[u/mrichter/AliRoot.git] / CORRFW / AliCFEffGrid.cxx

/* $Id$ */
/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/
//--------------------------------------------------------------------//
//                                                                    //
// AliCFEffGrid Class                                              //
// Class to handle efficiency grids                                   // 
//                                                                    //
// -- Author : S.Arcelli                                              //
//                                                                    //
//                                                                    //
//                                                                    //
//--------------------------------------------------------------------//
//
//
#include "TMath.h"
#include "AliLog.h"
#include "AliCFEffGrid.h"
#include "TH1D.h"
#include "TH2D.h"
#include "TH3D.h"

//____________________________________________________________________
ClassImp(AliCFEffGrid)

//____________________________________________________________________
AliCFEffGrid::AliCFEffGrid() : 
  AliCFGridSparse(),
  fContainer(0x0),
  fSelNum(-1),
  fSelDen(-1)
{
  //
  // default constructor
  //
}

//____________________________________________________________________
AliCFEffGrid::AliCFEffGrid(const Char_t* name, const Char_t* title, const Int_t nVarIn, const Int_t * nBinIn, const Double_t *binLimitsIn) :  
  AliCFGridSparse(name,title,nVarIn,nBinIn,binLimitsIn),
  fContainer(0x0),
  fSelNum(-1),
  fSelDen(-1)
{
  //
  // ctor
  //
  SumW2();
}
//____________________________________________________________________
AliCFEffGrid::AliCFEffGrid(const Char_t* name, const Char_t* title, const AliCFContainer &c) :  
  AliCFGridSparse(name,title,c.GetNVar(),c.GetNBins(),c.GetBinLimits()),
  fContainer(NULL),
  fSelNum(-1),
  fSelDen(-1)
{
  //
  // main constructor
  //
  SumW2();
  //assign the container;
  fContainer=&c;
}
//____________________________________________________________________
AliCFEffGrid::AliCFEffGrid(const AliCFEffGrid& eff) : AliCFGridSparse(),
  fContainer(0x0),
  fSelNum(-1),
  fSelDen(-1)
{
  //
  // copy constructor
  //
  ((AliCFEffGrid &)eff).Copy(*this);
}

//____________________________________________________________________
AliCFEffGrid::~AliCFEffGrid()
{
  //
  // destructor
  //
}

//____________________________________________________________________
AliCFEffGrid &AliCFEffGrid::operator=(const AliCFEffGrid &eff)
{
  //
  // assigment operator
  //
  if (this != &eff)
    ((AliCFEffGrid &) eff).Copy(*this);
  return *this;
} 
//____________________________________________________________________

void AliCFEffGrid::CalculateEfficiency(Int_t istep1,Int_t istep2, Option_t *option)
{
  //
  // Calculate the efficiency matrix and its error between selection
  // Steps istep1 and istep2
  //

  fSelNum=istep1;
  fSelDen=istep2;
  AliCFVGrid *num=fContainer->GetGrid(fSelNum);
  AliCFVGrid *den=fContainer->GetGrid(fSelDen);
  num->SumW2();
  den->SumW2();
  this->SumW2();
  this->Divide(num,den,1.,1.,option);

  Int_t nEmptyBinsNum=0;
  Int_t nEmptyBinsNumAndDen=0;
  for(Int_t iel=0;iel<fNDim;iel++){
    if(den->GetElement(iel)>0){
      if(num->GetElement(iel)==0)nEmptyBinsNum++; //num==0,den!=0
    }
    else{
      nEmptyBinsNumAndDen++;
    }
  }    
  // Some monitoring printout:
  AliInfo(Form("Efficiency calculated for steps %i and %i: %i empty bins in the numerator && !denominator and %i empty bins in numerator && denominator were found.",fSelNum,fSelDen,nEmptyBinsNumAndDen,nEmptyBinsNum));
  AliInfo(Form("The correction map contains %i empty bins ",nEmptyBinsNum+nEmptyBinsNumAndDen));
} 
//_____________________________________________________________________
Double_t AliCFEffGrid::GetAverage() const 
{
  //
  // Get the average efficiency 
  //

  Double_t val=0;
  Double_t valnum=0;
  Double_t valden=0;
  for(Int_t i=0;i<fNDim;i++){
    valnum+=fContainer->GetGrid(fSelNum)->GetElement(i);
    valden+=fContainer->GetGrid(fSelDen)->GetElement(i);
  }
  if(valden>0)val=valnum/valden;
  AliInfo(Form(" The Average Efficiency = %f ",val)); 

  return val;
} 
//_____________________________________________________________________
Double_t AliCFEffGrid::GetAverage(Double_t *varMin, Double_t* varMax ) const 
{
  //
  // Get ave efficiency in a range
  //


  Double_t val=0;
  Int_t *indexMin = new Int_t[fNVar];
  Int_t *indexMax = new Int_t[fNVar];
  Int_t *index    = new Int_t[fNVar];
  
  //Find out the min and max bins
  
  for(Int_t i=0;i<fNVar;i++){
    Double_t xmin=varMin[i]; // the min values  
    Double_t xmax=varMax[i]; // the max values  
    Int_t nbins=fNVarBins[i]+1;
    Double_t *bins=new Double_t[nbins];
    for(Int_t ibin =0;ibin<nbins;ibin++){
      bins[ibin] = fVarBinLimits[ibin+fOffset[i]];
    }
    indexMin[i] = TMath::BinarySearch(nbins,bins,xmin);
    indexMax[i] = TMath::BinarySearch(nbins,bins,xmax);
    if(xmax>=bins[nbins-1]){
      indexMax[i]=indexMax[i]-1;
    }  
    delete [] bins;
  }
  
  Double_t valnum=0;
  Double_t valden=0;
  for(Int_t i=0;i<fNDim;i++){
    for (Int_t j=0;j<fNVar;j++)index[j]=GetBinIndex(j,i);
    Bool_t isIn=kTRUE;
    for (Int_t j=0;j<fNVar;j++){
      if(!(index[j]>=indexMin[j] && index[j]<=indexMax[j]))isIn=kFALSE;   
    }
    if(isIn){
      valnum+=fContainer->GetGrid(fSelNum)->GetElement(i);
      valden+=fContainer->GetGrid(fSelDen)->GetElement(i);
    }
  } 
  delete [] index;
  delete [] indexMin;
  delete [] indexMax;
  if(valden>0)val=valnum/valden;
  AliInfo(Form(" the Average Efficiency = %f ",val)); 
  return val;
} 
//____________________________________________________________________
void AliCFEffGrid::Copy(TObject& eff) const
{
  //
  // copy function
  //
  Copy(eff);
  AliCFEffGrid& target = (AliCFEffGrid &) eff;
  
  target.fSelNum=fSelNum; 
  target.fSelDen=fSelDen; 
  if(fContainer)
    target.fContainer=fContainer;
}
//___________________________________________________________________
TH1D *AliCFEffGrid::Project(Int_t ivar) const
{
  //
  // Make a 1D projection along variable ivar 
  //
 
  TH1D *proj1D=0;
  Int_t nbins =fNVarBins[ivar];
  Float_t *bins = new Float_t[nbins+1];    
  for(Int_t ibin =0;ibin<nbins+1;ibin++){
    bins[ibin] = fVarBinLimits[ibin+fOffset[ivar]];
  }
  
  char pname[30];
  sprintf(pname,"%s%s%i%i%s%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj1D_var", ivar);
  char htitle[30];
  sprintf(htitle,"%s%s%i%i%s%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj1D_var", ivar);
  
  if(!proj1D){
    proj1D =new TH1D(pname,htitle, nbins, bins);
  }  
  
  //unset the use of axis range to be able to divide the histos
  fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);

  proj1D->Sumw2();
  proj1D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar),fContainer->GetGrid(fSelDen)->Project(ivar),1.,1.,"B");

  fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);
  proj1D->GetXaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar)->GetLast()
			       );

  delete [] bins; 
  return proj1D;
} 
//___________________________________________________________________
TH2D *AliCFEffGrid::Project(Int_t ivar1,Int_t ivar2) const
{
  //
  // Make a 2D projection along variable ivar1,ivar2 
  //
 
  TH2D *proj2D=0;

  Int_t nbins1 =fNVarBins[ivar1];
  Float_t *bins1 = new Float_t[nbins1+1];    
  Int_t nbins2 =fNVarBins[ivar2];
  Float_t *bins2 = new Float_t[nbins2+1];    
  for(Int_t ibin1 =0;ibin1<nbins1+1;ibin1++){
    bins1[ibin1] = fVarBinLimits[ibin1+fOffset[ivar1]];
  }
  for(Int_t ibin2 =0;ibin2<nbins2+1;ibin2++){
    bins2[ibin2] = fVarBinLimits[ibin2+fOffset[ivar2]];
  }
  
  char pname[30];
  sprintf(pname,"%s%s%i%i%s%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj2D_var", ivar1,ivar2);
  char htitle[30];
  sprintf(htitle,"%s%s%i%i%s%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj2D_var",ivar1,ivar2);
  
  if(!proj2D){
    proj2D =new TH2D(pname,htitle, nbins1,bins1,nbins2,bins2);
  }  
  
  //unset the use of axis range to be able to divide the histos
  fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);
  
  proj2D->Sumw2();
  proj2D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar1,ivar2),fContainer->GetGrid(fSelDen)->Project(ivar1,ivar2),1.,1.,"B");
  
  fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);
  proj2D->GetXaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetLast()
			       );
  proj2D->GetYaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetLast()
			       );

  delete [] bins1;
  delete [] bins2; 
  return proj2D;
} 
//___________________________________________________________________
TH3D *AliCFEffGrid::Project(Int_t ivar1, Int_t ivar2, Int_t ivar3) const
{
  //
  // Make a 3D projection along variable ivar1,ivar2,ivar3 
  //

  TH3D *proj3D=0;

  Int_t nbins1 =fNVarBins[ivar1];
  Int_t nbins2 =fNVarBins[ivar2];
  Int_t nbins3 =fNVarBins[ivar3];
  
  Float_t *bins1 = new Float_t[nbins1+1];         
  Float_t *bins2 = new Float_t[nbins2+1];     
  Float_t *bins3 = new Float_t[nbins3+1];     
  
  for(Int_t ibin =0;ibin<nbins1+1;ibin++){
    bins1[ibin] = fVarBinLimits[ibin+fOffset[ivar1]];
  }
  for(Int_t ibin =0;ibin<nbins2+1;ibin++){
    bins2[ibin] = fVarBinLimits[ibin+fOffset[ivar2]];
  }
  for(Int_t ibin =0;ibin<nbins3+1;ibin++){
    bins3[ibin] = fVarBinLimits[ibin+fOffset[ivar3]];
  }
  
  char pname[30];
  sprintf(pname,"%s%s%i%i%s%i%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj3D_var",ivar1,ivar2,ivar3);
  char htitle[30];
  sprintf(htitle,"%s%s%i%i%s%i%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj3D_var",ivar1,ivar2,ivar3);
   
  
  if(!proj3D){
    proj3D =new TH3D(pname,htitle, nbins1, bins1,nbins2,bins2,nbins3,bins3);
  }  
  
  //unset the use of axis range to be able to divide the histos
  fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);

  proj3D->Sumw2();
  proj3D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar1,ivar2,ivar3),fContainer->GetGrid(fSelDen)->Project(ivar1,ivar2,ivar3),1.,1.,"B");
  
  fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
  fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);

  proj3D->GetXaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetLast()
			       );
  proj3D->GetYaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetLast()
			       );
  proj3D->GetZaxis()->SetRange(
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar3)->GetFirst(),
			       ((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar3)->GetLast()
			       );

  delete [] bins1;
  delete [] bins2;
  delete [] bins3; 
  
  return proj3D;
}
Commit	Line	Data
563113d0	1	/* $Id$ */
1e9dad92	2	/**************************************************************************
	3	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* *
	5	* Author: The ALICE Off-line Project. *
	6	* Contributors are mentioned in the code where appropriate. *
	7	* *
	8	* Permission to use, copy, modify and distribute this software and its *
	9	* documentation strictly for non-commercial purposes is hereby granted *
	10	* without fee, provided that the above copyright notice appears in all *
	11	* copies and that both the copyright notice and this permission notice *
	12	* appear in the supporting documentation. The authors make no claims *
	13	* about the suitability of this software for any purpose. It is *
	14	* provided "as is" without express or implied warranty. *
	15	**************************************************************************/
563113d0	16	//--------------------------------------------------------------------//
	17	// //
	18	// AliCFEffGrid Class //
	19	// Class to handle efficiency grids //
	20	// //
	21	// -- Author : S.Arcelli //
	22	// //
	23	// //
	24	// //
	25	//--------------------------------------------------------------------//
	26	//
	27	//
9f6be3a2	28	#include "TMath.h"
9f6be3a2	29	#include "AliLog.h"
563113d0	30	#include "AliCFEffGrid.h"
9f6be3a2	31	#include "TH1D.h"
	32	#include "TH2D.h"
	33	#include "TH3D.h"
563113d0	34
	35	//____________________________________________________________________
	36	ClassImp(AliCFEffGrid)
	37
	38	//____________________________________________________________________
	39	AliCFEffGrid::AliCFEffGrid() :
25488e18	40	AliCFGridSparse(),
563113d0	41	fContainer(0x0),
	42	fSelNum(-1),
	43	fSelDen(-1)
	44	{
	45	//
	46	// default constructor
	47	//
	48	}
	49
	50	//____________________________________________________________________
1e9dad92	51	AliCFEffGrid::AliCFEffGrid(const Char_t* name, const Char_t* title, const Int_t nVarIn, const Int_t * nBinIn, const Double_t *binLimitsIn) :
25488e18	52	AliCFGridSparse(name,title,nVarIn,nBinIn,binLimitsIn),
563113d0	53	fContainer(0x0),
	54	fSelNum(-1),
	55	fSelDen(-1)
	56	{
	57	//
	58	// ctor
	59	//
	60	SumW2();
	61	}
	62	//____________________________________________________________________
	63	AliCFEffGrid::AliCFEffGrid(const Char_t* name, const Char_t* title, const AliCFContainer &c) :
25488e18	64	AliCFGridSparse(name,title,c.GetNVar(),c.GetNBins(),c.GetBinLimits()),
5188c2a7	65	fContainer(NULL),
563113d0	66	fSelNum(-1),
	67	fSelDen(-1)
	68	{
	69	//
	70	// main constructor
	71	//
	72	SumW2();
	73	//assign the container;
	74	fContainer=&c;
	75	}
	76	//____________________________________________________________________
25488e18	77	AliCFEffGrid::AliCFEffGrid(const AliCFEffGrid& eff) : AliCFGridSparse(),
563113d0	78	fContainer(0x0),
	79	fSelNum(-1),
	80	fSelDen(-1)
	81	{
	82	//
	83	// copy constructor
	84	//
	85	((AliCFEffGrid &)eff).Copy(*this);
	86	}
	87
	88	//____________________________________________________________________
	89	AliCFEffGrid::~AliCFEffGrid()
	90	{
	91	//
	92	// destructor
	93	//
	94	}
	95
	96	//____________________________________________________________________
	97	AliCFEffGrid &AliCFEffGrid::operator=(const AliCFEffGrid &eff)
	98	{
	99	//
	100	// assigment operator
	101	//
	102	if (this != &eff)
	103	((AliCFEffGrid &) eff).Copy(*this);
	104	return *this;
	105	}
	106	//____________________________________________________________________
	107
5d14ed73	108	void AliCFEffGrid::CalculateEfficiency(Int_t istep1,Int_t istep2, Option_t *option)
563113d0	109	{
	110	//
	111	// Calculate the efficiency matrix and its error between selection
	112	// Steps istep1 and istep2
	113	//
	114
	115	fSelNum=istep1;
	116	fSelDen=istep2;
1e9dad92	117	AliCFVGrid *num=fContainer->GetGrid(fSelNum);
1e9dad92	118	AliCFVGrid *den=fContainer->GetGrid(fSelDen);
563113d0	119	num->SumW2();
563113d0	120	den->SumW2();
1e9dad92	121	this->SumW2();
5d14ed73	122	this->Divide(num,den,1.,1.,option);
563113d0	123
	124	Int_t nEmptyBinsNum=0;
	125	Int_t nEmptyBinsNumAndDen=0;
	126	for(Int_t iel=0;iel<fNDim;iel++){
	127	if(den->GetElement(iel)>0){
	128	if(num->GetElement(iel)==0)nEmptyBinsNum++; //num==0,den!=0
1e9dad92	129	}
563113d0	130	else{
	131	nEmptyBinsNumAndDen++;
	132	}
	133	}
	134	// Some monitoring printout:
	135	AliInfo(Form("Efficiency calculated for steps %i and %i: %i empty bins in the numerator && !denominator and %i empty bins in numerator && denominator were found.",fSelNum,fSelDen,nEmptyBinsNumAndDen,nEmptyBinsNum));
	136	AliInfo(Form("The correction map contains %i empty bins ",nEmptyBinsNum+nEmptyBinsNumAndDen));
	137	}
	138	//_____________________________________________________________________
1e9dad92	139	Double_t AliCFEffGrid::GetAverage() const
563113d0	140	{
	141	//
	142	// Get the average efficiency
	143	//
	144
1e9dad92	145	Double_t val=0;
	146	Double_t valnum=0;
	147	Double_t valden=0;
563113d0	148	for(Int_t i=0;i<fNDim;i++){
	149	valnum+=fContainer->GetGrid(fSelNum)->GetElement(i);
	150	valden+=fContainer->GetGrid(fSelDen)->GetElement(i);
	151	}
	152	if(valden>0)val=valnum/valden;
	153	AliInfo(Form(" The Average Efficiency = %f ",val));
	154
	155	return val;
	156	}
	157	//_____________________________________________________________________
1e9dad92	158	Double_t AliCFEffGrid::GetAverage(Double_t varMin, Double_t varMax ) const
563113d0	159	{
	160	//
	161	// Get ave efficiency in a range
	162	//
	163
	164
1e9dad92	165	Double_t val=0;
563113d0	166	Int_t *indexMin = new Int_t[fNVar];
	167	Int_t *indexMax = new Int_t[fNVar];
	168	Int_t *index = new Int_t[fNVar];
	169
	170	//Find out the min and max bins
	171
	172	for(Int_t i=0;i<fNVar;i++){
1e9dad92	173	Double_t xmin=varMin[i]; // the min values
1e9dad92	174	Double_t xmax=varMax[i]; // the max values
563113d0	175	Int_t nbins=fNVarBins[i]+1;
365c0ea4	176	Double_t *bins=new Double_t[nbins];
563113d0	177	for(Int_t ibin =0;ibin<nbins;ibin++){
	178	bins[ibin] = fVarBinLimits[ibin+fOffset[i]];
	179	}
	180	indexMin[i] = TMath::BinarySearch(nbins,bins,xmin);
	181	indexMax[i] = TMath::BinarySearch(nbins,bins,xmax);
	182	if(xmax>=bins[nbins-1]){
	183	indexMax[i]=indexMax[i]-1;
	184	}
	185	delete [] bins;
	186	}
	187
1e9dad92	188	Double_t valnum=0;
1e9dad92	189	Double_t valden=0;
563113d0	190	for(Int_t i=0;i<fNDim;i++){
	191	for (Int_t j=0;j<fNVar;j++)index[j]=GetBinIndex(j,i);
	192	Bool_t isIn=kTRUE;
	193	for (Int_t j=0;j<fNVar;j++){
	194	if(!(index[j]>=indexMin[j] && index[j]<=indexMax[j]))isIn=kFALSE;
	195	}
	196	if(isIn){
	197	valnum+=fContainer->GetGrid(fSelNum)->GetElement(i);
	198	valden+=fContainer->GetGrid(fSelDen)->GetElement(i);
	199	}
	200	}
	201	delete [] index;
	202	delete [] indexMin;
	203	delete [] indexMax;
	204	if(valden>0)val=valnum/valden;
	205	AliInfo(Form(" the Average Efficiency = %f ",val));
	206	return val;
	207	}
	208	//____________________________________________________________________
	209	void AliCFEffGrid::Copy(TObject& eff) const
	210	{
	211	//
	212	// copy function
	213	//
	214	Copy(eff);
	215	AliCFEffGrid& target = (AliCFEffGrid &) eff;
	216
	217	target.fSelNum=fSelNum;
	218	target.fSelDen=fSelDen;
	219	if(fContainer)
	220	target.fContainer=fContainer;
	221	}
	222	//___________________________________________________________________
1e9dad92	223	TH1D *AliCFEffGrid::Project(Int_t ivar) const
563113d0	224	{
	225	//
	226	// Make a 1D projection along variable ivar
	227	//
	228
1e9dad92	229	TH1D *proj1D=0;
563113d0	230	Int_t nbins =fNVarBins[ivar];
	231	Float_t *bins = new Float_t[nbins+1];
	232	for(Int_t ibin =0;ibin<nbins+1;ibin++){
	233	bins[ibin] = fVarBinLimits[ibin+fOffset[ivar]];
	234	}
	235
	236	char pname[30];
	237	sprintf(pname,"%s%s%i%i%s%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj1D_var", ivar);
	238	char htitle[30];
	239	sprintf(htitle,"%s%s%i%i%s%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj1D_var", ivar);
	240
	241	if(!proj1D){
1e9dad92	242	proj1D =new TH1D(pname,htitle, nbins, bins);
563113d0	243	}
563113d0	244
9105291d	245	//unset the use of axis range to be able to divide the histos
	246	fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
	247	fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);
	248
1e9dad92	249	proj1D->Sumw2();
563113d0	250	proj1D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar),fContainer->GetGrid(fSelDen)->Project(ivar),1.,1.,"B");
398ea452	251
	252	fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
	253	fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);
	254	proj1D->GetXaxis()->SetRange(
	255	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar)->GetFirst(),
	256	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar)->GetLast()
	257	);
	258
563113d0	259	delete [] bins;
	260	return proj1D;
	261	}
	262	//___________________________________________________________________
1e9dad92	263	TH2D *AliCFEffGrid::Project(Int_t ivar1,Int_t ivar2) const
563113d0	264	{
	265	//
	266	// Make a 2D projection along variable ivar1,ivar2
	267	//
	268
1e9dad92	269	TH2D *proj2D=0;
563113d0	270
	271	Int_t nbins1 =fNVarBins[ivar1];
	272	Float_t *bins1 = new Float_t[nbins1+1];
	273	Int_t nbins2 =fNVarBins[ivar2];
	274	Float_t *bins2 = new Float_t[nbins2+1];
	275	for(Int_t ibin1 =0;ibin1<nbins1+1;ibin1++){
	276	bins1[ibin1] = fVarBinLimits[ibin1+fOffset[ivar1]];
	277	}
	278	for(Int_t ibin2 =0;ibin2<nbins2+1;ibin2++){
	279	bins2[ibin2] = fVarBinLimits[ibin2+fOffset[ivar2]];
	280	}
	281
	282	char pname[30];
	283	sprintf(pname,"%s%s%i%i%s%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj2D_var", ivar1,ivar2);
	284	char htitle[30];
	285	sprintf(htitle,"%s%s%i%i%s%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj2D_var",ivar1,ivar2);
	286
	287	if(!proj2D){
1e9dad92	288	proj2D =new TH2D(pname,htitle, nbins1,bins1,nbins2,bins2);
563113d0	289	}
563113d0	290
9105291d	291	//unset the use of axis range to be able to divide the histos
	292	fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
	293	fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);
	294
1e9dad92	295	proj2D->Sumw2();
563113d0	296	proj2D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar1,ivar2),fContainer->GetGrid(fSelDen)->Project(ivar1,ivar2),1.,1.,"B");
563113d0	297
398ea452	298	fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
	299	fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);
	300	proj2D->GetXaxis()->SetRange(
	301	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetFirst(),
	302	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetLast()
	303	);
	304	proj2D->GetYaxis()->SetRange(
	305	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetFirst(),
	306	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetLast()
	307	);
	308
563113d0	309	delete [] bins1;
	310	delete [] bins2;
	311	return proj2D;
	312	}
	313	//___________________________________________________________________
1e9dad92	314	TH3D *AliCFEffGrid::Project(Int_t ivar1, Int_t ivar2, Int_t ivar3) const
563113d0	315	{
	316	//
	317	// Make a 3D projection along variable ivar1,ivar2,ivar3
	318	//
	319
1e9dad92	320	TH3D *proj3D=0;
563113d0	321
	322	Int_t nbins1 =fNVarBins[ivar1];
	323	Int_t nbins2 =fNVarBins[ivar2];
	324	Int_t nbins3 =fNVarBins[ivar3];
	325
	326	Float_t *bins1 = new Float_t[nbins1+1];
	327	Float_t *bins2 = new Float_t[nbins2+1];
	328	Float_t *bins3 = new Float_t[nbins3+1];
	329
	330	for(Int_t ibin =0;ibin<nbins1+1;ibin++){
	331	bins1[ibin] = fVarBinLimits[ibin+fOffset[ivar1]];
	332	}
	333	for(Int_t ibin =0;ibin<nbins2+1;ibin++){
	334	bins2[ibin] = fVarBinLimits[ibin+fOffset[ivar2]];
	335	}
	336	for(Int_t ibin =0;ibin<nbins3+1;ibin++){
	337	bins3[ibin] = fVarBinLimits[ibin+fOffset[ivar3]];
	338	}
	339
	340	char pname[30];
	341	sprintf(pname,"%s%s%i%i%s%i%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj3D_var",ivar1,ivar2,ivar3);
	342	char htitle[30];
	343	sprintf(htitle,"%s%s%i%i%s%i%i%i",GetName(),"_SelStep",fSelNum,fSelDen,"_proj3D_var",ivar1,ivar2,ivar3);
	344
	345
	346	if(!proj3D){
1e9dad92	347	proj3D =new TH3D(pname,htitle, nbins1, bins1,nbins2,bins2,nbins3,bins3);
563113d0	348	}
563113d0	349
9105291d	350	//unset the use of axis range to be able to divide the histos
	351	fContainer->GetGrid(fSelNum)->UseAxisRange(kFALSE);
	352	fContainer->GetGrid(fSelDen)->UseAxisRange(kFALSE);
	353
1e9dad92	354	proj3D->Sumw2();
563113d0	355	proj3D->Divide(fContainer->GetGrid(fSelNum)->Project(ivar1,ivar2,ivar3),fContainer->GetGrid(fSelDen)->Project(ivar1,ivar2,ivar3),1.,1.,"B");
563113d0	356
398ea452	357	fContainer->GetGrid(fSelNum)->UseAxisRange(kTRUE);
	358	fContainer->GetGrid(fSelDen)->UseAxisRange(kTRUE);
	359
	360	proj3D->GetXaxis()->SetRange(
	361	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetFirst(),
	362	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar1)->GetLast()
	363	);
	364	proj3D->GetYaxis()->SetRange(
	365	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetFirst(),
	366	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar2)->GetLast()
	367	);
	368	proj3D->GetZaxis()->SetRange(
	369	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar3)->GetFirst(),
	370	((AliCFGridSparse*)GetNum())->GetGrid()->GetAxis(ivar3)->GetLast()
	371	);
	372
563113d0	373	delete [] bins1;
	374	delete [] bins2;
	375	delete [] bins3;
	376
	377	return proj3D;
	378	}
9105291d	379