparseF("fEventMultCorrelationMatrix","mult:true_mult:multMB",3,binsMultTrueEventMatrix); //,minMultTrueEventMatrix,maxMultTrueEventMatrix);\r
  fEventMultCorrelationMatrix->SetBinEdges(0,fBinsMult);\r
  fEventMultCorrelationMatrix->SetBinEdges(1,fBinsMult);\r
  fEventMultCorrelationMatrix->SetBinEdges(2,fBinsMult);\r
  fEventMultCorrelationMatrix->GetAxis(0)->SetTitle("track multiplicity");\r
  fEventMultCorrelationMatrix->GetAxis(1)->SetTitle("true multiplicity");\r
  fEventMultCorrelationMatrix->GetAxis(2)->SetTitle("MB multiplicity");\r
  fEventMultCorrelationMatrix->Sumw2();\r
  \r
  Int_t binsTrackPtCorrelationMatrix[3]={fPtCorrNbins,fPtCorrNbins,fEtaNbins};\r
  fTrackPtCorrelationMatrix = new THnSparseF("fTrackPtCorrelationMatrix","Pt:mcPt:mcEta",3,binsTrackPtCorrelationMatrix);\r
  fTrackPtCorrelationMatrix->SetBinEdges(0,fBinsPtCorr);\r
  fTrackPtCorrelationMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTrackPtCorrelationMatrix->SetBinEdges(2,fBinsEta);\r
  fTrackPtCorrelationMatrix->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
  fTrackPtCorrelationMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTrackPtCorrelationMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTrackPtCorrelationMatrix->Sumw2();\r
\r
  //\r
  // Efficiency and contamination correction matrices\r
  //\r
  Int_t binsEventMatrix[2]={fZvNbins,fMultNbins};\r
//   Double_t minEventMatrix[2]={-25.,-0.5}; \r
//   Double_t maxEventMatrix[2]={25.,149.5}; \r
\r
  fGenEventMatrix = new THnSparseF("fGenEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fGenEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenEventMatrix->SetBinEdges(1,fBinsMult);\r
  fGenEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fGenEventMatrix->Sumw2();\r
  \r
  fGenSDEventMatrix = new THnSparseF("fGenSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fGenSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fGenSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fGenSDEventMatrix->Sumw2();\r
  \r
  fGenDDEventMatrix = new THnSparseF("fGenDDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fGenDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenDDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fGenDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenDDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fGenDDEventMatrix->Sumw2();\r
  \r
  fGenNDEventMatrix = new THnSparseF("fGenNDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fGenNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenNDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fGenNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenNDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fGenNDEventMatrix->Sumw2();\r
\r
  fGenNSDEventMatrix = new THnSparseF("fGenNSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fGenNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenNSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fGenNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenNSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fGenNSDEventMatrix->Sumw2();\r
\r
  //\r
  fTriggerEventMatrix = new THnSparseF("fTriggerEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fTriggerEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerEventMatrix->SetBinEdges(1,fBinsMult);\r
  fTriggerEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fTriggerEventMatrix->Sumw2();\r
\r
  fTriggerSDEventMatrix = new THnSparseF("fTriggerSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fTriggerSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fTriggerSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fTriggerSDEventMatrix->Sumw2();\r
  \r
  fTriggerDDEventMatrix = new THnSparseF("fTriggerDDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fTriggerDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerDDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fTriggerDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerDDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fTriggerDDEventMatrix->Sumw2();\r
  \r
  fTriggerNDEventMatrix = new THnSparseF("fTriggerNDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fTriggerNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerNDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fTriggerNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerNDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fTriggerNDEventMatrix->Sumw2();\r
 \r
  fTriggerNSDEventMatrix = new THnSparseF("fTriggerNSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fTriggerNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerNSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fTriggerNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerNSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fTriggerNSDEventMatrix->Sumw2();\r
 \r
  //\r
  fRecEventMatrix = new THnSparseF("fRecEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecEventMatrix->Sumw2();\r
\r
  fRecSDEventMatrix = new THnSparseF("fRecSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecSDEventMatrix->Sumw2();\r
  \r
  fRecDDEventMatrix = new THnSparseF("fRecDDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecDDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecDDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecDDEventMatrix->Sumw2();\r
  \r
  fRecNDEventMatrix = new THnSparseF("fRecNDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecNDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecNDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecNDEventMatrix->Sumw2();\r
 \r
  fRecNSDEventMatrix = new THnSparseF("fRecNSDEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecNSDEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecNSDEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecNSDEventMatrix->Sumw2();\r
\r
  fRecCandleEventMatrix = new THnSparseF("fRecCandleEventMatrix","mcZv:multMB",2,binsEventMatrix); //,minEventMatrix,maxEventMatrix);\r
  fRecCandleEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecCandleEventMatrix->SetBinEdges(1,fBinsMult);\r
  fRecCandleEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecCandleEventMatrix->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecCandleEventMatrix->Sumw2();\r
\r
  // \r
  // track to event corrections\r
  //\r
\r
  fGenTrackEventMatrix = new THnSparseF("fGenTrackEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenTrackEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackEventMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackEventMatrix->Sumw2();\r
\r
  fGenTrackSDEventMatrix = new THnSparseF("fGenTrackSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenTrackSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackSDEventMatrix->Sumw2();\r
\r
  fGenTrackDDEventMatrix = new THnSparseF("fGenTrackDDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenTrackDDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackDDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackDDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackDDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackDDEventMatrix->Sumw2();\r
\r
  fGenTrackNDEventMatrix = new THnSparseF("fGenTrackNDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenTrackNDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackNDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackNDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackNDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackNDEventMatrix->Sumw2();\r
\r
  fGenTrackNSDEventMatrix = new THnSparseF("fGenTrackNSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fGenTrackNSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackNSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackNSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackNSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackNSDEventMatrix->Sumw2();\r
\r
\r
  //\r
  fTriggerTrackEventMatrix = new THnSparseF("fTriggerTrackEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fTriggerTrackEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerTrackEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTriggerTrackEventMatrix->SetBinEdges(2,fBinsEta);\r
  fTriggerTrackEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerTrackEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTriggerTrackEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTriggerTrackEventMatrix->Sumw2();\r
\r
  fTriggerTrackSDEventMatrix = new THnSparseF("fTriggerTrackSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fTriggerTrackSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerTrackSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTriggerTrackSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fTriggerTrackSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerTrackSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTriggerTrackSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTriggerTrackSDEventMatrix->Sumw2();\r
\r
  fTriggerTrackDDEventMatrix = new THnSparseF("fTriggerTrackDDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fTriggerTrackDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerTrackDDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTriggerTrackDDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fTriggerTrackDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerTrackDDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTriggerTrackDDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTriggerTrackDDEventMatrix->Sumw2();\r
\r
  fTriggerTrackNDEventMatrix = new THnSparseF("fTriggerTrackNDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fTriggerTrackNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerTrackNDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTriggerTrackNDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fTriggerTrackNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerTrackNDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTriggerTrackNDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTriggerTrackNDEventMatrix->Sumw2();\r
\r
  fTriggerTrackNSDEventMatrix = new THnSparseF("fTriggerTrackNSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fTriggerTrackNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fTriggerTrackNSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fTriggerTrackNSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fTriggerTrackNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fTriggerTrackNSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fTriggerTrackNSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fTriggerTrackNSDEventMatrix->Sumw2();\r
\r
  //\r
  fRecTrackEventMatrix = new THnSparseF("fRecTrackEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecTrackEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackEventMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecTrackEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecTrackEventMatrix->Sumw2();\r
\r
  fRecTrackSDEventMatrix = new THnSparseF("fRecTrackSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecTrackSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecTrackSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecTrackSDEventMatrix->Sumw2();\r
\r
  fRecTrackDDEventMatrix = new THnSparseF("fRecTrackDDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackDDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecTrackDDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackDDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackDDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackDDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecTrackDDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecTrackDDEventMatrix->Sumw2();\r
\r
  fRecTrackNDEventMatrix = new THnSparseF("fRecTrackNDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackNDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecTrackNDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackNDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackNDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackNDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecTrackNDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecTrackNDEventMatrix->Sumw2();\r
\r
  fRecTrackNSDEventMatrix = new THnSparseF("fRecTrackNSDEventMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackNSDEventMatrix->SetBinEdges(0,fBinsZv);\r
  fRecTrackNSDEventMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackNSDEventMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackNSDEventMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackNSDEventMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecTrackNSDEventMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecTrackNSDEventMatrix->Sumw2();\r
\r
  //\r
  // tracks correction matrices\r
  //\r
  //fGenTrackMatrix = new THnSparseF("fGenTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fGenTrackMatrix = new THnSparseF("fGenTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fGenTrackMatrix->SetBinEdges(1,binsPt);\r
  fGenTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fGenTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenTrackMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenTrackMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenTrackMatrix->Sumw2();\r
\r
  //fGenPrimTrackMatrix = new THnSparseF("fGenPrimTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fGenPrimTrackMatrix = new THnSparseF("fGenPrimTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fGenPrimTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fGenPrimTrackMatrix->SetBinEdges(1,binsPt);\r
  fGenPrimTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fGenPrimTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fGenPrimTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fGenPrimTrackMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fGenPrimTrackMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fGenPrimTrackMatrix->Sumw2();\r
\r
  //fRecPrimTrackMatrix = new THnSparseF("fRecPrimTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fRecPrimTrackMatrix = new THnSparseF("fRecPrimTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecPrimTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fRecPrimTrackMatrix->SetBinEdges(1,binsPt);\r
  fRecPrimTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecPrimTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fRecPrimTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecPrimTrackMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecPrimTrackMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecPrimTrackMatrix->Sumw2();\r
\r
  //\r
  //fRecTrackMatrix = new THnSparseF("fRecTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fRecTrackMatrix = new THnSparseF("fRecTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fRecTrackMatrix->SetBinEdges(1,binsPt);\r
  fRecTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fRecTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecTrackMatrix->GetAxis(1)->SetTitle("Pt (GeV/c)");\r
  fRecTrackMatrix->GetAxis(2)->SetTitle("Eta");\r
  fRecTrackMatrix->Sumw2();\r
\r
  //fRecSecTrackMatrix = new THnSparseF("fRecSecTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fRecSecTrackMatrix = new THnSparseF("fRecSecTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecSecTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fRecSecTrackMatrix->SetBinEdges(1,binsPt);\r
  fRecSecTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecSecTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fRecSecTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecSecTrackMatrix->GetAxis(1)->SetTitle("Pt (GeV/c)");\r
  fRecSecTrackMatrix->GetAxis(2)->SetTitle("Eta");\r
  fRecSecTrackMatrix->Sumw2();\r
\r
  //\r
  //fRecMultTrackMatrix = new THnSparseF("fRecMultTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackMatrix);\r
  fRecMultTrackMatrix = new THnSparseF("fRecMultTrackMatrix","mcZv:mcPt:mcEta",3,binsTrackEventCorrMatrix);\r
  fRecMultTrackMatrix->SetBinEdges(0,fBinsZv);\r
  //fRecMultTrackMatrix->SetBinEdges(1,binsPt);\r
  fRecMultTrackMatrix->SetBinEdges(1,fBinsPtCorr);\r
  fRecMultTrackMatrix->SetBinEdges(2,fBinsEta);\r
  fRecMultTrackMatrix->GetAxis(0)->SetTitle("mcZv (cm)");\r
  fRecMultTrackMatrix->GetAxis(1)->SetTitle("mcPt (GeV/c)");\r
  fRecMultTrackMatrix->GetAxis(2)->SetTitle("mcEta");\r
  fRecMultTrackMatrix->Sumw2();\r
\r
  //\r
  // Control analysis histograms\r
  //\r
\r
  Int_t binsMCEventHist1[3]={100,100,140};\r
  Double_t minMCEventHist1[3]={-0.1,-0.1,-35.}; \r
  Double_t maxMCEventHist1[3]={0.1,0.1,35.}; \r
  fMCEventHist1 = new THnSparseF("fMCEventHist1","mcXv:mcYv:mcZv",3,binsMCEventHist1,minMCEventHist1,maxMCEventHist1);\r
  fMCEventHist1->GetAxis(0)->SetTitle("mcXv (cm)");\r
  fMCEventHist1->GetAxis(1)->SetTitle("mcYv (cm)");\r
  fMCEventHist1->GetAxis(2)->SetTitle("mcZv (cm)");\r
  fMCEventHist1->Sumw2();\r
\r
  //\r
  Int_t binsRecEventHist1[3]={100,100,140};\r
  Double_t minRecEventHist1[3]={-3.,-3.,-35.}; \r
  Double_t maxRecEventHist1[3]={3.,3.,35.}; \r
  \r
  fRecEventHist1 = new THnSparseF("fRecEventHist1","Xv:Yv:Zv",3,binsRecEventHist1,minRecEventHist1,maxRecEventHist1);\r
  fRecEventHist1->GetAxis(0)->SetTitle("Xv (cm)");\r
  fRecEventHist1->GetAxis(1)->SetTitle("Yv (cm)");\r
  fRecEventHist1->GetAxis(2)->SetTitle("Zv (cm)");\r
  fRecEventHist1->Sumw2();\r
\r
  //\r
  Int_t binsRecEventHist2[3]={fZvNbins,fMultNbins,fMultNbins};\r
//   Double_t minRecEventHist2[3]={-25.,-0.5,-0.5}; \r
//   Double_t maxRecEventHist2[3]={25.,149.5,149.5}; \r
  \r
  fRecEventHist2 = new THnSparseF("fRecEventHist2","Zv:multMB:mult",3,binsRecEventHist2); //,minRecEventHist2,maxRecEventHist2);\r
  fRecEventHist2->SetBinEdges(0,fBinsZv);\r
  fRecEventHist2->SetBinEdges(1,fBinsMult);\r
  fRecEventHist2->SetBinEdges(2,fBinsMult);\r
  fRecEventHist2->GetAxis(0)->SetTitle("Zv (cm)");\r
  fRecEventHist2->GetAxis(1)->SetTitle("multiplicity MB");\r
  fRecEventHist2->GetAxis(2)->SetTitle("multiplicity");\r
  fRecEventHist2->Sumw2();\r
\r
  //\r
  Double_t kFact = 0.1;\r
  Int_t binsRecMCEventHist1[3]={100,100,100};\r
  Double_t minRecMCEventHist1[3]={-10.0*kFact,-10.0*kFact,-10.0*kFact}; \r
  Double_t maxRecMCEventHist1[3]={10.0*kFact,10.0*kFact,10.0*kFact}; \r
   \r
  fRecMCEventHist1 = new THnSparseF("fRecMCEventHist1","Xv-mcXv:Yv-mcYv:Zv-mcZv",3,binsRecMCEventHist1,minRecMCEventHist1,maxRecMCEventHist1);\r
  fRecMCEventHist1->GetAxis(0)->SetTitle("Xv-mcXv (cm)");\r
  fRecMCEventHist1->GetAxis(1)->SetTitle("Yv-mcYv (cm)");\r
  fRecMCEventHist1->GetAxis(2)->SetTitle("Zv-mcZv (cm)");\r
  fRecMCEventHist1->Sumw2();\r
\r
  //\r
  Int_t binsRecMCEventHist2[3]={100,100,fMultNbins};\r
  Double_t minRecMCEventHist2[3]={-10.0*kFact,-10.0*kFact,0.0}; \r
  Double_t maxRecMCEventHist2[3]={10.0*kFact,10.0*kFact,149.50}; \r
\r
  fRecMCEventHist2 = new THnSparseF("fRecMCEventHist2","Xv-mcXv:Zv-mcZv:mult",3,binsRecMCEventHist2,minRecMCEventHist2,maxRecMCEventHist2);\r
  fRecMCEventHist2->SetBinEdges(2,fBinsMult);  \r
  fRecMCEventHist2->GetAxis(0)->SetTitle("Xv-mcXv (cm)");\r
  fRecMCEventHist2->GetAxis(1)->SetTitle("Zv-mcZv (cm)");\r
  fRecMCEventHist2->GetAxis(2)->SetTitle("multiplicity");\r
  fRecMCEventHist2->Sumw2();\r
\r
  Int_t binsRecMCEventHist3[2]={fMultNbins,5};\r
  Double_t minRecMCEventHist3[2]={-0.5,0.0}; \r
  Double_t maxRecMCEventHist3[2]={149.50,5.0}; \r
  fRecMCEventHist3 = new THnSparseF("fRecMCEventHist3","mult:EventType (ND, DD, SD)",2,binsRecMCEventHist3,minRecMCEventHist3,maxRecMCEventHist3);\r
  fRecMCEventHist3->SetBinEdges(0,fBinsMult);    \r
  fRecMCEventHist3->GetAxis(0)->SetTitle("multiplicity");\r
  fRecMCEventHist3->GetAxis(1)->SetTitle("EventType");\r
  fRecMCEventHist3->Sumw2();\r
\r
  //\r
  char name[256];\r
  char title[256];\r
  for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) \r
  {\r
  // THnSparse track histograms\r
 \r
  Int_t binsMCTrackHist1[3]=  {fPtCorrNbins, fEtaNbins, 90};\r
  Double_t minMCTrackHist1[3]={0.,-1.,0.}; \r
  Double_t maxMCTrackHist1[3]={10.,1.,2.*TMath::Pi()}; \r
  snprintf(name,256,"fMCTrackHist1_%d",i);\r
  snprintf(title,256,"mcPt:mcEta:mcPhi");\r
  \r
  fMCTrackHist1[i] = new THnSparseF(name,title,3,binsMCTrackHist1,minMCTrackHist1,maxMCTrackHist1);\r
  fMCTrackHist1[i]->SetBinEdges(0,fBinsPtCorr);\r
  fMCTrackHist1[i]->SetBinEdges(1,fBinsEta);\r
  fMCTrackHist1[i]->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
  fMCTrackHist1[i]->GetAxis(1)->SetTitle("mcEta");\r
  fMCTrackHist1[i]->GetAxis(2)->SetTitle("mcPhi (rad)");\r
  fMCTrackHist1[i]->Sumw2();\r
\r
  Int_t binsMCPrimTrackHist1[5]=  {fPtCorrNbins,fEtaNbins,6,20,4000};\r
  Double_t minMCPrimTrackHist1[5]={0.,-1.,0.,0.,0.}; \r
  Double_t maxMCPrimTrackHist1[5]={10.,1.,6.,20.,4000.}; \r
  snprintf(name,256,"fMCPrimTrackHist1_%d",i);\r
  snprintf(title,256,"mcPt:mcEta:pid:mech:mother");\r
  \r
  fMCPrimTrackHist1[i] = new THnSparseF(name,title,5,binsMCPrimTrackHist1,minMCPrimTrackHist1,maxMCPrimTrackHist1);\r
  fMCPrimTrackHist1[i]->SetBinEdges(0,fBinsPtCorr);\r
  fMCPrimTrackHist1[i]->SetBinEdges(1,fBinsEta);\r
  fMCPrimTrackHist1[i]->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
  fMCPrimTrackHist1[i]->GetAxis(1)->SetTitle("mcEta");\r
  fMCPrimTrackHist1[i]->GetAxis(2)->SetTitle("pid");\r
  fMCPrimTrackHist1[i]->GetAxis(3)->SetTitle("mech");\r
  fMCPrimTrackHist1[i]->GetAxis(4)->SetTitle("mother");\r
  fMCPrimTrackHist1[i]->Sumw2();\r
\r
  Int_t binsMCPrimTrackHist2[3]=  {4000,20,4000};\r
  Double_t minMCPrimTrackHist2[3]={0.,0.,0.}; \r
  Double_t maxMCPrimTrackHist2[3]={4000.,20.,4000.}; \r
  snprintf(name,256,"fMCPrimTrackHist2_%d",i);\r
  snprintf(title,256,"pdg:mech:mother");\r
  \r
  fMCPrimTrackHist2[i] = new THnSparseF(name,title,3,binsMCPrimTrackHist2,minMCPrimTrackHist2,maxMCPrimTrackHist2);\r
  fMCPrimTrackHist2[i]->GetAxis(0)->SetTitle("pdg");\r
  fMCPrimTrackHist2[i]->GetAxis(1)->SetTitle("mech");\r
  fMCPrimTrackHist2[i]->GetAxis(2)->SetTitle("mother");\r
  fMCPrimTrackHist2[i]->Sumw2();\r
\r
  Int_t binsMCSecTrackHist1[5]=  {fPtCorrNbins,fEtaNbins,6,20,4000};\r
  Double_t minMCSecTrackHist1[5]={0.,-1.,0.,0.,0.}; \r
  Double_t maxMCSecTrackHist1[5]={10.,1.,6.,20.,4000.};   \r
  snprintf(name,256,"fMCSecTrackHist1_%d",i);\r
  snprintf(title,256,"mcPt:mcEta:pid:mech:mother");\r
  \r
  fMCSecTrackHist1[i] = new THnSparseF(name,title,5,binsMCSecTrackHist1,minMCSecTrackHist1,maxMCSecTrackHist1);\r
  fMCSecTrackHist1[i]->SetBinEdges(0,fBinsPtCorr);\r
  fMCSecTrackHist1[i]->SetBinEdges(1,fBinsEta);\r
  fMCSecTrackHist1[i]->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
  fMCSecTrackHist1[i]->GetAxis(1)->SetTitle("mcEta");\r
  fMCSecTrackHist1[i]->GetAxis(2)->SetTitle("pid");\r
  fMCSecTrackHist1[i]->GetAxis(3)->SetTitle("mech");\r
  fMCSecTrackHist1[i]->GetAxis(4)->SetTitle("mother");\r
  fMCSecTrackHist1[i]->Sumw2();\r
\r
  //\r
\r
  // \r
  \r
  Int_t binsRecTrackHist1[3]={fPtNbins,fEtaNbins,90};\r
  Double_t minRecTrackHist1[3]={0.,-1.,0.}; \r
  Double_t maxRecTrackHist1[3]={10.,1.,2.*TMath::Pi()};\r
  snprintf(name,256,"fRecTrackHist1_%d",i);\r
  snprintf(title,256,"Pt:Eta:Phi");\r
  fRecTrackHist1[i] = new THnSparseF(name,title,3,binsRecTrackHist1,minRecTrackHist1,maxRecTrackHist1);\r
  fRecTrackHist1[i]->SetBinEdges(0,fBinsPt);\r
  fRecTrackHist1[i]->SetBinEdges(1,fBinsEta);\r
  fRecTrackHist1[i]->GetAxis(0)->SetTitle("p_{T} (GeV/c)");\r
  fRecTrackHist1[i]->GetAxis(1)->SetTitle("#eta");\r
  fRecTrackHist1[i]->GetAxis(2)->SetTitle("#phi (rad)");\r
  fRecTrackHist1[i]->Sumw2();\r
\r
  // \r
  Int_t binsRecTrackMultHist1[2]={fPtNbins,fMultNbins};\r
  snprintf(name,256,"fRecTrackMultHist_%d",i);\r
  snprintf(title,256,"Pt:Mult");\r
  fRecTrackMultHist1[i] = new THnSparseF(name,title,2,binsRecTrackMultHist1); //,minRecTrackMultHist1,maxRecTrackMultHist1);\r
  fRecTrackMultHist1[i]->SetBinEdges(0,fBinsPt);\r
  fRecTrackMultHist1[i]->SetBinEdges(1,fBinsMult);\r
  fRecTrackMultHist1[i]->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
  fRecTrackMultHist1[i]->GetAxis(1)->SetTitle("multiplicity");\r
  fRecTrackMultHist1[i]->Sumw2();\r
  }\r
\r
  Int_t binsRecMCTrackHist1[4] = {fPtCorrNbins,fEtaNbins,100,100};\r
  Double_t minRecMCTrackHist1[4]={0.,-1.,-0.5,-0.5}; \r
  Double_t maxRecMCTrackHist1[4]={20.,1.,0.5,0.5}; \r
  snprintf(name,256,"fRecMCTrackHist1");\r
  snprintf(title,256,"mcPt:mcEta:(Pt-mcPt)/mcPt:(Eta-mcEta)");\r
\r
  fRecMCTrackHist1 = new THnSparseF(name,title,4,binsRecMCTrackHist1,minRecMCTrackHist1,maxRecMCTrackHist1);\r
  fRecMCTrackHist1->SetBinEdges(0,fBinsPtCorr);\r
  fRecMCTrackHist1->SetBinEdges(1,fBinsEta);\r
  fRecMCTrackHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
  fRecMCTrackHist1->GetAxis(1)->SetTitle("mcEta");\r
  fRecMCTrackHist1->GetAxis(2)->SetTitle("(Pt-mcPt)/mcPt");\r
  fRecMCTrackHist1->GetAxis(3)->SetTitle("Eta-mcEta");\r
\r
  Int_t binsMCMultRecTrackHist1[3] = {fPtCorrNbins,fEtaNbins,6};\r
  Double_t minMCMultRecTrackHist1[3]={0.,-1.,0.}; \r
  Double_t maxMCMultRecTrackHist1[3]={20.,1.,6.}; \r
  snprintf(name,256,"fMCMultRecTrackHist1");\r
  snprintf(title,256,"mcPt:mcEta:pid");\r
  fMCMultRecTrackHist1 = new THnSparseF(name,title,3,binsMCMultRecTrackHist1,minMCMultRecTrackHist1,maxMCMultRecTrackHist1);\r
  fMCMultRecTrackHist1->SetBinEdges(0,fBinsPtCorr);\r
  fMCMultRecTrackHist1->SetBinEdges(1,fBinsEta);\r
  fMCMultRecTrackHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
  fMCMultRecTrackHist1->GetAxis(1)->SetTitle("mcEta");\r
  fMCMultRecTrackHist1->GetAxis(2)->SetTitle("pid");\r
\r
  //nClust:chi2PerClust:pt:eta:phi\r
  Int_t binsRecTrackHist2[5]={160,100,fPtNbins,fEtaNbins,90};\r
  Double_t minRecTrackHist2[5]={0., 0., 0, -1.5, 0.};\r
  Double_t maxRecRecTrackHist2[5]={160.,10., 16, 1.5, 2.*TMath::Pi()};\r
\r
  fRecTrackHist2 = new THnSparseF("fRecTrackHist2","nClust:chi2PerClust:pt:eta:phi",5,binsRecTrackHist2,minRecTrackHist2,maxRecRecTrackHist2);\r
  fRecTrackHist2->SetBinEdges(2,fBinsPt);\r
  fRecTrackHist2->SetBinEdges(3,fBinsEta);\r
  fRecTrackHist2->GetAxis(0)->SetTitle("nClust");\r
  fRecTrackHist2->GetAxis(1)->SetTitle("chi2PerClust");\r
  fRecTrackHist2->GetAxis(2)->SetTitle("p_{T} (GeV/c)");\r
  fRecTrackHist2->GetAxis(3)->SetTitle("#eta");\r
  fRecTrackHist2->GetAxis(4)->SetTitle("#phi (rad)");\r
  fRecTrackHist2->Sumw2();\r
  \r
  Int_t binsEventCount[3]={2,2,2};\r
  Double_t minEventCount[3]={0,0,0}; \r
  Double_t maxEventCount[3]={2,2,2}; \r
  fEventCount = new THnSparseF("fEventCount","trig vs trig+vertex",3,binsEventCount,minEventCount,maxEventCount);\r
  fEventCount->GetAxis(0)->SetTitle("trig");\r
  fEventCount->GetAxis(1)->SetTitle("trig+vert");\r
  fEventCount->GetAxis(2)->SetTitle("selected");\r
  fEventCount->Sumw2();\r
\r
  // init folder\r
  fAnalysisFolder = CreateFolder("folderdNdPt","Analysis dNdPt Folder");\r
  \r
  // set init flag\r
  fIsInit = kTRUE;\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::Process(AliESDEvent *const esdEvent, AliMCEvent *const mcEvent)\r
{\r
  //  init if not done already\r
  if (!fIsInit) { Init(); }\r
  \r
  //\r
  // Process real and/or simulated events\r
  //\r
  if(!esdEvent) {\r
    AliDebug(AliLog::kError, "esdEvent not available");\r
    return;\r
  }\r
\r
  // get selection cuts\r
  AlidNdPtEventCuts *evtCuts = GetEventCuts(); \r
  AlidNdPtAcceptanceCuts *accCuts = GetAcceptanceCuts(); \r
  AliESDtrackCuts *esdTrackCuts = GetTrackCuts(); \r
\r
  if(!evtCuts || !accCuts  || !esdTrackCuts) {\r
    AliDebug(AliLog::kError, "cuts not available");\r
    return;\r
  }\r
\r
  // trigger selection\r
  Bool_t isEventTriggered = kTRUE;\r
  AliPhysicsSelection *physicsSelection = NULL;\r
  AliTriggerAnalysis* triggerAnalysis = NULL;\r
\r
  // \r
  AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();\r
  if (!inputHandler)\r
  {\r
    Printf("ERROR: Could not receive input handler");\r
    return;\r
  }\r
\r
  if(evtCuts->IsTriggerRequired())  \r
  {\r
    // always MB\r
    isEventTriggered = inputHandler->IsEventSelected() & AliVEvent::kMB;\r
\r
    physicsSelection = static_cast<AliPhysicsSelection*> (inputHandler->GetEventSelection());\r
    if(!physicsSelection) return;\r
    //SetPhysicsTriggerSelection(physicsSelection);\r
\r
    if (isEventTriggered && (GetTrigger() == AliTriggerAnalysis::kV0AND)) {\r
      // set trigger (V0AND)\r
      triggerAnalysis = physicsSelection->GetTriggerAnalysis();\r
      if(!triggerAnalysis) return;\r
      isEventTriggered = triggerAnalysis->IsOfflineTriggerFired(esdEvent, GetTrigger());\r
    }\r
\r
    // calculate LHC background\r
    if(!IsUseMCInfo()) \r
    { \r
      //\r
      // 0-multiplicity bin for LHC background correction\r
      //\r
      /* bin0 done in the train\r
      if( GetAnalysisMode() == AlidNdPtHelper::kTPCITS || \r
          GetAnalysisMode() == AlidNdPtHelper::kTPCTrackSPDvtx || \r
	  GetAnalysisMode() == AlidNdPtHelper::kTPCTrackSPDvtxUpdate || \r
          GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtx || \r
	  GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtxDCArPt ) \r
      {\r
         physicsSelection->SetBin0CallbackViaPointer(&AlidNdPtAnalysis::IsBinZeroTrackSPDvtx);\r
      } else {\r
         physicsSelection->SetBin0CallbackViaPointer(&AlidNdPtAnalysis::IsBinZeroSPDvtx);\r
      }\r
      */\r
    }\r
  }\r
\r
\r
  // use MC information\r
  AliHeader* header = 0;\r
  AliGenEventHeader* genHeader = 0;\r
  AliStack* stack = 0;\r
  TArrayF vtxMC(3);\r
  AliPWG0Helper::MCProcessType evtType = AliPWG0Helper::kInvalidProcess;\r
\r
  Int_t multMCTrueTracks = 0;\r
  if(IsUseMCInfo())\r
  {\r
    //\r
    if(!mcEvent) {\r
      AliDebug(AliLog::kError, "mcEvent not available");\r
      return;\r
    }\r
    // get MC event header\r
    header = mcEvent->Header();\r
    if (!header) {\r
      AliDebug(AliLog::kError, "Header not available");\r
      return;\r
    }\r
    // MC particle stack\r
    stack = mcEvent->Stack();\r
    if (!stack) {\r
      AliDebug(AliLog::kError, "Stack not available");\r
      return;\r
    }\r
    // get event type (ND=0x1, DD=0x2, SD=0x4)\r
    evtType = AliPWG0Helper::GetEventProcessType(header);\r
    AliDebug(AliLog::kDebug+1, Form("Found process type %d", evtType));\r
\r
    // get MC vertex\r
    genHeader = header->GenEventHeader();\r
    if (!genHeader) {\r
      AliDebug(AliLog::kError, "Could not retrieve genHeader from Header");\r
      return;\r
    }\r
    genHeader->PrimaryVertex(vtxMC);\r
\r
    Double_t vMCEventHist1[3]={vtxMC[0],vtxMC[1],vtxMC[2]};\r
    fMCEventHist1->Fill(vMCEventHist1);\r
\r
    // multipliticy of all MC primary tracks\r
    // in Zv, pt and eta ranges)\r
    multMCTrueTracks = AlidNdPtHelper::GetMCTrueTrackMult(mcEvent,evtCuts,accCuts);\r
\r
  } // end bUseMC\r
\r
\r
  // get reconstructed vertex  \r
  const AliESDVertex* vtxESD = 0; \r
  Bool_t isRecVertex = kFALSE;\r
  if(evtCuts->IsRecVertexRequired()) \r
  {\r
    Bool_t bRedoTPCVertex = evtCuts->IsRedoTPCVertex();\r
    Bool_t bUseConstraints = evtCuts->IsUseBeamSpotConstraint();\r
    vtxESD = AlidNdPtHelper::GetVertex(esdEvent,evtCuts,accCuts,esdTrackCuts,GetAnalysisMode(),kFALSE,bRedoTPCVertex,bUseConstraints); \r
    isRecVertex = AlidNdPtHelper::TestRecVertex(vtxESD, esdEvent->GetPrimaryVertexSPD(), GetAnalysisMode(), kFALSE);\r
  }\r
\r
  if( IsUseMCInfo() && !evtCuts->IsRecVertexRequired() ) {\r
    vtxESD = new AliESDVertex(vtxMC[2],10.,genHeader->NProduced(),"smearMC");\r
    isRecVertex = kTRUE;\r
  }\r
\r
  Bool_t isEventOK = evtCuts->AcceptEvent(esdEvent,mcEvent,vtxESD) && isRecVertex; \r
  //printf("isEventOK %d, isEventTriggered %d \n",isEventOK, isEventTriggered);\r
  //printf("GetAnalysisMode() %d \n",GetAnalysisMode());\r
  \r
  Bool_t isTrigAndVertex = isEventTriggered && isEventOK;\r
  \r
  Double_t vEventCount[3] = { (isEventTriggered && kTRUE) , isTrigAndVertex,  isTrigAndVertex && (TMath::Abs(vtxESD->GetZv()) < 10.)};\r
  fEventCount->Fill(vEventCount);  \r
\r
  // vertex contributors\r
  Int_t multMBTracks = 0; \r
  if(GetAnalysisMode() == AlidNdPtHelper::kTPC) \r
  {  \r
     if(vtxESD->GetStatus() && isRecVertex)\r
       multMBTracks = AlidNdPtHelper::GetTPCMBTrackMult(esdEvent,evtCuts,accCuts,esdTrackCuts);\r
  } \r
  else if( GetAnalysisMode() == AlidNdPtHelper::kTPCSPDvtx || \r
           GetAnalysisMode()==AlidNdPtHelper::kTPCSPDvtxUpdate ) \r
  {\r
     const AliMultiplicity* mult = esdEvent->GetMultiplicity();\r
     if(mult && vtxESD->GetStatus() && isRecVertex)\r
       multMBTracks = mult->GetNumberOfTracklets();\r
  } \r
  else if( GetAnalysisMode() == AlidNdPtHelper::kTPCITS || \r
           GetAnalysisMode()==AlidNdPtHelper::kTPCITSHybrid || \r
	   GetAnalysisMode() == AlidNdPtHelper::kTPCTrackSPDvtx || \r
	   GetAnalysisMode() == AlidNdPtHelper::kTPCTrackSPDvtxUpdate || \r
           GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtx || \r
	   GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtxDCArPt || \r
	   GetAnalysisMode() == AlidNdPtHelper::kITSStandAloneTrackSPDvtx || \r
	   GetAnalysisMode() == AlidNdPtHelper::kITSStandAloneTPCTrackSPDvtx\r
	   )\r
  {\r
     if(vtxESD->GetStatus() && isRecVertex)\r
       multMBTracks = vtxESD->GetNContributors();\r
  }\r
  else {\r
    AliDebug(AliLog::kError, Form("Found analysis type %d", GetAnalysisMode()));\r
    return; \r
  }\r
\r
  Bool_t isEventSelected = kTRUE;\r
  if(evtCuts->IsEventSelectedRequired()) \r
  { \r
     // select events with at least \r
     // one prompt track in acceptance\r
     // pT>0.5 GeV/c, |eta|<0.8 for the Cross Section studies\r
\r
     isEventSelected = AlidNdPtHelper::SelectEvent(esdEvent,esdTrackCuts);\r
     //printf("isEventSelected %d \n", isEventSelected);\r
  }\r
\r
  TObjArray *allChargedTracks=0;\r
  Int_t multAll=0, multAcc=0, multRec=0;\r
  Int_t *labelsAll=0, *labelsAcc=0, *labelsRec=0;\r
\r
\r
  // check event cuts\r
  if(isEventOK && isEventTriggered && isEventSelected)\r
  {\r
    // get all charged tracks\r
    allChargedTracks = AlidNdPtHelper::GetAllChargedTracks(esdEvent,GetAnalysisMode());\r
    if(!allChargedTracks) return;\r
\r
    Int_t entries = allChargedTracks->GetEntries();\r
    //printf("entries %d \n",entries);\r
    \r
\r
    // calculate mult of reconstructed tracks\r
    Int_t multRecTemp=0;\r
    for(Int_t i=0; i<entries;++i) \r
    {\r
      AliESDtrack *track = (AliESDtrack*)allChargedTracks->At(i);\r
      if(!track) continue;\r
      if(track->Charge()==0) continue;\r
\r
\r
      // only postive charged \r
      if(GetParticleMode() == AlidNdPtHelper::kPlus && track->Charge() < 0) \r
        continue;\r
      \r
      // only negative charged \r
      if(GetParticleMode() == AlidNdPtHelper::kMinus && track->Charge() > 0) \r
        continue;\r
\r
      if(esdTrackCuts->AcceptTrack(track)) \r
      {\r
          if(accCuts->AcceptTrack(track)) multRecTemp++;\r
      }  \r
    }\r
\r
\r
    labelsAll = new Int_t[entries];\r
    labelsAcc = new Int_t[entries];\r
    labelsRec = new Int_t[entries];\r
    for(Int_t i=0; i<entries;++i) \r
    {\r
      AliESDtrack *track = (AliESDtrack*)allChargedTracks->At(i);\r
      if(!track) continue;\r
      if(track->Charge()==0) continue;\r
\r
      // only postive charged \r
      if(GetParticleMode() == AlidNdPtHelper::kPlus && track->Charge() < 0) \r
        continue;\r
      \r
      // only negative charged \r
      if(GetParticleMode() == AlidNdPtHelper::kMinus && track->Charge() > 0) \r
        continue;\r
\r
      FillHistograms(track,stack,vtxESD->GetZv(),AlidNdPtHelper::kAllTracks, multRecTemp); \r
      labelsAll[multAll] = TMath::Abs(track->GetLabel());\r
      multAll++;\r
     \r
      //if(accCuts->AcceptTrack(track)) { \r
      //FillHistograms(track,stack,AlidNdPtHelper::kAccTracks); \r
      //labelsAcc[multAcc] = TMath::Abs(track->GetLabel());\r
      //multAcc++;\r
      //}\r
\r
      // esd track selection \r
      // ITS stand alone\r
      if(GetAnalysisMode() == AlidNdPtHelper::kITSStandAloneTrackSPDvtx) \r
      {\r
        if(!(track->GetStatus() & AliESDtrack::kITSpureSA)) continue;\r
        if(!(track->GetStatus() & AliESDtrack::kITSrefit)) continue;\r
        if(track->GetNcls(0)<4) continue;\r
        if(!track->HasPointOnITSLayer(0) && !track->HasPointOnITSLayer(1)) continue;\r
      } \r
      else if(GetAnalysisMode() == AlidNdPtHelper::kITSStandAloneTPCTrackSPDvtx) \r
      {\r
        //\r
        // ITS and TPC stand alone tracks\r
	//\r
	if(!(track->GetStatus() & AliESDtrack::kITSpureSA)) continue;\r
	if(!(track->GetStatus() & AliESDtrack::kITSrefit)) continue;\r
	if(track->GetNcls(0)<4) continue;\r
	if(!track->HasPointOnITSLayer(0) && !track->HasPointOnITSLayer(1)) continue;\r
\r
        // Check matching with TPC only track\r
	Bool_t hasMatch = kFALSE;\r
	for(Int_t j=0; j<entries;++j) \r
        {\r
	  if(i==j) continue;\r
          AliESDtrack *track2 = (AliESDtrack*)allChargedTracks->At(j);\r
          if(!track2) continue;\r
          if(track2->Charge()==0) continue;\r
	  if (!track2->GetTPCInnerParam()) continue;\r
\r
          // check loose cuts for TPC tracks\r
          if(!esdTrackCuts->AcceptTrack(track2)) continue; \r
\r
	  AliExternalTrackParam *innerTPC = new AliExternalTrackParam(*(track2->GetTPCInnerParam()));\r
	  if(!innerTPC) continue;\r
          Double_t x2[3]; track2->GetXYZ(x2);\r
          Double_t b2[3]; AliTracker::GetBxByBz(x2,b2);\r
	  Double_t dz[2],cov[3];\r
	  Bool_t isPropOK = innerTPC->PropagateToDCABxByBz(vtxESD,b2,kVeryBig,dz,cov);\r
          if(!isPropOK && innerTPC) {delete innerTPC; continue;}\r
\r
          // check matching\r
          if (TMath::Abs(track->GetY() - innerTPC->GetY()) > 3) { delete innerTPC; continue; }\r
          if (TMath::Abs(track->GetSnp() - innerTPC->GetSnp()) > 0.2) { delete innerTPC; continue; }\r
          if (TMath::Abs(track->GetTgl() - innerTPC->GetTgl()) > 0.2) { delete innerTPC; continue; }\r
\r
	  hasMatch = kTRUE;\r
	  if(innerTPC) delete innerTPC;\r
	}\r
\r
        if(!hasMatch) continue;\r
      }\r
      else {\r
        // check track cuts\r
    \r
        if(!esdTrackCuts->AcceptTrack(track)) \r
	  continue;\r
      }\r
\r
      //\r
      Bool_t isOK = kFALSE;\r
      Double_t x[3]; track->GetXYZ(x);\r
      Double_t b[3]; AliTracker::GetBxByBz(x,b);\r
\r
      //\r
      // if TPC-ITS hybrid tracking (kTPCITSHybrid)\r
      // replace track parameters with TPC-ony track parameters\r
      //\r
      if( GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybrid || \r
          GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtx || \r
	  GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybridTrackSPDvtxDCArPt) \r
      {\r
        // Relate TPC-only tracks to Track or SPD vertex\r
        isOK = track->RelateToVertexTPCBxByBz(vtxESD, b, kVeryBig);\r
        if(!isOK) continue;\r
\r
	// replace esd track parameters with TPCinner\r
        AliExternalTrackParam  *tpcTrack  = new AliExternalTrackParam(*(track->GetTPCInnerParam()));\r
	if (!tpcTrack) return;\r
        track->Set(tpcTrack->GetX(),tpcTrack->GetAlpha(),tpcTrack->GetParameter(),tpcTrack->GetCovariance());\r
\r
        if(tpcTrack) delete tpcTrack; \r
      } \r
\r
\r
         // update track parameters using vertex point \r
	 if( GetAnalysisMode() == AlidNdPtHelper::kTPCSPDvtxUpdate || \r
	     GetAnalysisMode() == AlidNdPtHelper::kTPCTrackSPDvtxUpdate ) \r
	 {\r
	   // update track parameters\r
             AliExternalTrackParam cParam;\r
             isOK = track->RelateToVertexTPCBxByBz(vtxESD, b, kVeryBig, &cParam);\r
             if(!isOK) continue;\r
	     track->Set(cParam.GetX(),cParam.GetAlpha(),cParam.GetParameter(),cParam.GetCovariance());\r
\r
             if(accCuts->AcceptTrack(track)) {\r
               FillHistograms(track,stack,vtxESD->GetZv(),AlidNdPtHelper::kRecTracks,multRecTemp); \r
	       labelsRec[multRec] = TMath::Abs(track->GetLabel());\r
	       multRec++;\r
	     }  \r
	  }\r
          else {\r
             if(accCuts->AcceptTrack(track)) \r
	     {\r
               FillHistograms(track,stack,vtxESD->GetZv(),AlidNdPtHelper::kRecTracks,multRecTemp); \r
	       labelsRec[multRec] = TMath::Abs(track->GetLabel());\r
	       multRec++;\r
	     }\r
          }\r
     }\r
\r
\r
     // fill track multiplicity histograms\r
     FillHistograms(allChargedTracks,labelsAll,multAll,labelsAcc,multAcc,labelsRec,multRec);\r
\r
     Double_t vRecEventHist1[3] = {vtxESD->GetXv(),vtxESD->GetYv(),vtxESD->GetZv()};\r
     fRecEventHist1->Fill(vRecEventHist1);\r
\r
     Double_t vRecEventHist2[3] = {vtxESD->GetZv(),multMBTracks,multRec};\r
     fRecEventHist2->Fill(vRecEventHist2);\r
\r
     // \r
     Double_t vRecEventHist[2] = {vtxESD->GetZv(),multMBTracks};\r
     fRecEventHist->Fill(vRecEventHist);\r
   } \r
\r
   if(IsUseMCInfo())  \r
   {\r
     if(!mcEvent) return; \r
\r
     if(evtCuts->IsEventSelectedRequired()) \r
     { \r
       // select events with at least \r
       // one MC primary track in acceptance\r
       // pT>0.5 GeV/c, |eta|<0.8 for the Cross Section studies\r
\r
       Bool_t isMCEventSelected = AlidNdPtHelper::SelectMCEvent(mcEvent);\r
       //printf("isMCEventSelected %d \n", isMCEventSelected);\r
       if(!isMCEventSelected) return;  \r
     }\r
\r
     Double_t vMultTrueEventMatrix[3] = { multRec, multMCTrueTracks, multMBTracks};\r
     if(isEventOK && isEventTriggered) {   \r
       if(TMath::Abs(vtxMC[2]) < 10.0) // both Rec. and corresponding MC events must be accepted\r
         fEventMultCorrelationMatrix->Fill(vMultTrueEventMatrix);\r
     }\r
\r
     // \r
     // event level corrections (zv,N_MB)\r
     //\r
\r
     // all inelastic\r
     Double_t vEventMatrix[2] = {vtxMC[2],multMBTracks};\r
     fGenEventMatrix->Fill(vEventMatrix); \r
     if(isEventTriggered) fTriggerEventMatrix->Fill(vEventMatrix);\r
     if(isEventOK && isEventTriggered) fRecEventMatrix->Fill(vEventMatrix);\r
\r
     // single diffractive\r
     if(evtType == AliPWG0Helper::kSD) {\r
       fGenSDEventMatrix->Fill(vEventMatrix); \r
       if(isEventTriggered) fTriggerSDEventMatrix->Fill(vEventMatrix);\r
       if(isEventOK && isEventTriggered) fRecSDEventMatrix->Fill(vEventMatrix);\r
     }\r
\r
     // double diffractive\r
     if(evtType == AliPWG0Helper::kDD) {\r
       fGenDDEventMatrix->Fill(vEventMatrix); \r
       if(isEventTriggered) fTriggerDDEventMatrix->Fill(vEventMatrix);\r
       if(isEventOK && isEventTriggered)  fRecDDEventMatrix->Fill(vEventMatrix);\r
     }\r
\r
     // non diffractive\r
     if(evtType == AliPWG0Helper::kND) {\r
       fGenNDEventMatrix->Fill(vEventMatrix); \r
       if(isEventTriggered) fTriggerNDEventMatrix->Fill(vEventMatrix);\r
       if(isEventOK && isEventTriggered) fRecNDEventMatrix->Fill(vEventMatrix);\r
     }\r
\r
     // non single diffractive\r
     if(evtType != AliPWG0Helper::kSD) {\r
       fGenNSDEventMatrix->Fill(vEventMatrix); \r
       if(isEventTriggered) fTriggerNSDEventMatrix->Fill(vEventMatrix);\r
       if(isEventOK && isEventTriggered) fRecNSDEventMatrix->Fill(vEventMatrix);\r
     }\r
\r
     //\r
     // track-event level corrections (zv,pt,eta)\r
     //\r
     for (Int_t iMc = 0; iMc < stack->GetNtrack(); ++iMc) \r
     {\r
       TParticle* particle = stack->Particle(iMc);\r
       if (!particle)\r
       continue;\r
\r
       // only charged particles\r
       if(!particle->GetPDG()) continue;\r
       Double_t charge = particle->GetPDG()->Charge()/3.;\r
       if ( TMath::Abs(charge) < 0.001 )\r
        continue;\r
\r
       // only postive charged \r
       if(GetParticleMode() == AlidNdPtHelper::kPlus && charge < 0.) \r
        continue;\r
       \r
       // only negative charged \r
       if(GetParticleMode() == AlidNdPtHelper::kMinus && charge > 0.) \r
       continue;\r
      \r
       // physical primary\r
       Bool_t prim = stack->IsPhysicalPrimary(iMc);\r
       if(!prim) continue;\r
\r
       // checked accepted\r
       if(accCuts->AcceptTrack(particle)) \r
       {\r
         Double_t vTrackEventMatrix[3] = {vtxMC[2], particle->Pt(), particle->Eta()}; \r
         fGenTrackEventMatrix->Fill(vTrackEventMatrix);\r
\r
         if(evtType == AliPWG0Helper::kSD) {\r
           fGenTrackSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kDD) {\r
           fGenTrackDDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kND) {\r
           fGenTrackNDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType != AliPWG0Helper::kSD) {\r
           fGenTrackNSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
\r
         //\r
         if(!isEventTriggered) continue;  \r
\r
         fTriggerTrackEventMatrix->Fill(vTrackEventMatrix);\r
         if(evtType == AliPWG0Helper::kSD) {\r
           fTriggerTrackSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kDD) {\r
           fTriggerTrackDDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kND) {\r
           fTriggerTrackNDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType != AliPWG0Helper::kSD) {\r
           fTriggerTrackNSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
\r
         //\r
    	 if(!isEventOK) continue;  \r
\r
         fRecTrackEventMatrix->Fill(vTrackEventMatrix);\r
         if(evtType == AliPWG0Helper::kSD) {\r
           fRecTrackSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kDD) {\r
           fRecTrackDDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType == AliPWG0Helper::kND) {\r
           fRecTrackNDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
         if(evtType != AliPWG0Helper::kSD) {\r
           fRecTrackNSDEventMatrix->Fill(vTrackEventMatrix);\r
	 }\r
       }\r
     }\r
\r
     // \r
     // track-level corrections (zv,pt,eta)\r
     //\r
     if(isEventOK && isEventTriggered)\r
     {\r
\r
       // fill MC and rec event control histograms\r
       if(fHistogramsOn) {\r
         Double_t vRecMCEventHist1[3] = {vtxESD->GetXv()-vtxMC[0],vtxESD->GetYv()-vtxMC[1],vtxESD->GetZv()-vtxMC[2]};\r
         fRecMCEventHist1->Fill(vRecMCEventHist1);\r
\r
         Double_t vRecMCEventHist2[3] = {vtxESD->GetXv()-vtxMC[0],vtxESD->GetZv()-vtxMC[2],multMBTracks};\r
         fRecMCEventHist2->Fill(vRecMCEventHist2);\r
\r
         Double_t vRecMCEventHist3[2] = {multRec,evtType};\r
         fRecMCEventHist3->Fill(vRecMCEventHist3);\r
       }\r
\r
       //\r
       // MC histograms for track efficiency studies\r
       //\r
       Int_t countRecCandle = 0;\r
       for (Int_t iMc = 0; iMc < stack->GetNtrack(); ++iMc) \r
       {\r
         TParticle* particle = stack->Particle(iMc);\r
         if (!particle)\r
         continue;\r
\r
         Double_t vTrackMatrix[3] = {vtxMC[2],particle->Pt(),particle->Eta()}; \r
\r
	 // all genertated primaries including neutral\r
         //if( iMc < stack->GetNprimary() ) {\r
         //fGenTrackMatrix->Fill(vTrackMatrix);\r
	 //}\r
\r
         // only charged particles\r
         if(!particle->GetPDG()) continue;\r
         Double_t charge = particle->GetPDG()->Charge()/3.;\r
         if (TMath::Abs(charge) < 0.001)\r
         continue;\r
\r
         // only postive charged \r
         if(GetParticleMode() == AlidNdPtHelper::kPlus && charge < 0.) \r
	 continue;\r
       \r
         // only negative charged \r
         if(GetParticleMode() == AlidNdPtHelper::kMinus && charge > 0.) \r
	 continue;\r
      \r
         // physical primary\r
         Bool_t prim = stack->IsPhysicalPrimary(iMc);\r
\r
         // check accepted\r
         if(accCuts->AcceptTrack(particle)) \r
	 {\r
\r
           if( AlidNdPtHelper::IsPrimaryParticle(stack, iMc, GetParticleMode()) ) \r
	     fGenPrimTrackMatrix->Fill(vTrackMatrix);\r
\r
	   // fill control histograms\r
           if(fHistogramsOn) \r
	     FillHistograms(stack,iMc,AlidNdPtHelper::kAccTracks); \r
\r
           // check multiple found tracks\r
	   Int_t multCount = 0;\r
           for(Int_t iRec=0; iRec<multRec; ++iRec)\r
           {\r
             if(iMc == labelsRec[iRec]) \r
	     {\r
	       multCount++;\r
	       if(multCount>1)\r
	       {  \r
                 fRecMultTrackMatrix->Fill(vTrackMatrix);\r
\r
                 // fill control histogram\r
                 if(fHistogramsOn) {\r
                   Int_t pid = AlidNdPtHelper::ConvertPdgToPid(particle);\r
                   Double_t vMCMultRecTrackHist1[3] = {particle->Pt(), particle->Eta(), pid};\r
		   fMCMultRecTrackHist1->Fill(vMCMultRecTrackHist1);\r
		 }\r
	       }\r
	     }\r
	   }\r
\r
           // check reconstructed\r
           for(Int_t iRec=0; iRec<multRec; ++iRec)\r
           {\r
             if(iMc == labelsRec[iRec]) \r
	     {\r
               fRecTrackMatrix->Fill(vTrackMatrix);\r
                 \r
               if( AlidNdPtHelper::IsPrimaryParticle(stack, iMc, GetParticleMode()) ) {\r
	         fRecPrimTrackMatrix->Fill(vTrackMatrix);\r
	         //AliESDtrack *track = esdEvent->GetTrack(iRec);\r
                 //if(track && track->GetKinkIndex(0) < 0) \r
		 //  printf("prim kink \n");\r
		 countRecCandle++;\r
	       }\r
\r
               if(!prim) fRecSecTrackMatrix->Fill(vTrackMatrix);\r
\r
	       // fill control histograms\r
               if(fHistogramsOn) \r
                 FillHistograms(stack,iMc,AlidNdPtHelper::kRecTracks); \r
	      \r
               break;\r
             }\r
           }\r
         }\r
       }\r
\r
       if(countRecCandle>0) fRecCandleEventMatrix->Fill(vEventMatrix);\r
     }\r
\r
\r
   } // end bUseMC\r
\r
  if(allChargedTracks) delete allChargedTracks; allChargedTracks = 0;\r
  if(labelsAll) delete [] labelsAll; labelsAll = 0;\r
  if(labelsAcc) delete [] labelsAcc; labelsAcc = 0;\r
  if(labelsRec) delete [] labelsRec; labelsRec = 0;\r
\r
  if(!evtCuts->IsRecVertexRequired() && vtxESD != NULL) delete vtxESD;\r
  //if(trigAna) delete trigAna;\r
\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::FillHistograms(TObjArray *const allChargedTracks,Int_t *const labelsAll,Int_t multAll,Int_t *const labelsAcc,Int_t multAcc,Int_t *const labelsRec,Int_t multRec) {\r
 // multiplicity  histograms\r
 \r
  if(!allChargedTracks) return;\r
  if(!labelsAll) return;\r
  if(!labelsAcc) return;\r
  if(!labelsRec) return;\r
\r
  Int_t entries = allChargedTracks->GetEntries();\r
  for(Int_t i=0; i<entries; ++i)\r
  {\r
     AliESDtrack *track = (AliESDtrack*)allChargedTracks->At(i);\r
     if(!track) continue;\r
     if(track->Charge() == 0) continue;\r
\r
     Int_t label = TMath::Abs(track->GetLabel());\r
     for(Int_t iAll=0; iAll<multAll; ++iAll) {\r
       if(label == labelsAll[iAll]) {\r
         Double_t v1[2] = {track->Pt(), multAll}; \r
         fRecTrackMultHist1[AlidNdPtHelper::kAllTracks]->Fill(v1);\r
       }\r
     }\r
     for(Int_t iAcc=0; iAcc<multAcc; ++iAcc) {\r
       if(label == labelsAcc[iAcc]) {\r
         Double_t v2[2] = {track->Pt(), multAcc}; \r
         fRecTrackMultHist1[AlidNdPtHelper::kAccTracks]->Fill(v2);\r
       }\r
     }\r
     for(Int_t iRec=0; iRec<multRec; ++iRec) {\r
       if(label == labelsRec[iRec]) {\r
         Double_t v3[2] = {track->Pt(), multRec}; \r
         fRecTrackMultHist1[AlidNdPtHelper::kRecTracks]->Fill(v3);\r
       }\r
     }\r
  }\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::FillHistograms(AliESDtrack *const esdTrack, AliStack *const stack, const Double_t zv, AlidNdPtHelper::TrackObject trackObj, Int_t multMB)\r
{\r
  //\r
  // Fill ESD track and MC histograms \r
  //\r
  if(!esdTrack) return;\r
\r
  Float_t q = esdTrack->Charge();\r
  if(TMath::Abs(q) < 0.001) return;\r
\r
  Float_t pt = esdTrack->Pt();\r
  //Float_t qpt = esdTrack->Pt() * q;\r
  Float_t eta = esdTrack->Eta();\r
  Float_t phi = esdTrack->Phi();\r
\r
  Float_t dca[2], bCov[3];\r
  esdTrack->GetImpactParameters(dca,bCov);\r
\r
  Int_t nClust = esdTrack->GetTPCclusters(0);\r
  Float_t chi2PerCluster = 0.;\r
  if(nClust>0.) chi2PerCluster = esdTrack->GetTPCchi2()/Float_t(nClust);\r
\r
\r
  // fill histograms\r
  Double_t values1[3] = {pt,eta,phi};	  \r
  fRecTrackHist1[trackObj]->Fill(values1);\r
\r
  Double_t values[4] = {zv, pt,eta, multMB};	  \r
  if(trackObj == AlidNdPtHelper::kRecTracks) {\r
    fRecTrackHist->Fill(values);\r
  }\r
\r
  /*\r
  Double_t values2[5] = {nClust,chi2PerCluster,pt,eta,phi};	  \r
  if(trackObj == AlidNdPtHelper::kRecTracks)  \r
  {\r
    if(fHistogramsOn)\r
      fRecTrackHist2->Fill(values2);\r
  }\r
  */\r
 \r
  //\r
  // Fill rec vs MC information\r
  //\r
  if(!stack) return;\r
\r
  Int_t label = TMath::Abs(esdTrack->GetLabel()); \r
  //if(label == 0) return;\r
\r
  if(label > stack->GetNtrack()) return;\r
  TParticle* particle = stack->Particle(label);\r
  if(!particle) return;\r
\r
  //Bool_t prim = stack->IsPhysicalPrimary(label);\r
  //Int_t pid = AlidNdPtHelper::ConvertPdgToPid(particle);\r
\r
  Int_t motherPdg = -1;\r
  TParticle* mother = 0;\r
\r
  //TParticle* prim_mother = AlidNdPtHelper::FindPrimaryMother(stack,label);\r
  Int_t motherLabel = particle->GetMother(0); \r
  if(motherLabel>0) mother = stack->Particle(motherLabel);\r
  if(mother) motherPdg = TMath::Abs(mother->GetPdgCode()); // take abs for visualisation only\r
  //Int_t mech = particle->GetUniqueID(); // production mechanism\r
\r
  if(!particle->GetPDG()) return;\r
  Double_t gq = particle->GetPDG()->Charge()/3.0; // Charge units |e|/3 \r
  if(TMath::Abs(gq)<0.001) return;\r
  Float_t gpt = particle->Pt();\r
  Float_t geta = particle->Eta();\r
  //Float_t qgpt = particle->Pt() * gq;\r
  //Float_t gphi = particle->Phi();\r
\r
  Double_t dpt=0;\r
  //printf("pt %f, gpt %f \n",pt,gpt);\r
  if(gpt) dpt = (pt-gpt)/gpt;\r
  Double_t deta = (eta-geta);\r
 \r
  // fill histograms\r
  if(trackObj == AlidNdPtHelper::kRecTracks)  \r
  {\r
    Double_t vTrackPtCorrelationMatrix[3]={pt,gpt,geta};\r
    fTrackPtCorrelationMatrix->Fill(vTrackPtCorrelationMatrix);\r
\r
    Double_t vRecMCTrackHist1[4]={gpt,geta,dpt,deta};\r
    fRecMCTrackHist1->Fill(vRecMCTrackHist1);\r
  }\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::FillHistograms(AliStack *const stack, Int_t label, AlidNdPtHelper::TrackObject trackObj)\r
{\r
  // Fill MC histograms\r
  if(!stack) return;\r
\r
  if(label > stack->GetNtrack()) return;\r
  TParticle* particle = stack->Particle(label);\r
  if(!particle) return;\r
\r
  Int_t motherPdg = -1;\r
  TParticle* mother = 0;\r
\r
  //TParticle* prim_mother = AlidNdPtHelper::FindPrimaryMother(stack,label);\r
  Int_t motherLabel = particle->GetMother(0); \r
  if(motherLabel>0) mother = stack->Particle(motherLabel);\r
  if(mother) motherPdg = TMath::Abs(mother->GetPdgCode()); // take abs for visualisation only\r
  Int_t mech = particle->GetUniqueID(); // production mechanism\r
\r
  if(!particle->GetPDG()) return;\r
  Double_t gq = particle->GetPDG()->Charge()/3.0; // Charge units |e|/3 \r
  if(TMath::Abs(gq) < 0.001) return;\r
\r
  Float_t gpt = particle->Pt();\r
  //Float_t qgpt = particle->Pt() * gq;\r
  Float_t geta = particle->Eta();\r
  Float_t gphi = particle->Phi();\r
  //Float_t gpz = particle->Pz();\r
\r
  Bool_t prim = stack->IsPhysicalPrimary(label);\r
  //Float_t vx = particle->Vx(); Float_t vy = particle->Vy(); Float_t vz = particle->Vz();\r
\r
  Int_t pid = AlidNdPtHelper::ConvertPdgToPid(particle);\r
\r
  //if(prim&&pid==5) printf("pdgcode %d, production mech %d \n",particle->GetPdgCode(),mech);\r
  //if(!prim) printf("motherPdg %d, particle %d, production mech %d\n",motherPdg, particle->GetPdgCode(),mech);\r
  \r
  //\r
  // fill histogram\r
  //\r
  Double_t vMCTrackHist1[3] = {gpt,geta,gphi};\r
  fMCTrackHist1[trackObj]->Fill(vMCTrackHist1);\r
\r
  Double_t vMCPrimTrackHist1[5] = {gpt,geta,pid,mech,motherPdg};\r
  Double_t vMCPrimTrackHist2[5] = {TMath::Abs(particle->GetPdgCode()),mech,motherPdg};\r
  //if(prim && AliPWG0Helper::IsPrimaryCharged(particle, label)) fMCPrimTrackHist1[trackObj]->Fill(vMCPrimTrackHist1);\r
  if(prim) { \r
    fMCPrimTrackHist1[trackObj]->Fill(vMCPrimTrackHist1);\r
    if(pid == 5) fMCPrimTrackHist2[trackObj]->Fill(vMCPrimTrackHist2);\r
  }\r
  else { \r
    fMCSecTrackHist1[trackObj]->Fill(vMCPrimTrackHist1);\r
  }\r
\r
}\r
\r
//_____________________________________________________________________________\r
Long64_t AlidNdPtAnalysis::Merge(TCollection* const list) \r
{\r
  //  init if not done already\r
  if (!fIsInit) { Init(); }\r
  \r
  // Merge list of objects (needed by PROOF)\r
\r
  if (!list)\r
  return 0;\r
\r
  if (list->IsEmpty())\r
  return 1;\r
\r
  TIterator* iter = list->MakeIterator();\r
  TObject* obj = 0;\r
\r
  //\r
  //TList *collPhysSelection = new TList;\r
\r
  // collection of generated histograms\r
\r
  Int_t count=0;\r
  while((obj = iter->Next()) != 0) {\r
    AlidNdPtAnalysis* entry = dynamic_cast<AlidNdPtAnalysis*>(obj);\r
    if (entry == 0) continue; \r
\r
    // physics selection\r
    //printf("entry->GetPhysicsTriggerSelection() %p \n", entry->GetPhysicsTriggerSelection());\r
    //collPhysSelection->Add(entry->GetPhysicsTriggerSelection());\r
    \r
    //\r
    fRecEventHist->Add(entry->fRecEventHist);\r
    fRecTrackHist->Add(entry->fRecTrackHist);\r
\r
    //\r
    fEventMultCorrelationMatrix->Add(entry->fEventMultCorrelationMatrix);\r
    fTrackPtCorrelationMatrix->Add(entry->fTrackPtCorrelationMatrix);\r
\r
    //\r
    fGenEventMatrix->Add(entry->fGenEventMatrix);\r
    fGenSDEventMatrix->Add(entry->fGenSDEventMatrix);\r
    fGenDDEventMatrix->Add(entry->fGenDDEventMatrix);\r
    fGenNDEventMatrix->Add(entry->fGenNDEventMatrix);\r
    fGenNSDEventMatrix->Add(entry->fGenNSDEventMatrix);\r
\r
    fTriggerEventMatrix->Add(entry->fTriggerEventMatrix);\r
    fTriggerSDEventMatrix->Add(entry->fTriggerSDEventMatrix);\r
    fTriggerDDEventMatrix->Add(entry->fTriggerDDEventMatrix);\r
    fTriggerNDEventMatrix->Add(entry->fTriggerNDEventMatrix);\r
    fTriggerNSDEventMatrix->Add(entry->fTriggerNSDEventMatrix);\r
\r
    fRecEventMatrix->Add(entry->fRecEventMatrix);\r
    fRecSDEventMatrix->Add(entry->fRecSDEventMatrix);\r
    fRecDDEventMatrix->Add(entry->fRecDDEventMatrix);\r
    fRecNDEventMatrix->Add(entry->fRecNDEventMatrix);\r
    fRecNSDEventMatrix->Add(entry->fRecNSDEventMatrix);\r
\r
    fRecCandleEventMatrix->Add(entry->fRecCandleEventMatrix);\r
    //\r
    fGenTrackEventMatrix->Add(entry->fGenTrackEventMatrix);\r
    fGenTrackSDEventMatrix->Add(entry->fGenTrackSDEventMatrix);\r
    fGenTrackDDEventMatrix->Add(entry->fGenTrackDDEventMatrix);\r
    fGenTrackNDEventMatrix->Add(entry->fGenTrackNDEventMatrix);\r
    fGenTrackNSDEventMatrix->Add(entry->fGenTrackNSDEventMatrix);\r
\r
    fTriggerTrackEventMatrix->Add(entry->fTriggerTrackEventMatrix);\r
    fTriggerTrackSDEventMatrix->Add(entry->fTriggerTrackSDEventMatrix);\r
    fTriggerTrackDDEventMatrix->Add(entry->fTriggerTrackDDEventMatrix);\r
    fTriggerTrackNDEventMatrix->Add(entry->fTriggerTrackNDEventMatrix);\r
    fTriggerTrackNSDEventMatrix->Add(entry->fTriggerTrackNSDEventMatrix);\r
\r
    fRecTrackEventMatrix->Add(entry->fRecTrackEventMatrix);\r
    fRecTrackSDEventMatrix->Add(entry->fRecTrackSDEventMatrix);\r
    fRecTrackDDEventMatrix->Add(entry->fRecTrackDDEventMatrix);\r
    fRecTrackNDEventMatrix->Add(entry->fRecTrackNDEventMatrix);\r
    fRecTrackNSDEventMatrix->Add(entry->fRecTrackNSDEventMatrix);\r
\r
    //\r
    fGenTrackMatrix->Add(entry->fGenTrackMatrix);\r
    fGenPrimTrackMatrix->Add(entry->fGenPrimTrackMatrix);\r
    fRecPrimTrackMatrix->Add(entry->fRecPrimTrackMatrix);\r
    //\r
    fRecTrackMatrix->Add(entry->fRecTrackMatrix);\r
    fRecSecTrackMatrix->Add(entry->fRecSecTrackMatrix);\r
    //\r
    fRecMultTrackMatrix->Add(entry->fRecMultTrackMatrix);\r
\r
    //\r
    // control analysis histograms\r
    //\r
    fMCEventHist1->Add(entry->fMCEventHist1);\r
    fRecEventHist1->Add(entry->fRecEventHist1);\r
    fRecEventHist2->Add(entry->fRecEventHist2);\r
    fRecMCEventHist1->Add(entry->fRecMCEventHist1);\r
    fRecMCEventHist2->Add(entry->fRecMCEventHist2);\r
    fRecMCEventHist3->Add(entry->fRecMCEventHist3);\r
\r
    for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) {\r
      fMCTrackHist1[i]->Add(entry->fMCTrackHist1[i]);\r
\r
      fMCPrimTrackHist1[i]->Add(entry->fMCPrimTrackHist1[i]);\r
      fMCPrimTrackHist2[i]->Add(entry->fMCPrimTrackHist2[i]);\r
      fMCSecTrackHist1[i]->Add(entry->fMCSecTrackHist1[i]);\r
\r
      fRecTrackHist1[i]->Add(entry->fRecTrackHist1[i]);\r
      fRecTrackMultHist1[i]->Add(entry->fRecTrackMultHist1[i]);\r
    }\r
    fRecMCTrackHist1->Add(entry->fRecMCTrackHist1);\r
    fMCMultRecTrackHist1->Add(entry->fMCMultRecTrackHist1);\r
    fRecTrackHist2->Add(entry->fRecTrackHist2);\r
    fEventCount->Add(entry->fEventCount);\r
\r
  count++;\r
  }\r
\r
  //AliPhysicsSelection *trigSelection = GetPhysicsTriggerSelection();\r
  //trigSelection->Merge(collPhysSelection);\r
  //if(collPhysSelection) delete collPhysSelection;\r
\r
return count;\r
}\r
\r
//____________________________________________________________________\r
Bool_t AlidNdPtAnalysis::IsBinZeroTrackSPDvtx(const AliESDEvent* esdEvent) {\r
//\r
// check 0-bin\r
// for LHC background calculation\r
// return kTRUE if vertex not reconstructed or\r
// track multiplicity == 0\r
//\r
if(!esdEvent) return kFALSE;\r
\r
  // check vertex\r
  const AliESDVertex *vertex = esdEvent->GetPrimaryVertexTracks();\r
  if(!vertex) return kTRUE;\r
\r
  if(vertex->GetNContributors() < 1) {\r
    // SPD vertex\r
    vertex = esdEvent->GetPrimaryVertexSPD();\r
    if(!vertex) return kTRUE;\r
  }\r
  if(TMath::Abs(vertex->GetZv()) > 15.0) return kTRUE; \r
  if( !AlidNdPtHelper::TestRecVertex(vertex, esdEvent->GetPrimaryVertexSPD(), AlidNdPtHelper::kTPCITSHybridTrackSPDvtx) ) \r
    return kTRUE;\r
 \r
return kFALSE;\r
}\r
\r
//____________________________________________________________________\r
Bool_t AlidNdPtAnalysis::IsBinZeroSPDvtx(const AliESDEvent* esdEvent) {\r
//\r
// check 0-bin\r
// for LHC background calculation\r
// return kTRUE if vertex not reconstructed or\r
// tracklet multiplicity == 0\r
//\r
if(!esdEvent) return kFALSE;\r
\r
  // check vertex\r
  const AliESDVertex* vertex = esdEvent->GetPrimaryVertexSPD();\r
  if(!vertex) return kTRUE;\r
  if(TMath::Abs(vertex->GetZv()) > 15.0) return kTRUE; \r
  if( !AlidNdPtHelper::TestRecVertex(vertex, esdEvent->GetPrimaryVertexSPD(), AlidNdPtHelper::kTPCSPDvtx) ) return kTRUE;\r
 \r
return kFALSE;\r
}\r
\r
//_____________________________________________________________________________\r
void AlidNdPtAnalysis::Analyse() \r
{\r
  //  init if not done already\r
  if (!fIsInit) { Init(); }\r
  \r
  // Analyse histograms\r
  //\r
  TH1::AddDirectory(kFALSE);\r
  TH1 *h=0, *h1=0, *h2=0, *h2c = 0; \r
  THnSparse *hs=0; \r
  TH2 *h2D=0; \r
\r
  char name[256];\r
  TObjArray *aFolderObj = new TObjArray;\r
  \r
  //\r
  // LHC backgraund in all and 0-bins\r
  //\r
  //AliPhysicsSelection *trigSel = GetPhysicsTriggerSelection();\r
  //trigSel->SaveHistograms("physics_selection");\r
\r
  //\r
  // Reconstructed event vertex\r
  //\r
  h = fRecEventHist1->Projection(0);\r
  h->SetName("Xv");\r
  aFolderObj->Add(h);\r
\r
  h = fRecEventHist1->Projection(1);\r
  h->SetName("Yv");\r
  aFolderObj->Add(h);\r
\r
  h = fRecEventHist1->Projection(2);\r
  h->SetName("Zv");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // multiplicity\r
  //\r
  h = fRecEventHist2->Projection(1);\r
  h->SetName("multMB");\r
  aFolderObj->Add(h);\r
\r
  h = fRecEventHist2->Projection(2);\r
  h->SetName("multiplicity");\r
  aFolderObj->Add(h);\r
\r
  h2D = fRecEventHist2->Projection(0,1); \r
  h2D->SetName("Zv_vs_multiplicity_MB");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // reconstructed pt histograms\r
  //\r
  h = fRecTrackHist1[0]->Projection(0);\r
  h->Scale(1.,"width");\r
  h->SetName("pt_all_ch");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[1]->Projection(0);\r
  h->Scale(1.,"width");\r
  h->SetName("pt_acc");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[2]->Projection(0);\r
  h->Scale(1.,"width");\r
  h->SetName("pt_rec");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // reconstructed eta histograms\r
  //\r
  h = fRecTrackHist1[0]->Projection(1);\r
  h->SetName("eta_all_ch");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[1]->Projection(1);\r
  h->SetName("eta_acc");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[2]->Projection(1);\r
  h->SetName("eta_rec");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // reconstructed phi histograms\r
  //\r
  h = fRecTrackHist1[0]->Projection(2);\r
  h->SetName("phi_all_ch");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[1]->Projection(2);\r
  h->SetName("phi_acc");\r
  aFolderObj->Add(h);\r
\r
  h = fRecTrackHist1[2]->Projection(2);\r
  h->SetName("phi_rec");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // reconstructed eta:pt histograms\r
  //\r
  h2D = fRecTrackHist1[0]->Projection(1,0);\r
  h2D->SetName("pt_eta_all_ch");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[1]->Projection(1,0);\r
  h2D->SetName("pt_eta_acc");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[2]->Projection(1,0);\r
  h2D->SetName("pt_eta_rec");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // reconstructed phi:pt histograms\r
  //\r
  h2D = fRecTrackHist1[0]->Projection(2,0);\r
  h2D->SetName("pt_phi_all_ch");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[1]->Projection(2,0);\r
  h2D->SetName("pt_phi_acc");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[2]->Projection(2,0);\r
  h2D->SetName("pt_phi_rec");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // reconstructed phi:eta histograms\r
  //\r
  h2D = fRecTrackHist1[0]->Projection(2,1);\r
  h2D->SetName("eta_phi_all_ch");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[1]->Projection(2,1);\r
  h2D->SetName("eta_phi_acc");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecTrackHist1[2]->Projection(2,1);\r
  h2D->SetName("eta_phi_rec");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // reconstructed nClust, chi2 vs pt, eta, phi\r
  //\r
  if(fHistogramsOn) {\r
\r
    h2D = fRecTrackHist2->Projection(0,1);\r
    h2D->SetName("nClust_chi2_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(0,2);\r
    h2D->SetName("nClust_pt_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(0,3);\r
    h2D->SetName("nClust_eta_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(0,4);\r
    h2D->SetName("nClust_phi_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(1,2);\r
    h2D->SetName("chi2_pt_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(1,3);\r
    h2D->SetName("chi2_eta_rec");\r
    aFolderObj->Add(h2D);\r
\r
    h2D = fRecTrackHist2->Projection(1,4);\r
    h2D->SetName("chi2_phi_rec");\r
    aFolderObj->Add(h2D);\r
\r
  }\r
\r
  //\r
  // calculate corrections for empty events\r
  // with multMB==0 \r
  //\r
\r
  //\r
  // normalised zv to generate zv for triggered events\r
  //\r
  h = fRecEventHist2->Projection(0);\r
  if( h->Integral() ) h->Scale(1./h->Integral());\r
  h->SetName("zv_distribution_norm");\r
  aFolderObj->Add(h);\r
 \r
  //\r
  // MC available\r
  //\r
  if(IsUseMCInfo()) {\r
\r
  //\r
  // Event vertex resolution\r
  //\r
  h2D = fRecMCEventHist2->Projection(0,2);\r
  h2D->SetName("DeltaXv_vs_mult");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = fRecMCEventHist2->Projection(1,2);\r
  h2D->SetName("DeltaZv_vs_mult");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // normalised zv to get trigger/trigger+vertex event differences\r
  // F(zv) = E_trig(zv,0)/Int(E_trig(zv,0) / Sum(E_trigvtx(zv,n))/Sum(Int(E_trigvtx(zv,n))dzv)\r
  //\r
  fTriggerEventMatrix->GetAxis(1)->SetRangeUser(0.,0.);\r
  h = fTriggerEventMatrix->Projection(0);\r
  h2D = fTriggerEventMatrix->Projection(0,1);\r
  if(h2D->Integral()) h->Scale(1./h2D->Integral());\r
\r
  h1 = fRecEventMatrix->Projection(0);\r
  h2D = fRecEventMatrix->Projection(0,1);\r
  if(h2D->Integral()) h1->Scale(1./h2D->Integral());\r
\r
  h->Divide(h1);\r
  h->SetName("zv_empty_events_norm");\r
  aFolderObj->Add(h);\r
  \r
  fTriggerEventMatrix->GetAxis(1)->SetRange(1,fTriggerEventMatrix->GetAxis(1)->GetNbins());\r
\r
  //\r
  // rec. vs true multiplicity correlation matrix\r
  //\r
  hs = (THnSparse*)fEventMultCorrelationMatrix->Clone("event_mult_correlation_matrix");\r
  aFolderObj->Add(hs);\r
 \r
  //\r
  // rec. vs true track pt correlation matrix\r
  //\r
  hs = (THnSparse*)fTrackPtCorrelationMatrix->Clone("track_pt_correlation_matrix");\r
  aFolderObj->Add(hs);\r
\r
  //\r
  // trigger efficiency for INEL\r
  //\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fTriggerEventMatrix->Projection(0),fGenEventMatrix->Projection(0),"zv_trig_INEL_eff_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // trigger efficiency for NSD\r
  //\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fTriggerNSDEventMatrix->Projection(0),fGenNSDEventMatrix->Projection(0),"zv_trig_NSD_eff_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // trigger bias correction (MB to ND)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenNDEventMatrix,fTriggerEventMatrix,"zv_mult_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenNDEventMatrix->Projection(0),fTriggerEventMatrix->Projection(0),"zv_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenNDEventMatrix->Projection(1),fTriggerEventMatrix->Projection(1),"mult_trig_MBtoND_corr_matrix");\r
\r
  aFolderObj->Add(h);\r
\r
  //\r
  // trigger bias correction (MB to NSD)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenNSDEventMatrix,fTriggerEventMatrix,"zv_mult_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenNSDEventMatrix->Projection(0,1),fTriggerEventMatrix->Projection(0,1),"zv_mult_trig_MBtoNSD_corr_matrix_2D");\r
  aFolderObj->Add(h2D);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenNSDEventMatrix->Projection(0),fTriggerEventMatrix->Projection(0),"zv_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenNSDEventMatrix->Projection(1),fTriggerEventMatrix->Projection(1),"mult_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  //\r
  // trigger bias correction (MB to INEL)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenEventMatrix,fTriggerEventMatrix,"zv_mult_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenEventMatrix->Projection(0,1),fTriggerEventMatrix->Projection(0,1),"zv_mult_trig_MBtoInel_corr_matrix_2D");\r
  aFolderObj->Add(h2D);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenEventMatrix->Projection(0),fTriggerEventMatrix->Projection(0),"zv_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenEventMatrix->Projection(1),fTriggerEventMatrix->Projection(1),"mult_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  //\r
  // event vertex reconstruction correction (MB)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fTriggerEventMatrix,fRecEventMatrix,"zv_mult_event_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fTriggerEventMatrix->Projection(0,1),fRecEventMatrix->Projection(0,1),"zv_mult_event_corr_matrix_2D");\r
  aFolderObj->Add(h2D);\r
\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fTriggerEventMatrix->Projection(1),fRecEventMatrix->Projection(1),"mult_event_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fTriggerEventMatrix->Projection(0),fRecEventMatrix->Projection(0),"zv_event_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // track-event trigger bias correction (MB to ND)\r
  //\r
\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNDEventMatrix,fTriggerTrackEventMatrix,"zv_pt_eta_track_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNDEventMatrix->Projection(1,2),fTriggerTrackEventMatrix->Projection(1,2),"eta_pt_track_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNDEventMatrix->Projection(1,0),fTriggerTrackEventMatrix->Projection(1,0),"pt_zv_track_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNDEventMatrix->Projection(2,0),fTriggerTrackEventMatrix->Projection(2,0),"zv_eta_track_trig_MBtoND_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  //\r
  // track-event trigger bias correction (MB to NSD)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNSDEventMatrix,fTriggerTrackEventMatrix,"zv_pt_eta_track_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNSDEventMatrix->Projection(1,2),fTriggerTrackEventMatrix->Projection(1,2),"eta_pt_track_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNSDEventMatrix->Projection(1,0),fTriggerTrackEventMatrix->Projection(1,0),"pt_zv_track_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackNSDEventMatrix->Projection(2,0),fTriggerTrackEventMatrix->Projection(2,0),"zv_eta_track_trig_MBtoNSD_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
\r
  //\r
  // track-event trigger bias correction (MB to INEL)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackEventMatrix,fTriggerTrackEventMatrix,"zv_pt_eta_track_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackEventMatrix->Projection(1,2),fTriggerTrackEventMatrix->Projection(1,2),"eta_pt_track_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackEventMatrix->Projection(1,0),fTriggerTrackEventMatrix->Projection(1,0),"pt_zv_track_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenTrackEventMatrix->Projection(2,0),fTriggerTrackEventMatrix->Projection(2,0),"zv_eta_track_trig_MBtoInel_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  // efficiency\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fTriggerTrackEventMatrix->Projection(1),fGenTrackEventMatrix->Projection(1),"pt_track_trig_MBtoInel_eff_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  //\r
  // track-event vertex reconstruction correction (MB)\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fTriggerTrackEventMatrix,fRecTrackEventMatrix,"zv_pt_eta_track_event_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fTriggerTrackEventMatrix->Projection(1,2),fRecTrackEventMatrix->Projection(1,2),"eta_pt_track_event_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fTriggerTrackEventMatrix->Projection(1,0),fRecTrackEventMatrix->Projection(1,0),"pt_zv_track_event_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fTriggerTrackEventMatrix->Projection(2,0),fRecTrackEventMatrix->Projection(2,0),"zv_eta_track_event_corr_matrix");\r
  aFolderObj->Add(h2D);\r
  \r
  // efficiency\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecTrackEventMatrix->Projection(1),fTriggerTrackEventMatrix->Projection(1),"pt_track_event_eff_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  //\r
  // track rec. efficiency correction\r
  //\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix,fRecPrimTrackMatrix,"zv_pt_eta_track_corr_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(1,2),fRecPrimTrackMatrix->Projection(1,2),"eta_pt_track_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(1,0),fRecPrimTrackMatrix->Projection(1,0),"pt_zv_track_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(2,0),fRecPrimTrackMatrix->Projection(2,0),"zv_eta_track_corr_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  \r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(0),fRecPrimTrackMatrix->Projection(0),"zv_track_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(1),fRecPrimTrackMatrix->Projection(1),"pt_track_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
  // efficiency\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecPrimTrackMatrix->Projection(1), fGenPrimTrackMatrix->Projection(1),"pt_track_eff_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fGenPrimTrackMatrix->Projection(2),fRecPrimTrackMatrix->Projection(2),"eta_track_corr_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // secondary track contamination correction\r
  //\r
  //hs = AlidNdPtHelper::GenerateContCorrMatrix(fRecSecTrackMatrix,fRecTrackMatrix,"zv_pt_eta_track_cont_matrix");\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix,fRecTrackMatrix,"zv_pt_eta_track_cont_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(1,2),fRecTrackMatrix->Projection(1,2),"eta_pt_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(1,0),fRecTrackMatrix->Projection(1,0),"pt_zv_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(2,0),fRecTrackMatrix->Projection(2,0),"zv_eta_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(0),fRecTrackMatrix->Projection(0),"zv_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(1),fRecTrackMatrix->Projection(1),"pt_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecSecTrackMatrix->Projection(2),fRecTrackMatrix->Projection(2),"eta_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // multiple track reconstruction correction\r
  //\r
  //hs = AlidNdPtHelper::GenerateContCorrMatrix(fRecMultTrackMatrix,fRecTrackMatrix,"zv_pt_eta_mult_track_cont_matrix");\r
  hs = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix,fRecTrackMatrix,"zv_pt_eta_mult_track_cont_matrix");\r
  aFolderObj->Add(hs);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(1,2),fRecTrackMatrix->Projection(1,2),"eta_pt_mult_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(1,0),fRecTrackMatrix->Projection(1,0),"pt_zv_mult_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h2D = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(2,0),fRecTrackMatrix->Projection(2,0),"zv_eta_mult_track_cont_matrix");\r
  aFolderObj->Add(h2D);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(0),fRecTrackMatrix->Projection(0),"zv_mult_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(1),fRecTrackMatrix->Projection(1),"pt_mult_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
  h = AlidNdPtHelper::GenerateCorrMatrix(fRecMultTrackMatrix->Projection(2),fRecTrackMatrix->Projection(2),"eta_mult_track_cont_matrix");\r
  aFolderObj->Add(h);\r
\r
  //\r
  // Control histograms\r
  //\r
  \r
  if(fHistogramsOn) {\r
\r
  // Efficiency electrons, muons, pions, kaons, protons, all\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(1,1); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(1,1); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_electrons");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(2,2); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(2,2); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_muons");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(3,3); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(3,3); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_pions");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(4,4); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(4,4); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_kaons");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(5,5); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(5,5); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_protons");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(1,5); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(1,5); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_selected");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(2)->SetRange(1,6); \r
  fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(1,6); \r
  h1 = fMCPrimTrackHist1[1]->Projection(0);\r
  h2 = fMCPrimTrackHist1[2]->Projection(0);\r
  h2c = (TH1D *)h2->Clone();\r
  h2c->Divide(h1);\r
  h2c->SetName("eff_pt_all");\r
  aFolderObj->Add(h2c);\r
\r
  fMCPrimTrackHist1[1]->GetAxis(1)->SetRange(1,fMCPrimTrackHist1[1]->GetAxis(1)->GetNbins()); \r
  fMCPrimTrackHist1[2]->GetAxis(1)->SetRange(1,fMCPrimTrackHist1[2]->GetAxis(1)->GetNbins());\r
\r
  //  pt spetra\r
  // - rec, primaries, secondaries\r
  // - primaries (pid) \r
  // - secondaries (pid)\r
  // - secondaries (mech)\r
  // - secondaries (mother)\r
  //\r
\r
  TH1D *mcPtAccall = fMCTrackHist1[1]->Projection(0);\r
  mcPtAccall->SetName("mc_pt_acc_all");\r
  aFolderObj->Add(mcPtAccall);\r
\r
  TH1D *mcPtAccprim = fMCPrimTrackHist1[1]->Projection(0);\r
  mcPtAccprim->SetName("mc_pt_acc_prim");\r
  aFolderObj->Add(mcPtAccprim);\r
\r
  TH1D *mcPtRecall = fMCTrackHist1[2]->Projection(0);\r
  mcPtRecall->SetName("mc_pt_rec_all");\r
  aFolderObj->Add(mcPtRecall);\r
\r
  TH1D *mcPtRecprim = fMCPrimTrackHist1[2]->Projection(0);\r
  mcPtRecprim->SetName("mc_pt_rec_prim");\r
  aFolderObj->Add(mcPtRecprim);\r
\r
  TH1D *mcPtRecsec = fMCSecTrackHist1[2]->Projection(0);\r
  mcPtRecsec->SetName("mc_pt_rec_sec");\r
  aFolderObj->Add(mcPtRecsec);\r
\r
  for(Int_t i = 0; i<6; i++) \r
  { \r
    snprintf(name,256,"mc_pt_rec_prim_pid_%d",i); \r
    fMCPrimTrackHist1[2]->GetAxis(2)->SetRange(i+1,i+1);\r
    h = fMCPrimTrackHist1[2]->Projection(0);\r
    h->SetName(name);\r
    aFolderObj->Add(h);\r
\r
    snprintf(name,256,"mc_pt_rec_sec_pid_%d",i); \r
    fMCSecTrackHist1[2]->GetAxis(2)->SetRange(i+1,i+1);\r
    h = fMCSecTrackHist1[2]->Projection(0);\r
    h->SetName(name);\r
    aFolderObj->Add(h);\r
\r
    // production mechanisms for given pid\r
    fMCSecTrackHist1[2]->GetAxis(2)->SetRange(i+1,i+1);\r
\r
    for(Int_t j=0; j<20; j++) {\r
      if(j == 4) {\r
        // decay\r
	\r
        snprintf(name,256,"mc_pt_rec_sec_pid_%d_decay",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(0);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_eta_rec_sec_pid_%d_decay",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(1);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_mother_rec_sec_pid_%d_decay",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(4);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
      } else if (j == 5) {\r
       // conversion\r
\r
        snprintf(name,256,"mc_pt_rec_sec_pid_%d_conv",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(0);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_eta_rec_sec_pid_%d_conv",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(1);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_mother_rec_sec_pid_%d_conv",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(4);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
     } else if (j == 13) {\r
       // mat\r
       \r
        snprintf(name,256,"mc_pt_rec_sec_pid_%d_mat",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(0);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_eta_rec_sec_pid_%d_mat",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(1);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_eta_mother_rec_sec_pid_%d_mat",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(4,1);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_mother_rec_sec_pid_%d_mat",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(4);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
        snprintf(name,256,"mc_pt_mother_rec_sec_pid_%d_mat",i); \r
        fMCSecTrackHist1[2]->GetAxis(3)->SetRange(j+1,j+1);\r
        h = fMCSecTrackHist1[2]->Projection(4,0);\r
        h->SetName(name);\r
        aFolderObj->Add(h);\r
\r
     } else {\r
       continue;\r
     }\r
   }\r
\r
  }\r
  } // end fHistogramOn\r
\r
  //\r
  //  resolution histograms\r
  //  only for reconstructed tracks\r
  //\r
\r
  TH2F *h2F=0;\r
  TCanvas * c = new TCanvas("resol","resol");\r
  c->cd();\r
\r
  //\r
  fRecMCTrackHist1->GetAxis(1)->SetRangeUser(-0.8,0.79); \r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(2,0);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,0,kTRUE,10);\r
  h->SetXTitle("p_{tmc} (GeV/c)");\r
  h->SetYTitle("(p_{t}-p_{tmc})/p_{tmc} resolution");\r
  h->Draw();\r
  h->SetName("pt_resolution_vs_mcpt");\r
  aFolderObj->Add(h);\r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(2,0);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,1,kTRUE,10);\r
  h->SetXTitle("p_{tmc} (GeV/c)");\r
  h->SetYTitle("(p_{t}-p_{tmc})/p_{tmc} mean");\r
  h->Draw();\r
  h->SetName("dpt_mean_vs_mcpt");\r
  aFolderObj->Add(h);\r
\r
  //\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(3,0);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,0,kTRUE,10);\r
  h->SetXTitle("p_{tmc} (GeV/c)");\r
  h->SetYTitle("(#eta-#eta_{mc}) resolution");\r
  h->Draw();\r
  h->SetName("eta_resolution_vs_mcpt");\r
  aFolderObj->Add(h);\r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(3,0);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,1,kTRUE,10);\r
  h->SetXTitle("p_{tmc} (GeV/c)");\r
  h->SetYTitle("(#eta-mc#eta) mean");\r
  h->Draw();\r
  h->SetName("deta_mean_vs_mcpt");\r
  aFolderObj->Add(h);\r
  \r
  // \r
  fRecMCTrackHist1->GetAxis(1)->SetRange(1,fRecMCTrackHist1->GetAxis(1)->GetNbins()); \r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(2,1);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,0,kTRUE,10);\r
  h->SetXTitle("#eta_{mc}");\r
  h->SetYTitle("(p_{t}-p_{tmc})/p_{tmc} resolution");\r
  h->Draw();\r
  h->SetName("pt_resolution_vs_mceta");\r
  aFolderObj->Add(h);\r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(2,1);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,1,kTRUE,10);\r
  h->SetXTitle("#eta_{mc}");\r
  h->SetYTitle("(p_{t}-p_{tmc})/p_{tmc} mean");\r
  h->Draw();\r
  h->SetName("dpt_mean_vs_mceta");\r
  aFolderObj->Add(h);\r
\r
  //\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(3,1);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,0,kTRUE,10);\r
  h->SetXTitle("#eta_{mc}");\r
  h->SetYTitle("(#eta-#eta_{mc}) resolution");\r
  h->Draw();\r
  h->SetName("eta_resolution_vs_mceta");\r
  aFolderObj->Add(h);\r
\r
  h2F = (TH2F*)fRecMCTrackHist1->Projection(3,1);\r
  h = AlidNdPtHelper::MakeResol(h2F,1,1,kTRUE,10);\r
  h->SetXTitle("#eta_{mc}");\r
  h->SetYTitle("(#eta-mc#eta) mean");\r
  h->Draw();\r
  h->SetName("deta_mean_vs_mceta");\r
  aFolderObj->Add(h);\r
\r
  fRecMCTrackHist1->GetAxis(0)->SetRange(1,fRecMCTrackHist1->GetAxis(0)->GetNbins()); \r
\r
  } // end use MC info\r
\r
  // export objects to analysis folder\r
  fAnalysisFolder = ExportToFolder(aFolderObj);\r
\r
  // delete only TObjArray\r
  if(aFolderObj) delete aFolderObj;\r
}\r
\r
//_____________________________________________________________________________\r
TFolder* AlidNdPtAnalysis::ExportToFolder(TObjArray * const array) \r
{\r
  // recreate folder avery time and export objects to new one\r
  //\r
  AlidNdPtAnalysis * comp=this;\r
  TFolder *folder = comp->GetAnalysisFolder();\r
\r
  TString name, title;\r
  TFolder *newFolder = 0;\r
  Int_t i = 0;\r
  Int_t size = array->GetSize();\r
\r
  if(folder) { \r
     // get name and title from old folder\r
     name = folder->GetName();  \r
     title = folder->GetTitle();  \r
\r
	 // delete old one\r
     delete folder;\r
\r
	 // create new one\r
     newFolder = CreateFolder(name.Data(),title.Data());\r
     newFolder->SetOwner();\r
\r
	 // add objects to folder\r
     while(i < size) {\r
	   newFolder->Add(array->At(i));\r
	   i++;\r
	 }\r
  }\r
\r
return newFolder;\r
}\r
\r
//_____________________________________________________________________________\r
TFolder* AlidNdPtAnalysis::CreateFolder(TString name,TString title) { \r
// create folder for analysed histograms\r
//\r
TFolder *folder = 0;\r
  folder = new TFolder(name.Data(),title.Data());\r
\r
  return folder;\r
}\r