class ROOT::Math::RootFinder


         Class to find the Root of one dimensional functions.
         The class is templated on the type of Root solver algorithms.
         The possible types of Root-finding algorithms are:
         <ul>
         <li>Root Bracketing Algorithms which they do not require function derivatives
         <ol>
         <li>Roots::Bisection
         <li>Roots::FalsePos
         <li>Roots::Brent
         </ol>
         <li>Root Finding Algorithms using Derivatives
         <ol>
         <li>Roots::Newton
         <li>Roots::Secant
         <li>Roots::Steffenson
         </ol>
         </ul>

         This class does not cupport copying

         @ingroup RootFinders

Function Members (Methods)

public:

virtual	~RootFinder()
int	Iterate()
int	Iterations() const
const char*	Name() const
double	Root() const
ROOT::Math::RootFinder	RootFinder(ROOT::Math::RootFinder::EType type = RootFinder::kBRENT)
int	SetFunction(const ROOT::Math::IGradFunction& f, double xstart)
int	SetFunction(const ROOT::Math::IGenFunction& f, double xlow, double xup)
int	SetMethod(ROOT::Math::RootFinder::EType type = RootFinder::kBRENT)
int	Solve(int maxIter = 100, double absTol = 1E-3, double relTol = 1E-6)

private:

ROOT::Math::RootFinder&	operator=(const ROOT::Math::RootFinder& rhs)
ROOT::Math::RootFinder	RootFinder(const ROOT::Math::RootFinder&)

Data Members

public:

enum EType {	kBRENT
	kGSL_BISECTION
	kGSL_FALSE_POS
	kGSL_BRENT
	kGSL_NEWTON
	kGSL_SECANT
	kGSL_STEFFENSON
};

private:

ROOT::Math::IRootFinderMethod*	fSolver	type of algorithm to be used

Class Charts

Inheritance Inherited Members Includes Libraries

Function documentation

int Solve(Function f, Derivative d, double start, int maxIter, double absTol, double relTol)

RootFinder(RootFinder::EType type = RootFinder::kBRENT)

            Construct a Root-Finder algorithm

virtual ~RootFinder()

RootFinder(const RootFinder & )

 usually copying is non trivial, so we make this unaccessible

{}

int SetMethod(ROOT::Math::RootFinder::EType type = RootFinder::kBRENT)

int SetFunction(const ROOT::Math::IGenFunction& f, double xlow, double xup)

            Provide to the solver the function and the initial search interval [xlow, xup]
            for algorithms not using derivatives (bracketing algorithms)
            The templated function f must be of a type implementing the \a operator() method,
            <em>  double  operator() (  double  x ) </em>
            Returns non zero if interval is not valid (i.e. does not contains a root)

return fSolver-> SetFunction(const ROOT::Math::IGenFunction& f, double xlow, double xup)

int Iterations()

             Return the number of iteration performed to find the Root.

int Iterate()

            Perform a single iteration and return the Status

double Root()

            Return the current and latest estimate of the Root

const char * Name()

            Return the current and latest estimate of the lower value of the Root-finding interval (for bracketing algorithms)

double XLower() const {
return fSolver->XLower();
}

            Return the current and latest estimate of the upper value of the Root-finding interval (for bracketing algorithms)

double XUpper() const {
return  fSolver->XUpper();
}

            Get Name of the Root-finding solver algorithm

Last change: root/mathmore:$Id: RootFinder.h 25486 2008-09-22 12:43:03Z moneta $
Last generated: 2008-09-22 15:41
Copyright (c) 2004 ROOT Foundation, CERN/PH-SFT *

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