24#include "RConfigure.h"
55 for (
int i = 0; i < npar; ++i) {
67 if (&rhs ==
this)
return *
this;
123 void SetParNames(
const char *name0 =
"p0",
const char *name1 =
"p1",
const char *name2 =
"p2",
124 const char *name3 =
"p3",
const char *name4 =
"p4",
const char *name5 =
"p5",
125 const char *name6 =
"p6",
const char *name7 =
"p7",
const char *name8 =
"p8",
126 const char *name9 =
"p9",
const char *name10 =
"p10");
153 static void Build(
TF1 *
f, Func *func);
162 template<
typename F,
typename T>
167 template<
typename F,
typename T>
172 template<
typename F,
typename T>
177 template<
typename F,
typename T>
184 template<
typename T,
typename F>
190 template<
typename T,
typename F>
191 auto GetTheRightOp(
T(
F::*opPtr)(
const T *,
const double *)
const) ->
decltype(opPtr)
196 template<
typename T,
typename F>
202 template<
typename T,
typename F>
283 TString &formula,
int termStart,
int termEnd,
335 fType = std::is_same<T, double>::value ? TF1::EFType::kTemplScalar : TF1::EFType::kTemplVec;
366 template <
typename Func>
375 template <
typename Func>
391 template <
class PtrObj,
typename MemFn>
397 template <
class PtrObj,
typename MemFn>
611 template <
class PtrObj,
typename MemFn>
613 template <
typename Func>
647 if (
fFormula)
fFormula->
SetParameters(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, p10);
648 else fParams->
SetParameters(p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, p10);
652 virtual void SetParNames(
const char *name0 =
"p0",
const char *name1 =
"p1",
const char *name2 =
"p2",
653 const char *name3 =
"p3",
const char *name4 =
"p4",
const char *name5 =
"p5",
654 const char *name6 =
"p6",
const char *name7 =
"p7",
const char *name8 =
"p8",
655 const char *name9 =
"p9",
const char *name10 =
"p10");
667 virtual void SetTitle(
const char *title =
"");
673 Warning(
"SetVectorized",
"Can only set vectorized flag on formula-based TF1");
718 f->fType = std::is_same<Fnc_t, double>::value? TF1::EFType::kTemplScalar : TF1::EFType::kTemplVec;
727 f->fType = std::is_same<Fnc_t, double>::value? TF1::EFType::kTemplScalar : TF1::EFType::kTemplVec;
738 f->fType = TF1::EFType::kFormula;
739 f->fFormula =
new TFormula(
"tf1lambda", formula,
f->fNdim,
f->fNpar,
false);
740 TString formulaExpression(formula);
766 if (
fType == EFType::kTemplVec ||
fType == EFType::kTemplScalar) {
768 }
else if (
fType == EFType::kFormula) {
791 assert(
fType == EFType::kTemplScalar ||
fType == EFType::kTemplVec);
805 assert(
fType == EFType::kTemplVec);
806 std::vector<ROOT::Double_v>
d(
fNdim);
809 for(
auto i=0; i<
fNdim; i++) {
814 res = ((TF1FunctorPointerImpl<ROOT::Double_v> *)
fFunctor)->fImpl(
d.data(), params);
819 return vecCore::Get<ROOT::Double_v>(res, 0);
832template <
typename Func>
836 fType = EFType::kPtrScalarFreeFcn;
839template <
class PtrObj,
typename MemFn>
843 fType = EFType::kPtrScalarFreeFcn;
850 if (
fType == EFType::kTemplVec ||
fType == EFType::kTemplScalar) {
851 return GradientParTempl<T>(ipar,
x, eps);
853 return GradientParTempl<Double_t>(ipar, (
const Double_t *)
x, eps);
862 if (eps < 1e-10 || eps > 1) {
863 Warning(
"Derivative",
"parameter esp=%g out of allowed range[1e-10,1], reset to 0.01", eps);
871 std::vector<Double_t> parametersCopy(parameters, parameters +
GetNpar());
872 parameters = parametersCopy.data();
875 T f1, f2, g1, g2, d0, d2;
878 if (al * bl != 0 && al >= bl) {
892 parameters[ipar] = par0 +
h;
894 parameters[ipar] = par0 -
h;
896 parameters[ipar] = par0 +
h / 2;
898 parameters[ipar] = par0 -
h / 2;
906 T grad = h2 * (4 * d2 - d0) / 3.;
909 parameters[ipar] = par0;
917 if (
fType == EFType::kTemplVec ||
fType == EFType::kTemplScalar) {
918 GradientParTempl<T>(
x, grad, eps);
926 if (eps < 1e-10 || eps > 1) {
927 Warning(
"Derivative",
"parameter esp=%g out of allowed range[1e-10,1], reset to 0.01", eps);
932 grad[ipar] = GradientParTempl<T>(ipar,
x, eps);
#define ClassDef(name, id)
class containg the result of the fit and all the related information (fitted parameter values,...
Param Functor class for Multidimensional functions.
Fill Area Attributes class.
Class to manage histogram axis.
Using a TBrowser one can browse all ROOT objects.
std::vector< Double_t > fParameters
const char * GetParName(Int_t iparam) const
const std::vector< double > & ParamsVec() const
Double_t GetParameter(const char *name) const
Double_t GetParameter(Int_t iparam) const
void SetParName(Int_t iparam, const char *name)
void SetParNames(const char *name0="p0", const char *name1="p1", const char *name2="p2", const char *name3="p3", const char *name4="p4", const char *name5="p5", const char *name6="p6", const char *name7="p7", const char *name8="p8", const char *name9="p9", const char *name10="p10")
Set parameter names.
TF1Parameters & operator=(const TF1Parameters &rhs)
void SetParameter(Int_t iparam, Double_t value)
void SetParameter(const char *name, Double_t value)
TF1Parameters(Int_t npar)
std::vector< std::string > fParNames
bool CheckIndex(Int_t i) const
void SetParameters(const Double_t *params)
Int_t GetParNumber(const char *name) const
Returns the parameter number given a name not very efficient but list of parameters is typically smal...
TF1Parameters(const TF1Parameters &rhs)
const Double_t * GetParameters() const
virtual Double_t GetMinimumX(Double_t xmin=0, Double_t xmax=0, Double_t epsilon=1.E-10, Int_t maxiter=100, Bool_t logx=false) const
Returns the X value corresponding to the minimum value of the function on the (xmin,...
virtual Double_t GetMinimum(Double_t xmin=0, Double_t xmax=0, Double_t epsilon=1.E-10, Int_t maxiter=100, Bool_t logx=false) const
Returns the minimum value of the function on the (xmin, xmax) interval.
virtual Double_t GetXmax() const
virtual void ReleaseParameter(Int_t ipar)
Release parameter number ipar If used in a fit, the parameter can vary freely.
virtual char * GetObjectInfo(Int_t px, Int_t py) const
Redefines TObject::GetObjectInfo.
virtual void SetParError(Int_t ipar, Double_t error)
Set error for parameter number ipar.
TF1AbsComposition * fComposition_ptr
Pointer to composition (NSUM or CONV)
static void RejectPoint(Bool_t reject=kTRUE)
Static function to set the global flag to reject points the fgRejectPoint global flag is tested by al...
virtual const Double_t * GetParErrors() const
virtual Int_t GetNumber() const
virtual Int_t GetNDF() const
Return the number of degrees of freedom in the fit the fNDF parameter has been previously computed du...
std::vector< Double_t > fParErrors
static void CalcGaussLegendreSamplingPoints(Int_t num, Double_t *x, Double_t *w, Double_t eps=3.0e-11)
Type safe interface (static method) The number of sampling points are taken from the TGraph.
static void AbsValue(Bool_t reject=kTRUE)
Static function: set the fgAbsValue flag.
virtual TH1 * GetHistogram() const
Return a pointer to the histogram used to visualise the function.
virtual const TFormula * GetFormula() const
virtual void GetParLimits(Int_t ipar, Double_t &parmin, Double_t &parmax) const
Return limits for parameter ipar.
virtual Double_t Derivative2(Double_t x, Double_t *params=0, Double_t epsilon=0.001) const
Returns the second derivative of the function at point x, computed by Richardson's extrapolation meth...
TMethodCall * fMethodCall
Pointer to histogram used for visualisation.
virtual Double_t GetParameter(const TString &name) const
TAxis * GetYaxis() const
Get y axis of the function.
virtual void GetParameters(Double_t *params)
virtual void SetNDF(Int_t ndf)
Set the number of degrees of freedom ndf should be the number of points used in a fit - the number of...
virtual Double_t GetParError(Int_t ipar) const
Return value of parameter number ipar.
static std::atomic< Bool_t > fgAddToGlobList
virtual Bool_t IsEvalNormalized() const
virtual Double_t GetVariable(const TString &name)
virtual Double_t Moment(Double_t n, Double_t a, Double_t b, const Double_t *params=0, Double_t epsilon=0.000001)
Return nth moment of function between a and b.
virtual void SetChisquare(Double_t chi2)
Double_t GetChisquare() const
virtual void SetMaximum(Double_t maximum=-1111)
Set the maximum value along Y for this function In case the function is already drawn,...
T GradientParTempl(Int_t ipar, const T *x, Double_t eps=0.01)
virtual TH1 * CreateHistogram()
virtual void Copy(TObject &f1) const
Copy this F1 to a new F1.
virtual void Update()
Called by functions such as SetRange, SetNpx, SetParameters to force the deletion of the associated h...
virtual Double_t GetProb() const
Return the fit probability.
void IntegrateForNormalization()
TF1(const char *name, std::function< T(const T *data, const Double_t *param)> &fcn, Double_t xmin=0, Double_t xmax=1, Int_t npar=0, Int_t ndim=1, EAddToList addToGlobList=EAddToList::kDefault)
virtual void SetTitle(const char *title="")
Set function title if title has the form "fffffff;xxxx;yyyy", it is assumed that the function title i...
virtual void SetFitResult(const ROOT::Fit::FitResult &result, const Int_t *indpar=0)
Set the result from the fit parameter values, errors, chi2, etc... Optionally a pointer to a vector (...
virtual Double_t GradientPar(Int_t ipar, const Double_t *x, Double_t eps=0.01)
Compute the gradient (derivative) wrt a parameter ipar.
TAxis * GetZaxis() const
Get z axis of the function. (In case this object is a TF2 or TF3)
virtual void SetRange(Double_t xmin, Double_t xmax)
Initialize the upper and lower bounds to draw the function.
virtual Double_t Mean(Double_t a, Double_t b, const Double_t *params=0, Double_t epsilon=0.000001)
virtual void SetParent(TObject *p=0)
virtual Double_t GetMaximumStored() const
virtual Int_t GetNpar() const
virtual TString GetExpFormula(Option_t *option="") const
std::vector< Double_t > fBeta
Array alpha. for each bin in x the deconvolution r of fIntegral.
TH1 * fHistogram
Parent object hooking this function (if one)
virtual Double_t IntegralMultiple(Int_t n, const Double_t *a, const Double_t *b, Int_t, Int_t maxpts, Double_t epsrel, Double_t &relerr, Int_t &nfnevl, Int_t &ifail)
std::unique_ptr< TF1AbsComposition > fComposition
virtual void SetParErrors(const Double_t *errors)
Set errors for all active parameters when calling this function, the array errors must have at least ...
virtual TH1 * DoCreateHistogram(Double_t xmin, Double_t xmax, Bool_t recreate=kFALSE)
Create histogram with bin content equal to function value computed at the bin center This histogram w...
virtual Double_t CentralMoment(Double_t n, Double_t a, Double_t b, const Double_t *params=0, Double_t epsilon=0.000001)
Return nth central moment of function between a and b (i.e the n-th moment around the mean value)
TObject * GetParent() const
virtual Double_t Variance(Double_t a, Double_t b, const Double_t *params=0, Double_t epsilon=0.000001)
static void SetCurrent(TF1 *f1)
Static function setting the current function.
void SetFunction(PtrObj &p, MemFn memFn)
std::vector< Double_t > fAlpha
Integral of function binned on fNpx bins.
TF1(const char *name, const PtrObj &p, MemFn memFn, Double_t xmin, Double_t xmax, Int_t npar, const char *, const char *, EAddToList addToGlobList=EAddToList::kDefault)
virtual Double_t Integral(Double_t a, Double_t b, Double_t epsrel=1.e-12)
IntegralOneDim or analytical integral.
virtual Double_t Derivative(Double_t x, Double_t *params=0, Double_t epsilon=0.001) const
Returns the first derivative of the function at point x, computed by Richardson's extrapolation metho...
virtual Int_t GetNumberFitPoints() const
static Double_t DerivativeError()
Static function returning the error of the last call to the of Derivative's functions.
virtual void Paint(Option_t *option="")
Paint this function with its current attributes.
std::vector< Double_t > fParMin
static void InitStandardFunctions()
Create the basic function objects.
virtual void SetNpx(Int_t npx=100)
Set the number of points used to draw the function.
virtual Double_t * GetParameters() const
virtual Int_t DistancetoPrimitive(Int_t px, Int_t py)
Compute distance from point px,py to a function.
int TermCoeffLength(TString &term)
static Bool_t fgRejectPoint
virtual ~TF1()
TF1 default destructor.
virtual void SetNumberFitPoints(Int_t npfits)
virtual Double_t GetMinimumStored() const
virtual void SetNormalized(Bool_t flag)
virtual Double_t EvalPar(const Double_t *x, const Double_t *params=0)
Evaluate function with given coordinates and parameters.
TF1 & operator=(const TF1 &rhs)
Operator =.
virtual Int_t GetNumberFreeParameters() const
Return the number of free parameters.
TF1(const char *name, const PtrObj &p, MemFn memFn, Double_t xmin, Double_t xmax, Int_t npar, Int_t ndim=1, EAddToList addToGlobList=EAddToList::kDefault)
virtual void SavePrimitive(std::ostream &out, Option_t *option="")
Save primitive as a C++ statement(s) on output stream out.
virtual TFormula * GetFormula()
virtual void InitArgs(const Double_t *x, const Double_t *params)
Initialize parameters addresses.
TF1(const char *name, Func f, Double_t xmin, Double_t xmax, Int_t npar, const char *, EAddToList addToGlobList=EAddToList::kDefault)
virtual Double_t IntegralMultiple(Int_t n, const Double_t *a, const Double_t *b, Int_t maxpts, Double_t epsrel, Double_t epsabs, Double_t &relerr, Int_t &nfnevl, Int_t &ifail)
This function computes, to an attempted specified accuracy, the value of the integral.
TMethodCall * GetMethodCall() const
virtual Double_t operator()(Double_t x, Double_t y=0, Double_t z=0, Double_t t=0) const
Bool_t fNormalized
Pointer to MethodCall in case of interpreted function.
TF1FunctorPointer * fFunctor
virtual void SetMinimum(Double_t minimum=-1111)
Set the minimum value along Y for this function In case the function is already drawn,...
virtual void AddParameter(const TString &name, Double_t value)
virtual void GetRange(Double_t *xmin, Double_t *xmax) const
Return range of a generic N-D function.
virtual void Print(Option_t *option="") const
Print TNamed name and title.
TFormula * fFormula
Functor object to wrap any C++ callable object.
virtual Double_t IntegralFast(Int_t num, Double_t *x, Double_t *w, Double_t a, Double_t b, Double_t *params=0, Double_t epsilon=1e-12)
Gauss-Legendre integral, see CalcGaussLegendreSamplingPoints.
virtual const char * GetParName(Int_t ipar) const
TF1(EFType functionType, const char *name, Double_t xmin, Double_t xmax, Int_t npar, Int_t ndim, EAddToList addToGlobList, TF1Parameters *params=nullptr, TF1FunctorPointer *functor=nullptr)
General constructor for TF1. Most of the other constructors delegate on it.
virtual void SetParLimits(Int_t ipar, Double_t parmin, Double_t parmax)
Set limits for parameter ipar.
void DoInitialize(EAddToList addToGlobList)
Common initialization of the TF1.
virtual Double_t GetX(Double_t y, Double_t xmin=0, Double_t xmax=0, Double_t epsilon=1.E-10, Int_t maxiter=100, Bool_t logx=false) const
Returns the X value corresponding to the function value fy for (xmin<x<xmax).
static TF1 * GetCurrent()
Static function returning the current function being processed.
virtual Int_t GetQuantiles(Int_t nprobSum, Double_t *q, const Double_t *probSum)
Compute Quantiles for density distribution of this function.
virtual void SetParName(Int_t ipar, const char *name)
Set name of parameter number ipar.
virtual Double_t GetSave(const Double_t *x)
Get value corresponding to X in array of fSave values.
static std::atomic< Bool_t > fgAbsValue
virtual void Draw(Option_t *option="")
Draw this function with its current attributes.
virtual Bool_t IsLinear() const
virtual Double_t GetRandom()
Return a random number following this function shape.
TF1()
TF1 default constructor.
virtual TF1 * DrawCopy(Option_t *option="") const
Draw a copy of this function with its current attributes.
std::vector< Double_t > fParMax
virtual Bool_t IsValid() const
Return kTRUE if the function is valid.
static Bool_t DefaultAddToGlobalList(Bool_t on=kTRUE)
Static method to add/avoid to add automatically functions to the global list (gROOT->GetListOfFunctio...
std::vector< Double_t > fSave
static Bool_t RejectedPoint()
See TF1::RejectPoint above.
void DefineNSUMTerm(TObjArray *newFuncs, TObjArray *coeffNames, TString &fullFormula, TString &formula, int termStart, int termEnd, Double_t xmin, Double_t xmax)
Helper functions for NSUM parsing.
std::vector< Double_t > fGamma
Array beta. is approximated by x = alpha +beta*r *gamma*r**2.
TObject * fParent
Array gamma.
virtual Double_t GetMinMaxNDim(Double_t *x, Bool_t findmax, Double_t epsilon=0, Int_t maxiter=0) const
Find the minimum of a function of whatever dimension.
virtual void DrawF1(Double_t xmin, Double_t xmax, Option_t *option="")
Draw function between xmin and xmax.
virtual void SetParameters(Double_t p0, Double_t p1, Double_t p2=0, Double_t p3=0, Double_t p4=0, Double_t p5=0, Double_t p6=0, Double_t p7=0, Double_t p8=0, Double_t p9=0, Double_t p10=0)
virtual void SetParameters(const Double_t *params)
virtual TObject * DrawIntegral(Option_t *option="al")
Draw integral of this function.
std::vector< Double_t > fIntegral
virtual void SetParNames(const char *name0="p0", const char *name1="p1", const char *name2="p2", const char *name3="p3", const char *name4="p4", const char *name5="p5", const char *name6="p6", const char *name7="p7", const char *name8="p8", const char *name9="p9", const char *name10="p10")
Set up to 10 parameter names.
T EvalParTempl(const T *data, const Double_t *params=0)
Eval for vectorized functions.
virtual TObject * DrawDerivative(Option_t *option="al")
Draw derivative of this function.
virtual Double_t Eval(Double_t x, Double_t y=0, Double_t z=0, Double_t t=0) const
Evaluate this function.
virtual Double_t GetMaximum(Double_t xmin=0, Double_t xmax=0, Double_t epsilon=1.E-10, Int_t maxiter=100, Bool_t logx=false) const
Returns the maximum value of the function.
virtual void SetParameter(const TString &name, Double_t value)
virtual void SetParameter(Int_t param, Double_t value)
virtual void Save(Double_t xmin, Double_t xmax, Double_t ymin, Double_t ymax, Double_t zmin, Double_t zmax)
Save values of function in array fSave.
virtual void SetSavedPoint(Int_t point, Double_t value)
Restore value of function saved at point.
virtual void FixParameter(Int_t ipar, Double_t value)
Fix the value of a parameter The specified value will be used in a fit operation.
virtual Bool_t IsInside(const Double_t *x) const
return kTRUE if the point is inside the function range
virtual Int_t GetNpx() const
virtual Double_t GetMaximumX(Double_t xmin=0, Double_t xmax=0, Double_t epsilon=1.E-10, Int_t maxiter=100, Bool_t logx=false) const
Returns the X value corresponding to the maximum value of the function.
virtual Int_t GetNdim() const
virtual Double_t GetXmin() const
virtual Double_t Derivative3(Double_t x, Double_t *params=0, Double_t epsilon=0.001) const
Returns the third derivative of the function at point x, computed by Richardson's extrapolation metho...
virtual Bool_t AddToGlobalList(Bool_t on=kTRUE)
Add to global list of functions (gROOT->GetListOfFunctions() ) return previous status (true if the fu...
virtual const TObject * GetLinearPart(Int_t i) const
virtual void SetVectorized(Bool_t vectorized)
virtual Double_t IntegralOneDim(Double_t a, Double_t b, Double_t epsrel, Double_t epsabs, Double_t &err)
Return Integral of function between a and b using the given parameter values and relative and absolut...
virtual void Browse(TBrowser *b)
Browse.
TF1(const char *name, Func f, Double_t xmin, Double_t xmax, Int_t npar, Int_t ndim=1, EAddToList addToGlobList=EAddToList::kDefault)
virtual Double_t GetParameter(Int_t ipar) const
virtual Double_t IntegralError(Double_t a, Double_t b, const Double_t *params=0, const Double_t *covmat=0, Double_t epsilon=1.E-2)
Return Error on Integral of a parametric function between a and b due to the parameter uncertainties.
virtual Int_t GetParNumber(const char *name) const
TF1(const char *name, T(*fcn)(const T *, const Double_t *), Double_t xmin=0, Double_t xmax=1, Int_t npar=0, Int_t ndim=1, EAddToList addToGlobList=EAddToList::kDefault)
Constructor using a pointer to function.
TAxis * GetXaxis() const
Get x axis of the function.
virtual void ExecuteEvent(Int_t event, Int_t px, Int_t py)
Execute action corresponding to one event.
Method or function calling interface.
The TNamed class is the base class for all named ROOT classes.
Mother of all ROOT objects.
virtual void Warning(const char *method, const char *msgfmt,...) const
Issue warning message.
Ssiz_t Last(char c) const
Find last occurrence of a character c.
static TString Format(const char *fmt,...)
Static method which formats a string using a printf style format descriptor and return a TString.
Ssiz_t Index(const char *pat, Ssiz_t i=0, ECaseCompare cmp=kExact) const
TFitResultPtr Fit(FitObject *h1, TF1 *f1, Foption_t &option, const ROOT::Math::MinimizerOptions &moption, const char *goption, ROOT::Fit::DataRange &range)
Namespace for new Math classes and functions.
auto GetTheRightOp(T(F::*opPtr)(const T *, const double *)) -> decltype(opPtr)
ParamFunctorTempl< double > ParamFunctor
void function(const Char_t *name_, T fun, const Char_t *docstring=0)
Namespace for new ROOT classes and functions.
Double_t SignalingNaN()
Returns a signaling NaN as defined by IEEE 754](http://en.wikipedia.org/wiki/NaN#Signaling_NaN)
static void Build(TF1 *f, const char *formula)
Internal class used by TF1 for defining template specialization for different TF1 constructors.
static void Build(TF1 *f, Func func)
virtual TF1FunctorPointer * Clone() const
ROOT::Math::ParamFunctorTempl< T > fImpl
TF1FunctorPointerImpl(const std::function< T(const T *f, const Double_t *param)> &func)
TF1FunctorPointerImpl(const ROOT::Math::ParamFunctorTempl< T > &func)
virtual ~TF1FunctorPointerImpl()
virtual ~TF1FunctorPointer()
virtual TF1FunctorPointer * Clone() const =0