RooAbsPdf Class Reference

RooAbsPdf, the base class of all PDFs

RooAbsPdf is the abstract interface for all probability density functions. The class provides hybrid analytical/numerical normalization for its implementations, error tracing and a MC generator interface.

A Minimal PDF Implementation

A minimal implementation of a PDF class derived from RooAbsPdf should override the evaluate() function. This function should return the PDF's value (which does not need to be normalised).

Normalization/Integration

Although the normalization of a PDF is an integral part of a probability density function, normalization is treated separately in RooAbsPdf. The reason is that a RooAbsPdf object is more than a PDF: it can be a building block for a more complex, composite PDF if any of its variables are functions instead of variables. In such cases the normalization of the composite may not be simply the integral over the dependents of the top level PDF as these are functions with potentially non-trivial Jacobian terms themselves.

Note

Therefore, no explicit attempt should be made to normalize the function output in evaluate(). In particular, normalisation constants can be omitted to speed up the function evaluations, and included later in the integration of the PDF (see below), which is called rarely in comparison to the evaluate() function.

In addition, RooAbsPdf objects do not have a static concept of what variables are parameters and what variables are dependents (which need to be integrated over for a correct PDF normalization). Instead, the choice of normalization is always specified each time a normalized value is requested from the PDF via the getVal() method.

RooAbsPdf manages the entire normalization logic of each PDF with help of a RooRealIntegral object, which coordinates the integration of a given choice of normalization. By default, RooRealIntegral will perform a fully numeric integration of all dependents. However, PDFs can advertise one or more (partial) analytical integrals of their function, and these will be used by RooRealIntegral, if it determines that this is safe (i.e. no hidden Jacobian terms, multiplication with other PDFs that have one or more dependents in commen etc).

Implementing analytical integrals

To implement analytical integrals, two functions must be implemented. First,

Int_t getAnalyticalIntegral(const RooArgSet& integSet, RooArgSet& anaIntSet)

should return the analytical integrals that are supported. integSet is the set of dependents for which integration is requested. The function should copy the subset of dependents it can analytically integrate to anaIntSet, and return a unique identification code for this integration configuration. If no integration can be performed, zero should be returned. Second,

Double_t analyticalIntegral(Int_t code)

implements the actual analytical integral(s) advertised by getAnalyticalIntegral(). This function will only be called with codes returned by getAnalyticalIntegral(), except code zero.

The integration range for each dependent to be integrated can be obtained from the dependent's proxy functions min() and max(). Never call these proxy functions for any proxy not known to be a dependent via the integration code. Doing so may be ill-defined, e.g. in case the proxy holds a function, and will trigger an assert. Integrated category dependents should always be summed over all of their states.

Direct generation of observables

Distributions for any PDF can be generated with the accept/reject method, but for certain PDFs, more efficient methods may be implemented. To implement direct generation of one or more observables, two functions need to be implemented, similar to those for analytical integrals:

Int_t getGenerator(const RooArgSet& generateVars, RooArgSet& directVars)

and

void generateEvent(Int_t code)

The first function advertises observables, for which distributions can be generated, similar to the way analytical integrals are advertised. The second function implements the actual generator for the advertised observables.

The generated dependent values should be stored in the proxy objects. For this, the assignment operator can be used (i.e. xProxy = 3.0 ). Never call assign to any proxy not known to be a dependent via the generation code. Doing so may be ill-defined, e.g. in case the proxy holds a function, and will trigger an assert.

Batched function evaluations (Advanced usage)

To speed up computations with large numbers of data events in unbinned fits, it is beneficial to override evaluateSpan(). Like this, large spans of computations can be done, without having to call evaluate() for each single data event. evaluateSpan() should execute the same computation as evaluate(), but it may choose an implementation that is capable of SIMD computations. If evaluateSpan is not implemented, the classic and slower evaluate() will be called for each data event.

Definition at line 43 of file RooAbsPdf.h.

Classes
class	CacheElem
	Normalization set with for above integral. More...
class	GenSpec

Public Types
enum	ExtendMode { CanNotBeExtended , CanBeExtended , MustBeExtended }
Public Types inherited from RooAbsReal
enum	ErrorLoggingMode { PrintErrors , CollectErrors , CountErrors , Ignore }
typedef std::map< constRooAbsArg *, std::pair< std::string, std::list< EvalError > > >::const_iterator	EvalErrorIter
enum	ScaleType { Raw , Relative , NumEvent , RelativeExpected }
using	value_type = double
Public Types inherited from RooAbsArg
enum	CacheMode { Always =0 , NotAdvised =1 , Never =2 }
enum	ConstOpCode { Activate =0 , DeActivate =1 , ConfigChange =2 , ValueChange =3 }
enum	OperMode { Auto =0 , AClean =1 , ADirty =2 }
using	RefCountList_t = RooSTLRefCountList< RooAbsArg >
using	RefCountListLegacyIterator_t = TIteratorToSTLInterface< RefCountList_t::Container_t >
Public Types inherited from TObject
enum	{   kIsOnHeap = 0x01000000 , kNotDeleted = 0x02000000 , kZombie = 0x04000000 , kInconsistent = 0x08000000 ,   kBitMask = 0x00ffffff }
enum	{ kSingleKey = BIT(0) , kOverwrite = BIT(1) , kWriteDelete = BIT(2) }
enum	EDeprecatedStatusBits { kObjInCanvas = BIT(3) }
enum	EStatusBits {   kCanDelete = BIT(0) , kMustCleanup = BIT(3) , kIsReferenced = BIT(4) , kHasUUID = BIT(5) ,   kCannotPick = BIT(6) , kNoContextMenu = BIT(8) , kInvalidObject = BIT(13) }
Public Types inherited from RooPrintable
enum	ContentsOption {   kName =1 , kClassName =2 , kValue =4 , kArgs =8 ,   kExtras =16 , kAddress =32 , kTitle =64 , kCollectionHeader =128 }
enum	StyleOption {   kInline =1 , kSingleLine =2 , kStandard =3 , kVerbose =4 ,   kTreeStructure =5 }

Public Member Functions
	RooAbsPdf ()
	Default constructor.
	RooAbsPdf (const char *name, const char *title, Double_t minVal, Double_t maxVal)
	Constructor with name, title, and plot range.
	RooAbsPdf (const char *name, const char *title=0)
	Constructor with name and title only.
virtual	~RooAbsPdf ()
	Destructor.
Double_t	analyticalIntegralWN (Int_t code, const RooArgSet *normSet, const char *rangeName=0) const
	Analytical integral with normalization (see RooAbsReal::analyticalIntegralWN() for further information)
virtual RooAbsGenContext *	autoGenContext (const RooArgSet &vars, const RooDataSet *prototype=0, const RooArgSet *auxProto=0, Bool_t verbose=kFALSE, Bool_t autoBinned=kTRUE, const char *binnedTag="") const
virtual RooAbsGenContext *	binnedGenContext (const RooArgSet &vars, Bool_t verbose=kFALSE) const
	Return a binned generator context.
Bool_t	canBeExtended () const
	If true, PDF can provide extended likelihood term.
virtual RooFitResult *	chi2FitTo (RooDataHist &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Perform a \( \chi^2 \) fit to given histogram.
virtual RooFitResult *	chi2FitTo (RooDataHist &data, const RooLinkedList &cmdList)
	Perform a \( \chi^2 \) fit to given histogram.
virtual RooFitResult *	chi2FitTo (RooDataHist &data, const RooLinkedList &cmdList)
	Calls RooAbsPdf::createChi2(RooDataSet& data, const RooLinkedList& cmdList) and returns fit result.
virtual RooFitResult *	chi2FitTo (RooDataSet &xydata, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Perform a 2-D \( \chi^2 \) fit using a series of x and y values stored in the dataset xydata.
virtual RooFitResult *	chi2FitTo (RooDataSet &xydata, const RooLinkedList &cmdList)
	Perform a 2-D \( \chi^2 \) fit using a series of x and y values stored in the dataset xydata.
RooAbsReal *	createCdf (const RooArgSet &iset, const RooArgSet &nset=RooArgSet())
	Create a cumulative distribution function of this p.d.f in terms of the observables listed in iset.
RooAbsReal *	createCdf (const RooArgSet &iset, const RooCmdArg &arg1, const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Create an object that represents the integral of the function over one or more observables listed in iset.
virtual RooAbsReal *	createChi2 (RooDataHist &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Create a \( \chi^2 \) variable from a histogram and this function.
virtual RooAbsReal *	createChi2 (RooDataHist &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Create a \( \chi^2 \) from a histogram and this function.
virtual RooAbsReal *	createChi2 (RooDataHist &data, const RooLinkedList &cmdList)
	Create a \( \chi^2 \) variable from a histogram and this function.
virtual RooAbsReal *	createChi2 (RooDataSet &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Create a \( \chi^2 \) from a series of x and y values stored in a dataset.
virtual RooAbsReal *	createChi2 (RooDataSet &data, const RooLinkedList &cmdList)
	See RooAbsReal::createChi2(RooDataSet&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&)
virtual RooAbsReal *	createChi2 (RooDataSet &data, const RooLinkedList &cmdList)
	Argument-list version of RooAbsPdf::createChi2()
virtual RooAbsReal *	createNLL (RooAbsData &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Construct representation of -log(L) of PDF with given dataset.
virtual RooAbsReal *	createNLL (RooAbsData &data, const RooLinkedList &cmdList)
	Construct representation of -log(L) of PDFwith given dataset.
virtual RooAbsPdf *	createProjection (const RooArgSet &iset)
	Return a p.d.f that represent a projection of this p.d.f integrated over given observables.
RooAbsReal *	createScanCdf (const RooArgSet &iset, const RooArgSet &nset, Int_t numScanBins, Int_t intOrder)
virtual Double_t	expectedEvents (const RooArgSet &nset) const
	Return expected number of events to be used in calculation of extended likelihood.
virtual Double_t	expectedEvents (const RooArgSet *nset) const
	Return expected number of events from this p.d.f for use in extended likelihood calculations.
virtual Double_t	extendedTerm (Double_t observedEvents, const RooArgSet *nset=0) const
	Return the extended likelihood term ( \( N_\mathrm{expect} - N_\mathrm{observed} \cdot \log(N_\mathrm{expect} \)) of this PDF for the given number of observed events.
virtual ExtendMode	extendMode () const
	Returns ability of PDF to provide extended likelihood terms.
virtual RooFitResult *	fitTo (RooAbsData &data, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Fit PDF to given dataset.
virtual RooFitResult *	fitTo (RooAbsData &data, const RooLinkedList &cmdList)
	Fit PDF to given dataset.
virtual RooAbsGenContext *	genContext (const RooArgSet &vars, const RooDataSet *prototype=0, const RooArgSet *auxProto=0, Bool_t verbose=kFALSE) const
	Interface function to create a generator context from a p.d.f.
RooDataSet *	generate (const RooArgSet &whatVars, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none())
	Generate a new dataset containing the specified variables with events sampled from our distribution.
RooDataSet *	generate (const RooArgSet &whatVars, const RooDataSet &prototype, Int_t nEvents=0, Bool_t verbose=kFALSE, Bool_t randProtoOrder=kFALSE, Bool_t resampleProto=kFALSE) const
	Generate a new dataset using a prototype dataset as a model, with values of the variables in whatVars sampled from our distribution.
RooDataSet *	generate (const RooArgSet &whatVars, Double_t nEvents=0, Bool_t verbose=kFALSE, Bool_t autoBinned=kTRUE, const char *binnedTag="", Bool_t expectedData=kFALSE, Bool_t extended=kFALSE) const
	Generate a new dataset containing the specified variables with events sampled from our distribution.
RooDataSet *	generate (const RooArgSet &whatVars, Int_t nEvents, const RooCmdArg &arg1, const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none())
	See RooAbsPdf::generate(const RooArgSet&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&)
RooDataSet *	generate (GenSpec &) const
	Generate according to GenSpec obtained from prepareMultiGen().
virtual RooDataHist *	generateBinned (const RooArgSet &whatVars, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none()) const
	Generate a new dataset containing the specified variables with events sampled from our distribution.
virtual RooDataHist *	generateBinned (const RooArgSet &whatVars, Double_t nEvents, Bool_t expectedData=kFALSE, Bool_t extended=kFALSE) const
	Generate a new dataset containing the specified variables with events sampled from our distribution.
virtual RooDataHist *	generateBinned (const RooArgSet &whatVars, Double_t nEvents, const RooCmdArg &arg1, const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none()) const
	As RooAbsPdf::generateBinned(const RooArgSet&, const RooCmdArg&,const RooCmdArg&, const RooCmdArg&,const RooCmdArg&, const RooCmdArg&,const RooCmdArg&)
virtual void	generateEvent (Int_t code)
	Interface for generation of an event using the algorithm corresponding to the specified code.
virtual RooDataSet *	generateSimGlobal (const RooArgSet &whatVars, Int_t nEvents)
	Special generator interface for generation of 'global observables' – for RooStats tools.
virtual RooArgSet *	getAllConstraints (const RooArgSet &observables, RooArgSet &constrainedParams, Bool_t stripDisconnected=kTRUE) const
	This helper function finds and collects all constraints terms of all component p.d.f.s and returns a RooArgSet with all those terms.
virtual RooArgSet *	getConstraints (const RooArgSet &, RooArgSet &, Bool_t) const
virtual Int_t	getGenerator (const RooArgSet &directVars, RooArgSet &generateVars, Bool_t staticInitOK=kTRUE) const
	Load generatedVars with the subset of directVars that we can generate events for, and return a code that specifies the generator algorithm we will use.
const RooNumGenConfig *	getGeneratorConfig () const
	Return the numeric MC generator configuration used for this object.
RooSpan< const double >	getLogProbabilities (RooBatchCompute::RunContext &evalData, const RooArgSet *normSet=nullptr) const
	Compute the log-likelihoods for all events in the requested batch.
virtual Double_t	getLogVal (const RooArgSet *set=0) const
	Return the log of the current value with given normalization An error message is printed if the argument of the log is negative.
RooSpan< const double >	getLogValBatch (std::size_t begin, std::size_t batchSize, const RooArgSet *normSet=nullptr) const
Double_t	getNorm (const RooArgSet &nset) const
	Get normalisation term needed to normalise the raw values returned by getVal().
virtual Double_t	getNorm (const RooArgSet *set=0) const
	Get normalisation term needed to normalise the raw values returned by getVal().
const RooAbsReal *	getNormIntegral (const RooArgSet &nset) const
virtual const RooAbsReal *	getNormObj (const RooArgSet *set, const RooArgSet *iset, const TNamed *rangeName=0) const
	Return pointer to RooAbsReal object that implements calculation of integral over observables iset in range rangeName, optionally taking the integrand normalized over observables nset.
RooSpan< const double >	getValues (RooBatchCompute::RunContext &evalData, const RooArgSet *normSet) const
	Compute batch of values for given input data, and normalise by integrating over the observables in normSet.
virtual Double_t	getValV (const RooArgSet *set=0) const
	Return current value, normalized by integrating over the observables in nset.
virtual void	initGenerator (Int_t code)
	Interface for one-time initialization to setup the generator for the specified code.
virtual Bool_t	isDirectGenSafe (const RooAbsArg &arg) const
	Check if given observable can be safely generated using the pdfs internal generator mechanism (if that existsP).
Bool_t	mustBeExtended () const
	If true PDF must provide extended likelihood term.
const char *	normRange () const
virtual RooPlot *	paramOn (RooPlot *frame, const RooAbsData *data, const char *label="", Int_t sigDigits=2, Option_t *options="NELU", Double_t xmin=0.50, Double_t xmax=0.99, Double_t ymax=0.95)
virtual RooPlot *	paramOn (RooPlot *frame, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Add a box with parameter values (and errors) to the specified frame.
virtual RooPlot *	plotOn (RooPlot *frame, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none(), const RooCmdArg &arg9=RooCmdArg::none(), const RooCmdArg &arg10=RooCmdArg::none()) const
	Helper calling plotOn(RooPlot*, RooLinkedList&) const.
virtual RooPlot *	plotOn (RooPlot *frame, RooLinkedList &cmdList) const
	Plot (project) PDF on specified frame.
GenSpec *	prepareMultiGen (const RooArgSet &whatVars, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none())
	Prepare GenSpec configuration object for efficient generation of multiple datasets from identical specification.
virtual void	printMultiline (std::ostream &os, Int_t contents, Bool_t verbose=kFALSE, TString indent="") const
	Print multi line detailed information of this RooAbsPdf.
virtual void	printValue (std::ostream &os) const
	Print value of p.d.f, also print normalization integral that was last used, if any.
virtual void	resetErrorCounters (Int_t resetValue=10)
	Reset error counter to given value, limiting the number of future error messages for this pdf to 'resetValue'.
virtual Bool_t	selfNormalized () const
	Shows if a PDF is self-normalized, which means that no attempt is made to add a normalization term.
void	setGeneratorConfig ()
	Remove the specialized numeric MC generator configuration associated with this object.
void	setGeneratorConfig (const RooNumGenConfig &config)
	Set the given configuration as default numeric MC generator configuration for this object.
void	setNormRange (const char *rangeName)
void	setNormRangeOverride (const char *rangeName)
void	setTraceCounter (Int_t value, Bool_t allNodes=kFALSE)
	Reset trace counter to given value, limiting the number of future trace messages for this pdf to 'value'.
RooNumGenConfig *	specialGeneratorConfig () const
	Returns the specialized integrator configuration for this RooAbsReal.
RooNumGenConfig *	specialGeneratorConfig (Bool_t createOnTheFly)
	Returns the specialized integrator configuration for this RooAbsReal.
Public Member Functions inherited from RooAbsReal
	RooAbsReal ()
	coverity[UNINIT_CTOR] Default constructor
	RooAbsReal (const char *name, const char *title, const char *unit="")
	Constructor with unit label.
	RooAbsReal (const char *name, const char *title, Double_t minVal, Double_t maxVal, const char *unit="")
	Constructor with plot range and unit label.
	RooAbsReal (const RooAbsReal &other, const char *name=0)
	Copy constructor.
virtual	~RooAbsReal ()
	Destructor.
virtual Double_t	analyticalIntegral (Int_t code, const char *rangeName=0) const
	Implements the actual analytical integral(s) advertised by getAnalyticalIntegral.
TF1 *	asTF (const RooArgList &obs, const RooArgList &pars=RooArgList(), const RooArgSet &nset=RooArgSet()) const
	Return a ROOT TF1,2,3 object bound to this RooAbsReal with given definition of observables and parameters.
virtual std::list< Double_t > *	binBoundaries (RooAbsRealLValue &obs, Double_t xlo, Double_t xhi) const
	Retrieve bin boundaries if this distribution is binned in obs.
RooAbsFunc *	bindVars (const RooArgSet &vars, const RooArgSet *nset=0, Bool_t clipInvalid=kFALSE) const
	Create an interface adaptor f(vars) that binds us to the specified variables (in arbitrary order).
RooAbsArg *	createFundamental (const char *newname=0) const
	Create a RooRealVar fundamental object with our properties.
TH1 *	createHistogram (const char *name, const RooAbsRealLValue &xvar, const RooCmdArg &arg1=RooCmdArg::none(), const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none()) const
	Create and fill a ROOT histogram TH1, TH2 or TH3 with the values of this function.
TH1 *	createHistogram (const char *name, const RooAbsRealLValue &xvar, RooLinkedList &argList) const
	Internal method implementing createHistogram.
TH1 *	createHistogram (const char *varNameList, Int_t xbins=0, Int_t ybins=0, Int_t zbins=0) const
	Create and fill a ROOT histogram TH1, TH2 or TH3 with the values of this function for the variables with given names.
RooAbsReal *	createIntegral (const RooArgSet &iset, const char *rangeName) const
	Create integral over observables in iset in range named rangeName.
RooAbsReal *	createIntegral (const RooArgSet &iset, const RooArgSet &nset, const char *rangeName=0) const
	Create integral over observables in iset in range named rangeName with integrand normalized over observables in nset.
RooAbsReal *	createIntegral (const RooArgSet &iset, const RooArgSet &nset, const RooNumIntConfig &cfg, const char *rangeName=0) const
	Create integral over observables in iset in range named rangeName with integrand normalized over observables in nset while using specified configuration for any numeric integration.
virtual RooAbsReal *	createIntegral (const RooArgSet &iset, const RooArgSet *nset=0, const RooNumIntConfig *cfg=0, const char *rangeName=0) const
	Create an object that represents the integral of the function over one or more observables listed in iset.
RooAbsReal *	createIntegral (const RooArgSet &iset, const RooCmdArg &arg1, const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none()) const
	Create an object that represents the integral of the function over one or more observables listed in iset.
RooAbsReal *	createIntegral (const RooArgSet &iset, const RooNumIntConfig &cfg, const char *rangeName=0) const
	Create integral over observables in iset in range named rangeName using specified configuration for any numeric integration.
RooAbsReal *	createIntRI (const RooArgSet &iset, const RooArgSet &nset=RooArgSet())
	Utility function for createRunningIntegral.
const RooAbsReal *	createPlotProjection (const RooArgSet &dependentVars, const RooArgSet *projectedVars, RooArgSet *&cloneSet, const char *rangeName=0, const RooArgSet *condObs=0) const
	Utility function for plotOn() that creates a projection of a function or p.d.f to be plotted on a RooPlot.
const RooAbsReal *	createPlotProjection (const RooArgSet &depVars, const RooArgSet &projVars) const
	Utility function for plotOn() that creates a projection of a function or p.d.f to be plotted on a RooPlot.
const RooAbsReal *	createPlotProjection (const RooArgSet &depVars, const RooArgSet &projVars, RooArgSet *&cloneSet) const
	Utility function for plotOn() that creates a projection of a function or p.d.f to be plotted on a RooPlot.
virtual RooAbsReal *	createProfile (const RooArgSet &paramsOfInterest)
	Create a RooProfileLL object that eliminates all nuisance parameters in the present function.
RooAbsReal *	createRunningIntegral (const RooArgSet &iset, const RooArgSet &nset=RooArgSet())
	Calls createRunningIntegral(const RooArgSet&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&, const RooCmdArg&)
RooAbsReal *	createRunningIntegral (const RooArgSet &iset, const RooCmdArg &arg1, const RooCmdArg &arg2=RooCmdArg::none(), const RooCmdArg &arg3=RooCmdArg::none(), const RooCmdArg &arg4=RooCmdArg::none(), const RooCmdArg &arg5=RooCmdArg::none(), const RooCmdArg &arg6=RooCmdArg::none(), const RooCmdArg &arg7=RooCmdArg::none(), const RooCmdArg &arg8=RooCmdArg::none())
	Create an object that represents the running integral of the function over one or more observables listed in iset, i.e.
RooAbsReal *	createScanRI (const RooArgSet &iset, const RooArgSet &nset, Int_t numScanBins, Int_t intOrder)
	Utility function for createRunningIntegral that construct an object implementing the numeric scanning technique for calculating the running integral.
virtual Double_t	defaultErrorLevel () const
RooDerivative *	derivative (RooRealVar &obs, const RooArgSet &normSet, Int_t order, Double_t eps=0.001)
	Return function representing first, second or third order derivative of this function.
RooDerivative *	derivative (RooRealVar &obs, Int_t order=1, Double_t eps=0.001)
	Return function representing first, second or third order derivative of this function.
virtual void	enableOffsetting (Bool_t)
RooDataHist *	fillDataHist (RooDataHist *hist, const RooArgSet *nset, Double_t scaleFactor, Bool_t correctForBinVolume=kFALSE, Bool_t showProgress=kFALSE) const
	Fill a RooDataHist with values sampled from this function at the bin centers.
TH1 *	fillHistogram (TH1 *hist, const RooArgList &plotVars, Double_t scaleFactor=1, const RooArgSet *projectedVars=0, Bool_t scaling=kTRUE, const RooArgSet *condObs=0, Bool_t setError=kTRUE) const
	Fill the ROOT histogram 'hist' with values sampled from this function at the bin centers.
Double_t	findRoot (RooRealVar &x, Double_t xmin, Double_t xmax, Double_t yval)
	Return value of x (in range xmin,xmax) at which function equals yval.
virtual void	fixAddCoefNormalization (const RooArgSet &addNormSet=RooArgSet(), Bool_t force=kTRUE)
	Fix the interpretation of the coefficient of any RooAddPdf component in the expression tree headed by this object to the given set of observables.
virtual void	fixAddCoefRange (const char *rangeName=0, Bool_t force=kTRUE)
	Fix the interpretation of the coefficient of any RooAddPdf component in the expression tree headed by this object to the given set of observables.
virtual Bool_t	forceAnalyticalInt (const RooAbsArg &) const
virtual void	forceNumInt (Bool_t flag=kTRUE)
RooFunctor *	functor (const RooArgList &obs, const RooArgList &pars=RooArgList(), const RooArgSet &nset=RooArgSet()) const
	Return a RooFunctor object bound to this RooAbsReal with given definition of observables and parameters.
virtual Int_t	getAnalyticalIntegral (RooArgSet &allVars, RooArgSet &analVars, const char *rangeName=0) const
	Interface function getAnalyticalIntergral advertises the analytical integrals that are supported.
virtual Int_t	getAnalyticalIntegralWN (RooArgSet &allVars, RooArgSet &analVars, const RooArgSet *normSet, const char *rangeName=0) const
	Variant of getAnalyticalIntegral that is also passed the normalization set that should be applied to the integrand of which the integral is requested.
Bool_t	getForceNumInt () const
RooNumIntConfig *	getIntegratorConfig ()
	Return the numeric integration configuration used for this object.
const RooNumIntConfig *	getIntegratorConfig () const
	Return the numeric integration configuration used for this object.
virtual Int_t	getMaxVal (const RooArgSet &vars) const
	Advertise capability to determine maximum value of function for given set of observables.
const char *	getPlotLabel () const
	Get the label associated with the variable.
Double_t	getPropagatedError (const RooFitResult &fr, const RooArgSet &nset=RooArgSet()) const
	Calculate error on self by linearly propagating errors on parameters using the covariance matrix from a fit result.
TString	getTitle (Bool_t appendUnit=kFALSE) const
	Return this variable's title string.
const Text_t *	getUnit () const
Double_t	getVal (const RooArgSet &normalisationSet) const
	Like getVal(const RooArgSet*), but always requires an argument for normalisation.
Double_t	getVal (const RooArgSet *normalisationSet=nullptr) const
	Evaluate object.
virtual RooSpan< const double >	getValBatch (std::size_t, std::size_t, const RooArgSet *=nullptr)=delete
RooMultiGenFunction *	iGenFunction (const RooArgSet &observables, const RooArgSet &nset=RooArgSet())
RooGenFunction *	iGenFunction (RooRealVar &x, const RooArgSet &nset=RooArgSet())
virtual Bool_t	isBinnedDistribution (const RooArgSet &) const
	Tests if the distribution is binned. Unless overridden by derived classes, this always returns false.
virtual Bool_t	isIdentical (const RooAbsArg &other, Bool_t assumeSameType=kFALSE) const
virtual Bool_t	isOffsetting () const
void	logEvalError (const char *message, const char *serverValueString=0) const
	Log evaluation error message.
virtual Double_t	maxVal (Int_t code) const
	Return maximum value for set of observables identified by code assigned in getMaxVal.
RooAbsMoment *	mean (RooRealVar &obs)
RooAbsMoment *	mean (RooRealVar &obs, const RooArgSet &nset)
virtual Int_t	minTrialSamples (const RooArgSet &) const
RooAbsMoment *	moment (RooRealVar &obs, const RooArgSet &normObs, Int_t order, Bool_t central, Bool_t takeRoot, Bool_t intNormObs)
	Return function representing moment of p.d.f (normalized w.r.t given observables) of given order.
RooAbsMoment *	moment (RooRealVar &obs, Int_t order, Bool_t central, Bool_t takeRoot)
	Return function representing moment of function of given order.
virtual Double_t	offset () const
RooAbsReal &	operator= (const RooAbsReal &other)
	Assign values, name and configs from another RooAbsReal.
virtual Bool_t	operator== (const RooAbsArg &other) const
	Equality operator when comparing to another RooAbsArg.
Bool_t	operator== (Double_t value) const
	Equality operator comparing to a Double_t.
virtual std::list< Double_t > *	plotSamplingHint (RooAbsRealLValue &obs, Double_t xlo, Double_t xhi) const
	Interface for returning an optional hint for initial sampling points when constructing a curve projected on observable obs.
virtual RooPlot *	plotSliceOn (RooPlot *frame, const RooArgSet &sliceSet, Option_t *drawOptions="L", Double_t scaleFactor=1.0, ScaleType stype=Relative, const RooAbsData *projData=0) const
virtual void	preferredObservableScanOrder (const RooArgSet &obs, RooArgSet &orderedObs) const
	Interface method for function objects to indicate their preferred order of observables for scanning their values into a (multi-dimensional) histogram or RooDataSet.
virtual Bool_t	readFromStream (std::istream &is, Bool_t compact, Bool_t verbose=kFALSE)
	Read object contents from stream (dummy for now)
virtual Bool_t	setData (RooAbsData &, Bool_t=kTRUE)
void	setIntegratorConfig ()
	Remove the specialized numeric integration configuration associated with this object.
void	setIntegratorConfig (const RooNumIntConfig &config)
	Set the given integrator configuration as default numeric integration configuration for this object.
void	setParameterizeIntegral (const RooArgSet &paramVars)
void	setPlotLabel (const char *label)
	Set the label associated with this variable.
void	setUnit (const char *unit)
RooAbsMoment *	sigma (RooRealVar &obs)
RooAbsMoment *	sigma (RooRealVar &obs, const RooArgSet &nset)
RooNumIntConfig *	specialIntegratorConfig () const
	Returns the specialized integrator configuration for this RooAbsReal.
RooNumIntConfig *	specialIntegratorConfig (Bool_t createOnTheFly)
	Returns the specialized integrator configuration for this RooAbsReal.
virtual void	writeToStream (std::ostream &os, Bool_t compact) const
	Write object contents to stream (dummy for now)
Public Member Functions inherited from RooAbsArg
	RooAbsArg ()
	Default constructor.
	RooAbsArg (const char *name, const char *title)
	Create an object with the specified name and descriptive title.
	RooAbsArg (const RooAbsArg &other, const char *name=0)
	Copy constructor transfers all boolean and string properties of the original object.
virtual	~RooAbsArg ()
	Destructor.
Bool_t	addOwnedComponents (const RooArgSet &comps)
	Take ownership of the contents of 'comps'.
void	attachDataSet (const RooAbsData &set)
	Replace server nodes with names matching the dataset variable names with those data set variables, making this PDF directly dependent on the dataset.
void	attachDataStore (const RooAbsDataStore &set)
	Replace server nodes with names matching the dataset variable names with those data set variables, making this PDF directly dependent on the dataset.
const std::set< std::string > &	attributes () const
virtual Bool_t	checkObservables (const RooArgSet *nset) const
	Overloadable function in which derived classes can implement consistency checks of the variables.
virtual TObject *	Clone (const char *newname=0) const
	Make a clone of an object using the Streamer facility.
virtual TObject *	clone (const char *newname=0) const =0
virtual RooAbsArg *	cloneTree (const char *newname=0) const
	Clone tree expression of objects.
Int_t	Compare (const TObject *other) const
	Utility function used by TCollection::Sort to compare contained TObjects We implement comparison by name, resulting in alphabetical sorting by object name.
virtual Int_t	defaultPrintContents (Option_t *opt) const
	Define default contents to print.
Bool_t	dependsOn (const RooAbsArg &server, const RooAbsArg *ignoreArg=0, Bool_t valueOnly=kFALSE) const
	Test whether we depend on (ie, are served by) the specified object.
Bool_t	dependsOn (const RooAbsCollection &serverList, const RooAbsArg *ignoreArg=0, Bool_t valueOnly=kFALSE) const
	Test whether we depend on (ie, are served by) any object in the specified collection.
Bool_t	dependsOnValue (const RooAbsArg &server, const RooAbsArg *ignoreArg=0) const
	Check whether this object depends on values served from the object passed as server.
Bool_t	dependsOnValue (const RooAbsCollection &serverList, const RooAbsArg *ignoreArg=0) const
	Check whether this object depends on values from an element in the serverList.
Bool_t	getAttribute (const Text_t *name) const
	Check if a named attribute is set. By default, all attributes are unset.
RooLinkedList	getCloningAncestors () const
	Return ancestors in cloning chain of this RooAbsArg.
RooArgSet *	getComponents () const
	Create a RooArgSet with all components (branch nodes) of the expression tree headed by this object.
RooArgSet *	getObservables (const RooAbsData &data) const
	Return the observables of this pdf given the observables defined by data.
RooArgSet *	getObservables (const RooAbsData *data) const
	Create a list of leaf nodes in the arg tree starting with ourself as top node that match any of the names of the variable list of the supplied data set (the dependents).
RooArgSet *	getObservables (const RooArgSet &set, Bool_t valueOnly=kTRUE) const
	Given a set of possible observables, return the observables that this PDF depends on.
RooArgSet *	getObservables (const RooArgSet *depList, bool valueOnly=true) const
	Create a list of leaf nodes in the arg tree starting with ourself as top node that match any of the names the args in the supplied argset.
bool	getObservables (const RooArgSet *depList, RooArgSet &outputSet, bool valueOnly=true) const
	Create a list of leaf nodes in the arg tree starting with ourself as top node that match any of the names the args in the supplied argset.
RooArgSet *	getParameters (const RooAbsData &data, bool stripDisconnected=true) const
	Return the parameters of this p.d.f when used in conjuction with dataset 'data'.
RooArgSet *	getParameters (const RooAbsData *data, bool stripDisconnected=true) const
	Create a list of leaf nodes in the arg tree starting with ourself as top node that don't match any of the names of the variable list of the supplied data set (the dependents).
RooArgSet *	getParameters (const RooArgSet &observables, bool stripDisconnected=true) const
	Return the parameters of the p.d.f given the provided set of observables.
RooArgSet *	getParameters (const RooArgSet *observables, bool stripDisconnected=true) const
	Create a list of leaf nodes in the arg tree starting with ourself as top node that don't match any of the names the args in the supplied argset.
virtual bool	getParameters (const RooArgSet *observables, RooArgSet &outputSet, bool stripDisconnected=true) const
	Fills a list with leaf nodes in the arg tree starting with ourself as top node that don't match any of the names the args in the supplied argset.
RooAbsProxy *	getProxy (Int_t index) const
	Return the nth proxy from the proxy list.
const Text_t *	getStringAttribute (const Text_t *key) const
	Get string attribute mapped under key 'key'.
Bool_t	getTransientAttribute (const Text_t *name) const
	Check if a named attribute is set.
RooArgSet *	getVariables (Bool_t stripDisconnected=kTRUE) const
	Return RooArgSet with all variables (tree leaf nodes of expresssion tree)
void	graphVizTree (const char *fileName, const char *delimiter="\n", bool useTitle=false, bool useLatex=false)
	Create a GraphViz .dot file visualizing the expression tree headed by this RooAbsArg object.
void	graphVizTree (std::ostream &os, const char *delimiter="\n", bool useTitle=false, bool useLatex=false)
	Write the GraphViz representation of the expression tree headed by this RooAbsArg object to the given ostream.
Bool_t	hasClients () const
virtual Bool_t	hasRange (const char *) const
virtual Bool_t	importWorkspaceHook (RooWorkspace &ws)
virtual Bool_t	inRange (const char *) const
Bool_t	isCloneOf (const RooAbsArg &other) const
	Check if this object was created as a clone of 'other'.
Bool_t	isConstant () const
	Check if the "Constant" attribute is set.
virtual Bool_t	isDerived () const
	Does value or shape of this arg depend on any other arg?
virtual Bool_t	IsSortable () const
Bool_t	localNoDirtyInhibit () const
const TNamed *	namePtr () const
Int_t	numProxies () const
	Return the number of registered proxies.
Bool_t	observableOverlaps (const RooAbsData *dset, const RooAbsArg &testArg) const
	Test if any of the dependents of the arg tree (as determined by getObservables) overlaps with those of the testArg.
Bool_t	observableOverlaps (const RooArgSet *depList, const RooAbsArg &testArg) const
	Test if any of the dependents of the arg tree (as determined by getObservables) overlaps with those of the testArg.
RooAbsArg &	operator= (const RooAbsArg &other)
	Assign all boolean and string properties of the original object.
Bool_t	overlaps (const RooAbsArg &testArg, Bool_t valueOnly=kFALSE) const
	Test if any of the nodes of tree are shared with that of the given tree.
const RooArgSet *	ownedComponents () const
virtual void	Print (Option_t *options=0) const
	Print the object to the defaultPrintStream().
virtual void	printAddress (std::ostream &os) const
	Print class name of object.
virtual void	printArgs (std::ostream &os) const
	Print object arguments, ie its proxies.
virtual void	printClassName (std::ostream &os) const
	Print object class name.
void	printCompactTree (const char *indent="", const char *fileName=0, const char *namePat=0, RooAbsArg *client=0)
	Print tree structure of expression tree on stdout, or to file if filename is specified.
void	printCompactTree (std::ostream &os, const char *indent="", const char *namePat=0, RooAbsArg *client=0)
	Print tree structure of expression tree on given ostream.
virtual void	printCompactTreeHook (std::ostream &os, const char *ind="")
	Hook function interface for object to insert additional information when printed in the context of a tree structure.
void	printComponentTree (const char *indent="", const char *namePat=0, Int_t nLevel=999)
	Print tree structure of expression tree on given ostream, only branch nodes are printed.
void	printDirty (Bool_t depth=kTRUE) const
	Print information about current value dirty state information.
virtual void	printMetaArgs (std::ostream &) const
virtual void	printName (std::ostream &os) const
	Print object name.
virtual void	printTitle (std::ostream &os) const
	Print object title.
virtual void	printTree (std::ostream &os, TString indent="") const
	Print object tree structure.
Bool_t	recursiveCheckObservables (const RooArgSet *nset) const
	Recursively call checkObservables on all nodes in the expression tree.
void	setAttribute (const Text_t *name, Bool_t value=kTRUE)
	Set (default) or clear a named boolean attribute of this object.
void	setLocalNoDirtyInhibit (Bool_t flag) const
void	SetName (const char *name)
	Set the name of the TNamed.
void	SetNameTitle (const char *name, const char *title)
	Set all the TNamed parameters (name and title).
void	setProhibitServerRedirect (Bool_t flag)
void	setStringAttribute (const Text_t *key, const Text_t *value)
	Associate string 'value' to this object under key 'key'.
void	setTransientAttribute (const Text_t *name, Bool_t value=kTRUE)
	Set (default) or clear a named boolean attribute of this object.
void	setWorkspace (RooWorkspace &ws)
const std::map< std::string, std::string > &	stringAttributes () const
const std::set< std::string > &	transientAttributes () const
TIterator *	clientIterator () const
	Retrieve a client iterator.
TIterator *	valueClientIterator () const
TIterator *	shapeClientIterator () const
TIterator *	serverIterator () const
RooFIter	valueClientMIterator () const
RooFIter	shapeClientMIterator () const
RooFIter	serverMIterator () const
RooArgSet *	getDependents (const RooArgSet &set) const
RooArgSet *	getDependents (const RooAbsData *set) const
RooArgSet *	getDependents (const RooArgSet *depList) const
Bool_t	dependentOverlaps (const RooAbsData *dset, const RooAbsArg &testArg) const
Bool_t	dependentOverlaps (const RooArgSet *depList, const RooAbsArg &testArg) const
Bool_t	checkDependents (const RooArgSet *nset) const
Bool_t	recursiveCheckDependents (const RooArgSet *nset) const
const RefCountList_t &	clients () const
	List of all clients of this object.
const RefCountList_t &	valueClients () const
	List of all value clients of this object. Value clients receive value updates.
const RefCountList_t &	shapeClients () const
	List of all shape clients of this object.
const RefCountList_t &	servers () const
	List of all servers of this object.
RooAbsArg *	findServer (const char *name) const
	Return server of this with name name. Returns nullptr if not found.
RooAbsArg *	findServer (const RooAbsArg &arg) const
	Return server of this that has the same name as arg. Returns nullptr if not found.
RooAbsArg *	findServer (Int_t index) const
	Return i-th server from server list.
Bool_t	isValueServer (const RooAbsArg &arg) const
	Check if this is serving values to arg.
Bool_t	isValueServer (const char *name) const
	Check if this is serving values to an object with name name.
Bool_t	isShapeServer (const RooAbsArg &arg) const
	Check if this is serving shape to arg.
Bool_t	isShapeServer (const char *name) const
	Check if this is serving shape to an object with name name.
void	leafNodeServerList (RooAbsCollection *list, const RooAbsArg *arg=0, Bool_t recurseNonDerived=kFALSE) const
	Fill supplied list with all leaf nodes of the arg tree, starting with ourself as top node.
void	branchNodeServerList (RooAbsCollection *list, const RooAbsArg *arg=0, Bool_t recurseNonDerived=kFALSE) const
	Fill supplied list with all branch nodes of the arg tree starting with ourself as top node.
void	treeNodeServerList (RooAbsCollection *list, const RooAbsArg *arg=0, Bool_t doBranch=kTRUE, Bool_t doLeaf=kTRUE, Bool_t valueOnly=kFALSE, Bool_t recurseNonDerived=kFALSE) const
	Fill supplied list with nodes of the arg tree, following all server links, starting with ourself as top node.
virtual Bool_t	isFundamental () const
	Is this object a fundamental type that can be added to a dataset? Fundamental-type subclasses override this method to return kTRUE.
virtual Bool_t	isLValue () const
	Is this argument an l-value, i.e., can it appear on the left-hand side of an assignment expression? LValues are also special since they can potentially be analytically integrated and generated.
Bool_t	redirectServers (const RooAbsCollection &newServerList, Bool_t mustReplaceAll=kFALSE, Bool_t nameChange=kFALSE, Bool_t isRecursionStep=kFALSE)
	Replace all direct servers of this object with the new servers in newServerList.
Bool_t	recursiveRedirectServers (const RooAbsCollection &newServerList, Bool_t mustReplaceAll=kFALSE, Bool_t nameChange=kFALSE, Bool_t recurseInNewSet=kTRUE)
	Recursively replace all servers with the new servers in newSet.
virtual void	serverNameChangeHook (const RooAbsArg *, const RooAbsArg *)
void	addServer (RooAbsArg &server, Bool_t valueProp=kTRUE, Bool_t shapeProp=kFALSE, std::size_t refCount=1)
	Register another RooAbsArg as a server to us, ie, declare that we depend on it.
void	addServerList (RooAbsCollection &serverList, Bool_t valueProp=kTRUE, Bool_t shapeProp=kFALSE)
	Register a list of RooAbsArg as servers to us by calling addServer() for each arg in the list.
void	replaceServer (RooAbsArg &oldServer, RooAbsArg &newServer, Bool_t valueProp, Bool_t shapeProp)
	Replace 'oldServer' with 'newServer'.
void	changeServer (RooAbsArg &server, Bool_t valueProp, Bool_t shapeProp)
	Change dirty flag propagation mask for specified server.
void	removeServer (RooAbsArg &server, Bool_t force=kFALSE)
	Unregister another RooAbsArg as a server to us, ie, declare that we no longer depend on its value and shape.
RooAbsArg *	findNewServer (const RooAbsCollection &newSet, Bool_t nameChange) const
	Find the new server in the specified set that matches the old server.
virtual void	optimizeCacheMode (const RooArgSet &observables)
	Activate cache mode optimization with given definition of observables.
virtual void	optimizeCacheMode (const RooArgSet &observables, RooArgSet &optNodes, RooLinkedList &processedNodes)
	Activate cache mode optimization with given definition of observables.
Bool_t	findConstantNodes (const RooArgSet &observables, RooArgSet &cacheList)
	Find branch nodes with all-constant parameters, and add them to the list of nodes that can be cached with a dataset in a test statistic calculation.
Bool_t	findConstantNodes (const RooArgSet &observables, RooArgSet &cacheList, RooLinkedList &processedNodes)
	Find branch nodes with all-constant parameters, and add them to the list of nodes that can be cached with a dataset in a test statistic calculation.
virtual void	constOptimizeTestStatistic (ConstOpCode opcode, Bool_t doAlsoTrackingOpt=kTRUE)
	Interface function signaling a request to perform constant term optimization.
virtual CacheMode	canNodeBeCached () const
virtual void	setCacheAndTrackHints (RooArgSet &)
Bool_t	isShapeDirty () const
Bool_t	isValueDirty () const
Bool_t	isValueDirtyAndClear () const
Bool_t	isValueOrShapeDirtyAndClear () const
void	registerCache (RooAbsCache &cache)
	Register RooAbsCache with this object.
void	unRegisterCache (RooAbsCache &cache)
	Unregister a RooAbsCache. Called from the RooAbsCache destructor.
Int_t	numCaches () const
	Return number of registered caches.
RooAbsCache *	getCache (Int_t index) const
	Return registered cache object by index.
OperMode	operMode () const
	Query the operation mode of this node.
void	setOperMode (OperMode mode, Bool_t recurseADirty=kTRUE)
	Set the operation mode of this node.
void	setValueDirty ()
	Mark the element dirty. This forces a re-evaluation when a value is requested.
void	setShapeDirty ()
	Notify that a shape-like property (e.g. binning) has changed.
const char *	aggregateCacheUniqueSuffix () const
virtual const char *	cacheUniqueSuffix () const
void	wireAllCaches ()
RooExpensiveObjectCache &	expensiveObjectCache () const
virtual void	setExpensiveObjectCache (RooExpensiveObjectCache &cache)
Public Member Functions inherited from TNamed
	TNamed ()
	TNamed (const char *name, const char *title)
	TNamed (const TNamed &named)
	TNamed copy ctor.
	TNamed (const TString &name, const TString &title)
virtual	~TNamed ()
	TNamed destructor.
virtual void	Clear (Option_t *option="")
	Set name and title to empty strings ("").
virtual void	Copy (TObject &named) const
	Copy this to obj.
virtual void	FillBuffer (char *&buffer)
	Encode TNamed into output buffer.
virtual const char *	GetName () const
	Returns name of object.
virtual const char *	GetTitle () const
	Returns title of object.
virtual ULong_t	Hash () const
	Return hash value for this object.
virtual void	ls (Option_t *option="") const
	List TNamed name and title.
TNamed &	operator= (const TNamed &rhs)
	TNamed assignment operator.
virtual void	SetTitle (const char *title="")
	Set the title of the TNamed.
virtual Int_t	Sizeof () const
	Return size of the TNamed part of the TObject.
Public Member Functions inherited from TObject
	TObject ()
	TObject constructor.
	TObject (const TObject &object)
	TObject copy ctor.
virtual	~TObject ()
	TObject destructor.
void	AbstractMethod (const char *method) const
	Use this method to implement an "abstract" method that you don't want to leave purely abstract.
virtual void	AppendPad (Option_t *option="")
	Append graphics object to current pad.
virtual void	Browse (TBrowser *b)
	Browse object. May be overridden for another default action.
ULong_t	CheckedHash ()
	Check and record whether this class has a consistent Hash/RecursiveRemove setup (*) and then return the regular Hash value for this object.
virtual const char *	ClassName () const
	Returns name of class to which the object belongs.
virtual void	Delete (Option_t *option="")
	Delete this object.
virtual Int_t	DistancetoPrimitive (Int_t px, Int_t py)
	Computes distance from point (px,py) to the object.
virtual void	Draw (Option_t *option="")
	Default Draw method for all objects.
virtual void	DrawClass () const
	Draw class inheritance tree of the class to which this object belongs.
virtual TObject *	DrawClone (Option_t *option="") const
	Draw a clone of this object in the current selected pad for instance with: gROOT->SetSelectedPad(gPad).
virtual void	Dump () const
	Dump contents of object on stdout.
virtual void	Error (const char *method, const char *msgfmt,...) const
	Issue error message.
virtual void	Execute (const char *method, const char *params, Int_t *error=0)
	Execute method on this object with the given parameter string, e.g.
virtual void	Execute (TMethod *method, TObjArray *params, Int_t *error=0)
	Execute method on this object with parameters stored in the TObjArray.
virtual void	ExecuteEvent (Int_t event, Int_t px, Int_t py)
	Execute action corresponding to an event at (px,py).
virtual void	Fatal (const char *method, const char *msgfmt,...) const
	Issue fatal error message.
virtual TObject *	FindObject (const char *name) const
	Must be redefined in derived classes.
virtual TObject *	FindObject (const TObject *obj) const
	Must be redefined in derived classes.
virtual Option_t *	GetDrawOption () const
	Get option used by the graphics system to draw this object.
virtual const char *	GetIconName () const
	Returns mime type name of object.
virtual char *	GetObjectInfo (Int_t px, Int_t py) const
	Returns string containing info about the object at position (px,py).
virtual Option_t *	GetOption () const
virtual UInt_t	GetUniqueID () const
	Return the unique object id.
virtual Bool_t	HandleTimer (TTimer *timer)
	Execute action in response of a timer timing out.
Bool_t	HasInconsistentHash () const
	Return true is the type of this object is known to have an inconsistent setup for Hash and RecursiveRemove (i.e.
virtual void	Info (const char *method, const char *msgfmt,...) const
	Issue info message.
virtual Bool_t	InheritsFrom (const char *classname) const
	Returns kTRUE if object inherits from class "classname".
virtual Bool_t	InheritsFrom (const TClass *cl) const
	Returns kTRUE if object inherits from TClass cl.
virtual void	Inspect () const
	Dump contents of this object in a graphics canvas.
void	InvertBit (UInt_t f)
virtual Bool_t	IsEqual (const TObject *obj) const
	Default equal comparison (objects are equal if they have the same address in memory).
virtual Bool_t	IsFolder () const
	Returns kTRUE in case object contains browsable objects (like containers or lists of other objects).
R__ALWAYS_INLINE Bool_t	IsOnHeap () const
R__ALWAYS_INLINE Bool_t	IsZombie () const
void	MayNotUse (const char *method) const
	Use this method to signal that a method (defined in a base class) may not be called in a derived class (in principle against good design since a child class should not provide less functionality than its parent, however, sometimes it is necessary).
virtual Bool_t	Notify ()
	This method must be overridden to handle object notification.
void	Obsolete (const char *method, const char *asOfVers, const char *removedFromVers) const
	Use this method to declare a method obsolete.
void	operator delete (void *ptr)
	Operator delete.
void	operator delete[] (void *ptr)
	Operator delete [].
void *	operator new (size_t sz)
void *	operator new (size_t sz, void *vp)
void *	operator new[] (size_t sz)
void *	operator new[] (size_t sz, void *vp)
TObject &	operator= (const TObject &rhs)
	TObject assignment operator.
virtual void	Paint (Option_t *option="")
	This method must be overridden if a class wants to paint itself.
virtual void	Pop ()
	Pop on object drawn in a pad to the top of the display list.
virtual Int_t	Read (const char *name)
	Read contents of object with specified name from the current directory.
virtual void	RecursiveRemove (TObject *obj)
	Recursively remove this object from a list.
void	ResetBit (UInt_t f)
virtual void	SaveAs (const char *filename="", Option_t *option="") const
	Save this object in the file specified by filename.
virtual void	SavePrimitive (std::ostream &out, Option_t *option="")
	Save a primitive as a C++ statement(s) on output stream "out".
void	SetBit (UInt_t f)
void	SetBit (UInt_t f, Bool_t set)
	Set or unset the user status bits as specified in f.
virtual void	SetDrawOption (Option_t *option="")
	Set drawing option for object.
virtual void	SetUniqueID (UInt_t uid)
	Set the unique object id.
virtual void	SysError (const char *method, const char *msgfmt,...) const
	Issue system error message.
R__ALWAYS_INLINE Bool_t	TestBit (UInt_t f) const
Int_t	TestBits (UInt_t f) const
virtual void	UseCurrentStyle ()
	Set current style settings in this object This function is called when either TCanvas::UseCurrentStyle or TROOT::ForceStyle have been invoked.
virtual void	Warning (const char *method, const char *msgfmt,...) const
	Issue warning message.
virtual Int_t	Write (const char *name=0, Int_t option=0, Int_t bufsize=0)
	Write this object to the current directory.
virtual Int_t	Write (const char *name=0, Int_t option=0, Int_t bufsize=0) const
	Write this object to the current directory.
Public Member Functions inherited from RooPrintable
	RooPrintable ()
virtual	~RooPrintable ()
virtual StyleOption	defaultPrintStyle (Option_t *opt) const
virtual void	printExtras (std::ostream &os) const
	Interface to print extras of object.
virtual void	printStream (std::ostream &os, Int_t contents, StyleOption style, TString indent="") const
	Print description of object on ostream, printing contents set by contents integer, which is interpreted as an OR of 'enum ContentsOptions' values and in the style given by 'enum StyleOption'.

Static Public Member Functions
static RooNumGenConfig *	defaultGeneratorConfig ()
	Returns the default numeric MC generator configuration for all RooAbsReals.
static int	verboseEval ()
	Return global level of verbosity for p.d.f. evaluations.
static void	verboseEval (Int_t stat)
	Change global level of verbosity for p.d.f. evaluations.
Static Public Member Functions inherited from RooAbsReal
static void	clearEvalErrorLog ()
	Clear the stack of evaluation error messages.
static RooNumIntConfig *	defaultIntegratorConfig ()
	Returns the default numeric integration configuration for all RooAbsReals.
static EvalErrorIter	evalErrorIter ()
static ErrorLoggingMode	evalErrorLoggingMode ()
	Return current evaluation error logging mode.
static Bool_t	hideOffset ()
static void	logEvalError (const RooAbsReal *originator, const char *origName, const char *message, const char *serverValueString=0)
	Interface to insert remote error logging messages received by RooRealMPFE into current error loggin stream.
static Int_t	numEvalErrorItems ()
static Int_t	numEvalErrors ()
	Return the number of logged evaluation errors since the last clearing.
static void	printEvalErrors (std::ostream &os=std::cout, Int_t maxPerNode=10000000)
	Print all outstanding logged evaluation error on the given ostream.
static void	setCacheCheck (Bool_t flag)
static void	setEvalErrorLoggingMode (ErrorLoggingMode m)
	Set evaluation error logging mode.
static void	setHideOffset (Bool_t flag)
Static Public Member Functions inherited from RooAbsArg
static void	setDirtyInhibit (Bool_t flag)
	Control global dirty inhibit mode.
static void	verboseDirty (Bool_t flag)
	Activate verbose messaging related to dirty flag propagation.
Static Public Member Functions inherited from TObject
static Long_t	GetDtorOnly ()
	Return destructor only flag.
static Bool_t	GetObjectStat ()
	Get status of object stat flag.
static void	SetDtorOnly (void *obj)
	Set destructor only flag.
static void	SetObjectStat (Bool_t stat)
	Turn on/off tracking of objects in the TObjectTable.
Static Public Member Functions inherited from RooPrintable
static std::ostream &	defaultPrintStream (std::ostream *os=0)
	Return a reference to the current default stream to use in Print().
static void	nameFieldLength (Int_t newLen)
	Set length of field reserved from printing name of RooAbsArgs in multi-line collection printing to given amount.

Protected Member Functions
	RooAbsPdf (const RooAbsPdf &other, const char *name=0)
	Copy constructor.
virtual RooPlot *	plotOn (RooPlot *frame, PlotOpt o) const
	Plot oneself on 'frame'.
Int_t *	randomizeProtoOrder (Int_t nProto, Int_t nGen, Bool_t resample=kFALSE) const
	Return lookup table with randomized access order for prototype events, given nProto prototype data events and nGen events that will actually be accessed.
virtual Bool_t	redirectServersHook (const RooAbsCollection &, Bool_t, Bool_t, Bool_t)
	Function that is called at the end of redirectServers().
virtual Bool_t	syncNormalization (const RooArgSet *dset, Bool_t adjustProxies=kTRUE) const
	Verify that the normalization integral cached with this PDF is valid for given set of normalization observables.
Protected Member Functions inherited from RooAbsReal
virtual void	attachToTree (TTree &t, Int_t bufSize=32000)
	Attach object to a branch of given TTree.
virtual void	attachToVStore (RooVectorDataStore &vstore)
RooFitResult *	chi2FitDriver (RooAbsReal &fcn, RooLinkedList &cmdList)
	Internal driver function for chi2 fits.
virtual void	copyCache (const RooAbsArg *source, Bool_t valueOnly=kFALSE, Bool_t setValDirty=kTRUE)
	Copy the cached value of another RooAbsArg to our cache.
RooAbsReal *	createIntObj (const RooArgSet &iset, const RooArgSet *nset, const RooNumIntConfig *cfg, const char *rangeName) const
	Internal utility function for createIntegral() that creates the actual integral object.
virtual Double_t	evaluate () const =0
	Evaluate this PDF / function / constant. Needs to be overridden by all derived classes.
virtual RooSpan< double >	evaluateBatch (std::size_t, std::size_t)=delete
virtual RooSpan< double >	evaluateSpan (RooBatchCompute::RunContext &evalData, const RooArgSet *normSet) const
	Evaluate this object for a batch/span of data points.
virtual void	fillTreeBranch (TTree &t)
	Fill the tree branch that associated with this object with its current value.
void	findInnerMostIntegration (const RooArgSet &allObs, RooArgSet &innerObs, const char *rangeName) const
	Utility function for createIntObj() that aids in the construct of recursive integrals over functions with multiple observables with parameterized ranges.
TString	integralNameSuffix (const RooArgSet &iset, const RooArgSet *nset=0, const char *rangeName=0, Bool_t omitEmpty=kFALSE) const
	Construct string with unique suffix name to give to integral object that encodes integrated observables, normalization observables and the integration range name.
Bool_t	isSelectedComp () const
	If true, the current pdf is a selected component (for use in plotting)
virtual Bool_t	isValid () const
	Check if current value is valid.
virtual Bool_t	isValidReal (Double_t value, Bool_t printError=kFALSE) const
	Interface function to check if given value is a valid value for this object.
void	makeProjectionSet (const RooAbsArg *plotVar, const RooArgSet *allVars, RooArgSet &projectedVars, Bool_t silent) const
	Utility function for plotOn() that constructs the set of observables to project when plotting ourselves as function of 'plotVar'.
Bool_t	matchArgs (const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgProxy &a) const
	Utility function for use in getAnalyticalIntegral().
Bool_t	matchArgs (const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgProxy &a, const RooArgProxy &b) const
	Utility function for use in getAnalyticalIntegral().
Bool_t	matchArgs (const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgProxy &a, const RooArgProxy &b, const RooArgProxy &c) const
	Utility function for use in getAnalyticalIntegral().
Bool_t	matchArgs (const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgProxy &a, const RooArgProxy &b, const RooArgProxy &c, const RooArgProxy &d) const
	Utility function for use in getAnalyticalIntegral().
Bool_t	matchArgs (const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgSet &set) const
	Utility function for use in getAnalyticalIntegral().
virtual RooPlot *	plotAsymOn (RooPlot *frame, const RooAbsCategoryLValue &asymCat, PlotOpt o) const
void	plotOnCompSelect (RooArgSet *selNodes) const
	Helper function for plotting of composite p.d.fs.
RooPlot *	plotOnWithErrorBand (RooPlot *frame, const RooFitResult &fr, Double_t Z, const RooArgSet *params, const RooLinkedList &argList, Bool_t method1) const
	Plot function or PDF on frame with support for visualization of the uncertainty encoded in the given fit result fr.
Bool_t	plotSanityChecks (RooPlot *frame) const
	Utility function for plotOn(), perform general sanity check on frame to ensure safe plotting operations.
void	selectComp (Bool_t flag)
virtual void	selectNormalization (const RooArgSet *depSet=0, Bool_t force=kFALSE)
	Interface function to force use of a given set of observables to interpret function value.
virtual void	selectNormalizationRange (const char *rangeName=0, Bool_t force=kFALSE)
	Interface function to force use of a given normalization range to interpret function value.
virtual void	setTreeBranchStatus (TTree &t, Bool_t active)
	(De)Activate associated tree branch
virtual void	syncCache (const RooArgSet *set=0)
Double_t	traceEval (const RooArgSet *set) const
	Calculate current value of object, with error tracing wrapper.
Protected Member Functions inherited from RooAbsArg
void	attachToStore (RooAbsDataStore &store)
	Attach this argument to the data store such that it reads data from there.
TString	cleanBranchName () const
	Construct a mangled name from the actual name that is free of any math symbols that might be interpreted by TTree.
void	clearShapeDirty () const
void	clearValueAndShapeDirty () const
void	clearValueDirty () const
virtual void	getObservablesHook (const RooArgSet *, RooArgSet *) const
virtual void	getParametersHook (const RooArgSet *, RooArgSet *, Bool_t) const
void	graphVizAddConnections (std::set< std::pair< RooAbsArg *, RooAbsArg * > > &)
	Utility function that inserts all point-to-point client-server connections between any two RooAbsArgs in the expression tree headed by this object in the linkSet argument.
Bool_t	inhibitDirty () const
	Delete watch flag.
virtual void	ioStreamerPass2 ()
	Method called by workspace container to finalize schema evolution issues that cannot be handled in a single ioStreamer pass.
virtual void	operModeHook ()
virtual void	optimizeDirtyHook (const RooArgSet *)
void	printAttribList (std::ostream &os) const
	Transient boolean attributes (not copied in ctor)
void	registerProxy (RooArgProxy &proxy)
	Register an RooArgProxy in the proxy list.
void	registerProxy (RooListProxy &proxy)
	Register an RooListProxy in the proxy list.
void	registerProxy (RooSetProxy &proxy)
	Register an RooSetProxy in the proxy list.
void	setProxyNormSet (const RooArgSet *nset)
	Forward a change in the cached normalization argset to all the registered proxies.
void	setShapeDirty (const RooAbsArg *source)
	Notify that a shape-like property (e.g. binning) has changed.
void	setValueDirty (const RooAbsArg *source)
	Force element to re-evaluate itself when a value is requested.
void	unRegisterProxy (RooArgProxy &proxy)
	Remove proxy from proxy list.
void	unRegisterProxy (RooListProxy &proxy)
	Remove proxy from proxy list.
void	unRegisterProxy (RooSetProxy &proxy)
	Remove proxy from proxy list.
Protected Member Functions inherited from TObject
virtual void	DoError (int level, const char *location, const char *fmt, va_list va) const
	Interface to ErrorHandler (protected).
void	MakeZombie ()

Protected Attributes
Int_t	_errorCount
Int_t	_negCount
RooAbsReal *	_norm = nullptr
RooObjCacheManager	_normMgr
TString	_normRange
	MC generator configuration specific for this object.
RooArgSet const *	_normSet = nullptr
	Normalization integral (owned by _normMgr)
Double_t	_rawValue
Bool_t	_selectComp
RooNumGenConfig *	_specGeneratorConfig
Int_t	_traceCount
Protected Attributes inherited from RooAbsReal
Bool_t	_forceNumInt
TString	_label
RooArgSet *	_lastNSet
Int_t	_plotBins
Double_t	_plotMax
Double_t	_plotMin
Bool_t	_selectComp
RooNumIntConfig *	_specIntegratorConfig
TString	_unit
Double_t	_value
Protected Attributes inherited from RooAbsArg
bool	_allBatchesDirty {true}
std::set< std::string >	_boolAttrib
std::set< std::string >	_boolAttribTransient
std::deque< RooAbsCache * >	_cacheList
RefCountList_t	_clientList
RefCountList_t	_clientListShape
RefCountList_t	_clientListValue
Bool_t	_deleteWatch
RooExpensiveObjectCache *	_eocache {nullptr}
	Prohibit server redirects – Debugging tool.
Bool_t	_fast
Bool_t	_isConstant
	Do not persist. Pointer to global instance of string that matches object named.
Bool_t	_localNoInhibitDirty
	Cached isConstant status.
RooWorkspace *	_myws
	Prevent 'AlwaysDirty' mode for this node.
TNamed *	_namePtr
OperMode	_operMode
	Mark batches as dirty (only meaningful for RooAbsReal).
RooArgSet *	_ownedComponents
Bool_t	_prohibitServerRedirect
	Set of owned component.
RooRefArray	_proxyList
RefCountList_t	_serverList
Bool_t	_shapeDirty
std::map< std::string, std::string >	_stringAttrib
Bool_t	_valueDirty
Protected Attributes inherited from TNamed
TString	fName
TString	fTitle

Static Protected Attributes
static TString	_normRangeOverride
static Int_t	_verboseEval = 0
Static Protected Attributes inherited from RooAbsReal
static Bool_t	_globalSelectComp = false
	Component selection flag for RooAbsPdf::plotCompOn.
static Bool_t	_hideOffset = kTRUE
Static Protected Attributes inherited from RooAbsArg
static Bool_t	_inhibitDirty
static Bool_t	_verboseDirty
Static Protected Attributes inherited from RooPrintable
static Int_t	_nameLength

Private Member Functions
template<class Minimizer >
int	calculateAsymptoticCorrectedCovMatrix (Minimizer &minimizer, RooAbsData const &data)
template<class Minimizer >
int	calculateSumW2CorrectedCovMatrix (Minimizer &minimizer, RooAbsReal const &nll) const
RooDataSet *	generate (RooAbsGenContext &context, const RooArgSet &whatVars, const RooDataSet *prototype, Double_t nEvents, Bool_t verbose, Bool_t randProtoOrder, Bool_t resampleProto, Bool_t skipInit=kFALSE, Bool_t extended=kFALSE) const
	Internal method.
void	logBatchComputationErrors (RooSpan< const double > &outputs, std::size_t begin) const
	Scan through outputs and fix+log all nans and negative values.
virtual RooPlot *	paramOn (RooPlot *frame, const RooArgSet &params, Bool_t showConstants=kFALSE, const char *label="", Int_t sigDigits=2, Option_t *options="NELU", Double_t xmin=0.65, Double_t xmax=0.99, Double_t ymax=0.95, const RooCmdArg *formatCmd=0)
	Add a text box with the current parameter values and their errors to the frame.
Bool_t	traceEvalPdf (Double_t value) const
	Check that passed value is positive and not 'not-a-number'.

Friends
class	CacheElem
class	RooAbsAnaConvPdf
class	RooAddGenContext
class	RooAddGenContextOrig
class	RooConvGenContext
class	RooEffGenContext
class	RooExtendPdf
class	RooMCStudy
class	RooProdGenContext
class	RooProdPdf
class	RooRealIntegral
class	RooSimGenContext
class	RooSimSplitGenContext
class	RooSimultaneous

Additional Inherited Members
Protected Types inherited from TObject
enum	{ kOnlyPrepStep = BIT(3) }
Static Protected Member Functions inherited from RooAbsReal
static void	globalSelectComp (Bool_t flag)
	Global switch controlling the activation of the selectComp() functionality.
Static Protected Member Functions inherited from RooAbsArg
static void	ioStreamerPass2Finalize ()
	Method called by workspace container to finalize schema evolution issues that cannot be handled in a single ioStreamer pass.

#include <RooAbsPdf.h>

Inheritance diagram for RooAbsPdf:

Member Enumeration Documentation

ExtendMode

enum RooAbsPdf::ExtendMode

Enumerator
CanNotBeExtended
CanBeExtended
MustBeExtended

Definition at line 232 of file RooAbsPdf.h.

Constructor & Destructor Documentation

RooAbsPdf() [1/4]

RooAbsPdf::RooAbsPdf

(

)

Default constructor.

Definition at line 203 of file RooAbsPdf.cxx.

RooAbsPdf() [2/4]

RooAbsPdf::RooAbsPdf	(	const char *	name,
		const char *	title = 0
	)

Constructor with name and title only.

Definition at line 217 of file RooAbsPdf.cxx.

RooAbsPdf() [3/4]

RooAbsPdf::RooAbsPdf	(	const char *	name,
		const char *	title,
		Double_t	minVal,
		Double_t	maxVal
	)

Constructor with name, title, and plot range.

Definition at line 229 of file RooAbsPdf.cxx.

~RooAbsPdf()

RooAbsPdf::~RooAbsPdf ( )

virtual

Destructor.

Definition at line 261 of file RooAbsPdf.cxx.

RooAbsPdf() [4/4]

RooAbsPdf::RooAbsPdf ( const RooAbsPdf &  other, const char *  name = 0  )

protected

Copy constructor.

Definition at line 242 of file RooAbsPdf.cxx.

Member Function Documentation

analyticalIntegralWN()

Double_t RooAbsPdf::analyticalIntegralWN ( Int_t  code, const RooArgSet *  normSet, const char *  rangeName = 0  ) const

virtual

Analytical integral with normalization (see RooAbsReal::analyticalIntegralWN() for further information)

This function applies the normalization specified by 'normSet' to the integral returned by RooAbsReal::analyticalIntegral(). The passthrough scenario (code=0) is also changed to return a normalized answer

Reimplemented from RooAbsReal.

Reimplemented in RooBinSamplingPdf, RooWrapperPdf, RooAddModel, RooAddPdf, RooEffProd, RooExtendPdf, RooProdPdf, RooProjectedPdf, RooRealSumPdf, and RooSimultaneous.

Definition at line 409 of file RooAbsPdf.cxx.

autoGenContext()

RooAbsGenContext * RooAbsPdf::autoGenContext ( const RooArgSet &  vars, const RooDataSet *  prototype = 0, const RooArgSet *  auxProto = 0, Bool_t  verbose = kFALSE, Bool_t  autoBinned = kTRUE, const char *  binnedTag = ""  ) const

virtual

Reimplemented in RooSimultaneous.

Definition at line 1999 of file RooAbsPdf.cxx.

binnedGenContext()

RooAbsGenContext * RooAbsPdf::binnedGenContext ( const RooArgSet &  vars, Bool_t  verbose = kFALSE  ) const

virtual

Return a binned generator context.

Definition at line 1980 of file RooAbsPdf.cxx.

calculateAsymptoticCorrectedCovMatrix()

template<class Minimizer >

int RooAbsPdf::calculateAsymptoticCorrectedCovMatrix ( Minimizer &  minimizer, RooAbsData const &  data  )

private

Definition at line 1154 of file RooAbsPdf.cxx.

calculateSumW2CorrectedCovMatrix()

template<class Minimizer >

int RooAbsPdf::calculateSumW2CorrectedCovMatrix ( Minimizer &  minimizer, RooAbsReal const &  nll  ) const

private

Definition at line 1222 of file RooAbsPdf.cxx.

canBeExtended()

Bool_t RooAbsPdf::canBeExtended ( ) const

inline

If true, PDF can provide extended likelihood term.

Definition at line 238 of file RooAbsPdf.h.

chi2FitTo() [1/5]

RooFitResult * RooAbsReal::chi2FitTo ( RooDataHist &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Perform a \( \chi^2 \) fit to given histogram.

By default the fit is executed through the MINUIT commands MIGRAD, HESSE in succession

The following named arguments are supported

	Options to control construction of chi2
Range(const char* name)	Fit only data inside range with given name
Range(Double_t lo, Double_t hi)	Fit only data inside given range. A range named "fit" is created on the fly on all observables. Multiple comma separated range names can be specified.
NumCPU(int num)	Parallelize NLL calculation on num CPUs
Optimize(Bool_t flag)	Activate constant term optimization (on by default)
IntegrateBins()	Integrate PDF within each bin. This sets the desired precision.
	Options to control flow of fit procedure
InitialHesse(Bool_t flag)	Flag controls if HESSE before MIGRAD as well, off by default
Hesse(Bool_t flag)	Flag controls if HESSE is run after MIGRAD, on by default
Minos(Bool_t flag)	Flag controls if MINOS is run after HESSE, on by default
Minos(const RooArgSet& set)	Only run MINOS on given subset of arguments
Save(Bool_t flag)	Flac controls if RooFitResult object is produced and returned, off by default
Strategy(Int_t flag)	Set Minuit strategy (0 through 2, default is 1)
FitOptions(const char* optStr)	Steer fit with classic options string (for backward compatibility). Use of this option excludes use of any of the new style steering options.
	Options to control informational output
Verbose(Bool_t flag)	Flag controls if verbose output is printed (NLL, parameter changes during fit
Timer(Bool_t flag)	Time CPU and wall clock consumption of fit steps, off by default
PrintLevel(Int_t level)	Set Minuit print level (-1 through 3, default is 1). At -1 all RooFit informational messages are suppressed as well
Warnings(Bool_t flag)	Enable or disable MINUIT warnings (enabled by default)
PrintEvalErrors(Int_t numErr)	Control number of p.d.f evaluation errors printed per likelihood evaluation. A negative value suppress output completely, a zero value will only print the error count per p.d.f component, a positive value is will print details of each error up to numErr messages per p.d.f component.

Reimplemented from RooAbsReal.

Definition at line 180 of file RooAbsReal.cxx.

chi2FitTo() [2/5]

RooFitResult * RooAbsReal::chi2FitTo ( RooDataHist &  data, const RooLinkedList &  cmdList  )

virtual

Perform a \( \chi^2 \) fit to given histogram.

By default the fit is executed through the MINUIT commands MIGRAD, HESSE in succession

The following named arguments are supported

	Options to control construction of chi2
Range(const char* name)	Fit only data inside range with given name
Range(Double_t lo, Double_t hi)	Fit only data inside given range. A range named "fit" is created on the fly on all observables. Multiple comma separated range names can be specified.
NumCPU(int num)	Parallelize NLL calculation on num CPUs
Optimize(Bool_t flag)	Activate constant term optimization (on by default)
IntegrateBins()	Integrate PDF within each bin. This sets the desired precision.
	Options to control flow of fit procedure
InitialHesse(Bool_t flag)	Flag controls if HESSE before MIGRAD as well, off by default
Hesse(Bool_t flag)	Flag controls if HESSE is run after MIGRAD, on by default
Minos(Bool_t flag)	Flag controls if MINOS is run after HESSE, on by default
Minos(const RooArgSet& set)	Only run MINOS on given subset of arguments
Save(Bool_t flag)	Flac controls if RooFitResult object is produced and returned, off by default
Strategy(Int_t flag)	Set Minuit strategy (0 through 2, default is 1)
FitOptions(const char* optStr)	Steer fit with classic options string (for backward compatibility). Use of this option excludes use of any of the new style steering options.
	Options to control informational output
Verbose(Bool_t flag)	Flag controls if verbose output is printed (NLL, parameter changes during fit
Timer(Bool_t flag)	Time CPU and wall clock consumption of fit steps, off by default
PrintLevel(Int_t level)	Set Minuit print level (-1 through 3, default is 1). At -1 all RooFit informational messages are suppressed as well
Warnings(Bool_t flag)	Enable or disable MINUIT warnings (enabled by default)
PrintEvalErrors(Int_t numErr)	Control number of p.d.f evaluation errors printed per likelihood evaluation. A negative value suppress output completely, a zero value will only print the error count per p.d.f component, a positive value is will print details of each error up to numErr messages per p.d.f component.

Reimplemented from RooAbsReal.

Definition at line 183 of file RooAbsReal.cxx.

chi2FitTo() [3/5]

RooFitResult * RooAbsPdf::chi2FitTo ( RooDataHist &  data, const RooLinkedList &  cmdList  )

virtual

Calls RooAbsPdf::createChi2(RooDataSet& data, const RooLinkedList& cmdList) and returns fit result.

Reimplemented from RooAbsReal.

Definition at line 1794 of file RooAbsPdf.cxx.

chi2FitTo() [4/5]

RooFitResult * RooAbsReal::chi2FitTo ( RooDataSet &  xydata, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Perform a 2-D \( \chi^2 \) fit using a series of x and y values stored in the dataset xydata.

The y values can either be the event weights, or can be another column designated by the YVar() argument. The y value must have errors defined for the \( \chi^2 \) to be well defined.

	Options to control construction of the \( \chi^2 \)
YVar(RooRealVar& yvar)	Designate given column in dataset as Y value
Integrate(Bool_t flag)	Integrate function over range specified by X errors rather than take value at bin center.
	Options to control flow of fit procedure
InitialHesse(Bool_t flag)	Flag controls if HESSE before MIGRAD as well, off by default
Hesse(Bool_t flag)	Flag controls if HESSE is run after MIGRAD, on by default
Minos(Bool_t flag)	Flag controls if MINOS is run after HESSE, on by default
Minos(const RooArgSet& set)	Only run MINOS on given subset of arguments
Save(Bool_t flag)	Flac controls if RooFitResult object is produced and returned, off by default
Strategy(Int_t flag)	Set Minuit strategy (0 through 2, default is 1)
FitOptions(const char* optStr)	Steer fit with classic options string (for backward compatibility). Use of this option excludes use of any of the new style steering options.
	Options to control informational output
Verbose(Bool_t flag)	Flag controls if verbose output is printed (NLL, parameter changes during fit
Timer(Bool_t flag)	Time CPU and wall clock consumption of fit steps, off by default
PrintLevel(Int_t level)	Set Minuit print level (-1 through 3, default is 1). At -1 all RooFit informational messages are suppressed as well
Warnings(Bool_t flag)	Enable or disable MINUIT warnings (enabled by default)
PrintEvalErrors(Int_t numErr)	Control number of p.d.f evaluation errors printed per likelihood evaluation. A negative value suppress output completely, a zero value will only print the error count per p.d.f component, a positive value is will print details of each error up to numErr messages per p.d.f component.

Reimplemented from RooAbsReal.

Definition at line 191 of file RooAbsReal.cxx.

chi2FitTo() [5/5]

RooFitResult * RooAbsReal::chi2FitTo ( RooDataSet &  xydata, const RooLinkedList &  cmdList  )

virtual

Perform a 2-D \( \chi^2 \) fit using a series of x and y values stored in the dataset xydata.

The y values can either be the event weights, or can be another column designated by the YVar() argument. The y value must have errors defined for the \( \chi^2 \) to be well defined.

	Options to control construction of the \( \chi^2 \)
YVar(RooRealVar& yvar)	Designate given column in dataset as Y value
Integrate(Bool_t flag)	Integrate function over range specified by X errors rather than take value at bin center.
	Options to control flow of fit procedure
InitialHesse(Bool_t flag)	Flag controls if HESSE before MIGRAD as well, off by default
Hesse(Bool_t flag)	Flag controls if HESSE is run after MIGRAD, on by default
Minos(Bool_t flag)	Flag controls if MINOS is run after HESSE, on by default
Minos(const RooArgSet& set)	Only run MINOS on given subset of arguments
Save(Bool_t flag)	Flac controls if RooFitResult object is produced and returned, off by default
Strategy(Int_t flag)	Set Minuit strategy (0 through 2, default is 1)
FitOptions(const char* optStr)	Steer fit with classic options string (for backward compatibility). Use of this option excludes use of any of the new style steering options.
	Options to control informational output
Verbose(Bool_t flag)	Flag controls if verbose output is printed (NLL, parameter changes during fit
Timer(Bool_t flag)	Time CPU and wall clock consumption of fit steps, off by default
PrintLevel(Int_t level)	Set Minuit print level (-1 through 3, default is 1). At -1 all RooFit informational messages are suppressed as well
Warnings(Bool_t flag)	Enable or disable MINUIT warnings (enabled by default)
PrintEvalErrors(Int_t numErr)	Control number of p.d.f evaluation errors printed per likelihood evaluation. A negative value suppress output completely, a zero value will only print the error count per p.d.f component, a positive value is will print details of each error up to numErr messages per p.d.f component.

Reimplemented from RooAbsReal.

Definition at line 194 of file RooAbsReal.cxx.

createCdf() [1/2]

RooAbsReal * RooAbsPdf::createCdf	(	const RooArgSet &	iset,
		const RooArgSet &	nset = RooArgSet()
	)

Create a cumulative distribution function of this p.d.f in terms of the observables listed in iset.

If no nset argument is given the c.d.f normalization is constructed over the integrated observables, so that its maximum value is precisely 1. It is also possible to choose a different normalization for multi-dimensional p.d.f.s: eg. for a pdf f(x,y,z) one can construct a partial cdf c(x,y) that only when integrated itself over z results in a maximum value of 1. To construct such a cdf pass z as argument to the optional nset argument

Definition at line 3413 of file RooAbsPdf.cxx.

createCdf() [2/2]

RooAbsReal * RooAbsPdf::createCdf	(	const RooArgSet &	iset,
		const RooCmdArg &	arg1,
		const RooCmdArg &	arg2 = RooCmdArg::none(),
		const RooCmdArg &	arg3 = RooCmdArg::none(),
		const RooCmdArg &	arg4 = RooCmdArg::none(),
		const RooCmdArg &	arg5 = RooCmdArg::none(),
		const RooCmdArg &	arg6 = RooCmdArg::none(),
		const RooCmdArg &	arg7 = RooCmdArg::none(),
		const RooCmdArg &	arg8 = RooCmdArg::none()
	)

Create an object that represents the integral of the function over one or more observables listed in iset.

The actual integration calculation is only performed when the return object is evaluated. The name of the integral object is automatically constructed from the name of the input function, the variables it integrates and the range integrates over

The following named arguments are accepted

Type of CmdArg	Effect on CDF
SupNormSet(const RooArgSet&)	Observables over which should be normalized in addition to the integration observables
ScanNumCdf()	Apply scanning technique if cdf integral involves numeric integration [ default ]
ScanAllCdf()	Always apply scanning technique
ScanNoCdf()	Never apply scanning technique
ScanParameters(Int_t nbins, Int_t intOrder)	Parameters for scanning technique of making CDF: number of sampled bins and order of interpolation applied on numeric cdf

Definition at line 3435 of file RooAbsPdf.cxx.

createChi2() [1/6]

RooAbsReal * RooAbsReal::createChi2 ( RooDataHist &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Create a \( \chi^2 \) variable from a histogram and this function.

The following named arguments are supported

	Options to control construction of the \( \chi^2 \)
DataError(RooAbsData::ErrorType)	Choose between Poisson errors and Sum-of-weights errors
NumCPU(Int_t)	Activate parallel processing feature on N processes
Range()	Calculate \( \chi^2 \) only in selected region
IntegrateBins()	Integrate PDF within each bin. This sets the desired precision.

Parameters

data	Histogram with data

Returns

\( \chi^2 \) variable

Reimplemented from RooAbsReal.

Definition at line 186 of file RooAbsReal.cxx.

createChi2() [2/6]

RooAbsReal * RooAbsPdf::createChi2 ( RooDataHist &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Create a \( \chi^2 \) from a histogram and this function.

Options to control construction of the \( \chi^2 \)

Type of CmdArg	Effect on \( \chi^2 \)
Extended()	Use expected number of events of an extended p.d.f as normalization
DataError()	Choose between: Expected error [RooAbsData::Expected] Observed error (e.g. Sum-of-weights) [RooAbsData::SumW2] Poisson interval [RooAbsData::Poisson] Default: Expected error for unweighted data, Sum-of-weights for weighted data [RooAbsData::Auto]
NumCPU()	Activate parallel processing feature
Range()	Fit only selected region
SumCoefRange()	Set the range in which to interpret the coefficients of RooAddPdf components
SplitRange()	Fit ranges used in different categories get named after the category. Using Range("range"), SplitRange() as switches, different ranges could be set like this: myVariable.setRange("range_pi0", 135, 210); myVariable.setRange("range_gamma", 50, 210);
ConditionalObservables()	Define projected observables

Reimplemented from RooAbsReal.

Definition at line 1839 of file RooAbsPdf.cxx.

createChi2() [3/6]

RooAbsReal * RooAbsReal::createChi2 ( RooDataHist &  data, const RooLinkedList &  cmdList  )

virtual

Create a \( \chi^2 \) variable from a histogram and this function.

The following named arguments are supported

	Options to control construction of the \( \chi^2 \)
DataError(RooAbsData::ErrorType)	Choose between Poisson errors and Sum-of-weights errors
NumCPU(Int_t)	Activate parallel processing feature on N processes
Range()	Calculate \( \chi^2 \) only in selected region
IntegrateBins()	Integrate PDF within each bin. This sets the desired precision.

Parameters

data	Histogram with data

Returns

\( \chi^2 \) variable

Parameters

cmdList

List with RooCmdArg() from the table

Reimplemented from RooAbsReal.

Definition at line 185 of file RooAbsReal.cxx.

createChi2() [4/6]

RooAbsReal * RooAbsReal::createChi2 ( RooDataSet &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Create a \( \chi^2 \) from a series of x and y values stored in a dataset.

The y values can either be the event weights (default), or can be another column designated by the YVar() argument. The y value must have errors defined for the \( \chi^2 \) to be well defined.

The following named arguments are supported

	Options to control construction of the \( \chi^2 \)
YVar(RooRealVar& yvar)	Designate given column in dataset as Y value
Integrate(Bool_t flag)	Integrate function over range specified by X errors rather than take value at bin center.

Reimplemented from RooAbsReal.

Definition at line 197 of file RooAbsReal.cxx.

createChi2() [5/6]

RooAbsReal * RooAbsReal::createChi2 ( RooDataSet &  data, const RooLinkedList &  cmdList  )

virtual

See RooAbsReal::createChi2(RooDataSet&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&)

Reimplemented from RooAbsReal.

Definition at line 196 of file RooAbsReal.cxx.

createChi2() [6/6]

RooAbsReal * RooAbsPdf::createChi2 ( RooDataSet &  data, const RooLinkedList &  cmdList  )

virtual

Argument-list version of RooAbsPdf::createChi2()

Reimplemented from RooAbsReal.

Definition at line 1911 of file RooAbsPdf.cxx.

createNLL() [1/2]

RooAbsReal * RooAbsPdf::createNLL ( RooAbsData &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Construct representation of -log(L) of PDF with given dataset.

If dataset is unbinned, an unbinned likelihood is constructed. If the dataset is binned, a binned likelihood is constructed.

The following named arguments are supported

Type of CmdArg	Effect on nll
ConditionalObservables(const RooArgSet& set)	Do not normalize PDF over listed observables
Extended(Bool_t flag)	Add extended likelihood term, off by default
Range(const char* name)	Fit only data inside range with given name
Range(Double_t lo, Double_t hi)	Fit only data inside given range. A range named "fit" is created on the fly on all observables. Multiple comma separated range names can be specified.
SumCoefRange(const char* name)	Set the range in which to interpret the coefficients of RooAddPdf components
NumCPU(int num, int strat)	Parallelize NLL calculation on num CPUs Strategy Effect 0 = RooFit::BulkPartition (Default) Divide events in N equal chunks 1 = RooFit::Interleave Process event iN in process N. Recommended for binned data with a substantial number of zero-bins, which will be distributed across processes more equitably in this strategy 2 = RooFit::SimComponents Process each component likelihood of a RooSimultaneous fully in a single process and distribute components over processes. This approach can be benificial if normalization calculation time dominates the total computation time of a component (since the normalization calculation must be performed in each process in strategies 0 and 1. However beware that if the RooSimultaneous components do not share many parameters this strategy is inefficient: as most minuit-induced likelihood calculations involve changing a single parameter, only 1 of the N processes will be active most of the time if RooSimultaneous components do not share many parameters 3 = RooFit::Hybrid Follow strategy 0 for all RooSimultaneous components, except those with less than 30 dataset entries, for which strategy 2 is followed.
BatchMode(bool on)	Batch evaluation mode. See fitTo().
Optimize(Bool_t flag)	Activate constant term optimization (on by default)
SplitRange(Bool_t flag)	Use separate fit ranges in a simultaneous fit. Actual range name for each subsample is assumed to be rangeName_indexState, where indexState is the state of the master index category of the simultaneous fit. Using Range("range"), SplitRange() as switches, different ranges could be set like this: myVariable.setRange("range_pi0", 135, 210); myVariable.setRange("range_gamma", 50, 210);
Constrain(const RooArgSet&pars)	For p.d.f.s that contain internal parameter constraint terms (that is usually product PDFs, where one term of the product depends on parameters but not on the observable(s),), only apply constraints to the given subset of parameters.
ExternalConstraints(const RooArgSet& )	Include given external constraints to likelihood by multiplying them with the original likelihood.
GlobalObservables(const RooArgSet&)	Define the set of normalization observables to be used for the constraint terms. If none are specified the constrained parameters are used.
GlobalObservablesTag(const char* tagName)	Define the set of normalization observables to be used for the constraint terms by a string attribute associated with pdf observables that match the given tagName.
Verbose(Bool_t flag)	Controls RooFit informational messages in likelihood construction
CloneData(Bool flag)	Use clone of dataset in NLL (default is true)
Offset(Bool_t)	Offset likelihood by initial value (so that starting value of FCN in minuit is zero). This can improve numeric stability in simultaneous fits with components with large likelihood values
IntegrateBins(double precision)	In binned fits, integrate the PDF over the bins instead of using the probability density at the bin centre. This can reduce the bias observed when fitting functions with high curvature to binned data. precision > 0: Activate bin integration everywhere. Use precision between 0.01 and 1.E-6, depending on binning. Note that a low precision such as 0.01 might yield identical results to 1.E-4, since the integrator might reach 1.E-4 already in its first integration step. If lower precision is desired (more speed), a RooBinSamplingPdf has to be created manually, and its integrator has to be manipulated directly. precision = 0: Activate bin integration only for continuous PDFs fit to a RooDataHist. precision < 0: Deactivate. See also RooBinSamplingPdf

Reimplemented in RooStats::HistFactory::HistFactorySimultaneous.

Definition at line 907 of file RooAbsPdf.cxx.

createNLL() [2/2]

RooAbsReal * RooAbsPdf::createNLL ( RooAbsData &  data, const RooLinkedList &  cmdList  )

virtual

Construct representation of -log(L) of PDFwith given dataset.

If dataset is unbinned, an unbinned likelihood is constructed. If the dataset is binned, a binned likelihood is constructed.

See RooAbsPdf::createNLL(RooAbsData& data, RooCmdArg arg1, RooCmdArg arg2, RooCmdArg arg3, RooCmdArg arg4, RooCmdArg arg5, RooCmdArg arg6, RooCmdArg arg7, RooCmdArg arg8) for documentation of options

Reimplemented in RooStats::HistFactory::HistFactorySimultaneous.

Definition at line 929 of file RooAbsPdf.cxx.

createProjection()

RooAbsPdf * RooAbsPdf::createProjection ( const RooArgSet &  iset )

virtual

Return a p.d.f that represent a projection of this p.d.f integrated over given observables.

Reimplemented in RooProjectedPdf.

Definition at line 3378 of file RooAbsPdf.cxx.

createScanCdf()

RooAbsReal * RooAbsPdf::createScanCdf	(	const RooArgSet &	iset,
		const RooArgSet &	nset,
		Int_t	numScanBins,
		Int_t	intOrder
	)

Definition at line 3490 of file RooAbsPdf.cxx.

defaultGeneratorConfig()

RooNumGenConfig * RooAbsPdf::defaultGeneratorConfig ( )

static

Returns the default numeric MC generator configuration for all RooAbsReals.

Definition at line 3529 of file RooAbsPdf.cxx.

expectedEvents() [1/2]

virtual Double_t RooAbsPdf::expectedEvents ( const RooArgSet &  nset ) const

inlinevirtual

Return expected number of events to be used in calculation of extended likelihood.

Reimplemented in RooAddModel, RooAddPdf, RooBinSamplingPdf, RooExtendedTerm, RooExtendPdf, RooProdPdf, RooRealSumPdf, and RooSimultaneous.

Definition at line 247 of file RooAbsPdf.h.

expectedEvents() [2/2]

Double_t RooAbsPdf::expectedEvents ( const RooArgSet *  nset ) const

virtual

Return expected number of events from this p.d.f for use in extended likelihood calculations.

This default implementation returns zero

Reimplemented in RooAddModel, RooAddPdf, RooBinSamplingPdf, RooExtendedTerm, RooExtendPdf, RooProdPdf, RooRealSumPdf, RooSimultaneous, and RooBinSamplingPdf.

Definition at line 3319 of file RooAbsPdf.cxx.

extendedTerm()

Double_t RooAbsPdf::extendedTerm ( Double_t  observed, const RooArgSet *  nset = 0  ) const

virtual

Return the extended likelihood term ( \( N_\mathrm{expect} - N_\mathrm{observed} \cdot \log(N_\mathrm{expect} \)) of this PDF for the given number of observed events.

For successful operation, the PDF implementation must indicate that it is extendable by overloading canBeExtended(), and must implement the expectedEvents() function.

Definition at line 779 of file RooAbsPdf.cxx.

extendMode()

virtual ExtendMode RooAbsPdf::extendMode ( ) const

inlinevirtual

Returns ability of PDF to provide extended likelihood terms.

Possible answers are in the enumerator RooAbsPdf::ExtendMode. This default implementation always returns CanNotBeExtended.

Reimplemented in RooAddModel, RooAddPdf, RooExtendedTerm, RooExtendPdf, RooProdPdf, RooRealSumPdf, RooSimultaneous, and RooBinSamplingPdf.

Definition at line 236 of file RooAbsPdf.h.

fitTo() [1/2]

RooFitResult * RooAbsPdf::fitTo ( RooAbsData &  data, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Fit PDF to given dataset.

If dataset is unbinned, an unbinned maximum likelihood is performed. If the dataset is binned, a binned maximum likelihood is performed. By default the fit is executed through the MINUIT commands MIGRAD, HESSE in succession.

Parameters

[in]	data	Data to fit the PDF to
[in]	arg1	One or more arguments to control the behaviour of the fit

Returns

RooFitResult with fit status and parameters if option Save() is used, nullptr otherwise. The user takes ownership of the fit result.

The following named arguments are supported

Type of CmdArg	Options to control construction of -log(L)
ConditionalObservables(const RooArgSet& set)	Do not normalize PDF over listed observables
Extended(Bool_t flag)	Add extended likelihood term, off by default
Range(const char* name)	Fit only data inside range with given name. Multiple comma-separated range names can be specified.
Range(Double_t lo, Double_t hi)	Fit only data inside given range. A range named "fit" is created on the fly on all observables.
SumCoefRange(const char* name)	Set the range in which to interpret the coefficients of RooAddPdf components
NumCPU(int num, int strat)	Parallelize NLL calculation on num CPUs Strategy Effect 0 = RooFit::BulkPartition (Default) Divide events in N equal chunks 1 = RooFit::Interleave Process event iN in process N. Recommended for binned data with a substantial number of zero-bins, which will be distributed across processes more equitably in this strategy 2 = RooFit::SimComponents Process each component likelihood of a RooSimultaneous fully in a single process and distribute components over processes. This approach can be benificial if normalization calculation time dominates the total computation time of a component (since the normalization calculation must be performed in each process in strategies 0 and 1. However beware that if the RooSimultaneous components do not share many parameters this strategy is inefficient: as most minuit-induced likelihood calculations involve changing a single parameter, only 1 of the N processes will be active most of the time if RooSimultaneous components do not share many parameters 3 = RooFit::Hybrid Follow strategy 0 for all RooSimultaneous components, except those with less than 30 dataset entries, for which strategy 2 is followed.
SplitRange(Bool_t flag)	Use separate fit ranges in a simultaneous fit. Actual range name for each subsample is assumed to by rangeName_indexState where indexState is the state of the master index category of the simultaneous fit. Using Range("range"), SplitRange() as switches, different ranges could be set like this: myVariable.setRange("range_pi0", 135, 210); myVariable.setRange("range_gamma", 50, 210);
Constrain(const RooArgSet&pars)	For p.d.f.s that contain internal parameter constraint terms (that is usually product PDFs, where one term of the product depends on parameters but not on the observable(s),), only apply constraints to the given subset of parameters.
ExternalConstraints(const RooArgSet& )	Include given external constraints to likelihood by multiplying them with the original likelihood.
GlobalObservables(const RooArgSet&)	Define the set of normalization observables to be used for the constraint terms. If none are specified the constrained parameters are used.
Offset(Bool_t)	Offset likelihood by initial value (so that starting value of FCN in minuit is zero). This can improve numeric stability in simultaneously fits with components with large likelihood values
BatchMode(bool on)	Experimental batch evaluation mode. This computes a batch of likelihood values at a time, uses faster math functions and possibly auto vectorisation (this depends on the compiler flags). Depending on hardware capabilities, the compiler flags and whether a batch evaluation function was implemented for the PDFs of the model, likelihood computations are 2x to 10x faster. The relative difference of the single log-likelihoods w.r.t. the legacy mode is usually better than 1.E-12, and fit parameters usually agree to better than 1.E-6.
IntegrateBins(double precision)	In binned fits, integrate the PDF over the bins instead of using the probability density at the bin centre. This can reduce the bias observed when fitting functions with high curvature to binned data. precision > 0: Activate bin integration everywhere. Use precision between 0.01 and 1.E-6, depending on binning. Note that a low precision such as 0.01 might yield identical results to 1.E-4, since the integrator might reach 1.E-4 already in its first integration step. If lower precision is desired (more speed), a RooBinSamplingPdf has to be created manually, and its integrator has to be manipulated directly. precision = 0: Activate bin integration only for continuous PDFs fit to a RooDataHist. precision < 0: Deactivate. See also RooBinSamplingPdf
	Options to control flow of fit procedure
Minimizer(type,algo)	Choose minimization package and algorithm to use. Default is MINUIT/MIGRAD through the RooMinimizer interface, but others can be specified (through RooMinimizer interface). Select OldMinuit to use MINUIT through the old RooMinuit interface Type Algorithm OldMinuit migrad, simplex, minimize (=migrad+simplex), migradimproved (=migrad+improve) Minuit migrad, simplex, minimize (=migrad+simplex), migradimproved (=migrad+improve) Minuit2 migrad, simplex, minimize, scan GSLMultiMin conjugatefr, conjugatepr, bfgs, bfgs2, steepestdescent GSLSimAn -
InitialHesse(Bool_t flag)	Flag controls if HESSE before MIGRAD as well, off by default
Optimize(Bool_t flag)	Activate constant term optimization of test statistic during minimization (on by default)
Hesse(Bool_t flag)	Flag controls if HESSE is run after MIGRAD, on by default
Minos(Bool_t flag)	Flag controls if MINOS is run after HESSE, off by default
Minos(const RooArgSet& set)	Only run MINOS on given subset of arguments
Save(Bool_t flag)	Flag controls if RooFitResult object is produced and returned, off by default
Strategy(Int_t flag)	Set Minuit strategy (0 to 2, default is 1)
EvalErrorWall(bool flag=true)	When parameters are in disallowed regions (e.g. PDF is negative), return very high value to fitter to force it out of that region. This can, however, mean that the fitter gets lost in this region. If this happens, try switching it off.
RecoverFromUndefinedRegions(double strength)	When PDF is invalid (e.g. parameter in undefined region), try to direct minimiser away from that region. strength controls the magnitude of the penalty term. Leaving out this argument defaults to 10. Switch off with strength = 0..
FitOptions(const char* optStr)	Deprecated: Steer fit with classic options string (for backward compatibility). Attention Use of this option excludes use of any of the new style steering options.
SumW2Error(Bool_t flag)	Apply correction to errors and covariance matrix. This uses two covariance matrices, one with the weights, the other with squared weights, to obtain the correct errors for weighted likelihood fits. If this option is activated, the corrected covariance matrix is calculated as \( V_\mathrm{corr} = V C^{-1} V \), where \( V \) is the original covariance matrix and \( C \) is the inverse of the covariance matrix calculated using the squared weights. This allows to switch between two interpretations of errors: SumW2Error Interpretation true The errors reflect the uncertainty of the Monte Carlo simulation. Use this if you want to know how much accuracy you can get from the available Monte Carlo statistics. Example: Simulation with 1000 events, the average weight is 0.1. The errors are as big as if one fitted to 1000 events. false The errors reflect the errors of a dataset, which is as big as the sum of weights. Use this if you want to know what statistical errors you would get if you had a dataset with as many events as the (weighted) Monte Carlo simulation represents. Example (Data as above): The errors are as big as if one fitted to 100 events. Note If the SumW2Error correction is enabled, the covariance matrix quality stored in the RooFitResult object will be the minimum of the original covariance matrix quality and the quality of the covariance matrix calculated with the squared weights.
AsymptoticError()	Use the asymptotically correct approach to estimate errors in the presence of weights. This is slower but more accurate than SumW2Error. See also https://arxiv.org/abs/1911.01303).
PrefitDataFraction(double fraction)	Runs a prefit on a small dataset of size fraction*(actual data size). This can speed up fits by finding good starting values for the parameters for the actual fit. Warning Prefitting may give bad results when used in binned analysis.
	Options to control informational output
Verbose(Bool_t flag)	Flag controls if verbose output is printed (NLL, parameter changes during fit).
Timer(Bool_t flag)	Time CPU and wall clock consumption of fit steps, off by default.
PrintLevel(Int_t level)	Set Minuit print level (-1 to 3, default is 1). At -1 all RooFit informational messages are suppressed as well. See RooMinimizer::PrintLevel for the meaning of the levels.
Warnings(Bool_t flag)	Enable or disable MINUIT warnings (enabled by default)
PrintEvalErrors(Int_t numErr)	Control number of p.d.f evaluation errors printed per likelihood evaluation. A negative value suppresses output completely, a zero value will only print the error count per p.d.f component, a positive value will print details of each error up to numErr messages per p.d.f component.

Definition at line 1410 of file RooAbsPdf.cxx.

fitTo() [2/2]

RooFitResult * RooAbsPdf::fitTo ( RooAbsData &  data, const RooLinkedList &  cmdList  )

virtual

Fit PDF to given dataset.

If dataset is unbinned, an unbinned maximum likelihood is performed. If the dataset is binned, a binned maximum likelihood is performed. By default the fit is executed through the MINUIT commands MIGRAD, HESSE and MINOS in succession.

See RooAbsPdf::fitTo(RooAbsData&,RooCmdArg&,RooCmdArg&,RooCmdArg&,RooCmdArg&,RooCmdArg&,RooCmdArg&,RooCmdArg&,RooCmdArg&)

for documentation of options

Definition at line 1432 of file RooAbsPdf.cxx.

genContext()

RooAbsGenContext * RooAbsPdf::genContext ( const RooArgSet &  vars, const RooDataSet *  prototype = 0, const RooArgSet *  auxProto = 0, Bool_t  verbose = kFALSE  ) const

virtual

Interface function to create a generator context from a p.d.f.

This default implementation returns a 'standard' context that works for any p.d.f

Reimplemented in RooEffProd, RooAbsAnaConvPdf, RooAddModel, RooAddPdf, RooFFTConvPdf, RooNumConvPdf, RooProdPdf, and RooSimultaneous.

Definition at line 1990 of file RooAbsPdf.cxx.

generate() [1/6]

RooDataSet * RooAbsPdf::generate	(	const RooArgSet &	whatVars,
		const RooCmdArg &	arg1 = RooCmdArg::none(),
		const RooCmdArg &	arg2 = RooCmdArg::none(),
		const RooCmdArg &	arg3 = RooCmdArg::none(),
		const RooCmdArg &	arg4 = RooCmdArg::none(),
		const RooCmdArg &	arg5 = RooCmdArg::none(),
		const RooCmdArg &	arg6 = RooCmdArg::none()
	)

Generate a new dataset containing the specified variables with events sampled from our distribution.

Generate the specified number of events or expectedEvents() if not specified.

Parameters

[in]	whatVars	Choose variables in which to generate events. Variables not listed here will remain constant and not be used for event generation.
[in]	argxx	Optional RooCmdArg() to change behaviour of generate().

Returns

RooDataSet *, owned by caller.

Any variables of this PDF that are not in whatVars will use their current values and be treated as fixed parameters. Returns zero in case of an error.

Type of CmdArg	Effect on generate
Name(const char* name)	Name of the output dataset
Verbose(Bool_t flag)	Print informational messages during event generation
NumEvent(int nevt)	Generate specified number of events
Extended()	If no number of events to be generated is given, use expected number of events from extended likelihood term. This evidently only works for extended PDFs.
GenBinned(const char* tag)	Use binned generation for all component pdfs that have 'setAttribute(tag)' set
AutoBinned(Bool_t flag)	Automatically deploy binned generation for binned distributions (e.g. RooHistPdf, sums and products of RooHistPdfs etc) Note Datasets that are generated in binned mode are returned as weighted unbinned datasets. This means that for each bin, there will be one event in the dataset with a weight corresponding to the (possibly randomised) bin content.
AllBinned()	As above, but for all components. Note The notion of components is only meaningful for simultaneous PDFs as binned generation is always executed at the top-level node for a regular PDF, so for those it only mattes that the top-level node is tagged.
ProtoData(const RooDataSet& data, Bool_t randOrder)	Use specified dataset as prototype dataset. If randOrder in ProtoData() is set to true, the order of the events in the dataset will be read in a random order if the requested number of events to be generated does not match the number of events in the prototype dataset. Note If ProtoData() is used, the specified existing dataset as a prototype: the new dataset will contain the same number of events as the prototype (unless otherwise specified), and any prototype variables not in whatVars will be copied into the new dataset for each generated event and also used to set our PDF parameters. The user can specify a number of events to generate that will override the default. The result is a copy of the prototype dataset with only variables in whatVars randomized. Variables in whatVars that are not in the prototype will be added as new columns to the generated dataset.

Accessing the underlying event generator

Depending on the fit model (if it is difficult to sample), it may be necessary to change generator settings. For the default generator (RooFoamGenerator), the number of samples or cells could be increased by e.g. using myPdf->specialGeneratorConfig()->getConfigSection("RooFoamGenerator").setRealValue("nSample",1e4);

The foam generator e.g. has the following config options:

• nCell[123N]D
• nSample
• chatLevel

  See also

  rf902_numgenconfig.C

Definition at line 2073 of file RooAbsPdf.cxx.

generate() [2/6]

RooDataSet * RooAbsPdf::generate	(	const RooArgSet &	whatVars,
		const RooDataSet &	prototype,
		Int_t	nEvents = 0,
		Bool_t	verbose = kFALSE,
		Bool_t	randProtoOrder = kFALSE,
		Bool_t	resampleProto = kFALSE
	)		const

Generate a new dataset using a prototype dataset as a model, with values of the variables in whatVars sampled from our distribution.

Parameters

[in]	whatVars	Generate for these variables.
[in]	prototype	Use this dataset as a prototype: the new dataset will contain the same number of events as the prototype (by default), and any prototype variables not in whatVars will be copied into the new dataset for each generated event and also used to set our PDF parameters. The user can specify a number of events to generate that will override the default. The result is a copy of the prototype dataset with only variables in whatVars randomized. Variables in whatVars that are not in the prototype will be added as new columns to the generated dataset.
[in]	nEvents	Number of events to generate. Defaults to 0, which means number of event in prototype dataset.
[in]	verbose	Show which generator strategies are being used.
[in]	randProtoOrder	Randomise order of retrieval of events from proto dataset.
[in]	resampleProto	Resample from the proto dataset.

Returns

The new dataset. Returns zero in case of an error. The caller takes ownership of the returned dataset.

Definition at line 2333 of file RooAbsPdf.cxx.

generate() [3/6]

RooDataSet * RooAbsPdf::generate	(	const RooArgSet &	whatVars,
		Double_t	nEvents = 0,
		Bool_t	verbose = kFALSE,
		Bool_t	autoBinned = kTRUE,
		const char *	binnedTag = "",
		Bool_t	expectedData = kFALSE,
		Bool_t	extended = kFALSE
	)		const

Generate a new dataset containing the specified variables with events sampled from our distribution.

Parameters

[in]	whatVars	Generate a dataset with the variables (and categories) in this set. Any variables of this PDF that are not in whatVars will use their current values and be treated as fixed parameters.
[in]	nEvents	Generate the specified number of events or else try to use expectedEvents() if nEvents <= 0 (default).
[in]	verbose	Show which generator strategies are being used.
[in]	autoBinned	If original distribution is binned, return bin centers and randomise weights instead of generating single events.
[in]	binnedTag
[in]	expectedData	Call setExpectedData on the genContext.
[in]	extended	Randomise number of events generated according to Poisson(nEvents). Only useful if PDF is extended.

Returns

New dataset. Returns zero in case of an error. The caller takes ownership of the returned dataset.

Definition at line 2248 of file RooAbsPdf.cxx.

generate() [4/6]

RooDataSet * RooAbsPdf::generate ( const RooArgSet &  whatVars, Int_t  nEvents, const RooCmdArg &  arg1, const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none()  )

inline

See RooAbsPdf::generate(const RooArgSet&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&)

Parameters

[in]

nEvents

How many events to generate

Definition at line 58 of file RooAbsPdf.h.

generate() [5/6]

RooDataSet * RooAbsPdf::generate

(

RooAbsPdf::GenSpec &

spec

)

const

Generate according to GenSpec obtained from prepareMultiGen().

If many identical generation requests are needed, e.g.

in toy MC studies, it is more efficient to use the prepareMultiGen()/generate() combination than calling the standard generate() multiple times as initialization overhead is only incurred once.

Definition at line 2211 of file RooAbsPdf.cxx.

generate() [6/6]

RooDataSet * RooAbsPdf::generate ( RooAbsGenContext &  context, const RooArgSet &  whatVars, const RooDataSet *  prototype, Double_t  nEvents, Bool_t  verbose, Bool_t  randProtoOrder, Bool_t  resampleProto, Bool_t  skipInit = kFALSE, Bool_t  extended = kFALSE  ) const

private

Internal method.

Definition at line 2277 of file RooAbsPdf.cxx.

generateBinned() [1/3]

RooDataHist * RooAbsPdf::generateBinned ( const RooArgSet &  whatVars, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none()  ) const

virtual

Generate a new dataset containing the specified variables with events sampled from our distribution.

Parameters

[in]	whatVars	Choose variables in which to generate events. Variables not listed here will remain constant and not be used for event generation
[in]	arg1	Optional RooCmdArg to change behaviour of generateBinned()

Returns

RooDataHist *, to be managed by caller.

Generate the specified number of events or expectedEvents() if not specified.

Any variables of this PDF that are not in whatVars will use their current values and be treated as fixed parameters. Returns zero in case of an error. The caller takes ownership of the returned dataset.

The following named arguments are supported

Type of CmdArg	Effect on generation
Name(const char* name)	Name of the output dataset
Verbose(Bool_t flag)	Print informational messages during event generation
NumEvent(int nevt)	Generate specified number of events
Extended()	The actual number of events generated will be sampled from a Poisson distribution with mu=nevt.

This can be much faster for peaked PDFs, but the number of events is not exactly what was requested. | ExpectedData() | Return a binned dataset without statistical fluctuations (also aliased as Asimov())

Definition at line 2475 of file RooAbsPdf.cxx.

generateBinned() [2/3]

RooDataHist * RooAbsPdf::generateBinned ( const RooArgSet &  whatVars, Double_t  nEvents, Bool_t  expectedData = kFALSE, Bool_t  extended = kFALSE  ) const

virtual

Generate a new dataset containing the specified variables with events sampled from our distribution.

Parameters

[in]	whatVars	Variables that values should be generated for.
[in]	nEvents	How many events to generate. If nEvents <=0, use the value returned by expectedEvents() as target.
[in]	expectedData	If set to true (false by default), the returned histogram returns the 'expected' data sample, i.e. no statistical fluctuations are present.
[in]	extended	For each bin, generate Poisson(x, mu) events, where mu is chosen such that on average, one would obtain nEvents events. This means that the true number of events will fluctuate around the desired value, but the generation happens a lot faster. Especially if the PDF is sharply peaked, the multinomial event generation necessary to generate exactly nEvents events can be very slow.

The binning used for generation of events is the currently set binning for the variables. It can e.g. be changed using

x.setBins(15);
x.setRange(-5., 5.);
pdf.generateBinned(RooArgSet(x), 1000);

Any variables of this PDF that are not in whatVars will use their current values and be treated as fixed parameters.

Returns

RooDataHist* owned by the caller. Returns nullptr in case of an error.

Definition at line 2557 of file RooAbsPdf.cxx.

generateBinned() [3/3]

virtual RooDataHist * RooAbsPdf::generateBinned ( const RooArgSet &  whatVars, Double_t  nEvents, const RooCmdArg &  arg1, const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none()  ) const

inlinevirtual

As RooAbsPdf::generateBinned(const RooArgSet&, const RooCmdArg&,const RooCmdArg&, const RooCmdArg&,const RooCmdArg&, const RooCmdArg&,const RooCmdArg&)

Parameters

[in]

nEvents

How many events to generate

Definition at line 107 of file RooAbsPdf.h.

generateEvent()

void RooAbsPdf::generateEvent ( Int_t  code )

virtual

Interface for generation of an event using the algorithm corresponding to the specified code.

The meaning of each code is defined by the getGenerator() implementation. The default implementation does nothing.

Reimplemented in RooBCPEffDecay, RooBCPGenDecay, RooBDecay, RooBMixDecay, RooDecay, RooGamma, RooGaussModel, RooGExpModel, RooLandau, RooLognormal, RooNonCPEigenDecay, RooUniform, RooAddModel, RooMultiVarGaussian, RooProdPdf, RooProjectedPdf, RooTruthModel, RooGaussian, RooJohnson, RooPoisson, and RooBinSamplingPdf.

Definition at line 2420 of file RooAbsPdf.cxx.

generateSimGlobal()

RooDataSet * RooAbsPdf::generateSimGlobal ( const RooArgSet &  whatVars, Int_t  nEvents  )

virtual

Special generator interface for generation of 'global observables' – for RooStats tools.

Reimplemented in RooSimultaneous.

Definition at line 2677 of file RooAbsPdf.cxx.

getAllConstraints()

RooArgSet * RooAbsPdf::getAllConstraints ( const RooArgSet &  observables, RooArgSet &  constrainedParams, Bool_t  stripDisconnected = kTRUE  ) const

virtual

This helper function finds and collects all constraints terms of all component p.d.f.s and returns a RooArgSet with all those terms.

Definition at line 3507 of file RooAbsPdf.cxx.

getConstraints()

virtual RooArgSet * RooAbsPdf::getConstraints ( const RooArgSet &  , RooArgSet &  , Bool_t    ) const

inlinevirtual

Reimplemented in RooProdPdf.

Definition at line 184 of file RooAbsPdf.h.

getGenerator()

Int_t RooAbsPdf::getGenerator ( const RooArgSet &  directVars, RooArgSet &  generateVars, Bool_t  staticInitOK = kTRUE  ) const

virtual

Load generatedVars with the subset of directVars that we can generate events for, and return a code that specifies the generator algorithm we will use.

A code of zero indicates that we cannot generate any of the directVars (in this case, nothing should be added to generatedVars). Any non-zero codes will be passed to our generateEvent() implementation, but otherwise its value is arbitrary. The default implemetation of this method returns zero. Subclasses will usually implement this method using the matchArgs() methods to advertise the algorithms they provide.

Reimplemented in RooBinSamplingPdf, RooBCPEffDecay, RooBCPGenDecay, RooBDecay, RooBMixDecay, RooDecay, RooGamma, RooGaussModel, RooGExpModel, RooLandau, RooLognormal, RooNonCPEigenDecay, RooUniform, RooAddModel, RooMultiVarGaussian, RooProdPdf, RooProjectedPdf, RooTruthModel, RooGaussian, RooJohnson, and RooPoisson.

Definition at line 2398 of file RooAbsPdf.cxx.

getGeneratorConfig()

const RooNumGenConfig * RooAbsPdf::getGeneratorConfig

(

)

const

Return the numeric MC generator configuration used for this object.

If a specialized configuration was associated with this object, that configuration is returned, otherwise the default configuration for all RooAbsReals is returned

Definition at line 3567 of file RooAbsPdf.cxx.

getLogProbabilities()

RooSpan< const double > RooAbsPdf::getLogProbabilities	(	RooBatchCompute::RunContext &	evalData,
		const RooArgSet *	normSet = nullptr
	)		const

Compute the log-likelihoods for all events in the requested batch.

The arguments are passed over to getValues().

Parameters

[in]	evalData	Struct with data that should be used for evaluation.
[in]	normSet	Optional normalisation set to be used during computations.

Returns

Returns a batch of doubles that contains the log probabilities.

Definition at line 736 of file RooAbsPdf.cxx.

getLogVal()

Double_t RooAbsPdf::getLogVal ( const RooArgSet *  set = 0 ) const

virtual

Return the log of the current value with given normalization An error message is printed if the argument of the log is negative.

Reimplemented in RooHistConstraint.

Definition at line 656 of file RooAbsPdf.cxx.

getLogValBatch()

RooSpan< const double > RooAbsPdf::getLogValBatch	(	std::size_t	begin,
		std::size_t	batchSize,
		const RooArgSet *	normSet = nullptr
	)		const

getNorm() [1/2]

Double_t RooAbsPdf::getNorm ( const RooArgSet &  nset ) const

inline

Get normalisation term needed to normalise the raw values returned by getVal().

Note that getVal(normalisationVariables) will automatically apply the normalisation term returned here.

Parameters

nset	Set of variables to normalise over.

Definition at line 211 of file RooAbsPdf.h.

getNorm() [2/2]

Double_t RooAbsPdf::getNorm ( const RooArgSet *  nset = 0 ) const

virtual

Get normalisation term needed to normalise the raw values returned by getVal().

Note that getVal(normalisationVariables) will automatically apply the normalisation term returned here.

Parameters

nset	Set of variables to normalise over.

Reimplemented in RooResolutionModel.

Definition at line 464 of file RooAbsPdf.cxx.

getNormIntegral()

const RooAbsReal * RooAbsPdf::getNormIntegral ( const RooArgSet &  nset ) const

inline

Definition at line 266 of file RooAbsPdf.h.

getNormObj()

const RooAbsReal * RooAbsPdf::getNormObj ( const RooArgSet *  set, const RooArgSet *  iset, const TNamed *  rangeName = 0  ) const

virtual

Return pointer to RooAbsReal object that implements calculation of integral over observables iset in range rangeName, optionally taking the integrand normalized over observables nset.

Definition at line 488 of file RooAbsPdf.cxx.

getValues()

RooSpan< const double > RooAbsPdf::getValues ( RooBatchCompute::RunContext &  evalData, const RooArgSet *  normSet  ) const

virtual

Compute batch of values for given input data, and normalise by integrating over the observables in normSet.

Store result in evalData, and return a span pointing to it. This uses evaluateSpan() to perform an (unnormalised) computation of data points. This computation is finalised by normalising the bare values, and by checking for computation errors. Derived classes should override evaluateSpan() to reach maximal performance.

Parameters

[in,out]	evalData	Object holding data that should be used in computations. Results are also stored here.
[in]	normSet	If not nullptr, normalise results by integrating over the variables in this set. The normalisation is only computed once, and applied to the full batch.

Returns

RooSpan with probabilities. The memory of this span is owned by evalData.

See also

RooAbsReal::getValues().

Reimplemented from RooAbsReal.

Definition at line 351 of file RooAbsPdf.cxx.

getValV()

Double_t RooAbsPdf::getValV ( const RooArgSet *  nset = 0 ) const

virtual

Return current value, normalized by integrating over the observables in nset.

If nset is 0, the unnormalized value is returned. All elements of nset must be lvalues.

Unnormalized values are not cached. Doing so would be complicated as _norm->getVal() could spoil the cache and interfere with returning the cached return value. Since unnormalized calls are typically done in integration calls, there is no performance hit.

Reimplemented from RooAbsReal.

Reimplemented in RooResolutionModel, and RooAbsCachedPdf.

Definition at line 279 of file RooAbsPdf.cxx.

initGenerator()

void RooAbsPdf::initGenerator ( Int_t  code )

virtual

Interface for one-time initialization to setup the generator for the specified code.

Reimplemented in RooBCPEffDecay, RooBCPGenDecay, RooBMixDecay, RooNonCPEigenDecay, RooMultiVarGaussian, RooProdPdf, RooBinSamplingPdf, and RooProjectedPdf.

Definition at line 2408 of file RooAbsPdf.cxx.

isDirectGenSafe()

Bool_t RooAbsPdf::isDirectGenSafe ( const RooAbsArg &  arg ) const

virtual

Check if given observable can be safely generated using the pdfs internal generator mechanism (if that existsP).

Observables on which a PDF depends via more than route are not safe for use with internal generators because they introduce correlations not known to the internal generator

Reimplemented in RooAbsAnaConvPdf, RooAddModel, RooProdPdf, and RooBinSamplingPdf.

Definition at line 2433 of file RooAbsPdf.cxx.

logBatchComputationErrors()

void RooAbsPdf::logBatchComputationErrors ( RooSpan< const double > &  outputs, std::size_t  begin  ) const

private

Scan through outputs and fix+log all nans and negative values.

Parameters

[in,out]	outputs	Array to be scanned & fixed.
[in]	begin	Begin of event range. Only needed to print the correct event number where the error occurred.

Definition at line 713 of file RooAbsPdf.cxx.

mustBeExtended()

Bool_t RooAbsPdf::mustBeExtended ( ) const

inline

If true PDF must provide extended likelihood term.

Definition at line 242 of file RooAbsPdf.h.

normRange()

const char * RooAbsPdf::normRange ( ) const

inline

Definition at line 261 of file RooAbsPdf.h.

paramOn() [1/3]

RooPlot * RooAbsPdf::paramOn ( RooPlot *  frame, const RooAbsData *  data, const char *  label = "", Int_t  sigDigits = 2, Option_t *  options = "NELU", Double_t  xmin = 0.50, Double_t  xmax = 0.99, Double_t  ymax = 0.95  )

virtual

Deprecated:

Obsolete, provided for backward compatibility. Don't use.

Definition at line 3236 of file RooAbsPdf.cxx.

paramOn() [2/3]

RooPlot * RooAbsPdf::paramOn ( RooPlot *  frame, const RooArgSet &  params, Bool_t  showConstants = kFALSE, const char *  label = "", Int_t  sigDigits = 2, Option_t *  options = "NELU", Double_t  xmin = 0.65, Double_t  xmax = 0.99, Double_t  ymax = 0.95, const RooCmdArg *  formatCmd = 0  )

privatevirtual

Add a text box with the current parameter values and their errors to the frame.

Observables of this PDF appearing in the 'data' dataset will be omitted.

An optional label will be inserted if passed. Multi-line labels can be generated by adding \n to the label string. Use 'sigDigits' to modify the default number of significant digits printed. The 'xmin,xmax,ymax' values specify the initial relative position of the text box in the plot frame.

Definition at line 3257 of file RooAbsPdf.cxx.

paramOn() [3/3]

RooPlot * RooAbsPdf::paramOn ( RooPlot *  frame, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none()  )

virtual

Add a box with parameter values (and errors) to the specified frame.

The following named arguments are supported.

Type of CmdArg	Effect on parameter box
Parameters(const RooArgSet& param)	Only the specified subset of parameters will be shown. By default all non-constant parameters are shown.
ShowConstants(Bool_t flag)	Also display constant parameters
Format(const char* optStr)	Deprecated: Classing parameter formatting options, provided for backward compatibility
Format(const char* what,...)	Parameter formatting options. Parameter Format const char* what Controls what is shown. "N" adds name, "E" adds error, "A" shows asymmetric error, "U" shows unit, "H" hides the value FixedPrecision(int n) Controls precision, set fixed number of digits AutoPrecision(int n) Controls precision. Number of shown digits is calculated from error + n specified additional digits (1 is sensible default)
Label(const chat* label)	Add label to parameter box. Use \n for multi-line labels.
Layout(Double_t xmin, Double_t xmax, Double_t ymax)	Specify relative position of left/right side of box and top of box. Coordinates are given as position on the pad between 0 and 1. The lower end of the box is calculated automatically from the number of lines in the box.

Example use:

pdf.paramOn(frame, Label("fit result"), Format("NEU",AutoPrecision(1)) ) ;

Definition at line 3166 of file RooAbsPdf.cxx.

plotOn() [1/3]

virtual RooPlot * RooAbsPdf::plotOn ( RooPlot *  frame, const RooCmdArg &  arg1 = RooCmdArg::none(), const RooCmdArg &  arg2 = RooCmdArg::none(), const RooCmdArg &  arg3 = RooCmdArg::none(), const RooCmdArg &  arg4 = RooCmdArg::none(), const RooCmdArg &  arg5 = RooCmdArg::none(), const RooCmdArg &  arg6 = RooCmdArg::none(), const RooCmdArg &  arg7 = RooCmdArg::none(), const RooCmdArg &  arg8 = RooCmdArg::none(), const RooCmdArg &  arg9 = RooCmdArg::none(), const RooCmdArg &  arg10 = RooCmdArg::none()  ) const

inlinevirtual

Helper calling plotOn(RooPlot*, RooLinkedList&) const.

Reimplemented from RooAbsReal.

Reimplemented in RooSimultaneous, and RooSimultaneous.

Definition at line 121 of file RooAbsPdf.h.

plotOn() [2/3]

RooPlot * RooAbsPdf::plotOn ( RooPlot *  frame, PlotOpt  o  ) const

protectedvirtual

Plot oneself on 'frame'.

In addition to features detailed in RooAbsReal::plotOn(), the scale factor for a PDF can be interpreted in three different ways. The interpretation is controlled by ScaleType

Relative  -  Scale factor is applied on top of PDF normalization scale factor
NumEvent  -  Scale factor is interpreted as a number of events. The surface area
             under the PDF curve will match that of a histogram containing the specified
             number of event
Raw       -  Scale factor is applied to the raw (projected) probability density.
             Not too useful, option provided for completeness.

Reimplemented from RooAbsReal.

Reimplemented in RooSimultaneous.

Definition at line 3101 of file RooAbsPdf.cxx.

plotOn() [3/3]

RooPlot * RooAbsPdf::plotOn ( RooPlot *  frame, RooLinkedList &  cmdList  ) const

virtual

Plot (project) PDF on specified frame.

• If a PDF is plotted in an empty frame, it will show a unit-normalized curve in the frame variable. When projecting a multi- dimensional PDF onto the frame axis, hidden parameters are taken are taken at their current value.
• If a PDF is plotted in a frame in which a dataset has already been plotted, it will show a projection integrated over all variables that were present in the shown dataset (except for the one on the x-axis). The normalization of the curve will be adjusted to the event count of the plotted dataset. An informational message will be printed for each projection step that is performed.
• If a PDF is plotted in a frame showing a dataset after a fit, the above happens, but the PDF will be drawn and normalised only in the fit range. If this is not desired, plotting and normalisation range can be overridden using Range() and NormRange() as documented in the table below.

This function takes the following named arguments (for more arguments, see also RooAbsReal::plotOn(RooPlot*,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&, const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&,const RooCmdArg&, const RooCmdArg&) const )

Type of argument	Controlling normalisation
NormRange(const char* name)	Calculate curve normalization w.r.t. specified range[s]. See the tutorial rf212_plottingInRanges_blinding.C Note Setting a Range() by default also sets a NormRange() on the same range, meaning that the PDF is plotted and normalised in the same range. Overriding this can be useful if the PDF was fit in limited range[s] such as side bands, NormRange("sidebandLeft,sidebandRight"), but the PDF should be drawn in the full range, Range("").
Normalization(Double_t scale, ScaleType code)	Adjust normalization by given scale factor. Interpretation of number depends on code: RooAbsReal::Relative: relative adjustment factor RooAbsReal::NumEvent: scale to match given number of events.
Type of argument	Misc control
Name(const chat* name)	Give curve specified name in frame. Useful if curve is to be referenced later
Asymmetry(const RooCategory& c)	Show the asymmetry of the PDF in given two-state category \( \frac{F(+)-F(-)}{F(+)+F(-)} \) rather than the PDF projection. Category must have two states with indices -1 and +1 or three states with indeces -1,0 and +1.
ShiftToZero(Bool_t flag)	Shift entire curve such that lowest visible point is at exactly zero. Mostly useful when plotting -log(L) or \( \chi^2 \) distributions
AddTo(const char* name, double_t wgtSelf, double_t wgtOther)	Create a projection of this PDF onto the x-axis, but instead of plotting it directly, add it to an existing curve with given name (and relative weight factors).
Components(const char* names)	When plotting sums of PDFs, plot only the named components (e.g. only the signal of a signal+background model).
Components(const RooArgSet& compSet)	As above, but pass a RooArgSet of the components themselves.
Type of argument	Projection control
Slice(const RooArgSet& set)	Override default projection behaviour by omitting observables listed in set from the projection, i.e. by not integrating over these. Slicing is usually only sensible in discrete observables, by e.g. creating a slice of the PDF at the current value of the category observable.
Slice(RooCategory& cat, const char* label)	Override default projection behaviour by omitting the specified category observable from the projection, i.e., by not integrating over all states of this category. The slice is positioned at the given label value. Multiple Slice() commands can be given to specify slices in multiple observables, e.g. pdf.plotOn(frame, Slice(tagCategory, "2tag"), Slice(jetCategory, "3jet"));
Project(const RooArgSet& set)	Override default projection behaviour by projecting over observables given in set, completely ignoring the default projection behavior. Advanced use only.
ProjWData(const RooAbsData& d)	Override default projection technique (integration). For observables present in given dataset projection of PDF is achieved by constructing an average over all observable values in given set. Consult RooFit plotting tutorial for further explanation of meaning & use of this technique
ProjWData(const RooArgSet& s, const RooAbsData& d)	As above but only consider subset 's' of observables in dataset 'd' for projection through data averaging
ProjectionRange(const char* rn)	When projecting the PDF onto the plot axis, it is usually integrated over the full range of the invisible variables. The ProjectionRange overrides this. This is useful if the PDF was fitted in a limited range in y, but it is now projected onto x. If ProjectionRange("<name of fit range>") is passed, the projection is normalised correctly.
Type of argument	Plotting control
LineStyle(Int_t style)	Select line style by ROOT line style code, default is solid
LineColor(Int_t color)	Select line color by ROOT color code, default is blue
LineWidth(Int_t width)	Select line with in pixels, default is 3
FillStyle(Int_t style)	Select fill style, default is not filled. If a filled style is selected, also use VLines() to add vertical downward lines at end of curve to ensure proper closure
FillColor(Int_t color)	Select fill color by ROOT color code
Range(const char* name)	Only draw curve in range defined by given name. Multiple comma-separated ranges can be given. An empty string "" or nullptr means to use the default range of the variable.
Range(double lo, double hi)	Only draw curve in specified range
VLines()	Add vertical lines to y=0 at end points of curve
Precision(Double_t eps)	Control precision of drawn curve w.r.t to scale of plot, default is 1e-3. A higher precision will result in more and more densely spaced curve points. A negative precision value will disable adaptive point spacing and restrict sampling to the grid point of points defined by the binning of the plotted observable (recommended for expensive functions such as profile likelihoods)
Invisible(Bool_t flag)	Add curve to frame, but do not display. Useful in combination AddTo()
VisualizeError(const RooFitResult& fitres, Double_t Z=1, Bool_t linearMethod=kTRUE)	Visualize the uncertainty on the parameters, as given in fitres, at 'Z' sigma.
VisualizeError(const RooFitResult& fitres, const RooArgSet& param, Double_t Z=1, Bool_t linearMethod=kTRUE)	Visualize the uncertainty on the subset of parameters 'param', as given in fitres, at 'Z' sigma.

Reimplemented from RooAbsReal.

Reimplemented in RooSimultaneous, and RooSimultaneous.

Definition at line 2808 of file RooAbsPdf.cxx.

prepareMultiGen()

RooAbsPdf::GenSpec * RooAbsPdf::prepareMultiGen	(	const RooArgSet &	whatVars,
		const RooCmdArg &	arg1 = RooCmdArg::none(),
		const RooCmdArg &	arg2 = RooCmdArg::none(),
		const RooCmdArg &	arg3 = RooCmdArg::none(),
		const RooCmdArg &	arg4 = RooCmdArg::none(),
		const RooCmdArg &	arg5 = RooCmdArg::none(),
		const RooCmdArg &	arg6 = RooCmdArg::none()
	)

Prepare GenSpec configuration object for efficient generation of multiple datasets from identical specification.

Note

This method does not perform any generation. To generate according to generations specification call RooAbsPdf::generate(RooAbsPdf::GenSpec&) const

Details copied from RooAbsPdf::generate():

Generate the specified number of events or expectedEvents() if not specified.

Parameters

[in]	whatVars	Choose variables in which to generate events. Variables not listed here will remain constant and not be used for event generation.
[in]	argxx	Optional RooCmdArg() to change behaviour of generate().

Returns

RooDataSet *, owned by caller.

Any variables of this PDF that are not in whatVars will use their current values and be treated as fixed parameters. Returns zero in case of an error.

Type of CmdArg	Effect on generate
Name(const char* name)	Name of the output dataset
Verbose(Bool_t flag)	Print informational messages during event generation
NumEvent(int nevt)	Generate specified number of events
Extended()	If no number of events to be generated is given, use expected number of events from extended likelihood term. This evidently only works for extended PDFs.
GenBinned(const char* tag)	Use binned generation for all component pdfs that have 'setAttribute(tag)' set
AutoBinned(Bool_t flag)	Automatically deploy binned generation for binned distributions (e.g. RooHistPdf, sums and products of RooHistPdfs etc) Note Datasets that are generated in binned mode are returned as weighted unbinned datasets. This means that for each bin, there will be one event in the dataset with a weight corresponding to the (possibly randomised) bin content.
AllBinned()	As above, but for all components. Note The notion of components is only meaningful for simultaneous PDFs as binned generation is always executed at the top-level node for a regular PDF, so for those it only mattes that the top-level node is tagged.
ProtoData(const RooDataSet& data, Bool_t randOrder)	Use specified dataset as prototype dataset. If randOrder in ProtoData() is set to true, the order of the events in the dataset will be read in a random order if the requested number of events to be generated does not match the number of events in the prototype dataset. Note If ProtoData() is used, the specified existing dataset as a prototype: the new dataset will contain the same number of events as the prototype (unless otherwise specified), and any prototype variables not in whatVars will be copied into the new dataset for each generated event and also used to set our PDF parameters. The user can specify a number of events to generate that will override the default. The result is a copy of the prototype dataset with only variables in whatVars randomized. Variables in whatVars that are not in the prototype will be added as new columns to the generated dataset.

Accessing the underlying event generator

Depending on the fit model (if it is difficult to sample), it may be necessary to change generator settings. For the default generator (RooFoamGenerator), the number of samples or cells could be increased by e.g. using myPdf->specialGeneratorConfig()->getConfigSection("RooFoamGenerator").setRealValue("nSample",1e4);

The foam generator e.g. has the following config options:

• nCell[123N]D
• nSample
• chatLevel

  See also

  rf902_numgenconfig.C

Definition at line 2162 of file RooAbsPdf.cxx.

printMultiline()

void RooAbsPdf::printMultiline ( std::ostream &  os, Int_t  contents, Bool_t  verbose = kFALSE, TString  indent = ""  ) const

virtual

Print multi line detailed information of this RooAbsPdf.

Reimplemented from RooAbsReal.

Reimplemented in RooGenericPdf, RooResolutionModel, and RooAbsAnaConvPdf.

Definition at line 1963 of file RooAbsPdf.cxx.

printValue()

void RooAbsPdf::printValue ( std::ostream &  os ) const

virtual

Print value of p.d.f, also print normalization integral that was last used, if any.

Reimplemented from RooAbsReal.

Definition at line 1944 of file RooAbsPdf.cxx.

randomizeProtoOrder()

Int_t * RooAbsPdf::randomizeProtoOrder ( Int_t  nProto, Int_t  nGen, Bool_t  resample = kFALSE  ) const

protected

Return lookup table with randomized access order for prototype events, given nProto prototype data events and nGen events that will actually be accessed.

Definition at line 2354 of file RooAbsPdf.cxx.

redirectServersHook()

virtual Bool_t RooAbsPdf::redirectServersHook ( const RooAbsCollection &  , Bool_t  , Bool_t  , Bool_t    )

inlineprotectedvirtual

Function that is called at the end of redirectServers().

Can be overloaded to inject some class-dependent behavior after server redirection, e.g. resetting of caches. The return value is meant to be an error flag, so in case something goes wrong the function should return true.

See also

redirectServers() For a detailed explanation of the function parameters.

Parameters

[in]	newServerList	One of the original parameters passed to redirectServers().
[in]	mustReplaceAll	One of the original parameters passed to redirectServers().
[in]	nameChange	One of the original parameters passed to redirectServers().
[in]	isRecursiveStep	One of the original parameters passed to redirectServers().

Reimplemented from RooAbsArg.

Reimplemented in RooAddPdf, RooProdPdf, RooFFTConvPdf, RooGenericPdf, RooResolutionModel, and RooProjectedPdf.

Definition at line 336 of file RooAbsPdf.h.

resetErrorCounters()

void RooAbsPdf::resetErrorCounters ( Int_t  resetValue = 10 )

virtual

Reset error counter to given value, limiting the number of future error messages for this pdf to 'resetValue'.

Reimplemented in RooAddModel, and RooAddPdf.

Definition at line 618 of file RooAbsPdf.cxx.

selfNormalized()

virtual Bool_t RooAbsPdf::selfNormalized ( ) const

inlinevirtual

Shows if a PDF is self-normalized, which means that no attempt is made to add a normalization term.

Always returns false, unless a PDF overrides this function.

Reimplemented in RooIntegralMorph, RooMomentMorph, RooMomentMorphND, RooAbsCachedPdf, RooAddModel, RooAddPdf, RooExtendPdf, RooHistPdf, RooProdPdf, RooProjectedPdf, RooRealSumPdf, RooSimultaneous, and RooBinSamplingPdf.

Definition at line 227 of file RooAbsPdf.h.

setGeneratorConfig() [1/2]

void RooAbsPdf::setGeneratorConfig

(

)

Remove the specialized numeric MC generator configuration associated with this object.

Definition at line 3594 of file RooAbsPdf.cxx.

setGeneratorConfig() [2/2]

void RooAbsPdf::setGeneratorConfig

(

const RooNumGenConfig &

config

)

Set the given configuration as default numeric MC generator configuration for this object.

Definition at line 3580 of file RooAbsPdf.cxx.

setNormRange()

void RooAbsPdf::setNormRange

(

const char *

rangeName

)

Definition at line 3625 of file RooAbsPdf.cxx.

setNormRangeOverride()

void RooAbsPdf::setNormRangeOverride

(

const char *

rangeName

)

Definition at line 3642 of file RooAbsPdf.cxx.

setTraceCounter()

void RooAbsPdf::setTraceCounter	(	Int_t	value,
		Bool_t	allNodes = kFALSE
	)

Reset trace counter to given value, limiting the number of future trace messages for this pdf to 'value'.

Definition at line 630 of file RooAbsPdf.cxx.

specialGeneratorConfig() [1/2]

RooNumGenConfig * RooAbsPdf::specialGeneratorConfig

(

)

const

Returns the specialized integrator configuration for this RooAbsReal.

If this object has no specialized configuration, a null pointer is returned

Definition at line 3539 of file RooAbsPdf.cxx.

specialGeneratorConfig() [2/2]

RooNumGenConfig * RooAbsPdf::specialGeneratorConfig

(

Bool_t

createOnTheFly

)

Returns the specialized integrator configuration for this RooAbsReal.

If this object has no specialized configuration, a null pointer is returned, unless createOnTheFly is kTRUE in which case a clone of the default integrator configuration is created, installed as specialized configuration, and returned

Definition at line 3552 of file RooAbsPdf.cxx.

syncNormalization()

Bool_t RooAbsPdf::syncNormalization ( const RooArgSet *  nset, Bool_t  adjustProxies = kTRUE  ) const

protectedvirtual

Verify that the normalization integral cached with this PDF is valid for given set of normalization observables.

If not, the cached normalization integral (if any) is deleted and a new integral is constructed for use with 'nset'. Elements in 'nset' can be discrete and real, but must be lvalues.

For functions that declare to be self-normalized by overloading the selfNormalized() function, a unit normalization is always constructed.

Definition at line 523 of file RooAbsPdf.cxx.

traceEvalPdf()

Bool_t RooAbsPdf::traceEvalPdf ( Double_t  value ) const

private

Check that passed value is positive and not 'not-a-number'.

If not, print an error, until the error counter reaches its set maximum.

Definition at line 429 of file RooAbsPdf.cxx.

verboseEval() [1/2]

Int_t RooAbsPdf::verboseEval ( )

static

Return global level of verbosity for p.d.f. evaluations.

Definition at line 3339 of file RooAbsPdf.cxx.

verboseEval() [2/2]

void RooAbsPdf::verboseEval ( Int_t  stat )

static

Change global level of verbosity for p.d.f. evaluations.

Definition at line 3329 of file RooAbsPdf.cxx.

Friends And Related Symbol Documentation

CacheElem

friend class CacheElem

friend

Definition at line 334 of file RooAbsPdf.h.

RooAbsAnaConvPdf

friend class RooAbsAnaConvPdf

friend

Definition at line 319 of file RooAbsPdf.h.

RooAddGenContext

friend class RooAddGenContext

friend

Definition at line 298 of file RooAbsPdf.h.

RooAddGenContextOrig

friend class RooAddGenContextOrig

friend

Definition at line 304 of file RooAbsPdf.h.

RooConvGenContext

friend class RooConvGenContext

friend

Definition at line 302 of file RooAbsPdf.h.

RooEffGenContext

friend class RooEffGenContext

friend

Definition at line 297 of file RooAbsPdf.h.

RooExtendPdf

friend class RooExtendPdf

friend

Definition at line 310 of file RooAbsPdf.h.

RooMCStudy

friend class RooMCStudy

friend

Definition at line 306 of file RooAbsPdf.h.

RooProdGenContext

friend class RooProdGenContext

friend

Definition at line 299 of file RooAbsPdf.h.

RooProdPdf

friend class RooProdPdf

friend

Definition at line 305 of file RooAbsPdf.h.

RooRealIntegral

friend class RooRealIntegral

friend

Definition at line 314 of file RooAbsPdf.h.

RooSimGenContext

friend class RooSimGenContext

friend

Definition at line 300 of file RooAbsPdf.h.

RooSimSplitGenContext

friend class RooSimSplitGenContext

friend

Definition at line 301 of file RooAbsPdf.h.

RooSimultaneous

friend class RooSimultaneous

friend

Definition at line 303 of file RooAbsPdf.h.

Member Data Documentation

_errorCount

Int_t RooAbsPdf::_errorCount

mutableprotected

Definition at line 352 of file RooAbsPdf.h.

_negCount

Int_t RooAbsPdf::_negCount

mutableprotected

Definition at line 354 of file RooAbsPdf.h.

_norm

RooAbsReal* RooAbsPdf::_norm = nullptr

mutableprotected

Definition at line 321 of file RooAbsPdf.h.

_normMgr

RooObjCacheManager RooAbsPdf::_normMgr

mutableprotected

Definition at line 332 of file RooAbsPdf.h.

_normRange

TString RooAbsPdf::_normRange

protected

MC generator configuration specific for this object.

Definition at line 360 of file RooAbsPdf.h.

_normRangeOverride

TString RooAbsPdf::_normRangeOverride

staticprotected

Definition at line 361 of file RooAbsPdf.h.

_normSet

RooArgSet const* RooAbsPdf::_normSet = nullptr

mutableprotected

Normalization integral (owned by _normMgr)

Definition at line 322 of file RooAbsPdf.h.

_rawValue

Double_t RooAbsPdf::_rawValue

mutableprotected

Definition at line 320 of file RooAbsPdf.h.

_selectComp

Bool_t RooAbsPdf::_selectComp

protected

Definition at line 356 of file RooAbsPdf.h.

_specGeneratorConfig

RooNumGenConfig* RooAbsPdf::_specGeneratorConfig

protected

Definition at line 358 of file RooAbsPdf.h.

_traceCount

Int_t RooAbsPdf::_traceCount

mutableprotected

Definition at line 353 of file RooAbsPdf.h.

_verboseEval

Int_t RooAbsPdf::_verboseEval = 0

staticprotected

Definition at line 315 of file RooAbsPdf.h.

Libraries for RooAbsPdf:

---

The documentation for this class was generated from the following files:

• roofit/roofitcore/inc/RooAbsPdf.h
• roofit/roofitcore/src/RooAbsPdf.cxx