16#ifndef ROO_SEGMENTED_INTEGRATOR_1D
17#define ROO_SEGMENTED_INTEGRATOR_1D
#define ClassDef(name, id)
Abstract interface for evaluating a real-valued function of one real variable and performing numerica...
RooAbsIntegrator is the abstract interface for integrators of real-valued functions that implement th...
virtual Bool_t setLimits(Double_t *, Double_t *)
RooIntegrator1D implements an adaptive one-dimensional numerical integration algorithm.
RooNumIntConfig holds the configuration parameters of the various numeric integrators used by RooReal...
RooNumIntFactory is a factory to instantiate numeric integrators from a given function binding and a ...
RooSegmentedIntegrator1D implements an adaptive one-dimensional numerical integration algorithm.
Bool_t _useIntegrandLimits
static void registerIntegrator(RooNumIntFactory &fact)
Register RooSegmentedIntegrator1D, its parameters, dependencies and capabilities with RooNumIntFactor...
Bool_t setLimits(Double_t *xmin, Double_t *xmax)
Change our integration limits.
virtual Bool_t setUseIntegrandLimits(Bool_t flag)
Interface function that allows to defer limit definition to integrand definition.
virtual ~RooSegmentedIntegrator1D()
Destructor.
virtual Bool_t canIntegrate2D() const
virtual Bool_t canIntegrate1D() const
Bool_t initialize()
One-time integrator initialization.
virtual Double_t integral(const Double_t *yvec=0)
Evaluate integral at given function binding parameter values.
virtual RooAbsIntegrator * clone(const RooAbsFunc &function, const RooNumIntConfig &config) const
Virtual constructor with given function and configuration. Needed by RooNumIntFactory.
virtual Bool_t canIntegrateND() const
virtual Bool_t checkLimits() const
Check that our integration range is finite and otherwise return kFALSE.
RooSegmentedIntegrator1D()
Constructor.
virtual Bool_t canIntegrateOpenEnded() const
RooIntegrator1D ** _array
void function(const Char_t *name_, T fun, const Char_t *docstring=0)