libball1.4-dev 1.4.3~beta1-3 / usr / include / BALL / MATHS / numericalIntegrator.h

// -*- Mode: C++; tab-width: 2; -*-
// vi: set ts=2:
//
// $Id: numericalIntegrator.h,v 1.18 2004/05/27 19:49:42 oliver Exp $
//

#ifndef BALL_MATHS_NUMERICALINTEGRATOR_H
#define BALL_MATHS_NUMERICALINTEGRATOR_H

#ifndef BALL_MATHS_FUNCTION_H
# include <BALL/MATHS/function.h>
#endif

namespace BALL
{ 
	/** Numerical integrator class.
		\ingroup FunctionClasses
	*/
	template <typename Function, typename DataType = float>
	class NumericalIntegrator
	{

		public:

		BALL_CREATE(NumericalIntegrator)

		/// @name Constructors and destructor.
		//@{
		
		/// Default constructor
		NumericalIntegrator();
		
		/// Copy constructor 
		NumericalIntegrator(const NumericalIntegrator& nint);
		
		/// Destructor
		virtual ~NumericalIntegrator();

		//@}


		/// @name Assignment
		//@{

		/// Assignment operator
		NumericalIntegrator& operator = (const NumericalIntegrator& nint);

		//@}
		
		
		/// @name Predicates
		//@{

		/// Equality operator 
		bool operator == (const NumericalIntegrator& nint) const;

		//@}


		/// @name Accessors
		//@{

		/** set the function to be integrated
				@param the function to be assigned
		*/
		void setFunction(const Function& function);

		/** Get the function to be integrated (const version).
				@return a const reference to the actual function
		*/
		const Function& getFunction() const	 { return function_; }

		/** Get the function to be integrated (const version).
				@return a mutable reference to the actual function
		*/
		Function& getFunction()	 { return function_; }

		/** Get the value of the function at position <b>  x </b>
				@param x the position at which <tt>function\_</tt> is to be evaluated
				@return the value of <tt>function\_</tt> at <b>  x </b>
		*/
		DataType getValue(const DataType& x) const;

		/** Integrate the function numerically
				@param from lower limit of the integration
				@param to upper limit of the integration
				@return the value of the integral
		*/
		DataType integrate(const DataType& from, const DataType& to) const;

		//@}


		protected:

		//_ The function to be integrated
		Function function_;

	};


	template<typename Function, typename DataType>
	BALL_INLINE
	NumericalIntegrator<Function, DataType>::NumericalIntegrator()
		: function_()
	{
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	NumericalIntegrator<Function, DataType>::NumericalIntegrator(const NumericalIntegrator<Function, DataType>& nint)
		: function_(nint.function_)
	{
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	NumericalIntegrator<Function, DataType>::~NumericalIntegrator()
	{
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	NumericalIntegrator<Function, DataType>&
	NumericalIntegrator<Function, DataType>::operator =
	(const NumericalIntegrator<Function, DataType>& nint)
	{
		function_ = nint.function_;
		return *this;
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	void NumericalIntegrator<Function, DataType>::setFunction(const Function& function)
	{	
		function_ = function;
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	bool NumericalIntegrator<Function, DataType>::operator ==
	(const NumericalIntegrator<Function, DataType>& nint) const
	{
		return (function_ == nint.function_);
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	DataType NumericalIntegrator<Function, DataType>::getValue(const DataType& x) const
	{
		return function_(x);
	}


	template<typename Function, typename DataType>
	BALL_INLINE
	DataType NumericalIntegrator<Function, DataType>::integrate(
			const DataType& from, const DataType& to) const
	{
		// ?????
		// the number of samples has to be user configurable
		Size samples = 30;
		Size n = samples;

		DataType area = 0;
		DataType step = (to - from) / n;
		DataType x = from;

		while (n > 0)
		{
			area += (function_(x) + function_(x + step)) / 2.0 * step;
			x += step;
			--n;
		}

		return area;
	}
}

#endif // BALL_MATHS_NUMERICALINTEGRATOR_H