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class TUnfoldSys: public TUnfold


  TUnfoldSys : public TUnfold

  TUnfold is used to decompose a measurement y into several sources x
  given the measurement uncertainties and a matrix of migrations A

  TUnfoldSys adds error propagation of systematic errors to TUnfold
  Also, background sources (with errors) can be subtracted.


  * For most applications, it is better to use TUnfoldDensity *
  * instead of using TUnfoldSys or TUnfold                    *


  If you use this software, please consider the following citation
       S.Schmitt, JINST 7 (2012) T10003 [arXiv:1205.6201]

  More documentation and updates are available on
      http://www.desy.de/~sschmitt


  The following sources of systematic error are considered in TUnfoldSys

  (a) uncorrelated errors on the input matrix histA, taken as the
      errors provided with the histogram.
      These are typically statistical errors from finite Monte Carlo samples

  (b) correlated shifts of the input matrix histA. These shifts are taken
      as one-sigma effects when switchig on a given error soure.
      several such error sources may be defined

  (c) a systematic error on the regularisation parameter tau

  (d) uncorrelated errors on background sources, taken as the errors
      provided with the background histograms

  (e) scale errors on background sources

 In addition there is the (statistical) uncertainty of the input vector (i)

 Source (a) is providede with the original histogram histA
     TUnfoldSys(histA,...)

 Sources (b) are added by calls to
     AddSysError()

 The systematic uncertainty on tau (c) is set by
     SetTauError()

 Backgound sources causing errors of type (d) and (e) are added by
     SubtractBackground()


 NOTE:

    Systematic errors (a), (b), (c) are propagated to the result
       AFTER unfolding

    Background errors (d) and (e) are added to the data errors
       BEFORE unfolding

 For this reason:
  errors of type (d) and (e) are INCLUDED in the standard error matrix
  and other methods provided by the base class TUnfold:
      GetOutput()
      GetEmatrix()

  whereas errors of type (a), (b), (c) are NOT INCLUDED in the methods
  provided by the base class TUnfold.

 Accessing error matrices:

  The error sources (b),(c) and (e) propagate to shifts of the result.
  These shifts may be accessed as histograms using the methods
     GetDeltaSysSource()            corresponds to (b)
     GetDeltaSysTau()               corresponds to (c)
     GetDeltaSysBackgroundScale()   corresponds to (e)
  The error sources (a) and (d) originate from many uncorrelated errors,
  which in general are NOT uncorrelated on the result vector.
  Thus, there is no corresponding shift of the output vector, only error
  matrices are available

  Method to get error matrix       corresponds to error sources

   GetEmatrixSysUncorr()             (a)
   GetEmatrixSysSource()             (b)
   GetEmatrixSysTau()                (c)
   GetEmatrixSysBackgroundUncorr()   (d)
   GetEmatrixSysBackgroundScale()    (e)
   GetEmatrixInput()                 (i)
   GetEmatrix()                      (i)+(d)+(e)
   GetEmatrixTotal()                 (i)+(a)+(b)+(c)+(d)+(e)

  Error matrices can be added to existing histograms.
  This is useful to retreive the sum of several error matrices.
  If the last argument of the GetEmatrixXXX() methods is set to kFALSE,
  the histogram is not cleared, but the error matrix is simply added to the
  existing histogram

Function Members (Methods)

public:

virtual	~TUnfoldSys()
void	TObject::AbstractMethod(const char* method) const
void	AddSysError(const TH2* sysError, const char* name, TUnfold::EHistMap histmap, TUnfoldSys::ESysErrMode mode)
virtual void	TObject::AppendPad(Option_t* option = "")
virtual void	TObject::Browse(TBrowser* b)
static TClass*	Class()
virtual const char*	TObject::ClassName() const
virtual void	TObject::Clear(Option_t* = "")
virtual TObject*	TObject::Clone(const char* newname = "") const
virtual Int_t	TObject::Compare(const TObject* obj) const
virtual void	TObject::Copy(TObject& object) const
virtual void	TObject::Delete(Option_t* option = "")MENU
virtual Int_t	TObject::DistancetoPrimitive(Int_t px, Int_t py)
virtual Double_t	TUnfold::DoUnfold(Double_t tau)
Double_t	TUnfold::DoUnfold(Double_t tau, const TH1* hist_y, Double_t scaleBias = 0.)
virtual void	TObject::Draw(Option_t* option = "")
virtual void	TObject::DrawClass() constMENU
virtual TObject*	TObject::DrawClone(Option_t* option = "") constMENU
virtual void	TObject::Dump() constMENU
virtual void	TObject::Error(const char* method, const char* msgfmt) const
virtual void	TObject::Execute(const char* method, const char* params, Int_t* error = 0)
virtual void	TObject::Execute(TMethod* method, TObjArray* params, Int_t* error = 0)
virtual void	TObject::ExecuteEvent(Int_t event, Int_t px, Int_t py)
virtual void	TObject::Fatal(const char* method, const char* msgfmt) const
virtual TObject*	TObject::FindObject(const char* name) const
virtual TObject*	TObject::FindObject(const TObject* obj) const
void	GetBackground(TH1* bgr, const char* bgrSource = 0, const Int_t* binMap = 0, Int_t includeError = 3, Bool_t clearHist = kTRUE) const
void	TUnfold::GetBias(TH1* bias, const Int_t* binMap = 0) const
Double_t	TUnfold::GetChi2A() const
Double_t	TUnfold::GetChi2L() const
Double_t	GetChi2Sys()
Bool_t	GetDeltaSysBackgroundScale(TH1* delta, const char* source, const Int_t* binMap = 0)
Bool_t	GetDeltaSysSource(TH1* hist_delta, const char* source, const Int_t* binMap = 0)
Bool_t	GetDeltaSysTau(TH1* delta, const Int_t* binMap = 0)
virtual Option_t*	TObject::GetDrawOption() const
static Long_t	TObject::GetDtorOnly()
void	TUnfold::GetEmatrix(TH2* ematrix, const Int_t* binMap = 0) const
void	GetEmatrixInput(TH2* ematrix, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixSysBackgroundScale(TH2* ematrix, const char* source, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixSysBackgroundUncorr(TH2* ematrix, const char* source, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixSysSource(TH2* ematrix, const char* source, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixSysTau(TH2* ematrix, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixSysUncorr(TH2* ematrix, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)
void	GetEmatrixTotal(TH2* ematrix, const Int_t* binMap = 0)
Double_t	TUnfold::GetEpsMatrix() const
void	TUnfold::GetFoldedOutput(TH1* folded, const Int_t* binMap = 0) const
virtual const char*	TObject::GetIconName() const
void	TUnfold::GetInput(TH1* inputData, const Int_t* binMap = 0) const
void	TUnfold::GetInputInverseEmatrix(TH2* ematrix)
void	TUnfold::GetL(TH2* l) const
virtual Double_t	TUnfold::GetLcurveX() const
virtual Double_t	TUnfold::GetLcurveY() const
void	TUnfold::GetLsquared(TH2* lsquared) const
virtual const char*	TObject::GetName() const
Int_t	TUnfold::GetNdf() const
void	TUnfold::GetNormalisationVector(TH1* s, const Int_t* binMap = 0) const
Int_t	TUnfold::GetNpar() const
Int_t	TUnfold::GetNr() const
virtual char*	TObject::GetObjectInfo(Int_t px, Int_t py) const
static Bool_t	TObject::GetObjectStat()
virtual Option_t*	TObject::GetOption() const
void	TUnfold::GetOutput(TH1* output, const Int_t* binMap = 0) const
void	TUnfold::GetProbabilityMatrix(TH2* A, TUnfold::EHistMap histmap) const
Double_t	TUnfold::GetRhoAvg() const
Double_t	TUnfold::GetRhoI(TH1* rhoi, const Int_t* binMap = 0, TH2* invEmat = 0) const
void	TUnfold::GetRhoIJ(TH2* rhoij, const Int_t* binMap = 0) const
void	GetRhoItotal(TH1* rhoi, const Int_t* binMap = 0, TH2* invEmat = 0)
Double_t	TUnfold::GetRhoMax() const
Double_t	TUnfold::GetTau() const
virtual const char*	TObject::GetTitle() const
static const char*	TUnfold::GetTUnfoldVersion()
virtual UInt_t	TObject::GetUniqueID() const
virtual Bool_t	TObject::HandleTimer(TTimer* timer)
virtual ULong_t	TObject::Hash() const
virtual void	TObject::Info(const char* method, const char* msgfmt) const
virtual Bool_t	TObject::InheritsFrom(const char* classname) const
virtual Bool_t	TObject::InheritsFrom(const TClass* cl) const
virtual void	TObject::Inspect() constMENU
void	TObject::InvertBit(UInt_t f)
virtual TClass*	IsA() const
virtual Bool_t	TObject::IsEqual(const TObject* obj) const
virtual Bool_t	TObject::IsFolder() const
Bool_t	TObject::IsOnHeap() const
virtual Bool_t	TObject::IsSortable() const
Bool_t	TObject::IsZombie() const
virtual void	TObject::ls(Option_t* option = "") const
void	TObject::MayNotUse(const char* method) const
virtual Bool_t	TObject::Notify()
void	TObject::Obsolete(const char* method, const char* asOfVers, const char* removedFromVers) const
void	TObject::operator delete(void* ptr)
void	TObject::operator delete(void* ptr, void* vp)
void	TObject::operator delete[](void* ptr)
void	TObject::operator delete[](void* ptr, void* vp)
void*	TObject::operator new(size_t sz)
void*	TObject::operator new(size_t sz, void* vp)
void*	TObject::operator new[](size_t sz)
void*	TObject::operator new[](size_t sz, void* vp)
TUnfoldSys&	operator=(const TUnfoldSys&)
virtual void	TObject::Paint(Option_t* option = "")
virtual void	TObject::Pop()
virtual void	TObject::Print(Option_t* option = "") const
virtual Int_t	TObject::Read(const char* name)
virtual void	TObject::RecursiveRemove(TObject* obj)
Int_t	TUnfold::RegularizeBins(int start, int step, int nbin, TUnfold::ERegMode regmode)
Int_t	TUnfold::RegularizeBins2D(int start_bin, int step1, int nbin1, int step2, int nbin2, TUnfold::ERegMode regmode)
Int_t	TUnfold::RegularizeCurvature(int left_bin, int center_bin, int right_bin, Double_t scale_left = 1., Double_t scale_right = 1.)
Int_t	TUnfold::RegularizeDerivative(int left_bin, int right_bin, Double_t scale = 1.)
Int_t	TUnfold::RegularizeSize(int bin, Double_t scale = 1.)
void	TObject::ResetBit(UInt_t f)
virtual void	TObject::SaveAs(const char* filename = "", Option_t* option = "") constMENU
virtual void	TObject::SavePrimitive(ostream& out, Option_t* option = "")
virtual Int_t	TUnfold::ScanLcurve(Int_t nPoint, Double_t tauMin, Double_t tauMax, TGraph lCurve, TSpline logTauX = 0, TSpline** logTauY = 0)
void	TUnfold::SetBias(const TH1* bias)
void	TObject::SetBit(UInt_t f)
void	TObject::SetBit(UInt_t f, Bool_t set)
void	TUnfold::SetConstraint(TUnfold::EConstraint constraint)
virtual void	TObject::SetDrawOption(Option_t* option = "")MENU
static void	TObject::SetDtorOnly(void* obj)
void	TUnfold::SetEpsMatrix(Double_t eps)
virtual Int_t	SetInput(const TH1* hist_y, Double_t scaleBias = 0., Double_t oneOverZeroError = 0., const TH2* hist_vyy = 0, const TH2* hist_vyy_inv = 0)
static void	TObject::SetObjectStat(Bool_t stat)
void	SetTauError(Double_t delta_tau)
virtual void	TObject::SetUniqueID(UInt_t uid)
virtual void	ShowMembers(TMemberInspector& insp) const
virtual void	Streamer(TBuffer&)
void	StreamerNVirtual(TBuffer& ClassDef_StreamerNVirtual_b)
void	SubtractBackground(const TH1* hist_bgr, const char* name, Double_t scale = 1., Double_t scale_error = 0.)
virtual void	TObject::SysError(const char* method, const char* msgfmt) const
Bool_t	TObject::TestBit(UInt_t f) const
Int_t	TObject::TestBits(UInt_t f) const
	TUnfoldSys(const TUnfoldSys&)
	TUnfoldSys(const TH2* hist_A, TUnfold::EHistMap histmap, TUnfold::ERegMode regmode = kRegModeSize, TUnfold::EConstraint constraint = kEConstraintArea)
virtual void	TObject::UseCurrentStyle()
virtual void	TObject::Warning(const char* method, const char* msgfmt) const
virtual Int_t	TObject::Write(const char* name = 0, Int_t option = 0, Int_t bufsize = 0)
virtual Int_t	TObject::Write(const char* name = 0, Int_t option = 0, Int_t bufsize = 0) const

protected:

void	TUnfold::AddMSparse(TMatrixDSparse* dest, Double_t f, const TMatrixDSparse* src) const
Bool_t	TUnfold::AddRegularisationCondition(Int_t nEle, const Int_t* indices, const Double_t* rowData)
Bool_t	TUnfold::AddRegularisationCondition(Int_t i0, Double_t f0, Int_t i1 = -1, Double_t f1 = 0., Int_t i2 = -1, Double_t f2 = 0.)
void	TUnfold::ClearHistogram(TH1* h, Double_t x = 0.) const
virtual void	ClearResults()
TMatrixDSparse*	TUnfold::CreateSparseMatrix(Int_t nrow, Int_t ncol, Int_t nele, Int_t* row, Int_t* col, Double_t* data) const
static void	TUnfold::DeleteMatrix(TMatrixD** m)
static void	TUnfold::DeleteMatrix(TMatrixDSparse** m)
void	DoBackgroundSubtraction()
virtual void	TObject::DoError(int level, const char* location, const char* fmt, va_list va) const
virtual Double_t	TUnfold::DoUnfold()
void	TUnfold::ErrorMatrixToHist(TH2* ematrix, const TMatrixDSparse* emat, const Int_t* binMap, Bool_t doClear) const
const TMatrixDSparse*	TUnfold::GetAx() const
Int_t	TUnfold::GetBinFromRow(int ix) const
const TMatrixDSparse*	TUnfold::GetDXDAM(int i) const
const TMatrixDSparse*	TUnfold::GetDXDAZ(int i) const
const TMatrixDSparse*	TUnfold::GetDXDtauSquared() const
const TMatrixDSparse*	TUnfold::GetDXDY() const
const TMatrixDSparse*	TUnfold::GetE() const
const TMatrixDSparse*	TUnfold::GetEinv() const
void	GetEmatrixFromVyy(const TMatrixDSparse* vyy, TH2* ematrix, const Int_t* binMap, Bool_t clearEmat)
Int_t	TUnfold::GetNx() const
Int_t	TUnfold::GetNy() const
virtual TString	TUnfold::GetOutputBinName(Int_t iBinX) const
Double_t	TUnfold::GetRhoIFromMatrix(TH1* rhoi, const TMatrixDSparse* eOrig, const Int_t* binMap, TH2* invEmat) const
Int_t	TUnfold::GetRowFromBin(int ix) const
TMatrixDSparse*	GetSummedErrorMatrixXX()
TMatrixDSparse*	GetSummedErrorMatrixYY()
const TMatrixDSparse*	TUnfold::GetVxx() const
const TMatrixDSparse*	TUnfold::GetVxxInv() const
const TMatrixDSparse*	TUnfold::GetVyyInv() const
const TMatrixD*	TUnfold::GetX() const
TMatrixDSparse*	TUnfold::InvertMSparseSymmPos(const TMatrixDSparse* A, Int_t* rank) const
void	TObject::MakeZombie()
TMatrixDSparse*	TUnfold::MultiplyMSparseM(const TMatrixDSparse* a, const TMatrixD* b) const
TMatrixDSparse*	TUnfold::MultiplyMSparseMSparse(const TMatrixDSparse* a, const TMatrixDSparse* b) const
TMatrixDSparse*	TUnfold::MultiplyMSparseMSparseTranspVector(const TMatrixDSparse* m1, const TMatrixDSparse* m2, const TMatrixTBase<Double_t>* v) const
TMatrixDSparse*	TUnfold::MultiplyMSparseTranspMSparse(const TMatrixDSparse* a, const TMatrixDSparse* b) const
virtual TMatrixDSparse*	PrepareCorrEmat(const TMatrixDSparse* m1, const TMatrixDSparse* m2, const TMatrixDSparse* dsys)
virtual void	PrepareSysError()
virtual TMatrixDSparse*	PrepareUncorrEmat(const TMatrixDSparse* m1, const TMatrixDSparse* m2)
void	ScaleColumnsByVector(TMatrixDSparse* m, const TMatrixTBase<Double_t>* v) const
	TUnfoldSys()
void	VectorMapToHist(TH1* hist_delta, const TMatrixDSparse* delta, const Int_t* binMap)

private:

void	InitTUnfoldSys()

Data Members

public:

static TObject::(anonymous)	TObject::kBitMask
static TObject::EStatusBits	TObject::kCanDelete
static TObject::EStatusBits	TObject::kCannotPick
static TUnfold::EConstraint	TUnfold::kEConstraintArea
static TUnfold::EConstraint	TUnfold::kEConstraintNone
static TObject::EStatusBits	TObject::kHasUUID
static TUnfold::EHistMap	TUnfold::kHistMapOutputHoriz
static TUnfold::EHistMap	TUnfold::kHistMapOutputVert
static TObject::EStatusBits	TObject::kInvalidObject
static TObject::(anonymous)	TObject::kIsOnHeap
static TObject::EStatusBits	TObject::kIsReferenced
static TObject::EStatusBits	TObject::kMustCleanup
static TObject::EStatusBits	TObject::kNoContextMenu
static TObject::(anonymous)	TObject::kNotDeleted
static TObject::EStatusBits	TObject::kObjInCanvas
static TObject::(anonymous)	TObject::kOverwrite
static TUnfold::ERegMode	TUnfold::kRegModeCurvature
static TUnfold::ERegMode	TUnfold::kRegModeDerivative
static TUnfold::ERegMode	TUnfold::kRegModeMixed
static TUnfold::ERegMode	TUnfold::kRegModeNone
static TUnfold::ERegMode	TUnfold::kRegModeSize
static TObject::(anonymous)	TObject::kSingleKey
static TUnfoldSys::ESysErrMode	kSysErrModeMatrix
static TUnfoldSys::ESysErrMode	kSysErrModeRelative
static TUnfoldSys::ESysErrMode	kSysErrModeShift
static TObject::(anonymous)	TObject::kWriteDelete
static TObject::(anonymous)	TObject::kZombie

protected:

TMatrixDSparse*	TUnfold::fA	Input: matrix
TMatrixD*	fAoutside	Input: underflow/overflow bins
TMap*	fBgrErrScaleIn	Input: background sources correlated error
TMap*	fBgrErrUncorrInSq	Input: uncorr error squared from bgr sources
TMap*	fBgrIn	Input: size of background sources
Double_t	TUnfold::fBiasScale	Input: scale factor for the bias
TUnfold::EConstraint	TUnfold::fConstraint	Input: type of constraint to use
TMatrixD*	fDAinColRelSq	Input: normalized column err.sq. (inp.matr.)
TMatrixDSparse*	fDAinRelSq	Input: normalized errors from input matrix
TMap*	fDeltaCorrAx	Result: syst.shift from fSysIn on fAx
TMap*	fDeltaCorrX	Result: syst.shift from fSysIn on fX
TMatrixDSparse*	fDeltaSysTau	Result: systematic shift from tau
Double_t	fDtau	Input: error on tau
TMatrixDSparse*	fEmatUncorrAx	Result: syst.error from fDA2 on fAx
TMatrixDSparse*	fEmatUncorrX	Result: syst.error from fDA2 on fX
TArrayI	TUnfold::fHistToX	Input: histogram bins -> matrix indices
TMatrixDSparse*	TUnfold::fL	Input: regularisation conditions
TUnfold::ERegMode	TUnfold::fRegMode	Input: type of regularisation
TArrayD	TUnfold::fSumOverY	Input: sum of all columns
TMap*	fSysIn	Input: correlated errors
Double_t	TUnfold::fTauSquared	Input: regularisation parameter
TMatrixDSparse*	TUnfold::fVyy	Input: covariance matrix for y
TMatrixDSparse*	fVyyData	Input: error on fY prior to bgr subtraction
TMatrixD*	TUnfold::fX0	Input: x0
TArrayI	TUnfold::fXToHist	Input: matrix indices -> histogram bins
TMatrixD*	TUnfold::fY	Input: y
TMatrixD*	fYData	Input: fY prior to bgr subtraction

Class Charts

Inheritance Chart:

TObject

←

TUnfold

←

TUnfoldSys

←

TUnfoldDensity

Function documentation

TUnfoldSys(const TUnfoldSys& )

 set all pointers to zero

void DoBackgroundSubtraction(void)

 performs background subtraction
 fY = fYData - fBgrIn
 fVyy = fVyyData + fBgrErrUncorr^2 + fBgrErrCorr * fBgrErrCorr#
 fVyyinv = fVyy^(-1)

Int_t SetInput(const TH1* hist_y, Double_t scaleBias = 0., Double_t oneOverZeroError = 0., const TH2* hist_vyy = 0, const TH2* hist_vyy_inv = 0)

 Define the input data for subsequent calls to DoUnfold(Double_t)
  input:   input distribution with errors
  scaleBias:  scale factor applied to the bias
  oneOverZeroError: for bins with zero error, this number defines 1/error.
 Return value: number of bins with bad error
                 +10000*number of unconstrained output bins
         Note: return values>=10000 are fatal errors,
               for the given input, the unfolding can not be done!
 Calls the SetInput method of the base class, then renames the input
 vectors fY and fVyy, then performs the background subtraction
 Data members modified:
   fYData,fY,fVyyData,fVyy,fVyyinvData,fVyyinv
 and those modified by TUnfold::SetInput()
 and those modified by DoBackgroundSubtraction()

void InitTUnfoldSys(void)

 initialize pointers and TMaps

~TUnfoldSys(void)

 delete all data members

void ClearResults(void)

 clear all data members which depend on the unfolding results

void PrepareSysError(void)

 calculations required for syst.error
 data members modified
    fEmatUncorrX, fEmatUncorrAx, fDeltaCorrX, fDeltaCorrAx

void SetTauError(Double_t delta_tau)

 set uncertainty on tau

Bool_t GetDeltaSysSource(TH1* hist_delta, const char* source, const Int_t* binMap = 0)

 calculate systematic shift from a given source
    ematrix: output
    source: name of the error source
    binMap: see method GetEmatrix()

Bool_t GetDeltaSysTau(TH1* delta, const Int_t* binMap = 0)

 calculate systematic shift from tau variation
    ematrix: output
    binMap: see method GetEmatrix()

void GetEmatrixTotal(TH2* ematrix, const Int_t* binMap = 0)

 get total error including statistical error
    ematrix: output
    binMap: see method GetEmatrix()

TMatrixDSparse * GetSummedErrorMatrixYY(void)

TMatrixDSparse * GetSummedErrorMatrixXX(void)

Double_t GetChi2Sys(void)

 calculate total chi**2 including systematic errors

void GetRhoItotal(TH1* rhoi, const Int_t* binMap = 0, TH2* invEmat = 0)

 get global correlation coefficients including systematic,statistical,background,tau errors
    rhoi: output histogram
    binMap: for each global bin, indicate in which histogram bin
            to store its content
    invEmat: output histogram for inverse of error matrix
              (pointer may zero if inverse is not requested)

TUnfoldSys(const TUnfoldSys& )

TMatrixDSparse * PrepareUncorrEmat(const TMatrixDSparse* m1, const TMatrixDSparse* m2)

TMatrixDSparse * PrepareCorrEmat(const TMatrixDSparse* m1, const TMatrixDSparse* m2, const TMatrixDSparse* dsys)

void ScaleColumnsByVector(TMatrixDSparse* m, const TMatrixTBase<Double_t>* v) const

void VectorMapToHist(TH1* hist_delta, const TMatrixDSparse* delta, const Int_t* binMap)

void GetEmatrixFromVyy(const TMatrixDSparse* vyy, TH2* ematrix, const Int_t* binMap, Bool_t clearEmat)

TUnfoldSys(const TH2* hist_A, TUnfold::EHistMap histmap, TUnfold::ERegMode regmode = kRegModeSize, TUnfold::EConstraint constraint = kEConstraintArea)

void AddSysError(const TH2* sysError, const char* name, TUnfold::EHistMap histmap, TUnfoldSys::ESysErrMode mode)

void SubtractBackground(const TH1* hist_bgr, const char* name, Double_t scale = 1., Double_t scale_error = 0.)

Bool_t GetDeltaSysBackgroundScale(TH1* delta, const char* source, const Int_t* binMap = 0)

void GetEmatrixSysUncorr(TH2* ematrix, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)

void GetEmatrixSysSource(TH2* ematrix, const char* source, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)

void GetEmatrixSysBackgroundScale(TH2* ematrix, const char* source, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)

void GetEmatrixInput(TH2* ematrix, const Int_t* binMap = 0, Bool_t clearEmat = kTRUE)