28#ifndef ROOT_Math_GSLMultiRootFinder
29#define ROOT_Math_GSLMultiRootFinder
45 class GSLMultiRootBaseSolver;
170 template<
class FuncIterator>
173 for (FuncIterator itr = begin; itr != end; ++itr) {
193 template <
class Function>
210 const double *
X()
const;
214 const double *
FVal()
const;
217 const double *
Dx()
const;
226 bool Solve(
const double *
x,
int maxIter = 0,
double absTol = 0,
double relTol = 0);
239 const char *
Name()
const;
264 void PrintState(std::ostream & os = std::cout);
Double_t(* Function)(Double_t)
GSLMultiRootBaseSolver, internal class for implementing GSL multi-root finders This is the base class...
Class for Multidimensional root finding algorithms bassed on GSL.
GSLMultiRootFinder & operator=(const GSLMultiRootFinder &)
unsigned int Dim() const
return the number of sunctions set in the class.
const double * Dx() const
return the last step size
virtual ~GSLMultiRootFinder()
destructor
const double * FVal() const
return the function values f(X) solving the system i.e.
void SetType(EDerivType type)
set the type of algorithm using derivatives
void SetType(EType type)
set the type for an algorithm without derivatives
std::vector< ROOT::Math::IMultiGenFunction * > fFunctions
bool Solve(const double *x, int maxIter=0, double absTol=0, double relTol=0)
Find the root starting from the point X; Use the number of iteration and tolerance if given otherwise...
EType
enumeration specifying the types of GSL multi root finders which do not require the derivatives
void SetPrintLevel(int level)
std::pair< bool, int > GetType(const char *name)
bool SetFunctionList(FuncIterator begin, FuncIterator end)
const char * Name() const
Return the algorithm name used for solving Note the name is available only after having called solved...
void PrintState(std::ostream &os=std::cout)
print iteration state
int PrintLevel() const
return the print level
GSLMultiRootBaseSolver * fSolver
int Status() const
Return the status of last root finding.
EDerivType
enumeration specifying the types of GSL multi root finders requiring the derivatives
int AddFunction(Function &f, int ndim)
same method as before but using any function implementing the operator(), so can be wrapped in a IMul...
void Clear()
clear list of functions
static void SetDefaultTolerance(double abstol, double reltol=0)
set tolerance (absolute and relative) relative tolerance is only use to verify the convergence do it ...
int AddFunction(const ROOT::Math::IMultiGenFunction &func)
const double * X() const
return the root X values solving the system
static void SetDefaultMaxIterations(int maxiter)
set maximum number of iterations
int Iterations() const
Return number of iterations.
Documentation for the abstract class IBaseFunctionMultiDim.
Template class to wrap any C++ callable object implementing operator() (const double * x) in a multi-...
Namespace for new Math classes and functions.
GSLMultiRootFinder MultiRootFinder
tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tb...