[u/mrichter/AliRoot.git] / PWGJE / AliAnaChargedJetResponseMaker.h

#ifndef __AliAnaChargedJetResponseMaker_h__
#define __AliAnaChargedJetResponseMaker_h__
#include "Rtypes.h"
#include "TH1.h"
#include "TCanvas.h"
#include "TMath.h"
#include "TH2.h"
#include "TProfile.h"
#include "THnSparse.h"

class TGraph;
class TGraphErrors;

//
// Measured spectrum defines minimum and maximum pT on the reconstructed axis of the response matrix. To be set with SetMeasuredSpectrum(TH1D *hPtMeasured);
//

class AliAnaChargedJetResponseMaker {
 public:
  AliAnaChargedJetResponseMaker();
  AliAnaChargedJetResponseMaker(const AliAnaChargedJetResponseMaker& obj); // copy constructor
  AliAnaChargedJetResponseMaker& operator=(const AliAnaChargedJetResponseMaker& other); // assignment
  virtual ~AliAnaChargedJetResponseMaker() {;}

  // kParam        = use parametrization of response 
  // kResiduals    = use response as measured, w/o  statistical error propagation
  // kResidualsErr = use response as measured, with statistical error propagation
  enum ResolutionType {kParam,kResiduals,kResidualsErr}; 

  //Setters
  virtual void SetDebugMode(Bool_t b) {fDebug=b;}

  virtual void SetResolutionType(ResolutionType r) {fResolutionType=r;}

  virtual void SetDeltaPtJetsFunc(TF1 *f1)  {fDeltaPt=f1;}
  virtual void SetDeltaPtJetsHist(TH1D *h1) {fhDeltaPt=h1;}
  virtual void SetNDimensions(Int_t dim)    {fDimensions = dim;}
  virtual void SetMeasuredSpectrum(TH1D *hPtMeasured);
  virtual void SetMeasuredSpectrumTruncated(TH1D *h1) {fh1MeasuredTruncated=h1;}

  virtual void SetDetectorResponse(TH2 *h2) {fh2DetectorResponse=(TH2D*)h2;}
  virtual void SetDetectorEfficiency(TH1D *h1) {fhEfficiencyDet=h1;}

  virtual void SetFlatEfficiency(Double_t eff);
  virtual void SetEfficiency(TGraphErrors *grEff);

  virtual void SetPtMinUnfolded(Double_t ptmin)      {fPtMinUnfolded = ptmin;}
  virtual void SetPtMaxUnfolded(Double_t ptmax)      {fPtMaxUnfolded = ptmax;}
  virtual void SetPtMaxUnfoldedHigh(Double_t ptmaxh) {fPtMaxUnfoldedHigh = ptmaxh;}
  virtual void SetBinWidthFactorUnfolded(Int_t fac)  {fBinWidthFactorUnfolded = fac;}
  virtual void SetSkipBinsUnfolded(Int_t skip)       {fSkipBinsUnfolded=skip;}
  virtual void SetExtraBinsUnfolded(Int_t extra)     {fExtraBinsUnfolded=extra;}
  virtual void SetVariableBinning(Bool_t b, double ptmax) {
    fbVariableBinning=b;
    fPtMaxUnfVarBinning=ptmax;
  }
  virtual void SetCalcErrors(Bool_t b) {fbCalcErrors=b;}

  //Setters for merging fine to normal response matrix
  virtual void SetFineFrac(Int_t i = 10)         {fFineFrac = i;}
  virtual void SetRMMergeWeightFunction(TF1 *f1) {f1MergeFunction = f1;}

  //Getters
  virtual TF1       *GetDeltaPtJetsFunc() {return fDeltaPt;}
  virtual TH1D      *GetDeltaPtJetsHist() {return fhDeltaPt;}
  virtual THnSparse *GetMeasuredSpectrum() {return fPtMeasured;}
  virtual THnSparse *GetEfficiency() {return fEfficiency;}
  virtual THnSparse *GetEfficiencyFine() {return fEfficiencyFine;}
  virtual THnSparse *GetResponseMatrix() {return fResponseMatrix;}
  virtual THnSparse *GetResponseMatrixFine() {return fResponseMatrixFine;}

  virtual TH2D      *GetDetectorResponseRebin() {return fh2DetectorResponseRebin;}

  virtual Bool_t CheckInputForCombinedResponse();

  virtual TH2D      *GetResponseCombinedFineFull() {return fh2ResponseMatrixCombinedFineFull;}
  virtual TH2D      *GetResponseCombinedFull() {return fh2ResponseMatrixCombinedFull;}

  virtual TH2D      *GetResponseCombined() {return fh2ResponseMatrixCombined;}
  virtual TH1D      *GetEfficiencyCombined() {return fhEfficiencyCombined;}

  static Double_t   GetBetaPerDOFValue(Int_t betaColl = 0, Int_t betaOpt= 0);

  //Utility functions
  virtual Double_t InterpolateFast(TGraph *gr, Double_t x);
  virtual Double_t InterpolateFast(TH1 *h, Double_t x);

  virtual TH1D *MultiplyResponseGenerated(TH1 *hGen=0, TH2 *hResponse=0,TH1 *hEfficiency=0,Bool_t bDrawSlices=kFALSE);
  virtual TH1D *MultiplyResponseGenerated(TF1 *fGen, TH2 *hResponse,TH1 *hEfficiency);

  virtual void MakeResponseMatrixCombined(Int_t skipBins =0, Int_t binWidthFactor = 2, Int_t extraBins = 0, Bool_t bVariableBinning = kFALSE, Double_t ptmin = 0.);

  virtual void MakeResponseMatrixJetsFineMerged(Int_t skipBins =0, Int_t binWidthFactor = 2, Int_t extraBins = 0, Bool_t bVariableBinning = kFALSE, Double_t ptmin = 0.);

  virtual void InitializeResponseMatrix();
  virtual void InitializeResponseMatrixFine();

  virtual void InitializeEfficiency();
  virtual void InitializeEfficiencyFine();

  virtual void FillResponseMatrixFineAndMerge();

  virtual TH2* MakeResponseMatrixRebin(TH2 *hRMFine = 0, TH2 *hRM = 0, Bool_t useFunctionWeight = kFALSE);

  virtual TH2* CreateTruncated2DHisto(TH2 *h2=0, Double_t xmin=-1, Double_t xmax=-1, Double_t ymin=-1, Double_t ymax=-1);
  virtual TH2* TruncateAxisRangeResponseMatrix(TH2 *hRMOrig=0,  Double_t xmin=-1, Double_t xmax=-1, Double_t ymin=-1, Double_t ymax=-1);

  virtual TH2* MultiplityResponseMatrices(TH2 *h2RMDeltaPt, TH2 *h2RMDetector);

  virtual TH2* GetTransposeResponsMatrix(TH2 *h2RM);

  virtual TH2* NormalizeResponsMatrixYaxisWithPrior(TH2 *h2RM, TH1 *hPrior);

 protected:
  Bool_t      fDebug;
  ResolutionType fResolutionType;
  TF1        *fDeltaPt;
  TH1D       *fhDeltaPt;
  TH1D       *fh1MeasuredTruncated;
  TH2D       *fh2DetectorResponse;
  TH2D       *fh2DetectorResponseRebin;
  TH1D       *fhEfficiencyDet;
  TH2D       *fh2ResponseMatrixCombinedFineFull;
  TH2D       *fh2ResponseMatrixCombinedFull;
  TH2D       *fh2ResponseMatrixCombined;
  TH1D       *fhEfficiencyCombined;
  Int_t       fDimensions; //number of dimensions to unfold (class only prepared for 1 dimension -> 2D response matrix)
  Int_t       fDimRec;
  Int_t       fDimGen;
  Double_t    fPtMin;
  Double_t    fPtMax;
  Int_t       fNbins;
  Double_t   *fBinArrayPtRec;
  THnSparse  *fPtMeasured;
  Double_t    fEffFlat;
  THnSparse  *fEfficiency;
  THnSparse  *fEfficiencyFine;
  THnSparse  *fResponseMatrix;
  THnSparse  *fResponseMatrixFine;
  Double_t    fPtMinUnfolded;          //Minimum pt for unfolded spectrum
  Double_t    fPtMaxUnfolded;          //Maximum pt for unfolded spectrum
  Double_t    fPtMaxUnfoldedHigh;      //Extend last bin of unfolded axis up to fPtMaxUnfoldedHigh
  Int_t       fBinWidthFactorUnfolded; //Unfolded bins x times wider than measured
  Int_t       fSkipBinsUnfolded;       //#unfolded bins to be skipped starting from fPtMinUnfolded
  Int_t       fExtraBinsUnfolded;      //Extra unfolded bins for pTUnf>pTMeas
  Bool_t      fbVariableBinning;       //Unfolded bins 2x narrower for pTUnf<pTMaxUnfVarBinning compared to bin width for pTUnf>pTMaxUnfVarBinning
  Double_t    fPtMaxUnfVarBinning;
  TF1        *f1MergeFunction;
  Int_t       fFineFrac;
  Bool_t      fbCalcErrors;

  ClassDef(AliAnaChargedJetResponseMaker,0);
    
};

#endif
Commit	Line	Data
31d3e4f0	1	#ifndef __AliAnaChargedJetResponseMaker_h__
	2	#define __AliAnaChargedJetResponseMaker_h__
	3	#include "Rtypes.h"
	4	#include "TH1.h"
	5	#include "TCanvas.h"
	6	#include "TMath.h"
	7	#include "TH2.h"
	8	#include "TProfile.h"
	9	#include "THnSparse.h"
	10
	11	class TGraph;
	12	class TGraphErrors;
	13
	14	//
	15	// Measured spectrum defines minimum and maximum pT on the reconstructed axis of the response matrix. To be set with SetMeasuredSpectrum(TH1D *hPtMeasured);
	16	//
	17
	18	class AliAnaChargedJetResponseMaker {
	19	public:
	20	AliAnaChargedJetResponseMaker();
fa7c34ba	21	AliAnaChargedJetResponseMaker(const AliAnaChargedJetResponseMaker& obj); // copy constructor
	22	AliAnaChargedJetResponseMaker& operator=(const AliAnaChargedJetResponseMaker& other); // assignment
	23	virtual ~AliAnaChargedJetResponseMaker() {;}
31d3e4f0	24
	25	// kParam = use parametrization of response
	26	// kResiduals = use response as measured, w/o statistical error propagation
	27	// kResidualsErr = use response as measured, with statistical error propagation
	28	enum ResolutionType {kParam,kResiduals,kResidualsErr};
	29
	30	//Setters
fa7c34ba	31	virtual void SetDebugMode(Bool_t b) {fDebug=b;}
31d3e4f0	32
fa7c34ba	33	virtual void SetResolutionType(ResolutionType r) {fResolutionType=r;}
31d3e4f0	34
fa7c34ba	35	virtual void SetDeltaPtJetsFunc(TF1 *f1) {fDeltaPt=f1;}
	36	virtual void SetDeltaPtJetsHist(TH1D *h1) {fhDeltaPt=h1;}
	37	virtual void SetNDimensions(Int_t dim) {fDimensions = dim;}
	38	virtual void SetMeasuredSpectrum(TH1D *hPtMeasured);
0bf6381d	39	virtual void SetMeasuredSpectrumTruncated(TH1D *h1) {fh1MeasuredTruncated=h1;}
	40
	41	virtual void SetDetectorResponse(TH2 h2) {fh2DetectorResponse=(TH2D)h2;}
	42	virtual void SetDetectorEfficiency(TH1D *h1) {fhEfficiencyDet=h1;}
31d3e4f0	43
fa7c34ba	44	virtual void SetFlatEfficiency(Double_t eff);
fa7c34ba	45	virtual void SetEfficiency(TGraphErrors *grEff);
31d3e4f0	46
fa7c34ba	47	virtual void SetPtMinUnfolded(Double_t ptmin) {fPtMinUnfolded = ptmin;}
	48	virtual void SetPtMaxUnfolded(Double_t ptmax) {fPtMaxUnfolded = ptmax;}
	49	virtual void SetPtMaxUnfoldedHigh(Double_t ptmaxh) {fPtMaxUnfoldedHigh = ptmaxh;}
	50	virtual void SetBinWidthFactorUnfolded(Int_t fac) {fBinWidthFactorUnfolded = fac;}
	51	virtual void SetSkipBinsUnfolded(Int_t skip) {fSkipBinsUnfolded=skip;}
	52	virtual void SetExtraBinsUnfolded(Int_t extra) {fExtraBinsUnfolded=extra;}
	53	virtual void SetVariableBinning(Bool_t b, double ptmax) {
31d3e4f0	54	fbVariableBinning=b;
	55	fPtMaxUnfVarBinning=ptmax;
	56	}
fa7c34ba	57	virtual void SetCalcErrors(Bool_t b) {fbCalcErrors=b;}
31d3e4f0	58
31d3e4f0	59	//Setters for merging fine to normal response matrix
fa7c34ba	60	virtual void SetFineFrac(Int_t i = 10) {fFineFrac = i;}
fa7c34ba	61	virtual void SetRMMergeWeightFunction(TF1 *f1) {f1MergeFunction = f1;}
31d3e4f0	62
31d3e4f0	63	//Getters
fa7c34ba	64	virtual TF1 *GetDeltaPtJetsFunc() {return fDeltaPt;}
	65	virtual TH1D *GetDeltaPtJetsHist() {return fhDeltaPt;}
	66	virtual THnSparse *GetMeasuredSpectrum() {return fPtMeasured;}
	67	virtual THnSparse *GetEfficiency() {return fEfficiency;}
	68	virtual THnSparse *GetEfficiencyFine() {return fEfficiencyFine;}
	69	virtual THnSparse *GetResponseMatrix() {return fResponseMatrix;}
	70	virtual THnSparse *GetResponseMatrixFine() {return fResponseMatrixFine;}
31d3e4f0	71
0bf6381d	72	virtual TH2D *GetDetectorResponseRebin() {return fh2DetectorResponseRebin;}
	73
	74	virtual Bool_t CheckInputForCombinedResponse();
	75
	76	virtual TH2D *GetResponseCombinedFineFull() {return fh2ResponseMatrixCombinedFineFull;}
	77	virtual TH2D *GetResponseCombinedFull() {return fh2ResponseMatrixCombinedFull;}
	78
	79	virtual TH2D *GetResponseCombined() {return fh2ResponseMatrixCombined;}
	80	virtual TH1D *GetEfficiencyCombined() {return fhEfficiencyCombined;}
	81
	82	static Double_t GetBetaPerDOFValue(Int_t betaColl = 0, Int_t betaOpt= 0);
	83
31d3e4f0	84	//Utility functions
fa7c34ba	85	virtual Double_t InterpolateFast(TGraph *gr, Double_t x);
fa7c34ba	86	virtual Double_t InterpolateFast(TH1 *h, Double_t x);
31d3e4f0	87
fa7c34ba	88	virtual TH1D MultiplyResponseGenerated(TH1 hGen=0, TH2 hResponse=0,TH1 hEfficiency=0,Bool_t bDrawSlices=kFALSE);
fa7c34ba	89	virtual TH1D MultiplyResponseGenerated(TF1 fGen, TH2 hResponse,TH1 hEfficiency);
31d3e4f0	90
0bf6381d	91	virtual void MakeResponseMatrixCombined(Int_t skipBins =0, Int_t binWidthFactor = 2, Int_t extraBins = 0, Bool_t bVariableBinning = kFALSE, Double_t ptmin = 0.);
0bf6381d	92
fa7c34ba	93	virtual void MakeResponseMatrixJetsFineMerged(Int_t skipBins =0, Int_t binWidthFactor = 2, Int_t extraBins = 0, Bool_t bVariableBinning = kFALSE, Double_t ptmin = 0.);
31d3e4f0	94
fa7c34ba	95	virtual void InitializeResponseMatrix();
fa7c34ba	96	virtual void InitializeResponseMatrixFine();
31d3e4f0	97
fa7c34ba	98	virtual void InitializeEfficiency();
fa7c34ba	99	virtual void InitializeEfficiencyFine();
31d3e4f0	100
fa7c34ba	101	virtual void FillResponseMatrixFineAndMerge();
31d3e4f0	102
03372fd1	103	virtual TH2* MakeResponseMatrixRebin(TH2 hRMFine = 0, TH2 hRM = 0, Bool_t useFunctionWeight = kFALSE);
	104
	105	virtual TH2* CreateTruncated2DHisto(TH2 *h2=0, Double_t xmin=-1, Double_t xmax=-1, Double_t ymin=-1, Double_t ymax=-1);
	106	virtual TH2* TruncateAxisRangeResponseMatrix(TH2 *hRMOrig=0, Double_t xmin=-1, Double_t xmax=-1, Double_t ymin=-1, Double_t ymax=-1);
ef62323a	107
275d3481	108	virtual TH2* MultiplityResponseMatrices(TH2 h2RMDeltaPt, TH2 h2RMDetector);
275d3481	109
5d87a047	110	virtual TH2* GetTransposeResponsMatrix(TH2 *h2RM);
	111
	112	virtual TH2* NormalizeResponsMatrixYaxisWithPrior(TH2 h2RM, TH1 hPrior);
	113
31d3e4f0	114	protected:
	115	Bool_t fDebug;
	116	ResolutionType fResolutionType;
	117	TF1 *fDeltaPt;
	118	TH1D *fhDeltaPt;
0bf6381d	119	TH1D *fh1MeasuredTruncated;
	120	TH2D *fh2DetectorResponse;
	121	TH2D *fh2DetectorResponseRebin;
	122	TH1D *fhEfficiencyDet;
	123	TH2D *fh2ResponseMatrixCombinedFineFull;
	124	TH2D *fh2ResponseMatrixCombinedFull;
	125	TH2D *fh2ResponseMatrixCombined;
	126	TH1D *fhEfficiencyCombined;
31d3e4f0	127	Int_t fDimensions; //number of dimensions to unfold (class only prepared for 1 dimension -> 2D response matrix)
	128	Int_t fDimRec;
	129	Int_t fDimGen;
	130	Double_t fPtMin;
	131	Double_t fPtMax;
	132	Int_t fNbins;
	133	Double_t *fBinArrayPtRec;
	134	THnSparse *fPtMeasured;
	135	Double_t fEffFlat;
	136	THnSparse *fEfficiency;
	137	THnSparse *fEfficiencyFine;
	138	THnSparse *fResponseMatrix;
	139	THnSparse *fResponseMatrixFine;
	140	Double_t fPtMinUnfolded; //Minimum pt for unfolded spectrum
	141	Double_t fPtMaxUnfolded; //Maximum pt for unfolded spectrum
	142	Double_t fPtMaxUnfoldedHigh; //Extend last bin of unfolded axis up to fPtMaxUnfoldedHigh
	143	Int_t fBinWidthFactorUnfolded; //Unfolded bins x times wider than measured
	144	Int_t fSkipBinsUnfolded; //#unfolded bins to be skipped starting from fPtMinUnfolded
	145	Int_t fExtraBinsUnfolded; //Extra unfolded bins for pTUnf>pTMeas
	146	Bool_t fbVariableBinning; //Unfolded bins 2x narrower for pTUnf<pTMaxUnfVarBinning compared to bin width for pTUnf>pTMaxUnfVarBinning
	147	Double_t fPtMaxUnfVarBinning;
	148	TF1 *f1MergeFunction;
	149	Int_t fFineFrac;
	150	Bool_t fbCalcErrors;
	151
	152	ClassDef(AliAnaChargedJetResponseMaker,0);
	153
	154	};
	155
	156	#endif