// @(#)root/mathcore:$Id$ // Author: L. Moneta Fri Aug 15 2008 /********************************************************************** * * * Copyright (c) 2008 LCG ROOT Math Team, CERN/PH-SFT * * * * * **********************************************************************/ #ifndef ROOT_Math_IntegratorOptions #define ROOT_Math_IntegratorOptions #include "Math/AllIntegrationTypes.h" #include #include namespace ROOT { namespace Math { class IOptions; //_______________________________________________________________________________ /** Base class for Numerical integration options common in 1D and multi-dimension This is an internal class and is not supposed to be instantiated by the user @ingroup Integration */ class BaseIntegratorOptions { protected: /// protected constructor to avoid user creating this class BaseIntegratorOptions(); public: // copy constructor BaseIntegratorOptions(const BaseIntegratorOptions & opt); /// assignment operators BaseIntegratorOptions & operator=(const BaseIntegratorOptions & opt); /// protected constructor to avoid user creating this class virtual ~BaseIntegratorOptions() { ClearExtra(); } /// name of 1D integrator virtual std::string Integrator() const = 0; /** non-static methods for retrivieng options */ /// absolute tolerance double AbsTolerance() const { return fAbsTolerance; } /// absolute tolerance double RelTolerance() const { return fRelTolerance; } /// size of the workspace unsigned int WKSize() const { return fWKSize; } /// return extra options IOptions * ExtraOptions() const { return fExtraOptions; } /** non-static methods for setting options */ /// set the abs tolerance void SetAbsTolerance(double tol) { fAbsTolerance = tol; } /// set the relative tolerance void SetRelTolerance(double tol) { fRelTolerance = tol; } /// set workspace size void SetWKSize(unsigned int size) { fWKSize = size; } /// set extra options (in this case pointer is cloned) void SetExtraOptions(const IOptions & opt); protected: void ClearExtra(); int fIntegType; // Integrator type (value converted from enum) unsigned int fWKSize; // workspace size unsigned int fNCalls; // (max) funxtion calls double fAbsTolerance; // absolute tolerance double fRelTolerance; // relative tolerance // extra options ROOT::Math::IOptions * fExtraOptions; // extra options }; //_______________________________________________________________________________ /** Numerical one dimensional integration options @ingroup Integration */ class IntegratorOneDimOptions : public BaseIntegratorOptions { public: // constructor using the default options // can pass a pointer to extra options (N.B. pointer will be managed by the class) IntegratorOneDimOptions(IOptions * extraOpts = 0); virtual ~IntegratorOneDimOptions() {} // copy constructor IntegratorOneDimOptions(const IntegratorOneDimOptions & rhs) : BaseIntegratorOptions(rhs) {} // assignment operator IntegratorOneDimOptions & operator=(const IntegratorOneDimOptions & rhs) { if (this == &rhs) return *this; static_cast(*this) = rhs; return *this; } // specific method for one-dim /// set number of points rule /// values of 1,2,3,4,5,6 corresponds to 15,21,31,41,51,61 and they are used in GSL adaptive /// values > 6 corresponds to the actual points and they are used by teh GaussLegendre integrator void SetNPoints(unsigned int n) { fNCalls = n; } /// maximum number of function calls unsigned int NPoints() const { return fNCalls; } /// name of 1D integrator std::string Integrator() const; /// type of the integrator (return the enumeration type) IntegrationOneDim::Type IntegratorType() const { return (IntegrationOneDim::Type) fIntegType; } /// set 1D integrator name void SetIntegrator(const char * name); /// print all the options void Print(std::ostream & os = std::cout) const; // static methods for setting and retrieving the default options static void SetDefaultIntegrator(const char * name); static void SetDefaultAbsTolerance(double tol); static void SetDefaultRelTolerance(double tol); static void SetDefaultWKSize(unsigned int size); static void SetDefaultNPoints(unsigned int n); static std::string DefaultIntegrator(); static IntegrationOneDim::Type DefaultIntegratorType(); static double DefaultAbsTolerance(); static double DefaultRelTolerance(); static unsigned int DefaultWKSize(); static unsigned int DefaultNPoints(); /// retrieve specific options - if not existing create a IOptions static ROOT::Math::IOptions & Default(const char * name); // find specific options - return 0 if not existing static ROOT::Math::IOptions * FindDefault(const char * name); /// print only the specified default options static void PrintDefault(const char * name = 0, std::ostream & os = std::cout); private: }; //_______________________________________________________________________________ /** Numerical multi dimensional integration options @ingroup Integration */ class IntegratorMultiDimOptions : public BaseIntegratorOptions { public: // constructor using the default options // can pass a pointer to extra options (N.B. pointer will be managed by the class) IntegratorMultiDimOptions(IOptions * extraOpts = 0); virtual ~IntegratorMultiDimOptions() {} // copy constructor IntegratorMultiDimOptions(const IntegratorMultiDimOptions & rhs) : BaseIntegratorOptions(rhs) {} // assignment operator IntegratorMultiDimOptions & operator=(const IntegratorMultiDimOptions & rhs) { if (this == &rhs) return *this; static_cast(*this) = rhs; return *this; } // specific method for multi-dim /// set maximum number of function calls void SetNCalls(unsigned int calls) { fNCalls = calls; } /// maximum number of function calls unsigned int NCalls() const { return fNCalls; } /// name of multi-dim integrator std::string Integrator() const; /// type of the integrator (return the enumeration type) IntegrationMultiDim::Type IntegratorType() const { return (IntegrationMultiDim::Type) fIntegType; } /// set multi-dim integrator name void SetIntegrator(const char * name); /// print all the options void Print(std::ostream & os = std::cout) const; // static methods for setting and retrieving the default options static void SetDefaultIntegrator(const char * name); static void SetDefaultAbsTolerance(double tol); static void SetDefaultRelTolerance(double tol); static void SetDefaultWKSize(unsigned int size); static void SetDefaultNCalls(unsigned int ncall); static std::string DefaultIntegrator(); static IntegrationMultiDim::Type DefaultIntegratorType(); static double DefaultAbsTolerance(); static double DefaultRelTolerance(); static unsigned int DefaultWKSize(); static unsigned int DefaultNCalls(); // retrieve specific options static ROOT::Math::IOptions & Default(const char * name); // find specific options - return 0 if not existing static ROOT::Math::IOptions * FindDefault(const char * name); /// print only the specified default options static void PrintDefault(const char * name = 0, std::ostream & os = std::cout); private: }; } // end namespace Math } // end namespace ROOT #endif