[u/mrichter/AliRoot.git] / PWG3 / vertexingHF / AliMultiDimVector.h

#ifndef ALIMULTIDIMVECTOR_H
#define ALIMULTIDIMVECTOR_H

/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id: $ */

///////////////////////////////////////////////////////////////////
//                                                               //
// Class to store number of signal and background candidates     //
// in bins of cut variables                                      //
// Origin:       Elena Bruna (bruna@to.infn.it)                  //
// Updated:      Sergey Senyukov (senyukov@to.infn.it)           //
//               Francesco Prino (prino@to.infn.it)              //
// Last Updated: Giacomo Ortona (ortona@to.infn.it)              //
//                                                               //
///////////////////////////////////////////////////////////////////

#include "TArrayF.h"
#include "TArrayI.h"
#include "TNamed.h"
#include "TH2.h"
#include "TMath.h"
#include "TString.h"

class AliMultiDimVector :  public TNamed{

 public:
  AliMultiDimVector();
  AliMultiDimVector(const AliMultiDimVector &mv);
  AliMultiDimVector(const char *name, const char *title, const Int_t nptbins, 
		    const Float_t* ptlimits, const Int_t npars, const Int_t *nofcells, const Float_t *loosecuts, const Float_t *tightcuts, const TString *axisTitles);
  virtual ~AliMultiDimVector(){};

  ULong64_t GetNTotCells()            const {return fNTotCells;}
  Int_t     GetNVariables()           const {return fNVariables;}
  Int_t     GetNPtBins()              const {return fNPtBins;}
  Int_t     GetNCutSteps(Int_t iVar)  const {return fNCutSteps[iVar];}
  Float_t   GetMinLimit(Int_t iVar)   const {return fMinLimits[iVar];}
  Float_t   GetMaxLimit(Int_t iVar)   const {return fMaxLimits[iVar];}
  Float_t   GetCutStep(Int_t iVar)    const {return (fMaxLimits[iVar]-fMinLimits[iVar])/(Float_t)fNCutSteps[iVar];}
  TString   GetAxisTitle(Int_t iVar)  const {return fAxisTitles[iVar];}
  Bool_t    IsIntegrated()            const {return fIsIntegrated;}

  void CopyStructure(const AliMultiDimVector* mv);

  Float_t   GetCutValue(Int_t iVar, Int_t iCell) const{
    if(fGreaterThan[iVar]) return fMinLimits[iVar]+(Float_t)iCell*GetCutStep(iVar);
    else return fMaxLimits[iVar]-(Float_t)iCell*GetCutStep(iVar);
  }
  Float_t   GetElement(ULong64_t globadd) const {return fVett[globadd];}
  Float_t   GetElement(const Int_t *ind, Int_t ptbin) const {
    ULong64_t elem=GetGlobalAddressFromIndices(ind,ptbin);
    return fVett[elem];
  }
  Float_t   GetPtLimit(Int_t i) const{return fPtLimits[i];}
  Int_t     GetPtBin(const Float_t pt) const{
    Int_t theBin=TMath::BinarySearch(fNPtBins+1,fPtLimits,pt);
    if(theBin>=fNPtBins) theBin=-1;
    return theBin;
  }
  void      GetEntireMultiDimVector(Float_t *vett) const {
    for(ULong64_t i=0; i<fNTotCells; i++) vett[i]=fVett[i];
  }

  Bool_t    GetIndicesFromGlobalAddress(ULong64_t globadd, Int_t *ind, Int_t &ptbin) const;
  ULong64_t GetGlobalAddressFromIndices(const Int_t *ind, Int_t ptbin) const;
  Bool_t    GetIndicesFromValues(const Float_t *values, Int_t *ind) const;
  ULong64_t GetGlobalAddressFromValues(const Float_t *values, Int_t ptbin) const;
  Bool_t    GetCutValuesFromGlobalAddress(ULong64_t globadd, Float_t *cuts, Int_t &ptbin) const;
  
  ULong64_t* GetGlobalAddressesAboveCuts(const Float_t *values, Float_t pt, Int_t& nVals) const{
    Int_t theBin=GetPtBin(pt);
    if(theBin>=0) return GetGlobalAddressesAboveCuts(values,theBin,nVals);
    else return 0x0;
  }
  ULong64_t* GetGlobalAddressesAboveCuts(const Float_t *values, Int_t ptbin, Int_t& nVals) const;
  Bool_t    GetGreaterThan(Int_t iVar) const {return fGreaterThan[iVar];}

  void SetElement(ULong64_t globadd,Float_t val) {fVett[globadd]=val;}
  void SetElement(Int_t *ind, Int_t ptbin, Float_t val){
    ULong64_t elem=GetGlobalAddressFromIndices(ind,ptbin);
    if(elem>fNTotCells){
      printf("SetElement: indices %d %d %d  ptbin %d elem %d\n",ind[0],ind[1],ind[2],ptbin,(Int_t)elem);
    }
    fVett[elem]=val;
  }
  void IncrementElement(Int_t *ind, Int_t ptbin){
    SetElement(ind,ptbin,GetElement(ind,ptbin)+1);
  }
  void IncrementElement(ULong64_t globadd){
    SetElement(globadd,GetElement(globadd)+1.);
  }

  void Fill(Float_t* values, Int_t ptbin);
  void FillAndIntegrate(Float_t* values, Int_t ptbin);
  void Integrate();

  void Reset(){
    for(ULong64_t i=0; i<fNTotCells; i++) fVett[i]=0.;
  }
  void MultiplyBy(Float_t factor);
  void Multiply(const AliMultiDimVector* mv,Float_t factor);
  void Multiply(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
  void Add(const AliMultiDimVector* mv);
  void Sum(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
  void LinearComb(const AliMultiDimVector* mv1, Float_t norm1, const AliMultiDimVector* mv2, Float_t norm2);
  void DivideBy(const AliMultiDimVector* mv);
  void Divide(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
  void Sqrt();
  void Sqrt(const AliMultiDimVector* mv);
  
  void FindMaximum(Float_t& max_value, Int_t *ind, Int_t ptbin); 

  TH2F*  Project(Int_t firstVar, Int_t secondVar, const Int_t* fixedVars, Int_t ptbin, Float_t norm=1.);

  void SuppressZeroBKGEffect(const AliMultiDimVector* BKG);
  AliMultiDimVector* ShrinkPtBins(Int_t firstBin, Int_t lastBin);

  void SetNewLimits(Float_t* loose,Float_t* tight);
  void SwapLimits(Int_t ilim);


  void PrintStatus();

 protected:
  void GetIntegrationLimits(Int_t iVar, Int_t iCell, Int_t& minbin, Int_t& maxbin) const;
  void GetFillRange(Int_t iVar, Int_t iCell, Int_t& minbin, Int_t& maxbin) const;
  Float_t   CountsAboveCell(ULong64_t globadd) const;

  //void SetMinLimits(Int_t nvar, Float_t* minlim);
  //void SetMaxLimits(Int_t nvar, Float_t* maxlim);
 private:
  static const Int_t fgkMaxNVariables=10;  // max. n. of selection variables
  static const Int_t fgkMaxNPtBins=10;     // max. n. of Pt bins

  Int_t     fNVariables;                   // n. of selection variables
  Int_t     fNPtBins;                      // n. of pt bins
  Float_t   fPtLimits[fgkMaxNPtBins+1];    // limits of pt bins
  Int_t     fNCutSteps[fgkMaxNVariables];  // n. of cut step for each variable
  Float_t   fMinLimits[fgkMaxNVariables];  // lower cut value for each variable
  Float_t   fMaxLimits[fgkMaxNVariables];  // higher cut value for each variable
  Bool_t    fGreaterThan[fgkMaxNVariables];// sign of the cut (> or <)
  TString   fAxisTitles[fgkMaxNVariables]; // titles for variables
  TArrayF   fVett;                   // array with n. of candidates vs. cuts
  ULong64_t fNTotCells;              // total number of matrix elements
  Bool_t    fIsIntegrated;           // flag for integrated matrix 

  ClassDef(AliMultiDimVector,2); // a multi-dimensional vector class

};

#endif
Commit	Line	Data
ac7636a0	1	#ifndef ALIMULTIDIMVECTOR_H
	2	#define ALIMULTIDIMVECTOR_H
	3
	4	/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
	7	/* $Id: $ */
	8
	9	///////////////////////////////////////////////////////////////////
	10	// //
	11	// Class to store number of signal and background candidates //
	12	// in bins of cut variables //
	13	// Origin: Elena Bruna (bruna@to.infn.it) //
	14	// Updated: Sergey Senyukov (senyukov@to.infn.it) //
3aa6ce53	15	// Francesco Prino (prino@to.infn.it) //
3aa6ce53	16	// Last Updated: Giacomo Ortona (ortona@to.infn.it) //
ac7636a0	17	// //
	18	///////////////////////////////////////////////////////////////////
	19
	20	#include "TArrayF.h"
	21	#include "TArrayI.h"
	22	#include "TNamed.h"
	23	#include "TH2.h"
bac542b0	24	#include "TMath.h"
ac7636a0	25	#include "TString.h"
	26
	27	class AliMultiDimVector : public TNamed{
	28
	29	public:
	30	AliMultiDimVector();
	31	AliMultiDimVector(const AliMultiDimVector &mv);
2350a1d9	32	AliMultiDimVector(const char name, const char title, const Int_t nptbins,
2350a1d9	33	const Float_t* ptlimits, const Int_t npars, const Int_t nofcells, const Float_t loosecuts, const Float_t tightcuts, const TString axisTitles);
ac7636a0	34	virtual ~AliMultiDimVector(){};
	35
	36	ULong64_t GetNTotCells() const {return fNTotCells;}
	37	Int_t GetNVariables() const {return fNVariables;}
	38	Int_t GetNPtBins() const {return fNPtBins;}
	39	Int_t GetNCutSteps(Int_t iVar) const {return fNCutSteps[iVar];}
	40	Float_t GetMinLimit(Int_t iVar) const {return fMinLimits[iVar];}
	41	Float_t GetMaxLimit(Int_t iVar) const {return fMaxLimits[iVar];}
	42	Float_t GetCutStep(Int_t iVar) const {return (fMaxLimits[iVar]-fMinLimits[iVar])/(Float_t)fNCutSteps[iVar];}
	43	TString GetAxisTitle(Int_t iVar) const {return fAxisTitles[iVar];}
	44	Bool_t IsIntegrated() const {return fIsIntegrated;}
	45
	46	void CopyStructure(const AliMultiDimVector* mv);
	47
	48	Float_t GetCutValue(Int_t iVar, Int_t iCell) const{
	49	if(fGreaterThan[iVar]) return fMinLimits[iVar]+(Float_t)iCell*GetCutStep(iVar);
	50	else return fMaxLimits[iVar]-(Float_t)iCell*GetCutStep(iVar);
	51	}
	52	Float_t GetElement(ULong64_t globadd) const {return fVett[globadd];}
2350a1d9	53	Float_t GetElement(const Int_t *ind, Int_t ptbin) const {
ac7636a0	54	ULong64_t elem=GetGlobalAddressFromIndices(ind,ptbin);
	55	return fVett[elem];
	56	}
bac542b0	57	Float_t GetPtLimit(Int_t i) const{return fPtLimits[i];}
	58	Int_t GetPtBin(const Float_t pt) const{
	59	Int_t theBin=TMath::BinarySearch(fNPtBins+1,fPtLimits,pt);
	60	if(theBin>=fNPtBins) theBin=-1;
	61	return theBin;
	62	}
ac7636a0	63	void GetEntireMultiDimVector(Float_t *vett) const {
	64	for(ULong64_t i=0; i<fNTotCells; i++) vett[i]=fVett[i];
	65	}
	66
	67	Bool_t GetIndicesFromGlobalAddress(ULong64_t globadd, Int_t *ind, Int_t &ptbin) const;
2350a1d9	68	ULong64_t GetGlobalAddressFromIndices(const Int_t *ind, Int_t ptbin) const;
	69	Bool_t GetIndicesFromValues(const Float_t values, Int_t ind) const;
	70	ULong64_t GetGlobalAddressFromValues(const Float_t *values, Int_t ptbin) const;
ac7636a0	71	Bool_t GetCutValuesFromGlobalAddress(ULong64_t globadd, Float_t *cuts, Int_t &ptbin) const;
bac542b0	72
2350a1d9	73	ULong64_t* GetGlobalAddressesAboveCuts(const Float_t *values, Float_t pt, Int_t& nVals) const{
bac542b0	74	Int_t theBin=GetPtBin(pt);
	75	if(theBin>=0) return GetGlobalAddressesAboveCuts(values,theBin,nVals);
	76	else return 0x0;
	77	}
2350a1d9	78	ULong64_t* GetGlobalAddressesAboveCuts(const Float_t *values, Int_t ptbin, Int_t& nVals) const;
3aa6ce53	79	Bool_t GetGreaterThan(Int_t iVar) const {return fGreaterThan[iVar];}
ac7636a0	80
	81	void SetElement(ULong64_t globadd,Float_t val) {fVett[globadd]=val;}
	82	void SetElement(Int_t *ind, Int_t ptbin, Float_t val){
	83	ULong64_t elem=GetGlobalAddressFromIndices(ind,ptbin);
3aa6ce53	84	if(elem>fNTotCells){
	85	printf("SetElement: indices %d %d %d ptbin %d elem %d\n",ind[0],ind[1],ind[2],ptbin,(Int_t)elem);
	86	}
ac7636a0	87	fVett[elem]=val;
	88	}
	89	void IncrementElement(Int_t *ind, Int_t ptbin){
	90	SetElement(ind,ptbin,GetElement(ind,ptbin)+1);
	91	}
	92	void IncrementElement(ULong64_t globadd){
	93	SetElement(globadd,GetElement(globadd)+1.);
	94	}
	95
	96	void Fill(Float_t* values, Int_t ptbin);
	97	void FillAndIntegrate(Float_t* values, Int_t ptbin);
	98	void Integrate();
	99
	100	void Reset(){
	101	for(ULong64_t i=0; i<fNTotCells; i++) fVett[i]=0.;
	102	}
	103	void MultiplyBy(Float_t factor);
2350a1d9	104	void Multiply(const AliMultiDimVector* mv,Float_t factor);
	105	void Multiply(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
	106	void Add(const AliMultiDimVector* mv);
	107	void Sum(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
	108	void LinearComb(const AliMultiDimVector* mv1, Float_t norm1, const AliMultiDimVector* mv2, Float_t norm2);
	109	void DivideBy(const AliMultiDimVector* mv);
	110	void Divide(const AliMultiDimVector* mv1, const AliMultiDimVector* mv2);
ac7636a0	111	void Sqrt();
2350a1d9	112	void Sqrt(const AliMultiDimVector* mv);
ac7636a0	113
	114	void FindMaximum(Float_t& max_value, Int_t *ind, Int_t ptbin);
	115
2350a1d9	116	TH2F* Project(Int_t firstVar, Int_t secondVar, const Int_t* fixedVars, Int_t ptbin, Float_t norm=1.);
ac7636a0	117
2350a1d9	118	void SuppressZeroBKGEffect(const AliMultiDimVector* BKG);
bac542b0	119	AliMultiDimVector* ShrinkPtBins(Int_t firstBin, Int_t lastBin);
3aa6ce53	120
	121	void SetNewLimits(Float_t* loose,Float_t* tight);
	122	void SwapLimits(Int_t ilim);
	123
	124
bac542b0	125	void PrintStatus();
ac7636a0	126
	127	protected:
	128	void GetIntegrationLimits(Int_t iVar, Int_t iCell, Int_t& minbin, Int_t& maxbin) const;
	129	void GetFillRange(Int_t iVar, Int_t iCell, Int_t& minbin, Int_t& maxbin) const;
ac7636a0	130	Float_t CountsAboveCell(ULong64_t globadd) const;
ac7636a0	131
3aa6ce53	132	//void SetMinLimits(Int_t nvar, Float_t* minlim);
3aa6ce53	133	//void SetMaxLimits(Int_t nvar, Float_t* maxlim);
ac7636a0	134	private:
ac7636a0	135	static const Int_t fgkMaxNVariables=10; // max. n. of selection variables
bac542b0	136	static const Int_t fgkMaxNPtBins=10; // max. n. of Pt bins
ac7636a0	137
	138	Int_t fNVariables; // n. of selection variables
	139	Int_t fNPtBins; // n. of pt bins
bac542b0	140	Float_t fPtLimits[fgkMaxNPtBins+1]; // limits of pt bins
ac7636a0	141	Int_t fNCutSteps[fgkMaxNVariables]; // n. of cut step for each variable
	142	Float_t fMinLimits[fgkMaxNVariables]; // lower cut value for each variable
	143	Float_t fMaxLimits[fgkMaxNVariables]; // higher cut value for each variable
	144	Bool_t fGreaterThan[fgkMaxNVariables];// sign of the cut (> or <)
	145	TString fAxisTitles[fgkMaxNVariables]; // titles for variables
	146	TArrayF fVett; // array with n. of candidates vs. cuts
	147	ULong64_t fNTotCells; // total number of matrix elements
	148	Bool_t fIsIntegrated; // flag for integrated matrix
	149
bac542b0	150	ClassDef(AliMultiDimVector,2); // a multi-dimensional vector class
ac7636a0	151
	152	};
	153
	154	#endif